Case IH Magnum 235 — 340 Fault Codes DTC
Case IH Magnum 235 — 340 Fault Codes DTC
Case IH Magnum 235 — 340 Fult Codes DTC.
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Case IH Tractors, Farmall series Fault Codes DTC
TYPE CODE ERROR
ENG 111 Engine Controller Failure — Hardware Failure
ENG 115 Engine Speed Sensor (8.3, 9 Liter) or Cam Sensor (15 Liter) is failed
ENG 121 Engine Position Sensor (8.3, 9 Liter) or Crankshaft Sensor (15 Liter) is failed
ENG 122 Boost Pressure Sensor voltage is too high
ENG 123 Boost Pressure Sensor voltage is too low
ENG 124 Boost Pressure level has exceeded the warning limit.
ENG 131 Decelerator or Hand Throttle (STD cab) Position potentiometer voltage is too high
ENG 132 Decelerator or Hand Throttle (STD cab) Position potentiometer voltage is too low
ENG 133 Decelerator (STD cab) Position potentiometer voltage is too high
ENG 134 Decelerator (STD cab) Position potentiometer voltage is too low
ENG 135 Oil Pressure Sensor voltage is too high
ENG 141 Oil Pressure Sensor voltage is too low
ENG 143 Oil Pressure level has fallen below the warning limit.
ENG 144 Coolant Temperature Sensor voltage is too high
ENG 145 Coolant Temperature Sensor voltage is too low
ENG 146 Coolant Temperature level has exceeded the warning limit.
ENG 147 Frequency Throttle Signal shorted high
ENG 148 Frequency Throttle Signal shorted low
ENG 151 Coolant Temperature level has exceeded the warning limit.
ENG 153 Intake Manifold Temperature Sensor voltage is too high
ENG 154 Intake Manifold Temperature Sensor voltage is too low
ENG 155 Intake Manifold Temperature level has exceeded the warning limit.
ENG 187 Sensor Supply 2 Voltage is too low.
ENG 191 A/C clutch driver shorted to ground when ON.
ENG 211 Communications problem with Armrest, Instrumentation, or Transmission Controllers
ENG 212 Oil Temperature Sensor Voltage is too high
ENG 213 Oil Temperature Sensor Voltage is too low
ENG 214 Oil Temperature Sensor Voltage is above normal range
ENG 219 Oil Level — remote reservoir is too low. Add oil.
ENG 221 Ambient Air Pressure Sensor Voltage is too high
ENG 222 Ambient Air Pressure Sensor Voltage is too low
ENG 223 CORS — Burn Valve Solenoid is shorted either low or high
ENG 227 Sensor Supply 2 Voltage is too high.
ENG 234 Engine Speed has exceed the overspeed warning limit.
ENG 235 Engine Coolant Level is low. Add coolant fluid.
ENG 237 External Speed Multi Unit Sync Command Input Data Incorrect.
ENG 241 Vehicle Speed Signal lost
ENG 242 Vehicle Speed Signal intermittent / tampering
ENG 243 Error detected in exhaust brake relay
ENG 245 Fan Clutch Voltage too low
ENG 254 Fuel Shutoff Valve Voltage too low
ENG 255 Fuel Shutoff Valve Voltage too high
ENG 259 Fuel Shutoff Valve mechanically stuck open.
ENG 263 Fuel Temperature Sensor voltage is too high
ENG 265 Fuel Temperature Sensor voltage is too low
ENG 268 Fuel Pressure in pump is not changing with operating conditions.
ENG 271 Front Pumping Control Valve current is low during ñclick testî
ENG 272 Front Pumping Control Valve current is high
ENG 273 Rear Pumping Control Valve current is low during ñclick testî
ENG 274 Rear Pumping Control Valve current is high
ENG 275 Front Pumping element is failed
ENG 276 Injection Control Valve current is out of range
ENG 277 Injection Control Valve is failed
ENG 278 Fuel Lift Pump is failed
ENG 279 Injection Control Valve current is out of range
ENG 281 Front Pumping element is failed
ENG 282 Rear Pumping element is failed
ENG 283 Engine Speed/Position Sensor supply voltage is too high
ENG 284 Engine Speed/Position Sensor supply voltage is too low
ENG 285 J1939 Parameter was set to be multiplexed, but not received (timeout error)
ENG 286 J1939 Parameter was set to be multiplexed, but not available from all sources (config error)
ENG 287 Multiplexing throttle parameter and a data error was received — data invalid
ENG 288 Multiplexing remote throttle parameter and a data error was received — data invalid
ENG 293 Hydraulic Fan Hydraulic Oil Temperature Sensor Voltage is too high
ENG 294 Hydraulic Fan Hydraulic Oil Temperature Sensor Voltage is too low
ENG 295 Ambient Air Pressure data invalid
ENG 297 OEM Pressure Sensor Voltage is too high.
ENG 298 OEM Pressure Sensor Voltage is too low.
ENG 299 Engine Shutdown by other than keyswitch (i.e. via data bus command)
ENG 319 Real Time Clock in controller has lost power
ENG 328 Rear Pumping element is failed
ENG 329 CAPS Pump has an overpumping failure
ENG 338 Idle Shutdown Vehicle Accessory Relay Voltage is too high
ENG 339 Idle Shutdown Vehicle Accessory Relay Voltage is too low
ENG 341 All data written during powerdown cycle was lost (checksum error)
ENG 343 Engine Controller Failure — Hardware Failure
ENG 349 Measured Speed is too high.
ENG 352 5 Volt Sensor Supply voltage is too low
ENG 378 Front Fueling current is too low
ENG 379 Front fueling current is too high
ENG 381 Error detected in cold start relay 1
ENG 382 Error detected in cold start relay 2
ENG 385 5 Volt Sensor Supply voltage is too high
ENG 386 5 Volt Sensor Supply voltage is too high
ENG 387 Decelerator or Hand Throttle (STD cab) 5 Volt Supply voltage is too high
ENG 388 Engine Brake driver 1 circuit failure
ENG 392 Engine Brake driver 2 circuit failure
ENG 393 Engine Brake driver 3 circuit failure
ENG 394 Front Timing current is too low.
ENG 395 Front Timing current is too high.
ENG 396 Rear Fueling current is too low
ENG 397 Rear Fueling current is too high
ENG 398 Rear Timing current is too low
ENG 399 Rear Timing current is too high
ENG 412 J1708 data link cannot transmit
ENG 414 J1708 data link not fast enough
ENG 415 Oil Pressure level has fallen below the very low warning limit.
ENG 418 Water in Fuel sensor indicates the water in the fuel filter needs to be drained.
ENG 419 Boost Pressure data invalid
ENG 422 Engine Coolant Level Sensor (optional) is failed or the jumper plug is missing
ENG 426 J1939 data link cannot transmit
ENG 427 J1939 data link not fast enough
ENG 428 Water in Fuel Sensor voltage is too high.
ENG 429 Water in Fuel Sensor voltage is too low.
ENG 431 Hand Throttle (STD cab) Idle Validation Switches are both closed
ENG 432 Hand Throttle (STD cab) position potentiometer and switches disagree.
ENG 433 Boost Pressure level disagrees with engine operation conditions (speed & power)
ENG 434 Unswitched 12 volt supply voltage disconnected without normal key off sequence.
ENG 435 Oil Pressure data invalid
ENG 441 Battery Voltage is too Low (less than 6 volts)
ENG 442 Battery Voltage is too High
ENG 443 Decelerator or Hand Throttle (STD cab) 5 Volt Supply voltage is too low
ENG 444 Low voltage detected at OEM 5 volt supply
ENG 449 Fuel Pressure level has exceeded the warning limit.
ENG 451 Fuel Pressure Sensor voltage is too high
ENG 452 Fuel Pressure Sensor voltage is too low
ENG 456 Fuel Pressure in pump is not changing with operating conditions.
ENG 465 Wastegate 1 voltage is too high
ENG 466 Wastegate 1 voltage is too low
ENG 482 Fuel Pressure Sensor voltage low
ENG 483 Rear Bank Post Actuactor Pressure voltage high
ENG 484 Rear Bank Post Actuactor Pressure voltage low
ENG 485 Rear Fueling actuator overfueling
ENG 486 Rear Fueling actuator underfueling
ENG 488 Intake Manifold Temperature level has exceeded the warning limit.
ENG 489 Measured Speed Sensor data low
ENG 491 Wastegate 2 voltage is too high
ENG 492 Wastegate 2 voltage is too low
ENG 493 The Injection Control Identifier Circuit in the harness has failed.
ENG 496 Engine Speed / Position Sensor #2 supply is too low
ENG 524 Error detected on high speed governor droop selection switch
ENG 527 Cab pressurization/Ether relay coil circuit shorted high or open
ENG 529 Output B driver shorted high or open
ENG 539 The Injection Control Valve Transorb in the harness has failed. (open circuit)
ENG 546 Fuel Pressure sensor voltage is too high.
ENG 547 Fuel Pressure sensor voltage is too low.
ENG 551 Hand Throttle (STD cab) Idle Validation Switches are both open
ENG 553 Front fueling actuator overfueling
ENG 559 Front fueling actuator underfueling
ENG 581 Fuel inlet Pressure Sensor voltage is too high.
ENG 582 Fuel inlet Pressure Sensor voltage is too low.
ENG 583 Fuel Inlet Pressure Sensor voltageout of range high or low.
ENG 595 Turbo overspeed protection fault
ENG 596 Battery voltage is too high
ENG 597 Battery voltage is too low
ENG 598 Battery voltage is very low
ENG 599 Engine is being shutdown based on OEM input
ENG 611 ECM detected engine initiated protection shutdown or keyed-off while above specific load limit
ENG 697 Engine Controller internal temperature too high
ENG 698 Engine Controller internal temperature too low
ENG 731 Engine Speed / Position #2 — Mechanical misalignment.
ENG 753 Synchronization has been lost.
ENG 755 Front Bank injector is bad.
ENG 758 Rear Bank injector is bad
ENG 951 A power imbalance between the cylinders was detected by the controller hardware
ENG 983 Unused A/D input channel out of range.
ENG 1117 Battery voltage too low, or the controller was not allowed to power down correctly
ENG 1256 Control Module Identification Input State Error.
ENG 1257 Control Module Identification Input State Error.
ENG 2117 Engine Coolant Level is low. Add coolant fluid.
ENG 2186 Supply Voltage to the accelerator pedal position sensor too low.
ENG 2195 Auxiliary Equipment Sensor Input # 3 — Engine Protection Critical — Special Instructions.
ENG 2249 Injector Metering Rail 1 Fuel Pressure lower than commanded pressure.
ENG 2265 Electric Lift Pump for Engine Fuel Supply Voltage too high.
ENG 2266 Electric Lift Pump for Engine Fuel Supply Voltage too low.
ENG 2292 Fuel Inlet Meter Device higher than expected.
ENG 2293 Fuel Inlet Meter Device flow demand lower than expected.
ENG 2311 Electronic Fuel Injection Control Valve open or closed Circuit.
ENG 2321 Engine Crankshaft Speed / Position data invalid.
ENG 2322 Engine Camshaft Speed / Position Sensor data invalid.
ENG 2372 Engine Fuel Filter clogged error
ENG 2555 Intake Air Heater 1 Circuit Voltage too high.
ENG 2558 Auxiliary PWM Driver 1 Circuit Voltage too low.
ENG 2973 Intake Manifold 1 Pressure data invalid.
TRANS 11 Master Clutch Potentiometer Open Circuit or short to ground
TRANS 12 Master Clutch Potentiometer Short to +12 Volts or short to 5 Vreff
TRANS 24 None of the transmission clutches are calibrated
TRANS 37 BOC switch open circuit or Neutral relay stuck open
TRANS 38 Shuttled to reverse when no wheel speed signal was available
TRANS 47 Clutch pedal bottom of clutch switch misadjusted
TRANS 48 BOC switch or Neutral relay short circuit
TRANS 49 Auto Guidance Isolation valve driver Fault
TRANS 50 Park Brake is powered off when in park
TRANS 51 FNRP pod indicates Forward or Reverse is on, when Park is on
TRANS 52 Park Brake is stuck on when commanded off
TRANS 53 5 volt reference voltage too high
TRANS 54 5 volt reference voltage too low
TRANS 59 FNRP pod in illogical state (two positions on at same time)
TRANS 60 FNRP pod in illogical state (in no position)
TRANS 61 System pressure valve solenoid circuit is open circuit or shorted to ground
TRANS 62 System pressure solenoid is shorted to B+
TRANS 64 Transmission output Sped is too high (above 8200 RPM)
TRANS 65 Operator attempted a shuttle operation while out of the seat
TRANS 66 FNRP Pod Forward switch is shorted to ground or open circuit
TRANS 67 FNRP Pod Forward switch is shorted to power
TRANS 68 FNRP Pod Reverse switch is shorted to ground or open circuit
TRANS 69 FNRP Pod Reverse switch is shorted to power
TRANS 70 Battery voltage is too low for clutch solenoid operation
TRANS 72 Transmission Oil Temperature is above 122 deg. C
TRANS 73 Software is out of the calibration mode and the park brake request is still active.
TRANS 74 The park brake ON with gear is engaged — no park brake request from calibration.
TRANS 75 Engine speed from Inst Controller does not match the speed signal from the alternator.
TRANS 76 Engine speed from Eninge Controller does not match the speed signal from the alternator.
TRANS 77 No signal from wheel speed sensor
TRANS 78 Transmission regulated pressure accumulator is discharged
TRANS 79 Engine RPM from the alternator is measured too high
TRANS 80 Wheel speed sensor is measured too high
TRANS 81 Transmission clutches are slipping
TRANS 82 Creep Clutch is not calibrated
TRANS 83 Communications Lost with Engine Controller
TRANS 103 Odd clutch solenoid or its wiring failed open or shorted to ground
TRANS 104 Even clutch solenoid or its wiring failed open or shorted to ground
TRANS 105 C1-2 clutch solenoid or its wiring failed open or shorted to ground
TRANS 106 C3-4 clutch solenoid or its wiring failed open or shorted to ground
TRANS 107 C5-6 clutch solenoid or its wiring failed open or shorted to ground
TRANS 108 Master clutch solenoid or its wiring failed open or shorted to ground
TRANS 109 Low range clutch solenoid or its wiring failed open or shorted to ground
TRANS 110 Mid range clutch solenoid or its wiring failed open or shorted to ground
TRANS 111 High range clutch solenoid or its wiring failed open or shorted to ground
TRANS 112 Reverse clutch solenoid or its wiring failed open or shorted to ground
TRANS 113 Creeper clutch solenoid or its wiring failed open or shorted to ground
TRANS 114 Even clutch solenoid coil or its wiring shorted to power
TRANS 115 Odd clutch solenoid coil or its wiring shorted to power
TRANS 116 C1-2 clutch solenoid coil or its wiring shorted to power
TRANS 117 C3-4 clutch solenoid coil or its wiring shorted to power
TRANS 118 C5-6 clutch solenoid coil or its wiring shorted to power
TRANS 119 Master clutch solenoid coil or its wiring shorted to power
TRANS 120 Low range clutch solenoid coil or its wiring shorted to power
TRANS 121 Mid range clutch solenoid coil or its wiring shorted to power
TRANS 122 High range clutch solenoid coil or its wiring shorted to power
TRANS 123 Reverse clutch solenoid coil or its wiring shorted to power
TRANS 124 Creeper clutch solenoid coil or its wiring shorted to power
TRANS 125 Odd clutch is not calibrated
TRANS 126 Even clutch is not calibrated
TRANS 127 C1-2 clutch is not calibrated
TRANS 128 C3-4 clutch is not calibrated
TRANS 129 C5-6 clutch is not calibrated
TRANS 130 Low range clutch is not calibrated
TRANS 131 Mid range clutch is not calibrated
TRANS 132 High range clutch is not calibrated
TRANS 133 Reverse clutch is not calibrated
TRANS 134 Master clutch is not calibrated
TRANS 135 Communication lost with the armrest controller
TRANS 136 Communication lost with the instrumentation controller
TRANS 137 Front Suspension raise lock solenoid circuit shorted or open circuit
TRANS 138 Front Suspension raise solenoid circuit shorted or open circuit
TRANS 139 Front Suspension lower lock solenoid circuit shorted or open circuit
TRANS 140 Front suspension position is above the expected absolute limit
TRANS 141 Front suspension position is below the expected absolute limit
TRANS 142 Front suspension travel range has not been calibrated
TRANS 143 Front suspension position is above the upper suspension range
TRANS 144 Front suspension position is below the lower suspension range
TRANS 145 Front Suspension lower lock solenoid circuit shorted or open circuit
TRANS 146 Regulated system pressure low (below 100PSI / 689 KPA)
TRANS 147 Regulated system pressure below 290 PSI
TRANS 148 Backup alarm circuit shorted or open
TRANS 150 Front suspension pressure sensor rod side (DA-R) out of range high
TRANS 151 Front suspension pressure sensor rod side open circuit
TRANS 152 Front Suspension pressure control not able to increase pressure on the rod side
TRANS 153 Front Suspension pressure control not able to decrease pressure on the rod side
TRANS 154 Front Suspension Lock Valve Stuck on fault (suspension will not lock)
TRANS 155 Front Suspension Lock Valve is stuck of (suspension will not unlock)
TRANS 156 Lock valve was installed but removed
ARM 19 Hand THROTTLE potentiometer is failed
ARM 29 Aux 1st remote valve LEVER potentiometer is failed
ARM 39 Aux 2nd remote valve LEVER potentiometer is failed
ARM 49 Aux 3rd remote valve LEVER potentiometer is failed
ARM 59 Aux 4th remote valve LEVER potentiometer is failed
ARM 69 HITCH POSITION command potentiometer is failed
ARM 79 HITCH LOAD command potentiometer is failed
ARM 89 Aux 1st remote valve FLOW potentiometer is failed
ARM 99 Aux 2nd remote valve FLOW potentiometer is failed
ARM 109 Aux 3rd remote valve FLOW potentiometer is failed
ARM 119 Aux 4th remote valve FLOW potentiometer is failed
ARM 129 Aux 5th remote valve FLOW potentiometer is failed
ARM 139 Aux remote valve TIMER potentiometer is failed
ARM 149 Hitch UPPER LIMIT potentiometer is failed
ARM 159 Hitch DROP RATE potentiometer is failed
ARM 169 Hitch TRAVEL potentiometer is failed
ARM 1029 Aux 5th remote valve control switch is failed
ARM 1039 PTO switch is failed
ARM 1049 Hitch UP/DOWN switch is failed
ARM 1059 Hitch SLIP switch is failed
ARM 1069 MFD switch is failed
ARM 1079 DIFF LOCK switch is failed
ARM 1089 Programmable UP/DOWN switch is failed.
ARM 1099 Aux remote valve LIMIT SET switch is failed
ARM 1109 Hand Throttle IDLE VALIDATION switch is failed
ARM 1119 RECORD/PLAY switch is failed
ARM 1129 Invalid Configuration — Implement Depth Control switch is failed
ARM 1139 Engine Brake switch is failed
ARM 1149 Auto Field / Transport Switch is in an illogical state
ARM 8011 Battery Voltage is too Low
ARM 9011 Controller Memory Error — Loss of Hitch Position Command Calibration
ARM 9012 Controller Memory Error — Loss of Aux Remote Lever Calibrations
ARM 9013 Controller Memory Error — Loss of Throttle Calibrations
ARM 9014 Controller Memory Error — Loss of MFD switch Configuration
ARM 9015 Controller Memory Error — Loss of Trans switches Configuration
ARM 9021 Hitch position command potentiometer calibration results not acceptable
ARM 9031 Hand throttle potentiometer calibration results not acceptable
ARM 9041 Hitch DROP RATE potentiometer calibration value(s) are out of range
ARM 10091 Armrest Controller failure — 5 V regulator failure
ARM 12013 Communications Lost with Data Bus and ALL other controllers
ARM 12081 Loss of/unavailable Performance Monitor Display — RECORD/PLAY functionality disabled
CASE IH & NEW HOLLAND Tractor Fault Codes DTC
TMF 3 Hitch Raise Solenoid High Side Driver shorted to 12 volts.
TMF 4 Hitch Raise Solenoid Failed Open or Shorted to Ground.
TMF 5 Hitch Lower Solenoid Shorted to 12 volts.
TMF 6 Hitch Lower Solenoid High Side Driver circuit short to 12 volts.
TMF 7 Hitch Raise/Lower Solenoids Open or short to ground.
TMF 11 Communications Lost with Data Bus and ALL other controllers
TMF 12 Communication lost with the armrest controller
TMF 14 5 Volt Sensor Supply voltage is too high
TMF 15 5 Volt Sensor Supply voltage is too low
TMF 17 Hitch Position Command potentiometer failed in the Armrest controller
TMF 18 Hitch Rockshaft Position potentiometer is outside normal operating range.
TMF 19 Hitch Upper Limit potentiometer is failed in the Armrest Controller
TMF 21 Hitch Load Command potentiometer is failed in the Armrest Controller
TMF 22 Single draft pin sensor failed when configured for one draft pin sensor.
TMF 23 Two draft pin sensors failed when configured for two draft pins.
TMF 24 Communications Lost with Instrumentation Controller
TMF 25 Hitch Up/Down Switch failed in the Armrest controller
TMF 26 Fender UP and DOWN switch failure or both switches simultaneously pressed
TMF 28 Hitch Travel potentiometer is failed in the Armrest Controller
TMF 29 Hitch Drop Rate potentiometer is failed in the Armrest Controller
TMF 30 Right Draft Pin voltage is outside the normal operating range.
TMF 31 Left Draft Pin voltage is outside the normal operating range.
TMF 32 Ground Speed Signal is failed in the Instrumentation Controller
TMF 33 Hitch Slip Set Switch failed in the Armrest controller
TMF 34 Hitch Slip Select Switch failed in the Armrest controller
TMF 35 Slip Sensor (radar or wheel speed) is failed in the Instrumentation Controller
TMF 37 The ARU reports EDC Transport Lock is faulty or not available.
TMF 41 Draft pin(s) detected but the Armrest controller specified tractor without draft control.
TMF 42 Engine speed must be set above 1600 rpm during calibration of lower valve.
TMF 43 No Draft pin(s) detected but the Armrest controller specified tractor with draft control.
TMF 44 Hitch calibration aborted due to tractor movement.
TMF 45 Hitch calibration attempted when the engine is not running or engine speed signal is failed.
TMF 47 Raise Valve calibration value is too high. (valve problem)
TMF 48 Raise Valve calibration value is too low. (valve problem)
TMF 50 Hitch position at top of travel is not within specification during calibration
TMF 51 Lower Valve calibration value is too high. (valve problem)
TMF 52 Lower Valve calibration value is too low. (valve problem)
TMF 53 The time allowed for hitch calibration has expired
TMF 54 Hitch position at bottom of travel is not within specification during calibration
TMF 55 Hitch position range from top to bottom is not within spec during calibration
TMF 56 Hitch position range to position command range ratio is not within spec during calibration.
TMF 57 Right Draft Pin voltage is not within spec for ïno loadà condition during calibration
TMF 58 Left Draft Pin voltage is not within spec for ïno loadà condition during calibration
TMF 59 Both Draft Pin voltages are not within spec for ïno loadà condition during calibration
TMF 60 Draft pin connected to left vs right for single pin setup during calibration
TMF 61 The Hitch Calibration procedure must be performed.
TMF 62 Communications Lost with Performance Monitor Function
TMF 63 Controller 8 volt reference is too high (above 8.8 volts).
TMF 64 Controller 8 volt reference is too low (below 7.2 volts).
TMF 65 Battery Voltage is too Low
TMF 66 Battery Voltage is too Low
TMF 80 MFD fault condition in software.
TMF 81 MFD Solenoid is failed Open or Short Circuit
TMF 82 Differential Lock Solenoid is failed Open or Short Circuit
TMF 83 Brake Lamp Relay Solenoid is failed Open or Short Circuit
TMF 86 Wheel Slip Signal is failed in the Instrumentation Controller
TMF 87 Ground Speed Signal is failed in the Instrumentation Controller
TMF 88 Differential Lock Switch is failed in the Armrest Controller
TMF 89 Differential Lock Switch is failed in the Armrest Controller
TMF 90 Differential Lock Switch is failed in the Armrest Controller
TMF 92 MFD Switch is failed in the Armrest Controller
TMF 93 MFD Switch is failed in the Armrest Controller
TMF 94 Differential Lockout fault condition in software.
TMF 95 The steering angle sensor is above the expected operating range
TMF 96 The steering angle sensor is below the expected operating range
TMF 98 Battery Voltage is too Low
TMF 99 Battery Voltage is too Low
TMF 106 Aux 5th remote valve control switch (Extend) is failed in the Armrest Controller
TMF 107 Aux 5th remote valve control switch (Retract) is failed in the Armrest Controller
TMF 108 Aux 1st remote valve LEVER potentiometer is failed in the Armrest Controller
TMF 109 Aux 2nd remote valve LEVER potentiometer is failed in the Armrest Controller
TMF 110 Aux 3rd remote valve LEVER potentiometer is failed in the Armrest Controller
TMF 111 Aux 4th remote valve LEVER potentiometer is failed in the Armrest Controller
TMF 112 Aux 1st remote valve FLOW potentiometer is failed in the Armrest Controller
TMF 113 Aux 2nd remote valve FLOW potentiometer is failed in the Armrest Controller
TMF 114 Aux 3rd remote valve FLOW potentiometer is failed in the Armrest Controller
TMF 115 Aux 4th remote valve FLOW potentiometer is failed in the Armrest Controller
TMF 116 Aux 5th remote valve FLOW potentiometer is failed in the Armrest Controller
TMF 120 Electro Hydraulic Remote top link switch is stuck on.
TMF 123 Aux 1st Lower Coil solenoid shorted to 12 volts.
TMF 124 Aux 1st Lower solenoid failed open or short circuit.
TMF 125 Aux 1st Raise Coil solenoid shorted to 12 volts.
TMF 126 Aux 1st Raise solenoid failed open or short circuit.
TMF 127 Aux 2nd Lower Coil solenoid shorted to 12 volts.
TMF 128 Aux 2nd Lower solenoid failed open or short circuit.
TMF 129 Aux 2nd Raise Coil solenoid shorted to 12 volts.
TMF 130 Aux 2nd Raise solenoid failed open or short circuit.
TMF 131 Aux 3rd Lower Coil solenoid shorted to 12 volts.
TMF 132 Aux 3rd Lower solenoid failed open or short circuit.
TMF 133 Aux 3rd Raise Coil solenoid shorted to 12 volts.
TMF 134 Aux 3rd Raise solenoid failed open or short circuit.
TMF 135 Aux 4th Lower Coil solenoid shorted to 12 volts.
TMF 136 Aux 4th Lower solenoid failed open or short circuit.
TMF 137 Aux 4th Raise Coil solenoid shorted to 12 volts.
TMF 138 Aux 4th Raise solenoid failed open or short circuit.
TMF 139 Aux 5th Lower Coil solenoid shorted to 12 volts.
TMF 141 Aux 5th Raise Coil solenoid shorted to 12 volts.
TMF 142 Aux 5th Raise solenoid failed open or short circuit.
TMF 147 Implement feedback #1 out of range High
TMF 148 Implement feedback #1 out of range Low
TMF 149 Implement feedback #2 out of range High
TMF 150 Implement feedback #2 out of range Low
TMF 151 Communications Lost with Transmission Controller
TMF 152 Electro Hydraulic Remote top link switch voltage is short circuit.
TMF 153 Electro Hydraulic Remote top link switch data invalid
TMF 154 PTO switch interlock — Cab Switch and Fender switch on at the same time.
TMF 155 Auto PTO switch data failed in the Armrest controller.
TMF 156 Auto PTO switch stuck ON in Armrest Controller.
TMF 157 PTO remote fender switch short circuit.
TMF 158 PTO remote fender switch open circuit
TMF 159 PTO remote fender switch stuck ON.
TMF 160 PTO Clutch is Slipping Too Much
TMF 162 Engine Stalled when the PTO was running.
TMF 163 PTO Shaft rotation is detected when the PTO clutch is OFF.
TMF 164 PTO shaft speed has not been detected within 3.6 seconds of being turned ON.
TMF 165 PTO Shaft rotation is detected when the Engine is OFF.
TMF 166 PTO Driver is on and no current is sensed.
TMF 167 Current sensed when the PTO driver is off.
TMF 168 PTO ON/OFF switch is failed in the Armrest Controller
TMF 169 PTO ON/OFF switch is failed in the Armrest Controller
TMF 170 PTO ON/OFF switch is failed in the Armrest Controller
TMF 171 PTO software fault condition detected.
TMF 172 PTO Solenoid Circuit is failed shorted to 12 Volts when PTO is in the off state.
TMF 173 PTO Solenoid Circuit is failed shorted to ground when PTO is in the off state.
TMF 174 Current flowing in the PTO sense resistor when the high side is off.
TMF 175 PTO Clutch has not reached lock up speed within 6 seconds of being turned ON
TMF 178 PTO speed sensor has been changed.
TMF 179 The PTO is receiving no frequency from the Shaft Size Sensor on a two speed PTO
TMF 180 The PTO is receiving signals from the Shaft Size Sensor on a single speed PTO configuration.
INST 1015 Seat Switch may be stuck closed.
INST 1024 Trans oil filter switch shorted to ground on power up.
INST 1034 Hydraulic oil filter switch shorted to ground on power up.
INST 3010 PTO Shaft Speed sensor is failed in PTO Controller
INST 3020 Engine Speed sensor is failed in the Engine Controller
INST 3022 Engine Overspeed Error
INST 5010 Engine Oil Pressure sensor is failed in the Engine Controller
INST 5011 Engine Oil Pressure sensor voltage is too low (open circuit, short to ground)
INST 7024 Reversible Fan Control open circuit or shorted to ground.
INST 10031 Controller Memory Error — Loss of Engine Hours information
INST 10032 Controller Memory Error — Loss of Vehicle Configuration information
INST 10033 Controller Memory Error — Loss of Customer Configuration information
INST 10034 Controller Memory Error: Loss of valid fuel table information.
INST 10035 Controller Memory Error — Loss of Valid Radar Configuration information.
INST 10036 Controller Memory Error — Loss of Displayed Performance information
INST 10037 Controller Memory Error — Loss of Implement Width information
INST 10038 Controller Memory Error — Loss of Valid Remote Timer information.
INST 11011 Fuel Level Sensor voltage is too low (open circuit, short to ground)
INST 12011 Communications Lost with Armrest Controller
INST 12021 Communications Lost with Auxiliary Controller
INST 12031 Communications Lost with Hitch Controller
INST 12043 Communications Lost with Data Bus 1 and ALL other controllers
INST 12051 Communications Lost with PTO Controller
INST 12053 Communications Lost with Vehicle Data Bus 2.
INST 12071 Communications Lost with Transmission Controller
INST 12091 Communications Lost with Engine Controller
INST 12101 Communications Lost with Tractor ECU (Gateway) Controller
INST 12111 Communications Lost with Automatic Temperature Controller
INST 12121 Communications Lost with Color Perfomance Monitor
INST 13010 Engine Coolant Temperature sensor is failed in the Engine Controller
INST 13011 Engine Coolant Temperature sensor voltage is too low (short to ground)
INST 13012 Engine Coolant Temperature sensor voltage is too high (open circuit, short to +V)
INST 13021 Transmission Oil Temperature sensor voltage is too low (short to ground)
INST 13022 Transmission Oil Temperature sensor voltage is too high (open circuit, short to +V)
INST 13031 Hydraulic Oil Temperature sensor voltage is too low (short to ground)
INST 13032 Hydraulic Oil Temperature sensor voltage is too high (open circuit, short to +V)
INST 13040 Air to Air Intake Temperature sensor is failed in the Engine Controller
INST 13044 When fuel shut off relay is latched, short is detected (mechanical engine tractors only)
INST 13051 Air to Air Intake Temperature sensor voltage is too low (short to ground)
INST 13052 Air to Air Intake Temperature sensor voltage is too high (open circuit, short to +V)
INST 53001 Instrumentation Controller Configuration is Incorrect
INST 53002 Air to Air Intake sensor does not match Tractor Model Configuration
INST 53005 Engine Shutdown activated by Instrument Controller
INST 65535 NO ERROR. Errors have not been cleared from factory.
ATC 111 Cab sensor open or shorted to power
ATC 112 Cab sensor shorted to ground
ATC 115 Evaporator sensor open or shorted to power
ATC 116 Evaporator sensor shorted to ground
ATC 120 Blower speed select pot open/shorted to power
ATC 121 Temperature select pot open/shorted to power
ATC 122 Mode Select Pot Open Or Shorted To Power
ATC 125 High pressure switch (+) input shorted to power
ATC 126 High pressure switch (+) input shorted to ground
ATC 127 High pressure switch (-) input shorted to power
ATC 128 High pressure switch (-) input shorted to ground
ATC 129 High pressure cycling error (2 in 1 minute)
ATC 130 Low pressure switch (+) input shorted to power
ATC 131 Low pressure switch (+) input shorted to ground
ATC 132 Low pressure switch (-) input shorted to power
ATC 133 Low pressure switch (-) input shorted to ground
ATC 134 Low pressure switch open for > 1 minute
ATC 113 Outlet sensor open or shorted to power
ATC 114 Outlet sensor shorted to ground
ATC 117 Outside air sensor open or shorted to power
ATC 118 Outside air sensor shorted to ground
Hitch 1002 Raise hitch valve coil short to 12 volts or raise hitch valve coil circuit failure.
Hitch 1003 Open or Short to Ground raise hitch valve coil circuit failure.
Hitch 1004 Lower hitch valve coil short to 12 volts or lower hitch valve coil circuit failure.
Hitch 1005 Open or short to ground lower hitch valve coils.
Hitch 1006 EDC Low Side Driver stuck on failure.
Hitch 1007 Low side driver watchdog test failed.
Hitch 1008 Low side of raise solenoid connected permanently to GND
Hitch 1009 Low side of lower solenoid connected permanently to GND
Hitch 1011 TCU (Tractor Controller Unit) is disconnected from the CAN bus.
Hitch 1012 No communication with the ACM (Armrest Controller Module).
Hitch 1013 No communication with the ICP (Instrument Cluster Panel).
Hitch 1014 Five-volt reference is above the upper voltage limit.
Hitch 1015 Five-volt reference is below the lower voltage limit.
Hitch 1016 Not implemented
Hitch 1017 Position Command value received over the CAN data bus from the Armrest indicates Position Command potentiometer failed.
Hitch 1018 Hitch rockshaft position potentiometer open/short/misadjust or circuit failure.
Hitch 1019 Upper Limit value received from CAN data bus indicates failure condition.
Hitch 1021 Load Command value received from CAN data bus indicates failure condition.
Hitch 1022 Single draft pin sensor failed when configured for one draft pin sensor.(CCH Only)
Hitch 1023 Two draft pin sensors failed when configured for two draft pins.(CCH Only)
Hitch 1024 ICU CAN data bus signal lost.
Hitch 1025 Up/Down/Down Momentary switch value received from CAN data bus indicates switch failure.
Hitch 1026 Up/Down remote fender switch failure.
Hitch 1027 Not implemented
Hitch 1028 Travel Range potentiometer value received from CAN data bus indicates failure condition.
Hitch 1029 Drop Rate value received from CAN data bus indicates potentiometer failure condition.
Hitch 1030 Right draft pin voltage is outside the normal operating range.(CCH Only)
Hitch 1031 Left draft pin voltage is outside the normal operating range.(CCH Only)
Hitch 1032 Ground speed failure-value received from CAN data bus indicates failure condition.
Hitch 1033 Slip Limit Set Point received from CAN data bus indicates failure condition.
Hitch 1034 Slip Enable switch received from CAN data bus indicates failure condition.
Hitch 1035 The Percent slip received from ETC indicates failure condition.
Hitch 1036 The ARU reports EDC Inching Up switch faulty or not available.
Hitch 1037 The ARU reports EDC Inching Down switch faulty or not available.
Hitch 1065 The ARU specified tractor without draft control (position only hitch) but detected presence of draft pin(s).
Trans 2009 Seat switch open circuit
Trans 2010 Seat switch is shorted to the supply voltage B+ or 5 volt reference
Trans 2011 Clutch Pot Open Circuit or short to ground
Trans 2012 Clutch Potentiometer Short to +12 Volts or short to 5 Volt reference.
Trans 2024 none of the Transmission clutches are calibrated. This will be the condition when a new controller is installed on the tractor.
Trans 2037 Bottom of Clutch pedal switch open circuit or bottom of clutch relay is stuck open
Trans 2047 Clutch pedal bottom of clutch switch misadjusted.
Trans 2048 Bottom of Clutch pedal switch or the bottom of clutch relay are short circuit
Trans 2049 Trans
Trans 2054 5 volt reference voltage too low.
Trans 2055 No signal from wheel speed sensor.
Trans 2056 5 volt internal reference voltage too high.
Trans 2057 5 volt internal reference voltage too low.
Trans 2059 1) Switch inputs indicate shuttle lever is in both forward and neutral 2) Switch inputs indicate shuttle lever is in both reverse and neutral3) Switch inputs indicate shuttle lever is
in both forward and reverse. Cycle the shuttle lever which may free up stuck switches, or try driving the opposite direction.
Trans 2071 Forward switch input from the FNRP Pod is shorted to ground or is open circuit.
Trans 2072 Reverse switch input from the FNRP Pod is shorted to +12 Volts or the FNRP pod 5 Volt Reference.
Trans 2073 Reverse switch input from the FNRP Pod is shorted to ground or open circuit.
Trans 2074 FNR Not Park Switch low voltage fault
Trans 2075 FNR Not Park Switch high Voltage fault
Trans 2110 FNR Neutral Switch Low Voltage fault
Trans 2111 FNR Neutral Switch high Voltage fault
Trans 2326 The Engine RPM sourced from the alternator measured by the controller is excessively high.
Trans 2327 No engine RPM
Trans 2330 The Transmission output RPM speed, sourced from the sensor, measured by the controller is too high for the desired gear
Trans 2331 The transmission clutches are slipping
Trans 2342 Clutch Odd solenoid open circuit or short to ground.
Trans 2343 Clutch Even solenoid open circuit or short to ground.C33
Trans 2344 Clutch C1-2 solenoid open circuit or short to ground.
Trans 2345 Clutch C3-4 solenoid open circuit or short to ground.
Trans 2346 Clutch 5-6 solenoid open circuit or short to ground.
Trans 2374 Master Clutch solenoid open circuit or short to ground.
Trans 2347 Clutch Low Range solenoid open circuit or short to ground.
Trans 2348 110 Clutch Mid Range solenoid open circuit or short to ground.
Trans 2349 Clutch High Range solenoid open circuit or short to ground.
Trans 2350 Clutch reverse solenoid open circuit or short to ground.
Trans 2351 The creeper clutch solenoid is open circuit or short to ground
Trans 2353 Even Clutch Solenoid is shorted to +12 Volts, current sensed while driver is off.
Trans 2352 Odd Clutch Solenoid is shorted to +12 Volts, current sensed while driver is off.
Trans 2354 C1-2 Clutch Solenoid is shorted to +12 Volts, current sensed while driver is off..
Trans 2355 C3-4 Clutch Solenoid is shorted to +12 Volts, Current sensed while driver is off.
Trans 2356 C5-6 clutch Solenoid is shorted to +12 Volts, current sensed while driver isoff.
Trans 2357 Low clutch Solenoid is shorted to +12 Volts, current sensed while driver is off.
Trans 2358 Mid Clutch Solenoid is shorted to +12 Volts, Current sensed while driver is off.
Trans 2359 High Clutch Solenoid is shorted to +12 Volts, current sensed while driver is off.
Trans 2360 Reverse Clutch Solenoid is shorted to +12 Volts, current sensed while driver is off.
Trans 2361 The creeper clutch solenoid is shorted to +12 Volts, current sensed while the driver is off
Trans 2362 Master Clutch Solenoid is shorted to +12 Volts, current sensed while driver is off.
Trans 2363 The Odd Clutch is not calibrated
Trans 2364 Even Clutch not calibrated
Trans 2365 C1-2 Clutch not calibrated
Trans 2366 C3-4 Clutch not calibrated
Trans 2367 C5-6 Clutch not calibrated
Trans 2368 Low Range Clutch not calibrated
Trans 2369 Mid Range Clutch not calibrated
Trans 2370 High Clutch not calibrated
Trans 2371 Reverse Clutch not calibrated
Trans 2372 Creep Clutch is not calibrated
Trans 2373 Master Clutch not calibrated
Trans 2800 Auto Guidance Isolation valve driver Fault
Trans 2805 System pressure valve solenoid circuit is open circuit or shorted to ground
Trans 2806 System pressure solenoid is shorted to B+
Trans 2807 Transmission output rpm over speed
Trans 2809 The battery voltage is too low to permit operation of the clutch solenoids.
Trans 2811 Transmission Oil Temperature Hot
Trans 2812 Transmission Oil Temperature sensor short to B+ or open circuit
Trans 2813 Transmission oil temperature Sensor Short to Ground
Trans 2814 Integrated Control Panel off line
Trans 2815 Governor Engine RPM alternator engine RPM mismatch
Trans 2816 Transmission regulated pressure accumulator is flat
Trans 2817 Governor is offline CAN bus
Trans 2818 Communication lost with the Armrest Control Module(ACM)
Trans 2819 Communication lost with the instrumentation controller.
Trans 2820 System pressure low possible System pressure hydraulic pump failure or leak
Trans 2821 System Pressure Low fault
Trans 2850 The Park Brake is stuck on by no electrical power supplied when commanded on
Trans 2851 The Park Brake Driver has detected an over current or an open circuit condition
Trans 2852 The Park Brake is stuck on by no electrical power supplied to the solenoid when driver is commanded on. Possible service brake bottom brake switches open.
Trans 2055 No signal from wheel speed sensor.
Trans 2873 Software is out of the calibration mode and the park brake request is still active. If this fault is detected there is a bug in the software
Trans 2874 The park brakes commanded on and gear is engaged and there is no park brake request from calibration. If this fault is detected there is a bug in the software
Trans 2900 Torque sensor Gap is on the larger end of the tolerance (CCH Only)
Trans 2901 Signal received from the torque sensor is not in any fault range or normal range tolerance (CCH Only)
Trans 2902 Torque sensor has declared an internal fault tolerance (CCH Only)
Trans 2903 Torque sensor supply voltage below 4.8 volts tolerance (CCH Only)
Trans 2910 12VF1voltage supply is low. (possible blown fuse*)
Trans 2911 12VT1voltage supply is low. (possible blown fuse*)
Trans 2912 12VF2voltage supply is low. (possible blown fuse*)
Trans 2913 12VHvoltage supply is low. (possible blown fuse*)
Trans 2914 12VF3voltage supply is low. (possible blown fuse*)
Trans 2915 12VS1voltage supply is low. (possible blown fuse*)
Engine 3000 Unknown ECM Error Code Received
Engine 3999 Unknown ECM Error Code Received
Engine 3001 Foot Throttle Sensor -Signal Not Plausible
Engine 3002 Foot Throttle Sensor -Signal Above Range Max.
Engine 3003 Foot Throttle Sensor -Signal Below Range Min.
Engine 3004 Foot Throttle Sensor -No Signal -Error
Engine 3006 Coolant Temperature Sensor -Signal Not Plausible(Compared with Engine Oil Temperature)
Engine 3007 Coolant Temperature Sensor -Signal Above Range Max.
Engine 3008 Coolant Temperature Sensor -Signal Below Range Min.
Engine 3009 Coolant Temperature Sensor -(via CAN) No Signal
Engine 3010 Air Intake Temperature Sensor -Signal Above Range Max.
Engine 3011 Air Intake Temperature Sensor -Signal Above Range Min.
Engine 3012 Air Intake Temperature Sensor -(via CAN) No Signal
Engine 3015 Fuel Temperature Signal -Signal Above Range Max.
Engine 3016 Fuel Temperature Signal -Signal Below Range Min.
Engine 3019 Boost Pressure Sensor -Signal Above Range Max.
Engine 3021 Boost Pressure Sensor -(via CAN) No Signal
Engine 3022 Boost Pressure Sensor -Signal Not Plausible
Engine 3023 Atmospheric Pressure Sensor -Signal Not Plausible Compared with Boost Pressure
Engine 3024 Atmospheric Pressure Sensor -Signal Above Range Max.
Engine 3025 Atmospheric Pressure Sensor -Signal Below Range Min.
Engine 3028 Oil Pressure Too Low
Engine 3029 Oil Pressure Sensor _Short circuit to Battery
Engine 3030 Oil Pressure Sensor _Short circuit to Ground
Engine 3031 Oil Pressure Sensor -Hardware Error
Engine 3032 Oil Pressure Sensor -Value Too High
Engine 3033 Oil Temperature Sensor -Signal Not Plausible (Compared with Coolant Temperature)
Engine 3034 Oil Temperature Sensor -Signal Above Range Max.
Engine 3035 Oil Temperature Sensor -Signal Below Range Min.
Engine 3036 Oil Temperature Sensor -(via CAN) No Signal
Engine 3037 Boost Pressure Sensor -Signal Low
Engine 3038 Constant Engine RPM Activate / Select Switch _Short circuit to Ground
Engine 3039 Cruise Control Actuating Device -Evaluation Error
Engine 3043 Vehicle Speed Sensing -Hardware Conversion Error
Engine 3044 Vehicle Speed Sensing -Signal Above Range Max.
Engine 3045 Vehicle Speed Sensing -Signal Below Range Min.
Engine 3046 Vehicle Speed Sensing -Signal Not Plausible
Engine 3047 Main Relay 2 Failure _Short circuit to Battery
Engine 3048 Main Relay 2 Failure _Short circuit to Ground
Engine 3051 Battery Voltage to ECM too High
Engine 3052 Battery Voltage to ECM too Low
Engine 3053 Vehicle Speed Sensing (Tacho) -PWM Frequency Too High
Engine 3054 Vehicle Speed Sensing (Tacho) -PWM Average Frequency Above Limit
Engine 3055 Vehicle Speed Sensing (Tacho) -PWM Average Frequency Below Limit
Engine 3056 Vehicle Speed Sensing (Tacho) -Not Plausible
Engine 3057 Timeout of CAN Message High Resolution Wheel Speed
Engine 3058 Timeout of CAN Message Vehicle Dynamics Control Unit
Engine 3059 ECM After run was Interrupted
Engine 3060 Cylinder1 -Unclassifiable Error in Injector
Engine 3061 Cylinder1 -Injector Cable Short circuit (Low Side to Battery)
Engine 3062 Cylinder1 -Application Dependent
Engine 3063 Cylinder1 -Injector Cable Short circuit (High Side to Ground)
Engine 3064 Cylinder5 -Unclassifiable Error in Injector
Engine 3065 Cylinder5 -Injector Cable Short circuit (Low Side to Battery)
Engine 3066 Cylinder5 -Application Dependent
Engine 3067 Cylinder5 -Injector Cable Short circuit (High Side to Ground)
Engine 3068 Cylinder3 -Unclassifiable Error in Injector
Engine 3069 Cylinder3 -Injector Cable Short circuit (Low Side to Battery)
Engine 3070 Cylinder3 -Application Dependent
Engine 3071 Cylinder3 -Injector Cable Short circuit (High Side to Ground)
Engine 3072 Cylinder6 -Unclassifiable Error in Injector
Engine 3073 Cylinder6 -Injector Cable Short circuit (Low Side to Battery)
Engine 3074 Cylinder6 -Application Dependent
Engine 3075 Cylinder6 -Injector Cable Short circuit (High Side to Ground)
Engine 3076 Cylinder2 -Unclassifiable Error in Injector
Engine 3077 Cylinder2 -Injector Cable Short circuit (Low Side to Battery)
Engine 3078 Cylinder2 -Application Dependent
Engine 3079 Cylinder2 -Injector Cable Short circuit (High Side to Ground)
Engine 3080 Cylinder4 -Unclassifiable Error in Injector
Engine 3081 Cylinder4 -Injector Cable Short circuit (Low Side to Battery)
Engine 3082 Cylinder4 -Application Dependent
Engine 3083 Cylinder4 -Injector Cable Short circuit (High Side to Ground)
Engine 3088 Crankshaft Sensor -No Signal
Engine 3089 Crankshaft Sensor -Invalid Signal
Engine 3090 Camshaft Sensor -No Signal
Engine 3091 Camshaft Sensor -Invalid Signal
Engine 3092 Offset Between Camshaft and Crankshaft -Not Plausible
Engine 3093 Offset Between Camshaft and Crankshaft -Outside Boundaries
Engine 3095 Operating with Camshaft Sensor Only -Backup Mode
Engine 3096 Tier 3: ECM Bus Off on CAN A Tier 4a: ECM Bus Off on Vehicle CAN
Engine 3097 ECM Bus Off on Engine private CAN
Engine 3098 Timeout of CAN Message TSC1-TE (When Active)
Engine 3099 Timeout of CAN Message TSC1-TE (When Inactive)
Engine 3100 Timeout of CAN Message TSC1-AE (When Active)
Engine 3101 Timeout of CAN Message TSC1-AE (When Inactive)
Engine 3102 Rail Pressure Sensor CP3 -Signal Below Range Min.
Engine 3104 Rail Pressure Relief Valve -Open
Engine 3105 Rail Pressure Relief Valve -Pressure Shock Requested
Engine 3106 Rail Pressure Relief Valve -Did Not Open After Pressure Shock
Engine 3107 Metering Unit _Short circuit to Battery
Engine 3108 Metering Unit _Short circuit to Ground
Engine 3110 Rail Pressure Sensor Offset Monitoring -Value above Limit
Engine 3111 Rail Pressure Sensor Offset Monitoring -Value below Limit
Engine 3112 Rail Pressure Sensor CP3 -Signal Above Range Max.
Engine 3113 Main Relay 1 (High Pressure Pump -power supply to the fuel metering unit) -Short to Battery
Engine 3114 Main Relay 1 (High Pressure Pump -power supply to the fuel metering unit) Short to Ground
Engine 3117 PTO Twist Sensor -Out of Range
Engine 3118 ECM 12V Sensor Supply Voltage High
Engine 3119 ECM 12V Sensor Supply Voltage Low
Engine 3120 PTO Twist Sensor -Not Plausible
Engine 3121 PTO Twist Sensor -Open Circuit
Engine 3122 PTO Twist Sensor _Short circuit to Ground
Engine 3123 PTO Twist Sensor -Not Calibrated
Engine 3124 Hand Throttle -Channel 2 Above Range Max.
Engine 3125 Hand Throttle -Channel 2 Below Range Min.
Engine 3126 Hand Throttle -Channel 1 Signal Above Range Max.
Engine 3127 Hand Throttle -Channel 1 Signal Below Range Min.
Engine 3128 Hand Throttle -Channel Difference Error
Engine 3129 Hand Throttle -Idle Switch Closed Circuit
Engine 3130 Hand Throttle -Idle Switch Open Circuit
Engine 3131 Grid Heater Always Switched On
Engine 3133 Cold Start Lamp -No Load
Engine 3134 Cold Start Lamp _Short circuit to Battery
Engine 3135 Cold Start Lamp _Short circuit to Ground
Engine 3136 Cold Start Lamp -Excessive Temperature
Engine 3137 Metering Unit -Open Load
Engine 3138 Metering Unit -Temperature Too High
Engine 3139 Metering Unit Signal Range Check -Signal Too High
Engine 3140 Metering Unit Signal Range Check -Signal Too Low
Engine 3141 Fuel Flow Set point Too Low
Engine 3142 High Pressure Test -Test Active
Engine 3143 Grid Heater Switch Off Test (Voltage Drop Too High)
Engine 3144 Grid Heater Switch Off Test (Voltage Drop Too Low)
Engine 3145 Terminal 15 -No Signal
Engine 3146 Water Detected In Fuel
Engine 3147 Oil Temperature Too High
Engine 3148 Coolant Temperature Sensor Dynamic Test -Failure (Minimum Temperature Raise Not Reached)
Engine 3149 Coolant Temperature Sensor Test -Failure (Minimum Temperature Not Reached)
Engine 3150 System/Amber Warning Lamp _Short circuit to Battery
Engine 3151 System/Amber Warning Lamp _Short circuit to Ground
Engine 3152 System/Amber Warning Lamp -No Load
Engine 3153 System/Amber Warning Lamp -Excessive Temperature
Engine 3154 Grid Heater Relay _Short circuit to Battery
Engine 3155 Grid Heater Relay _Short circuit to Ground
Engine 3156 Grid Heater Relay -No Load
Engine 3157 ECM Not Detected on CAN bus
Engine 3158 Invalid ECM Checksum
Engine 3159 Invalid Engine Reference Torque
Engine 3160 Fan Actuator _Short circuit to Battery
Engine 3161 Fan Actuator _Short circuit to Ground
Engine 3162 Fan Actuator -Open Load
Engine 3163 Fan Actuator -Temperature Too High
Engine 3164 Fan Speed Sensor _Signal High
Engine 3165 Fan Speed Sensor -Signal Low
Engine 3166 Fuel Filter Heater Relay _Short circuit to Battery
Engine 3167 Fuel Filter Heater Relay _Short circuit to Ground
Engine 3168 Fuel Filter Heater Relay -Open Load
Engine 3169 Fuel Filter Heater Relay -Signal Not Plausible
Engine 3176 Set point of Metering Unit Not Plausible in Overrun
Engine 3177 Engine Over speed Detected
Engine 3178 Timeout of CAN Message BC2EDC1
Engine 3179 Timeout of CAN Message BC2EDC2
Engine 3180 Timeout of CAN Message VCM2EDC
Engine 3181 Rail Pressure Positive Deviation Too High Concerning Set point
Engine 3182 Timeout of CAN Message RxCCVS
Engine 3183 Timeout of CAN Message TSC1-VR (When Active)
Engine 3184 Timeout of CAN Message TSC1-VR (When Inactive)
Engine 3185 Timeout of CAN message TF
Engine 3186 Cylinder1 Warning -Fast Decay Error
Engine 3187 Cylinder1 Warning -Application Dependent
Engine 3188 Cylinder1 Warning -Injector Circuit Low
Engine 3189 Cylinder1 Warning -Current Level Error
Engine 3190 Cylinder2 Warning -Fast Decay Error
Engine 3191 Cylinder2Warning -Application Dependent
Engine 3192 Cylinder2 Warning -Open Load
Engine 3193 Cylinder2 Warning -Current Level Error
Engine 3194 Cylinder3 Warning -Fast Decay Error
Engine 3195 Cylinder3 Warning -Application Dependent
Engine 3196 Cylinder3 Warning -Open Load
Engine 3197 Cylinder3 Warning -Current Level Error
Engine 3198 Cylinder4 Warning -Fast Decay Error
Engine 3199 Cylinder4 Warning -Application Dependent
Engine 3200 Cylinder4 Warning -Open Load
Engine 3201 Cylinder4 Warning -Current Level Error
Engine 3202 Cylinder5 Warning -Fast Decay Error
Engine 3203 Cylinder5 Warning -Application Dependent
Engine 3204 Cylinder5 Warning -Open Load
Engine 3205 Cylinder5 Warning -Current Level Error
Engine 3206 Cylinder6 Warning -Fast Decay Error
Engine 3207 Cylinder6 Warning -Application Dependent
Engine 3208 Cylinder6 Warning -Open Load
Engine 3209 Cylinder6 Warning -Current Level Error
Engine 3210 Bank1 -General Short circuit on Injection Cable
Engine 3211 Bank1 -Injection Cable Short circuit Low Side to Ground
Engine 3212 Bank1 -Application Dependent
Engine 3213 Bank1 -Unclassifiable Error
Engine 3214 Bank1 Warning -Application Dependent
Engine 3215 Bank1 Warning -Application Dependent
Engine 3216 Bank1 Warning -Open Load
Engine 3217 Bank1 Warning -Unclassifiable Error
Engine 3218 Bank2-General Short circuit on Injection Cable
Engine 3219 Bank2 -Injection Cable Short circuit Low Side to Ground
Engine 3220 Bank2 -Application Dependent
Engine 3221 Bank2 -Unclassifiable Error
Engine 3222 Bank2 Warning -Application Dependent
Engine 3223 Bank2 Warning -Application Dependent
Engine 3224 Bank2 Warning -Open Load
Engine 3225 Bank2 Warning -Unclassifiable Error
Engine 3226 Messages SRA2EDC
Engine 3227 Injection Processor (CY33X) Error -Internal Reset / Clock Loss / Voltage Too Low
Engine 3228 Injection Processor (CY33X) Error -Unlocked / Initialization Failure
Engine 3229 Injection Processor (CY33X) Error -Injections Limited By Software
Engine 3230 Injection Processor (CY33X) Error -SPI Communication Failure
Engine 3231 Injection Processor Error -Internal Reset / Clock Loss / Voltage Too Low
Engine 3232 Injection Processor Error -Unlocked / Initialization Failure
Engine 3233 Injection Processor Error -Test Mode
Engine 3234 Injection Processor Error -SPI Communication Failure
Engine 3235 Number of Injections Limited -by Charge Balance
Engine 3236 Number of Injections Limited -by Quantity Balance
Engine 3237 Number of Injections Limited -by Software
Engine 3238 ECM Internal SPI Communication Error -CJ940
Engine 3239 ECM EEPROM -Read Operation Failure
Engine 3240 ECM EEPROM -Write Operation Failure
Engine 3241 ECM EEPROM -Default Value Used
Engine 3242 ECM (Locked) Recovery Occurred
Engine 3243 ECM (Suppressed) -Recovery Occurred
Engine 3244 ECU Recovery (Visible) -Recovery Occurred
Engine 3245 ECM Processor -Watchdog Not Plausible
Engine 3246 Shutoff Paths During Initialization -Watchdog
Engine 3247 Shutoff Paths During Initialization -Supply Voltage Too High
Engine 3248 Shutoff Paths During Initialization -Supply Voltage Too Low
Engine 3249 TPU Monitoring -Time Deviation between TPU and System Not Plausible
Engine 3250 Dataset -Variant Defect
Engine 3251 Dataset -Requested Variant Could Not Be Set
Engine 3252 Controller Watchdog -SPI Communication Failure
Engine 3253 ADC Monitoring -Reference Voltage Too High
Engine 3254 ADC Monitoring -Reference Voltage Too Low
Engine 3255 ADC Monitoring -Test Impulse Error
Engine 3256 ADC Monitoring -Queue Error
Engine 3257 Turbine Speed and Air Pressure Too High
Engine 3258 High Side Power -Short circuit to Battery
Engine 3259 High Side Power _Short circuit to Ground
Engine 3260 Low Side Power -Open Load
Engine 3261 Low Side Power -Short circuit to Battery of Excess Temperature
Engine 3262 Low Side Power _Short circuit to Ground
Engine 3263 ECM Bus Off on CAN C
Engine 3264 Immobilizer -Injection Disabled
Engine 3265 Overrun Monitoring -Injection Time Too Long
Engine 3266 Redundant Engine Speed in Overrun Monitoring -Speed Signal Not Plausible
Engine 3267 Main relay 3 _Short circuit to Battery
Engine 3268 Main relay 3 _Short circuit to Ground
Engine 3269 Grid Heater Switch On Test -Voltage Drop Too High
Engine 3270 Grid Heater Switch On Test -Voltage Drop Too Low
Engine 3271 Fuel Low Pressure Sensor -(via CAN) No Signal
Engine 3272 Fuel Low Pressure Sensor -Signal Above Range Max.
Engine 3273 Fuel Low Pressure Sensor -Signal Below Range Min.
Engine 3274 Fuel Low Pressure Sensor Dynamic Plausibility Test -Above Map
Engine 3275 Fuel Low Pressure Sensor Dynamic Plausibility Test -Below Map
Engine 3276 MIL Visualization Not Available for BC2EDC1
Engine 3277 Timeout of CAN Message Dashboard Display
Engine 3278 ECM Internal Supply Voltage Too High -CJ940 Above Limit
Engine 3279 ECM Internal Supply Voltage Too Low -CJ940 Below Limit
Engine 3280 Sensor Supply Voltage 1 -High
Engine 3281 Sensor Supply Voltage 1 — Low
Engine 3282 Timeout of CAN Message WSI (Wheel Speed Info)
Engine 3283 Sensor Supply Voltage 2 -High
Engine 3284 Sensor Supply Voltage 2 — Low
Engine 3285 Sensor Supply Voltage 3 -High
Engine 3286 Sensor Supply Voltage 3 — Low
Engine 3287 Turbo Compound Monitoring -No Signal
Engine 3288 Turbo Compound Monitoring -Signal High
Engine 3289 Turbo Compound Monitoring -Signal Low
Engine 3290 Turbo Compound Monitoring -Signal Not Plausible
Engine 3291 Cylinder 1 Specific Errors -No Signal
Engine 3292 Cylinder 1 Specific Errors -Signal Low
Engine 3293 Cylinder 1 BIP Search Failure -Too Many Unsuccessful Searched
Engine 3294 Cylinder 1 Specific Errors -Signal Not Plausible
Engine 3295 Cylinder 2 Specific Errors -No Signal
Engine 3296 Cylinder 2 Specific Errors -Signal Low
Engine 3298 Cylinder 2 Specific Errors -Signal Not Plausible
Engine 3299 Cylinder 3 Specific Errors -No Signal
Engine 3300 Cylinder 3 Specific Errors -Signal Low
Engine 3301 Cylinder 3 BIP Search Failure -Too Many Unsuccessful Searches — Rail Pressure Negative Deviation too High on Minimum Metering
Engine 3302 Cylinder 3 Specific Errors -Signal Not Plausible
Engine 3303 Cylinder 4 Specific Errors -No Signal
Engine 3304 Cylinder 4 Specific Errors -Signal Low
Engine 3305 Cylinder 4 BIP Search Failure -Too Many Unsuccessful Searches — Rail Pressure below Minimum Limit in Controlled Mode
Engine 3306 Cylinder 4 Specific Errors -Signal Not Plausible
Engine 3307 Cylinder 5 Specific Errors -No Signal
Engine 3308 Cylinder 5 Specific Errors -Signal Low
Engine 3309 Cylinder 5 BIP Search Failure -Too Many Unsuccessful Searches — Rail Pressure above Maximum Limit in Controlled Mode
Engine 3310 Cylinder 5 Specific Errors -Signal Not Plausible
Engine 3311 Cylinder 6 Specific Errors -No Signal
Engine 3312 Cylinder 6 Specific Errors -Signal Low
Engine 3313 Cylinder 6 BIP Search Failure -Too Many Unsuccessful Searches — Rail Pressure Drop Rate too High
Engine 3314 Cylinder 6 Specific Errors -Signal Not Plausible
Engine 3315 Minimum Number of Injections Not Reached -Stop Engine
Engine 3316 Minimum Number of Injections Not Reached -Stop Engine
Engine 3317 Minimum Number of Injections Not Reached -Stop Engine
Engine 3318 Minimum Number of Injections Not Reached -Stop Engine
Engine 3319 DM1DCU SPN2 message -Error in DCU active
Engine 3320 DM1DCU SPN3 message -Error in DCU active
Engine 3321 Timeout of CAN Message DM1DCU SPN4
Engine 3322 Timeout of CAN Message ERC1DR
Engine 3323 Timeout of CAN Message RxAMCONIv (Ambient Conditions)
Engine 3324 Timeout of CAN Message EBC1 (Electronic Brake Switch)
Engine 3325 Timeout of CAN Message ETC1 (Transmission)
Engine 3326 Timeout of CAN Message ETC2 (Transmission)
Engine 3327 Timeout of CAN Message TCO1 (Tachograph)
Engine 3328 Timeout of CAN Message TSC1-AR (When Inactive)
Engine 3329 Timeout of CAN Message TSC1-AR (When Active)
Engine 3330 Timeout of CAN Message TSC1-DE (When Inactive)
Engine 3331 Timeout of CAN Message TSC1-DE (When Active)
Engine 3332 Timeout of CAN Message TSC1-DR (When Inactive)
Engine 3333 Timeout of CAN Message TSC1-DR (When Active)
Engine 3334 Timeout of CAN message TSC1-PE Torque (When Active)
Engine 3335 Timeout of CAN message TSC1-PE Torque (When Inactive)
Engine 3336 Timeout of CAN Message TSC1-TR (When Inactive)
Engine 3337 Timeout of CAN Message TSC1-TR (When Active)
Engine 3338 Timeout of CAN message TSC1-VE Speed (When Inactive)
Engine 3339 Timeout of CAN message TSC1-VE Speed (When Active)
Engine 3340 Timeout of CAN Message Time Date
Engine 3341 Timeout of CAN Message HRVD (High Resolution Vehicle Distance)
Engine 3342 Power Stage Air Heater 2 Actuator -No Signal
Engine 3343 Power Stage Air Heater 2 Actuator -Signal High
Engine 3344 Power Stage Air Heater 2 Actuator -Signal Low
Engine 3345 Total Throttle Failure (Only applies to Dual Throttle Vehicles)
Engine 3346 Multiple State Switch
Engine 3347 Multiple State Switch
Engine 3348 Multiple State Switch
Engine 3349 Multiple State Switch
Engine 3350 Terminal 50 -Always On
Engine 3351 Engine Brake Decompression Valve -Open Load
Engine 3352 Engine Brake Decompression Valve _Short circuit to Battery
Engine 3353 Engine Brake Decompression Valve _Short circuit to Ground
Engine 3354 Main Relay 4 (Engine Brake Exhaust Valve) _Short circuit to Ground
Engine 3355 Main Relay 4 (Engine Brake Exhaust Valve) -Short to Battery or open load
Engine 3356 Cylinder Shutoff (Cylinder Balancing Disabled) -Shutoff Active
Engine 3357 Misfire in Multiple Cylinders -Too Many Misfires
Engine 3358 CAN Transmit Timeout
Engine 3359 TSC Demand Physically Implausible
Engine 3360 Driving Dynamic Control -Not Plausible
Engine 3361 ECM EEPROM -General Error
Engine 3362 Torque to Quantity Map -Not Plausible
Engine 3363 Atmospheric Pressure Sensor -Processed via ADC (no CAN Plausibility Performed)
Engine 3364 Foot Pedal 2 -Signal Too High
Engine 3365 Foot Pedal 2 -Signal Too Low
Engine 3366 Foot Pedal 2 -Signal Not Plausible Compared to Foot Pedal 1
Engine 3367 Coolant Temperature Test Failure
Engine 3368 Info: Torque Limitation due to OBD Performance Limiter by Legislation
Engine 3369 Torque Reduction due to Smoke Limitation
Engine 3370 Info: Torque Limitation due to Engine Protection (against Excessive Torque, Engine Over speed and Overheat)
Engine 3371 Info: Torque Limitation due to Fuel Quantity Limitation because of Injection System Errors
Engine 3372 Injection Quantity Adjustment failure -Invalid Adjustment Value
Engine 3373 Injection Quantity Adjustment failure -EEPROM Adjustment Value Not Readable
Engine 3374 Injection Quantity Adjustment failure -Invalid EEPROM Adjustment Value Checksum
Engine 3375 Constant Engine RPM Increase / Decrease Switch _Short circuit to Battery
Engine 3376 Engine Controller Software Does Not Support Power Management (Engine Power Management Option Enabled, but Engine Software Not Compatible)
Engine 3377 Constant Engine RPM Switch Detected but Option Not Enabled.
Engine 3380 Engine Fan Increase Speed Error (open or short circuit)
Engine 3381 Engine Fan Decrease Speed Error (open or short circuit)
Engine 3382 Fan Control Solenoid Short To 12Vr
Engine 3383 Fan Control Solenoid Open Or Short To GND
Engine 3384 Vistronic Engine Cooling Fan driver open or short circuit
Engine 3399 Engine Fuel Lift Pump relay driver over current fault
Engine 3513 SCR Catalyst not present _Relation of temperature behavior between both Catalyst Temperatures not plausible
Engine 3517 Ambient Air Temperature Sensor failure (of Humidity Sensor) -Signal too high
Engine 3518 Ambient Air Temperature Sensor failure (of Humidity Sensor) -Signal too low
Engine 3519 Ambient Air Temperature Sensor failure (of Humidity Sensor) -CAN Signal failure
Engine 3521 NOx Estimation failure -Estimated Nox signal not reliable
Engine 3528 NOx Sensor Plausibility failure -Signal not plausible
Engine 3529 NOx Sensor Failure -Open Load
Engine 3530 NOx Sensor Failure -Short Circuit
Engine 3532 NOx Sensor Failure -Sensor not ready in time
Engine 3533 CAN Message timeout Nox (from Nox Sensor) -CAN timeout
Engine 3537 CAN Message timeout DM1DCU (from DCU) -CAN timeout
Engine 3541 CAN Message timeout SCR1 (from DCU) -CAN timeout
Engine 3545 Info: SCR Dosing Valve Overheat Protection -Torque Limitation Level2 for SCR Protection active
Engine 3546 Info: SCR Dosing Valve Overheat Protection -Torque Limitation Level1 for SCR Protection active
Engine 3549 Humidity Sensor Signal Ratio failure -Signal Ratio above Limit
Engine 3550 Humidity Sensor Signal Ratio failure -Signal Ratio below Limit
Engine 3555 CAN Message timeout SCR2 (from DCU)-CAN timeout
Engine 3557 Info: Humidity Sensor possibly saturated with water droplets -Signal Ratio above Limit
Engine 3558 Info: Humidity Sensor possibly saturated with water droplets -Signal Ratio below Limit
Engine 3561 NOx value not plausible (After treatment plausibility)
Engine 3565 Urea quality and urea warning level 1
Engine 3569 urea quality and urea warning level 2
Engine 3573 urea quality and urea warning level 3
Engine 3577 DM1DCU SPN1 message -Error in DCU active
Engine 3581 Performance limit active due to either stage -Performance Limitation active
EHR 4135 Rear Remote No.3 -Spool Deflection Excessive
EHR 4136 Rear Remote No.3 -Open Center Position Not Reached
EHR 4137 Rear Remote No.3 -Manual Operation
EHR 4138 Rear Remote No.3 -Output Stage Faulty
EHR 4139 Rear Remote No.3 -Position Transducer Faulty
EHR 4140 Rear Remote No.3 -Spool Cannot be Brought Back to Neutral
EHR 4141 Rear Remote No.3 -Spool Not in Neutral When Switched On
EHR 4142 Rear Remote No.4 -No EHR Control Messages
EHR 4143 Rear Remote No.4 -Implausible EHR Control Messages
EHR 4144 Rear Remote No.4 -Checksum Verification Failure
EHR 4145 Rear Remote No.4 -Neutral Set point
EHR 4146 Rear Remote No.4 -Under Voltage
EHR 4147 Rear Remote No.4 -Over Voltage
EHR 4148 Rear Remote No.4 -Spool Deflection Too Short
EHR 4149 Rear Remote No.4 -Spool Deflection Excessive
EHR 4150 Rear Remote No.4 -Open Center Position Not Reached
EHR 4151 Rear Remote No.4 -Manual Operation
EHR 4152 Rear Remote No.4 -Output Stage Faulty
EHR 4153 Rear Remote No.4 -Position Transducer Faulty
EHR 4154 Rear Remote No.4 -Spool Cannot be Brought Back to Neutral
EHR 4155 Rear Remote No.4 -Spool Not in Neutral When Switched On
EHR 4156 Rear Remote No.5 -No EHR Control Messages
EHR 4157 Rear Remote No.5 -Implausible EHR Control Messages
EHR 4158 Rear Remote No.5 -Checksum Verification Failure
EHR 4159 Rear Remote No.5 -Neutral Set point
EHR 4160 Rear Remote No.5 -Under Voltage
EHR 4161 Rear Remote No.5 _Over Voltage
EHR 4162 Rear Remote No.5 -Spool Deflection Too Short
EHR 4163 Rear Remote No.5 -Spool Deflection Excessive
EHR 4164 Rear Remote No.5 -Open Center Position Not Reached
EHR 4165 Rear Remote No.5 -Manual Operation
EHR 4166 Rear Remote No.5 -Output Stage Faulty
EHR 4167 Rear Remote No.5 -Position Transducer Faulty
EHR 4168 Rear Remote No.5 -Spool Cannot be Brought Back to Neutral
EHR 4169 Rear Remote No.5 -Spool Not in Neutral When Switched On
EHR 4170 Rear Remote No.1 _Lever Not Calibrated
EHR 4173 Rear Remote No.2 -Lever Not Calibrated
EHR 4177 Rear Remote No.3 -Lever Not Calibrated
EHR 4180 Rear Remote No.4 -Lever Not Calibrated
EHR 4190 EHR 1 Offline Err
EHR 4191 EHR 2 Offline Err
EHR 4192 EHR 3 Offline Err
EHR 4193 EHR 4 Offline Err
EHR 4198 EHR 5 Offline Err
EHR 4216 Rear Remote No.1 -Valve Spool Not Calibrated
EHR 4217 Rear Remote No.2 -Valve Spool Not Calibrated
EHR 4218 Rear Remote No.3 -Valve Spool Not Calibrated
EHR 4219 Rear Remote No.4 -Valve Spool Not Calibrated
EHR 4220 Rear Remote No.5 -Valve Spool Not Calibrated
EHR 4301 Rear Remote No.6 -No EHR Control Messages
EHR 4302 Rear Remote No.6 -Implausible EHR Control Messages
EHR 4303 Rear Remote No.6 -Checksum Verification Failure
EHR 4304 Rear Remote No.6 -Neutral Set point
EHR 4305 Rear Remote No.6 -Under Voltage
EHR 4306 Rear Remote No.6 -Over Voltage
EHR 4307 Rear Remote No.6 -Spool Deflection Too Short
EHR 4308 Rear Remote No.6 -Spool Deflection Excessive
EHR 4309 Rear Remote No.6 -Open Center Position Not Reached
EHR 4310 Rear Remote No.6 -Manual Operation
EHR 4311 Rear Remote No.6 -Output Stage Faulty
EHR 4312 Rear Remote No.6 -Position Transducer Faulty
EHR 4313 Rear Remote No.6 -Spool Cannot be Brought Back to Neutral
EHR 4314 Rear Remote No.6 -Spool Not in Neutral When Switched On
EHR 4315 Rear Remote No.7 -No EHR Control Messages
EHR 4316 Rear Remote No.7 -Implausible EHR Control Messages
EHR 4317 Rear Remote No.7 -Checksum Verification Failure
EHR 4318 Rear Remote No.7 -Neutral Set point
EHR 4319 Rear Remote No.7 -Under Voltage
EHR 4320 Rear Remote No.7 -Over Voltage
EHR 4321 Rear Remote No.7 -Spool Deflection Too Short
EHR 4322 Rear Remote No.7 -Spool Deflection Excessive
EHR 4323 Rear Remote No.7 -Open Center Position Not Reached
EHR 4324 Rear Remote No.7 -Manual Operation
EHR 4325 Rear Remote No.7 -Output Stage Faulty
EHR 4326 Rear Remote No.7 -Position Transducer Faulty
EHR 4327 Rear Remote No.7 -Spool Cannot be Brought Back to Neutral
EHR 4328 Rear Remote No.7 -Spool Not in Neutral When Switched On
EHR 4329 Rear Remote No.8 -No EHR Control Messages
EHR 4330 Rear Remote No.8 -Implausible EHR Control Messages
EHR 4331 Rear Remote No.8 -Checksum Verification Failure
EHR 4332 Rear Remote No.8 -Neutral Set point
EHR 4333 Rear Remote No.8 -Under Voltage
EHR 4334 Rear Remote No.8 -Over Voltage
EHR 4335 Rear Remote No.8 -Spool Deflection Too Short
EHR 4336 Rear Remote No.8 -Spool Deflection Excessive
EHR 4337 Rear Remote No.8 -Open Center Position Not Reached
EHR 4338 Rear Remote No.8 -Manual Operation
EHR 4339 Rear Remote No.8 -Output Stage Faulty
EHR 4330 Rear Remote No.8 -Position Transducer Faulty
EHR 4341 Rear Remote No.8 -Spool Cannot be Brought Back to Neutral
EHR 4342 Rear Remote No.8 -Spool Not in Neutral When Switched On
EHR 4343 Rear Remote No.5 -Lever Not Calibrated
EHR 4344 Rear Remote No.6 -Lever Not Calibrated
EHR 4345 Rear Remote No.7 -Lever Not Calibrated
EHR 4346 Rear Remote No.8 -Lever Not Calibrated
EHR 4347 EHR 6 Offline Err
EHR 4348 EHR 7 Offline Err
EHR 4349 EHR 8 Offline Err
EHR 4350 Rear Remote No.6 -Valve Spool Not Calibrated
EHR 4351 Rear Remote No.7 -Valve Spool Not Calibrated
EHR 4352 Rear Remote No.8 -Valve Spool Not Calibrated
EHR 4353 EHR FB 1High Err
EHR 4354 EHR FB 1 Low Err
EHR 4355 EHR FB 3 High Err
EHR 4356 EHR FB 3 Low Err
EHR 4357 EHR Implement Lower Error
EHR 4358 EHR Implement Raise Error
Rear PTO 5001 PTO cab switch, or Auto PTO switch, or PTO remote fender switch is on during tractor power up.
Rear PTO 5002 PTO switch interlock
Rear PTO 5003 Auto PTO switch data is set to the error state(CCH Only)
Rear PTO 5004 Auto PTO switch stuck on condition(CCH Only)
Rear PTO 5005 PTO remote fender switch short(CCH Only)
Rear PTO 5006 PTO remote fender switch open(CCH Only)
Rear PTO 5007 PTO remote fender switch stuck on(CCH Only)
Rear PTO 5008 Both PTO On and Off switches are simultaneously on. One of the PTO switches is short to 12 volts.
Rear PTO 5009 PTO solenoid open circuit or shorted to ground or AD12vs2 voltage is low.
Rear PTO 5010 PTO solenoid circuit shorted to B+ when PTO is in the off state.
Rear PTO 5011 Driver is on and no current is sensed.
Rear PTO 5012 PTO clutch is slipping excessively for the duration of 5 seconds or longer.
Rear PTO 5013 Engine speed is too low for the PTO to be in the ïonà state.
Rear PTO 5014 PTO is commanded off but the PTO speed greater than zero.
Rear PTO 5015 The software has not detected PTO shaft speed for greater than 3 seconds since the PTO initial fill vale was commanded
Rear PTO 5016 PTO speed is detected when the PTO is in the off state without engine RPM.
Rear PTO 5017 PTO clutch did not lock up after 6 seconds of clutch motion.
Rear PTO 5018 PTO speed sensors wiring swapped (CCH Only)
Rear PTO 5019 PTO is configured as a two speed and no shaft size frequency was detected when the PTO was switched on. (CCH Only)
Rear PTO 5020 PTO is configured as a single speed and the shaft size frequency was detected when the PTO was switched on. Shaft size frequency input is only used for two speeds PTO.(CCH Only)
Rear PTO 5021 Auto PTO disabled(CCH Only)
Rear PTO 5022 PTO switch is in the on position when the engine is off.
Rear PTO 5023 PTO clutch lube solenoid circuit shorted to B+ when PTO is in the off state.(4WD Only)
Rear PTO 5024 PTO clutch lube solenoid open circuit or shorted to ground or +12 VF3 voltage is low.(4WD Only)
Rear PTO 5025 Rear PTO
Rear PTO 5027 Low side of PTO solenoid connected permanently to GND
Rear PTO 5028 Clutch speed sensor open or short to Vbat
Rear PTO 5029 Clutch speed sensor short to GND
Rear PTO 5030 Shaft size speed sensor open or short to Vbat(CCH Only)
Rear PTO 5031 Shaft size speed sensor short to GND(CCH Only)
Rear PTO 5032 12VF3voltage supply is low. (possible blown fuse*)
MFD/Diff Lock 6001 MFD (CCH) or Front Diff Lock (4WD) solenoid failed. Possible Failure modes: 1. Solenoid coil failed 2. Damaged wiring 3. Loose connector or bent pin 4. TCU Internal failure
MFD/Diff Lock 6002 Rear Diff Lock solenoid failed. Possible Failure modes: 1. Diff Lock solenoid coil failed 2. Damaged wiring 3. Loose connector or bent pin 4. TCU Internal failure
MFD/Diff Lock 6003 Brake light relay fault. 1. Short to 12 volts 2. Open circuit or short to ground.
MFD/Diff Lock 6004 CAN-BUS indicating Rear Diff Lock Switch failed in the armrest. Possible failure modes: 1. Rear Diff Lock Switch failed in Armrest2. Auto Diff Lock Switch failed in Armrest
(CCH Only) 3. Communication problems between the TCU controller and the Armrest controller
MFD/Diff Lock 6005 Rear Differential Lock and Auto Differential Lock (Only CCH):1. Diff Lock On and Auto Diff Lock switches are both active
MFD/Diff Lock 6006 CAN-BUS indicating MFD (CCH) or Front Diff Lock (4WD)Switch failed in the armrest. Possible failure modes: 1. MFD (CCH) or Front Diff Lock (4WD)failed in Armrest2. Auto MFD
Switch failed in Armrest, (CCH). 3. Communication problems between the TCU controller and the Armrest
MFD/Diff Lock 6007 Both MFD and Auto MFD switches active fault
MFD/Diff Lock 6008 Steering angle sensor above maximum voltage limit.
MFD/Diff Lock 6009 Steering angle sensor below minimum voltage limit.
MFD/Diff Lock 6010 12VS1voltage supply is low. (possible blown fuse*)
MFD/Diff Lock 6011 12VS2 voltage supply is low. (possible blown fuse*)
Front PTO 8001 Front PTO cab switch is on during tractor power up.
Front PTO 8002 Front PTO cab switch open
Front PTO 8003 Front PTO cab switch short
Front PTO 8004 Front PTO solenoid open circuit or shorted to ground or AD12VU2 voltage is low.
Front PTO 8005 Front PTO solenoid circuit shorted to B+ when Front PTO is in the off state.
Front PTO 8006 Low side driver is stuck on and no current is sensed.
Front PTO 8007 Front PTO switch is in the on position when the engine is off.
Front PTO 8010 12VU2voltage supply is low. (possible blown fuse*)
Front Suspension 10001 Front suspension Pump Not tank Valve solenoid is open circuit or shorted to ground
Front Suspension 10002 Front suspension rod Side Valve solenoid is open circuit or shorted to ground
Front Suspension 10003 Front suspension piston Side Valve solenoid is open circuit or shorted to ground
Front Suspension 10004 Front Suspension Position sensor out of Range High Error
Front Suspension 10005 Front Suspension Position sensor out of Range Low Error
Front Suspension 10006 Front suspension will not raise error
Front Suspension 10007 Front Suspension will not Lower error
Front Suspension 10008 Front Suspension Piston Pressure transducer range high error
Front Suspension 10009 Front Suspension Piston Pressure transducer range lower error
Front Suspension 10010 Front Suspension Rod Pressure transducer range high error
Front Suspension 10011 Front Suspension Rod Pressure transducer range lower error
Front Suspension 10012 Front suspension Rod side pressure will not raise error
Front Suspension 10013 Front suspension piston side pressure will not raise error
Front Suspension 10014 Front Suspension Not calibrated error
Front Suspension 10015 Front suspension Lock Valve Solenoid is open circuit or is shorted to ground.
Front Suspension 10016 FSUS_ENABLE_SW_ERR 10016
Front Suspension 10017 FSUS_ENABLE_SW_NA_ERR10017
Front Suspension 10018 Front Suspension Pump not tank Solenoid over current
Front Suspension 10019 Front Suspension rod Side Solenoid over current
Front Suspension 10020 Front Suspension piston Solenoid over current
Front Suspension 10021 Front Suspension lock out Solenoid over current
Front Suspension 10022 12VM voltage supply is low. (possible blown fuse*)
Front Suspension 10023 12VF3 voltage supply is low. (possible blown fuse*)
Front Suspension 10024 12VF1 voltage supply is low. (possible blown fuse*)
ICU 14002 Trans oil filter switch closed to ground on power up.
ICU 14003 Hyd oil filter switch closed to ground on power up.
ICU 14005 PTO shaft speed data is _ERROR_ or _NOT AVAILABLE_ state from PTO.
ICU 14006 GOV ENGINE speed data is _ERROR_ or _NOT AVAILABLE_ state from GOV.
ICU 14007 Engine Over speeding
ICU 14008 ENGINE oil pressure data is _ERROR_ or _NOT AVAILABLE_ state from GOV.
ICU 14009 Loss of valid ENGINE Hours
ICU 14010 PTO controller off line
ICU 14011 Communications Lost with Vehicle Data Bus 1 and ALL other controllers
ICU 14013 TRANSMISSION Off Line
ICU 14014 ENGINE coolant temperature data is _ERROR_ or _NOT AVAILABLE_ state from GOV.
ICU 14015 Engine Intake Air Temperature data is _ERROR|| or _NOT AVAILABLE|| state from GOV.
ICU 14016 Engine shutdown activated
ICU 14017 Fuel Level Sensor voltage out of range low.
ICU 14018 GOV Off Line
ICU 14019 ATC Off Line
Armrest 18001 Hand throttle #1 -voltage too low (New Holland Only)
Armrest 18002 Hand throttle #1 -voltage too high (New Holland Only)
Armrest 18003 Hand throttle #2 -voltage too low
Armrest 18004 Hand throttle #2 -voltage too high
Armrest 18005 Engine droop control -voltage too low
Armrest 18006 Engine droop control -voltage too high
Armrest 18007 Multi-function handle -switch error
Armrest 18008 Multi-function handle -voltage too low
Armrest 18009 Multi-function handle -voltage too high
Armrest 18010 Powershift throttle -voltage too low (Case IH)
Armrest 18011 Powershift throttle -voltage too high (Case IH)
Armrest 18012 CVT mode switch error
Armrest 18013 Multi-function handle -encoder position error
Armrest 18014 Rear hitch position control potentiometer -voltage too low
Armrest 18015 Rear hitch position control potentiometer -voltage too high
Armrest 18016 Rear hitch draft control potentiometer -voltage too low
Armrest 18017 Rear hitch draft control potentiometer -voltage too high
Armrest 18018 Rear hitch height limit potentiometer -voltage too low
Armrest 18019 Rear hitch height limit potentiometer -voltage too high
Armrest 18020 Rear hitch drop rate potentiometer -voltage too low
Armrest 18021 Rear hitch drop rate potentiometer -voltage too high
Armrest 18022 Rear hitch sensitivity control potentiometer -voltage too low
Armrest 18023 Rear hitch sensitivity control potentiometer -voltage too high
Armrest 18024 EHR flow encoder position error
Armrest 18025 Rear hitch slip control potentiometer -voltage too low
Armrest 18026 Rear hitch slip control potentiometer -voltage too high
Armrest 18027 EHR 5 lever position -voltage too low (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18028 EHR 5 lever position -voltage too high (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18029 EHR 6 lever position -voltage too low (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18030 EHR 6 lever position -voltage too high (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18031 Front hitch position / pressure control potentiometer -voltage too high
Armrest 18032 Front hitch position / pressure control potentiometer -voltage too low
Armrest 18033 Front hitch position / pressure mix potentiometer -voltage too high
Armrest 18034 Front hitch position / pressure mix potentiometer -voltage too low
Armrest 18035 Front hitch position height limit potentiometer -voltage too high
Armrest 18036 Front hitch position height limit potentiometer -voltage too low
Armrest 18037 Front hitch height limit enable switch error
Armrest 18038 Front hitch position drop rate potentiometer -voltage too high
Armrest 18039 Front hitch position drop rate potentiometer -voltage too low
Armrest 18040 EHR 1 lever position -voltage too low
Armrest 18041 EHR 1 lever position -voltage too high
Armrest 18042 EHR 2 lever position -voltage too low
Armrest 18043 EHR 2 lever position -voltage too high
Armrest 18044 EHR 3 lever position -voltage too low
Armrest 18045 EHR 3 lever position -voltage too high
Armrest 18046 EHR float control switch error
Armrest 18047 EHR 4 lever position -voltage too low
Armrest 18048 EHR 4 lever position -voltage too high
Armrest 18049 Joystick 1 X-axis position -voltage too low
Armrest 18050 Joystick 1 X-axis position -voltage too high
Armrest 18051 Joystick 1 Y-axis position -voltage too low
Armrest 18052 Joystick 1 Y-axis position -voltage too high
Armrest 18053 Joystick 1 proportional rocker switch -voltage too low
Armrest 18054 Joystick 1 proportional rocker switch -voltage too high
Armrest 18055 Joystick 2 X-axis position -voltage too low (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18056 Joystick 2 X-axis position -voltage too high (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18057 Joystick 2 Y-axis position -voltage too low (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18058 Joystick 2 Y-axis position -voltage too high (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18059 Joystick 2 proportional rocker switch -voltage too low (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18060 Joystick 2 proportional rocker switch -voltage too high (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18061 Reference voltage _short circuit to 0V
Armrest 18062 Reference voltage _short circuit to 12V
Armrest 18063 EEPROM fault
Armrest 18064 MFH communication error
Armrest 18065 MFH basic assurance test error
Armrest 18066 EHR 1 lever implausibility error
Armrest 18067 EHR 2 lever implausibility error
Armrest 18068 EHR 3 lever implausibility error
Armrest 18069 EHR 4 lever implausibility error
Armrest 18070 EHR 5 lever implausibility error (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18071 EHR 6 lever implausibility error (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18072 EDC mouse raise/work switch fault (NH Only)
DCU 19001 Battery voltage sensing (electrical) _signal high _P0563 Battery voltage evaluation above upper limit
DCU 19002 Battery voltage sensing (electrical) |signal low |P0562 Battery voltage evaluation below lower limit
DCU 19010 Temperature sensor after catalyst (electrical) _signal high _P042D Catalyst Temperature Sensor Circuit High
DCU 19011 Temperature sensor after catalyst (electrical) |signal low |P042C Catalyst Temperature Sensor Circuit Low
DCU 19019 Temperature sensor before catalyst (electrical) _signal high _P0428 Catalyst Temperature Sensor Circuit High
DCU 19020 Temperature sensor before catalyst (electrical) |signal low |P0427 Catalyst Temperature Sensor Circuit Low
DCU 19037 Sensor supply 2 (5V internal; for UREA pressure sensors) _Supply Voltage too high _P204D Reagent -pressure sensor -short circuit high
DCU 19038 Sensor supply 2 (5V internal; for UREA pressure sensors) |Supply voltage too low |P204C Reagent -pressure sensor -short circuit low
DCU 19046 UREA pressure sensor in box (electrical) |supply voltage error |P204A Reagent -pressure sensor -open circuit
DCU 19047 UREA pressure sensor in box (electrical) _signal high _P204D Reagent -pressure sensor -short circuit high
DCU 19048 UREA pressure sensor in box (electrical) |signal low |P204C Reagent -pressure sensor -short circuit low
DCU 19055 UREA Temperature sensor in box (electrical) _high signal _P2045 Reagent -temperature sensor of pump module -short circuit high
DCU 19056 UREA Temperature sensor in box (electrical) |signal low |P2044 Reagent -temperature sensor of pump module -short circuit low
DCU 19064 Voltage supply internal heaters 1 (UB1) electrical |Open circuit to UB1 |P20C5 Pump module — Internal heating -open circuit
DCU 19065 Voltage supply internal heaters 1 (UB1) electrical |Short to bat at UB1 with Key 15 off |P20C8 Pump module -Internal heating -short circuit high
DCU 19073 Voltage supply 2 -tube heaters (UB2) electrical |Short to bat at UB2 with Key 15 off |P20C4 Reagent -suction tube heating -short circuit high
DCU 19074 Voltage supply 2 -tube heaters (UB2) electrical |Open circuit to UB2 |P20C1 Reagent -suction tube heating -open circuit
DCU 19075 Voltage supply 2 -tube heaters (UB2) electrical |Short circuit to Ground UB2 |P20C3 Reagent — suction tube heating -short circuit low
DCU 19082 Voltage supply 3 -Coolant control valve and reverting valve (UB3) electrical |Short to bat at UB3 with Key 15 off |P20A3 Vent valve (Reductant Purge Control Valve) -short circuit high
DCU 19083 Voltage supply 3 -Coolant control valve and reverting valve (UB3) electrical |Open circuit to UB3 |P20A0 Vent valve (Reductant Purge Control Valve) -open circuit
DCU 19084 Voltage supply 3 -Coolant control valve and reverting valve (UB3) electrical |Short circuit to Ground UB3 |P20A2 Vent valve (Reductant Purge Control Valve) -short circuit low
DCU 19091 Monitoring VDD11 voltage -Dosing valve |supply voltage low |P0658 12 Volt supply for dosing module -below lower limit
DCU 19092 Monitoring VDD11 voltage-Dosing valve _supply voltage high _P0659 12 Volt supply for dosing module -above upper limit
DCU 19100 UREA level sensor (electrical) |supply voltage error |P203E Reductant Level Sensor -Circuit Intermittent/Erratic
DCU 19101 UREA level sensor (electrical) _signal high _P203D Reagent -tank level sensor -short circuit high
DCU 19102 UREA level sensor (electrical) |signal low |P203C Reagent -tank level sensor -short circuit low
DCU 19109 UREA Temperature sensor in Tank (electrical) _signal high _P205D Reagent -tank temperature sensor (temperature of the Reagent -solution in the tank) -short circuit high
DCU 19110 UREA Temperature sensor in Tank (electrical) |signal low |P205C Reagent -tank temperature sensor (temperature of the Reagent -solution in the tank) -short circuit low
DCU 19145 Dosing Valve (electrical) |short circuit to batt + |P2049 Reductant Injector -circuit high
DCU 19146 Dosing Valve (electrical) |short circuit to ground |P2048 Reductant Injector -circuit low
DCU 18147 Dosing Valve (electrical) |open load |P2047 Reductant Injector -circuit open
DCU 19148 Dosing Valve (electrical) |Dosing valve permanent ñONî (detection via fast decay) |P209B Reagent-dosing nozzle pressure too high
DCU 19154 UREA Pump speed |pump motor unplugged |P208B Reagent-pump not delivering
DCU 19155 UREA Pump speed _pump motor blocked _P208A Reagent-pump
DCU 19156 UREA Pump speed |pump overspeed |P208D Reagent-pump over speed
DCU 19157 UREA Pump speed |Hall sensors defect |P208B Reagent-pump not delivering
DCU 19163 Cooling control valve short circuit to UBat or open load |short circuit to battery |P20A3 Vent valve (Reductant Purge Control Valve) -short circuit high
DCU 19164 Cooling control valve short circuit to UBat or open load |Open load |P20A0 Vent valve (Reductant Purge Control Valve) -open circuit
DCU 19172 Cooling control valve short circuit to ground |short circuit to ground |P20A2 Vent valve (Reductant Purge Control Valve) -short circuit low
DCU 19181 Reverting valve (4-2way valve?) electrically |Short circuit to battery |P20A3 Vent valve (Reductant Purge Control Valve) -short circuit high
DCU 19182 Reverting valve (4-2way valve?) electrically |Short circuit to ground |P20A2 Vent valve (Reductant Purge Control Valve) -short circuit low
DCU 19183 Reverting valve (4-2way valve?) electrically |Open load |P20A0 Vent valve (Reductant Purge Control Valve) -open circuit
DCU 19262 Tank heating Valve |Short circuit to battery |P20B4 Reagent -tank heating valve -short circuit high
DCU 19263 Tank heating Valve |Short circuit to ground |P20B3 Reagent -tank heating valve -short circuit low
DCU 19264 Tank heating Valve |Open load |P20B1 Reagent -tank heating valve -open circuit
DCU 19289 Temperature after catalyst too low |Downstream catalyst temp -physical (Catalyst heating time failed) |P042B Catalyst Temperature Sensor Circuit Range/Performance
DCU 19298 UREA pressure too low at system start |UREA pressure too low at system start |P208B Reagent pump not delivering
DCU 19307 UREA pressure too high |Urea pressure not plausible (urea pressure too high) |P204B Reagent -pressure above threshold
DCU 19316 UREA Temperature in Pump Module out of range |Urea temperature box -physical (Urea Box Temp NOT OK: outside range) |P2043 Reagent-temperature sensor of pump module out of range
DCU 19325 UREA Temperature in Tank out of range |Urea temperature tank -physical (Urea Tank Temp NOT OK: outside range) |P205B Reagent -tank temperature sensor (temperature of the Reagent
-solution in the tank) out of range
DCU 19334 System frozen and not free in time _Defreezing Mode and Detection Errors (Inlet line defreezing failed) _P20C2 Reagent -suction tube heating -detection mode of heating
DCU 19335 System frozen and not free in time |Defreezing Mode and Detection Errors (pressure line defreezing failed) |P20BE Reagent -pressure tube heating -detection mode of heating
DCU 19336 System frozen and not free in time |Defreezing Mode and Detection Errors (pressure build-up in detection mode failed)|P20C5 Pump module -Internal heating -open circuit
DCU 19337 System frozen and not free in time |Defreezing Mode and Detection Errors (Back-flow line defreezing failed) |P20B9 Reagent -backflow tube heating -open circuit
DCU 19343 Coolant control valve mechanically |mechanical defective blocked open |P20A3 Vent valve (Reductant Purge Control Valve) -short circuit high
DCU 19344 Coolant control valve mechanically _mechanical defective blocked closed _P20A0 Vent valve (Reductant Purge Control Valve) -open circuit
DCU 19352 Reverting valve (4-2way valve?) mechanically |valve does not open |P20A0 Vent valve (Reductant Purge Control Valve) -open circuit
DCU 19361 Battery Voltage (actual value) |High battery voltage |P0562 Battery voltage evaluation -below lower limit
DCU 19362 Battery Voltage (actual value) _Low battery voltage _P0563 Battery voltage evaluation -above upper limit
DCU 19370 UREA pressure too low (in ñcommissioningî status) |Pump motor error during commissioning (pump not delivering) |P208B Reagent-pump not delivering
DCU 19379 UREA Temperature too low during commissioning |Temperatures not plausible during commissioning.
DCU 19415 Empty UREA Tank _urea tank empty _P203F Reagent -fluid level in tank -too low
DCU 19532 Back flow line clogged |P2063 Reagent -dosing valve -short circuit low
DCU 19541 Coolant control valve mechanically |Blocked closed |P20A1 Vent valve test plausibility test (startup)
DCU 19550 Pressure line blocked |pressure line blocked |P209B Reagent -dosing nozzle -pressure too high
DCU 19559 Low UREA level 1 (warning) -UREA level below Limit 1 -P203F Reagent -fluid level in tank -too low
DCU 19568 Low UREA level 2 (warning) -UREA level below Limit 2 -P203F Reagent -fluid level in tank -too low
DCU 19577 CAN receive frame E2SCR (Dosing, Exh gas flow, Exh gas temp, Error Suppression, Heater, Long Term failure) |SAE J1939 Check for CAN receive signal : (UREA quantity not in range)
|P0600
DCU 19578 CAN receive frame E2SCR (Dosing, Exh gas flow, Exh gas temp, Error Suppression, Heater, Long Term failure) |SAE J1939 Check for CAN receive signal : (Dosing status not in range)
|P0600 Serial Communication Link
DCU 19579 CAN receive frame E2SCR (Dosing, Exh gas flow, Exh gas temp, Error Suppression, Heater, Long Term failure) _timeout _P0600 Serial Communication Link
DCU 19580 CAN receive frame E2SCR (Dosing, Exh gas flow, Exh gas temp, Error Suppression, Heater, Long Term failure) |too many CAN messages |P0600 Serial Communication Link
DCU 19581 CAN receive frame E2SCR (Dosing, Exh gas flow, Exh gas temp, Error Suppression, Heater, Long Term failure) _SAE J1939 Check for CAN receive signal _P0600 Serial Communication Link
DCU 19595 CAN receive frame EEC1 (Driver demand, eng speed, eng torque) |SAE J1939 Check for CAN receive signal : (Engine torque not in range) |P0600 Serial Communication Link
DCU 19596 CAN receive frame EEC1 (Driver demand, eng speed, eng torque) |SAE J1939 Check for CAN receive signal : (Engine speed not in range) |P0600 Serial Communication Link
DCU 19597 CAN receive frame EEC1 (Driver demand, eng speed, eng torque) _timeout _P0600 Serial Communication Link
DCU 19598 CAN receive frame EEC1 (Driver demand, eng speed, eng torque) |too many CAN messages _ ïP0600 Serial Communication Link
DCU 19599 CAN receive frame EEC1 (Driver demand, eng speed, eng torque) |SAE J1939 Check for CAN receive signal : (Torque driver demand not in range) |P0600 Serial Communication Link
DCU 19604 CAN receive frame ET1 (Oil and Water temp engine) |SAE J1939 Check for CAN receive signal : (Oil temperature not in range) |P0600 Serial Communication Link
DCU 19605 CAN receive frame ET1 (Oil and Water temp engine) _timeout _P0600 Serial Communication Link
DCU 19606 CAN receive frame ET1 (Oil and Water temp engine) |too many CAN messages |P0600 Serial Communication Link
DCU 19607 CAN receive frame ET1 (Oil and Water temp engine) |SAE J1939 Check for CAN receive signal : (Water temperature not in range) |P0600 Serial Communication Link
DCU 19649 UREA Tank level error (CAN message or electrical with real sensor) |Level over CAN: SAE J1939 no Signal available Level sensor connected directly: Sensor Supply error |P203A Reagent
-tank level sensor -open circuit
DCU 19650 UREA Tank level error (CAN message or electrical with real sensor) _Level over CAN: SAE J1939 Signal Not in Range Level sensor connected directly: SRC high _P203D Reagent -tank level
sensor -short circuit high
DCU 19651 UREA Tank level error (CAN message or electrical with real sensor) |Level over CAN: SAE J1939 Erroneous Signal Level sensor connected directly: SRC low |P203C Reagent -tank level
sensor — short circuit low
DCU 19676 Ambient Temperature: SAE J1939 Check for CAN receive signal : (Signal Range Check: Signal not in range / Erroneous Signal / Signal not available) |SAE J1939 Check for CAN receive
signal : (Ambient air temperature not in range) |P0600 Serial Communication Link
DCU 19677 Ambient Temperature: SAE J1939 Check for CAN receive signal : (Signal Range Check: Signal not in range / Erroneous Signal / Signal not available) _timeout _P0071 Ambient Air Temperature
Sensor Range/Performance
DCU 19678 Ambient Temperature: SAE J1939 Check for CAN receive signal : (Signal Range Check: Signal notin range / Erroneous Signal / Signal not available) |too many CAN messages |P0071 Ambient
Air Temperature Sensor Range/Performance
DCU 19679 Ambient Temperature: SAE J1939 Check for CAN receive signal : (Signal Range Check: Signal not in range / Erroneous Signal / Signal not available) |SAE J1939 Check for CAN receive
signal : (Barometric pressure not in range) |P0071 Ambient Air Temperature Sensor Range/Performance
DCU 19721 EEPROM / Checksum failures |EEPROM write error |P062F Internal Control Module EEPROM Error
DCU 19722 EEPROM / Checksum failures |No corresponding variant number error |P062F Internal Control Module EEPROM Error
DCU 19723 EEPROM / Checksum failures |EEPROM communication error |P062F Internal Control Module EEPROM Error
DCU 19724 EEPROM / Checksum failures _EEPROM Detection error OR A Codierwort error |P062F Internal Control Module EEPROM Error
DCU 19725 EEPROM / Checksum failures |Wrong EEPROM size |P062F Internal Control Module EEPROM Error
DCU 19730 Ignition ñonî signal K15 |digital input ignition ON not sensed during initialization |P2530 Ignition switch -plausibility error
DCU 19739 Main Relay opens too early / too late |main relay shut off too late |P0687 ECM/PCM Power Relay Control Circuit High
DCU 19740 Main Relay opens too early / too late |main relay short circuit |P0685 ECM/PCM Power Relay Control Circuit /Open
DCU 19741 Main Relay opens too early / too late |main relay open circuit |P0687 ECM/PCM Power Relay Control Circuit High
DCU 19742 Main Relay opens too early / too late _main relay shut off too early (before EEPROM update) _ P0685 ECM/PCM Power Relay Control Circuit /Open
DCU 19748 Too high UREA Temperature in Pump module or Leakage test failed (Emergency shut off) _over temperature detection (urea temp. in pump module) _P2043 Reagent -temperature sensor of pump
module -Out of range
DCU 19749 Too high UREA Temperature in Pump module or Leakage test failed (Emergency shut off) |urea leakage detection (static or dynamic) |P202D Dynamic urea leakage test -Leakage detected
DCU 19757 Group error path UREA injection control _Error belonging to group UREA Injection control _ P208B Reagent-pump -Not delivering
DCU 19766 Group error path Air control _Error belonging to group air control _P20A7 Compressed air regulation valve
DCU 19775 Group error path catalyst temperature _Error belonging to group catalyst temperature out of range _P0426 Plausibility of catalyst temperature sensors -Plausibility error (static)
DCU 19784 Group error path NOx exceeded _Error belonging to group NOx exceeded active _P2000 Nox Trap Efficiency Below Threshold
DCU 19793 Group error path UREA Tank empty _Error belonging to group UREA tank empty active _P203F Reagent -fluid level in tank -Too low
DCU 19999 Unknown DCU15 fault code
NEW HOLLAND ERROR CODES
NH 1002 Radar disconnected
NH 1003 Speed sensor error
NH 1004 Speed sensor signal too High
NH 1005 Speed sensor signal too High
NH 1006 Slip control potentiometer signal too low
NH 1007 Slip control potentiometer signal too High
NH 1008 Raise / work switch failure
NH 1009 Both external switches operated at the same time
NH 1010 Height limit potentiometer signal too low
NH 1011 Height limit potentiometer signal too high
NH 1012 Drop rate potentiometer signal too low
NH 1013 Drop rate potentiometer signal too high
NH 1014 R/H load sensing pin signal too low
NH 1015 R/H load sensing pin signal too high
NH 1016 L/H load sensing pin signal too low
NH 1017 L/H load sensing pin signal too high
NH 1018 Both load sensing pin disconnected
NH 1019 Load sensing pin voltage too low
NH 1020 Load sensing pin voltage too high
NH 1021 Position / draft control potentiometer too low
NH 1022 Position / draft control potentiometer too high
NH 1023 Control panel disconnected
NH 1024 Perform Hydraulic Lift Autocalibration
NH 1025 Mouse lift lever potentiometer signal too low
NH 1026 Mouse lift lever potentiometer signal too high
NH 1027 Maximum Lift arm position potentiometer too low
NH 1028 Maximum Lift arm position potentiometer too high
NH 1029 Hydraulic Control valve disconnected
NH 1030 Ground signal open circuit ( not used )
NH 1031 Chassis Harness Disconnected
NH 1032 Draft Load potentiometer shorted to +12v
NH 1033 Draft Load potentiometer open circuit
NH 1049 Wheel speed sensor open circuit
NH 1053 5 volt reference Short to +12v
NH 1054 5 volt reference Short to ground.
NH 1057 Module Failure ( not used )
NH 1059 5 volt reference Open circuit ( not used )
NH 1063 Lower solenoid open circuit
NH 1064 Raise solenoid open circuit
NH 1065 lower solenoid short circuit
NH 1066 Raise solenoid short circuit
NH 1067 EDC Hydraulic Valve supply too low
NH 1068 Height limit Calibration Error
NH 2001 ‘N’ — Shuttle too fast error
NH 2002 Flash N error
NH 2003 ‘CP’ — Clutch pedal required
NH 2004 ‘P’ — Handbrake error
NH 2005 Creeper selection error
NH 2011 Clutch Pedal Potentiometer Signal too Low
NH 2012 Clutch Pedal Potentiometer Signal too High
NH 2013 Up and Down buttons at same time
NH 2014 Switch 4 / 5 error ( not used )
NH 2015 HI / LO shift lever switches both closed
NH 2016 Creeper Solenoid Short circuit
NH 2021 Chassis Harness Error
NH 2024 Synchro clutches not calibrated
NH 2026 Engine speed too high
NH 2027 Engine speed too low
NH 2035 Dump solenoid circuit fault
NH 2036 Dump solenoid open circuit
NH 2037 Clutch Pedal switch open circuit
NH 2038 Clutch 4 solenoid short circuit
NH 2039 Clutch 4 solenoid open circuit
NH 2040 Clutch 3 solenoid short circuit
NH 2041 Clutch 3 solenoid open circuit
NH 2042 Clutch 2 solenoid short circuit
NH 2043 Clutch 2 solenoid open circuit
NH 2044 Clutch 1 solenoid short circuit
NH 2045 Clutch 1 solenoid open circuit
NH 2046 Fuse 12 open circuit ( not used )
NH 2047 Clutch pedal switch set too High
NH 2048 Clutch pedal switch set too Low
NH 2049 Wheel speed sensor short or open
NH 2051 Oil temperature sensor open circuit
NH 2052 Oil temperature sensor short circuit
NH 2053 5 Volt Potentiometer Supply too High
NH 2054 5 Volt Potentiometer Supply too Low
NH 2055 No signal from wheel speed sensor
NH 2056 Low Range switch open
NH 2057 High Range switch open
NH 2058 Seat switch closed for 25 hours
NH 2059 Shuttle Lever switch disagree
NH 2060 Synchro Fwd no longer engaged
NH 2061 F/R Synchro Potentiometer signal too high
NH 2062 F/R Synchro Potentiometer signal too low
NH 2063 Synchro not moving to forward
NH 2064 Synchro not moving to reverse
NH 2065 Forward solenoid open circuit
NH 2066 Reverse solenoid open circuit
NH 2067 Forward solenoid circuit fault
NH 2068 Reverse solenoid circuit fault
NH 2069 Synchro reverse no longer engaged
NH 2070 Voltage with lever in forward too high
NH 2071 Voltage with lever in forward too low
NH 2072 Voltage with lever in reverse too high
NH 2073 Voltage with lever in reverse too low
NH 2075 Flywheel Speed Sensor Frequency is too high
NH 2075 Any period is too short, under 400 microseconds
NH 2075 Any short period is longer than the corresponding long period
NH 2075 Damper angle is below 50 degrees or above 85 degrees
NH 2075 Calculated torque exceeds calibrated peak torque by more than 25%
NH 2075 No usable signals from the flywheel sensor, and ERPM is greater than 300
NH 2076 Flywheel Speed Sensor open circuit
NH 2077 Flywheel Speed Sensor short circuit
NH 2080 Synchro 4 no longer engaged
NH 2081 4/5 Synchro Potentiometer signal too high
NH 2082 4/5 Synchro Potentiometer signal too low
NH 2083 Synchro 4 engaged error
NH 2084 Synchro 5 engaged error
NH 2085 Synchro 4 solenoid open circuit
NH 2086 Synchro 5 solenoid open circuit
NH 2087 Synchro 4 solenoid short to 12v
NH 2088 Synchro 5 solenoid short to 12v
NH 2089 Synchro 5 no longer engaged
NH 2090 Output speed too high in creeper
NH 2091 C3 Clutch not calibrated
NH 2092 C4 Clutch not calibrated
NH 2093 High Clutch not calibrated
NH 2094 Low Clutch not calibrated
NH 2095 C1 Clutch not calibrated
NH 2096 C2 Clutch not calibrated
NH 2097 Clutch 5 not calibrated
NH 2098 C5 solenoid short to 12v
NH 2099 C5 open circuit
NH 2100 C5 dump solenoid short to 12v
NH 2101 C5 dump solenoid open circuit
NH 2124 Flywheel Torque Sensor not calibrated
NH 2199 Creeper option not enabled
NH 3001 Accelerator Pedal Signal — NOT PLAUSIBLE
NH 3002 Accelerator Pedal Signal — SOURCE HIGH
NH 3003 Accelerator Pedal Signal — SOURCE LOW
NH 3004 Accelerator Pedal Signal — NO SIGNAL
NH 3005 Accelerator Pedal Signal — ALL OTHER FAULTS
NH 3006 Coolant Temperature Signal — ABOVE NORMAL
NH 3007 Coolant Temperature Signal — SOURCE HIGH
NH 3008 Coolant Temperature Signal — SOURCE LOW
NH 3009 Coolant Temperature Signal — NO SIGNAL
NH 3010 Air (boost) Temperature Signal — SOURCE HIGH
NH 3011 Air (boost) Temperature Signal — SOURCE LOW
NH 3012 Air (boost) Temperature Signal — NO SIGNAL
NH 3014 Fuel Temperature Signal — ABOVE NORMAL
NH 3015 Fuel Temperature Signal — SOURCE HIGH
NH 3016 Fuel Temperature Signal — SOURCE LOW
NH 3017 Fuel Temperature Signal — NO SIGNAL
NH 3018 Boost Pressure Signal — ABOVE NORMAL
NH 3019 Boost Pressure Signal — SOURCE HIGH
NH 3020 Boost Pressure Signal — SOURCE LOW
NH 3021 Boost Pressure Signal — NO SIGNAL
NH 3022 Boost Pressure Signal — ALL OTHER FAULTS
NH 3023 Atmospheric Pressure Signal — ABOVE NORMAL
NH 3024 Atmospheric Pressure Signal — SOURCE HIGH
NH 3025 Atmospheric Pressure Signal — SOURCE LOW
NH 3026 Atmospheric Pressure Signal — NO SIGNAL
NH 3027 Oil Pressure Signal — ABOVE NORMAL
NH 3028 Oil Pressure Signal — BELOW NORMAL
NH 3029 Oil Pressure Signal — SOURCE HIGH
NH 3030 Oil Pressure Signal — SOURCE LOW
NH 3031 Oil Pressure Signal — NO SIGNAL
NH 3032 Oil Pressure Signal — ALL OTHER FAULTS
NH 3033 Oil Temperature Signal — ABOVE NORMAL
NH 3034 Oil Temperature Signal — SOURCE HIGH
NH 3035 Oil Temperature Signal — SOURCE LOW
NH 3036 Oil Temperature Signal — NO SIGNAL
NH 3037 Power stage Fuel filter heater — SOURCE HIGH
NH 3038 Power stage Fuel filter heater — SOURCE LOW
NH 3039 Power stage Fuel filter heater — NO SIGNAL
NH 3040 HS Power stage cold start heater relay — SOURCE HIGH
NH 3041 HS Power stage cold start heater relay — SOURCE LOW
NH 3042 HS Power stage cold start heater relay — NO SIGNAL
NH 3043 Adapt.cylinder balancing Cylinder 1 — SOURCE HIGH
NH 3044 Adapt.cylinder balancing Cylinder 5 — SOURCE HIGH
NH 3045 Adapt.cylinder balancing Cylinder 3 — SOURCE HIGH
NH 3046 Adapt.cylinder balancing Cylinder 6 — SOURCE HIGH
NH 3047 Adapt.cylinder balancing Cylinder 2 — SOURCE HIGH
NH 3048 Adapt.cylinder balancing Cylinder 4 — SOURCE HIGH
NH 3049 Battery voltage signal — ABOVE NORMAL
NH 3050 Battery voltage signal — BELOW NORMAL
NH 3051 Battery voltage signal — SOURCE HIGH
NH 3052 Battery voltage signal — SOURCE LOW
NH 3053 LS Power stage cold start lamp — SOURCE HIGH
NH 3054 LS Power stage cold start lamp — SOURCE LOW
NH 3055 LS Power stage cold start lamp — NO SIGNAL
NH 3056 Cold start heater monitoring — BELOW NORMAL
NH 3057 Cold start heater monitoring — NOT PLAUSIBLE
NH 3058 Cold start heater monitoring — SOURCE LOW
NH 3059 Cold start heater monitoring — NO SIGNAL
NH 3060 Injector solenoid valve Cylinder 1 — NOT PLAUSIBLE
NH 3061 Injector solenoid valve Cylinder 1 — SOURCE HIGH
NH 3062 Injector solenoid valve Cylinder 1 — SOURCE LOW
NH 3063 Injector solenoid valve Cylinder 1 — NO SIGNAL
NH 3064 Injector solenoid valve Cylinder 5 — NOT PLAUSIBLE
NH 3065 Injector solenoid valve Cylinder 5 — SOURCE HIGH
NH 3066 Injector solenoid valve Cylinder 5 — SOURCE LOW
NH 3067 Injector solenoid valve Cylinder 5 — NO SIGNAL
NH 3068 Injector solenoid valve Cylinder 3 — NOT PLAUSIBLE
NH 3069 Injector solenoid valve Cylinder 3 — SOURCE HIGH
NH 3070 Injector solenoid valve Cylinder 3 — SOURCE LOW
NH 3071 Injector solenoid valve Cylinder 3 — NO SIGNAL
NH 3072 Injector solenoid valve Cylinder 6 — NOT PLAUSIBLE
NH 3073 Injector solenoid valve Cylinder 6 — SOURCE HIGH
NH 3074 Injector solenoid valve Cylinder 6 — SOURCE LOW
NH 3075 Injector solenoid valve Cylinder 6 — NO SIGNAL
NH 3076 Injector solenoid valve Cylinder 2 — NOT PLAUSIBLE
NH 3077 Injector solenoid valve Cylinder 2 — SOURCE HIGH
NH 3078 Injector solenoid valve Cylinder 2 — SOURCE LOW
NH 3079 Injector solenoid valve Cylinder 2 — NO SIGNAL
NH 3080 Injector solenoid valve Cylinder 4 — NOT PLAUSIBLE
NH 3081 Injector solenoid valve Cylinder 4 — SOURCE HIGH
NH 3082 Injector solenoid valve Cylinder 4 — SOURCE LOW
NH 3083 Injector solenoid valve Cylinder 4 — NO SIGNAL
NH 3084 Injector Booster Voltage C1 — SOURCE HIGH
NH 3085 Injector Booster Voltage C1 — SOURCE LOW
NH 3086 Injector Booster Voltage C2 — SOURCE HIGH
NH 3087 Injector Booster Voltage C2 — SOURCE LOW
NH 3088 Increment speed signal — NOT PLAUSIBLE
NH 3089 Increment speed signal — SOURCE LOW
NH 3090 Segment speed signal — NOT PLAUSIBLE
NH 3091 Segment speed signal — SOURCE LOW
NH 3092 Engine Speed Sensing — NOT PLAUSIBLE
NH 3093 Engine Speed Sensing — SOURCE HIGH
NH 3094 Engine Speed Sensing — SOURCE LOW
NH 3095 Engine Speed Sensing — NO SIGNAL
NH 3096 CAN (A) Hardware — NO SIGNAL
NH 3097 CAN (B) Hardware — NO SIGNAL
NH 3098 CAN TSC1_TE Control — SOURCE LOW
NH 3099 CAN TSC1_TE Control — NO SIGNAL — CAN TE and CAN AE (Torque Request) error codes may be generated due to normal shutdown timing differences between the ECU and the XCM. If so, the actual
error code 3096 or 3097 should also be displayed.
NH 3100 CAN TSC1_AE Control — SOURCE LOW
NH 3101 CAN TSC1_AE Control — NO SIGNAL
NH 3102 Fuel pressure monitoring CP3 — ALL OTHER FAULTS
NH 3102 Possible Causes: • Low fuel supply to CP3 (filter restriction). • Low output from CP3 • CP3 PWM fault (Check PWM output in Atlas, min 3% at engine idle, max 24% at full load Above 24%
indicates excessive fuel leakage from the overpressure valve in the rail or Injector/transfer tube (remove the fuel return lines to check).
NH 3103 Fuel pressure signal — ABOVE NORMAL
NH 3104 Fuel pressure signal — SOURCE HIGH
NH 3105 Fuel pressure signal — SOURCE LOW
NH 3106 Fuel pressure signal — NO SIGNAL
NH 3107 CC HS Power stage 1 fuel press. Control — SOURCE HIGH
NH 3108 CC HS Power stage 1 fuel press. Control — SOURCE LOW
NH 3109 CC HS Power stage 1 fuel press. Control — NO SIGNAL
NH 3110 Monitoring of rail pressure relief valve — ABOVE NORMAL
NH 3111 Monitoring of rail pressure relief valve — BELOW NORMAL
NH 3112 Rail pressure Min / Max. error — SOURCE HIGH
NH 3113 Main relay defect — ABOVE NORMAL
NH 3114 Main relay defect — BELOW NORMAL
NH 3115 Main relay defect — NOT PLAUSIBLE
NH 3116 Main relay defect — SOURCE HIGH
NH 3117 ECU: Self Test Shutoff Paths ( Start Up ) — NOT PLAUSIBLE. Engine will derate to 1800 rpm.
NH 3117 Possible Causes: • ECU power failed when the engine was running or engine shut down process was incorrect.
NH 3118 Power supply for sensors — NOT PLAUSIBLE
NH 3119 Power supply for sensors — NO SIGNAL
NH 3120 Power supply for sensors — ALL OTHER FAULTS
NH 3121 PTO Torque sensor open circuit
NH 3122 PTO Torque sensor short circuit
NH 3123 PTO Torque not CAL error
NH 3124 Hand Throttle potentiometer 2 high error.
NH 3125 Hand Throttle potentiometer 2 Low error.
NH 3126 Hand Throttle potentiometer 1 high error.
NH 3127 Hand Throttle potentiometer 1 Low error.
NH 3128 Hand Throttle potentiometer diff. error.
NH 3129 Hand Throttle idle switch high error
NH 3130 Hand Throttle idle switch low error
NH 3131 ECU self test shutoff paths (start up)
NH 3132 CRPM Switch short
NH 4001 Signal of Aux-stick (AUX1) out of range low
NH 4002 Signal of Aux-stick (AUX1) out of range high
NH 4003 Signal from Remote Flow potentiometer 1 (AUX 1) out of range.
NH 4005 Signal of Aux-stick (AUX2) out of range low
NH 4006 Signal of Aux-stick (AUX2) out of range high
NH 4007 Signal from Remote Flow potentiometer 2 (AUX 2) out of range.
NH 4008 Signal from Remote valve 2 Timer Pot 1 out of range
NH 4009 Signal of Aux-stick (AUX3) out of range low
NH 4010 Signal of Aux-stick (AUX3) out of range high
NH 4011 Signal from Remote Flow potentiometer 3 (AUX 3) out of range.
NH 4015 Signal from Remote Flow potentiometer 4 (AUX 4) out of range.
NH 4016 Signal from Remote valve Timer potentiometer 1 out of range.
NH 4040 Supply Voltage too low
NH 4041 Supply Voltage too High
NH 4042 Arm Rest Module (ARU) CAN ‘Bus off’.
NH 4043 Controller Fault ( Register check)
NH 4044 Controller Fault (Flash Memory)
NH 4045 Controller Fault (Data Memory)
NH 4100 Remote No.1 No control Message Received
NH 4101 Remote No.1 Control Message not plausible
NH 4102 Remote No.1 EEPROM Error
NH 4103 Remote No.1 Switched to failsafe
NH 4104 Remote No.1 Under voltage
NH 4105 Remote No.1 Over voltage
NH 4106 Remote No.1 Spool movement to low
NH 4107 Remote No.1 Spool movement to high
NH 4108 Remote No.1 Float position not reached
NH 4109 Remote No.1 Manually operated
NH 4110 Remote No.1 Driver faulty
NH 4111 Remote No.1 potentiometer faulty.
NH 4112 Remote No.1 Unable to reach neutral
NH 4113 Remote No.1 Spool not in neutral at key on
NH 4114 Remote No.2 No control Message Received
NH 4115 Remote No.2 Control Message not plausible
NH 4116 Remote No.2 EEPROM Error
NH 4117 Remote No.2 Switched to failsafe
NH 4118 Remote No.2 Under voltage
NH 4119 Remote No.2 Over voltage
NH 4120 Remote No.2 Spool movement to low
NH 4121 Remote No.2 Spool movement to high
NH 4122 Remote No.2 Float position not reached
NH 4123 Remote No.2 Manually operated
NH 4124 Remote No.2 Driver faulty
NH 4125 Remote No.2 potentiometer faulty
NH 4126 Remote No.2 Unable to reach neutral
NH 4127 Remote No.2 Spool not in neutral at key on
NH 4128 Remote No.3 No control Message Received
NH 4129 Remote No.3 Control Message not plausible
NH 4130 Remote No.3 EEPROM Error
NH 4131 Remote No.3 Switched to failsafe
NH 4132 Remote No.3 Under voltage
NH 4133 Remote No.3 Over voltage
NH 4134 Remote No.3 Spool movement to low
NH 4135 Remote No.3 Spool movement to high
NH 4136 Remote No.3 Float position not reached
NH 4137 Remote No.3 Manually operated
NH 4138 Remote No.3 Driver faulty
NH 4139 Remote No.3 potentiometer faulty.
NH 4140 Remote No.3 Unable to reach neutral
NH 4141 Remote No.3 Spool not in neutral at key on
NH 4142 Remote No.4 No control Message Received
NH 4143 Remote No.4 Control Message not plausible
NH 4144 Remote No.4 EEPROM Error
NH 4145 Remote No.4 Switched to failsafe
NH 4146 Remote No.4 Under voltage
NH 4147 Remote No.4 Over voltage
NH 4148 Remote No.4 Spool movement to low
NH 4149 Remote No.4 Spool movement to high
NH 4150 Remote No.4 Float position not reached
NH 4151 Remote No.4 Manually operated
NH 4152 Remote No.4 Driver faulty
NH 4153 Remote No.4 potentiometer faulty.
NH 4154 Remote No.4 Unable to reach neutral
NH 4155 Remote No.4 Spool not in neutral at key on
NH 4156 Remote No.5 Spare
NH 4157 Remote No.5 Spare
NH 4158 Remote No.5 Spare
NH 4159 Remote No.5 Spare
NH 4160 Remote No.5 Spare
NH 4161 Remote No.5 Spare
NH 4162 Remote No.5 Spare
NH 4163 Remote No.5 Spare
NH 4164 Remote No.5 Spare
NH 4165 Remote No.5 Spare
NH 4166 Remote No.5 Spare
NH 4167 Remote No.5 Spare
NH 4168 Remote No.5 Spare
NH 4170 EHR Control No. 1 not calibrated
NH 4171 EHR Control No.1 open circuit
NH 4172 EHR Control No.1 short circuit
NH 4173 EHR Control No. 2 not calibrated
NH 4174 EHR Control No.2 open circuit
NH 4175 EHR Control No.2 short circuit
NH 4176 Timer Switch No.1 / No.2 not connected
NH 4177 EHR Control No. 3 not calibrated
NH 4178 EHR Control No.3 open circuit
NH 4179 EHR Control No.3 short circuit
NH 4180 EHR Control No. 4 not calibrated
NH 4181 EHR Control No.4 open circuit
NH 4182 EHR Control No.4 short circuit
NH 4183 Timer Switch No.3 / No.4 not connected
NH 4184 EHR Joystick potentiometer X open circuit.
NH 4185 EHR Joystick potentiometer X short circuit.
NH 4186 EHR Joystick potentiometer Y open circuit.
NH 4187 EHR Joystick potentiometer Y short circuit.
NH 4190 No communications from (EHR) No.1.
NH 4191 No communications from ( EHR) No.2.
NH 4192 No communications from ( EHR) No.3.
NH 4193 No communications from ( EHR) No. 4.
NH 4194 Motor mode No.1 switch faulty
NH 4195 Motor mode No.2 switch faulty
NH 4196 Motor mode No.3 switch faulty
NH 4197 Motor mode No. 4 switch faulty
NH 5001 Rear PTO Brake Solenoid stuck off
NH 5002 Rear PTO Brake Solenoid stuck on
NH 5003 Rear PTO Brake output open circuit
NH 5004 Rear PTO Brake driver over temperature ( not used )
NH 5005 Brake switch open circuit
NH 5007 Rear PTO Solenoid Stuck off
NH 5008 Rear PTO solenoid circuit overcurrent
NH 5024 Rear PTO not calibrated
NH 5027 Rear PTO speed sensor open circuit (not implemented)
NH 5033 Rear PTO cab N/C switch open circuit
NH 5034 Rear fender PTO switch open / short to ground.
NH 5035 Rear fender PTO switch input short to +12v
NH 5036 PTO failure to Start
NH 5037 Rear PTO cab N/O switch stuck closed
NH 5038 Cab & fender PTO switches operated in 2 sec
NH 5039 Incorrect voltage on fender PTO switch
NH 5040 Rear fender PTO switches reversed ( not used )
NH 5041 PTO disengaged due to assuasive load ( not used )
NH 5042 PTO Management switch shorted
NH 5099 Auto PTO mode not enabled
NH 6020 FWD switch error
NH 6021 FWD Solenoid Stuck on
NH 6022 FWD Solenoid Stuck off
NH 6023 FWD solenoid open circuit
NH 7014 Difflock switch error
NH 7015 Difflock Solenoid Stuck off
NH 7016 Difflock Solenoid Stuck on
NH 7017 Difflock solenoid open circuit
NH 7018 Difflock driver over temperature
NH 7024 Steering angle sensor not calibrated
NH 7031 Steering angle sensor out of Maximum range
NH 7032 Steering angle sensor out of Minimum range
NH 8007 Front PTO Solenoid Stuck on
NH 8008 Front PTO solenoid open circuit
NH 8024 Front PTO not calibrated
NH 8027 Front PTO speed sensor open circuit
NH 8033 Front PTO cab N/C switch open circuit
NH 8036 Front PTO failure to Start
NH 8037 Front PTO cab N/O switch stuck closed
NH 8099 Front PTO option not enabled
NH 9001 Front HPL (High Pressure Lift) Potentiometer open circuit.
NH 9002 Front HPL (High Pressure Lift) Potentiometer short circuit.
NH 10001 Upper lockout Solenoid error
NH 10002 Raise Solenoid error
NH 10003 Lower Solenoid error
NH 10004 Front Axle Potentiometer above threshold
NH 10005 Front Axle Potentiometer below threshold
NH 10007 Go up error, Suspension Unable to return to set point
NH 10008 Go down error, Suspension Unable to return to set point
NH 10009 Lower lockout Solenoid Error
NH 10024 Front Suspension not calibrated
NH 10099 Front Suspension mode not enabled
NH 14001 Rear PTO speed short to VCC or open circuit
NH 14002 Rear PTO speed short to Ground
NH 14011 Engine speed sensor short to VCC or open circuit
NH 14012 Engine speed sensor short to Ground
NH 14015 The ADIC 5 volt reference voltage is too low — below 4 volts
NH 14016 The ADIC 5 volt reference voltage is too high — above 6 volts
NH 14021 Radar Ground speed short to VCC or open circuit
NH 14022 Radar Ground speed short to Ground
NH 14031 Front PTO speed short to VCC or open circuit
NH 14032 Front PTO speed short to Ground
NH 14041 Engine coolant temp short to VCC or open circuit
NH 14042 Engine coolant temp short to Ground
NH 14051 Fuel level sensor short to VCC or open circuit
NH 14052 Fuel level sensor short to Ground
NH 14061 Air brake pressure short to VCC or option set but sensor not connected
NH 14071 Front Hitch Position short to 12 or 5 Volts
NH 14072 Front Hitch Position short to Ground or open circuit
NH 14081 Engine oil pressure short to 12 or 5 Volts
NH 14082 Engine oil pressure short to Ground or open circuit
NH 14091 Transmission output speed short to VCC or open circuit
NH 14092 Transmission output speed short to Ground
NH 14100 Air brake pressure not configured
NH 14101 Fuel contaminated sensor Not connected
NH 14200 EEPROM error
NH 14900 Transmission module missing (DA/DB/DE/DF).
NH 14901 Engine controller not present (EDC7)
NH 14902 Auxiliry (optional) Controller Module missing (DD/DH).
NH 14903 SCM controller missing (GA 12×12 only).
NH 14904 Arm Rest Module (ARU) missing. (Steyr 16×16 only)
NH 14905 KEYPAD missing
NH 14906 Fast Steer Controller (KA) missing.
NH 14907 DOG (Display Of Gears) missing.
NH 15001 Exceeding safe operating wheel speed (10 km/h) with system still enabled or still active. Error code not active fast steer lamp flashes instead.
NH 15002 Steering wheel control proximity sensor open circuit.
NH 15003 Steering wheel control proximity sensor short circuit.
NH 15006 Split valve LVDT open circuit.
NH 15007 Split valve LVDT short circuit.
NH 15008 Change valve Solenoid open circuit
NH 15009 Change valve Solenoid short circuit across
NH 15010 Safety switch Fail
NH 15011 Maximum engagement time (5 minutes) elapsed.
NH 15012 Split Valve spool stuck open
NH 15013 Change valve or Split valve spools Stuck closed.
NH 15014 Split Valve spool stuck in transition zone cant identify which steering mode the tractor is definitely in.
NH 15015 Cold oil, temperature below 5 degrees C. Error code not active fast steer lamp flashes instead.
NH 15024 System not calibrated.
Компания Case была основана в 1842 году и выпускала молотилки, но официальное признание в качестве производителя тракторов получила только в 1905 году, когда мир увидел агрегат с двигателем внутреннего сгорания. Для того, чтобы бренд был более узнаваем, руководство компании приняло решение в качестве ведущего цвета использовать красный.
Развитие производства шло в ногу со временем, поэтому можно с уверенностью сказать, что трактора Кейс одни из самых современных и модернизированных. Благодаря использованию передовых технологий на протяжении всего существования компании, продукция завоевала популярность среди потребителей. Бурный рост компании прослеживался на протяжении всех лет существования, при этом не останавливаясь на достигнутом, а расширяя направления.
Заметного расширения дилерской сети компания достигла к концу 80-х, когда вся европейская часть мира интересовалась проблемами механизации сельского хозяйства. Широкий модельный ряд позволяет приобрести трактор Кейс для любого вида работ, а огромное их преимущество в том, что к нему можно подключить различное навесное оборудование и от этого функциональность только увеличивается.
Трактора разделены на серии, каждая из которых отличается мощностью двигателя и другими техническими характеристиками. Основным предназначением является применение в сельском хозяйстве, так как силовой агрегат позволяет обрабатывать большие участки полей.
Как устранить или сбросить код неисправности P210D
Некоторые предлагаемые шаги для устранения неполадок и исправления кода ошибки P210D:
- Проверить коды в ECM.
- Диагностировать код в соответствии с проверочным тестом производителя, чтобы проверить сигнал.
- С помощью педали акселератора, проконтролировать датчики положения дроссельной заслонки и работу привода.
- Проверить жгут и соединение, визуально на наличие проблем, в случае необходимости устранить неполадки.
- Испытать привод в соответствии с заданным точечным тестом производителя.
В отличие от других производителей компания Case решила быть оригинальной и дала следующие названия своим сериям: Farmall, Maxxum, Puma, Magnum, Steiger.
Выделяют следующие достоинства техники Кейс:
Case Steiger
Производитель заявляет, что вся выпускаемая продукция отличается повышенным качеством и благодаря применению новейших технологий легко справляется с любыми задачами. Высокая эффективность достигается за счет сложнейших электронных систем, позволяющих контролировать работу.
Судя по отзывам владельцев, которые активно эксплуатируют технику Кейс, тракторы отличаются качеством и надежностью, поэтому первые несколько лет работают без ремонта. Однако, чтобы добиться такого результат необходимо следить за регулярностью и качеством проведения технического обслуживания. Трактора работают на дизельном топливе повышенного качества, а в качестве моторного масла нужно использовать CI-4 AKCELA MS1121.
Огромным достоинством новых тракторов является то, что они поступают в продажу уже с проведенной обкаткой. Также на предприятии перед отправкой в дилерскую сеть проводится калибровка и тестирование всех электронных систем.
Консервирование производится по всем правилам, описанным в инструкции по эксплуатации. Сначала трактор моется, сушится, а потом все детали и механизмы протираются промясленной тряпкой. Масло сливается, а контакты на свечах отсоединяются. После всех процедур трактор ставится в сухое место и накрывается чехлом.
Как избавиться от ошибки p0340
Даже если отсутствуют какие-либо внешние проявления нестабильной работы системы впрыска и зажигания топлива, при наличии ошибки p340, рекомендуется как можно скорее восстановить работоспособность системы мониторинга автомобиля.
Устранение ошибки p0340 возможно следующим образом:
- Отключить минусовую клемму аккумулятора на 10 – 20 секунд. Если после подключения электрического источника и сканирования системы снова появится ошибка датчика положения распредвала, то следует выполнить более детальную диагностику. Если таким образом получится полностью устранить проблему, то это будет означать, что ЭБУ было получено ложное сообщение о неисправности сенсора.
- Проверить контакт проводов и защелки датчика. При необходимости следует восстановить качество крепления сенсора, закрутив гайку рекомендованным моментом затяжки, а также очистить контакты от ржавчины и окисления.
- Мультиметром проверить целостность проводов идущих от сенсора к ЭБУ.
- Проверить работоспособность датчика положения распредвала.
- Проверить датчик коленвала.
Перечисленные рекомендации могут успешно применяться при настройке датчика определения положения распредвала многих современных автомобилей, в том числе различные модели Hyundai, Ford, Subaru, Opel, Toyota, Chevrolet, а также отечественного автомобиля Ваз 2114 и Нива.
Если в результате проведенных исследований будет выявлена техническая проблема, то после ее устранения исчезнет и ошибка p0340. В противном случае, потребуется выполнить диагностику электронного блока управления.
Определение кода ошибки p0340
Определение кода ошибки p 0340 – неисправность цепи датчика положения распределительного вала. Поэтому, при наличии этого кода на дисплее приборной панели следует приступить к проверке этой детали как можно скорее, чтобы не эксплуатировать автомобиль в аварийном режиме.
Находится датчик положения распредвала на автомобилях 16 и 8 клапанов у первого цилиндра. Если эксплуатируется машина с дизельным двигателем, то такой датчик должен находиться у каждого поршня.
Общие ошибки при диагностировании кода p0340
При попытке найти причину появления ошибки p340 можно допустить неточности, которые могут стать причиной увеличения времени, затраченного на эти цели. Наиболее часто неопытные мастера пренебрегают проверкой целостности проводов, ведущих от сенсора к ЭБУ.
Ошибка при попытке найти неисправности camshaft position sensor также могут заключаться в игнорировании рекомендаций проверки датчика коленвала, которые работает в паре с ДПРВ.
Какой ремонт может исправить ошибку p0340
Ремонт camshaft position sensor может быть выполнен своими руками. Устранить появление ошибки p0340 можно следующим образом:
- Осуществив монтаж нового датчика положения распредвала.
- Установив новые провода, идущие от сенсора к ЭБУ.
- Заменив датчик положения коленвала.
- Установив новый электрический блок управления.
Если необходим ремонт электронного блока управления, то для выполнения этой работы лучше обратиться в мастерскую. Учитывая сложность этой детали и важность ее правильной установки и настройки, следует привлекать для этой цели только высококвалифицированных специалистов.
Трактор Case Magnum 340 технические характеристики
Трактор Кейс Магнум 340 представляет собой универсальную машину высокой мощности на колёсном ходу. Это одна из самых популярных моделей на отечественном рынке, которая полюбилась многим пользователям за её высокий уровень мощности и отменную надёжность. Выпускается агрегат на производственных площадях машиностроительного концерна Case. Данное предприятие осуществляет свою деятельность более 100 лет и славится изготовлением энергоёмких и многофункциональных видов техники, предназначенных для проведения строительных и сельскохозяйственных видов работ.
Назначение машины
Трактор Кейс Магнум 340 – универсальная колесная машина, используемая как тяговое средство для сельхозагрегатов с широкозахватным рабочим органом.
Трактор является основным звеном в механизации работ как по классическим, так и новым – минимальным и нулевым агротехнологиям. Он хорошо адаптируется к условиям различных полей, насыщен достаточным числом параметров настройки для большинства видов работ.
Магнум 340, в комплексе с различными по назначению прицепными и навесными сельскохозяйственными механизмами, с высокой эффективностью применяется:
Двигатель
Штатный силовой агрегат трактора Магнум 340-й модели — шестицилиндровый 340-сильный дизель FPT Cursor 9 Tier II объемом 8,7 литра. В режиме Power BOOST возможно увеличение мощности до 389 л. с.
Стабильности показателя крутящего момента 1671 Нм с 40%-м запасом, способствует турбонаддув со встроенным контуром охлаждения сжатого воздуха, а также топливная система марки High Pressure Common Rail с электронным контролем впрыска. Автономность работы тракторного агрегата на удаленных участках обеспечивает топливный бак емкостью 765 литров.
Отзывы владельцев
Два трактора Магнум 340 производства известной качеством выпускаемой продукции компании Case IH приобрели для обновления парка агрофирмы зимой позапрошлого 2022 года. За прошедшее время новая техника в значительной степени компенсировала вложенные средства экономией рабочего времени и ГСМ, отсутствием вынужденных простоев. Существенные опасения вызывает отсутствие специалистов по обслуживанию компьютерного и другого электронного оборудования, относительно бедный ассортимент запасных частей, а также инертность сервисных служб. Павел
Покупка подержанного Магнума 340-й модели обошлась мне в 55 тысяч евро. Машина в принципе надежная, а главное экономичная в плане расхода ГСМ. На вспашке один Магнум при 23%-й экономии топлива успешно заменяет два трактора, гусеничный Т-75 и колесный универсал МТЗ-82К. Владимир Викторович
Устройство
Трактор Магнум имеет оригинальную полурамную конструкцию корпуса, которая базируется на колёсном ходу. На машине установлена фирменная трансмиссия FullPowerShift TM и многоступенчатая коробка передач, позволяющая использовать агрегат при различных скоростных режимах. Для агрегирования трактора с большим количеством сельскохозяйственного оборудования в его конструкции предусмотрены такие компоненты, как дистанционная гидросистема и ВОМ, способный работать на двух скоростях: 540 и 1000 об/мин. На данный трактор можно устанавливать спаренные шины и балластный груз, которые позволяют идеально балансировать машину при работе на самых сложных участках местности.
Кейс Магнум 340
Симптомы неисправности
Основным симптомом появления ошибки P210D для водителя является подсветка MIL (индикатор неисправности). Также его называют Check engine или просто «горит чек».
Также они могут проявляться как:
- Загорится контрольная лампа «Check engine» на панели управления (код будет записан в память ECM как неисправность).
- Двигатель невозможно разогнать, реакция дроссельной заслонки неотзывчива.
- Плавающие обороты на холостом ходу (обороты могут быть ниже или выше нормы).
Ошибка относится к серьезным из-за воздействия на систему охлаждения. Поскольку это электрическая неисправность. PCM не может полностью ее устранить. Частичная исправление блоком PCM обычно означает, что двигатель устанавливает фиксированные обороты холостого хода (обычно около 1000 — 1200 об / мин).
Трансмиссия
Можно выбрать одну из двух трансмиссий, исходя из требований технологического процесса — бесступенчатая коробка передач (CVT) или знаменитая и эффективная Powershift. Magnum CVT обеспечивает бесконечный выбор скоростей от 0,01 км/ч до 40 км/ч. Использование программного обеспечения автоматического управления производительностью (Auto Productivity Management, APM). Трансмиссия Magnum Powershift является стандартом в рамках эффективности карданной передачи, она оснащена функцией автоматического управления производительностью (APM), что обеспечивает сохранение топлива и повышение производительности благодаря соответствию нагрузки трансмиссии и выхода двигателя. Трансмиссия 18×6 или 19×6 с восемью передачами в критическом рабочем диапазоне. Идеально подходит для сельскохозяйственных работ обработки почвы с тяжелой буксировкой.
Устройство и особенности эксплуатации
CASE IH Magnum 340 базируется на оригинальной полурамной конструкции с колесным ходом. Корпус машины отличается повышенной прочностью. Полный привод позволяет технике выполнять работы на сложном грунте и в условиях повышенной влажности. Для подключения привода применяется автоматическое и принудительное управление. Именно 2-режимный механизм обеспечивает максимальные возможности. Режим блокировки заднего дифференциала выбирается с использованием электронных узлов. Оператор опять же может регулировать ширину колеи передних и задних колес, что важно при работе на крутосклонном рельефе или в междурядьях.
На Кейс IH Magnum 340 устанавливается фирменная трансмиссия Full Power Shift, позволяющая переключать передачи без прерывания потока мощности. При этом трансмиссия является многорежимной и имеет автоматическое и ручное управление. Диапазон рабочих скоростей представлен 18 фронтальными и 4 задними передачами. Наличие систем «Полевой режим» и «Дорожный просвет» улучшает работу трансмиссии и приводит к сокращению потребления горючего на 15%. В первом режиме спецтехника без вмешательства водителя поддерживает скоростной показатель на уровне 23 км/час, во втором – на уровне 40 км/час.
Гидросистема трактора рассчитана на максимальную грузоподъемность в 10580 кг. Она обеспечивает необходимую подъемную силу для большинства операций. В основе гидравлической системы лежит базовый насос (166 л/мин) и насос с повышенным расходом (228 л/мин). Вместо них могут устанавливаться 2 насоса с переменной производительностью (282 л/мин) для работы с крупными орудиями. Тягово-сцепное устройство или сцепка с силовым регулятором позволяют применять CASE IH Magnum 340 с тяжелыми и широкими агрегатами. опять же доступны многообразные регулировки (ограничение проскальзывания, подпрыгивания).
Для машины доступны следующие устройства:
На Кейс IH Magnum 340 устанавливается одна из наиболее объемных кабин в данном классе. Высочайший комфорт и превосходная обзорность позволяют оператору реализовывать свои лучшие качества. При создании кабины оператора оператора Surveyor производитель учел отзывы клиентов и компаний Северной Америки. Результатом потребители остались довольны. Панорамный обзор, много места для ног и дополнительные отделения способствовали повышению комфорта работы. Модель оснащается климат-контролем и специализированным креслом с множеством регулировок.
Органы управление трактором находятся на правом подлокотнике и перемещаются совместно с сиденьем в процессе настройки. Оператор получает доступ к основным функциям, положив руку на удобный подлокотник. Работать в таком ритме без усталости можно длительное время. Информация по состоянию CASE IH Magnum 340 находится на угловой стойке. Рулевая система машины подключена к гидравлике. Среди других механизмов, облегчающих управление, значатся:
Для работы в темное время на Кейс IH Magnum 340 устанавливаются мощное LED-освещение (функционально) с силой света 34400 лм.
Трактор отличается не только удобным управлением, но и легким обслуживанием. Машина имеет простой доступ к ключевым точкам осмотра. Интервал замены масла для модели увеличен до 600 моточасов. Среди других особенностей значатся:
Аналоги
К тракторам, которые близки по мощности и весовым показателям к Магнуму 340, можно отнести такие машины как, John Deere8310R, New Holland T8040 и Fendt 936 Vario. Их параметры представлены следующими значениями:
| Модель | Масса, т | Мощность, л. с | Скорость передвижения, км/ч | Дорожный просвет, м | Расход топлива, г/кВт. ч |
| John Deere8310R | 12,4 | 341,0 | 42,0 | 0,66 | 205,0 |
| NewHolland T8040 | 9,8 | 337,0 | 40,0 | 0,6 | 200,0 |
| Fendt 936 Vario | 10,8 | 350,0 | 55,0 | 0,6 | 195,0 |
Мощный и высокопроизводительный агрегат CASE IH Magnum 340 ориентирован на проведение интенсивных и трудоёмких работ различного уровня сложности. Великолепные технические характеристики и широкие эксплуатационные возможности машины позволяют использовать её в сцепке с большим количеством навесного и прицепного оборудования.
Несмотря на высокую стоимость покупки и дороговизну обслуживания, этот трактор является прекрасным выбором для всех ценителей отличного качества и долговечности техники.
Case IH Magnum 235 — 340 Fault Codes DTC
Case IH Magnum 235 — 340 Fault Codes DTC
Case IH Magnum 235 — 340 Fult Codes DTC.
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Case IH Tractors, Farmall series Fault Codes DTC
TYPE CODE ERROR
ENG 111 Engine Controller Failure — Hardware Failure
ENG 115 Engine Speed Sensor (8.3, 9 Liter) or Cam Sensor (15 Liter) is failed
ENG 121 Engine Position Sensor (8.3, 9 Liter) or Crankshaft Sensor (15 Liter) is failed
ENG 122 Boost Pressure Sensor voltage is too high
ENG 123 Boost Pressure Sensor voltage is too low
ENG 124 Boost Pressure level has exceeded the warning limit.
ENG 131 Decelerator or Hand Throttle (STD cab) Position potentiometer voltage is too high
ENG 132 Decelerator or Hand Throttle (STD cab) Position potentiometer voltage is too low
ENG 133 Decelerator (STD cab) Position potentiometer voltage is too high
ENG 134 Decelerator (STD cab) Position potentiometer voltage is too low
ENG 135 Oil Pressure Sensor voltage is too high
ENG 141 Oil Pressure Sensor voltage is too low
ENG 143 Oil Pressure level has fallen below the warning limit.
ENG 144 Coolant Temperature Sensor voltage is too high
ENG 145 Coolant Temperature Sensor voltage is too low
ENG 146 Coolant Temperature level has exceeded the warning limit.
ENG 147 Frequency Throttle Signal shorted high
ENG 148 Frequency Throttle Signal shorted low
ENG 151 Coolant Temperature level has exceeded the warning limit.
ENG 153 Intake Manifold Temperature Sensor voltage is too high
ENG 154 Intake Manifold Temperature Sensor voltage is too low
ENG 155 Intake Manifold Temperature level has exceeded the warning limit.
ENG 187 Sensor Supply 2 Voltage is too low.
ENG 191 A/C clutch driver shorted to ground when ON.
ENG 211 Communications problem with Armrest, Instrumentation, or Transmission Controllers
ENG 212 Oil Temperature Sensor Voltage is too high
ENG 213 Oil Temperature Sensor Voltage is too low
ENG 214 Oil Temperature Sensor Voltage is above normal range
ENG 219 Oil Level — remote reservoir is too low. Add oil.
ENG 221 Ambient Air Pressure Sensor Voltage is too high
ENG 222 Ambient Air Pressure Sensor Voltage is too low
ENG 223 CORS — Burn Valve Solenoid is shorted either low or high
ENG 227 Sensor Supply 2 Voltage is too high.
ENG 234 Engine Speed has exceed the overspeed warning limit.
ENG 235 Engine Coolant Level is low. Add coolant fluid.
ENG 237 External Speed Multi Unit Sync Command Input Data Incorrect.
ENG 241 Vehicle Speed Signal lost
ENG 242 Vehicle Speed Signal intermittent / tampering
ENG 243 Error detected in exhaust brake relay
ENG 245 Fan Clutch Voltage too low
ENG 254 Fuel Shutoff Valve Voltage too low
ENG 255 Fuel Shutoff Valve Voltage too high
ENG 259 Fuel Shutoff Valve mechanically stuck open.
ENG 263 Fuel Temperature Sensor voltage is too high
ENG 265 Fuel Temperature Sensor voltage is too low
ENG 268 Fuel Pressure in pump is not changing with operating conditions.
ENG 271 Front Pumping Control Valve current is low during ñclick testî
ENG 272 Front Pumping Control Valve current is high
ENG 273 Rear Pumping Control Valve current is low during ñclick testî
ENG 274 Rear Pumping Control Valve current is high
ENG 275 Front Pumping element is failed
ENG 276 Injection Control Valve current is out of range
ENG 277 Injection Control Valve is failed
ENG 278 Fuel Lift Pump is failed
ENG 279 Injection Control Valve current is out of range
ENG 281 Front Pumping element is failed
ENG 282 Rear Pumping element is failed
ENG 283 Engine Speed/Position Sensor supply voltage is too high
ENG 284 Engine Speed/Position Sensor supply voltage is too low
ENG 285 J1939 Parameter was set to be multiplexed, but not received (timeout error)
ENG 286 J1939 Parameter was set to be multiplexed, but not available from all sources (config error)
ENG 287 Multiplexing throttle parameter and a data error was received — data invalid
ENG 288 Multiplexing remote throttle parameter and a data error was received — data invalid
ENG 293 Hydraulic Fan Hydraulic Oil Temperature Sensor Voltage is too high
ENG 294 Hydraulic Fan Hydraulic Oil Temperature Sensor Voltage is too low
ENG 295 Ambient Air Pressure data invalid
ENG 297 OEM Pressure Sensor Voltage is too high.
ENG 298 OEM Pressure Sensor Voltage is too low.
ENG 299 Engine Shutdown by other than keyswitch (i.e. via data bus command)
ENG 319 Real Time Clock in controller has lost power
ENG 328 Rear Pumping element is failed
ENG 329 CAPS Pump has an overpumping failure
ENG 338 Idle Shutdown Vehicle Accessory Relay Voltage is too high
ENG 339 Idle Shutdown Vehicle Accessory Relay Voltage is too low
ENG 341 All data written during powerdown cycle was lost (checksum error)
ENG 343 Engine Controller Failure — Hardware Failure
ENG 349 Measured Speed is too high.
ENG 352 5 Volt Sensor Supply voltage is too low
ENG 378 Front Fueling current is too low
ENG 379 Front fueling current is too high
ENG 381 Error detected in cold start relay 1
ENG 382 Error detected in cold start relay 2
ENG 385 5 Volt Sensor Supply voltage is too high
ENG 386 5 Volt Sensor Supply voltage is too high
ENG 387 Decelerator or Hand Throttle (STD cab) 5 Volt Supply voltage is too high
ENG 388 Engine Brake driver 1 circuit failure
ENG 392 Engine Brake driver 2 circuit failure
ENG 393 Engine Brake driver 3 circuit failure
ENG 394 Front Timing current is too low.
ENG 395 Front Timing current is too high.
ENG 396 Rear Fueling current is too low
ENG 397 Rear Fueling current is too high
ENG 398 Rear Timing current is too low
ENG 399 Rear Timing current is too high
ENG 412 J1708 data link cannot transmit
ENG 414 J1708 data link not fast enough
ENG 415 Oil Pressure level has fallen below the very low warning limit.
ENG 418 Water in Fuel sensor indicates the water in the fuel filter needs to be drained.
ENG 419 Boost Pressure data invalid
ENG 422 Engine Coolant Level Sensor (optional) is failed or the jumper plug is missing
ENG 426 J1939 data link cannot transmit
ENG 427 J1939 data link not fast enough
ENG 428 Water in Fuel Sensor voltage is too high.
ENG 429 Water in Fuel Sensor voltage is too low.
ENG 431 Hand Throttle (STD cab) Idle Validation Switches are both closed
ENG 432 Hand Throttle (STD cab) position potentiometer and switches disagree.
ENG 433 Boost Pressure level disagrees with engine operation conditions (speed & power)
ENG 434 Unswitched 12 volt supply voltage disconnected without normal key off sequence.
ENG 435 Oil Pressure data invalid
ENG 441 Battery Voltage is too Low (less than 6 volts)
ENG 442 Battery Voltage is too High
ENG 443 Decelerator or Hand Throttle (STD cab) 5 Volt Supply voltage is too low
ENG 444 Low voltage detected at OEM 5 volt supply
ENG 449 Fuel Pressure level has exceeded the warning limit.
ENG 451 Fuel Pressure Sensor voltage is too high
ENG 452 Fuel Pressure Sensor voltage is too low
ENG 456 Fuel Pressure in pump is not changing with operating conditions.
ENG 465 Wastegate 1 voltage is too high
ENG 466 Wastegate 1 voltage is too low
ENG 482 Fuel Pressure Sensor voltage low
ENG 483 Rear Bank Post Actuactor Pressure voltage high
ENG 484 Rear Bank Post Actuactor Pressure voltage low
ENG 485 Rear Fueling actuator overfueling
ENG 486 Rear Fueling actuator underfueling
ENG 488 Intake Manifold Temperature level has exceeded the warning limit.
ENG 489 Measured Speed Sensor data low
ENG 491 Wastegate 2 voltage is too high
ENG 492 Wastegate 2 voltage is too low
ENG 493 The Injection Control Identifier Circuit in the harness has failed.
ENG 496 Engine Speed / Position Sensor #2 supply is too low
ENG 524 Error detected on high speed governor droop selection switch
ENG 527 Cab pressurization/Ether relay coil circuit shorted high or open
ENG 529 Output B driver shorted high or open
ENG 539 The Injection Control Valve Transorb in the harness has failed. (open circuit)
ENG 546 Fuel Pressure sensor voltage is too high.
ENG 547 Fuel Pressure sensor voltage is too low.
ENG 551 Hand Throttle (STD cab) Idle Validation Switches are both open
ENG 553 Front fueling actuator overfueling
ENG 559 Front fueling actuator underfueling
ENG 581 Fuel inlet Pressure Sensor voltage is too high.
ENG 582 Fuel inlet Pressure Sensor voltage is too low.
ENG 583 Fuel Inlet Pressure Sensor voltageout of range high or low.
ENG 595 Turbo overspeed protection fault
ENG 596 Battery voltage is too high
ENG 597 Battery voltage is too low
ENG 598 Battery voltage is very low
ENG 599 Engine is being shutdown based on OEM input
ENG 611 ECM detected engine initiated protection shutdown or keyed-off while above specific load limit
ENG 697 Engine Controller internal temperature too high
ENG 698 Engine Controller internal temperature too low
ENG 731 Engine Speed / Position #2 — Mechanical misalignment.
ENG 753 Synchronization has been lost.
ENG 755 Front Bank injector is bad.
ENG 758 Rear Bank injector is bad
ENG 951 A power imbalance between the cylinders was detected by the controller hardware
ENG 983 Unused A/D input channel out of range.
ENG 1117 Battery voltage too low, or the controller was not allowed to power down correctly
ENG 1256 Control Module Identification Input State Error.
ENG 1257 Control Module Identification Input State Error.
ENG 2117 Engine Coolant Level is low. Add coolant fluid.
ENG 2186 Supply Voltage to the accelerator pedal position sensor too low.
ENG 2195 Auxiliary Equipment Sensor Input # 3 — Engine Protection Critical — Special Instructions.
ENG 2249 Injector Metering Rail 1 Fuel Pressure lower than commanded pressure.
ENG 2265 Electric Lift Pump for Engine Fuel Supply Voltage too high.
ENG 2266 Electric Lift Pump for Engine Fuel Supply Voltage too low.
ENG 2292 Fuel Inlet Meter Device higher than expected.
ENG 2293 Fuel Inlet Meter Device flow demand lower than expected.
ENG 2311 Electronic Fuel Injection Control Valve open or closed Circuit.
ENG 2321 Engine Crankshaft Speed / Position data invalid.
ENG 2322 Engine Camshaft Speed / Position Sensor data invalid.
ENG 2372 Engine Fuel Filter clogged error
ENG 2555 Intake Air Heater 1 Circuit Voltage too high.
ENG 2558 Auxiliary PWM Driver 1 Circuit Voltage too low.
ENG 2973 Intake Manifold 1 Pressure data invalid.
TRANS 11 Master Clutch Potentiometer Open Circuit or short to ground
TRANS 12 Master Clutch Potentiometer Short to +12 Volts or short to 5 Vreff
TRANS 24 None of the transmission clutches are calibrated
TRANS 37 BOC switch open circuit or Neutral relay stuck open
TRANS 38 Shuttled to reverse when no wheel speed signal was available
TRANS 47 Clutch pedal bottom of clutch switch misadjusted
TRANS 48 BOC switch or Neutral relay short circuit
TRANS 49 Auto Guidance Isolation valve driver Fault
TRANS 50 Park Brake is powered off when in park
TRANS 51 FNRP pod indicates Forward or Reverse is on, when Park is on
TRANS 52 Park Brake is stuck on when commanded off
TRANS 53 5 volt reference voltage too high
TRANS 54 5 volt reference voltage too low
TRANS 59 FNRP pod in illogical state (two positions on at same time)
TRANS 60 FNRP pod in illogical state (in no position)
TRANS 61 System pressure valve solenoid circuit is open circuit or shorted to ground
TRANS 62 System pressure solenoid is shorted to B+
TRANS 64 Transmission output Sped is too high (above 8200 RPM)
TRANS 65 Operator attempted a shuttle operation while out of the seat
TRANS 66 FNRP Pod Forward switch is shorted to ground or open circuit
TRANS 67 FNRP Pod Forward switch is shorted to power
TRANS 68 FNRP Pod Reverse switch is shorted to ground or open circuit
TRANS 69 FNRP Pod Reverse switch is shorted to power
TRANS 70 Battery voltage is too low for clutch solenoid operation
TRANS 72 Transmission Oil Temperature is above 122 deg. C
TRANS 73 Software is out of the calibration mode and the park brake request is still active.
TRANS 74 The park brake ON with gear is engaged — no park brake request from calibration.
TRANS 75 Engine speed from Inst Controller does not match the speed signal from the alternator.
TRANS 76 Engine speed from Eninge Controller does not match the speed signal from the alternator.
TRANS 77 No signal from wheel speed sensor
TRANS 78 Transmission regulated pressure accumulator is discharged
TRANS 79 Engine RPM from the alternator is measured too high
TRANS 80 Wheel speed sensor is measured too high
TRANS 81 Transmission clutches are slipping
TRANS 82 Creep Clutch is not calibrated
TRANS 83 Communications Lost with Engine Controller
TRANS 103 Odd clutch solenoid or its wiring failed open or shorted to ground
TRANS 104 Even clutch solenoid or its wiring failed open or shorted to ground
TRANS 105 C1-2 clutch solenoid or its wiring failed open or shorted to ground
TRANS 106 C3-4 clutch solenoid or its wiring failed open or shorted to ground
TRANS 107 C5-6 clutch solenoid or its wiring failed open or shorted to ground
TRANS 108 Master clutch solenoid or its wiring failed open or shorted to ground
TRANS 109 Low range clutch solenoid or its wiring failed open or shorted to ground
TRANS 110 Mid range clutch solenoid or its wiring failed open or shorted to ground
TRANS 111 High range clutch solenoid or its wiring failed open or shorted to ground
TRANS 112 Reverse clutch solenoid or its wiring failed open or shorted to ground
TRANS 113 Creeper clutch solenoid or its wiring failed open or shorted to ground
TRANS 114 Even clutch solenoid coil or its wiring shorted to power
TRANS 115 Odd clutch solenoid coil or its wiring shorted to power
TRANS 116 C1-2 clutch solenoid coil or its wiring shorted to power
TRANS 117 C3-4 clutch solenoid coil or its wiring shorted to power
TRANS 118 C5-6 clutch solenoid coil or its wiring shorted to power
TRANS 119 Master clutch solenoid coil or its wiring shorted to power
TRANS 120 Low range clutch solenoid coil or its wiring shorted to power
TRANS 121 Mid range clutch solenoid coil or its wiring shorted to power
TRANS 122 High range clutch solenoid coil or its wiring shorted to power
TRANS 123 Reverse clutch solenoid coil or its wiring shorted to power
TRANS 124 Creeper clutch solenoid coil or its wiring shorted to power
TRANS 125 Odd clutch is not calibrated
TRANS 126 Even clutch is not calibrated
TRANS 127 C1-2 clutch is not calibrated
TRANS 128 C3-4 clutch is not calibrated
TRANS 129 C5-6 clutch is not calibrated
TRANS 130 Low range clutch is not calibrated
TRANS 131 Mid range clutch is not calibrated
TRANS 132 High range clutch is not calibrated
TRANS 133 Reverse clutch is not calibrated
TRANS 134 Master clutch is not calibrated
TRANS 135 Communication lost with the armrest controller
TRANS 136 Communication lost with the instrumentation controller
TRANS 137 Front Suspension raise lock solenoid circuit shorted or open circuit
TRANS 138 Front Suspension raise solenoid circuit shorted or open circuit
TRANS 139 Front Suspension lower lock solenoid circuit shorted or open circuit
TRANS 140 Front suspension position is above the expected absolute limit
TRANS 141 Front suspension position is below the expected absolute limit
TRANS 142 Front suspension travel range has not been calibrated
TRANS 143 Front suspension position is above the upper suspension range
TRANS 144 Front suspension position is below the lower suspension range
TRANS 145 Front Suspension lower lock solenoid circuit shorted or open circuit
TRANS 146 Regulated system pressure low (below 100PSI / 689 KPA)
TRANS 147 Regulated system pressure below 290 PSI
TRANS 148 Backup alarm circuit shorted or open
TRANS 150 Front suspension pressure sensor rod side (DA-R) out of range high
TRANS 151 Front suspension pressure sensor rod side open circuit
TRANS 152 Front Suspension pressure control not able to increase pressure on the rod side
TRANS 153 Front Suspension pressure control not able to decrease pressure on the rod side
TRANS 154 Front Suspension Lock Valve Stuck on fault (suspension will not lock)
TRANS 155 Front Suspension Lock Valve is stuck of (suspension will not unlock)
TRANS 156 Lock valve was installed but removed
ARM 19 Hand THROTTLE potentiometer is failed
ARM 29 Aux 1st remote valve LEVER potentiometer is failed
ARM 39 Aux 2nd remote valve LEVER potentiometer is failed
ARM 49 Aux 3rd remote valve LEVER potentiometer is failed
ARM 59 Aux 4th remote valve LEVER potentiometer is failed
ARM 69 HITCH POSITION command potentiometer is failed
ARM 79 HITCH LOAD command potentiometer is failed
ARM 89 Aux 1st remote valve FLOW potentiometer is failed
ARM 99 Aux 2nd remote valve FLOW potentiometer is failed
ARM 109 Aux 3rd remote valve FLOW potentiometer is failed
ARM 119 Aux 4th remote valve FLOW potentiometer is failed
ARM 129 Aux 5th remote valve FLOW potentiometer is failed
ARM 139 Aux remote valve TIMER potentiometer is failed
ARM 149 Hitch UPPER LIMIT potentiometer is failed
ARM 159 Hitch DROP RATE potentiometer is failed
ARM 169 Hitch TRAVEL potentiometer is failed
ARM 1029 Aux 5th remote valve control switch is failed
ARM 1039 PTO switch is failed
ARM 1049 Hitch UP/DOWN switch is failed
ARM 1059 Hitch SLIP switch is failed
ARM 1069 MFD switch is failed
ARM 1079 DIFF LOCK switch is failed
ARM 1089 Programmable UP/DOWN switch is failed.
ARM 1099 Aux remote valve LIMIT SET switch is failed
ARM 1109 Hand Throttle IDLE VALIDATION switch is failed
ARM 1119 RECORD/PLAY switch is failed
ARM 1129 Invalid Configuration — Implement Depth Control switch is failed
ARM 1139 Engine Brake switch is failed
ARM 1149 Auto Field / Transport Switch is in an illogical state
ARM 8011 Battery Voltage is too Low
ARM 9011 Controller Memory Error — Loss of Hitch Position Command Calibration
ARM 9012 Controller Memory Error — Loss of Aux Remote Lever Calibrations
ARM 9013 Controller Memory Error — Loss of Throttle Calibrations
ARM 9014 Controller Memory Error — Loss of MFD switch Configuration
ARM 9015 Controller Memory Error — Loss of Trans switches Configuration
ARM 9021 Hitch position command potentiometer calibration results not acceptable
ARM 9031 Hand throttle potentiometer calibration results not acceptable
ARM 9041 Hitch DROP RATE potentiometer calibration value(s) are out of range
ARM 10091 Armrest Controller failure — 5 V regulator failure
ARM 12013 Communications Lost with Data Bus and ALL other controllers
ARM 12081 Loss of/unavailable Performance Monitor Display — RECORD/PLAY functionality disabled
CASE IH & NEW HOLLAND Tractor Fault Codes DTC
TMF 3 Hitch Raise Solenoid High Side Driver shorted to 12 volts.
TMF 4 Hitch Raise Solenoid Failed Open or Shorted to Ground.
TMF 5 Hitch Lower Solenoid Shorted to 12 volts.
TMF 6 Hitch Lower Solenoid High Side Driver circuit short to 12 volts.
TMF 7 Hitch Raise/Lower Solenoids Open or short to ground.
TMF 11 Communications Lost with Data Bus and ALL other controllers
TMF 12 Communication lost with the armrest controller
TMF 14 5 Volt Sensor Supply voltage is too high
TMF 15 5 Volt Sensor Supply voltage is too low
TMF 17 Hitch Position Command potentiometer failed in the Armrest controller
TMF 18 Hitch Rockshaft Position potentiometer is outside normal operating range.
TMF 19 Hitch Upper Limit potentiometer is failed in the Armrest Controller
TMF 21 Hitch Load Command potentiometer is failed in the Armrest Controller
TMF 22 Single draft pin sensor failed when configured for one draft pin sensor.
TMF 23 Two draft pin sensors failed when configured for two draft pins.
TMF 24 Communications Lost with Instrumentation Controller
TMF 25 Hitch Up/Down Switch failed in the Armrest controller
TMF 26 Fender UP and DOWN switch failure or both switches simultaneously pressed
TMF 28 Hitch Travel potentiometer is failed in the Armrest Controller
TMF 29 Hitch Drop Rate potentiometer is failed in the Armrest Controller
TMF 30 Right Draft Pin voltage is outside the normal operating range.
TMF 31 Left Draft Pin voltage is outside the normal operating range.
TMF 32 Ground Speed Signal is failed in the Instrumentation Controller
TMF 33 Hitch Slip Set Switch failed in the Armrest controller
TMF 34 Hitch Slip Select Switch failed in the Armrest controller
TMF 35 Slip Sensor (radar or wheel speed) is failed in the Instrumentation Controller
TMF 37 The ARU reports EDC Transport Lock is faulty or not available.
TMF 41 Draft pin(s) detected but the Armrest controller specified tractor without draft control.
TMF 42 Engine speed must be set above 1600 rpm during calibration of lower valve.
TMF 43 No Draft pin(s) detected but the Armrest controller specified tractor with draft control.
TMF 44 Hitch calibration aborted due to tractor movement.
TMF 45 Hitch calibration attempted when the engine is not running or engine speed signal is failed.
TMF 47 Raise Valve calibration value is too high. (valve problem)
TMF 48 Raise Valve calibration value is too low. (valve problem)
TMF 50 Hitch position at top of travel is not within specification during calibration
TMF 51 Lower Valve calibration value is too high. (valve problem)
TMF 52 Lower Valve calibration value is too low. (valve problem)
TMF 53 The time allowed for hitch calibration has expired
TMF 54 Hitch position at bottom of travel is not within specification during calibration
TMF 55 Hitch position range from top to bottom is not within spec during calibration
TMF 56 Hitch position range to position command range ratio is not within spec during calibration.
TMF 57 Right Draft Pin voltage is not within spec for ïno loadà condition during calibration
TMF 58 Left Draft Pin voltage is not within spec for ïno loadà condition during calibration
TMF 59 Both Draft Pin voltages are not within spec for ïno loadà condition during calibration
TMF 60 Draft pin connected to left vs right for single pin setup during calibration
TMF 61 The Hitch Calibration procedure must be performed.
TMF 62 Communications Lost with Performance Monitor Function
TMF 63 Controller 8 volt reference is too high (above 8.8 volts).
TMF 64 Controller 8 volt reference is too low (below 7.2 volts).
TMF 65 Battery Voltage is too Low
TMF 66 Battery Voltage is too Low
TMF 80 MFD fault condition in software.
TMF 81 MFD Solenoid is failed Open or Short Circuit
TMF 82 Differential Lock Solenoid is failed Open or Short Circuit
TMF 83 Brake Lamp Relay Solenoid is failed Open or Short Circuit
TMF 86 Wheel Slip Signal is failed in the Instrumentation Controller
TMF 87 Ground Speed Signal is failed in the Instrumentation Controller
TMF 88 Differential Lock Switch is failed in the Armrest Controller
TMF 89 Differential Lock Switch is failed in the Armrest Controller
TMF 90 Differential Lock Switch is failed in the Armrest Controller
TMF 92 MFD Switch is failed in the Armrest Controller
TMF 93 MFD Switch is failed in the Armrest Controller
TMF 94 Differential Lockout fault condition in software.
TMF 95 The steering angle sensor is above the expected operating range
TMF 96 The steering angle sensor is below the expected operating range
TMF 98 Battery Voltage is too Low
TMF 99 Battery Voltage is too Low
TMF 106 Aux 5th remote valve control switch (Extend) is failed in the Armrest Controller
TMF 107 Aux 5th remote valve control switch (Retract) is failed in the Armrest Controller
TMF 108 Aux 1st remote valve LEVER potentiometer is failed in the Armrest Controller
TMF 109 Aux 2nd remote valve LEVER potentiometer is failed in the Armrest Controller
TMF 110 Aux 3rd remote valve LEVER potentiometer is failed in the Armrest Controller
TMF 111 Aux 4th remote valve LEVER potentiometer is failed in the Armrest Controller
TMF 112 Aux 1st remote valve FLOW potentiometer is failed in the Armrest Controller
TMF 113 Aux 2nd remote valve FLOW potentiometer is failed in the Armrest Controller
TMF 114 Aux 3rd remote valve FLOW potentiometer is failed in the Armrest Controller
TMF 115 Aux 4th remote valve FLOW potentiometer is failed in the Armrest Controller
TMF 116 Aux 5th remote valve FLOW potentiometer is failed in the Armrest Controller
TMF 120 Electro Hydraulic Remote top link switch is stuck on.
TMF 123 Aux 1st Lower Coil solenoid shorted to 12 volts.
TMF 124 Aux 1st Lower solenoid failed open or short circuit.
TMF 125 Aux 1st Raise Coil solenoid shorted to 12 volts.
TMF 126 Aux 1st Raise solenoid failed open or short circuit.
TMF 127 Aux 2nd Lower Coil solenoid shorted to 12 volts.
TMF 128 Aux 2nd Lower solenoid failed open or short circuit.
TMF 129 Aux 2nd Raise Coil solenoid shorted to 12 volts.
TMF 130 Aux 2nd Raise solenoid failed open or short circuit.
TMF 131 Aux 3rd Lower Coil solenoid shorted to 12 volts.
TMF 132 Aux 3rd Lower solenoid failed open or short circuit.
TMF 133 Aux 3rd Raise Coil solenoid shorted to 12 volts.
TMF 134 Aux 3rd Raise solenoid failed open or short circuit.
TMF 135 Aux 4th Lower Coil solenoid shorted to 12 volts.
TMF 136 Aux 4th Lower solenoid failed open or short circuit.
TMF 137 Aux 4th Raise Coil solenoid shorted to 12 volts.
TMF 138 Aux 4th Raise solenoid failed open or short circuit.
TMF 139 Aux 5th Lower Coil solenoid shorted to 12 volts.
TMF 141 Aux 5th Raise Coil solenoid shorted to 12 volts.
TMF 142 Aux 5th Raise solenoid failed open or short circuit.
TMF 147 Implement feedback #1 out of range High
TMF 148 Implement feedback #1 out of range Low
TMF 149 Implement feedback #2 out of range High
TMF 150 Implement feedback #2 out of range Low
TMF 151 Communications Lost with Transmission Controller
TMF 152 Electro Hydraulic Remote top link switch voltage is short circuit.
TMF 153 Electro Hydraulic Remote top link switch data invalid
TMF 154 PTO switch interlock — Cab Switch and Fender switch on at the same time.
TMF 155 Auto PTO switch data failed in the Armrest controller.
TMF 156 Auto PTO switch stuck ON in Armrest Controller.
TMF 157 PTO remote fender switch short circuit.
TMF 158 PTO remote fender switch open circuit
TMF 159 PTO remote fender switch stuck ON.
TMF 160 PTO Clutch is Slipping Too Much
TMF 162 Engine Stalled when the PTO was running.
TMF 163 PTO Shaft rotation is detected when the PTO clutch is OFF.
TMF 164 PTO shaft speed has not been detected within 3.6 seconds of being turned ON.
TMF 165 PTO Shaft rotation is detected when the Engine is OFF.
TMF 166 PTO Driver is on and no current is sensed.
TMF 167 Current sensed when the PTO driver is off.
TMF 168 PTO ON/OFF switch is failed in the Armrest Controller
TMF 169 PTO ON/OFF switch is failed in the Armrest Controller
TMF 170 PTO ON/OFF switch is failed in the Armrest Controller
TMF 171 PTO software fault condition detected.
TMF 172 PTO Solenoid Circuit is failed shorted to 12 Volts when PTO is in the off state.
TMF 173 PTO Solenoid Circuit is failed shorted to ground when PTO is in the off state.
TMF 174 Current flowing in the PTO sense resistor when the high side is off.
TMF 175 PTO Clutch has not reached lock up speed within 6 seconds of being turned ON
TMF 178 PTO speed sensor has been changed.
TMF 179 The PTO is receiving no frequency from the Shaft Size Sensor on a two speed PTO
TMF 180 The PTO is receiving signals from the Shaft Size Sensor on a single speed PTO configuration.
INST 1015 Seat Switch may be stuck closed.
INST 1024 Trans oil filter switch shorted to ground on power up.
INST 1034 Hydraulic oil filter switch shorted to ground on power up.
INST 3010 PTO Shaft Speed sensor is failed in PTO Controller
INST 3020 Engine Speed sensor is failed in the Engine Controller
INST 3022 Engine Overspeed Error
INST 5010 Engine Oil Pressure sensor is failed in the Engine Controller
INST 5011 Engine Oil Pressure sensor voltage is too low (open circuit, short to ground)
INST 7024 Reversible Fan Control open circuit or shorted to ground.
INST 10031 Controller Memory Error — Loss of Engine Hours information
INST 10032 Controller Memory Error — Loss of Vehicle Configuration information
INST 10033 Controller Memory Error — Loss of Customer Configuration information
INST 10034 Controller Memory Error: Loss of valid fuel table information.
INST 10035 Controller Memory Error — Loss of Valid Radar Configuration information.
INST 10036 Controller Memory Error — Loss of Displayed Performance information
INST 10037 Controller Memory Error — Loss of Implement Width information
INST 10038 Controller Memory Error — Loss of Valid Remote Timer information.
INST 11011 Fuel Level Sensor voltage is too low (open circuit, short to ground)
INST 12011 Communications Lost with Armrest Controller
INST 12021 Communications Lost with Auxiliary Controller
INST 12031 Communications Lost with Hitch Controller
INST 12043 Communications Lost with Data Bus 1 and ALL other controllers
INST 12051 Communications Lost with PTO Controller
INST 12053 Communications Lost with Vehicle Data Bus 2.
INST 12071 Communications Lost with Transmission Controller
INST 12091 Communications Lost with Engine Controller
INST 12101 Communications Lost with Tractor ECU (Gateway) Controller
INST 12111 Communications Lost with Automatic Temperature Controller
INST 12121 Communications Lost with Color Perfomance Monitor
INST 13010 Engine Coolant Temperature sensor is failed in the Engine Controller
INST 13011 Engine Coolant Temperature sensor voltage is too low (short to ground)
INST 13012 Engine Coolant Temperature sensor voltage is too high (open circuit, short to +V)
INST 13021 Transmission Oil Temperature sensor voltage is too low (short to ground)
INST 13022 Transmission Oil Temperature sensor voltage is too high (open circuit, short to +V)
INST 13031 Hydraulic Oil Temperature sensor voltage is too low (short to ground)
INST 13032 Hydraulic Oil Temperature sensor voltage is too high (open circuit, short to +V)
INST 13040 Air to Air Intake Temperature sensor is failed in the Engine Controller
INST 13044 When fuel shut off relay is latched, short is detected (mechanical engine tractors only)
INST 13051 Air to Air Intake Temperature sensor voltage is too low (short to ground)
INST 13052 Air to Air Intake Temperature sensor voltage is too high (open circuit, short to +V)
INST 53001 Instrumentation Controller Configuration is Incorrect
INST 53002 Air to Air Intake sensor does not match Tractor Model Configuration
INST 53005 Engine Shutdown activated by Instrument Controller
INST 65535 NO ERROR. Errors have not been cleared from factory.
ATC 111 Cab sensor open or shorted to power
ATC 112 Cab sensor shorted to ground
ATC 115 Evaporator sensor open or shorted to power
ATC 116 Evaporator sensor shorted to ground
ATC 120 Blower speed select pot open/shorted to power
ATC 121 Temperature select pot open/shorted to power
ATC 122 Mode Select Pot Open Or Shorted To Power
ATC 125 High pressure switch (+) input shorted to power
ATC 126 High pressure switch (+) input shorted to ground
ATC 127 High pressure switch (-) input shorted to power
ATC 128 High pressure switch (-) input shorted to ground
ATC 129 High pressure cycling error (2 in 1 minute)
ATC 130 Low pressure switch (+) input shorted to power
ATC 131 Low pressure switch (+) input shorted to ground
ATC 132 Low pressure switch (-) input shorted to power
ATC 133 Low pressure switch (-) input shorted to ground
ATC 134 Low pressure switch open for > 1 minute
ATC 113 Outlet sensor open or shorted to power
ATC 114 Outlet sensor shorted to ground
ATC 117 Outside air sensor open or shorted to power
ATC 118 Outside air sensor shorted to ground
Hitch 1002 Raise hitch valve coil short to 12 volts or raise hitch valve coil circuit failure.
Hitch 1003 Open or Short to Ground raise hitch valve coil circuit failure.
Hitch 1004 Lower hitch valve coil short to 12 volts or lower hitch valve coil circuit failure.
Hitch 1005 Open or short to ground lower hitch valve coils.
Hitch 1006 EDC Low Side Driver stuck on failure.
Hitch 1007 Low side driver watchdog test failed.
Hitch 1008 Low side of raise solenoid connected permanently to GND
Hitch 1009 Low side of lower solenoid connected permanently to GND
Hitch 1011 TCU (Tractor Controller Unit) is disconnected from the CAN bus.
Hitch 1012 No communication with the ACM (Armrest Controller Module).
Hitch 1013 No communication with the ICP (Instrument Cluster Panel).
Hitch 1014 Five-volt reference is above the upper voltage limit.
Hitch 1015 Five-volt reference is below the lower voltage limit.
Hitch 1016 Not implemented
Hitch 1017 Position Command value received over the CAN data bus from the Armrest indicates Position Command potentiometer failed.
Hitch 1018 Hitch rockshaft position potentiometer open/short/misadjust or circuit failure.
Hitch 1019 Upper Limit value received from CAN data bus indicates failure condition.
Hitch 1021 Load Command value received from CAN data bus indicates failure condition.
Hitch 1022 Single draft pin sensor failed when configured for one draft pin sensor.(CCH Only)
Hitch 1023 Two draft pin sensors failed when configured for two draft pins.(CCH Only)
Hitch 1024 ICU CAN data bus signal lost.
Hitch 1025 Up/Down/Down Momentary switch value received from CAN data bus indicates switch failure.
Hitch 1026 Up/Down remote fender switch failure.
Hitch 1027 Not implemented
Hitch 1028 Travel Range potentiometer value received from CAN data bus indicates failure condition.
Hitch 1029 Drop Rate value received from CAN data bus indicates potentiometer failure condition.
Hitch 1030 Right draft pin voltage is outside the normal operating range.(CCH Only)
Hitch 1031 Left draft pin voltage is outside the normal operating range.(CCH Only)
Hitch 1032 Ground speed failure-value received from CAN data bus indicates failure condition.
Hitch 1033 Slip Limit Set Point received from CAN data bus indicates failure condition.
Hitch 1034 Slip Enable switch received from CAN data bus indicates failure condition.
Hitch 1035 The Percent slip received from ETC indicates failure condition.
Hitch 1036 The ARU reports EDC Inching Up switch faulty or not available.
Hitch 1037 The ARU reports EDC Inching Down switch faulty or not available.
Hitch 1065 The ARU specified tractor without draft control (position only hitch) but detected presence of draft pin(s).
Trans 2009 Seat switch open circuit
Trans 2010 Seat switch is shorted to the supply voltage B+ or 5 volt reference
Trans 2011 Clutch Pot Open Circuit or short to ground
Trans 2012 Clutch Potentiometer Short to +12 Volts or short to 5 Volt reference.
Trans 2024 none of the Transmission clutches are calibrated. This will be the condition when a new controller is installed on the tractor.
Trans 2037 Bottom of Clutch pedal switch open circuit or bottom of clutch relay is stuck open
Trans 2047 Clutch pedal bottom of clutch switch misadjusted.
Trans 2048 Bottom of Clutch pedal switch or the bottom of clutch relay are short circuit
Trans 2049 Trans
Trans 2054 5 volt reference voltage too low.
Trans 2055 No signal from wheel speed sensor.
Trans 2056 5 volt internal reference voltage too high.
Trans 2057 5 volt internal reference voltage too low.
Trans 2059 1) Switch inputs indicate shuttle lever is in both forward and neutral 2) Switch inputs indicate shuttle lever is in both reverse and neutral3) Switch inputs indicate shuttle lever is
in both forward and reverse. Cycle the shuttle lever which may free up stuck switches, or try driving the opposite direction.
Trans 2071 Forward switch input from the FNRP Pod is shorted to ground or is open circuit.
Trans 2072 Reverse switch input from the FNRP Pod is shorted to +12 Volts or the FNRP pod 5 Volt Reference.
Trans 2073 Reverse switch input from the FNRP Pod is shorted to ground or open circuit.
Trans 2074 FNR Not Park Switch low voltage fault
Trans 2075 FNR Not Park Switch high Voltage fault
Trans 2110 FNR Neutral Switch Low Voltage fault
Trans 2111 FNR Neutral Switch high Voltage fault
Trans 2326 The Engine RPM sourced from the alternator measured by the controller is excessively high.
Trans 2327 No engine RPM
Trans 2330 The Transmission output RPM speed, sourced from the sensor, measured by the controller is too high for the desired gear
Trans 2331 The transmission clutches are slipping
Trans 2342 Clutch Odd solenoid open circuit or short to ground.
Trans 2343 Clutch Even solenoid open circuit or short to ground.C33
Trans 2344 Clutch C1-2 solenoid open circuit or short to ground.
Trans 2345 Clutch C3-4 solenoid open circuit or short to ground.
Trans 2346 Clutch 5-6 solenoid open circuit or short to ground.
Trans 2374 Master Clutch solenoid open circuit or short to ground.
Trans 2347 Clutch Low Range solenoid open circuit or short to ground.
Trans 2348 110 Clutch Mid Range solenoid open circuit or short to ground.
Trans 2349 Clutch High Range solenoid open circuit or short to ground.
Trans 2350 Clutch reverse solenoid open circuit or short to ground.
Trans 2351 The creeper clutch solenoid is open circuit or short to ground
Trans 2353 Even Clutch Solenoid is shorted to +12 Volts, current sensed while driver is off.
Trans 2352 Odd Clutch Solenoid is shorted to +12 Volts, current sensed while driver is off.
Trans 2354 C1-2 Clutch Solenoid is shorted to +12 Volts, current sensed while driver is off..
Trans 2355 C3-4 Clutch Solenoid is shorted to +12 Volts, Current sensed while driver is off.
Trans 2356 C5-6 clutch Solenoid is shorted to +12 Volts, current sensed while driver isoff.
Trans 2357 Low clutch Solenoid is shorted to +12 Volts, current sensed while driver is off.
Trans 2358 Mid Clutch Solenoid is shorted to +12 Volts, Current sensed while driver is off.
Trans 2359 High Clutch Solenoid is shorted to +12 Volts, current sensed while driver is off.
Trans 2360 Reverse Clutch Solenoid is shorted to +12 Volts, current sensed while driver is off.
Trans 2361 The creeper clutch solenoid is shorted to +12 Volts, current sensed while the driver is off
Trans 2362 Master Clutch Solenoid is shorted to +12 Volts, current sensed while driver is off.
Trans 2363 The Odd Clutch is not calibrated
Trans 2364 Even Clutch not calibrated
Trans 2365 C1-2 Clutch not calibrated
Trans 2366 C3-4 Clutch not calibrated
Trans 2367 C5-6 Clutch not calibrated
Trans 2368 Low Range Clutch not calibrated
Trans 2369 Mid Range Clutch not calibrated
Trans 2370 High Clutch not calibrated
Trans 2371 Reverse Clutch not calibrated
Trans 2372 Creep Clutch is not calibrated
Trans 2373 Master Clutch not calibrated
Trans 2800 Auto Guidance Isolation valve driver Fault
Trans 2805 System pressure valve solenoid circuit is open circuit or shorted to ground
Trans 2806 System pressure solenoid is shorted to B+
Trans 2807 Transmission output rpm over speed
Trans 2809 The battery voltage is too low to permit operation of the clutch solenoids.
Trans 2811 Transmission Oil Temperature Hot
Trans 2812 Transmission Oil Temperature sensor short to B+ or open circuit
Trans 2813 Transmission oil temperature Sensor Short to Ground
Trans 2814 Integrated Control Panel off line
Trans 2815 Governor Engine RPM alternator engine RPM mismatch
Trans 2816 Transmission regulated pressure accumulator is flat
Trans 2817 Governor is offline CAN bus
Trans 2818 Communication lost with the Armrest Control Module(ACM)
Trans 2819 Communication lost with the instrumentation controller.
Trans 2820 System pressure low possible System pressure hydraulic pump failure or leak
Trans 2821 System Pressure Low fault
Trans 2850 The Park Brake is stuck on by no electrical power supplied when commanded on
Trans 2851 The Park Brake Driver has detected an over current or an open circuit condition
Trans 2852 The Park Brake is stuck on by no electrical power supplied to the solenoid when driver is commanded on. Possible service brake bottom brake switches open.
Trans 2055 No signal from wheel speed sensor.
Trans 2873 Software is out of the calibration mode and the park brake request is still active. If this fault is detected there is a bug in the software
Trans 2874 The park brakes commanded on and gear is engaged and there is no park brake request from calibration. If this fault is detected there is a bug in the software
Trans 2900 Torque sensor Gap is on the larger end of the tolerance (CCH Only)
Trans 2901 Signal received from the torque sensor is not in any fault range or normal range tolerance (CCH Only)
Trans 2902 Torque sensor has declared an internal fault tolerance (CCH Only)
Trans 2903 Torque sensor supply voltage below 4.8 volts tolerance (CCH Only)
Trans 2910 12VF1voltage supply is low. (possible blown fuse*)
Trans 2911 12VT1voltage supply is low. (possible blown fuse*)
Trans 2912 12VF2voltage supply is low. (possible blown fuse*)
Trans 2913 12VHvoltage supply is low. (possible blown fuse*)
Trans 2914 12VF3voltage supply is low. (possible blown fuse*)
Trans 2915 12VS1voltage supply is low. (possible blown fuse*)
Engine 3000 Unknown ECM Error Code Received
Engine 3999 Unknown ECM Error Code Received
Engine 3001 Foot Throttle Sensor -Signal Not Plausible
Engine 3002 Foot Throttle Sensor -Signal Above Range Max.
Engine 3003 Foot Throttle Sensor -Signal Below Range Min.
Engine 3004 Foot Throttle Sensor -No Signal -Error
Engine 3006 Coolant Temperature Sensor -Signal Not Plausible(Compared with Engine Oil Temperature)
Engine 3007 Coolant Temperature Sensor -Signal Above Range Max.
Engine 3008 Coolant Temperature Sensor -Signal Below Range Min.
Engine 3009 Coolant Temperature Sensor -(via CAN) No Signal
Engine 3010 Air Intake Temperature Sensor -Signal Above Range Max.
Engine 3011 Air Intake Temperature Sensor -Signal Above Range Min.
Engine 3012 Air Intake Temperature Sensor -(via CAN) No Signal
Engine 3015 Fuel Temperature Signal -Signal Above Range Max.
Engine 3016 Fuel Temperature Signal -Signal Below Range Min.
Engine 3019 Boost Pressure Sensor -Signal Above Range Max.
Engine 3021 Boost Pressure Sensor -(via CAN) No Signal
Engine 3022 Boost Pressure Sensor -Signal Not Plausible
Engine 3023 Atmospheric Pressure Sensor -Signal Not Plausible Compared with Boost Pressure
Engine 3024 Atmospheric Pressure Sensor -Signal Above Range Max.
Engine 3025 Atmospheric Pressure Sensor -Signal Below Range Min.
Engine 3028 Oil Pressure Too Low
Engine 3029 Oil Pressure Sensor _Short circuit to Battery
Engine 3030 Oil Pressure Sensor _Short circuit to Ground
Engine 3031 Oil Pressure Sensor -Hardware Error
Engine 3032 Oil Pressure Sensor -Value Too High
Engine 3033 Oil Temperature Sensor -Signal Not Plausible (Compared with Coolant Temperature)
Engine 3034 Oil Temperature Sensor -Signal Above Range Max.
Engine 3035 Oil Temperature Sensor -Signal Below Range Min.
Engine 3036 Oil Temperature Sensor -(via CAN) No Signal
Engine 3037 Boost Pressure Sensor -Signal Low
Engine 3038 Constant Engine RPM Activate / Select Switch _Short circuit to Ground
Engine 3039 Cruise Control Actuating Device -Evaluation Error
Engine 3043 Vehicle Speed Sensing -Hardware Conversion Error
Engine 3044 Vehicle Speed Sensing -Signal Above Range Max.
Engine 3045 Vehicle Speed Sensing -Signal Below Range Min.
Engine 3046 Vehicle Speed Sensing -Signal Not Plausible
Engine 3047 Main Relay 2 Failure _Short circuit to Battery
Engine 3048 Main Relay 2 Failure _Short circuit to Ground
Engine 3051 Battery Voltage to ECM too High
Engine 3052 Battery Voltage to ECM too Low
Engine 3053 Vehicle Speed Sensing (Tacho) -PWM Frequency Too High
Engine 3054 Vehicle Speed Sensing (Tacho) -PWM Average Frequency Above Limit
Engine 3055 Vehicle Speed Sensing (Tacho) -PWM Average Frequency Below Limit
Engine 3056 Vehicle Speed Sensing (Tacho) -Not Plausible
Engine 3057 Timeout of CAN Message High Resolution Wheel Speed
Engine 3058 Timeout of CAN Message Vehicle Dynamics Control Unit
Engine 3059 ECM After run was Interrupted
Engine 3060 Cylinder1 -Unclassifiable Error in Injector
Engine 3061 Cylinder1 -Injector Cable Short circuit (Low Side to Battery)
Engine 3062 Cylinder1 -Application Dependent
Engine 3063 Cylinder1 -Injector Cable Short circuit (High Side to Ground)
Engine 3064 Cylinder5 -Unclassifiable Error in Injector
Engine 3065 Cylinder5 -Injector Cable Short circuit (Low Side to Battery)
Engine 3066 Cylinder5 -Application Dependent
Engine 3067 Cylinder5 -Injector Cable Short circuit (High Side to Ground)
Engine 3068 Cylinder3 -Unclassifiable Error in Injector
Engine 3069 Cylinder3 -Injector Cable Short circuit (Low Side to Battery)
Engine 3070 Cylinder3 -Application Dependent
Engine 3071 Cylinder3 -Injector Cable Short circuit (High Side to Ground)
Engine 3072 Cylinder6 -Unclassifiable Error in Injector
Engine 3073 Cylinder6 -Injector Cable Short circuit (Low Side to Battery)
Engine 3074 Cylinder6 -Application Dependent
Engine 3075 Cylinder6 -Injector Cable Short circuit (High Side to Ground)
Engine 3076 Cylinder2 -Unclassifiable Error in Injector
Engine 3077 Cylinder2 -Injector Cable Short circuit (Low Side to Battery)
Engine 3078 Cylinder2 -Application Dependent
Engine 3079 Cylinder2 -Injector Cable Short circuit (High Side to Ground)
Engine 3080 Cylinder4 -Unclassifiable Error in Injector
Engine 3081 Cylinder4 -Injector Cable Short circuit (Low Side to Battery)
Engine 3082 Cylinder4 -Application Dependent
Engine 3083 Cylinder4 -Injector Cable Short circuit (High Side to Ground)
Engine 3088 Crankshaft Sensor -No Signal
Engine 3089 Crankshaft Sensor -Invalid Signal
Engine 3090 Camshaft Sensor -No Signal
Engine 3091 Camshaft Sensor -Invalid Signal
Engine 3092 Offset Between Camshaft and Crankshaft -Not Plausible
Engine 3093 Offset Between Camshaft and Crankshaft -Outside Boundaries
Engine 3095 Operating with Camshaft Sensor Only -Backup Mode
Engine 3096 Tier 3: ECM Bus Off on CAN A Tier 4a: ECM Bus Off on Vehicle CAN
Engine 3097 ECM Bus Off on Engine private CAN
Engine 3098 Timeout of CAN Message TSC1-TE (When Active)
Engine 3099 Timeout of CAN Message TSC1-TE (When Inactive)
Engine 3100 Timeout of CAN Message TSC1-AE (When Active)
Engine 3101 Timeout of CAN Message TSC1-AE (When Inactive)
Engine 3102 Rail Pressure Sensor CP3 -Signal Below Range Min.
Engine 3104 Rail Pressure Relief Valve -Open
Engine 3105 Rail Pressure Relief Valve -Pressure Shock Requested
Engine 3106 Rail Pressure Relief Valve -Did Not Open After Pressure Shock
Engine 3107 Metering Unit _Short circuit to Battery
Engine 3108 Metering Unit _Short circuit to Ground
Engine 3110 Rail Pressure Sensor Offset Monitoring -Value above Limit
Engine 3111 Rail Pressure Sensor Offset Monitoring -Value below Limit
Engine 3112 Rail Pressure Sensor CP3 -Signal Above Range Max.
Engine 3113 Main Relay 1 (High Pressure Pump -power supply to the fuel metering unit) -Short to Battery
Engine 3114 Main Relay 1 (High Pressure Pump -power supply to the fuel metering unit) Short to Ground
Engine 3117 PTO Twist Sensor -Out of Range
Engine 3118 ECM 12V Sensor Supply Voltage High
Engine 3119 ECM 12V Sensor Supply Voltage Low
Engine 3120 PTO Twist Sensor -Not Plausible
Engine 3121 PTO Twist Sensor -Open Circuit
Engine 3122 PTO Twist Sensor _Short circuit to Ground
Engine 3123 PTO Twist Sensor -Not Calibrated
Engine 3124 Hand Throttle -Channel 2 Above Range Max.
Engine 3125 Hand Throttle -Channel 2 Below Range Min.
Engine 3126 Hand Throttle -Channel 1 Signal Above Range Max.
Engine 3127 Hand Throttle -Channel 1 Signal Below Range Min.
Engine 3128 Hand Throttle -Channel Difference Error
Engine 3129 Hand Throttle -Idle Switch Closed Circuit
Engine 3130 Hand Throttle -Idle Switch Open Circuit
Engine 3131 Grid Heater Always Switched On
Engine 3133 Cold Start Lamp -No Load
Engine 3134 Cold Start Lamp _Short circuit to Battery
Engine 3135 Cold Start Lamp _Short circuit to Ground
Engine 3136 Cold Start Lamp -Excessive Temperature
Engine 3137 Metering Unit -Open Load
Engine 3138 Metering Unit -Temperature Too High
Engine 3139 Metering Unit Signal Range Check -Signal Too High
Engine 3140 Metering Unit Signal Range Check -Signal Too Low
Engine 3141 Fuel Flow Set point Too Low
Engine 3142 High Pressure Test -Test Active
Engine 3143 Grid Heater Switch Off Test (Voltage Drop Too High)
Engine 3144 Grid Heater Switch Off Test (Voltage Drop Too Low)
Engine 3145 Terminal 15 -No Signal
Engine 3146 Water Detected In Fuel
Engine 3147 Oil Temperature Too High
Engine 3148 Coolant Temperature Sensor Dynamic Test -Failure (Minimum Temperature Raise Not Reached)
Engine 3149 Coolant Temperature Sensor Test -Failure (Minimum Temperature Not Reached)
Engine 3150 System/Amber Warning Lamp _Short circuit to Battery
Engine 3151 System/Amber Warning Lamp _Short circuit to Ground
Engine 3152 System/Amber Warning Lamp -No Load
Engine 3153 System/Amber Warning Lamp -Excessive Temperature
Engine 3154 Grid Heater Relay _Short circuit to Battery
Engine 3155 Grid Heater Relay _Short circuit to Ground
Engine 3156 Grid Heater Relay -No Load
Engine 3157 ECM Not Detected on CAN bus
Engine 3158 Invalid ECM Checksum
Engine 3159 Invalid Engine Reference Torque
Engine 3160 Fan Actuator _Short circuit to Battery
Engine 3161 Fan Actuator _Short circuit to Ground
Engine 3162 Fan Actuator -Open Load
Engine 3163 Fan Actuator -Temperature Too High
Engine 3164 Fan Speed Sensor _Signal High
Engine 3165 Fan Speed Sensor -Signal Low
Engine 3166 Fuel Filter Heater Relay _Short circuit to Battery
Engine 3167 Fuel Filter Heater Relay _Short circuit to Ground
Engine 3168 Fuel Filter Heater Relay -Open Load
Engine 3169 Fuel Filter Heater Relay -Signal Not Plausible
Engine 3176 Set point of Metering Unit Not Plausible in Overrun
Engine 3177 Engine Over speed Detected
Engine 3178 Timeout of CAN Message BC2EDC1
Engine 3179 Timeout of CAN Message BC2EDC2
Engine 3180 Timeout of CAN Message VCM2EDC
Engine 3181 Rail Pressure Positive Deviation Too High Concerning Set point
Engine 3182 Timeout of CAN Message RxCCVS
Engine 3183 Timeout of CAN Message TSC1-VR (When Active)
Engine 3184 Timeout of CAN Message TSC1-VR (When Inactive)
Engine 3185 Timeout of CAN message TF
Engine 3186 Cylinder1 Warning -Fast Decay Error
Engine 3187 Cylinder1 Warning -Application Dependent
Engine 3188 Cylinder1 Warning -Injector Circuit Low
Engine 3189 Cylinder1 Warning -Current Level Error
Engine 3190 Cylinder2 Warning -Fast Decay Error
Engine 3191 Cylinder2Warning -Application Dependent
Engine 3192 Cylinder2 Warning -Open Load
Engine 3193 Cylinder2 Warning -Current Level Error
Engine 3194 Cylinder3 Warning -Fast Decay Error
Engine 3195 Cylinder3 Warning -Application Dependent
Engine 3196 Cylinder3 Warning -Open Load
Engine 3197 Cylinder3 Warning -Current Level Error
Engine 3198 Cylinder4 Warning -Fast Decay Error
Engine 3199 Cylinder4 Warning -Application Dependent
Engine 3200 Cylinder4 Warning -Open Load
Engine 3201 Cylinder4 Warning -Current Level Error
Engine 3202 Cylinder5 Warning -Fast Decay Error
Engine 3203 Cylinder5 Warning -Application Dependent
Engine 3204 Cylinder5 Warning -Open Load
Engine 3205 Cylinder5 Warning -Current Level Error
Engine 3206 Cylinder6 Warning -Fast Decay Error
Engine 3207 Cylinder6 Warning -Application Dependent
Engine 3208 Cylinder6 Warning -Open Load
Engine 3209 Cylinder6 Warning -Current Level Error
Engine 3210 Bank1 -General Short circuit on Injection Cable
Engine 3211 Bank1 -Injection Cable Short circuit Low Side to Ground
Engine 3212 Bank1 -Application Dependent
Engine 3213 Bank1 -Unclassifiable Error
Engine 3214 Bank1 Warning -Application Dependent
Engine 3215 Bank1 Warning -Application Dependent
Engine 3216 Bank1 Warning -Open Load
Engine 3217 Bank1 Warning -Unclassifiable Error
Engine 3218 Bank2-General Short circuit on Injection Cable
Engine 3219 Bank2 -Injection Cable Short circuit Low Side to Ground
Engine 3220 Bank2 -Application Dependent
Engine 3221 Bank2 -Unclassifiable Error
Engine 3222 Bank2 Warning -Application Dependent
Engine 3223 Bank2 Warning -Application Dependent
Engine 3224 Bank2 Warning -Open Load
Engine 3225 Bank2 Warning -Unclassifiable Error
Engine 3226 Messages SRA2EDC
Engine 3227 Injection Processor (CY33X) Error -Internal Reset / Clock Loss / Voltage Too Low
Engine 3228 Injection Processor (CY33X) Error -Unlocked / Initialization Failure
Engine 3229 Injection Processor (CY33X) Error -Injections Limited By Software
Engine 3230 Injection Processor (CY33X) Error -SPI Communication Failure
Engine 3231 Injection Processor Error -Internal Reset / Clock Loss / Voltage Too Low
Engine 3232 Injection Processor Error -Unlocked / Initialization Failure
Engine 3233 Injection Processor Error -Test Mode
Engine 3234 Injection Processor Error -SPI Communication Failure
Engine 3235 Number of Injections Limited -by Charge Balance
Engine 3236 Number of Injections Limited -by Quantity Balance
Engine 3237 Number of Injections Limited -by Software
Engine 3238 ECM Internal SPI Communication Error -CJ940
Engine 3239 ECM EEPROM -Read Operation Failure
Engine 3240 ECM EEPROM -Write Operation Failure
Engine 3241 ECM EEPROM -Default Value Used
Engine 3242 ECM (Locked) Recovery Occurred
Engine 3243 ECM (Suppressed) -Recovery Occurred
Engine 3244 ECU Recovery (Visible) -Recovery Occurred
Engine 3245 ECM Processor -Watchdog Not Plausible
Engine 3246 Shutoff Paths During Initialization -Watchdog
Engine 3247 Shutoff Paths During Initialization -Supply Voltage Too High
Engine 3248 Shutoff Paths During Initialization -Supply Voltage Too Low
Engine 3249 TPU Monitoring -Time Deviation between TPU and System Not Plausible
Engine 3250 Dataset -Variant Defect
Engine 3251 Dataset -Requested Variant Could Not Be Set
Engine 3252 Controller Watchdog -SPI Communication Failure
Engine 3253 ADC Monitoring -Reference Voltage Too High
Engine 3254 ADC Monitoring -Reference Voltage Too Low
Engine 3255 ADC Monitoring -Test Impulse Error
Engine 3256 ADC Monitoring -Queue Error
Engine 3257 Turbine Speed and Air Pressure Too High
Engine 3258 High Side Power -Short circuit to Battery
Engine 3259 High Side Power _Short circuit to Ground
Engine 3260 Low Side Power -Open Load
Engine 3261 Low Side Power -Short circuit to Battery of Excess Temperature
Engine 3262 Low Side Power _Short circuit to Ground
Engine 3263 ECM Bus Off on CAN C
Engine 3264 Immobilizer -Injection Disabled
Engine 3265 Overrun Monitoring -Injection Time Too Long
Engine 3266 Redundant Engine Speed in Overrun Monitoring -Speed Signal Not Plausible
Engine 3267 Main relay 3 _Short circuit to Battery
Engine 3268 Main relay 3 _Short circuit to Ground
Engine 3269 Grid Heater Switch On Test -Voltage Drop Too High
Engine 3270 Grid Heater Switch On Test -Voltage Drop Too Low
Engine 3271 Fuel Low Pressure Sensor -(via CAN) No Signal
Engine 3272 Fuel Low Pressure Sensor -Signal Above Range Max.
Engine 3273 Fuel Low Pressure Sensor -Signal Below Range Min.
Engine 3274 Fuel Low Pressure Sensor Dynamic Plausibility Test -Above Map
Engine 3275 Fuel Low Pressure Sensor Dynamic Plausibility Test -Below Map
Engine 3276 MIL Visualization Not Available for BC2EDC1
Engine 3277 Timeout of CAN Message Dashboard Display
Engine 3278 ECM Internal Supply Voltage Too High -CJ940 Above Limit
Engine 3279 ECM Internal Supply Voltage Too Low -CJ940 Below Limit
Engine 3280 Sensor Supply Voltage 1 -High
Engine 3281 Sensor Supply Voltage 1 — Low
Engine 3282 Timeout of CAN Message WSI (Wheel Speed Info)
Engine 3283 Sensor Supply Voltage 2 -High
Engine 3284 Sensor Supply Voltage 2 — Low
Engine 3285 Sensor Supply Voltage 3 -High
Engine 3286 Sensor Supply Voltage 3 — Low
Engine 3287 Turbo Compound Monitoring -No Signal
Engine 3288 Turbo Compound Monitoring -Signal High
Engine 3289 Turbo Compound Monitoring -Signal Low
Engine 3290 Turbo Compound Monitoring -Signal Not Plausible
Engine 3291 Cylinder 1 Specific Errors -No Signal
Engine 3292 Cylinder 1 Specific Errors -Signal Low
Engine 3293 Cylinder 1 BIP Search Failure -Too Many Unsuccessful Searched
Engine 3294 Cylinder 1 Specific Errors -Signal Not Plausible
Engine 3295 Cylinder 2 Specific Errors -No Signal
Engine 3296 Cylinder 2 Specific Errors -Signal Low
Engine 3298 Cylinder 2 Specific Errors -Signal Not Plausible
Engine 3299 Cylinder 3 Specific Errors -No Signal
Engine 3300 Cylinder 3 Specific Errors -Signal Low
Engine 3301 Cylinder 3 BIP Search Failure -Too Many Unsuccessful Searches — Rail Pressure Negative Deviation too High on Minimum Metering
Engine 3302 Cylinder 3 Specific Errors -Signal Not Plausible
Engine 3303 Cylinder 4 Specific Errors -No Signal
Engine 3304 Cylinder 4 Specific Errors -Signal Low
Engine 3305 Cylinder 4 BIP Search Failure -Too Many Unsuccessful Searches — Rail Pressure below Minimum Limit in Controlled Mode
Engine 3306 Cylinder 4 Specific Errors -Signal Not Plausible
Engine 3307 Cylinder 5 Specific Errors -No Signal
Engine 3308 Cylinder 5 Specific Errors -Signal Low
Engine 3309 Cylinder 5 BIP Search Failure -Too Many Unsuccessful Searches — Rail Pressure above Maximum Limit in Controlled Mode
Engine 3310 Cylinder 5 Specific Errors -Signal Not Plausible
Engine 3311 Cylinder 6 Specific Errors -No Signal
Engine 3312 Cylinder 6 Specific Errors -Signal Low
Engine 3313 Cylinder 6 BIP Search Failure -Too Many Unsuccessful Searches — Rail Pressure Drop Rate too High
Engine 3314 Cylinder 6 Specific Errors -Signal Not Plausible
Engine 3315 Minimum Number of Injections Not Reached -Stop Engine
Engine 3316 Minimum Number of Injections Not Reached -Stop Engine
Engine 3317 Minimum Number of Injections Not Reached -Stop Engine
Engine 3318 Minimum Number of Injections Not Reached -Stop Engine
Engine 3319 DM1DCU SPN2 message -Error in DCU active
Engine 3320 DM1DCU SPN3 message -Error in DCU active
Engine 3321 Timeout of CAN Message DM1DCU SPN4
Engine 3322 Timeout of CAN Message ERC1DR
Engine 3323 Timeout of CAN Message RxAMCONIv (Ambient Conditions)
Engine 3324 Timeout of CAN Message EBC1 (Electronic Brake Switch)
Engine 3325 Timeout of CAN Message ETC1 (Transmission)
Engine 3326 Timeout of CAN Message ETC2 (Transmission)
Engine 3327 Timeout of CAN Message TCO1 (Tachograph)
Engine 3328 Timeout of CAN Message TSC1-AR (When Inactive)
Engine 3329 Timeout of CAN Message TSC1-AR (When Active)
Engine 3330 Timeout of CAN Message TSC1-DE (When Inactive)
Engine 3331 Timeout of CAN Message TSC1-DE (When Active)
Engine 3332 Timeout of CAN Message TSC1-DR (When Inactive)
Engine 3333 Timeout of CAN Message TSC1-DR (When Active)
Engine 3334 Timeout of CAN message TSC1-PE Torque (When Active)
Engine 3335 Timeout of CAN message TSC1-PE Torque (When Inactive)
Engine 3336 Timeout of CAN Message TSC1-TR (When Inactive)
Engine 3337 Timeout of CAN Message TSC1-TR (When Active)
Engine 3338 Timeout of CAN message TSC1-VE Speed (When Inactive)
Engine 3339 Timeout of CAN message TSC1-VE Speed (When Active)
Engine 3340 Timeout of CAN Message Time Date
Engine 3341 Timeout of CAN Message HRVD (High Resolution Vehicle Distance)
Engine 3342 Power Stage Air Heater 2 Actuator -No Signal
Engine 3343 Power Stage Air Heater 2 Actuator -Signal High
Engine 3344 Power Stage Air Heater 2 Actuator -Signal Low
Engine 3345 Total Throttle Failure (Only applies to Dual Throttle Vehicles)
Engine 3346 Multiple State Switch
Engine 3347 Multiple State Switch
Engine 3348 Multiple State Switch
Engine 3349 Multiple State Switch
Engine 3350 Terminal 50 -Always On
Engine 3351 Engine Brake Decompression Valve -Open Load
Engine 3352 Engine Brake Decompression Valve _Short circuit to Battery
Engine 3353 Engine Brake Decompression Valve _Short circuit to Ground
Engine 3354 Main Relay 4 (Engine Brake Exhaust Valve) _Short circuit to Ground
Engine 3355 Main Relay 4 (Engine Brake Exhaust Valve) -Short to Battery or open load
Engine 3356 Cylinder Shutoff (Cylinder Balancing Disabled) -Shutoff Active
Engine 3357 Misfire in Multiple Cylinders -Too Many Misfires
Engine 3358 CAN Transmit Timeout
Engine 3359 TSC Demand Physically Implausible
Engine 3360 Driving Dynamic Control -Not Plausible
Engine 3361 ECM EEPROM -General Error
Engine 3362 Torque to Quantity Map -Not Plausible
Engine 3363 Atmospheric Pressure Sensor -Processed via ADC (no CAN Plausibility Performed)
Engine 3364 Foot Pedal 2 -Signal Too High
Engine 3365 Foot Pedal 2 -Signal Too Low
Engine 3366 Foot Pedal 2 -Signal Not Plausible Compared to Foot Pedal 1
Engine 3367 Coolant Temperature Test Failure
Engine 3368 Info: Torque Limitation due to OBD Performance Limiter by Legislation
Engine 3369 Torque Reduction due to Smoke Limitation
Engine 3370 Info: Torque Limitation due to Engine Protection (against Excessive Torque, Engine Over speed and Overheat)
Engine 3371 Info: Torque Limitation due to Fuel Quantity Limitation because of Injection System Errors
Engine 3372 Injection Quantity Adjustment failure -Invalid Adjustment Value
Engine 3373 Injection Quantity Adjustment failure -EEPROM Adjustment Value Not Readable
Engine 3374 Injection Quantity Adjustment failure -Invalid EEPROM Adjustment Value Checksum
Engine 3375 Constant Engine RPM Increase / Decrease Switch _Short circuit to Battery
Engine 3376 Engine Controller Software Does Not Support Power Management (Engine Power Management Option Enabled, but Engine Software Not Compatible)
Engine 3377 Constant Engine RPM Switch Detected but Option Not Enabled.
Engine 3380 Engine Fan Increase Speed Error (open or short circuit)
Engine 3381 Engine Fan Decrease Speed Error (open or short circuit)
Engine 3382 Fan Control Solenoid Short To 12Vr
Engine 3383 Fan Control Solenoid Open Or Short To GND
Engine 3384 Vistronic Engine Cooling Fan driver open or short circuit
Engine 3399 Engine Fuel Lift Pump relay driver over current fault
Engine 3513 SCR Catalyst not present _Relation of temperature behavior between both Catalyst Temperatures not plausible
Engine 3517 Ambient Air Temperature Sensor failure (of Humidity Sensor) -Signal too high
Engine 3518 Ambient Air Temperature Sensor failure (of Humidity Sensor) -Signal too low
Engine 3519 Ambient Air Temperature Sensor failure (of Humidity Sensor) -CAN Signal failure
Engine 3521 NOx Estimation failure -Estimated Nox signal not reliable
Engine 3528 NOx Sensor Plausibility failure -Signal not plausible
Engine 3529 NOx Sensor Failure -Open Load
Engine 3530 NOx Sensor Failure -Short Circuit
Engine 3532 NOx Sensor Failure -Sensor not ready in time
Engine 3533 CAN Message timeout Nox (from Nox Sensor) -CAN timeout
Engine 3537 CAN Message timeout DM1DCU (from DCU) -CAN timeout
Engine 3541 CAN Message timeout SCR1 (from DCU) -CAN timeout
Engine 3545 Info: SCR Dosing Valve Overheat Protection -Torque Limitation Level2 for SCR Protection active
Engine 3546 Info: SCR Dosing Valve Overheat Protection -Torque Limitation Level1 for SCR Protection active
Engine 3549 Humidity Sensor Signal Ratio failure -Signal Ratio above Limit
Engine 3550 Humidity Sensor Signal Ratio failure -Signal Ratio below Limit
Engine 3555 CAN Message timeout SCR2 (from DCU)-CAN timeout
Engine 3557 Info: Humidity Sensor possibly saturated with water droplets -Signal Ratio above Limit
Engine 3558 Info: Humidity Sensor possibly saturated with water droplets -Signal Ratio below Limit
Engine 3561 NOx value not plausible (After treatment plausibility)
Engine 3565 Urea quality and urea warning level 1
Engine 3569 urea quality and urea warning level 2
Engine 3573 urea quality and urea warning level 3
Engine 3577 DM1DCU SPN1 message -Error in DCU active
Engine 3581 Performance limit active due to either stage -Performance Limitation active
EHR 4135 Rear Remote No.3 -Spool Deflection Excessive
EHR 4136 Rear Remote No.3 -Open Center Position Not Reached
EHR 4137 Rear Remote No.3 -Manual Operation
EHR 4138 Rear Remote No.3 -Output Stage Faulty
EHR 4139 Rear Remote No.3 -Position Transducer Faulty
EHR 4140 Rear Remote No.3 -Spool Cannot be Brought Back to Neutral
EHR 4141 Rear Remote No.3 -Spool Not in Neutral When Switched On
EHR 4142 Rear Remote No.4 -No EHR Control Messages
EHR 4143 Rear Remote No.4 -Implausible EHR Control Messages
EHR 4144 Rear Remote No.4 -Checksum Verification Failure
EHR 4145 Rear Remote No.4 -Neutral Set point
EHR 4146 Rear Remote No.4 -Under Voltage
EHR 4147 Rear Remote No.4 -Over Voltage
EHR 4148 Rear Remote No.4 -Spool Deflection Too Short
EHR 4149 Rear Remote No.4 -Spool Deflection Excessive
EHR 4150 Rear Remote No.4 -Open Center Position Not Reached
EHR 4151 Rear Remote No.4 -Manual Operation
EHR 4152 Rear Remote No.4 -Output Stage Faulty
EHR 4153 Rear Remote No.4 -Position Transducer Faulty
EHR 4154 Rear Remote No.4 -Spool Cannot be Brought Back to Neutral
EHR 4155 Rear Remote No.4 -Spool Not in Neutral When Switched On
EHR 4156 Rear Remote No.5 -No EHR Control Messages
EHR 4157 Rear Remote No.5 -Implausible EHR Control Messages
EHR 4158 Rear Remote No.5 -Checksum Verification Failure
EHR 4159 Rear Remote No.5 -Neutral Set point
EHR 4160 Rear Remote No.5 -Under Voltage
EHR 4161 Rear Remote No.5 _Over Voltage
EHR 4162 Rear Remote No.5 -Spool Deflection Too Short
EHR 4163 Rear Remote No.5 -Spool Deflection Excessive
EHR 4164 Rear Remote No.5 -Open Center Position Not Reached
EHR 4165 Rear Remote No.5 -Manual Operation
EHR 4166 Rear Remote No.5 -Output Stage Faulty
EHR 4167 Rear Remote No.5 -Position Transducer Faulty
EHR 4168 Rear Remote No.5 -Spool Cannot be Brought Back to Neutral
EHR 4169 Rear Remote No.5 -Spool Not in Neutral When Switched On
EHR 4170 Rear Remote No.1 _Lever Not Calibrated
EHR 4173 Rear Remote No.2 -Lever Not Calibrated
EHR 4177 Rear Remote No.3 -Lever Not Calibrated
EHR 4180 Rear Remote No.4 -Lever Not Calibrated
EHR 4190 EHR 1 Offline Err
EHR 4191 EHR 2 Offline Err
EHR 4192 EHR 3 Offline Err
EHR 4193 EHR 4 Offline Err
EHR 4198 EHR 5 Offline Err
EHR 4216 Rear Remote No.1 -Valve Spool Not Calibrated
EHR 4217 Rear Remote No.2 -Valve Spool Not Calibrated
EHR 4218 Rear Remote No.3 -Valve Spool Not Calibrated
EHR 4219 Rear Remote No.4 -Valve Spool Not Calibrated
EHR 4220 Rear Remote No.5 -Valve Spool Not Calibrated
EHR 4301 Rear Remote No.6 -No EHR Control Messages
EHR 4302 Rear Remote No.6 -Implausible EHR Control Messages
EHR 4303 Rear Remote No.6 -Checksum Verification Failure
EHR 4304 Rear Remote No.6 -Neutral Set point
EHR 4305 Rear Remote No.6 -Under Voltage
EHR 4306 Rear Remote No.6 -Over Voltage
EHR 4307 Rear Remote No.6 -Spool Deflection Too Short
EHR 4308 Rear Remote No.6 -Spool Deflection Excessive
EHR 4309 Rear Remote No.6 -Open Center Position Not Reached
EHR 4310 Rear Remote No.6 -Manual Operation
EHR 4311 Rear Remote No.6 -Output Stage Faulty
EHR 4312 Rear Remote No.6 -Position Transducer Faulty
EHR 4313 Rear Remote No.6 -Spool Cannot be Brought Back to Neutral
EHR 4314 Rear Remote No.6 -Spool Not in Neutral When Switched On
EHR 4315 Rear Remote No.7 -No EHR Control Messages
EHR 4316 Rear Remote No.7 -Implausible EHR Control Messages
EHR 4317 Rear Remote No.7 -Checksum Verification Failure
EHR 4318 Rear Remote No.7 -Neutral Set point
EHR 4319 Rear Remote No.7 -Under Voltage
EHR 4320 Rear Remote No.7 -Over Voltage
EHR 4321 Rear Remote No.7 -Spool Deflection Too Short
EHR 4322 Rear Remote No.7 -Spool Deflection Excessive
EHR 4323 Rear Remote No.7 -Open Center Position Not Reached
EHR 4324 Rear Remote No.7 -Manual Operation
EHR 4325 Rear Remote No.7 -Output Stage Faulty
EHR 4326 Rear Remote No.7 -Position Transducer Faulty
EHR 4327 Rear Remote No.7 -Spool Cannot be Brought Back to Neutral
EHR 4328 Rear Remote No.7 -Spool Not in Neutral When Switched On
EHR 4329 Rear Remote No.8 -No EHR Control Messages
EHR 4330 Rear Remote No.8 -Implausible EHR Control Messages
EHR 4331 Rear Remote No.8 -Checksum Verification Failure
EHR 4332 Rear Remote No.8 -Neutral Set point
EHR 4333 Rear Remote No.8 -Under Voltage
EHR 4334 Rear Remote No.8 -Over Voltage
EHR 4335 Rear Remote No.8 -Spool Deflection Too Short
EHR 4336 Rear Remote No.8 -Spool Deflection Excessive
EHR 4337 Rear Remote No.8 -Open Center Position Not Reached
EHR 4338 Rear Remote No.8 -Manual Operation
EHR 4339 Rear Remote No.8 -Output Stage Faulty
EHR 4330 Rear Remote No.8 -Position Transducer Faulty
EHR 4341 Rear Remote No.8 -Spool Cannot be Brought Back to Neutral
EHR 4342 Rear Remote No.8 -Spool Not in Neutral When Switched On
EHR 4343 Rear Remote No.5 -Lever Not Calibrated
EHR 4344 Rear Remote No.6 -Lever Not Calibrated
EHR 4345 Rear Remote No.7 -Lever Not Calibrated
EHR 4346 Rear Remote No.8 -Lever Not Calibrated
EHR 4347 EHR 6 Offline Err
EHR 4348 EHR 7 Offline Err
EHR 4349 EHR 8 Offline Err
EHR 4350 Rear Remote No.6 -Valve Spool Not Calibrated
EHR 4351 Rear Remote No.7 -Valve Spool Not Calibrated
EHR 4352 Rear Remote No.8 -Valve Spool Not Calibrated
EHR 4353 EHR FB 1High Err
EHR 4354 EHR FB 1 Low Err
EHR 4355 EHR FB 3 High Err
EHR 4356 EHR FB 3 Low Err
EHR 4357 EHR Implement Lower Error
EHR 4358 EHR Implement Raise Error
Rear PTO 5001 PTO cab switch, or Auto PTO switch, or PTO remote fender switch is on during tractor power up.
Rear PTO 5002 PTO switch interlock
Rear PTO 5003 Auto PTO switch data is set to the error state(CCH Only)
Rear PTO 5004 Auto PTO switch stuck on condition(CCH Only)
Rear PTO 5005 PTO remote fender switch short(CCH Only)
Rear PTO 5006 PTO remote fender switch open(CCH Only)
Rear PTO 5007 PTO remote fender switch stuck on(CCH Only)
Rear PTO 5008 Both PTO On and Off switches are simultaneously on. One of the PTO switches is short to 12 volts.
Rear PTO 5009 PTO solenoid open circuit or shorted to ground or AD12vs2 voltage is low.
Rear PTO 5010 PTO solenoid circuit shorted to B+ when PTO is in the off state.
Rear PTO 5011 Driver is on and no current is sensed.
Rear PTO 5012 PTO clutch is slipping excessively for the duration of 5 seconds or longer.
Rear PTO 5013 Engine speed is too low for the PTO to be in the ïonà state.
Rear PTO 5014 PTO is commanded off but the PTO speed greater than zero.
Rear PTO 5015 The software has not detected PTO shaft speed for greater than 3 seconds since the PTO initial fill vale was commanded
Rear PTO 5016 PTO speed is detected when the PTO is in the off state without engine RPM.
Rear PTO 5017 PTO clutch did not lock up after 6 seconds of clutch motion.
Rear PTO 5018 PTO speed sensors wiring swapped (CCH Only)
Rear PTO 5019 PTO is configured as a two speed and no shaft size frequency was detected when the PTO was switched on. (CCH Only)
Rear PTO 5020 PTO is configured as a single speed and the shaft size frequency was detected when the PTO was switched on. Shaft size frequency input is only used for two speeds PTO.(CCH Only)
Rear PTO 5021 Auto PTO disabled(CCH Only)
Rear PTO 5022 PTO switch is in the on position when the engine is off.
Rear PTO 5023 PTO clutch lube solenoid circuit shorted to B+ when PTO is in the off state.(4WD Only)
Rear PTO 5024 PTO clutch lube solenoid open circuit or shorted to ground or +12 VF3 voltage is low.(4WD Only)
Rear PTO 5025 Rear PTO
Rear PTO 5027 Low side of PTO solenoid connected permanently to GND
Rear PTO 5028 Clutch speed sensor open or short to Vbat
Rear PTO 5029 Clutch speed sensor short to GND
Rear PTO 5030 Shaft size speed sensor open or short to Vbat(CCH Only)
Rear PTO 5031 Shaft size speed sensor short to GND(CCH Only)
Rear PTO 5032 12VF3voltage supply is low. (possible blown fuse*)
MFD/Diff Lock 6001 MFD (CCH) or Front Diff Lock (4WD) solenoid failed. Possible Failure modes: 1. Solenoid coil failed 2. Damaged wiring 3. Loose connector or bent pin 4. TCU Internal failure
MFD/Diff Lock 6002 Rear Diff Lock solenoid failed. Possible Failure modes: 1. Diff Lock solenoid coil failed 2. Damaged wiring 3. Loose connector or bent pin 4. TCU Internal failure
MFD/Diff Lock 6003 Brake light relay fault. 1. Short to 12 volts 2. Open circuit or short to ground.
MFD/Diff Lock 6004 CAN-BUS indicating Rear Diff Lock Switch failed in the armrest. Possible failure modes: 1. Rear Diff Lock Switch failed in Armrest2. Auto Diff Lock Switch failed in Armrest
(CCH Only) 3. Communication problems between the TCU controller and the Armrest controller
MFD/Diff Lock 6005 Rear Differential Lock and Auto Differential Lock (Only CCH):1. Diff Lock On and Auto Diff Lock switches are both active
MFD/Diff Lock 6006 CAN-BUS indicating MFD (CCH) or Front Diff Lock (4WD)Switch failed in the armrest. Possible failure modes: 1. MFD (CCH) or Front Diff Lock (4WD)failed in Armrest2. Auto MFD
Switch failed in Armrest, (CCH). 3. Communication problems between the TCU controller and the Armrest
MFD/Diff Lock 6007 Both MFD and Auto MFD switches active fault
MFD/Diff Lock 6008 Steering angle sensor above maximum voltage limit.
MFD/Diff Lock 6009 Steering angle sensor below minimum voltage limit.
MFD/Diff Lock 6010 12VS1voltage supply is low. (possible blown fuse*)
MFD/Diff Lock 6011 12VS2 voltage supply is low. (possible blown fuse*)
Front PTO 8001 Front PTO cab switch is on during tractor power up.
Front PTO 8002 Front PTO cab switch open
Front PTO 8003 Front PTO cab switch short
Front PTO 8004 Front PTO solenoid open circuit or shorted to ground or AD12VU2 voltage is low.
Front PTO 8005 Front PTO solenoid circuit shorted to B+ when Front PTO is in the off state.
Front PTO 8006 Low side driver is stuck on and no current is sensed.
Front PTO 8007 Front PTO switch is in the on position when the engine is off.
Front PTO 8010 12VU2voltage supply is low. (possible blown fuse*)
Front Suspension 10001 Front suspension Pump Not tank Valve solenoid is open circuit or shorted to ground
Front Suspension 10002 Front suspension rod Side Valve solenoid is open circuit or shorted to ground
Front Suspension 10003 Front suspension piston Side Valve solenoid is open circuit or shorted to ground
Front Suspension 10004 Front Suspension Position sensor out of Range High Error
Front Suspension 10005 Front Suspension Position sensor out of Range Low Error
Front Suspension 10006 Front suspension will not raise error
Front Suspension 10007 Front Suspension will not Lower error
Front Suspension 10008 Front Suspension Piston Pressure transducer range high error
Front Suspension 10009 Front Suspension Piston Pressure transducer range lower error
Front Suspension 10010 Front Suspension Rod Pressure transducer range high error
Front Suspension 10011 Front Suspension Rod Pressure transducer range lower error
Front Suspension 10012 Front suspension Rod side pressure will not raise error
Front Suspension 10013 Front suspension piston side pressure will not raise error
Front Suspension 10014 Front Suspension Not calibrated error
Front Suspension 10015 Front suspension Lock Valve Solenoid is open circuit or is shorted to ground.
Front Suspension 10016 FSUS_ENABLE_SW_ERR 10016
Front Suspension 10017 FSUS_ENABLE_SW_NA_ERR10017
Front Suspension 10018 Front Suspension Pump not tank Solenoid over current
Front Suspension 10019 Front Suspension rod Side Solenoid over current
Front Suspension 10020 Front Suspension piston Solenoid over current
Front Suspension 10021 Front Suspension lock out Solenoid over current
Front Suspension 10022 12VM voltage supply is low. (possible blown fuse*)
Front Suspension 10023 12VF3 voltage supply is low. (possible blown fuse*)
Front Suspension 10024 12VF1 voltage supply is low. (possible blown fuse*)
ICU 14002 Trans oil filter switch closed to ground on power up.
ICU 14003 Hyd oil filter switch closed to ground on power up.
ICU 14005 PTO shaft speed data is _ERROR_ or _NOT AVAILABLE_ state from PTO.
ICU 14006 GOV ENGINE speed data is _ERROR_ or _NOT AVAILABLE_ state from GOV.
ICU 14007 Engine Over speeding
ICU 14008 ENGINE oil pressure data is _ERROR_ or _NOT AVAILABLE_ state from GOV.
ICU 14009 Loss of valid ENGINE Hours
ICU 14010 PTO controller off line
ICU 14011 Communications Lost with Vehicle Data Bus 1 and ALL other controllers
ICU 14013 TRANSMISSION Off Line
ICU 14014 ENGINE coolant temperature data is _ERROR_ or _NOT AVAILABLE_ state from GOV.
ICU 14015 Engine Intake Air Temperature data is _ERROR|| or _NOT AVAILABLE|| state from GOV.
ICU 14016 Engine shutdown activated
ICU 14017 Fuel Level Sensor voltage out of range low.
ICU 14018 GOV Off Line
ICU 14019 ATC Off Line
Armrest 18001 Hand throttle #1 -voltage too low (New Holland Only)
Armrest 18002 Hand throttle #1 -voltage too high (New Holland Only)
Armrest 18003 Hand throttle #2 -voltage too low
Armrest 18004 Hand throttle #2 -voltage too high
Armrest 18005 Engine droop control -voltage too low
Armrest 18006 Engine droop control -voltage too high
Armrest 18007 Multi-function handle -switch error
Armrest 18008 Multi-function handle -voltage too low
Armrest 18009 Multi-function handle -voltage too high
Armrest 18010 Powershift throttle -voltage too low (Case IH)
Armrest 18011 Powershift throttle -voltage too high (Case IH)
Armrest 18012 CVT mode switch error
Armrest 18013 Multi-function handle -encoder position error
Armrest 18014 Rear hitch position control potentiometer -voltage too low
Armrest 18015 Rear hitch position control potentiometer -voltage too high
Armrest 18016 Rear hitch draft control potentiometer -voltage too low
Armrest 18017 Rear hitch draft control potentiometer -voltage too high
Armrest 18018 Rear hitch height limit potentiometer -voltage too low
Armrest 18019 Rear hitch height limit potentiometer -voltage too high
Armrest 18020 Rear hitch drop rate potentiometer -voltage too low
Armrest 18021 Rear hitch drop rate potentiometer -voltage too high
Armrest 18022 Rear hitch sensitivity control potentiometer -voltage too low
Armrest 18023 Rear hitch sensitivity control potentiometer -voltage too high
Armrest 18024 EHR flow encoder position error
Armrest 18025 Rear hitch slip control potentiometer -voltage too low
Armrest 18026 Rear hitch slip control potentiometer -voltage too high
Armrest 18027 EHR 5 lever position -voltage too low (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18028 EHR 5 lever position -voltage too high (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18029 EHR 6 lever position -voltage too low (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18030 EHR 6 lever position -voltage too high (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18031 Front hitch position / pressure control potentiometer -voltage too high
Armrest 18032 Front hitch position / pressure control potentiometer -voltage too low
Armrest 18033 Front hitch position / pressure mix potentiometer -voltage too high
Armrest 18034 Front hitch position / pressure mix potentiometer -voltage too low
Armrest 18035 Front hitch position height limit potentiometer -voltage too high
Armrest 18036 Front hitch position height limit potentiometer -voltage too low
Armrest 18037 Front hitch height limit enable switch error
Armrest 18038 Front hitch position drop rate potentiometer -voltage too high
Armrest 18039 Front hitch position drop rate potentiometer -voltage too low
Armrest 18040 EHR 1 lever position -voltage too low
Armrest 18041 EHR 1 lever position -voltage too high
Armrest 18042 EHR 2 lever position -voltage too low
Armrest 18043 EHR 2 lever position -voltage too high
Armrest 18044 EHR 3 lever position -voltage too low
Armrest 18045 EHR 3 lever position -voltage too high
Armrest 18046 EHR float control switch error
Armrest 18047 EHR 4 lever position -voltage too low
Armrest 18048 EHR 4 lever position -voltage too high
Armrest 18049 Joystick 1 X-axis position -voltage too low
Armrest 18050 Joystick 1 X-axis position -voltage too high
Armrest 18051 Joystick 1 Y-axis position -voltage too low
Armrest 18052 Joystick 1 Y-axis position -voltage too high
Armrest 18053 Joystick 1 proportional rocker switch -voltage too low
Armrest 18054 Joystick 1 proportional rocker switch -voltage too high
Armrest 18055 Joystick 2 X-axis position -voltage too low (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18056 Joystick 2 X-axis position -voltage too high (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18057 Joystick 2 Y-axis position -voltage too low (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18058 Joystick 2 Y-axis position -voltage too high (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18059 Joystick 2 proportional rocker switch -voltage too low (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18060 Joystick 2 proportional rocker switch -voltage too high (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18061 Reference voltage _short circuit to 0V
Armrest 18062 Reference voltage _short circuit to 12V
Armrest 18063 EEPROM fault
Armrest 18064 MFH communication error
Armrest 18065 MFH basic assurance test error
Armrest 18066 EHR 1 lever implausibility error
Armrest 18067 EHR 2 lever implausibility error
Armrest 18068 EHR 3 lever implausibility error
Armrest 18069 EHR 4 lever implausibility error
Armrest 18070 EHR 5 lever implausibility error (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18071 EHR 6 lever implausibility error (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18072 EDC mouse raise/work switch fault (NH Only)
DCU 19001 Battery voltage sensing (electrical) _signal high _P0563 Battery voltage evaluation above upper limit
DCU 19002 Battery voltage sensing (electrical) |signal low |P0562 Battery voltage evaluation below lower limit
DCU 19010 Temperature sensor after catalyst (electrical) _signal high _P042D Catalyst Temperature Sensor Circuit High
DCU 19011 Temperature sensor after catalyst (electrical) |signal low |P042C Catalyst Temperature Sensor Circuit Low
DCU 19019 Temperature sensor before catalyst (electrical) _signal high _P0428 Catalyst Temperature Sensor Circuit High
DCU 19020 Temperature sensor before catalyst (electrical) |signal low |P0427 Catalyst Temperature Sensor Circuit Low
DCU 19037 Sensor supply 2 (5V internal; for UREA pressure sensors) _Supply Voltage too high _P204D Reagent -pressure sensor -short circuit high
DCU 19038 Sensor supply 2 (5V internal; for UREA pressure sensors) |Supply voltage too low |P204C Reagent -pressure sensor -short circuit low
DCU 19046 UREA pressure sensor in box (electrical) |supply voltage error |P204A Reagent -pressure sensor -open circuit
DCU 19047 UREA pressure sensor in box (electrical) _signal high _P204D Reagent -pressure sensor -short circuit high
DCU 19048 UREA pressure sensor in box (electrical) |signal low |P204C Reagent -pressure sensor -short circuit low
DCU 19055 UREA Temperature sensor in box (electrical) _high signal _P2045 Reagent -temperature sensor of pump module -short circuit high
DCU 19056 UREA Temperature sensor in box (electrical) |signal low |P2044 Reagent -temperature sensor of pump module -short circuit low
DCU 19064 Voltage supply internal heaters 1 (UB1) electrical |Open circuit to UB1 |P20C5 Pump module — Internal heating -open circuit
DCU 19065 Voltage supply internal heaters 1 (UB1) electrical |Short to bat at UB1 with Key 15 off |P20C8 Pump module -Internal heating -short circuit high
DCU 19073 Voltage supply 2 -tube heaters (UB2) electrical |Short to bat at UB2 with Key 15 off |P20C4 Reagent -suction tube heating -short circuit high
DCU 19074 Voltage supply 2 -tube heaters (UB2) electrical |Open circuit to UB2 |P20C1 Reagent -suction tube heating -open circuit
DCU 19075 Voltage supply 2 -tube heaters (UB2) electrical |Short circuit to Ground UB2 |P20C3 Reagent — suction tube heating -short circuit low
DCU 19082 Voltage supply 3 -Coolant control valve and reverting valve (UB3) electrical |Short to bat at UB3 with Key 15 off |P20A3 Vent valve (Reductant Purge Control Valve) -short circuit high
DCU 19083 Voltage supply 3 -Coolant control valve and reverting valve (UB3) electrical |Open circuit to UB3 |P20A0 Vent valve (Reductant Purge Control Valve) -open circuit
DCU 19084 Voltage supply 3 -Coolant control valve and reverting valve (UB3) electrical |Short circuit to Ground UB3 |P20A2 Vent valve (Reductant Purge Control Valve) -short circuit low
DCU 19091 Monitoring VDD11 voltage -Dosing valve |supply voltage low |P0658 12 Volt supply for dosing module -below lower limit
DCU 19092 Monitoring VDD11 voltage-Dosing valve _supply voltage high _P0659 12 Volt supply for dosing module -above upper limit
DCU 19100 UREA level sensor (electrical) |supply voltage error |P203E Reductant Level Sensor -Circuit Intermittent/Erratic
DCU 19101 UREA level sensor (electrical) _signal high _P203D Reagent -tank level sensor -short circuit high
DCU 19102 UREA level sensor (electrical) |signal low |P203C Reagent -tank level sensor -short circuit low
DCU 19109 UREA Temperature sensor in Tank (electrical) _signal high _P205D Reagent -tank temperature sensor (temperature of the Reagent -solution in the tank) -short circuit high
DCU 19110 UREA Temperature sensor in Tank (electrical) |signal low |P205C Reagent -tank temperature sensor (temperature of the Reagent -solution in the tank) -short circuit low
DCU 19145 Dosing Valve (electrical) |short circuit to batt + |P2049 Reductant Injector -circuit high
DCU 19146 Dosing Valve (electrical) |short circuit to ground |P2048 Reductant Injector -circuit low
DCU 18147 Dosing Valve (electrical) |open load |P2047 Reductant Injector -circuit open
DCU 19148 Dosing Valve (electrical) |Dosing valve permanent ñONî (detection via fast decay) |P209B Reagent-dosing nozzle pressure too high
DCU 19154 UREA Pump speed |pump motor unplugged |P208B Reagent-pump not delivering
DCU 19155 UREA Pump speed _pump motor blocked _P208A Reagent-pump
DCU 19156 UREA Pump speed |pump overspeed |P208D Reagent-pump over speed
DCU 19157 UREA Pump speed |Hall sensors defect |P208B Reagent-pump not delivering
DCU 19163 Cooling control valve short circuit to UBat or open load |short circuit to battery |P20A3 Vent valve (Reductant Purge Control Valve) -short circuit high
DCU 19164 Cooling control valve short circuit to UBat or open load |Open load |P20A0 Vent valve (Reductant Purge Control Valve) -open circuit
DCU 19172 Cooling control valve short circuit to ground |short circuit to ground |P20A2 Vent valve (Reductant Purge Control Valve) -short circuit low
DCU 19181 Reverting valve (4-2way valve?) electrically |Short circuit to battery |P20A3 Vent valve (Reductant Purge Control Valve) -short circuit high
DCU 19182 Reverting valve (4-2way valve?) electrically |Short circuit to ground |P20A2 Vent valve (Reductant Purge Control Valve) -short circuit low
DCU 19183 Reverting valve (4-2way valve?) electrically |Open load |P20A0 Vent valve (Reductant Purge Control Valve) -open circuit
DCU 19262 Tank heating Valve |Short circuit to battery |P20B4 Reagent -tank heating valve -short circuit high
DCU 19263 Tank heating Valve |Short circuit to ground |P20B3 Reagent -tank heating valve -short circuit low
DCU 19264 Tank heating Valve |Open load |P20B1 Reagent -tank heating valve -open circuit
DCU 19289 Temperature after catalyst too low |Downstream catalyst temp -physical (Catalyst heating time failed) |P042B Catalyst Temperature Sensor Circuit Range/Performance
DCU 19298 UREA pressure too low at system start |UREA pressure too low at system start |P208B Reagent pump not delivering
DCU 19307 UREA pressure too high |Urea pressure not plausible (urea pressure too high) |P204B Reagent -pressure above threshold
DCU 19316 UREA Temperature in Pump Module out of range |Urea temperature box -physical (Urea Box Temp NOT OK: outside range) |P2043 Reagent-temperature sensor of pump module out of range
DCU 19325 UREA Temperature in Tank out of range |Urea temperature tank -physical (Urea Tank Temp NOT OK: outside range) |P205B Reagent -tank temperature sensor (temperature of the Reagent
-solution in the tank) out of range
DCU 19334 System frozen and not free in time _Defreezing Mode and Detection Errors (Inlet line defreezing failed) _P20C2 Reagent -suction tube heating -detection mode of heating
DCU 19335 System frozen and not free in time |Defreezing Mode and Detection Errors (pressure line defreezing failed) |P20BE Reagent -pressure tube heating -detection mode of heating
DCU 19336 System frozen and not free in time |Defreezing Mode and Detection Errors (pressure build-up in detection mode failed)|P20C5 Pump module -Internal heating -open circuit
DCU 19337 System frozen and not free in time |Defreezing Mode and Detection Errors (Back-flow line defreezing failed) |P20B9 Reagent -backflow tube heating -open circuit
DCU 19343 Coolant control valve mechanically |mechanical defective blocked open |P20A3 Vent valve (Reductant Purge Control Valve) -short circuit high
DCU 19344 Coolant control valve mechanically _mechanical defective blocked closed _P20A0 Vent valve (Reductant Purge Control Valve) -open circuit
DCU 19352 Reverting valve (4-2way valve?) mechanically |valve does not open |P20A0 Vent valve (Reductant Purge Control Valve) -open circuit
DCU 19361 Battery Voltage (actual value) |High battery voltage |P0562 Battery voltage evaluation -below lower limit
DCU 19362 Battery Voltage (actual value) _Low battery voltage _P0563 Battery voltage evaluation -above upper limit
DCU 19370 UREA pressure too low (in ñcommissioningî status) |Pump motor error during commissioning (pump not delivering) |P208B Reagent-pump not delivering
DCU 19379 UREA Temperature too low during commissioning |Temperatures not plausible during commissioning.
DCU 19415 Empty UREA Tank _urea tank empty _P203F Reagent -fluid level in tank -too low
DCU 19532 Back flow line clogged |P2063 Reagent -dosing valve -short circuit low
DCU 19541 Coolant control valve mechanically |Blocked closed |P20A1 Vent valve test plausibility test (startup)
DCU 19550 Pressure line blocked |pressure line blocked |P209B Reagent -dosing nozzle -pressure too high
DCU 19559 Low UREA level 1 (warning) -UREA level below Limit 1 -P203F Reagent -fluid level in tank -too low
DCU 19568 Low UREA level 2 (warning) -UREA level below Limit 2 -P203F Reagent -fluid level in tank -too low
DCU 19577 CAN receive frame E2SCR (Dosing, Exh gas flow, Exh gas temp, Error Suppression, Heater, Long Term failure) |SAE J1939 Check for CAN receive signal : (UREA quantity not in range)
|P0600
DCU 19578 CAN receive frame E2SCR (Dosing, Exh gas flow, Exh gas temp, Error Suppression, Heater, Long Term failure) |SAE J1939 Check for CAN receive signal : (Dosing status not in range)
|P0600 Serial Communication Link
DCU 19579 CAN receive frame E2SCR (Dosing, Exh gas flow, Exh gas temp, Error Suppression, Heater, Long Term failure) _timeout _P0600 Serial Communication Link
DCU 19580 CAN receive frame E2SCR (Dosing, Exh gas flow, Exh gas temp, Error Suppression, Heater, Long Term failure) |too many CAN messages |P0600 Serial Communication Link
DCU 19581 CAN receive frame E2SCR (Dosing, Exh gas flow, Exh gas temp, Error Suppression, Heater, Long Term failure) _SAE J1939 Check for CAN receive signal _P0600 Serial Communication Link
DCU 19595 CAN receive frame EEC1 (Driver demand, eng speed, eng torque) |SAE J1939 Check for CAN receive signal : (Engine torque not in range) |P0600 Serial Communication Link
DCU 19596 CAN receive frame EEC1 (Driver demand, eng speed, eng torque) |SAE J1939 Check for CAN receive signal : (Engine speed not in range) |P0600 Serial Communication Link
DCU 19597 CAN receive frame EEC1 (Driver demand, eng speed, eng torque) _timeout _P0600 Serial Communication Link
DCU 19598 CAN receive frame EEC1 (Driver demand, eng speed, eng torque) |too many CAN messages _ ïP0600 Serial Communication Link
DCU 19599 CAN receive frame EEC1 (Driver demand, eng speed, eng torque) |SAE J1939 Check for CAN receive signal : (Torque driver demand not in range) |P0600 Serial Communication Link
DCU 19604 CAN receive frame ET1 (Oil and Water temp engine) |SAE J1939 Check for CAN receive signal : (Oil temperature not in range) |P0600 Serial Communication Link
DCU 19605 CAN receive frame ET1 (Oil and Water temp engine) _timeout _P0600 Serial Communication Link
DCU 19606 CAN receive frame ET1 (Oil and Water temp engine) |too many CAN messages |P0600 Serial Communication Link
DCU 19607 CAN receive frame ET1 (Oil and Water temp engine) |SAE J1939 Check for CAN receive signal : (Water temperature not in range) |P0600 Serial Communication Link
DCU 19649 UREA Tank level error (CAN message or electrical with real sensor) |Level over CAN: SAE J1939 no Signal available Level sensor connected directly: Sensor Supply error |P203A Reagent
-tank level sensor -open circuit
DCU 19650 UREA Tank level error (CAN message or electrical with real sensor) _Level over CAN: SAE J1939 Signal Not in Range Level sensor connected directly: SRC high _P203D Reagent -tank level
sensor -short circuit high
DCU 19651 UREA Tank level error (CAN message or electrical with real sensor) |Level over CAN: SAE J1939 Erroneous Signal Level sensor connected directly: SRC low |P203C Reagent -tank level
sensor — short circuit low
DCU 19676 Ambient Temperature: SAE J1939 Check for CAN receive signal : (Signal Range Check: Signal not in range / Erroneous Signal / Signal not available) |SAE J1939 Check for CAN receive
signal : (Ambient air temperature not in range) |P0600 Serial Communication Link
DCU 19677 Ambient Temperature: SAE J1939 Check for CAN receive signal : (Signal Range Check: Signal not in range / Erroneous Signal / Signal not available) _timeout _P0071 Ambient Air Temperature
Sensor Range/Performance
DCU 19678 Ambient Temperature: SAE J1939 Check for CAN receive signal : (Signal Range Check: Signal notin range / Erroneous Signal / Signal not available) |too many CAN messages |P0071 Ambient
Air Temperature Sensor Range/Performance
DCU 19679 Ambient Temperature: SAE J1939 Check for CAN receive signal : (Signal Range Check: Signal not in range / Erroneous Signal / Signal not available) |SAE J1939 Check for CAN receive
signal : (Barometric pressure not in range) |P0071 Ambient Air Temperature Sensor Range/Performance
DCU 19721 EEPROM / Checksum failures |EEPROM write error |P062F Internal Control Module EEPROM Error
DCU 19722 EEPROM / Checksum failures |No corresponding variant number error |P062F Internal Control Module EEPROM Error
DCU 19723 EEPROM / Checksum failures |EEPROM communication error |P062F Internal Control Module EEPROM Error
DCU 19724 EEPROM / Checksum failures _EEPROM Detection error OR A Codierwort error |P062F Internal Control Module EEPROM Error
DCU 19725 EEPROM / Checksum failures |Wrong EEPROM size |P062F Internal Control Module EEPROM Error
DCU 19730 Ignition ñonî signal K15 |digital input ignition ON not sensed during initialization |P2530 Ignition switch -plausibility error
DCU 19739 Main Relay opens too early / too late |main relay shut off too late |P0687 ECM/PCM Power Relay Control Circuit High
DCU 19740 Main Relay opens too early / too late |main relay short circuit |P0685 ECM/PCM Power Relay Control Circuit /Open
DCU 19741 Main Relay opens too early / too late |main relay open circuit |P0687 ECM/PCM Power Relay Control Circuit High
DCU 19742 Main Relay opens too early / too late _main relay shut off too early (before EEPROM update) _ P0685 ECM/PCM Power Relay Control Circuit /Open
DCU 19748 Too high UREA Temperature in Pump module or Leakage test failed (Emergency shut off) _over temperature detection (urea temp. in pump module) _P2043 Reagent -temperature sensor of pump
module -Out of range
DCU 19749 Too high UREA Temperature in Pump module or Leakage test failed (Emergency shut off) |urea leakage detection (static or dynamic) |P202D Dynamic urea leakage test -Leakage detected
DCU 19757 Group error path UREA injection control _Error belonging to group UREA Injection control _ P208B Reagent-pump -Not delivering
DCU 19766 Group error path Air control _Error belonging to group air control _P20A7 Compressed air regulation valve
DCU 19775 Group error path catalyst temperature _Error belonging to group catalyst temperature out of range _P0426 Plausibility of catalyst temperature sensors -Plausibility error (static)
DCU 19784 Group error path NOx exceeded _Error belonging to group NOx exceeded active _P2000 Nox Trap Efficiency Below Threshold
DCU 19793 Group error path UREA Tank empty _Error belonging to group UREA tank empty active _P203F Reagent -fluid level in tank -Too low
DCU 19999 Unknown DCU15 fault code
NEW HOLLAND ERROR CODES
NH 1002 Radar disconnected
NH 1003 Speed sensor error
NH 1004 Speed sensor signal too High
NH 1005 Speed sensor signal too High
NH 1006 Slip control potentiometer signal too low
NH 1007 Slip control potentiometer signal too High
NH 1008 Raise / work switch failure
NH 1009 Both external switches operated at the same time
NH 1010 Height limit potentiometer signal too low
NH 1011 Height limit potentiometer signal too high
NH 1012 Drop rate potentiometer signal too low
NH 1013 Drop rate potentiometer signal too high
NH 1014 R/H load sensing pin signal too low
NH 1015 R/H load sensing pin signal too high
NH 1016 L/H load sensing pin signal too low
NH 1017 L/H load sensing pin signal too high
NH 1018 Both load sensing pin disconnected
NH 1019 Load sensing pin voltage too low
NH 1020 Load sensing pin voltage too high
NH 1021 Position / draft control potentiometer too low
NH 1022 Position / draft control potentiometer too high
NH 1023 Control panel disconnected
NH 1024 Perform Hydraulic Lift Autocalibration
NH 1025 Mouse lift lever potentiometer signal too low
NH 1026 Mouse lift lever potentiometer signal too high
NH 1027 Maximum Lift arm position potentiometer too low
NH 1028 Maximum Lift arm position potentiometer too high
NH 1029 Hydraulic Control valve disconnected
NH 1030 Ground signal open circuit ( not used )
NH 1031 Chassis Harness Disconnected
NH 1032 Draft Load potentiometer shorted to +12v
NH 1033 Draft Load potentiometer open circuit
NH 1049 Wheel speed sensor open circuit
NH 1053 5 volt reference Short to +12v
NH 1054 5 volt reference Short to ground.
NH 1057 Module Failure ( not used )
NH 1059 5 volt reference Open circuit ( not used )
NH 1063 Lower solenoid open circuit
NH 1064 Raise solenoid open circuit
NH 1065 lower solenoid short circuit
NH 1066 Raise solenoid short circuit
NH 1067 EDC Hydraulic Valve supply too low
NH 1068 Height limit Calibration Error
NH 2001 ‘N’ — Shuttle too fast error
NH 2002 Flash N error
NH 2003 ‘CP’ — Clutch pedal required
NH 2004 ‘P’ — Handbrake error
NH 2005 Creeper selection error
NH 2011 Clutch Pedal Potentiometer Signal too Low
NH 2012 Clutch Pedal Potentiometer Signal too High
NH 2013 Up and Down buttons at same time
NH 2014 Switch 4 / 5 error ( not used )
NH 2015 HI / LO shift lever switches both closed
NH 2016 Creeper Solenoid Short circuit
NH 2021 Chassis Harness Error
NH 2024 Synchro clutches not calibrated
NH 2026 Engine speed too high
NH 2027 Engine speed too low
NH 2035 Dump solenoid circuit fault
NH 2036 Dump solenoid open circuit
NH 2037 Clutch Pedal switch open circuit
NH 2038 Clutch 4 solenoid short circuit
NH 2039 Clutch 4 solenoid open circuit
NH 2040 Clutch 3 solenoid short circuit
NH 2041 Clutch 3 solenoid open circuit
NH 2042 Clutch 2 solenoid short circuit
NH 2043 Clutch 2 solenoid open circuit
NH 2044 Clutch 1 solenoid short circuit
NH 2045 Clutch 1 solenoid open circuit
NH 2046 Fuse 12 open circuit ( not used )
NH 2047 Clutch pedal switch set too High
NH 2048 Clutch pedal switch set too Low
NH 2049 Wheel speed sensor short or open
NH 2051 Oil temperature sensor open circuit
NH 2052 Oil temperature sensor short circuit
NH 2053 5 Volt Potentiometer Supply too High
NH 2054 5 Volt Potentiometer Supply too Low
NH 2055 No signal from wheel speed sensor
NH 2056 Low Range switch open
NH 2057 High Range switch open
NH 2058 Seat switch closed for 25 hours
NH 2059 Shuttle Lever switch disagree
NH 2060 Synchro Fwd no longer engaged
NH 2061 F/R Synchro Potentiometer signal too high
NH 2062 F/R Synchro Potentiometer signal too low
NH 2063 Synchro not moving to forward
NH 2064 Synchro not moving to reverse
NH 2065 Forward solenoid open circuit
NH 2066 Reverse solenoid open circuit
NH 2067 Forward solenoid circuit fault
NH 2068 Reverse solenoid circuit fault
NH 2069 Synchro reverse no longer engaged
NH 2070 Voltage with lever in forward too high
NH 2071 Voltage with lever in forward too low
NH 2072 Voltage with lever in reverse too high
NH 2073 Voltage with lever in reverse too low
NH 2075 Flywheel Speed Sensor Frequency is too high
NH 2075 Any period is too short, under 400 microseconds
NH 2075 Any short period is longer than the corresponding long period
NH 2075 Damper angle is below 50 degrees or above 85 degrees
NH 2075 Calculated torque exceeds calibrated peak torque by more than 25%
NH 2075 No usable signals from the flywheel sensor, and ERPM is greater than 300
NH 2076 Flywheel Speed Sensor open circuit
NH 2077 Flywheel Speed Sensor short circuit
NH 2080 Synchro 4 no longer engaged
NH 2081 4/5 Synchro Potentiometer signal too high
NH 2082 4/5 Synchro Potentiometer signal too low
NH 2083 Synchro 4 engaged error
NH 2084 Synchro 5 engaged error
NH 2085 Synchro 4 solenoid open circuit
NH 2086 Synchro 5 solenoid open circuit
NH 2087 Synchro 4 solenoid short to 12v
NH 2088 Synchro 5 solenoid short to 12v
NH 2089 Synchro 5 no longer engaged
NH 2090 Output speed too high in creeper
NH 2091 C3 Clutch not calibrated
NH 2092 C4 Clutch not calibrated
NH 2093 High Clutch not calibrated
NH 2094 Low Clutch not calibrated
NH 2095 C1 Clutch not calibrated
NH 2096 C2 Clutch not calibrated
NH 2097 Clutch 5 not calibrated
NH 2098 C5 solenoid short to 12v
NH 2099 C5 open circuit
NH 2100 C5 dump solenoid short to 12v
NH 2101 C5 dump solenoid open circuit
NH 2124 Flywheel Torque Sensor not calibrated
NH 2199 Creeper option not enabled
NH 3001 Accelerator Pedal Signal — NOT PLAUSIBLE
NH 3002 Accelerator Pedal Signal — SOURCE HIGH
NH 3003 Accelerator Pedal Signal — SOURCE LOW
NH 3004 Accelerator Pedal Signal — NO SIGNAL
NH 3005 Accelerator Pedal Signal — ALL OTHER FAULTS
NH 3006 Coolant Temperature Signal — ABOVE NORMAL
NH 3007 Coolant Temperature Signal — SOURCE HIGH
NH 3008 Coolant Temperature Signal — SOURCE LOW
NH 3009 Coolant Temperature Signal — NO SIGNAL
NH 3010 Air (boost) Temperature Signal — SOURCE HIGH
NH 3011 Air (boost) Temperature Signal — SOURCE LOW
NH 3012 Air (boost) Temperature Signal — NO SIGNAL
NH 3014 Fuel Temperature Signal — ABOVE NORMAL
NH 3015 Fuel Temperature Signal — SOURCE HIGH
NH 3016 Fuel Temperature Signal — SOURCE LOW
NH 3017 Fuel Temperature Signal — NO SIGNAL
NH 3018 Boost Pressure Signal — ABOVE NORMAL
NH 3019 Boost Pressure Signal — SOURCE HIGH
NH 3020 Boost Pressure Signal — SOURCE LOW
NH 3021 Boost Pressure Signal — NO SIGNAL
NH 3022 Boost Pressure Signal — ALL OTHER FAULTS
NH 3023 Atmospheric Pressure Signal — ABOVE NORMAL
NH 3024 Atmospheric Pressure Signal — SOURCE HIGH
NH 3025 Atmospheric Pressure Signal — SOURCE LOW
NH 3026 Atmospheric Pressure Signal — NO SIGNAL
NH 3027 Oil Pressure Signal — ABOVE NORMAL
NH 3028 Oil Pressure Signal — BELOW NORMAL
NH 3029 Oil Pressure Signal — SOURCE HIGH
NH 3030 Oil Pressure Signal — SOURCE LOW
NH 3031 Oil Pressure Signal — NO SIGNAL
NH 3032 Oil Pressure Signal — ALL OTHER FAULTS
NH 3033 Oil Temperature Signal — ABOVE NORMAL
NH 3034 Oil Temperature Signal — SOURCE HIGH
NH 3035 Oil Temperature Signal — SOURCE LOW
NH 3036 Oil Temperature Signal — NO SIGNAL
NH 3037 Power stage Fuel filter heater — SOURCE HIGH
NH 3038 Power stage Fuel filter heater — SOURCE LOW
NH 3039 Power stage Fuel filter heater — NO SIGNAL
NH 3040 HS Power stage cold start heater relay — SOURCE HIGH
NH 3041 HS Power stage cold start heater relay — SOURCE LOW
NH 3042 HS Power stage cold start heater relay — NO SIGNAL
NH 3043 Adapt.cylinder balancing Cylinder 1 — SOURCE HIGH
NH 3044 Adapt.cylinder balancing Cylinder 5 — SOURCE HIGH
NH 3045 Adapt.cylinder balancing Cylinder 3 — SOURCE HIGH
NH 3046 Adapt.cylinder balancing Cylinder 6 — SOURCE HIGH
NH 3047 Adapt.cylinder balancing Cylinder 2 — SOURCE HIGH
NH 3048 Adapt.cylinder balancing Cylinder 4 — SOURCE HIGH
NH 3049 Battery voltage signal — ABOVE NORMAL
NH 3050 Battery voltage signal — BELOW NORMAL
NH 3051 Battery voltage signal — SOURCE HIGH
NH 3052 Battery voltage signal — SOURCE LOW
NH 3053 LS Power stage cold start lamp — SOURCE HIGH
NH 3054 LS Power stage cold start lamp — SOURCE LOW
NH 3055 LS Power stage cold start lamp — NO SIGNAL
NH 3056 Cold start heater monitoring — BELOW NORMAL
NH 3057 Cold start heater monitoring — NOT PLAUSIBLE
NH 3058 Cold start heater monitoring — SOURCE LOW
NH 3059 Cold start heater monitoring — NO SIGNAL
NH 3060 Injector solenoid valve Cylinder 1 — NOT PLAUSIBLE
NH 3061 Injector solenoid valve Cylinder 1 — SOURCE HIGH
NH 3062 Injector solenoid valve Cylinder 1 — SOURCE LOW
NH 3063 Injector solenoid valve Cylinder 1 — NO SIGNAL
NH 3064 Injector solenoid valve Cylinder 5 — NOT PLAUSIBLE
NH 3065 Injector solenoid valve Cylinder 5 — SOURCE HIGH
NH 3066 Injector solenoid valve Cylinder 5 — SOURCE LOW
NH 3067 Injector solenoid valve Cylinder 5 — NO SIGNAL
NH 3068 Injector solenoid valve Cylinder 3 — NOT PLAUSIBLE
NH 3069 Injector solenoid valve Cylinder 3 — SOURCE HIGH
NH 3070 Injector solenoid valve Cylinder 3 — SOURCE LOW
NH 3071 Injector solenoid valve Cylinder 3 — NO SIGNAL
NH 3072 Injector solenoid valve Cylinder 6 — NOT PLAUSIBLE
NH 3073 Injector solenoid valve Cylinder 6 — SOURCE HIGH
NH 3074 Injector solenoid valve Cylinder 6 — SOURCE LOW
NH 3075 Injector solenoid valve Cylinder 6 — NO SIGNAL
NH 3076 Injector solenoid valve Cylinder 2 — NOT PLAUSIBLE
NH 3077 Injector solenoid valve Cylinder 2 — SOURCE HIGH
NH 3078 Injector solenoid valve Cylinder 2 — SOURCE LOW
NH 3079 Injector solenoid valve Cylinder 2 — NO SIGNAL
NH 3080 Injector solenoid valve Cylinder 4 — NOT PLAUSIBLE
NH 3081 Injector solenoid valve Cylinder 4 — SOURCE HIGH
NH 3082 Injector solenoid valve Cylinder 4 — SOURCE LOW
NH 3083 Injector solenoid valve Cylinder 4 — NO SIGNAL
NH 3084 Injector Booster Voltage C1 — SOURCE HIGH
NH 3085 Injector Booster Voltage C1 — SOURCE LOW
NH 3086 Injector Booster Voltage C2 — SOURCE HIGH
NH 3087 Injector Booster Voltage C2 — SOURCE LOW
NH 3088 Increment speed signal — NOT PLAUSIBLE
NH 3089 Increment speed signal — SOURCE LOW
NH 3090 Segment speed signal — NOT PLAUSIBLE
NH 3091 Segment speed signal — SOURCE LOW
NH 3092 Engine Speed Sensing — NOT PLAUSIBLE
NH 3093 Engine Speed Sensing — SOURCE HIGH
NH 3094 Engine Speed Sensing — SOURCE LOW
NH 3095 Engine Speed Sensing — NO SIGNAL
NH 3096 CAN (A) Hardware — NO SIGNAL
NH 3097 CAN (B) Hardware — NO SIGNAL
NH 3098 CAN TSC1_TE Control — SOURCE LOW
NH 3099 CAN TSC1_TE Control — NO SIGNAL — CAN TE and CAN AE (Torque Request) error codes may be generated due to normal shutdown timing differences between the ECU and the XCM. If so, the actual
error code 3096 or 3097 should also be displayed.
NH 3100 CAN TSC1_AE Control — SOURCE LOW
NH 3101 CAN TSC1_AE Control — NO SIGNAL
NH 3102 Fuel pressure monitoring CP3 — ALL OTHER FAULTS
NH 3102 Possible Causes: • Low fuel supply to CP3 (filter restriction). • Low output from CP3 • CP3 PWM fault (Check PWM output in Atlas, min 3% at engine idle, max 24% at full load Above 24%
indicates excessive fuel leakage from the overpressure valve in the rail or Injector/transfer tube (remove the fuel return lines to check).
NH 3103 Fuel pressure signal — ABOVE NORMAL
NH 3104 Fuel pressure signal — SOURCE HIGH
NH 3105 Fuel pressure signal — SOURCE LOW
NH 3106 Fuel pressure signal — NO SIGNAL
NH 3107 CC HS Power stage 1 fuel press. Control — SOURCE HIGH
NH 3108 CC HS Power stage 1 fuel press. Control — SOURCE LOW
NH 3109 CC HS Power stage 1 fuel press. Control — NO SIGNAL
NH 3110 Monitoring of rail pressure relief valve — ABOVE NORMAL
NH 3111 Monitoring of rail pressure relief valve — BELOW NORMAL
NH 3112 Rail pressure Min / Max. error — SOURCE HIGH
NH 3113 Main relay defect — ABOVE NORMAL
NH 3114 Main relay defect — BELOW NORMAL
NH 3115 Main relay defect — NOT PLAUSIBLE
NH 3116 Main relay defect — SOURCE HIGH
NH 3117 ECU: Self Test Shutoff Paths ( Start Up ) — NOT PLAUSIBLE. Engine will derate to 1800 rpm.
NH 3117 Possible Causes: • ECU power failed when the engine was running or engine shut down process was incorrect.
NH 3118 Power supply for sensors — NOT PLAUSIBLE
NH 3119 Power supply for sensors — NO SIGNAL
NH 3120 Power supply for sensors — ALL OTHER FAULTS
NH 3121 PTO Torque sensor open circuit
NH 3122 PTO Torque sensor short circuit
NH 3123 PTO Torque not CAL error
NH 3124 Hand Throttle potentiometer 2 high error.
NH 3125 Hand Throttle potentiometer 2 Low error.
NH 3126 Hand Throttle potentiometer 1 high error.
NH 3127 Hand Throttle potentiometer 1 Low error.
NH 3128 Hand Throttle potentiometer diff. error.
NH 3129 Hand Throttle idle switch high error
NH 3130 Hand Throttle idle switch low error
NH 3131 ECU self test shutoff paths (start up)
NH 3132 CRPM Switch short
NH 4001 Signal of Aux-stick (AUX1) out of range low
NH 4002 Signal of Aux-stick (AUX1) out of range high
NH 4003 Signal from Remote Flow potentiometer 1 (AUX 1) out of range.
NH 4005 Signal of Aux-stick (AUX2) out of range low
NH 4006 Signal of Aux-stick (AUX2) out of range high
NH 4007 Signal from Remote Flow potentiometer 2 (AUX 2) out of range.
NH 4008 Signal from Remote valve 2 Timer Pot 1 out of range
NH 4009 Signal of Aux-stick (AUX3) out of range low
NH 4010 Signal of Aux-stick (AUX3) out of range high
NH 4011 Signal from Remote Flow potentiometer 3 (AUX 3) out of range.
NH 4015 Signal from Remote Flow potentiometer 4 (AUX 4) out of range.
NH 4016 Signal from Remote valve Timer potentiometer 1 out of range.
NH 4040 Supply Voltage too low
NH 4041 Supply Voltage too High
NH 4042 Arm Rest Module (ARU) CAN ‘Bus off’.
NH 4043 Controller Fault ( Register check)
NH 4044 Controller Fault (Flash Memory)
NH 4045 Controller Fault (Data Memory)
NH 4100 Remote No.1 No control Message Received
NH 4101 Remote No.1 Control Message not plausible
NH 4102 Remote No.1 EEPROM Error
NH 4103 Remote No.1 Switched to failsafe
NH 4104 Remote No.1 Under voltage
NH 4105 Remote No.1 Over voltage
NH 4106 Remote No.1 Spool movement to low
NH 4107 Remote No.1 Spool movement to high
NH 4108 Remote No.1 Float position not reached
NH 4109 Remote No.1 Manually operated
NH 4110 Remote No.1 Driver faulty
NH 4111 Remote No.1 potentiometer faulty.
NH 4112 Remote No.1 Unable to reach neutral
NH 4113 Remote No.1 Spool not in neutral at key on
NH 4114 Remote No.2 No control Message Received
NH 4115 Remote No.2 Control Message not plausible
NH 4116 Remote No.2 EEPROM Error
NH 4117 Remote No.2 Switched to failsafe
NH 4118 Remote No.2 Under voltage
NH 4119 Remote No.2 Over voltage
NH 4120 Remote No.2 Spool movement to low
NH 4121 Remote No.2 Spool movement to high
NH 4122 Remote No.2 Float position not reached
NH 4123 Remote No.2 Manually operated
NH 4124 Remote No.2 Driver faulty
NH 4125 Remote No.2 potentiometer faulty
NH 4126 Remote No.2 Unable to reach neutral
NH 4127 Remote No.2 Spool not in neutral at key on
NH 4128 Remote No.3 No control Message Received
NH 4129 Remote No.3 Control Message not plausible
NH 4130 Remote No.3 EEPROM Error
NH 4131 Remote No.3 Switched to failsafe
NH 4132 Remote No.3 Under voltage
NH 4133 Remote No.3 Over voltage
NH 4134 Remote No.3 Spool movement to low
NH 4135 Remote No.3 Spool movement to high
NH 4136 Remote No.3 Float position not reached
NH 4137 Remote No.3 Manually operated
NH 4138 Remote No.3 Driver faulty
NH 4139 Remote No.3 potentiometer faulty.
NH 4140 Remote No.3 Unable to reach neutral
NH 4141 Remote No.3 Spool not in neutral at key on
NH 4142 Remote No.4 No control Message Received
NH 4143 Remote No.4 Control Message not plausible
NH 4144 Remote No.4 EEPROM Error
NH 4145 Remote No.4 Switched to failsafe
NH 4146 Remote No.4 Under voltage
NH 4147 Remote No.4 Over voltage
NH 4148 Remote No.4 Spool movement to low
NH 4149 Remote No.4 Spool movement to high
NH 4150 Remote No.4 Float position not reached
NH 4151 Remote No.4 Manually operated
NH 4152 Remote No.4 Driver faulty
NH 4153 Remote No.4 potentiometer faulty.
NH 4154 Remote No.4 Unable to reach neutral
NH 4155 Remote No.4 Spool not in neutral at key on
NH 4156 Remote No.5 Spare
NH 4157 Remote No.5 Spare
NH 4158 Remote No.5 Spare
NH 4159 Remote No.5 Spare
NH 4160 Remote No.5 Spare
NH 4161 Remote No.5 Spare
NH 4162 Remote No.5 Spare
NH 4163 Remote No.5 Spare
NH 4164 Remote No.5 Spare
NH 4165 Remote No.5 Spare
NH 4166 Remote No.5 Spare
NH 4167 Remote No.5 Spare
NH 4168 Remote No.5 Spare
NH 4170 EHR Control No. 1 not calibrated
NH 4171 EHR Control No.1 open circuit
NH 4172 EHR Control No.1 short circuit
NH 4173 EHR Control No. 2 not calibrated
NH 4174 EHR Control No.2 open circuit
NH 4175 EHR Control No.2 short circuit
NH 4176 Timer Switch No.1 / No.2 not connected
NH 4177 EHR Control No. 3 not calibrated
NH 4178 EHR Control No.3 open circuit
NH 4179 EHR Control No.3 short circuit
NH 4180 EHR Control No. 4 not calibrated
NH 4181 EHR Control No.4 open circuit
NH 4182 EHR Control No.4 short circuit
NH 4183 Timer Switch No.3 / No.4 not connected
NH 4184 EHR Joystick potentiometer X open circuit.
NH 4185 EHR Joystick potentiometer X short circuit.
NH 4186 EHR Joystick potentiometer Y open circuit.
NH 4187 EHR Joystick potentiometer Y short circuit.
NH 4190 No communications from (EHR) No.1.
NH 4191 No communications from ( EHR) No.2.
NH 4192 No communications from ( EHR) No.3.
NH 4193 No communications from ( EHR) No. 4.
NH 4194 Motor mode No.1 switch faulty
NH 4195 Motor mode No.2 switch faulty
NH 4196 Motor mode No.3 switch faulty
NH 4197 Motor mode No. 4 switch faulty
NH 5001 Rear PTO Brake Solenoid stuck off
NH 5002 Rear PTO Brake Solenoid stuck on
NH 5003 Rear PTO Brake output open circuit
NH 5004 Rear PTO Brake driver over temperature ( not used )
NH 5005 Brake switch open circuit
NH 5007 Rear PTO Solenoid Stuck off
NH 5008 Rear PTO solenoid circuit overcurrent
NH 5024 Rear PTO not calibrated
NH 5027 Rear PTO speed sensor open circuit (not implemented)
NH 5033 Rear PTO cab N/C switch open circuit
NH 5034 Rear fender PTO switch open / short to ground.
NH 5035 Rear fender PTO switch input short to +12v
NH 5036 PTO failure to Start
NH 5037 Rear PTO cab N/O switch stuck closed
NH 5038 Cab & fender PTO switches operated in 2 sec
NH 5039 Incorrect voltage on fender PTO switch
NH 5040 Rear fender PTO switches reversed ( not used )
NH 5041 PTO disengaged due to assuasive load ( not used )
NH 5042 PTO Management switch shorted
NH 5099 Auto PTO mode not enabled
NH 6020 FWD switch error
NH 6021 FWD Solenoid Stuck on
NH 6022 FWD Solenoid Stuck off
NH 6023 FWD solenoid open circuit
NH 7014 Difflock switch error
NH 7015 Difflock Solenoid Stuck off
NH 7016 Difflock Solenoid Stuck on
NH 7017 Difflock solenoid open circuit
NH 7018 Difflock driver over temperature
NH 7024 Steering angle sensor not calibrated
NH 7031 Steering angle sensor out of Maximum range
NH 7032 Steering angle sensor out of Minimum range
NH 8007 Front PTO Solenoid Stuck on
NH 8008 Front PTO solenoid open circuit
NH 8024 Front PTO not calibrated
NH 8027 Front PTO speed sensor open circuit
NH 8033 Front PTO cab N/C switch open circuit
NH 8036 Front PTO failure to Start
NH 8037 Front PTO cab N/O switch stuck closed
NH 8099 Front PTO option not enabled
NH 9001 Front HPL (High Pressure Lift) Potentiometer open circuit.
NH 9002 Front HPL (High Pressure Lift) Potentiometer short circuit.
NH 10001 Upper lockout Solenoid error
NH 10002 Raise Solenoid error
NH 10003 Lower Solenoid error
NH 10004 Front Axle Potentiometer above threshold
NH 10005 Front Axle Potentiometer below threshold
NH 10007 Go up error, Suspension Unable to return to set point
NH 10008 Go down error, Suspension Unable to return to set point
NH 10009 Lower lockout Solenoid Error
NH 10024 Front Suspension not calibrated
NH 10099 Front Suspension mode not enabled
NH 14001 Rear PTO speed short to VCC or open circuit
NH 14002 Rear PTO speed short to Ground
NH 14011 Engine speed sensor short to VCC or open circuit
NH 14012 Engine speed sensor short to Ground
NH 14015 The ADIC 5 volt reference voltage is too low — below 4 volts
NH 14016 The ADIC 5 volt reference voltage is too high — above 6 volts
NH 14021 Radar Ground speed short to VCC or open circuit
NH 14022 Radar Ground speed short to Ground
NH 14031 Front PTO speed short to VCC or open circuit
NH 14032 Front PTO speed short to Ground
NH 14041 Engine coolant temp short to VCC or open circuit
NH 14042 Engine coolant temp short to Ground
NH 14051 Fuel level sensor short to VCC or open circuit
NH 14052 Fuel level sensor short to Ground
NH 14061 Air brake pressure short to VCC or option set but sensor not connected
NH 14071 Front Hitch Position short to 12 or 5 Volts
NH 14072 Front Hitch Position short to Ground or open circuit
NH 14081 Engine oil pressure short to 12 or 5 Volts
NH 14082 Engine oil pressure short to Ground or open circuit
NH 14091 Transmission output speed short to VCC or open circuit
NH 14092 Transmission output speed short to Ground
NH 14100 Air brake pressure not configured
NH 14101 Fuel contaminated sensor Not connected
NH 14200 EEPROM error
NH 14900 Transmission module missing (DA/DB/DE/DF).
NH 14901 Engine controller not present (EDC7)
NH 14902 Auxiliry (optional) Controller Module missing (DD/DH).
NH 14903 SCM controller missing (GA 12×12 only).
NH 14904 Arm Rest Module (ARU) missing. (Steyr 16×16 only)
NH 14905 KEYPAD missing
NH 14906 Fast Steer Controller (KA) missing.
NH 14907 DOG (Display Of Gears) missing.
NH 15001 Exceeding safe operating wheel speed (10 km/h) with system still enabled or still active. Error code not active fast steer lamp flashes instead.
NH 15002 Steering wheel control proximity sensor open circuit.
NH 15003 Steering wheel control proximity sensor short circuit.
NH 15006 Split valve LVDT open circuit.
NH 15007 Split valve LVDT short circuit.
NH 15008 Change valve Solenoid open circuit
NH 15009 Change valve Solenoid short circuit across
NH 15010 Safety switch Fail
NH 15011 Maximum engagement time (5 minutes) elapsed.
NH 15012 Split Valve spool stuck open
NH 15013 Change valve or Split valve spools Stuck closed.
NH 15014 Split Valve spool stuck in transition zone cant identify which steering mode the tractor is definitely in.
NH 15015 Cold oil, temperature below 5 degrees C. Error code not active fast steer lamp flashes instead.
NH 15024 System not calibrated.
Case ih magnum
Кубический кейс Pelican 0340 Protector Cube Case с поропластом черный 0340-000-110E отличает жесткий тип конструкции и большие размеры.
Pelican 0340 Protector Cube Case предназначен для перевозки чувствительного оборудования и других грузов, нуждающихся в усиленной защите во время транспортировки.
Кубический кейс Pelican 0340 с поропластом относится к серии крупногабаритных кейсов Pelican линейки Protector Cube Case.
Кейс Pelican Protector 0340 изготовлен в США в соответствии с техническими требованиями к военному оборудованию. Корпус Pelican Protector 0340 сделан из жесткого литого полипропилена и является непроницаемым для воды, пыли и любых других загрязнений.
Сертификаты Pelican Protector 0340:
Двигатель
Штатный силовой агрегат трактора Магнум 340-й модели — шестицилиндровый 340-сильный дизель FPT Cursor 9 Tier II объемом 8,7 литра. В режиме Power BOOST возможно увеличение мощности до 389 л. с.
Стабильности показателя крутящего момента 1671 Нм с 40%-м запасом, способствует турбонаддув со встроенным контуром охлаждения сжатого воздуха, а также топливная система марки High Pressure Common Rail с электронным контролем впрыска. Автономность работы тракторного агрегата на удаленных участках обеспечивает топливный бак емкостью 765 литров.
Ходовая часть
Возможности полноприводной схемы ходовой части наиболее эффективно реализуются с помощью двухрежимного электронного подключения переднего моста, а также ручной или автоматической блокировки механизма дифференциала заднего.
Диапазон изменения колеи задних и передних колес соответственно 1,560-2,256 и 1,470-2,294 м. Регулировка производится при работе трактора в междурядьях или при эксплуатации на крутосклонном рельефе.
Case 340 в работе
Обзор трактора CASE IH Magnum 340
Новый, ещё более мощный двигатель трактора Кейс 340 в сочетании с надёжной трансмиссией Full PowerShift TM позволяют этому монстру с лёгкостью справляться со всевозможными полевыми и транспортными работами. При этом он гораздо мощнее, чем трактор John Deere 8430.
Фото CASE IH Magnum 340
Просторная и комфортная кабина трактора с отличным круговым обзором и эргономичным исполнением органов контроля и управления предлагает оператору наивысший уровень удобства и безопасности.
Трактор Magnum-340 может комплектоваться системой управления, контроля и учёта с установкой цветного сенсорного дисплея AFS Pro 700, которая переводит работу с трактором на качественно новый уровень.
Фото кабины трактора CASE Magnum 340
Преимущества и недостатки
Весь тракторный ассортимент компании Case IH характеризуется высокой надежностью, экономичностью и долговечностью при эксплуатации в сложных и даже экстремальных условиях.
Характерный недостаток элитной тракторной техники — это ее высокая стоимость в значительной степени недоступная для мелкого и даже среднего фермерского бизнеса.
Многие отечественные покупатели ставят производителям в упрек отсутствие информации по тестированию и ремонту компьютерной оснастки. Значительная часть простоев дорогих машин — следствие сбоев и глюков цифрового оборудования, неизбежных при отсутствии квалифицированного обслуживания.
Отзывы владельцев
Два трактора Магнум 340 производства известной качеством выпускаемой продукции компании Case IH приобрели для обновления парка агрофирмы зимой позапрошлого 2020 года. За прошедшее время новая техника в значительной степени компенсировала вложенные средства экономией рабочего времени и ГСМ, отсутствием вынужденных простоев. Существенные опасения вызывает отсутствие специалистов по обслуживанию компьютерного и другого электронного оборудования, относительно бедный ассортимент запасных частей, а также инертность сервисных служб. Павел
Покупка подержанного Магнума 340-й модели обошлась мне в 55 тысяч евро. Машина в принципе надежная, а главное экономичная в плане расхода ГСМ. На вспашке один Магнум при 23%-й экономии топлива успешно заменяет два трактора, гусеничный Т-75 и колесный универсал МТЗ-82К. Владимир Викторович
Трактор Case IH Magnum 340 — сочетание мощности с широким функционалом
На мировом тракторном рынке продукция компании CASE IH котируется на одном уровне с качественными и мощными машинами брендов Джон Дир и Нью Холланд. Весь ассортимент этого производителя по качеству, эксплуатационным возможностям и продолжительности ресурса отвечают рекомендациям действующих стандартов.
Мощный колесный трактор CASE IH Magnum 340 изначально ориентирован на выполнение масштабных и трудоемких сельскохозяйственных работ разных уровней сложности. Превосходные тягово-сцепные параметры трактора определяют его применение с производительным широкозахватным прицепным и навесным оборудованием разного назначения.
трактор Case IH Magnum 340
Конструкционные особенности
В его конструкцию заложена возможность работы в соответствии с рекомендациями нулевых, минимальных и классических земледельческих технологий. По мнению многих владельцев и специалистов, трактор Магнум 340 в своей мощностной категории на сегодняшний день является одним из лучших.
Эксплуатационные возможности этой модели повышены за счет:
Стабильной производительности трактора способствует высокий уровень автоматизации и компьютеризации работы всех систем, в частности, электронного контроля работы силовой установки. Вся важная информация отображается на расположенном в поле зрения оператора цветном дисплее.
Предоставляется возможность активации рабочих узлов навесного оборудования с помощью двухскоростного 540 и 1000 об/ в минуту, механизма отбора мощности. Навесные агрегаты с приводом от гидромоторов подключаются к гидросистеме трактора через двойные выводы с обратными клапанами.
С учетом особенностей запланированной работы, предусмотрена установка спаренных колес с широкопрофильными пневматиками низкого давления, навеска балластных грузов, а также возможность изменения колеи ходовой части.
Кейс Магнум 340 в целом характеризуется экономичным расходом ГСМ и расходных материалов, сервисным и ремонтным доступом к основным узлам и механизмам, унификацией многих запчастей и целых агрегатов с фирменными прототипами.
Ходовая часть
Возможности полноприводной схемы ходовой части наиболее эффективно реализуются с помощью двухрежимного электронного подключения переднего моста, а также ручной или автоматической блокировки механизма дифференциала заднего.
Диапазон изменения колеи задних и передних колес соответственно 1,560-2,256 и 1,470-2,294 м. Регулировка производится при работе трактора в междурядьях или при эксплуатации на крутосклонном рельефе.
Гидравлика
Бортовая гидросистема отличается от аналогов высокой, до 282 литра/мин производительностью гидронасоса, позволяющей увеличить грузоподъемность механизма навески IVN/III до 10 тонн. Для буксировки тяжелых прицепов по пересеченной местности или сложному микрорельефу трактор оборудован тяговым брусом 5-й категории.
Цена Магнума 340 — нового и бэушного
Стоимость бэушных тракторов марки Магнум 340-й модели с достаточно большим остатком межремонтного ресурса находится в пределах 60-80 тысяч евро.
Magnum 340 в работе
Отзывы владельцев
Два трактора Магнум 340 производства известной качеством выпускаемой продукции компании Case IH приобрели для обновления парка агрофирмы зимой позапрошлого 2020 года.
За прошедшее время новая техника в значительной степени компенсировала вложенные средства экономией рабочего времени и ГСМ, отсутствием вынужденных простоев.
Существенные опасения вызывает отсутствие специалистов по обслуживанию компьютерного и другого электронного оборудования, относительно бедный ассортимент запасных частей, а также инертность сервисных служб. Павел
Покупка подержанного Магнума 340-й модели обошлась мне в 55 тысяч евро. Машина в принципе надежная, а главное экономичная в плане расхода ГСМ. На вспашке один Магнум при 23%-й экономии топлива успешно заменяет два трактора, гусеничный Т-75 и колесный универсал МТЗ-82К. Владимир Викторович
Case Magnum 340 описание
Гидравлическая система с максимальной грузоподъемностью 10 580 кг оснащается стандартным насосом с расходом 166 л/мин, насосом с высоким расходом 228 л/мин или двумя насосами переменной производительности 282 л/мин для самых крупных орудий. Тягово-сцепное устройство со стандартным электронным силовым регулятором. Можно отрегулировать максимальную степень проскальзывания с учетом применения, используя ограничение проскальзывания, а также свести к минимуму подпрыгивание во время транспортировки с установленным орудием за счет управления движением сцепки.
— Подробная схему узла с пронумерованными запчастями и далее перечень каталожных номеров к этим запчастям
Трактор CASE Magnum 340
Трактор CASE IH Magnum 340 – это надежная и универсальная сельскохозяйственная машина, которая предназначена для работы с широкозахватными агрегатами по классической, минимальной и нулевой технологиям. Модель Магнум-340 спроектирована с целью удовлетворения потребностей самых взыскательных пользователей работающих в полях.
Большинство экспертов, фермеров и сельхозпроизводителей называют трактора серии Magnum, торговой компании Case IH, лучшими в своём классе. Серия Magnum представлена тракторами от 225 до 335 л. с.
Обзор трактора CASE IH Magnum 340
Новый, ещё более мощный двигатель трактора Кейс 340 в сочетании с надёжной трансмиссией Full PowerShift TM позволяют этому монстру с лёгкостью справляться со всевозможными полевыми и транспортными работами. При этом он гораздо мощнее, чем трактор John Deere 8430.
Фото CASE IH Magnum 340
Просторная и комфортная кабина трактора с отличным круговым обзором и эргономичным исполнением органов контроля и управления предлагает оператору наивысший уровень удобства и безопасности.
Трактор Magnum-340 может комплектоваться системой управления, контроля и учёта с установкой цветного сенсорного дисплея AFS Pro 700, которая переводит работу с трактором на качественно новый уровень.
Фото кабины трактора CASE Magnum 340
Дистанционная гидравлическая система данной модели трактора Кейс в сочетании с навесным устройством и двухскоростным валом отбора мощности на 540 и 1000 об/мин гарантирует возможность агрегатирования трактора с широким спектром сельскохозяйственных орудий, например, таких как прицепной комбайн.
Существующая возможность установки спаренных колёс, балластных грузов и изменения ширины колеи обеспечивает выполнение работы с различным междурядьем, а также оптимально распределить нагрузку на передний и задний мост трактора.
Доступ к точкам смазки и обслуживания Магнума 340 максимально упрощён, что позволяет снизить время на проведение сервисных операций до минимума.
Также его можно задействовать в посевных работах с применением овощной сеялки.
Технические характеристики CASE Magnum 340
Модель трактора
| МX 340 (США) | |
| Двигатель | IVECO 6-ти цилиндровый |
| Объем двигателя, см 3 | 8700 |
| Номинальная мощность, л. с. | 340 |
| Номинальный режим двигателя, об/мин. | 2000 |
| Максимальная мощность, л. с. | 374 |
| Номинальная мощность PowerBoost при 2000 об/мин., л. с. | 375 |
| Максимальная мощность PowerBoost при 1800 об/мин., л. с. | 389 |
| Запас крутящего момента, % | 35 |
| Режим при максимальном крутящем моменте, об/мин. | 1800 |
| Емкость топливного бака, л | 635 |
| Топливная система | Pressure-Flow Compensating |
| Сепаратор топлива | установлено |
| Трансмиссия | Power Shift |
| Число передач для движения вперед | 18 |
| Число передач для движения назад | 4 |
| Максимальная скорость при движении вперед, км/ч | 40 |
| Полная блокировка переднего дифференциала | установлено |
| Включение блокировки дифференциала | автомат./ручное |
| Гидросистема | насос переменной производительности с замкнутымцентром и датчиком нагрузки |
| Производительность насоса, л/мин. | 282 |
| Максимальное усилие подъема, кг | 8051 |
| Размеры | |
| База, мм | 3055 |
| Длина, включая балласт и задний подъемник, мм | 5950 |
| Полная ширина без спарки, мм | 3050 |
| Полная высота, мм | 3265 |
| Колеса передние спаренные | 16.9R30 (420-90R30) |
| Колеса задние спаренные | 20.8R42 (520-85R42) |
| Масса | |
| Масса с максимальным балластом, кг | 18 000 |
| Кабина | |
| Объём кабины, м 3 | 3,1 |
| Параметры стёкол кабины, м 2 | 6,85 |
| Климат-контроль | стандартно |
Видео обзор трактора Case IH 340
Технические характеристики Case Magnum 340
| Экостандарт | Tier 2B |
| Мощность двигателя при 2000 об/мин | 340 л. с. |
| Макс. мощность двигателя при 1800 об/мин ISO / ECE R120 | 375 л. с. |
| Количество цилиндров | 6 |
| Колесная база — Powershift | 3050 мм |
| Стандартный вес | 13458 кг |
Case Magnum 340 видео
Отзывы о Case Magnum 340
Как одно из достоинств этой машины можно отметить ее достаточно просторную и удобную кабину, остекление которой позволяет иметь оператору круговой обзор. Как и все остальные кабины тракторов Case в данном случае также особое внимание уделено безопасности оператора.
Трансмиссия трактора многорежимная с ручным или автоматическим управлением. В последнем варианте выбор оптимальной передачи определяется уровнем тягово-сцепных нагрузок.
Гидравлическая система машины общая с гидравликой КПП и имеет следующие особенности:
Кейс магнум 340 технические характеристики Ссылка на основную публикацию
Трактор Case IH Magnum 340.Технические характеристики.
Трактор Case IH Magnum 340 может быть использован для выполнения работ сельскохозяйственной направленности, в частности, для подготовки почвы к посеву и т. п. Кроме этого, трактор с успехом может решать задачи транспортного характера.
Как одно из достоинств этой машины можно отметить ее достаточно просторную и удобную кабину, остекление которой позволяет иметь оператору круговой обзор. Как и все остальные кабины тракторов Case в данном случае также особое внимание уделено безопасности оператора.
При необходимости трактор Case IH Magnum 340 может быть укомплектован различными дополнительными системами, среди которых есть система управления и система учета, последняя подразумевает установку сенсорного дисплея AFS модели Pro 700.
Кроме всего прочего, колеса трактора могут быть сдвоены, также на трактор могут быть навешены дополнительные балластные грузы. Все это вместе с регулируемой шириной колее позволяет работать на полях с различной шириной междурядий и наиболее рационально распределять нагрузку.
Обслуживание трактора упрощено за счет облегчения доступа к основным контрольным точкам.
Характеристики трактора Case IH Magnum 340. Сердцем этого трактора является его двигатель модели FPT Cursor 9 Tier II, в конструкции которого реализована схема работы с турбонагнетателем и последующим охлаждением впускного воздуха. В своем распоряжении двигатель имеет 6-ть цилиндров общим объемом 8,7 л. При этом номинальная мощность этого агрегата составляет 340 л. с. или 253 кВт. Максимальное значение мощности составляет 374 л. с. или 279 кВт. С использование Power BOOST мощность двигателя возрастает до значения в 389 л. с. или 290 кВт. Максимальное значение крутящего момента двигателя в 1671 Нм зафиксировано при значении величины оборотов в 1400-1600 об/мин. Двигатель оборудован топливной системой High Pressure Common Rail. Запас топлива составляет 635 л. Максимальная скорость, развиваемая трактором, достигает значения в 40 км/ч.
Трансмиссия трактора Full Power Shift обеспечивает осуществление переключения передач без разрыва мощности. КПП трактора обладает 18-ью передачами для движения вперед и еще 4-мя передачами, предназначенными для осуществления движения в обратном направлении. Управление трансмиссией может осуществляться как в ручном режиме, так и в автоматическом, при этом в последнем случае переключение передач происходит в зависимости нагрузки на двигатель.
Этот трактор полноприводной и для осуществления управления приводом переднего моста используется электронное управление, которое может работать в двух режимах, а именно в принудительном и автоматическом.
Электронное управление используется и для осуществления блокировки дифференциала заднего моста, при этом управление также может осуществляться в двух режимах, автоматическом и принудительном.
Трактор Case IH Magnum 340 имеет 5 пар гидровыходов и линию обратного слива рабочей жидкости. Установленная здесь навеска относится к IVN/III категории, а установленный здесь тяговый брус относится V категории. Насос гидросистемы способен перекачивать до 282 л жидкости за минуту, а грузоподъемность навески составляет 8,57 т. Двухскоростной ВОМ трактора работает со скоростями 540 или 100 об/мин, а это дает возможность использовать совместно с трактором большое количество сельхоз орудий.
Длина Case IH Magnum 340 составляет 6,4 м, его высота равна 3,4 м, а ширина трактора составляет 3,1 м. Ширина колеи переднего моста регулируется в пределах 1560-2256 мм, а заднего моста 1470-2294 мм. Сдвоенные передние колеса обуты в шины 16.9R30, задние сдвоенные колеса обуты в шины 20.8R42. Весит трактор 10,864 т.
Обзор тракторов Case (Кейс). Обслуживание. Неисправности, возникающие в процессе эксплуатации
Компания Case была основана в 1842 году и выпускала молотилки, но официальное признание в качестве производителя тракторов получила только в 1905 году, когда мир увидел агрегат с двигателем внутреннего сгорания. Для того, чтобы бренд был более узнаваем, руководство компании приняло решение в качестве ведущего цвета использовать красный.
Развитие производства шло в ногу со временем, поэтому можно с уверенностью сказать, что трактора Кейс одни из самых современных и модернизированных. Благодаря использованию передовых технологий на протяжении всего существования компании, продукция завоевала популярность среди потребителей. Бурный рост компании прослеживался на протяжении всех лет существования, при этом не останавливаясь на достигнутом, а расширяя направления.
Заметного расширения дилерской сети компания достигла к концу 80-х, когда вся европейская часть мира интересовалась проблемами механизации сельского хозяйства. Широкий модельный ряд позволяет приобрести трактор Кейс для любого вида работ, а огромное их преимущество в том, что к нему можно подключить различное навесное оборудование и от этого функциональность только увеличивается.
Трактора разделены на серии, каждая из которых отличается мощностью двигателя и другими техническими характеристиками. Основным предназначением является применение в сельском хозяйстве, так как силовой агрегат позволяет обрабатывать большие участки полей.
Модельный ряд тракторов Case
В отличие от других производителей компания Case решила быть оригинальной и дала следующие названия своим сериям: Farmall, Maxxum, Puma, Magnum, Steiger.
Выделяют следующие достоинства техники Кейс:
Case Steiger
Трактора, которые принадлежат этой серии, отличаются повышенными техническими характеристиками и предназначены для использования в условиях повышенной сложности. В связи с этим, конструктора предусмотрели выпуск каждой модели в колесном (Стайгер) и гусеничном варианте (Quadtrac). Мощность этих тракторов составляет от 335 до 600 л. с., но из-за встроенной системы, управляющей работой двигателя, ее можно увеличить до 10%. А это существенно скажется на производительности трактора. Колесная база удлинена, но, не смотря на это, радиус разворота составляет до 6 м.
На фото представлены примеры техники.
Case Magnum
Трактора из этой серии самые востребованные на сельскохозяйственном рынке, потому как в них удачно сочетаются способность выполнять различные маневры при высокой мощности. Это достоинство стало возможным благодаря использованию особенной конструкции передних мостов. Двигателя имеют в запасе от 257 до 340 лошадок, причем автоматические системы могут повышать мощность до 30 %. Несмотря на внушительные габариты, трактор разворачивается всего на 5 м.
Еще одной особенностью тракторов Кейс Магнум является гидравлическая система, которая позволяет поднимать до 10 т. различных грузов. Оператор может не волноваться на счет точности установки любого груза, так как за все отвечает автоматическая система позиционирования. Трактор имеет автоматическую коробку передач и может разгоняться до 40 км/ч.
Модельный ряд серии Кейс Магнум включает: 250, 280, 310, 340, 380 CVT.
На фото представлены примеры техники.
Case Puma
Облегченные колесные трактора из серии Пума имеют мощность двигателя от 142 до 224 л. с. Наиболее эффективны в малых и средних сельских хозяйствах. Их используют для работ в садах, полях, на животноводческих фермах и для транспортировки грузов. Для того, чтобы увеличить функциональность трактора, к нему подключают различное оборудование. Эффективность использования навески достигается благодаря 4-х скоростному ВОМ. В этой конструкции управление валом отбора мощности не представляет ничего сложного, потому как он управляется автоматизированной системой.
Современная система контроля впрыска двигателя следит за экономичностью расхода топлива. Плавное переключение скоростей достигает при помощи трансмиссии нового поколения Full Powershif. Трактор Кейс Пума разгоняется до 50 км/ч., причем он автоматически переходит из полевого режима в дорожный и обратно.
Модельный ряд серии Кейс Пума состоит из модификаций: 140, 155, 180, 210, 225.
На фото представлены примеры техники.
Case Maxxum
Чтобы не перечислять все достоинства тракторов серии Максум, достаточно выделить главные: маневренность, универсальность, экономичность и многофункциональность. Повышенный комфорт в кабине позволяет оператору не уставать в течении рабочего дня. Повышенная звукоизоляция и удобство расположения органов управления делает кабину лучшей в своем классе. Мощность двигателя у этой серии может варьироваться от 112 до 141 л. с. при этом расход топлива экономиться автоматически.
Для крепления навесного оборудования используется трехточечная сцепка, благодаря которой применение машины становится более удобным. Мощная гидравлическая система отлично справляется с любой поставленной задачей. Грузоподъемность трактора составляет от 5 до 7 т.
Модельный ряд серии Кейс Максум составляют модификации: 110, 125, 140.
На фото представлены примеры техники.
Особенности эксплуатации
Производитель заявляет, что вся выпускаемая продукция отличается повышенным качеством и благодаря применению новейших технологий легко справляется с любыми задачами. Высокая эффективность достигается за счет сложнейших электронных систем, позволяющих контролировать работу.
Судя по отзывам владельцев, которые активно эксплуатируют технику Кейс, тракторы отличаются качеством и надежностью, поэтому первые несколько лет работают без ремонта. Однако, чтобы добиться такого результат необходимо следить за регулярностью и качеством проведения технического обслуживания. Трактора работают на дизельном топливе повышенного качества, а в качестве моторного масла нужно использовать CI-4 AKCELA MS1121.
Огромным достоинством новых тракторов является то, что они поступают в продажу уже с проведенной обкаткой. Также на предприятии перед отправкой в дилерскую сеть проводится калибровка и тестирование всех электронных систем.
Консервирование производится по всем правилам, описанным в инструкции по эксплуатации. Сначала трактор моется, сушится, а потом все детали и механизмы протираются промясленной тряпкой. Масло сливается, а контакты на свечах отсоединяются. После всех процедур трактор ставится в сухое место и накрывается чехлом.
Неисправности техники Case
Так как машины снабжены большим количеством электронных систем, то в случае отказа какой-либо системы, лучше всего обратиться в сервисный центр. Владельцы жалуются, что мало подробной информации о том, как выполнять ремонт техники Кейс, но для ее ремонта требуется только специальные квалифицированные знания, которыми обладают только специалисты в сервисных центрах.
Видео обзор тракторов Case
Ниже представлен видео обзор трактора Кейс MX135
Видео обзор, посвященный трактору Case JX
Отзывы владельцев
Алексей:
Купил американский трактор Кейс Магнум за 54 000 евро. Деньги стоит немалые, но окупается полностью, так как заменяет 2 МТЗ. Очень нравится, что при своей мощи, он очень экономичный. Хочется особо отметить в своем отзыве удобную кабину и облегченное управление. Сложности возникают только на начальном этапе, когда видишь перед собой всю эту электронику и пытаешься в ней разобраться. Но это только вначале.
Источники:
https://zapchasti-isuzu. ru/marki-specavto/traktor-case-ih-magnum-340.html
https://proogorod. com/selhoztekhnika/traktory/obzor-traktorov-case
CASE STX Steiger 350/400/450/500/550/600 Fault Codes list [PDF, ENG, 231 KB]
CASE STX Steiger 350 Fault Codes List PD
Adobe Acrobat Document
231.2 KB
1002 — Short circuit to 12 V or malfunction of the winding chain of the lift valve
hitch
1003 — Electromagnet lifting hitch: open circuit or short circuit to ground
1004 — Short to 12 V windings of the valve of lowering of a coupling device
1005 — Winding of the lowering valve of the coupling device — short to ground or
chain termination
1006 — Stimulation of the exciter of low voltage electronic traction control in view of
his refusal
1007 — Error checking low voltage exciter control module
1008 — The low-voltage side of the lifting electromagnet is connected to the «mass»
1009 — The low-voltage side of the lowering solenoid is connected to the «mass»
1011 — The tractor control unit is disconnected from the CAN bus
1012 — Loss of communication with the armrest controller
1013 — Loss of communication with the instrument controller
1014 — Reference voltage 5 V exceeds the upper permissible limit
1015 — Reference voltage 5 V below the lower limit
1017 — Faulty position control potentiometer
1018 — The balance axle potentiometer signal is outside the normal range
working range
1019 — Failure of top-end potentiometer
1021 — Load potentiometer failure
1024 — Loss of communication with the instrument controller
1025 — Failure of the hoisting / lowering switch
1026 — Failure of the lift / lower switch on the wing
1028 — Failure of motion control potentiometer
1029 — Failure of the lowering speed adjustment potentiometer
1032 — Wrong driving speed. The value obtained from the data bus indicates
malfunction
1033 — Failure of the slip adjustment switch
1034 — Failure of the slip-on switch
1035 — Incorrect percentage of slippage
1036 — The armrest controller signaled a malfunction of the slow switch
lifting traction
1037 — Failure of the slow-down switch
1065 — The armrest controller determined that the tractor is not equipped with a system
traction control, but found traction contacts
1066 — Engine speed too low to calibrate the lower coupling
devices
1067 — The possibility of adjusting the thrust is provided, but the thrust contact sensor (s)
could not be detected
1068 — Throttle adjustment calibration interrupted due to tractor movement
1069 — Calibration of electronic traction control interrupted due to low speed
the engine
1071 — Pulse width modulation (PWM) growth threshold during calibration too
tall
1072 — Pulse width modulation (PWM) growth threshold during calibration too
low
1074 — The clutch potentiometer signal is outside the expected range when
the maximum raised position of the coupling device
1075 — Throttle lowering valve response threshold during calibration
too high
1076 — PWM lower threshold is too low
1077 — The operator did not respond to the electronic traction control calibration procedure
1078 — The coupler is not in the minimum lowered position
1079 — The range of the hitch is not in accordance with the specification
1080 — Ratio of hitch and range of commands
position control does not meet the allowable limits
1085 — Calibration of electronic traction control system required
1086 — There is no communication with the performance monitor (instrumentation controller)
1087 — Reference voltage 8 V above 8,8 V
1088 — Reference voltage 8 V below 7.2 V
1089 — Supply of voltage 12VH1 to the towing and lowering windings of the coupling device
below 8 V
14002 — The oil filter sensor in the gearbox is closed to earth when it is switched on
supply
14003 — The oil filter sensor of the hydraulic system closes to ground when
power on
14005 — Faulty shaft speed sensor error
14006 — Engine speed error GOV
14007 — Engine speed limit exceeded
14008 — Engine oil pressure sensor error
14009 — Engine operating hours lost
14010 — The IOM controller is disconnected from the network
14011 — Total loss of communication
14013 — The gearbox is disconnected from the mains
14014 — Engine coolant temperature sensor error
14015 — Engine Inlet Air Temperature Sensor Error
14016 — Engine shutdown procedure activated
14017 — The fuel level sensor voltage is below the permissible range
14018 — The GOV is disconnected from the network
14019 — The automatic temperature control system is disconnected from the network
14020 — Loss of CAN messages sent by the auxiliary system controller
steering system
14021 — Auxiliary steering is present, but no CAN messages received
15500 — Low pressure primary steering system — auxiliary
steering system works
15501 — High pressure assist steering system when
idle pump
15502 — Low pressure primary steering system — auxiliary
the steering system is faulty
15510 — Increased pressure of the primary steering system pressure sensor
management
15512 — Undervoltage of the pressure sensor of the primary steering system
management
15520 — Error in checking the pressure of the auxiliary control pump
15530 — Increased voltage of the auxiliary steering system pressure sensor
management
15532 — Undervoltage of the auxiliary steering system pressure sensor
management
15540 — Auxiliary system bypass electrical circuit rupture
steering system
15544 — Short circuit to + BAT of the solenoid of the bypass valve
auxiliary control system
15550 — Short circuit to the «mass» of the auxiliary system bypass solenoid
steering system
15552 — Short circuit to + BAT of the pump relay of the auxiliary steering system
management
15553 — Open circuit of the pump drive relay
15554 — Short to ground of the auxiliary pump relay of the steering pump
15560 — Voltage monitoring device VF3
15580 — No pressure was produced in the assist steering system
15590 — No auxiliary steering system equipment found
15591 — The battery voltage is insufficient to start the auxiliary pump
steering systems
15592 — The battery voltage is insufficient to start the auxiliary pump
steering systems
15994 — The engine is running, and the crankshaft rotation input signal is constantly
high level
18007 — Multi-function lever — switch error
18010 — Throttle valve Powershift — too low voltage
18011 — Throttle valve Powershift — too high voltage
18012 — Rotor variator speed switch error (CVT)
18015 — Rear position adjustment potentiometer — too
high voltage
18016 — Backward linkage traction control potentiometer — too low
voltage
18017 — Rear traction control potentiometer — too high
voltage
18018 — Rear linkage potentiometer — too low
voltage
18019 — Rear hitch height potentiometer — too high
voltage
18020 — Quick-lowering potentiometer for rear hitch — too low
voltage
18021 — Potentiometer for quick lowering of the rear hitch — too high
voltage
18022 — Rear suspension adjustment potentiometer —
Too low voltage
18023 — Rear suspension adjustment potentiometer —
too high a voltage
18024 — Error of position of the code flow sensor EHR (remote valve
management)
18025 — Back wheel slip adjustment potentiometer —
Too low voltage
18026 — Rear linkage slip adjustment potentiometer —
too high a voltage
18027 — EHR lever position (remote control valve) 5 — too low
voltage
18028 — EHR lever position (remote control valve) 5 — too high
voltage
18029 — EHR lever position (remote control valve) 6 — too low
voltage
18030 — EHR lever position (remote control valve) 6 — too high
voltage
18040 — EHR lever position (remote control valve) 1 — too low
voltage
18041 — EHR lever position (remote control valve) 1 — too high
voltage
18042 — EHR lever position (remote control valve) 2 — too low
voltage
18043 — EHR lever position (remote control valve) 2 — too high
voltage
18044 — EHR lever position (remote control valve) 3 — too low
voltage
18045 — EHR lever position (remote control valve) 3 — too high
voltage
18046 — Error of lateral swing control switch EHR (remote valve
management)
18047 — EHR lever position (remote control valve) 4 — too low
voltage
18048 — EHR lever position (remote control valve) 4 — too high
voltage
18049 — Control lever 1, X axis — Undervoltage
18050 — Control lever 1, X axis — too high voltage
18051 — Control lever 1, Y axis too low voltage
18052 — Control lever 1, Y axis too high voltage
18053 — Control lever 1, proportional rocker switch — too low
voltage
18054 — Control lever 1, proportional rocker switch — too
high voltage
18055 — Control lever 2, X axis too low voltage
18056 — Control lever 2, X axis too high voltage
18057 — Control lever 2, Y axis too low voltage
18058 — Control lever 2, Y axis too high voltage
18059 — Control lever 2, proportional rocker switch — too low
voltage
18060 — Control lever 2, proportional rocker switch — too
high voltage
18061 — Reference voltage — short circuit to 0 V
18062 — Reference voltage — short circuit to 12 V
18063 — EEPROM error
18064 — Multifunction lever communication error (MFH)
18065 — Basic check error of multifunction lever (MFH)
18066 — Error of lever invalidation (remote control valve) 1
18067 — Error of lever invalidation (remote control valve) 2
18068 — Error of lever invalidation (remote control valve) 3
18069 — Error of lever invalidation (remote control valve) 4
18070 — Error of lever invalidation (remote control valve) 5
18071 — Failed lever invalid signal (remote control valve) 6
18072 — EDC Mouse Up / Malfunction Switch Malfunction
19001 — Reading battery voltage (electrical) — high signal value — by
the battery voltage rating P0563 is exceeded the upper limit value
19002 — Reading battery voltage (electrical) — low signal value — by
battery voltage estimation P0562 the lower limit value is not reached
19010 — Temperature sensor after neutralizer (electrical)
19011 — Temperature sensor after neutralizer (electrical)
19019 — Temperature sensor in front of the neutralizer (electrical) — high signal value
— high value on the circuit of the neutralizer temperature sensor P0428
19020 — Temperature sensor before neutralizer (electric) — low signal value —
Low value on the circuit of the neutralizer temperature sensor P0427
19037 — Supply of sensor 2 (internal 5 V circuit, urea pressure sensors) — too
high supply voltage — reagent P204D — pressure sensor — short circuit on
high voltage source
19038 — Supply of sensor 2 (internal 5 V circuit, urea pressure sensors) — too
low supply voltage — reagent P204C — pressure sensor — short to low voltage source
19046 — Urea pressure sensor in the unit (electrical) — voltage failure
power supply — Reagent P204A — pressure sensor — open circuit
19047 — Urea pressure sensor in the unit (electrical) — high signal level — Reagent
P204D — pressure sensor — short to high voltage source
19048 — Urea pressure sensor in the unit (electrical) — low signal level — Reagent
P204C — pressure sensor — short to low voltage source
19055 — Urea pressure sensor in the unit (electrical) — high signal level — reagent
P2045 — Pump module temperature sensor — short to high voltage source
19056 — Urea pressure sensor in the unit (electrical) — low signal level — reagent
P2044 — Pump module temperature sensor — short to low voltage source
19064 — Supply voltage of internal heaters 1 (UB1), electric. — breaking the circuit UB1
— pump module P20C5 — internal heating — chain breaking
19065 — Supply voltage of internal heaters 1 (UB1), electric. — a short
short circuit for power supply of the battery at UB1, switch 15 in position Off — module
pump P20C8 — internal heating — short circuit to a high source
stresses
19073 — Supply voltage 2 — tubular heaters (UB2), electric. — closure on
battery power with UB2 and disconnected key 15 — reagent P20C4 — preheating
suction pipe — short to high voltage source
19074 — Supply voltage 2 — tubular heaters (UB2), electric. — open circuit UB2 —
Reagent P20C1 — preheating the suction pipe — breaking the chain
19075 — Supply voltage 2 — tubular heaters (UB2), electric. — closure on
«mass» UB2 — Reagent P20C3 — preheating the suction pipe — breaking the chain
19082 — Supply voltage 3 — coolant control valve and valve
reversing mechanism (UB3), electric. — short to battery UB3 with key 15
in the «off» position (off) — P20A3 vapor escape valve (control valve
Air conditioner) — short circuit to a high voltage source
19083 — Supply voltage 3 — coolant control valve and valve
reversing mechanism (UB3), electric. — open circuit UB3 — Vapor extraction valve P20A0
(the control valve of the air-reducing agent) — breaking the chain
19084 — Supply voltage 3 — coolant control valve and valve
reversing mechanism (UB3), electric. — short circuit to earth «UB3 — tap valve
vapor P20A2 (control valve of the air conditioner) — short to the source
low voltage
19091 — Voltage monitoring VDD11 / VDD25 — Dosing valve / pump motor
— low supply voltage VD11 — P0659, supply voltage 12 V for the module
dosing — the lower limit value is not reached
19092 — Voltage monitoring VDD11 / VDD25 — Dosing valve / pump motor
— high supply voltage VD11 — P0658, supply voltage 12 V for the module
dosing — the lower limit value has been exceeded
19100 — Urea level sensor (electrical) — supply voltage error — level sensor
P203E — unreliable / unstable circuit
19101 — Urea level sensor (electrical) — high signal level — P203D reagent —
level sensor in the tank — short to high voltage source
19102 — Urea level sensor (electrical) — low signal level — P203C reagent —
level sensor in the tank — short to low voltage source
19109 — Urea temperature sensor in the tank (electrical) — high signal level —
reagent P205D — temperature sensor in the tank (reagent temperature — solution in the tank) —
short circuit to a high voltage source
19110 — Urea temperature sensor in the tank (electric) — low signal level — reagent
P205C — temperature sensor in the tank (reagent temperature — solution in the tank) — short
short to low voltage
19145 — Dosing valve (electrical) — short to positive terminal
battery — Rejector nozzle P2049 — short to high voltage source
19146 — Dosing valve (electrical) — short circuit to earth — injector
P2048 — short to low voltage source
19147 — Dosing valve (electrical)
19148 — Dosing valve (electrical) — metering valve permanently on
(detected as a result of the output of a rapidly disappearing error) — reagent P209B — pressure in
dosing valve nozzle too high
19154 — Urea pump speed — the pump motor is disconnected — The pump does not feed
reagent P208B
19155 — Speed of the urea pump — blocking of the pump motor — pump
reagent P208A
19156 — Urea pump speed — permissible speed exceeded
pump — exceeding the permissible frequency of the pump of the reagent P208D
19157 — Urea pump speed — Hall sensor defective — The pump does not feed
reagent P208B
19163 — Short circuit of the cooling control valve for voltage
battery (UBat) or open load — short to battery — tap valve
vapor P20A3 (control valve purge reductant) — short circuit to
high voltage source
19164 — Short circuit of the cooling control valve for voltage
battery or open load — open load — vapor outlet valve P20A0
(control valve of the air conditioner) — open circuit
19181 — Reversing valve (4-2-way valve) Electric. — short circuit to
battery — vapor outlet valve P20A3 (control valve of the air reducer) —
short circuit to a high voltage source
19182 — Reversing valve (4-2-way valve), electric. — short circuit to
«mass» — the vapor outlet valve P20A2 (control valve of the air reducer) —
short to low voltage source
19183 — The reversing valve (4-2-way valve) electric. — open load —
the vapor outlet valve P20A3 (control valve of the air reducer) — an open circuit
19262 — Tank heating valve — Short to battery — Reagent P20B4 —
tank heating valve — short to high voltage source
19263 — Tank heating valve — short circuit to earth — reagent P20B3 — valve
tank heating — short to low voltage source
19264 — Tank heating valve — Open load — Reagent P20B1 — Tank heating valve
— open load
19265 — Tank heating valve — short circuit to earth — reagent P20B3 — valve
tank heating — short to low voltage source
19289 — The temperature at the outlet of the neutralizer is too low — the temperature after
neutralizer — physical. (error of the neutralizer heating time) — range / operation
P042B Neutralizer Temperature Sensor Circuit
19298 — Urea pressure too low when starting the system
19307 — Urea pressure too high — Urea pressure not reliable
(urea pressure too high) — Reagent P204B — Pressure above the limit
meanings
19316 — The temperature of the URE in the pump unit is outside the permissible range
range
19325 — The temperature of the URE in the tank is outside the permissible range
19334 — The system froze and was not released on time — the heating and determination mode
malfunctions (failure of heating of the inlet pipeline) — Reagent P20C2 —
heating of the suction pipe — heating detection mode
19335 — The system froze and was not released on time — the heating and detection mode
faults (failure to heat the intake manifold) — Reagent P20BE —
heating of the pipe under pressure — the mode of determining the heating
19336 — The system froze and was not released on time — the heating and detection mode
faults (pressure error in the detection mode) — Reagent P20C5 —
internal heating — chain breaking
19337 — The system froze and was not released on time — the heating and detection mode
faults (error of heating the pipeline with a reverse flow) — Reagent P20B9 —
Reheating tube — breaking the circuit
19343 — The control valve of a cooling liquid, механич. — stuck in the open
position — the vapor outlet valve P20A3 (control valve purging the reducing agent) —
short circuit to a high voltage source
19344 — The control valve of a cooling liquid, механич. — stalled in a closed
position — the vapor outlet valve P20A0 (blowdown purge control valve) —
chain termination
19352 — Reversing valve (4-2-way valve) mechanical. — the valve does not open —
the vapor outlet valve P20A0 (control valve of the air reducer) — an open circuit
19361 — DCU 24 V battery / Power supply — Too high voltage
19362 — DCU 24 V battery / Power supply — Too low voltage
19370 — Urea pressure too low (during commissioning) — error
pump motor during commissioning (the pump does not provide the required supply) —
Reagent P208B — pump does not provide the required supply
19379 — Urea during commissioning too low — values
The temperatures during commissioning are not reliable
19415 — Empty urea tank — empty urea tank — P203F reagent — liquid level in
the tank is too low
19514 — Urea temperature sensor in the tank — Out of range
19532 — Backflow line obstruction — P2063 reagent — dosing valve — short
short to low voltage
19541 — Mechanical blocking of the coolant control valve —
Check of validity of operation of the valve of tap of steams P20A1 (at start)
19550 — Discharge line obstruction — discharge line obstruction — P209B reagent — metering
nozzle — too high pressure
19559 — Low level of Uterine 1 (warning)
19568 — Low urea level 2 (warning) — level of urea below the value
«Limit 2» — reagent P203F — liquid level in the tank — too low
19577 — Reception CAN, frame E2SCR (dosing, exhaust volume, temperature
exhaust, suspension error, heater, long failure) — check SAE J1939
to receive the CAN signal: (urea quality out of range) — the channel is serial
connection P0600
19578 — Reception CAN, frame E2SCR (dosing, volume of exhaust gases, temperature
exhaust, suspension error, heater, long failure) — check SAE J1939
to receive a CAN signal: (dosing outside the range) — serial communication channel
P0600
19579 — Reception CAN, frame E2SCR (dosing, volume of exhaust gases, temperature
Exhaust gas, suspension error, heater, long failure) — time out — channel
serial communication P0600
19580 — Reception CAN, frame E2SCR (dosing, exhaust volume, temperature
Exhaust gas, suspension error, heater, long failure) — too much
messages CAN — Serial communication channel P0600
19581 — Reception CAN, frame E2SCR (dosing, volume of exhaust gases, temperature
exhaust, suspension error, heater, long failure) — check SAE J1939
to receive CAN signal — serial communication channel P0600
19595 — Reception CAN, frame EEC1 (driver request, engine speed, torque
engine) — check SAE J1939 for receiving CAN signal: (engine torque
out of range) — Serial communication channel P0600
19596 — Reception CAN, frame EEC1 (driver request, engine speed, torque
engine) — check SAE J1939 for receiving CAN signal: (engine speed out of range) — serial communication channel P0600
19597 — Reception CAN, frame EEC1 (driver request, engine speed, torque
motor) — timeout — serial communication channel P0600
19598 — Reception CAN, frame EEC1 (driver request, engine speed, torque
motor) — too many CAN messages — Serial communication channel P0600
19599 — Reception CAN, frame EEC1 (driver request, engine speed, torque
engine) — check SAE J1939 for receiving CAN signal: (requested by the driver
torque out of range) — Serial communication channel P0600
19604 — Reception CAN, frame ET1 (temperature of water and engine oil) — check SAE J1939 on
receiving CAN signal: (oil temperature out of range) — serial communication channel
P0600
19605 — Reception CAN, frame ET1 (temperature of water and engine oil) — time out — channel
serial communication P0600
19606 — Reception CAN, frame ET1 (temperature of water and engine oil) — too much
messages CAN — Serial communication channel P0600
19607 — Reception CAN, frame ET1 (temperature of water and engine oil) — check SAE J1939
to receive a CAN signal: (water temperature out of range) — channel serial
connection P0600
19649 — Level error in the urea tank (CAN message or electric with this
sensor) — level above CAN: SAE J1939 signal not available, level sensor connected
directly: sensor supply error — reagent P203A — level sensor in the tank — open circuit
19650 — Urea tank level error (CAN message or electrical malfunction with
real sensor) — level above CAN: SAE J1939 signal out of range, level sensor
connected directly: SRC high. — reagent P203D — tank level sensor — short circuit to
high voltage source
19651 — Urea tank level error (CAN message or electrical malfunction with
real sensor) — level above CAN: SAE J1939 signal out of range, level sensor
connected directly: SRC high. — reagent P203C — tank level sensor — short circuit to
low voltage source
19676 — Ambient temperature: Check SAE J1939 for receiving CAN signal:
(Checking the signal range: signal out of range / signal error / signal not available)
— check SAE J1939 for receiving CAN signal: (ambient temperature outside
range) — Serial communication channel P0600
19677 — Ambient temperature: SAE J1939 for receiving CAN signal:
(Checking the signal range: signal out of range / signal error / signal not available)
— time-out — range of operation of the ambient temperature sensor P0071
19678 — Ambient temperature: SAE J1939 for receiving CAN signal:
(Checking the signal range: signal out of range / signal error / signal not available)
— too many CAN messages — ambient temperature sensor range / operation
air P0071
19679 — Ambient temperature: check SAE J1939 for receiving CAN signal:
(Checking the signal range: signal out of range / signal error / signal not available)
— check SAE J1939 for receiving CAN signal: (barometric pressure out of range)
— range / operation of the ambient temperature sensor P0071
19721 — EEPROM / Checksum error — Write error EEPROM — Error
internal control module EEPROM P062F
19722 — EEPROM / Checksum error — Error of absence of corresponding
options — Error of the internal control module EEPROM P062F
19723 — EEPROM / Checksum error — EEPROM communication error — Internal error
control module EEPROM P062F
19724 — EEPROM / Checksum Errors — EEPROM detection error or error
codierwort — P062F internal control module EEPROM error
19725 — EEPROM / Checksum Errors — Invalid EEPROM Size — P062F
internal error of the control module EEPROM
19730 — Ignition ON signal K15 — during the initialization, it was not possible to read
digital ignition switch input signal — ignition switch P2530 — error
authenticity
19739 — Main relay opens too soon / too late — main relay
off too late — high value in the power relay control loop
ECM / PCM P0687
19740 — Main relay opens too soon / too late — short circuit
main relay — open circuit / control loop of the ECM / PCM power relay P0685
19741 — Main relay opens too soon / too late — main circuit break
relay — high value in the control loop of the ECM / PCM power relay P0687
19742 — Main relay opens too soon / too late — main relay
it turns off too early (before updating the EEPROM) — open circuit / control loop
Power relays ECM / PCM P0685
19748 — The urea temperature in the pump unit is too high or the check error is
tightness (emergency shutdown) — temperature exceeded (temp.
urea in the pump unit) — Reagent P2043 — Pump unit temperature sensor — Outside
allowable range
19749 — The urea temperature in the pump module is too high or there are leaks in
During the test (emergency shutdown) — detection of a leakage of urea (static or
dynamic test) — dynamic check for urea leakage P202D — leakage
detected
19757 — Channel of group error of urea injection control — error belongs to
urea injection control group — pump for P208B — does not supply
19766 — Air control group error channel — the error belongs to the group
air control valve — P20A7 compressed air control valve
19775 — The group error channel of the neutralizer temperature — the error belongs to
group of errors in the temperature of the neutralizer — inaccuracy of the temperature sensors
neutralizer P0426 — reliability error (with static check)
19784 — Group error channel for exceeding NOx — the error belongs to the group of active
errors of NOx level exceeding — NOx trapper performance below threshold
P2000 values
19793 — Group error channel of empty urea tank — error belongs to group
active errors of the empty urea tank — reagent P203F — liquid level in the tank —
too low
19802 — Inaccurate temperature data in the urea tank taking into account the temperature
pumping unit — temp. on the CAN bus: SAE J1939 timeout, the temperature sensor is connected
directly: high. SRC — serial communication channel P0600
19803 — Unreliable temperature data in the urea tank taking into account the temperature
pumping unit — temp. CAN bus: too many SAE messages J1939, sensor
The temperature is directly connected: high. SRC — serial communication channel P0600
19804 — Inaccurate temperature data in a urea tank taking into account the temperature
pumping unit — temp. on the CAN bus: signal error SAE J1939 — reagent P205A — sensor
temperature in the tank (reagent temperature — solution in the tank) — open circuit
19805 — Temperature in a tank with a urea — an open circuit
19806 — Temperature sensor in a tank with a urea — short circuit
19807 — Inaccurate temperature data in the urea tank taking into account the temperature
pumping unit — high. SRC: too high diagnostic temperature value
urea — reagent P205B — temperature sensor in the tank (reagent temperature — solution in
tank) — out of range
19808 — Inaccurate temperature data in the urea tank taking into account the temperature
pumping unit — low. SRC: The diagnostic temperature is too low
urea — reagent P205B — temperature sensor in the tank (reagent temperature — solution in
tank) — out of range
19813 — Urea pressure too low during operation or dosage of the system
urea
19817 — Reliability of sticking of the urea dispenser valve (UDV) — reagent P202F —
Dosing valve — blocked (only sticking in the closed position)
19818 — Reliability of sticking of the urea dosing valve (UDV) — dynamic
urea leakage test P202D — leak detected
19822 — Error — unknown position of sticking of the urea dispenser valve (UDV) —
dynamic check for urea leakage P202D — leak detected
19999 — The DCU motor was not malfunctioning
is converted into a CNH module. Refer to the fault codes of the engine control unit (ECU)
using the EASY tool.
2009 — Open circuit of the seat switch
2010 — Short-circuit of the seat switch to the power supply + BAT or reference
voltage 5V
2011 — Short to earth or an open in the clutch chain.
2012 — Short-circuit of the coupler potentiometer by 12V or short circuit on
5V reference voltage
2024 — All couplings are not calibrated
2037 — Clutch lower link circuit open or lower coupling clutch relay
jammed in the open position
2047 — Incorrect adjustment of the lower part of the clutch pedal of the clutch switch
2048 — Short circuit of the lower part of the clutch pedal switch or
the lower part of the clutch relay
2053 — Too high reference voltage 5 V
2054 — Too low reference voltage 5 V
2055 — Wheel speed sensor signal missing
2056 — Internal reference voltage too high 5 V
2057 — Internal reference voltage too low 5 V
2059 — Lever of the lever sensor mismatch
2070 — Increased voltage of the lever position sensor for forward movement
2071 — Short to ground or an open in the chain of the lever position sensor for movement
forward
2072 — Lever position sensor for reverse movement — too high voltage
2073 — Lever position sensor for reverse travel — Short to ground or
break in the chain
2074 — Undervoltage of the lever position sensor FNR, other than parking
2075 — Increased voltage of the lever position sensor FNR, other than parking
2110 — Neutral position sensor FNR — Undervoltage
2111 — Neutral position sensor FNR — overvoltage
2112 — Lubrication of the oil pressure switch in the axle
2113 — Low oil pressure in the axle
2114 — Critical low oil pressure in the axle
2158 — Critical low system pressure
2159 — Open circuit in the system pressure transmitter circuit
2160 — Short-circuit of the system pressure transducer to a reference voltage of 5 V
or + BAP
2308 — Reverse switching is not permitted
2326 — High reading of the engine speed sensor
2327 — There is no signal from the engine speed sensor
2330 — The gearbox output speed too high for the selected
transfer of
2331 — Coupling slippage error
2342 — Short to earth or an open in the clutch solenoid valve circuit
1F
2343 — Short to earth or an open in the clutch solenoid valve circuit
1M
2344 — Short to earth or an open in the solenoid valve circuit of the 1R coupler
2345 — Short to earth or an open in the solenoid valve circuit of the 2F clutch
2346 — Short to earth or an open in the solenoid valve circuit of the 2R clutch
2347 — Short to earth or an open in the 4F clutch solenoid valve circuit
2348 — Short to earth or an open in the 4R solenoid valve circuit
2349 — Short to ground or an open in the 5F solenoid valve circuit
2350 — Short to earth or an open in the 5R solenoid valve circuit
2351 — Short-circuit of the solenoid valve of the clutch 1F to the +12 V power supply with the drive switched off
2352 — Short-circuit of the solenoid valve of the 1M clutch to a +12 V source with the drive switched off
2353 — Short-circuit of the solenoid valve of the 1R clutch to the +12 V power supply with the drive switched off
2354 — Short-circuit of the solenoid valve of the clutch 2F to the +12 V voltage source with the drive switched off
2355 — Short-circuit of the solenoid valve of the clutch 2R to the +12 V voltage source with the drive switched off
2356 — Short-circuit of the solenoid valve of the clutch 4F to the +12 V source with the drive switched off
2357 — Short-circuit of the solenoid valve of the 4R clutch to the +12 V source with the drive switched off
2358 — Short-circuit of the solenoid valve of the coupling 5F to the +12 V power supply with the drive switched off
2359 — Short-circuit of the solenoid valve of the 5R clutch to the +12 V source with the drive switched off
2363 — 1M coupling not calibrated
2364 — 1F coupling not calibrated
2365 — 1R coupling not calibrated
2366 — Coupling 2F not calibrated
2367 — The 2R coupling is not calibrated
2368 — 4F coupling not calibrated
2369 — The 4R coupling is not calibrated
2370 — 5F coupling not calibrated
2371 — 5R coupling not calibrated
2372 — Engine stop — change gearbox to neutral
2379 — Malfunction of the three-speed shaft speed sensor
2380 — Three-speed shaft speed sensor is serviceable
2381 — Open circuit or short circuit to + BAT of the 5th gear speed sensor
2382 — Short circuit to earth of the 5th gear speed sensor
2383 — Open circuit or short circuit to + BAT of the 4th gear speed sensor
2384 — Short circuit to earth of the 4th gear speed sensor
2385 — Open circuit or short circuit to + BAT of the 3rd gear speed sensor
2386 — Short to ground on the 3rd gear speed sensor
2387 — Open circuit or short circuit to + BAT of the 1st gear speed sensor
2388 — Short circuit to earth of the 1st gear speed sensor
2509 — Battery voltage too low to trip
Coupling solenoid valves
2576 — The drive of the lubricant supply solenoid to the 4F coupler detected a chain break or
short circuit
2577 — The model is outside the range of the control system
2578 — The resulting model does not match the controller
2601 — Low supply voltage 12VF1
2602 — Low power supply voltage 12VT1
2603 — Low power supply voltage 12VF2
2604 — Low power supply voltage 12VH
2605 — Low power supply voltage 12VS1
2807 — Excess of speed at the output of the gearbox
2808 — Attempted gear shift in the absence of an operator on the seat
2811 — High temperature transmission oil
2812 — Short to + BAT or an open in the temperature sensor circuit
transmission oil
2813 — Short circuit to earth of the transmission oil temperature sensor
2814 — The integrated control panel is disconnected from the network
2817 — Regulator off, CAN bus
2818 — Loss of communication with the armrest control module (ACM)
2819 — Loss of communication with the Instrument Control Unit (ICU)
2821 — Low pressure in the gearbox
2822 — System pressure is above the permissible range
2824 — High temperature hydraulic oil
2825 — Open circuit or short circuit to + BAT of the hydraulic temperature sensor
oils
2826 — Hydraulic oil temperature sensor short circuit
2849 — The parking brake actuator detects a chain break
2850 — There is no power to the parking brake with the on command
2851 — The parking brake actuator has detected a current overload or an open in the circuit
2852 — There is no power to the parking brake with the on command
2873 — The software is not in calibration mode, still active
parking brake request
2874 — A signal has come to turn on the parking brake, and the gear is engaged without
request for calibration
3004 — Error in the throttle control lever on the CAN bus
the engine
3006 — Coolant temperature sensor — The signal is not valid
3007 — Coolant temperature signal — signal above the maximum value
range
3008 — Coolant temperature signal — signal below the minimum value
range
3010 — Intake Air Temperature Sensor — Signal above maximum value
range
3011 — Intake Air Temperature Sensor — Signal above minimum value
range
3015 — Fuel temperature sensor voltage too high
3016 — Fuel temperature sensor — Signal below the minimum allowable value
3019 — Discharge pressure sensor — Signal above maximum range value
3022 — Discharge pressure sensor — Signal not valid
3028 — Oil pressure too low
3029 — Oil pressure switch — Short to battery
3030 — Oil pressure switch — Short to earth
3031 — Open in the oil pressure sensor circuit or the sensor is disconnected
3032 — Oil pressure switch — Too high value
3033 — Oil temperature sensor — The signal is invalid (compared to the signal
coolant temperature)
3034 — Oil temperature sensor — Signal above maximum range value
3035 — Fuel temperature sensor — signal below the minimum allowable value
3037 — Discharge pressure sensor — Low signal
3060 — Cylinder 1 — non-classified malfunction in the injector
3061 — Cylinder 1 — Short circuit in the injector wire (low voltage circuit to battery)
3063 — Cylinder 1 — Short circuit of the injector wire (high-side side to ground)
3064 — Cylinder 5 — Unclassified injector fault
3065 — Cylinder 5 — Short circuit in the injector wire (low voltage circuit to battery)
3067 — Cylinder 5 — short circuit of the injector wire (high voltage side to ground)
3068 — Cylinder 3 — Uncategorized error in the injector
3069 — Cylinder 3 — short circuit of the injector wire (low voltage side to battery)
3071 — Cylinder 3 — short-circuit of the injector wire (high-side side to ground)
3072 — Cylinder 6 — non-classified malfunction in the injector
3073 — Cylinder 6 — short circuit of the injector wire (low-side side on
battery)
3075 — Cylinder 6 — short circuit of the injector wire (high voltage side on
«mass»)
3076 — Cylinder 2 — non-classified malfunction in the injector
3077 — Cylinder 2 — short circuit of the injector wire (low voltage side to battery)
3079 — Cylinder 2 — short-circuit of the injector wire (high-side side to ground)
3080 — Cylinder 4 — non-classified malfunction in the injector
3081 — Cylinder 4 — short circuit of the injector wire (low voltage side to battery)
3083 — Cylinder 4 — short-circuit of the injector wire (high-side side to ground)
3088 — Crankshaft sensor — no signal
3089 — Crankshaft sensor — incorrect signal
3090 — Camshaft sensor — no signal
3091 — Camshaft sensor — incorrect signal
3093 — Camshaft offset relative to crankshaft — out of range
3095 — Operation with camshaft sensor only — standby mode
3102 — Mains pressure sensor CP3 — signal below the minimum allowable value
3104 — Safety valve on the fuel rail —
Opening
3105 — Safety valve on the fuel rail — pressure surge request
3107 — Fuel flow meter — short to battery
3108 — Fuel flowmeter — short to ground
3110 — Monitoring of the rail pressure sensor — Signal above the set range
3111 — Monitoring of the pressure sensor in the pipeline — signal below the minimum allowable value
3112 — Mains pressure sensor CP3 — signal above the maximum permissible value
3137 — Flowmeter — open load
3138 — Measuring unit — The temperature is too high
3141 — The set flow rate of the flowmeter is lower than the design limit
3142 — High pressure test — check performed
3147 — The oil temperature is excessively high
3148 — Dynamic test of the coolant temperature sensor — malfunction
3176 — The set value of the flowmeter does not correspond to the actual value when overrun.
3177 — Motor speed exceeded
3188 — Cylinder 1, warning — open load
3192 — Cylinder 2, warning — open load
3196 — Cylinder 3, warning — open load
3200 — Cylinder 4, warning — open load
3204 — Cylinder 5, warning — open load
3208 — Cylinder 6 Warning — open load
3210 — Row 1 — General short circuit to the injector wire
3211 — Row 1 — Short-circuit of injector wire (low-side side to ground)
3213 — Row 1 — Uncategorized malfunction
3218 — Row 2 — total short circuit in the injector wire
3219 — Row 2 — short circuit of the injector wire (low-side side to ground)
3221 — Row 2 — Uncategorized malfunction
3227 — Injection processor error — Internal reset / Loss of synchronization / Voltage too low
3228 — Injection processor error — Unlock / initialize error
3229 — Injection processor error — injection is limited to software
3230 — Injection processor error — SPI bus data error
3231 — Injection processor error — Internal reset / Loss of synchronization / Voltage too low
3232 — Injection processor error — unlock / initialize error
3233 — Injection processor error — test mode
3234 — Injection processor error — SPI bus data error
3238 — Communication error of the CJ940 processor
3239 — EEPROM Engine ECU — Read operation error
3240 — EEPROM of the motor controller — Fault in the write operation
3241 — Motor controller EEPROM — The default value is used
3242 — The motor controller has been restored (blocked)
3243 — Restoration of the engine controller (restrained) — Recovery occurred
3244 — Engine controller recovery (visible) — Recovery occurred
3245 — Motor controller — not reliable control module
3246 — Trip routes during initialization — monitoring module
3247 — Malfunction of trip routes during initialization — Increased supply voltage
3248 — Trip routes during initialization — Reduced supply voltage
3249 — Monitoring of the TPU (TPU) — Unreliable discrepancy between TPU time and system time
3252 — Controller Controller Module — SPI communication failure
3265 — Anti-spill protection system — Injection time too long
3266 — Excessive engine speed during run monitoring
3297 — High positive pressure deviation in the rail and high fuel consumption setpoint
3301 — Too high minus pressure deviation in the fuel rail by the minimum flowmeter
3305 — The pressure in the distribution rail is below the minimum limit in controlled mode
3309 — The pressure in the rail is above the maximum limit in controller mode
3313 — Too much pressure drop in the rail.
3316 — Minimum number of injections not reached — Stop the engine
3319 — DTC control error detected: Urea level in the tank below 5%
3320 — A bug of the dosing control unit (DCU) has been detected: the urea level in the tank is below 10%
3321 — A fault code in the DCU is active.
3322 — A fault code in the DCU is active.
3358 — Failure of the CAN auxiliary bus of the engine-ECU (the engine controller can not transmit data to the sensors or sensors — to the CAN bus)
3367 — Error checking coolant temperature
3368 — Reflects the torque limit due to the limitation
productivity
3369 — Torque reduction due to engine smoke restriction
3370 — Torque limit due to engine protection (against torque, against exceeding the permissible engine speed and against engine overheating)
3371 — Torque limit due to the limitation of fuel volume due to errors in the injection system
3385 — Electromagnetic circuit for a viscous fan drive — open circuit or short to ground
3512 — Control of the status of the DCU — The DCU is not ready on time
3517 — Ambient temperature sensor fault (humidity sensor) — Signal level too high
3518 — Ambient temperature sensor (humidity sensor) malfunction — Signal level is too low
3521 — Nitric oxide estimation error — unreliable nitric oxide estimation signal
3528 — Sensitivity error of the nitrogen oxide sensor — unreliable signal
3529 — Nitrogen oxide sensor failure — open load
3530 — Nitrogen oxide sensor fault — short circuit
3532 — Nitrogen oxide sensor failure — sensor was not ready on time
3533 — CAN message waiting time for nitrogen oxides (from nitrogen oxide sensor) — CAN timeout
3541 — No CAN bus message received from the dosing control unit (DCU)
3545 — Protection against overheating of the dispensing valve SCR — limiting the level of torque 2 to activate protection SCR
3546 — Protection against overheating of the selective catalytic neutralization nozzle (SCR) has tripped, see other fault codes
3555 — No CAN bus message received from the dosing control unit (DCU)
3561 — Unreliable value for nitrogen oxides (after reliability of treatment)
3565 — Urea quality and Urea level warnings 1
3569 — Urea quality and urea level warnings 2
3577 — A bug of the dosing control unit (DCU) is detected: the urea tank is empty
3581 — Protection through selective catalytic neutralization (SCR), limited refueling, see other fault codes.
3585 — Engine shutdown (after idling phase)
3593 — Poor quality of reagent
3594 — Torque limitation due to selective catalytic
neutralization (SCR)
3599 — There is no oxidation catalyst error channel — the catalyst warming efficiency is below the threshold value
3602 — Wrong relationship between temperature sensor readings
catalytic converter
3609 — Urea quality and urea level warnings 4
3611 — Neutralizer efficiency — medium (level 1)
3612 — The efficiency of the catalytic converter is lower than the second assumed threshold level of nitrogen oxides
3615 — Initialization failed EVGT
3616 — Torque limit due to turbo protection system due to reason
work at high altitude
3617 — Urea quality and urea level warnings 9
3618 — The emergency start time has elapsed, and the stop is started
3619 — Urea quality and urea level warnings 7
3620 — Urea quality and urea level warnings 8
3621 — Urea quality and urea level warnings 5
3623 — NOx sensor deflection signal (detection of NOx sensor determined)
3624 — Crankcase pressure sensor — Voltage exceeds the upper limit value
3625 — Crankcase pressure sensor — voltage below the lower limit value
3626 — Inaccurate signal from the crankcase pressure sensor
3627 — Checking the physical range of the crankcase pressure sensor (exceeds the upper limit value)
3628 — Checking the physical range of the crankcase pressure sensor
3629 — Checking the reliability of the crankcase pressure sensor when the ignition is switched on
3630 — Fuel in oil, fill with new oil
3631 — Failure of fuel sensor in oil
3632 — Fuel in oil, error of valve signal reliability
3633 — Fuel in oil, delay in the expected response to the reduction in torque (as a result of detection of fuel in oil)
3634 — Fuel in oil, delay filling of new oil
3635 — High fuel pressure in oil
3638 — Torque limit due to negative temperature coefficient
3640 — Turbine speed sensor
3641 — Turbine speed sensor
3642 — Turbine speed sensor
3643 — Turbine speed sensor
3644 — Electrical fault finding circuit of the EDC relay of the drive supplies the NOX sensor and the turbocharger drive
3645 — Electrical fault finding circuit of the EDC relay of the drive supplies the NOX sensor and the turbocharger drive
3646 — Multi-signal faults in the pressure regulator (PCR)
3647 — Supercharging pressure control
3648 — EVGT Supercharging pressure control
3999 — The error of the engine control unit (ECU) has not been converted to the CNH module. Refer to the fault memory of the computer using the EASY tool.
4004 — The ACM (GARU) module is not connected to the network
4005 — Calibration of levers when power is not applied
4100 — Rear remote control valve No. 1 — Control message not received
4101 — Rear remote control valve No. 1 control message is not valid
4102 — Rear remote control valve No. 1 — EEPROM error
4103 — Rear remote control valve No. 1 — switched to «safe mode»
4104 — Rear remote control valve No. 1 — voltage drop below normal
4105 — Rear remote control valve No. 1 — overvoltage
4106 — Rear remote control valve No. 1 — Spool travel too small
4107 — Rear remote control valve No. 1 — Spool travel too large
4108 — Rear remote control valve No. 1 — Floating position not reached
4109 — Remote control valve # 1 — operated manually
4110 — Rear remote control valve No. 1 — defective drive
4111 — Rear remote control valve No. 1 — internal position sensor defective
4112 — Rear Remote Control Valve No. 1 — Neutral position can not be reached
4113 — Rear remote control valve No. 1 — the valve is not in neutral when the ignition is switched on
4114 — Rear remote control valve No. 2 — no control message received
4115 — Rear remote control valve No. 2 — control message is not valid
4116 — Rear remote control valve No. 2 — EEPROM error
4117 — Rear remote control valve No. 2 — switched to «safe mode»
4118 — Rear remote control valve No. 2 — voltage drop below normal
4119 — Rear remote control valve No. 2 — overvoltage
4120 — Rear remote control valve No. 2 — Spool travel too small
4121 — Rear remote control valve No. 2 — Spool travel too large
4122 — Remote control rear valve No. 2 — swing position not reached
4123 — Rear remote control valve No. 2 — operated manually
4124 — Rear remote control valve No. 2 — defective drive
4125 — Rear remote control valve No. 2 — internal position sensor defective
4126 — Remote control rear valve No. 2 — can not turn on the neutral
4127 — Rear remote control valve No. 2 — the valve is not in neutral when the ignition is switched on
4128 — Rear remote control valve No. 3 — Control message not received
4129 — Rear remote control valve No. 3 — control message is not reliable
4130 — Rear remote control valve No. 3 — EEPROM error
4131 — Rear remote control valve No. 3 — No command to switch to neutral when power is applied
4132 — Rear remote control valve No. 3 — voltage drop below normal
4133 — Rear remote control valve No. 3 — overvoltage
4134 — Rear remote control valve No. 3 — too small displacement of the spool
4135 — Rear remote control valve No. 3 — too large displacement of the spool
4136 — Rear remote control valve No. 3 — Swing position not reached
4137 — Rear remote control valve No. 3 — manually operated
4138 — Rear remote control valve No. 3 — defective drive
4139 — Rear remote control valve No. 3 — internal position sensor defective
4140 — Rear remote control valve No. 3 — Can not turn on the neutral
4141 — Rear remote control valve No. 3 — the valve is not in neutral when the ignition is switched on
4142 — Rear remote control valve No. 4 — no control message received
4143 — Rear remote control valve No. 4 — control message is not reliable
4144 — Rear remote control valve No. 4 — EEPROM error
4145 — Remote control valve No. 4 — did not receive a command to turn on the neutral when the power was turned on
4146 — Rear remote control valve No. 4 — voltage drop below normal
4147 — Rear remote control valve No. 4 — overvoltage
4148 — Rear remote control valve No. 4 — Spool travel too small
4149 — Rear remote control valve No. 4 — Spool slide too large
4150 — Rear remote control valve No. 4 — swing position not reached
4151 — Rear remote control valve No. 4 — manual operation
4152 — Rear remote control valve No. 4 — defective drive
4153 — Rear remote control valve No. 4 — internal position sensor defective
4154 — Rear remote control valve No. 4 — can not turn on the neutral
4155 — Rear remote control valve No. 4 — the valve is not in neutral when the ignition is switched on
4156 — Rear remote control valve No. 5 — no control message received
4157 — Rear remote control valve No. 5 — control message is not valid
4158 — Rear remote control valve No. 5 — EEPROM error
4159 — Rear remote control valve No. 5 — No command to switch to neutral when power is applied
4160 — Rear remote control valve No. 5 — voltage drop below normal
4161 — Rear remote control valve No. 5 — overvoltage
4162 — Rear remote control valve No. 5 — Spool travel too small
4163 — Rear remote control valve No. 5 — Spool travel too large
4164 — Rear remote control valve No. 5 — Swing position not reached
4165 — Rear remote control valve No. 5 — manually operated
4166 — Rear remote control valve No. 5 — defective drive
4167 — Rear remote control valve No. 5 — internal position sensor defective
4168 — Rear remote control valve No. 5 — can not turn on the neutral
4169 — Rear remote control valve No. 5 — the valve is not in neutral when the ignition is switched on
4170 — Rear remote control valve No. 1 — not calibrated
4173 — Rear remote control valve No. 2 — not calibrated
4177 — Rear remote control valve No. 3 — not calibrated
4180 — Rear remote control valve No. 4 — not calibrated
4190 — Rear remote control valve No. 1 — no connection
4191 — Rear remote control valve No. 2 — no communication
4192 — Rear remote control valve No. 3 — no connection
4193 — Rear remote control valve No. 4 — no connection
4198 — Rear remote control valve No. 5 — no connection
4216 — Rear remote control valve No. 1 — the spool is not calibrated
4217 — Rear remote control valve No. 2 — the spool is not calibrated
4218 — Rear remote control valve No. 3 — the spool is not calibrated
4219 — Rear remote control valve No. 4 — the spool is not calibrated
4220 — Rear remote control valve No. 5 — the spool is not calibrated
4301 — Rear remote control valve No. 6 — no control message received
4302 — Rear remote control valve No. 6 — control message is not reliable
4303 — Rear remote control valve No. 6 — EEPROM error
4304 — Remote control rear valve No. 6 — no command for neutral at power supply
4305 — Rear remote control valve No. 6 — undervoltage
4306 — Rear remote control valve No. 6 — overvoltage
4307 — Rear remote control valve No. 6 — Spool travel too small
4308 — Rear remote control valve No. 6 — Spool travel too large
4309 — Rear remote control valve No. 6 — Swing position not reached
4310 — Rear remote control valve No. 6 — manually operated
4311 — Rear remote control valve No. 6 — defective drive
4312 — Rear remote control valve No. 6 — internal position sensor defective
4313 — Rear remote control valve No. 6 — Can not turn on the neutral
4314 — Rear remote control valve No. 6 — the valve is not in neutral when the ignition is switched on
4315 — Rear remote control valve No. 7 — Control message not received
4316 — Rear remote control valve No. 7 — control message is not valid
4317 — Rear remote control valve No. 7 — EEPROM error
4318 — Rear remote control valve No. 7 — No command to switch to neutral when power is applied
4319 — Rear remote control valve No. 7 — voltage drop below normal
4320 — Rear remote control valve No. 7 — overvoltage
4321 — Rear remote control valve No. 7 — Spool travel too small
4322 — Rear remote control valve No. 7 — Spool travel too large
4323 — Rear remote control valve No. 7 — Swing position not reached
4324 — Rear remote control valve No. 7 — manually operated
4325 — Rear remote control valve No. 7 — defective drive
4326 — Rear remote control valve No. 7 — internal position sensor defective
4327 — Rear remote control valve No. 7 — can not turn on the neutral
4328 — Rear remote control valve No. 7 — the valve is not in neutral when the ignition is switched on
4329 — Remote control remote control valve No. 8 — no control message received
4330 — Rear remote control valve No. 8 — control message is not valid
4331 — Rear remote control valve No. 8 — EEPROM error
4332 — Rear remote control valve No. 8 — No command to switch to neutral when power is applied
4333 — Rear remote control valve No. 8 — voltage drop below normal
4334 — Rear remote control valve No. 8 — overvoltage
4335 — Rear remote control valve No. 8 — Spool travel too small
4336 — Rear remote control valve No. 8 — Spool travel too large
4337 — Rear remote control valve No. 8 — Swing position not reached
4338 — Rear remote control valve No. 8 — manually operated
4339 — Rear remote control valve No. 8 — defective drive
4340 — Rear remote control valve No. 8 — internal position sensor defective
4341 — Rear remote control valve No. 8 — can not turn on the neutral
4342 — Rear remote control valve No. 8 — the valve is not in neutral when the ignition is switched on
4343 — Rear remote control valve No. 5 — not calibrated
4344 — Remote control remote control valve No. 6 — not calibrated
4345 — Rear remote control valve No. 7 — not calibrated
4346 — Rear remote control valve No. 8 — not calibrated
4347 — Rear remote control valve No. 6 — no connection
4348 — Rear remote control valve No. 7 — no connection
4349 — Rear remote control valve No. 8 — no connection
4350 — Rear remote control valve No. 6 — the spool is not calibrated
4351 — Rear remote control valve No. 7 — the spool is not calibrated
4352 — Rear remote control valve No. 8 — the spool is not calibrated
4353 — Short-circuit EHR FB 1 to high voltage source
4354 — EHR FB 1 valve, short to low voltage source
4355 — EHR FB 3 valve, short to high voltage source
4356 — EHR FB 3 valve, short to low voltage source
4357 — EHR valve, attachment lowering error
4358 — EHR valve, attachment error
5001 — After switching on the tractor power, a switch
5002 — IOM switch interlock
5008 — Simultaneously the IOM activation and deactivation switches are turned on; in one of the MOM switches, a short to the 12 V supply circuit
5009 — Open in the circuit or short circuit of the solenoid valve PTO to «mass»
5010 — Short circuit to + BAT in the solenoid valve PTO circuit with MOM off
5011 — Drive switched on, but no current detected
5012 — Excessive slippage of the MOM coupling for 5 seconds or more
5013 — Engine speed too low to turn on the PTO
5014 — A command was given to turn off the PTO, but the PTO speed is above zero
5015 — The software does not determine the speed of the MOM shaft within 3 seconds after the command is given to the IOM initial load valve
5016 — PTO rotation detected with PTO off and engine off
5017 — MOM coupling not locked after 6 seconds of coupling movement
5022 — With the engine switched off, the PTO switch is in the «on» position
5023 — Short to + BAT in the solenoid valve circuit of the MOM coupling lubricant when the PTO is switched off
5024 — Open circuit or short circuit of the solenoid valve of the MOM coupling lubricant to «earth»
5025 — Diagnosis of the drive monitoring module on the low pressure side of the PTO
5026 — Supply voltage too low 12 V to PTO
5027 — Short-circuit of low-pressure side of solenoid valve PTO to «ground»
5028 — Open circuit or short circuit to + BAT of the clutch speed sensor
5029 — Short to earth of the clutch speed sensor
5032 — Low power supply voltage 12VF3
6001 — Failure of the front differential lock solenoid valve
6002 — Differential lock solenoid valve failure
6003 — Stop lamp relay failure
6004 — Failure of rear differential lock switch
6006 — Failure of the front differential lock switch
6010 — Low power supply voltage 12VS1
6011 — Low power supply voltage 12VS2
6012 — Pressure of the pressure sensor in the steering system above the maximum permissible limit
6013 — Pressure of the pressure sensor in the steering system below the minimum permissible limit
ATC 122 — Open or short to the power supply of the mode selection potentiometer
ATC 125 — Short to high-pressure switch power supply (+)
ATC 127 — Short to high-pressure switch power supply (-)
ATC 128 — Short to ground of the high pressure switch (-)
ATC 129 — High pressure switch cyclic error (2 times per minute)
ATC 130 — Short to the power supply of the low pressure switch (+)
ATC 131 — Short to ground of the low pressure switch (+)
ATC 132 — Short to low-pressure switch power supply (-)
ATC 133 — Short to ground of the low pressure switch (-)
ATC 134 — Low pressure switch open for more than 1 minute
Case ih magnum
Кубический кейс Pelican 0340 Protector Cube Case с поропластом черный 0340-000-110E отличает жесткий тип конструкции и большие размеры.
Pelican 0340 Protector Cube Case предназначен для перевозки чувствительного оборудования и других грузов, нуждающихся в усиленной защите во время транспортировки.
Кубический кейс Pelican 0340 с поропластом относится к серии крупногабаритных кейсов Pelican линейки Protector Cube Case.
Кейс Pelican Protector 0340 изготовлен в США в соответствии с техническими требованиями к военному оборудованию. Корпус Pelican Protector 0340 сделан из жесткого литого полипропилена и является непроницаемым для воды, пыли и любых других загрязнений.
Сертификаты Pelican Protector 0340:
Двигатель
Штатный силовой агрегат трактора Магнум 340-й модели — шестицилиндровый 340-сильный дизель FPT Cursor 9 Tier II объемом 8,7 литра. В режиме Power BOOST возможно увеличение мощности до 389 л. с.
Стабильности показателя крутящего момента 1671 Нм с 40%-м запасом, способствует турбонаддув со встроенным контуром охлаждения сжатого воздуха, а также топливная система марки High Pressure Common Rail с электронным контролем впрыска. Автономность работы тракторного агрегата на удаленных участках обеспечивает топливный бак емкостью 765 литров.
Ходовая часть
Возможности полноприводной схемы ходовой части наиболее эффективно реализуются с помощью двухрежимного электронного подключения переднего моста, а также ручной или автоматической блокировки механизма дифференциала заднего.
Диапазон изменения колеи задних и передних колес соответственно 1,560-2,256 и 1,470-2,294 м. Регулировка производится при работе трактора в междурядьях или при эксплуатации на крутосклонном рельефе.
Case 340 в работе
Обзор трактора CASE IH Magnum 340
Новый, ещё более мощный двигатель трактора Кейс 340 в сочетании с надёжной трансмиссией Full PowerShift TM позволяют этому монстру с лёгкостью справляться со всевозможными полевыми и транспортными работами. При этом он гораздо мощнее, чем трактор John Deere 8430.
Фото CASE IH Magnum 340
Просторная и комфортная кабина трактора с отличным круговым обзором и эргономичным исполнением органов контроля и управления предлагает оператору наивысший уровень удобства и безопасности.
Трактор Magnum-340 может комплектоваться системой управления, контроля и учёта с установкой цветного сенсорного дисплея AFS Pro 700, которая переводит работу с трактором на качественно новый уровень.
Фото кабины трактора CASE Magnum 340
Преимущества и недостатки
Весь тракторный ассортимент компании Case IH характеризуется высокой надежностью, экономичностью и долговечностью при эксплуатации в сложных и даже экстремальных условиях.
Характерный недостаток элитной тракторной техники — это ее высокая стоимость в значительной степени недоступная для мелкого и даже среднего фермерского бизнеса.
Многие отечественные покупатели ставят производителям в упрек отсутствие информации по тестированию и ремонту компьютерной оснастки. Значительная часть простоев дорогих машин — следствие сбоев и глюков цифрового оборудования, неизбежных при отсутствии квалифицированного обслуживания.
Отзывы владельцев
Два трактора Магнум 340 производства известной качеством выпускаемой продукции компании Case IH приобрели для обновления парка агрофирмы зимой позапрошлого 2020 года. За прошедшее время новая техника в значительной степени компенсировала вложенные средства экономией рабочего времени и ГСМ, отсутствием вынужденных простоев. Существенные опасения вызывает отсутствие специалистов по обслуживанию компьютерного и другого электронного оборудования, относительно бедный ассортимент запасных частей, а также инертность сервисных служб. Павел
Покупка подержанного Магнума 340-й модели обошлась мне в 55 тысяч евро. Машина в принципе надежная, а главное экономичная в плане расхода ГСМ. На вспашке один Магнум при 23%-й экономии топлива успешно заменяет два трактора, гусеничный Т-75 и колесный универсал МТЗ-82К. Владимир Викторович
Трактор Case IH Magnum 340 — сочетание мощности с широким функционалом
На мировом тракторном рынке продукция компании CASE IH котируется на одном уровне с качественными и мощными машинами брендов Джон Дир и Нью Холланд. Весь ассортимент этого производителя по качеству, эксплуатационным возможностям и продолжительности ресурса отвечают рекомендациям действующих стандартов.
Мощный колесный трактор CASE IH Magnum 340 изначально ориентирован на выполнение масштабных и трудоемких сельскохозяйственных работ разных уровней сложности. Превосходные тягово-сцепные параметры трактора определяют его применение с производительным широкозахватным прицепным и навесным оборудованием разного назначения.
трактор Case IH Magnum 340
Конструкционные особенности
В его конструкцию заложена возможность работы в соответствии с рекомендациями нулевых, минимальных и классических земледельческих технологий. По мнению многих владельцев и специалистов, трактор Магнум 340 в своей мощностной категории на сегодняшний день является одним из лучших.
Эксплуатационные возможности этой модели повышены за счет:
Стабильной производительности трактора способствует высокий уровень автоматизации и компьютеризации работы всех систем, в частности, электронного контроля работы силовой установки. Вся важная информация отображается на расположенном в поле зрения оператора цветном дисплее.
Предоставляется возможность активации рабочих узлов навесного оборудования с помощью двухскоростного 540 и 1000 об/ в минуту, механизма отбора мощности. Навесные агрегаты с приводом от гидромоторов подключаются к гидросистеме трактора через двойные выводы с обратными клапанами.
С учетом особенностей запланированной работы, предусмотрена установка спаренных колес с широкопрофильными пневматиками низкого давления, навеска балластных грузов, а также возможность изменения колеи ходовой части.
Кейс Магнум 340 в целом характеризуется экономичным расходом ГСМ и расходных материалов, сервисным и ремонтным доступом к основным узлам и механизмам, унификацией многих запчастей и целых агрегатов с фирменными прототипами.
Ходовая часть
Возможности полноприводной схемы ходовой части наиболее эффективно реализуются с помощью двухрежимного электронного подключения переднего моста, а также ручной или автоматической блокировки механизма дифференциала заднего.
Диапазон изменения колеи задних и передних колес соответственно 1,560-2,256 и 1,470-2,294 м. Регулировка производится при работе трактора в междурядьях или при эксплуатации на крутосклонном рельефе.
Гидравлика
Бортовая гидросистема отличается от аналогов высокой, до 282 литра/мин производительностью гидронасоса, позволяющей увеличить грузоподъемность механизма навески IVN/III до 10 тонн. Для буксировки тяжелых прицепов по пересеченной местности или сложному микрорельефу трактор оборудован тяговым брусом 5-й категории.
Цена Магнума 340 — нового и бэушного
Стоимость бэушных тракторов марки Магнум 340-й модели с достаточно большим остатком межремонтного ресурса находится в пределах 60-80 тысяч евро.
Magnum 340 в работе
Отзывы владельцев
Два трактора Магнум 340 производства известной качеством выпускаемой продукции компании Case IH приобрели для обновления парка агрофирмы зимой позапрошлого 2020 года.
За прошедшее время новая техника в значительной степени компенсировала вложенные средства экономией рабочего времени и ГСМ, отсутствием вынужденных простоев.
Существенные опасения вызывает отсутствие специалистов по обслуживанию компьютерного и другого электронного оборудования, относительно бедный ассортимент запасных частей, а также инертность сервисных служб. Павел
Покупка подержанного Магнума 340-й модели обошлась мне в 55 тысяч евро. Машина в принципе надежная, а главное экономичная в плане расхода ГСМ. На вспашке один Магнум при 23%-й экономии топлива успешно заменяет два трактора, гусеничный Т-75 и колесный универсал МТЗ-82К. Владимир Викторович
Case Magnum 340 описание
Гидравлическая система с максимальной грузоподъемностью 10 580 кг оснащается стандартным насосом с расходом 166 л/мин, насосом с высоким расходом 228 л/мин или двумя насосами переменной производительности 282 л/мин для самых крупных орудий. Тягово-сцепное устройство со стандартным электронным силовым регулятором. Можно отрегулировать максимальную степень проскальзывания с учетом применения, используя ограничение проскальзывания, а также свести к минимуму подпрыгивание во время транспортировки с установленным орудием за счет управления движением сцепки.
— Подробная схему узла с пронумерованными запчастями и далее перечень каталожных номеров к этим запчастям
Трактор CASE Magnum 340
Трактор CASE IH Magnum 340 – это надежная и универсальная сельскохозяйственная машина, которая предназначена для работы с широкозахватными агрегатами по классической, минимальной и нулевой технологиям. Модель Магнум-340 спроектирована с целью удовлетворения потребностей самых взыскательных пользователей работающих в полях.
Большинство экспертов, фермеров и сельхозпроизводителей называют трактора серии Magnum, торговой компании Case IH, лучшими в своём классе. Серия Magnum представлена тракторами от 225 до 335 л. с.
Обзор трактора CASE IH Magnum 340
Новый, ещё более мощный двигатель трактора Кейс 340 в сочетании с надёжной трансмиссией Full PowerShift TM позволяют этому монстру с лёгкостью справляться со всевозможными полевыми и транспортными работами. При этом он гораздо мощнее, чем трактор John Deere 8430.
Фото CASE IH Magnum 340
Просторная и комфортная кабина трактора с отличным круговым обзором и эргономичным исполнением органов контроля и управления предлагает оператору наивысший уровень удобства и безопасности.
Трактор Magnum-340 может комплектоваться системой управления, контроля и учёта с установкой цветного сенсорного дисплея AFS Pro 700, которая переводит работу с трактором на качественно новый уровень.
Фото кабины трактора CASE Magnum 340
Дистанционная гидравлическая система данной модели трактора Кейс в сочетании с навесным устройством и двухскоростным валом отбора мощности на 540 и 1000 об/мин гарантирует возможность агрегатирования трактора с широким спектром сельскохозяйственных орудий, например, таких как прицепной комбайн.
Существующая возможность установки спаренных колёс, балластных грузов и изменения ширины колеи обеспечивает выполнение работы с различным междурядьем, а также оптимально распределить нагрузку на передний и задний мост трактора.
Доступ к точкам смазки и обслуживания Магнума 340 максимально упрощён, что позволяет снизить время на проведение сервисных операций до минимума.
Также его можно задействовать в посевных работах с применением овощной сеялки.
Технические характеристики CASE Magnum 340
Модель трактора
| МX 340 (США) | |
| Двигатель | IVECO 6-ти цилиндровый |
| Объем двигателя, см 3 | 8700 |
| Номинальная мощность, л. с. | 340 |
| Номинальный режим двигателя, об/мин. | 2000 |
| Максимальная мощность, л. с. | 374 |
| Номинальная мощность PowerBoost при 2000 об/мин., л. с. | 375 |
| Максимальная мощность PowerBoost при 1800 об/мин., л. с. | 389 |
| Запас крутящего момента, % | 35 |
| Режим при максимальном крутящем моменте, об/мин. | 1800 |
| Емкость топливного бака, л | 635 |
| Топливная система | Pressure-Flow Compensating |
| Сепаратор топлива | установлено |
| Трансмиссия | Power Shift |
| Число передач для движения вперед | 18 |
| Число передач для движения назад | 4 |
| Максимальная скорость при движении вперед, км/ч | 40 |
| Полная блокировка переднего дифференциала | установлено |
| Включение блокировки дифференциала | автомат./ручное |
| Гидросистема | насос переменной производительности с замкнутымцентром и датчиком нагрузки |
| Производительность насоса, л/мин. | 282 |
| Максимальное усилие подъема, кг | 8051 |
| Размеры | |
| База, мм | 3055 |
| Длина, включая балласт и задний подъемник, мм | 5950 |
| Полная ширина без спарки, мм | 3050 |
| Полная высота, мм | 3265 |
| Колеса передние спаренные | 16.9R30 (420-90R30) |
| Колеса задние спаренные | 20.8R42 (520-85R42) |
| Масса | |
| Масса с максимальным балластом, кг | 18 000 |
| Кабина | |
| Объём кабины, м 3 | 3,1 |
| Параметры стёкол кабины, м 2 | 6,85 |
| Климат-контроль | стандартно |
Видео обзор трактора Case IH 340
Технические характеристики Case Magnum 340
| Экостандарт | Tier 2B |
| Мощность двигателя при 2000 об/мин | 340 л. с. |
| Макс. мощность двигателя при 1800 об/мин ISO / ECE R120 | 375 л. с. |
| Количество цилиндров | 6 |
| Колесная база — Powershift | 3050 мм |
| Стандартный вес | 13458 кг |
Case Magnum 340 видео
Отзывы о Case Magnum 340
Как одно из достоинств этой машины можно отметить ее достаточно просторную и удобную кабину, остекление которой позволяет иметь оператору круговой обзор. Как и все остальные кабины тракторов Case в данном случае также особое внимание уделено безопасности оператора.
Трансмиссия трактора многорежимная с ручным или автоматическим управлением. В последнем варианте выбор оптимальной передачи определяется уровнем тягово-сцепных нагрузок.
Гидравлическая система машины общая с гидравликой КПП и имеет следующие особенности:
Кейс магнум 340 технические характеристики Ссылка на основную публикацию
Трактор Case IH Magnum 340.Технические характеристики.
Трактор Case IH Magnum 340 может быть использован для выполнения работ сельскохозяйственной направленности, в частности, для подготовки почвы к посеву и т. п. Кроме этого, трактор с успехом может решать задачи транспортного характера.
Как одно из достоинств этой машины можно отметить ее достаточно просторную и удобную кабину, остекление которой позволяет иметь оператору круговой обзор. Как и все остальные кабины тракторов Case в данном случае также особое внимание уделено безопасности оператора.
При необходимости трактор Case IH Magnum 340 может быть укомплектован различными дополнительными системами, среди которых есть система управления и система учета, последняя подразумевает установку сенсорного дисплея AFS модели Pro 700.
Кроме всего прочего, колеса трактора могут быть сдвоены, также на трактор могут быть навешены дополнительные балластные грузы. Все это вместе с регулируемой шириной колее позволяет работать на полях с различной шириной междурядий и наиболее рационально распределять нагрузку.
Обслуживание трактора упрощено за счет облегчения доступа к основным контрольным точкам.
Характеристики трактора Case IH Magnum 340. Сердцем этого трактора является его двигатель модели FPT Cursor 9 Tier II, в конструкции которого реализована схема работы с турбонагнетателем и последующим охлаждением впускного воздуха. В своем распоряжении двигатель имеет 6-ть цилиндров общим объемом 8,7 л. При этом номинальная мощность этого агрегата составляет 340 л. с. или 253 кВт. Максимальное значение мощности составляет 374 л. с. или 279 кВт. С использование Power BOOST мощность двигателя возрастает до значения в 389 л. с. или 290 кВт. Максимальное значение крутящего момента двигателя в 1671 Нм зафиксировано при значении величины оборотов в 1400-1600 об/мин. Двигатель оборудован топливной системой High Pressure Common Rail. Запас топлива составляет 635 л. Максимальная скорость, развиваемая трактором, достигает значения в 40 км/ч.
Трансмиссия трактора Full Power Shift обеспечивает осуществление переключения передач без разрыва мощности. КПП трактора обладает 18-ью передачами для движения вперед и еще 4-мя передачами, предназначенными для осуществления движения в обратном направлении. Управление трансмиссией может осуществляться как в ручном режиме, так и в автоматическом, при этом в последнем случае переключение передач происходит в зависимости нагрузки на двигатель.
Этот трактор полноприводной и для осуществления управления приводом переднего моста используется электронное управление, которое может работать в двух режимах, а именно в принудительном и автоматическом.
Электронное управление используется и для осуществления блокировки дифференциала заднего моста, при этом управление также может осуществляться в двух режимах, автоматическом и принудительном.
Трактор Case IH Magnum 340 имеет 5 пар гидровыходов и линию обратного слива рабочей жидкости. Установленная здесь навеска относится к IVN/III категории, а установленный здесь тяговый брус относится V категории. Насос гидросистемы способен перекачивать до 282 л жидкости за минуту, а грузоподъемность навески составляет 8,57 т. Двухскоростной ВОМ трактора работает со скоростями 540 или 100 об/мин, а это дает возможность использовать совместно с трактором большое количество сельхоз орудий.
Длина Case IH Magnum 340 составляет 6,4 м, его высота равна 3,4 м, а ширина трактора составляет 3,1 м. Ширина колеи переднего моста регулируется в пределах 1560-2256 мм, а заднего моста 1470-2294 мм. Сдвоенные передние колеса обуты в шины 16.9R30, задние сдвоенные колеса обуты в шины 20.8R42. Весит трактор 10,864 т.
Обзор тракторов Case (Кейс). Обслуживание. Неисправности, возникающие в процессе эксплуатации
Компания Case была основана в 1842 году и выпускала молотилки, но официальное признание в качестве производителя тракторов получила только в 1905 году, когда мир увидел агрегат с двигателем внутреннего сгорания. Для того, чтобы бренд был более узнаваем, руководство компании приняло решение в качестве ведущего цвета использовать красный.
Развитие производства шло в ногу со временем, поэтому можно с уверенностью сказать, что трактора Кейс одни из самых современных и модернизированных. Благодаря использованию передовых технологий на протяжении всего существования компании, продукция завоевала популярность среди потребителей. Бурный рост компании прослеживался на протяжении всех лет существования, при этом не останавливаясь на достигнутом, а расширяя направления.
Заметного расширения дилерской сети компания достигла к концу 80-х, когда вся европейская часть мира интересовалась проблемами механизации сельского хозяйства. Широкий модельный ряд позволяет приобрести трактор Кейс для любого вида работ, а огромное их преимущество в том, что к нему можно подключить различное навесное оборудование и от этого функциональность только увеличивается.
Трактора разделены на серии, каждая из которых отличается мощностью двигателя и другими техническими характеристиками. Основным предназначением является применение в сельском хозяйстве, так как силовой агрегат позволяет обрабатывать большие участки полей.
Модельный ряд тракторов Case
В отличие от других производителей компания Case решила быть оригинальной и дала следующие названия своим сериям: Farmall, Maxxum, Puma, Magnum, Steiger.
Выделяют следующие достоинства техники Кейс:
Case Steiger
Трактора, которые принадлежат этой серии, отличаются повышенными техническими характеристиками и предназначены для использования в условиях повышенной сложности. В связи с этим, конструктора предусмотрели выпуск каждой модели в колесном (Стайгер) и гусеничном варианте (Quadtrac). Мощность этих тракторов составляет от 335 до 600 л. с., но из-за встроенной системы, управляющей работой двигателя, ее можно увеличить до 10%. А это существенно скажется на производительности трактора. Колесная база удлинена, но, не смотря на это, радиус разворота составляет до 6 м.
На фото представлены примеры техники.
Case Magnum
Трактора из этой серии самые востребованные на сельскохозяйственном рынке, потому как в них удачно сочетаются способность выполнять различные маневры при высокой мощности. Это достоинство стало возможным благодаря использованию особенной конструкции передних мостов. Двигателя имеют в запасе от 257 до 340 лошадок, причем автоматические системы могут повышать мощность до 30 %. Несмотря на внушительные габариты, трактор разворачивается всего на 5 м.
Еще одной особенностью тракторов Кейс Магнум является гидравлическая система, которая позволяет поднимать до 10 т. различных грузов. Оператор может не волноваться на счет точности установки любого груза, так как за все отвечает автоматическая система позиционирования. Трактор имеет автоматическую коробку передач и может разгоняться до 40 км/ч.
Модельный ряд серии Кейс Магнум включает: 250, 280, 310, 340, 380 CVT.
На фото представлены примеры техники.
Case Puma
Облегченные колесные трактора из серии Пума имеют мощность двигателя от 142 до 224 л. с. Наиболее эффективны в малых и средних сельских хозяйствах. Их используют для работ в садах, полях, на животноводческих фермах и для транспортировки грузов. Для того, чтобы увеличить функциональность трактора, к нему подключают различное оборудование. Эффективность использования навески достигается благодаря 4-х скоростному ВОМ. В этой конструкции управление валом отбора мощности не представляет ничего сложного, потому как он управляется автоматизированной системой.
Современная система контроля впрыска двигателя следит за экономичностью расхода топлива. Плавное переключение скоростей достигает при помощи трансмиссии нового поколения Full Powershif. Трактор Кейс Пума разгоняется до 50 км/ч., причем он автоматически переходит из полевого режима в дорожный и обратно.
Модельный ряд серии Кейс Пума состоит из модификаций: 140, 155, 180, 210, 225.
На фото представлены примеры техники.
Case Maxxum
Чтобы не перечислять все достоинства тракторов серии Максум, достаточно выделить главные: маневренность, универсальность, экономичность и многофункциональность. Повышенный комфорт в кабине позволяет оператору не уставать в течении рабочего дня. Повышенная звукоизоляция и удобство расположения органов управления делает кабину лучшей в своем классе. Мощность двигателя у этой серии может варьироваться от 112 до 141 л. с. при этом расход топлива экономиться автоматически.
Для крепления навесного оборудования используется трехточечная сцепка, благодаря которой применение машины становится более удобным. Мощная гидравлическая система отлично справляется с любой поставленной задачей. Грузоподъемность трактора составляет от 5 до 7 т.
Модельный ряд серии Кейс Максум составляют модификации: 110, 125, 140.
На фото представлены примеры техники.
Особенности эксплуатации
Производитель заявляет, что вся выпускаемая продукция отличается повышенным качеством и благодаря применению новейших технологий легко справляется с любыми задачами. Высокая эффективность достигается за счет сложнейших электронных систем, позволяющих контролировать работу.
Судя по отзывам владельцев, которые активно эксплуатируют технику Кейс, тракторы отличаются качеством и надежностью, поэтому первые несколько лет работают без ремонта. Однако, чтобы добиться такого результат необходимо следить за регулярностью и качеством проведения технического обслуживания. Трактора работают на дизельном топливе повышенного качества, а в качестве моторного масла нужно использовать CI-4 AKCELA MS1121.
Огромным достоинством новых тракторов является то, что они поступают в продажу уже с проведенной обкаткой. Также на предприятии перед отправкой в дилерскую сеть проводится калибровка и тестирование всех электронных систем.
Консервирование производится по всем правилам, описанным в инструкции по эксплуатации. Сначала трактор моется, сушится, а потом все детали и механизмы протираются промясленной тряпкой. Масло сливается, а контакты на свечах отсоединяются. После всех процедур трактор ставится в сухое место и накрывается чехлом.
Неисправности техники Case
Так как машины снабжены большим количеством электронных систем, то в случае отказа какой-либо системы, лучше всего обратиться в сервисный центр. Владельцы жалуются, что мало подробной информации о том, как выполнять ремонт техники Кейс, но для ее ремонта требуется только специальные квалифицированные знания, которыми обладают только специалисты в сервисных центрах.
Видео обзор тракторов Case
Ниже представлен видео обзор трактора Кейс MX135
Видео обзор, посвященный трактору Case JX
Отзывы владельцев
Алексей:
Купил американский трактор Кейс Магнум за 54 000 евро. Деньги стоит немалые, но окупается полностью, так как заменяет 2 МТЗ. Очень нравится, что при своей мощи, он очень экономичный. Хочется особо отметить в своем отзыве удобную кабину и облегченное управление. Сложности возникают только на начальном этапе, когда видишь перед собой всю эту электронику и пытаешься в ней разобраться. Но это только вначале.
Источники:
https://zapchasti-isuzu. ru/marki-specavto/traktor-case-ih-magnum-340.html
https://proogorod. com/selhoztekhnika/traktory/obzor-traktorov-case
Компания Case была основана в 1842 году и выпускала молотилки, но официальное признание в качестве производителя тракторов получила только в 1905 году, когда мир увидел агрегат с двигателем внутреннего сгорания. Для того, чтобы бренд был более узнаваем, руководство компании приняло решение в качестве ведущего цвета использовать красный.
Развитие производства шло в ногу со временем, поэтому можно с уверенностью сказать, что трактора Кейс одни из самых современных и модернизированных. Благодаря использованию передовых технологий на протяжении всего существования компании, продукция завоевала популярность среди потребителей. Бурный рост компании прослеживался на протяжении всех лет существования, при этом не останавливаясь на достигнутом, а расширяя направления.
Заметного расширения дилерской сети компания достигла к концу 80-х, когда вся европейская часть мира интересовалась проблемами механизации сельского хозяйства. Широкий модельный ряд позволяет приобрести трактор Кейс для любого вида работ, а огромное их преимущество в том, что к нему можно подключить различное навесное оборудование и от этого функциональность только увеличивается.
Трактора разделены на серии, каждая из которых отличается мощностью двигателя и другими техническими характеристиками. Основным предназначением является применение в сельском хозяйстве, так как силовой агрегат позволяет обрабатывать большие участки полей.
Модельный ряд тракторов Case
В отличие от других производителей компания Case решила быть оригинальной и дала следующие названия своим сериям: Farmall, Maxxum, Puma, Magnum, Steiger.
Выделяют следующие достоинства техники Кейс:
Case Steiger
Трактора, которые принадлежат этой серии, отличаются повышенными техническими характеристиками и предназначены для использования в условиях повышенной сложности. В связи с этим, конструктора предусмотрели выпуск каждой модели в колесном (Стайгер) и гусеничном варианте (Quadtrac). Мощность этих тракторов составляет от 335 до 600 л. с., но из-за встроенной системы, управляющей работой двигателя, ее можно увеличить до 10%. А это существенно скажется на производительности трактора. Колесная база удлинена, но, не смотря на это, радиус разворота составляет до 6 м.
На фото представлены примеры техники.
Case Magnum
Трактора из этой серии самые востребованные на сельскохозяйственном рынке, потому как в них удачно сочетаются способность выполнять различные маневры при высокой мощности. Это достоинство стало возможным благодаря использованию особенной конструкции передних мостов. Двигателя имеют в запасе от 257 до 340 лошадок, причем автоматические системы могут повышать мощность до 30 %. Несмотря на внушительные габариты, трактор разворачивается всего на 5 м.
Еще одной особенностью тракторов Кейс Магнум является гидравлическая система, которая позволяет поднимать до 10 т. различных грузов. Оператор может не волноваться на счет точности установки любого груза, так как за все отвечает автоматическая система позиционирования. Трактор имеет автоматическую коробку передач и может разгоняться до 40 км/ч.
Модельный ряд серии Кейс Магнум включает: 250, 280, 310, 340, 380 CVT.
На фото представлены примеры техники.
Case Puma
Облегченные колесные трактора из серии Пума имеют мощность двигателя от 142 до 224 л. с. Наиболее эффективны в малых и средних сельских хозяйствах. Их используют для работ в садах, полях, на животноводческих фермах и для транспортировки грузов. Для того, чтобы увеличить функциональность трактора, к нему подключают различное оборудование. Эффективность использования навески достигается благодаря 4-х скоростному ВОМ. В этой конструкции управление валом отбора мощности не представляет ничего сложного, потому как он управляется автоматизированной системой.
Современная система контроля впрыска двигателя следит за экономичностью расхода топлива. Плавное переключение скоростей достигает при помощи трансмиссии нового поколения Full Powershif. Трактор Кейс Пума разгоняется до 50 км/ч., причем он автоматически переходит из полевого режима в дорожный и обратно.
Модельный ряд серии Кейс Пума состоит из модификаций: 140, 155, 180, 210, 225.
На фото представлены примеры техники.
Case Maxxum
Чтобы не перечислять все достоинства тракторов серии Максум, достаточно выделить главные: маневренность, универсальность, экономичность и многофункциональность. Повышенный комфорт в кабине позволяет оператору не уставать в течении рабочего дня. Повышенная звукоизоляция и удобство расположения органов управления делает кабину лучшей в своем классе. Мощность двигателя у этой серии может варьироваться от 112 до 141 л. с. при этом расход топлива экономиться автоматически.
Для крепления навесного оборудования используется трехточечная сцепка, благодаря которой применение машины становится более удобным. Мощная гидравлическая система отлично справляется с любой поставленной задачей. Грузоподъемность трактора составляет от 5 до 7 т.
Модельный ряд серии Кейс Максум составляют модификации: 110, 125, 140.
На фото представлены примеры техники.
Особенности эксплуатации
Производитель заявляет, что вся выпускаемая продукция отличается повышенным качеством и благодаря применению новейших технологий легко справляется с любыми задачами. Высокая эффективность достигается за счет сложнейших электронных систем, позволяющих контролировать работу.
Судя по отзывам владельцев, которые активно эксплуатируют технику Кейс, тракторы отличаются качеством и надежностью, поэтому первые несколько лет работают без ремонта. Однако, чтобы добиться такого результат необходимо следить за регулярностью и качеством проведения технического обслуживания. Трактора работают на дизельном топливе повышенного качества, а в качестве моторного масла нужно использовать CI-4 AKCELA MS1121.
Огромным достоинством новых тракторов является то, что они поступают в продажу уже с проведенной обкаткой. Также на предприятии перед отправкой в дилерскую сеть проводится калибровка и тестирование всех электронных систем.
Консервирование производится по всем правилам, описанным в инструкции по эксплуатации. Сначала трактор моется, сушится, а потом все детали и механизмы протираются промясленной тряпкой. Масло сливается, а контакты на свечах отсоединяются. После всех процедур трактор ставится в сухое место и накрывается чехлом.
Неисправности техники Case
Так как машины снабжены большим количеством электронных систем, то в случае отказа какой-либо системы, лучше всего обратиться в сервисный центр. Владельцы жалуются, что мало подробной информации о том, как выполнять ремонт техники Кейс, но для ее ремонта требуется только специальные квалифицированные знания, которыми обладают только специалисты в сервисных центрах.
Видео обзор тракторов Case
Ниже представлен видео обзор трактора Кейс MX135
Видео обзор, посвященный трактору Case JX
Отзывы владельцев
Алексей:
Купил американский трактор Кейс Магнум за 54 000 евро. Деньги стоит немалые, но окупается полностью, так как заменяет 2 МТЗ. Очень нравится, что при своей мощи, он очень экономичный. Хочется особо отметить в своем отзыве удобную кабину и облегченное управление. Сложности возникают только на начальном этапе, когда видишь перед собой всю эту электронику и пытаешься в ней разобраться. Но это только вначале.
Трактор Кейс Магнум (CASE Magnum) 340: подробное описание и стоимость
Американский производитель тракторов Case занимается сборкой сельскохозяйственной и строительной техники с 1902 года, когда была создана компания International Harvester. С 1936 года продукция окрашивается в красный цвет, который является фирменным знаком компании. Трактор Кейс, в зависимости от размеров и мощности двигателя, может использоваться в небольшом фермерском хозяйстве или при обработке крупных сельскохозяйственных угодий.
Описание модельного ряда
Предлагаемый модельный ряд машин Case включает в себя колесную технику, а также трактора на гусеницах. Каждая модель предлагается в нескольких модификациях, отличающихся мощностью двигателя и типом трансмиссии. Минитракторы Case входят в производственную программу компании, однако на российский рынок официально не поставляются.
Кроме тракторов компания производит специализированные комбайны, применяемые для уборки зерновых культур, хлопка и тростника. Еще одним направлением деятельности является выпуск навесного оборудования, специально созданного для тракторов и комбайнов Case.
Case IH Magnum
Колесный трактор Case модели Magnum оснащается 6-цилиндровым рядным дизелем FPT жидкостного охлаждения. Двигатель комплектуется турбокомпрессором и головкой цилиндров, оснащенной 24 клапанами. Привод клапанов выполняется распределительными валами, установленными на верхней части головки. При рабочем объеме цилиндров 8700 см³ двигатель развивает мощность 250-310 л. с. Мощность зависит от настроек давления наддува и параметров топливного насоса. Все варианты соответствуют нормам токсичности отработавших газов Tier 2B.
Двигатели оснащены системой кратковременного увеличения мощности, которая позволяет получить прибавку 35 л. с. Режим увеличения мощности применяется для привода дополнительного оборудования, при работе с энергоемкой гидравлической оснасткой и при буксировании прицепов.
Case IH Farmall JX 110
Семейство малых тракторов Case, оснащенных 3 и 4-цилиндровыми дизелями мощностью 65-110 л. с. Система питания укомплектована турбокомпрессором с промежуточным радиатором, используемым для охлаждения сжатого воздуха. Увеличенный крутящий момент двигателей позволяет уменьшить число переключений передач.
Трактор комплектуется 3 видами трансмиссии:
Все виды трансмиссий обеспечивают максимальную скорость 30 км/час, а минимальную — 1,8 км/час.
Технические характеристики
| Изготовитель | Case IH |
| Модель | Magnum 340 |
| Двигатель | |
| Номинальная мощность, л. с (kW) ECE R120 | 340 (250) |
| Номинальная мощность Power Boost л. с (kW) ECE R120 | 376 (275) |
| Номинальные обороты, об/мин | 2000 |
| Power Boost, л. с (kW) SAE | 70 (52) |
| Максимальная мощность, л. с. (kW) ECE R120 | 374 (275) |
| Максимальная мощность Power Boost, л. с. (kW) ECE R120 | 410 (306) |
| Обороты максимальной мощности, об/мин | 1800 |
| Максимальный крутящий момент Н/м. при оборотах об/мин. | 1530 при 1500 |
| Объем бака, л. | 680 |
| ВОМ | |
| Мощность на ВОМ, л. с (kW) | 290 (216) |
| Обороты ВОМ, об/мин. | 1000 стд; 540 / 1000 опц. |
| Тип ВОМ | Независимый |
| Спецификация двигателя | |
| Изготовитель | Case IH FPT |
| Модель двигателя | Cursor 9 |
| Количество цилиндров | 6 |
| Объем, л. | 8,7 |
| Диаметр цилиндра, мм | 117 |
| Ход поршня, мм | 135 |
| Тип блока | Линейное, мокрая гильза |
| Система впуска | Турбокомпрессор, интеркуллер |
| Топливная система | |
| Тип системы впрыска | Common Rail Высокого давления |
| Управление системой впрыска | Электронный |
| Fuel Injection to combustion chamber, Direct or Indirect | Прямой |
| Выхлопная система | Вертикальный выпуск |
| Электросистема | |
| Напряжение сети, Вольт | 12 |
| Ток генератора, Амп. | 200 |
| Трансмиссия | |
| Спецификация | 18F/4R Powershift 40 км/ч |
| Тип трансмиссии | Full Power Shift |
| Количество передач веред / назад | 18F / 4R |
| Максимальная скорость вперед, км/ч. | 40 |
| Shuttle (Forward-Reverse) Available | Да |
| Задний мост | |
| Расположение и тип конечных передач. | Внутреннее / Планетарные |
| Диаметр полуосей, мм | 115 |
| Тормоза | |
| Тип рабочих тормозов | Многодисковые в маслянной ванне |
| Гидросистема | |
| Тип гидросистемы | С компенсацией по потоку/давлению |
| Тип гидронасоса | Аксиально-поршневой с переменным объемом. |
| Производительность насоса, л/мин. | 166 |
| Опциональная производительность насоса, л/мин. | 225 или 282 |
| Количество гидровыходов стд.опция | 4 стд; 5 или 6 опц. |
| Трехточечная навеска | |
| Категория | 3 / 4N |
| Опциональная категория | 3 / 3N |
| Контроль усилия тяги | Электронный, на нижнем рычаге |
| Тяговый брус | |
| Тип тягового бруса | Усиленный регулируемый, Категория 4 стд; 3 опц, |
| Колесная база | |
| Колесная база, MFD/4WD, мм. | 3050 |
| Length | |
| Длина с тяговым брусом, навеской | 6275 с передними грузами |
| Вертикальные размеры | |
| Высота до верха кабины, мм | 3339 |
| Ширина | |
| Ширина по концам полуосей 120», мм. | 3048 |
| Ширина по концам полуосей 98», мм. | 2500 |
| Вес | |
| Вес без балласта, кг. | 13458 |
Case IH 2388
Колесный комбайн роторного типа, выпускался компанией Case до 2010 года. Оборудование комбайна позволяет производить обмолот зерновых культур без риска повреждения зерен. За счет применения дополнительных вентиляторов обеспечивается повышенная очистка зерна. Отходы стебля проходят через измельчитель, который позволяет получать равномерно перемолотую массу. Ходовая часть комбайна предназначена для ведения уборки на местности со сложным профилем, во влажных и сухих условиях.
Силовым агрегатом является 6-цилиндровый дизель с системой жидкостного охлаждения. Установка турбокомпрессора позволила получить мощность 285 л. с. при объеме цилиндров 8300 см³. Применена система временного увеличения отдачи до 325 л. с. Долговременное использование системы не рекомендуется, поскольку приводит к перегреву и выходу из строя ротора компрессора и газораспределительного механизма.
Для движения комбайна применяется гидрообъемный привод, оснащенный тремя режимами работы. Торможение выполняется дисковыми механизмами, установленными на всех колесах. Запас топлива на борту составляет 681 л, что позволяет комбайну длительное время находиться в поле.
Применяемый для уборки ротор расположен продольно на передней части комбайна. Ротор имеет диаметр 762 мм и 3 ступени привода. За 1 проход комбайн убирает полосу с шириной 2800 мм.
Case IH Steiger
Машины Case STX Steiger оснащенные приводом на 2 моста, относятся к категории скреперов, предназначенных для выполнения земляных работ в поле или выравнивания участков. В конструкции использованы ведущие мосты с усиленной конструкцией корпусов и механизмов. Для работы с нагруженным оборудованием использованы тяговые устройства с улучшенными характеристиками и прочностью.
Технические характеристики обеспечиваются дизельным двигателем производства FPT Powertrain Technologies. Мотор оснащен 6 цилиндрами, установленными вертикально в один ряд. Применение регулируемого турбокомпрессора позволило получить отдачу в диапазоне 335-535 л. с. при рабочем объеме 12900 см³. Мощность двигателя зависит от давления, создаваемого компрессором. Использование технологии Case IH SCR позволило снизить расход топлива на 10% и вписать двигатели в экологические нормативы Tier 4A и Tier 4B.
Трансмиссия скрепера оснащена дифференциалами с гидравлическими блокировочными муфтами. Безопасность работы обеспечивается установкой автоматических звуковых индикаторов движения и проблесковыми маяками оранжевого цвета, смонтированными на крыше кабины.
При эксплуатации техники на строительных площадках устанавливается защитное ограждение от падающих предметов и страховочные приспособления, предотвращающие опрокидывание скрепера.
Для повышения производительности применено автоматическое буксировочное устройство. Конструкция устройства совместима с навесным оборудованием различных производителей.
Ходовая часть скрепера состоит из 2 половин, соединенных между собой 2 шарнирными сочленениями. При полевых работах возможна корректировка траектории поворотом только передней секции машины.
Case IH Quadtrac
Конструктивной особенностью трактора Case STX Quadtrac является установка вместо колес индивидуальных гусеничных тележек, которые позволяют снизить давление машины на грунт и выполнять работы на влажных полях. Проходимость техники Case с 4 гусеничными тележками превосходит колесные машины и немного уступает классическим гусеничным тракторам.
На машинах используется трансмиссия типа Powershift, обеспечивающая переключение 16 скоростей переднего хода при помощи электроники. В основу управления положен принцип широтно-импульсной модуляции, который обеспечивает плавное переключение скоростей вверх и вниз, снижая утомляемость оператора машины.
Назначение машины
Трактор Кейс Магнум 340 – универсальная колесная машина, используемая как тяговое средство для сельхозагрегатов с широкозахватным рабочим органом.
Трактор является основным звеном в механизации работ как по классическим, так и новым – минимальным и нулевым агротехнологиям. Он хорошо адаптируется к условиям различных полей, насыщен достаточным числом параметров настройки для большинства видов работ.
Магнум 340, в комплексе с различными по назначению прицепными и навесными сельскохозяйственными механизмами, с высокой эффективностью применяется:
Case IH Optum 300
Колесная модель с полным приводом Optum 300 выпускается с 2016 года. В качестве силовой установки применяется 6-цилиндровый мотор с турбокомпрессором, развивающий на номинальном режиме мощность 300 л. с. Кратковременный режим допускает увеличение мощности на 15 л. с. Подача топлива выполняется индивидуальными насос-форсунками, оснащенными электронной системой управления. Для повышения мощности установлен радиатор охлаждения сжатого воздуха. Охлаждение выполняется продувкой радиатора воздухом.
Двигатель оснащен бесступенчатой диапазонной трансмиссией. Коробка имеет 4 диапазона при работе вперед и 2 диапазона — назад. На коробке передач расположен редуктор привода навесного оборудования. В стандартной поставке имеется один вал, выведенный назад. По заказу устанавливается передний вал, имеющий частоту вращения 1000 об/мин. Гидравлическая система обеспечивает подачу 165 л жидкости в минуту. По заказу применяется насос с подачей 220 л в минуту.
Кабина оператора состоит из каркаса, на котором установлены переднее и заднее стекло. Боковые двери для увеличения обзора выполнены из стекла. Рабочее место оснащено регулируемым сидением. Органы управления имеют плавную настройку. Система кондиционирования и очистки воздуха входит в стандартное оснащение трактора.
Особенности эксплуатации
Производитель заявляет, что вся выпускаемая продукция отличается повышенным качеством и благодаря применению новейших технологий легко справляется с любыми задачами. Высокая эффективность достигается за счет сложнейших электронных систем, позволяющих контролировать работу.
Судя по отзывам владельцев, которые активно эксплуатируют технику Кейс, тракторы отличаются качеством и надежностью, поэтому первые несколько лет работают без ремонта. Однако, чтобы добиться такого результат необходимо следить за регулярностью и качеством проведения технического обслуживания. Трактора работают на дизельном топливе повышенного качества, а в качестве моторного масла нужно использовать CI-4 AKCELA MS1121.
Огромным достоинством новых тракторов является то, что они поступают в продажу уже с проведенной обкаткой. Также на предприятии перед отправкой в дилерскую сеть проводится калибровка и тестирование всех электронных систем.
Консервирование производится по всем правилам, описанным в инструкции по эксплуатации. Сначала трактор моется, сушится, а потом все детали и механизмы протираются промясленной тряпкой. Масло сливается, а контакты на свечах отсоединяются. После всех процедур трактор ставится в сухое место и накрывается чехлом.
Цена и отзывы владельцев
Стоимость машин с пробегом находится в пределах от 2 до 5 млн. рублей. Цены на технику без пробега начинаются от 2,5 млн. рублей. Окончательная стоимость машины определяется условиями приобретения, размерами партии и списком дополнительного оснащения.
Конструкция машин Case имеет ряд общих черт с New Holland. Обеспечена взаимозаменяемость деталей и узлов двигателя и трансмиссии. По производительности и комфорту техника превосходит машины российского производства. К минусам можно отнести большое количество электроники, которая повреждается от запыленного воздуха, влаги и перепадов температур.
На российский рынок поставляются машины индийской сборки. Тракторы требуют протяжки гаек после покупки или после отработки первых моточасов. Качество покраски не стабильное, есть точки, где лакокрасочное покрытие отслаивается до металла. Металл высокого качества, коррозии нет. На ранних этапах эксплуатации Бывают проблемы с резинотехническими изделиями, из-за которых возникают течи из гидравлических узлов, устраняются по гарантии.
Особенности эксплуатации
Вся техника Кейс отличается высочайшим качеством, использованием при изготовлении инновационных технологий, современных композитных материалов, большим запасом прочности и надежности.
В основном, эффективность и производительность тракторов CASE IH обеспечивается сервисной электроникой, которая в постоянном режиме контролирует все рабочие процессы машины и выполнение производственных задач.
Комфортная кабина с панорамным остеклением, наличие LCD-дисплея, эргономичное размещение органов управления – по этим показателям трактора Кейс считаются наилучшими.
Рациональный доступ ко всем узлам и системам машин в значительной мере сокращает продолжительность техобслуживания и сервиса.
Возможности трактора расширены за счет универсального механизма навески и тягового бруса категории I-II.
Возможно дополнительное подключение гидровыходов на узлах передней и задней навески.
Обслуживание
По отзывам владельцев, машины очень надежны в эксплуатации, новые трактора могут проработать без ремонта несколько лет.
Они потребляют качественное дизельное топливо, оригинальное моторное масло CI-4 AKCELA MS1121 для тракторов.
Обкатка тракторов Кейс проходит на заводе, там же проводят калибровку и проверку программного обеспечения.
По окончании сезона работы, трактор необходимо законсервировать. Его надо очистить, поставить его в сухое место, слить масло, отсоединить провода свечей зажигания и смазать детали, чтобы не формировалась коррозия.
Основные неисправности, ремонт
Обилие электронной начинки требует профессионального обслуживания и квалифицированного ремонта.
Немало нареканий от владельцев техники по поводу отсутствия достаточной информации о ремонте и обслуживании машин, о самостоятельном устранении мелких неполадок.
Вызывает сложности настройка компьютерного оснащения CASE, поскольку основные простои происходят именно вследствие сбоя программ. Комплектующие азиатского происхождения бывают недолговечными и некачественными.
Существенным препятствием в приобретении элитных тракторов CASE IH является их высокая стоимость – лишь крупные землевладельцы и солидные сельхозпредприятия могут приобрести технику такого класса.
На вторичном рынке трактора в хорошем состоянии можно купить в пределах 2-7 млн. руб., за новую модель Магнум 340 придется заплатить примерно 115 тыс. евро.
Источники:
https://proogorod. com/selhoztekhnika/traktory/obzor-traktorov-case
https://retrotruck. ru/s-h-tehnika/traktor-case-ih. html
Обзор тракторов Case (Кейс). Обслуживание. Неисправности, возникающие в процессе эксплуатации
Компания Case была основана в 1842 году и выпускала молотилки, но официальное признание в качестве производителя тракторов получила только в 1905 году, когда мир увидел агрегат с двигателем внутреннего сгорания. Для того, чтобы бренд был более узнаваем, руководство компании приняло решение в качестве ведущего цвета использовать красный.
Развитие производства шло в ногу со временем, поэтому можно с уверенностью сказать, что трактора Кейс одни из самых современных и модернизированных. Благодаря использованию передовых технологий на протяжении всего существования компании, продукция завоевала популярность среди потребителей. Бурный рост компании прослеживался на протяжении всех лет существования, при этом не останавливаясь на достигнутом, а расширяя направления.
Заметного расширения дилерской сети компания достигла к концу 80-х, когда вся европейская часть мира интересовалась проблемами механизации сельского хозяйства. Широкий модельный ряд позволяет приобрести трактор Кейс для любого вида работ, а огромное их преимущество в том, что к нему можно подключить различное навесное оборудование и от этого функциональность только увеличивается.
Трактора разделены на серии, каждая из которых отличается мощностью двигателя и другими техническими характеристиками. Основным предназначением является применение в сельском хозяйстве, так как силовой агрегат позволяет обрабатывать большие участки полей.
Модельный ряд тракторов Case
В отличие от других производителей компания Case решила быть оригинальной и дала следующие названия своим сериям: Farmall, Maxxum, Puma, Magnum, Steiger.
Выделяют следующие достоинства техники Кейс:
Case Steiger
Трактора, которые принадлежат этой серии, отличаются повышенными техническими характеристиками и предназначены для использования в условиях повышенной сложности. В связи с этим, конструктора предусмотрели выпуск каждой модели в колесном (Стайгер) и гусеничном варианте (Quadtrac). Мощность этих тракторов составляет от 335 до 600 л. с., но из-за встроенной системы, управляющей работой двигателя, ее можно увеличить до 10%. А это существенно скажется на производительности трактора. Колесная база удлинена, но, не смотря на это, радиус разворота составляет до 6 м.
На фото представлены примеры техники.
Case Magnum
Трактора из этой серии самые востребованные на сельскохозяйственном рынке, потому как в них удачно сочетаются способность выполнять различные маневры при высокой мощности. Это достоинство стало возможным благодаря использованию особенной конструкции передних мостов. Двигателя имеют в запасе от 257 до 340 лошадок, причем автоматические системы могут повышать мощность до 30 %. Несмотря на внушительные габариты, трактор разворачивается всего на 5 м.
Еще одной особенностью тракторов Кейс Магнум является гидравлическая система, которая позволяет поднимать до 10 т. различных грузов. Оператор может не волноваться на счет точности установки любого груза, так как за все отвечает автоматическая система позиционирования. Трактор имеет автоматическую коробку передач и может разгоняться до 40 км/ч.
Модельный ряд серии Кейс Магнум включает: 250, 280, 310, 340, 380 CVT.
На фото представлены примеры техники.
Case Puma
Облегченные колесные трактора из серии Пума имеют мощность двигателя от 142 до 224 л. с. Наиболее эффективны в малых и средних сельских хозяйствах. Их используют для работ в садах, полях, на животноводческих фермах и для транспортировки грузов. Для того, чтобы увеличить функциональность трактора, к нему подключают различное оборудование. Эффективность использования навески достигается благодаря 4-х скоростному ВОМ. В этой конструкции управление валом отбора мощности не представляет ничего сложного, потому как он управляется автоматизированной системой.
Современная система контроля впрыска двигателя следит за экономичностью расхода топлива. Плавное переключение скоростей достигает при помощи трансмиссии нового поколения Full Powershif. Трактор Кейс Пума разгоняется до 50 км/ч., причем он автоматически переходит из полевого режима в дорожный и обратно.
Модельный ряд серии Кейс Пума состоит из модификаций: 140, 155, 180, 210, 225.
На фото представлены примеры техники.
Case Maxxum
Чтобы не перечислять все достоинства тракторов серии Максум, достаточно выделить главные: маневренность, универсальность, экономичность и многофункциональность. Повышенный комфорт в кабине позволяет оператору не уставать в течении рабочего дня. Повышенная звукоизоляция и удобство расположения органов управления делает кабину лучшей в своем классе. Мощность двигателя у этой серии может варьироваться от 112 до 141 л. с. при этом расход топлива экономиться автоматически.
Для крепления навесного оборудования используется трехточечная сцепка, благодаря которой применение машины становится более удобным. Мощная гидравлическая система отлично справляется с любой поставленной задачей. Грузоподъемность трактора составляет от 5 до 7 т.
Модельный ряд серии Кейс Максум составляют модификации: 110, 125, 140.
На фото представлены примеры техники.
Трактор Case IH Magnum 340 — сочетание мощности с широким функционалом
На мировом тракторном рынке продукция компании CASE IH котируется на одном уровне с качественными и мощными машинами брендов Джон Дир и Нью Холланд. Весь ассортимент этого производителя по качеству, эксплуатационным возможностям и продолжительности ресурса отвечают рекомендациям действующих стандартов.
Мощный колесный трактор CASE IH Magnum 340 изначально ориентирован на выполнение масштабных и трудоемких сельскохозяйственных работ разных уровней сложности. Превосходные тягово-сцепные параметры трактора определяют его применение с производительным широкозахватным прицепным и навесным оборудованием разного назначения.
трактор Case IH Magnum 340
Конструкционные особенности
В его конструкцию заложена возможность работы в соответствии с рекомендациями нулевых, минимальных и классических земледельческих технологий. По мнению многих владельцев и специалистов, трактор Магнум 340 в своей мощностной категории на сегодняшний день является одним из лучших.
Эксплуатационные возможности этой модели повышены за счет:
Стабильной производительности трактора способствует высокий уровень автоматизации и компьютеризации работы всех систем, в частности, электронного контроля работы силовой установки. Вся важная информация отображается на расположенном в поле зрения оператора цветном дисплее.
Предоставляется возможность активации рабочих узлов навесного оборудования с помощью двухскоростного 540 и 1000 об/ в минуту, механизма отбора мощности. Навесные агрегаты с приводом от гидромоторов подключаются к гидросистеме трактора через двойные выводы с обратными клапанами.
С учетом особенностей запланированной работы, предусмотрена установка спаренных колес с широкопрофильными пневматиками низкого давления, навеска балластных грузов, а также возможность изменения колеи ходовой части.
Кейс Магнум 340 в целом характеризуется экономичным расходом ГСМ и расходных материалов, сервисным и ремонтным доступом к основным узлам и механизмам, унификацией многих запчастей и целых агрегатов с фирменными прототипами.
Ходовая часть
Возможности полноприводной схемы ходовой части наиболее эффективно реализуются с помощью двухрежимного электронного подключения переднего моста, а также ручной или автоматической блокировки механизма дифференциала заднего.
Диапазон изменения колеи задних и передних колес соответственно 1,560-2,256 и 1,470-2,294 м. Регулировка производится при работе трактора в междурядьях или при эксплуатации на крутосклонном рельефе.
Гидравлика
Бортовая гидросистема отличается от аналогов высокой, до 282 литра/мин производительностью гидронасоса, позволяющей увеличить грузоподъемность механизма навески IVN/III до 10 тонн. Для буксировки тяжелых прицепов по пересеченной местности или сложному микрорельефу трактор оборудован тяговым брусом 5-й категории.
Цена Магнума 340 — нового и бэушного
Стоимость бэушных тракторов марки Магнум 340-й модели с достаточно большим остатком межремонтного ресурса находится в пределах 60-80 тысяч евро.
Magnum 340 в работе
Отзывы владельцев
Два трактора Магнум 340 производства известной качеством выпускаемой продукции компании Case IH приобрели для обновления парка агрофирмы зимой позапрошлого 2021 года.
За прошедшее время новая техника в значительной степени компенсировала вложенные средства экономией рабочего времени и ГСМ, отсутствием вынужденных простоев.
Существенные опасения вызывает отсутствие специалистов по обслуживанию компьютерного и другого электронного оборудования, относительно бедный ассортимент запасных частей, а также инертность сервисных служб. Павел
Покупка подержанного Магнума 340-й модели обошлась мне в 55 тысяч евро. Машина в принципе надежная, а главное экономичная в плане расхода ГСМ. На вспашке один Магнум при 23%-й экономии топлива успешно заменяет два трактора, гусеничный Т-75 и колесный универсал МТЗ-82К. Владимир Викторович
Особенности эксплуатации
Производитель заявляет, что вся выпускаемая продукция отличается повышенным качеством и благодаря применению новейших технологий легко справляется с любыми задачами. Высокая эффективность достигается за счет сложнейших электронных систем, позволяющих контролировать работу.
Судя по отзывам владельцев, которые активно эксплуатируют технику Кейс, тракторы отличаются качеством и надежностью, поэтому первые несколько лет работают без ремонта. Однако, чтобы добиться такого результат необходимо следить за регулярностью и качеством проведения технического обслуживания. Трактора работают на дизельном топливе повышенного качества, а в качестве моторного масла нужно использовать CI-4 AKCELA MS1121.
Огромным достоинством новых тракторов является то, что они поступают в продажу уже с проведенной обкаткой. Также на предприятии перед отправкой в дилерскую сеть проводится калибровка и тестирование всех электронных систем.
Консервирование производится по всем правилам, описанным в инструкции по эксплуатации. Сначала трактор моется, сушится, а потом все детали и механизмы протираются промясленной тряпкой. Масло сливается, а контакты на свечах отсоединяются. После всех процедур трактор ставится в сухое место и накрывается чехлом.
Два уровня ошибок: как в них разобраться
Для наглядности и удобства расшифровки кодов неисправностей обозначение ошибки состоит из двух частей, например: E15 CA559
, где
E15
– это пользовательский код. Он указывает на отказ системы управления двигателем (снижение выходной мощности для защиты мотора), а СА559 – это код, который конкретно указывает на то, что общее давление в коллекторе слишком низкое. Помимо буквенно-циферного отображения ошибки, на мониторе выводится и ее расшифровка на русском языке: низкое давление в общей рейке Common Rail. Это сделано для того, чтобы помочь оператору на месте разобраться с неисправностью и устранить поломку.
При появлении на мониторе ошибки, указывающей на низкое давление дизтоплива в общей рейке топливного насоса, поиск и устранение неисправности следует начать с проверки фильтров и топливной рампы Common Rail на отсутствие утечек ДТ (дизтоплива). Обычно после очистки или замены топливных фильтров проблема исчезает, если же нет, то необходимо провести диагностику основного топливного насоса.
С помощью семи сегментной контрольной панели экскаватора Komatsu PC 400 оператор может провести самодиагностику, например, гидравлической системы на соответствие рабочим параметрам, заданным производителем техники. Подняв стрелу экскаватора до конечного положения можно проверить давление, при котором сработает предохранительный клапан, и сравнить его с табличным значением. Также проверяется давление масла, развиваемое гидравликой привода ковша в режиме наполнения. Cкриншот: https://www.youtube.com/watch?v=nnv4Xuc1GWE
Для этого выбирается соответствующий код (010, 011, 012 и т.д.) и проводится проверка систем и узлов. По ее результатам проводится регулировка предохранительных клапанов, проверка/замена уплотнителей гидроцилиндров и другое ТО.
Трактор Кейс Магнум (CASE Magnum) 340: подробное описание и стоимость
Американский производитель тракторов Case занимается сборкой сельскохозяйственной и строительной техники с 1902 года, когда была создана компания International Harvester. С 1936 года продукция окрашивается в красный цвет, который является фирменным знаком компании. Трактор Кейс, в зависимости от размеров и мощности двигателя, может использоваться в небольшом фермерском хозяйстве или при обработке крупных сельскохозяйственных угодий.
Техническое описание и расшифровка ошибки P210D
Этот диагностический код неисправности (DTC) является общим кодом. Ошибка P210D считается общим кодом, поскольку применяется ко всем маркам и моделям транспортных средств. Хотя конкретные этапы ремонта могут несколько отличаться в зависимости от модели.
Привод дроссельной заслонки «B» обычно установлен в передней части двигателя. На верхней части двигателя, внутри колесных арок или напротив переборки. Привод дроссельной заслонки управляется электрическим сигналом от модуля управления трансмиссией (PCM).
PCM получает входные данные, чтобы определить, когда и сколько времени ему нужно для работы привода. Эти входы представляют собой сигналы напряжения, полученные от датчиков температуры охлаждающей жидкости, температуры всасываемого воздуха. Также используются данные оборотов двигателя и давления в системе кондиционирования воздуха. Как только PCM получит эти входные данные, он может изменить сигнал на заслонку.
P210D обычно устанавливается из-за проблем с электричеством в цепи. На этапе устранения неполадок нельзя упускать из вида электрические проблемы. Особенно при решении периодически возникающих проблем.
Действия по устранению неполадок могут различаться в зависимости от производителя, типа привода дроссельной заслонки и цветов проводов.
Описание модельного ряда
Предлагаемый модельный ряд машин Case включает в себя колесную технику, а также трактора на гусеницах. Каждая модель предлагается в нескольких модификациях, отличающихся мощностью двигателя и типом трансмиссии. Минитракторы Case входят в производственную программу компании, однако на российский рынок официально не поставляются.
Кроме тракторов компания производит специализированные комбайны, применяемые для уборки зерновых культур, хлопка и тростника. Еще одним направлением деятельности является выпуск навесного оборудования, специально созданного для тракторов и комбайнов Case.
Case IH Magnum
Колесный трактор Case модели Magnum оснащается 6-цилиндровым рядным дизелем FPT жидкостного охлаждения. Двигатель комплектуется турбокомпрессором и головкой цилиндров, оснащенной 24 клапанами. Привод клапанов выполняется распределительными валами, установленными на верхней части головки. При рабочем объеме цилиндров 8700 см³ двигатель развивает мощность 250-310 л. с. Мощность зависит от настроек давления наддува и параметров топливного насоса. Все варианты соответствуют нормам токсичности отработавших газов Tier 2B.
Двигатели оснащены системой кратковременного увеличения мощности, которая позволяет получить прибавку 35 л. с. Режим увеличения мощности применяется для привода дополнительного оборудования, при работе с энергоемкой гидравлической оснасткой и при буксировании прицепов.
Технические характеристики Case Magnum 340
| Экостандарт | Tier 2B |
| Мощность двигателя при 2000 об/мин | 340 л. с. |
| Макс. мощность двигателя при 1800 об/мин ISO / ECE R120 | 375 л. с. |
| Количество цилиндров | 6 |
| Колесная база — Powershift | 3050 мм |
| Стандартный вес | 13458 кг |
Case Magnum 340 видео
Отзывы о Case Magnum 340
Как одно из достоинств этой машины можно отметить ее достаточно просторную и удобную кабину, остекление которой позволяет иметь оператору круговой обзор. Как и все остальные кабины тракторов Case в данном случае также особое внимание уделено безопасности оператора.
Трансмиссия трактора многорежимная с ручным или автоматическим управлением. В последнем варианте выбор оптимальной передачи определяется уровнем тягово-сцепных нагрузок.
Гидравлическая система машины общая с гидравликой КПП и имеет следующие особенности:
Кейс магнум 340 технические характеристики Ссылка на основную публикацию
Case IH Farmall JX 110
Семейство малых тракторов Case, оснащенных 3 и 4-цилиндровыми дизелями мощностью 65-110 л. с. Система питания укомплектована турбокомпрессором с промежуточным радиатором, используемым для охлаждения сжатого воздуха. Увеличенный крутящий момент двигателей позволяет уменьшить число переключений передач.
Трактор комплектуется 3 видами трансмиссии:
Все виды трансмиссий обеспечивают максимальную скорость 30 км/час, а минимальную — 1,8 км/час.
Технические характеристики
| Изготовитель | Case IH |
| Модель | Magnum 340 |
| Двигатель | |
| Номинальная мощность, л. с (kW) ECE R120 | 340 (250) |
| Номинальная мощность Power Boost л. с (kW) ECE R120 | 376 (275) |
| Номинальные обороты, об/мин | 2000 |
| Power Boost, л. с (kW) SAE | 70 (52) |
| Максимальная мощность, л. с. (kW) ECE R120 | 374 (275) |
| Максимальная мощность Power Boost, л. с. (kW) ECE R120 | 410 (306) |
| Обороты максимальной мощности, об/мин | 1800 |
| Максимальный крутящий момент Н/м. при оборотах об/мин. | 1530 при 1500 |
| Объем бака, л. | 680 |
| ВОМ | |
| Мощность на ВОМ, л. с (kW) | 290 (216) |
| Обороты ВОМ, об/мин. | 1000 стд; 540 / 1000 опц. |
| Тип ВОМ | Независимый |
| Спецификация двигателя | |
| Изготовитель | Case IH FPT |
| Модель двигателя | Cursor 9 |
| Количество цилиндров | 6 |
| Объем, л. | 8,7 |
| Диаметр цилиндра, мм | 117 |
| Ход поршня, мм | 135 |
| Тип блока | Линейное, мокрая гильза |
| Система впуска | Турбокомпрессор, интеркуллер |
| Топливная система | |
| Тип системы впрыска | Common Rail Высокого давления |
| Управление системой впрыска | Электронный |
| Fuel Injection to combustion chamber, Direct or Indirect | Прямой |
| Выхлопная система | Вертикальный выпуск |
| Электросистема | |
| Напряжение сети, Вольт | 12 |
| Ток генератора, Амп. | 200 |
| Трансмиссия | |
| Спецификация | 18F/4R Powershift 40 км/ч |
| Тип трансмиссии | Full Power Shift |
| Количество передач веред / назад | 18F / 4R |
| Максимальная скорость вперед, км/ч. | 40 |
| Shuttle (Forward-Reverse) Available | Да |
| Задний мост | |
| Расположение и тип конечных передач. | Внутреннее / Планетарные |
| Диаметр полуосей, мм | 115 |
| Тормоза | |
| Тип рабочих тормозов | Многодисковые в маслянной ванне |
| Гидросистема | |
| Тип гидросистемы | С компенсацией по потоку/давлению |
| Тип гидронасоса | Аксиально-поршневой с переменным объемом. |
| Производительность насоса, л/мин. | 166 |
| Опциональная производительность насоса, л/мин. | 225 или 282 |
| Количество гидровыходов стд.опция | 4 стд; 5 или 6 опц. |
| Трехточечная навеска | |
| Категория | 3 / 4N |
| Опциональная категория | 3 / 3N |
| Контроль усилия тяги | Электронный, на нижнем рычаге |
| Тяговый брус | |
| Тип тягового бруса | Усиленный регулируемый, Категория 4 стд; 3 опц, |
| Колесная база | |
| Колесная база, MFD/4WD, мм. | 3050 |
| Length | |
| Длина с тяговым брусом, навеской | 6275 с передними грузами |
| Вертикальные размеры | |
| Высота до верха кабины, мм | 3339 |
| Ширина | |
| Ширина по концам полуосей 120», мм. | 3048 |
| Ширина по концам полуосей 98», мм. | 2500 |
| Вес | |
| Вес без балласта, кг. | 13458 |
Трактор CASE Magnum 340
Трактор CASE IH Magnum 340 – это надежная и универсальная сельскохозяйственная машина, которая предназначена для работы с широкозахватными агрегатами по классической, минимальной и нулевой технологиям. Модель Магнум-340 спроектирована с целью удовлетворения потребностей самых взыскательных пользователей работающих в полях.
Большинство экспертов, фермеров и сельхозпроизводителей называют трактора серии Magnum, торговой компании Case IH, лучшими в своём классе. Серия Magnum представлена тракторами от 225 до 335 л. с.
Обзор трактора CASE IH Magnum 340
Новый, ещё более мощный двигатель трактора Кейс 340 в сочетании с надёжной трансмиссией Full PowerShift TM позволяют этому монстру с лёгкостью справляться со всевозможными полевыми и транспортными работами. При этом он гораздо мощнее, чем трактор John Deere 8430.
Фото CASE IH Magnum 340
Просторная и комфортная кабина трактора с отличным круговым обзором и эргономичным исполнением органов контроля и управления предлагает оператору наивысший уровень удобства и безопасности.
Трактор Magnum-340 может комплектоваться системой управления, контроля и учёта с установкой цветного сенсорного дисплея AFS Pro 700, которая переводит работу с трактором на качественно новый уровень.
Фото кабины трактора CASE Magnum 340
Дистанционная гидравлическая система данной модели трактора Кейс в сочетании с навесным устройством и двухскоростным валом отбора мощности на 540 и 1000 об/мин гарантирует возможность агрегатирования трактора с широким спектром сельскохозяйственных орудий, например, таких как прицепной комбайн.
Существующая возможность установки спаренных колёс, балластных грузов и изменения ширины колеи обеспечивает выполнение работы с различным междурядьем, а также оптимально распределить нагрузку на передний и задний мост трактора.
Доступ к точкам смазки и обслуживания Магнума 340 максимально упрощён, что позволяет снизить время на проведение сервисных операций до минимума.
Также его можно задействовать в посевных работах с применением овощной сеялки.
Технические характеристики CASE Magnum 340
Модель трактора
| МX 340 (США) | |
| Двигатель | IVECO 6-ти цилиндровый |
| Объем двигателя, см 3 | 8700 |
| Номинальная мощность, л. с. | 340 |
| Номинальный режим двигателя, об/мин. | 2000 |
| Максимальная мощность, л. с. | 374 |
| Номинальная мощность PowerBoost при 2000 об/мин., л. с. | 375 |
| Максимальная мощность PowerBoost при 1800 об/мин., л. с. | 389 |
| Запас крутящего момента, % | 35 |
| Режим при максимальном крутящем моменте, об/мин. | 1800 |
| Емкость топливного бака, л | 635 |
| Топливная система | Pressure-Flow Compensating |
| Сепаратор топлива | установлено |
| Трансмиссия | Power Shift |
| Число передач для движения вперед | 18 |
| Число передач для движения назад | 4 |
| Максимальная скорость при движении вперед, км/ч | 40 |
| Полная блокировка переднего дифференциала | установлено |
| Включение блокировки дифференциала | автомат./ручное |
| Гидросистема | насос переменной производительности с замкнутымцентром и датчиком нагрузки |
| Производительность насоса, л/мин. | 282 |
| Максимальное усилие подъема, кг | 8051 |
| Размеры | |
| База, мм | 3055 |
| Длина, включая балласт и задний подъемник, мм | 5950 |
| Полная ширина без спарки, мм | 3050 |
| Полная высота, мм | 3265 |
| Колеса передние спаренные | 16.9R30 (420-90R30) |
| Колеса задние спаренные | 20.8R42 (520-85R42) |
| Масса | |
| Масса с максимальным балластом, кг | 18 000 |
| Кабина | |
| Объём кабины, м 3 | 3,1 |
| Параметры стёкол кабины, м 2 | 6,85 |
| Климат-контроль | стандартно |
Видео обзор трактора Case IH 340
Case IH 2388
Колесный комбайн роторного типа, выпускался компанией Case до 2010 года. Оборудование комбайна позволяет производить обмолот зерновых культур без риска повреждения зерен. За счет применения дополнительных вентиляторов обеспечивается повышенная очистка зерна. Отходы стебля проходят через измельчитель, который позволяет получать равномерно перемолотую массу. Ходовая часть комбайна предназначена для ведения уборки на местности со сложным профилем, во влажных и сухих условиях.
Силовым агрегатом является 6-цилиндровый дизель с системой жидкостного охлаждения. Установка турбокомпрессора позволила получить мощность 285 л. с. при объеме цилиндров 8300 см³. Применена система временного увеличения отдачи до 325 л. с. Долговременное использование системы не рекомендуется, поскольку приводит к перегреву и выходу из строя ротора компрессора и газораспределительного механизма.
Для движения комбайна применяется гидрообъемный привод, оснащенный тремя режимами работы. Торможение выполняется дисковыми механизмами, установленными на всех колесах. Запас топлива на борту составляет 681 л, что позволяет комбайну длительное время находиться в поле.
Применяемый для уборки ротор расположен продольно на передней части комбайна. Ротор имеет диаметр 762 мм и 3 ступени привода. За 1 проход комбайн убирает полосу с шириной 2800 мм.
Case IH Steiger
Машины Case STX Steiger оснащенные приводом на 2 моста, относятся к категории скреперов, предназначенных для выполнения земляных работ в поле или выравнивания участков. В конструкции использованы ведущие мосты с усиленной конструкцией корпусов и механизмов. Для работы с нагруженным оборудованием использованы тяговые устройства с улучшенными характеристиками и прочностью.
Технические характеристики обеспечиваются дизельным двигателем производства FPT Powertrain Technologies. Мотор оснащен 6 цилиндрами, установленными вертикально в один ряд. Применение регулируемого турбокомпрессора позволило получить отдачу в диапазоне 335-535 л. с. при рабочем объеме 12900 см³. Мощность двигателя зависит от давления, создаваемого компрессором. Использование технологии Case IH SCR позволило снизить расход топлива на 10% и вписать двигатели в экологические нормативы Tier 4A и Tier 4B.
Трансмиссия скрепера оснащена дифференциалами с гидравлическими блокировочными муфтами. Безопасность работы обеспечивается установкой автоматических звуковых индикаторов движения и проблесковыми маяками оранжевого цвета, смонтированными на крыше кабины.
При эксплуатации техники на строительных площадках устанавливается защитное ограждение от падающих предметов и страховочные приспособления, предотвращающие опрокидывание скрепера.
Для повышения производительности применено автоматическое буксировочное устройство. Конструкция устройства совместима с навесным оборудованием различных производителей.
Ходовая часть скрепера состоит из 2 половин, соединенных между собой 2 шарнирными сочленениями. При полевых работах возможна корректировка траектории поворотом только передней секции машины.
Трактор Case IH Magnum 340.Технические характеристики.
Кроме всего прочего, колеса трактора могут быть сдвоены, также на трактор могут быть навешены дополнительные балластные грузы. Все это вместе с регулируемой шириной колее позволяет работать на полях с различной шириной междурядий и наиболее рационально распределять нагрузку.
Обслуживание трактора упрощено за счет облегчения доступа к основным контрольным точкам.
Характеристики трактора Case IH Magnum 340. Сердцем этого трактора является его двигатель модели FPT Cursor 9 Tier II, в конструкции которого реализована схема работы с турбонагнетателем и последующим охлаждением впускного воздуха. В своем распоряжении двигатель имеет 6-ть цилиндров общим объемом 8,7 л. При этом номинальная мощность этого агрегата составляет 340 л. с. или 253 кВт. Максимальное значение мощности составляет 374 л. с. или 279 кВт. С использование Power BOOST мощность двигателя возрастает до значения в 389 л. с. или 290 кВт. Максимальное значение крутящего момента двигателя в 1671 Нм зафиксировано при значении величины оборотов в 1400-1600 об/мин. Двигатель оборудован топливной системой High Pressure Common Rail. Запас топлива составляет 635 л. Максимальная скорость, развиваемая трактором, достигает значения в 40 км/ч.
Трансмиссия трактора Full Power Shift обеспечивает осуществление переключения передач без разрыва мощности. КПП трактора обладает 18-ью передачами для движения вперед и еще 4-мя передачами, предназначенными для осуществления движения в обратном направлении. Управление трансмиссией может осуществляться как в ручном режиме, так и в автоматическом, при этом в последнем случае переключение передач происходит в зависимости нагрузки на двигатель.
Этот трактор полноприводной и для осуществления управления приводом переднего моста используется электронное управление, которое может работать в двух режимах, а именно в принудительном и автоматическом.
Электронное управление используется и для осуществления блокировки дифференциала заднего моста, при этом управление также может осуществляться в двух режимах, автоматическом и принудительном.
Трактор Case IH Magnum 340 имеет 5 пар гидровыходов и линию обратного слива рабочей жидкости. Установленная здесь навеска относится к IVN/III категории, а установленный здесь тяговый брус относится V категории. Насос гидросистемы способен перекачивать до 282 л жидкости за минуту, а грузоподъемность навески составляет 8,57 т. Двухскоростной ВОМ трактора работает со скоростями 540 или 100 об/мин, а это дает возможность использовать совместно с трактором большое количество сельхоз орудий.
Длина Case IH Magnum 340 составляет 6,4 м, его высота равна 3,4 м, а ширина трактора составляет 3,1 м. Ширина колеи переднего моста регулируется в пределах 1560-2256 мм, а заднего моста 1470-2294 мм. Сдвоенные передние колеса обуты в шины 16.9R30, задние сдвоенные колеса обуты в шины 20.8R42. Весит трактор 10,864 т.
Case IH Quadtrac
Конструктивной особенностью трактора Case STX Quadtrac является установка вместо колес индивидуальных гусеничных тележек, которые позволяют снизить давление машины на грунт и выполнять работы на влажных полях. Проходимость техники Case с 4 гусеничными тележками превосходит колесные машины и немного уступает классическим гусеничным тракторам.
На машинах используется трансмиссия типа Powershift, обеспечивающая переключение 16 скоростей переднего хода при помощи электроники. В основу управления положен принцип широтно-импульсной модуляции, который обеспечивает плавное переключение скоростей вверх и вниз, снижая утомляемость оператора машины.
Назначение машины
Трактор Кейс Магнум 340 – универсальная колесная машина, используемая как тяговое средство для сельхозагрегатов с широкозахватным рабочим органом.
Трактор является основным звеном в механизации работ как по классическим, так и новым – минимальным и нулевым агротехнологиям. Он хорошо адаптируется к условиям различных полей, насыщен достаточным числом параметров настройки для большинства видов работ.
Магнум 340, в комплексе с различными по назначению прицепными и навесными сельскохозяйственными механизмами, с высокой эффективностью применяется:
Преимущества и недостатки
Весь тракторный ассортимент компании Case IH характеризуется высокой надежностью, экономичностью и долговечностью при эксплуатации в сложных и даже экстремальных условиях.
- Модель Магнум 340 отличается совместимостью с навесными и прицепными агрегатами от других производителей, в том числе достаточно давно снятыми с производства.
- Высокий уровень комфорта кабины позволяет водителю сохранять производительность выполняемых работ на всем протяжении рабочей смены.
Характерный недостаток элитной тракторной техники — это ее высокая стоимость в значительной степени недоступная для мелкого и даже среднего фермерского бизнеса.
Многие отечественные покупатели ставят производителям в упрек отсутствие информации по тестированию и ремонту компьютерной оснастки. Значительная часть простоев дорогих машин — следствие сбоев и глюков цифрового оборудования, неизбежных при отсутствии квалифицированного обслуживания.
Case IH Optum 300
Колесная модель с полным приводом Optum 300 выпускается с 2016 года. В качестве силовой установки применяется 6-цилиндровый мотор с турбокомпрессором, развивающий на номинальном режиме мощность 300 л. с. Кратковременный режим допускает увеличение мощности на 15 л. с. Подача топлива выполняется индивидуальными насос-форсунками, оснащенными электронной системой управления. Для повышения мощности установлен радиатор охлаждения сжатого воздуха. Охлаждение выполняется продувкой радиатора воздухом.
Двигатель оснащен бесступенчатой диапазонной трансмиссией. Коробка имеет 4 диапазона при работе вперед и 2 диапазона — назад. На коробке передач расположен редуктор привода навесного оборудования. В стандартной поставке имеется один вал, выведенный назад. По заказу устанавливается передний вал, имеющий частоту вращения 1000 об/мин. Гидравлическая система обеспечивает подачу 165 л жидкости в минуту. По заказу применяется насос с подачей 220 л в минуту.
Кабина оператора состоит из каркаса, на котором установлены переднее и заднее стекло. Боковые двери для увеличения обзора выполнены из стекла. Рабочее место оснащено регулируемым сидением. Органы управления имеют плавную настройку. Система кондиционирования и очистки воздуха входит в стандартное оснащение трактора.
Case Magnum 340 описание
Гидравлическая система с максимальной грузоподъемностью 10 580 кг оснащается стандартным насосом с расходом 166 л/мин, насосом с высоким расходом 228 л/мин или двумя насосами переменной производительности 282 л/мин для самых крупных орудий. Тягово-сцепное устройство со стандартным электронным силовым регулятором. Можно отрегулировать максимальную степень проскальзывания с учетом применения, используя ограничение проскальзывания, а также свести к минимуму подпрыгивание во время транспортировки с установленным орудием за счет управления движением сцепки.
— Подробная схему узла с пронумерованными запчастями и далее перечень каталожных номеров к этим запчастям
Особенности эксплуатации
Производитель заявляет, что вся выпускаемая продукция отличается повышенным качеством и благодаря применению новейших технологий легко справляется с любыми задачами. Высокая эффективность достигается за счет сложнейших электронных систем, позволяющих контролировать работу.
Судя по отзывам владельцев, которые активно эксплуатируют технику Кейс, тракторы отличаются качеством и надежностью, поэтому первые несколько лет работают без ремонта. Однако, чтобы добиться такого результат необходимо следить за регулярностью и качеством проведения технического обслуживания. Трактора работают на дизельном топливе повышенного качества, а в качестве моторного масла нужно использовать CI-4 AKCELA MS1121.
Огромным достоинством новых тракторов является то, что они поступают в продажу уже с проведенной обкаткой. Также на предприятии перед отправкой в дилерскую сеть проводится калибровка и тестирование всех электронных систем.
Консервирование производится по всем правилам, описанным в инструкции по эксплуатации. Сначала трактор моется, сушится, а потом все детали и механизмы протираются промясленной тряпкой. Масло сливается, а контакты на свечах отсоединяются. После всех процедур трактор ставится в сухое место и накрывается чехлом.
Цена и отзывы владельцев
Стоимость машин с пробегом находится в пределах от 2 до 5 млн. рублей. Цены на технику без пробега начинаются от 2,5 млн. рублей. Окончательная стоимость машины определяется условиями приобретения, размерами партии и списком дополнительного оснащения.
Конструкция машин Case имеет ряд общих черт с New Holland. Обеспечена взаимозаменяемость деталей и узлов двигателя и трансмиссии. По производительности и комфорту техника превосходит машины российского производства. К минусам можно отнести большое количество электроники, которая повреждается от запыленного воздуха, влаги и перепадов температур.
На российский рынок поставляются машины индийской сборки. Тракторы требуют протяжки гаек после покупки или после отработки первых моточасов. Качество покраски не стабильное, есть точки, где лакокрасочное покрытие отслаивается до металла. Металл высокого качества, коррозии нет. На ранних этапах эксплуатации Бывают проблемы с резинотехническими изделиями, из-за которых возникают течи из гидравлических узлов, устраняются по гарантии.
Отзывы владельцев
Два трактора Магнум 340 производства известной качеством выпускаемой продукции компании Case IH приобрели для обновления парка агрофирмы зимой позапрошлого 2021 года. За прошедшее время новая техника в значительной степени компенсировала вложенные средства экономией рабочего времени и ГСМ, отсутствием вынужденных простоев. Существенные опасения вызывает отсутствие специалистов по обслуживанию компьютерного и другого электронного оборудования, относительно бедный ассортимент запасных частей, а также инертность сервисных служб. Павел
Покупка подержанного Магнума 340-й модели обошлась мне в 55 тысяч евро. Машина в принципе надежная, а главное экономичная в плане расхода ГСМ. На вспашке один Магнум при 23%-й экономии топлива успешно заменяет два трактора, гусеничный Т-75 и колесный универсал МТЗ-82К. Владимир Викторович
Особенности эксплуатации
Вся техника Кейс отличается высочайшим качеством, использованием при изготовлении инновационных технологий, современных композитных материалов, большим запасом прочности и надежности.
В основном, эффективность и производительность тракторов CASE IH обеспечивается сервисной электроникой, которая в постоянном режиме контролирует все рабочие процессы машины и выполнение производственных задач.
Комфортная кабина с панорамным остеклением, наличие LCD-дисплея, эргономичное размещение органов управления – по этим показателям трактора Кейс считаются наилучшими.
Рациональный доступ ко всем узлам и системам машин в значительной мере сокращает продолжительность техобслуживания и сервиса.
Возможности трактора расширены за счет универсального механизма навески и тягового бруса категории I-II.
Возможно дополнительное подключение гидровыходов на узлах передней и задней навески.
Обслуживание
По отзывам владельцев, машины очень надежны в эксплуатации, новые трактора могут проработать без ремонта несколько лет.
Они потребляют качественное дизельное топливо, оригинальное моторное масло CI-4 AKCELA MS1121 для тракторов.
Обкатка тракторов Кейс проходит на заводе, там же проводят калибровку и проверку программного обеспечения.
По окончании сезона работы, трактор необходимо законсервировать. Его надо очистить, поставить его в сухое место, слить масло, отсоединить провода свечей зажигания и смазать детали, чтобы не формировалась коррозия.
Устройство и особенности эксплуатации
CASE IH Magnum 340 базируется на оригинальной полурамной конструкции с колесным ходом. Корпус машины отличается повышенной прочностью. Полный привод позволяет технике выполнять работы на сложном грунте и в условиях повышенной влажности. Для подключения привода применяется автоматическое и принудительное управление. Именно 2-режимный механизм обеспечивает максимальные возможности. Режим блокировки заднего дифференциала выбирается с использованием электронных узлов. Оператор опять же может регулировать ширину колеи передних и задних колес, что важно при работе на крутосклонном рельефе или в междурядьях.
На Кейс IH Magnum 340 устанавливается фирменная трансмиссия Full Power Shift, позволяющая переключать передачи без прерывания потока мощности. При этом трансмиссия является многорежимной и имеет автоматическое и ручное управление. Диапазон рабочих скоростей представлен 18 фронтальными и 4 задними передачами. Наличие систем «Полевой режим» и «Дорожный просвет» улучшает работу трансмиссии и приводит к сокращению потребления горючего на 15%. В первом режиме спецтехника без вмешательства водителя поддерживает скоростной показатель на уровне 23 км/час, во втором – на уровне 40 км/час.
Гидросистема трактора рассчитана на максимальную грузоподъемность в 10580 кг. Она обеспечивает необходимую подъемную силу для большинства операций. В основе гидравлической системы лежит базовый насос (166 л/мин) и насос с повышенным расходом (228 л/мин). Вместо них могут устанавливаться 2 насоса с переменной производительностью (282 л/мин) для работы с крупными орудиями. Тягово-сцепное устройство или сцепка с силовым регулятором позволяют применять CASE IH Magnum 340 с тяжелыми и широкими агрегатами. опять же доступны многообразные регулировки (ограничение проскальзывания, подпрыгивания).
Для машины доступны следующие устройства:
На Кейс IH Magnum 340 устанавливается одна из наиболее объемных кабин в данном классе. Высочайший комфорт и превосходная обзорность позволяют оператору реализовывать свои лучшие качества. При создании кабины оператора оператора Surveyor производитель учел отзывы клиентов и компаний Северной Америки. Результатом потребители остались довольны. Панорамный обзор, много места для ног и дополнительные отделения способствовали повышению комфорта работы. Модель оснащается климат-контролем и специализированным креслом с множеством регулировок.
Органы управление трактором находятся на правом подлокотнике и перемещаются совместно с сиденьем в процессе настройки. Оператор получает доступ к основным функциям, положив руку на удобный подлокотник. Работать в таком ритме без усталости можно длительное время. Информация по состоянию CASE IH Magnum 340 находится на угловой стойке. Рулевая система машины подключена к гидравлике. Среди других механизмов, облегчающих управление, значатся:
Для работы в темное время на Кейс IH Magnum 340 устанавливаются мощное LED-освещение (функционально) с силой света 34400 лм.
Трактор отличается не только удобным управлением, но и легким обслуживанием. Машина имеет простой доступ к ключевым точкам осмотра. Интервал замены масла для модели увеличен до 600 моточасов. Среди других особенностей значатся:
Коды ошибок кейс магнум 340
Специалистами нашего предприятия накоплен огромный опыт оказания услуг по запуску двигателя CASE, когда техника заглоха при выполнении работ. У нас имеются автомобили техпомощи, опытные мастера готовые в любой момент приехать на помощь. Специализированное диагностическое оборудование.
Если система управления вышеуказанной техники при повороте ключа зажигания на старт, не включает стартер, то причина поломки заключается в электрическом оборудовании или электронных системах грузовика. Причины могут быть следующие:
Стартер крутит — не заводится
Если стартер описываемой техники при повороте ключа в замке зажигания крутится, но при этом мотор не подает никаких признаков. Причина неисправности может заключаться как в электрооборудовании автомобиля, так и в механике. Неисправности автоэлектрики могут быть как описанные выше, кроме неисправностей связанных со стартером и его цепями, плюс следующие причины:
Обзор тракторов Case (Кейс). Обслуживание. Неисправности, возникающие в процессе эксплуатации
Компания Case была основана в 1842 году и выпускала молотилки, но официальное признание в качестве производителя тракторов получила только в 1905 году, когда мир увидел агрегат с двигателем внутреннего сгорания. Для того, чтобы бренд был более узнаваем, руководство компании приняло решение в качестве ведущего цвета использовать красный.
Развитие производства шло в ногу со временем, поэтому можно с уверенностью сказать, что трактора Кейс одни из самых современных и модернизированных. Благодаря использованию передовых технологий на протяжении всего существования компании, продукция завоевала популярность среди потребителей. Бурный рост компании прослеживался на протяжении всех лет существования, при этом не останавливаясь на достигнутом, а расширяя направления.
Заметного расширения дилерской сети компания достигла к концу 80-х, когда вся европейская часть мира интересовалась проблемами механизации сельского хозяйства. Широкий модельный ряд позволяет приобрести трактор Кейс для любого вида работ, а огромное их преимущество в том, что к нему можно подключить различное навесное оборудование и от этого функциональность только увеличивается.
Трактора разделены на серии, каждая из которых отличается мощностью двигателя и другими техническими характеристиками. Основным предназначением является применение в сельском хозяйстве, так как силовой агрегат позволяет обрабатывать большие участки полей.
Модельный ряд тракторов Case
В отличие от других производителей компания Case решила быть оригинальной и дала следующие названия своим сериям: Farmall, Maxxum, Puma, Magnum, Steiger.
Выделяют следующие достоинства техники Кейс:
Case Steiger
Производитель заявляет, что вся выпускаемая продукция отличается повышенным качеством и благодаря применению новейших технологий легко справляется с любыми задачами. Высокая эффективность достигается за счет сложнейших электронных систем, позволяющих контролировать работу.
Судя по отзывам владельцев, которые активно эксплуатируют технику Кейс, тракторы отличаются качеством и надежностью, поэтому первые несколько лет работают без ремонта. Однако, чтобы добиться такого результат необходимо следить за регулярностью и качеством проведения технического обслуживания. Трактора работают на дизельном топливе повышенного качества, а в качестве моторного масла нужно использовать CI-4 AKCELA MS1121.
Огромным достоинством новых тракторов является то, что они поступают в продажу уже с проведенной обкаткой. Также на предприятии перед отправкой в дилерскую сеть проводится калибровка и тестирование всех электронных систем.
Консервирование производится по всем правилам, описанным в инструкции по эксплуатации. Сначала трактор моется, сушится, а потом все детали и механизмы протираются промясленной тряпкой. Масло сливается, а контакты на свечах отсоединяются. После всех процедур трактор ставится в сухое место и накрывается чехлом.
Неисправности техники Case
Так как машины снабжены большим количеством электронных систем, то в случае отказа какой-либо системы, лучше всего обратиться в сервисный центр. Владельцы жалуются, что мало подробной информации о том, как выполнять ремонт техники Кейс, но для ее ремонта требуется только специальные квалифицированные знания, которыми обладают только специалисты в сервисных центрах.
Видео обзор тракторов Case
Ниже представлен видео обзор трактора Кейс MX135
Видео обзор, посвященный трактору Case JX
Отзывы владельцев
Алексей:
Купил американский трактор Кейс Магнум за 54 000 евро. Деньги стоит немалые, но окупается полностью, так как заменяет 2 МТЗ. Очень нравится, что при своей мощи, он очень экономичный. Хочется особо отметить в своем отзыве удобную кабину и облегченное управление. Сложности возникают только на начальном этапе, когда видишь перед собой всю эту электронику и пытаешься в ней разобраться. Но это только вначале.
Трактор Case Magnum 340 технические характеристики
Трактор Кейс Магнум 340 представляет собой универсальную машину высокой мощности на колёсном ходу. Это одна из самых популярных моделей на отечественном рынке, которая полюбилась многим пользователям за её высокий уровень мощности и отменную надёжность. Выпускается агрегат на производственных площадях машиностроительного концерна Case. Данное предприятие осуществляет свою деятельность более 100 лет и славится изготовлением энергоёмких и многофункциональных видов техники, предназначенных для проведения строительных и сельскохозяйственных видов работ.
Назначение
Трактор Case 340 широко используется для выполнения следующих видов работ:
Внешний вид трактора представлен на фото ниже:
Трактор Кейс Магнум 340
Двигатель
Штатный силовой агрегат трактора Магнум 340-й модели — шестицилиндровый 340-сильный дизель FPT Cursor 9 Tier II объемом 8,7 литра. В режиме Power BOOST возможно увеличение мощности до 389 л. с.
Стабильности показателя крутящего момента 1671 Нм с 40%-м запасом, способствует турбонаддув со встроенным контуром охлаждения сжатого воздуха, а также топливная система марки High Pressure Common Rail с электронным контролем впрыска. Автономность работы тракторного агрегата на удаленных участках обеспечивает топливный бак емкостью 765 литров.
Технические характеристики
Технические характеристики трактора Кейс Магнум 340 обладают следующими показателями:
Характеристики двигателя
Устройство
Трактор Магнум имеет оригинальную полурамную конструкцию корпуса, которая базируется на колёсном ходу. На машине установлена фирменная трансмиссия FullPowerShift TM и многоступенчатая коробка передач, позволяющая использовать агрегат при различных скоростных режимах. Для агрегирования трактора с большим количеством сельскохозяйственного оборудования в его конструкции предусмотрены такие компоненты, как дистанционная гидросистема и ВОМ, способный работать на двух скоростях: 540 и 1000 об/мин. На данный трактор можно устанавливать спаренные шины и балластный груз, которые позволяют идеально балансировать машину при работе на самых сложных участках местности.
Кейс Магнум 340
Трансмиссия
Можно выбрать одну из двух трансмиссий, исходя из требований технологического процесса — бесступенчатая коробка передач (CVT) или знаменитая и эффективная Powershift. Magnum CVT обеспечивает бесконечный выбор скоростей от 0,01 км/ч до 40 км/ч. Использование программного обеспечения автоматического управления производительностью (Auto Productivity Management, APM). Трансмиссия Magnum Powershift является стандартом в рамках эффективности карданной передачи, она оснащена функцией автоматического управления производительностью (APM), что обеспечивает сохранение топлива и повышение производительности благодаря соответствию нагрузки трансмиссии и выхода двигателя. Трансмиссия 18×6 или 19×6 с восемью передачами в критическом рабочем диапазоне. Идеально подходит для сельскохозяйственных работ обработки почвы с тяжелой буксировкой.
Преимущества и недостатки
Машина Case 340 отличается от своих конкурентов следующими характеристиками:
Минусов у трактора всего два: высокая стоимость машины и недостаточное количество сервисных станций, расположенных на территории страны.
Отзывы
Пользователи и владельцы трактора Кейс 340 оставляют о машине следующие отзывы:
Обязательно почитайте: Трактор МТЗ 892 Беларус
Устройство и особенности эксплуатации
CASE IH Magnum 340 базируется на оригинальной полурамной конструкции с колесным ходом. Корпус машины отличается повышенной прочностью. Полный привод позволяет технике выполнять работы на сложном грунте и в условиях повышенной влажности. Для подключения привода применяется автоматическое и принудительное управление. Именно 2-режимный механизм обеспечивает максимальные возможности. Режим блокировки заднего дифференциала выбирается с использованием электронных узлов. Оператор опять же может регулировать ширину колеи передних и задних колес, что важно при работе на крутосклонном рельефе или в междурядьях.
На Кейс IH Magnum 340 устанавливается фирменная трансмиссия Full Power Shift, позволяющая переключать передачи без прерывания потока мощности. При этом трансмиссия является многорежимной и имеет автоматическое и ручное управление. Диапазон рабочих скоростей представлен 18 фронтальными и 4 задними передачами. Наличие систем «Полевой режим» и «Дорожный просвет» улучшает работу трансмиссии и приводит к сокращению потребления горючего на 15%. В первом режиме спецтехника без вмешательства водителя поддерживает скоростной показатель на уровне 23 км/час, во втором – на уровне 40 км/час.
Гидросистема трактора рассчитана на максимальную грузоподъемность в 10580 кг. Она обеспечивает необходимую подъемную силу для большинства операций. В основе гидравлической системы лежит базовый насос (166 л/мин) и насос с повышенным расходом (228 л/мин). Вместо них могут устанавливаться 2 насоса с переменной производительностью (282 л/мин) для работы с крупными орудиями. Тягово-сцепное устройство или сцепка с силовым регулятором позволяют применять CASE IH Magnum 340 с тяжелыми и широкими агрегатами. опять же доступны многообразные регулировки (ограничение проскальзывания, подпрыгивания).
Для машины доступны следующие устройства:
На Кейс IH Magnum 340 устанавливается одна из наиболее объемных кабин в данном классе. Высочайший комфорт и превосходная обзорность позволяют оператору реализовывать свои лучшие качества. При создании кабины оператора оператора Surveyor производитель учел отзывы клиентов и компаний Северной Америки. Результатом потребители остались довольны. Панорамный обзор, много места для ног и дополнительные отделения способствовали повышению комфорта работы. Модель оснащается климат-контролем и специализированным креслом с множеством регулировок.
Органы управление трактором находятся на правом подлокотнике и перемещаются совместно с сиденьем в процессе настройки. Оператор получает доступ к основным функциям, положив руку на удобный подлокотник. Работать в таком ритме без усталости можно длительное время. Информация по состоянию CASE IH Magnum 340 находится на угловой стойке. Рулевая система машины подключена к гидравлике. Среди других механизмов, облегчающих управление, значатся:
Для работы в темное время на Кейс IH Magnum 340 устанавливаются мощное LED-освещение (функционально) с силой света 34400 лм.
Трактор отличается не только удобным управлением, но и легким обслуживанием. Машина имеет простой доступ к ключевым точкам осмотра. Интервал замены масла для модели увеличен до 600 моточасов. Среди других особенностей значатся:
Аналоги
К тракторам, которые близки по мощности и весовым показателям к Магнуму 340, можно отнести такие машины как, John Deere8310R, New Holland T8040 и Fendt 936 Vario. Их параметры представлены следующими значениями:
| Модель | Масса, т | Мощность, л. с | Скорость передвижения, км/ч | Дорожный просвет, м | Расход топлива, г/кВт. ч |
| John Deere8310R | 12,4 | 341,0 | 42,0 | 0,66 | 205,0 |
| NewHolland T8040 | 9,8 | 337,0 | 40,0 | 0,6 | 200,0 |
| Fendt 936 Vario | 10,8 | 350,0 | 55,0 | 0,6 | 195,0 |
Мощный и высокопроизводительный агрегат CASE IH Magnum 340 ориентирован на проведение интенсивных и трудоёмких работ различного уровня сложности. Великолепные технические характеристики и широкие эксплуатационные возможности машины позволяют использовать её в сцепке с большим количеством навесного и прицепного оборудования.
Несмотря на высокую стоимость покупки и дороговизну обслуживания, этот трактор является прекрасным выбором для всех ценителей отличного качества и долговечности техники.
Источники:
https://auto-elektric. ru/electric-spetctehniki/case-ne-zavoditsya/
https://proogorod. com/selhoztekhnika/traktory/obzor-traktorov-case
https://gp-prsmah. ru/brend/case-magnum. html
Case IH Magnum 235 — 340 Fault Codes DTC
Case IH Magnum 235 — 340 Fault Codes DTC
Case IH Magnum 235 — 340 Fult Codes DTC.
Adobe Acrobat Document
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Case IH Tractors, Farmall series Fault Codes DTC
TYPE CODE ERROR
ENG 111 Engine Controller Failure — Hardware Failure
ENG 115 Engine Speed Sensor (8.3, 9 Liter) or Cam Sensor (15 Liter) is failed
ENG 121 Engine Position Sensor (8.3, 9 Liter) or Crankshaft Sensor (15 Liter) is failed
ENG 122 Boost Pressure Sensor voltage is too high
ENG 123 Boost Pressure Sensor voltage is too low
ENG 124 Boost Pressure level has exceeded the warning limit.
ENG 131 Decelerator or Hand Throttle (STD cab) Position potentiometer voltage is too high
ENG 132 Decelerator or Hand Throttle (STD cab) Position potentiometer voltage is too low
ENG 133 Decelerator (STD cab) Position potentiometer voltage is too high
ENG 134 Decelerator (STD cab) Position potentiometer voltage is too low
ENG 135 Oil Pressure Sensor voltage is too high
ENG 141 Oil Pressure Sensor voltage is too low
ENG 143 Oil Pressure level has fallen below the warning limit.
ENG 144 Coolant Temperature Sensor voltage is too high
ENG 145 Coolant Temperature Sensor voltage is too low
ENG 146 Coolant Temperature level has exceeded the warning limit.
ENG 147 Frequency Throttle Signal shorted high
ENG 148 Frequency Throttle Signal shorted low
ENG 151 Coolant Temperature level has exceeded the warning limit.
ENG 153 Intake Manifold Temperature Sensor voltage is too high
ENG 154 Intake Manifold Temperature Sensor voltage is too low
ENG 155 Intake Manifold Temperature level has exceeded the warning limit.
ENG 187 Sensor Supply 2 Voltage is too low.
ENG 191 A/C clutch driver shorted to ground when ON.
ENG 211 Communications problem with Armrest, Instrumentation, or Transmission Controllers
ENG 212 Oil Temperature Sensor Voltage is too high
ENG 213 Oil Temperature Sensor Voltage is too low
ENG 214 Oil Temperature Sensor Voltage is above normal range
ENG 219 Oil Level — remote reservoir is too low. Add oil.
ENG 221 Ambient Air Pressure Sensor Voltage is too high
ENG 222 Ambient Air Pressure Sensor Voltage is too low
ENG 223 CORS — Burn Valve Solenoid is shorted either low or high
ENG 227 Sensor Supply 2 Voltage is too high.
ENG 234 Engine Speed has exceed the overspeed warning limit.
ENG 235 Engine Coolant Level is low. Add coolant fluid.
ENG 237 External Speed Multi Unit Sync Command Input Data Incorrect.
ENG 241 Vehicle Speed Signal lost
ENG 242 Vehicle Speed Signal intermittent / tampering
ENG 243 Error detected in exhaust brake relay
ENG 245 Fan Clutch Voltage too low
ENG 254 Fuel Shutoff Valve Voltage too low
ENG 255 Fuel Shutoff Valve Voltage too high
ENG 259 Fuel Shutoff Valve mechanically stuck open.
ENG 263 Fuel Temperature Sensor voltage is too high
ENG 265 Fuel Temperature Sensor voltage is too low
ENG 268 Fuel Pressure in pump is not changing with operating conditions.
ENG 271 Front Pumping Control Valve current is low during ñclick testî
ENG 272 Front Pumping Control Valve current is high
ENG 273 Rear Pumping Control Valve current is low during ñclick testî
ENG 274 Rear Pumping Control Valve current is high
ENG 275 Front Pumping element is failed
ENG 276 Injection Control Valve current is out of range
ENG 277 Injection Control Valve is failed
ENG 278 Fuel Lift Pump is failed
ENG 279 Injection Control Valve current is out of range
ENG 281 Front Pumping element is failed
ENG 282 Rear Pumping element is failed
ENG 283 Engine Speed/Position Sensor supply voltage is too high
ENG 284 Engine Speed/Position Sensor supply voltage is too low
ENG 285 J1939 Parameter was set to be multiplexed, but not received (timeout error)
ENG 286 J1939 Parameter was set to be multiplexed, but not available from all sources (config error)
ENG 287 Multiplexing throttle parameter and a data error was received — data invalid
ENG 288 Multiplexing remote throttle parameter and a data error was received — data invalid
ENG 293 Hydraulic Fan Hydraulic Oil Temperature Sensor Voltage is too high
ENG 294 Hydraulic Fan Hydraulic Oil Temperature Sensor Voltage is too low
ENG 295 Ambient Air Pressure data invalid
ENG 297 OEM Pressure Sensor Voltage is too high.
ENG 298 OEM Pressure Sensor Voltage is too low.
ENG 299 Engine Shutdown by other than keyswitch (i.e. via data bus command)
ENG 319 Real Time Clock in controller has lost power
ENG 328 Rear Pumping element is failed
ENG 329 CAPS Pump has an overpumping failure
ENG 338 Idle Shutdown Vehicle Accessory Relay Voltage is too high
ENG 339 Idle Shutdown Vehicle Accessory Relay Voltage is too low
ENG 341 All data written during powerdown cycle was lost (checksum error)
ENG 343 Engine Controller Failure — Hardware Failure
ENG 349 Measured Speed is too high.
ENG 352 5 Volt Sensor Supply voltage is too low
ENG 378 Front Fueling current is too low
ENG 379 Front fueling current is too high
ENG 381 Error detected in cold start relay 1
ENG 382 Error detected in cold start relay 2
ENG 385 5 Volt Sensor Supply voltage is too high
ENG 386 5 Volt Sensor Supply voltage is too high
ENG 387 Decelerator or Hand Throttle (STD cab) 5 Volt Supply voltage is too high
ENG 388 Engine Brake driver 1 circuit failure
ENG 392 Engine Brake driver 2 circuit failure
ENG 393 Engine Brake driver 3 circuit failure
ENG 394 Front Timing current is too low.
ENG 395 Front Timing current is too high.
ENG 396 Rear Fueling current is too low
ENG 397 Rear Fueling current is too high
ENG 398 Rear Timing current is too low
ENG 399 Rear Timing current is too high
ENG 412 J1708 data link cannot transmit
ENG 414 J1708 data link not fast enough
ENG 415 Oil Pressure level has fallen below the very low warning limit.
ENG 418 Water in Fuel sensor indicates the water in the fuel filter needs to be drained.
ENG 419 Boost Pressure data invalid
ENG 422 Engine Coolant Level Sensor (optional) is failed or the jumper plug is missing
ENG 426 J1939 data link cannot transmit
ENG 427 J1939 data link not fast enough
ENG 428 Water in Fuel Sensor voltage is too high.
ENG 429 Water in Fuel Sensor voltage is too low.
ENG 431 Hand Throttle (STD cab) Idle Validation Switches are both closed
ENG 432 Hand Throttle (STD cab) position potentiometer and switches disagree.
ENG 433 Boost Pressure level disagrees with engine operation conditions (speed & power)
ENG 434 Unswitched 12 volt supply voltage disconnected without normal key off sequence.
ENG 435 Oil Pressure data invalid
ENG 441 Battery Voltage is too Low (less than 6 volts)
ENG 442 Battery Voltage is too High
ENG 443 Decelerator or Hand Throttle (STD cab) 5 Volt Supply voltage is too low
ENG 444 Low voltage detected at OEM 5 volt supply
ENG 449 Fuel Pressure level has exceeded the warning limit.
ENG 451 Fuel Pressure Sensor voltage is too high
ENG 452 Fuel Pressure Sensor voltage is too low
ENG 456 Fuel Pressure in pump is not changing with operating conditions.
ENG 465 Wastegate 1 voltage is too high
ENG 466 Wastegate 1 voltage is too low
ENG 482 Fuel Pressure Sensor voltage low
ENG 483 Rear Bank Post Actuactor Pressure voltage high
ENG 484 Rear Bank Post Actuactor Pressure voltage low
ENG 485 Rear Fueling actuator overfueling
ENG 486 Rear Fueling actuator underfueling
ENG 488 Intake Manifold Temperature level has exceeded the warning limit.
ENG 489 Measured Speed Sensor data low
ENG 491 Wastegate 2 voltage is too high
ENG 492 Wastegate 2 voltage is too low
ENG 493 The Injection Control Identifier Circuit in the harness has failed.
ENG 496 Engine Speed / Position Sensor #2 supply is too low
ENG 524 Error detected on high speed governor droop selection switch
ENG 527 Cab pressurization/Ether relay coil circuit shorted high or open
ENG 529 Output B driver shorted high or open
ENG 539 The Injection Control Valve Transorb in the harness has failed. (open circuit)
ENG 546 Fuel Pressure sensor voltage is too high.
ENG 547 Fuel Pressure sensor voltage is too low.
ENG 551 Hand Throttle (STD cab) Idle Validation Switches are both open
ENG 553 Front fueling actuator overfueling
ENG 559 Front fueling actuator underfueling
ENG 581 Fuel inlet Pressure Sensor voltage is too high.
ENG 582 Fuel inlet Pressure Sensor voltage is too low.
ENG 583 Fuel Inlet Pressure Sensor voltageout of range high or low.
ENG 595 Turbo overspeed protection fault
ENG 596 Battery voltage is too high
ENG 597 Battery voltage is too low
ENG 598 Battery voltage is very low
ENG 599 Engine is being shutdown based on OEM input
ENG 611 ECM detected engine initiated protection shutdown or keyed-off while above specific load limit
ENG 697 Engine Controller internal temperature too high
ENG 698 Engine Controller internal temperature too low
ENG 731 Engine Speed / Position #2 — Mechanical misalignment.
ENG 753 Synchronization has been lost.
ENG 755 Front Bank injector is bad.
ENG 758 Rear Bank injector is bad
ENG 951 A power imbalance between the cylinders was detected by the controller hardware
ENG 983 Unused A/D input channel out of range.
ENG 1117 Battery voltage too low, or the controller was not allowed to power down correctly
ENG 1256 Control Module Identification Input State Error.
ENG 1257 Control Module Identification Input State Error.
ENG 2117 Engine Coolant Level is low. Add coolant fluid.
ENG 2186 Supply Voltage to the accelerator pedal position sensor too low.
ENG 2195 Auxiliary Equipment Sensor Input # 3 — Engine Protection Critical — Special Instructions.
ENG 2249 Injector Metering Rail 1 Fuel Pressure lower than commanded pressure.
ENG 2265 Electric Lift Pump for Engine Fuel Supply Voltage too high.
ENG 2266 Electric Lift Pump for Engine Fuel Supply Voltage too low.
ENG 2292 Fuel Inlet Meter Device higher than expected.
ENG 2293 Fuel Inlet Meter Device flow demand lower than expected.
ENG 2311 Electronic Fuel Injection Control Valve open or closed Circuit.
ENG 2321 Engine Crankshaft Speed / Position data invalid.
ENG 2322 Engine Camshaft Speed / Position Sensor data invalid.
ENG 2372 Engine Fuel Filter clogged error
ENG 2555 Intake Air Heater 1 Circuit Voltage too high.
ENG 2558 Auxiliary PWM Driver 1 Circuit Voltage too low.
ENG 2973 Intake Manifold 1 Pressure data invalid.
TRANS 11 Master Clutch Potentiometer Open Circuit or short to ground
TRANS 12 Master Clutch Potentiometer Short to +12 Volts or short to 5 Vreff
TRANS 24 None of the transmission clutches are calibrated
TRANS 37 BOC switch open circuit or Neutral relay stuck open
TRANS 38 Shuttled to reverse when no wheel speed signal was available
TRANS 47 Clutch pedal bottom of clutch switch misadjusted
TRANS 48 BOC switch or Neutral relay short circuit
TRANS 49 Auto Guidance Isolation valve driver Fault
TRANS 50 Park Brake is powered off when in park
TRANS 51 FNRP pod indicates Forward or Reverse is on, when Park is on
TRANS 52 Park Brake is stuck on when commanded off
TRANS 53 5 volt reference voltage too high
TRANS 54 5 volt reference voltage too low
TRANS 59 FNRP pod in illogical state (two positions on at same time)
TRANS 60 FNRP pod in illogical state (in no position)
TRANS 61 System pressure valve solenoid circuit is open circuit or shorted to ground
TRANS 62 System pressure solenoid is shorted to B+
TRANS 64 Transmission output Sped is too high (above 8200 RPM)
TRANS 65 Operator attempted a shuttle operation while out of the seat
TRANS 66 FNRP Pod Forward switch is shorted to ground or open circuit
TRANS 67 FNRP Pod Forward switch is shorted to power
TRANS 68 FNRP Pod Reverse switch is shorted to ground or open circuit
TRANS 69 FNRP Pod Reverse switch is shorted to power
TRANS 70 Battery voltage is too low for clutch solenoid operation
TRANS 72 Transmission Oil Temperature is above 122 deg. C
TRANS 73 Software is out of the calibration mode and the park brake request is still active.
TRANS 74 The park brake ON with gear is engaged — no park brake request from calibration.
TRANS 75 Engine speed from Inst Controller does not match the speed signal from the alternator.
TRANS 76 Engine speed from Eninge Controller does not match the speed signal from the alternator.
TRANS 77 No signal from wheel speed sensor
TRANS 78 Transmission regulated pressure accumulator is discharged
TRANS 79 Engine RPM from the alternator is measured too high
TRANS 80 Wheel speed sensor is measured too high
TRANS 81 Transmission clutches are slipping
TRANS 82 Creep Clutch is not calibrated
TRANS 83 Communications Lost with Engine Controller
TRANS 103 Odd clutch solenoid or its wiring failed open or shorted to ground
TRANS 104 Even clutch solenoid or its wiring failed open or shorted to ground
TRANS 105 C1-2 clutch solenoid or its wiring failed open or shorted to ground
TRANS 106 C3-4 clutch solenoid or its wiring failed open or shorted to ground
TRANS 107 C5-6 clutch solenoid or its wiring failed open or shorted to ground
TRANS 108 Master clutch solenoid or its wiring failed open or shorted to ground
TRANS 109 Low range clutch solenoid or its wiring failed open or shorted to ground
TRANS 110 Mid range clutch solenoid or its wiring failed open or shorted to ground
TRANS 111 High range clutch solenoid or its wiring failed open or shorted to ground
TRANS 112 Reverse clutch solenoid or its wiring failed open or shorted to ground
TRANS 113 Creeper clutch solenoid or its wiring failed open or shorted to ground
TRANS 114 Even clutch solenoid coil or its wiring shorted to power
TRANS 115 Odd clutch solenoid coil or its wiring shorted to power
TRANS 116 C1-2 clutch solenoid coil or its wiring shorted to power
TRANS 117 C3-4 clutch solenoid coil or its wiring shorted to power
TRANS 118 C5-6 clutch solenoid coil or its wiring shorted to power
TRANS 119 Master clutch solenoid coil or its wiring shorted to power
TRANS 120 Low range clutch solenoid coil or its wiring shorted to power
TRANS 121 Mid range clutch solenoid coil or its wiring shorted to power
TRANS 122 High range clutch solenoid coil or its wiring shorted to power
TRANS 123 Reverse clutch solenoid coil or its wiring shorted to power
TRANS 124 Creeper clutch solenoid coil or its wiring shorted to power
TRANS 125 Odd clutch is not calibrated
TRANS 126 Even clutch is not calibrated
TRANS 127 C1-2 clutch is not calibrated
TRANS 128 C3-4 clutch is not calibrated
TRANS 129 C5-6 clutch is not calibrated
TRANS 130 Low range clutch is not calibrated
TRANS 131 Mid range clutch is not calibrated
TRANS 132 High range clutch is not calibrated
TRANS 133 Reverse clutch is not calibrated
TRANS 134 Master clutch is not calibrated
TRANS 135 Communication lost with the armrest controller
TRANS 136 Communication lost with the instrumentation controller
TRANS 137 Front Suspension raise lock solenoid circuit shorted or open circuit
TRANS 138 Front Suspension raise solenoid circuit shorted or open circuit
TRANS 139 Front Suspension lower lock solenoid circuit shorted or open circuit
TRANS 140 Front suspension position is above the expected absolute limit
TRANS 141 Front suspension position is below the expected absolute limit
TRANS 142 Front suspension travel range has not been calibrated
TRANS 143 Front suspension position is above the upper suspension range
TRANS 144 Front suspension position is below the lower suspension range
TRANS 145 Front Suspension lower lock solenoid circuit shorted or open circuit
TRANS 146 Regulated system pressure low (below 100PSI / 689 KPA)
TRANS 147 Regulated system pressure below 290 PSI
TRANS 148 Backup alarm circuit shorted or open
TRANS 150 Front suspension pressure sensor rod side (DA-R) out of range high
TRANS 151 Front suspension pressure sensor rod side open circuit
TRANS 152 Front Suspension pressure control not able to increase pressure on the rod side
TRANS 153 Front Suspension pressure control not able to decrease pressure on the rod side
TRANS 154 Front Suspension Lock Valve Stuck on fault (suspension will not lock)
TRANS 155 Front Suspension Lock Valve is stuck of (suspension will not unlock)
TRANS 156 Lock valve was installed but removed
ARM 19 Hand THROTTLE potentiometer is failed
ARM 29 Aux 1st remote valve LEVER potentiometer is failed
ARM 39 Aux 2nd remote valve LEVER potentiometer is failed
ARM 49 Aux 3rd remote valve LEVER potentiometer is failed
ARM 59 Aux 4th remote valve LEVER potentiometer is failed
ARM 69 HITCH POSITION command potentiometer is failed
ARM 79 HITCH LOAD command potentiometer is failed
ARM 89 Aux 1st remote valve FLOW potentiometer is failed
ARM 99 Aux 2nd remote valve FLOW potentiometer is failed
ARM 109 Aux 3rd remote valve FLOW potentiometer is failed
ARM 119 Aux 4th remote valve FLOW potentiometer is failed
ARM 129 Aux 5th remote valve FLOW potentiometer is failed
ARM 139 Aux remote valve TIMER potentiometer is failed
ARM 149 Hitch UPPER LIMIT potentiometer is failed
ARM 159 Hitch DROP RATE potentiometer is failed
ARM 169 Hitch TRAVEL potentiometer is failed
ARM 1029 Aux 5th remote valve control switch is failed
ARM 1039 PTO switch is failed
ARM 1049 Hitch UP/DOWN switch is failed
ARM 1059 Hitch SLIP switch is failed
ARM 1069 MFD switch is failed
ARM 1079 DIFF LOCK switch is failed
ARM 1089 Programmable UP/DOWN switch is failed.
ARM 1099 Aux remote valve LIMIT SET switch is failed
ARM 1109 Hand Throttle IDLE VALIDATION switch is failed
ARM 1119 RECORD/PLAY switch is failed
ARM 1129 Invalid Configuration — Implement Depth Control switch is failed
ARM 1139 Engine Brake switch is failed
ARM 1149 Auto Field / Transport Switch is in an illogical state
ARM 8011 Battery Voltage is too Low
ARM 9011 Controller Memory Error — Loss of Hitch Position Command Calibration
ARM 9012 Controller Memory Error — Loss of Aux Remote Lever Calibrations
ARM 9013 Controller Memory Error — Loss of Throttle Calibrations
ARM 9014 Controller Memory Error — Loss of MFD switch Configuration
ARM 9015 Controller Memory Error — Loss of Trans switches Configuration
ARM 9021 Hitch position command potentiometer calibration results not acceptable
ARM 9031 Hand throttle potentiometer calibration results not acceptable
ARM 9041 Hitch DROP RATE potentiometer calibration value(s) are out of range
ARM 10091 Armrest Controller failure — 5 V regulator failure
ARM 12013 Communications Lost with Data Bus and ALL other controllers
ARM 12081 Loss of/unavailable Performance Monitor Display — RECORD/PLAY functionality disabled
CASE IH & NEW HOLLAND Tractor Fault Codes DTC
TMF 3 Hitch Raise Solenoid High Side Driver shorted to 12 volts.
TMF 4 Hitch Raise Solenoid Failed Open or Shorted to Ground.
TMF 5 Hitch Lower Solenoid Shorted to 12 volts.
TMF 6 Hitch Lower Solenoid High Side Driver circuit short to 12 volts.
TMF 7 Hitch Raise/Lower Solenoids Open or short to ground.
TMF 11 Communications Lost with Data Bus and ALL other controllers
TMF 12 Communication lost with the armrest controller
TMF 14 5 Volt Sensor Supply voltage is too high
TMF 15 5 Volt Sensor Supply voltage is too low
TMF 17 Hitch Position Command potentiometer failed in the Armrest controller
TMF 18 Hitch Rockshaft Position potentiometer is outside normal operating range.
TMF 19 Hitch Upper Limit potentiometer is failed in the Armrest Controller
TMF 21 Hitch Load Command potentiometer is failed in the Armrest Controller
TMF 22 Single draft pin sensor failed when configured for one draft pin sensor.
TMF 23 Two draft pin sensors failed when configured for two draft pins.
TMF 24 Communications Lost with Instrumentation Controller
TMF 25 Hitch Up/Down Switch failed in the Armrest controller
TMF 26 Fender UP and DOWN switch failure or both switches simultaneously pressed
TMF 28 Hitch Travel potentiometer is failed in the Armrest Controller
TMF 29 Hitch Drop Rate potentiometer is failed in the Armrest Controller
TMF 30 Right Draft Pin voltage is outside the normal operating range.
TMF 31 Left Draft Pin voltage is outside the normal operating range.
TMF 32 Ground Speed Signal is failed in the Instrumentation Controller
TMF 33 Hitch Slip Set Switch failed in the Armrest controller
TMF 34 Hitch Slip Select Switch failed in the Armrest controller
TMF 35 Slip Sensor (radar or wheel speed) is failed in the Instrumentation Controller
TMF 37 The ARU reports EDC Transport Lock is faulty or not available.
TMF 41 Draft pin(s) detected but the Armrest controller specified tractor without draft control.
TMF 42 Engine speed must be set above 1600 rpm during calibration of lower valve.
TMF 43 No Draft pin(s) detected but the Armrest controller specified tractor with draft control.
TMF 44 Hitch calibration aborted due to tractor movement.
TMF 45 Hitch calibration attempted when the engine is not running or engine speed signal is failed.
TMF 47 Raise Valve calibration value is too high. (valve problem)
TMF 48 Raise Valve calibration value is too low. (valve problem)
TMF 50 Hitch position at top of travel is not within specification during calibration
TMF 51 Lower Valve calibration value is too high. (valve problem)
TMF 52 Lower Valve calibration value is too low. (valve problem)
TMF 53 The time allowed for hitch calibration has expired
TMF 54 Hitch position at bottom of travel is not within specification during calibration
TMF 55 Hitch position range from top to bottom is not within spec during calibration
TMF 56 Hitch position range to position command range ratio is not within spec during calibration.
TMF 57 Right Draft Pin voltage is not within spec for ïno loadà condition during calibration
TMF 58 Left Draft Pin voltage is not within spec for ïno loadà condition during calibration
TMF 59 Both Draft Pin voltages are not within spec for ïno loadà condition during calibration
TMF 60 Draft pin connected to left vs right for single pin setup during calibration
TMF 61 The Hitch Calibration procedure must be performed.
TMF 62 Communications Lost with Performance Monitor Function
TMF 63 Controller 8 volt reference is too high (above 8.8 volts).
TMF 64 Controller 8 volt reference is too low (below 7.2 volts).
TMF 65 Battery Voltage is too Low
TMF 66 Battery Voltage is too Low
TMF 80 MFD fault condition in software.
TMF 81 MFD Solenoid is failed Open or Short Circuit
TMF 82 Differential Lock Solenoid is failed Open or Short Circuit
TMF 83 Brake Lamp Relay Solenoid is failed Open or Short Circuit
TMF 86 Wheel Slip Signal is failed in the Instrumentation Controller
TMF 87 Ground Speed Signal is failed in the Instrumentation Controller
TMF 88 Differential Lock Switch is failed in the Armrest Controller
TMF 89 Differential Lock Switch is failed in the Armrest Controller
TMF 90 Differential Lock Switch is failed in the Armrest Controller
TMF 92 MFD Switch is failed in the Armrest Controller
TMF 93 MFD Switch is failed in the Armrest Controller
TMF 94 Differential Lockout fault condition in software.
TMF 95 The steering angle sensor is above the expected operating range
TMF 96 The steering angle sensor is below the expected operating range
TMF 98 Battery Voltage is too Low
TMF 99 Battery Voltage is too Low
TMF 106 Aux 5th remote valve control switch (Extend) is failed in the Armrest Controller
TMF 107 Aux 5th remote valve control switch (Retract) is failed in the Armrest Controller
TMF 108 Aux 1st remote valve LEVER potentiometer is failed in the Armrest Controller
TMF 109 Aux 2nd remote valve LEVER potentiometer is failed in the Armrest Controller
TMF 110 Aux 3rd remote valve LEVER potentiometer is failed in the Armrest Controller
TMF 111 Aux 4th remote valve LEVER potentiometer is failed in the Armrest Controller
TMF 112 Aux 1st remote valve FLOW potentiometer is failed in the Armrest Controller
TMF 113 Aux 2nd remote valve FLOW potentiometer is failed in the Armrest Controller
TMF 114 Aux 3rd remote valve FLOW potentiometer is failed in the Armrest Controller
TMF 115 Aux 4th remote valve FLOW potentiometer is failed in the Armrest Controller
TMF 116 Aux 5th remote valve FLOW potentiometer is failed in the Armrest Controller
TMF 120 Electro Hydraulic Remote top link switch is stuck on.
TMF 123 Aux 1st Lower Coil solenoid shorted to 12 volts.
TMF 124 Aux 1st Lower solenoid failed open or short circuit.
TMF 125 Aux 1st Raise Coil solenoid shorted to 12 volts.
TMF 126 Aux 1st Raise solenoid failed open or short circuit.
TMF 127 Aux 2nd Lower Coil solenoid shorted to 12 volts.
TMF 128 Aux 2nd Lower solenoid failed open or short circuit.
TMF 129 Aux 2nd Raise Coil solenoid shorted to 12 volts.
TMF 130 Aux 2nd Raise solenoid failed open or short circuit.
TMF 131 Aux 3rd Lower Coil solenoid shorted to 12 volts.
TMF 132 Aux 3rd Lower solenoid failed open or short circuit.
TMF 133 Aux 3rd Raise Coil solenoid shorted to 12 volts.
TMF 134 Aux 3rd Raise solenoid failed open or short circuit.
TMF 135 Aux 4th Lower Coil solenoid shorted to 12 volts.
TMF 136 Aux 4th Lower solenoid failed open or short circuit.
TMF 137 Aux 4th Raise Coil solenoid shorted to 12 volts.
TMF 138 Aux 4th Raise solenoid failed open or short circuit.
TMF 139 Aux 5th Lower Coil solenoid shorted to 12 volts.
TMF 141 Aux 5th Raise Coil solenoid shorted to 12 volts.
TMF 142 Aux 5th Raise solenoid failed open or short circuit.
TMF 147 Implement feedback #1 out of range High
TMF 148 Implement feedback #1 out of range Low
TMF 149 Implement feedback #2 out of range High
TMF 150 Implement feedback #2 out of range Low
TMF 151 Communications Lost with Transmission Controller
TMF 152 Electro Hydraulic Remote top link switch voltage is short circuit.
TMF 153 Electro Hydraulic Remote top link switch data invalid
TMF 154 PTO switch interlock — Cab Switch and Fender switch on at the same time.
TMF 155 Auto PTO switch data failed in the Armrest controller.
TMF 156 Auto PTO switch stuck ON in Armrest Controller.
TMF 157 PTO remote fender switch short circuit.
TMF 158 PTO remote fender switch open circuit
TMF 159 PTO remote fender switch stuck ON.
TMF 160 PTO Clutch is Slipping Too Much
TMF 162 Engine Stalled when the PTO was running.
TMF 163 PTO Shaft rotation is detected when the PTO clutch is OFF.
TMF 164 PTO shaft speed has not been detected within 3.6 seconds of being turned ON.
TMF 165 PTO Shaft rotation is detected when the Engine is OFF.
TMF 166 PTO Driver is on and no current is sensed.
TMF 167 Current sensed when the PTO driver is off.
TMF 168 PTO ON/OFF switch is failed in the Armrest Controller
TMF 169 PTO ON/OFF switch is failed in the Armrest Controller
TMF 170 PTO ON/OFF switch is failed in the Armrest Controller
TMF 171 PTO software fault condition detected.
TMF 172 PTO Solenoid Circuit is failed shorted to 12 Volts when PTO is in the off state.
TMF 173 PTO Solenoid Circuit is failed shorted to ground when PTO is in the off state.
TMF 174 Current flowing in the PTO sense resistor when the high side is off.
TMF 175 PTO Clutch has not reached lock up speed within 6 seconds of being turned ON
TMF 178 PTO speed sensor has been changed.
TMF 179 The PTO is receiving no frequency from the Shaft Size Sensor on a two speed PTO
TMF 180 The PTO is receiving signals from the Shaft Size Sensor on a single speed PTO configuration.
INST 1015 Seat Switch may be stuck closed.
INST 1024 Trans oil filter switch shorted to ground on power up.
INST 1034 Hydraulic oil filter switch shorted to ground on power up.
INST 3010 PTO Shaft Speed sensor is failed in PTO Controller
INST 3020 Engine Speed sensor is failed in the Engine Controller
INST 3022 Engine Overspeed Error
INST 5010 Engine Oil Pressure sensor is failed in the Engine Controller
INST 5011 Engine Oil Pressure sensor voltage is too low (open circuit, short to ground)
INST 7024 Reversible Fan Control open circuit or shorted to ground.
INST 10031 Controller Memory Error — Loss of Engine Hours information
INST 10032 Controller Memory Error — Loss of Vehicle Configuration information
INST 10033 Controller Memory Error — Loss of Customer Configuration information
INST 10034 Controller Memory Error: Loss of valid fuel table information.
INST 10035 Controller Memory Error — Loss of Valid Radar Configuration information.
INST 10036 Controller Memory Error — Loss of Displayed Performance information
INST 10037 Controller Memory Error — Loss of Implement Width information
INST 10038 Controller Memory Error — Loss of Valid Remote Timer information.
INST 11011 Fuel Level Sensor voltage is too low (open circuit, short to ground)
INST 12011 Communications Lost with Armrest Controller
INST 12021 Communications Lost with Auxiliary Controller
INST 12031 Communications Lost with Hitch Controller
INST 12043 Communications Lost with Data Bus 1 and ALL other controllers
INST 12051 Communications Lost with PTO Controller
INST 12053 Communications Lost with Vehicle Data Bus 2.
INST 12071 Communications Lost with Transmission Controller
INST 12091 Communications Lost with Engine Controller
INST 12101 Communications Lost with Tractor ECU (Gateway) Controller
INST 12111 Communications Lost with Automatic Temperature Controller
INST 12121 Communications Lost with Color Perfomance Monitor
INST 13010 Engine Coolant Temperature sensor is failed in the Engine Controller
INST 13011 Engine Coolant Temperature sensor voltage is too low (short to ground)
INST 13012 Engine Coolant Temperature sensor voltage is too high (open circuit, short to +V)
INST 13021 Transmission Oil Temperature sensor voltage is too low (short to ground)
INST 13022 Transmission Oil Temperature sensor voltage is too high (open circuit, short to +V)
INST 13031 Hydraulic Oil Temperature sensor voltage is too low (short to ground)
INST 13032 Hydraulic Oil Temperature sensor voltage is too high (open circuit, short to +V)
INST 13040 Air to Air Intake Temperature sensor is failed in the Engine Controller
INST 13044 When fuel shut off relay is latched, short is detected (mechanical engine tractors only)
INST 13051 Air to Air Intake Temperature sensor voltage is too low (short to ground)
INST 13052 Air to Air Intake Temperature sensor voltage is too high (open circuit, short to +V)
INST 53001 Instrumentation Controller Configuration is Incorrect
INST 53002 Air to Air Intake sensor does not match Tractor Model Configuration
INST 53005 Engine Shutdown activated by Instrument Controller
INST 65535 NO ERROR. Errors have not been cleared from factory.
ATC 111 Cab sensor open or shorted to power
ATC 112 Cab sensor shorted to ground
ATC 115 Evaporator sensor open or shorted to power
ATC 116 Evaporator sensor shorted to ground
ATC 120 Blower speed select pot open/shorted to power
ATC 121 Temperature select pot open/shorted to power
ATC 122 Mode Select Pot Open Or Shorted To Power
ATC 125 High pressure switch (+) input shorted to power
ATC 126 High pressure switch (+) input shorted to ground
ATC 127 High pressure switch (-) input shorted to power
ATC 128 High pressure switch (-) input shorted to ground
ATC 129 High pressure cycling error (2 in 1 minute)
ATC 130 Low pressure switch (+) input shorted to power
ATC 131 Low pressure switch (+) input shorted to ground
ATC 132 Low pressure switch (-) input shorted to power
ATC 133 Low pressure switch (-) input shorted to ground
ATC 134 Low pressure switch open for > 1 minute
ATC 113 Outlet sensor open or shorted to power
ATC 114 Outlet sensor shorted to ground
ATC 117 Outside air sensor open or shorted to power
ATC 118 Outside air sensor shorted to ground
Hitch 1002 Raise hitch valve coil short to 12 volts or raise hitch valve coil circuit failure.
Hitch 1003 Open or Short to Ground raise hitch valve coil circuit failure.
Hitch 1004 Lower hitch valve coil short to 12 volts or lower hitch valve coil circuit failure.
Hitch 1005 Open or short to ground lower hitch valve coils.
Hitch 1006 EDC Low Side Driver stuck on failure.
Hitch 1007 Low side driver watchdog test failed.
Hitch 1008 Low side of raise solenoid connected permanently to GND
Hitch 1009 Low side of lower solenoid connected permanently to GND
Hitch 1011 TCU (Tractor Controller Unit) is disconnected from the CAN bus.
Hitch 1012 No communication with the ACM (Armrest Controller Module).
Hitch 1013 No communication with the ICP (Instrument Cluster Panel).
Hitch 1014 Five-volt reference is above the upper voltage limit.
Hitch 1015 Five-volt reference is below the lower voltage limit.
Hitch 1016 Not implemented
Hitch 1017 Position Command value received over the CAN data bus from the Armrest indicates Position Command potentiometer failed.
Hitch 1018 Hitch rockshaft position potentiometer open/short/misadjust or circuit failure.
Hitch 1019 Upper Limit value received from CAN data bus indicates failure condition.
Hitch 1021 Load Command value received from CAN data bus indicates failure condition.
Hitch 1022 Single draft pin sensor failed when configured for one draft pin sensor.(CCH Only)
Hitch 1023 Two draft pin sensors failed when configured for two draft pins.(CCH Only)
Hitch 1024 ICU CAN data bus signal lost.
Hitch 1025 Up/Down/Down Momentary switch value received from CAN data bus indicates switch failure.
Hitch 1026 Up/Down remote fender switch failure.
Hitch 1027 Not implemented
Hitch 1028 Travel Range potentiometer value received from CAN data bus indicates failure condition.
Hitch 1029 Drop Rate value received from CAN data bus indicates potentiometer failure condition.
Hitch 1030 Right draft pin voltage is outside the normal operating range.(CCH Only)
Hitch 1031 Left draft pin voltage is outside the normal operating range.(CCH Only)
Hitch 1032 Ground speed failure-value received from CAN data bus indicates failure condition.
Hitch 1033 Slip Limit Set Point received from CAN data bus indicates failure condition.
Hitch 1034 Slip Enable switch received from CAN data bus indicates failure condition.
Hitch 1035 The Percent slip received from ETC indicates failure condition.
Hitch 1036 The ARU reports EDC Inching Up switch faulty or not available.
Hitch 1037 The ARU reports EDC Inching Down switch faulty or not available.
Hitch 1065 The ARU specified tractor without draft control (position only hitch) but detected presence of draft pin(s).
Trans 2009 Seat switch open circuit
Trans 2010 Seat switch is shorted to the supply voltage B+ or 5 volt reference
Trans 2011 Clutch Pot Open Circuit or short to ground
Trans 2012 Clutch Potentiometer Short to +12 Volts or short to 5 Volt reference.
Trans 2024 none of the Transmission clutches are calibrated. This will be the condition when a new controller is installed on the tractor.
Trans 2037 Bottom of Clutch pedal switch open circuit or bottom of clutch relay is stuck open
Trans 2047 Clutch pedal bottom of clutch switch misadjusted.
Trans 2048 Bottom of Clutch pedal switch or the bottom of clutch relay are short circuit
Trans 2049 Trans
Trans 2054 5 volt reference voltage too low.
Trans 2055 No signal from wheel speed sensor.
Trans 2056 5 volt internal reference voltage too high.
Trans 2057 5 volt internal reference voltage too low.
Trans 2059 1) Switch inputs indicate shuttle lever is in both forward and neutral 2) Switch inputs indicate shuttle lever is in both reverse and neutral3) Switch inputs indicate shuttle lever is
in both forward and reverse. Cycle the shuttle lever which may free up stuck switches, or try driving the opposite direction.
Trans 2071 Forward switch input from the FNRP Pod is shorted to ground or is open circuit.
Trans 2072 Reverse switch input from the FNRP Pod is shorted to +12 Volts or the FNRP pod 5 Volt Reference.
Trans 2073 Reverse switch input from the FNRP Pod is shorted to ground or open circuit.
Trans 2074 FNR Not Park Switch low voltage fault
Trans 2075 FNR Not Park Switch high Voltage fault
Trans 2110 FNR Neutral Switch Low Voltage fault
Trans 2111 FNR Neutral Switch high Voltage fault
Trans 2326 The Engine RPM sourced from the alternator measured by the controller is excessively high.
Trans 2327 No engine RPM
Trans 2330 The Transmission output RPM speed, sourced from the sensor, measured by the controller is too high for the desired gear
Trans 2331 The transmission clutches are slipping
Trans 2342 Clutch Odd solenoid open circuit or short to ground.
Trans 2343 Clutch Even solenoid open circuit or short to ground.C33
Trans 2344 Clutch C1-2 solenoid open circuit or short to ground.
Trans 2345 Clutch C3-4 solenoid open circuit or short to ground.
Trans 2346 Clutch 5-6 solenoid open circuit or short to ground.
Trans 2374 Master Clutch solenoid open circuit or short to ground.
Trans 2347 Clutch Low Range solenoid open circuit or short to ground.
Trans 2348 110 Clutch Mid Range solenoid open circuit or short to ground.
Trans 2349 Clutch High Range solenoid open circuit or short to ground.
Trans 2350 Clutch reverse solenoid open circuit or short to ground.
Trans 2351 The creeper clutch solenoid is open circuit or short to ground
Trans 2353 Even Clutch Solenoid is shorted to +12 Volts, current sensed while driver is off.
Trans 2352 Odd Clutch Solenoid is shorted to +12 Volts, current sensed while driver is off.
Trans 2354 C1-2 Clutch Solenoid is shorted to +12 Volts, current sensed while driver is off..
Trans 2355 C3-4 Clutch Solenoid is shorted to +12 Volts, Current sensed while driver is off.
Trans 2356 C5-6 clutch Solenoid is shorted to +12 Volts, current sensed while driver isoff.
Trans 2357 Low clutch Solenoid is shorted to +12 Volts, current sensed while driver is off.
Trans 2358 Mid Clutch Solenoid is shorted to +12 Volts, Current sensed while driver is off.
Trans 2359 High Clutch Solenoid is shorted to +12 Volts, current sensed while driver is off.
Trans 2360 Reverse Clutch Solenoid is shorted to +12 Volts, current sensed while driver is off.
Trans 2361 The creeper clutch solenoid is shorted to +12 Volts, current sensed while the driver is off
Trans 2362 Master Clutch Solenoid is shorted to +12 Volts, current sensed while driver is off.
Trans 2363 The Odd Clutch is not calibrated
Trans 2364 Even Clutch not calibrated
Trans 2365 C1-2 Clutch not calibrated
Trans 2366 C3-4 Clutch not calibrated
Trans 2367 C5-6 Clutch not calibrated
Trans 2368 Low Range Clutch not calibrated
Trans 2369 Mid Range Clutch not calibrated
Trans 2370 High Clutch not calibrated
Trans 2371 Reverse Clutch not calibrated
Trans 2372 Creep Clutch is not calibrated
Trans 2373 Master Clutch not calibrated
Trans 2800 Auto Guidance Isolation valve driver Fault
Trans 2805 System pressure valve solenoid circuit is open circuit or shorted to ground
Trans 2806 System pressure solenoid is shorted to B+
Trans 2807 Transmission output rpm over speed
Trans 2809 The battery voltage is too low to permit operation of the clutch solenoids.
Trans 2811 Transmission Oil Temperature Hot
Trans 2812 Transmission Oil Temperature sensor short to B+ or open circuit
Trans 2813 Transmission oil temperature Sensor Short to Ground
Trans 2814 Integrated Control Panel off line
Trans 2815 Governor Engine RPM alternator engine RPM mismatch
Trans 2816 Transmission regulated pressure accumulator is flat
Trans 2817 Governor is offline CAN bus
Trans 2818 Communication lost with the Armrest Control Module(ACM)
Trans 2819 Communication lost with the instrumentation controller.
Trans 2820 System pressure low possible System pressure hydraulic pump failure or leak
Trans 2821 System Pressure Low fault
Trans 2850 The Park Brake is stuck on by no electrical power supplied when commanded on
Trans 2851 The Park Brake Driver has detected an over current or an open circuit condition
Trans 2852 The Park Brake is stuck on by no electrical power supplied to the solenoid when driver is commanded on. Possible service brake bottom brake switches open.
Trans 2055 No signal from wheel speed sensor.
Trans 2873 Software is out of the calibration mode and the park brake request is still active. If this fault is detected there is a bug in the software
Trans 2874 The park brakes commanded on and gear is engaged and there is no park brake request from calibration. If this fault is detected there is a bug in the software
Trans 2900 Torque sensor Gap is on the larger end of the tolerance (CCH Only)
Trans 2901 Signal received from the torque sensor is not in any fault range or normal range tolerance (CCH Only)
Trans 2902 Torque sensor has declared an internal fault tolerance (CCH Only)
Trans 2903 Torque sensor supply voltage below 4.8 volts tolerance (CCH Only)
Trans 2910 12VF1voltage supply is low. (possible blown fuse*)
Trans 2911 12VT1voltage supply is low. (possible blown fuse*)
Trans 2912 12VF2voltage supply is low. (possible blown fuse*)
Trans 2913 12VHvoltage supply is low. (possible blown fuse*)
Trans 2914 12VF3voltage supply is low. (possible blown fuse*)
Trans 2915 12VS1voltage supply is low. (possible blown fuse*)
Engine 3000 Unknown ECM Error Code Received
Engine 3999 Unknown ECM Error Code Received
Engine 3001 Foot Throttle Sensor -Signal Not Plausible
Engine 3002 Foot Throttle Sensor -Signal Above Range Max.
Engine 3003 Foot Throttle Sensor -Signal Below Range Min.
Engine 3004 Foot Throttle Sensor -No Signal -Error
Engine 3006 Coolant Temperature Sensor -Signal Not Plausible(Compared with Engine Oil Temperature)
Engine 3007 Coolant Temperature Sensor -Signal Above Range Max.
Engine 3008 Coolant Temperature Sensor -Signal Below Range Min.
Engine 3009 Coolant Temperature Sensor -(via CAN) No Signal
Engine 3010 Air Intake Temperature Sensor -Signal Above Range Max.
Engine 3011 Air Intake Temperature Sensor -Signal Above Range Min.
Engine 3012 Air Intake Temperature Sensor -(via CAN) No Signal
Engine 3015 Fuel Temperature Signal -Signal Above Range Max.
Engine 3016 Fuel Temperature Signal -Signal Below Range Min.
Engine 3019 Boost Pressure Sensor -Signal Above Range Max.
Engine 3021 Boost Pressure Sensor -(via CAN) No Signal
Engine 3022 Boost Pressure Sensor -Signal Not Plausible
Engine 3023 Atmospheric Pressure Sensor -Signal Not Plausible Compared with Boost Pressure
Engine 3024 Atmospheric Pressure Sensor -Signal Above Range Max.
Engine 3025 Atmospheric Pressure Sensor -Signal Below Range Min.
Engine 3028 Oil Pressure Too Low
Engine 3029 Oil Pressure Sensor _Short circuit to Battery
Engine 3030 Oil Pressure Sensor _Short circuit to Ground
Engine 3031 Oil Pressure Sensor -Hardware Error
Engine 3032 Oil Pressure Sensor -Value Too High
Engine 3033 Oil Temperature Sensor -Signal Not Plausible (Compared with Coolant Temperature)
Engine 3034 Oil Temperature Sensor -Signal Above Range Max.
Engine 3035 Oil Temperature Sensor -Signal Below Range Min.
Engine 3036 Oil Temperature Sensor -(via CAN) No Signal
Engine 3037 Boost Pressure Sensor -Signal Low
Engine 3038 Constant Engine RPM Activate / Select Switch _Short circuit to Ground
Engine 3039 Cruise Control Actuating Device -Evaluation Error
Engine 3043 Vehicle Speed Sensing -Hardware Conversion Error
Engine 3044 Vehicle Speed Sensing -Signal Above Range Max.
Engine 3045 Vehicle Speed Sensing -Signal Below Range Min.
Engine 3046 Vehicle Speed Sensing -Signal Not Plausible
Engine 3047 Main Relay 2 Failure _Short circuit to Battery
Engine 3048 Main Relay 2 Failure _Short circuit to Ground
Engine 3051 Battery Voltage to ECM too High
Engine 3052 Battery Voltage to ECM too Low
Engine 3053 Vehicle Speed Sensing (Tacho) -PWM Frequency Too High
Engine 3054 Vehicle Speed Sensing (Tacho) -PWM Average Frequency Above Limit
Engine 3055 Vehicle Speed Sensing (Tacho) -PWM Average Frequency Below Limit
Engine 3056 Vehicle Speed Sensing (Tacho) -Not Plausible
Engine 3057 Timeout of CAN Message High Resolution Wheel Speed
Engine 3058 Timeout of CAN Message Vehicle Dynamics Control Unit
Engine 3059 ECM After run was Interrupted
Engine 3060 Cylinder1 -Unclassifiable Error in Injector
Engine 3061 Cylinder1 -Injector Cable Short circuit (Low Side to Battery)
Engine 3062 Cylinder1 -Application Dependent
Engine 3063 Cylinder1 -Injector Cable Short circuit (High Side to Ground)
Engine 3064 Cylinder5 -Unclassifiable Error in Injector
Engine 3065 Cylinder5 -Injector Cable Short circuit (Low Side to Battery)
Engine 3066 Cylinder5 -Application Dependent
Engine 3067 Cylinder5 -Injector Cable Short circuit (High Side to Ground)
Engine 3068 Cylinder3 -Unclassifiable Error in Injector
Engine 3069 Cylinder3 -Injector Cable Short circuit (Low Side to Battery)
Engine 3070 Cylinder3 -Application Dependent
Engine 3071 Cylinder3 -Injector Cable Short circuit (High Side to Ground)
Engine 3072 Cylinder6 -Unclassifiable Error in Injector
Engine 3073 Cylinder6 -Injector Cable Short circuit (Low Side to Battery)
Engine 3074 Cylinder6 -Application Dependent
Engine 3075 Cylinder6 -Injector Cable Short circuit (High Side to Ground)
Engine 3076 Cylinder2 -Unclassifiable Error in Injector
Engine 3077 Cylinder2 -Injector Cable Short circuit (Low Side to Battery)
Engine 3078 Cylinder2 -Application Dependent
Engine 3079 Cylinder2 -Injector Cable Short circuit (High Side to Ground)
Engine 3080 Cylinder4 -Unclassifiable Error in Injector
Engine 3081 Cylinder4 -Injector Cable Short circuit (Low Side to Battery)
Engine 3082 Cylinder4 -Application Dependent
Engine 3083 Cylinder4 -Injector Cable Short circuit (High Side to Ground)
Engine 3088 Crankshaft Sensor -No Signal
Engine 3089 Crankshaft Sensor -Invalid Signal
Engine 3090 Camshaft Sensor -No Signal
Engine 3091 Camshaft Sensor -Invalid Signal
Engine 3092 Offset Between Camshaft and Crankshaft -Not Plausible
Engine 3093 Offset Between Camshaft and Crankshaft -Outside Boundaries
Engine 3095 Operating with Camshaft Sensor Only -Backup Mode
Engine 3096 Tier 3: ECM Bus Off on CAN A Tier 4a: ECM Bus Off on Vehicle CAN
Engine 3097 ECM Bus Off on Engine private CAN
Engine 3098 Timeout of CAN Message TSC1-TE (When Active)
Engine 3099 Timeout of CAN Message TSC1-TE (When Inactive)
Engine 3100 Timeout of CAN Message TSC1-AE (When Active)
Engine 3101 Timeout of CAN Message TSC1-AE (When Inactive)
Engine 3102 Rail Pressure Sensor CP3 -Signal Below Range Min.
Engine 3104 Rail Pressure Relief Valve -Open
Engine 3105 Rail Pressure Relief Valve -Pressure Shock Requested
Engine 3106 Rail Pressure Relief Valve -Did Not Open After Pressure Shock
Engine 3107 Metering Unit _Short circuit to Battery
Engine 3108 Metering Unit _Short circuit to Ground
Engine 3110 Rail Pressure Sensor Offset Monitoring -Value above Limit
Engine 3111 Rail Pressure Sensor Offset Monitoring -Value below Limit
Engine 3112 Rail Pressure Sensor CP3 -Signal Above Range Max.
Engine 3113 Main Relay 1 (High Pressure Pump -power supply to the fuel metering unit) -Short to Battery
Engine 3114 Main Relay 1 (High Pressure Pump -power supply to the fuel metering unit) Short to Ground
Engine 3117 PTO Twist Sensor -Out of Range
Engine 3118 ECM 12V Sensor Supply Voltage High
Engine 3119 ECM 12V Sensor Supply Voltage Low
Engine 3120 PTO Twist Sensor -Not Plausible
Engine 3121 PTO Twist Sensor -Open Circuit
Engine 3122 PTO Twist Sensor _Short circuit to Ground
Engine 3123 PTO Twist Sensor -Not Calibrated
Engine 3124 Hand Throttle -Channel 2 Above Range Max.
Engine 3125 Hand Throttle -Channel 2 Below Range Min.
Engine 3126 Hand Throttle -Channel 1 Signal Above Range Max.
Engine 3127 Hand Throttle -Channel 1 Signal Below Range Min.
Engine 3128 Hand Throttle -Channel Difference Error
Engine 3129 Hand Throttle -Idle Switch Closed Circuit
Engine 3130 Hand Throttle -Idle Switch Open Circuit
Engine 3131 Grid Heater Always Switched On
Engine 3133 Cold Start Lamp -No Load
Engine 3134 Cold Start Lamp _Short circuit to Battery
Engine 3135 Cold Start Lamp _Short circuit to Ground
Engine 3136 Cold Start Lamp -Excessive Temperature
Engine 3137 Metering Unit -Open Load
Engine 3138 Metering Unit -Temperature Too High
Engine 3139 Metering Unit Signal Range Check -Signal Too High
Engine 3140 Metering Unit Signal Range Check -Signal Too Low
Engine 3141 Fuel Flow Set point Too Low
Engine 3142 High Pressure Test -Test Active
Engine 3143 Grid Heater Switch Off Test (Voltage Drop Too High)
Engine 3144 Grid Heater Switch Off Test (Voltage Drop Too Low)
Engine 3145 Terminal 15 -No Signal
Engine 3146 Water Detected In Fuel
Engine 3147 Oil Temperature Too High
Engine 3148 Coolant Temperature Sensor Dynamic Test -Failure (Minimum Temperature Raise Not Reached)
Engine 3149 Coolant Temperature Sensor Test -Failure (Minimum Temperature Not Reached)
Engine 3150 System/Amber Warning Lamp _Short circuit to Battery
Engine 3151 System/Amber Warning Lamp _Short circuit to Ground
Engine 3152 System/Amber Warning Lamp -No Load
Engine 3153 System/Amber Warning Lamp -Excessive Temperature
Engine 3154 Grid Heater Relay _Short circuit to Battery
Engine 3155 Grid Heater Relay _Short circuit to Ground
Engine 3156 Grid Heater Relay -No Load
Engine 3157 ECM Not Detected on CAN bus
Engine 3158 Invalid ECM Checksum
Engine 3159 Invalid Engine Reference Torque
Engine 3160 Fan Actuator _Short circuit to Battery
Engine 3161 Fan Actuator _Short circuit to Ground
Engine 3162 Fan Actuator -Open Load
Engine 3163 Fan Actuator -Temperature Too High
Engine 3164 Fan Speed Sensor _Signal High
Engine 3165 Fan Speed Sensor -Signal Low
Engine 3166 Fuel Filter Heater Relay _Short circuit to Battery
Engine 3167 Fuel Filter Heater Relay _Short circuit to Ground
Engine 3168 Fuel Filter Heater Relay -Open Load
Engine 3169 Fuel Filter Heater Relay -Signal Not Plausible
Engine 3176 Set point of Metering Unit Not Plausible in Overrun
Engine 3177 Engine Over speed Detected
Engine 3178 Timeout of CAN Message BC2EDC1
Engine 3179 Timeout of CAN Message BC2EDC2
Engine 3180 Timeout of CAN Message VCM2EDC
Engine 3181 Rail Pressure Positive Deviation Too High Concerning Set point
Engine 3182 Timeout of CAN Message RxCCVS
Engine 3183 Timeout of CAN Message TSC1-VR (When Active)
Engine 3184 Timeout of CAN Message TSC1-VR (When Inactive)
Engine 3185 Timeout of CAN message TF
Engine 3186 Cylinder1 Warning -Fast Decay Error
Engine 3187 Cylinder1 Warning -Application Dependent
Engine 3188 Cylinder1 Warning -Injector Circuit Low
Engine 3189 Cylinder1 Warning -Current Level Error
Engine 3190 Cylinder2 Warning -Fast Decay Error
Engine 3191 Cylinder2Warning -Application Dependent
Engine 3192 Cylinder2 Warning -Open Load
Engine 3193 Cylinder2 Warning -Current Level Error
Engine 3194 Cylinder3 Warning -Fast Decay Error
Engine 3195 Cylinder3 Warning -Application Dependent
Engine 3196 Cylinder3 Warning -Open Load
Engine 3197 Cylinder3 Warning -Current Level Error
Engine 3198 Cylinder4 Warning -Fast Decay Error
Engine 3199 Cylinder4 Warning -Application Dependent
Engine 3200 Cylinder4 Warning -Open Load
Engine 3201 Cylinder4 Warning -Current Level Error
Engine 3202 Cylinder5 Warning -Fast Decay Error
Engine 3203 Cylinder5 Warning -Application Dependent
Engine 3204 Cylinder5 Warning -Open Load
Engine 3205 Cylinder5 Warning -Current Level Error
Engine 3206 Cylinder6 Warning -Fast Decay Error
Engine 3207 Cylinder6 Warning -Application Dependent
Engine 3208 Cylinder6 Warning -Open Load
Engine 3209 Cylinder6 Warning -Current Level Error
Engine 3210 Bank1 -General Short circuit on Injection Cable
Engine 3211 Bank1 -Injection Cable Short circuit Low Side to Ground
Engine 3212 Bank1 -Application Dependent
Engine 3213 Bank1 -Unclassifiable Error
Engine 3214 Bank1 Warning -Application Dependent
Engine 3215 Bank1 Warning -Application Dependent
Engine 3216 Bank1 Warning -Open Load
Engine 3217 Bank1 Warning -Unclassifiable Error
Engine 3218 Bank2-General Short circuit on Injection Cable
Engine 3219 Bank2 -Injection Cable Short circuit Low Side to Ground
Engine 3220 Bank2 -Application Dependent
Engine 3221 Bank2 -Unclassifiable Error
Engine 3222 Bank2 Warning -Application Dependent
Engine 3223 Bank2 Warning -Application Dependent
Engine 3224 Bank2 Warning -Open Load
Engine 3225 Bank2 Warning -Unclassifiable Error
Engine 3226 Messages SRA2EDC
Engine 3227 Injection Processor (CY33X) Error -Internal Reset / Clock Loss / Voltage Too Low
Engine 3228 Injection Processor (CY33X) Error -Unlocked / Initialization Failure
Engine 3229 Injection Processor (CY33X) Error -Injections Limited By Software
Engine 3230 Injection Processor (CY33X) Error -SPI Communication Failure
Engine 3231 Injection Processor Error -Internal Reset / Clock Loss / Voltage Too Low
Engine 3232 Injection Processor Error -Unlocked / Initialization Failure
Engine 3233 Injection Processor Error -Test Mode
Engine 3234 Injection Processor Error -SPI Communication Failure
Engine 3235 Number of Injections Limited -by Charge Balance
Engine 3236 Number of Injections Limited -by Quantity Balance
Engine 3237 Number of Injections Limited -by Software
Engine 3238 ECM Internal SPI Communication Error -CJ940
Engine 3239 ECM EEPROM -Read Operation Failure
Engine 3240 ECM EEPROM -Write Operation Failure
Engine 3241 ECM EEPROM -Default Value Used
Engine 3242 ECM (Locked) Recovery Occurred
Engine 3243 ECM (Suppressed) -Recovery Occurred
Engine 3244 ECU Recovery (Visible) -Recovery Occurred
Engine 3245 ECM Processor -Watchdog Not Plausible
Engine 3246 Shutoff Paths During Initialization -Watchdog
Engine 3247 Shutoff Paths During Initialization -Supply Voltage Too High
Engine 3248 Shutoff Paths During Initialization -Supply Voltage Too Low
Engine 3249 TPU Monitoring -Time Deviation between TPU and System Not Plausible
Engine 3250 Dataset -Variant Defect
Engine 3251 Dataset -Requested Variant Could Not Be Set
Engine 3252 Controller Watchdog -SPI Communication Failure
Engine 3253 ADC Monitoring -Reference Voltage Too High
Engine 3254 ADC Monitoring -Reference Voltage Too Low
Engine 3255 ADC Monitoring -Test Impulse Error
Engine 3256 ADC Monitoring -Queue Error
Engine 3257 Turbine Speed and Air Pressure Too High
Engine 3258 High Side Power -Short circuit to Battery
Engine 3259 High Side Power _Short circuit to Ground
Engine 3260 Low Side Power -Open Load
Engine 3261 Low Side Power -Short circuit to Battery of Excess Temperature
Engine 3262 Low Side Power _Short circuit to Ground
Engine 3263 ECM Bus Off on CAN C
Engine 3264 Immobilizer -Injection Disabled
Engine 3265 Overrun Monitoring -Injection Time Too Long
Engine 3266 Redundant Engine Speed in Overrun Monitoring -Speed Signal Not Plausible
Engine 3267 Main relay 3 _Short circuit to Battery
Engine 3268 Main relay 3 _Short circuit to Ground
Engine 3269 Grid Heater Switch On Test -Voltage Drop Too High
Engine 3270 Grid Heater Switch On Test -Voltage Drop Too Low
Engine 3271 Fuel Low Pressure Sensor -(via CAN) No Signal
Engine 3272 Fuel Low Pressure Sensor -Signal Above Range Max.
Engine 3273 Fuel Low Pressure Sensor -Signal Below Range Min.
Engine 3274 Fuel Low Pressure Sensor Dynamic Plausibility Test -Above Map
Engine 3275 Fuel Low Pressure Sensor Dynamic Plausibility Test -Below Map
Engine 3276 MIL Visualization Not Available for BC2EDC1
Engine 3277 Timeout of CAN Message Dashboard Display
Engine 3278 ECM Internal Supply Voltage Too High -CJ940 Above Limit
Engine 3279 ECM Internal Supply Voltage Too Low -CJ940 Below Limit
Engine 3280 Sensor Supply Voltage 1 -High
Engine 3281 Sensor Supply Voltage 1 — Low
Engine 3282 Timeout of CAN Message WSI (Wheel Speed Info)
Engine 3283 Sensor Supply Voltage 2 -High
Engine 3284 Sensor Supply Voltage 2 — Low
Engine 3285 Sensor Supply Voltage 3 -High
Engine 3286 Sensor Supply Voltage 3 — Low
Engine 3287 Turbo Compound Monitoring -No Signal
Engine 3288 Turbo Compound Monitoring -Signal High
Engine 3289 Turbo Compound Monitoring -Signal Low
Engine 3290 Turbo Compound Monitoring -Signal Not Plausible
Engine 3291 Cylinder 1 Specific Errors -No Signal
Engine 3292 Cylinder 1 Specific Errors -Signal Low
Engine 3293 Cylinder 1 BIP Search Failure -Too Many Unsuccessful Searched
Engine 3294 Cylinder 1 Specific Errors -Signal Not Plausible
Engine 3295 Cylinder 2 Specific Errors -No Signal
Engine 3296 Cylinder 2 Specific Errors -Signal Low
Engine 3298 Cylinder 2 Specific Errors -Signal Not Plausible
Engine 3299 Cylinder 3 Specific Errors -No Signal
Engine 3300 Cylinder 3 Specific Errors -Signal Low
Engine 3301 Cylinder 3 BIP Search Failure -Too Many Unsuccessful Searches — Rail Pressure Negative Deviation too High on Minimum Metering
Engine 3302 Cylinder 3 Specific Errors -Signal Not Plausible
Engine 3303 Cylinder 4 Specific Errors -No Signal
Engine 3304 Cylinder 4 Specific Errors -Signal Low
Engine 3305 Cylinder 4 BIP Search Failure -Too Many Unsuccessful Searches — Rail Pressure below Minimum Limit in Controlled Mode
Engine 3306 Cylinder 4 Specific Errors -Signal Not Plausible
Engine 3307 Cylinder 5 Specific Errors -No Signal
Engine 3308 Cylinder 5 Specific Errors -Signal Low
Engine 3309 Cylinder 5 BIP Search Failure -Too Many Unsuccessful Searches — Rail Pressure above Maximum Limit in Controlled Mode
Engine 3310 Cylinder 5 Specific Errors -Signal Not Plausible
Engine 3311 Cylinder 6 Specific Errors -No Signal
Engine 3312 Cylinder 6 Specific Errors -Signal Low
Engine 3313 Cylinder 6 BIP Search Failure -Too Many Unsuccessful Searches — Rail Pressure Drop Rate too High
Engine 3314 Cylinder 6 Specific Errors -Signal Not Plausible
Engine 3315 Minimum Number of Injections Not Reached -Stop Engine
Engine 3316 Minimum Number of Injections Not Reached -Stop Engine
Engine 3317 Minimum Number of Injections Not Reached -Stop Engine
Engine 3318 Minimum Number of Injections Not Reached -Stop Engine
Engine 3319 DM1DCU SPN2 message -Error in DCU active
Engine 3320 DM1DCU SPN3 message -Error in DCU active
Engine 3321 Timeout of CAN Message DM1DCU SPN4
Engine 3322 Timeout of CAN Message ERC1DR
Engine 3323 Timeout of CAN Message RxAMCONIv (Ambient Conditions)
Engine 3324 Timeout of CAN Message EBC1 (Electronic Brake Switch)
Engine 3325 Timeout of CAN Message ETC1 (Transmission)
Engine 3326 Timeout of CAN Message ETC2 (Transmission)
Engine 3327 Timeout of CAN Message TCO1 (Tachograph)
Engine 3328 Timeout of CAN Message TSC1-AR (When Inactive)
Engine 3329 Timeout of CAN Message TSC1-AR (When Active)
Engine 3330 Timeout of CAN Message TSC1-DE (When Inactive)
Engine 3331 Timeout of CAN Message TSC1-DE (When Active)
Engine 3332 Timeout of CAN Message TSC1-DR (When Inactive)
Engine 3333 Timeout of CAN Message TSC1-DR (When Active)
Engine 3334 Timeout of CAN message TSC1-PE Torque (When Active)
Engine 3335 Timeout of CAN message TSC1-PE Torque (When Inactive)
Engine 3336 Timeout of CAN Message TSC1-TR (When Inactive)
Engine 3337 Timeout of CAN Message TSC1-TR (When Active)
Engine 3338 Timeout of CAN message TSC1-VE Speed (When Inactive)
Engine 3339 Timeout of CAN message TSC1-VE Speed (When Active)
Engine 3340 Timeout of CAN Message Time Date
Engine 3341 Timeout of CAN Message HRVD (High Resolution Vehicle Distance)
Engine 3342 Power Stage Air Heater 2 Actuator -No Signal
Engine 3343 Power Stage Air Heater 2 Actuator -Signal High
Engine 3344 Power Stage Air Heater 2 Actuator -Signal Low
Engine 3345 Total Throttle Failure (Only applies to Dual Throttle Vehicles)
Engine 3346 Multiple State Switch
Engine 3347 Multiple State Switch
Engine 3348 Multiple State Switch
Engine 3349 Multiple State Switch
Engine 3350 Terminal 50 -Always On
Engine 3351 Engine Brake Decompression Valve -Open Load
Engine 3352 Engine Brake Decompression Valve _Short circuit to Battery
Engine 3353 Engine Brake Decompression Valve _Short circuit to Ground
Engine 3354 Main Relay 4 (Engine Brake Exhaust Valve) _Short circuit to Ground
Engine 3355 Main Relay 4 (Engine Brake Exhaust Valve) -Short to Battery or open load
Engine 3356 Cylinder Shutoff (Cylinder Balancing Disabled) -Shutoff Active
Engine 3357 Misfire in Multiple Cylinders -Too Many Misfires
Engine 3358 CAN Transmit Timeout
Engine 3359 TSC Demand Physically Implausible
Engine 3360 Driving Dynamic Control -Not Plausible
Engine 3361 ECM EEPROM -General Error
Engine 3362 Torque to Quantity Map -Not Plausible
Engine 3363 Atmospheric Pressure Sensor -Processed via ADC (no CAN Plausibility Performed)
Engine 3364 Foot Pedal 2 -Signal Too High
Engine 3365 Foot Pedal 2 -Signal Too Low
Engine 3366 Foot Pedal 2 -Signal Not Plausible Compared to Foot Pedal 1
Engine 3367 Coolant Temperature Test Failure
Engine 3368 Info: Torque Limitation due to OBD Performance Limiter by Legislation
Engine 3369 Torque Reduction due to Smoke Limitation
Engine 3370 Info: Torque Limitation due to Engine Protection (against Excessive Torque, Engine Over speed and Overheat)
Engine 3371 Info: Torque Limitation due to Fuel Quantity Limitation because of Injection System Errors
Engine 3372 Injection Quantity Adjustment failure -Invalid Adjustment Value
Engine 3373 Injection Quantity Adjustment failure -EEPROM Adjustment Value Not Readable
Engine 3374 Injection Quantity Adjustment failure -Invalid EEPROM Adjustment Value Checksum
Engine 3375 Constant Engine RPM Increase / Decrease Switch _Short circuit to Battery
Engine 3376 Engine Controller Software Does Not Support Power Management (Engine Power Management Option Enabled, but Engine Software Not Compatible)
Engine 3377 Constant Engine RPM Switch Detected but Option Not Enabled.
Engine 3380 Engine Fan Increase Speed Error (open or short circuit)
Engine 3381 Engine Fan Decrease Speed Error (open or short circuit)
Engine 3382 Fan Control Solenoid Short To 12Vr
Engine 3383 Fan Control Solenoid Open Or Short To GND
Engine 3384 Vistronic Engine Cooling Fan driver open or short circuit
Engine 3399 Engine Fuel Lift Pump relay driver over current fault
Engine 3513 SCR Catalyst not present _Relation of temperature behavior between both Catalyst Temperatures not plausible
Engine 3517 Ambient Air Temperature Sensor failure (of Humidity Sensor) -Signal too high
Engine 3518 Ambient Air Temperature Sensor failure (of Humidity Sensor) -Signal too low
Engine 3519 Ambient Air Temperature Sensor failure (of Humidity Sensor) -CAN Signal failure
Engine 3521 NOx Estimation failure -Estimated Nox signal not reliable
Engine 3528 NOx Sensor Plausibility failure -Signal not plausible
Engine 3529 NOx Sensor Failure -Open Load
Engine 3530 NOx Sensor Failure -Short Circuit
Engine 3532 NOx Sensor Failure -Sensor not ready in time
Engine 3533 CAN Message timeout Nox (from Nox Sensor) -CAN timeout
Engine 3537 CAN Message timeout DM1DCU (from DCU) -CAN timeout
Engine 3541 CAN Message timeout SCR1 (from DCU) -CAN timeout
Engine 3545 Info: SCR Dosing Valve Overheat Protection -Torque Limitation Level2 for SCR Protection active
Engine 3546 Info: SCR Dosing Valve Overheat Protection -Torque Limitation Level1 for SCR Protection active
Engine 3549 Humidity Sensor Signal Ratio failure -Signal Ratio above Limit
Engine 3550 Humidity Sensor Signal Ratio failure -Signal Ratio below Limit
Engine 3555 CAN Message timeout SCR2 (from DCU)-CAN timeout
Engine 3557 Info: Humidity Sensor possibly saturated with water droplets -Signal Ratio above Limit
Engine 3558 Info: Humidity Sensor possibly saturated with water droplets -Signal Ratio below Limit
Engine 3561 NOx value not plausible (After treatment plausibility)
Engine 3565 Urea quality and urea warning level 1
Engine 3569 urea quality and urea warning level 2
Engine 3573 urea quality and urea warning level 3
Engine 3577 DM1DCU SPN1 message -Error in DCU active
Engine 3581 Performance limit active due to either stage -Performance Limitation active
EHR 4135 Rear Remote No.3 -Spool Deflection Excessive
EHR 4136 Rear Remote No.3 -Open Center Position Not Reached
EHR 4137 Rear Remote No.3 -Manual Operation
EHR 4138 Rear Remote No.3 -Output Stage Faulty
EHR 4139 Rear Remote No.3 -Position Transducer Faulty
EHR 4140 Rear Remote No.3 -Spool Cannot be Brought Back to Neutral
EHR 4141 Rear Remote No.3 -Spool Not in Neutral When Switched On
EHR 4142 Rear Remote No.4 -No EHR Control Messages
EHR 4143 Rear Remote No.4 -Implausible EHR Control Messages
EHR 4144 Rear Remote No.4 -Checksum Verification Failure
EHR 4145 Rear Remote No.4 -Neutral Set point
EHR 4146 Rear Remote No.4 -Under Voltage
EHR 4147 Rear Remote No.4 -Over Voltage
EHR 4148 Rear Remote No.4 -Spool Deflection Too Short
EHR 4149 Rear Remote No.4 -Spool Deflection Excessive
EHR 4150 Rear Remote No.4 -Open Center Position Not Reached
EHR 4151 Rear Remote No.4 -Manual Operation
EHR 4152 Rear Remote No.4 -Output Stage Faulty
EHR 4153 Rear Remote No.4 -Position Transducer Faulty
EHR 4154 Rear Remote No.4 -Spool Cannot be Brought Back to Neutral
EHR 4155 Rear Remote No.4 -Spool Not in Neutral When Switched On
EHR 4156 Rear Remote No.5 -No EHR Control Messages
EHR 4157 Rear Remote No.5 -Implausible EHR Control Messages
EHR 4158 Rear Remote No.5 -Checksum Verification Failure
EHR 4159 Rear Remote No.5 -Neutral Set point
EHR 4160 Rear Remote No.5 -Under Voltage
EHR 4161 Rear Remote No.5 _Over Voltage
EHR 4162 Rear Remote No.5 -Spool Deflection Too Short
EHR 4163 Rear Remote No.5 -Spool Deflection Excessive
EHR 4164 Rear Remote No.5 -Open Center Position Not Reached
EHR 4165 Rear Remote No.5 -Manual Operation
EHR 4166 Rear Remote No.5 -Output Stage Faulty
EHR 4167 Rear Remote No.5 -Position Transducer Faulty
EHR 4168 Rear Remote No.5 -Spool Cannot be Brought Back to Neutral
EHR 4169 Rear Remote No.5 -Spool Not in Neutral When Switched On
EHR 4170 Rear Remote No.1 _Lever Not Calibrated
EHR 4173 Rear Remote No.2 -Lever Not Calibrated
EHR 4177 Rear Remote No.3 -Lever Not Calibrated
EHR 4180 Rear Remote No.4 -Lever Not Calibrated
EHR 4190 EHR 1 Offline Err
EHR 4191 EHR 2 Offline Err
EHR 4192 EHR 3 Offline Err
EHR 4193 EHR 4 Offline Err
EHR 4198 EHR 5 Offline Err
EHR 4216 Rear Remote No.1 -Valve Spool Not Calibrated
EHR 4217 Rear Remote No.2 -Valve Spool Not Calibrated
EHR 4218 Rear Remote No.3 -Valve Spool Not Calibrated
EHR 4219 Rear Remote No.4 -Valve Spool Not Calibrated
EHR 4220 Rear Remote No.5 -Valve Spool Not Calibrated
EHR 4301 Rear Remote No.6 -No EHR Control Messages
EHR 4302 Rear Remote No.6 -Implausible EHR Control Messages
EHR 4303 Rear Remote No.6 -Checksum Verification Failure
EHR 4304 Rear Remote No.6 -Neutral Set point
EHR 4305 Rear Remote No.6 -Under Voltage
EHR 4306 Rear Remote No.6 -Over Voltage
EHR 4307 Rear Remote No.6 -Spool Deflection Too Short
EHR 4308 Rear Remote No.6 -Spool Deflection Excessive
EHR 4309 Rear Remote No.6 -Open Center Position Not Reached
EHR 4310 Rear Remote No.6 -Manual Operation
EHR 4311 Rear Remote No.6 -Output Stage Faulty
EHR 4312 Rear Remote No.6 -Position Transducer Faulty
EHR 4313 Rear Remote No.6 -Spool Cannot be Brought Back to Neutral
EHR 4314 Rear Remote No.6 -Spool Not in Neutral When Switched On
EHR 4315 Rear Remote No.7 -No EHR Control Messages
EHR 4316 Rear Remote No.7 -Implausible EHR Control Messages
EHR 4317 Rear Remote No.7 -Checksum Verification Failure
EHR 4318 Rear Remote No.7 -Neutral Set point
EHR 4319 Rear Remote No.7 -Under Voltage
EHR 4320 Rear Remote No.7 -Over Voltage
EHR 4321 Rear Remote No.7 -Spool Deflection Too Short
EHR 4322 Rear Remote No.7 -Spool Deflection Excessive
EHR 4323 Rear Remote No.7 -Open Center Position Not Reached
EHR 4324 Rear Remote No.7 -Manual Operation
EHR 4325 Rear Remote No.7 -Output Stage Faulty
EHR 4326 Rear Remote No.7 -Position Transducer Faulty
EHR 4327 Rear Remote No.7 -Spool Cannot be Brought Back to Neutral
EHR 4328 Rear Remote No.7 -Spool Not in Neutral When Switched On
EHR 4329 Rear Remote No.8 -No EHR Control Messages
EHR 4330 Rear Remote No.8 -Implausible EHR Control Messages
EHR 4331 Rear Remote No.8 -Checksum Verification Failure
EHR 4332 Rear Remote No.8 -Neutral Set point
EHR 4333 Rear Remote No.8 -Under Voltage
EHR 4334 Rear Remote No.8 -Over Voltage
EHR 4335 Rear Remote No.8 -Spool Deflection Too Short
EHR 4336 Rear Remote No.8 -Spool Deflection Excessive
EHR 4337 Rear Remote No.8 -Open Center Position Not Reached
EHR 4338 Rear Remote No.8 -Manual Operation
EHR 4339 Rear Remote No.8 -Output Stage Faulty
EHR 4330 Rear Remote No.8 -Position Transducer Faulty
EHR 4341 Rear Remote No.8 -Spool Cannot be Brought Back to Neutral
EHR 4342 Rear Remote No.8 -Spool Not in Neutral When Switched On
EHR 4343 Rear Remote No.5 -Lever Not Calibrated
EHR 4344 Rear Remote No.6 -Lever Not Calibrated
EHR 4345 Rear Remote No.7 -Lever Not Calibrated
EHR 4346 Rear Remote No.8 -Lever Not Calibrated
EHR 4347 EHR 6 Offline Err
EHR 4348 EHR 7 Offline Err
EHR 4349 EHR 8 Offline Err
EHR 4350 Rear Remote No.6 -Valve Spool Not Calibrated
EHR 4351 Rear Remote No.7 -Valve Spool Not Calibrated
EHR 4352 Rear Remote No.8 -Valve Spool Not Calibrated
EHR 4353 EHR FB 1High Err
EHR 4354 EHR FB 1 Low Err
EHR 4355 EHR FB 3 High Err
EHR 4356 EHR FB 3 Low Err
EHR 4357 EHR Implement Lower Error
EHR 4358 EHR Implement Raise Error
Rear PTO 5001 PTO cab switch, or Auto PTO switch, or PTO remote fender switch is on during tractor power up.
Rear PTO 5002 PTO switch interlock
Rear PTO 5003 Auto PTO switch data is set to the error state(CCH Only)
Rear PTO 5004 Auto PTO switch stuck on condition(CCH Only)
Rear PTO 5005 PTO remote fender switch short(CCH Only)
Rear PTO 5006 PTO remote fender switch open(CCH Only)
Rear PTO 5007 PTO remote fender switch stuck on(CCH Only)
Rear PTO 5008 Both PTO On and Off switches are simultaneously on. One of the PTO switches is short to 12 volts.
Rear PTO 5009 PTO solenoid open circuit or shorted to ground or AD12vs2 voltage is low.
Rear PTO 5010 PTO solenoid circuit shorted to B+ when PTO is in the off state.
Rear PTO 5011 Driver is on and no current is sensed.
Rear PTO 5012 PTO clutch is slipping excessively for the duration of 5 seconds or longer.
Rear PTO 5013 Engine speed is too low for the PTO to be in the ïonà state.
Rear PTO 5014 PTO is commanded off but the PTO speed greater than zero.
Rear PTO 5015 The software has not detected PTO shaft speed for greater than 3 seconds since the PTO initial fill vale was commanded
Rear PTO 5016 PTO speed is detected when the PTO is in the off state without engine RPM.
Rear PTO 5017 PTO clutch did not lock up after 6 seconds of clutch motion.
Rear PTO 5018 PTO speed sensors wiring swapped (CCH Only)
Rear PTO 5019 PTO is configured as a two speed and no shaft size frequency was detected when the PTO was switched on. (CCH Only)
Rear PTO 5020 PTO is configured as a single speed and the shaft size frequency was detected when the PTO was switched on. Shaft size frequency input is only used for two speeds PTO.(CCH Only)
Rear PTO 5021 Auto PTO disabled(CCH Only)
Rear PTO 5022 PTO switch is in the on position when the engine is off.
Rear PTO 5023 PTO clutch lube solenoid circuit shorted to B+ when PTO is in the off state.(4WD Only)
Rear PTO 5024 PTO clutch lube solenoid open circuit or shorted to ground or +12 VF3 voltage is low.(4WD Only)
Rear PTO 5025 Rear PTO
Rear PTO 5027 Low side of PTO solenoid connected permanently to GND
Rear PTO 5028 Clutch speed sensor open or short to Vbat
Rear PTO 5029 Clutch speed sensor short to GND
Rear PTO 5030 Shaft size speed sensor open or short to Vbat(CCH Only)
Rear PTO 5031 Shaft size speed sensor short to GND(CCH Only)
Rear PTO 5032 12VF3voltage supply is low. (possible blown fuse*)
MFD/Diff Lock 6001 MFD (CCH) or Front Diff Lock (4WD) solenoid failed. Possible Failure modes: 1. Solenoid coil failed 2. Damaged wiring 3. Loose connector or bent pin 4. TCU Internal failure
MFD/Diff Lock 6002 Rear Diff Lock solenoid failed. Possible Failure modes: 1. Diff Lock solenoid coil failed 2. Damaged wiring 3. Loose connector or bent pin 4. TCU Internal failure
MFD/Diff Lock 6003 Brake light relay fault. 1. Short to 12 volts 2. Open circuit or short to ground.
MFD/Diff Lock 6004 CAN-BUS indicating Rear Diff Lock Switch failed in the armrest. Possible failure modes: 1. Rear Diff Lock Switch failed in Armrest2. Auto Diff Lock Switch failed in Armrest
(CCH Only) 3. Communication problems between the TCU controller and the Armrest controller
MFD/Diff Lock 6005 Rear Differential Lock and Auto Differential Lock (Only CCH):1. Diff Lock On and Auto Diff Lock switches are both active
MFD/Diff Lock 6006 CAN-BUS indicating MFD (CCH) or Front Diff Lock (4WD)Switch failed in the armrest. Possible failure modes: 1. MFD (CCH) or Front Diff Lock (4WD)failed in Armrest2. Auto MFD
Switch failed in Armrest, (CCH). 3. Communication problems between the TCU controller and the Armrest
MFD/Diff Lock 6007 Both MFD and Auto MFD switches active fault
MFD/Diff Lock 6008 Steering angle sensor above maximum voltage limit.
MFD/Diff Lock 6009 Steering angle sensor below minimum voltage limit.
MFD/Diff Lock 6010 12VS1voltage supply is low. (possible blown fuse*)
MFD/Diff Lock 6011 12VS2 voltage supply is low. (possible blown fuse*)
Front PTO 8001 Front PTO cab switch is on during tractor power up.
Front PTO 8002 Front PTO cab switch open
Front PTO 8003 Front PTO cab switch short
Front PTO 8004 Front PTO solenoid open circuit or shorted to ground or AD12VU2 voltage is low.
Front PTO 8005 Front PTO solenoid circuit shorted to B+ when Front PTO is in the off state.
Front PTO 8006 Low side driver is stuck on and no current is sensed.
Front PTO 8007 Front PTO switch is in the on position when the engine is off.
Front PTO 8010 12VU2voltage supply is low. (possible blown fuse*)
Front Suspension 10001 Front suspension Pump Not tank Valve solenoid is open circuit or shorted to ground
Front Suspension 10002 Front suspension rod Side Valve solenoid is open circuit or shorted to ground
Front Suspension 10003 Front suspension piston Side Valve solenoid is open circuit or shorted to ground
Front Suspension 10004 Front Suspension Position sensor out of Range High Error
Front Suspension 10005 Front Suspension Position sensor out of Range Low Error
Front Suspension 10006 Front suspension will not raise error
Front Suspension 10007 Front Suspension will not Lower error
Front Suspension 10008 Front Suspension Piston Pressure transducer range high error
Front Suspension 10009 Front Suspension Piston Pressure transducer range lower error
Front Suspension 10010 Front Suspension Rod Pressure transducer range high error
Front Suspension 10011 Front Suspension Rod Pressure transducer range lower error
Front Suspension 10012 Front suspension Rod side pressure will not raise error
Front Suspension 10013 Front suspension piston side pressure will not raise error
Front Suspension 10014 Front Suspension Not calibrated error
Front Suspension 10015 Front suspension Lock Valve Solenoid is open circuit or is shorted to ground.
Front Suspension 10016 FSUS_ENABLE_SW_ERR 10016
Front Suspension 10017 FSUS_ENABLE_SW_NA_ERR10017
Front Suspension 10018 Front Suspension Pump not tank Solenoid over current
Front Suspension 10019 Front Suspension rod Side Solenoid over current
Front Suspension 10020 Front Suspension piston Solenoid over current
Front Suspension 10021 Front Suspension lock out Solenoid over current
Front Suspension 10022 12VM voltage supply is low. (possible blown fuse*)
Front Suspension 10023 12VF3 voltage supply is low. (possible blown fuse*)
Front Suspension 10024 12VF1 voltage supply is low. (possible blown fuse*)
ICU 14002 Trans oil filter switch closed to ground on power up.
ICU 14003 Hyd oil filter switch closed to ground on power up.
ICU 14005 PTO shaft speed data is _ERROR_ or _NOT AVAILABLE_ state from PTO.
ICU 14006 GOV ENGINE speed data is _ERROR_ or _NOT AVAILABLE_ state from GOV.
ICU 14007 Engine Over speeding
ICU 14008 ENGINE oil pressure data is _ERROR_ or _NOT AVAILABLE_ state from GOV.
ICU 14009 Loss of valid ENGINE Hours
ICU 14010 PTO controller off line
ICU 14011 Communications Lost with Vehicle Data Bus 1 and ALL other controllers
ICU 14013 TRANSMISSION Off Line
ICU 14014 ENGINE coolant temperature data is _ERROR_ or _NOT AVAILABLE_ state from GOV.
ICU 14015 Engine Intake Air Temperature data is _ERROR|| or _NOT AVAILABLE|| state from GOV.
ICU 14016 Engine shutdown activated
ICU 14017 Fuel Level Sensor voltage out of range low.
ICU 14018 GOV Off Line
ICU 14019 ATC Off Line
Armrest 18001 Hand throttle #1 -voltage too low (New Holland Only)
Armrest 18002 Hand throttle #1 -voltage too high (New Holland Only)
Armrest 18003 Hand throttle #2 -voltage too low
Armrest 18004 Hand throttle #2 -voltage too high
Armrest 18005 Engine droop control -voltage too low
Armrest 18006 Engine droop control -voltage too high
Armrest 18007 Multi-function handle -switch error
Armrest 18008 Multi-function handle -voltage too low
Armrest 18009 Multi-function handle -voltage too high
Armrest 18010 Powershift throttle -voltage too low (Case IH)
Armrest 18011 Powershift throttle -voltage too high (Case IH)
Armrest 18012 CVT mode switch error
Armrest 18013 Multi-function handle -encoder position error
Armrest 18014 Rear hitch position control potentiometer -voltage too low
Armrest 18015 Rear hitch position control potentiometer -voltage too high
Armrest 18016 Rear hitch draft control potentiometer -voltage too low
Armrest 18017 Rear hitch draft control potentiometer -voltage too high
Armrest 18018 Rear hitch height limit potentiometer -voltage too low
Armrest 18019 Rear hitch height limit potentiometer -voltage too high
Armrest 18020 Rear hitch drop rate potentiometer -voltage too low
Armrest 18021 Rear hitch drop rate potentiometer -voltage too high
Armrest 18022 Rear hitch sensitivity control potentiometer -voltage too low
Armrest 18023 Rear hitch sensitivity control potentiometer -voltage too high
Armrest 18024 EHR flow encoder position error
Armrest 18025 Rear hitch slip control potentiometer -voltage too low
Armrest 18026 Rear hitch slip control potentiometer -voltage too high
Armrest 18027 EHR 5 lever position -voltage too low (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18028 EHR 5 lever position -voltage too high (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18029 EHR 6 lever position -voltage too low (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18030 EHR 6 lever position -voltage too high (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18031 Front hitch position / pressure control potentiometer -voltage too high
Armrest 18032 Front hitch position / pressure control potentiometer -voltage too low
Armrest 18033 Front hitch position / pressure mix potentiometer -voltage too high
Armrest 18034 Front hitch position / pressure mix potentiometer -voltage too low
Armrest 18035 Front hitch position height limit potentiometer -voltage too high
Armrest 18036 Front hitch position height limit potentiometer -voltage too low
Armrest 18037 Front hitch height limit enable switch error
Armrest 18038 Front hitch position drop rate potentiometer -voltage too high
Armrest 18039 Front hitch position drop rate potentiometer -voltage too low
Armrest 18040 EHR 1 lever position -voltage too low
Armrest 18041 EHR 1 lever position -voltage too high
Armrest 18042 EHR 2 lever position -voltage too low
Armrest 18043 EHR 2 lever position -voltage too high
Armrest 18044 EHR 3 lever position -voltage too low
Armrest 18045 EHR 3 lever position -voltage too high
Armrest 18046 EHR float control switch error
Armrest 18047 EHR 4 lever position -voltage too low
Armrest 18048 EHR 4 lever position -voltage too high
Armrest 18049 Joystick 1 X-axis position -voltage too low
Armrest 18050 Joystick 1 X-axis position -voltage too high
Armrest 18051 Joystick 1 Y-axis position -voltage too low
Armrest 18052 Joystick 1 Y-axis position -voltage too high
Armrest 18053 Joystick 1 proportional rocker switch -voltage too low
Armrest 18054 Joystick 1 proportional rocker switch -voltage too high
Armrest 18055 Joystick 2 X-axis position -voltage too low (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18056 Joystick 2 X-axis position -voltage too high (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18057 Joystick 2 Y-axis position -voltage too low (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18058 Joystick 2 Y-axis position -voltage too high (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18059 Joystick 2 proportional rocker switch -voltage too low (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18060 Joystick 2 proportional rocker switch -voltage too high (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18061 Reference voltage _short circuit to 0V
Armrest 18062 Reference voltage _short circuit to 12V
Armrest 18063 EEPROM fault
Armrest 18064 MFH communication error
Armrest 18065 MFH basic assurance test error
Armrest 18066 EHR 1 lever implausibility error
Armrest 18067 EHR 2 lever implausibility error
Armrest 18068 EHR 3 lever implausibility error
Armrest 18069 EHR 4 lever implausibility error
Armrest 18070 EHR 5 lever implausibility error (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18071 EHR 6 lever implausibility error (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18072 EDC mouse raise/work switch fault (NH Only)
DCU 19001 Battery voltage sensing (electrical) _signal high _P0563 Battery voltage evaluation above upper limit
DCU 19002 Battery voltage sensing (electrical) |signal low |P0562 Battery voltage evaluation below lower limit
DCU 19010 Temperature sensor after catalyst (electrical) _signal high _P042D Catalyst Temperature Sensor Circuit High
DCU 19011 Temperature sensor after catalyst (electrical) |signal low |P042C Catalyst Temperature Sensor Circuit Low
DCU 19019 Temperature sensor before catalyst (electrical) _signal high _P0428 Catalyst Temperature Sensor Circuit High
DCU 19020 Temperature sensor before catalyst (electrical) |signal low |P0427 Catalyst Temperature Sensor Circuit Low
DCU 19037 Sensor supply 2 (5V internal; for UREA pressure sensors) _Supply Voltage too high _P204D Reagent -pressure sensor -short circuit high
DCU 19038 Sensor supply 2 (5V internal; for UREA pressure sensors) |Supply voltage too low |P204C Reagent -pressure sensor -short circuit low
DCU 19046 UREA pressure sensor in box (electrical) |supply voltage error |P204A Reagent -pressure sensor -open circuit
DCU 19047 UREA pressure sensor in box (electrical) _signal high _P204D Reagent -pressure sensor -short circuit high
DCU 19048 UREA pressure sensor in box (electrical) |signal low |P204C Reagent -pressure sensor -short circuit low
DCU 19055 UREA Temperature sensor in box (electrical) _high signal _P2045 Reagent -temperature sensor of pump module -short circuit high
DCU 19056 UREA Temperature sensor in box (electrical) |signal low |P2044 Reagent -temperature sensor of pump module -short circuit low
DCU 19064 Voltage supply internal heaters 1 (UB1) electrical |Open circuit to UB1 |P20C5 Pump module — Internal heating -open circuit
DCU 19065 Voltage supply internal heaters 1 (UB1) electrical |Short to bat at UB1 with Key 15 off |P20C8 Pump module -Internal heating -short circuit high
DCU 19073 Voltage supply 2 -tube heaters (UB2) electrical |Short to bat at UB2 with Key 15 off |P20C4 Reagent -suction tube heating -short circuit high
DCU 19074 Voltage supply 2 -tube heaters (UB2) electrical |Open circuit to UB2 |P20C1 Reagent -suction tube heating -open circuit
DCU 19075 Voltage supply 2 -tube heaters (UB2) electrical |Short circuit to Ground UB2 |P20C3 Reagent — suction tube heating -short circuit low
DCU 19082 Voltage supply 3 -Coolant control valve and reverting valve (UB3) electrical |Short to bat at UB3 with Key 15 off |P20A3 Vent valve (Reductant Purge Control Valve) -short circuit high
DCU 19083 Voltage supply 3 -Coolant control valve and reverting valve (UB3) electrical |Open circuit to UB3 |P20A0 Vent valve (Reductant Purge Control Valve) -open circuit
DCU 19084 Voltage supply 3 -Coolant control valve and reverting valve (UB3) electrical |Short circuit to Ground UB3 |P20A2 Vent valve (Reductant Purge Control Valve) -short circuit low
DCU 19091 Monitoring VDD11 voltage -Dosing valve |supply voltage low |P0658 12 Volt supply for dosing module -below lower limit
DCU 19092 Monitoring VDD11 voltage-Dosing valve _supply voltage high _P0659 12 Volt supply for dosing module -above upper limit
DCU 19100 UREA level sensor (electrical) |supply voltage error |P203E Reductant Level Sensor -Circuit Intermittent/Erratic
DCU 19101 UREA level sensor (electrical) _signal high _P203D Reagent -tank level sensor -short circuit high
DCU 19102 UREA level sensor (electrical) |signal low |P203C Reagent -tank level sensor -short circuit low
DCU 19109 UREA Temperature sensor in Tank (electrical) _signal high _P205D Reagent -tank temperature sensor (temperature of the Reagent -solution in the tank) -short circuit high
DCU 19110 UREA Temperature sensor in Tank (electrical) |signal low |P205C Reagent -tank temperature sensor (temperature of the Reagent -solution in the tank) -short circuit low
DCU 19145 Dosing Valve (electrical) |short circuit to batt + |P2049 Reductant Injector -circuit high
DCU 19146 Dosing Valve (electrical) |short circuit to ground |P2048 Reductant Injector -circuit low
DCU 18147 Dosing Valve (electrical) |open load |P2047 Reductant Injector -circuit open
DCU 19148 Dosing Valve (electrical) |Dosing valve permanent ñONî (detection via fast decay) |P209B Reagent-dosing nozzle pressure too high
DCU 19154 UREA Pump speed |pump motor unplugged |P208B Reagent-pump not delivering
DCU 19155 UREA Pump speed _pump motor blocked _P208A Reagent-pump
DCU 19156 UREA Pump speed |pump overspeed |P208D Reagent-pump over speed
DCU 19157 UREA Pump speed |Hall sensors defect |P208B Reagent-pump not delivering
DCU 19163 Cooling control valve short circuit to UBat or open load |short circuit to battery |P20A3 Vent valve (Reductant Purge Control Valve) -short circuit high
DCU 19164 Cooling control valve short circuit to UBat or open load |Open load |P20A0 Vent valve (Reductant Purge Control Valve) -open circuit
DCU 19172 Cooling control valve short circuit to ground |short circuit to ground |P20A2 Vent valve (Reductant Purge Control Valve) -short circuit low
DCU 19181 Reverting valve (4-2way valve?) electrically |Short circuit to battery |P20A3 Vent valve (Reductant Purge Control Valve) -short circuit high
DCU 19182 Reverting valve (4-2way valve?) electrically |Short circuit to ground |P20A2 Vent valve (Reductant Purge Control Valve) -short circuit low
DCU 19183 Reverting valve (4-2way valve?) electrically |Open load |P20A0 Vent valve (Reductant Purge Control Valve) -open circuit
DCU 19262 Tank heating Valve |Short circuit to battery |P20B4 Reagent -tank heating valve -short circuit high
DCU 19263 Tank heating Valve |Short circuit to ground |P20B3 Reagent -tank heating valve -short circuit low
DCU 19264 Tank heating Valve |Open load |P20B1 Reagent -tank heating valve -open circuit
DCU 19289 Temperature after catalyst too low |Downstream catalyst temp -physical (Catalyst heating time failed) |P042B Catalyst Temperature Sensor Circuit Range/Performance
DCU 19298 UREA pressure too low at system start |UREA pressure too low at system start |P208B Reagent pump not delivering
DCU 19307 UREA pressure too high |Urea pressure not plausible (urea pressure too high) |P204B Reagent -pressure above threshold
DCU 19316 UREA Temperature in Pump Module out of range |Urea temperature box -physical (Urea Box Temp NOT OK: outside range) |P2043 Reagent-temperature sensor of pump module out of range
DCU 19325 UREA Temperature in Tank out of range |Urea temperature tank -physical (Urea Tank Temp NOT OK: outside range) |P205B Reagent -tank temperature sensor (temperature of the Reagent
-solution in the tank) out of range
DCU 19334 System frozen and not free in time _Defreezing Mode and Detection Errors (Inlet line defreezing failed) _P20C2 Reagent -suction tube heating -detection mode of heating
DCU 19335 System frozen and not free in time |Defreezing Mode and Detection Errors (pressure line defreezing failed) |P20BE Reagent -pressure tube heating -detection mode of heating
DCU 19336 System frozen and not free in time |Defreezing Mode and Detection Errors (pressure build-up in detection mode failed)|P20C5 Pump module -Internal heating -open circuit
DCU 19337 System frozen and not free in time |Defreezing Mode and Detection Errors (Back-flow line defreezing failed) |P20B9 Reagent -backflow tube heating -open circuit
DCU 19343 Coolant control valve mechanically |mechanical defective blocked open |P20A3 Vent valve (Reductant Purge Control Valve) -short circuit high
DCU 19344 Coolant control valve mechanically _mechanical defective blocked closed _P20A0 Vent valve (Reductant Purge Control Valve) -open circuit
DCU 19352 Reverting valve (4-2way valve?) mechanically |valve does not open |P20A0 Vent valve (Reductant Purge Control Valve) -open circuit
DCU 19361 Battery Voltage (actual value) |High battery voltage |P0562 Battery voltage evaluation -below lower limit
DCU 19362 Battery Voltage (actual value) _Low battery voltage _P0563 Battery voltage evaluation -above upper limit
DCU 19370 UREA pressure too low (in ñcommissioningî status) |Pump motor error during commissioning (pump not delivering) |P208B Reagent-pump not delivering
DCU 19379 UREA Temperature too low during commissioning |Temperatures not plausible during commissioning.
DCU 19415 Empty UREA Tank _urea tank empty _P203F Reagent -fluid level in tank -too low
DCU 19532 Back flow line clogged |P2063 Reagent -dosing valve -short circuit low
DCU 19541 Coolant control valve mechanically |Blocked closed |P20A1 Vent valve test plausibility test (startup)
DCU 19550 Pressure line blocked |pressure line blocked |P209B Reagent -dosing nozzle -pressure too high
DCU 19559 Low UREA level 1 (warning) -UREA level below Limit 1 -P203F Reagent -fluid level in tank -too low
DCU 19568 Low UREA level 2 (warning) -UREA level below Limit 2 -P203F Reagent -fluid level in tank -too low
DCU 19577 CAN receive frame E2SCR (Dosing, Exh gas flow, Exh gas temp, Error Suppression, Heater, Long Term failure) |SAE J1939 Check for CAN receive signal : (UREA quantity not in range)
|P0600
DCU 19578 CAN receive frame E2SCR (Dosing, Exh gas flow, Exh gas temp, Error Suppression, Heater, Long Term failure) |SAE J1939 Check for CAN receive signal : (Dosing status not in range)
|P0600 Serial Communication Link
DCU 19579 CAN receive frame E2SCR (Dosing, Exh gas flow, Exh gas temp, Error Suppression, Heater, Long Term failure) _timeout _P0600 Serial Communication Link
DCU 19580 CAN receive frame E2SCR (Dosing, Exh gas flow, Exh gas temp, Error Suppression, Heater, Long Term failure) |too many CAN messages |P0600 Serial Communication Link
DCU 19581 CAN receive frame E2SCR (Dosing, Exh gas flow, Exh gas temp, Error Suppression, Heater, Long Term failure) _SAE J1939 Check for CAN receive signal _P0600 Serial Communication Link
DCU 19595 CAN receive frame EEC1 (Driver demand, eng speed, eng torque) |SAE J1939 Check for CAN receive signal : (Engine torque not in range) |P0600 Serial Communication Link
DCU 19596 CAN receive frame EEC1 (Driver demand, eng speed, eng torque) |SAE J1939 Check for CAN receive signal : (Engine speed not in range) |P0600 Serial Communication Link
DCU 19597 CAN receive frame EEC1 (Driver demand, eng speed, eng torque) _timeout _P0600 Serial Communication Link
DCU 19598 CAN receive frame EEC1 (Driver demand, eng speed, eng torque) |too many CAN messages _ ïP0600 Serial Communication Link
DCU 19599 CAN receive frame EEC1 (Driver demand, eng speed, eng torque) |SAE J1939 Check for CAN receive signal : (Torque driver demand not in range) |P0600 Serial Communication Link
DCU 19604 CAN receive frame ET1 (Oil and Water temp engine) |SAE J1939 Check for CAN receive signal : (Oil temperature not in range) |P0600 Serial Communication Link
DCU 19605 CAN receive frame ET1 (Oil and Water temp engine) _timeout _P0600 Serial Communication Link
DCU 19606 CAN receive frame ET1 (Oil and Water temp engine) |too many CAN messages |P0600 Serial Communication Link
DCU 19607 CAN receive frame ET1 (Oil and Water temp engine) |SAE J1939 Check for CAN receive signal : (Water temperature not in range) |P0600 Serial Communication Link
DCU 19649 UREA Tank level error (CAN message or electrical with real sensor) |Level over CAN: SAE J1939 no Signal available Level sensor connected directly: Sensor Supply error |P203A Reagent
-tank level sensor -open circuit
DCU 19650 UREA Tank level error (CAN message or electrical with real sensor) _Level over CAN: SAE J1939 Signal Not in Range Level sensor connected directly: SRC high _P203D Reagent -tank level
sensor -short circuit high
DCU 19651 UREA Tank level error (CAN message or electrical with real sensor) |Level over CAN: SAE J1939 Erroneous Signal Level sensor connected directly: SRC low |P203C Reagent -tank level
sensor — short circuit low
DCU 19676 Ambient Temperature: SAE J1939 Check for CAN receive signal : (Signal Range Check: Signal not in range / Erroneous Signal / Signal not available) |SAE J1939 Check for CAN receive
signal : (Ambient air temperature not in range) |P0600 Serial Communication Link
DCU 19677 Ambient Temperature: SAE J1939 Check for CAN receive signal : (Signal Range Check: Signal not in range / Erroneous Signal / Signal not available) _timeout _P0071 Ambient Air Temperature
Sensor Range/Performance
DCU 19678 Ambient Temperature: SAE J1939 Check for CAN receive signal : (Signal Range Check: Signal notin range / Erroneous Signal / Signal not available) |too many CAN messages |P0071 Ambient
Air Temperature Sensor Range/Performance
DCU 19679 Ambient Temperature: SAE J1939 Check for CAN receive signal : (Signal Range Check: Signal not in range / Erroneous Signal / Signal not available) |SAE J1939 Check for CAN receive
signal : (Barometric pressure not in range) |P0071 Ambient Air Temperature Sensor Range/Performance
DCU 19721 EEPROM / Checksum failures |EEPROM write error |P062F Internal Control Module EEPROM Error
DCU 19722 EEPROM / Checksum failures |No corresponding variant number error |P062F Internal Control Module EEPROM Error
DCU 19723 EEPROM / Checksum failures |EEPROM communication error |P062F Internal Control Module EEPROM Error
DCU 19724 EEPROM / Checksum failures _EEPROM Detection error OR A Codierwort error |P062F Internal Control Module EEPROM Error
DCU 19725 EEPROM / Checksum failures |Wrong EEPROM size |P062F Internal Control Module EEPROM Error
DCU 19730 Ignition ñonî signal K15 |digital input ignition ON not sensed during initialization |P2530 Ignition switch -plausibility error
DCU 19739 Main Relay opens too early / too late |main relay shut off too late |P0687 ECM/PCM Power Relay Control Circuit High
DCU 19740 Main Relay opens too early / too late |main relay short circuit |P0685 ECM/PCM Power Relay Control Circuit /Open
DCU 19741 Main Relay opens too early / too late |main relay open circuit |P0687 ECM/PCM Power Relay Control Circuit High
DCU 19742 Main Relay opens too early / too late _main relay shut off too early (before EEPROM update) _ P0685 ECM/PCM Power Relay Control Circuit /Open
DCU 19748 Too high UREA Temperature in Pump module or Leakage test failed (Emergency shut off) _over temperature detection (urea temp. in pump module) _P2043 Reagent -temperature sensor of pump
module -Out of range
DCU 19749 Too high UREA Temperature in Pump module or Leakage test failed (Emergency shut off) |urea leakage detection (static or dynamic) |P202D Dynamic urea leakage test -Leakage detected
DCU 19757 Group error path UREA injection control _Error belonging to group UREA Injection control _ P208B Reagent-pump -Not delivering
DCU 19766 Group error path Air control _Error belonging to group air control _P20A7 Compressed air regulation valve
DCU 19775 Group error path catalyst temperature _Error belonging to group catalyst temperature out of range _P0426 Plausibility of catalyst temperature sensors -Plausibility error (static)
DCU 19784 Group error path NOx exceeded _Error belonging to group NOx exceeded active _P2000 Nox Trap Efficiency Below Threshold
DCU 19793 Group error path UREA Tank empty _Error belonging to group UREA tank empty active _P203F Reagent -fluid level in tank -Too low
DCU 19999 Unknown DCU15 fault code
NEW HOLLAND ERROR CODES
NH 1002 Radar disconnected
NH 1003 Speed sensor error
NH 1004 Speed sensor signal too High
NH 1005 Speed sensor signal too High
NH 1006 Slip control potentiometer signal too low
NH 1007 Slip control potentiometer signal too High
NH 1008 Raise / work switch failure
NH 1009 Both external switches operated at the same time
NH 1010 Height limit potentiometer signal too low
NH 1011 Height limit potentiometer signal too high
NH 1012 Drop rate potentiometer signal too low
NH 1013 Drop rate potentiometer signal too high
NH 1014 R/H load sensing pin signal too low
NH 1015 R/H load sensing pin signal too high
NH 1016 L/H load sensing pin signal too low
NH 1017 L/H load sensing pin signal too high
NH 1018 Both load sensing pin disconnected
NH 1019 Load sensing pin voltage too low
NH 1020 Load sensing pin voltage too high
NH 1021 Position / draft control potentiometer too low
NH 1022 Position / draft control potentiometer too high
NH 1023 Control panel disconnected
NH 1024 Perform Hydraulic Lift Autocalibration
NH 1025 Mouse lift lever potentiometer signal too low
NH 1026 Mouse lift lever potentiometer signal too high
NH 1027 Maximum Lift arm position potentiometer too low
NH 1028 Maximum Lift arm position potentiometer too high
NH 1029 Hydraulic Control valve disconnected
NH 1030 Ground signal open circuit ( not used )
NH 1031 Chassis Harness Disconnected
NH 1032 Draft Load potentiometer shorted to +12v
NH 1033 Draft Load potentiometer open circuit
NH 1049 Wheel speed sensor open circuit
NH 1053 5 volt reference Short to +12v
NH 1054 5 volt reference Short to ground.
NH 1057 Module Failure ( not used )
NH 1059 5 volt reference Open circuit ( not used )
NH 1063 Lower solenoid open circuit
NH 1064 Raise solenoid open circuit
NH 1065 lower solenoid short circuit
NH 1066 Raise solenoid short circuit
NH 1067 EDC Hydraulic Valve supply too low
NH 1068 Height limit Calibration Error
NH 2001 ‘N’ — Shuttle too fast error
NH 2002 Flash N error
NH 2003 ‘CP’ — Clutch pedal required
NH 2004 ‘P’ — Handbrake error
NH 2005 Creeper selection error
NH 2011 Clutch Pedal Potentiometer Signal too Low
NH 2012 Clutch Pedal Potentiometer Signal too High
NH 2013 Up and Down buttons at same time
NH 2014 Switch 4 / 5 error ( not used )
NH 2015 HI / LO shift lever switches both closed
NH 2016 Creeper Solenoid Short circuit
NH 2021 Chassis Harness Error
NH 2024 Synchro clutches not calibrated
NH 2026 Engine speed too high
NH 2027 Engine speed too low
NH 2035 Dump solenoid circuit fault
NH 2036 Dump solenoid open circuit
NH 2037 Clutch Pedal switch open circuit
NH 2038 Clutch 4 solenoid short circuit
NH 2039 Clutch 4 solenoid open circuit
NH 2040 Clutch 3 solenoid short circuit
NH 2041 Clutch 3 solenoid open circuit
NH 2042 Clutch 2 solenoid short circuit
NH 2043 Clutch 2 solenoid open circuit
NH 2044 Clutch 1 solenoid short circuit
NH 2045 Clutch 1 solenoid open circuit
NH 2046 Fuse 12 open circuit ( not used )
NH 2047 Clutch pedal switch set too High
NH 2048 Clutch pedal switch set too Low
NH 2049 Wheel speed sensor short or open
NH 2051 Oil temperature sensor open circuit
NH 2052 Oil temperature sensor short circuit
NH 2053 5 Volt Potentiometer Supply too High
NH 2054 5 Volt Potentiometer Supply too Low
NH 2055 No signal from wheel speed sensor
NH 2056 Low Range switch open
NH 2057 High Range switch open
NH 2058 Seat switch closed for 25 hours
NH 2059 Shuttle Lever switch disagree
NH 2060 Synchro Fwd no longer engaged
NH 2061 F/R Synchro Potentiometer signal too high
NH 2062 F/R Synchro Potentiometer signal too low
NH 2063 Synchro not moving to forward
NH 2064 Synchro not moving to reverse
NH 2065 Forward solenoid open circuit
NH 2066 Reverse solenoid open circuit
NH 2067 Forward solenoid circuit fault
NH 2068 Reverse solenoid circuit fault
NH 2069 Synchro reverse no longer engaged
NH 2070 Voltage with lever in forward too high
NH 2071 Voltage with lever in forward too low
NH 2072 Voltage with lever in reverse too high
NH 2073 Voltage with lever in reverse too low
NH 2075 Flywheel Speed Sensor Frequency is too high
NH 2075 Any period is too short, under 400 microseconds
NH 2075 Any short period is longer than the corresponding long period
NH 2075 Damper angle is below 50 degrees or above 85 degrees
NH 2075 Calculated torque exceeds calibrated peak torque by more than 25%
NH 2075 No usable signals from the flywheel sensor, and ERPM is greater than 300
NH 2076 Flywheel Speed Sensor open circuit
NH 2077 Flywheel Speed Sensor short circuit
NH 2080 Synchro 4 no longer engaged
NH 2081 4/5 Synchro Potentiometer signal too high
NH 2082 4/5 Synchro Potentiometer signal too low
NH 2083 Synchro 4 engaged error
NH 2084 Synchro 5 engaged error
NH 2085 Synchro 4 solenoid open circuit
NH 2086 Synchro 5 solenoid open circuit
NH 2087 Synchro 4 solenoid short to 12v
NH 2088 Synchro 5 solenoid short to 12v
NH 2089 Synchro 5 no longer engaged
NH 2090 Output speed too high in creeper
NH 2091 C3 Clutch not calibrated
NH 2092 C4 Clutch not calibrated
NH 2093 High Clutch not calibrated
NH 2094 Low Clutch not calibrated
NH 2095 C1 Clutch not calibrated
NH 2096 C2 Clutch not calibrated
NH 2097 Clutch 5 not calibrated
NH 2098 C5 solenoid short to 12v
NH 2099 C5 open circuit
NH 2100 C5 dump solenoid short to 12v
NH 2101 C5 dump solenoid open circuit
NH 2124 Flywheel Torque Sensor not calibrated
NH 2199 Creeper option not enabled
NH 3001 Accelerator Pedal Signal — NOT PLAUSIBLE
NH 3002 Accelerator Pedal Signal — SOURCE HIGH
NH 3003 Accelerator Pedal Signal — SOURCE LOW
NH 3004 Accelerator Pedal Signal — NO SIGNAL
NH 3005 Accelerator Pedal Signal — ALL OTHER FAULTS
NH 3006 Coolant Temperature Signal — ABOVE NORMAL
NH 3007 Coolant Temperature Signal — SOURCE HIGH
NH 3008 Coolant Temperature Signal — SOURCE LOW
NH 3009 Coolant Temperature Signal — NO SIGNAL
NH 3010 Air (boost) Temperature Signal — SOURCE HIGH
NH 3011 Air (boost) Temperature Signal — SOURCE LOW
NH 3012 Air (boost) Temperature Signal — NO SIGNAL
NH 3014 Fuel Temperature Signal — ABOVE NORMAL
NH 3015 Fuel Temperature Signal — SOURCE HIGH
NH 3016 Fuel Temperature Signal — SOURCE LOW
NH 3017 Fuel Temperature Signal — NO SIGNAL
NH 3018 Boost Pressure Signal — ABOVE NORMAL
NH 3019 Boost Pressure Signal — SOURCE HIGH
NH 3020 Boost Pressure Signal — SOURCE LOW
NH 3021 Boost Pressure Signal — NO SIGNAL
NH 3022 Boost Pressure Signal — ALL OTHER FAULTS
NH 3023 Atmospheric Pressure Signal — ABOVE NORMAL
NH 3024 Atmospheric Pressure Signal — SOURCE HIGH
NH 3025 Atmospheric Pressure Signal — SOURCE LOW
NH 3026 Atmospheric Pressure Signal — NO SIGNAL
NH 3027 Oil Pressure Signal — ABOVE NORMAL
NH 3028 Oil Pressure Signal — BELOW NORMAL
NH 3029 Oil Pressure Signal — SOURCE HIGH
NH 3030 Oil Pressure Signal — SOURCE LOW
NH 3031 Oil Pressure Signal — NO SIGNAL
NH 3032 Oil Pressure Signal — ALL OTHER FAULTS
NH 3033 Oil Temperature Signal — ABOVE NORMAL
NH 3034 Oil Temperature Signal — SOURCE HIGH
NH 3035 Oil Temperature Signal — SOURCE LOW
NH 3036 Oil Temperature Signal — NO SIGNAL
NH 3037 Power stage Fuel filter heater — SOURCE HIGH
NH 3038 Power stage Fuel filter heater — SOURCE LOW
NH 3039 Power stage Fuel filter heater — NO SIGNAL
NH 3040 HS Power stage cold start heater relay — SOURCE HIGH
NH 3041 HS Power stage cold start heater relay — SOURCE LOW
NH 3042 HS Power stage cold start heater relay — NO SIGNAL
NH 3043 Adapt.cylinder balancing Cylinder 1 — SOURCE HIGH
NH 3044 Adapt.cylinder balancing Cylinder 5 — SOURCE HIGH
NH 3045 Adapt.cylinder balancing Cylinder 3 — SOURCE HIGH
NH 3046 Adapt.cylinder balancing Cylinder 6 — SOURCE HIGH
NH 3047 Adapt.cylinder balancing Cylinder 2 — SOURCE HIGH
NH 3048 Adapt.cylinder balancing Cylinder 4 — SOURCE HIGH
NH 3049 Battery voltage signal — ABOVE NORMAL
NH 3050 Battery voltage signal — BELOW NORMAL
NH 3051 Battery voltage signal — SOURCE HIGH
NH 3052 Battery voltage signal — SOURCE LOW
NH 3053 LS Power stage cold start lamp — SOURCE HIGH
NH 3054 LS Power stage cold start lamp — SOURCE LOW
NH 3055 LS Power stage cold start lamp — NO SIGNAL
NH 3056 Cold start heater monitoring — BELOW NORMAL
NH 3057 Cold start heater monitoring — NOT PLAUSIBLE
NH 3058 Cold start heater monitoring — SOURCE LOW
NH 3059 Cold start heater monitoring — NO SIGNAL
NH 3060 Injector solenoid valve Cylinder 1 — NOT PLAUSIBLE
NH 3061 Injector solenoid valve Cylinder 1 — SOURCE HIGH
NH 3062 Injector solenoid valve Cylinder 1 — SOURCE LOW
NH 3063 Injector solenoid valve Cylinder 1 — NO SIGNAL
NH 3064 Injector solenoid valve Cylinder 5 — NOT PLAUSIBLE
NH 3065 Injector solenoid valve Cylinder 5 — SOURCE HIGH
NH 3066 Injector solenoid valve Cylinder 5 — SOURCE LOW
NH 3067 Injector solenoid valve Cylinder 5 — NO SIGNAL
NH 3068 Injector solenoid valve Cylinder 3 — NOT PLAUSIBLE
NH 3069 Injector solenoid valve Cylinder 3 — SOURCE HIGH
NH 3070 Injector solenoid valve Cylinder 3 — SOURCE LOW
NH 3071 Injector solenoid valve Cylinder 3 — NO SIGNAL
NH 3072 Injector solenoid valve Cylinder 6 — NOT PLAUSIBLE
NH 3073 Injector solenoid valve Cylinder 6 — SOURCE HIGH
NH 3074 Injector solenoid valve Cylinder 6 — SOURCE LOW
NH 3075 Injector solenoid valve Cylinder 6 — NO SIGNAL
NH 3076 Injector solenoid valve Cylinder 2 — NOT PLAUSIBLE
NH 3077 Injector solenoid valve Cylinder 2 — SOURCE HIGH
NH 3078 Injector solenoid valve Cylinder 2 — SOURCE LOW
NH 3079 Injector solenoid valve Cylinder 2 — NO SIGNAL
NH 3080 Injector solenoid valve Cylinder 4 — NOT PLAUSIBLE
NH 3081 Injector solenoid valve Cylinder 4 — SOURCE HIGH
NH 3082 Injector solenoid valve Cylinder 4 — SOURCE LOW
NH 3083 Injector solenoid valve Cylinder 4 — NO SIGNAL
NH 3084 Injector Booster Voltage C1 — SOURCE HIGH
NH 3085 Injector Booster Voltage C1 — SOURCE LOW
NH 3086 Injector Booster Voltage C2 — SOURCE HIGH
NH 3087 Injector Booster Voltage C2 — SOURCE LOW
NH 3088 Increment speed signal — NOT PLAUSIBLE
NH 3089 Increment speed signal — SOURCE LOW
NH 3090 Segment speed signal — NOT PLAUSIBLE
NH 3091 Segment speed signal — SOURCE LOW
NH 3092 Engine Speed Sensing — NOT PLAUSIBLE
NH 3093 Engine Speed Sensing — SOURCE HIGH
NH 3094 Engine Speed Sensing — SOURCE LOW
NH 3095 Engine Speed Sensing — NO SIGNAL
NH 3096 CAN (A) Hardware — NO SIGNAL
NH 3097 CAN (B) Hardware — NO SIGNAL
NH 3098 CAN TSC1_TE Control — SOURCE LOW
NH 3099 CAN TSC1_TE Control — NO SIGNAL — CAN TE and CAN AE (Torque Request) error codes may be generated due to normal shutdown timing differences between the ECU and the XCM. If so, the actual
error code 3096 or 3097 should also be displayed.
NH 3100 CAN TSC1_AE Control — SOURCE LOW
NH 3101 CAN TSC1_AE Control — NO SIGNAL
NH 3102 Fuel pressure monitoring CP3 — ALL OTHER FAULTS
NH 3102 Possible Causes: • Low fuel supply to CP3 (filter restriction). • Low output from CP3 • CP3 PWM fault (Check PWM output in Atlas, min 3% at engine idle, max 24% at full load Above 24%
indicates excessive fuel leakage from the overpressure valve in the rail or Injector/transfer tube (remove the fuel return lines to check).
NH 3103 Fuel pressure signal — ABOVE NORMAL
NH 3104 Fuel pressure signal — SOURCE HIGH
NH 3105 Fuel pressure signal — SOURCE LOW
NH 3106 Fuel pressure signal — NO SIGNAL
NH 3107 CC HS Power stage 1 fuel press. Control — SOURCE HIGH
NH 3108 CC HS Power stage 1 fuel press. Control — SOURCE LOW
NH 3109 CC HS Power stage 1 fuel press. Control — NO SIGNAL
NH 3110 Monitoring of rail pressure relief valve — ABOVE NORMAL
NH 3111 Monitoring of rail pressure relief valve — BELOW NORMAL
NH 3112 Rail pressure Min / Max. error — SOURCE HIGH
NH 3113 Main relay defect — ABOVE NORMAL
NH 3114 Main relay defect — BELOW NORMAL
NH 3115 Main relay defect — NOT PLAUSIBLE
NH 3116 Main relay defect — SOURCE HIGH
NH 3117 ECU: Self Test Shutoff Paths ( Start Up ) — NOT PLAUSIBLE. Engine will derate to 1800 rpm.
NH 3117 Possible Causes: • ECU power failed when the engine was running or engine shut down process was incorrect.
NH 3118 Power supply for sensors — NOT PLAUSIBLE
NH 3119 Power supply for sensors — NO SIGNAL
NH 3120 Power supply for sensors — ALL OTHER FAULTS
NH 3121 PTO Torque sensor open circuit
NH 3122 PTO Torque sensor short circuit
NH 3123 PTO Torque not CAL error
NH 3124 Hand Throttle potentiometer 2 high error.
NH 3125 Hand Throttle potentiometer 2 Low error.
NH 3126 Hand Throttle potentiometer 1 high error.
NH 3127 Hand Throttle potentiometer 1 Low error.
NH 3128 Hand Throttle potentiometer diff. error.
NH 3129 Hand Throttle idle switch high error
NH 3130 Hand Throttle idle switch low error
NH 3131 ECU self test shutoff paths (start up)
NH 3132 CRPM Switch short
NH 4001 Signal of Aux-stick (AUX1) out of range low
NH 4002 Signal of Aux-stick (AUX1) out of range high
NH 4003 Signal from Remote Flow potentiometer 1 (AUX 1) out of range.
NH 4005 Signal of Aux-stick (AUX2) out of range low
NH 4006 Signal of Aux-stick (AUX2) out of range high
NH 4007 Signal from Remote Flow potentiometer 2 (AUX 2) out of range.
NH 4008 Signal from Remote valve 2 Timer Pot 1 out of range
NH 4009 Signal of Aux-stick (AUX3) out of range low
NH 4010 Signal of Aux-stick (AUX3) out of range high
NH 4011 Signal from Remote Flow potentiometer 3 (AUX 3) out of range.
NH 4015 Signal from Remote Flow potentiometer 4 (AUX 4) out of range.
NH 4016 Signal from Remote valve Timer potentiometer 1 out of range.
NH 4040 Supply Voltage too low
NH 4041 Supply Voltage too High
NH 4042 Arm Rest Module (ARU) CAN ‘Bus off’.
NH 4043 Controller Fault ( Register check)
NH 4044 Controller Fault (Flash Memory)
NH 4045 Controller Fault (Data Memory)
NH 4100 Remote No.1 No control Message Received
NH 4101 Remote No.1 Control Message not plausible
NH 4102 Remote No.1 EEPROM Error
NH 4103 Remote No.1 Switched to failsafe
NH 4104 Remote No.1 Under voltage
NH 4105 Remote No.1 Over voltage
NH 4106 Remote No.1 Spool movement to low
NH 4107 Remote No.1 Spool movement to high
NH 4108 Remote No.1 Float position not reached
NH 4109 Remote No.1 Manually operated
NH 4110 Remote No.1 Driver faulty
NH 4111 Remote No.1 potentiometer faulty.
NH 4112 Remote No.1 Unable to reach neutral
NH 4113 Remote No.1 Spool not in neutral at key on
NH 4114 Remote No.2 No control Message Received
NH 4115 Remote No.2 Control Message not plausible
NH 4116 Remote No.2 EEPROM Error
NH 4117 Remote No.2 Switched to failsafe
NH 4118 Remote No.2 Under voltage
NH 4119 Remote No.2 Over voltage
NH 4120 Remote No.2 Spool movement to low
NH 4121 Remote No.2 Spool movement to high
NH 4122 Remote No.2 Float position not reached
NH 4123 Remote No.2 Manually operated
NH 4124 Remote No.2 Driver faulty
NH 4125 Remote No.2 potentiometer faulty
NH 4126 Remote No.2 Unable to reach neutral
NH 4127 Remote No.2 Spool not in neutral at key on
NH 4128 Remote No.3 No control Message Received
NH 4129 Remote No.3 Control Message not plausible
NH 4130 Remote No.3 EEPROM Error
NH 4131 Remote No.3 Switched to failsafe
NH 4132 Remote No.3 Under voltage
NH 4133 Remote No.3 Over voltage
NH 4134 Remote No.3 Spool movement to low
NH 4135 Remote No.3 Spool movement to high
NH 4136 Remote No.3 Float position not reached
NH 4137 Remote No.3 Manually operated
NH 4138 Remote No.3 Driver faulty
NH 4139 Remote No.3 potentiometer faulty.
NH 4140 Remote No.3 Unable to reach neutral
NH 4141 Remote No.3 Spool not in neutral at key on
NH 4142 Remote No.4 No control Message Received
NH 4143 Remote No.4 Control Message not plausible
NH 4144 Remote No.4 EEPROM Error
NH 4145 Remote No.4 Switched to failsafe
NH 4146 Remote No.4 Under voltage
NH 4147 Remote No.4 Over voltage
NH 4148 Remote No.4 Spool movement to low
NH 4149 Remote No.4 Spool movement to high
NH 4150 Remote No.4 Float position not reached
NH 4151 Remote No.4 Manually operated
NH 4152 Remote No.4 Driver faulty
NH 4153 Remote No.4 potentiometer faulty.
NH 4154 Remote No.4 Unable to reach neutral
NH 4155 Remote No.4 Spool not in neutral at key on
NH 4156 Remote No.5 Spare
NH 4157 Remote No.5 Spare
NH 4158 Remote No.5 Spare
NH 4159 Remote No.5 Spare
NH 4160 Remote No.5 Spare
NH 4161 Remote No.5 Spare
NH 4162 Remote No.5 Spare
NH 4163 Remote No.5 Spare
NH 4164 Remote No.5 Spare
NH 4165 Remote No.5 Spare
NH 4166 Remote No.5 Spare
NH 4167 Remote No.5 Spare
NH 4168 Remote No.5 Spare
NH 4170 EHR Control No. 1 not calibrated
NH 4171 EHR Control No.1 open circuit
NH 4172 EHR Control No.1 short circuit
NH 4173 EHR Control No. 2 not calibrated
NH 4174 EHR Control No.2 open circuit
NH 4175 EHR Control No.2 short circuit
NH 4176 Timer Switch No.1 / No.2 not connected
NH 4177 EHR Control No. 3 not calibrated
NH 4178 EHR Control No.3 open circuit
NH 4179 EHR Control No.3 short circuit
NH 4180 EHR Control No. 4 not calibrated
NH 4181 EHR Control No.4 open circuit
NH 4182 EHR Control No.4 short circuit
NH 4183 Timer Switch No.3 / No.4 not connected
NH 4184 EHR Joystick potentiometer X open circuit.
NH 4185 EHR Joystick potentiometer X short circuit.
NH 4186 EHR Joystick potentiometer Y open circuit.
NH 4187 EHR Joystick potentiometer Y short circuit.
NH 4190 No communications from (EHR) No.1.
NH 4191 No communications from ( EHR) No.2.
NH 4192 No communications from ( EHR) No.3.
NH 4193 No communications from ( EHR) No. 4.
NH 4194 Motor mode No.1 switch faulty
NH 4195 Motor mode No.2 switch faulty
NH 4196 Motor mode No.3 switch faulty
NH 4197 Motor mode No. 4 switch faulty
NH 5001 Rear PTO Brake Solenoid stuck off
NH 5002 Rear PTO Brake Solenoid stuck on
NH 5003 Rear PTO Brake output open circuit
NH 5004 Rear PTO Brake driver over temperature ( not used )
NH 5005 Brake switch open circuit
NH 5007 Rear PTO Solenoid Stuck off
NH 5008 Rear PTO solenoid circuit overcurrent
NH 5024 Rear PTO not calibrated
NH 5027 Rear PTO speed sensor open circuit (not implemented)
NH 5033 Rear PTO cab N/C switch open circuit
NH 5034 Rear fender PTO switch open / short to ground.
NH 5035 Rear fender PTO switch input short to +12v
NH 5036 PTO failure to Start
NH 5037 Rear PTO cab N/O switch stuck closed
NH 5038 Cab & fender PTO switches operated in 2 sec
NH 5039 Incorrect voltage on fender PTO switch
NH 5040 Rear fender PTO switches reversed ( not used )
NH 5041 PTO disengaged due to assuasive load ( not used )
NH 5042 PTO Management switch shorted
NH 5099 Auto PTO mode not enabled
NH 6020 FWD switch error
NH 6021 FWD Solenoid Stuck on
NH 6022 FWD Solenoid Stuck off
NH 6023 FWD solenoid open circuit
NH 7014 Difflock switch error
NH 7015 Difflock Solenoid Stuck off
NH 7016 Difflock Solenoid Stuck on
NH 7017 Difflock solenoid open circuit
NH 7018 Difflock driver over temperature
NH 7024 Steering angle sensor not calibrated
NH 7031 Steering angle sensor out of Maximum range
NH 7032 Steering angle sensor out of Minimum range
NH 8007 Front PTO Solenoid Stuck on
NH 8008 Front PTO solenoid open circuit
NH 8024 Front PTO not calibrated
NH 8027 Front PTO speed sensor open circuit
NH 8033 Front PTO cab N/C switch open circuit
NH 8036 Front PTO failure to Start
NH 8037 Front PTO cab N/O switch stuck closed
NH 8099 Front PTO option not enabled
NH 9001 Front HPL (High Pressure Lift) Potentiometer open circuit.
NH 9002 Front HPL (High Pressure Lift) Potentiometer short circuit.
NH 10001 Upper lockout Solenoid error
NH 10002 Raise Solenoid error
NH 10003 Lower Solenoid error
NH 10004 Front Axle Potentiometer above threshold
NH 10005 Front Axle Potentiometer below threshold
NH 10007 Go up error, Suspension Unable to return to set point
NH 10008 Go down error, Suspension Unable to return to set point
NH 10009 Lower lockout Solenoid Error
NH 10024 Front Suspension not calibrated
NH 10099 Front Suspension mode not enabled
NH 14001 Rear PTO speed short to VCC or open circuit
NH 14002 Rear PTO speed short to Ground
NH 14011 Engine speed sensor short to VCC or open circuit
NH 14012 Engine speed sensor short to Ground
NH 14015 The ADIC 5 volt reference voltage is too low — below 4 volts
NH 14016 The ADIC 5 volt reference voltage is too high — above 6 volts
NH 14021 Radar Ground speed short to VCC or open circuit
NH 14022 Radar Ground speed short to Ground
NH 14031 Front PTO speed short to VCC or open circuit
NH 14032 Front PTO speed short to Ground
NH 14041 Engine coolant temp short to VCC or open circuit
NH 14042 Engine coolant temp short to Ground
NH 14051 Fuel level sensor short to VCC or open circuit
NH 14052 Fuel level sensor short to Ground
NH 14061 Air brake pressure short to VCC or option set but sensor not connected
NH 14071 Front Hitch Position short to 12 or 5 Volts
NH 14072 Front Hitch Position short to Ground or open circuit
NH 14081 Engine oil pressure short to 12 or 5 Volts
NH 14082 Engine oil pressure short to Ground or open circuit
NH 14091 Transmission output speed short to VCC or open circuit
NH 14092 Transmission output speed short to Ground
NH 14100 Air brake pressure not configured
NH 14101 Fuel contaminated sensor Not connected
NH 14200 EEPROM error
NH 14900 Transmission module missing (DA/DB/DE/DF).
NH 14901 Engine controller not present (EDC7)
NH 14902 Auxiliry (optional) Controller Module missing (DD/DH).
NH 14903 SCM controller missing (GA 12×12 only).
NH 14904 Arm Rest Module (ARU) missing. (Steyr 16×16 only)
NH 14905 KEYPAD missing
NH 14906 Fast Steer Controller (KA) missing.
NH 14907 DOG (Display Of Gears) missing.
NH 15001 Exceeding safe operating wheel speed (10 km/h) with system still enabled or still active. Error code not active fast steer lamp flashes instead.
NH 15002 Steering wheel control proximity sensor open circuit.
NH 15003 Steering wheel control proximity sensor short circuit.
NH 15006 Split valve LVDT open circuit.
NH 15007 Split valve LVDT short circuit.
NH 15008 Change valve Solenoid open circuit
NH 15009 Change valve Solenoid short circuit across
NH 15010 Safety switch Fail
NH 15011 Maximum engagement time (5 minutes) elapsed.
NH 15012 Split Valve spool stuck open
NH 15013 Change valve or Split valve spools Stuck closed.
NH 15014 Split Valve spool stuck in transition zone cant identify which steering mode the tractor is definitely in.
NH 15015 Cold oil, temperature below 5 degrees C. Error code not active fast steer lamp flashes instead.
NH 15024 System not calibrated.
CASE MANUAL руководство по ремонту
и обслуживанию техники Case
CASE Manual это руководство по ремонту и обслуживанию CASE, электрические схемы, гидравлические схемы, техническое обслуживание.
CASE Manual содержит пошаговые инструкции по ремонту, элементов топливной системы, систем запуска, электросхемы, схемы расположения компонентов электрооборудования, распиновка разъемов, гидравлические схемы, коды ошибок,
а также возможные неисправности и методы их устранения.
CASE Manual — данное руководство по обслуживанию содержит подробные иллюстрации, а также пошаговые инструкции для механика.
Руководство по ремонту содержит пошаговые инструкции, основанные на полной разборке техники CASE.
CASE Manual это именно этот уровень детализации, наряду с сотнями фотографий и иллюстраций, помогает пользователю пройти все процедуры обслуживания и ремонта CASE.
CASE Manual — Руководство поставляется в формате PDF, который может работать под любой операционной системой Windows.
Все страницы для печати. Использование данного руководства по ремонту является недорогим способом поддержания правильной работы вашей техники CASE.
Вы также можете заказать каталог запчастей CASE каталог запчастей вы получаете полный доступ, а именно, вы сможете искать запчасти по модели, и вы сможете решить почти любые проблемы с подбором запчастей и обслуживанием техники CASE.
ЕСЛИ ВЫ НЕ УВИДИЛИ В СПИСКЕ НУЖНУЮ МОДЕЛЬ ТЕХНИКИ,
ДЕЛАЙТЕ ЗАПРОС на E-MAIL: catalog-good@yandex.ru
Пример работы с CASE Manual:
В данном сборнике CASE Service Manual представлены следующии модели техники CASE;
Compact Hydraulic Excavator
CX130, CX210, CX230, CX240, CX250, CX350, CX3IB, СХ36В TIER 4
CRAWLER AND WHEELED EXCAVATORS
588, 788, 988, 1188, 1288, 1488
WX95, WX125, WX145, WX165, WX185, WX210, WX240
CRAWLER DOZER (bulldozer) 750L, 850L TIER 3
SERIES 2 CRAWLER 650К, 750К, 850К
REPAIR MANUAL 650К TIER II, 750K TIER II, 850K TIER II
Loader Backhoes Series 2 580L, 590L
Wheel Loader 521E, 580M SERIES 3, 580SR, 580SK, 590SR, 595P, 621F, 695SR, 580T, 580ST, 590ST, 695ST,
580T, 580ST, 590ST, 695ST, 721F Tier 4, 821F, 750, 760, 860, 960, 965, 1188
Mini Loaders
CX16B, CX18B, СХ20В СХ22В СХ27В, CX40B,CX50B, CX75SR, CX80, SR130, SR200, SR150, SR220, SR175, SR250, SV185,
SV250, SV300, SR200, SR150, SR220, SR175, SR250, SV185, SV250, SV300,
TR270, TR320, TV380
Alpha Series Compact Track Loader
TR270, TR320, TV380
Case COMBINE
5088, 6088, 7088, 1440, 1460, 1480
ENGINE REPAIR MANUAL
667TA/EEG
667TA/EEC
667TA/EBF
667TA/EED
667TA/EBJ
667TA/EDJ
ЕСЛИ ВЫ НЕ УВИДИЛИ В СПИСКЕ НУЖНУЮ МОДЕЛЬ ТЕХНИКИ,
ДЕЛАЙТЕ ЗАПРОС на E-MAIL: catalog-good@yandex.ru
Язык: Английский, немецкий, испанский
Установка ОС; Windows XP,7.8.10 (32-64bit)
Объем данных — 3gb 
Стоимость CASE Service Manuals ALL (КОМПЛЕКТ CASE) — 15000 руб.
Стоимость CASE Service Manuals (любая одна модель) — от 3000 руб.
New Holland AG Europe Parts Catalog — каталог запчастей и аксессуаров для сельхозтехники NEW HOLLAND
NEW HOLLAND MANUAL — руководство по ремонту и обслуживанию техники NEW HOLLAND
CASE, NEW HOLLAND, KOBELCO Online catalog — 5000 руб (сборник 3 каталог запчастей)
CASE — каталог запчастей CASE
Case Agriculture IH — Каталог запчастей сельскохозяйственной техники
Вы также можете заказать каталог запчастей Hitachi HOP , Hitachi PartsManager Pro и John Deere Parts
вы получаете полный доступ, а именно, вы сможете искать запчасти по модели, по серийному номеру
и вы сможете решить почти любые проблемы с подбором запчастей и с обслуживанием техники Hitachi.
Узнайте подробности по телефону: 8 (926) 600-50-99.
Источник
CASE не заводится
Спецтехника CASE очень надежная техника и редко подводит. Но даже и у нее иногда случаются поломки. Бывает очень неприятная ситуация, когда двигатель CASE заглох и не хочет заводиться. При этом на дисплее панели приборов горит сообщение с соответствующим описанием кода ошибки неисправности. Но бывают и исключения, когда ошибки не высвечиваются. Специалистами нашей компании накоплен солидный опыт по диагностике и ремонту описываемых неисправностей. Есть два кардинально различных вариантов «незапуска» двигателя:
- При повороте ключа в замке зажигания, стартер прокручивает двигатель экскаватора
- Стартер не включается и не крутит двигатель
Постараюсь более подробно рассказать про каждый из вариантов неисправности техники.
Запуск двигателя на выезде
Специалистами нашего предприятия накоплен огромный опыт оказания услуг по запуску двигателя CASE, когда техника заглоха при выполнении работ. У нас имеются автомобили техпомощи, опытные мастера готовые в любой момент приехать на помощь. Специализированное диагностическое оборудование.
Не крутит стартер CASE
Если система управления вышеуказанной техники при повороте ключа зажигания на старт, не включает стартер, то причина поломки заключается в электрическом оборудовании или электронных системах грузовика. Причины могут быть следующие:
- Неисправность блока реле и предохранителей
- Отсутствие контактов в разъемах электропроводки
- Неисправность главного реле грузового автомобиля
- Выход из строя замка зажигания Выход из строя стартера
- Обрыв или замыкание шины КАН
- Отсутствие “массы”
- Отсутствие напряжения питания на блоке управления двигателем
- Обрыв или замыкание жгута проводки
- Неисправность втягивающего реле стартера
- Выход из строя замка зажигания
- Выход из строя блока управления двигателем
Стартер крутит — не заводится
Если стартер описываемой техники при повороте ключа в замке зажигания крутится, но при этом мотор не подает никаких признаков. Причина неисправности может заключаться как в электрооборудовании автомобиля, так и в механике. Неисправности автоэлектрики могут быть как описанные выше, кроме неисправностей связанных со стартером и его цепями, плюс следующие причины:
- Неисправность топливного насоса высокого давления (ТНВД)
- Механическая поломка двигателя
- “Завоздушивание“ топливной аппаратуры
- Неисправность иммобилайзера
- Отсутствие солярки в баке
- Засорение топливного фильтра
- Неисправность чипа в ключе
- Засорение топливопроводов
- Поломка обратного клапана
- Механические неисправности форсунок
Источник
Трактор Case Magnum 310 – технические характеристики, устройство
Трактор CASE IH Magnum 340 – это надежная и универсальная сельскохозяйственная машина, которая предназначена для работы с широкозахватными агрегатами по классической, минимальной и нулевой технологиям. Модель Магнум-340 спроектирована с целью удовлетворения потребностей самых взыскательных пользователей работающих в полях.
Большинство экспертов, фермеров и сельхозпроизводителей называют трактора серии Magnum, торговой компании Case IH, лучшими в своём классе. Серия Magnum представлена тракторами от 225 до 335 л.с.
Трактор Кейс Магнум (CASE Magnum) 340: подробное описание и стоимость
Колесные трактора серии Magnum выпускаются машиностроительной компанией из США CASE IH.
Концерн занимается разработкой и поставкой нескольких линеек высокоэффективной агротехники.
Трактора, уборочные комбайны, посевные агрегаты, оборудование для внесения удобрений, сошники, бороны продаются в десятках стран, с успехом применяются фермерскими хозяйствами и крупными агрохолдингами.
Назначение машины
Трактор Кейс Магнум 340 – универсальная колесная машина, используемая как тяговое средство для сельхозагрегатов с широкозахватным рабочим органом.
Трактор является основным звеном в механизации работ как по классическим, так и новым – минимальным и нулевым агротехнологиям. Он хорошо адаптируется к условиям различных полей, насыщен достаточным числом параметров настройки для большинства видов работ.
Магнум 340, в комплексе с различными по назначению прицепными и навесными сельскохозяйственными механизмами, с высокой эффективностью применяется:
- для уборки урожая и посева семенных культур, пахоты и культивации земель на больших по площади картах полей крупных агрохолдингов;
- в операциях по уходу за насаждениями. Достаточный дорожный просвет, просчитанные размеры габаритов машины и колеи колес позволяют без повреждения растений вести рыхление, прополку, внесение удобрений и другие работы;
- в заготовке кормов для животных, поливных работах, обработке посадок ядохимикатами, формировании и заполнении силосных ям;
- при перевозке грузов на прицепной платформе по дорогам общего пользования и в условиях бездорожья.
Эксплуатационные параметры
| Наименование | Единица измерения | Параметр |
| Силовой агрегат | Cursor 9 | |
| Литраж цилиндровой группы, | дм3 | 8,70 |
| Мощность при номинальных 2 000 об. коленвала в минуту,в т. ч. при режиме PowerBoost | л. с. | 340375 |
| Максимально возможная мощность,в т. ч. при режиме PowerBoost | л. с. | 374389 |
| Запас по крутящему моменту | % | 35 |
| Обороты коленвала при максимальном параметре крутящего момента в минуту | 1 800 | |
| Заправка горючим | л | 635 |
| Тип топливной системы | С компенсацией давления и потока | |
| Узел сепаратора дизтоплива | Установлен | |
| Трансмиссия автоматическая | Power Shift | |
| Режимы КППвперед | 18 | |
| Число режимов реверса | 4 | |
| Максимальный темп передвижения | км/ч | 40 |
| Блокировка дифференциального устройства переднего и заднего мостов управления | В базе с ручным и автоматическим переключением | |
| Напорная система гидравлики | Насосный узел с изменяемой производительностью | |
| Производительность насосной установки | л/мин | 282 |
| Размеры геометрические по габаритам (ДхШхВ)Д – по длине, вместе с грузом балласта и устройством навеса заднимШ – по ширине, без установки спаренных колесВ – по высоте | мм | 5 950х3 050х3 265 |
| База трактора | м | 3,055 |
| Пневмошины передние спаренные | 420-90R30 | |
| Пневмошины задние спаренные | 520-85R42 | |
| Вес готового к работе трактора | т | 18 |
двигатель Cursor 9 Tier II
Высокий уровень производительности обеспечивает мотор Cursor 9 Tier II от компании Fiat Power Train (FPT). Его преимущество в линейке подобных агрегатов других производителей обеспечивают:
- высокие мощность и крутящий момент;
- турбонагнетатель с перепуском выхлопных газов и охлаждением наддувного воздуха;
- впрысковая система CommonRail;
- применение системы оптимизации параметров мощности Power Boost для оборудования, присоединяемого к валу отбора мощности, устройств, использующих гидросистему трактора;
- использование функции увеличения мощности в случае возникновения такой потребности;
- автоматический блок контроля производительности, оптимизирующий передачу момента от двигателя на узлы трансмиссии, регулируя его по факторам скорости машины и тяговой нагрузке на агрегат.
Силовая передача
Важно! Коробка передач позволяет выбрать одну из 18 скоростей при перемещении вперед и 4 – во время реверсивного движения. Управление силовым узлом производится в ручном или комплексном автоматическом режимах. Автоматика меняет передачу в соответствии с нагрузкой на мотор.
Трансмиссия соответствует типу Full Power Shift и позволяет проводить смену режима передачи момента без разрыва по потоку мощности.
Оптимизируют работу трансмиссии системы автоматики «Дорожный режим» и «Полевой режим», что позволяет экономить до 15% горючего.
В первом случае, без вмешательства оператора, машина будет поддерживать темп движения 40 км/ч, во втором – 23 км/ч.
Мосты
Машина полноприводная. Для подключения привода головного моста применяется электронное принудительное и автоматическое управление.
Электронные узлы выбирают режим блокировки дифференциала заднего моста. Спиральное исполнение шестерён заднего моста увеличивает контакт между зубьями, снижает шумовые параметры и обеспечивает повышенный ресурс эксплуатации.
Предлагаем вам изучить описание бульдозера Т-330, его технические характеристики, устройство узлов и агрегатов.
А эта статья посвящена трактору «Кировец» К-744р и его эксплуатационным параметрам.
Управление машиной
Осуществляется гидрорулем. Подключены к гидравлике рулевого управления узлы и системы:
- AFS AccuGuide ® — интегрированная система вождения, обеспечивающая точность в параллельных проходах трактора на обрабатываемом участке поля;
- HEADLAND MANAGEMENT CONTROL — осуществляющая запись до 30 сценариев разворота машины в конце рабочей полосы и воспроизводит их, маневрируя машиной. Также обеспечивает минимальный радиус поворота.
Система гидрооборудования
Пропускная способность системы до 274 литров в минуту, что обеспечивает грузоподъемность подключенного силового гидрооборудования свыше 10 т.
Гидравлическая система машины общая с гидравликой КПП и имеет следующие особенности:
- Использована технология PFC (обеспечивает компенсацию потерь давления и потока).
- Оборудована 6 парами выносных клапанов с электрогидравлическим управлением.
- Возможно дополнительное подключение гидровыходов на узлах передней и задней навески.
- Таймер времени работы программируется по частоте и времени включения клапанов.
- Максимальную подачу гидравлической смеси, определение нагрузки на систему, возврат жидкости осуществляет система Power Beyond.
Устройства навеса и отбора мощности
Задняя навеска обеспечивает грузоподъемность 7,9 т, передняя – 5 т. Перемещаемый вал узла отбора мощности обеспечивает два режима вращения – 540 и 1 000 оборотов в минуту.
Защиту узла от перегрузок, плавный запуск высокоинерционных узлов обеспечивает муфта сцепления в многодисковом исполнении «мокрого» типа.
Кабина оператора
Одноместная, цельнометаллическая, большеобъемная, с остеклением 6,4 м кв. по площади. Снабжена узлами вентиляции, обогрева и кондиционирования. Установка рулевого колеса изменяется по углу наклона.
Модельный ряд
Компания выпускает широкий модельный ряд тракторов, захватывающий все ниши, в которых востребованы современные и высококачественные сельскохозяйственные машины.
В нем представлено 5 основных модификаций, от 100-х до 600-х, различающихся мощностью двигателя и другими нюансами, не заметными на фото.
Популярностью среди российских фермеров пользуются и первые версии тракторов Кейсов, и наиболее современные. Вся техника этой линии оборудована тяговым брусом V категории, что позволяет решать задачи повышенной сложности.
Трактор Кейс 110
Компактная машина имеет мощность 110 лошадиных сил, механическую трансмиссию с 12 передачами. Трактор оборудован задним тяговым брусом, а по запросу может быть снабжен и фронтальным погрузчиком с ковшом.
Трактор Кейс 125
Эта модель производится в Англии и имеет мощность 126 лошадиных сил, также механическую трансмиссию с 12 передачами, экономичный двигатель с гидравлической системой. Такую технику лучше использовать для подсобных работ.
Трактор Кейс 210
Трактор Кейс Пума 210 относится к модельному ряду, объединяющему мощность и маневренность.
230 лошадиных сил обеспечивают возможность эксплуатации в любых условиях. Предусмотрен очень высокий уровень шумоизоляции кабины, до 70 дБ, она оборудована по классу Deluxe. КПП имеет 18 передач, запас топлива в баке – 440 литров.
Трактор Кейс 310
Трактор Кейс Магнум 310 относится к модельному ряду, отличающемуся повышенной производительностью и проходимостью.
Мощность двигателя – 309 лошадиных сил. Максимальная скорость, развиваемая мотором, составляет 40 километров в час. Объем топливного бака – 682 литра.
КПП имеет 18 передних и 4 задних передачи. Вес трактора более 9 тонн, поэтому он легко справится с любыми производственными нагрузками.
Трактор Кейс Магнум 340
Магнум 340 имеет номинальную мощность двигателя в 340 лошадиных сил, а максимальную, достигаемую при использовании автоматического турбонаддува — 389 л. с.
Объем топливного бака – 635 литров.
Трактор Кейс 500
Мощность этого гигантского трактора – до 558 л. с., максимальная сила тяги – 22 тонны. Уникальность модели состоит в использовании шарнирно-сочлененной рамы, которая позволяет существенно уменьшить радиус разворота.
4 гусеницы необычной конструкции снижают давление на почву на 25 % (400 г на квадратный сантиметр площади поля, в отличие от стандартных 600).
Трактор Кейс 535
На этот гусеничный трактор могут устанавливаться как простые, так и спаренные колеса. Мощность двигателя (Cummins QSX15) в зависимости от использования турбоусилителя варьируется от 53 до 584 л. с.
Уровень шума в кабине – 75 дБ, есть сиденье для инструктора.
Трактор Кейс 600
Сверхмощный трактор будет актуален для крупных сельскохозяйственных производителей. Предельная мощность двигателя 670 лошадиных сил, объем топливного бака – 1820 литров. Вес трактора – 20 тонн.
Трактор Кейс Магнум 340
Трактор Кейс Магнум 340 представляет собой универсальную машину высокой мощности на колёсном ходу. Это одна из самых популярных моделей на отечественном рынке, которая полюбилась многим пользователям за её высокий уровень мощности и отменную надёжность.
Выпускается агрегат на производственных площадях машиностроительного концерна Case.
Данное предприятие осуществляет свою деятельность более 100 лет и славится изготовлением энергоёмких и многофункциональных видов техники, предназначенных для проведения строительных и сельскохозяйственных видов работ.
Назначение
Трактор Case 340 широко используется для выполнения следующих видов работ:
- вспахивания и культивирования почв различной степени сложности;
- посева зерновых и овощных культур;
- сбора и перемещения урожая;
- очистки полей от сорняков;
- полива полей;
- заготовки кормов;
- перевозки грузов;
- проведения мелиоративных мероприятий;
- уборки территорий.
Внешний вид трактора представлен на фото ниже:
Технические характеристики
Технические характеристики трактора Кейс Магнум 340 обладают следующими показателями:
- масса — 12,5 т;
- скорость перемещения — 40,6 км/ч;
- объём топливного бака — 765 л;
- число передач: вперёд — 18, назад — 4;
- грузоподъёмность — 8,5 т;
- максимальная ширина колеи — 2,29 м;
- габариты машины: длина — 6,4 м, ширина — 3,1 м, высота — 3,4 м.
Характеристики двигателя
На тракторе установлен шестицилиндровый дизельный двигатель FPT Cursor 9. Он имеет турбонагнетатель и устройство промежуточного охлаждения воздуха. Параметры мотора представлены следующими значениями:
| Наименование | Показатели |
| Мощность, кВт | 340 |
| Рабочий объём, дм3 | 8,7 |
| Крутящий момент, Нм | 1800 |
| Частота вращения вала, об/мин | 2000 |
| Расход топлива, г/кВт.ч | 228 |
Кабина трактора Кейс Магнум 340
Кабина
Кабина у Магнум 340 выполнена с учётом современных конструкторских веяний и тенденций. Она просторная и эргономичная. Внутренний объём кабины достигает 3,1 м. Круговой обзор для машиниста обеспечивается панорамным остеклением, обладающим большой площадью — 6,85 м2. За поддержание благоприятного микроклимата внутри салона отвечает кондиционер и отопительное устройство.
Для защиты водителя от воздействия шума и вибраций корпус кабины оборудован специальными вибро- и звукопоглощающими материалами. Рабочее место машиниста оснащено комфортным креслом и эргономичными элементами управления.Электронный пульт позволяет осуществлять контроль за работой основных систем машины и расположен он с правой стороны от водителя.
На экране отражаются такие важные показатели, как режим функционирования машины, температура рабочей жидкости, давление в системе, процент загрузки силового оборудования и количество часов до предстоящего техобслуживания.
Устройство
Трактор Магнум имеет оригинальную полурамную конструкцию корпуса, которая базируется на колёсном ходу. На машине установлена фирменная трансмиссия FullPowerShift TM и многоступенчатая коробка передач, позволяющая использовать агрегат при различных скоростных режимах.Для агрегирования трактора с большим количеством сельскохозяйственного оборудования в его конструкции предусмотрены такие компоненты, как дистанционная гидросистема и ВОМ, способный работать на двух скоростях: 540 и 1000 об/мин.
На данный трактор можно устанавливать спаренные шины и балластный груз, которые позволяют идеально балансировать машину при работе на самых сложных участках местности.
Преимущества и недостатки
Машина Case 340 отличается от своих конкурентов следующими характеристиками:
- солидной мощностью;
- производительной гидравлической системой;
- отличной проходимостью;
- хорошей устойчивостью на слабых грунтах;
- универсальностью;
- комфортными условиями для оператора;
- простотой в обслуживании;
- высокой экономичностью;
- продолжительным эксплуатационным ресурсом;
- низким уровнем шума;
- соответствием высоким мировым стандартам экологической безопасности.
Минусов у трактора всего два: высокая стоимость машины и недостаточное количество сервисных станций, расположенных на территории страны.
Отзывы
Пользователи и владельцы трактора Кейс 340 оставляют о машине следующие отзывы:
- Агрегат очень мощный и производительный. Трактор можно использовать не только как механизм с навеской, но и в качестве тягача. Если говорить о минусах, то у машины быстро забивается радиаторза счёт огромной скорости вентиляторов. Поэтому приходится постоянно его очищать от накопившейся грязи. Комфортность рабочего места на высоком уровне, можно без проблем отработать 12 часовую смену.
- Трактор удобен в управлении, а при перемещении по неровным участкам местности можно использовать режим балансировки. Машина хорошо выдерживает тяжёлые нагрузки и работает без пробуксовок. Благодаря наличию электронной системы, оператор всегда находится в курсе того, когда необходимо проводить техобслуживание машины и осуществлять замену топливных и масляных фильтров.
Чем может комплектоваться
Американский трактор может комплектоваться следующими видами навесных устройств:
- сеялками — пневматическими и механическими;
- плугами;
- культиваторами;
- глубокорыхлителями;
- дисковыми боронами;
- щётками;
- вилами;
- косилками;
- захватами;
- отвалами;
- цистернами;
- прицепами и полуприцепами;
- комбинированным оборудованием.
Стоимость нового и б/у
Сегодня цена трактора Case IH Magnum 340 в стандартной комплектации и без наработки держится в диапазоне от 14,0 до 14,5 миллиона рублей. Многим покупателям такая стоимость не по карману, и они делают свой выбор в пользу подержанного агрегата. Так, машина 2012-2013 года выпуска обойдётся в сумму 6,5-8,5 миллиона рублей. Те, кто намерен арендовать данный агрегат, должны ориентироваться на стоимость в 9,0-10,0 тысяч рублей за рабочую смену.
Аналоги
К тракторам, которые близки по мощности и весовым показателям к Магнуму 340, можно отнести такие машины как, John Deere8310R, New Holland T8040 и Fendt 936 Vario. Их параметры представлены следующими значениями:
| Модель | Масса, т | Мощность, л.с | Скорость передвижения, км/ч | Дорожный просвет, м | Расход топлива, г/кВт.ч |
| John Deere8310R | 12,4 | 341,0 | 42,0 | 0,66 | 205,0 |
| NewHolland T8040 | 9,8 | 337,0 | 40,0 | 0,6 | 200,0 |
| Fendt 936 Vario | 10,8 | 350,0 | 55,0 | 0,6 | 195,0 |
Мощный и высокопроизводительный агрегат CASE IH Magnum 340 ориентирован на проведение интенсивных и трудоёмких работ различного уровня сложности. Великолепные технические характеристики и широкие эксплуатационные возможности машины позволяют использовать её в сцепке с большим количеством навесного и прицепного оборудования.
Несмотря на высокую стоимость покупки и дороговизну обслуживания, этот трактор является прекрасным выбором для всех ценителей отличного качества и долговечности техники.
Трактор CASE Magnum 340
Трактор CASE IH Magnum 340 — это надежная и универсальная сельскохозяйственная машина, которая предназначена для работы с широкозахватными агрегатами по классической, минимальной и нулевой технологиям. Модель Магнум-340 спроектирована с целью удовлетворения потребностей самых взыскательных пользователей работающих в полях.
Большинство экспертов, фермеров и сельхозпроизводителей называют трактора серии Magnum, торговой компании Case IH, лучшими в своём классе. Серия Magnum представлена тракторами от 225 до 335 л.с.
Обзор трактора CASE IH Magnum 340
Новый, ещё более мощный двигатель трактора Кейс 340 в сочетании с надёжной трансмиссией Full PowerShift TM позволяют этому монстру с лёгкостью справляться со всевозможными полевыми и транспортными работами. При этом он гораздо мощнее, чем трактор John Deere 8430.
Просторная и комфортная кабина трактора с отличным круговым обзором и эргономичным исполнением органов контроля и управления предлагает оператору наивысший уровень удобства и безопасности.
Трактор Magnum-340 может комплектоваться системой управления, контроля и учёта с установкой цветного сенсорного дисплея AFS Pro 700, которая переводит работу с трактором на качественно новый уровень.
Фото кабины трактора CASE Magnum 340
Дистанционная гидравлическая система данной модели трактора Кейс в сочетании с навесным устройством и двухскоростным валом отбора мощности на 540 и 1000 об/мин гарантирует возможность агрегатирования трактора с широким спектром сельскохозяйственных орудий, например, таких как прицепной комбайн.
Существующая возможность установки спаренных колёс, балластных грузов и изменения ширины колеи обеспечивает выполнение работы с различным междурядьем, а также оптимально распределить нагрузку на передний и задний мост трактора.
Доступ к точкам смазки и обслуживания Магнума 340 максимально упрощён, что позволяет снизить время на проведение сервисных операций до минимума.
Также его можно задействовать в посевных работах с применением овощной сеялки.
Технические характеристики CASE Magnum 340
| Модель трактора | МX340 (США) |
| Двигатель | IVECO 6-ти цилиндровый |
| Объем двигателя, см3 | 8700 |
| Номинальная мощность, л.с. | 340 |
| Номинальный режим двигателя, об/мин. | 2000 |
| Максимальная мощность, л.с. | 374 |
| Номинальная мощность PowerBoost при 2000 об/мин., л.с. | 375 |
| Максимальная мощность PowerBoost при 1800 об/мин., л.с. | 389 |
| Запас крутящего момента, % | 35 |
| Режим при максимальном крутящем моменте, об/мин. | 1800 |
| Емкость топливного бака, л | 635 |
| Топливная система | Pressure-Flow Compensating |
| Сепаратор топлива | установлено |
| Трансмиссия | Power Shift |
| Число передач для движения вперед | 18 |
| Число передач для движения назад | 4 |
| Максимальная скорость при движении вперед, км/ч | 40 |
| Полная блокировка переднего дифференциала | установлено |
| Включение блокировки дифференциала | автомат./ручное |
| Гидросистема | насос переменной производительности с замкнутымцентром и датчиком нагрузки |
| Производительность насоса, л/мин. | 282 |
| Максимальное усилие подъема, кг | 8051 |
| Размеры | |
| База, мм | 3055 |
| Длина, включая балласт и задний подъемник, мм | 5950 |
| Полная ширина без спарки, мм | 3050 |
| Полная высота, мм | 3265 |
| Колеса передние спаренные | 16.9R30 (420-90R30) |
| Колеса задние спаренные | 20.8R42 (520-85R42) |
| Масса | |
| Масса с максимальным балластом, кг | 18 000 |
| Кабина | |
| Объём кабины, м3 | 3,1 |
| Параметры стёкол кабины, м2 | 6,85 |
| Климат-контроль | стандартно |
обзор трактора Case IH 340
Технические характеристики
Габаритные размеры:
- длина – 6400 мм;
- ширина – 3100 мм;
- высота – 3400 мм;
- максимальная ширина колеи – 2290 мм;
- колесная база – 3055 мм.
Эксплуатационный вес трактора составляет 12524 кг, вес с балластом – до 18000 кг. Грузоподъемность задней навески равняется 10024 кг.
Скорость перемещения:
Базовые колеса:
Трактор Case IH Magnum 340 — сочетание мощности с широким функционалом
На мировом тракторном рынке продукция компании CASE IH котируется на одном уровне с качественными и мощными машинами брендов Джон Дир и Нью Холланд. Весь ассортимент этого производителя по качеству, эксплуатационным возможностям и продолжительности ресурса отвечают рекомендациям действующих стандартов.
Мощный колесный трактор CASE IH Magnum 340 изначально ориентирован на выполнение масштабных и трудоемких сельскохозяйственных работ разных уровней сложности. Превосходные тягово-сцепные параметры трактора определяют его применение с производительным широкозахватным прицепным и навесным оборудованием разного назначения.
трактор Case IH Magnum 340
Конструкционные особенности
В его конструкцию заложена возможность работы в соответствии с рекомендациями нулевых, минимальных и классических земледельческих технологий. По мнению многих владельцев и специалистов, трактор Магнум 340 в своей мощностной категории на сегодняшний день является одним из лучших.
Эксплуатационные возможности этой модели повышены за счет:
- комфортных рабочих условий водителя;
- оригинальной полурамной конструкции остова;
- гибких тяговых характеристик мощного и надежного в работе силового агрегата;
- фирменной трансмиссии Full Power Shift TM;
- многоступенчатой автоматической коробки передач;
- полноценных параметров бортовой гидравлики.
Стабильной производительности трактора способствует высокий уровень автоматизации и компьютеризации работы всех систем, в частности, электронного контроля работы силовой установки. Вся важная информация отображается на расположенном в поле зрения оператора цветном дисплее.
Предоставляется возможность активации рабочих узлов навесного оборудования с помощью двухскоростного 540 и 1000 об/ в минуту, механизма отбора мощности. Навесные агрегаты с приводом от гидромоторов подключаются к гидросистеме трактора через двойные выводы с обратными клапанами.
С учетом особенностей запланированной работы, предусмотрена установка спаренных колес с широкопрофильными пневматиками низкого давления, навеска балластных грузов, а также возможность изменения колеи ходовой части.
Кейс Магнум 340 в целом характеризуется экономичным расходом ГСМ и расходных материалов, сервисным и ремонтным доступом к основным узлам и механизмам, унификацией многих запчастей и целых агрегатов с фирменными прототипами.
Ходовая часть
Возможности полноприводной схемы ходовой части наиболее эффективно реализуются с помощью двухрежимного электронного подключения переднего моста, а также ручной или автоматической блокировки механизма дифференциала заднего.
Диапазон изменения колеи задних и передних колес соответственно 1,560-2,256 и 1,470-2,294 м. Регулировка производится при работе трактора в междурядьях или при эксплуатации на крутосклонном рельефе.
Гидравлика
Бортовая гидросистема отличается от аналогов высокой, до 282 литра/мин производительностью гидронасоса, позволяющей увеличить грузоподъемность механизма навески IVN/III до 10 тонн. Для буксировки тяжелых прицепов по пересеченной местности или сложному микрорельефу трактор оборудован тяговым брусом 5-й категории.
Цена Магнума 340 — нового и бэушного
Трактор с нулевой наработкой и стандартной заводской комплектацией можно купить в среднем за 112 -115 тысяч евро. С учетом высокой стоимости сервисного обслуживания и расходников, многие потенциальные покупатели делают выбор в пользу приобретения подержанной машины.
Стоимость бэушных тракторов марки Магнум 340-й модели с достаточно большим остатком межремонтного ресурса находится в пределах 60-80 тысяч евро.
Отзывы владельцев
Два трактора Магнум 340 производства известной качеством выпускаемой продукции компании Case IH приобрели для обновления парка агрофирмы зимой позапрошлого 2020 года.
За прошедшее время новая техника в значительной степени компенсировала вложенные средства экономией рабочего времени и ГСМ, отсутствием вынужденных простоев.
Существенные опасения вызывает отсутствие специалистов по обслуживанию компьютерного и другого электронного оборудования, относительно бедный ассортимент запасных частей, а также инертность сервисных служб. Павел
Покупка подержанного Магнума 340-й модели обошлась мне в 55 тысяч евро. Машина в принципе надежная, а главное экономичная в плане расхода ГСМ. На вспашке один Магнум при 23%-й экономии топлива успешно заменяет два трактора, гусеничный Т-75 и колесный универсал МТЗ-82К. Владимир Викторович
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Ремонт спецтехники
Развиваем географию ремонта
С 01.12.2021 мы развиваем географию ремонта спецтехники в регионах, если Вы обслуживаете и ремонтируете спецтехнику в г. Изобильный, заполните форму, мы с вами свяжемся, чтобы обсудить взаимовыгодное сотрудничество.
- Ремонт спецтехники
- Тракторы
- CASE
- Case Magnum 340
Сервис осуществляет предварительную диагностику и выездной ремонт трактора Case Magnum 340 Вы можете оформить заявку на выезд специалиста по телефону. Ремонт выполняются на месте или на базе. При отсутствии необходимых запчастей для трактора, срок доставки составляет около 7-10 дней.
Техническая спецификация
Характеристики недоступны
Гарантия на ремонт трактора
Наша компания предоставляет гарантии на собственные сервисные услуги по ремонту трактора. Действуют гарантийные обязательства центра на протяжении 3 месяцев со дня получения техники из ремонта. Гарантии распространяются лишь на замененные запасные части и проведенные работы.
Для того чтобы узнать сколько стоит отремонтировать (починить), провести диагностику трактора — достаточно позвонить по телефону +7 (915) 895-68-28 или написать на почту info@remont-betononasosa.ru
Стоимость ремонта трактора Case Magnum 340
| Картинка | Услуга | Стоимость | Время |
|---|---|---|---|
 |
Диагностика | 2194 | 3 |
 |
Техническое обслуживание | 1194 | 2 |
 |
Установка новых элементов уплотнения | 1194 | 6 |
 |
Замена изношенных или поврежденных деталей | 1194 | 3 |
 |
Восстановление герметичности трубопровода | 3194 | 3 |
 |
Замена рабочей жидкости и регулировку давления в гидросистеме | 3194 | 4 |
 |
Регулировка давления в гидросистеме | 3194 | 1 |
 |
Ремонт гидроцилиндров | 794 | 2 |
 |
Ремонт гидрозамков | 494 | 1 |
 |
Капремонт гидромотора | 3194 | 1 |
 |
Замена втулок | 2194 | 3 |
 |
Замена звёздочки | 5194 | 1 |
 |
Замена маслосъемных колпачков | 2194 | 1 |
 |
Ремонт тормозной системы | 2194 | 1 |
 |
Ремонт КПП | 5194 | 5 |
Запчасти
Часто задаваемые вопросы
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Оказываете ли вы выездную диагностику трактора Case Magnum 340?
Да. Данная услуга крайне востребована, особенно в момент покупки техники. Когда покупатель хочет провести диагностику и оценить стоимость техники, ремонта, ТО и отдельных услов в момент покупки.
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Скажите у вас есть каталог запчастей, инструкции для трактора Case Magnum 340?
Мы стараемся загружать кталоги в формате PDF, на наш сайт той техники которую мы ремонтировали, проводили диагностику, обсулуживали. Все каталоги находятся в разделе Каталоги PDF
Основные неисправности трактора
| Неисправность |
|---|
| Буксовка сцепления |
| Сцепление не полностью разъединяется с двигателем, звук издаётся при переключении передачи |
| Вибрация трактора при трогании |
| Трудное переключение передачи или несостояние переключения |
| Свободный вывод из зацепления |
| Неправильная передача |
| Шум или стук в коробке переключения передачи |
| Увеличение шума центральной передачи |
| Перегрев подшипника конической шестерни с малым конусом |
| Аномальный звук окончательной передачи |
| Выход тормоза из строя |
| Нагревание тормоза |
| Отклонение хода трактора при торможении |
| Тяжёлый изношение передней шины |
| Качение переднего колеса |
| Большой шум(трактор с четырьмя ведущими колесами) |
| Перегрев приводного вала и защитного чехла (трактора с приводом на четыре колеса) |
| Большой шум раздаточной коробки (трактор с четырьмя ведущими колесами) |
| Утечка масла |
| Тяжёлый поворот |
| Выход поворота из строя |
| Поворот без силы человека |
| Нечувствительность поворота |
| Тяжёлый и легкий груз не смогут подняться. |
| Подъём легкого груза, тяжёлый груз не сможет подняться или подняться медленно |
| Вибрация сельмаш при подьёме и медленный подъём |
| Учащаются вибрация головы сельмашины после подъёма, быстрая остановка после погашения двигателя |
| Распределитель визжит, когда рычаг находится в подъемном месте |
| Головка цилиндра без гидровыхода и ли гидровыход был безсильным |
| Давление недостаточно |
| Клапан стояночного тормоза не возвращается в исходное положени |
| Клапан стояночного тормоза не выпускает воздух |
| Стартер не работает |
| Ослабленный запуск стартера, запуск двигателя невозможен |
| Двигатель уже работает, но стартер продложает вращать, и визжит |
| Генератор не вырабатывает электричество |
| Генератор недостаточно вырабатывает электричество |
| Ток зарядка генератора слишком высокий, легко вызывает пережог лампочки |
| Емкость аккумулятора не достаточная, трудно пускает двигатель |
| Саморазряд слишком большой |
| Указатель температуры воды постоянно указывает температуру наиболее низкую |
| Указатель температуры воды постоянно указывает температуру наиболее высокую |
| Указатель уровня топлива ненормально работает |
| Нерегулярность указания воздушного манометра |
| Без ближнего света фар |
| Задние фонари не горят |
Этапы ремонта трактора
- Диагностика трактора на вашем объекте или в нашем сервисе, выявление неисправностей. Составляется акт, где указывается стоимость ремонта бульдозера и сроки.
- Снимаем с трактора всё неисправное оборудование.
- Приобретение запасных частей.
- Когда всё закуплено и отремонтировано, устанавливаем на , проверяем, запускаем. Даём гарантию.
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улица Евдокимовская, 11, Индустриальный, Краснодарский край, Россия
Case IH Magnum 235 — 340 Fault Codes DTC
Case IH Magnum 235 — 340 Fault Codes DTC
Case IH Magnum 235 — 340 Fult Codes DTC.
Adobe Acrobat Document
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Case IH Tractors, Farmall series Fault Codes DTC
TYPE CODE ERROR
ENG 111 Engine Controller Failure — Hardware Failure
ENG 115 Engine Speed Sensor (8.3, 9 Liter) or Cam Sensor (15 Liter) is failed
ENG 121 Engine Position Sensor (8.3, 9 Liter) or Crankshaft Sensor (15 Liter) is failed
ENG 122 Boost Pressure Sensor voltage is too high
ENG 123 Boost Pressure Sensor voltage is too low
ENG 124 Boost Pressure level has exceeded the warning limit.
ENG 131 Decelerator or Hand Throttle (STD cab) Position potentiometer voltage is too high
ENG 132 Decelerator or Hand Throttle (STD cab) Position potentiometer voltage is too low
ENG 133 Decelerator (STD cab) Position potentiometer voltage is too high
ENG 134 Decelerator (STD cab) Position potentiometer voltage is too low
ENG 135 Oil Pressure Sensor voltage is too high
ENG 141 Oil Pressure Sensor voltage is too low
ENG 143 Oil Pressure level has fallen below the warning limit.
ENG 144 Coolant Temperature Sensor voltage is too high
ENG 145 Coolant Temperature Sensor voltage is too low
ENG 146 Coolant Temperature level has exceeded the warning limit.
ENG 147 Frequency Throttle Signal shorted high
ENG 148 Frequency Throttle Signal shorted low
ENG 151 Coolant Temperature level has exceeded the warning limit.
ENG 153 Intake Manifold Temperature Sensor voltage is too high
ENG 154 Intake Manifold Temperature Sensor voltage is too low
ENG 155 Intake Manifold Temperature level has exceeded the warning limit.
ENG 187 Sensor Supply 2 Voltage is too low.
ENG 191 A/C clutch driver shorted to ground when ON.
ENG 211 Communications problem with Armrest, Instrumentation, or Transmission Controllers
ENG 212 Oil Temperature Sensor Voltage is too high
ENG 213 Oil Temperature Sensor Voltage is too low
ENG 214 Oil Temperature Sensor Voltage is above normal range
ENG 219 Oil Level — remote reservoir is too low. Add oil.
ENG 221 Ambient Air Pressure Sensor Voltage is too high
ENG 222 Ambient Air Pressure Sensor Voltage is too low
ENG 223 CORS — Burn Valve Solenoid is shorted either low or high
ENG 227 Sensor Supply 2 Voltage is too high.
ENG 234 Engine Speed has exceed the overspeed warning limit.
ENG 235 Engine Coolant Level is low. Add coolant fluid.
ENG 237 External Speed Multi Unit Sync Command Input Data Incorrect.
ENG 241 Vehicle Speed Signal lost
ENG 242 Vehicle Speed Signal intermittent / tampering
ENG 243 Error detected in exhaust brake relay
ENG 245 Fan Clutch Voltage too low
ENG 254 Fuel Shutoff Valve Voltage too low
ENG 255 Fuel Shutoff Valve Voltage too high
ENG 259 Fuel Shutoff Valve mechanically stuck open.
ENG 263 Fuel Temperature Sensor voltage is too high
ENG 265 Fuel Temperature Sensor voltage is too low
ENG 268 Fuel Pressure in pump is not changing with operating conditions.
ENG 271 Front Pumping Control Valve current is low during ñclick testî
ENG 272 Front Pumping Control Valve current is high
ENG 273 Rear Pumping Control Valve current is low during ñclick testî
ENG 274 Rear Pumping Control Valve current is high
ENG 275 Front Pumping element is failed
ENG 276 Injection Control Valve current is out of range
ENG 277 Injection Control Valve is failed
ENG 278 Fuel Lift Pump is failed
ENG 279 Injection Control Valve current is out of range
ENG 281 Front Pumping element is failed
ENG 282 Rear Pumping element is failed
ENG 283 Engine Speed/Position Sensor supply voltage is too high
ENG 284 Engine Speed/Position Sensor supply voltage is too low
ENG 285 J1939 Parameter was set to be multiplexed, but not received (timeout error)
ENG 286 J1939 Parameter was set to be multiplexed, but not available from all sources (config error)
ENG 287 Multiplexing throttle parameter and a data error was received — data invalid
ENG 288 Multiplexing remote throttle parameter and a data error was received — data invalid
ENG 293 Hydraulic Fan Hydraulic Oil Temperature Sensor Voltage is too high
ENG 294 Hydraulic Fan Hydraulic Oil Temperature Sensor Voltage is too low
ENG 295 Ambient Air Pressure data invalid
ENG 297 OEM Pressure Sensor Voltage is too high.
ENG 298 OEM Pressure Sensor Voltage is too low.
ENG 299 Engine Shutdown by other than keyswitch (i.e. via data bus command)
ENG 319 Real Time Clock in controller has lost power
ENG 328 Rear Pumping element is failed
ENG 329 CAPS Pump has an overpumping failure
ENG 338 Idle Shutdown Vehicle Accessory Relay Voltage is too high
ENG 339 Idle Shutdown Vehicle Accessory Relay Voltage is too low
ENG 341 All data written during powerdown cycle was lost (checksum error)
ENG 343 Engine Controller Failure — Hardware Failure
ENG 349 Measured Speed is too high.
ENG 352 5 Volt Sensor Supply voltage is too low
ENG 378 Front Fueling current is too low
ENG 379 Front fueling current is too high
ENG 381 Error detected in cold start relay 1
ENG 382 Error detected in cold start relay 2
ENG 385 5 Volt Sensor Supply voltage is too high
ENG 386 5 Volt Sensor Supply voltage is too high
ENG 387 Decelerator or Hand Throttle (STD cab) 5 Volt Supply voltage is too high
ENG 388 Engine Brake driver 1 circuit failure
ENG 392 Engine Brake driver 2 circuit failure
ENG 393 Engine Brake driver 3 circuit failure
ENG 394 Front Timing current is too low.
ENG 395 Front Timing current is too high.
ENG 396 Rear Fueling current is too low
ENG 397 Rear Fueling current is too high
ENG 398 Rear Timing current is too low
ENG 399 Rear Timing current is too high
ENG 412 J1708 data link cannot transmit
ENG 414 J1708 data link not fast enough
ENG 415 Oil Pressure level has fallen below the very low warning limit.
ENG 418 Water in Fuel sensor indicates the water in the fuel filter needs to be drained.
ENG 419 Boost Pressure data invalid
ENG 422 Engine Coolant Level Sensor (optional) is failed or the jumper plug is missing
ENG 426 J1939 data link cannot transmit
ENG 427 J1939 data link not fast enough
ENG 428 Water in Fuel Sensor voltage is too high.
ENG 429 Water in Fuel Sensor voltage is too low.
ENG 431 Hand Throttle (STD cab) Idle Validation Switches are both closed
ENG 432 Hand Throttle (STD cab) position potentiometer and switches disagree.
ENG 433 Boost Pressure level disagrees with engine operation conditions (speed & power)
ENG 434 Unswitched 12 volt supply voltage disconnected without normal key off sequence.
ENG 435 Oil Pressure data invalid
ENG 441 Battery Voltage is too Low (less than 6 volts)
ENG 442 Battery Voltage is too High
ENG 443 Decelerator or Hand Throttle (STD cab) 5 Volt Supply voltage is too low
ENG 444 Low voltage detected at OEM 5 volt supply
ENG 449 Fuel Pressure level has exceeded the warning limit.
ENG 451 Fuel Pressure Sensor voltage is too high
ENG 452 Fuel Pressure Sensor voltage is too low
ENG 456 Fuel Pressure in pump is not changing with operating conditions.
ENG 465 Wastegate 1 voltage is too high
ENG 466 Wastegate 1 voltage is too low
ENG 482 Fuel Pressure Sensor voltage low
ENG 483 Rear Bank Post Actuactor Pressure voltage high
ENG 484 Rear Bank Post Actuactor Pressure voltage low
ENG 485 Rear Fueling actuator overfueling
ENG 486 Rear Fueling actuator underfueling
ENG 488 Intake Manifold Temperature level has exceeded the warning limit.
ENG 489 Measured Speed Sensor data low
ENG 491 Wastegate 2 voltage is too high
ENG 492 Wastegate 2 voltage is too low
ENG 493 The Injection Control Identifier Circuit in the harness has failed.
ENG 496 Engine Speed / Position Sensor #2 supply is too low
ENG 524 Error detected on high speed governor droop selection switch
ENG 527 Cab pressurization/Ether relay coil circuit shorted high or open
ENG 529 Output B driver shorted high or open
ENG 539 The Injection Control Valve Transorb in the harness has failed. (open circuit)
ENG 546 Fuel Pressure sensor voltage is too high.
ENG 547 Fuel Pressure sensor voltage is too low.
ENG 551 Hand Throttle (STD cab) Idle Validation Switches are both open
ENG 553 Front fueling actuator overfueling
ENG 559 Front fueling actuator underfueling
ENG 581 Fuel inlet Pressure Sensor voltage is too high.
ENG 582 Fuel inlet Pressure Sensor voltage is too low.
ENG 583 Fuel Inlet Pressure Sensor voltageout of range high or low.
ENG 595 Turbo overspeed protection fault
ENG 596 Battery voltage is too high
ENG 597 Battery voltage is too low
ENG 598 Battery voltage is very low
ENG 599 Engine is being shutdown based on OEM input
ENG 611 ECM detected engine initiated protection shutdown or keyed-off while above specific load limit
ENG 697 Engine Controller internal temperature too high
ENG 698 Engine Controller internal temperature too low
ENG 731 Engine Speed / Position #2 — Mechanical misalignment.
ENG 753 Synchronization has been lost.
ENG 755 Front Bank injector is bad.
ENG 758 Rear Bank injector is bad
ENG 951 A power imbalance between the cylinders was detected by the controller hardware
ENG 983 Unused A/D input channel out of range.
ENG 1117 Battery voltage too low, or the controller was not allowed to power down correctly
ENG 1256 Control Module Identification Input State Error.
ENG 1257 Control Module Identification Input State Error.
ENG 2117 Engine Coolant Level is low. Add coolant fluid.
ENG 2186 Supply Voltage to the accelerator pedal position sensor too low.
ENG 2195 Auxiliary Equipment Sensor Input # 3 — Engine Protection Critical — Special Instructions.
ENG 2249 Injector Metering Rail 1 Fuel Pressure lower than commanded pressure.
ENG 2265 Electric Lift Pump for Engine Fuel Supply Voltage too high.
ENG 2266 Electric Lift Pump for Engine Fuel Supply Voltage too low.
ENG 2292 Fuel Inlet Meter Device higher than expected.
ENG 2293 Fuel Inlet Meter Device flow demand lower than expected.
ENG 2311 Electronic Fuel Injection Control Valve open or closed Circuit.
ENG 2321 Engine Crankshaft Speed / Position data invalid.
ENG 2322 Engine Camshaft Speed / Position Sensor data invalid.
ENG 2372 Engine Fuel Filter clogged error
ENG 2555 Intake Air Heater 1 Circuit Voltage too high.
ENG 2558 Auxiliary PWM Driver 1 Circuit Voltage too low.
ENG 2973 Intake Manifold 1 Pressure data invalid.
TRANS 11 Master Clutch Potentiometer Open Circuit or short to ground
TRANS 12 Master Clutch Potentiometer Short to +12 Volts or short to 5 Vreff
TRANS 24 None of the transmission clutches are calibrated
TRANS 37 BOC switch open circuit or Neutral relay stuck open
TRANS 38 Shuttled to reverse when no wheel speed signal was available
TRANS 47 Clutch pedal bottom of clutch switch misadjusted
TRANS 48 BOC switch or Neutral relay short circuit
TRANS 49 Auto Guidance Isolation valve driver Fault
TRANS 50 Park Brake is powered off when in park
TRANS 51 FNRP pod indicates Forward or Reverse is on, when Park is on
TRANS 52 Park Brake is stuck on when commanded off
TRANS 53 5 volt reference voltage too high
TRANS 54 5 volt reference voltage too low
TRANS 59 FNRP pod in illogical state (two positions on at same time)
TRANS 60 FNRP pod in illogical state (in no position)
TRANS 61 System pressure valve solenoid circuit is open circuit or shorted to ground
TRANS 62 System pressure solenoid is shorted to B+
TRANS 64 Transmission output Sped is too high (above 8200 RPM)
TRANS 65 Operator attempted a shuttle operation while out of the seat
TRANS 66 FNRP Pod Forward switch is shorted to ground or open circuit
TRANS 67 FNRP Pod Forward switch is shorted to power
TRANS 68 FNRP Pod Reverse switch is shorted to ground or open circuit
TRANS 69 FNRP Pod Reverse switch is shorted to power
TRANS 70 Battery voltage is too low for clutch solenoid operation
TRANS 72 Transmission Oil Temperature is above 122 deg. C
TRANS 73 Software is out of the calibration mode and the park brake request is still active.
TRANS 74 The park brake ON with gear is engaged — no park brake request from calibration.
TRANS 75 Engine speed from Inst Controller does not match the speed signal from the alternator.
TRANS 76 Engine speed from Eninge Controller does not match the speed signal from the alternator.
TRANS 77 No signal from wheel speed sensor
TRANS 78 Transmission regulated pressure accumulator is discharged
TRANS 79 Engine RPM from the alternator is measured too high
TRANS 80 Wheel speed sensor is measured too high
TRANS 81 Transmission clutches are slipping
TRANS 82 Creep Clutch is not calibrated
TRANS 83 Communications Lost with Engine Controller
TRANS 103 Odd clutch solenoid or its wiring failed open or shorted to ground
TRANS 104 Even clutch solenoid or its wiring failed open or shorted to ground
TRANS 105 C1-2 clutch solenoid or its wiring failed open or shorted to ground
TRANS 106 C3-4 clutch solenoid or its wiring failed open or shorted to ground
TRANS 107 C5-6 clutch solenoid or its wiring failed open or shorted to ground
TRANS 108 Master clutch solenoid or its wiring failed open or shorted to ground
TRANS 109 Low range clutch solenoid or its wiring failed open or shorted to ground
TRANS 110 Mid range clutch solenoid or its wiring failed open or shorted to ground
TRANS 111 High range clutch solenoid or its wiring failed open or shorted to ground
TRANS 112 Reverse clutch solenoid or its wiring failed open or shorted to ground
TRANS 113 Creeper clutch solenoid or its wiring failed open or shorted to ground
TRANS 114 Even clutch solenoid coil or its wiring shorted to power
TRANS 115 Odd clutch solenoid coil or its wiring shorted to power
TRANS 116 C1-2 clutch solenoid coil or its wiring shorted to power
TRANS 117 C3-4 clutch solenoid coil or its wiring shorted to power
TRANS 118 C5-6 clutch solenoid coil or its wiring shorted to power
TRANS 119 Master clutch solenoid coil or its wiring shorted to power
TRANS 120 Low range clutch solenoid coil or its wiring shorted to power
TRANS 121 Mid range clutch solenoid coil or its wiring shorted to power
TRANS 122 High range clutch solenoid coil or its wiring shorted to power
TRANS 123 Reverse clutch solenoid coil or its wiring shorted to power
TRANS 124 Creeper clutch solenoid coil or its wiring shorted to power
TRANS 125 Odd clutch is not calibrated
TRANS 126 Even clutch is not calibrated
TRANS 127 C1-2 clutch is not calibrated
TRANS 128 C3-4 clutch is not calibrated
TRANS 129 C5-6 clutch is not calibrated
TRANS 130 Low range clutch is not calibrated
TRANS 131 Mid range clutch is not calibrated
TRANS 132 High range clutch is not calibrated
TRANS 133 Reverse clutch is not calibrated
TRANS 134 Master clutch is not calibrated
TRANS 135 Communication lost with the armrest controller
TRANS 136 Communication lost with the instrumentation controller
TRANS 137 Front Suspension raise lock solenoid circuit shorted or open circuit
TRANS 138 Front Suspension raise solenoid circuit shorted or open circuit
TRANS 139 Front Suspension lower lock solenoid circuit shorted or open circuit
TRANS 140 Front suspension position is above the expected absolute limit
TRANS 141 Front suspension position is below the expected absolute limit
TRANS 142 Front suspension travel range has not been calibrated
TRANS 143 Front suspension position is above the upper suspension range
TRANS 144 Front suspension position is below the lower suspension range
TRANS 145 Front Suspension lower lock solenoid circuit shorted or open circuit
TRANS 146 Regulated system pressure low (below 100PSI / 689 KPA)
TRANS 147 Regulated system pressure below 290 PSI
TRANS 148 Backup alarm circuit shorted or open
TRANS 150 Front suspension pressure sensor rod side (DA-R) out of range high
TRANS 151 Front suspension pressure sensor rod side open circuit
TRANS 152 Front Suspension pressure control not able to increase pressure on the rod side
TRANS 153 Front Suspension pressure control not able to decrease pressure on the rod side
TRANS 154 Front Suspension Lock Valve Stuck on fault (suspension will not lock)
TRANS 155 Front Suspension Lock Valve is stuck of (suspension will not unlock)
TRANS 156 Lock valve was installed but removed
ARM 19 Hand THROTTLE potentiometer is failed
ARM 29 Aux 1st remote valve LEVER potentiometer is failed
ARM 39 Aux 2nd remote valve LEVER potentiometer is failed
ARM 49 Aux 3rd remote valve LEVER potentiometer is failed
ARM 59 Aux 4th remote valve LEVER potentiometer is failed
ARM 69 HITCH POSITION command potentiometer is failed
ARM 79 HITCH LOAD command potentiometer is failed
ARM 89 Aux 1st remote valve FLOW potentiometer is failed
ARM 99 Aux 2nd remote valve FLOW potentiometer is failed
ARM 109 Aux 3rd remote valve FLOW potentiometer is failed
ARM 119 Aux 4th remote valve FLOW potentiometer is failed
ARM 129 Aux 5th remote valve FLOW potentiometer is failed
ARM 139 Aux remote valve TIMER potentiometer is failed
ARM 149 Hitch UPPER LIMIT potentiometer is failed
ARM 159 Hitch DROP RATE potentiometer is failed
ARM 169 Hitch TRAVEL potentiometer is failed
ARM 1029 Aux 5th remote valve control switch is failed
ARM 1039 PTO switch is failed
ARM 1049 Hitch UP/DOWN switch is failed
ARM 1059 Hitch SLIP switch is failed
ARM 1069 MFD switch is failed
ARM 1079 DIFF LOCK switch is failed
ARM 1089 Programmable UP/DOWN switch is failed.
ARM 1099 Aux remote valve LIMIT SET switch is failed
ARM 1109 Hand Throttle IDLE VALIDATION switch is failed
ARM 1119 RECORD/PLAY switch is failed
ARM 1129 Invalid Configuration — Implement Depth Control switch is failed
ARM 1139 Engine Brake switch is failed
ARM 1149 Auto Field / Transport Switch is in an illogical state
ARM 8011 Battery Voltage is too Low
ARM 9011 Controller Memory Error — Loss of Hitch Position Command Calibration
ARM 9012 Controller Memory Error — Loss of Aux Remote Lever Calibrations
ARM 9013 Controller Memory Error — Loss of Throttle Calibrations
ARM 9014 Controller Memory Error — Loss of MFD switch Configuration
ARM 9015 Controller Memory Error — Loss of Trans switches Configuration
ARM 9021 Hitch position command potentiometer calibration results not acceptable
ARM 9031 Hand throttle potentiometer calibration results not acceptable
ARM 9041 Hitch DROP RATE potentiometer calibration value(s) are out of range
ARM 10091 Armrest Controller failure — 5 V regulator failure
ARM 12013 Communications Lost with Data Bus and ALL other controllers
ARM 12081 Loss of/unavailable Performance Monitor Display — RECORD/PLAY functionality disabled
CASE IH & NEW HOLLAND Tractor Fault Codes DTC
TMF 3 Hitch Raise Solenoid High Side Driver shorted to 12 volts.
TMF 4 Hitch Raise Solenoid Failed Open or Shorted to Ground.
TMF 5 Hitch Lower Solenoid Shorted to 12 volts.
TMF 6 Hitch Lower Solenoid High Side Driver circuit short to 12 volts.
TMF 7 Hitch Raise/Lower Solenoids Open or short to ground.
TMF 11 Communications Lost with Data Bus and ALL other controllers
TMF 12 Communication lost with the armrest controller
TMF 14 5 Volt Sensor Supply voltage is too high
TMF 15 5 Volt Sensor Supply voltage is too low
TMF 17 Hitch Position Command potentiometer failed in the Armrest controller
TMF 18 Hitch Rockshaft Position potentiometer is outside normal operating range.
TMF 19 Hitch Upper Limit potentiometer is failed in the Armrest Controller
TMF 21 Hitch Load Command potentiometer is failed in the Armrest Controller
TMF 22 Single draft pin sensor failed when configured for one draft pin sensor.
TMF 23 Two draft pin sensors failed when configured for two draft pins.
TMF 24 Communications Lost with Instrumentation Controller
TMF 25 Hitch Up/Down Switch failed in the Armrest controller
TMF 26 Fender UP and DOWN switch failure or both switches simultaneously pressed
TMF 28 Hitch Travel potentiometer is failed in the Armrest Controller
TMF 29 Hitch Drop Rate potentiometer is failed in the Armrest Controller
TMF 30 Right Draft Pin voltage is outside the normal operating range.
TMF 31 Left Draft Pin voltage is outside the normal operating range.
TMF 32 Ground Speed Signal is failed in the Instrumentation Controller
TMF 33 Hitch Slip Set Switch failed in the Armrest controller
TMF 34 Hitch Slip Select Switch failed in the Armrest controller
TMF 35 Slip Sensor (radar or wheel speed) is failed in the Instrumentation Controller
TMF 37 The ARU reports EDC Transport Lock is faulty or not available.
TMF 41 Draft pin(s) detected but the Armrest controller specified tractor without draft control.
TMF 42 Engine speed must be set above 1600 rpm during calibration of lower valve.
TMF 43 No Draft pin(s) detected but the Armrest controller specified tractor with draft control.
TMF 44 Hitch calibration aborted due to tractor movement.
TMF 45 Hitch calibration attempted when the engine is not running or engine speed signal is failed.
TMF 47 Raise Valve calibration value is too high. (valve problem)
TMF 48 Raise Valve calibration value is too low. (valve problem)
TMF 50 Hitch position at top of travel is not within specification during calibration
TMF 51 Lower Valve calibration value is too high. (valve problem)
TMF 52 Lower Valve calibration value is too low. (valve problem)
TMF 53 The time allowed for hitch calibration has expired
TMF 54 Hitch position at bottom of travel is not within specification during calibration
TMF 55 Hitch position range from top to bottom is not within spec during calibration
TMF 56 Hitch position range to position command range ratio is not within spec during calibration.
TMF 57 Right Draft Pin voltage is not within spec for ïno loadà condition during calibration
TMF 58 Left Draft Pin voltage is not within spec for ïno loadà condition during calibration
TMF 59 Both Draft Pin voltages are not within spec for ïno loadà condition during calibration
TMF 60 Draft pin connected to left vs right for single pin setup during calibration
TMF 61 The Hitch Calibration procedure must be performed.
TMF 62 Communications Lost with Performance Monitor Function
TMF 63 Controller 8 volt reference is too high (above 8.8 volts).
TMF 64 Controller 8 volt reference is too low (below 7.2 volts).
TMF 65 Battery Voltage is too Low
TMF 66 Battery Voltage is too Low
TMF 80 MFD fault condition in software.
TMF 81 MFD Solenoid is failed Open or Short Circuit
TMF 82 Differential Lock Solenoid is failed Open or Short Circuit
TMF 83 Brake Lamp Relay Solenoid is failed Open or Short Circuit
TMF 86 Wheel Slip Signal is failed in the Instrumentation Controller
TMF 87 Ground Speed Signal is failed in the Instrumentation Controller
TMF 88 Differential Lock Switch is failed in the Armrest Controller
TMF 89 Differential Lock Switch is failed in the Armrest Controller
TMF 90 Differential Lock Switch is failed in the Armrest Controller
TMF 92 MFD Switch is failed in the Armrest Controller
TMF 93 MFD Switch is failed in the Armrest Controller
TMF 94 Differential Lockout fault condition in software.
TMF 95 The steering angle sensor is above the expected operating range
TMF 96 The steering angle sensor is below the expected operating range
TMF 98 Battery Voltage is too Low
TMF 99 Battery Voltage is too Low
TMF 106 Aux 5th remote valve control switch (Extend) is failed in the Armrest Controller
TMF 107 Aux 5th remote valve control switch (Retract) is failed in the Armrest Controller
TMF 108 Aux 1st remote valve LEVER potentiometer is failed in the Armrest Controller
TMF 109 Aux 2nd remote valve LEVER potentiometer is failed in the Armrest Controller
TMF 110 Aux 3rd remote valve LEVER potentiometer is failed in the Armrest Controller
TMF 111 Aux 4th remote valve LEVER potentiometer is failed in the Armrest Controller
TMF 112 Aux 1st remote valve FLOW potentiometer is failed in the Armrest Controller
TMF 113 Aux 2nd remote valve FLOW potentiometer is failed in the Armrest Controller
TMF 114 Aux 3rd remote valve FLOW potentiometer is failed in the Armrest Controller
TMF 115 Aux 4th remote valve FLOW potentiometer is failed in the Armrest Controller
TMF 116 Aux 5th remote valve FLOW potentiometer is failed in the Armrest Controller
TMF 120 Electro Hydraulic Remote top link switch is stuck on.
TMF 123 Aux 1st Lower Coil solenoid shorted to 12 volts.
TMF 124 Aux 1st Lower solenoid failed open or short circuit.
TMF 125 Aux 1st Raise Coil solenoid shorted to 12 volts.
TMF 126 Aux 1st Raise solenoid failed open or short circuit.
TMF 127 Aux 2nd Lower Coil solenoid shorted to 12 volts.
TMF 128 Aux 2nd Lower solenoid failed open or short circuit.
TMF 129 Aux 2nd Raise Coil solenoid shorted to 12 volts.
TMF 130 Aux 2nd Raise solenoid failed open or short circuit.
TMF 131 Aux 3rd Lower Coil solenoid shorted to 12 volts.
TMF 132 Aux 3rd Lower solenoid failed open or short circuit.
TMF 133 Aux 3rd Raise Coil solenoid shorted to 12 volts.
TMF 134 Aux 3rd Raise solenoid failed open or short circuit.
TMF 135 Aux 4th Lower Coil solenoid shorted to 12 volts.
TMF 136 Aux 4th Lower solenoid failed open or short circuit.
TMF 137 Aux 4th Raise Coil solenoid shorted to 12 volts.
TMF 138 Aux 4th Raise solenoid failed open or short circuit.
TMF 139 Aux 5th Lower Coil solenoid shorted to 12 volts.
TMF 141 Aux 5th Raise Coil solenoid shorted to 12 volts.
TMF 142 Aux 5th Raise solenoid failed open or short circuit.
TMF 147 Implement feedback #1 out of range High
TMF 148 Implement feedback #1 out of range Low
TMF 149 Implement feedback #2 out of range High
TMF 150 Implement feedback #2 out of range Low
TMF 151 Communications Lost with Transmission Controller
TMF 152 Electro Hydraulic Remote top link switch voltage is short circuit.
TMF 153 Electro Hydraulic Remote top link switch data invalid
TMF 154 PTO switch interlock — Cab Switch and Fender switch on at the same time.
TMF 155 Auto PTO switch data failed in the Armrest controller.
TMF 156 Auto PTO switch stuck ON in Armrest Controller.
TMF 157 PTO remote fender switch short circuit.
TMF 158 PTO remote fender switch open circuit
TMF 159 PTO remote fender switch stuck ON.
TMF 160 PTO Clutch is Slipping Too Much
TMF 162 Engine Stalled when the PTO was running.
TMF 163 PTO Shaft rotation is detected when the PTO clutch is OFF.
TMF 164 PTO shaft speed has not been detected within 3.6 seconds of being turned ON.
TMF 165 PTO Shaft rotation is detected when the Engine is OFF.
TMF 166 PTO Driver is on and no current is sensed.
TMF 167 Current sensed when the PTO driver is off.
TMF 168 PTO ON/OFF switch is failed in the Armrest Controller
TMF 169 PTO ON/OFF switch is failed in the Armrest Controller
TMF 170 PTO ON/OFF switch is failed in the Armrest Controller
TMF 171 PTO software fault condition detected.
TMF 172 PTO Solenoid Circuit is failed shorted to 12 Volts when PTO is in the off state.
TMF 173 PTO Solenoid Circuit is failed shorted to ground when PTO is in the off state.
TMF 174 Current flowing in the PTO sense resistor when the high side is off.
TMF 175 PTO Clutch has not reached lock up speed within 6 seconds of being turned ON
TMF 178 PTO speed sensor has been changed.
TMF 179 The PTO is receiving no frequency from the Shaft Size Sensor on a two speed PTO
TMF 180 The PTO is receiving signals from the Shaft Size Sensor on a single speed PTO configuration.
INST 1015 Seat Switch may be stuck closed.
INST 1024 Trans oil filter switch shorted to ground on power up.
INST 1034 Hydraulic oil filter switch shorted to ground on power up.
INST 3010 PTO Shaft Speed sensor is failed in PTO Controller
INST 3020 Engine Speed sensor is failed in the Engine Controller
INST 3022 Engine Overspeed Error
INST 5010 Engine Oil Pressure sensor is failed in the Engine Controller
INST 5011 Engine Oil Pressure sensor voltage is too low (open circuit, short to ground)
INST 7024 Reversible Fan Control open circuit or shorted to ground.
INST 10031 Controller Memory Error — Loss of Engine Hours information
INST 10032 Controller Memory Error — Loss of Vehicle Configuration information
INST 10033 Controller Memory Error — Loss of Customer Configuration information
INST 10034 Controller Memory Error: Loss of valid fuel table information.
INST 10035 Controller Memory Error — Loss of Valid Radar Configuration information.
INST 10036 Controller Memory Error — Loss of Displayed Performance information
INST 10037 Controller Memory Error — Loss of Implement Width information
INST 10038 Controller Memory Error — Loss of Valid Remote Timer information.
INST 11011 Fuel Level Sensor voltage is too low (open circuit, short to ground)
INST 12011 Communications Lost with Armrest Controller
INST 12021 Communications Lost with Auxiliary Controller
INST 12031 Communications Lost with Hitch Controller
INST 12043 Communications Lost with Data Bus 1 and ALL other controllers
INST 12051 Communications Lost with PTO Controller
INST 12053 Communications Lost with Vehicle Data Bus 2.
INST 12071 Communications Lost with Transmission Controller
INST 12091 Communications Lost with Engine Controller
INST 12101 Communications Lost with Tractor ECU (Gateway) Controller
INST 12111 Communications Lost with Automatic Temperature Controller
INST 12121 Communications Lost with Color Perfomance Monitor
INST 13010 Engine Coolant Temperature sensor is failed in the Engine Controller
INST 13011 Engine Coolant Temperature sensor voltage is too low (short to ground)
INST 13012 Engine Coolant Temperature sensor voltage is too high (open circuit, short to +V)
INST 13021 Transmission Oil Temperature sensor voltage is too low (short to ground)
INST 13022 Transmission Oil Temperature sensor voltage is too high (open circuit, short to +V)
INST 13031 Hydraulic Oil Temperature sensor voltage is too low (short to ground)
INST 13032 Hydraulic Oil Temperature sensor voltage is too high (open circuit, short to +V)
INST 13040 Air to Air Intake Temperature sensor is failed in the Engine Controller
INST 13044 When fuel shut off relay is latched, short is detected (mechanical engine tractors only)
INST 13051 Air to Air Intake Temperature sensor voltage is too low (short to ground)
INST 13052 Air to Air Intake Temperature sensor voltage is too high (open circuit, short to +V)
INST 53001 Instrumentation Controller Configuration is Incorrect
INST 53002 Air to Air Intake sensor does not match Tractor Model Configuration
INST 53005 Engine Shutdown activated by Instrument Controller
INST 65535 NO ERROR. Errors have not been cleared from factory.
ATC 111 Cab sensor open or shorted to power
ATC 112 Cab sensor shorted to ground
ATC 115 Evaporator sensor open or shorted to power
ATC 116 Evaporator sensor shorted to ground
ATC 120 Blower speed select pot open/shorted to power
ATC 121 Temperature select pot open/shorted to power
ATC 122 Mode Select Pot Open Or Shorted To Power
ATC 125 High pressure switch (+) input shorted to power
ATC 126 High pressure switch (+) input shorted to ground
ATC 127 High pressure switch (-) input shorted to power
ATC 128 High pressure switch (-) input shorted to ground
ATC 129 High pressure cycling error (2 in 1 minute)
ATC 130 Low pressure switch (+) input shorted to power
ATC 131 Low pressure switch (+) input shorted to ground
ATC 132 Low pressure switch (-) input shorted to power
ATC 133 Low pressure switch (-) input shorted to ground
ATC 134 Low pressure switch open for > 1 minute
ATC 113 Outlet sensor open or shorted to power
ATC 114 Outlet sensor shorted to ground
ATC 117 Outside air sensor open or shorted to power
ATC 118 Outside air sensor shorted to ground
Hitch 1002 Raise hitch valve coil short to 12 volts or raise hitch valve coil circuit failure.
Hitch 1003 Open or Short to Ground raise hitch valve coil circuit failure.
Hitch 1004 Lower hitch valve coil short to 12 volts or lower hitch valve coil circuit failure.
Hitch 1005 Open or short to ground lower hitch valve coils.
Hitch 1006 EDC Low Side Driver stuck on failure.
Hitch 1007 Low side driver watchdog test failed.
Hitch 1008 Low side of raise solenoid connected permanently to GND
Hitch 1009 Low side of lower solenoid connected permanently to GND
Hitch 1011 TCU (Tractor Controller Unit) is disconnected from the CAN bus.
Hitch 1012 No communication with the ACM (Armrest Controller Module).
Hitch 1013 No communication with the ICP (Instrument Cluster Panel).
Hitch 1014 Five-volt reference is above the upper voltage limit.
Hitch 1015 Five-volt reference is below the lower voltage limit.
Hitch 1016 Not implemented
Hitch 1017 Position Command value received over the CAN data bus from the Armrest indicates Position Command potentiometer failed.
Hitch 1018 Hitch rockshaft position potentiometer open/short/misadjust or circuit failure.
Hitch 1019 Upper Limit value received from CAN data bus indicates failure condition.
Hitch 1021 Load Command value received from CAN data bus indicates failure condition.
Hitch 1022 Single draft pin sensor failed when configured for one draft pin sensor.(CCH Only)
Hitch 1023 Two draft pin sensors failed when configured for two draft pins.(CCH Only)
Hitch 1024 ICU CAN data bus signal lost.
Hitch 1025 Up/Down/Down Momentary switch value received from CAN data bus indicates switch failure.
Hitch 1026 Up/Down remote fender switch failure.
Hitch 1027 Not implemented
Hitch 1028 Travel Range potentiometer value received from CAN data bus indicates failure condition.
Hitch 1029 Drop Rate value received from CAN data bus indicates potentiometer failure condition.
Hitch 1030 Right draft pin voltage is outside the normal operating range.(CCH Only)
Hitch 1031 Left draft pin voltage is outside the normal operating range.(CCH Only)
Hitch 1032 Ground speed failure-value received from CAN data bus indicates failure condition.
Hitch 1033 Slip Limit Set Point received from CAN data bus indicates failure condition.
Hitch 1034 Slip Enable switch received from CAN data bus indicates failure condition.
Hitch 1035 The Percent slip received from ETC indicates failure condition.
Hitch 1036 The ARU reports EDC Inching Up switch faulty or not available.
Hitch 1037 The ARU reports EDC Inching Down switch faulty or not available.
Hitch 1065 The ARU specified tractor without draft control (position only hitch) but detected presence of draft pin(s).
Trans 2009 Seat switch open circuit
Trans 2010 Seat switch is shorted to the supply voltage B+ or 5 volt reference
Trans 2011 Clutch Pot Open Circuit or short to ground
Trans 2012 Clutch Potentiometer Short to +12 Volts or short to 5 Volt reference.
Trans 2024 none of the Transmission clutches are calibrated. This will be the condition when a new controller is installed on the tractor.
Trans 2037 Bottom of Clutch pedal switch open circuit or bottom of clutch relay is stuck open
Trans 2047 Clutch pedal bottom of clutch switch misadjusted.
Trans 2048 Bottom of Clutch pedal switch or the bottom of clutch relay are short circuit
Trans 2049 Trans
Trans 2054 5 volt reference voltage too low.
Trans 2055 No signal from wheel speed sensor.
Trans 2056 5 volt internal reference voltage too high.
Trans 2057 5 volt internal reference voltage too low.
Trans 2059 1) Switch inputs indicate shuttle lever is in both forward and neutral 2) Switch inputs indicate shuttle lever is in both reverse and neutral3) Switch inputs indicate shuttle lever is
in both forward and reverse. Cycle the shuttle lever which may free up stuck switches, or try driving the opposite direction.
Trans 2071 Forward switch input from the FNRP Pod is shorted to ground or is open circuit.
Trans 2072 Reverse switch input from the FNRP Pod is shorted to +12 Volts or the FNRP pod 5 Volt Reference.
Trans 2073 Reverse switch input from the FNRP Pod is shorted to ground or open circuit.
Trans 2074 FNR Not Park Switch low voltage fault
Trans 2075 FNR Not Park Switch high Voltage fault
Trans 2110 FNR Neutral Switch Low Voltage fault
Trans 2111 FNR Neutral Switch high Voltage fault
Trans 2326 The Engine RPM sourced from the alternator measured by the controller is excessively high.
Trans 2327 No engine RPM
Trans 2330 The Transmission output RPM speed, sourced from the sensor, measured by the controller is too high for the desired gear
Trans 2331 The transmission clutches are slipping
Trans 2342 Clutch Odd solenoid open circuit or short to ground.
Trans 2343 Clutch Even solenoid open circuit or short to ground.C33
Trans 2344 Clutch C1-2 solenoid open circuit or short to ground.
Trans 2345 Clutch C3-4 solenoid open circuit or short to ground.
Trans 2346 Clutch 5-6 solenoid open circuit or short to ground.
Trans 2374 Master Clutch solenoid open circuit or short to ground.
Trans 2347 Clutch Low Range solenoid open circuit or short to ground.
Trans 2348 110 Clutch Mid Range solenoid open circuit or short to ground.
Trans 2349 Clutch High Range solenoid open circuit or short to ground.
Trans 2350 Clutch reverse solenoid open circuit or short to ground.
Trans 2351 The creeper clutch solenoid is open circuit or short to ground
Trans 2353 Even Clutch Solenoid is shorted to +12 Volts, current sensed while driver is off.
Trans 2352 Odd Clutch Solenoid is shorted to +12 Volts, current sensed while driver is off.
Trans 2354 C1-2 Clutch Solenoid is shorted to +12 Volts, current sensed while driver is off..
Trans 2355 C3-4 Clutch Solenoid is shorted to +12 Volts, Current sensed while driver is off.
Trans 2356 C5-6 clutch Solenoid is shorted to +12 Volts, current sensed while driver isoff.
Trans 2357 Low clutch Solenoid is shorted to +12 Volts, current sensed while driver is off.
Trans 2358 Mid Clutch Solenoid is shorted to +12 Volts, Current sensed while driver is off.
Trans 2359 High Clutch Solenoid is shorted to +12 Volts, current sensed while driver is off.
Trans 2360 Reverse Clutch Solenoid is shorted to +12 Volts, current sensed while driver is off.
Trans 2361 The creeper clutch solenoid is shorted to +12 Volts, current sensed while the driver is off
Trans 2362 Master Clutch Solenoid is shorted to +12 Volts, current sensed while driver is off.
Trans 2363 The Odd Clutch is not calibrated
Trans 2364 Even Clutch not calibrated
Trans 2365 C1-2 Clutch not calibrated
Trans 2366 C3-4 Clutch not calibrated
Trans 2367 C5-6 Clutch not calibrated
Trans 2368 Low Range Clutch not calibrated
Trans 2369 Mid Range Clutch not calibrated
Trans 2370 High Clutch not calibrated
Trans 2371 Reverse Clutch not calibrated
Trans 2372 Creep Clutch is not calibrated
Trans 2373 Master Clutch not calibrated
Trans 2800 Auto Guidance Isolation valve driver Fault
Trans 2805 System pressure valve solenoid circuit is open circuit or shorted to ground
Trans 2806 System pressure solenoid is shorted to B+
Trans 2807 Transmission output rpm over speed
Trans 2809 The battery voltage is too low to permit operation of the clutch solenoids.
Trans 2811 Transmission Oil Temperature Hot
Trans 2812 Transmission Oil Temperature sensor short to B+ or open circuit
Trans 2813 Transmission oil temperature Sensor Short to Ground
Trans 2814 Integrated Control Panel off line
Trans 2815 Governor Engine RPM alternator engine RPM mismatch
Trans 2816 Transmission regulated pressure accumulator is flat
Trans 2817 Governor is offline CAN bus
Trans 2818 Communication lost with the Armrest Control Module(ACM)
Trans 2819 Communication lost with the instrumentation controller.
Trans 2820 System pressure low possible System pressure hydraulic pump failure or leak
Trans 2821 System Pressure Low fault
Trans 2850 The Park Brake is stuck on by no electrical power supplied when commanded on
Trans 2851 The Park Brake Driver has detected an over current or an open circuit condition
Trans 2852 The Park Brake is stuck on by no electrical power supplied to the solenoid when driver is commanded on. Possible service brake bottom brake switches open.
Trans 2055 No signal from wheel speed sensor.
Trans 2873 Software is out of the calibration mode and the park brake request is still active. If this fault is detected there is a bug in the software
Trans 2874 The park brakes commanded on and gear is engaged and there is no park brake request from calibration. If this fault is detected there is a bug in the software
Trans 2900 Torque sensor Gap is on the larger end of the tolerance (CCH Only)
Trans 2901 Signal received from the torque sensor is not in any fault range or normal range tolerance (CCH Only)
Trans 2902 Torque sensor has declared an internal fault tolerance (CCH Only)
Trans 2903 Torque sensor supply voltage below 4.8 volts tolerance (CCH Only)
Trans 2910 12VF1voltage supply is low. (possible blown fuse*)
Trans 2911 12VT1voltage supply is low. (possible blown fuse*)
Trans 2912 12VF2voltage supply is low. (possible blown fuse*)
Trans 2913 12VHvoltage supply is low. (possible blown fuse*)
Trans 2914 12VF3voltage supply is low. (possible blown fuse*)
Trans 2915 12VS1voltage supply is low. (possible blown fuse*)
Engine 3000 Unknown ECM Error Code Received
Engine 3999 Unknown ECM Error Code Received
Engine 3001 Foot Throttle Sensor -Signal Not Plausible
Engine 3002 Foot Throttle Sensor -Signal Above Range Max.
Engine 3003 Foot Throttle Sensor -Signal Below Range Min.
Engine 3004 Foot Throttle Sensor -No Signal -Error
Engine 3006 Coolant Temperature Sensor -Signal Not Plausible(Compared with Engine Oil Temperature)
Engine 3007 Coolant Temperature Sensor -Signal Above Range Max.
Engine 3008 Coolant Temperature Sensor -Signal Below Range Min.
Engine 3009 Coolant Temperature Sensor -(via CAN) No Signal
Engine 3010 Air Intake Temperature Sensor -Signal Above Range Max.
Engine 3011 Air Intake Temperature Sensor -Signal Above Range Min.
Engine 3012 Air Intake Temperature Sensor -(via CAN) No Signal
Engine 3015 Fuel Temperature Signal -Signal Above Range Max.
Engine 3016 Fuel Temperature Signal -Signal Below Range Min.
Engine 3019 Boost Pressure Sensor -Signal Above Range Max.
Engine 3021 Boost Pressure Sensor -(via CAN) No Signal
Engine 3022 Boost Pressure Sensor -Signal Not Plausible
Engine 3023 Atmospheric Pressure Sensor -Signal Not Plausible Compared with Boost Pressure
Engine 3024 Atmospheric Pressure Sensor -Signal Above Range Max.
Engine 3025 Atmospheric Pressure Sensor -Signal Below Range Min.
Engine 3028 Oil Pressure Too Low
Engine 3029 Oil Pressure Sensor _Short circuit to Battery
Engine 3030 Oil Pressure Sensor _Short circuit to Ground
Engine 3031 Oil Pressure Sensor -Hardware Error
Engine 3032 Oil Pressure Sensor -Value Too High
Engine 3033 Oil Temperature Sensor -Signal Not Plausible (Compared with Coolant Temperature)
Engine 3034 Oil Temperature Sensor -Signal Above Range Max.
Engine 3035 Oil Temperature Sensor -Signal Below Range Min.
Engine 3036 Oil Temperature Sensor -(via CAN) No Signal
Engine 3037 Boost Pressure Sensor -Signal Low
Engine 3038 Constant Engine RPM Activate / Select Switch _Short circuit to Ground
Engine 3039 Cruise Control Actuating Device -Evaluation Error
Engine 3043 Vehicle Speed Sensing -Hardware Conversion Error
Engine 3044 Vehicle Speed Sensing -Signal Above Range Max.
Engine 3045 Vehicle Speed Sensing -Signal Below Range Min.
Engine 3046 Vehicle Speed Sensing -Signal Not Plausible
Engine 3047 Main Relay 2 Failure _Short circuit to Battery
Engine 3048 Main Relay 2 Failure _Short circuit to Ground
Engine 3051 Battery Voltage to ECM too High
Engine 3052 Battery Voltage to ECM too Low
Engine 3053 Vehicle Speed Sensing (Tacho) -PWM Frequency Too High
Engine 3054 Vehicle Speed Sensing (Tacho) -PWM Average Frequency Above Limit
Engine 3055 Vehicle Speed Sensing (Tacho) -PWM Average Frequency Below Limit
Engine 3056 Vehicle Speed Sensing (Tacho) -Not Plausible
Engine 3057 Timeout of CAN Message High Resolution Wheel Speed
Engine 3058 Timeout of CAN Message Vehicle Dynamics Control Unit
Engine 3059 ECM After run was Interrupted
Engine 3060 Cylinder1 -Unclassifiable Error in Injector
Engine 3061 Cylinder1 -Injector Cable Short circuit (Low Side to Battery)
Engine 3062 Cylinder1 -Application Dependent
Engine 3063 Cylinder1 -Injector Cable Short circuit (High Side to Ground)
Engine 3064 Cylinder5 -Unclassifiable Error in Injector
Engine 3065 Cylinder5 -Injector Cable Short circuit (Low Side to Battery)
Engine 3066 Cylinder5 -Application Dependent
Engine 3067 Cylinder5 -Injector Cable Short circuit (High Side to Ground)
Engine 3068 Cylinder3 -Unclassifiable Error in Injector
Engine 3069 Cylinder3 -Injector Cable Short circuit (Low Side to Battery)
Engine 3070 Cylinder3 -Application Dependent
Engine 3071 Cylinder3 -Injector Cable Short circuit (High Side to Ground)
Engine 3072 Cylinder6 -Unclassifiable Error in Injector
Engine 3073 Cylinder6 -Injector Cable Short circuit (Low Side to Battery)
Engine 3074 Cylinder6 -Application Dependent
Engine 3075 Cylinder6 -Injector Cable Short circuit (High Side to Ground)
Engine 3076 Cylinder2 -Unclassifiable Error in Injector
Engine 3077 Cylinder2 -Injector Cable Short circuit (Low Side to Battery)
Engine 3078 Cylinder2 -Application Dependent
Engine 3079 Cylinder2 -Injector Cable Short circuit (High Side to Ground)
Engine 3080 Cylinder4 -Unclassifiable Error in Injector
Engine 3081 Cylinder4 -Injector Cable Short circuit (Low Side to Battery)
Engine 3082 Cylinder4 -Application Dependent
Engine 3083 Cylinder4 -Injector Cable Short circuit (High Side to Ground)
Engine 3088 Crankshaft Sensor -No Signal
Engine 3089 Crankshaft Sensor -Invalid Signal
Engine 3090 Camshaft Sensor -No Signal
Engine 3091 Camshaft Sensor -Invalid Signal
Engine 3092 Offset Between Camshaft and Crankshaft -Not Plausible
Engine 3093 Offset Between Camshaft and Crankshaft -Outside Boundaries
Engine 3095 Operating with Camshaft Sensor Only -Backup Mode
Engine 3096 Tier 3: ECM Bus Off on CAN A Tier 4a: ECM Bus Off on Vehicle CAN
Engine 3097 ECM Bus Off on Engine private CAN
Engine 3098 Timeout of CAN Message TSC1-TE (When Active)
Engine 3099 Timeout of CAN Message TSC1-TE (When Inactive)
Engine 3100 Timeout of CAN Message TSC1-AE (When Active)
Engine 3101 Timeout of CAN Message TSC1-AE (When Inactive)
Engine 3102 Rail Pressure Sensor CP3 -Signal Below Range Min.
Engine 3104 Rail Pressure Relief Valve -Open
Engine 3105 Rail Pressure Relief Valve -Pressure Shock Requested
Engine 3106 Rail Pressure Relief Valve -Did Not Open After Pressure Shock
Engine 3107 Metering Unit _Short circuit to Battery
Engine 3108 Metering Unit _Short circuit to Ground
Engine 3110 Rail Pressure Sensor Offset Monitoring -Value above Limit
Engine 3111 Rail Pressure Sensor Offset Monitoring -Value below Limit
Engine 3112 Rail Pressure Sensor CP3 -Signal Above Range Max.
Engine 3113 Main Relay 1 (High Pressure Pump -power supply to the fuel metering unit) -Short to Battery
Engine 3114 Main Relay 1 (High Pressure Pump -power supply to the fuel metering unit) Short to Ground
Engine 3117 PTO Twist Sensor -Out of Range
Engine 3118 ECM 12V Sensor Supply Voltage High
Engine 3119 ECM 12V Sensor Supply Voltage Low
Engine 3120 PTO Twist Sensor -Not Plausible
Engine 3121 PTO Twist Sensor -Open Circuit
Engine 3122 PTO Twist Sensor _Short circuit to Ground
Engine 3123 PTO Twist Sensor -Not Calibrated
Engine 3124 Hand Throttle -Channel 2 Above Range Max.
Engine 3125 Hand Throttle -Channel 2 Below Range Min.
Engine 3126 Hand Throttle -Channel 1 Signal Above Range Max.
Engine 3127 Hand Throttle -Channel 1 Signal Below Range Min.
Engine 3128 Hand Throttle -Channel Difference Error
Engine 3129 Hand Throttle -Idle Switch Closed Circuit
Engine 3130 Hand Throttle -Idle Switch Open Circuit
Engine 3131 Grid Heater Always Switched On
Engine 3133 Cold Start Lamp -No Load
Engine 3134 Cold Start Lamp _Short circuit to Battery
Engine 3135 Cold Start Lamp _Short circuit to Ground
Engine 3136 Cold Start Lamp -Excessive Temperature
Engine 3137 Metering Unit -Open Load
Engine 3138 Metering Unit -Temperature Too High
Engine 3139 Metering Unit Signal Range Check -Signal Too High
Engine 3140 Metering Unit Signal Range Check -Signal Too Low
Engine 3141 Fuel Flow Set point Too Low
Engine 3142 High Pressure Test -Test Active
Engine 3143 Grid Heater Switch Off Test (Voltage Drop Too High)
Engine 3144 Grid Heater Switch Off Test (Voltage Drop Too Low)
Engine 3145 Terminal 15 -No Signal
Engine 3146 Water Detected In Fuel
Engine 3147 Oil Temperature Too High
Engine 3148 Coolant Temperature Sensor Dynamic Test -Failure (Minimum Temperature Raise Not Reached)
Engine 3149 Coolant Temperature Sensor Test -Failure (Minimum Temperature Not Reached)
Engine 3150 System/Amber Warning Lamp _Short circuit to Battery
Engine 3151 System/Amber Warning Lamp _Short circuit to Ground
Engine 3152 System/Amber Warning Lamp -No Load
Engine 3153 System/Amber Warning Lamp -Excessive Temperature
Engine 3154 Grid Heater Relay _Short circuit to Battery
Engine 3155 Grid Heater Relay _Short circuit to Ground
Engine 3156 Grid Heater Relay -No Load
Engine 3157 ECM Not Detected on CAN bus
Engine 3158 Invalid ECM Checksum
Engine 3159 Invalid Engine Reference Torque
Engine 3160 Fan Actuator _Short circuit to Battery
Engine 3161 Fan Actuator _Short circuit to Ground
Engine 3162 Fan Actuator -Open Load
Engine 3163 Fan Actuator -Temperature Too High
Engine 3164 Fan Speed Sensor _Signal High
Engine 3165 Fan Speed Sensor -Signal Low
Engine 3166 Fuel Filter Heater Relay _Short circuit to Battery
Engine 3167 Fuel Filter Heater Relay _Short circuit to Ground
Engine 3168 Fuel Filter Heater Relay -Open Load
Engine 3169 Fuel Filter Heater Relay -Signal Not Plausible
Engine 3176 Set point of Metering Unit Not Plausible in Overrun
Engine 3177 Engine Over speed Detected
Engine 3178 Timeout of CAN Message BC2EDC1
Engine 3179 Timeout of CAN Message BC2EDC2
Engine 3180 Timeout of CAN Message VCM2EDC
Engine 3181 Rail Pressure Positive Deviation Too High Concerning Set point
Engine 3182 Timeout of CAN Message RxCCVS
Engine 3183 Timeout of CAN Message TSC1-VR (When Active)
Engine 3184 Timeout of CAN Message TSC1-VR (When Inactive)
Engine 3185 Timeout of CAN message TF
Engine 3186 Cylinder1 Warning -Fast Decay Error
Engine 3187 Cylinder1 Warning -Application Dependent
Engine 3188 Cylinder1 Warning -Injector Circuit Low
Engine 3189 Cylinder1 Warning -Current Level Error
Engine 3190 Cylinder2 Warning -Fast Decay Error
Engine 3191 Cylinder2Warning -Application Dependent
Engine 3192 Cylinder2 Warning -Open Load
Engine 3193 Cylinder2 Warning -Current Level Error
Engine 3194 Cylinder3 Warning -Fast Decay Error
Engine 3195 Cylinder3 Warning -Application Dependent
Engine 3196 Cylinder3 Warning -Open Load
Engine 3197 Cylinder3 Warning -Current Level Error
Engine 3198 Cylinder4 Warning -Fast Decay Error
Engine 3199 Cylinder4 Warning -Application Dependent
Engine 3200 Cylinder4 Warning -Open Load
Engine 3201 Cylinder4 Warning -Current Level Error
Engine 3202 Cylinder5 Warning -Fast Decay Error
Engine 3203 Cylinder5 Warning -Application Dependent
Engine 3204 Cylinder5 Warning -Open Load
Engine 3205 Cylinder5 Warning -Current Level Error
Engine 3206 Cylinder6 Warning -Fast Decay Error
Engine 3207 Cylinder6 Warning -Application Dependent
Engine 3208 Cylinder6 Warning -Open Load
Engine 3209 Cylinder6 Warning -Current Level Error
Engine 3210 Bank1 -General Short circuit on Injection Cable
Engine 3211 Bank1 -Injection Cable Short circuit Low Side to Ground
Engine 3212 Bank1 -Application Dependent
Engine 3213 Bank1 -Unclassifiable Error
Engine 3214 Bank1 Warning -Application Dependent
Engine 3215 Bank1 Warning -Application Dependent
Engine 3216 Bank1 Warning -Open Load
Engine 3217 Bank1 Warning -Unclassifiable Error
Engine 3218 Bank2-General Short circuit on Injection Cable
Engine 3219 Bank2 -Injection Cable Short circuit Low Side to Ground
Engine 3220 Bank2 -Application Dependent
Engine 3221 Bank2 -Unclassifiable Error
Engine 3222 Bank2 Warning -Application Dependent
Engine 3223 Bank2 Warning -Application Dependent
Engine 3224 Bank2 Warning -Open Load
Engine 3225 Bank2 Warning -Unclassifiable Error
Engine 3226 Messages SRA2EDC
Engine 3227 Injection Processor (CY33X) Error -Internal Reset / Clock Loss / Voltage Too Low
Engine 3228 Injection Processor (CY33X) Error -Unlocked / Initialization Failure
Engine 3229 Injection Processor (CY33X) Error -Injections Limited By Software
Engine 3230 Injection Processor (CY33X) Error -SPI Communication Failure
Engine 3231 Injection Processor Error -Internal Reset / Clock Loss / Voltage Too Low
Engine 3232 Injection Processor Error -Unlocked / Initialization Failure
Engine 3233 Injection Processor Error -Test Mode
Engine 3234 Injection Processor Error -SPI Communication Failure
Engine 3235 Number of Injections Limited -by Charge Balance
Engine 3236 Number of Injections Limited -by Quantity Balance
Engine 3237 Number of Injections Limited -by Software
Engine 3238 ECM Internal SPI Communication Error -CJ940
Engine 3239 ECM EEPROM -Read Operation Failure
Engine 3240 ECM EEPROM -Write Operation Failure
Engine 3241 ECM EEPROM -Default Value Used
Engine 3242 ECM (Locked) Recovery Occurred
Engine 3243 ECM (Suppressed) -Recovery Occurred
Engine 3244 ECU Recovery (Visible) -Recovery Occurred
Engine 3245 ECM Processor -Watchdog Not Plausible
Engine 3246 Shutoff Paths During Initialization -Watchdog
Engine 3247 Shutoff Paths During Initialization -Supply Voltage Too High
Engine 3248 Shutoff Paths During Initialization -Supply Voltage Too Low
Engine 3249 TPU Monitoring -Time Deviation between TPU and System Not Plausible
Engine 3250 Dataset -Variant Defect
Engine 3251 Dataset -Requested Variant Could Not Be Set
Engine 3252 Controller Watchdog -SPI Communication Failure
Engine 3253 ADC Monitoring -Reference Voltage Too High
Engine 3254 ADC Monitoring -Reference Voltage Too Low
Engine 3255 ADC Monitoring -Test Impulse Error
Engine 3256 ADC Monitoring -Queue Error
Engine 3257 Turbine Speed and Air Pressure Too High
Engine 3258 High Side Power -Short circuit to Battery
Engine 3259 High Side Power _Short circuit to Ground
Engine 3260 Low Side Power -Open Load
Engine 3261 Low Side Power -Short circuit to Battery of Excess Temperature
Engine 3262 Low Side Power _Short circuit to Ground
Engine 3263 ECM Bus Off on CAN C
Engine 3264 Immobilizer -Injection Disabled
Engine 3265 Overrun Monitoring -Injection Time Too Long
Engine 3266 Redundant Engine Speed in Overrun Monitoring -Speed Signal Not Plausible
Engine 3267 Main relay 3 _Short circuit to Battery
Engine 3268 Main relay 3 _Short circuit to Ground
Engine 3269 Grid Heater Switch On Test -Voltage Drop Too High
Engine 3270 Grid Heater Switch On Test -Voltage Drop Too Low
Engine 3271 Fuel Low Pressure Sensor -(via CAN) No Signal
Engine 3272 Fuel Low Pressure Sensor -Signal Above Range Max.
Engine 3273 Fuel Low Pressure Sensor -Signal Below Range Min.
Engine 3274 Fuel Low Pressure Sensor Dynamic Plausibility Test -Above Map
Engine 3275 Fuel Low Pressure Sensor Dynamic Plausibility Test -Below Map
Engine 3276 MIL Visualization Not Available for BC2EDC1
Engine 3277 Timeout of CAN Message Dashboard Display
Engine 3278 ECM Internal Supply Voltage Too High -CJ940 Above Limit
Engine 3279 ECM Internal Supply Voltage Too Low -CJ940 Below Limit
Engine 3280 Sensor Supply Voltage 1 -High
Engine 3281 Sensor Supply Voltage 1 — Low
Engine 3282 Timeout of CAN Message WSI (Wheel Speed Info)
Engine 3283 Sensor Supply Voltage 2 -High
Engine 3284 Sensor Supply Voltage 2 — Low
Engine 3285 Sensor Supply Voltage 3 -High
Engine 3286 Sensor Supply Voltage 3 — Low
Engine 3287 Turbo Compound Monitoring -No Signal
Engine 3288 Turbo Compound Monitoring -Signal High
Engine 3289 Turbo Compound Monitoring -Signal Low
Engine 3290 Turbo Compound Monitoring -Signal Not Plausible
Engine 3291 Cylinder 1 Specific Errors -No Signal
Engine 3292 Cylinder 1 Specific Errors -Signal Low
Engine 3293 Cylinder 1 BIP Search Failure -Too Many Unsuccessful Searched
Engine 3294 Cylinder 1 Specific Errors -Signal Not Plausible
Engine 3295 Cylinder 2 Specific Errors -No Signal
Engine 3296 Cylinder 2 Specific Errors -Signal Low
Engine 3298 Cylinder 2 Specific Errors -Signal Not Plausible
Engine 3299 Cylinder 3 Specific Errors -No Signal
Engine 3300 Cylinder 3 Specific Errors -Signal Low
Engine 3301 Cylinder 3 BIP Search Failure -Too Many Unsuccessful Searches — Rail Pressure Negative Deviation too High on Minimum Metering
Engine 3302 Cylinder 3 Specific Errors -Signal Not Plausible
Engine 3303 Cylinder 4 Specific Errors -No Signal
Engine 3304 Cylinder 4 Specific Errors -Signal Low
Engine 3305 Cylinder 4 BIP Search Failure -Too Many Unsuccessful Searches — Rail Pressure below Minimum Limit in Controlled Mode
Engine 3306 Cylinder 4 Specific Errors -Signal Not Plausible
Engine 3307 Cylinder 5 Specific Errors -No Signal
Engine 3308 Cylinder 5 Specific Errors -Signal Low
Engine 3309 Cylinder 5 BIP Search Failure -Too Many Unsuccessful Searches — Rail Pressure above Maximum Limit in Controlled Mode
Engine 3310 Cylinder 5 Specific Errors -Signal Not Plausible
Engine 3311 Cylinder 6 Specific Errors -No Signal
Engine 3312 Cylinder 6 Specific Errors -Signal Low
Engine 3313 Cylinder 6 BIP Search Failure -Too Many Unsuccessful Searches — Rail Pressure Drop Rate too High
Engine 3314 Cylinder 6 Specific Errors -Signal Not Plausible
Engine 3315 Minimum Number of Injections Not Reached -Stop Engine
Engine 3316 Minimum Number of Injections Not Reached -Stop Engine
Engine 3317 Minimum Number of Injections Not Reached -Stop Engine
Engine 3318 Minimum Number of Injections Not Reached -Stop Engine
Engine 3319 DM1DCU SPN2 message -Error in DCU active
Engine 3320 DM1DCU SPN3 message -Error in DCU active
Engine 3321 Timeout of CAN Message DM1DCU SPN4
Engine 3322 Timeout of CAN Message ERC1DR
Engine 3323 Timeout of CAN Message RxAMCONIv (Ambient Conditions)
Engine 3324 Timeout of CAN Message EBC1 (Electronic Brake Switch)
Engine 3325 Timeout of CAN Message ETC1 (Transmission)
Engine 3326 Timeout of CAN Message ETC2 (Transmission)
Engine 3327 Timeout of CAN Message TCO1 (Tachograph)
Engine 3328 Timeout of CAN Message TSC1-AR (When Inactive)
Engine 3329 Timeout of CAN Message TSC1-AR (When Active)
Engine 3330 Timeout of CAN Message TSC1-DE (When Inactive)
Engine 3331 Timeout of CAN Message TSC1-DE (When Active)
Engine 3332 Timeout of CAN Message TSC1-DR (When Inactive)
Engine 3333 Timeout of CAN Message TSC1-DR (When Active)
Engine 3334 Timeout of CAN message TSC1-PE Torque (When Active)
Engine 3335 Timeout of CAN message TSC1-PE Torque (When Inactive)
Engine 3336 Timeout of CAN Message TSC1-TR (When Inactive)
Engine 3337 Timeout of CAN Message TSC1-TR (When Active)
Engine 3338 Timeout of CAN message TSC1-VE Speed (When Inactive)
Engine 3339 Timeout of CAN message TSC1-VE Speed (When Active)
Engine 3340 Timeout of CAN Message Time Date
Engine 3341 Timeout of CAN Message HRVD (High Resolution Vehicle Distance)
Engine 3342 Power Stage Air Heater 2 Actuator -No Signal
Engine 3343 Power Stage Air Heater 2 Actuator -Signal High
Engine 3344 Power Stage Air Heater 2 Actuator -Signal Low
Engine 3345 Total Throttle Failure (Only applies to Dual Throttle Vehicles)
Engine 3346 Multiple State Switch
Engine 3347 Multiple State Switch
Engine 3348 Multiple State Switch
Engine 3349 Multiple State Switch
Engine 3350 Terminal 50 -Always On
Engine 3351 Engine Brake Decompression Valve -Open Load
Engine 3352 Engine Brake Decompression Valve _Short circuit to Battery
Engine 3353 Engine Brake Decompression Valve _Short circuit to Ground
Engine 3354 Main Relay 4 (Engine Brake Exhaust Valve) _Short circuit to Ground
Engine 3355 Main Relay 4 (Engine Brake Exhaust Valve) -Short to Battery or open load
Engine 3356 Cylinder Shutoff (Cylinder Balancing Disabled) -Shutoff Active
Engine 3357 Misfire in Multiple Cylinders -Too Many Misfires
Engine 3358 CAN Transmit Timeout
Engine 3359 TSC Demand Physically Implausible
Engine 3360 Driving Dynamic Control -Not Plausible
Engine 3361 ECM EEPROM -General Error
Engine 3362 Torque to Quantity Map -Not Plausible
Engine 3363 Atmospheric Pressure Sensor -Processed via ADC (no CAN Plausibility Performed)
Engine 3364 Foot Pedal 2 -Signal Too High
Engine 3365 Foot Pedal 2 -Signal Too Low
Engine 3366 Foot Pedal 2 -Signal Not Plausible Compared to Foot Pedal 1
Engine 3367 Coolant Temperature Test Failure
Engine 3368 Info: Torque Limitation due to OBD Performance Limiter by Legislation
Engine 3369 Torque Reduction due to Smoke Limitation
Engine 3370 Info: Torque Limitation due to Engine Protection (against Excessive Torque, Engine Over speed and Overheat)
Engine 3371 Info: Torque Limitation due to Fuel Quantity Limitation because of Injection System Errors
Engine 3372 Injection Quantity Adjustment failure -Invalid Adjustment Value
Engine 3373 Injection Quantity Adjustment failure -EEPROM Adjustment Value Not Readable
Engine 3374 Injection Quantity Adjustment failure -Invalid EEPROM Adjustment Value Checksum
Engine 3375 Constant Engine RPM Increase / Decrease Switch _Short circuit to Battery
Engine 3376 Engine Controller Software Does Not Support Power Management (Engine Power Management Option Enabled, but Engine Software Not Compatible)
Engine 3377 Constant Engine RPM Switch Detected but Option Not Enabled.
Engine 3380 Engine Fan Increase Speed Error (open or short circuit)
Engine 3381 Engine Fan Decrease Speed Error (open or short circuit)
Engine 3382 Fan Control Solenoid Short To 12Vr
Engine 3383 Fan Control Solenoid Open Or Short To GND
Engine 3384 Vistronic Engine Cooling Fan driver open or short circuit
Engine 3399 Engine Fuel Lift Pump relay driver over current fault
Engine 3513 SCR Catalyst not present _Relation of temperature behavior between both Catalyst Temperatures not plausible
Engine 3517 Ambient Air Temperature Sensor failure (of Humidity Sensor) -Signal too high
Engine 3518 Ambient Air Temperature Sensor failure (of Humidity Sensor) -Signal too low
Engine 3519 Ambient Air Temperature Sensor failure (of Humidity Sensor) -CAN Signal failure
Engine 3521 NOx Estimation failure -Estimated Nox signal not reliable
Engine 3528 NOx Sensor Plausibility failure -Signal not plausible
Engine 3529 NOx Sensor Failure -Open Load
Engine 3530 NOx Sensor Failure -Short Circuit
Engine 3532 NOx Sensor Failure -Sensor not ready in time
Engine 3533 CAN Message timeout Nox (from Nox Sensor) -CAN timeout
Engine 3537 CAN Message timeout DM1DCU (from DCU) -CAN timeout
Engine 3541 CAN Message timeout SCR1 (from DCU) -CAN timeout
Engine 3545 Info: SCR Dosing Valve Overheat Protection -Torque Limitation Level2 for SCR Protection active
Engine 3546 Info: SCR Dosing Valve Overheat Protection -Torque Limitation Level1 for SCR Protection active
Engine 3549 Humidity Sensor Signal Ratio failure -Signal Ratio above Limit
Engine 3550 Humidity Sensor Signal Ratio failure -Signal Ratio below Limit
Engine 3555 CAN Message timeout SCR2 (from DCU)-CAN timeout
Engine 3557 Info: Humidity Sensor possibly saturated with water droplets -Signal Ratio above Limit
Engine 3558 Info: Humidity Sensor possibly saturated with water droplets -Signal Ratio below Limit
Engine 3561 NOx value not plausible (After treatment plausibility)
Engine 3565 Urea quality and urea warning level 1
Engine 3569 urea quality and urea warning level 2
Engine 3573 urea quality and urea warning level 3
Engine 3577 DM1DCU SPN1 message -Error in DCU active
Engine 3581 Performance limit active due to either stage -Performance Limitation active
EHR 4135 Rear Remote No.3 -Spool Deflection Excessive
EHR 4136 Rear Remote No.3 -Open Center Position Not Reached
EHR 4137 Rear Remote No.3 -Manual Operation
EHR 4138 Rear Remote No.3 -Output Stage Faulty
EHR 4139 Rear Remote No.3 -Position Transducer Faulty
EHR 4140 Rear Remote No.3 -Spool Cannot be Brought Back to Neutral
EHR 4141 Rear Remote No.3 -Spool Not in Neutral When Switched On
EHR 4142 Rear Remote No.4 -No EHR Control Messages
EHR 4143 Rear Remote No.4 -Implausible EHR Control Messages
EHR 4144 Rear Remote No.4 -Checksum Verification Failure
EHR 4145 Rear Remote No.4 -Neutral Set point
EHR 4146 Rear Remote No.4 -Under Voltage
EHR 4147 Rear Remote No.4 -Over Voltage
EHR 4148 Rear Remote No.4 -Spool Deflection Too Short
EHR 4149 Rear Remote No.4 -Spool Deflection Excessive
EHR 4150 Rear Remote No.4 -Open Center Position Not Reached
EHR 4151 Rear Remote No.4 -Manual Operation
EHR 4152 Rear Remote No.4 -Output Stage Faulty
EHR 4153 Rear Remote No.4 -Position Transducer Faulty
EHR 4154 Rear Remote No.4 -Spool Cannot be Brought Back to Neutral
EHR 4155 Rear Remote No.4 -Spool Not in Neutral When Switched On
EHR 4156 Rear Remote No.5 -No EHR Control Messages
EHR 4157 Rear Remote No.5 -Implausible EHR Control Messages
EHR 4158 Rear Remote No.5 -Checksum Verification Failure
EHR 4159 Rear Remote No.5 -Neutral Set point
EHR 4160 Rear Remote No.5 -Under Voltage
EHR 4161 Rear Remote No.5 _Over Voltage
EHR 4162 Rear Remote No.5 -Spool Deflection Too Short
EHR 4163 Rear Remote No.5 -Spool Deflection Excessive
EHR 4164 Rear Remote No.5 -Open Center Position Not Reached
EHR 4165 Rear Remote No.5 -Manual Operation
EHR 4166 Rear Remote No.5 -Output Stage Faulty
EHR 4167 Rear Remote No.5 -Position Transducer Faulty
EHR 4168 Rear Remote No.5 -Spool Cannot be Brought Back to Neutral
EHR 4169 Rear Remote No.5 -Spool Not in Neutral When Switched On
EHR 4170 Rear Remote No.1 _Lever Not Calibrated
EHR 4173 Rear Remote No.2 -Lever Not Calibrated
EHR 4177 Rear Remote No.3 -Lever Not Calibrated
EHR 4180 Rear Remote No.4 -Lever Not Calibrated
EHR 4190 EHR 1 Offline Err
EHR 4191 EHR 2 Offline Err
EHR 4192 EHR 3 Offline Err
EHR 4193 EHR 4 Offline Err
EHR 4198 EHR 5 Offline Err
EHR 4216 Rear Remote No.1 -Valve Spool Not Calibrated
EHR 4217 Rear Remote No.2 -Valve Spool Not Calibrated
EHR 4218 Rear Remote No.3 -Valve Spool Not Calibrated
EHR 4219 Rear Remote No.4 -Valve Spool Not Calibrated
EHR 4220 Rear Remote No.5 -Valve Spool Not Calibrated
EHR 4301 Rear Remote No.6 -No EHR Control Messages
EHR 4302 Rear Remote No.6 -Implausible EHR Control Messages
EHR 4303 Rear Remote No.6 -Checksum Verification Failure
EHR 4304 Rear Remote No.6 -Neutral Set point
EHR 4305 Rear Remote No.6 -Under Voltage
EHR 4306 Rear Remote No.6 -Over Voltage
EHR 4307 Rear Remote No.6 -Spool Deflection Too Short
EHR 4308 Rear Remote No.6 -Spool Deflection Excessive
EHR 4309 Rear Remote No.6 -Open Center Position Not Reached
EHR 4310 Rear Remote No.6 -Manual Operation
EHR 4311 Rear Remote No.6 -Output Stage Faulty
EHR 4312 Rear Remote No.6 -Position Transducer Faulty
EHR 4313 Rear Remote No.6 -Spool Cannot be Brought Back to Neutral
EHR 4314 Rear Remote No.6 -Spool Not in Neutral When Switched On
EHR 4315 Rear Remote No.7 -No EHR Control Messages
EHR 4316 Rear Remote No.7 -Implausible EHR Control Messages
EHR 4317 Rear Remote No.7 -Checksum Verification Failure
EHR 4318 Rear Remote No.7 -Neutral Set point
EHR 4319 Rear Remote No.7 -Under Voltage
EHR 4320 Rear Remote No.7 -Over Voltage
EHR 4321 Rear Remote No.7 -Spool Deflection Too Short
EHR 4322 Rear Remote No.7 -Spool Deflection Excessive
EHR 4323 Rear Remote No.7 -Open Center Position Not Reached
EHR 4324 Rear Remote No.7 -Manual Operation
EHR 4325 Rear Remote No.7 -Output Stage Faulty
EHR 4326 Rear Remote No.7 -Position Transducer Faulty
EHR 4327 Rear Remote No.7 -Spool Cannot be Brought Back to Neutral
EHR 4328 Rear Remote No.7 -Spool Not in Neutral When Switched On
EHR 4329 Rear Remote No.8 -No EHR Control Messages
EHR 4330 Rear Remote No.8 -Implausible EHR Control Messages
EHR 4331 Rear Remote No.8 -Checksum Verification Failure
EHR 4332 Rear Remote No.8 -Neutral Set point
EHR 4333 Rear Remote No.8 -Under Voltage
EHR 4334 Rear Remote No.8 -Over Voltage
EHR 4335 Rear Remote No.8 -Spool Deflection Too Short
EHR 4336 Rear Remote No.8 -Spool Deflection Excessive
EHR 4337 Rear Remote No.8 -Open Center Position Not Reached
EHR 4338 Rear Remote No.8 -Manual Operation
EHR 4339 Rear Remote No.8 -Output Stage Faulty
EHR 4330 Rear Remote No.8 -Position Transducer Faulty
EHR 4341 Rear Remote No.8 -Spool Cannot be Brought Back to Neutral
EHR 4342 Rear Remote No.8 -Spool Not in Neutral When Switched On
EHR 4343 Rear Remote No.5 -Lever Not Calibrated
EHR 4344 Rear Remote No.6 -Lever Not Calibrated
EHR 4345 Rear Remote No.7 -Lever Not Calibrated
EHR 4346 Rear Remote No.8 -Lever Not Calibrated
EHR 4347 EHR 6 Offline Err
EHR 4348 EHR 7 Offline Err
EHR 4349 EHR 8 Offline Err
EHR 4350 Rear Remote No.6 -Valve Spool Not Calibrated
EHR 4351 Rear Remote No.7 -Valve Spool Not Calibrated
EHR 4352 Rear Remote No.8 -Valve Spool Not Calibrated
EHR 4353 EHR FB 1High Err
EHR 4354 EHR FB 1 Low Err
EHR 4355 EHR FB 3 High Err
EHR 4356 EHR FB 3 Low Err
EHR 4357 EHR Implement Lower Error
EHR 4358 EHR Implement Raise Error
Rear PTO 5001 PTO cab switch, or Auto PTO switch, or PTO remote fender switch is on during tractor power up.
Rear PTO 5002 PTO switch interlock
Rear PTO 5003 Auto PTO switch data is set to the error state(CCH Only)
Rear PTO 5004 Auto PTO switch stuck on condition(CCH Only)
Rear PTO 5005 PTO remote fender switch short(CCH Only)
Rear PTO 5006 PTO remote fender switch open(CCH Only)
Rear PTO 5007 PTO remote fender switch stuck on(CCH Only)
Rear PTO 5008 Both PTO On and Off switches are simultaneously on. One of the PTO switches is short to 12 volts.
Rear PTO 5009 PTO solenoid open circuit or shorted to ground or AD12vs2 voltage is low.
Rear PTO 5010 PTO solenoid circuit shorted to B+ when PTO is in the off state.
Rear PTO 5011 Driver is on and no current is sensed.
Rear PTO 5012 PTO clutch is slipping excessively for the duration of 5 seconds or longer.
Rear PTO 5013 Engine speed is too low for the PTO to be in the ïonà state.
Rear PTO 5014 PTO is commanded off but the PTO speed greater than zero.
Rear PTO 5015 The software has not detected PTO shaft speed for greater than 3 seconds since the PTO initial fill vale was commanded
Rear PTO 5016 PTO speed is detected when the PTO is in the off state without engine RPM.
Rear PTO 5017 PTO clutch did not lock up after 6 seconds of clutch motion.
Rear PTO 5018 PTO speed sensors wiring swapped (CCH Only)
Rear PTO 5019 PTO is configured as a two speed and no shaft size frequency was detected when the PTO was switched on. (CCH Only)
Rear PTO 5020 PTO is configured as a single speed and the shaft size frequency was detected when the PTO was switched on. Shaft size frequency input is only used for two speeds PTO.(CCH Only)
Rear PTO 5021 Auto PTO disabled(CCH Only)
Rear PTO 5022 PTO switch is in the on position when the engine is off.
Rear PTO 5023 PTO clutch lube solenoid circuit shorted to B+ when PTO is in the off state.(4WD Only)
Rear PTO 5024 PTO clutch lube solenoid open circuit or shorted to ground or +12 VF3 voltage is low.(4WD Only)
Rear PTO 5025 Rear PTO
Rear PTO 5027 Low side of PTO solenoid connected permanently to GND
Rear PTO 5028 Clutch speed sensor open or short to Vbat
Rear PTO 5029 Clutch speed sensor short to GND
Rear PTO 5030 Shaft size speed sensor open or short to Vbat(CCH Only)
Rear PTO 5031 Shaft size speed sensor short to GND(CCH Only)
Rear PTO 5032 12VF3voltage supply is low. (possible blown fuse*)
MFD/Diff Lock 6001 MFD (CCH) or Front Diff Lock (4WD) solenoid failed. Possible Failure modes: 1. Solenoid coil failed 2. Damaged wiring 3. Loose connector or bent pin 4. TCU Internal failure
MFD/Diff Lock 6002 Rear Diff Lock solenoid failed. Possible Failure modes: 1. Diff Lock solenoid coil failed 2. Damaged wiring 3. Loose connector or bent pin 4. TCU Internal failure
MFD/Diff Lock 6003 Brake light relay fault. 1. Short to 12 volts 2. Open circuit or short to ground.
MFD/Diff Lock 6004 CAN-BUS indicating Rear Diff Lock Switch failed in the armrest. Possible failure modes: 1. Rear Diff Lock Switch failed in Armrest2. Auto Diff Lock Switch failed in Armrest
(CCH Only) 3. Communication problems between the TCU controller and the Armrest controller
MFD/Diff Lock 6005 Rear Differential Lock and Auto Differential Lock (Only CCH):1. Diff Lock On and Auto Diff Lock switches are both active
MFD/Diff Lock 6006 CAN-BUS indicating MFD (CCH) or Front Diff Lock (4WD)Switch failed in the armrest. Possible failure modes: 1. MFD (CCH) or Front Diff Lock (4WD)failed in Armrest2. Auto MFD
Switch failed in Armrest, (CCH). 3. Communication problems between the TCU controller and the Armrest
MFD/Diff Lock 6007 Both MFD and Auto MFD switches active fault
MFD/Diff Lock 6008 Steering angle sensor above maximum voltage limit.
MFD/Diff Lock 6009 Steering angle sensor below minimum voltage limit.
MFD/Diff Lock 6010 12VS1voltage supply is low. (possible blown fuse*)
MFD/Diff Lock 6011 12VS2 voltage supply is low. (possible blown fuse*)
Front PTO 8001 Front PTO cab switch is on during tractor power up.
Front PTO 8002 Front PTO cab switch open
Front PTO 8003 Front PTO cab switch short
Front PTO 8004 Front PTO solenoid open circuit or shorted to ground or AD12VU2 voltage is low.
Front PTO 8005 Front PTO solenoid circuit shorted to B+ when Front PTO is in the off state.
Front PTO 8006 Low side driver is stuck on and no current is sensed.
Front PTO 8007 Front PTO switch is in the on position when the engine is off.
Front PTO 8010 12VU2voltage supply is low. (possible blown fuse*)
Front Suspension 10001 Front suspension Pump Not tank Valve solenoid is open circuit or shorted to ground
Front Suspension 10002 Front suspension rod Side Valve solenoid is open circuit or shorted to ground
Front Suspension 10003 Front suspension piston Side Valve solenoid is open circuit or shorted to ground
Front Suspension 10004 Front Suspension Position sensor out of Range High Error
Front Suspension 10005 Front Suspension Position sensor out of Range Low Error
Front Suspension 10006 Front suspension will not raise error
Front Suspension 10007 Front Suspension will not Lower error
Front Suspension 10008 Front Suspension Piston Pressure transducer range high error
Front Suspension 10009 Front Suspension Piston Pressure transducer range lower error
Front Suspension 10010 Front Suspension Rod Pressure transducer range high error
Front Suspension 10011 Front Suspension Rod Pressure transducer range lower error
Front Suspension 10012 Front suspension Rod side pressure will not raise error
Front Suspension 10013 Front suspension piston side pressure will not raise error
Front Suspension 10014 Front Suspension Not calibrated error
Front Suspension 10015 Front suspension Lock Valve Solenoid is open circuit or is shorted to ground.
Front Suspension 10016 FSUS_ENABLE_SW_ERR 10016
Front Suspension 10017 FSUS_ENABLE_SW_NA_ERR10017
Front Suspension 10018 Front Suspension Pump not tank Solenoid over current
Front Suspension 10019 Front Suspension rod Side Solenoid over current
Front Suspension 10020 Front Suspension piston Solenoid over current
Front Suspension 10021 Front Suspension lock out Solenoid over current
Front Suspension 10022 12VM voltage supply is low. (possible blown fuse*)
Front Suspension 10023 12VF3 voltage supply is low. (possible blown fuse*)
Front Suspension 10024 12VF1 voltage supply is low. (possible blown fuse*)
ICU 14002 Trans oil filter switch closed to ground on power up.
ICU 14003 Hyd oil filter switch closed to ground on power up.
ICU 14005 PTO shaft speed data is _ERROR_ or _NOT AVAILABLE_ state from PTO.
ICU 14006 GOV ENGINE speed data is _ERROR_ or _NOT AVAILABLE_ state from GOV.
ICU 14007 Engine Over speeding
ICU 14008 ENGINE oil pressure data is _ERROR_ or _NOT AVAILABLE_ state from GOV.
ICU 14009 Loss of valid ENGINE Hours
ICU 14010 PTO controller off line
ICU 14011 Communications Lost with Vehicle Data Bus 1 and ALL other controllers
ICU 14013 TRANSMISSION Off Line
ICU 14014 ENGINE coolant temperature data is _ERROR_ or _NOT AVAILABLE_ state from GOV.
ICU 14015 Engine Intake Air Temperature data is _ERROR|| or _NOT AVAILABLE|| state from GOV.
ICU 14016 Engine shutdown activated
ICU 14017 Fuel Level Sensor voltage out of range low.
ICU 14018 GOV Off Line
ICU 14019 ATC Off Line
Armrest 18001 Hand throttle #1 -voltage too low (New Holland Only)
Armrest 18002 Hand throttle #1 -voltage too high (New Holland Only)
Armrest 18003 Hand throttle #2 -voltage too low
Armrest 18004 Hand throttle #2 -voltage too high
Armrest 18005 Engine droop control -voltage too low
Armrest 18006 Engine droop control -voltage too high
Armrest 18007 Multi-function handle -switch error
Armrest 18008 Multi-function handle -voltage too low
Armrest 18009 Multi-function handle -voltage too high
Armrest 18010 Powershift throttle -voltage too low (Case IH)
Armrest 18011 Powershift throttle -voltage too high (Case IH)
Armrest 18012 CVT mode switch error
Armrest 18013 Multi-function handle -encoder position error
Armrest 18014 Rear hitch position control potentiometer -voltage too low
Armrest 18015 Rear hitch position control potentiometer -voltage too high
Armrest 18016 Rear hitch draft control potentiometer -voltage too low
Armrest 18017 Rear hitch draft control potentiometer -voltage too high
Armrest 18018 Rear hitch height limit potentiometer -voltage too low
Armrest 18019 Rear hitch height limit potentiometer -voltage too high
Armrest 18020 Rear hitch drop rate potentiometer -voltage too low
Armrest 18021 Rear hitch drop rate potentiometer -voltage too high
Armrest 18022 Rear hitch sensitivity control potentiometer -voltage too low
Armrest 18023 Rear hitch sensitivity control potentiometer -voltage too high
Armrest 18024 EHR flow encoder position error
Armrest 18025 Rear hitch slip control potentiometer -voltage too low
Armrest 18026 Rear hitch slip control potentiometer -voltage too high
Armrest 18027 EHR 5 lever position -voltage too low (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18028 EHR 5 lever position -voltage too high (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18029 EHR 6 lever position -voltage too low (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18030 EHR 6 lever position -voltage too high (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18031 Front hitch position / pressure control potentiometer -voltage too high
Armrest 18032 Front hitch position / pressure control potentiometer -voltage too low
Armrest 18033 Front hitch position / pressure mix potentiometer -voltage too high
Armrest 18034 Front hitch position / pressure mix potentiometer -voltage too low
Armrest 18035 Front hitch position height limit potentiometer -voltage too high
Armrest 18036 Front hitch position height limit potentiometer -voltage too low
Armrest 18037 Front hitch height limit enable switch error
Armrest 18038 Front hitch position drop rate potentiometer -voltage too high
Armrest 18039 Front hitch position drop rate potentiometer -voltage too low
Armrest 18040 EHR 1 lever position -voltage too low
Armrest 18041 EHR 1 lever position -voltage too high
Armrest 18042 EHR 2 lever position -voltage too low
Armrest 18043 EHR 2 lever position -voltage too high
Armrest 18044 EHR 3 lever position -voltage too low
Armrest 18045 EHR 3 lever position -voltage too high
Armrest 18046 EHR float control switch error
Armrest 18047 EHR 4 lever position -voltage too low
Armrest 18048 EHR 4 lever position -voltage too high
Armrest 18049 Joystick 1 X-axis position -voltage too low
Armrest 18050 Joystick 1 X-axis position -voltage too high
Armrest 18051 Joystick 1 Y-axis position -voltage too low
Armrest 18052 Joystick 1 Y-axis position -voltage too high
Armrest 18053 Joystick 1 proportional rocker switch -voltage too low
Armrest 18054 Joystick 1 proportional rocker switch -voltage too high
Armrest 18055 Joystick 2 X-axis position -voltage too low (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18056 Joystick 2 X-axis position -voltage too high (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18057 Joystick 2 Y-axis position -voltage too low (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18058 Joystick 2 Y-axis position -voltage too high (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18059 Joystick 2 proportional rocker switch -voltage too low (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18060 Joystick 2 proportional rocker switch -voltage too high (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18061 Reference voltage _short circuit to 0V
Armrest 18062 Reference voltage _short circuit to 12V
Armrest 18063 EEPROM fault
Armrest 18064 MFH communication error
Armrest 18065 MFH basic assurance test error
Armrest 18066 EHR 1 lever implausibility error
Armrest 18067 EHR 2 lever implausibility error
Armrest 18068 EHR 3 lever implausibility error
Armrest 18069 EHR 4 lever implausibility error
Armrest 18070 EHR 5 lever implausibility error (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18071 EHR 6 lever implausibility error (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18072 EDC mouse raise/work switch fault (NH Only)
DCU 19001 Battery voltage sensing (electrical) _signal high _P0563 Battery voltage evaluation above upper limit
DCU 19002 Battery voltage sensing (electrical) |signal low |P0562 Battery voltage evaluation below lower limit
DCU 19010 Temperature sensor after catalyst (electrical) _signal high _P042D Catalyst Temperature Sensor Circuit High
DCU 19011 Temperature sensor after catalyst (electrical) |signal low |P042C Catalyst Temperature Sensor Circuit Low
DCU 19019 Temperature sensor before catalyst (electrical) _signal high _P0428 Catalyst Temperature Sensor Circuit High
DCU 19020 Temperature sensor before catalyst (electrical) |signal low |P0427 Catalyst Temperature Sensor Circuit Low
DCU 19037 Sensor supply 2 (5V internal; for UREA pressure sensors) _Supply Voltage too high _P204D Reagent -pressure sensor -short circuit high
DCU 19038 Sensor supply 2 (5V internal; for UREA pressure sensors) |Supply voltage too low |P204C Reagent -pressure sensor -short circuit low
DCU 19046 UREA pressure sensor in box (electrical) |supply voltage error |P204A Reagent -pressure sensor -open circuit
DCU 19047 UREA pressure sensor in box (electrical) _signal high _P204D Reagent -pressure sensor -short circuit high
DCU 19048 UREA pressure sensor in box (electrical) |signal low |P204C Reagent -pressure sensor -short circuit low
DCU 19055 UREA Temperature sensor in box (electrical) _high signal _P2045 Reagent -temperature sensor of pump module -short circuit high
DCU 19056 UREA Temperature sensor in box (electrical) |signal low |P2044 Reagent -temperature sensor of pump module -short circuit low
DCU 19064 Voltage supply internal heaters 1 (UB1) electrical |Open circuit to UB1 |P20C5 Pump module — Internal heating -open circuit
DCU 19065 Voltage supply internal heaters 1 (UB1) electrical |Short to bat at UB1 with Key 15 off |P20C8 Pump module -Internal heating -short circuit high
DCU 19073 Voltage supply 2 -tube heaters (UB2) electrical |Short to bat at UB2 with Key 15 off |P20C4 Reagent -suction tube heating -short circuit high
DCU 19074 Voltage supply 2 -tube heaters (UB2) electrical |Open circuit to UB2 |P20C1 Reagent -suction tube heating -open circuit
DCU 19075 Voltage supply 2 -tube heaters (UB2) electrical |Short circuit to Ground UB2 |P20C3 Reagent — suction tube heating -short circuit low
DCU 19082 Voltage supply 3 -Coolant control valve and reverting valve (UB3) electrical |Short to bat at UB3 with Key 15 off |P20A3 Vent valve (Reductant Purge Control Valve) -short circuit high
DCU 19083 Voltage supply 3 -Coolant control valve and reverting valve (UB3) electrical |Open circuit to UB3 |P20A0 Vent valve (Reductant Purge Control Valve) -open circuit
DCU 19084 Voltage supply 3 -Coolant control valve and reverting valve (UB3) electrical |Short circuit to Ground UB3 |P20A2 Vent valve (Reductant Purge Control Valve) -short circuit low
DCU 19091 Monitoring VDD11 voltage -Dosing valve |supply voltage low |P0658 12 Volt supply for dosing module -below lower limit
DCU 19092 Monitoring VDD11 voltage-Dosing valve _supply voltage high _P0659 12 Volt supply for dosing module -above upper limit
DCU 19100 UREA level sensor (electrical) |supply voltage error |P203E Reductant Level Sensor -Circuit Intermittent/Erratic
DCU 19101 UREA level sensor (electrical) _signal high _P203D Reagent -tank level sensor -short circuit high
DCU 19102 UREA level sensor (electrical) |signal low |P203C Reagent -tank level sensor -short circuit low
DCU 19109 UREA Temperature sensor in Tank (electrical) _signal high _P205D Reagent -tank temperature sensor (temperature of the Reagent -solution in the tank) -short circuit high
DCU 19110 UREA Temperature sensor in Tank (electrical) |signal low |P205C Reagent -tank temperature sensor (temperature of the Reagent -solution in the tank) -short circuit low
DCU 19145 Dosing Valve (electrical) |short circuit to batt + |P2049 Reductant Injector -circuit high
DCU 19146 Dosing Valve (electrical) |short circuit to ground |P2048 Reductant Injector -circuit low
DCU 18147 Dosing Valve (electrical) |open load |P2047 Reductant Injector -circuit open
DCU 19148 Dosing Valve (electrical) |Dosing valve permanent ñONî (detection via fast decay) |P209B Reagent-dosing nozzle pressure too high
DCU 19154 UREA Pump speed |pump motor unplugged |P208B Reagent-pump not delivering
DCU 19155 UREA Pump speed _pump motor blocked _P208A Reagent-pump
DCU 19156 UREA Pump speed |pump overspeed |P208D Reagent-pump over speed
DCU 19157 UREA Pump speed |Hall sensors defect |P208B Reagent-pump not delivering
DCU 19163 Cooling control valve short circuit to UBat or open load |short circuit to battery |P20A3 Vent valve (Reductant Purge Control Valve) -short circuit high
DCU 19164 Cooling control valve short circuit to UBat or open load |Open load |P20A0 Vent valve (Reductant Purge Control Valve) -open circuit
DCU 19172 Cooling control valve short circuit to ground |short circuit to ground |P20A2 Vent valve (Reductant Purge Control Valve) -short circuit low
DCU 19181 Reverting valve (4-2way valve?) electrically |Short circuit to battery |P20A3 Vent valve (Reductant Purge Control Valve) -short circuit high
DCU 19182 Reverting valve (4-2way valve?) electrically |Short circuit to ground |P20A2 Vent valve (Reductant Purge Control Valve) -short circuit low
DCU 19183 Reverting valve (4-2way valve?) electrically |Open load |P20A0 Vent valve (Reductant Purge Control Valve) -open circuit
DCU 19262 Tank heating Valve |Short circuit to battery |P20B4 Reagent -tank heating valve -short circuit high
DCU 19263 Tank heating Valve |Short circuit to ground |P20B3 Reagent -tank heating valve -short circuit low
DCU 19264 Tank heating Valve |Open load |P20B1 Reagent -tank heating valve -open circuit
DCU 19289 Temperature after catalyst too low |Downstream catalyst temp -physical (Catalyst heating time failed) |P042B Catalyst Temperature Sensor Circuit Range/Performance
DCU 19298 UREA pressure too low at system start |UREA pressure too low at system start |P208B Reagent pump not delivering
DCU 19307 UREA pressure too high |Urea pressure not plausible (urea pressure too high) |P204B Reagent -pressure above threshold
DCU 19316 UREA Temperature in Pump Module out of range |Urea temperature box -physical (Urea Box Temp NOT OK: outside range) |P2043 Reagent-temperature sensor of pump module out of range
DCU 19325 UREA Temperature in Tank out of range |Urea temperature tank -physical (Urea Tank Temp NOT OK: outside range) |P205B Reagent -tank temperature sensor (temperature of the Reagent
-solution in the tank) out of range
DCU 19334 System frozen and not free in time _Defreezing Mode and Detection Errors (Inlet line defreezing failed) _P20C2 Reagent -suction tube heating -detection mode of heating
DCU 19335 System frozen and not free in time |Defreezing Mode and Detection Errors (pressure line defreezing failed) |P20BE Reagent -pressure tube heating -detection mode of heating
DCU 19336 System frozen and not free in time |Defreezing Mode and Detection Errors (pressure build-up in detection mode failed)|P20C5 Pump module -Internal heating -open circuit
DCU 19337 System frozen and not free in time |Defreezing Mode and Detection Errors (Back-flow line defreezing failed) |P20B9 Reagent -backflow tube heating -open circuit
DCU 19343 Coolant control valve mechanically |mechanical defective blocked open |P20A3 Vent valve (Reductant Purge Control Valve) -short circuit high
DCU 19344 Coolant control valve mechanically _mechanical defective blocked closed _P20A0 Vent valve (Reductant Purge Control Valve) -open circuit
DCU 19352 Reverting valve (4-2way valve?) mechanically |valve does not open |P20A0 Vent valve (Reductant Purge Control Valve) -open circuit
DCU 19361 Battery Voltage (actual value) |High battery voltage |P0562 Battery voltage evaluation -below lower limit
DCU 19362 Battery Voltage (actual value) _Low battery voltage _P0563 Battery voltage evaluation -above upper limit
DCU 19370 UREA pressure too low (in ñcommissioningî status) |Pump motor error during commissioning (pump not delivering) |P208B Reagent-pump not delivering
DCU 19379 UREA Temperature too low during commissioning |Temperatures not plausible during commissioning.
DCU 19415 Empty UREA Tank _urea tank empty _P203F Reagent -fluid level in tank -too low
DCU 19532 Back flow line clogged |P2063 Reagent -dosing valve -short circuit low
DCU 19541 Coolant control valve mechanically |Blocked closed |P20A1 Vent valve test plausibility test (startup)
DCU 19550 Pressure line blocked |pressure line blocked |P209B Reagent -dosing nozzle -pressure too high
DCU 19559 Low UREA level 1 (warning) -UREA level below Limit 1 -P203F Reagent -fluid level in tank -too low
DCU 19568 Low UREA level 2 (warning) -UREA level below Limit 2 -P203F Reagent -fluid level in tank -too low
DCU 19577 CAN receive frame E2SCR (Dosing, Exh gas flow, Exh gas temp, Error Suppression, Heater, Long Term failure) |SAE J1939 Check for CAN receive signal : (UREA quantity not in range)
|P0600
DCU 19578 CAN receive frame E2SCR (Dosing, Exh gas flow, Exh gas temp, Error Suppression, Heater, Long Term failure) |SAE J1939 Check for CAN receive signal : (Dosing status not in range)
|P0600 Serial Communication Link
DCU 19579 CAN receive frame E2SCR (Dosing, Exh gas flow, Exh gas temp, Error Suppression, Heater, Long Term failure) _timeout _P0600 Serial Communication Link
DCU 19580 CAN receive frame E2SCR (Dosing, Exh gas flow, Exh gas temp, Error Suppression, Heater, Long Term failure) |too many CAN messages |P0600 Serial Communication Link
DCU 19581 CAN receive frame E2SCR (Dosing, Exh gas flow, Exh gas temp, Error Suppression, Heater, Long Term failure) _SAE J1939 Check for CAN receive signal _P0600 Serial Communication Link
DCU 19595 CAN receive frame EEC1 (Driver demand, eng speed, eng torque) |SAE J1939 Check for CAN receive signal : (Engine torque not in range) |P0600 Serial Communication Link
DCU 19596 CAN receive frame EEC1 (Driver demand, eng speed, eng torque) |SAE J1939 Check for CAN receive signal : (Engine speed not in range) |P0600 Serial Communication Link
DCU 19597 CAN receive frame EEC1 (Driver demand, eng speed, eng torque) _timeout _P0600 Serial Communication Link
DCU 19598 CAN receive frame EEC1 (Driver demand, eng speed, eng torque) |too many CAN messages _ ïP0600 Serial Communication Link
DCU 19599 CAN receive frame EEC1 (Driver demand, eng speed, eng torque) |SAE J1939 Check for CAN receive signal : (Torque driver demand not in range) |P0600 Serial Communication Link
DCU 19604 CAN receive frame ET1 (Oil and Water temp engine) |SAE J1939 Check for CAN receive signal : (Oil temperature not in range) |P0600 Serial Communication Link
DCU 19605 CAN receive frame ET1 (Oil and Water temp engine) _timeout _P0600 Serial Communication Link
DCU 19606 CAN receive frame ET1 (Oil and Water temp engine) |too many CAN messages |P0600 Serial Communication Link
DCU 19607 CAN receive frame ET1 (Oil and Water temp engine) |SAE J1939 Check for CAN receive signal : (Water temperature not in range) |P0600 Serial Communication Link
DCU 19649 UREA Tank level error (CAN message or electrical with real sensor) |Level over CAN: SAE J1939 no Signal available Level sensor connected directly: Sensor Supply error |P203A Reagent
-tank level sensor -open circuit
DCU 19650 UREA Tank level error (CAN message or electrical with real sensor) _Level over CAN: SAE J1939 Signal Not in Range Level sensor connected directly: SRC high _P203D Reagent -tank level
sensor -short circuit high
DCU 19651 UREA Tank level error (CAN message or electrical with real sensor) |Level over CAN: SAE J1939 Erroneous Signal Level sensor connected directly: SRC low |P203C Reagent -tank level
sensor — short circuit low
DCU 19676 Ambient Temperature: SAE J1939 Check for CAN receive signal : (Signal Range Check: Signal not in range / Erroneous Signal / Signal not available) |SAE J1939 Check for CAN receive
signal : (Ambient air temperature not in range) |P0600 Serial Communication Link
DCU 19677 Ambient Temperature: SAE J1939 Check for CAN receive signal : (Signal Range Check: Signal not in range / Erroneous Signal / Signal not available) _timeout _P0071 Ambient Air Temperature
Sensor Range/Performance
DCU 19678 Ambient Temperature: SAE J1939 Check for CAN receive signal : (Signal Range Check: Signal notin range / Erroneous Signal / Signal not available) |too many CAN messages |P0071 Ambient
Air Temperature Sensor Range/Performance
DCU 19679 Ambient Temperature: SAE J1939 Check for CAN receive signal : (Signal Range Check: Signal not in range / Erroneous Signal / Signal not available) |SAE J1939 Check for CAN receive
signal : (Barometric pressure not in range) |P0071 Ambient Air Temperature Sensor Range/Performance
DCU 19721 EEPROM / Checksum failures |EEPROM write error |P062F Internal Control Module EEPROM Error
DCU 19722 EEPROM / Checksum failures |No corresponding variant number error |P062F Internal Control Module EEPROM Error
DCU 19723 EEPROM / Checksum failures |EEPROM communication error |P062F Internal Control Module EEPROM Error
DCU 19724 EEPROM / Checksum failures _EEPROM Detection error OR A Codierwort error |P062F Internal Control Module EEPROM Error
DCU 19725 EEPROM / Checksum failures |Wrong EEPROM size |P062F Internal Control Module EEPROM Error
DCU 19730 Ignition ñonî signal K15 |digital input ignition ON not sensed during initialization |P2530 Ignition switch -plausibility error
DCU 19739 Main Relay opens too early / too late |main relay shut off too late |P0687 ECM/PCM Power Relay Control Circuit High
DCU 19740 Main Relay opens too early / too late |main relay short circuit |P0685 ECM/PCM Power Relay Control Circuit /Open
DCU 19741 Main Relay opens too early / too late |main relay open circuit |P0687 ECM/PCM Power Relay Control Circuit High
DCU 19742 Main Relay opens too early / too late _main relay shut off too early (before EEPROM update) _ P0685 ECM/PCM Power Relay Control Circuit /Open
DCU 19748 Too high UREA Temperature in Pump module or Leakage test failed (Emergency shut off) _over temperature detection (urea temp. in pump module) _P2043 Reagent -temperature sensor of pump
module -Out of range
DCU 19749 Too high UREA Temperature in Pump module or Leakage test failed (Emergency shut off) |urea leakage detection (static or dynamic) |P202D Dynamic urea leakage test -Leakage detected
DCU 19757 Group error path UREA injection control _Error belonging to group UREA Injection control _ P208B Reagent-pump -Not delivering
DCU 19766 Group error path Air control _Error belonging to group air control _P20A7 Compressed air regulation valve
DCU 19775 Group error path catalyst temperature _Error belonging to group catalyst temperature out of range _P0426 Plausibility of catalyst temperature sensors -Plausibility error (static)
DCU 19784 Group error path NOx exceeded _Error belonging to group NOx exceeded active _P2000 Nox Trap Efficiency Below Threshold
DCU 19793 Group error path UREA Tank empty _Error belonging to group UREA tank empty active _P203F Reagent -fluid level in tank -Too low
DCU 19999 Unknown DCU15 fault code
NEW HOLLAND ERROR CODES
NH 1002 Radar disconnected
NH 1003 Speed sensor error
NH 1004 Speed sensor signal too High
NH 1005 Speed sensor signal too High
NH 1006 Slip control potentiometer signal too low
NH 1007 Slip control potentiometer signal too High
NH 1008 Raise / work switch failure
NH 1009 Both external switches operated at the same time
NH 1010 Height limit potentiometer signal too low
NH 1011 Height limit potentiometer signal too high
NH 1012 Drop rate potentiometer signal too low
NH 1013 Drop rate potentiometer signal too high
NH 1014 R/H load sensing pin signal too low
NH 1015 R/H load sensing pin signal too high
NH 1016 L/H load sensing pin signal too low
NH 1017 L/H load sensing pin signal too high
NH 1018 Both load sensing pin disconnected
NH 1019 Load sensing pin voltage too low
NH 1020 Load sensing pin voltage too high
NH 1021 Position / draft control potentiometer too low
NH 1022 Position / draft control potentiometer too high
NH 1023 Control panel disconnected
NH 1024 Perform Hydraulic Lift Autocalibration
NH 1025 Mouse lift lever potentiometer signal too low
NH 1026 Mouse lift lever potentiometer signal too high
NH 1027 Maximum Lift arm position potentiometer too low
NH 1028 Maximum Lift arm position potentiometer too high
NH 1029 Hydraulic Control valve disconnected
NH 1030 Ground signal open circuit ( not used )
NH 1031 Chassis Harness Disconnected
NH 1032 Draft Load potentiometer shorted to +12v
NH 1033 Draft Load potentiometer open circuit
NH 1049 Wheel speed sensor open circuit
NH 1053 5 volt reference Short to +12v
NH 1054 5 volt reference Short to ground.
NH 1057 Module Failure ( not used )
NH 1059 5 volt reference Open circuit ( not used )
NH 1063 Lower solenoid open circuit
NH 1064 Raise solenoid open circuit
NH 1065 lower solenoid short circuit
NH 1066 Raise solenoid short circuit
NH 1067 EDC Hydraulic Valve supply too low
NH 1068 Height limit Calibration Error
NH 2001 ‘N’ — Shuttle too fast error
NH 2002 Flash N error
NH 2003 ‘CP’ — Clutch pedal required
NH 2004 ‘P’ — Handbrake error
NH 2005 Creeper selection error
NH 2011 Clutch Pedal Potentiometer Signal too Low
NH 2012 Clutch Pedal Potentiometer Signal too High
NH 2013 Up and Down buttons at same time
NH 2014 Switch 4 / 5 error ( not used )
NH 2015 HI / LO shift lever switches both closed
NH 2016 Creeper Solenoid Short circuit
NH 2021 Chassis Harness Error
NH 2024 Synchro clutches not calibrated
NH 2026 Engine speed too high
NH 2027 Engine speed too low
NH 2035 Dump solenoid circuit fault
NH 2036 Dump solenoid open circuit
NH 2037 Clutch Pedal switch open circuit
NH 2038 Clutch 4 solenoid short circuit
NH 2039 Clutch 4 solenoid open circuit
NH 2040 Clutch 3 solenoid short circuit
NH 2041 Clutch 3 solenoid open circuit
NH 2042 Clutch 2 solenoid short circuit
NH 2043 Clutch 2 solenoid open circuit
NH 2044 Clutch 1 solenoid short circuit
NH 2045 Clutch 1 solenoid open circuit
NH 2046 Fuse 12 open circuit ( not used )
NH 2047 Clutch pedal switch set too High
NH 2048 Clutch pedal switch set too Low
NH 2049 Wheel speed sensor short or open
NH 2051 Oil temperature sensor open circuit
NH 2052 Oil temperature sensor short circuit
NH 2053 5 Volt Potentiometer Supply too High
NH 2054 5 Volt Potentiometer Supply too Low
NH 2055 No signal from wheel speed sensor
NH 2056 Low Range switch open
NH 2057 High Range switch open
NH 2058 Seat switch closed for 25 hours
NH 2059 Shuttle Lever switch disagree
NH 2060 Synchro Fwd no longer engaged
NH 2061 F/R Synchro Potentiometer signal too high
NH 2062 F/R Synchro Potentiometer signal too low
NH 2063 Synchro not moving to forward
NH 2064 Synchro not moving to reverse
NH 2065 Forward solenoid open circuit
NH 2066 Reverse solenoid open circuit
NH 2067 Forward solenoid circuit fault
NH 2068 Reverse solenoid circuit fault
NH 2069 Synchro reverse no longer engaged
NH 2070 Voltage with lever in forward too high
NH 2071 Voltage with lever in forward too low
NH 2072 Voltage with lever in reverse too high
NH 2073 Voltage with lever in reverse too low
NH 2075 Flywheel Speed Sensor Frequency is too high
NH 2075 Any period is too short, under 400 microseconds
NH 2075 Any short period is longer than the corresponding long period
NH 2075 Damper angle is below 50 degrees or above 85 degrees
NH 2075 Calculated torque exceeds calibrated peak torque by more than 25%
NH 2075 No usable signals from the flywheel sensor, and ERPM is greater than 300
NH 2076 Flywheel Speed Sensor open circuit
NH 2077 Flywheel Speed Sensor short circuit
NH 2080 Synchro 4 no longer engaged
NH 2081 4/5 Synchro Potentiometer signal too high
NH 2082 4/5 Synchro Potentiometer signal too low
NH 2083 Synchro 4 engaged error
NH 2084 Synchro 5 engaged error
NH 2085 Synchro 4 solenoid open circuit
NH 2086 Synchro 5 solenoid open circuit
NH 2087 Synchro 4 solenoid short to 12v
NH 2088 Synchro 5 solenoid short to 12v
NH 2089 Synchro 5 no longer engaged
NH 2090 Output speed too high in creeper
NH 2091 C3 Clutch not calibrated
NH 2092 C4 Clutch not calibrated
NH 2093 High Clutch not calibrated
NH 2094 Low Clutch not calibrated
NH 2095 C1 Clutch not calibrated
NH 2096 C2 Clutch not calibrated
NH 2097 Clutch 5 not calibrated
NH 2098 C5 solenoid short to 12v
NH 2099 C5 open circuit
NH 2100 C5 dump solenoid short to 12v
NH 2101 C5 dump solenoid open circuit
NH 2124 Flywheel Torque Sensor not calibrated
NH 2199 Creeper option not enabled
NH 3001 Accelerator Pedal Signal — NOT PLAUSIBLE
NH 3002 Accelerator Pedal Signal — SOURCE HIGH
NH 3003 Accelerator Pedal Signal — SOURCE LOW
NH 3004 Accelerator Pedal Signal — NO SIGNAL
NH 3005 Accelerator Pedal Signal — ALL OTHER FAULTS
NH 3006 Coolant Temperature Signal — ABOVE NORMAL
NH 3007 Coolant Temperature Signal — SOURCE HIGH
NH 3008 Coolant Temperature Signal — SOURCE LOW
NH 3009 Coolant Temperature Signal — NO SIGNAL
NH 3010 Air (boost) Temperature Signal — SOURCE HIGH
NH 3011 Air (boost) Temperature Signal — SOURCE LOW
NH 3012 Air (boost) Temperature Signal — NO SIGNAL
NH 3014 Fuel Temperature Signal — ABOVE NORMAL
NH 3015 Fuel Temperature Signal — SOURCE HIGH
NH 3016 Fuel Temperature Signal — SOURCE LOW
NH 3017 Fuel Temperature Signal — NO SIGNAL
NH 3018 Boost Pressure Signal — ABOVE NORMAL
NH 3019 Boost Pressure Signal — SOURCE HIGH
NH 3020 Boost Pressure Signal — SOURCE LOW
NH 3021 Boost Pressure Signal — NO SIGNAL
NH 3022 Boost Pressure Signal — ALL OTHER FAULTS
NH 3023 Atmospheric Pressure Signal — ABOVE NORMAL
NH 3024 Atmospheric Pressure Signal — SOURCE HIGH
NH 3025 Atmospheric Pressure Signal — SOURCE LOW
NH 3026 Atmospheric Pressure Signal — NO SIGNAL
NH 3027 Oil Pressure Signal — ABOVE NORMAL
NH 3028 Oil Pressure Signal — BELOW NORMAL
NH 3029 Oil Pressure Signal — SOURCE HIGH
NH 3030 Oil Pressure Signal — SOURCE LOW
NH 3031 Oil Pressure Signal — NO SIGNAL
NH 3032 Oil Pressure Signal — ALL OTHER FAULTS
NH 3033 Oil Temperature Signal — ABOVE NORMAL
NH 3034 Oil Temperature Signal — SOURCE HIGH
NH 3035 Oil Temperature Signal — SOURCE LOW
NH 3036 Oil Temperature Signal — NO SIGNAL
NH 3037 Power stage Fuel filter heater — SOURCE HIGH
NH 3038 Power stage Fuel filter heater — SOURCE LOW
NH 3039 Power stage Fuel filter heater — NO SIGNAL
NH 3040 HS Power stage cold start heater relay — SOURCE HIGH
NH 3041 HS Power stage cold start heater relay — SOURCE LOW
NH 3042 HS Power stage cold start heater relay — NO SIGNAL
NH 3043 Adapt.cylinder balancing Cylinder 1 — SOURCE HIGH
NH 3044 Adapt.cylinder balancing Cylinder 5 — SOURCE HIGH
NH 3045 Adapt.cylinder balancing Cylinder 3 — SOURCE HIGH
NH 3046 Adapt.cylinder balancing Cylinder 6 — SOURCE HIGH
NH 3047 Adapt.cylinder balancing Cylinder 2 — SOURCE HIGH
NH 3048 Adapt.cylinder balancing Cylinder 4 — SOURCE HIGH
NH 3049 Battery voltage signal — ABOVE NORMAL
NH 3050 Battery voltage signal — BELOW NORMAL
NH 3051 Battery voltage signal — SOURCE HIGH
NH 3052 Battery voltage signal — SOURCE LOW
NH 3053 LS Power stage cold start lamp — SOURCE HIGH
NH 3054 LS Power stage cold start lamp — SOURCE LOW
NH 3055 LS Power stage cold start lamp — NO SIGNAL
NH 3056 Cold start heater monitoring — BELOW NORMAL
NH 3057 Cold start heater monitoring — NOT PLAUSIBLE
NH 3058 Cold start heater monitoring — SOURCE LOW
NH 3059 Cold start heater monitoring — NO SIGNAL
NH 3060 Injector solenoid valve Cylinder 1 — NOT PLAUSIBLE
NH 3061 Injector solenoid valve Cylinder 1 — SOURCE HIGH
NH 3062 Injector solenoid valve Cylinder 1 — SOURCE LOW
NH 3063 Injector solenoid valve Cylinder 1 — NO SIGNAL
NH 3064 Injector solenoid valve Cylinder 5 — NOT PLAUSIBLE
NH 3065 Injector solenoid valve Cylinder 5 — SOURCE HIGH
NH 3066 Injector solenoid valve Cylinder 5 — SOURCE LOW
NH 3067 Injector solenoid valve Cylinder 5 — NO SIGNAL
NH 3068 Injector solenoid valve Cylinder 3 — NOT PLAUSIBLE
NH 3069 Injector solenoid valve Cylinder 3 — SOURCE HIGH
NH 3070 Injector solenoid valve Cylinder 3 — SOURCE LOW
NH 3071 Injector solenoid valve Cylinder 3 — NO SIGNAL
NH 3072 Injector solenoid valve Cylinder 6 — NOT PLAUSIBLE
NH 3073 Injector solenoid valve Cylinder 6 — SOURCE HIGH
NH 3074 Injector solenoid valve Cylinder 6 — SOURCE LOW
NH 3075 Injector solenoid valve Cylinder 6 — NO SIGNAL
NH 3076 Injector solenoid valve Cylinder 2 — NOT PLAUSIBLE
NH 3077 Injector solenoid valve Cylinder 2 — SOURCE HIGH
NH 3078 Injector solenoid valve Cylinder 2 — SOURCE LOW
NH 3079 Injector solenoid valve Cylinder 2 — NO SIGNAL
NH 3080 Injector solenoid valve Cylinder 4 — NOT PLAUSIBLE
NH 3081 Injector solenoid valve Cylinder 4 — SOURCE HIGH
NH 3082 Injector solenoid valve Cylinder 4 — SOURCE LOW
NH 3083 Injector solenoid valve Cylinder 4 — NO SIGNAL
NH 3084 Injector Booster Voltage C1 — SOURCE HIGH
NH 3085 Injector Booster Voltage C1 — SOURCE LOW
NH 3086 Injector Booster Voltage C2 — SOURCE HIGH
NH 3087 Injector Booster Voltage C2 — SOURCE LOW
NH 3088 Increment speed signal — NOT PLAUSIBLE
NH 3089 Increment speed signal — SOURCE LOW
NH 3090 Segment speed signal — NOT PLAUSIBLE
NH 3091 Segment speed signal — SOURCE LOW
NH 3092 Engine Speed Sensing — NOT PLAUSIBLE
NH 3093 Engine Speed Sensing — SOURCE HIGH
NH 3094 Engine Speed Sensing — SOURCE LOW
NH 3095 Engine Speed Sensing — NO SIGNAL
NH 3096 CAN (A) Hardware — NO SIGNAL
NH 3097 CAN (B) Hardware — NO SIGNAL
NH 3098 CAN TSC1_TE Control — SOURCE LOW
NH 3099 CAN TSC1_TE Control — NO SIGNAL — CAN TE and CAN AE (Torque Request) error codes may be generated due to normal shutdown timing differences between the ECU and the XCM. If so, the actual
error code 3096 or 3097 should also be displayed.
NH 3100 CAN TSC1_AE Control — SOURCE LOW
NH 3101 CAN TSC1_AE Control — NO SIGNAL
NH 3102 Fuel pressure monitoring CP3 — ALL OTHER FAULTS
NH 3102 Possible Causes: • Low fuel supply to CP3 (filter restriction). • Low output from CP3 • CP3 PWM fault (Check PWM output in Atlas, min 3% at engine idle, max 24% at full load Above 24%
indicates excessive fuel leakage from the overpressure valve in the rail or Injector/transfer tube (remove the fuel return lines to check).
NH 3103 Fuel pressure signal — ABOVE NORMAL
NH 3104 Fuel pressure signal — SOURCE HIGH
NH 3105 Fuel pressure signal — SOURCE LOW
NH 3106 Fuel pressure signal — NO SIGNAL
NH 3107 CC HS Power stage 1 fuel press. Control — SOURCE HIGH
NH 3108 CC HS Power stage 1 fuel press. Control — SOURCE LOW
NH 3109 CC HS Power stage 1 fuel press. Control — NO SIGNAL
NH 3110 Monitoring of rail pressure relief valve — ABOVE NORMAL
NH 3111 Monitoring of rail pressure relief valve — BELOW NORMAL
NH 3112 Rail pressure Min / Max. error — SOURCE HIGH
NH 3113 Main relay defect — ABOVE NORMAL
NH 3114 Main relay defect — BELOW NORMAL
NH 3115 Main relay defect — NOT PLAUSIBLE
NH 3116 Main relay defect — SOURCE HIGH
NH 3117 ECU: Self Test Shutoff Paths ( Start Up ) — NOT PLAUSIBLE. Engine will derate to 1800 rpm.
NH 3117 Possible Causes: • ECU power failed when the engine was running or engine shut down process was incorrect.
NH 3118 Power supply for sensors — NOT PLAUSIBLE
NH 3119 Power supply for sensors — NO SIGNAL
NH 3120 Power supply for sensors — ALL OTHER FAULTS
NH 3121 PTO Torque sensor open circuit
NH 3122 PTO Torque sensor short circuit
NH 3123 PTO Torque not CAL error
NH 3124 Hand Throttle potentiometer 2 high error.
NH 3125 Hand Throttle potentiometer 2 Low error.
NH 3126 Hand Throttle potentiometer 1 high error.
NH 3127 Hand Throttle potentiometer 1 Low error.
NH 3128 Hand Throttle potentiometer diff. error.
NH 3129 Hand Throttle idle switch high error
NH 3130 Hand Throttle idle switch low error
NH 3131 ECU self test shutoff paths (start up)
NH 3132 CRPM Switch short
NH 4001 Signal of Aux-stick (AUX1) out of range low
NH 4002 Signal of Aux-stick (AUX1) out of range high
NH 4003 Signal from Remote Flow potentiometer 1 (AUX 1) out of range.
NH 4005 Signal of Aux-stick (AUX2) out of range low
NH 4006 Signal of Aux-stick (AUX2) out of range high
NH 4007 Signal from Remote Flow potentiometer 2 (AUX 2) out of range.
NH 4008 Signal from Remote valve 2 Timer Pot 1 out of range
NH 4009 Signal of Aux-stick (AUX3) out of range low
NH 4010 Signal of Aux-stick (AUX3) out of range high
NH 4011 Signal from Remote Flow potentiometer 3 (AUX 3) out of range.
NH 4015 Signal from Remote Flow potentiometer 4 (AUX 4) out of range.
NH 4016 Signal from Remote valve Timer potentiometer 1 out of range.
NH 4040 Supply Voltage too low
NH 4041 Supply Voltage too High
NH 4042 Arm Rest Module (ARU) CAN ‘Bus off’.
NH 4043 Controller Fault ( Register check)
NH 4044 Controller Fault (Flash Memory)
NH 4045 Controller Fault (Data Memory)
NH 4100 Remote No.1 No control Message Received
NH 4101 Remote No.1 Control Message not plausible
NH 4102 Remote No.1 EEPROM Error
NH 4103 Remote No.1 Switched to failsafe
NH 4104 Remote No.1 Under voltage
NH 4105 Remote No.1 Over voltage
NH 4106 Remote No.1 Spool movement to low
NH 4107 Remote No.1 Spool movement to high
NH 4108 Remote No.1 Float position not reached
NH 4109 Remote No.1 Manually operated
NH 4110 Remote No.1 Driver faulty
NH 4111 Remote No.1 potentiometer faulty.
NH 4112 Remote No.1 Unable to reach neutral
NH 4113 Remote No.1 Spool not in neutral at key on
NH 4114 Remote No.2 No control Message Received
NH 4115 Remote No.2 Control Message not plausible
NH 4116 Remote No.2 EEPROM Error
NH 4117 Remote No.2 Switched to failsafe
NH 4118 Remote No.2 Under voltage
NH 4119 Remote No.2 Over voltage
NH 4120 Remote No.2 Spool movement to low
NH 4121 Remote No.2 Spool movement to high
NH 4122 Remote No.2 Float position not reached
NH 4123 Remote No.2 Manually operated
NH 4124 Remote No.2 Driver faulty
NH 4125 Remote No.2 potentiometer faulty
NH 4126 Remote No.2 Unable to reach neutral
NH 4127 Remote No.2 Spool not in neutral at key on
NH 4128 Remote No.3 No control Message Received
NH 4129 Remote No.3 Control Message not plausible
NH 4130 Remote No.3 EEPROM Error
NH 4131 Remote No.3 Switched to failsafe
NH 4132 Remote No.3 Under voltage
NH 4133 Remote No.3 Over voltage
NH 4134 Remote No.3 Spool movement to low
NH 4135 Remote No.3 Spool movement to high
NH 4136 Remote No.3 Float position not reached
NH 4137 Remote No.3 Manually operated
NH 4138 Remote No.3 Driver faulty
NH 4139 Remote No.3 potentiometer faulty.
NH 4140 Remote No.3 Unable to reach neutral
NH 4141 Remote No.3 Spool not in neutral at key on
NH 4142 Remote No.4 No control Message Received
NH 4143 Remote No.4 Control Message not plausible
NH 4144 Remote No.4 EEPROM Error
NH 4145 Remote No.4 Switched to failsafe
NH 4146 Remote No.4 Under voltage
NH 4147 Remote No.4 Over voltage
NH 4148 Remote No.4 Spool movement to low
NH 4149 Remote No.4 Spool movement to high
NH 4150 Remote No.4 Float position not reached
NH 4151 Remote No.4 Manually operated
NH 4152 Remote No.4 Driver faulty
NH 4153 Remote No.4 potentiometer faulty.
NH 4154 Remote No.4 Unable to reach neutral
NH 4155 Remote No.4 Spool not in neutral at key on
NH 4156 Remote No.5 Spare
NH 4157 Remote No.5 Spare
NH 4158 Remote No.5 Spare
NH 4159 Remote No.5 Spare
NH 4160 Remote No.5 Spare
NH 4161 Remote No.5 Spare
NH 4162 Remote No.5 Spare
NH 4163 Remote No.5 Spare
NH 4164 Remote No.5 Spare
NH 4165 Remote No.5 Spare
NH 4166 Remote No.5 Spare
NH 4167 Remote No.5 Spare
NH 4168 Remote No.5 Spare
NH 4170 EHR Control No. 1 not calibrated
NH 4171 EHR Control No.1 open circuit
NH 4172 EHR Control No.1 short circuit
NH 4173 EHR Control No. 2 not calibrated
NH 4174 EHR Control No.2 open circuit
NH 4175 EHR Control No.2 short circuit
NH 4176 Timer Switch No.1 / No.2 not connected
NH 4177 EHR Control No. 3 not calibrated
NH 4178 EHR Control No.3 open circuit
NH 4179 EHR Control No.3 short circuit
NH 4180 EHR Control No. 4 not calibrated
NH 4181 EHR Control No.4 open circuit
NH 4182 EHR Control No.4 short circuit
NH 4183 Timer Switch No.3 / No.4 not connected
NH 4184 EHR Joystick potentiometer X open circuit.
NH 4185 EHR Joystick potentiometer X short circuit.
NH 4186 EHR Joystick potentiometer Y open circuit.
NH 4187 EHR Joystick potentiometer Y short circuit.
NH 4190 No communications from (EHR) No.1.
NH 4191 No communications from ( EHR) No.2.
NH 4192 No communications from ( EHR) No.3.
NH 4193 No communications from ( EHR) No. 4.
NH 4194 Motor mode No.1 switch faulty
NH 4195 Motor mode No.2 switch faulty
NH 4196 Motor mode No.3 switch faulty
NH 4197 Motor mode No. 4 switch faulty
NH 5001 Rear PTO Brake Solenoid stuck off
NH 5002 Rear PTO Brake Solenoid stuck on
NH 5003 Rear PTO Brake output open circuit
NH 5004 Rear PTO Brake driver over temperature ( not used )
NH 5005 Brake switch open circuit
NH 5007 Rear PTO Solenoid Stuck off
NH 5008 Rear PTO solenoid circuit overcurrent
NH 5024 Rear PTO not calibrated
NH 5027 Rear PTO speed sensor open circuit (not implemented)
NH 5033 Rear PTO cab N/C switch open circuit
NH 5034 Rear fender PTO switch open / short to ground.
NH 5035 Rear fender PTO switch input short to +12v
NH 5036 PTO failure to Start
NH 5037 Rear PTO cab N/O switch stuck closed
NH 5038 Cab & fender PTO switches operated in 2 sec
NH 5039 Incorrect voltage on fender PTO switch
NH 5040 Rear fender PTO switches reversed ( not used )
NH 5041 PTO disengaged due to assuasive load ( not used )
NH 5042 PTO Management switch shorted
NH 5099 Auto PTO mode not enabled
NH 6020 FWD switch error
NH 6021 FWD Solenoid Stuck on
NH 6022 FWD Solenoid Stuck off
NH 6023 FWD solenoid open circuit
NH 7014 Difflock switch error
NH 7015 Difflock Solenoid Stuck off
NH 7016 Difflock Solenoid Stuck on
NH 7017 Difflock solenoid open circuit
NH 7018 Difflock driver over temperature
NH 7024 Steering angle sensor not calibrated
NH 7031 Steering angle sensor out of Maximum range
NH 7032 Steering angle sensor out of Minimum range
NH 8007 Front PTO Solenoid Stuck on
NH 8008 Front PTO solenoid open circuit
NH 8024 Front PTO not calibrated
NH 8027 Front PTO speed sensor open circuit
NH 8033 Front PTO cab N/C switch open circuit
NH 8036 Front PTO failure to Start
NH 8037 Front PTO cab N/O switch stuck closed
NH 8099 Front PTO option not enabled
NH 9001 Front HPL (High Pressure Lift) Potentiometer open circuit.
NH 9002 Front HPL (High Pressure Lift) Potentiometer short circuit.
NH 10001 Upper lockout Solenoid error
NH 10002 Raise Solenoid error
NH 10003 Lower Solenoid error
NH 10004 Front Axle Potentiometer above threshold
NH 10005 Front Axle Potentiometer below threshold
NH 10007 Go up error, Suspension Unable to return to set point
NH 10008 Go down error, Suspension Unable to return to set point
NH 10009 Lower lockout Solenoid Error
NH 10024 Front Suspension not calibrated
NH 10099 Front Suspension mode not enabled
NH 14001 Rear PTO speed short to VCC or open circuit
NH 14002 Rear PTO speed short to Ground
NH 14011 Engine speed sensor short to VCC or open circuit
NH 14012 Engine speed sensor short to Ground
NH 14015 The ADIC 5 volt reference voltage is too low — below 4 volts
NH 14016 The ADIC 5 volt reference voltage is too high — above 6 volts
NH 14021 Radar Ground speed short to VCC or open circuit
NH 14022 Radar Ground speed short to Ground
NH 14031 Front PTO speed short to VCC or open circuit
NH 14032 Front PTO speed short to Ground
NH 14041 Engine coolant temp short to VCC or open circuit
NH 14042 Engine coolant temp short to Ground
NH 14051 Fuel level sensor short to VCC or open circuit
NH 14052 Fuel level sensor short to Ground
NH 14061 Air brake pressure short to VCC or option set but sensor not connected
NH 14071 Front Hitch Position short to 12 or 5 Volts
NH 14072 Front Hitch Position short to Ground or open circuit
NH 14081 Engine oil pressure short to 12 or 5 Volts
NH 14082 Engine oil pressure short to Ground or open circuit
NH 14091 Transmission output speed short to VCC or open circuit
NH 14092 Transmission output speed short to Ground
NH 14100 Air brake pressure not configured
NH 14101 Fuel contaminated sensor Not connected
NH 14200 EEPROM error
NH 14900 Transmission module missing (DA/DB/DE/DF).
NH 14901 Engine controller not present (EDC7)
NH 14902 Auxiliry (optional) Controller Module missing (DD/DH).
NH 14903 SCM controller missing (GA 12×12 only).
NH 14904 Arm Rest Module (ARU) missing. (Steyr 16×16 only)
NH 14905 KEYPAD missing
NH 14906 Fast Steer Controller (KA) missing.
NH 14907 DOG (Display Of Gears) missing.
NH 15001 Exceeding safe operating wheel speed (10 km/h) with system still enabled or still active. Error code not active fast steer lamp flashes instead.
NH 15002 Steering wheel control proximity sensor open circuit.
NH 15003 Steering wheel control proximity sensor short circuit.
NH 15006 Split valve LVDT open circuit.
NH 15007 Split valve LVDT short circuit.
NH 15008 Change valve Solenoid open circuit
NH 15009 Change valve Solenoid short circuit across
NH 15010 Safety switch Fail
NH 15011 Maximum engagement time (5 minutes) elapsed.
NH 15012 Split Valve spool stuck open
NH 15013 Change valve or Split valve spools Stuck closed.
NH 15014 Split Valve spool stuck in transition zone cant identify which steering mode the tractor is definitely in.
NH 15015 Cold oil, temperature below 5 degrees C. Error code not active fast steer lamp flashes instead.
NH 15024 System not calibrated.
Case IH Magnum 235 — 340 Fault Codes DTC
Case IH Magnum 235 — 340 Fault Codes DTC
Case IH Magnum 235 — 340 Fult Codes DTC.
Adobe Acrobat Document
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Case IH Tractors, Farmall series Fault Codes DTC
TYPE CODE ERROR
ENG 111 Engine Controller Failure — Hardware Failure
ENG 115 Engine Speed Sensor (8.3, 9 Liter) or Cam Sensor (15 Liter) is failed
ENG 121 Engine Position Sensor (8.3, 9 Liter) or Crankshaft Sensor (15 Liter) is failed
ENG 122 Boost Pressure Sensor voltage is too high
ENG 123 Boost Pressure Sensor voltage is too low
ENG 124 Boost Pressure level has exceeded the warning limit.
ENG 131 Decelerator or Hand Throttle (STD cab) Position potentiometer voltage is too high
ENG 132 Decelerator or Hand Throttle (STD cab) Position potentiometer voltage is too low
ENG 133 Decelerator (STD cab) Position potentiometer voltage is too high
ENG 134 Decelerator (STD cab) Position potentiometer voltage is too low
ENG 135 Oil Pressure Sensor voltage is too high
ENG 141 Oil Pressure Sensor voltage is too low
ENG 143 Oil Pressure level has fallen below the warning limit.
ENG 144 Coolant Temperature Sensor voltage is too high
ENG 145 Coolant Temperature Sensor voltage is too low
ENG 146 Coolant Temperature level has exceeded the warning limit.
ENG 147 Frequency Throttle Signal shorted high
ENG 148 Frequency Throttle Signal shorted low
ENG 151 Coolant Temperature level has exceeded the warning limit.
ENG 153 Intake Manifold Temperature Sensor voltage is too high
ENG 154 Intake Manifold Temperature Sensor voltage is too low
ENG 155 Intake Manifold Temperature level has exceeded the warning limit.
ENG 187 Sensor Supply 2 Voltage is too low.
ENG 191 A/C clutch driver shorted to ground when ON.
ENG 211 Communications problem with Armrest, Instrumentation, or Transmission Controllers
ENG 212 Oil Temperature Sensor Voltage is too high
ENG 213 Oil Temperature Sensor Voltage is too low
ENG 214 Oil Temperature Sensor Voltage is above normal range
ENG 219 Oil Level — remote reservoir is too low. Add oil.
ENG 221 Ambient Air Pressure Sensor Voltage is too high
ENG 222 Ambient Air Pressure Sensor Voltage is too low
ENG 223 CORS — Burn Valve Solenoid is shorted either low or high
ENG 227 Sensor Supply 2 Voltage is too high.
ENG 234 Engine Speed has exceed the overspeed warning limit.
ENG 235 Engine Coolant Level is low. Add coolant fluid.
ENG 237 External Speed Multi Unit Sync Command Input Data Incorrect.
ENG 241 Vehicle Speed Signal lost
ENG 242 Vehicle Speed Signal intermittent / tampering
ENG 243 Error detected in exhaust brake relay
ENG 245 Fan Clutch Voltage too low
ENG 254 Fuel Shutoff Valve Voltage too low
ENG 255 Fuel Shutoff Valve Voltage too high
ENG 259 Fuel Shutoff Valve mechanically stuck open.
ENG 263 Fuel Temperature Sensor voltage is too high
ENG 265 Fuel Temperature Sensor voltage is too low
ENG 268 Fuel Pressure in pump is not changing with operating conditions.
ENG 271 Front Pumping Control Valve current is low during ñclick testî
ENG 272 Front Pumping Control Valve current is high
ENG 273 Rear Pumping Control Valve current is low during ñclick testî
ENG 274 Rear Pumping Control Valve current is high
ENG 275 Front Pumping element is failed
ENG 276 Injection Control Valve current is out of range
ENG 277 Injection Control Valve is failed
ENG 278 Fuel Lift Pump is failed
ENG 279 Injection Control Valve current is out of range
ENG 281 Front Pumping element is failed
ENG 282 Rear Pumping element is failed
ENG 283 Engine Speed/Position Sensor supply voltage is too high
ENG 284 Engine Speed/Position Sensor supply voltage is too low
ENG 285 J1939 Parameter was set to be multiplexed, but not received (timeout error)
ENG 286 J1939 Parameter was set to be multiplexed, but not available from all sources (config error)
ENG 287 Multiplexing throttle parameter and a data error was received — data invalid
ENG 288 Multiplexing remote throttle parameter and a data error was received — data invalid
ENG 293 Hydraulic Fan Hydraulic Oil Temperature Sensor Voltage is too high
ENG 294 Hydraulic Fan Hydraulic Oil Temperature Sensor Voltage is too low
ENG 295 Ambient Air Pressure data invalid
ENG 297 OEM Pressure Sensor Voltage is too high.
ENG 298 OEM Pressure Sensor Voltage is too low.
ENG 299 Engine Shutdown by other than keyswitch (i.e. via data bus command)
ENG 319 Real Time Clock in controller has lost power
ENG 328 Rear Pumping element is failed
ENG 329 CAPS Pump has an overpumping failure
ENG 338 Idle Shutdown Vehicle Accessory Relay Voltage is too high
ENG 339 Idle Shutdown Vehicle Accessory Relay Voltage is too low
ENG 341 All data written during powerdown cycle was lost (checksum error)
ENG 343 Engine Controller Failure — Hardware Failure
ENG 349 Measured Speed is too high.
ENG 352 5 Volt Sensor Supply voltage is too low
ENG 378 Front Fueling current is too low
ENG 379 Front fueling current is too high
ENG 381 Error detected in cold start relay 1
ENG 382 Error detected in cold start relay 2
ENG 385 5 Volt Sensor Supply voltage is too high
ENG 386 5 Volt Sensor Supply voltage is too high
ENG 387 Decelerator or Hand Throttle (STD cab) 5 Volt Supply voltage is too high
ENG 388 Engine Brake driver 1 circuit failure
ENG 392 Engine Brake driver 2 circuit failure
ENG 393 Engine Brake driver 3 circuit failure
ENG 394 Front Timing current is too low.
ENG 395 Front Timing current is too high.
ENG 396 Rear Fueling current is too low
ENG 397 Rear Fueling current is too high
ENG 398 Rear Timing current is too low
ENG 399 Rear Timing current is too high
ENG 412 J1708 data link cannot transmit
ENG 414 J1708 data link not fast enough
ENG 415 Oil Pressure level has fallen below the very low warning limit.
ENG 418 Water in Fuel sensor indicates the water in the fuel filter needs to be drained.
ENG 419 Boost Pressure data invalid
ENG 422 Engine Coolant Level Sensor (optional) is failed or the jumper plug is missing
ENG 426 J1939 data link cannot transmit
ENG 427 J1939 data link not fast enough
ENG 428 Water in Fuel Sensor voltage is too high.
ENG 429 Water in Fuel Sensor voltage is too low.
ENG 431 Hand Throttle (STD cab) Idle Validation Switches are both closed
ENG 432 Hand Throttle (STD cab) position potentiometer and switches disagree.
ENG 433 Boost Pressure level disagrees with engine operation conditions (speed & power)
ENG 434 Unswitched 12 volt supply voltage disconnected without normal key off sequence.
ENG 435 Oil Pressure data invalid
ENG 441 Battery Voltage is too Low (less than 6 volts)
ENG 442 Battery Voltage is too High
ENG 443 Decelerator or Hand Throttle (STD cab) 5 Volt Supply voltage is too low
ENG 444 Low voltage detected at OEM 5 volt supply
ENG 449 Fuel Pressure level has exceeded the warning limit.
ENG 451 Fuel Pressure Sensor voltage is too high
ENG 452 Fuel Pressure Sensor voltage is too low
ENG 456 Fuel Pressure in pump is not changing with operating conditions.
ENG 465 Wastegate 1 voltage is too high
ENG 466 Wastegate 1 voltage is too low
ENG 482 Fuel Pressure Sensor voltage low
ENG 483 Rear Bank Post Actuactor Pressure voltage high
ENG 484 Rear Bank Post Actuactor Pressure voltage low
ENG 485 Rear Fueling actuator overfueling
ENG 486 Rear Fueling actuator underfueling
ENG 488 Intake Manifold Temperature level has exceeded the warning limit.
ENG 489 Measured Speed Sensor data low
ENG 491 Wastegate 2 voltage is too high
ENG 492 Wastegate 2 voltage is too low
ENG 493 The Injection Control Identifier Circuit in the harness has failed.
ENG 496 Engine Speed / Position Sensor #2 supply is too low
ENG 524 Error detected on high speed governor droop selection switch
ENG 527 Cab pressurization/Ether relay coil circuit shorted high or open
ENG 529 Output B driver shorted high or open
ENG 539 The Injection Control Valve Transorb in the harness has failed. (open circuit)
ENG 546 Fuel Pressure sensor voltage is too high.
ENG 547 Fuel Pressure sensor voltage is too low.
ENG 551 Hand Throttle (STD cab) Idle Validation Switches are both open
ENG 553 Front fueling actuator overfueling
ENG 559 Front fueling actuator underfueling
ENG 581 Fuel inlet Pressure Sensor voltage is too high.
ENG 582 Fuel inlet Pressure Sensor voltage is too low.
ENG 583 Fuel Inlet Pressure Sensor voltageout of range high or low.
ENG 595 Turbo overspeed protection fault
ENG 596 Battery voltage is too high
ENG 597 Battery voltage is too low
ENG 598 Battery voltage is very low
ENG 599 Engine is being shutdown based on OEM input
ENG 611 ECM detected engine initiated protection shutdown or keyed-off while above specific load limit
ENG 697 Engine Controller internal temperature too high
ENG 698 Engine Controller internal temperature too low
ENG 731 Engine Speed / Position #2 — Mechanical misalignment.
ENG 753 Synchronization has been lost.
ENG 755 Front Bank injector is bad.
ENG 758 Rear Bank injector is bad
ENG 951 A power imbalance between the cylinders was detected by the controller hardware
ENG 983 Unused A/D input channel out of range.
ENG 1117 Battery voltage too low, or the controller was not allowed to power down correctly
ENG 1256 Control Module Identification Input State Error.
ENG 1257 Control Module Identification Input State Error.
ENG 2117 Engine Coolant Level is low. Add coolant fluid.
ENG 2186 Supply Voltage to the accelerator pedal position sensor too low.
ENG 2195 Auxiliary Equipment Sensor Input # 3 — Engine Protection Critical — Special Instructions.
ENG 2249 Injector Metering Rail 1 Fuel Pressure lower than commanded pressure.
ENG 2265 Electric Lift Pump for Engine Fuel Supply Voltage too high.
ENG 2266 Electric Lift Pump for Engine Fuel Supply Voltage too low.
ENG 2292 Fuel Inlet Meter Device higher than expected.
ENG 2293 Fuel Inlet Meter Device flow demand lower than expected.
ENG 2311 Electronic Fuel Injection Control Valve open or closed Circuit.
ENG 2321 Engine Crankshaft Speed / Position data invalid.
ENG 2322 Engine Camshaft Speed / Position Sensor data invalid.
ENG 2372 Engine Fuel Filter clogged error
ENG 2555 Intake Air Heater 1 Circuit Voltage too high.
ENG 2558 Auxiliary PWM Driver 1 Circuit Voltage too low.
ENG 2973 Intake Manifold 1 Pressure data invalid.
TRANS 11 Master Clutch Potentiometer Open Circuit or short to ground
TRANS 12 Master Clutch Potentiometer Short to +12 Volts or short to 5 Vreff
TRANS 24 None of the transmission clutches are calibrated
TRANS 37 BOC switch open circuit or Neutral relay stuck open
TRANS 38 Shuttled to reverse when no wheel speed signal was available
TRANS 47 Clutch pedal bottom of clutch switch misadjusted
TRANS 48 BOC switch or Neutral relay short circuit
TRANS 49 Auto Guidance Isolation valve driver Fault
TRANS 50 Park Brake is powered off when in park
TRANS 51 FNRP pod indicates Forward or Reverse is on, when Park is on
TRANS 52 Park Brake is stuck on when commanded off
TRANS 53 5 volt reference voltage too high
TRANS 54 5 volt reference voltage too low
TRANS 59 FNRP pod in illogical state (two positions on at same time)
TRANS 60 FNRP pod in illogical state (in no position)
TRANS 61 System pressure valve solenoid circuit is open circuit or shorted to ground
TRANS 62 System pressure solenoid is shorted to B+
TRANS 64 Transmission output Sped is too high (above 8200 RPM)
TRANS 65 Operator attempted a shuttle operation while out of the seat
TRANS 66 FNRP Pod Forward switch is shorted to ground or open circuit
TRANS 67 FNRP Pod Forward switch is shorted to power
TRANS 68 FNRP Pod Reverse switch is shorted to ground or open circuit
TRANS 69 FNRP Pod Reverse switch is shorted to power
TRANS 70 Battery voltage is too low for clutch solenoid operation
TRANS 72 Transmission Oil Temperature is above 122 deg. C
TRANS 73 Software is out of the calibration mode and the park brake request is still active.
TRANS 74 The park brake ON with gear is engaged — no park brake request from calibration.
TRANS 75 Engine speed from Inst Controller does not match the speed signal from the alternator.
TRANS 76 Engine speed from Eninge Controller does not match the speed signal from the alternator.
TRANS 77 No signal from wheel speed sensor
TRANS 78 Transmission regulated pressure accumulator is discharged
TRANS 79 Engine RPM from the alternator is measured too high
TRANS 80 Wheel speed sensor is measured too high
TRANS 81 Transmission clutches are slipping
TRANS 82 Creep Clutch is not calibrated
TRANS 83 Communications Lost with Engine Controller
TRANS 103 Odd clutch solenoid or its wiring failed open or shorted to ground
TRANS 104 Even clutch solenoid or its wiring failed open or shorted to ground
TRANS 105 C1-2 clutch solenoid or its wiring failed open or shorted to ground
TRANS 106 C3-4 clutch solenoid or its wiring failed open or shorted to ground
TRANS 107 C5-6 clutch solenoid or its wiring failed open or shorted to ground
TRANS 108 Master clutch solenoid or its wiring failed open or shorted to ground
TRANS 109 Low range clutch solenoid or its wiring failed open or shorted to ground
TRANS 110 Mid range clutch solenoid or its wiring failed open or shorted to ground
TRANS 111 High range clutch solenoid or its wiring failed open or shorted to ground
TRANS 112 Reverse clutch solenoid or its wiring failed open or shorted to ground
TRANS 113 Creeper clutch solenoid or its wiring failed open or shorted to ground
TRANS 114 Even clutch solenoid coil or its wiring shorted to power
TRANS 115 Odd clutch solenoid coil or its wiring shorted to power
TRANS 116 C1-2 clutch solenoid coil or its wiring shorted to power
TRANS 117 C3-4 clutch solenoid coil or its wiring shorted to power
TRANS 118 C5-6 clutch solenoid coil or its wiring shorted to power
TRANS 119 Master clutch solenoid coil or its wiring shorted to power
TRANS 120 Low range clutch solenoid coil or its wiring shorted to power
TRANS 121 Mid range clutch solenoid coil or its wiring shorted to power
TRANS 122 High range clutch solenoid coil or its wiring shorted to power
TRANS 123 Reverse clutch solenoid coil or its wiring shorted to power
TRANS 124 Creeper clutch solenoid coil or its wiring shorted to power
TRANS 125 Odd clutch is not calibrated
TRANS 126 Even clutch is not calibrated
TRANS 127 C1-2 clutch is not calibrated
TRANS 128 C3-4 clutch is not calibrated
TRANS 129 C5-6 clutch is not calibrated
TRANS 130 Low range clutch is not calibrated
TRANS 131 Mid range clutch is not calibrated
TRANS 132 High range clutch is not calibrated
TRANS 133 Reverse clutch is not calibrated
TRANS 134 Master clutch is not calibrated
TRANS 135 Communication lost with the armrest controller
TRANS 136 Communication lost with the instrumentation controller
TRANS 137 Front Suspension raise lock solenoid circuit shorted or open circuit
TRANS 138 Front Suspension raise solenoid circuit shorted or open circuit
TRANS 139 Front Suspension lower lock solenoid circuit shorted or open circuit
TRANS 140 Front suspension position is above the expected absolute limit
TRANS 141 Front suspension position is below the expected absolute limit
TRANS 142 Front suspension travel range has not been calibrated
TRANS 143 Front suspension position is above the upper suspension range
TRANS 144 Front suspension position is below the lower suspension range
TRANS 145 Front Suspension lower lock solenoid circuit shorted or open circuit
TRANS 146 Regulated system pressure low (below 100PSI / 689 KPA)
TRANS 147 Regulated system pressure below 290 PSI
TRANS 148 Backup alarm circuit shorted or open
TRANS 150 Front suspension pressure sensor rod side (DA-R) out of range high
TRANS 151 Front suspension pressure sensor rod side open circuit
TRANS 152 Front Suspension pressure control not able to increase pressure on the rod side
TRANS 153 Front Suspension pressure control not able to decrease pressure on the rod side
TRANS 154 Front Suspension Lock Valve Stuck on fault (suspension will not lock)
TRANS 155 Front Suspension Lock Valve is stuck of (suspension will not unlock)
TRANS 156 Lock valve was installed but removed
ARM 19 Hand THROTTLE potentiometer is failed
ARM 29 Aux 1st remote valve LEVER potentiometer is failed
ARM 39 Aux 2nd remote valve LEVER potentiometer is failed
ARM 49 Aux 3rd remote valve LEVER potentiometer is failed
ARM 59 Aux 4th remote valve LEVER potentiometer is failed
ARM 69 HITCH POSITION command potentiometer is failed
ARM 79 HITCH LOAD command potentiometer is failed
ARM 89 Aux 1st remote valve FLOW potentiometer is failed
ARM 99 Aux 2nd remote valve FLOW potentiometer is failed
ARM 109 Aux 3rd remote valve FLOW potentiometer is failed
ARM 119 Aux 4th remote valve FLOW potentiometer is failed
ARM 129 Aux 5th remote valve FLOW potentiometer is failed
ARM 139 Aux remote valve TIMER potentiometer is failed
ARM 149 Hitch UPPER LIMIT potentiometer is failed
ARM 159 Hitch DROP RATE potentiometer is failed
ARM 169 Hitch TRAVEL potentiometer is failed
ARM 1029 Aux 5th remote valve control switch is failed
ARM 1039 PTO switch is failed
ARM 1049 Hitch UP/DOWN switch is failed
ARM 1059 Hitch SLIP switch is failed
ARM 1069 MFD switch is failed
ARM 1079 DIFF LOCK switch is failed
ARM 1089 Programmable UP/DOWN switch is failed.
ARM 1099 Aux remote valve LIMIT SET switch is failed
ARM 1109 Hand Throttle IDLE VALIDATION switch is failed
ARM 1119 RECORD/PLAY switch is failed
ARM 1129 Invalid Configuration — Implement Depth Control switch is failed
ARM 1139 Engine Brake switch is failed
ARM 1149 Auto Field / Transport Switch is in an illogical state
ARM 8011 Battery Voltage is too Low
ARM 9011 Controller Memory Error — Loss of Hitch Position Command Calibration
ARM 9012 Controller Memory Error — Loss of Aux Remote Lever Calibrations
ARM 9013 Controller Memory Error — Loss of Throttle Calibrations
ARM 9014 Controller Memory Error — Loss of MFD switch Configuration
ARM 9015 Controller Memory Error — Loss of Trans switches Configuration
ARM 9021 Hitch position command potentiometer calibration results not acceptable
ARM 9031 Hand throttle potentiometer calibration results not acceptable
ARM 9041 Hitch DROP RATE potentiometer calibration value(s) are out of range
ARM 10091 Armrest Controller failure — 5 V regulator failure
ARM 12013 Communications Lost with Data Bus and ALL other controllers
ARM 12081 Loss of/unavailable Performance Monitor Display — RECORD/PLAY functionality disabled
CASE IH & NEW HOLLAND Tractor Fault Codes DTC
TMF 3 Hitch Raise Solenoid High Side Driver shorted to 12 volts.
TMF 4 Hitch Raise Solenoid Failed Open or Shorted to Ground.
TMF 5 Hitch Lower Solenoid Shorted to 12 volts.
TMF 6 Hitch Lower Solenoid High Side Driver circuit short to 12 volts.
TMF 7 Hitch Raise/Lower Solenoids Open or short to ground.
TMF 11 Communications Lost with Data Bus and ALL other controllers
TMF 12 Communication lost with the armrest controller
TMF 14 5 Volt Sensor Supply voltage is too high
TMF 15 5 Volt Sensor Supply voltage is too low
TMF 17 Hitch Position Command potentiometer failed in the Armrest controller
TMF 18 Hitch Rockshaft Position potentiometer is outside normal operating range.
TMF 19 Hitch Upper Limit potentiometer is failed in the Armrest Controller
TMF 21 Hitch Load Command potentiometer is failed in the Armrest Controller
TMF 22 Single draft pin sensor failed when configured for one draft pin sensor.
TMF 23 Two draft pin sensors failed when configured for two draft pins.
TMF 24 Communications Lost with Instrumentation Controller
TMF 25 Hitch Up/Down Switch failed in the Armrest controller
TMF 26 Fender UP and DOWN switch failure or both switches simultaneously pressed
TMF 28 Hitch Travel potentiometer is failed in the Armrest Controller
TMF 29 Hitch Drop Rate potentiometer is failed in the Armrest Controller
TMF 30 Right Draft Pin voltage is outside the normal operating range.
TMF 31 Left Draft Pin voltage is outside the normal operating range.
TMF 32 Ground Speed Signal is failed in the Instrumentation Controller
TMF 33 Hitch Slip Set Switch failed in the Armrest controller
TMF 34 Hitch Slip Select Switch failed in the Armrest controller
TMF 35 Slip Sensor (radar or wheel speed) is failed in the Instrumentation Controller
TMF 37 The ARU reports EDC Transport Lock is faulty or not available.
TMF 41 Draft pin(s) detected but the Armrest controller specified tractor without draft control.
TMF 42 Engine speed must be set above 1600 rpm during calibration of lower valve.
TMF 43 No Draft pin(s) detected but the Armrest controller specified tractor with draft control.
TMF 44 Hitch calibration aborted due to tractor movement.
TMF 45 Hitch calibration attempted when the engine is not running or engine speed signal is failed.
TMF 47 Raise Valve calibration value is too high. (valve problem)
TMF 48 Raise Valve calibration value is too low. (valve problem)
TMF 50 Hitch position at top of travel is not within specification during calibration
TMF 51 Lower Valve calibration value is too high. (valve problem)
TMF 52 Lower Valve calibration value is too low. (valve problem)
TMF 53 The time allowed for hitch calibration has expired
TMF 54 Hitch position at bottom of travel is not within specification during calibration
TMF 55 Hitch position range from top to bottom is not within spec during calibration
TMF 56 Hitch position range to position command range ratio is not within spec during calibration.
TMF 57 Right Draft Pin voltage is not within spec for ïno loadà condition during calibration
TMF 58 Left Draft Pin voltage is not within spec for ïno loadà condition during calibration
TMF 59 Both Draft Pin voltages are not within spec for ïno loadà condition during calibration
TMF 60 Draft pin connected to left vs right for single pin setup during calibration
TMF 61 The Hitch Calibration procedure must be performed.
TMF 62 Communications Lost with Performance Monitor Function
TMF 63 Controller 8 volt reference is too high (above 8.8 volts).
TMF 64 Controller 8 volt reference is too low (below 7.2 volts).
TMF 65 Battery Voltage is too Low
TMF 66 Battery Voltage is too Low
TMF 80 MFD fault condition in software.
TMF 81 MFD Solenoid is failed Open or Short Circuit
TMF 82 Differential Lock Solenoid is failed Open or Short Circuit
TMF 83 Brake Lamp Relay Solenoid is failed Open or Short Circuit
TMF 86 Wheel Slip Signal is failed in the Instrumentation Controller
TMF 87 Ground Speed Signal is failed in the Instrumentation Controller
TMF 88 Differential Lock Switch is failed in the Armrest Controller
TMF 89 Differential Lock Switch is failed in the Armrest Controller
TMF 90 Differential Lock Switch is failed in the Armrest Controller
TMF 92 MFD Switch is failed in the Armrest Controller
TMF 93 MFD Switch is failed in the Armrest Controller
TMF 94 Differential Lockout fault condition in software.
TMF 95 The steering angle sensor is above the expected operating range
TMF 96 The steering angle sensor is below the expected operating range
TMF 98 Battery Voltage is too Low
TMF 99 Battery Voltage is too Low
TMF 106 Aux 5th remote valve control switch (Extend) is failed in the Armrest Controller
TMF 107 Aux 5th remote valve control switch (Retract) is failed in the Armrest Controller
TMF 108 Aux 1st remote valve LEVER potentiometer is failed in the Armrest Controller
TMF 109 Aux 2nd remote valve LEVER potentiometer is failed in the Armrest Controller
TMF 110 Aux 3rd remote valve LEVER potentiometer is failed in the Armrest Controller
TMF 111 Aux 4th remote valve LEVER potentiometer is failed in the Armrest Controller
TMF 112 Aux 1st remote valve FLOW potentiometer is failed in the Armrest Controller
TMF 113 Aux 2nd remote valve FLOW potentiometer is failed in the Armrest Controller
TMF 114 Aux 3rd remote valve FLOW potentiometer is failed in the Armrest Controller
TMF 115 Aux 4th remote valve FLOW potentiometer is failed in the Armrest Controller
TMF 116 Aux 5th remote valve FLOW potentiometer is failed in the Armrest Controller
TMF 120 Electro Hydraulic Remote top link switch is stuck on.
TMF 123 Aux 1st Lower Coil solenoid shorted to 12 volts.
TMF 124 Aux 1st Lower solenoid failed open or short circuit.
TMF 125 Aux 1st Raise Coil solenoid shorted to 12 volts.
TMF 126 Aux 1st Raise solenoid failed open or short circuit.
TMF 127 Aux 2nd Lower Coil solenoid shorted to 12 volts.
TMF 128 Aux 2nd Lower solenoid failed open or short circuit.
TMF 129 Aux 2nd Raise Coil solenoid shorted to 12 volts.
TMF 130 Aux 2nd Raise solenoid failed open or short circuit.
TMF 131 Aux 3rd Lower Coil solenoid shorted to 12 volts.
TMF 132 Aux 3rd Lower solenoid failed open or short circuit.
TMF 133 Aux 3rd Raise Coil solenoid shorted to 12 volts.
TMF 134 Aux 3rd Raise solenoid failed open or short circuit.
TMF 135 Aux 4th Lower Coil solenoid shorted to 12 volts.
TMF 136 Aux 4th Lower solenoid failed open or short circuit.
TMF 137 Aux 4th Raise Coil solenoid shorted to 12 volts.
TMF 138 Aux 4th Raise solenoid failed open or short circuit.
TMF 139 Aux 5th Lower Coil solenoid shorted to 12 volts.
TMF 141 Aux 5th Raise Coil solenoid shorted to 12 volts.
TMF 142 Aux 5th Raise solenoid failed open or short circuit.
TMF 147 Implement feedback #1 out of range High
TMF 148 Implement feedback #1 out of range Low
TMF 149 Implement feedback #2 out of range High
TMF 150 Implement feedback #2 out of range Low
TMF 151 Communications Lost with Transmission Controller
TMF 152 Electro Hydraulic Remote top link switch voltage is short circuit.
TMF 153 Electro Hydraulic Remote top link switch data invalid
TMF 154 PTO switch interlock — Cab Switch and Fender switch on at the same time.
TMF 155 Auto PTO switch data failed in the Armrest controller.
TMF 156 Auto PTO switch stuck ON in Armrest Controller.
TMF 157 PTO remote fender switch short circuit.
TMF 158 PTO remote fender switch open circuit
TMF 159 PTO remote fender switch stuck ON.
TMF 160 PTO Clutch is Slipping Too Much
TMF 162 Engine Stalled when the PTO was running.
TMF 163 PTO Shaft rotation is detected when the PTO clutch is OFF.
TMF 164 PTO shaft speed has not been detected within 3.6 seconds of being turned ON.
TMF 165 PTO Shaft rotation is detected when the Engine is OFF.
TMF 166 PTO Driver is on and no current is sensed.
TMF 167 Current sensed when the PTO driver is off.
TMF 168 PTO ON/OFF switch is failed in the Armrest Controller
TMF 169 PTO ON/OFF switch is failed in the Armrest Controller
TMF 170 PTO ON/OFF switch is failed in the Armrest Controller
TMF 171 PTO software fault condition detected.
TMF 172 PTO Solenoid Circuit is failed shorted to 12 Volts when PTO is in the off state.
TMF 173 PTO Solenoid Circuit is failed shorted to ground when PTO is in the off state.
TMF 174 Current flowing in the PTO sense resistor when the high side is off.
TMF 175 PTO Clutch has not reached lock up speed within 6 seconds of being turned ON
TMF 178 PTO speed sensor has been changed.
TMF 179 The PTO is receiving no frequency from the Shaft Size Sensor on a two speed PTO
TMF 180 The PTO is receiving signals from the Shaft Size Sensor on a single speed PTO configuration.
INST 1015 Seat Switch may be stuck closed.
INST 1024 Trans oil filter switch shorted to ground on power up.
INST 1034 Hydraulic oil filter switch shorted to ground on power up.
INST 3010 PTO Shaft Speed sensor is failed in PTO Controller
INST 3020 Engine Speed sensor is failed in the Engine Controller
INST 3022 Engine Overspeed Error
INST 5010 Engine Oil Pressure sensor is failed in the Engine Controller
INST 5011 Engine Oil Pressure sensor voltage is too low (open circuit, short to ground)
INST 7024 Reversible Fan Control open circuit or shorted to ground.
INST 10031 Controller Memory Error — Loss of Engine Hours information
INST 10032 Controller Memory Error — Loss of Vehicle Configuration information
INST 10033 Controller Memory Error — Loss of Customer Configuration information
INST 10034 Controller Memory Error: Loss of valid fuel table information.
INST 10035 Controller Memory Error — Loss of Valid Radar Configuration information.
INST 10036 Controller Memory Error — Loss of Displayed Performance information
INST 10037 Controller Memory Error — Loss of Implement Width information
INST 10038 Controller Memory Error — Loss of Valid Remote Timer information.
INST 11011 Fuel Level Sensor voltage is too low (open circuit, short to ground)
INST 12011 Communications Lost with Armrest Controller
INST 12021 Communications Lost with Auxiliary Controller
INST 12031 Communications Lost with Hitch Controller
INST 12043 Communications Lost with Data Bus 1 and ALL other controllers
INST 12051 Communications Lost with PTO Controller
INST 12053 Communications Lost with Vehicle Data Bus 2.
INST 12071 Communications Lost with Transmission Controller
INST 12091 Communications Lost with Engine Controller
INST 12101 Communications Lost with Tractor ECU (Gateway) Controller
INST 12111 Communications Lost with Automatic Temperature Controller
INST 12121 Communications Lost with Color Perfomance Monitor
INST 13010 Engine Coolant Temperature sensor is failed in the Engine Controller
INST 13011 Engine Coolant Temperature sensor voltage is too low (short to ground)
INST 13012 Engine Coolant Temperature sensor voltage is too high (open circuit, short to +V)
INST 13021 Transmission Oil Temperature sensor voltage is too low (short to ground)
INST 13022 Transmission Oil Temperature sensor voltage is too high (open circuit, short to +V)
INST 13031 Hydraulic Oil Temperature sensor voltage is too low (short to ground)
INST 13032 Hydraulic Oil Temperature sensor voltage is too high (open circuit, short to +V)
INST 13040 Air to Air Intake Temperature sensor is failed in the Engine Controller
INST 13044 When fuel shut off relay is latched, short is detected (mechanical engine tractors only)
INST 13051 Air to Air Intake Temperature sensor voltage is too low (short to ground)
INST 13052 Air to Air Intake Temperature sensor voltage is too high (open circuit, short to +V)
INST 53001 Instrumentation Controller Configuration is Incorrect
INST 53002 Air to Air Intake sensor does not match Tractor Model Configuration
INST 53005 Engine Shutdown activated by Instrument Controller
INST 65535 NO ERROR. Errors have not been cleared from factory.
ATC 111 Cab sensor open or shorted to power
ATC 112 Cab sensor shorted to ground
ATC 115 Evaporator sensor open or shorted to power
ATC 116 Evaporator sensor shorted to ground
ATC 120 Blower speed select pot open/shorted to power
ATC 121 Temperature select pot open/shorted to power
ATC 122 Mode Select Pot Open Or Shorted To Power
ATC 125 High pressure switch (+) input shorted to power
ATC 126 High pressure switch (+) input shorted to ground
ATC 127 High pressure switch (-) input shorted to power
ATC 128 High pressure switch (-) input shorted to ground
ATC 129 High pressure cycling error (2 in 1 minute)
ATC 130 Low pressure switch (+) input shorted to power
ATC 131 Low pressure switch (+) input shorted to ground
ATC 132 Low pressure switch (-) input shorted to power
ATC 133 Low pressure switch (-) input shorted to ground
ATC 134 Low pressure switch open for > 1 minute
ATC 113 Outlet sensor open or shorted to power
ATC 114 Outlet sensor shorted to ground
ATC 117 Outside air sensor open or shorted to power
ATC 118 Outside air sensor shorted to ground
Hitch 1002 Raise hitch valve coil short to 12 volts or raise hitch valve coil circuit failure.
Hitch 1003 Open or Short to Ground raise hitch valve coil circuit failure.
Hitch 1004 Lower hitch valve coil short to 12 volts or lower hitch valve coil circuit failure.
Hitch 1005 Open or short to ground lower hitch valve coils.
Hitch 1006 EDC Low Side Driver stuck on failure.
Hitch 1007 Low side driver watchdog test failed.
Hitch 1008 Low side of raise solenoid connected permanently to GND
Hitch 1009 Low side of lower solenoid connected permanently to GND
Hitch 1011 TCU (Tractor Controller Unit) is disconnected from the CAN bus.
Hitch 1012 No communication with the ACM (Armrest Controller Module).
Hitch 1013 No communication with the ICP (Instrument Cluster Panel).
Hitch 1014 Five-volt reference is above the upper voltage limit.
Hitch 1015 Five-volt reference is below the lower voltage limit.
Hitch 1016 Not implemented
Hitch 1017 Position Command value received over the CAN data bus from the Armrest indicates Position Command potentiometer failed.
Hitch 1018 Hitch rockshaft position potentiometer open/short/misadjust or circuit failure.
Hitch 1019 Upper Limit value received from CAN data bus indicates failure condition.
Hitch 1021 Load Command value received from CAN data bus indicates failure condition.
Hitch 1022 Single draft pin sensor failed when configured for one draft pin sensor.(CCH Only)
Hitch 1023 Two draft pin sensors failed when configured for two draft pins.(CCH Only)
Hitch 1024 ICU CAN data bus signal lost.
Hitch 1025 Up/Down/Down Momentary switch value received from CAN data bus indicates switch failure.
Hitch 1026 Up/Down remote fender switch failure.
Hitch 1027 Not implemented
Hitch 1028 Travel Range potentiometer value received from CAN data bus indicates failure condition.
Hitch 1029 Drop Rate value received from CAN data bus indicates potentiometer failure condition.
Hitch 1030 Right draft pin voltage is outside the normal operating range.(CCH Only)
Hitch 1031 Left draft pin voltage is outside the normal operating range.(CCH Only)
Hitch 1032 Ground speed failure-value received from CAN data bus indicates failure condition.
Hitch 1033 Slip Limit Set Point received from CAN data bus indicates failure condition.
Hitch 1034 Slip Enable switch received from CAN data bus indicates failure condition.
Hitch 1035 The Percent slip received from ETC indicates failure condition.
Hitch 1036 The ARU reports EDC Inching Up switch faulty or not available.
Hitch 1037 The ARU reports EDC Inching Down switch faulty or not available.
Hitch 1065 The ARU specified tractor without draft control (position only hitch) but detected presence of draft pin(s).
Trans 2009 Seat switch open circuit
Trans 2010 Seat switch is shorted to the supply voltage B+ or 5 volt reference
Trans 2011 Clutch Pot Open Circuit or short to ground
Trans 2012 Clutch Potentiometer Short to +12 Volts or short to 5 Volt reference.
Trans 2024 none of the Transmission clutches are calibrated. This will be the condition when a new controller is installed on the tractor.
Trans 2037 Bottom of Clutch pedal switch open circuit or bottom of clutch relay is stuck open
Trans 2047 Clutch pedal bottom of clutch switch misadjusted.
Trans 2048 Bottom of Clutch pedal switch or the bottom of clutch relay are short circuit
Trans 2049 Trans
Trans 2054 5 volt reference voltage too low.
Trans 2055 No signal from wheel speed sensor.
Trans 2056 5 volt internal reference voltage too high.
Trans 2057 5 volt internal reference voltage too low.
Trans 2059 1) Switch inputs indicate shuttle lever is in both forward and neutral 2) Switch inputs indicate shuttle lever is in both reverse and neutral3) Switch inputs indicate shuttle lever is
in both forward and reverse. Cycle the shuttle lever which may free up stuck switches, or try driving the opposite direction.
Trans 2071 Forward switch input from the FNRP Pod is shorted to ground or is open circuit.
Trans 2072 Reverse switch input from the FNRP Pod is shorted to +12 Volts or the FNRP pod 5 Volt Reference.
Trans 2073 Reverse switch input from the FNRP Pod is shorted to ground or open circuit.
Trans 2074 FNR Not Park Switch low voltage fault
Trans 2075 FNR Not Park Switch high Voltage fault
Trans 2110 FNR Neutral Switch Low Voltage fault
Trans 2111 FNR Neutral Switch high Voltage fault
Trans 2326 The Engine RPM sourced from the alternator measured by the controller is excessively high.
Trans 2327 No engine RPM
Trans 2330 The Transmission output RPM speed, sourced from the sensor, measured by the controller is too high for the desired gear
Trans 2331 The transmission clutches are slipping
Trans 2342 Clutch Odd solenoid open circuit or short to ground.
Trans 2343 Clutch Even solenoid open circuit or short to ground.C33
Trans 2344 Clutch C1-2 solenoid open circuit or short to ground.
Trans 2345 Clutch C3-4 solenoid open circuit or short to ground.
Trans 2346 Clutch 5-6 solenoid open circuit or short to ground.
Trans 2374 Master Clutch solenoid open circuit or short to ground.
Trans 2347 Clutch Low Range solenoid open circuit or short to ground.
Trans 2348 110 Clutch Mid Range solenoid open circuit or short to ground.
Trans 2349 Clutch High Range solenoid open circuit or short to ground.
Trans 2350 Clutch reverse solenoid open circuit or short to ground.
Trans 2351 The creeper clutch solenoid is open circuit or short to ground
Trans 2353 Even Clutch Solenoid is shorted to +12 Volts, current sensed while driver is off.
Trans 2352 Odd Clutch Solenoid is shorted to +12 Volts, current sensed while driver is off.
Trans 2354 C1-2 Clutch Solenoid is shorted to +12 Volts, current sensed while driver is off..
Trans 2355 C3-4 Clutch Solenoid is shorted to +12 Volts, Current sensed while driver is off.
Trans 2356 C5-6 clutch Solenoid is shorted to +12 Volts, current sensed while driver isoff.
Trans 2357 Low clutch Solenoid is shorted to +12 Volts, current sensed while driver is off.
Trans 2358 Mid Clutch Solenoid is shorted to +12 Volts, Current sensed while driver is off.
Trans 2359 High Clutch Solenoid is shorted to +12 Volts, current sensed while driver is off.
Trans 2360 Reverse Clutch Solenoid is shorted to +12 Volts, current sensed while driver is off.
Trans 2361 The creeper clutch solenoid is shorted to +12 Volts, current sensed while the driver is off
Trans 2362 Master Clutch Solenoid is shorted to +12 Volts, current sensed while driver is off.
Trans 2363 The Odd Clutch is not calibrated
Trans 2364 Even Clutch not calibrated
Trans 2365 C1-2 Clutch not calibrated
Trans 2366 C3-4 Clutch not calibrated
Trans 2367 C5-6 Clutch not calibrated
Trans 2368 Low Range Clutch not calibrated
Trans 2369 Mid Range Clutch not calibrated
Trans 2370 High Clutch not calibrated
Trans 2371 Reverse Clutch not calibrated
Trans 2372 Creep Clutch is not calibrated
Trans 2373 Master Clutch not calibrated
Trans 2800 Auto Guidance Isolation valve driver Fault
Trans 2805 System pressure valve solenoid circuit is open circuit or shorted to ground
Trans 2806 System pressure solenoid is shorted to B+
Trans 2807 Transmission output rpm over speed
Trans 2809 The battery voltage is too low to permit operation of the clutch solenoids.
Trans 2811 Transmission Oil Temperature Hot
Trans 2812 Transmission Oil Temperature sensor short to B+ or open circuit
Trans 2813 Transmission oil temperature Sensor Short to Ground
Trans 2814 Integrated Control Panel off line
Trans 2815 Governor Engine RPM alternator engine RPM mismatch
Trans 2816 Transmission regulated pressure accumulator is flat
Trans 2817 Governor is offline CAN bus
Trans 2818 Communication lost with the Armrest Control Module(ACM)
Trans 2819 Communication lost with the instrumentation controller.
Trans 2820 System pressure low possible System pressure hydraulic pump failure or leak
Trans 2821 System Pressure Low fault
Trans 2850 The Park Brake is stuck on by no electrical power supplied when commanded on
Trans 2851 The Park Brake Driver has detected an over current or an open circuit condition
Trans 2852 The Park Brake is stuck on by no electrical power supplied to the solenoid when driver is commanded on. Possible service brake bottom brake switches open.
Trans 2055 No signal from wheel speed sensor.
Trans 2873 Software is out of the calibration mode and the park brake request is still active. If this fault is detected there is a bug in the software
Trans 2874 The park brakes commanded on and gear is engaged and there is no park brake request from calibration. If this fault is detected there is a bug in the software
Trans 2900 Torque sensor Gap is on the larger end of the tolerance (CCH Only)
Trans 2901 Signal received from the torque sensor is not in any fault range or normal range tolerance (CCH Only)
Trans 2902 Torque sensor has declared an internal fault tolerance (CCH Only)
Trans 2903 Torque sensor supply voltage below 4.8 volts tolerance (CCH Only)
Trans 2910 12VF1voltage supply is low. (possible blown fuse*)
Trans 2911 12VT1voltage supply is low. (possible blown fuse*)
Trans 2912 12VF2voltage supply is low. (possible blown fuse*)
Trans 2913 12VHvoltage supply is low. (possible blown fuse*)
Trans 2914 12VF3voltage supply is low. (possible blown fuse*)
Trans 2915 12VS1voltage supply is low. (possible blown fuse*)
Engine 3000 Unknown ECM Error Code Received
Engine 3999 Unknown ECM Error Code Received
Engine 3001 Foot Throttle Sensor -Signal Not Plausible
Engine 3002 Foot Throttle Sensor -Signal Above Range Max.
Engine 3003 Foot Throttle Sensor -Signal Below Range Min.
Engine 3004 Foot Throttle Sensor -No Signal -Error
Engine 3006 Coolant Temperature Sensor -Signal Not Plausible(Compared with Engine Oil Temperature)
Engine 3007 Coolant Temperature Sensor -Signal Above Range Max.
Engine 3008 Coolant Temperature Sensor -Signal Below Range Min.
Engine 3009 Coolant Temperature Sensor -(via CAN) No Signal
Engine 3010 Air Intake Temperature Sensor -Signal Above Range Max.
Engine 3011 Air Intake Temperature Sensor -Signal Above Range Min.
Engine 3012 Air Intake Temperature Sensor -(via CAN) No Signal
Engine 3015 Fuel Temperature Signal -Signal Above Range Max.
Engine 3016 Fuel Temperature Signal -Signal Below Range Min.
Engine 3019 Boost Pressure Sensor -Signal Above Range Max.
Engine 3021 Boost Pressure Sensor -(via CAN) No Signal
Engine 3022 Boost Pressure Sensor -Signal Not Plausible
Engine 3023 Atmospheric Pressure Sensor -Signal Not Plausible Compared with Boost Pressure
Engine 3024 Atmospheric Pressure Sensor -Signal Above Range Max.
Engine 3025 Atmospheric Pressure Sensor -Signal Below Range Min.
Engine 3028 Oil Pressure Too Low
Engine 3029 Oil Pressure Sensor _Short circuit to Battery
Engine 3030 Oil Pressure Sensor _Short circuit to Ground
Engine 3031 Oil Pressure Sensor -Hardware Error
Engine 3032 Oil Pressure Sensor -Value Too High
Engine 3033 Oil Temperature Sensor -Signal Not Plausible (Compared with Coolant Temperature)
Engine 3034 Oil Temperature Sensor -Signal Above Range Max.
Engine 3035 Oil Temperature Sensor -Signal Below Range Min.
Engine 3036 Oil Temperature Sensor -(via CAN) No Signal
Engine 3037 Boost Pressure Sensor -Signal Low
Engine 3038 Constant Engine RPM Activate / Select Switch _Short circuit to Ground
Engine 3039 Cruise Control Actuating Device -Evaluation Error
Engine 3043 Vehicle Speed Sensing -Hardware Conversion Error
Engine 3044 Vehicle Speed Sensing -Signal Above Range Max.
Engine 3045 Vehicle Speed Sensing -Signal Below Range Min.
Engine 3046 Vehicle Speed Sensing -Signal Not Plausible
Engine 3047 Main Relay 2 Failure _Short circuit to Battery
Engine 3048 Main Relay 2 Failure _Short circuit to Ground
Engine 3051 Battery Voltage to ECM too High
Engine 3052 Battery Voltage to ECM too Low
Engine 3053 Vehicle Speed Sensing (Tacho) -PWM Frequency Too High
Engine 3054 Vehicle Speed Sensing (Tacho) -PWM Average Frequency Above Limit
Engine 3055 Vehicle Speed Sensing (Tacho) -PWM Average Frequency Below Limit
Engine 3056 Vehicle Speed Sensing (Tacho) -Not Plausible
Engine 3057 Timeout of CAN Message High Resolution Wheel Speed
Engine 3058 Timeout of CAN Message Vehicle Dynamics Control Unit
Engine 3059 ECM After run was Interrupted
Engine 3060 Cylinder1 -Unclassifiable Error in Injector
Engine 3061 Cylinder1 -Injector Cable Short circuit (Low Side to Battery)
Engine 3062 Cylinder1 -Application Dependent
Engine 3063 Cylinder1 -Injector Cable Short circuit (High Side to Ground)
Engine 3064 Cylinder5 -Unclassifiable Error in Injector
Engine 3065 Cylinder5 -Injector Cable Short circuit (Low Side to Battery)
Engine 3066 Cylinder5 -Application Dependent
Engine 3067 Cylinder5 -Injector Cable Short circuit (High Side to Ground)
Engine 3068 Cylinder3 -Unclassifiable Error in Injector
Engine 3069 Cylinder3 -Injector Cable Short circuit (Low Side to Battery)
Engine 3070 Cylinder3 -Application Dependent
Engine 3071 Cylinder3 -Injector Cable Short circuit (High Side to Ground)
Engine 3072 Cylinder6 -Unclassifiable Error in Injector
Engine 3073 Cylinder6 -Injector Cable Short circuit (Low Side to Battery)
Engine 3074 Cylinder6 -Application Dependent
Engine 3075 Cylinder6 -Injector Cable Short circuit (High Side to Ground)
Engine 3076 Cylinder2 -Unclassifiable Error in Injector
Engine 3077 Cylinder2 -Injector Cable Short circuit (Low Side to Battery)
Engine 3078 Cylinder2 -Application Dependent
Engine 3079 Cylinder2 -Injector Cable Short circuit (High Side to Ground)
Engine 3080 Cylinder4 -Unclassifiable Error in Injector
Engine 3081 Cylinder4 -Injector Cable Short circuit (Low Side to Battery)
Engine 3082 Cylinder4 -Application Dependent
Engine 3083 Cylinder4 -Injector Cable Short circuit (High Side to Ground)
Engine 3088 Crankshaft Sensor -No Signal
Engine 3089 Crankshaft Sensor -Invalid Signal
Engine 3090 Camshaft Sensor -No Signal
Engine 3091 Camshaft Sensor -Invalid Signal
Engine 3092 Offset Between Camshaft and Crankshaft -Not Plausible
Engine 3093 Offset Between Camshaft and Crankshaft -Outside Boundaries
Engine 3095 Operating with Camshaft Sensor Only -Backup Mode
Engine 3096 Tier 3: ECM Bus Off on CAN A Tier 4a: ECM Bus Off on Vehicle CAN
Engine 3097 ECM Bus Off on Engine private CAN
Engine 3098 Timeout of CAN Message TSC1-TE (When Active)
Engine 3099 Timeout of CAN Message TSC1-TE (When Inactive)
Engine 3100 Timeout of CAN Message TSC1-AE (When Active)
Engine 3101 Timeout of CAN Message TSC1-AE (When Inactive)
Engine 3102 Rail Pressure Sensor CP3 -Signal Below Range Min.
Engine 3104 Rail Pressure Relief Valve -Open
Engine 3105 Rail Pressure Relief Valve -Pressure Shock Requested
Engine 3106 Rail Pressure Relief Valve -Did Not Open After Pressure Shock
Engine 3107 Metering Unit _Short circuit to Battery
Engine 3108 Metering Unit _Short circuit to Ground
Engine 3110 Rail Pressure Sensor Offset Monitoring -Value above Limit
Engine 3111 Rail Pressure Sensor Offset Monitoring -Value below Limit
Engine 3112 Rail Pressure Sensor CP3 -Signal Above Range Max.
Engine 3113 Main Relay 1 (High Pressure Pump -power supply to the fuel metering unit) -Short to Battery
Engine 3114 Main Relay 1 (High Pressure Pump -power supply to the fuel metering unit) Short to Ground
Engine 3117 PTO Twist Sensor -Out of Range
Engine 3118 ECM 12V Sensor Supply Voltage High
Engine 3119 ECM 12V Sensor Supply Voltage Low
Engine 3120 PTO Twist Sensor -Not Plausible
Engine 3121 PTO Twist Sensor -Open Circuit
Engine 3122 PTO Twist Sensor _Short circuit to Ground
Engine 3123 PTO Twist Sensor -Not Calibrated
Engine 3124 Hand Throttle -Channel 2 Above Range Max.
Engine 3125 Hand Throttle -Channel 2 Below Range Min.
Engine 3126 Hand Throttle -Channel 1 Signal Above Range Max.
Engine 3127 Hand Throttle -Channel 1 Signal Below Range Min.
Engine 3128 Hand Throttle -Channel Difference Error
Engine 3129 Hand Throttle -Idle Switch Closed Circuit
Engine 3130 Hand Throttle -Idle Switch Open Circuit
Engine 3131 Grid Heater Always Switched On
Engine 3133 Cold Start Lamp -No Load
Engine 3134 Cold Start Lamp _Short circuit to Battery
Engine 3135 Cold Start Lamp _Short circuit to Ground
Engine 3136 Cold Start Lamp -Excessive Temperature
Engine 3137 Metering Unit -Open Load
Engine 3138 Metering Unit -Temperature Too High
Engine 3139 Metering Unit Signal Range Check -Signal Too High
Engine 3140 Metering Unit Signal Range Check -Signal Too Low
Engine 3141 Fuel Flow Set point Too Low
Engine 3142 High Pressure Test -Test Active
Engine 3143 Grid Heater Switch Off Test (Voltage Drop Too High)
Engine 3144 Grid Heater Switch Off Test (Voltage Drop Too Low)
Engine 3145 Terminal 15 -No Signal
Engine 3146 Water Detected In Fuel
Engine 3147 Oil Temperature Too High
Engine 3148 Coolant Temperature Sensor Dynamic Test -Failure (Minimum Temperature Raise Not Reached)
Engine 3149 Coolant Temperature Sensor Test -Failure (Minimum Temperature Not Reached)
Engine 3150 System/Amber Warning Lamp _Short circuit to Battery
Engine 3151 System/Amber Warning Lamp _Short circuit to Ground
Engine 3152 System/Amber Warning Lamp -No Load
Engine 3153 System/Amber Warning Lamp -Excessive Temperature
Engine 3154 Grid Heater Relay _Short circuit to Battery
Engine 3155 Grid Heater Relay _Short circuit to Ground
Engine 3156 Grid Heater Relay -No Load
Engine 3157 ECM Not Detected on CAN bus
Engine 3158 Invalid ECM Checksum
Engine 3159 Invalid Engine Reference Torque
Engine 3160 Fan Actuator _Short circuit to Battery
Engine 3161 Fan Actuator _Short circuit to Ground
Engine 3162 Fan Actuator -Open Load
Engine 3163 Fan Actuator -Temperature Too High
Engine 3164 Fan Speed Sensor _Signal High
Engine 3165 Fan Speed Sensor -Signal Low
Engine 3166 Fuel Filter Heater Relay _Short circuit to Battery
Engine 3167 Fuel Filter Heater Relay _Short circuit to Ground
Engine 3168 Fuel Filter Heater Relay -Open Load
Engine 3169 Fuel Filter Heater Relay -Signal Not Plausible
Engine 3176 Set point of Metering Unit Not Plausible in Overrun
Engine 3177 Engine Over speed Detected
Engine 3178 Timeout of CAN Message BC2EDC1
Engine 3179 Timeout of CAN Message BC2EDC2
Engine 3180 Timeout of CAN Message VCM2EDC
Engine 3181 Rail Pressure Positive Deviation Too High Concerning Set point
Engine 3182 Timeout of CAN Message RxCCVS
Engine 3183 Timeout of CAN Message TSC1-VR (When Active)
Engine 3184 Timeout of CAN Message TSC1-VR (When Inactive)
Engine 3185 Timeout of CAN message TF
Engine 3186 Cylinder1 Warning -Fast Decay Error
Engine 3187 Cylinder1 Warning -Application Dependent
Engine 3188 Cylinder1 Warning -Injector Circuit Low
Engine 3189 Cylinder1 Warning -Current Level Error
Engine 3190 Cylinder2 Warning -Fast Decay Error
Engine 3191 Cylinder2Warning -Application Dependent
Engine 3192 Cylinder2 Warning -Open Load
Engine 3193 Cylinder2 Warning -Current Level Error
Engine 3194 Cylinder3 Warning -Fast Decay Error
Engine 3195 Cylinder3 Warning -Application Dependent
Engine 3196 Cylinder3 Warning -Open Load
Engine 3197 Cylinder3 Warning -Current Level Error
Engine 3198 Cylinder4 Warning -Fast Decay Error
Engine 3199 Cylinder4 Warning -Application Dependent
Engine 3200 Cylinder4 Warning -Open Load
Engine 3201 Cylinder4 Warning -Current Level Error
Engine 3202 Cylinder5 Warning -Fast Decay Error
Engine 3203 Cylinder5 Warning -Application Dependent
Engine 3204 Cylinder5 Warning -Open Load
Engine 3205 Cylinder5 Warning -Current Level Error
Engine 3206 Cylinder6 Warning -Fast Decay Error
Engine 3207 Cylinder6 Warning -Application Dependent
Engine 3208 Cylinder6 Warning -Open Load
Engine 3209 Cylinder6 Warning -Current Level Error
Engine 3210 Bank1 -General Short circuit on Injection Cable
Engine 3211 Bank1 -Injection Cable Short circuit Low Side to Ground
Engine 3212 Bank1 -Application Dependent
Engine 3213 Bank1 -Unclassifiable Error
Engine 3214 Bank1 Warning -Application Dependent
Engine 3215 Bank1 Warning -Application Dependent
Engine 3216 Bank1 Warning -Open Load
Engine 3217 Bank1 Warning -Unclassifiable Error
Engine 3218 Bank2-General Short circuit on Injection Cable
Engine 3219 Bank2 -Injection Cable Short circuit Low Side to Ground
Engine 3220 Bank2 -Application Dependent
Engine 3221 Bank2 -Unclassifiable Error
Engine 3222 Bank2 Warning -Application Dependent
Engine 3223 Bank2 Warning -Application Dependent
Engine 3224 Bank2 Warning -Open Load
Engine 3225 Bank2 Warning -Unclassifiable Error
Engine 3226 Messages SRA2EDC
Engine 3227 Injection Processor (CY33X) Error -Internal Reset / Clock Loss / Voltage Too Low
Engine 3228 Injection Processor (CY33X) Error -Unlocked / Initialization Failure
Engine 3229 Injection Processor (CY33X) Error -Injections Limited By Software
Engine 3230 Injection Processor (CY33X) Error -SPI Communication Failure
Engine 3231 Injection Processor Error -Internal Reset / Clock Loss / Voltage Too Low
Engine 3232 Injection Processor Error -Unlocked / Initialization Failure
Engine 3233 Injection Processor Error -Test Mode
Engine 3234 Injection Processor Error -SPI Communication Failure
Engine 3235 Number of Injections Limited -by Charge Balance
Engine 3236 Number of Injections Limited -by Quantity Balance
Engine 3237 Number of Injections Limited -by Software
Engine 3238 ECM Internal SPI Communication Error -CJ940
Engine 3239 ECM EEPROM -Read Operation Failure
Engine 3240 ECM EEPROM -Write Operation Failure
Engine 3241 ECM EEPROM -Default Value Used
Engine 3242 ECM (Locked) Recovery Occurred
Engine 3243 ECM (Suppressed) -Recovery Occurred
Engine 3244 ECU Recovery (Visible) -Recovery Occurred
Engine 3245 ECM Processor -Watchdog Not Plausible
Engine 3246 Shutoff Paths During Initialization -Watchdog
Engine 3247 Shutoff Paths During Initialization -Supply Voltage Too High
Engine 3248 Shutoff Paths During Initialization -Supply Voltage Too Low
Engine 3249 TPU Monitoring -Time Deviation between TPU and System Not Plausible
Engine 3250 Dataset -Variant Defect
Engine 3251 Dataset -Requested Variant Could Not Be Set
Engine 3252 Controller Watchdog -SPI Communication Failure
Engine 3253 ADC Monitoring -Reference Voltage Too High
Engine 3254 ADC Monitoring -Reference Voltage Too Low
Engine 3255 ADC Monitoring -Test Impulse Error
Engine 3256 ADC Monitoring -Queue Error
Engine 3257 Turbine Speed and Air Pressure Too High
Engine 3258 High Side Power -Short circuit to Battery
Engine 3259 High Side Power _Short circuit to Ground
Engine 3260 Low Side Power -Open Load
Engine 3261 Low Side Power -Short circuit to Battery of Excess Temperature
Engine 3262 Low Side Power _Short circuit to Ground
Engine 3263 ECM Bus Off on CAN C
Engine 3264 Immobilizer -Injection Disabled
Engine 3265 Overrun Monitoring -Injection Time Too Long
Engine 3266 Redundant Engine Speed in Overrun Monitoring -Speed Signal Not Plausible
Engine 3267 Main relay 3 _Short circuit to Battery
Engine 3268 Main relay 3 _Short circuit to Ground
Engine 3269 Grid Heater Switch On Test -Voltage Drop Too High
Engine 3270 Grid Heater Switch On Test -Voltage Drop Too Low
Engine 3271 Fuel Low Pressure Sensor -(via CAN) No Signal
Engine 3272 Fuel Low Pressure Sensor -Signal Above Range Max.
Engine 3273 Fuel Low Pressure Sensor -Signal Below Range Min.
Engine 3274 Fuel Low Pressure Sensor Dynamic Plausibility Test -Above Map
Engine 3275 Fuel Low Pressure Sensor Dynamic Plausibility Test -Below Map
Engine 3276 MIL Visualization Not Available for BC2EDC1
Engine 3277 Timeout of CAN Message Dashboard Display
Engine 3278 ECM Internal Supply Voltage Too High -CJ940 Above Limit
Engine 3279 ECM Internal Supply Voltage Too Low -CJ940 Below Limit
Engine 3280 Sensor Supply Voltage 1 -High
Engine 3281 Sensor Supply Voltage 1 — Low
Engine 3282 Timeout of CAN Message WSI (Wheel Speed Info)
Engine 3283 Sensor Supply Voltage 2 -High
Engine 3284 Sensor Supply Voltage 2 — Low
Engine 3285 Sensor Supply Voltage 3 -High
Engine 3286 Sensor Supply Voltage 3 — Low
Engine 3287 Turbo Compound Monitoring -No Signal
Engine 3288 Turbo Compound Monitoring -Signal High
Engine 3289 Turbo Compound Monitoring -Signal Low
Engine 3290 Turbo Compound Monitoring -Signal Not Plausible
Engine 3291 Cylinder 1 Specific Errors -No Signal
Engine 3292 Cylinder 1 Specific Errors -Signal Low
Engine 3293 Cylinder 1 BIP Search Failure -Too Many Unsuccessful Searched
Engine 3294 Cylinder 1 Specific Errors -Signal Not Plausible
Engine 3295 Cylinder 2 Specific Errors -No Signal
Engine 3296 Cylinder 2 Specific Errors -Signal Low
Engine 3298 Cylinder 2 Specific Errors -Signal Not Plausible
Engine 3299 Cylinder 3 Specific Errors -No Signal
Engine 3300 Cylinder 3 Specific Errors -Signal Low
Engine 3301 Cylinder 3 BIP Search Failure -Too Many Unsuccessful Searches — Rail Pressure Negative Deviation too High on Minimum Metering
Engine 3302 Cylinder 3 Specific Errors -Signal Not Plausible
Engine 3303 Cylinder 4 Specific Errors -No Signal
Engine 3304 Cylinder 4 Specific Errors -Signal Low
Engine 3305 Cylinder 4 BIP Search Failure -Too Many Unsuccessful Searches — Rail Pressure below Minimum Limit in Controlled Mode
Engine 3306 Cylinder 4 Specific Errors -Signal Not Plausible
Engine 3307 Cylinder 5 Specific Errors -No Signal
Engine 3308 Cylinder 5 Specific Errors -Signal Low
Engine 3309 Cylinder 5 BIP Search Failure -Too Many Unsuccessful Searches — Rail Pressure above Maximum Limit in Controlled Mode
Engine 3310 Cylinder 5 Specific Errors -Signal Not Plausible
Engine 3311 Cylinder 6 Specific Errors -No Signal
Engine 3312 Cylinder 6 Specific Errors -Signal Low
Engine 3313 Cylinder 6 BIP Search Failure -Too Many Unsuccessful Searches — Rail Pressure Drop Rate too High
Engine 3314 Cylinder 6 Specific Errors -Signal Not Plausible
Engine 3315 Minimum Number of Injections Not Reached -Stop Engine
Engine 3316 Minimum Number of Injections Not Reached -Stop Engine
Engine 3317 Minimum Number of Injections Not Reached -Stop Engine
Engine 3318 Minimum Number of Injections Not Reached -Stop Engine
Engine 3319 DM1DCU SPN2 message -Error in DCU active
Engine 3320 DM1DCU SPN3 message -Error in DCU active
Engine 3321 Timeout of CAN Message DM1DCU SPN4
Engine 3322 Timeout of CAN Message ERC1DR
Engine 3323 Timeout of CAN Message RxAMCONIv (Ambient Conditions)
Engine 3324 Timeout of CAN Message EBC1 (Electronic Brake Switch)
Engine 3325 Timeout of CAN Message ETC1 (Transmission)
Engine 3326 Timeout of CAN Message ETC2 (Transmission)
Engine 3327 Timeout of CAN Message TCO1 (Tachograph)
Engine 3328 Timeout of CAN Message TSC1-AR (When Inactive)
Engine 3329 Timeout of CAN Message TSC1-AR (When Active)
Engine 3330 Timeout of CAN Message TSC1-DE (When Inactive)
Engine 3331 Timeout of CAN Message TSC1-DE (When Active)
Engine 3332 Timeout of CAN Message TSC1-DR (When Inactive)
Engine 3333 Timeout of CAN Message TSC1-DR (When Active)
Engine 3334 Timeout of CAN message TSC1-PE Torque (When Active)
Engine 3335 Timeout of CAN message TSC1-PE Torque (When Inactive)
Engine 3336 Timeout of CAN Message TSC1-TR (When Inactive)
Engine 3337 Timeout of CAN Message TSC1-TR (When Active)
Engine 3338 Timeout of CAN message TSC1-VE Speed (When Inactive)
Engine 3339 Timeout of CAN message TSC1-VE Speed (When Active)
Engine 3340 Timeout of CAN Message Time Date
Engine 3341 Timeout of CAN Message HRVD (High Resolution Vehicle Distance)
Engine 3342 Power Stage Air Heater 2 Actuator -No Signal
Engine 3343 Power Stage Air Heater 2 Actuator -Signal High
Engine 3344 Power Stage Air Heater 2 Actuator -Signal Low
Engine 3345 Total Throttle Failure (Only applies to Dual Throttle Vehicles)
Engine 3346 Multiple State Switch
Engine 3347 Multiple State Switch
Engine 3348 Multiple State Switch
Engine 3349 Multiple State Switch
Engine 3350 Terminal 50 -Always On
Engine 3351 Engine Brake Decompression Valve -Open Load
Engine 3352 Engine Brake Decompression Valve _Short circuit to Battery
Engine 3353 Engine Brake Decompression Valve _Short circuit to Ground
Engine 3354 Main Relay 4 (Engine Brake Exhaust Valve) _Short circuit to Ground
Engine 3355 Main Relay 4 (Engine Brake Exhaust Valve) -Short to Battery or open load
Engine 3356 Cylinder Shutoff (Cylinder Balancing Disabled) -Shutoff Active
Engine 3357 Misfire in Multiple Cylinders -Too Many Misfires
Engine 3358 CAN Transmit Timeout
Engine 3359 TSC Demand Physically Implausible
Engine 3360 Driving Dynamic Control -Not Plausible
Engine 3361 ECM EEPROM -General Error
Engine 3362 Torque to Quantity Map -Not Plausible
Engine 3363 Atmospheric Pressure Sensor -Processed via ADC (no CAN Plausibility Performed)
Engine 3364 Foot Pedal 2 -Signal Too High
Engine 3365 Foot Pedal 2 -Signal Too Low
Engine 3366 Foot Pedal 2 -Signal Not Plausible Compared to Foot Pedal 1
Engine 3367 Coolant Temperature Test Failure
Engine 3368 Info: Torque Limitation due to OBD Performance Limiter by Legislation
Engine 3369 Torque Reduction due to Smoke Limitation
Engine 3370 Info: Torque Limitation due to Engine Protection (against Excessive Torque, Engine Over speed and Overheat)
Engine 3371 Info: Torque Limitation due to Fuel Quantity Limitation because of Injection System Errors
Engine 3372 Injection Quantity Adjustment failure -Invalid Adjustment Value
Engine 3373 Injection Quantity Adjustment failure -EEPROM Adjustment Value Not Readable
Engine 3374 Injection Quantity Adjustment failure -Invalid EEPROM Adjustment Value Checksum
Engine 3375 Constant Engine RPM Increase / Decrease Switch _Short circuit to Battery
Engine 3376 Engine Controller Software Does Not Support Power Management (Engine Power Management Option Enabled, but Engine Software Not Compatible)
Engine 3377 Constant Engine RPM Switch Detected but Option Not Enabled.
Engine 3380 Engine Fan Increase Speed Error (open or short circuit)
Engine 3381 Engine Fan Decrease Speed Error (open or short circuit)
Engine 3382 Fan Control Solenoid Short To 12Vr
Engine 3383 Fan Control Solenoid Open Or Short To GND
Engine 3384 Vistronic Engine Cooling Fan driver open or short circuit
Engine 3399 Engine Fuel Lift Pump relay driver over current fault
Engine 3513 SCR Catalyst not present _Relation of temperature behavior between both Catalyst Temperatures not plausible
Engine 3517 Ambient Air Temperature Sensor failure (of Humidity Sensor) -Signal too high
Engine 3518 Ambient Air Temperature Sensor failure (of Humidity Sensor) -Signal too low
Engine 3519 Ambient Air Temperature Sensor failure (of Humidity Sensor) -CAN Signal failure
Engine 3521 NOx Estimation failure -Estimated Nox signal not reliable
Engine 3528 NOx Sensor Plausibility failure -Signal not plausible
Engine 3529 NOx Sensor Failure -Open Load
Engine 3530 NOx Sensor Failure -Short Circuit
Engine 3532 NOx Sensor Failure -Sensor not ready in time
Engine 3533 CAN Message timeout Nox (from Nox Sensor) -CAN timeout
Engine 3537 CAN Message timeout DM1DCU (from DCU) -CAN timeout
Engine 3541 CAN Message timeout SCR1 (from DCU) -CAN timeout
Engine 3545 Info: SCR Dosing Valve Overheat Protection -Torque Limitation Level2 for SCR Protection active
Engine 3546 Info: SCR Dosing Valve Overheat Protection -Torque Limitation Level1 for SCR Protection active
Engine 3549 Humidity Sensor Signal Ratio failure -Signal Ratio above Limit
Engine 3550 Humidity Sensor Signal Ratio failure -Signal Ratio below Limit
Engine 3555 CAN Message timeout SCR2 (from DCU)-CAN timeout
Engine 3557 Info: Humidity Sensor possibly saturated with water droplets -Signal Ratio above Limit
Engine 3558 Info: Humidity Sensor possibly saturated with water droplets -Signal Ratio below Limit
Engine 3561 NOx value not plausible (After treatment plausibility)
Engine 3565 Urea quality and urea warning level 1
Engine 3569 urea quality and urea warning level 2
Engine 3573 urea quality and urea warning level 3
Engine 3577 DM1DCU SPN1 message -Error in DCU active
Engine 3581 Performance limit active due to either stage -Performance Limitation active
EHR 4135 Rear Remote No.3 -Spool Deflection Excessive
EHR 4136 Rear Remote No.3 -Open Center Position Not Reached
EHR 4137 Rear Remote No.3 -Manual Operation
EHR 4138 Rear Remote No.3 -Output Stage Faulty
EHR 4139 Rear Remote No.3 -Position Transducer Faulty
EHR 4140 Rear Remote No.3 -Spool Cannot be Brought Back to Neutral
EHR 4141 Rear Remote No.3 -Spool Not in Neutral When Switched On
EHR 4142 Rear Remote No.4 -No EHR Control Messages
EHR 4143 Rear Remote No.4 -Implausible EHR Control Messages
EHR 4144 Rear Remote No.4 -Checksum Verification Failure
EHR 4145 Rear Remote No.4 -Neutral Set point
EHR 4146 Rear Remote No.4 -Under Voltage
EHR 4147 Rear Remote No.4 -Over Voltage
EHR 4148 Rear Remote No.4 -Spool Deflection Too Short
EHR 4149 Rear Remote No.4 -Spool Deflection Excessive
EHR 4150 Rear Remote No.4 -Open Center Position Not Reached
EHR 4151 Rear Remote No.4 -Manual Operation
EHR 4152 Rear Remote No.4 -Output Stage Faulty
EHR 4153 Rear Remote No.4 -Position Transducer Faulty
EHR 4154 Rear Remote No.4 -Spool Cannot be Brought Back to Neutral
EHR 4155 Rear Remote No.4 -Spool Not in Neutral When Switched On
EHR 4156 Rear Remote No.5 -No EHR Control Messages
EHR 4157 Rear Remote No.5 -Implausible EHR Control Messages
EHR 4158 Rear Remote No.5 -Checksum Verification Failure
EHR 4159 Rear Remote No.5 -Neutral Set point
EHR 4160 Rear Remote No.5 -Under Voltage
EHR 4161 Rear Remote No.5 _Over Voltage
EHR 4162 Rear Remote No.5 -Spool Deflection Too Short
EHR 4163 Rear Remote No.5 -Spool Deflection Excessive
EHR 4164 Rear Remote No.5 -Open Center Position Not Reached
EHR 4165 Rear Remote No.5 -Manual Operation
EHR 4166 Rear Remote No.5 -Output Stage Faulty
EHR 4167 Rear Remote No.5 -Position Transducer Faulty
EHR 4168 Rear Remote No.5 -Spool Cannot be Brought Back to Neutral
EHR 4169 Rear Remote No.5 -Spool Not in Neutral When Switched On
EHR 4170 Rear Remote No.1 _Lever Not Calibrated
EHR 4173 Rear Remote No.2 -Lever Not Calibrated
EHR 4177 Rear Remote No.3 -Lever Not Calibrated
EHR 4180 Rear Remote No.4 -Lever Not Calibrated
EHR 4190 EHR 1 Offline Err
EHR 4191 EHR 2 Offline Err
EHR 4192 EHR 3 Offline Err
EHR 4193 EHR 4 Offline Err
EHR 4198 EHR 5 Offline Err
EHR 4216 Rear Remote No.1 -Valve Spool Not Calibrated
EHR 4217 Rear Remote No.2 -Valve Spool Not Calibrated
EHR 4218 Rear Remote No.3 -Valve Spool Not Calibrated
EHR 4219 Rear Remote No.4 -Valve Spool Not Calibrated
EHR 4220 Rear Remote No.5 -Valve Spool Not Calibrated
EHR 4301 Rear Remote No.6 -No EHR Control Messages
EHR 4302 Rear Remote No.6 -Implausible EHR Control Messages
EHR 4303 Rear Remote No.6 -Checksum Verification Failure
EHR 4304 Rear Remote No.6 -Neutral Set point
EHR 4305 Rear Remote No.6 -Under Voltage
EHR 4306 Rear Remote No.6 -Over Voltage
EHR 4307 Rear Remote No.6 -Spool Deflection Too Short
EHR 4308 Rear Remote No.6 -Spool Deflection Excessive
EHR 4309 Rear Remote No.6 -Open Center Position Not Reached
EHR 4310 Rear Remote No.6 -Manual Operation
EHR 4311 Rear Remote No.6 -Output Stage Faulty
EHR 4312 Rear Remote No.6 -Position Transducer Faulty
EHR 4313 Rear Remote No.6 -Spool Cannot be Brought Back to Neutral
EHR 4314 Rear Remote No.6 -Spool Not in Neutral When Switched On
EHR 4315 Rear Remote No.7 -No EHR Control Messages
EHR 4316 Rear Remote No.7 -Implausible EHR Control Messages
EHR 4317 Rear Remote No.7 -Checksum Verification Failure
EHR 4318 Rear Remote No.7 -Neutral Set point
EHR 4319 Rear Remote No.7 -Under Voltage
EHR 4320 Rear Remote No.7 -Over Voltage
EHR 4321 Rear Remote No.7 -Spool Deflection Too Short
EHR 4322 Rear Remote No.7 -Spool Deflection Excessive
EHR 4323 Rear Remote No.7 -Open Center Position Not Reached
EHR 4324 Rear Remote No.7 -Manual Operation
EHR 4325 Rear Remote No.7 -Output Stage Faulty
EHR 4326 Rear Remote No.7 -Position Transducer Faulty
EHR 4327 Rear Remote No.7 -Spool Cannot be Brought Back to Neutral
EHR 4328 Rear Remote No.7 -Spool Not in Neutral When Switched On
EHR 4329 Rear Remote No.8 -No EHR Control Messages
EHR 4330 Rear Remote No.8 -Implausible EHR Control Messages
EHR 4331 Rear Remote No.8 -Checksum Verification Failure
EHR 4332 Rear Remote No.8 -Neutral Set point
EHR 4333 Rear Remote No.8 -Under Voltage
EHR 4334 Rear Remote No.8 -Over Voltage
EHR 4335 Rear Remote No.8 -Spool Deflection Too Short
EHR 4336 Rear Remote No.8 -Spool Deflection Excessive
EHR 4337 Rear Remote No.8 -Open Center Position Not Reached
EHR 4338 Rear Remote No.8 -Manual Operation
EHR 4339 Rear Remote No.8 -Output Stage Faulty
EHR 4330 Rear Remote No.8 -Position Transducer Faulty
EHR 4341 Rear Remote No.8 -Spool Cannot be Brought Back to Neutral
EHR 4342 Rear Remote No.8 -Spool Not in Neutral When Switched On
EHR 4343 Rear Remote No.5 -Lever Not Calibrated
EHR 4344 Rear Remote No.6 -Lever Not Calibrated
EHR 4345 Rear Remote No.7 -Lever Not Calibrated
EHR 4346 Rear Remote No.8 -Lever Not Calibrated
EHR 4347 EHR 6 Offline Err
EHR 4348 EHR 7 Offline Err
EHR 4349 EHR 8 Offline Err
EHR 4350 Rear Remote No.6 -Valve Spool Not Calibrated
EHR 4351 Rear Remote No.7 -Valve Spool Not Calibrated
EHR 4352 Rear Remote No.8 -Valve Spool Not Calibrated
EHR 4353 EHR FB 1High Err
EHR 4354 EHR FB 1 Low Err
EHR 4355 EHR FB 3 High Err
EHR 4356 EHR FB 3 Low Err
EHR 4357 EHR Implement Lower Error
EHR 4358 EHR Implement Raise Error
Rear PTO 5001 PTO cab switch, or Auto PTO switch, or PTO remote fender switch is on during tractor power up.
Rear PTO 5002 PTO switch interlock
Rear PTO 5003 Auto PTO switch data is set to the error state(CCH Only)
Rear PTO 5004 Auto PTO switch stuck on condition(CCH Only)
Rear PTO 5005 PTO remote fender switch short(CCH Only)
Rear PTO 5006 PTO remote fender switch open(CCH Only)
Rear PTO 5007 PTO remote fender switch stuck on(CCH Only)
Rear PTO 5008 Both PTO On and Off switches are simultaneously on. One of the PTO switches is short to 12 volts.
Rear PTO 5009 PTO solenoid open circuit or shorted to ground or AD12vs2 voltage is low.
Rear PTO 5010 PTO solenoid circuit shorted to B+ when PTO is in the off state.
Rear PTO 5011 Driver is on and no current is sensed.
Rear PTO 5012 PTO clutch is slipping excessively for the duration of 5 seconds or longer.
Rear PTO 5013 Engine speed is too low for the PTO to be in the ïonà state.
Rear PTO 5014 PTO is commanded off but the PTO speed greater than zero.
Rear PTO 5015 The software has not detected PTO shaft speed for greater than 3 seconds since the PTO initial fill vale was commanded
Rear PTO 5016 PTO speed is detected when the PTO is in the off state without engine RPM.
Rear PTO 5017 PTO clutch did not lock up after 6 seconds of clutch motion.
Rear PTO 5018 PTO speed sensors wiring swapped (CCH Only)
Rear PTO 5019 PTO is configured as a two speed and no shaft size frequency was detected when the PTO was switched on. (CCH Only)
Rear PTO 5020 PTO is configured as a single speed and the shaft size frequency was detected when the PTO was switched on. Shaft size frequency input is only used for two speeds PTO.(CCH Only)
Rear PTO 5021 Auto PTO disabled(CCH Only)
Rear PTO 5022 PTO switch is in the on position when the engine is off.
Rear PTO 5023 PTO clutch lube solenoid circuit shorted to B+ when PTO is in the off state.(4WD Only)
Rear PTO 5024 PTO clutch lube solenoid open circuit or shorted to ground or +12 VF3 voltage is low.(4WD Only)
Rear PTO 5025 Rear PTO
Rear PTO 5027 Low side of PTO solenoid connected permanently to GND
Rear PTO 5028 Clutch speed sensor open or short to Vbat
Rear PTO 5029 Clutch speed sensor short to GND
Rear PTO 5030 Shaft size speed sensor open or short to Vbat(CCH Only)
Rear PTO 5031 Shaft size speed sensor short to GND(CCH Only)
Rear PTO 5032 12VF3voltage supply is low. (possible blown fuse*)
MFD/Diff Lock 6001 MFD (CCH) or Front Diff Lock (4WD) solenoid failed. Possible Failure modes: 1. Solenoid coil failed 2. Damaged wiring 3. Loose connector or bent pin 4. TCU Internal failure
MFD/Diff Lock 6002 Rear Diff Lock solenoid failed. Possible Failure modes: 1. Diff Lock solenoid coil failed 2. Damaged wiring 3. Loose connector or bent pin 4. TCU Internal failure
MFD/Diff Lock 6003 Brake light relay fault. 1. Short to 12 volts 2. Open circuit or short to ground.
MFD/Diff Lock 6004 CAN-BUS indicating Rear Diff Lock Switch failed in the armrest. Possible failure modes: 1. Rear Diff Lock Switch failed in Armrest2. Auto Diff Lock Switch failed in Armrest
(CCH Only) 3. Communication problems between the TCU controller and the Armrest controller
MFD/Diff Lock 6005 Rear Differential Lock and Auto Differential Lock (Only CCH):1. Diff Lock On and Auto Diff Lock switches are both active
MFD/Diff Lock 6006 CAN-BUS indicating MFD (CCH) or Front Diff Lock (4WD)Switch failed in the armrest. Possible failure modes: 1. MFD (CCH) or Front Diff Lock (4WD)failed in Armrest2. Auto MFD
Switch failed in Armrest, (CCH). 3. Communication problems between the TCU controller and the Armrest
MFD/Diff Lock 6007 Both MFD and Auto MFD switches active fault
MFD/Diff Lock 6008 Steering angle sensor above maximum voltage limit.
MFD/Diff Lock 6009 Steering angle sensor below minimum voltage limit.
MFD/Diff Lock 6010 12VS1voltage supply is low. (possible blown fuse*)
MFD/Diff Lock 6011 12VS2 voltage supply is low. (possible blown fuse*)
Front PTO 8001 Front PTO cab switch is on during tractor power up.
Front PTO 8002 Front PTO cab switch open
Front PTO 8003 Front PTO cab switch short
Front PTO 8004 Front PTO solenoid open circuit or shorted to ground or AD12VU2 voltage is low.
Front PTO 8005 Front PTO solenoid circuit shorted to B+ when Front PTO is in the off state.
Front PTO 8006 Low side driver is stuck on and no current is sensed.
Front PTO 8007 Front PTO switch is in the on position when the engine is off.
Front PTO 8010 12VU2voltage supply is low. (possible blown fuse*)
Front Suspension 10001 Front suspension Pump Not tank Valve solenoid is open circuit or shorted to ground
Front Suspension 10002 Front suspension rod Side Valve solenoid is open circuit or shorted to ground
Front Suspension 10003 Front suspension piston Side Valve solenoid is open circuit or shorted to ground
Front Suspension 10004 Front Suspension Position sensor out of Range High Error
Front Suspension 10005 Front Suspension Position sensor out of Range Low Error
Front Suspension 10006 Front suspension will not raise error
Front Suspension 10007 Front Suspension will not Lower error
Front Suspension 10008 Front Suspension Piston Pressure transducer range high error
Front Suspension 10009 Front Suspension Piston Pressure transducer range lower error
Front Suspension 10010 Front Suspension Rod Pressure transducer range high error
Front Suspension 10011 Front Suspension Rod Pressure transducer range lower error
Front Suspension 10012 Front suspension Rod side pressure will not raise error
Front Suspension 10013 Front suspension piston side pressure will not raise error
Front Suspension 10014 Front Suspension Not calibrated error
Front Suspension 10015 Front suspension Lock Valve Solenoid is open circuit or is shorted to ground.
Front Suspension 10016 FSUS_ENABLE_SW_ERR 10016
Front Suspension 10017 FSUS_ENABLE_SW_NA_ERR10017
Front Suspension 10018 Front Suspension Pump not tank Solenoid over current
Front Suspension 10019 Front Suspension rod Side Solenoid over current
Front Suspension 10020 Front Suspension piston Solenoid over current
Front Suspension 10021 Front Suspension lock out Solenoid over current
Front Suspension 10022 12VM voltage supply is low. (possible blown fuse*)
Front Suspension 10023 12VF3 voltage supply is low. (possible blown fuse*)
Front Suspension 10024 12VF1 voltage supply is low. (possible blown fuse*)
ICU 14002 Trans oil filter switch closed to ground on power up.
ICU 14003 Hyd oil filter switch closed to ground on power up.
ICU 14005 PTO shaft speed data is _ERROR_ or _NOT AVAILABLE_ state from PTO.
ICU 14006 GOV ENGINE speed data is _ERROR_ or _NOT AVAILABLE_ state from GOV.
ICU 14007 Engine Over speeding
ICU 14008 ENGINE oil pressure data is _ERROR_ or _NOT AVAILABLE_ state from GOV.
ICU 14009 Loss of valid ENGINE Hours
ICU 14010 PTO controller off line
ICU 14011 Communications Lost with Vehicle Data Bus 1 and ALL other controllers
ICU 14013 TRANSMISSION Off Line
ICU 14014 ENGINE coolant temperature data is _ERROR_ or _NOT AVAILABLE_ state from GOV.
ICU 14015 Engine Intake Air Temperature data is _ERROR|| or _NOT AVAILABLE|| state from GOV.
ICU 14016 Engine shutdown activated
ICU 14017 Fuel Level Sensor voltage out of range low.
ICU 14018 GOV Off Line
ICU 14019 ATC Off Line
Armrest 18001 Hand throttle #1 -voltage too low (New Holland Only)
Armrest 18002 Hand throttle #1 -voltage too high (New Holland Only)
Armrest 18003 Hand throttle #2 -voltage too low
Armrest 18004 Hand throttle #2 -voltage too high
Armrest 18005 Engine droop control -voltage too low
Armrest 18006 Engine droop control -voltage too high
Armrest 18007 Multi-function handle -switch error
Armrest 18008 Multi-function handle -voltage too low
Armrest 18009 Multi-function handle -voltage too high
Armrest 18010 Powershift throttle -voltage too low (Case IH)
Armrest 18011 Powershift throttle -voltage too high (Case IH)
Armrest 18012 CVT mode switch error
Armrest 18013 Multi-function handle -encoder position error
Armrest 18014 Rear hitch position control potentiometer -voltage too low
Armrest 18015 Rear hitch position control potentiometer -voltage too high
Armrest 18016 Rear hitch draft control potentiometer -voltage too low
Armrest 18017 Rear hitch draft control potentiometer -voltage too high
Armrest 18018 Rear hitch height limit potentiometer -voltage too low
Armrest 18019 Rear hitch height limit potentiometer -voltage too high
Armrest 18020 Rear hitch drop rate potentiometer -voltage too low
Armrest 18021 Rear hitch drop rate potentiometer -voltage too high
Armrest 18022 Rear hitch sensitivity control potentiometer -voltage too low
Armrest 18023 Rear hitch sensitivity control potentiometer -voltage too high
Armrest 18024 EHR flow encoder position error
Armrest 18025 Rear hitch slip control potentiometer -voltage too low
Armrest 18026 Rear hitch slip control potentiometer -voltage too high
Armrest 18027 EHR 5 lever position -voltage too low (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18028 EHR 5 lever position -voltage too high (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18029 EHR 6 lever position -voltage too low (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18030 EHR 6 lever position -voltage too high (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18031 Front hitch position / pressure control potentiometer -voltage too high
Armrest 18032 Front hitch position / pressure control potentiometer -voltage too low
Armrest 18033 Front hitch position / pressure mix potentiometer -voltage too high
Armrest 18034 Front hitch position / pressure mix potentiometer -voltage too low
Armrest 18035 Front hitch position height limit potentiometer -voltage too high
Armrest 18036 Front hitch position height limit potentiometer -voltage too low
Armrest 18037 Front hitch height limit enable switch error
Armrest 18038 Front hitch position drop rate potentiometer -voltage too high
Armrest 18039 Front hitch position drop rate potentiometer -voltage too low
Armrest 18040 EHR 1 lever position -voltage too low
Armrest 18041 EHR 1 lever position -voltage too high
Armrest 18042 EHR 2 lever position -voltage too low
Armrest 18043 EHR 2 lever position -voltage too high
Armrest 18044 EHR 3 lever position -voltage too low
Armrest 18045 EHR 3 lever position -voltage too high
Armrest 18046 EHR float control switch error
Armrest 18047 EHR 4 lever position -voltage too low
Armrest 18048 EHR 4 lever position -voltage too high
Armrest 18049 Joystick 1 X-axis position -voltage too low
Armrest 18050 Joystick 1 X-axis position -voltage too high
Armrest 18051 Joystick 1 Y-axis position -voltage too low
Armrest 18052 Joystick 1 Y-axis position -voltage too high
Armrest 18053 Joystick 1 proportional rocker switch -voltage too low
Armrest 18054 Joystick 1 proportional rocker switch -voltage too high
Armrest 18055 Joystick 2 X-axis position -voltage too low (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18056 Joystick 2 X-axis position -voltage too high (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18057 Joystick 2 Y-axis position -voltage too low (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18058 Joystick 2 Y-axis position -voltage too high (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18059 Joystick 2 proportional rocker switch -voltage too low (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18060 Joystick 2 proportional rocker switch -voltage too high (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18061 Reference voltage _short circuit to 0V
Armrest 18062 Reference voltage _short circuit to 12V
Armrest 18063 EEPROM fault
Armrest 18064 MFH communication error
Armrest 18065 MFH basic assurance test error
Armrest 18066 EHR 1 lever implausibility error
Armrest 18067 EHR 2 lever implausibility error
Armrest 18068 EHR 3 lever implausibility error
Armrest 18069 EHR 4 lever implausibility error
Armrest 18070 EHR 5 lever implausibility error (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18071 EHR 6 lever implausibility error (not applicable to CCM/APH _it may indicate incorrect configuration of the ACM)
Armrest 18072 EDC mouse raise/work switch fault (NH Only)
DCU 19001 Battery voltage sensing (electrical) _signal high _P0563 Battery voltage evaluation above upper limit
DCU 19002 Battery voltage sensing (electrical) |signal low |P0562 Battery voltage evaluation below lower limit
DCU 19010 Temperature sensor after catalyst (electrical) _signal high _P042D Catalyst Temperature Sensor Circuit High
DCU 19011 Temperature sensor after catalyst (electrical) |signal low |P042C Catalyst Temperature Sensor Circuit Low
DCU 19019 Temperature sensor before catalyst (electrical) _signal high _P0428 Catalyst Temperature Sensor Circuit High
DCU 19020 Temperature sensor before catalyst (electrical) |signal low |P0427 Catalyst Temperature Sensor Circuit Low
DCU 19037 Sensor supply 2 (5V internal; for UREA pressure sensors) _Supply Voltage too high _P204D Reagent -pressure sensor -short circuit high
DCU 19038 Sensor supply 2 (5V internal; for UREA pressure sensors) |Supply voltage too low |P204C Reagent -pressure sensor -short circuit low
DCU 19046 UREA pressure sensor in box (electrical) |supply voltage error |P204A Reagent -pressure sensor -open circuit
DCU 19047 UREA pressure sensor in box (electrical) _signal high _P204D Reagent -pressure sensor -short circuit high
DCU 19048 UREA pressure sensor in box (electrical) |signal low |P204C Reagent -pressure sensor -short circuit low
DCU 19055 UREA Temperature sensor in box (electrical) _high signal _P2045 Reagent -temperature sensor of pump module -short circuit high
DCU 19056 UREA Temperature sensor in box (electrical) |signal low |P2044 Reagent -temperature sensor of pump module -short circuit low
DCU 19064 Voltage supply internal heaters 1 (UB1) electrical |Open circuit to UB1 |P20C5 Pump module — Internal heating -open circuit
DCU 19065 Voltage supply internal heaters 1 (UB1) electrical |Short to bat at UB1 with Key 15 off |P20C8 Pump module -Internal heating -short circuit high
DCU 19073 Voltage supply 2 -tube heaters (UB2) electrical |Short to bat at UB2 with Key 15 off |P20C4 Reagent -suction tube heating -short circuit high
DCU 19074 Voltage supply 2 -tube heaters (UB2) electrical |Open circuit to UB2 |P20C1 Reagent -suction tube heating -open circuit
DCU 19075 Voltage supply 2 -tube heaters (UB2) electrical |Short circuit to Ground UB2 |P20C3 Reagent — suction tube heating -short circuit low
DCU 19082 Voltage supply 3 -Coolant control valve and reverting valve (UB3) electrical |Short to bat at UB3 with Key 15 off |P20A3 Vent valve (Reductant Purge Control Valve) -short circuit high
DCU 19083 Voltage supply 3 -Coolant control valve and reverting valve (UB3) electrical |Open circuit to UB3 |P20A0 Vent valve (Reductant Purge Control Valve) -open circuit
DCU 19084 Voltage supply 3 -Coolant control valve and reverting valve (UB3) electrical |Short circuit to Ground UB3 |P20A2 Vent valve (Reductant Purge Control Valve) -short circuit low
DCU 19091 Monitoring VDD11 voltage -Dosing valve |supply voltage low |P0658 12 Volt supply for dosing module -below lower limit
DCU 19092 Monitoring VDD11 voltage-Dosing valve _supply voltage high _P0659 12 Volt supply for dosing module -above upper limit
DCU 19100 UREA level sensor (electrical) |supply voltage error |P203E Reductant Level Sensor -Circuit Intermittent/Erratic
DCU 19101 UREA level sensor (electrical) _signal high _P203D Reagent -tank level sensor -short circuit high
DCU 19102 UREA level sensor (electrical) |signal low |P203C Reagent -tank level sensor -short circuit low
DCU 19109 UREA Temperature sensor in Tank (electrical) _signal high _P205D Reagent -tank temperature sensor (temperature of the Reagent -solution in the tank) -short circuit high
DCU 19110 UREA Temperature sensor in Tank (electrical) |signal low |P205C Reagent -tank temperature sensor (temperature of the Reagent -solution in the tank) -short circuit low
DCU 19145 Dosing Valve (electrical) |short circuit to batt + |P2049 Reductant Injector -circuit high
DCU 19146 Dosing Valve (electrical) |short circuit to ground |P2048 Reductant Injector -circuit low
DCU 18147 Dosing Valve (electrical) |open load |P2047 Reductant Injector -circuit open
DCU 19148 Dosing Valve (electrical) |Dosing valve permanent ñONî (detection via fast decay) |P209B Reagent-dosing nozzle pressure too high
DCU 19154 UREA Pump speed |pump motor unplugged |P208B Reagent-pump not delivering
DCU 19155 UREA Pump speed _pump motor blocked _P208A Reagent-pump
DCU 19156 UREA Pump speed |pump overspeed |P208D Reagent-pump over speed
DCU 19157 UREA Pump speed |Hall sensors defect |P208B Reagent-pump not delivering
DCU 19163 Cooling control valve short circuit to UBat or open load |short circuit to battery |P20A3 Vent valve (Reductant Purge Control Valve) -short circuit high
DCU 19164 Cooling control valve short circuit to UBat or open load |Open load |P20A0 Vent valve (Reductant Purge Control Valve) -open circuit
DCU 19172 Cooling control valve short circuit to ground |short circuit to ground |P20A2 Vent valve (Reductant Purge Control Valve) -short circuit low
DCU 19181 Reverting valve (4-2way valve?) electrically |Short circuit to battery |P20A3 Vent valve (Reductant Purge Control Valve) -short circuit high
DCU 19182 Reverting valve (4-2way valve?) electrically |Short circuit to ground |P20A2 Vent valve (Reductant Purge Control Valve) -short circuit low
DCU 19183 Reverting valve (4-2way valve?) electrically |Open load |P20A0 Vent valve (Reductant Purge Control Valve) -open circuit
DCU 19262 Tank heating Valve |Short circuit to battery |P20B4 Reagent -tank heating valve -short circuit high
DCU 19263 Tank heating Valve |Short circuit to ground |P20B3 Reagent -tank heating valve -short circuit low
DCU 19264 Tank heating Valve |Open load |P20B1 Reagent -tank heating valve -open circuit
DCU 19289 Temperature after catalyst too low |Downstream catalyst temp -physical (Catalyst heating time failed) |P042B Catalyst Temperature Sensor Circuit Range/Performance
DCU 19298 UREA pressure too low at system start |UREA pressure too low at system start |P208B Reagent pump not delivering
DCU 19307 UREA pressure too high |Urea pressure not plausible (urea pressure too high) |P204B Reagent -pressure above threshold
DCU 19316 UREA Temperature in Pump Module out of range |Urea temperature box -physical (Urea Box Temp NOT OK: outside range) |P2043 Reagent-temperature sensor of pump module out of range
DCU 19325 UREA Temperature in Tank out of range |Urea temperature tank -physical (Urea Tank Temp NOT OK: outside range) |P205B Reagent -tank temperature sensor (temperature of the Reagent
-solution in the tank) out of range
DCU 19334 System frozen and not free in time _Defreezing Mode and Detection Errors (Inlet line defreezing failed) _P20C2 Reagent -suction tube heating -detection mode of heating
DCU 19335 System frozen and not free in time |Defreezing Mode and Detection Errors (pressure line defreezing failed) |P20BE Reagent -pressure tube heating -detection mode of heating
DCU 19336 System frozen and not free in time |Defreezing Mode and Detection Errors (pressure build-up in detection mode failed)|P20C5 Pump module -Internal heating -open circuit
DCU 19337 System frozen and not free in time |Defreezing Mode and Detection Errors (Back-flow line defreezing failed) |P20B9 Reagent -backflow tube heating -open circuit
DCU 19343 Coolant control valve mechanically |mechanical defective blocked open |P20A3 Vent valve (Reductant Purge Control Valve) -short circuit high
DCU 19344 Coolant control valve mechanically _mechanical defective blocked closed _P20A0 Vent valve (Reductant Purge Control Valve) -open circuit
DCU 19352 Reverting valve (4-2way valve?) mechanically |valve does not open |P20A0 Vent valve (Reductant Purge Control Valve) -open circuit
DCU 19361 Battery Voltage (actual value) |High battery voltage |P0562 Battery voltage evaluation -below lower limit
DCU 19362 Battery Voltage (actual value) _Low battery voltage _P0563 Battery voltage evaluation -above upper limit
DCU 19370 UREA pressure too low (in ñcommissioningî status) |Pump motor error during commissioning (pump not delivering) |P208B Reagent-pump not delivering
DCU 19379 UREA Temperature too low during commissioning |Temperatures not plausible during commissioning.
DCU 19415 Empty UREA Tank _urea tank empty _P203F Reagent -fluid level in tank -too low
DCU 19532 Back flow line clogged |P2063 Reagent -dosing valve -short circuit low
DCU 19541 Coolant control valve mechanically |Blocked closed |P20A1 Vent valve test plausibility test (startup)
DCU 19550 Pressure line blocked |pressure line blocked |P209B Reagent -dosing nozzle -pressure too high
DCU 19559 Low UREA level 1 (warning) -UREA level below Limit 1 -P203F Reagent -fluid level in tank -too low
DCU 19568 Low UREA level 2 (warning) -UREA level below Limit 2 -P203F Reagent -fluid level in tank -too low
DCU 19577 CAN receive frame E2SCR (Dosing, Exh gas flow, Exh gas temp, Error Suppression, Heater, Long Term failure) |SAE J1939 Check for CAN receive signal : (UREA quantity not in range)
|P0600
DCU 19578 CAN receive frame E2SCR (Dosing, Exh gas flow, Exh gas temp, Error Suppression, Heater, Long Term failure) |SAE J1939 Check for CAN receive signal : (Dosing status not in range)
|P0600 Serial Communication Link
DCU 19579 CAN receive frame E2SCR (Dosing, Exh gas flow, Exh gas temp, Error Suppression, Heater, Long Term failure) _timeout _P0600 Serial Communication Link
DCU 19580 CAN receive frame E2SCR (Dosing, Exh gas flow, Exh gas temp, Error Suppression, Heater, Long Term failure) |too many CAN messages |P0600 Serial Communication Link
DCU 19581 CAN receive frame E2SCR (Dosing, Exh gas flow, Exh gas temp, Error Suppression, Heater, Long Term failure) _SAE J1939 Check for CAN receive signal _P0600 Serial Communication Link
DCU 19595 CAN receive frame EEC1 (Driver demand, eng speed, eng torque) |SAE J1939 Check for CAN receive signal : (Engine torque not in range) |P0600 Serial Communication Link
DCU 19596 CAN receive frame EEC1 (Driver demand, eng speed, eng torque) |SAE J1939 Check for CAN receive signal : (Engine speed not in range) |P0600 Serial Communication Link
DCU 19597 CAN receive frame EEC1 (Driver demand, eng speed, eng torque) _timeout _P0600 Serial Communication Link
DCU 19598 CAN receive frame EEC1 (Driver demand, eng speed, eng torque) |too many CAN messages _ ïP0600 Serial Communication Link
DCU 19599 CAN receive frame EEC1 (Driver demand, eng speed, eng torque) |SAE J1939 Check for CAN receive signal : (Torque driver demand not in range) |P0600 Serial Communication Link
DCU 19604 CAN receive frame ET1 (Oil and Water temp engine) |SAE J1939 Check for CAN receive signal : (Oil temperature not in range) |P0600 Serial Communication Link
DCU 19605 CAN receive frame ET1 (Oil and Water temp engine) _timeout _P0600 Serial Communication Link
DCU 19606 CAN receive frame ET1 (Oil and Water temp engine) |too many CAN messages |P0600 Serial Communication Link
DCU 19607 CAN receive frame ET1 (Oil and Water temp engine) |SAE J1939 Check for CAN receive signal : (Water temperature not in range) |P0600 Serial Communication Link
DCU 19649 UREA Tank level error (CAN message or electrical with real sensor) |Level over CAN: SAE J1939 no Signal available Level sensor connected directly: Sensor Supply error |P203A Reagent
-tank level sensor -open circuit
DCU 19650 UREA Tank level error (CAN message or electrical with real sensor) _Level over CAN: SAE J1939 Signal Not in Range Level sensor connected directly: SRC high _P203D Reagent -tank level
sensor -short circuit high
DCU 19651 UREA Tank level error (CAN message or electrical with real sensor) |Level over CAN: SAE J1939 Erroneous Signal Level sensor connected directly: SRC low |P203C Reagent -tank level
sensor — short circuit low
DCU 19676 Ambient Temperature: SAE J1939 Check for CAN receive signal : (Signal Range Check: Signal not in range / Erroneous Signal / Signal not available) |SAE J1939 Check for CAN receive
signal : (Ambient air temperature not in range) |P0600 Serial Communication Link
DCU 19677 Ambient Temperature: SAE J1939 Check for CAN receive signal : (Signal Range Check: Signal not in range / Erroneous Signal / Signal not available) _timeout _P0071 Ambient Air Temperature
Sensor Range/Performance
DCU 19678 Ambient Temperature: SAE J1939 Check for CAN receive signal : (Signal Range Check: Signal notin range / Erroneous Signal / Signal not available) |too many CAN messages |P0071 Ambient
Air Temperature Sensor Range/Performance
DCU 19679 Ambient Temperature: SAE J1939 Check for CAN receive signal : (Signal Range Check: Signal not in range / Erroneous Signal / Signal not available) |SAE J1939 Check for CAN receive
signal : (Barometric pressure not in range) |P0071 Ambient Air Temperature Sensor Range/Performance
DCU 19721 EEPROM / Checksum failures |EEPROM write error |P062F Internal Control Module EEPROM Error
DCU 19722 EEPROM / Checksum failures |No corresponding variant number error |P062F Internal Control Module EEPROM Error
DCU 19723 EEPROM / Checksum failures |EEPROM communication error |P062F Internal Control Module EEPROM Error
DCU 19724 EEPROM / Checksum failures _EEPROM Detection error OR A Codierwort error |P062F Internal Control Module EEPROM Error
DCU 19725 EEPROM / Checksum failures |Wrong EEPROM size |P062F Internal Control Module EEPROM Error
DCU 19730 Ignition ñonî signal K15 |digital input ignition ON not sensed during initialization |P2530 Ignition switch -plausibility error
DCU 19739 Main Relay opens too early / too late |main relay shut off too late |P0687 ECM/PCM Power Relay Control Circuit High
DCU 19740 Main Relay opens too early / too late |main relay short circuit |P0685 ECM/PCM Power Relay Control Circuit /Open
DCU 19741 Main Relay opens too early / too late |main relay open circuit |P0687 ECM/PCM Power Relay Control Circuit High
DCU 19742 Main Relay opens too early / too late _main relay shut off too early (before EEPROM update) _ P0685 ECM/PCM Power Relay Control Circuit /Open
DCU 19748 Too high UREA Temperature in Pump module or Leakage test failed (Emergency shut off) _over temperature detection (urea temp. in pump module) _P2043 Reagent -temperature sensor of pump
module -Out of range
DCU 19749 Too high UREA Temperature in Pump module or Leakage test failed (Emergency shut off) |urea leakage detection (static or dynamic) |P202D Dynamic urea leakage test -Leakage detected
DCU 19757 Group error path UREA injection control _Error belonging to group UREA Injection control _ P208B Reagent-pump -Not delivering
DCU 19766 Group error path Air control _Error belonging to group air control _P20A7 Compressed air regulation valve
DCU 19775 Group error path catalyst temperature _Error belonging to group catalyst temperature out of range _P0426 Plausibility of catalyst temperature sensors -Plausibility error (static)
DCU 19784 Group error path NOx exceeded _Error belonging to group NOx exceeded active _P2000 Nox Trap Efficiency Below Threshold
DCU 19793 Group error path UREA Tank empty _Error belonging to group UREA tank empty active _P203F Reagent -fluid level in tank -Too low
DCU 19999 Unknown DCU15 fault code
NEW HOLLAND ERROR CODES
NH 1002 Radar disconnected
NH 1003 Speed sensor error
NH 1004 Speed sensor signal too High
NH 1005 Speed sensor signal too High
NH 1006 Slip control potentiometer signal too low
NH 1007 Slip control potentiometer signal too High
NH 1008 Raise / work switch failure
NH 1009 Both external switches operated at the same time
NH 1010 Height limit potentiometer signal too low
NH 1011 Height limit potentiometer signal too high
NH 1012 Drop rate potentiometer signal too low
NH 1013 Drop rate potentiometer signal too high
NH 1014 R/H load sensing pin signal too low
NH 1015 R/H load sensing pin signal too high
NH 1016 L/H load sensing pin signal too low
NH 1017 L/H load sensing pin signal too high
NH 1018 Both load sensing pin disconnected
NH 1019 Load sensing pin voltage too low
NH 1020 Load sensing pin voltage too high
NH 1021 Position / draft control potentiometer too low
NH 1022 Position / draft control potentiometer too high
NH 1023 Control panel disconnected
NH 1024 Perform Hydraulic Lift Autocalibration
NH 1025 Mouse lift lever potentiometer signal too low
NH 1026 Mouse lift lever potentiometer signal too high
NH 1027 Maximum Lift arm position potentiometer too low
NH 1028 Maximum Lift arm position potentiometer too high
NH 1029 Hydraulic Control valve disconnected
NH 1030 Ground signal open circuit ( not used )
NH 1031 Chassis Harness Disconnected
NH 1032 Draft Load potentiometer shorted to +12v
NH 1033 Draft Load potentiometer open circuit
NH 1049 Wheel speed sensor open circuit
NH 1053 5 volt reference Short to +12v
NH 1054 5 volt reference Short to ground.
NH 1057 Module Failure ( not used )
NH 1059 5 volt reference Open circuit ( not used )
NH 1063 Lower solenoid open circuit
NH 1064 Raise solenoid open circuit
NH 1065 lower solenoid short circuit
NH 1066 Raise solenoid short circuit
NH 1067 EDC Hydraulic Valve supply too low
NH 1068 Height limit Calibration Error
NH 2001 ‘N’ — Shuttle too fast error
NH 2002 Flash N error
NH 2003 ‘CP’ — Clutch pedal required
NH 2004 ‘P’ — Handbrake error
NH 2005 Creeper selection error
NH 2011 Clutch Pedal Potentiometer Signal too Low
NH 2012 Clutch Pedal Potentiometer Signal too High
NH 2013 Up and Down buttons at same time
NH 2014 Switch 4 / 5 error ( not used )
NH 2015 HI / LO shift lever switches both closed
NH 2016 Creeper Solenoid Short circuit
NH 2021 Chassis Harness Error
NH 2024 Synchro clutches not calibrated
NH 2026 Engine speed too high
NH 2027 Engine speed too low
NH 2035 Dump solenoid circuit fault
NH 2036 Dump solenoid open circuit
NH 2037 Clutch Pedal switch open circuit
NH 2038 Clutch 4 solenoid short circuit
NH 2039 Clutch 4 solenoid open circuit
NH 2040 Clutch 3 solenoid short circuit
NH 2041 Clutch 3 solenoid open circuit
NH 2042 Clutch 2 solenoid short circuit
NH 2043 Clutch 2 solenoid open circuit
NH 2044 Clutch 1 solenoid short circuit
NH 2045 Clutch 1 solenoid open circuit
NH 2046 Fuse 12 open circuit ( not used )
NH 2047 Clutch pedal switch set too High
NH 2048 Clutch pedal switch set too Low
NH 2049 Wheel speed sensor short or open
NH 2051 Oil temperature sensor open circuit
NH 2052 Oil temperature sensor short circuit
NH 2053 5 Volt Potentiometer Supply too High
NH 2054 5 Volt Potentiometer Supply too Low
NH 2055 No signal from wheel speed sensor
NH 2056 Low Range switch open
NH 2057 High Range switch open
NH 2058 Seat switch closed for 25 hours
NH 2059 Shuttle Lever switch disagree
NH 2060 Synchro Fwd no longer engaged
NH 2061 F/R Synchro Potentiometer signal too high
NH 2062 F/R Synchro Potentiometer signal too low
NH 2063 Synchro not moving to forward
NH 2064 Synchro not moving to reverse
NH 2065 Forward solenoid open circuit
NH 2066 Reverse solenoid open circuit
NH 2067 Forward solenoid circuit fault
NH 2068 Reverse solenoid circuit fault
NH 2069 Synchro reverse no longer engaged
NH 2070 Voltage with lever in forward too high
NH 2071 Voltage with lever in forward too low
NH 2072 Voltage with lever in reverse too high
NH 2073 Voltage with lever in reverse too low
NH 2075 Flywheel Speed Sensor Frequency is too high
NH 2075 Any period is too short, under 400 microseconds
NH 2075 Any short period is longer than the corresponding long period
NH 2075 Damper angle is below 50 degrees or above 85 degrees
NH 2075 Calculated torque exceeds calibrated peak torque by more than 25%
NH 2075 No usable signals from the flywheel sensor, and ERPM is greater than 300
NH 2076 Flywheel Speed Sensor open circuit
NH 2077 Flywheel Speed Sensor short circuit
NH 2080 Synchro 4 no longer engaged
NH 2081 4/5 Synchro Potentiometer signal too high
NH 2082 4/5 Synchro Potentiometer signal too low
NH 2083 Synchro 4 engaged error
NH 2084 Synchro 5 engaged error
NH 2085 Synchro 4 solenoid open circuit
NH 2086 Synchro 5 solenoid open circuit
NH 2087 Synchro 4 solenoid short to 12v
NH 2088 Synchro 5 solenoid short to 12v
NH 2089 Synchro 5 no longer engaged
NH 2090 Output speed too high in creeper
NH 2091 C3 Clutch not calibrated
NH 2092 C4 Clutch not calibrated
NH 2093 High Clutch not calibrated
NH 2094 Low Clutch not calibrated
NH 2095 C1 Clutch not calibrated
NH 2096 C2 Clutch not calibrated
NH 2097 Clutch 5 not calibrated
NH 2098 C5 solenoid short to 12v
NH 2099 C5 open circuit
NH 2100 C5 dump solenoid short to 12v
NH 2101 C5 dump solenoid open circuit
NH 2124 Flywheel Torque Sensor not calibrated
NH 2199 Creeper option not enabled
NH 3001 Accelerator Pedal Signal — NOT PLAUSIBLE
NH 3002 Accelerator Pedal Signal — SOURCE HIGH
NH 3003 Accelerator Pedal Signal — SOURCE LOW
NH 3004 Accelerator Pedal Signal — NO SIGNAL
NH 3005 Accelerator Pedal Signal — ALL OTHER FAULTS
NH 3006 Coolant Temperature Signal — ABOVE NORMAL
NH 3007 Coolant Temperature Signal — SOURCE HIGH
NH 3008 Coolant Temperature Signal — SOURCE LOW
NH 3009 Coolant Temperature Signal — NO SIGNAL
NH 3010 Air (boost) Temperature Signal — SOURCE HIGH
NH 3011 Air (boost) Temperature Signal — SOURCE LOW
NH 3012 Air (boost) Temperature Signal — NO SIGNAL
NH 3014 Fuel Temperature Signal — ABOVE NORMAL
NH 3015 Fuel Temperature Signal — SOURCE HIGH
NH 3016 Fuel Temperature Signal — SOURCE LOW
NH 3017 Fuel Temperature Signal — NO SIGNAL
NH 3018 Boost Pressure Signal — ABOVE NORMAL
NH 3019 Boost Pressure Signal — SOURCE HIGH
NH 3020 Boost Pressure Signal — SOURCE LOW
NH 3021 Boost Pressure Signal — NO SIGNAL
NH 3022 Boost Pressure Signal — ALL OTHER FAULTS
NH 3023 Atmospheric Pressure Signal — ABOVE NORMAL
NH 3024 Atmospheric Pressure Signal — SOURCE HIGH
NH 3025 Atmospheric Pressure Signal — SOURCE LOW
NH 3026 Atmospheric Pressure Signal — NO SIGNAL
NH 3027 Oil Pressure Signal — ABOVE NORMAL
NH 3028 Oil Pressure Signal — BELOW NORMAL
NH 3029 Oil Pressure Signal — SOURCE HIGH
NH 3030 Oil Pressure Signal — SOURCE LOW
NH 3031 Oil Pressure Signal — NO SIGNAL
NH 3032 Oil Pressure Signal — ALL OTHER FAULTS
NH 3033 Oil Temperature Signal — ABOVE NORMAL
NH 3034 Oil Temperature Signal — SOURCE HIGH
NH 3035 Oil Temperature Signal — SOURCE LOW
NH 3036 Oil Temperature Signal — NO SIGNAL
NH 3037 Power stage Fuel filter heater — SOURCE HIGH
NH 3038 Power stage Fuel filter heater — SOURCE LOW
NH 3039 Power stage Fuel filter heater — NO SIGNAL
NH 3040 HS Power stage cold start heater relay — SOURCE HIGH
NH 3041 HS Power stage cold start heater relay — SOURCE LOW
NH 3042 HS Power stage cold start heater relay — NO SIGNAL
NH 3043 Adapt.cylinder balancing Cylinder 1 — SOURCE HIGH
NH 3044 Adapt.cylinder balancing Cylinder 5 — SOURCE HIGH
NH 3045 Adapt.cylinder balancing Cylinder 3 — SOURCE HIGH
NH 3046 Adapt.cylinder balancing Cylinder 6 — SOURCE HIGH
NH 3047 Adapt.cylinder balancing Cylinder 2 — SOURCE HIGH
NH 3048 Adapt.cylinder balancing Cylinder 4 — SOURCE HIGH
NH 3049 Battery voltage signal — ABOVE NORMAL
NH 3050 Battery voltage signal — BELOW NORMAL
NH 3051 Battery voltage signal — SOURCE HIGH
NH 3052 Battery voltage signal — SOURCE LOW
NH 3053 LS Power stage cold start lamp — SOURCE HIGH
NH 3054 LS Power stage cold start lamp — SOURCE LOW
NH 3055 LS Power stage cold start lamp — NO SIGNAL
NH 3056 Cold start heater monitoring — BELOW NORMAL
NH 3057 Cold start heater monitoring — NOT PLAUSIBLE
NH 3058 Cold start heater monitoring — SOURCE LOW
NH 3059 Cold start heater monitoring — NO SIGNAL
NH 3060 Injector solenoid valve Cylinder 1 — NOT PLAUSIBLE
NH 3061 Injector solenoid valve Cylinder 1 — SOURCE HIGH
NH 3062 Injector solenoid valve Cylinder 1 — SOURCE LOW
NH 3063 Injector solenoid valve Cylinder 1 — NO SIGNAL
NH 3064 Injector solenoid valve Cylinder 5 — NOT PLAUSIBLE
NH 3065 Injector solenoid valve Cylinder 5 — SOURCE HIGH
NH 3066 Injector solenoid valve Cylinder 5 — SOURCE LOW
NH 3067 Injector solenoid valve Cylinder 5 — NO SIGNAL
NH 3068 Injector solenoid valve Cylinder 3 — NOT PLAUSIBLE
NH 3069 Injector solenoid valve Cylinder 3 — SOURCE HIGH
NH 3070 Injector solenoid valve Cylinder 3 — SOURCE LOW
NH 3071 Injector solenoid valve Cylinder 3 — NO SIGNAL
NH 3072 Injector solenoid valve Cylinder 6 — NOT PLAUSIBLE
NH 3073 Injector solenoid valve Cylinder 6 — SOURCE HIGH
NH 3074 Injector solenoid valve Cylinder 6 — SOURCE LOW
NH 3075 Injector solenoid valve Cylinder 6 — NO SIGNAL
NH 3076 Injector solenoid valve Cylinder 2 — NOT PLAUSIBLE
NH 3077 Injector solenoid valve Cylinder 2 — SOURCE HIGH
NH 3078 Injector solenoid valve Cylinder 2 — SOURCE LOW
NH 3079 Injector solenoid valve Cylinder 2 — NO SIGNAL
NH 3080 Injector solenoid valve Cylinder 4 — NOT PLAUSIBLE
NH 3081 Injector solenoid valve Cylinder 4 — SOURCE HIGH
NH 3082 Injector solenoid valve Cylinder 4 — SOURCE LOW
NH 3083 Injector solenoid valve Cylinder 4 — NO SIGNAL
NH 3084 Injector Booster Voltage C1 — SOURCE HIGH
NH 3085 Injector Booster Voltage C1 — SOURCE LOW
NH 3086 Injector Booster Voltage C2 — SOURCE HIGH
NH 3087 Injector Booster Voltage C2 — SOURCE LOW
NH 3088 Increment speed signal — NOT PLAUSIBLE
NH 3089 Increment speed signal — SOURCE LOW
NH 3090 Segment speed signal — NOT PLAUSIBLE
NH 3091 Segment speed signal — SOURCE LOW
NH 3092 Engine Speed Sensing — NOT PLAUSIBLE
NH 3093 Engine Speed Sensing — SOURCE HIGH
NH 3094 Engine Speed Sensing — SOURCE LOW
NH 3095 Engine Speed Sensing — NO SIGNAL
NH 3096 CAN (A) Hardware — NO SIGNAL
NH 3097 CAN (B) Hardware — NO SIGNAL
NH 3098 CAN TSC1_TE Control — SOURCE LOW
NH 3099 CAN TSC1_TE Control — NO SIGNAL — CAN TE and CAN AE (Torque Request) error codes may be generated due to normal shutdown timing differences between the ECU and the XCM. If so, the actual
error code 3096 or 3097 should also be displayed.
NH 3100 CAN TSC1_AE Control — SOURCE LOW
NH 3101 CAN TSC1_AE Control — NO SIGNAL
NH 3102 Fuel pressure monitoring CP3 — ALL OTHER FAULTS
NH 3102 Possible Causes: • Low fuel supply to CP3 (filter restriction). • Low output from CP3 • CP3 PWM fault (Check PWM output in Atlas, min 3% at engine idle, max 24% at full load Above 24%
indicates excessive fuel leakage from the overpressure valve in the rail or Injector/transfer tube (remove the fuel return lines to check).
NH 3103 Fuel pressure signal — ABOVE NORMAL
NH 3104 Fuel pressure signal — SOURCE HIGH
NH 3105 Fuel pressure signal — SOURCE LOW
NH 3106 Fuel pressure signal — NO SIGNAL
NH 3107 CC HS Power stage 1 fuel press. Control — SOURCE HIGH
NH 3108 CC HS Power stage 1 fuel press. Control — SOURCE LOW
NH 3109 CC HS Power stage 1 fuel press. Control — NO SIGNAL
NH 3110 Monitoring of rail pressure relief valve — ABOVE NORMAL
NH 3111 Monitoring of rail pressure relief valve — BELOW NORMAL
NH 3112 Rail pressure Min / Max. error — SOURCE HIGH
NH 3113 Main relay defect — ABOVE NORMAL
NH 3114 Main relay defect — BELOW NORMAL
NH 3115 Main relay defect — NOT PLAUSIBLE
NH 3116 Main relay defect — SOURCE HIGH
NH 3117 ECU: Self Test Shutoff Paths ( Start Up ) — NOT PLAUSIBLE. Engine will derate to 1800 rpm.
NH 3117 Possible Causes: • ECU power failed when the engine was running or engine shut down process was incorrect.
NH 3118 Power supply for sensors — NOT PLAUSIBLE
NH 3119 Power supply for sensors — NO SIGNAL
NH 3120 Power supply for sensors — ALL OTHER FAULTS
NH 3121 PTO Torque sensor open circuit
NH 3122 PTO Torque sensor short circuit
NH 3123 PTO Torque not CAL error
NH 3124 Hand Throttle potentiometer 2 high error.
NH 3125 Hand Throttle potentiometer 2 Low error.
NH 3126 Hand Throttle potentiometer 1 high error.
NH 3127 Hand Throttle potentiometer 1 Low error.
NH 3128 Hand Throttle potentiometer diff. error.
NH 3129 Hand Throttle idle switch high error
NH 3130 Hand Throttle idle switch low error
NH 3131 ECU self test shutoff paths (start up)
NH 3132 CRPM Switch short
NH 4001 Signal of Aux-stick (AUX1) out of range low
NH 4002 Signal of Aux-stick (AUX1) out of range high
NH 4003 Signal from Remote Flow potentiometer 1 (AUX 1) out of range.
NH 4005 Signal of Aux-stick (AUX2) out of range low
NH 4006 Signal of Aux-stick (AUX2) out of range high
NH 4007 Signal from Remote Flow potentiometer 2 (AUX 2) out of range.
NH 4008 Signal from Remote valve 2 Timer Pot 1 out of range
NH 4009 Signal of Aux-stick (AUX3) out of range low
NH 4010 Signal of Aux-stick (AUX3) out of range high
NH 4011 Signal from Remote Flow potentiometer 3 (AUX 3) out of range.
NH 4015 Signal from Remote Flow potentiometer 4 (AUX 4) out of range.
NH 4016 Signal from Remote valve Timer potentiometer 1 out of range.
NH 4040 Supply Voltage too low
NH 4041 Supply Voltage too High
NH 4042 Arm Rest Module (ARU) CAN ‘Bus off’.
NH 4043 Controller Fault ( Register check)
NH 4044 Controller Fault (Flash Memory)
NH 4045 Controller Fault (Data Memory)
NH 4100 Remote No.1 No control Message Received
NH 4101 Remote No.1 Control Message not plausible
NH 4102 Remote No.1 EEPROM Error
NH 4103 Remote No.1 Switched to failsafe
NH 4104 Remote No.1 Under voltage
NH 4105 Remote No.1 Over voltage
NH 4106 Remote No.1 Spool movement to low
NH 4107 Remote No.1 Spool movement to high
NH 4108 Remote No.1 Float position not reached
NH 4109 Remote No.1 Manually operated
NH 4110 Remote No.1 Driver faulty
NH 4111 Remote No.1 potentiometer faulty.
NH 4112 Remote No.1 Unable to reach neutral
NH 4113 Remote No.1 Spool not in neutral at key on
NH 4114 Remote No.2 No control Message Received
NH 4115 Remote No.2 Control Message not plausible
NH 4116 Remote No.2 EEPROM Error
NH 4117 Remote No.2 Switched to failsafe
NH 4118 Remote No.2 Under voltage
NH 4119 Remote No.2 Over voltage
NH 4120 Remote No.2 Spool movement to low
NH 4121 Remote No.2 Spool movement to high
NH 4122 Remote No.2 Float position not reached
NH 4123 Remote No.2 Manually operated
NH 4124 Remote No.2 Driver faulty
NH 4125 Remote No.2 potentiometer faulty
NH 4126 Remote No.2 Unable to reach neutral
NH 4127 Remote No.2 Spool not in neutral at key on
NH 4128 Remote No.3 No control Message Received
NH 4129 Remote No.3 Control Message not plausible
NH 4130 Remote No.3 EEPROM Error
NH 4131 Remote No.3 Switched to failsafe
NH 4132 Remote No.3 Under voltage
NH 4133 Remote No.3 Over voltage
NH 4134 Remote No.3 Spool movement to low
NH 4135 Remote No.3 Spool movement to high
NH 4136 Remote No.3 Float position not reached
NH 4137 Remote No.3 Manually operated
NH 4138 Remote No.3 Driver faulty
NH 4139 Remote No.3 potentiometer faulty.
NH 4140 Remote No.3 Unable to reach neutral
NH 4141 Remote No.3 Spool not in neutral at key on
NH 4142 Remote No.4 No control Message Received
NH 4143 Remote No.4 Control Message not plausible
NH 4144 Remote No.4 EEPROM Error
NH 4145 Remote No.4 Switched to failsafe
NH 4146 Remote No.4 Under voltage
NH 4147 Remote No.4 Over voltage
NH 4148 Remote No.4 Spool movement to low
NH 4149 Remote No.4 Spool movement to high
NH 4150 Remote No.4 Float position not reached
NH 4151 Remote No.4 Manually operated
NH 4152 Remote No.4 Driver faulty
NH 4153 Remote No.4 potentiometer faulty.
NH 4154 Remote No.4 Unable to reach neutral
NH 4155 Remote No.4 Spool not in neutral at key on
NH 4156 Remote No.5 Spare
NH 4157 Remote No.5 Spare
NH 4158 Remote No.5 Spare
NH 4159 Remote No.5 Spare
NH 4160 Remote No.5 Spare
NH 4161 Remote No.5 Spare
NH 4162 Remote No.5 Spare
NH 4163 Remote No.5 Spare
NH 4164 Remote No.5 Spare
NH 4165 Remote No.5 Spare
NH 4166 Remote No.5 Spare
NH 4167 Remote No.5 Spare
NH 4168 Remote No.5 Spare
NH 4170 EHR Control No. 1 not calibrated
NH 4171 EHR Control No.1 open circuit
NH 4172 EHR Control No.1 short circuit
NH 4173 EHR Control No. 2 not calibrated
NH 4174 EHR Control No.2 open circuit
NH 4175 EHR Control No.2 short circuit
NH 4176 Timer Switch No.1 / No.2 not connected
NH 4177 EHR Control No. 3 not calibrated
NH 4178 EHR Control No.3 open circuit
NH 4179 EHR Control No.3 short circuit
NH 4180 EHR Control No. 4 not calibrated
NH 4181 EHR Control No.4 open circuit
NH 4182 EHR Control No.4 short circuit
NH 4183 Timer Switch No.3 / No.4 not connected
NH 4184 EHR Joystick potentiometer X open circuit.
NH 4185 EHR Joystick potentiometer X short circuit.
NH 4186 EHR Joystick potentiometer Y open circuit.
NH 4187 EHR Joystick potentiometer Y short circuit.
NH 4190 No communications from (EHR) No.1.
NH 4191 No communications from ( EHR) No.2.
NH 4192 No communications from ( EHR) No.3.
NH 4193 No communications from ( EHR) No. 4.
NH 4194 Motor mode No.1 switch faulty
NH 4195 Motor mode No.2 switch faulty
NH 4196 Motor mode No.3 switch faulty
NH 4197 Motor mode No. 4 switch faulty
NH 5001 Rear PTO Brake Solenoid stuck off
NH 5002 Rear PTO Brake Solenoid stuck on
NH 5003 Rear PTO Brake output open circuit
NH 5004 Rear PTO Brake driver over temperature ( not used )
NH 5005 Brake switch open circuit
NH 5007 Rear PTO Solenoid Stuck off
NH 5008 Rear PTO solenoid circuit overcurrent
NH 5024 Rear PTO not calibrated
NH 5027 Rear PTO speed sensor open circuit (not implemented)
NH 5033 Rear PTO cab N/C switch open circuit
NH 5034 Rear fender PTO switch open / short to ground.
NH 5035 Rear fender PTO switch input short to +12v
NH 5036 PTO failure to Start
NH 5037 Rear PTO cab N/O switch stuck closed
NH 5038 Cab & fender PTO switches operated in 2 sec
NH 5039 Incorrect voltage on fender PTO switch
NH 5040 Rear fender PTO switches reversed ( not used )
NH 5041 PTO disengaged due to assuasive load ( not used )
NH 5042 PTO Management switch shorted
NH 5099 Auto PTO mode not enabled
NH 6020 FWD switch error
NH 6021 FWD Solenoid Stuck on
NH 6022 FWD Solenoid Stuck off
NH 6023 FWD solenoid open circuit
NH 7014 Difflock switch error
NH 7015 Difflock Solenoid Stuck off
NH 7016 Difflock Solenoid Stuck on
NH 7017 Difflock solenoid open circuit
NH 7018 Difflock driver over temperature
NH 7024 Steering angle sensor not calibrated
NH 7031 Steering angle sensor out of Maximum range
NH 7032 Steering angle sensor out of Minimum range
NH 8007 Front PTO Solenoid Stuck on
NH 8008 Front PTO solenoid open circuit
NH 8024 Front PTO not calibrated
NH 8027 Front PTO speed sensor open circuit
NH 8033 Front PTO cab N/C switch open circuit
NH 8036 Front PTO failure to Start
NH 8037 Front PTO cab N/O switch stuck closed
NH 8099 Front PTO option not enabled
NH 9001 Front HPL (High Pressure Lift) Potentiometer open circuit.
NH 9002 Front HPL (High Pressure Lift) Potentiometer short circuit.
NH 10001 Upper lockout Solenoid error
NH 10002 Raise Solenoid error
NH 10003 Lower Solenoid error
NH 10004 Front Axle Potentiometer above threshold
NH 10005 Front Axle Potentiometer below threshold
NH 10007 Go up error, Suspension Unable to return to set point
NH 10008 Go down error, Suspension Unable to return to set point
NH 10009 Lower lockout Solenoid Error
NH 10024 Front Suspension not calibrated
NH 10099 Front Suspension mode not enabled
NH 14001 Rear PTO speed short to VCC or open circuit
NH 14002 Rear PTO speed short to Ground
NH 14011 Engine speed sensor short to VCC or open circuit
NH 14012 Engine speed sensor short to Ground
NH 14015 The ADIC 5 volt reference voltage is too low — below 4 volts
NH 14016 The ADIC 5 volt reference voltage is too high — above 6 volts
NH 14021 Radar Ground speed short to VCC or open circuit
NH 14022 Radar Ground speed short to Ground
NH 14031 Front PTO speed short to VCC or open circuit
NH 14032 Front PTO speed short to Ground
NH 14041 Engine coolant temp short to VCC or open circuit
NH 14042 Engine coolant temp short to Ground
NH 14051 Fuel level sensor short to VCC or open circuit
NH 14052 Fuel level sensor short to Ground
NH 14061 Air brake pressure short to VCC or option set but sensor not connected
NH 14071 Front Hitch Position short to 12 or 5 Volts
NH 14072 Front Hitch Position short to Ground or open circuit
NH 14081 Engine oil pressure short to 12 or 5 Volts
NH 14082 Engine oil pressure short to Ground or open circuit
NH 14091 Transmission output speed short to VCC or open circuit
NH 14092 Transmission output speed short to Ground
NH 14100 Air brake pressure not configured
NH 14101 Fuel contaminated sensor Not connected
NH 14200 EEPROM error
NH 14900 Transmission module missing (DA/DB/DE/DF).
NH 14901 Engine controller not present (EDC7)
NH 14902 Auxiliry (optional) Controller Module missing (DD/DH).
NH 14903 SCM controller missing (GA 12×12 only).
NH 14904 Arm Rest Module (ARU) missing. (Steyr 16×16 only)
NH 14905 KEYPAD missing
NH 14906 Fast Steer Controller (KA) missing.
NH 14907 DOG (Display Of Gears) missing.
NH 15001 Exceeding safe operating wheel speed (10 km/h) with system still enabled or still active. Error code not active fast steer lamp flashes instead.
NH 15002 Steering wheel control proximity sensor open circuit.
NH 15003 Steering wheel control proximity sensor short circuit.
NH 15006 Split valve LVDT open circuit.
NH 15007 Split valve LVDT short circuit.
NH 15008 Change valve Solenoid open circuit
NH 15009 Change valve Solenoid short circuit across
NH 15010 Safety switch Fail
NH 15011 Maximum engagement time (5 minutes) elapsed.
NH 15012 Split Valve spool stuck open
NH 15013 Change valve or Split valve spools Stuck closed.
NH 15014 Split Valve spool stuck in transition zone cant identify which steering mode the tractor is definitely in.
NH 15015 Cold oil, temperature below 5 degrees C. Error code not active fast steer lamp flashes instead.
NH 15024 System not calibrated.
Case ih magnum
Кубический кейс Pelican 0340 Protector Cube Case с поропластом черный 0340-000-110E отличает жесткий тип конструкции и большие размеры.
Pelican 0340 Protector Cube Case предназначен для перевозки чувствительного оборудования и других грузов, нуждающихся в усиленной защите во время транспортировки.
Кубический кейс Pelican 0340 с поропластом относится к серии крупногабаритных кейсов Pelican линейки Protector Cube Case.
Кейс Pelican Protector 0340 изготовлен в США в соответствии с техническими требованиями к военному оборудованию. Корпус Pelican Protector 0340 сделан из жесткого литого полипропилена и является непроницаемым для воды, пыли и любых других загрязнений.
Сертификаты Pelican Protector 0340:
Двигатель
Штатный силовой агрегат трактора Магнум 340-й модели — шестицилиндровый 340-сильный дизель FPT Cursor 9 Tier II объемом 8,7 литра. В режиме Power BOOST возможно увеличение мощности до 389 л. с.
Стабильности показателя крутящего момента 1671 Нм с 40%-м запасом, способствует турбонаддув со встроенным контуром охлаждения сжатого воздуха, а также топливная система марки High Pressure Common Rail с электронным контролем впрыска. Автономность работы тракторного агрегата на удаленных участках обеспечивает топливный бак емкостью 765 литров.
Ходовая часть
Возможности полноприводной схемы ходовой части наиболее эффективно реализуются с помощью двухрежимного электронного подключения переднего моста, а также ручной или автоматической блокировки механизма дифференциала заднего.
Диапазон изменения колеи задних и передних колес соответственно 1,560-2,256 и 1,470-2,294 м. Регулировка производится при работе трактора в междурядьях или при эксплуатации на крутосклонном рельефе.
Case 340 в работе
Обзор трактора CASE IH Magnum 340
Новый, ещё более мощный двигатель трактора Кейс 340 в сочетании с надёжной трансмиссией Full PowerShift TM позволяют этому монстру с лёгкостью справляться со всевозможными полевыми и транспортными работами. При этом он гораздо мощнее, чем трактор John Deere 8430.
Фото CASE IH Magnum 340
Просторная и комфортная кабина трактора с отличным круговым обзором и эргономичным исполнением органов контроля и управления предлагает оператору наивысший уровень удобства и безопасности.
Трактор Magnum-340 может комплектоваться системой управления, контроля и учёта с установкой цветного сенсорного дисплея AFS Pro 700, которая переводит работу с трактором на качественно новый уровень.
Фото кабины трактора CASE Magnum 340
Преимущества и недостатки
Весь тракторный ассортимент компании Case IH характеризуется высокой надежностью, экономичностью и долговечностью при эксплуатации в сложных и даже экстремальных условиях.
Характерный недостаток элитной тракторной техники — это ее высокая стоимость в значительной степени недоступная для мелкого и даже среднего фермерского бизнеса.
Многие отечественные покупатели ставят производителям в упрек отсутствие информации по тестированию и ремонту компьютерной оснастки. Значительная часть простоев дорогих машин — следствие сбоев и глюков цифрового оборудования, неизбежных при отсутствии квалифицированного обслуживания.
Отзывы владельцев
Два трактора Магнум 340 производства известной качеством выпускаемой продукции компании Case IH приобрели для обновления парка агрофирмы зимой позапрошлого 2020 года. За прошедшее время новая техника в значительной степени компенсировала вложенные средства экономией рабочего времени и ГСМ, отсутствием вынужденных простоев. Существенные опасения вызывает отсутствие специалистов по обслуживанию компьютерного и другого электронного оборудования, относительно бедный ассортимент запасных частей, а также инертность сервисных служб. Павел
Покупка подержанного Магнума 340-й модели обошлась мне в 55 тысяч евро. Машина в принципе надежная, а главное экономичная в плане расхода ГСМ. На вспашке один Магнум при 23%-й экономии топлива успешно заменяет два трактора, гусеничный Т-75 и колесный универсал МТЗ-82К. Владимир Викторович
Трактор Case IH Magnum 340 — сочетание мощности с широким функционалом
На мировом тракторном рынке продукция компании CASE IH котируется на одном уровне с качественными и мощными машинами брендов Джон Дир и Нью Холланд. Весь ассортимент этого производителя по качеству, эксплуатационным возможностям и продолжительности ресурса отвечают рекомендациям действующих стандартов.
Мощный колесный трактор CASE IH Magnum 340 изначально ориентирован на выполнение масштабных и трудоемких сельскохозяйственных работ разных уровней сложности. Превосходные тягово-сцепные параметры трактора определяют его применение с производительным широкозахватным прицепным и навесным оборудованием разного назначения.
трактор Case IH Magnum 340
Конструкционные особенности
В его конструкцию заложена возможность работы в соответствии с рекомендациями нулевых, минимальных и классических земледельческих технологий. По мнению многих владельцев и специалистов, трактор Магнум 340 в своей мощностной категории на сегодняшний день является одним из лучших.
Эксплуатационные возможности этой модели повышены за счет:
Стабильной производительности трактора способствует высокий уровень автоматизации и компьютеризации работы всех систем, в частности, электронного контроля работы силовой установки. Вся важная информация отображается на расположенном в поле зрения оператора цветном дисплее.
Предоставляется возможность активации рабочих узлов навесного оборудования с помощью двухскоростного 540 и 1000 об/ в минуту, механизма отбора мощности. Навесные агрегаты с приводом от гидромоторов подключаются к гидросистеме трактора через двойные выводы с обратными клапанами.
С учетом особенностей запланированной работы, предусмотрена установка спаренных колес с широкопрофильными пневматиками низкого давления, навеска балластных грузов, а также возможность изменения колеи ходовой части.
Кейс Магнум 340 в целом характеризуется экономичным расходом ГСМ и расходных материалов, сервисным и ремонтным доступом к основным узлам и механизмам, унификацией многих запчастей и целых агрегатов с фирменными прототипами.
Ходовая часть
Возможности полноприводной схемы ходовой части наиболее эффективно реализуются с помощью двухрежимного электронного подключения переднего моста, а также ручной или автоматической блокировки механизма дифференциала заднего.
Диапазон изменения колеи задних и передних колес соответственно 1,560-2,256 и 1,470-2,294 м. Регулировка производится при работе трактора в междурядьях или при эксплуатации на крутосклонном рельефе.
Гидравлика
Бортовая гидросистема отличается от аналогов высокой, до 282 литра/мин производительностью гидронасоса, позволяющей увеличить грузоподъемность механизма навески IVN/III до 10 тонн. Для буксировки тяжелых прицепов по пересеченной местности или сложному микрорельефу трактор оборудован тяговым брусом 5-й категории.
Цена Магнума 340 — нового и бэушного
Стоимость бэушных тракторов марки Магнум 340-й модели с достаточно большим остатком межремонтного ресурса находится в пределах 60-80 тысяч евро.
Magnum 340 в работе
Отзывы владельцев
Два трактора Магнум 340 производства известной качеством выпускаемой продукции компании Case IH приобрели для обновления парка агрофирмы зимой позапрошлого 2020 года.
За прошедшее время новая техника в значительной степени компенсировала вложенные средства экономией рабочего времени и ГСМ, отсутствием вынужденных простоев.
Существенные опасения вызывает отсутствие специалистов по обслуживанию компьютерного и другого электронного оборудования, относительно бедный ассортимент запасных частей, а также инертность сервисных служб. Павел
Покупка подержанного Магнума 340-й модели обошлась мне в 55 тысяч евро. Машина в принципе надежная, а главное экономичная в плане расхода ГСМ. На вспашке один Магнум при 23%-й экономии топлива успешно заменяет два трактора, гусеничный Т-75 и колесный универсал МТЗ-82К. Владимир Викторович
Case Magnum 340 описание
Гидравлическая система с максимальной грузоподъемностью 10 580 кг оснащается стандартным насосом с расходом 166 л/мин, насосом с высоким расходом 228 л/мин или двумя насосами переменной производительности 282 л/мин для самых крупных орудий. Тягово-сцепное устройство со стандартным электронным силовым регулятором. Можно отрегулировать максимальную степень проскальзывания с учетом применения, используя ограничение проскальзывания, а также свести к минимуму подпрыгивание во время транспортировки с установленным орудием за счет управления движением сцепки.
— Подробная схему узла с пронумерованными запчастями и далее перечень каталожных номеров к этим запчастям
Трактор CASE Magnum 340
Трактор CASE IH Magnum 340 – это надежная и универсальная сельскохозяйственная машина, которая предназначена для работы с широкозахватными агрегатами по классической, минимальной и нулевой технологиям. Модель Магнум-340 спроектирована с целью удовлетворения потребностей самых взыскательных пользователей работающих в полях.
Большинство экспертов, фермеров и сельхозпроизводителей называют трактора серии Magnum, торговой компании Case IH, лучшими в своём классе. Серия Magnum представлена тракторами от 225 до 335 л. с.
Обзор трактора CASE IH Magnum 340
Новый, ещё более мощный двигатель трактора Кейс 340 в сочетании с надёжной трансмиссией Full PowerShift TM позволяют этому монстру с лёгкостью справляться со всевозможными полевыми и транспортными работами. При этом он гораздо мощнее, чем трактор John Deere 8430.
Фото CASE IH Magnum 340
Просторная и комфортная кабина трактора с отличным круговым обзором и эргономичным исполнением органов контроля и управления предлагает оператору наивысший уровень удобства и безопасности.
Трактор Magnum-340 может комплектоваться системой управления, контроля и учёта с установкой цветного сенсорного дисплея AFS Pro 700, которая переводит работу с трактором на качественно новый уровень.
Фото кабины трактора CASE Magnum 340
Дистанционная гидравлическая система данной модели трактора Кейс в сочетании с навесным устройством и двухскоростным валом отбора мощности на 540 и 1000 об/мин гарантирует возможность агрегатирования трактора с широким спектром сельскохозяйственных орудий, например, таких как прицепной комбайн.
Существующая возможность установки спаренных колёс, балластных грузов и изменения ширины колеи обеспечивает выполнение работы с различным междурядьем, а также оптимально распределить нагрузку на передний и задний мост трактора.
Доступ к точкам смазки и обслуживания Магнума 340 максимально упрощён, что позволяет снизить время на проведение сервисных операций до минимума.
Также его можно задействовать в посевных работах с применением овощной сеялки.
Технические характеристики CASE Magnum 340
Модель трактора
| МX 340 (США) | |
| Двигатель | IVECO 6-ти цилиндровый |
| Объем двигателя, см 3 | 8700 |
| Номинальная мощность, л. с. | 340 |
| Номинальный режим двигателя, об/мин. | 2000 |
| Максимальная мощность, л. с. | 374 |
| Номинальная мощность PowerBoost при 2000 об/мин., л. с. | 375 |
| Максимальная мощность PowerBoost при 1800 об/мин., л. с. | 389 |
| Запас крутящего момента, % | 35 |
| Режим при максимальном крутящем моменте, об/мин. | 1800 |
| Емкость топливного бака, л | 635 |
| Топливная система | Pressure-Flow Compensating |
| Сепаратор топлива | установлено |
| Трансмиссия | Power Shift |
| Число передач для движения вперед | 18 |
| Число передач для движения назад | 4 |
| Максимальная скорость при движении вперед, км/ч | 40 |
| Полная блокировка переднего дифференциала | установлено |
| Включение блокировки дифференциала | автомат./ручное |
| Гидросистема | насос переменной производительности с замкнутымцентром и датчиком нагрузки |
| Производительность насоса, л/мин. | 282 |
| Максимальное усилие подъема, кг | 8051 |
| Размеры | |
| База, мм | 3055 |
| Длина, включая балласт и задний подъемник, мм | 5950 |
| Полная ширина без спарки, мм | 3050 |
| Полная высота, мм | 3265 |
| Колеса передние спаренные | 16.9R30 (420-90R30) |
| Колеса задние спаренные | 20.8R42 (520-85R42) |
| Масса | |
| Масса с максимальным балластом, кг | 18 000 |
| Кабина | |
| Объём кабины, м 3 | 3,1 |
| Параметры стёкол кабины, м 2 | 6,85 |
| Климат-контроль | стандартно |
Видео обзор трактора Case IH 340
Технические характеристики Case Magnum 340
| Экостандарт | Tier 2B |
| Мощность двигателя при 2000 об/мин | 340 л. с. |
| Макс. мощность двигателя при 1800 об/мин ISO / ECE R120 | 375 л. с. |
| Количество цилиндров | 6 |
| Колесная база — Powershift | 3050 мм |
| Стандартный вес | 13458 кг |
Case Magnum 340 видео
Отзывы о Case Magnum 340
Как одно из достоинств этой машины можно отметить ее достаточно просторную и удобную кабину, остекление которой позволяет иметь оператору круговой обзор. Как и все остальные кабины тракторов Case в данном случае также особое внимание уделено безопасности оператора.
Трансмиссия трактора многорежимная с ручным или автоматическим управлением. В последнем варианте выбор оптимальной передачи определяется уровнем тягово-сцепных нагрузок.
Гидравлическая система машины общая с гидравликой КПП и имеет следующие особенности:
Кейс магнум 340 технические характеристики Ссылка на основную публикацию
Трактор Case IH Magnum 340.Технические характеристики.
Трактор Case IH Magnum 340 может быть использован для выполнения работ сельскохозяйственной направленности, в частности, для подготовки почвы к посеву и т. п. Кроме этого, трактор с успехом может решать задачи транспортного характера.
Как одно из достоинств этой машины можно отметить ее достаточно просторную и удобную кабину, остекление которой позволяет иметь оператору круговой обзор. Как и все остальные кабины тракторов Case в данном случае также особое внимание уделено безопасности оператора.
При необходимости трактор Case IH Magnum 340 может быть укомплектован различными дополнительными системами, среди которых есть система управления и система учета, последняя подразумевает установку сенсорного дисплея AFS модели Pro 700.
Кроме всего прочего, колеса трактора могут быть сдвоены, также на трактор могут быть навешены дополнительные балластные грузы. Все это вместе с регулируемой шириной колее позволяет работать на полях с различной шириной междурядий и наиболее рационально распределять нагрузку.
Обслуживание трактора упрощено за счет облегчения доступа к основным контрольным точкам.
Характеристики трактора Case IH Magnum 340. Сердцем этого трактора является его двигатель модели FPT Cursor 9 Tier II, в конструкции которого реализована схема работы с турбонагнетателем и последующим охлаждением впускного воздуха. В своем распоряжении двигатель имеет 6-ть цилиндров общим объемом 8,7 л. При этом номинальная мощность этого агрегата составляет 340 л. с. или 253 кВт. Максимальное значение мощности составляет 374 л. с. или 279 кВт. С использование Power BOOST мощность двигателя возрастает до значения в 389 л. с. или 290 кВт. Максимальное значение крутящего момента двигателя в 1671 Нм зафиксировано при значении величины оборотов в 1400-1600 об/мин. Двигатель оборудован топливной системой High Pressure Common Rail. Запас топлива составляет 635 л. Максимальная скорость, развиваемая трактором, достигает значения в 40 км/ч.
Трансмиссия трактора Full Power Shift обеспечивает осуществление переключения передач без разрыва мощности. КПП трактора обладает 18-ью передачами для движения вперед и еще 4-мя передачами, предназначенными для осуществления движения в обратном направлении. Управление трансмиссией может осуществляться как в ручном режиме, так и в автоматическом, при этом в последнем случае переключение передач происходит в зависимости нагрузки на двигатель.
Этот трактор полноприводной и для осуществления управления приводом переднего моста используется электронное управление, которое может работать в двух режимах, а именно в принудительном и автоматическом.
Электронное управление используется и для осуществления блокировки дифференциала заднего моста, при этом управление также может осуществляться в двух режимах, автоматическом и принудительном.
Трактор Case IH Magnum 340 имеет 5 пар гидровыходов и линию обратного слива рабочей жидкости. Установленная здесь навеска относится к IVN/III категории, а установленный здесь тяговый брус относится V категории. Насос гидросистемы способен перекачивать до 282 л жидкости за минуту, а грузоподъемность навески составляет 8,57 т. Двухскоростной ВОМ трактора работает со скоростями 540 или 100 об/мин, а это дает возможность использовать совместно с трактором большое количество сельхоз орудий.
Длина Case IH Magnum 340 составляет 6,4 м, его высота равна 3,4 м, а ширина трактора составляет 3,1 м. Ширина колеи переднего моста регулируется в пределах 1560-2256 мм, а заднего моста 1470-2294 мм. Сдвоенные передние колеса обуты в шины 16.9R30, задние сдвоенные колеса обуты в шины 20.8R42. Весит трактор 10,864 т.
Обзор тракторов Case (Кейс). Обслуживание. Неисправности, возникающие в процессе эксплуатации
Компания Case была основана в 1842 году и выпускала молотилки, но официальное признание в качестве производителя тракторов получила только в 1905 году, когда мир увидел агрегат с двигателем внутреннего сгорания. Для того, чтобы бренд был более узнаваем, руководство компании приняло решение в качестве ведущего цвета использовать красный.
Развитие производства шло в ногу со временем, поэтому можно с уверенностью сказать, что трактора Кейс одни из самых современных и модернизированных. Благодаря использованию передовых технологий на протяжении всего существования компании, продукция завоевала популярность среди потребителей. Бурный рост компании прослеживался на протяжении всех лет существования, при этом не останавливаясь на достигнутом, а расширяя направления.
Заметного расширения дилерской сети компания достигла к концу 80-х, когда вся европейская часть мира интересовалась проблемами механизации сельского хозяйства. Широкий модельный ряд позволяет приобрести трактор Кейс для любого вида работ, а огромное их преимущество в том, что к нему можно подключить различное навесное оборудование и от этого функциональность только увеличивается.
Трактора разделены на серии, каждая из которых отличается мощностью двигателя и другими техническими характеристиками. Основным предназначением является применение в сельском хозяйстве, так как силовой агрегат позволяет обрабатывать большие участки полей.
Модельный ряд тракторов Case
В отличие от других производителей компания Case решила быть оригинальной и дала следующие названия своим сериям: Farmall, Maxxum, Puma, Magnum, Steiger.
Выделяют следующие достоинства техники Кейс:
Case Steiger
Трактора, которые принадлежат этой серии, отличаются повышенными техническими характеристиками и предназначены для использования в условиях повышенной сложности. В связи с этим, конструктора предусмотрели выпуск каждой модели в колесном (Стайгер) и гусеничном варианте (Quadtrac). Мощность этих тракторов составляет от 335 до 600 л. с., но из-за встроенной системы, управляющей работой двигателя, ее можно увеличить до 10%. А это существенно скажется на производительности трактора. Колесная база удлинена, но, не смотря на это, радиус разворота составляет до 6 м.
На фото представлены примеры техники.
Case Magnum
Трактора из этой серии самые востребованные на сельскохозяйственном рынке, потому как в них удачно сочетаются способность выполнять различные маневры при высокой мощности. Это достоинство стало возможным благодаря использованию особенной конструкции передних мостов. Двигателя имеют в запасе от 257 до 340 лошадок, причем автоматические системы могут повышать мощность до 30 %. Несмотря на внушительные габариты, трактор разворачивается всего на 5 м.
Еще одной особенностью тракторов Кейс Магнум является гидравлическая система, которая позволяет поднимать до 10 т. различных грузов. Оператор может не волноваться на счет точности установки любого груза, так как за все отвечает автоматическая система позиционирования. Трактор имеет автоматическую коробку передач и может разгоняться до 40 км/ч.
Модельный ряд серии Кейс Магнум включает: 250, 280, 310, 340, 380 CVT.
На фото представлены примеры техники.
Case Puma
Облегченные колесные трактора из серии Пума имеют мощность двигателя от 142 до 224 л. с. Наиболее эффективны в малых и средних сельских хозяйствах. Их используют для работ в садах, полях, на животноводческих фермах и для транспортировки грузов. Для того, чтобы увеличить функциональность трактора, к нему подключают различное оборудование. Эффективность использования навески достигается благодаря 4-х скоростному ВОМ. В этой конструкции управление валом отбора мощности не представляет ничего сложного, потому как он управляется автоматизированной системой.
Современная система контроля впрыска двигателя следит за экономичностью расхода топлива. Плавное переключение скоростей достигает при помощи трансмиссии нового поколения Full Powershif. Трактор Кейс Пума разгоняется до 50 км/ч., причем он автоматически переходит из полевого режима в дорожный и обратно.
Модельный ряд серии Кейс Пума состоит из модификаций: 140, 155, 180, 210, 225.
На фото представлены примеры техники.
Case Maxxum
Чтобы не перечислять все достоинства тракторов серии Максум, достаточно выделить главные: маневренность, универсальность, экономичность и многофункциональность. Повышенный комфорт в кабине позволяет оператору не уставать в течении рабочего дня. Повышенная звукоизоляция и удобство расположения органов управления делает кабину лучшей в своем классе. Мощность двигателя у этой серии может варьироваться от 112 до 141 л. с. при этом расход топлива экономиться автоматически.
Для крепления навесного оборудования используется трехточечная сцепка, благодаря которой применение машины становится более удобным. Мощная гидравлическая система отлично справляется с любой поставленной задачей. Грузоподъемность трактора составляет от 5 до 7 т.
Модельный ряд серии Кейс Максум составляют модификации: 110, 125, 140.
На фото представлены примеры техники.
Особенности эксплуатации
Производитель заявляет, что вся выпускаемая продукция отличается повышенным качеством и благодаря применению новейших технологий легко справляется с любыми задачами. Высокая эффективность достигается за счет сложнейших электронных систем, позволяющих контролировать работу.
Судя по отзывам владельцев, которые активно эксплуатируют технику Кейс, тракторы отличаются качеством и надежностью, поэтому первые несколько лет работают без ремонта. Однако, чтобы добиться такого результат необходимо следить за регулярностью и качеством проведения технического обслуживания. Трактора работают на дизельном топливе повышенного качества, а в качестве моторного масла нужно использовать CI-4 AKCELA MS1121.
Огромным достоинством новых тракторов является то, что они поступают в продажу уже с проведенной обкаткой. Также на предприятии перед отправкой в дилерскую сеть проводится калибровка и тестирование всех электронных систем.
Консервирование производится по всем правилам, описанным в инструкции по эксплуатации. Сначала трактор моется, сушится, а потом все детали и механизмы протираются промясленной тряпкой. Масло сливается, а контакты на свечах отсоединяются. После всех процедур трактор ставится в сухое место и накрывается чехлом.
Неисправности техники Case
Так как машины снабжены большим количеством электронных систем, то в случае отказа какой-либо системы, лучше всего обратиться в сервисный центр. Владельцы жалуются, что мало подробной информации о том, как выполнять ремонт техники Кейс, но для ее ремонта требуется только специальные квалифицированные знания, которыми обладают только специалисты в сервисных центрах.
Видео обзор тракторов Case
Ниже представлен видео обзор трактора Кейс MX135
Видео обзор, посвященный трактору Case JX
Отзывы владельцев
Алексей:
Купил американский трактор Кейс Магнум за 54 000 евро. Деньги стоит немалые, но окупается полностью, так как заменяет 2 МТЗ. Очень нравится, что при своей мощи, он очень экономичный. Хочется особо отметить в своем отзыве удобную кабину и облегченное управление. Сложности возникают только на начальном этапе, когда видишь перед собой всю эту электронику и пытаешься в ней разобраться. Но это только вначале.
Источники:
https://zapchasti-isuzu. ru/marki-specavto/traktor-case-ih-magnum-340.html
https://proogorod. com/selhoztekhnika/traktory/obzor-traktorov-case
CASE STX Steiger 350/400/450/500/550/600 Fault Codes list [PDF, ENG, 231 KB]
CASE STX Steiger 350 Fault Codes List PD
Adobe Acrobat Document
231.2 KB
1002 — Short circuit to 12 V or malfunction of the winding chain of the lift valve
hitch
1003 — Electromagnet lifting hitch: open circuit or short circuit to ground
1004 — Short to 12 V windings of the valve of lowering of a coupling device
1005 — Winding of the lowering valve of the coupling device — short to ground or
chain termination
1006 — Stimulation of the exciter of low voltage electronic traction control in view of
his refusal
1007 — Error checking low voltage exciter control module
1008 — The low-voltage side of the lifting electromagnet is connected to the «mass»
1009 — The low-voltage side of the lowering solenoid is connected to the «mass»
1011 — The tractor control unit is disconnected from the CAN bus
1012 — Loss of communication with the armrest controller
1013 — Loss of communication with the instrument controller
1014 — Reference voltage 5 V exceeds the upper permissible limit
1015 — Reference voltage 5 V below the lower limit
1017 — Faulty position control potentiometer
1018 — The balance axle potentiometer signal is outside the normal range
working range
1019 — Failure of top-end potentiometer
1021 — Load potentiometer failure
1024 — Loss of communication with the instrument controller
1025 — Failure of the hoisting / lowering switch
1026 — Failure of the lift / lower switch on the wing
1028 — Failure of motion control potentiometer
1029 — Failure of the lowering speed adjustment potentiometer
1032 — Wrong driving speed. The value obtained from the data bus indicates
malfunction
1033 — Failure of the slip adjustment switch
1034 — Failure of the slip-on switch
1035 — Incorrect percentage of slippage
1036 — The armrest controller signaled a malfunction of the slow switch
lifting traction
1037 — Failure of the slow-down switch
1065 — The armrest controller determined that the tractor is not equipped with a system
traction control, but found traction contacts
1066 — Engine speed too low to calibrate the lower coupling
devices
1067 — The possibility of adjusting the thrust is provided, but the thrust contact sensor (s)
could not be detected
1068 — Throttle adjustment calibration interrupted due to tractor movement
1069 — Calibration of electronic traction control interrupted due to low speed
the engine
1071 — Pulse width modulation (PWM) growth threshold during calibration too
tall
1072 — Pulse width modulation (PWM) growth threshold during calibration too
low
1074 — The clutch potentiometer signal is outside the expected range when
the maximum raised position of the coupling device
1075 — Throttle lowering valve response threshold during calibration
too high
1076 — PWM lower threshold is too low
1077 — The operator did not respond to the electronic traction control calibration procedure
1078 — The coupler is not in the minimum lowered position
1079 — The range of the hitch is not in accordance with the specification
1080 — Ratio of hitch and range of commands
position control does not meet the allowable limits
1085 — Calibration of electronic traction control system required
1086 — There is no communication with the performance monitor (instrumentation controller)
1087 — Reference voltage 8 V above 8,8 V
1088 — Reference voltage 8 V below 7.2 V
1089 — Supply of voltage 12VH1 to the towing and lowering windings of the coupling device
below 8 V
14002 — The oil filter sensor in the gearbox is closed to earth when it is switched on
supply
14003 — The oil filter sensor of the hydraulic system closes to ground when
power on
14005 — Faulty shaft speed sensor error
14006 — Engine speed error GOV
14007 — Engine speed limit exceeded
14008 — Engine oil pressure sensor error
14009 — Engine operating hours lost
14010 — The IOM controller is disconnected from the network
14011 — Total loss of communication
14013 — The gearbox is disconnected from the mains
14014 — Engine coolant temperature sensor error
14015 — Engine Inlet Air Temperature Sensor Error
14016 — Engine shutdown procedure activated
14017 — The fuel level sensor voltage is below the permissible range
14018 — The GOV is disconnected from the network
14019 — The automatic temperature control system is disconnected from the network
14020 — Loss of CAN messages sent by the auxiliary system controller
steering system
14021 — Auxiliary steering is present, but no CAN messages received
15500 — Low pressure primary steering system — auxiliary
steering system works
15501 — High pressure assist steering system when
idle pump
15502 — Low pressure primary steering system — auxiliary
the steering system is faulty
15510 — Increased pressure of the primary steering system pressure sensor
management
15512 — Undervoltage of the pressure sensor of the primary steering system
management
15520 — Error in checking the pressure of the auxiliary control pump
15530 — Increased voltage of the auxiliary steering system pressure sensor
management
15532 — Undervoltage of the auxiliary steering system pressure sensor
management
15540 — Auxiliary system bypass electrical circuit rupture
steering system
15544 — Short circuit to + BAT of the solenoid of the bypass valve
auxiliary control system
15550 — Short circuit to the «mass» of the auxiliary system bypass solenoid
steering system
15552 — Short circuit to + BAT of the pump relay of the auxiliary steering system
management
15553 — Open circuit of the pump drive relay
15554 — Short to ground of the auxiliary pump relay of the steering pump
15560 — Voltage monitoring device VF3
15580 — No pressure was produced in the assist steering system
15590 — No auxiliary steering system equipment found
15591 — The battery voltage is insufficient to start the auxiliary pump
steering systems
15592 — The battery voltage is insufficient to start the auxiliary pump
steering systems
15994 — The engine is running, and the crankshaft rotation input signal is constantly
high level
18007 — Multi-function lever — switch error
18010 — Throttle valve Powershift — too low voltage
18011 — Throttle valve Powershift — too high voltage
18012 — Rotor variator speed switch error (CVT)
18015 — Rear position adjustment potentiometer — too
high voltage
18016 — Backward linkage traction control potentiometer — too low
voltage
18017 — Rear traction control potentiometer — too high
voltage
18018 — Rear linkage potentiometer — too low
voltage
18019 — Rear hitch height potentiometer — too high
voltage
18020 — Quick-lowering potentiometer for rear hitch — too low
voltage
18021 — Potentiometer for quick lowering of the rear hitch — too high
voltage
18022 — Rear suspension adjustment potentiometer —
Too low voltage
18023 — Rear suspension adjustment potentiometer —
too high a voltage
18024 — Error of position of the code flow sensor EHR (remote valve
management)
18025 — Back wheel slip adjustment potentiometer —
Too low voltage
18026 — Rear linkage slip adjustment potentiometer —
too high a voltage
18027 — EHR lever position (remote control valve) 5 — too low
voltage
18028 — EHR lever position (remote control valve) 5 — too high
voltage
18029 — EHR lever position (remote control valve) 6 — too low
voltage
18030 — EHR lever position (remote control valve) 6 — too high
voltage
18040 — EHR lever position (remote control valve) 1 — too low
voltage
18041 — EHR lever position (remote control valve) 1 — too high
voltage
18042 — EHR lever position (remote control valve) 2 — too low
voltage
18043 — EHR lever position (remote control valve) 2 — too high
voltage
18044 — EHR lever position (remote control valve) 3 — too low
voltage
18045 — EHR lever position (remote control valve) 3 — too high
voltage
18046 — Error of lateral swing control switch EHR (remote valve
management)
18047 — EHR lever position (remote control valve) 4 — too low
voltage
18048 — EHR lever position (remote control valve) 4 — too high
voltage
18049 — Control lever 1, X axis — Undervoltage
18050 — Control lever 1, X axis — too high voltage
18051 — Control lever 1, Y axis too low voltage
18052 — Control lever 1, Y axis too high voltage
18053 — Control lever 1, proportional rocker switch — too low
voltage
18054 — Control lever 1, proportional rocker switch — too
high voltage
18055 — Control lever 2, X axis too low voltage
18056 — Control lever 2, X axis too high voltage
18057 — Control lever 2, Y axis too low voltage
18058 — Control lever 2, Y axis too high voltage
18059 — Control lever 2, proportional rocker switch — too low
voltage
18060 — Control lever 2, proportional rocker switch — too
high voltage
18061 — Reference voltage — short circuit to 0 V
18062 — Reference voltage — short circuit to 12 V
18063 — EEPROM error
18064 — Multifunction lever communication error (MFH)
18065 — Basic check error of multifunction lever (MFH)
18066 — Error of lever invalidation (remote control valve) 1
18067 — Error of lever invalidation (remote control valve) 2
18068 — Error of lever invalidation (remote control valve) 3
18069 — Error of lever invalidation (remote control valve) 4
18070 — Error of lever invalidation (remote control valve) 5
18071 — Failed lever invalid signal (remote control valve) 6
18072 — EDC Mouse Up / Malfunction Switch Malfunction
19001 — Reading battery voltage (electrical) — high signal value — by
the battery voltage rating P0563 is exceeded the upper limit value
19002 — Reading battery voltage (electrical) — low signal value — by
battery voltage estimation P0562 the lower limit value is not reached
19010 — Temperature sensor after neutralizer (electrical)
19011 — Temperature sensor after neutralizer (electrical)
19019 — Temperature sensor in front of the neutralizer (electrical) — high signal value
— high value on the circuit of the neutralizer temperature sensor P0428
19020 — Temperature sensor before neutralizer (electric) — low signal value —
Low value on the circuit of the neutralizer temperature sensor P0427
19037 — Supply of sensor 2 (internal 5 V circuit, urea pressure sensors) — too
high supply voltage — reagent P204D — pressure sensor — short circuit on
high voltage source
19038 — Supply of sensor 2 (internal 5 V circuit, urea pressure sensors) — too
low supply voltage — reagent P204C — pressure sensor — short to low voltage source
19046 — Urea pressure sensor in the unit (electrical) — voltage failure
power supply — Reagent P204A — pressure sensor — open circuit
19047 — Urea pressure sensor in the unit (electrical) — high signal level — Reagent
P204D — pressure sensor — short to high voltage source
19048 — Urea pressure sensor in the unit (electrical) — low signal level — Reagent
P204C — pressure sensor — short to low voltage source
19055 — Urea pressure sensor in the unit (electrical) — high signal level — reagent
P2045 — Pump module temperature sensor — short to high voltage source
19056 — Urea pressure sensor in the unit (electrical) — low signal level — reagent
P2044 — Pump module temperature sensor — short to low voltage source
19064 — Supply voltage of internal heaters 1 (UB1), electric. — breaking the circuit UB1
— pump module P20C5 — internal heating — chain breaking
19065 — Supply voltage of internal heaters 1 (UB1), electric. — a short
short circuit for power supply of the battery at UB1, switch 15 in position Off — module
pump P20C8 — internal heating — short circuit to a high source
stresses
19073 — Supply voltage 2 — tubular heaters (UB2), electric. — closure on
battery power with UB2 and disconnected key 15 — reagent P20C4 — preheating
suction pipe — short to high voltage source
19074 — Supply voltage 2 — tubular heaters (UB2), electric. — open circuit UB2 —
Reagent P20C1 — preheating the suction pipe — breaking the chain
19075 — Supply voltage 2 — tubular heaters (UB2), electric. — closure on
«mass» UB2 — Reagent P20C3 — preheating the suction pipe — breaking the chain
19082 — Supply voltage 3 — coolant control valve and valve
reversing mechanism (UB3), electric. — short to battery UB3 with key 15
in the «off» position (off) — P20A3 vapor escape valve (control valve
Air conditioner) — short circuit to a high voltage source
19083 — Supply voltage 3 — coolant control valve and valve
reversing mechanism (UB3), electric. — open circuit UB3 — Vapor extraction valve P20A0
(the control valve of the air-reducing agent) — breaking the chain
19084 — Supply voltage 3 — coolant control valve and valve
reversing mechanism (UB3), electric. — short circuit to earth «UB3 — tap valve
vapor P20A2 (control valve of the air conditioner) — short to the source
low voltage
19091 — Voltage monitoring VDD11 / VDD25 — Dosing valve / pump motor
— low supply voltage VD11 — P0659, supply voltage 12 V for the module
dosing — the lower limit value is not reached
19092 — Voltage monitoring VDD11 / VDD25 — Dosing valve / pump motor
— high supply voltage VD11 — P0658, supply voltage 12 V for the module
dosing — the lower limit value has been exceeded
19100 — Urea level sensor (electrical) — supply voltage error — level sensor
P203E — unreliable / unstable circuit
19101 — Urea level sensor (electrical) — high signal level — P203D reagent —
level sensor in the tank — short to high voltage source
19102 — Urea level sensor (electrical) — low signal level — P203C reagent —
level sensor in the tank — short to low voltage source
19109 — Urea temperature sensor in the tank (electrical) — high signal level —
reagent P205D — temperature sensor in the tank (reagent temperature — solution in the tank) —
short circuit to a high voltage source
19110 — Urea temperature sensor in the tank (electric) — low signal level — reagent
P205C — temperature sensor in the tank (reagent temperature — solution in the tank) — short
short to low voltage
19145 — Dosing valve (electrical) — short to positive terminal
battery — Rejector nozzle P2049 — short to high voltage source
19146 — Dosing valve (electrical) — short circuit to earth — injector
P2048 — short to low voltage source
19147 — Dosing valve (electrical)
19148 — Dosing valve (electrical) — metering valve permanently on
(detected as a result of the output of a rapidly disappearing error) — reagent P209B — pressure in
dosing valve nozzle too high
19154 — Urea pump speed — the pump motor is disconnected — The pump does not feed
reagent P208B
19155 — Speed of the urea pump — blocking of the pump motor — pump
reagent P208A
19156 — Urea pump speed — permissible speed exceeded
pump — exceeding the permissible frequency of the pump of the reagent P208D
19157 — Urea pump speed — Hall sensor defective — The pump does not feed
reagent P208B
19163 — Short circuit of the cooling control valve for voltage
battery (UBat) or open load — short to battery — tap valve
vapor P20A3 (control valve purge reductant) — short circuit to
high voltage source
19164 — Short circuit of the cooling control valve for voltage
battery or open load — open load — vapor outlet valve P20A0
(control valve of the air conditioner) — open circuit
19181 — Reversing valve (4-2-way valve) Electric. — short circuit to
battery — vapor outlet valve P20A3 (control valve of the air reducer) —
short circuit to a high voltage source
19182 — Reversing valve (4-2-way valve), electric. — short circuit to
«mass» — the vapor outlet valve P20A2 (control valve of the air reducer) —
short to low voltage source
19183 — The reversing valve (4-2-way valve) electric. — open load —
the vapor outlet valve P20A3 (control valve of the air reducer) — an open circuit
19262 — Tank heating valve — Short to battery — Reagent P20B4 —
tank heating valve — short to high voltage source
19263 — Tank heating valve — short circuit to earth — reagent P20B3 — valve
tank heating — short to low voltage source
19264 — Tank heating valve — Open load — Reagent P20B1 — Tank heating valve
— open load
19265 — Tank heating valve — short circuit to earth — reagent P20B3 — valve
tank heating — short to low voltage source
19289 — The temperature at the outlet of the neutralizer is too low — the temperature after
neutralizer — physical. (error of the neutralizer heating time) — range / operation
P042B Neutralizer Temperature Sensor Circuit
19298 — Urea pressure too low when starting the system
19307 — Urea pressure too high — Urea pressure not reliable
(urea pressure too high) — Reagent P204B — Pressure above the limit
meanings
19316 — The temperature of the URE in the pump unit is outside the permissible range
range
19325 — The temperature of the URE in the tank is outside the permissible range
19334 — The system froze and was not released on time — the heating and determination mode
malfunctions (failure of heating of the inlet pipeline) — Reagent P20C2 —
heating of the suction pipe — heating detection mode
19335 — The system froze and was not released on time — the heating and detection mode
faults (failure to heat the intake manifold) — Reagent P20BE —
heating of the pipe under pressure — the mode of determining the heating
19336 — The system froze and was not released on time — the heating and detection mode
faults (pressure error in the detection mode) — Reagent P20C5 —
internal heating — chain breaking
19337 — The system froze and was not released on time — the heating and detection mode
faults (error of heating the pipeline with a reverse flow) — Reagent P20B9 —
Reheating tube — breaking the circuit
19343 — The control valve of a cooling liquid, механич. — stuck in the open
position — the vapor outlet valve P20A3 (control valve purging the reducing agent) —
short circuit to a high voltage source
19344 — The control valve of a cooling liquid, механич. — stalled in a closed
position — the vapor outlet valve P20A0 (blowdown purge control valve) —
chain termination
19352 — Reversing valve (4-2-way valve) mechanical. — the valve does not open —
the vapor outlet valve P20A0 (control valve of the air reducer) — an open circuit
19361 — DCU 24 V battery / Power supply — Too high voltage
19362 — DCU 24 V battery / Power supply — Too low voltage
19370 — Urea pressure too low (during commissioning) — error
pump motor during commissioning (the pump does not provide the required supply) —
Reagent P208B — pump does not provide the required supply
19379 — Urea during commissioning too low — values
The temperatures during commissioning are not reliable
19415 — Empty urea tank — empty urea tank — P203F reagent — liquid level in
the tank is too low
19514 — Urea temperature sensor in the tank — Out of range
19532 — Backflow line obstruction — P2063 reagent — dosing valve — short
short to low voltage
19541 — Mechanical blocking of the coolant control valve —
Check of validity of operation of the valve of tap of steams P20A1 (at start)
19550 — Discharge line obstruction — discharge line obstruction — P209B reagent — metering
nozzle — too high pressure
19559 — Low level of Uterine 1 (warning)
19568 — Low urea level 2 (warning) — level of urea below the value
«Limit 2» — reagent P203F — liquid level in the tank — too low
19577 — Reception CAN, frame E2SCR (dosing, exhaust volume, temperature
exhaust, suspension error, heater, long failure) — check SAE J1939
to receive the CAN signal: (urea quality out of range) — the channel is serial
connection P0600
19578 — Reception CAN, frame E2SCR (dosing, volume of exhaust gases, temperature
exhaust, suspension error, heater, long failure) — check SAE J1939
to receive a CAN signal: (dosing outside the range) — serial communication channel
P0600
19579 — Reception CAN, frame E2SCR (dosing, volume of exhaust gases, temperature
Exhaust gas, suspension error, heater, long failure) — time out — channel
serial communication P0600
19580 — Reception CAN, frame E2SCR (dosing, exhaust volume, temperature
Exhaust gas, suspension error, heater, long failure) — too much
messages CAN — Serial communication channel P0600
19581 — Reception CAN, frame E2SCR (dosing, volume of exhaust gases, temperature
exhaust, suspension error, heater, long failure) — check SAE J1939
to receive CAN signal — serial communication channel P0600
19595 — Reception CAN, frame EEC1 (driver request, engine speed, torque
engine) — check SAE J1939 for receiving CAN signal: (engine torque
out of range) — Serial communication channel P0600
19596 — Reception CAN, frame EEC1 (driver request, engine speed, torque
engine) — check SAE J1939 for receiving CAN signal: (engine speed out of range) — serial communication channel P0600
19597 — Reception CAN, frame EEC1 (driver request, engine speed, torque
motor) — timeout — serial communication channel P0600
19598 — Reception CAN, frame EEC1 (driver request, engine speed, torque
motor) — too many CAN messages — Serial communication channel P0600
19599 — Reception CAN, frame EEC1 (driver request, engine speed, torque
engine) — check SAE J1939 for receiving CAN signal: (requested by the driver
torque out of range) — Serial communication channel P0600
19604 — Reception CAN, frame ET1 (temperature of water and engine oil) — check SAE J1939 on
receiving CAN signal: (oil temperature out of range) — serial communication channel
P0600
19605 — Reception CAN, frame ET1 (temperature of water and engine oil) — time out — channel
serial communication P0600
19606 — Reception CAN, frame ET1 (temperature of water and engine oil) — too much
messages CAN — Serial communication channel P0600
19607 — Reception CAN, frame ET1 (temperature of water and engine oil) — check SAE J1939
to receive a CAN signal: (water temperature out of range) — channel serial
connection P0600
19649 — Level error in the urea tank (CAN message or electric with this
sensor) — level above CAN: SAE J1939 signal not available, level sensor connected
directly: sensor supply error — reagent P203A — level sensor in the tank — open circuit
19650 — Urea tank level error (CAN message or electrical malfunction with
real sensor) — level above CAN: SAE J1939 signal out of range, level sensor
connected directly: SRC high. — reagent P203D — tank level sensor — short circuit to
high voltage source
19651 — Urea tank level error (CAN message or electrical malfunction with
real sensor) — level above CAN: SAE J1939 signal out of range, level sensor
connected directly: SRC high. — reagent P203C — tank level sensor — short circuit to
low voltage source
19676 — Ambient temperature: Check SAE J1939 for receiving CAN signal:
(Checking the signal range: signal out of range / signal error / signal not available)
— check SAE J1939 for receiving CAN signal: (ambient temperature outside
range) — Serial communication channel P0600
19677 — Ambient temperature: SAE J1939 for receiving CAN signal:
(Checking the signal range: signal out of range / signal error / signal not available)
— time-out — range of operation of the ambient temperature sensor P0071
19678 — Ambient temperature: SAE J1939 for receiving CAN signal:
(Checking the signal range: signal out of range / signal error / signal not available)
— too many CAN messages — ambient temperature sensor range / operation
air P0071
19679 — Ambient temperature: check SAE J1939 for receiving CAN signal:
(Checking the signal range: signal out of range / signal error / signal not available)
— check SAE J1939 for receiving CAN signal: (barometric pressure out of range)
— range / operation of the ambient temperature sensor P0071
19721 — EEPROM / Checksum error — Write error EEPROM — Error
internal control module EEPROM P062F
19722 — EEPROM / Checksum error — Error of absence of corresponding
options — Error of the internal control module EEPROM P062F
19723 — EEPROM / Checksum error — EEPROM communication error — Internal error
control module EEPROM P062F
19724 — EEPROM / Checksum Errors — EEPROM detection error or error
codierwort — P062F internal control module EEPROM error
19725 — EEPROM / Checksum Errors — Invalid EEPROM Size — P062F
internal error of the control module EEPROM
19730 — Ignition ON signal K15 — during the initialization, it was not possible to read
digital ignition switch input signal — ignition switch P2530 — error
authenticity
19739 — Main relay opens too soon / too late — main relay
off too late — high value in the power relay control loop
ECM / PCM P0687
19740 — Main relay opens too soon / too late — short circuit
main relay — open circuit / control loop of the ECM / PCM power relay P0685
19741 — Main relay opens too soon / too late — main circuit break
relay — high value in the control loop of the ECM / PCM power relay P0687
19742 — Main relay opens too soon / too late — main relay
it turns off too early (before updating the EEPROM) — open circuit / control loop
Power relays ECM / PCM P0685
19748 — The urea temperature in the pump unit is too high or the check error is
tightness (emergency shutdown) — temperature exceeded (temp.
urea in the pump unit) — Reagent P2043 — Pump unit temperature sensor — Outside
allowable range
19749 — The urea temperature in the pump module is too high or there are leaks in
During the test (emergency shutdown) — detection of a leakage of urea (static or
dynamic test) — dynamic check for urea leakage P202D — leakage
detected
19757 — Channel of group error of urea injection control — error belongs to
urea injection control group — pump for P208B — does not supply
19766 — Air control group error channel — the error belongs to the group
air control valve — P20A7 compressed air control valve
19775 — The group error channel of the neutralizer temperature — the error belongs to
group of errors in the temperature of the neutralizer — inaccuracy of the temperature sensors
neutralizer P0426 — reliability error (with static check)
19784 — Group error channel for exceeding NOx — the error belongs to the group of active
errors of NOx level exceeding — NOx trapper performance below threshold
P2000 values
19793 — Group error channel of empty urea tank — error belongs to group
active errors of the empty urea tank — reagent P203F — liquid level in the tank —
too low
19802 — Inaccurate temperature data in the urea tank taking into account the temperature
pumping unit — temp. on the CAN bus: SAE J1939 timeout, the temperature sensor is connected
directly: high. SRC — serial communication channel P0600
19803 — Unreliable temperature data in the urea tank taking into account the temperature
pumping unit — temp. CAN bus: too many SAE messages J1939, sensor
The temperature is directly connected: high. SRC — serial communication channel P0600
19804 — Inaccurate temperature data in a urea tank taking into account the temperature
pumping unit — temp. on the CAN bus: signal error SAE J1939 — reagent P205A — sensor
temperature in the tank (reagent temperature — solution in the tank) — open circuit
19805 — Temperature in a tank with a urea — an open circuit
19806 — Temperature sensor in a tank with a urea — short circuit
19807 — Inaccurate temperature data in the urea tank taking into account the temperature
pumping unit — high. SRC: too high diagnostic temperature value
urea — reagent P205B — temperature sensor in the tank (reagent temperature — solution in
tank) — out of range
19808 — Inaccurate temperature data in the urea tank taking into account the temperature
pumping unit — low. SRC: The diagnostic temperature is too low
urea — reagent P205B — temperature sensor in the tank (reagent temperature — solution in
tank) — out of range
19813 — Urea pressure too low during operation or dosage of the system
urea
19817 — Reliability of sticking of the urea dispenser valve (UDV) — reagent P202F —
Dosing valve — blocked (only sticking in the closed position)
19818 — Reliability of sticking of the urea dosing valve (UDV) — dynamic
urea leakage test P202D — leak detected
19822 — Error — unknown position of sticking of the urea dispenser valve (UDV) —
dynamic check for urea leakage P202D — leak detected
19999 — The DCU motor was not malfunctioning
is converted into a CNH module. Refer to the fault codes of the engine control unit (ECU)
using the EASY tool.
2009 — Open circuit of the seat switch
2010 — Short-circuit of the seat switch to the power supply + BAT or reference
voltage 5V
2011 — Short to earth or an open in the clutch chain.
2012 — Short-circuit of the coupler potentiometer by 12V or short circuit on
5V reference voltage
2024 — All couplings are not calibrated
2037 — Clutch lower link circuit open or lower coupling clutch relay
jammed in the open position
2047 — Incorrect adjustment of the lower part of the clutch pedal of the clutch switch
2048 — Short circuit of the lower part of the clutch pedal switch or
the lower part of the clutch relay
2053 — Too high reference voltage 5 V
2054 — Too low reference voltage 5 V
2055 — Wheel speed sensor signal missing
2056 — Internal reference voltage too high 5 V
2057 — Internal reference voltage too low 5 V
2059 — Lever of the lever sensor mismatch
2070 — Increased voltage of the lever position sensor for forward movement
2071 — Short to ground or an open in the chain of the lever position sensor for movement
forward
2072 — Lever position sensor for reverse movement — too high voltage
2073 — Lever position sensor for reverse travel — Short to ground or
break in the chain
2074 — Undervoltage of the lever position sensor FNR, other than parking
2075 — Increased voltage of the lever position sensor FNR, other than parking
2110 — Neutral position sensor FNR — Undervoltage
2111 — Neutral position sensor FNR — overvoltage
2112 — Lubrication of the oil pressure switch in the axle
2113 — Low oil pressure in the axle
2114 — Critical low oil pressure in the axle
2158 — Critical low system pressure
2159 — Open circuit in the system pressure transmitter circuit
2160 — Short-circuit of the system pressure transducer to a reference voltage of 5 V
or + BAP
2308 — Reverse switching is not permitted
2326 — High reading of the engine speed sensor
2327 — There is no signal from the engine speed sensor
2330 — The gearbox output speed too high for the selected
transfer of
2331 — Coupling slippage error
2342 — Short to earth or an open in the clutch solenoid valve circuit
1F
2343 — Short to earth or an open in the clutch solenoid valve circuit
1M
2344 — Short to earth or an open in the solenoid valve circuit of the 1R coupler
2345 — Short to earth or an open in the solenoid valve circuit of the 2F clutch
2346 — Short to earth or an open in the solenoid valve circuit of the 2R clutch
2347 — Short to earth or an open in the 4F clutch solenoid valve circuit
2348 — Short to earth or an open in the 4R solenoid valve circuit
2349 — Short to ground or an open in the 5F solenoid valve circuit
2350 — Short to earth or an open in the 5R solenoid valve circuit
2351 — Short-circuit of the solenoid valve of the clutch 1F to the +12 V power supply with the drive switched off
2352 — Short-circuit of the solenoid valve of the 1M clutch to a +12 V source with the drive switched off
2353 — Short-circuit of the solenoid valve of the 1R clutch to the +12 V power supply with the drive switched off
2354 — Short-circuit of the solenoid valve of the clutch 2F to the +12 V voltage source with the drive switched off
2355 — Short-circuit of the solenoid valve of the clutch 2R to the +12 V voltage source with the drive switched off
2356 — Short-circuit of the solenoid valve of the clutch 4F to the +12 V source with the drive switched off
2357 — Short-circuit of the solenoid valve of the 4R clutch to the +12 V source with the drive switched off
2358 — Short-circuit of the solenoid valve of the coupling 5F to the +12 V power supply with the drive switched off
2359 — Short-circuit of the solenoid valve of the 5R clutch to the +12 V source with the drive switched off
2363 — 1M coupling not calibrated
2364 — 1F coupling not calibrated
2365 — 1R coupling not calibrated
2366 — Coupling 2F not calibrated
2367 — The 2R coupling is not calibrated
2368 — 4F coupling not calibrated
2369 — The 4R coupling is not calibrated
2370 — 5F coupling not calibrated
2371 — 5R coupling not calibrated
2372 — Engine stop — change gearbox to neutral
2379 — Malfunction of the three-speed shaft speed sensor
2380 — Three-speed shaft speed sensor is serviceable
2381 — Open circuit or short circuit to + BAT of the 5th gear speed sensor
2382 — Short circuit to earth of the 5th gear speed sensor
2383 — Open circuit or short circuit to + BAT of the 4th gear speed sensor
2384 — Short circuit to earth of the 4th gear speed sensor
2385 — Open circuit or short circuit to + BAT of the 3rd gear speed sensor
2386 — Short to ground on the 3rd gear speed sensor
2387 — Open circuit or short circuit to + BAT of the 1st gear speed sensor
2388 — Short circuit to earth of the 1st gear speed sensor
2509 — Battery voltage too low to trip
Coupling solenoid valves
2576 — The drive of the lubricant supply solenoid to the 4F coupler detected a chain break or
short circuit
2577 — The model is outside the range of the control system
2578 — The resulting model does not match the controller
2601 — Low supply voltage 12VF1
2602 — Low power supply voltage 12VT1
2603 — Low power supply voltage 12VF2
2604 — Low power supply voltage 12VH
2605 — Low power supply voltage 12VS1
2807 — Excess of speed at the output of the gearbox
2808 — Attempted gear shift in the absence of an operator on the seat
2811 — High temperature transmission oil
2812 — Short to + BAT or an open in the temperature sensor circuit
transmission oil
2813 — Short circuit to earth of the transmission oil temperature sensor
2814 — The integrated control panel is disconnected from the network
2817 — Regulator off, CAN bus
2818 — Loss of communication with the armrest control module (ACM)
2819 — Loss of communication with the Instrument Control Unit (ICU)
2821 — Low pressure in the gearbox
2822 — System pressure is above the permissible range
2824 — High temperature hydraulic oil
2825 — Open circuit or short circuit to + BAT of the hydraulic temperature sensor
oils
2826 — Hydraulic oil temperature sensor short circuit
2849 — The parking brake actuator detects a chain break
2850 — There is no power to the parking brake with the on command
2851 — The parking brake actuator has detected a current overload or an open in the circuit
2852 — There is no power to the parking brake with the on command
2873 — The software is not in calibration mode, still active
parking brake request
2874 — A signal has come to turn on the parking brake, and the gear is engaged without
request for calibration
3004 — Error in the throttle control lever on the CAN bus
the engine
3006 — Coolant temperature sensor — The signal is not valid
3007 — Coolant temperature signal — signal above the maximum value
range
3008 — Coolant temperature signal — signal below the minimum value
range
3010 — Intake Air Temperature Sensor — Signal above maximum value
range
3011 — Intake Air Temperature Sensor — Signal above minimum value
range
3015 — Fuel temperature sensor voltage too high
3016 — Fuel temperature sensor — Signal below the minimum allowable value
3019 — Discharge pressure sensor — Signal above maximum range value
3022 — Discharge pressure sensor — Signal not valid
3028 — Oil pressure too low
3029 — Oil pressure switch — Short to battery
3030 — Oil pressure switch — Short to earth
3031 — Open in the oil pressure sensor circuit or the sensor is disconnected
3032 — Oil pressure switch — Too high value
3033 — Oil temperature sensor — The signal is invalid (compared to the signal
coolant temperature)
3034 — Oil temperature sensor — Signal above maximum range value
3035 — Fuel temperature sensor — signal below the minimum allowable value
3037 — Discharge pressure sensor — Low signal
3060 — Cylinder 1 — non-classified malfunction in the injector
3061 — Cylinder 1 — Short circuit in the injector wire (low voltage circuit to battery)
3063 — Cylinder 1 — Short circuit of the injector wire (high-side side to ground)
3064 — Cylinder 5 — Unclassified injector fault
3065 — Cylinder 5 — Short circuit in the injector wire (low voltage circuit to battery)
3067 — Cylinder 5 — short circuit of the injector wire (high voltage side to ground)
3068 — Cylinder 3 — Uncategorized error in the injector
3069 — Cylinder 3 — short circuit of the injector wire (low voltage side to battery)
3071 — Cylinder 3 — short-circuit of the injector wire (high-side side to ground)
3072 — Cylinder 6 — non-classified malfunction in the injector
3073 — Cylinder 6 — short circuit of the injector wire (low-side side on
battery)
3075 — Cylinder 6 — short circuit of the injector wire (high voltage side on
«mass»)
3076 — Cylinder 2 — non-classified malfunction in the injector
3077 — Cylinder 2 — short circuit of the injector wire (low voltage side to battery)
3079 — Cylinder 2 — short-circuit of the injector wire (high-side side to ground)
3080 — Cylinder 4 — non-classified malfunction in the injector
3081 — Cylinder 4 — short circuit of the injector wire (low voltage side to battery)
3083 — Cylinder 4 — short-circuit of the injector wire (high-side side to ground)
3088 — Crankshaft sensor — no signal
3089 — Crankshaft sensor — incorrect signal
3090 — Camshaft sensor — no signal
3091 — Camshaft sensor — incorrect signal
3093 — Camshaft offset relative to crankshaft — out of range
3095 — Operation with camshaft sensor only — standby mode
3102 — Mains pressure sensor CP3 — signal below the minimum allowable value
3104 — Safety valve on the fuel rail —
Opening
3105 — Safety valve on the fuel rail — pressure surge request
3107 — Fuel flow meter — short to battery
3108 — Fuel flowmeter — short to ground
3110 — Monitoring of the rail pressure sensor — Signal above the set range
3111 — Monitoring of the pressure sensor in the pipeline — signal below the minimum allowable value
3112 — Mains pressure sensor CP3 — signal above the maximum permissible value
3137 — Flowmeter — open load
3138 — Measuring unit — The temperature is too high
3141 — The set flow rate of the flowmeter is lower than the design limit
3142 — High pressure test — check performed
3147 — The oil temperature is excessively high
3148 — Dynamic test of the coolant temperature sensor — malfunction
3176 — The set value of the flowmeter does not correspond to the actual value when overrun.
3177 — Motor speed exceeded
3188 — Cylinder 1, warning — open load
3192 — Cylinder 2, warning — open load
3196 — Cylinder 3, warning — open load
3200 — Cylinder 4, warning — open load
3204 — Cylinder 5, warning — open load
3208 — Cylinder 6 Warning — open load
3210 — Row 1 — General short circuit to the injector wire
3211 — Row 1 — Short-circuit of injector wire (low-side side to ground)
3213 — Row 1 — Uncategorized malfunction
3218 — Row 2 — total short circuit in the injector wire
3219 — Row 2 — short circuit of the injector wire (low-side side to ground)
3221 — Row 2 — Uncategorized malfunction
3227 — Injection processor error — Internal reset / Loss of synchronization / Voltage too low
3228 — Injection processor error — Unlock / initialize error
3229 — Injection processor error — injection is limited to software
3230 — Injection processor error — SPI bus data error
3231 — Injection processor error — Internal reset / Loss of synchronization / Voltage too low
3232 — Injection processor error — unlock / initialize error
3233 — Injection processor error — test mode
3234 — Injection processor error — SPI bus data error
3238 — Communication error of the CJ940 processor
3239 — EEPROM Engine ECU — Read operation error
3240 — EEPROM of the motor controller — Fault in the write operation
3241 — Motor controller EEPROM — The default value is used
3242 — The motor controller has been restored (blocked)
3243 — Restoration of the engine controller (restrained) — Recovery occurred
3244 — Engine controller recovery (visible) — Recovery occurred
3245 — Motor controller — not reliable control module
3246 — Trip routes during initialization — monitoring module
3247 — Malfunction of trip routes during initialization — Increased supply voltage
3248 — Trip routes during initialization — Reduced supply voltage
3249 — Monitoring of the TPU (TPU) — Unreliable discrepancy between TPU time and system time
3252 — Controller Controller Module — SPI communication failure
3265 — Anti-spill protection system — Injection time too long
3266 — Excessive engine speed during run monitoring
3297 — High positive pressure deviation in the rail and high fuel consumption setpoint
3301 — Too high minus pressure deviation in the fuel rail by the minimum flowmeter
3305 — The pressure in the distribution rail is below the minimum limit in controlled mode
3309 — The pressure in the rail is above the maximum limit in controller mode
3313 — Too much pressure drop in the rail.
3316 — Minimum number of injections not reached — Stop the engine
3319 — DTC control error detected: Urea level in the tank below 5%
3320 — A bug of the dosing control unit (DCU) has been detected: the urea level in the tank is below 10%
3321 — A fault code in the DCU is active.
3322 — A fault code in the DCU is active.
3358 — Failure of the CAN auxiliary bus of the engine-ECU (the engine controller can not transmit data to the sensors or sensors — to the CAN bus)
3367 — Error checking coolant temperature
3368 — Reflects the torque limit due to the limitation
productivity
3369 — Torque reduction due to engine smoke restriction
3370 — Torque limit due to engine protection (against torque, against exceeding the permissible engine speed and against engine overheating)
3371 — Torque limit due to the limitation of fuel volume due to errors in the injection system
3385 — Electromagnetic circuit for a viscous fan drive — open circuit or short to ground
3512 — Control of the status of the DCU — The DCU is not ready on time
3517 — Ambient temperature sensor fault (humidity sensor) — Signal level too high
3518 — Ambient temperature sensor (humidity sensor) malfunction — Signal level is too low
3521 — Nitric oxide estimation error — unreliable nitric oxide estimation signal
3528 — Sensitivity error of the nitrogen oxide sensor — unreliable signal
3529 — Nitrogen oxide sensor failure — open load
3530 — Nitrogen oxide sensor fault — short circuit
3532 — Nitrogen oxide sensor failure — sensor was not ready on time
3533 — CAN message waiting time for nitrogen oxides (from nitrogen oxide sensor) — CAN timeout
3541 — No CAN bus message received from the dosing control unit (DCU)
3545 — Protection against overheating of the dispensing valve SCR — limiting the level of torque 2 to activate protection SCR
3546 — Protection against overheating of the selective catalytic neutralization nozzle (SCR) has tripped, see other fault codes
3555 — No CAN bus message received from the dosing control unit (DCU)
3561 — Unreliable value for nitrogen oxides (after reliability of treatment)
3565 — Urea quality and Urea level warnings 1
3569 — Urea quality and urea level warnings 2
3577 — A bug of the dosing control unit (DCU) is detected: the urea tank is empty
3581 — Protection through selective catalytic neutralization (SCR), limited refueling, see other fault codes.
3585 — Engine shutdown (after idling phase)
3593 — Poor quality of reagent
3594 — Torque limitation due to selective catalytic
neutralization (SCR)
3599 — There is no oxidation catalyst error channel — the catalyst warming efficiency is below the threshold value
3602 — Wrong relationship between temperature sensor readings
catalytic converter
3609 — Urea quality and urea level warnings 4
3611 — Neutralizer efficiency — medium (level 1)
3612 — The efficiency of the catalytic converter is lower than the second assumed threshold level of nitrogen oxides
3615 — Initialization failed EVGT
3616 — Torque limit due to turbo protection system due to reason
work at high altitude
3617 — Urea quality and urea level warnings 9
3618 — The emergency start time has elapsed, and the stop is started
3619 — Urea quality and urea level warnings 7
3620 — Urea quality and urea level warnings 8
3621 — Urea quality and urea level warnings 5
3623 — NOx sensor deflection signal (detection of NOx sensor determined)
3624 — Crankcase pressure sensor — Voltage exceeds the upper limit value
3625 — Crankcase pressure sensor — voltage below the lower limit value
3626 — Inaccurate signal from the crankcase pressure sensor
3627 — Checking the physical range of the crankcase pressure sensor (exceeds the upper limit value)
3628 — Checking the physical range of the crankcase pressure sensor
3629 — Checking the reliability of the crankcase pressure sensor when the ignition is switched on
3630 — Fuel in oil, fill with new oil
3631 — Failure of fuel sensor in oil
3632 — Fuel in oil, error of valve signal reliability
3633 — Fuel in oil, delay in the expected response to the reduction in torque (as a result of detection of fuel in oil)
3634 — Fuel in oil, delay filling of new oil
3635 — High fuel pressure in oil
3638 — Torque limit due to negative temperature coefficient
3640 — Turbine speed sensor
3641 — Turbine speed sensor
3642 — Turbine speed sensor
3643 — Turbine speed sensor
3644 — Electrical fault finding circuit of the EDC relay of the drive supplies the NOX sensor and the turbocharger drive
3645 — Electrical fault finding circuit of the EDC relay of the drive supplies the NOX sensor and the turbocharger drive
3646 — Multi-signal faults in the pressure regulator (PCR)
3647 — Supercharging pressure control
3648 — EVGT Supercharging pressure control
3999 — The error of the engine control unit (ECU) has not been converted to the CNH module. Refer to the fault memory of the computer using the EASY tool.
4004 — The ACM (GARU) module is not connected to the network
4005 — Calibration of levers when power is not applied
4100 — Rear remote control valve No. 1 — Control message not received
4101 — Rear remote control valve No. 1 control message is not valid
4102 — Rear remote control valve No. 1 — EEPROM error
4103 — Rear remote control valve No. 1 — switched to «safe mode»
4104 — Rear remote control valve No. 1 — voltage drop below normal
4105 — Rear remote control valve No. 1 — overvoltage
4106 — Rear remote control valve No. 1 — Spool travel too small
4107 — Rear remote control valve No. 1 — Spool travel too large
4108 — Rear remote control valve No. 1 — Floating position not reached
4109 — Remote control valve # 1 — operated manually
4110 — Rear remote control valve No. 1 — defective drive
4111 — Rear remote control valve No. 1 — internal position sensor defective
4112 — Rear Remote Control Valve No. 1 — Neutral position can not be reached
4113 — Rear remote control valve No. 1 — the valve is not in neutral when the ignition is switched on
4114 — Rear remote control valve No. 2 — no control message received
4115 — Rear remote control valve No. 2 — control message is not valid
4116 — Rear remote control valve No. 2 — EEPROM error
4117 — Rear remote control valve No. 2 — switched to «safe mode»
4118 — Rear remote control valve No. 2 — voltage drop below normal
4119 — Rear remote control valve No. 2 — overvoltage
4120 — Rear remote control valve No. 2 — Spool travel too small
4121 — Rear remote control valve No. 2 — Spool travel too large
4122 — Remote control rear valve No. 2 — swing position not reached
4123 — Rear remote control valve No. 2 — operated manually
4124 — Rear remote control valve No. 2 — defective drive
4125 — Rear remote control valve No. 2 — internal position sensor defective
4126 — Remote control rear valve No. 2 — can not turn on the neutral
4127 — Rear remote control valve No. 2 — the valve is not in neutral when the ignition is switched on
4128 — Rear remote control valve No. 3 — Control message not received
4129 — Rear remote control valve No. 3 — control message is not reliable
4130 — Rear remote control valve No. 3 — EEPROM error
4131 — Rear remote control valve No. 3 — No command to switch to neutral when power is applied
4132 — Rear remote control valve No. 3 — voltage drop below normal
4133 — Rear remote control valve No. 3 — overvoltage
4134 — Rear remote control valve No. 3 — too small displacement of the spool
4135 — Rear remote control valve No. 3 — too large displacement of the spool
4136 — Rear remote control valve No. 3 — Swing position not reached
4137 — Rear remote control valve No. 3 — manually operated
4138 — Rear remote control valve No. 3 — defective drive
4139 — Rear remote control valve No. 3 — internal position sensor defective
4140 — Rear remote control valve No. 3 — Can not turn on the neutral
4141 — Rear remote control valve No. 3 — the valve is not in neutral when the ignition is switched on
4142 — Rear remote control valve No. 4 — no control message received
4143 — Rear remote control valve No. 4 — control message is not reliable
4144 — Rear remote control valve No. 4 — EEPROM error
4145 — Remote control valve No. 4 — did not receive a command to turn on the neutral when the power was turned on
4146 — Rear remote control valve No. 4 — voltage drop below normal
4147 — Rear remote control valve No. 4 — overvoltage
4148 — Rear remote control valve No. 4 — Spool travel too small
4149 — Rear remote control valve No. 4 — Spool slide too large
4150 — Rear remote control valve No. 4 — swing position not reached
4151 — Rear remote control valve No. 4 — manual operation
4152 — Rear remote control valve No. 4 — defective drive
4153 — Rear remote control valve No. 4 — internal position sensor defective
4154 — Rear remote control valve No. 4 — can not turn on the neutral
4155 — Rear remote control valve No. 4 — the valve is not in neutral when the ignition is switched on
4156 — Rear remote control valve No. 5 — no control message received
4157 — Rear remote control valve No. 5 — control message is not valid
4158 — Rear remote control valve No. 5 — EEPROM error
4159 — Rear remote control valve No. 5 — No command to switch to neutral when power is applied
4160 — Rear remote control valve No. 5 — voltage drop below normal
4161 — Rear remote control valve No. 5 — overvoltage
4162 — Rear remote control valve No. 5 — Spool travel too small
4163 — Rear remote control valve No. 5 — Spool travel too large
4164 — Rear remote control valve No. 5 — Swing position not reached
4165 — Rear remote control valve No. 5 — manually operated
4166 — Rear remote control valve No. 5 — defective drive
4167 — Rear remote control valve No. 5 — internal position sensor defective
4168 — Rear remote control valve No. 5 — can not turn on the neutral
4169 — Rear remote control valve No. 5 — the valve is not in neutral when the ignition is switched on
4170 — Rear remote control valve No. 1 — not calibrated
4173 — Rear remote control valve No. 2 — not calibrated
4177 — Rear remote control valve No. 3 — not calibrated
4180 — Rear remote control valve No. 4 — not calibrated
4190 — Rear remote control valve No. 1 — no connection
4191 — Rear remote control valve No. 2 — no communication
4192 — Rear remote control valve No. 3 — no connection
4193 — Rear remote control valve No. 4 — no connection
4198 — Rear remote control valve No. 5 — no connection
4216 — Rear remote control valve No. 1 — the spool is not calibrated
4217 — Rear remote control valve No. 2 — the spool is not calibrated
4218 — Rear remote control valve No. 3 — the spool is not calibrated
4219 — Rear remote control valve No. 4 — the spool is not calibrated
4220 — Rear remote control valve No. 5 — the spool is not calibrated
4301 — Rear remote control valve No. 6 — no control message received
4302 — Rear remote control valve No. 6 — control message is not reliable
4303 — Rear remote control valve No. 6 — EEPROM error
4304 — Remote control rear valve No. 6 — no command for neutral at power supply
4305 — Rear remote control valve No. 6 — undervoltage
4306 — Rear remote control valve No. 6 — overvoltage
4307 — Rear remote control valve No. 6 — Spool travel too small
4308 — Rear remote control valve No. 6 — Spool travel too large
4309 — Rear remote control valve No. 6 — Swing position not reached
4310 — Rear remote control valve No. 6 — manually operated
4311 — Rear remote control valve No. 6 — defective drive
4312 — Rear remote control valve No. 6 — internal position sensor defective
4313 — Rear remote control valve No. 6 — Can not turn on the neutral
4314 — Rear remote control valve No. 6 — the valve is not in neutral when the ignition is switched on
4315 — Rear remote control valve No. 7 — Control message not received
4316 — Rear remote control valve No. 7 — control message is not valid
4317 — Rear remote control valve No. 7 — EEPROM error
4318 — Rear remote control valve No. 7 — No command to switch to neutral when power is applied
4319 — Rear remote control valve No. 7 — voltage drop below normal
4320 — Rear remote control valve No. 7 — overvoltage
4321 — Rear remote control valve No. 7 — Spool travel too small
4322 — Rear remote control valve No. 7 — Spool travel too large
4323 — Rear remote control valve No. 7 — Swing position not reached
4324 — Rear remote control valve No. 7 — manually operated
4325 — Rear remote control valve No. 7 — defective drive
4326 — Rear remote control valve No. 7 — internal position sensor defective
4327 — Rear remote control valve No. 7 — can not turn on the neutral
4328 — Rear remote control valve No. 7 — the valve is not in neutral when the ignition is switched on
4329 — Remote control remote control valve No. 8 — no control message received
4330 — Rear remote control valve No. 8 — control message is not valid
4331 — Rear remote control valve No. 8 — EEPROM error
4332 — Rear remote control valve No. 8 — No command to switch to neutral when power is applied
4333 — Rear remote control valve No. 8 — voltage drop below normal
4334 — Rear remote control valve No. 8 — overvoltage
4335 — Rear remote control valve No. 8 — Spool travel too small
4336 — Rear remote control valve No. 8 — Spool travel too large
4337 — Rear remote control valve No. 8 — Swing position not reached
4338 — Rear remote control valve No. 8 — manually operated
4339 — Rear remote control valve No. 8 — defective drive
4340 — Rear remote control valve No. 8 — internal position sensor defective
4341 — Rear remote control valve No. 8 — can not turn on the neutral
4342 — Rear remote control valve No. 8 — the valve is not in neutral when the ignition is switched on
4343 — Rear remote control valve No. 5 — not calibrated
4344 — Remote control remote control valve No. 6 — not calibrated
4345 — Rear remote control valve No. 7 — not calibrated
4346 — Rear remote control valve No. 8 — not calibrated
4347 — Rear remote control valve No. 6 — no connection
4348 — Rear remote control valve No. 7 — no connection
4349 — Rear remote control valve No. 8 — no connection
4350 — Rear remote control valve No. 6 — the spool is not calibrated
4351 — Rear remote control valve No. 7 — the spool is not calibrated
4352 — Rear remote control valve No. 8 — the spool is not calibrated
4353 — Short-circuit EHR FB 1 to high voltage source
4354 — EHR FB 1 valve, short to low voltage source
4355 — EHR FB 3 valve, short to high voltage source
4356 — EHR FB 3 valve, short to low voltage source
4357 — EHR valve, attachment lowering error
4358 — EHR valve, attachment error
5001 — After switching on the tractor power, a switch
5002 — IOM switch interlock
5008 — Simultaneously the IOM activation and deactivation switches are turned on; in one of the MOM switches, a short to the 12 V supply circuit
5009 — Open in the circuit or short circuit of the solenoid valve PTO to «mass»
5010 — Short circuit to + BAT in the solenoid valve PTO circuit with MOM off
5011 — Drive switched on, but no current detected
5012 — Excessive slippage of the MOM coupling for 5 seconds or more
5013 — Engine speed too low to turn on the PTO
5014 — A command was given to turn off the PTO, but the PTO speed is above zero
5015 — The software does not determine the speed of the MOM shaft within 3 seconds after the command is given to the IOM initial load valve
5016 — PTO rotation detected with PTO off and engine off
5017 — MOM coupling not locked after 6 seconds of coupling movement
5022 — With the engine switched off, the PTO switch is in the «on» position
5023 — Short to + BAT in the solenoid valve circuit of the MOM coupling lubricant when the PTO is switched off
5024 — Open circuit or short circuit of the solenoid valve of the MOM coupling lubricant to «earth»
5025 — Diagnosis of the drive monitoring module on the low pressure side of the PTO
5026 — Supply voltage too low 12 V to PTO
5027 — Short-circuit of low-pressure side of solenoid valve PTO to «ground»
5028 — Open circuit or short circuit to + BAT of the clutch speed sensor
5029 — Short to earth of the clutch speed sensor
5032 — Low power supply voltage 12VF3
6001 — Failure of the front differential lock solenoid valve
6002 — Differential lock solenoid valve failure
6003 — Stop lamp relay failure
6004 — Failure of rear differential lock switch
6006 — Failure of the front differential lock switch
6010 — Low power supply voltage 12VS1
6011 — Low power supply voltage 12VS2
6012 — Pressure of the pressure sensor in the steering system above the maximum permissible limit
6013 — Pressure of the pressure sensor in the steering system below the minimum permissible limit
ATC 122 — Open or short to the power supply of the mode selection potentiometer
ATC 125 — Short to high-pressure switch power supply (+)
ATC 127 — Short to high-pressure switch power supply (-)
ATC 128 — Short to ground of the high pressure switch (-)
ATC 129 — High pressure switch cyclic error (2 times per minute)
ATC 130 — Short to the power supply of the low pressure switch (+)
ATC 131 — Short to ground of the low pressure switch (+)
ATC 132 — Short to low-pressure switch power supply (-)
ATC 133 — Short to ground of the low pressure switch (-)
ATC 134 — Low pressure switch open for more than 1 minute