Error code | Solution | Cause | Action |
ER01 | Photocells faulty test | Exchange of photocell’s contacts hasn’t been detected or has taken place beyond the useful test time. | — Check the wiring of tested photocells — Logics setting: photocells Test is active — Check hardware failures on photocell’s Rx or Tx — Check presence of power supply on 24V output and/or starting of 24V Vsafe power supply — Repairs: replace relays or components on 24V or 24V vsafe power supply circuit, components on inputs circuit |
ER02 | Safety edge faulty test | Exchange of safety device’s contacts (safety edges) hasn’t been detected or has taken place beyond the useful test time. | — Check the wiring of tested safety edges — Logics setting: Safety Edges Test is active — Check hardware failures on safety devices (safety edges) — Chek presence of power supply on 24V output and/or starting of 24V Vsafe power supply — Repairs: replace relays or components on 24V or 24V vsafe power supply circuit, components on inputs circuit |
ER03 | Photocells in opening faulty test | Exchange of contacts of photocells connected on Photocells in Opening hasn’t been detected or has taken place beyond the useful test time. | — Check the wiring of tested photocells in opening — Logics setting: photocells Test is active — Check hardware failures on photocell’s Rx or Tx — Check presence of power supply on 24V output and/or starting of 24V vsafe power supply — Repairs: replace relays or components on 24V or 24V vsafe power supply circuit, components on inputs circuit |
ER04 | Photocells in closing faulty test | Exchange of contacts of photocells connected on Photocells in Closing hasn’t been detected or has taken place beyond the useful test time. | — Check the wiring of tested photocells in closing — Logics setting: photocells Test is active — Check hardware failures on photocell’s Rx or Tx — Check presence of power supply on 24V output and/or starting of 24V vsafe power supply — Repairs: replace relays or components on 24V or 24V vsafe power supply circuit, components on inputs circuit |
ER05 | Safety edge faulty test on slave motor (opposite leaves connection) | Exchange of contacts of safety devices (safety edges) connected on the SLAVE panel hasn’t been detected or has taken place beyond the useful test time | — Check the wiring of tested safety edges on SLAVE — Logics setting: Safety Edges Test is active — Check hardware failures on safety devices (safety edges) wired on SLAVE — Check presence of power supply on 24V output and/or starting of 24V vsafe power supply on SLAVE — Repairs: replace relays or components on 24V or 24V vsafe power supply circuit, components on inputs circuit |
ER06 | 8k2 safety edge faulty test | Verification test error with the safety edge 8k |
— check connection and settings — Check if the resistance is the proper one — safety edge engaged |
ER07 | Safety edge opening faulty test | problem with safety edge during the verification test in opening | — verify the connection of the safety edge in opening — settings logic active the verification test on safety edge — check hardware failure on the safety edge Rx or Tx — check the power supply presence 24v and Vsafe power supply — Fixing : change the relè or the components related the main 24V or Vsafe or change the board |
ER08 | Safety edge closing faulty test | problem with safety edge during the verification test in closing | — verify the connection of the safety edge in closing — settings logic active the verification test on safety edge — check hardware failure on the safety edge Rx or Tx — check the power supply presence 24v and Vsafe power supply — Fixing : change the relè or the components related the main 24V or Vsafe or change the board |
Hardware | |||
ER10 (BT motor) |
Motor 1 relay running faulty test | — Motor 1 relay running control circuit failure — Relay with stuck contacts — Short circuit mosfet |
— Check and remove the causes of possible high absorption of motor 1 — Reparation: replacement of shunt resistance, relay control circuit components, mosfet |
ER10 (AC motor) |
relay running MOTOR 1 stuck | — Motor 1 relay running control circuit failure — Relay with stuck contacts |
— Check and remove the causes of possible high absorption of motor 1 — Reparation: replacement of shunt resistance, relay control circuit components, mosfet |
ER11 (BT motor) |
Test current reading motor 1 failed | — Failure on the shunt circuit, mosfet motor 1 — Shunt in short circuit or open — Mosfet openMosfet — Failure on the shunt circuit — Voltage out of range + — 15% |
— Check the main power supply (range + — 10%) — Chck motor 1 connection — Fixing: replace the shunt resistor, component involved in the shunt amplifier, mosfet |
ER11 (AC motor) |
MOC damageTriac motor 2 short circuit Motor 1 in termic protection Motor 1 not connected |
— motor not connected — motor blocked or thermic issue — the triac in short triac ( due to overvoltage or huigh current and related the heating ) |
— Check connection of the motor — measure the impedance between the phase and the common and between the other phase and the common ( value correct between 10 and 20 ohm ) — repair shunt resistor — Replace the board |
ER15 (BT motor) |
Motor 2 relay running faulty test | — Motor 2 relay running control circuit failure — Relay with stuck contacts — Short circuit mosfet |
— Check and remove the causes of possible high absorption of motor 2 — Reparation: replacement of shunt resistance, relay control circuit components, mosfet |
ER15 (AC motor) |
relay running MOTOR 2 stucked | — Motor 2 relay running control circuit failure — Relay with stuck contacts |
— Check and remove the causes of possible high absorption of motor 2 — Reparation: replacement of shunt resistance, relay control circuit components, mosfet |
ER16 (BT motor) |
Test current reading motor 2 failed | — Motor 2 mosfet & shunt circuit failure — Short circuit or opened shunt — Opened mosfet — Shunt amplification circuit hardware failure — Voltage supply out of ±15% range |
— Check power supply voltage (±10% range) — Check motor 2 and/or wiring connection — Reparation: replacement of shunt resistance, shunt amplification circuit components, mosfet |
ER16 (AC motor) |
Triac motor 2 short circuit Motor 1 in termic protection Motor 1 not connected |
— motor not connected — motor blocked or thermic issue — the triac in short triac ( due to overvoltage or huigh current and related the heating ) |
— Check connection of the motor — measure the impedance between the phase and the common and between the other phase and the common ( value correct between 10 and 20 ohm ) — repair shunt resistor — Replace the board |
ER18 | motor/ limit switch 1 not connected | problem on the comuncation for the signal of the motor/limit switch 1 | — Check limit switch and or motor connection — Fixing : replace the limit switch, cable |
ER19 | motor/ limit switch 2 not connected | problem on the comuncation for the signal of the motor/limit switch 2 | — Check limit switch and or motor connection — Fixing : replace the limit switch, cable |
Encoder | |||
ER20 | Encoder stop on MOTOR 2 | The actuator movement is too slow or steady compare to the programmed functioning. | — Check obstacles, frictions, or other impediments which brake the motor’s run — Set higher speed |
ER20 (Giuno) | No communication received from the limit switch MOTOR 2 | problem with limit switch, cable or connections MOTOR 2 | — Check cable connection , replace the limit switch |
ER21 | MOTOR 1 encoder faulty test | — Encoder cable (power supply) disconnected. — Hardware problems (power supply and/or signals) on encoder board or control board |
— Check encoder cable and wirings — Replacement of encoder board — Reparation: replacement of encoder management circuit components |
ER22 | MOTOR 1 encoder opposite movement direction | Motor power supply or encoder signal wires exchanged. | — Exchange MOTOR 1 power supply or encoder signal polarities |
ER25 | No communication received from the limit switch MOTOR 1 | The actuator movement is too slow or steady compare to the programmed functioning. | — Check obstacles, frictions, or other impediments which brake the motor’s run — Set in the Motor 1 higher speed |
ER25 (Giuno) | No communication received from the limit switch MOTOR 1 | problem with limit switch, cable or connections MOTOR 1 | — Check cable connection , replace the limit switch |
ER26 | MOTOR 2 encoder faulty test | — Encoder cable (power supply) disconnected. — Hardware problems (power supply and/or signals) on encoder board or control board |
— Check encoder cable and wirings — Replacement of encoder board — Reparation: replacement of encoder management circuit components |
ER27 | MOTOR 2 encoder opposite movement direction | Motor power supply or encoder signal wires exchanged. | — Exchange MOTOR 2 power supply or encoder signal polarities |
ER30 | obstacle detection during opening MOTOR 2 | Impediments against the normal movement (obstacles) along the motor 2 opening travel | — Check and remove any obstacles. — Check and remove any frinctions or other obstacles which required a motor force bigger than the one previously set. — Increase the motor force value setting |
ER31 | obstacle detection during closing MOTOR 2 | Impediments against the normal movement (obstacles) along the motor 2 closing travel | — Check and remove any obstacles. — Check and remove any frinctions or other obstacles which required a motor force bigger than the one previously set. — Increase the motor force value setting |
ER32 | obstacle detection during opening slow down MOTOR 2 | Impediments against the normal movement (obstacles) along the motor 2 slowdown opening travel | — Check and remove any obstacles. — Check and remove any frinctions or other obstacles which required a motor force bigger than the one previously set. — Increase the motor force value setting |
ER33 | obstacle detection during closing slow down MOTOR 2 | Impediments against the normal movement (obstacles) along the motor 2 slowdown closing travel | — Check and remove any obstacles. — Check and remove any frinctions or other obstacles which required a motor force bigger than the one previously set. — Increase the motor force value setting |
ER35 | obstacle detection during opening MOTOR 1 | Impediments against the normal movement (obstacles) along the motor 1 opening travel | — Check and remove any obstacles. — Check and remove any frinctions or other obstacles which required a motor force bigger than the one previously set. — Increase the motor force value setting |
ER36 | obstacle detection during closing MOTOR 1 | Impediments against the normal movement (obstacles) along the motor 1 closing travel | — Check and remove any obstacles. — Check and remove any frinctions or other obstacles which required a motor force bigger than the one previously set. — Increase the motor force value setting |
ER37 | obstacle detection during opening slow down MOTOR 1 | Impediments against the normal movement (obstacles) along the motor 1 sowdown opening travel | — Check and remove any obstacles. — Check and remove any frinctions or other obstacles which required a motor force bigger than the one previously set. — Increase the motor force value setting |
ER38 | obstacle detection during closing slow down MOTOR 1 | Impediments against the normal movement (obstacles) along the motor 1 slowdown closing travel | — Check and remove any obstacles. — Check and remove any frinctions or other obstacles which required a motor force bigger than the one previously set. — Increase the motor force value setting |
Thermal | |||
ER40 | Thermal protection — The automation finishes the manoeuvre before jamming | — The using cycle exceeds the expected cycle — In few manoeuvres are measured high motor absorptions |
— Wait for the automation’s cooling — Comply with the expected cycle of the motor’s name plate — Check and remove any frinctions or other obstacles which cause an high motor’s absorption — Check motor’s suitability with the type of leaf to move |
ER41 | Instantaneous thermal protection — The automation stops the manoeuvre in progress | — The using cycle exceeds the expected cycle, with an high probability of failure which force the motor to stop immediately — High absorptions during the ER40 completion manoeuvre | — Wait for the automation’s cooling — Check and remove any frinctions or other obstacles which cause an high motor’s absorption — Check motor’s suitability with the type of leaf to move |
Communication | |||
ER50 | Communication error | — Wiring error between serial devices accessories (SCS) — Failure on the serial communication management circuit — Disturbs which matches each other on the serial wiring |
Check wiring connection and positioning of the serial expansion accessories devices — Check parameters and logics setting of the control board — Serial expansion boards replacement — Reparation: replacement of serial communication circuit components control board |
ER51 | Communication error with remote devices (opposite leaves) | — Wiring error between serial devices accessories (SCS) opposite leaves — Error on serial communication control circuit — Disturbs which matches each other on the serial wiring |
Check wiring connection of the serial expansion accessories device — Check parameters and logic setting of the control board — Check serial wires position on dedicate pipeline (NO with power supply wires) — Serial expansion boards replacement — Reparation: replacement of serial communication circuit components control board |
Battery | |||
ER61 | Battery back up functioning | — Power supply is missing | — Check the power supply, the batteries will be discharged after few manouvres |
Firmware | |||
ER71* | Generic EEPROM error | Hardware and microprocessor’s operation defective | — Repair: replace Microprocessor, EEPROM, Oscillator |
ER72* | EEPROM error on the criteria of operation of the system | Hardware and microprocessor’s operation defective | — Press ok for confirming the settings. Important to check the settings of the board — Check restore of operation by pressing the «OK» button to default the board — Repair: replace Microprocessor, EEPROM, Oscillator |
ER73* | EEPROM error on working traject — D Track | Hardware and microprocessor’s operation defective | — Make again Autoset — Check restore of operation by pressing the «OK» button to default the board — Repair: replace Microprocessor, EEPROM, Oscillator |
ER74* | Generic MICRO error | Hardware and microprocessor’s operation defective | — Repair: replace Microprocessor, EEPROM, Oscillator |
ER75* | Generic OSCILLATOR error | Hardware and microprocessor’s operation defective | — Repair: replace Microprocessor, EEPROM, Oscillator |
Limit switch | |||
ERF0 | Both limit switches actived | — Both limit switches show opened contact — Hardware failure of limit switch inputs circuit |
— Check limit switches wiring and/or contacts — Reparation:input circuit components replacement |
ERF1 | Limit switches not released after the start manoeuvre | — Contact of the last limit switch detected has not closed after a start command — Released motor — Hardware failure of limit switch inputs circuit |
— Check limit switches wiring and/or contacts or motor — Unrelease the motor — Reparation:input circuit components replacement |
ERF2 | Limit switch still engaged after starting of the maneuver on the SLAVE operator in opposite leaves situation | ||
ERF3 | With opposite leafs errors on the SAFE setting | Wrong configuration of the output SAFE | — check the configuration of the output SAFE — read the manual |
Electric lock | |||
ERF9 | Electric lock output overload | — Not adjustable electric lock with high absorption — 24V output and/or electric lock shortcircuit |
— Check electric lock wiring — Use click electric lock 2A max — Check and replace any short circuit electric lock — Check short circuit on accessories wired up to 24Vsafe output — Reparation:replacement of 24Vsafe output circuit components and electric lock |
Sync | |||
ER1A | no sync from the main power 230V or 120V |
Could be aproblem from the main power , sunc absent or failure on the component involved for the sync on the board |
— If the error doesn’t disappear , replace the board — Check the sync from the main power |
System | |||
00TE | Board in test mode | Fw issue |
Update the board with the proper related fw |
Autoset | |||
K01 | autoset not done correctly | any external command have not completed the autoset procedure | — Repeat the autoset |
K02 | Gate run inferior of the minimum gate run ( more or less 50 cm) | Iinstallation done with a run gate of 50 cm ( minimum run of 50 cm) | Install the gate with a run over the 50 cm |
K03 | Installation is too eleastic-dinamic | Installation is too eleastic-dinamic | Provide to make a bit stronger the installation using a mechanical block on the limit switch(kit cod. I100025 10005) before doing the autoset |
ER7X | According to the normative EN60335-2-103 that manages the fw related to class Bhave been added new controls in the firmwares so we can certify also the firmware included into the board. The controls are mandatory where the microprocessor manages security function. With this controls made from the firmware on the routines and processes have been also created a new error group starting from 7x. the controls are made on the microprocessor and on its related components like ram memory, flash memory, system register, program counter,and oscillator. The controls on these components and processes are made automatically every hour or after each reset when the motor is not working |
Ciao remigio79,
44 minuti fa, remigio79 ha scritto:
………Thalia verso. 2,17 e motori Phobos bt a25 24v, la centrale indica errore 19,………….
se non ricordo male «E19» indica un guasto o malfunzionamento al finecorsa del secondo motore in apertura e quindi del primo che parte in chiusura.
Dalla tabella del manuale della scheda:
https://www.bft-automation.com/fileadmin/user_upload/commercial_download/THALIA_-_24V_-CONTROL_BOARD_-_MANUAL.pdf
Er1H* = Errore test hardware scheda — Verificare collegamenti al motore — Problemi hardware alla scheda (contattare l’assistenza tecnica)
Prova a sbloccare i motori e portane uno alla volta in battuta di chiusura, lo riblocchi, vai nel Menù Logiche e imposti la logica «1 motore attivo» in modo da provarli individualmente, anche se dovrebbe corrispondere all’uscita 1, di preciso non ricordo se con un motore solo è attiva questa (morsetti 10-11) o l’uscita 2 (morsetti 14-15), quindi se non funziona con una dovrebbe andare con l’altra.
Quindi fai l’Autoset ad ogni prova e se così il problema si ripresenta solo su un motore (quello che ti ho indicato sopra) allora il guasto è proprio su questo motore.
Se invece il problema si ripresenta con entrambi i motori allora il guasto dovrebbe essere sulla centrale THALIA.
1 ora fa, remigio79 ha scritto:
Ho un problema con questa tipologia di impianto montato da un anno all incirca,
Se l’automazione è ancora in garanzia più di quanto descritto sopra NON ti ti conviene fare e quindi potresti chiamare il CAT BFT di zona e farlo vedere a loro, magari te lo cambiano senza spese visto che è ancora tutto in garanzia (almeno dovrebbe essere così).
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Электронный блок управления BFT THALIA инструкция по эксплуатации и монтажу на русском языке в формате pdf, размер файла 3.6 Mb. Используйте кнопки «Скачать инструкцию» или «Открыть в новом окне» (документ откроется в новом окне или вкладке браузера). Функция просмотра доступна при наличии плагина Adobe Acrobat в вашем браузере.
BFT THALIA инструкция
Язык: Русский
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Добавлен: 28.05.2013
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