Кто виноват? |
E000 | The main thermistor reading does not reach 40ºC 14 sec after the fixing heater goes ON. (fixing low temperature error) |
E001 | The main thermistor reading reaches 220ºC or higher. (fixing high temperature error) |
E002 |
A start-up fault is detected under any of the following conditions of the
main thermistor (start-up detection fault):
after exceeding 40ºC, it fails to reach 60ºC within 10 sec. after exceeding 60ºC, it fails to reach 80ºC within 10 sec. after exceeding 80ºC, it fails to reach 100ºC within 10 sec. after exceeding 100ºC, it fails to reach 120ºC within 10 sec. after exceeding 120ºC, it fails to reach 140ºC within 10 sec. after exceeding 140ºC, it fails to reach 160ºC within 10 sec. after exceeding 160ºC, it fails to reach 180ºC within 10 sec. after exceeding 180ºC, it fails to reach 195ºC within 10 sec. |
E003 |
After the end of the WAIT period, the main thermistor reading is 100ºC or
lower.
In standby, the sub thermistor reading is 50ºC or lower. (low temperature error in fixing temperature control) |
E004 |
At time of initialization, the ZEROXI* signal of the power supply is not
detected.
During temperature control, the ZEROXI* signal does not arrive for 3 sec continuously. A short circuit is detected in the triac (ASIC; fixing temperature control drive circuit error). |
Possible cause |
Fixing assembly is faulty. (The main thermistor has an open circuit. The
sub thermistor has an open circuit. The fixing heater has an open circuit.
The power supply PCB is faulty. The DC controller PCB is faulty.) |
Note | To reset the error, execute the following in service mode, and turn off the and then on the power switch. #7 PRINTER>#4 PRINTER RESET>YES=(*) |
Remedy |
1) Wiring
2) Fixing assembly
3) Power supply PCB, DC controller PCB
4) Error
|
If E000 through E004 is indicated, the RAM on the image processor will retain the error memory of the fixing assembly after the power switch has been turned off an then on. Execute the following in service mode, and turn off and then on the power switch to clear the memory: #7 PRINTER>#4 PRINTER RESET>YES=(*). | |
E010 | A specific revolution is not detected from the main motor rotation detection signal (MLOK*), causing the signal to go ‘1’. (main motor fault) |
Possible cause | The main motor (M101) is faulty. The controller PCB is faulty. |
Remedy |
1) Connector
2) Main motor (M101), DC controller PCB
|
E100 |
When the scanner motor is started up, the BD input signal does not arrive
within a specific period of time.
When the scanner motor is started up, the motor rotation is too fast, and fails to reach a specific revolution within 20 sec at time of deceleration. While the scanner motor is rotating at a specific speed, the BD input signal cycle is not within a specific range (±2%) for an equivalent of 10 mm (print distance). While the scanner motor is rotating at a specific speed, the BD input signal cycle is not as indicated (±2%). During the WMUPR period after the power switch has been turned on or the front cover/left cover has been opened/closed, the drum unit is absent. |
Possible cause | The wiring is faulty (short circuit, open circuit). The laser scanner unit is faulty. The DC controller PCB is faulty. The drum unit is not installed. |
Remedy |
1) Drum unit
2) Connection
3) Laser/scanner unit, DC controller PCB
|
E719 | The communication between the card reader and the image processor PCB is disrupted. |
Possible cause | The wiring is faulty (short circuit, open circuit). The card reader is faulty. The image processor PCB is faulty. |
Note | Be sure to clear the error in service mode : #12 CLEAR>CARD. |
Remedy |
1) Connector
2) Image processor PCB
|
If E719 is indicated, the fault in communication is retained by the RAM on the image processor even when the power switch has been turned off and then on; be sure to execute #12 CLEAR>CARD in service mode before making corrections. | |
E805 | After the heat discharge fan drive signal is generated, the fan lock detection signal does not arrive for a specific period of time. |
Possible cause | The fan wiring is faulty (short circuit, open circuit). The heat discharge fan (FM101) is fautly. The DC controller PCB is faulty. |
Remedy |
1) Foreign matter
2) Wiring, Connector
3) Heat discharge fan (FM101), DC controller PCB
Try replacing the heat discharge fan (FM101). Is the fault corrected?
|
E500 | An error has occurred in the communication between the machine and the finisher twice continuously. |
Possible cause |
The harness to the finisher is faulty (disconnected connector, open circuit).
The finisher controller PCB or the DC controller PCB is faulty. |
Remedy |
1) Power switch
2) Wiring
3) Finisher controller PCB, DC controller PCB
|
E514 | The stack delivery belt does not reach home position when the stack handling motor (M2) is driven for a specific time (CW; if the same condition occurs during stack delivery, a jam will be identified). |
Possible cause | The stack handling motor (M2) is faulty. The stack delivery home position sensor (S8) is faulty. The connector is disconnected or has an operation circuit. The stack handling motor relay harness is faulty. The stack delivery belt is faulty. The finisher controller PCB is faulty. |
Remedy |
1) Stack handling motor drive belt
2) Wiring
3) Sensor flag
4) Stack delivery lever home position sensor (S8)
5) Stack handling motor (M2), Finisher controller PCB
|
E530 |
The rear aligning plate does not reach home position when the rear alignment
motor (M4) has been driven for a specific time.
The rear aligning plate does not reach home position when the rear alignment motor (M4) has been driven for a specific time. |
Possible cause | The rear alignment motor (M4) is faulty. The rear aligning plate home position sensor (S7) is faulty. The sensor connector is disconnected or has an open circuit. The rear alignment motor relay harness is faulty. The rear aligning plate is subjected to an abnormal load. The finisher controller PCB is faulty. |
Remedy |
1) Rear aligning plate home position sensor (S7)
2) Wiring
3) Rear aligning plate
4) Rear alignment motor (M4), Finisher controller PCB
|
E531 |
The stapler does not leave the stapling home position sensor (S13) within
0.5 sec after the stapler motor (M6) is rotated CW.
The stapler does to return to the home position sensor (S13) within 0.5 sec after the stapler motor (M6) is driven CW and, in addition, it does not return to the sensor within 0.5 sec after the motor is driven CCW thereafter. |
Possible cause | The stapler motor (M6) is faulty. The stapler home position sensor (SW1) is faulty. The stapler harness is faulty. The finisher controller PCB is faulty. |
Remedy |
1) Wiring
2) Stapler unit, Finisher controller PCB
|
E537 |
The front aligning plate does not reach home position when the front aligning
motor (M3) is driven for a specific time.
The front aligning plate does not leave home position when the front alignment motor (M3) is driven for a specific time. |
Possible cause | The front alignment motor (M3) is faulty. The front aligning plate home position sensor (S6) is faulty. The sensor connector is disconnected or has an open circuit. The front alignment motor relay harness if faulty. The front aligning plate is subjected to an abnormal load. The finisher controller PCB is faulty. |
Remedy |
1) Front aligning plate home position sensor (S6)
2) wiring
3) Front aligning plate
4) Front alignment motor (M3), Finisher controller PCB
|
E551 | The delivery fan rotation signal (FNALCOK) does not arrive within 1 sec when the heat discharge fan drive signal (FANON) is sent. |
Possible cause | The heat discharge fan (FM1) is faulty. The heat discharge fan relay harness is faulty. The heat discharge fan is subjected to an abnormal load. The finisher controller PCB is faulty. |
Remedy |
1) Wiring
2) Heat discharge fan (FM1), Finisher controller PCB
|
E577 | The return roller does not reach home position when the delivery motor (M1) is driven for a specific time. (If the same condition is detected while alignment takes place in the direction of feed, a jam will be identified.) |
Possible cause | The delivery motor (M1) on the finisher controller PCB is faulty. The return roller home position sensor (S3) is faulty. The connector is discontented or has an open circuit. The delivery motor relay harness is faulty. The return roller is faulty. The finisher controller PCB is faulty. |
Remedy |
1) Delivery motor (drive mechanism)
2) Return roller home position sensor (S3)
|
E580 |
The stack tray upper limit sensor (S1) goes ON while the stack tray up/
down motor (M5) is in operation.
The clock signal of the stack tray up/down clock sensor (S9) is not detected 15 times or more within 0.8 sec while the stack tray up/down motor (M5) is in operation. It does not reach the stack tray paper height sensor (S10) 2 sec after the stack tray up/down motor (M5) rotates for ascent. It does not leave the stack tray power height sensor (S10) 2 sec after the stack tray up/down motor (M5) starts to rotate for descent. |
Possible cause | The stack tray up/down motor (M5) is faulty. The stack tray paper height sensor (S10) is faulty. The sensor connector is disconnected or has an open circuit. The stack tray up/down clock sensor (SW9) is faulty. The sensor connector is disconnected or has an open circuit. The stack tray up/down motor is subjected to an abnormal load. The finisher controller PCB is faulty. |
Remedy |
1) Stack tray up/down motor (encoder)
2) Wiring
3) Tray phase
4) Stack tray up/down lock sensor (S9)
5) Stack tray paper height sensor (S10)
6) Stack tray paper limited sensor (S1), Stack tray lower limit sensor
(S12)
7) Stack tray up/down motor (M5), Finisher controller PCB
|
E585 | The stack retaining lever does not reach home position when the stack handling motor (M2) has been driven for a specific time (at the start of motor CCW rotation). (If the same condition is detected during stack delivery, a jam will be identified.) |
Possible cause | The stack handling motor (M2) is faulty. The stack delivery lever home position sensor (S8) is faulty. The sensor connector is disconnected or has an open circuit. The stack handling motor relay harness is faulty. The stack retaining lever is faulty. The finisher controller PCB is faulty. |
Remedy |
1) Stack holding motor drive belt.
2) Stack handling motor (drive mechanism)
3) Wiring
4) Stack retaining lever home position sensor (S4)
5) Stack handling motor (M2), Finisher controller PCB
|
2007-2013 |