Xerox dc 12 ошибка 9 363

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1. 04-28-2008

   
   

   #1

   xerox dc12 error 9-363
   

   I have the error code 9-363 on my dc12. Where will I find the sensors for developer housing unit so I can clean them. Does anyone know how I can get rid of this error message?

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2. 05-01-2008

   
   

   #2

   

   
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   32

   try to clean the dev rotary sensor. open the upper right hand cover then there are two assy’s to be removed also for you to access the rotary sensor located inboard side. this sensor senses the home position of rotary developer. to removed this sensor, you have to open the rear cover, then rotary pwb. some 9-363 code is due to busted fuse in the rotary pwb.

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3. 05-01-2008

   
   

   #3

   Error 9-363
   

   Thanks very much for help replaced fuses and seems okay now!

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4. 05-01-2008

   
   

   #4

   error message 9-355
   

   Have now got error message 9-355. Any ideas?

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5. 05-02-2008

   
   

   #5

   

   
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   09-355 TONER DISPENSER BROKENFAIL MAGENTA

   Description
   The M LOW TONER SENSOR detected TONER is available for 100secconsecutively.

   BSD on:CH9.5 CH9.6 CH9.15A

   Procedure
   Enter the Diag mode. Execute

   DC330 [09-258]. With the connector plugged into the LOW TONER SENSOR (M), removeit from the TONER CARTRIDGE (M). Is the display switched to «LOW»?
   Yes No

   Is 0VDC measured between the LOW TONER SENSOR (M)

   J119-3 (+) and GND (-)?
   Yes No
   Check the +5VDC circuit to the J119-3 (+) by referring to Chapter 7 WiringData. (WN DC COM(+5VRET)-1)

   Is 0VDC measured between the LOW TONER SENSOR (M)

   J119-2 (+) and GND (-)?
   Yes No
   Replace the LOW TONER SENSOR (M). (PL6.3)

   Is 0VDC measured between the IOT DRIVE PWB

   J421-B11 (+) and GND(-)?
   Yes No
   Check the wire between the J421-B11 and J119-2 for an open circuit or poor contact.

   Replace the IOT DRIVE PWB. (

   REP9.2.2)

   Cheat the Front Door Interlock. Move the DEVE UNIT to the MAGENTposition in

   DC920 andexecute DC330 [09-033]. Is the DISPENSE MOTOR (M) revolving?
   Yes No

   When

   DC330 [09-033]is executed, is +5VDC measured between the IOT DRIVE PWB J421-B5 (+) and GND(-)?
   Yes No

   Is +5VDC measured between the DISPENSE PWB

   J432-8 (+) and GND (-)?
   Yes No

   Is +5VDC measured between the DISPENSE PWB

   J431-4 (+) and GND (-)?
   Yes No
   Check the +5VDC circuit to the DISPENSE PWB by referring to Chapter7 Wiring Data. (WN+5VDC-1)

   Is +24VDC measured between the DISPENSE PWB

   J431-2 (+) and GND (-)?
   Yes No
   Check the +24VDC circuit to the DISPENSE PWB J431-2 by referringto Chapter 7 Wiring Data. (WN+24VDC-1)

   Repair the DISPENSE MOTOR (M) using

   2.3.4.6 Generic Motor FIP.

   Check the wire between the DISPENSE PWB

   J432-8 and the IOT DRIVE PWB J421-B5 for an opencircuit or poor contact.

   Replace the IOT DRIVE PWB. (

   REP9.2.2)

   Check the following:

   • Check for mechanicalproblems such as damage to and a revolution failure of the auger.
   • Check for toner or foreign substance blocking the toner transportationpath.

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6. 05-02-2008

   
   

   #6

   Error 9-355
   

   Thanks for sorting that out for me got it working but everything is printing very light and patchy now plus the surface of image feels rough, I have replaced fuser oil and dont know what else it could be.

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7. 07-16-2008

   
   

   #7

   

   
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   QUOTE: Thanks for sorting that out for me got it working but everything is printing very light and patchy now plus the surface of image feels rough, I have replaced fuser oil and dont know what else it could be.

   The ESV sensor might be faulty. Also check for LOOSE WIRE connections to the CC/PCC HVPS, Deve Bias HVPS, and 2nd BTR HVPS

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Originally published in ENX Magazine (www.enxmagazine.com) Introducing: The Xerox DC12 style machines. (Docucolor 12 (DC12) & Document Centre Color System 50 (DC50 or DCCS50)) Overview and Status Codes… Author: Britt Horvat of The Parts Drop First published in ENX Magazine (www.enxmag.com) All accounts of the Xerox Docucolor 12 which I’ve heard so far, seem to consider this a superb piece of equipment. It’s a full color copier and printer capable of producing color prints and copies which are truly impressive. There are quite a few of these machines out there… we’ll start with a quick overview and then plunge into the rather deep pool of Status Codes (actually, we’ll just wade a little… the complete listing would take up way too many pages). The DC12 and the DCCS50 are covered together in one service manual so they are very closely related. These machines are said to run well so long as regular maintenance is observed… one of the most sensitive parts of the machine lies in the Fuser’s Oil application system. Problems in copy quality which may at first appear to be caused by other things can wind up being in the fuser oiler section. Its important to understand the way the machine works a little bit… there is an “IBT” belt which is a transfer belt… this belt gets written on by laser and then developed by each of the colors individually… it keeps going around till each color is overlayed to form the image, then the image is developed onto the Drum from the IBT belt to finally be transferred onto the Paper. With all the layering, it is understandable how crucial a roll the fuser plays in this system. It must have the right temperature, lubrication and pressure to do its job. The Fuser is different from many of the black and white copiers / printers which I know in that it has three Fuser Rollers (the Heat Roll, the Pressure Roll, and the External Roll). It has heater lamps in all three of these rollers as well as thermal fuses. It also has thermistors for heat control and overheat on all 3 rollers (for a grand total of 6 thermistors and 3 thermal fuses / thermostats if you’re keeping count). There is a way to enter into the Diagnostic Mode from the Control Console or User Interface (UI) although access is somewhat limited. Ideally, you’d be equipped with a PWS (Portable Work Station) which is a laptop computer loaded with software to interface with the machine. From a PWS you’d have a menu driven way of accessing the diagnostics. From the Control Console, you’ll need to get a listing of the codes… there’s no approaching this one blind. You’ll also have to pay extremely close attention to make sure you enter the code you really intend to since the display will give you little to go on. While there are plenty of regular maintenance work and mechanical repair work which any competent tech can handle, it’ll be important to recognize when you’re in over your head… basically, take on the problems which make sense to you and know when to run! If you run into logic problems, you’ll need to get in an expert for sure… let the customer know that you can repair some of the basic and more common problems which occur (such as replacing fuser parts, feed components, etc.) but that you have limited access to information and in some cases, they may need to find someone who is trained on the machine (someone who owns a PWS would be best). If you make friends with someone who knows these machines, keep their number handy. Like many of the more complex Xerox machines, this one is a bit logic-heavy… so there are more codes than we’ll actually list here, but at least this will give you a good idea which way to look when you get a status code.

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DESCRIPTION

Brief list of errors

Text of Xerox Error Codes DC12

2/10/03FAULT CODES AND DESCRIPTIONS

1-300 The Control Logic has detected that the Front DoorCover is open.

1-304 This RAP should be used to repair the left-handCover Interlock circuit.

2-310 This Fault Code indicates that the UI Panel failed.

2-340 This Fault Code is detected at power on andindicates that the UI PWB RAM Test failed.

3-311 The IOT-SYS Software Logic Failure was detectedafter a certain time period (the NVM value).

3-315 Fault Code indicates that a communication failurebetween the IOT PWB and the Post IPS PWB wasdetected.

3-317 This Fault Code indicates that a communicationsfailure between the UI PWB and the IOT PWB wasdetected.

3-318 This Fault Code indicates that a communicationfailure between the IOT PWB and the IPS PWB wasdetected.

3-319 Fault Code indicates a communication failurebetween the IOT PWB and the MailBox PWB.

3-327 Fault Code indicates a communication failurebetween the IOT PWB and the DDI IISS.

3-328 Fault Code indicates that a communication failurebetween the IOT PWB and the DDI IISS was detected.

3-329 Fault Code indicates that a communication failurebetween the IOT PWB and the DDI IISS was detected.

3-330 Fault Code indicates that a communication failurebetween the IOT PWB and the DDI IISS was detected.

3-333 This Fault Code indicates that a communicationsfailure was detected between the Foreign Interface PWBand the IOT

3-340 This Fault Code indicates that it was detected atpower on that the IOT PWB RAM Test failed.

3-356 This Fault Code indicates that the IOT PWB NVMtest failed and was detected at Power On.

3-380 fault indicates that the TR0 signal was not receivedon time.

3-393 This fault code is declared when the limit of theallowable number of times to write on to the EEP-ROM ofthe Half-Tone PWB is reached.

3-394 This fault code is declared when the limit of theallowable number of times to write on the EEP-ROM ofthe IOT CPU PWB is reached.

3-395 This fault code is declared when writing to the EEP-ROM of the Half-Tone PWB failed.

3-396 This fault code is declared when writing to theEEPROM of the IOT CPU PWB failed.

3-397 This fault is declared when the data stored ismismatched, or when an automatic correction wasimpossible after a billing mismatch occurred.

3-510 fault code indicates that a tray containing the size ofpaper closest to the size of the image was not detectedwhile APS was enabled.

3-511 Fault Code indicates that the Tray selected by theAPS was not in position.

3-512 Fault Code indicates that the Tray selected by theAPS had no paper.

3-518 Fault Code indicates that the Tray selected by theAPS had no paper.

3-527 Fault Code indicates that the original returnedaccording to the original return instruction did not matchthe size or color of the original recognized by the machinebecause it was returned by mistake on the part of the user

3-528 Fault Code indicates that the machine does notrecognize the document size automatically detected.

3-529 Fault Code indicates that the result of themagnification calculation was outside of the range of25%~400%.

3-530 Fault Code indicates that the result of themagnification calculation was outside of the range of25%~400%.

3-535 Fault Code indicates that the whole image did not fitto the paper.

3-536 Fault Code indicates that no original is on the platen.

3-537 Fault Code indicates that the specified number ofimages did not fit on the paper.

3-538 Fault Code indicates that no image fit to paper.

3-539 Fault Code indicates that magnification of the outputwas specified at beyond 400% at continuous enlargementcopying mode.

3-541 Fault Code indicates that the tray corresponding tothe standard size of paper slightly larger than the size ofthe image did not exist while executing the APS.

2/10/033-542 Fault Code indicates that the calculatedmagnification was beyond the range of 400%~25%.

3-543 Fault Code indicates that the rotation could not bedone because the magnification exceeded 100%.

3-550 Fault Code indicates that there was no position-detection patch on the original while executing anautomatic “KAICHO” revision.

3-560 Fault Code indicates that it reached the pre-set copylimit value (specified for/by the User Password at theAuditron Administrator Mode) during the copyingoperation.

3-580 This Fault Code is declared when the machine wasnot able to receive the print from/against the Hint withinthe specified time.

3-581 The Dead Cycle continued for more than twominutes.

3-600 This Fault Code is declared when after the jobended, the billing mismatch occurred and automaticcorrection implemented.

3-601 After the job ended, the billing mismatch occurred,and automatic correction implemented.

3-602 This Fault Code is declared when after the jobended, the billing mismatch occurred, and automaticcorrection was implemented.

OF4-001 Main Motor RAPThis RAP is used to repair the Main Motor and DrumMotor circuit failures when directed by another RAP.

OF4-002 Drum Motor RAPThis RAP is used to repair the Main Motor and DrumMotor circuit failures when directed by another RAP.

5-110 The DADF Registration Sensor did not actuatewithin 650 m sec after the DADF Transport Motor wasenergized.

5-111 The DADF Registration Sensor did not actuatewithin 640 m sec. after the DADF Transport Motor wasenergized while feeding the original.

5-112 The DADF Registration Sensor did not actuatewithin 500 m sec. after the DADF Transport Motor wasenergized during reversal of the original.

5-113 The DADF Registration Sensor did not actuatewithin 1,150 m sec. after the DADF Transport Motor wasenergized during reversal of the original.

5-115 The DADF Exit Sensor did not actuate within 800 msec. after the DADF Transport Motor was energized, whileexchanging or discharging the original.

5-116 The DADF Exit Sensor did not deactuate within 650m sec after it was actuated.

5-189 The Control Logic has detected the documentHandler was raised while running a DADF job.

5-195 The DADF Control PWB detected different sizeddocuments when the mixed sized feature has not beenselected.

5-196 The DADF Document Sensor detected paper whenpower was switched on.

5-197 The DADF Registration Sensor has detected thepresence of a document after the power was switched onand the DADF Top Cover was closed.

5-198 The DADF Exit Sensor has detected the presence ofa document after the power was switched on and theDADF Top Cover was closed.

5-199 The DADF Duplex has detected the presence of adocument after the power was switched on and the DADFTop Cover was closed.

5-274 The Control Logic has detected a DADF SizeSensor 1 or DADF Size Sensor 2 failure or a DADF RamTest failure after switching the power on or placing theoriginals in the Entrance Tray.

5-275 The Control Logic has detected a DADF SizeSensor 1 or DADF Size Sensor 2 failure or a DADF RamTest failure after switching the power on or placing theoriginals in the Entrance Tray.

5-301 The DADF Control PWB detected a signal from theTop Cover Front and/or Rear Interlock Switches indicatingthat the DADF Top Cover is open at the start of print orduring print run.

5-500 The DADF Control PWB detected that the originalwas removed from the Entrance Tray after the DADFstarted operating.

5-501 The Control Logic has detected that anautomatically detected size of the original was irregular.

5-503 The Missing Document Reset fault code (05-503) isdisplayed when the Control Logic has detected that aftercounting and returning the originals, there is a mismatchbetween the number of pages counted and the actualnumber of pages.

5-999 A document misfeed occurred during or after ADFJam Recovery.

OF5-1 Jam Recovery problems occur when a jamclearance activity results in the complete re-copying of aset of documents, instead of resuming the copy job at thepoint where the jam occurred.

2/10/036-275 The Control Logic has detected the Platen AngleSensor is not in the correct state for the Job Programmed.

6-277 The Pre IPS PWB detected a communication faultbetween the DADF Control PWB and the Pre IPS PWB.

6-300 A fault code for Platen Cover Open appears evenswhen the Platen Cover is physically closed.

6-312 The Control Logic has detected a communicationerror between the POST IPS PWB and the MEM SYSPWB.

6-340 The Pre IPS PWB Ram Test detected a failure atpower on.

6-345 A Failure was detected when writing to the NVMand a communication failure with the EEPROM whenwriting into the Pre IPS PWB NVM.

6-355 The IIT Driver PWB detected a control error causedby an IPS Fan failure. This error is not detected duringdocument scan.

6-360 The Control Logic detected the Carriage out ofposition during Carriage Initialization

6-361 The IIT Driver PWB detected an inability to controlthe Carriage during carriage during initialization.

6-371 The IIT Driver PWB detected a control error causedby an Exposure Lamp power failure.

6-389 The IIT Regi (Registration) Sensor detected anoverrun during Full Rate Carriage scanning.

6-390 The IIT Regi (Registration) Sensor detected anoverrun during Full Rate return.

6-391 The IIT Regi (Registration) Sensor changed to highwhen the Carriage Initialization Started.

6-500 The Control Logic has detected that the ExposureLamp Light did not reach the specified value at Start.

6-615 The Control Logic has detected that the measured b*is out of the specific range.

6-620 The Control Logic has detected that the measuredreflective rate for each color is out of the specific range.

7-281 The Tray 1 Stack Height Sensor failed to changestate within the specified time after Tray 1 Feed/Lift Motorwas energized.

7-282 The Tray 2 Stack Height Sensor failed to changestate within the specified time after Tray 2 Lift/Feed Motorwas energized.

7-283 The Tray 3 Stack Height Sensor (PL 2.5) failed tochange state within the specified time after Tray 3Feed/Lift Motor was energized.

7-284 The Tray 4 Stack Height Sensor failed to changestate within the specified time after Tray 4 Feed/Lift Motorwas energized.

7-286 The Tray 5 Stack Up Sensor failed to change statewithin 3 seconds after the Tray 5 Feed/Lift Motor Up wasenergized.

7-287 The Tray 5 Stack Down Sensor failed to changestate within 3 seconds after the Tray 5 Feed/Lift MotorDown was energized.

7-340 The IOT detected that all Paper Trays are notfunctional.

7-500 The machine detected that the Tray is out of positionduring the Job.

7-501 The machine detected no paper in the paper trayselected.

7-501 The machine detected that the paper size width isnot being detected correctly in Tray 5.

7-503 The machine detected that the paper size length isnot being detected correctly for Tray 5.

7-504 The machine detected that the paper size changedduring the Job.

7-600 The machine detected that Tray 5 Side Guide wasoutside the specified range.

8-104 The Tray 1 Prefeed Sensor did not detect paperwithin the specified time after the prefeed started.

8-105 The Tray 1 Feed Out Sensor did not detect paperwithin the specified time after the prefeed started.

8-107 The Tray 1 Feed Out Sensor detected paper whenclosing the Front Cover or when power was switched on.

8-109 The Tray 2 Prefeed Sensor did not detect paperwithin the specified time after the prefeed started.

8-110 The Tray 2 Feed Out Sensor did not detect paperwithin the specified time after the prefeed started.

8-112 The Tray 2 Feed Out Sensor detected paper whenclosing the Front Cover or when power was switched on.

8-114 The Tray 3 Prefeed Sensor did not detect paperwithin the specified time after the prefeed started.

2/10/038-115 The Tray 3 Feed Out Sensor did not detect paperwithin the specified time after the prefeed started.

8-117 The Tray 3 Feed Out Sensor detected paper whenclosing the Front Cover or when power was switched on.

8-119 The Tray 4 Prefeed Sensor did not detect paperwithin the specified time after the prefeed started.

8-120 The Tray 4 Feed Out Sensor did not detect paperwithin the specified time after the prefeed started

8-122 The Tray 4 Feed Out Sensor detected paper whenclosing the Front Cover or when power was switched on.

8-135 The Tray 5 Feed Sensor did not detect paper withinthe specified time after the feed started

8-139 The Tray 5 Feed Sensor detects paper at all times.

8-147 The Takeaway Sensor did not actuate within 0 — 80m sec after the Tray 1 feed started.

8-148 The Takeaway Sensor did not actuate within 220 -320 m sec after the Tray 2 feed started.

8-149 The Takeaway Sensor did not actuate within 450 -520 m sec after the Tray 3 feed started.

8-150 The Takeaway Sensor did not actuate within 620 -720 m sec after the Tray 4 feed started.

8-152 The Takeaway Sensor detected paper when closingthe Front Cover or when power was switched on.

8-154 The Pre Registration Sensor detected paper whenclosing the Front Cover or when power was switched on.

8-157 The Registration Sensor detected paper whenclosing the Front Cover or when power was switched on.

8-158 The Pre IBT Sensor detected paper when closing theFront Cover or when power was switched on.

8-163 The Pre IBT Sensor did not actuate within thespecified time after the Registration Feed started:

8-171 The Pre Registration Sensor did not actuate with 80- 180 m sec after the feed started from Tray 1.

8-172 The Pre Registration Sensor did not actuate with 320- 420 m sec after the feed started from Tray 2.

8-173 The Pre Registration Sensor did not actuate with 520- 620 m sec after the feed started from Tray 3.

8-174 The Pre Registration Sensor did not actuate with 720- 820 m sec after the feed started from Tray 4.

8-175 The Registration Sensor did not actuate with 562 -1010 m sec after the feed started from Tray 5.

8-176 The Registration Sensor did not actuate with 316 -416 m sec after the feed started from Tray 1.

8-177 The Registration Sensor did not actuate with 556 -656 m sec after the feed started from Tray 2.

8-178 The Registration Sensor did not actuate with 756 -856 m sec after the feed started from Tray 3.

8-179 The Registration Sensor did not actuate with 956 -1056 m sec after the feed started from Tray 4.

8-305 The Tray 5 Interlock is detected open.

8-306 The Drawer Interlock is detected open.

9-271 Control Logic has detected that the Yellowdispenser is empty.

9-272 Control Logic has detected that the Magentadispenser is empty.

9-273 Control Logic has detected that the Cyan dispenseris empty.

9-274 Control Logic has detected that the Black dispenseris empty.

9-311 Xerographic CRU (Drum) Type Mismatch. TheControl Logic detected that the Xerographic CRU (Drum)that is installed in the machine is not the correct type forthis product.

9-342/9-432 The Control Logic has detected that the 2ndBTR failed to contact the IBT.

9-343/9-433 The Control Logic has detected that the 2ndBTR failed to retract.

9-344/9-434 The Control Logic has detected that the IBTCleaner failed to contact the IBT.

9-345/9-435 The Control Logic has detected that the IBTClean Blade failed to retract from the IBT.

9-354 This fault code appears when any one of thefollowing conditions occurs: the Low Toner Sensor detectsthat there is no toner for a period of 2 seconds; the lowtoner sensor detects that there is no toner for a period of500 seconds (approximately 8 minutes); or when the tonerdispense motor remains energized.

9-355 This fault code appears when any one of thefollowing conditions occurs: the Low Toner Sensor detectsthat there is no toner for a period of 2 seconds; the LowToner Sensor detects that there is no toner for a period of500 seconds (approximately 8 minutes); or when the tonerdispense motor remains energized.

2/10/039-356 This fault code appears when any one of thefollowing conditions occurs: the low toner sensor detectsthat there is no toner for a period of 2 seconds; the lowtoner sensor detects that there is no toner for a period of500 seconds (approximately 8 minutes); or when the tonerdispense motor remains energized.

9-357 Fault code appears when any one of the followingconditions occurs: the low toner sensor detects that there isno toner for a period of 2 seconds; the low toner sensordetects that there is no toner for a period of 500 seconds(approximately 8 minutes); or when the toner dispensemotor remains energized.

9-358 The Control Logic has determined that 130 copieshave been made since the Cleaning Auger Stopped.

9-363 Control Logic detected that the Rotary did not reachthe Home position

9-365/9-450 Control Logic has detected that the Yellowdispenser is almost empty.

9-366/9-451 Control Logic has detected that the Magentadispenser is almost empty.

9-367/9-452 Control Logic has detected that the Cyandispenser is empty.

9-368/9-453 Control Logic has detected that the Blackdispenser is almost empty.

9-369 The Control Logic has detected that the RotaryLatch Solenoid failed to lock

9-370 The Control Logic has detected that the RotaryLatch Solenoid failed to unlock

9-372 Xerographic CRU (Drum) not in Position. TheControl Logic detected that the Xerographic CRU (Drum)is not installed in the machine.

9-374 This status code is declared when the sensor detectsthere is no Waste Bottle, or that the Waste Bottle has beenimproperly installed.

9-376 Waste Bottle Full. This status code is declared whenthe number of copies reach a specific count after the WasteToner Full Sensor has detected a full toner bottle.

9-378 Control Logic has detected that the count in theXerographic CRU (Drum) Eprom has reached 40k.

9-379 Trickle Bottle Full. This status code is declaredwhen the number of copies reach a specific count after theTrickle Toner Full Sensor has detected a full trickle bottle.

9-400 Control Logic has detected that the Black dispenseris almost empty.

9-402 Control Logic has detected that the Yellowdispenser is almost empty.

9-403 Control Logic has detected that the Magentadispenser is almost empty.

9-404 Control Logic has detected that the Cyan dispenseris almost empty.

9-410 Control Logic has detected that the XerographicCRU (Drum) is almost at the end of life.

9-420 Control Logic has detected that the Waste Bottle isalmost full.

9-423 Control Logic has detected that the Trickle Bottle isalmost full.

9-424 Control Logic has detected that the Cleaning Augeris almost full.

9-601 The measured humidity was out of the prescribedrange.

9-610 The measured toned ADC patch was to light.

9-612 The measured toned TRC patch density is out ofrange.

9-614 The measured untoned ADC patch was out of range.

9-619 The measured untoned TRC patch density was outof range.

9-634 The selected gain for ADC was out of range.

9-662 The selected LD value was out of range.

9-667 The selected LD value was out of range.

10-102 The Pre Fuser Sensor did not actuate within thespecified time after the Pre IBT Sensor actuated.

10-103 The Pre Fuser Sensor detected paper when closingthe Front Cover or when power was switched on.

10-105 The Fuser Exit Sensor did not actuate within thespecified time after the IBT Entrance Sensor actuated.

10-106 The Fuser Exit Sensor did not deactuate within thespecified time after the Registration Feed started.

10-107 The Fuser Exit Sensor detected paper when closingthe Front Cover or when power was switched on.

10-110 The Machine Exit Sensor did not actuate within thespecified time after the Fuser Exit Sensor actuated.

10-111 When using either the inversion path or exit path,the Machine Exit Sensor did not deactuate within thespecified time after it actuated.

2/10/03

10-112 The Machine Exit Sensor detected paper whenclosing the Front Cover or when power was switched on.

10-115 The Exit Path Sensor did not actuate within thespecified time after the Fuser Exit Sensor actuated.

10-117 The Exit Path Sensor detected paper when closingthe Inverter Cover or when the power was switched on.

10-120 The Inverter Path Sensor detected paper whenclosing the Inverter Cover or when the power wasswitched on.

10-125 The Inverter Path Sensor did not actuate within thespecified time after the Fuser Exit Sensor actuated.

10-126 The Inverter Path Sensor did not deactuate withinthe specified time after the Fuser Exit Sensor deactuated.

10-127 The Registration Sensor did not actuate within thespecified time after the start of Paper Feed in DuplexMode.

10-128 The Pre Registration Sensor did not actuate withinthe specified time after the start of Paper Feed in DuplexMode.

10-130 The Duplex In Sensor did not actuate within thespecified time after the start of Reverse Feed.

10-132 The Duplex Path Sensor did not actuate within thespecified time after the start of Reverse Feed.

10-133 The Duplex Out Sensor did not actuate within thespecified time after the start of Reverse Feed.

10-160 Duplex In Sensor Paper Static Jam.

10-162 Duplex Path Sensor Paper Static Jam.

10-163 Duplex Out Sensor Paper Static Jam.

10-280• At initialization, the Offset Home Sensor did not

detect the home position after OCT reversal.• During offset, movement of the Stacker to the

offset position was not detected by the OffsetHome Sensor

• During offset, movement of the Stacker to thehome position was not detected by the OffsetHome Sensor

10-300 The Inverter Cover is detected open.

10-341 Fuser Oil Empty. This status code is declared whenapproximately 2000 — 4000 pages (Prints or Copies) havebeen made since Oil Near Empty Condition.

10-342 The Web Supply Roll is empty. The customershould install a new Web CRU.

10-355 The External Heat Roll Retract Sensor did not go Lwithin 5 seconds after the External Heat Roll RetractMotor started rotating.

10-356 The External Heat Roll Retract Sensor did not goH within 5 seconds after the External Heat Roll RetractMotor started rotating.

10-359 The Heat Roll Control Thermistor detected anabnormal resistance value continuously for more than 1500m sec (Heat Roll Control Thermistor disconnected).

10-360 The Heat Roll Overheat Thermistor detected anabnormal resistance value continuously for more than 1500m sec (Heat Roll Overheat Thermistor disconnected).

10-361 The Heat Roll did not reach the Ready temperaturewithin 12 minutes after Power On.

10-362 The Heat Roll Lamp was On continuously for 90seconds during Standby Mode, but the Heat Roll did notreach operating temperature.

10-363 The Heat Roll Lamp was On continuously for 3minutes after the current job completed, but the Heat Rolldid not reach operating temperature.

10-364 The Heat Roll declared Not Ready during a job andthe Heat Roll Lamp was On continuously for 4 minutesafter the machine stopped, but the Heat Roll did not reachoperating temperature.

10-366 The Heat Roll Control Thermistor detected atemperature in excess of 230° C (446° F) on the Heat Roll.

10-367 Heat Roll Overheat Thermistor detected atemperature in excess of 230° C (446° F) on the Heat Roll.

10-368 The Pressure Roll Control Thermistor detected anabnormal resistance value continuously for over 1500 msec (Pressure Roll Control Thermistor disconnected).

10-369 The Pressure Roll Overheat Thermistor detected anabnormal resistance value continuously for over 1500 msec (Pressure Roll Overheat Thermistor disconnected).

10-370 The Pressure Roll did not reach the Readytemperature within 8 minutes after Power On.

10-371 The Pressure Roll Heater Rod was Oncontinuously for 90 seconds during the Standby Mode, butthe Pressure Roll did not reach operating temperature.

10-372 The Pressure Roll Lamp was On continuously for 3minutes after the current job completed, but the PressureRoll did not reach operation temperature.

2/10/0310-373 The Pressure Roll declared Not Ready during a joband the Pressure Roll Lamp was On continuously for 3minutes after the machine stopped, but the Pressure Rolldid not reach operation temperature.

10-375 The Pressure Roll Control Thermistor detected atemperature in excess of 230° C (446° F) on the PressureRoll.

10-376 The Pressure Roll Overheat Thermistor detected atemperature in excess of 230° C (446° F) on the PressureRoll.

10-377 The External Heat Roll Control Thermistordetected an abnormal resistance value continuously for1500 m sec (External Heat Roll Control Thermistordisconnected).

10-378 The External Heat Roll Overheat Thermistordetected an abnormal resistance value continuously for1500 m sec (External Heat Roll Overheat Thermistordisconnected).

10-379 The External Heat Roll did not reach the Readytemperature within 5 minutes after Power On.

10-382 The External Heat Roll Lamp was On continuouslyfor 1 minute during the Standby Mode, but the ExternalHeat Roll did not reach operating temperature.

10-383 The External Heat Roll Lamp was On continuouslyfor 3 minutes after the current job completed, but theExternal Heat Roll did not reach operating temperature

10-384 The External Heat Roll declared Not Ready duringa job and the External Heat Roll Lamp was Oncontinuously for 3 minutes after the machine stopped, butthe External Heat Roll did not reach operating temperature.

10-386 The External Heat Roll Control Thermistordetected a temperature in excess of 230° C (446° F) on theExternal Heat Roll.

10-387 The External Heat Roll Overheat Thermistordetected a temperature in excess of 230° C (446° F) on theExternal Heat Roll.

10-389 The Nip Sensor did not go L within 5 seconds afterthe Fuser Nip Clutch was energized (Pressure Roll startedmoving against the Heat Roll).

10-390 The Nip Sensor did not go H within 5 seconds afterthe Fuser Nip Clutch was energized to retract the PressureRoll.

10-391 The Failure detection circuit (hardware) indicatedan abnormal operation but a failure did not occur for theHeat Roll, Pressure Roll and External Heat Roll.

10-398 The Fuser Fan Failed.

10-399 The Fuser Intake Fan Failed.

10-421 The Oil Empty Sensor detected the Oil Near EmptyCondition continuously for 5 seconds.

10-422 A faulty connection has occurred between the WebCRU and the IOT Drive PWB.

10-500 The Web CRU detection circuit detected that theCRU was not present or was not fully seated.

10-900 The Fuser temperature fell below the normal valueduring the job. The machine cycled down and temporarilystopped the copying job; and when it reached the operatingtemperature, canceled the above condition and startedagain automatically (the job resumes).

11-107 The OCT Exit Sensor did not detect the lead edgeof the paper within the specified time after the DecurlerExit Sensor detected the lead edge of the same paper.

11-108 The OCT Exit Sensor did not deactuate within thespecified time after the OCT Exit Sensor actuated.

11-109 The OCT Exit Sensor did not detect the lead edgeof the paper within the specified time after the DecurlerExit Sensor detected the trail edge of the same paper.

11-110 The Control Logic detected that paper remained onthe Decurler Exit Sensor at power on.

11-111 The Control Logic detected that paper remained onthe Decurler Exit Sensor at power on.

11-115 The MailBox Vertical Sensor did not detect thelead edge of the paper within the specified time after theDecurler Exit Sensor detected the lead edge of the samepaper.

11-116 The MailBox Vertical Sensor did not detect theTrail edge of the paper within the specified time after theMailBox Vertical Sensor detected the lead edge of thesame paper.

11-142 The V-Tra In Sensor did not detect the lead edge ofthe paper within the specified time after the Decurler ExitSensor detected the lead edge of the same paper.

11-143 The V-Tra In Sensor did not deactuate within thespecified time after the V-Tra In Sensor actuated.

11-144 The V-Tra In Sensor did not detect the lead edge ofthe paper within the specified time after the Decurler ExitSensor detects the lead edge of the same paper.11-145 The Decurler Exit Sensor did not detect the leadedge of the paper within the specified time after the M/CExit Sensor detected the lead edge of the same paper.

11-146 The Decurler Exit Sensor did not detect the leadedge of the paper within the specified time after the MCExit Sensor detected the lead edge of the same paper.

2/10/03

11-190 The Control Logic detected that paper remained onthe V-Tra In Sensor at power on.

11-191 The Control Logic detected that paper remained onthe MailBox Vertical Sensor at power on.

11-192 The Control Logic detected that paper remained onthe Oct Exit Sensor at power on.

11-273 The Control Logic determined that either theOffset Home Sensor or the Offset Position Sensor did notdetect the OCT position within 600msec. for threeconsecutive attempts.

11-301 Front Cover A Interlock Open Failure. This statuscode is declared when the Mailbox Front Door Interlock isopen.

11-302 Front Cover B Interlock Open Failure. This statuscode is declared when the MailBox Front Cover is open.

11-303 Docking Interlock Open failure. This status code isdeclared when the MailBox is not properly docked.

11-350 This status code is declared when the DecurlerCam Position Sensor did not energize within the specifiedtime (1400msec) after the Decurler Clutch is energized

11-512 The Control Logic detected that the Offset CatchTray/Simple Catch Tray is full.

11-911 The Control Logic detected that Bin 1 is full

11-912 The Control Logic detected that Bin 2 is full.

11-913 The Control Logic detected that Bin 3 is full.

11-914 The Control Logic detected that Bin 4 is full.

11-915 The Control Logic detected that Bin 5 is full.

11-916 The Control Logic detected that Bin 6 is full.

11-917 The Control Logic detected that Bin 7 is full.

11-918 The Control Logic detected that Bin 8 is full.

11-919 The Control Logic detected that Bin 9 is full.

11-920 The Control Logic detected that Bin 10 is full.

11-921 The Control Logic detected that the Offset CatchTray is full.

11-922 The Control Logic has determined that bin 10 isfull while operating in the Stack Mode.

14-372 The SOS Sensor did not change to Low within thespecified time after the Polygon Motor was energized.

14-376 The System wrote data in the Asic Register on theHalf Tone PWB, but could not read the data.

14-380 The SOS Interval became longer than normal whilethe Polygon Motor was energized.

14-384 The SOS Interval became shorter than normalwhile the Polygon Motor was energized.

14-388 The Control Logic detected a ROS Pickup ASICFailure

15-281 The BR PWB Detected paper money during thefirst scan.

15-284 The BR PWB detected currency on the Platenduring the 2nd scan.

15-342 The control logic detected a POST IPS NVM TestFailure at power on.

15-361 The POST IPS PWB I/O Port reported an error atpower on.

15-362 Communication Failure between the Pre IPS PWBand the BR PWB.

15-363 The control logic detected a memory clearanceerror.

15-365 The control logic detected that the POST IPS PWBcould not detect a change in the signal from the Pre IPSPWB.

15-367 The control logic on the Pre IPS PWB detected ahardware failure.

15-370 The control logic on the Pre IPS PWB detected ahardware failure.

15-371 The control logic on the Pre IPS PWB detected ahardware failure.

The Automatic Gain Control (AGC) for a specific channelfrom the CCD PWB failed.15-380: CCD Channel 1 RED (odd) AGC Fail15-381: CCD Channel 2 RED (even) AGC Fail.15-382: CCD Channel 3 GREEN (odd) AGC Fail.15-383: CCD Channel 4 GREEN (even) AGC Fail.15-384: CCD Channel 5 BLUE (odd) AGC Fail.15-385: CCD Channel 6 BLUE (even) AGC Fail.The Automatic Offset Control (AOC) for a specific signalfrom the CCD PWB could not set the value within range.15-386: CCD Channel 1 RED (odd) AOC Fail15-387: CCD Channel 2 RED (even) AOC Fail15-388: CCD Channel 3 GREEN (odd) AOC Fail15-389: CCD Channel 4 GREEN (even) AOC Fail15-390: CCD Channel 5 BLUE (odd) AOC Fail15-391: CCD Channel 6 BLUE (even) AOC Fail

2/10/0315-560 The control logic determined that the Image Outputwas requested during the transaction of the POST IPSPWB.

19-001 fault is a DC Power failure to the IDFE. The greenPower LED on the IDFE, when de-energized, indicates a19-001 fault.

19-002 fault is a BIOS-level hard fault that was detected atpower up. A continuously energized red Failure LEDindicates that a 19-002 fault has occurred.

19-003 fault indicates that the applications software couldnot be successfully loaded and executed. The amberHeartbeat LED on the IDFE, when continuously energizedor de-energized, indicates a 19-003 fault.

19-004 fault indicates that the internal loop-back test failedfor the printer interface. The red Failure LED on the IDFE,when energized for 0.25 seconds and de-energized for 2.0seconds in a continuously repeated pattern indicates a 19-004 fault.

19-005 fault indicates that a problem occurred in the DDIPower-On Sequence Test. The red Failure LED on theIDFE, energizing twice at 0.25-second intervals and thende-energizing for 2.0 seconds in a continuously repeatedpattern, indicates a 19-005 fault.

19-006 fault indicates that the UART communicationchannel for the print path failed the internal loop-back test.

19-007 fault indicates a failure in the DDI Power-onSequence Test by the DDI Client and the Link Layerprotocols. The red Failure LED on the IDFE, energizesfour times at 0.25-second intervals and then de-energizesfor 2 seconds in a continuously repeated pattern.

19-012 fault indicates that the hardware link to the networkhas failed. When the Link LED is de-energized a 19-012fault is indicated.

19-013 fault indicates that the IDFE fails to detect networktraffic flow. When the Activity LED is in the energizedstate, this is an indication of the 19-013 fault.

19-014 fault indicates that the IDFE failed to detect theproper speed of the Ethernet network to which it isconnected.

19-015 fault indicates that the IDFE failed to detect theproper speed of the Token Ring to which it is connected.

19-016 This RAP is used to isolate problems related to theIDFE Token Ring PWB.

2/10/03

Input Component Control Codes

ID Description Module_ID001-200 POWER SAVE BUTTON System

001-201FOREIGN INTERFACE

EXISTSystem

001-202 PWS EXIST System001-300 FRONT DOOR INTERLOCK Processor

001-304LEFT HAND COVER

INTERLOCK Processor

001-306DRAWER HANDLE

INTERLOCKProcessor

003-213 TRO SENSOR Processor005-102 DOCUMENT SENSOR DADF005-110 REGI SENSOR DADF005-115 EXIT SENSOR DADF005-119 DUP SENSOR DADF005-150 1 SIZE SENSOR DADF005-151 2 SIZE SENSOR DADF005-201 EXCHANGE FROM IISS DADF005-300 PLATEN I/L SWITCH DADF005-301 TOP COVER I/L SWITCH DADF

006-201 SHEET ABORT IIT006-212 REGI SENSOR IIT006-240 DADF EXIST IIT006-251 APS SENSOR 1 IIT006-253 APS SENSOR 3 IIT006-272 PW-0 IIT006-280 FAN FAIL IIT006-300 PLATEN I/L SWITCH IIT006-301 ANGLE SENSOR IIT007-100 HCF FEED TAR SENSOR HCF007-185 HCF Exist HCF

007-186HCF STACK HEIGHT

SENSORHCF

007-187 HCF 8.5×11 / A4 SWITCH HCF007-188 NO PAPER SENSOR HCF007-189 TRAY CLOSED SWITCH HCF007-190 HCF FEED HOT LINE HCF

007-308 HCF INTERLOCK SWITCH HCF008-104 #1 PRE FEED SENSOR Processor008-105 #1 FEED OUT SENSOR Processor008-109 #2 PRE FEED SENSOR Processor008-110 #2 FEED OUT SENSOR Processor008-114 #3 PRE FEED SENSOR Processor008-115 #3 FEED OUT SENSOR Processor008-119 #4 PRE FEED SENSOR Processor008-120 #4 FEED OUT SENSOR Processor008-135 TRAY 5 FEED SENSOR Processor

008-150 TAKE AWAY SENSOR Processor008-153 PRE REGI SENSOR Processor008-155 REGI SENSOR Processor008-163 BEHIND REGI JAM SENSOR Processor

008-198TRANSPERENCY (OHP) 1

SENSOR Processor

008-199 OHP 2 SENSOR Processor

008-221#1 TRAY STACK HEIGHT

(LEVEL) SENSORProcessor

008-222#2 TRAY STACK HEIGHT

(LEVEL) SENSOR Processor

008-223#3 TRAY STACK HEIGHT

(LEVEL) SENSOR Processor

008-224#4 TRAY STACK HEIGHT

(LEVEL) SENSORProcessor

008-226#5 TRAY BYPASS) STACK

HEIGHT LEVEL UP SENSOR Processor

008-227#5 TRAY (BYPASS) STACK

HEIGHT LEVEL DOWNSENSOR

Processor

008-231#1 TRAY NO PAPER

SENSOR Processor

008-232#2 TRAY NO PAPER

SENSORProcessor

008-233#3 TRAY NO PAPER

SENSOR Processor

008-234#4 TRAY NO PAPER

SENSOR Processor

008-236 TRAY 5 PAPER SENSOR Processor008-240 #2 TRAY SIZE S/W 1 Processor008-241 #2 TRAY SIZE S/W 2 Processor008-242 #2 TRAY SIZE S/W3 Processor008-243 #2 TRAY SIZE S/W4 Processor008-245 #3 TRAY SIZE S/W1 Processor

008-246 #3 TRAY SIZE S/W2 Processor008-247 #3 TRAY SIZE S/W 3 Processor008-248 #3 TRAY SIZE S/W 4 Processor008-250 #4 TRAY SIZE S/W 1 Processor008-251 #4 TRAY SIZE S/W 2 Processor008-252 #4 TRAY SIZE S/W 3 Processor008-253 #4 TRAY SIZE S/W 4 Processor008-305 Tray 5 Interlock Processor

008-306DRAWER HANDLE

INTERLOCKProcessor

009-2152ND BELT TRANSFER

ROLL HOME POSITION Processor

009-216IBT CLEANER RETRACT

HOME POSITION Processor

009-217OIL ROLL RETRACT HOME

POSITIONProcessor

009-220ROTARY HOME POSITION

SENSOR Processor

2/10/03

009-237ROTARY LOCK MECH

SENSOR Processor

009-245 CRU POSITION Processor009-246 CRU TYPE Processor

009-248WASTE AUGER ROTATE

SENSORProcessor

009-249WASTE BOTTLE POSITION

SENSOR Processor

009-250WASTE BOTTLE FULL

SENSOR Processor

009-251 TRICKLE BOTTLE SENSOR Processor009-255 LOW TONER SENSOR K Processor009-257 LOW TONER SENSOR Y Processor009-258 LOW TONER SENSOR M Processor009-259 LOW TONER SENSOR C Processor010-100 FUSER ENTRANCE SENSOR Processor010-105 FUSER EXIT SENSOR Processor010-110 MACHINE EXIT SENSOR Processor010-115 EXIT PATH SENSOR Processor010-125 INVERT PATH SENSOR Processor010-130 DUPLEX IN SENSOR Processor010-132 DUPLEX PATH 1 SENSOR Processor010-133 DUPLEX OUT SENSOR Processor

010-220PRESSURE ROLL RETRACT

SENSOR Processor

010-221EXTERNAL HEAT ROLL

RETRACT SENSOR Processor

010-222 OIL SENSOR Processor010-223 WEB CRU HOME Processor010-224 IIT HOTLINE Processor010-296 OCT DETECT Processor010-297 OCT FULL SENSOR Processor010-298 OCT HOME SENSOR Processor010-299 OCT POSITION SENSOR Processor

010-300INVERT COVER

INTERLOCK Processor

011-107 OCT EXIT SENSOR Sorter

011-115MAILBOX VERTICAL

SENSOR Sorter

011-117 DECURLER EXIT SENSOR Sorter

011-142VERTICAL TRANSPORT IN

SENSOR Sorter

011-250 OCT DEVICE DETECT Sorter

011-273OCT OFFSET HOME

SENSOR Sorter

011-274OCT OFFSET POSITION

SENSOR Sorter

011-275 OCT FULL STACK SENSOR Sorter

011-276DECURLER CAM POSITION

SENSOR A Sorter

011-277DECURLER CAM POSITION

SENSOR B Sorter

011-281 BIN 1 FULL SENSOR Sorter011-282 BIN 2 FULL SENSOR Sorter011-283 BIN 3 FULL SENSOR Sorter011-284 BIN 4 FULL SENSOR Sorter011-285 BIN 5 FULL SENSOR Sorter011-286 BIN 6 FULL SENSOR Sorter011-287 BIN 7 FULL SENSOR Sorter011-288 BIN 8 FULL SENSOR Sorter011-289 BIN 9 FULL SENSOR Sorter011-290 BIN 10 FULL SENSOR Sorter

011-301MAILBOX FRONT COVER

INTERLOCK SWITCH Sorter

011-302DECURLER FRONT COVER

INTERLOCK SWITCHSorter

011-303MBX DOCKING INTLK

SWITCHESSorter

012-107 SCT EXIT SENSOR Finisher012-115 VERTICAL SENSOR Finisher012-120 COMPILER EXIT SENSOR Finisher

012-142MAILBOX ENTRANCE

SENSOR Finisher

012-145 DECURLER EXIT SENSOR Finisher012-200 MACHINE EXIT SENSOR Finisher012-210 STACKER FULL SENSOR Finisher

012-212STACKER FULL (MIXED

SET SENSOR Finisher

012-240 EJECT CLAMP SENSOR Finisher

012-241EJECT CLAMP HOME

SENSOR Processor

012-250 STACK HEIGHT SENSOR Finisher012-252 COMPILER PAPER SENSOR Finisher012-253 STACKER PAPER SENSOR Finisher

012-259STACKER UPPER LIMIT

SENSORFinisher

012-260STACKER LOWER LIMIT

SENSOR Finisher

012-265 TAMPER HOME SENSOR Finisher

012-269STAPLER FRONT CORNER

SENSORFinisher

012-270 END WALL OPEN SENSOR Finisher

012-271STAPLE HEAD HOME

SENSORFinisher

012-272 LOW STAPLE SWITCH Finisher012-273 STAPLE READY SENSOR Finisher012-274 CARTRIDGE SET SWITCH Finisher012-275 SCT FULL SENSOR Finisher

012-276DEC CAM POSITION

SENSORFinisher

012-277 OFFSET HOME SENSOR Finisher

2/10/03

012-278STAPLE FRONT STRAIGHT

SENSOR Finisher

012-279STAPLE REAR STRAIGHT

SENSORFinisher

012-281 BIN 1 FULL SENSOR Finisher012-282 BIN 2 FULL SENSOR Finisher012-283 BIN 3 FULL SENSOR Finisher012-284 BIN 4 FULL SENSOR Finisher

012-285 BIN 5 FULL SENSOR Finisher012-286 BIN 6 FULL SENSOR Finisher012-287 BIN 7 FULL SENSOR Finisher012-288 BIN 8 FULL SENSOR Finisher012-289 BIN 9 FULL SENSOR Finisher012-290 BIN 10 FULL SENSOR Finisher

012-291UNLOAD WHITE RUN

SWITCH Finisher

012-300COMPILER COVER

INTERLOCK SWITCHFinisher

012-301MAILBOX DOOR

INTERLOCK SWITCH Finisher

012-302DECURLER DOOR

INTERLOCK SWITCH Finisher

012-303DOCKING INTERLOCK

SWITCHFinisher

012-304STAPLE DOOR INTERLOCK

SWITCH Finisher

012-306COMPILER COVER SAFETY

SWITCH Finisher

014-260 ROS READY015-200 ITT IMAGE AREA IIT

Output Component Control Codes

ID Description Module_ID003-001 TRD ENABLE Processor003-002 24 OK Processor004-007 MAIN MOTOR Processor004-009 FUSER MOTOR Processor004-021 DRUM MOTOR Processor

005-011SET GATE SOLENOID

OPEN DADF

005-012SET GATE SOLENOID

CLOSEDADF

005-040 FEED MOTOR DADF005-055 BELT MOTOR CW DADF005-056 BELT MOTOR CCW DADF005-075 REGI GATE SOLENOID DADF005-081 EXIT MOTOR DADF005-083 DOC READY DADF005-084 DOC SET LED DADF

006-002 ITT EXPOSURE LEAP IIT

006-003COOLING FAN LOW

SPEED IIT

006-005 IIT SCAN MOTOR (Scan) IIT006-006 IIT SCAN MOTOR (Return) IIT006-007 FUSER CUT IIT

006-013COOLING FAN HIGH

SPEED IIT

006-086 IIT IMAGE AREA IIT006-091 EXCHANGE TO ADF IIT007-078 HCF FEED CLUTCH HCF007-079 HCF ELEVATE MOTOR HCF007-080 HCF FEED MOTOR HCF

008-006#1 NUDGER ROLL

SOLENOIDProcessor

008-007 #1 FEED MOTOR CCW Processor008-008 #1 FEED MOTOR CW Processor

008-009#1 TAKE AWAY FEED

CLUTCH Processor

008-011#2 NUDGER ROLL

SOLENOIDProcessor

008-012 #2 FEED MOTOR CCW Processor008-013 #2 FEED MOTOR CW Processor

008-014#2 TAKE AWAY FEED

CLUTCH Processor

008-016#3 NUDGER ROLL

SOLENOID Processor

008-017 #3 FEED MOTOR CCW Processor008-018 #3 FEED MOTOR CW Processor

008-019#3 TAKE AWAY FEED

CLUTCH Processor

008-021#4 NUDGER ROLL

SOLENOID Processor

008-022 #4 FEED MOTOR CCW Processor008-023 #4 FEED MOTOR CW Processor

008-024#4 TAKE AWAY FEED

CLUTCH Processor

008-025 TAKE AWAY MOTOR Processor

008-030Tray 5 NUDGER ROLL

SOLENOID Processor

008-037 TRAY 5 FEED CLUTCH Processor

008-049TRAY 5 LIFTER MOTOR

CCW (up) Processor

008-042TRAY 5 LIFTER MOTOR

CW (down) Processor

008-043 MAIN MOTOR 2 Processor008-054 REGI MOTOR Processor

009-011 CARTRIDGE MOTOR K Processor009-012 CARTRIDGE MOTOR Y Processor009-013 CARTRIDGE MOTOR M Processor

2/10/03009-014 CARTRIDGE MOTOR C Processor

009-018ROTARY LOCK MECH

LATCH Processor

009-021 DEVE MOTOR CLUTCH Processor009-025 IBT ROLL CONTACT Processor009-026 IBT ROLL RETRACT Processor009-031 DISPENSE MOTOR K Processor009-032 DISPENSE MOTOR Y Processor009-033 DISPENSE MOTOR M Processor009-034 DISPENSE MOTOR C Processor009-040 ADC LED Processor009-050 ERASE LAMP Processor

009-0572ND BELT TRANSFER

ROLL Processor

009-0582ND BELT TRANSFER

ROLL CONTACTProcessor

009-0592ND BELT TRANSFER

ROLL RETRACTProcessor

009-066 IBT CLEANER CONTACT Processor009-067 IBT CLEANER RETRACT Processor

009-068PRE CLEAN COROTRON

DC Processor

009-070CHARGE COROTRON

WIREProcessor

009-074 SAW COROTRON DC Processor009-076 DEVE BIAS DC Processor009-077 DEVE BIAS AC COLOR Processor009-079 DEVE BIAS AC BLACK Processor

009-081CHARGE COROTRON

GRIDProcessor

009-085 ROTARY MOT FAN Processor009-088 BLOWER Processor009-089 CC FAN Processor010-004 FUSER FAN-LOW SPEED Processor

010-005INVERT GATE SOLENOID

INVERTProcessor

010-006INVERT GATE SOLENOID

EXIT Processor

010-018 FUSER FAN-HIGH SPEED Processor010-020 INVERT MOTOR CW Processor010-021 INVERT MOTOR CCW Processor

010-023PRESSURE ROLL

CONTACT Processor

010-024PRESSURE ROLL

RETRACT Processor

010-025INVERT ROLL NIP

SOLENOIDProcessor

010-026INVERT ROLL RELEASE

SOLENOID Processor

010-027EXTERNAL HEAT ROLL

CONTACT Processor

010-028EXTERNAL HEAT ROLL

RETRACT Processor

010-029EXTERNAL HEAT ROLL

LAMPProcessor

010-030 HEAT ROLL LAMP Processor010-031 PRESSURE ROLL LAMP Processor010-032 WEB MOTOR Processor010-033 OIL PUMP Processor010-040 EXIT MOTOR Processor

010-0471ST BELT TRANSFER

ROLL Processor

010-050 DUPLEX OUT MOTOR Processor

010-060FUSER INT FAN-LOW

SPEED Processor

010-061FUSER INT FAN-HIGH

SPEED Processor

010-085 OCT MOTOR REVERSE Processor010-086 OCT MOTOR FOREWARD Processor011-005 MAILBOX DRIVE MOTOR Sorter

011-010DECURLER STEPPING

MOTOR SPEED 60Sorter

011-011DECURLER STEPPING

MOTOR SPEED 130 Sorter

011-012DECURLER STEPPING

MOTOR SPEED 220 Sorter

011-013DECURLER STEPPING

MOTOR SPEED 350Sorter

011-081OCT GATE SOLENOID

OCT-ON Sorter

011-082OCT GATE SOLENOID

BIN TRAY-ON Sorter

011-083 BIN 2 GATE SOLENOID Sorter011-084 BIN 3 GATE SOLENOID Sorter011-085 BIN 4 GATE SOLENOID Sorter011-086 BIN 5 GATE SOLENOID Sorter

011-087 BIN 6 GATE SOLENOID Sorter011-088 BIN 7 GATE SOLENOID Sorter011-089 BIN 8 GATE SOLENOID Sorter011-090 BIN 9 GATE SOLENOID Sorter011-091 BIN 10 GATE SOLENOID Sorter

011-093OCT OFFSET MOTOR

FRONT Sorter

011-095OCT OFFSET MOTOR

BACKSorter

012-005 MBX DRIVE MOTOR Finisher012-010 DEC MOTOR ON/OFF 60 Finisher012-011 DEC MOTOR ON/OFF 130 Finisher012-012 DEC MOTOR ON/OFF 220 Finisher012-013 DEC MOTOR ON/OFF 350 Finisher

012-020FINSHER TRANSPORT

MOTOR Finisher

2/10/03

012-024EJECT MOTOR

FORWARD Finisher

012-025 EJECT MOTOR REVERSE Finisher

012-026EJECT CLAMP AND

OFFSET MOTORUP/DOWN

Finisher

012-027EJECT CLAMP ANDOFFSET MOTOR F/R Finisher

012-030 END WALL MOTOR OPEN Finisher

012-031END WALL MOTOR

CLOSE Finisher

012-036COMPILER TRAY

SOLENOID Finisher

012-040 STACKER MOTOR UP Finisher012-041 STACKER MOTOR DOWN Finisher012-053 EJECT PADDLE MOTOR Finisher

012-060TAMPER MOTOR LOW

FRONTFinisher

012-061TAMPER MOTOR TOP

FRONT Finisher

012-062TAMPER MOTOR LOW

REAR Finisher

012-063TAMPER MOTOR TOP

REARFinisher

012-064TAMPER MOTORMIDDLE FRONT Finisher

012-065TAMPER MOTOR

MIDDLE REAR Finisher

012-070FIN GATE

SOLENOIDMBX/SCTPOSITION

Finisher

012-071FIN GATE SOLENOID-

FINSHER POSITIONFinisher

012-075 STAPLER MOTOR CLOSE Finisher

012-076STAPLE POSITION

MOTOR TOP FRONT Finisher

012-077STAPLE POSITION

MOTOR LOW FRONTFinisher

012-078STAPLE POSITION TOP

REAR Finisher

012-079STAPLE POSITION

MOTOR LOW REAR Finisher

012-081MBX GATE SOLENOID

CLOSEFinisher

012-082MBX GATE SOLENOID

OPEN Finisher

012-083 2 BIN GATE SOLENOID Finisher012-084 3 BIN GATE SOLENOID Finisher012-085 4 BIN GATE SOLENOID Finisher012-086 5 BIN GATE SOLENOID Finisher012-087 6 BIN GATE SOLENOID Finisher012-088 7 BIN GATE SOLENOID Finisher

012-089 8 BIN GATE SOLENOID Finisher012-090 9 BIN GATE SOLENOID Finisher012-091 10 BIN GATE SOLENOID Finisher

012-096DEC PENETRATION

CHANGE Finisher

012-099UNLOAD WHILE RUN

LED Finisher

014-050POLYGON MOTOR LOW

SPEEDProcessor

014-051POLYGON MOTOR HIGH

SPEED Processor

014-053 LASER DIODE A ON Processor014-054 LASER DIODE B ON Processor015-001 MEMORY READY Processor