Thursday, February 19, 2009

Better Rent or Buy?

Today more and more companies are considering leasing office equipment and/or furniture instead of buying it. But a lease deal,that sounds so attractive on the surface, often ends up costing lots more money by the time it has run its course. Business managers need to carefully review all the various purchase and lease options, and the costs involved, before making a definite decision.Before purchasing a digital copier machine, you must have a clear idea of your requirements from the copier, as well as the volume of work the copier is expected to perform, and how fast you want it to perform. You must also decide if you require a color copier or not. Although color copiers are not as expensive as they used to be earlier, you will still need to pay 20% to 30% more than the cost of a black-and-white copier. Rental a copier machine is the best options for businesses who don’t want to invest the significant capital outlay that afflicts emergent businesses. This substantial sum can be better used in some other more critical infrastructure which has to be acquired.

Wednesday, February 18, 2009

How to Change Size the Right/Left Cassette Deck

1. Go to service mode (press *,28,*)

2.COPIER>OPTION>CST>P-SZ-C1
right deck paper size Settings:

3.COPIER>OPTION>CST>P-SZ-C2
left deck paper size Settings:

4.Enter number: 6 for A4, 15 for B5, 18 for LTR

5.dont forget to change the position of the paper size guide plate of the cassette

Tuesday, February 17, 2009

Paper Types and Sizes Supported by Canon iR5000/iR6000


Removing feeding roller & pick up roller Canon iR 5000/iR6000

Remove the resin E-ring









then,detach the feeding roller together
with the timing belt.



Remove the resin E-ring









and detach the pickup roller







Remove the resin E-ring









and detach the pickup roller

Monday, February 16, 2009

Tips to Minimize Paper Jam

Paper jams seem a more common headache to some of us than others. Most jams are caused by sheets of paper sticking together or paper sticking to a roller in your printer.
Here's how to mimimize the jams :

a) Don't overload the tray.

b) Press paper down in its tray so that it fits below the tray tabs.

c) Ensure that paper fed into your printer is within its specification limits.

d) Ensure tray guides are adjusted for the intended paper size i.e. Letter, A4 etc.

e) Avoid loading sheets with pinched or folded leading edges.

f) Do not use previously printed papers.

g) Use only fresh & dry papers as paper that absorbed moisture causes jams.

h) Ensure ripped paper bits are removed from inside of printer when clearing a jam.

i) Do not fan the paper as it causes static electricity which causes jams. If paper is sticking together, remove from printer, flip it over and reload it.

j) Toner, ink, or paper dust in the paper path overtime slows the paper's movement through your printer. Check the printer's recommendations on periodic cleaning in your owner's manual.

k) Use a high quality jam-free office paper like PaperOne.
source:www.paperone.com

Friday, February 6, 2009

CANON iR 5000/iR6000 ERROR CODE


These are all list of error code in Canon iR5000/iR6000 more to come, i hope your machines works fine and never get error.

  • E000

Main cause: the main thermistor (TH1) has poor contact or an open circuit.The thermal switch (TP1) has an open circuit.The fixing heater has an open circuit.The SSR is faulty.The DC controller PCB faulty.Mode of detection: 0000 after the main power switch is turned on,the temperature detected by the main thermistor does not reach 70ºC.
Caution: The error must be be reset in service mode (COPIER>FUNCTION>CLEAR>ERR)

  • E001

Main cause: The main thermistor (TH1) has a short circuit.The sub thermistor (TH2) has detected overheating.The SSR is faulty.The DC controller PCB is faulty.Mode of detection:0001 The main thermistor or the sub thermistor has detected about 230ºC or higher for 2 sec.0002 The main thermistor has detected 230ºC or higher (hard circuit detection)0003 The sub thermistor has detected about 236ºC or higher. Caution: The error must be be reset in service mode (COPIER>FUNCTION>CLEAR>ERR)



  • E002

Main cause: The main thermistor (TH1) has poor contact or an open circuit.The thermal switch (TP1) has an open circuit.The SSR is faulty.The DC controller PCB is faulty.Mode of detection:0000 The temperature of the upper fixing roller does not reach 100ºC within 2 min after it has exceeded 70ºC. Caution: The error must be be reset in service mode (COPIER>FUNCTION>CLEAR>ERR)


  • E003

Main cause: The main thermistor (TH1) has poor contact or an open circuit.The thermal switch (TP1) has an open circuit.The fixing heater has an open circuit.The SSR is faulty.The DC controller PCB is faulty.Mode of detection:0000 The temperature detected by the main thermistor is 70ºC for 2 sec or more after it has reaced 100ºC. Caution: The error must be be reset in service mode (COPIER>FUNCTION>CLEAR>ERR)


  • E004

Main cause: The SSR has a short circuit. The DC controller PCB is faulty.Mode of detection:0000 The SSR used to drive the fixing heater is found to have a short circuit (hard circuit detection). Caution: The error must be be reset in service mode (COPIER>FUNCTION>CLEAR>ERR)


  • E005

Main cause: The fixing web has been taken up. The fixing web length sensor (PS45) is faulty.The DC controller PCB is faulty.Mode of detection:0000 The length of fixing web that has been taken up is in excess of the specified length. Caution: After replacing the fixing web, be sure to reset the two web counters in service mode:COPIER>COUNTER>MISC>FIX-WEB and COPIER>COUNTER>DRBL-1>FX-WEB.


  • E010


Main cause: The main motor (M2) is faulty. The DC controller PCB is faulty.Mode of detection:0000 The clock pulse do not arrive for 2 secs or more after the main motor drive signal (MMFG) has been generated.





  • E012


Main cause: The drum motor (M1) is faulty. The DC controller PCB is faulty.Mode of detection:0000 The clock pulses do not arrive for 2 secs or more after the drum motor drive signal (DMFG) has been generated.





  • E013


Main cause: The waste toner feedscrew is faulty. The waste toner clock sensor (MSW2) is faulty. The DC controller PCB is faulty.Mode of detection:0000 The rotation of the waste toner feedscrew goes out of order, and the switch (MSW2) is pressed multiple times during a specific period of time.





  • E014


Main cause: The fixing motor (M19) is faulty. The DC controller PCB is faulty.Mode of detection:0000 The motor clock signal is detected for 2 secs or more continuosly after the fixing motor drive has been generated.





  • E020


Main cause: The hopper connector is left disconnected. The hopper motor (M9/M10) is faulty.The toner sensor (TS1/TS2) is faulty. The DC controller PCB is faulty.Mode of detection:0000 During printing, the toner supply is '0' (absence of toner) for 2 mins.




  • E032


Main cause: The copy data controller or the remote diagnostic device is faulty. The main controller PCB is faulty.Mode of detection:0001 Although once connected,the copy data controlleror the remote diagnostic device has become disconnected.





  • E061


Main cause: The laser shutter is faulty. The laser unit is faulty. The potential measurement PCB is faulty. The DC controller PCB is faulty.Mode of detection:0001 As the result of potential control,the drum surface potential (VL2) of the white background is about 200V
(generating solid black images).0002 The primary charging output used for print output and the drum surface potential after laser output has been made are about 200V (generating solid black images).





  • E100


Main Cause: The BD PCB is faulty. The laser unit is faulty. The laser driver PCB isfaulty. The wiring is faulty (short circuit, open circuit). The DC controllerPCB is faulty.Mode of Detection:0001 In 100 msec after the laser drive signal has been generated, the BD signal is not detected 50 times or more
within 40 msecs.0002 While the laser is on, the BD signal cycle is found to be outside aspecific range 10 times or more.





  • E110


Main Cause: The laser scanner motor (M15) is faulty. The wiring is faulty (short circuit,open circuit). The DC controller PCB is faulty.Mode of Detection:0001 • After the laser scanner motor drive signal has been generated,the motor ready signal (LMRDY*) does not arrive for
15 secs or more. (stop - full speed, half-speed - full speed)• During the period of 'full speed - half speed', the motor ready signal does not arrive for 60 secs or more after
the speed change signal has been generated.• During the period of 'full speed rotation', the motor ready signal is not detected 50 times or more (t intervals of 100 msec).





  • E121


Main Cause: The controller cooling fan (FM4) is faulty. The wiring is faulty (short circuit,open circuit). The DC controller PCB is faulty.Mode of Detection0001 Although the controller cooling fan (FM4) is being driven, the clock signal (FM4LCK) does not arrive for 5 secs or more.
E196Main Cause: The EEPROM on the DC controller PCB is faulty. The location of the EEPROM is wrong. The DC controller PCB is faulty.Mode of Detection:1abb When data is written to the EEPROM, the data written and the data read do not match.2abb When the ID read into the EEPROM and the ID into the ROM are compared, a mismatch is found.3abb When ID in the EEPROM and the ID in the ROM are compared after the main power switch is turned on, a mismatch is found.a: chip Nos. 0 through 5 (0: IC104, 1: IC105, 2: IC109, 3: IC110, 4: IC127, 5: IC130)bb: chip faulty address (bit)




  • E202


Main Cause: The scanner HP sensor (PS39) is faulty. The scanner motor (M3) is faulty. The reader controller PCB is faulty.Mode of Detection:0001 The scanner HP sensor does not turn off even when the scanner has been moved 40 mm forward after the main power switch has been turned on or the Start key has been pressed.0002 The scanner HP sensor does not turn on even when the scanner has been moved 450 mm in reverse.Caution No code is indicated, and keys are locked. The code may be checked in service mode (COPIER>DISPLAY>ERR).





  • E204


Main Cause: The ADF controller PCB is faulty. The reader controller PCB is faulty.Mode of Detection:0001 During printing, the image leading edge signal does not arrive from the ADF.Caution No code is indicated, and keys are locked. The code may be checked in service mode (COPIER>DISPLAY>ERR).





  • E220


Main Cause: The lamp inverter PCB is faulty. The reader controller PCB is faulty.Mode of Detection:0001 The lamp inverter PCB is found to have a fault.





  • E225


Main Cause: The scanning lamp (xenon tube) is faulty. The inverter PCB is faulty. The CCD/AP PCB is faulty. The reader controller PCB is faulty.Mode of Detection:0000 A specific signal level cannot be attained by CCD gain correction at power-on.0002 The edge gain correction value changed more than a specific level compared with the correction value used for the preceding sheet.





  • E240


Main Cause: The main controller PCB. The DC controller PCB is faulty.Mode of Detection:0000 An error has occurred in the communication between the main controller PCB and the CPU of the DC controller PCB.





  • E243


Main Cause: The control panel CPU PCB is faulty. The main controller PCB is faulty.Mode of Detection:0000 An error has occurred in communication between the CPU of the control panel CPU PCB and the main controller PCB.





  • E248


Main Cause: The EEPROM on the reader controller PCB is faulty. The reader controller PCB is faulty.Mode of Detection:0001 The ID read into the EEPROM when the main power switch has been turned on and the ID in the ROM do not match.0002 When data is written into EEPROM, the data written and the data read do not match.0003 When data is written, the ID in the EEPROM and the ID in the ROM are found not to match.





  • E302


Main Cause: The CCD/AP PCB is faulty. The wiring is faulty (short circuit, open circuit). The reader controller PCB is faulty.Mode of Detection:0001 During shading, the reader controller PCB does not end shading in 1 sec.0002 In stream reading, the edge white accumulation (processing) does not end after a period of 10 secs.





  • E601


Main Cause: The wiring is faulty (short circuit, open circuit). The hard disk drive is faulty. The DC controller PCB is faulty. The main controller PCB is faulty.Mode of Detection:0000 The main controller PCB has detected an error in control datawhile an image was transmitted between the main controller PCBand the hard disk drive.0001 The main controller PCB has found an error in the control data intransfer of images between main controller PCB and the DC controllerPCB.





  • E602


Main Cause The wiring is faulty (short circuit, open circuit). The hard disk drive isfaulty. The main controller PCB is faulty.Mode ofDetection0001 A mount error was detected when the hard disk was started upfrom the boot ROM.0002 A data read error (from the hard disk) was detected when the harddisk was started from the boot ROM.





  • E607


Main Cause The hard disk fan (FM7) is faulty. The wiring is faulty (short circuit, opencircuit). The DC controller PCB is faulty.Mode ofDetection0000 While the hard disk fan (FM7) is being driven, the clock signal(FM7CLK) does not arrive for 5 secs or more.





  • E677


Main Cause The various printer board (accessories) are faulty. The main controller PCB is faulty.Mode ofDetection0001 An error has occurred in the communication between the various





  • E710


Main Cause The DC controller PCB is faulty. The reader controller PCB is faulty.The main controller PCB is faulty.Mode ofDetection0001 When the main power is turned on, the IPC (IC5021) on the readercontroller PCB cannot be initialized.0002 When the main power is turned on, the IPC (IC120) on the DCcontroller PCB cannot be initialized.0003 When the main power is turned on, the IPC (IC1003) on the maincontroller PCB cannot be initialized.




  • E711


Main Cause The connector is not connected properly. The remote diagnostic device PCBis faulty. The copy data controller PCB is faulty. The ADF controller PCB isfaulty. The ADF controller PCB is faulty. The finisher controller PCB isfaulty.Mode of Detection 0001 Data has been written to the error register of the IPC (IC5021) onthe reader controller PCB four times or more within 1.5 secs.0002 Data has been written to the error register of the IPC (IC120) onthe DC controller PCB four times or more within 2 secs.0003 Data has been written to the error register of the IPC (IC1003) ofthe main controller PCB four times or more within 2 secs.




  • E712


Main Cause The connector is not connected properly. The ADF 24-V power supply isfaulty. The ADF controller PCB is faulty. The reader controller PCB isfaulty.Mode ofDetection0001 Communication does not resume in 3 secs after data has been writtento the error register of the communication IC (IPC) of the ADFcontroller PCB.0002 The transmission bit is not enabled after a period of 10 sec at thesync register of the IPC (IC5021) on the reader controller PCB.




  • E713


Main Cause The connector is not connected properly. The finisher accessories powersupply PCB is faulty. The finisher controller PCB is faulty. The DC controllerPCB is faulty.Mode ofDetection0000 The communications IC (IPC) on the finisher controller has goneout of order.




  • E717


Main Cause The wiring is faulty (short circuit, open circuit). The copy data controller orthe remote diagnostic device is faulty. The main controller PCB is faulty.Mode ofDetection0001 The copy data controller or the NE controller is out of order or anopen circuit has been detected.Caution The error must be reset in service mode (COPIER>FUNCTION> CLEAR>ERR).




  • E719


Main Cause The wiring is faulty (short circuit, open circuit). The coin vendor is faulty.The main controller PCB is faulty.Mode of Detection0001 The communication between the coin vendor and the main controllerPCB has been interrupted.Caution The error must be reset in service mode (COPIER>FUNCTION>CLEAR>ERR).




  • E732


Main cause The connector has poor contact. The reader controller PCB is faulty.Mode ofDetection0001 The main controller PCB has detected an error in the communicationbetween the reader controller PCB and the main controllerPCB.





  • E733


Main cause The connector has poor contact. The DC controller PCB is faulty.Mode ofDetection0001 The main controller PCB has detected an error in the communicationbetween the DC controller PCB and the main controller PCB.CLEAR>ERR).printer boards (accessories) and the main controller PCB.





  • E740


Main cause The LAN card is faulty. The main controller PCB is faulty.Mode ofDetection0001 An error is detected on the LAN card at power-on (with the cardinserted).0002 A MAC address is found to be faulty.0003 The LAN card register cannot be read.




  • E741


Main Cause The PCI bus connection is not proper. The main controller PCB is faulty.Mode ofDetection0000 An error has occurred in the PCI bus.





  • E742


Main Cause The RIP1 board (accessory) is faulty. The main controller PCB is faulty.Mode ofDetection0000 An error has been detected by self diagnosis of the RIPI board.




  • E743


Main cause The connector has poor contact. The main controller PCB is faulty.Mode of Detection 0000 The reader controller PCB has detected an error in the communicationbetween the main controller PCB and the reader controllerPCB.




  • E804


Main Cause The wiring is faulty (short circuit, open circuit). The DC power supply fan(FM6) is faulty. The DC controller PCB is faulty.Mode ofDetection0000 While the DC power supply fan is being driven, the clock signal(FM6CLK) does not arrive for 5 secs or more.




  • E805


Main Cause The wiring is faulty (short circuit, open circuit). The feed fan (FM1) isfaulty. The heat discharge fan (FM3) is faulty. The DC controller PCB isfaulty.Mode ofDetection0001 While the heat discharge fan is being driven, the clock signal(FM3CLK) does not arrive for 5 secs or more.0002 While the feed fan is being driven, the clock signal (FM1CLK)does not arrive for 5 secs or more.




  • E824


Main Cause The wiring is faulty (short circuit, open circuit). The primary charging assemblycooling fan (FM2) is faulty. The DC controller PCB is faulty.Mode ofDetection0000 While the primary charging assembly cooling fan is being driven,




  • E412


Main Cause The cooling fan (FM1) is faulty. The ADF controller PCB is faulty.Mode ofDetection0001 While the cooling fan is being driven, the lock signal (FMLCK)arrives for 100 msec or more.




  • E420


Main Cause The EEPROM is faulty. The ADF controller PCB is faulty.Mode of Detection 0001 When the host machine's power switch is turned on, the backupdata of the EEPROM cannot be read or the data, if read, has an error.



  • E421


Main Cause The EEPROM is faulty. The ADF controller PCB is faulty.Mode ofDetection0001 Backup data cannot be written to the EEPROM or the data, if written,has an error.the clock signal (FM2CLK) does not arrive for 5 secs or more.



  • E422

Main Cause The IPC communication has an error. The communication line has an opencircuit. The ADF controller PCB is faulty.Mode ofDetection0001 While the machine is in standby, the communication with the hostmachine has been interrupted for 5 secs or more. or, while the machineis in operation, the communication with the host machine hasbeen interrupted for 0.5 sec or more.



  • E500

Main Cause The finisher controller PCB is faulty. The DC controller PCB is faulty.Mode ofDetection0001 The communication between the host machine and the finisher hasbeen interrupted; this error is detected by the host machine.



  • E503

Main Cause The saddle stitcher controller PCB is faulty. The finisher controller PCB isfaulty.Mode ofDetection0002 The communication between the saddle stitcher controller PCBand the finisher controller PCB has been interrupted.



  • E504

Main Cause The height sensor (PS1) is faulty. The finisher controller PCB is faulty.Mode ofDetection0001 Communication between the height sensor and the finisher controllerPCB is not possible, or communication data has an error.0002 Communication between the height sensor and the finisher controllerPCB is not possible for a specific period of time.0003 At time of power-on, the connector of the height sensor is found tobe disconnected.0004 When the height sensor is being adjusted using the DIP switch, anerror occurred during the adjustment.



  • E505

Main Cause The EEPROM is faulty. The finisher controller PCB is faulty. The puncherdriver PCB is faulty.Mode ofDetection0001 When the power switch is turned on, the check sum of theEEPROM on the finisher controller PCB is found to have an error.0002 When the power switch is turned on, the check sum of theEEPROM on the puncher driver PCB is found to have an error.



  • E512

Main Cause The delivery motor clock sensor (PI10) is faulty. The delivery motor (M2)is faulty. The finisher controller PCB is faulty.Mode ofDetection0001 When operation starts, as many clocks as needed do not arrivefrom the delivery motor clock sensor.0002 No clock pulse arrives while paper is being moved over a distanceof 200 mm.



  • E530

Main Cause The alignment plate home position sensor (PI6) is faulty. The alignmentmotor (M3) is faulty. The finisher controller PCB is faulty.Mode ofDetection0001 The alignment plate does not leave home position when the alignmentmotor has been driven for 2 secs.0002 The alignment plate does not return to home position when thealignment motor has been driven for 2 secs.



  • E531

Main Cause The stapler home position detecting switch (MS7) is faulty. The stapler motor(M6) is faulty. The finisher controller PCB is faulty.Mode ofDetection0001 The stapler does not leave home position when the stapler motorhas been driven for 0.5 sec.0002 The stapler does not return to home position when the stapler motorhas been driven for 0.5 sec.



  • E532

Main Cause The stapler shift home position sensor (PI7) is faulty. The stapler shift motor(M4) is faulty. The finisher controller PCB is faulty.Mode ofDetection0001 The stapler unit does not leave home position when the stapler shiftmotor has been driven for 4 secs.0002 The stapler unit does not return to home position when the staplershift motor has been driven for 4 secs.



  • E535

Main Cause The swing motor clock sensor (PI20) is faulty. The swing guide open sensor(PI18) is faulty. The safety area switch (MS3) is faulty. The swing guideclosed detecting switch 2 (MS6) is faulty. The swing motor (M7) is faulty.The finisher controller PCB is faulty.Mode ofDetection0001 The swing guide closed detecting switch 2 does not turn on whenthe swing motor has been rotated CCW for 1 sec.0002 The swing guide open sensor does not turn on when the swing motorhas been rotated CW for 1 sec.0003 When the tray lift motor is in operation, the swing guide closed detectingswitch 2 is found to be off while the tray 1/2 is at OFF positionof the safety area switch.0004 No clock arrives for 200 msecs while the machine is in swing operation.



  • E540

Main Cause The tray home position sensor (PI8) is faulty. The tray lifter motor clocksensor 1/2 (PI9/PI19) is faulty. The tray upper limit detecting switch (MS5)is faulty. The tray lifter motor (M5) is faulty. The finisher controller PCB isfaulty.0001 The ascent does not end in 15 secs when the tray lift motor isdriven; or, the tray home position cannot be detected when the traylift motor has been driven for 15 secs.0002 While the tray is moving up, the tray upper limit detection switchis found to be on.0003 When the tray lift motor is driven, clock pulses do not arrive fromthe clock sensor 1/2 for 200 msecs.



  • E584

Main Cause The shutter open sensor (PI5) is faulty. The safety area detecting switch(MS3) is faulty. The shutter closed detecting switch (MS4) is faulty. TheNo. 2 feed motor (M8) is faulty. The finisher controller PCB is faulty.Mode ofDetection0001 The shutter closed detecting switch does not turn on when the No.2 feed motor has been rotated CCW for 1 sec or more.0002 The shutter open sensor does not turn on when the No. 2 feed motorhas been rotated CCW for 1 sec.0003 While the tray lift motor is in operation, the shutter closed detectingswitch is found to be off when the tray 1/2 is at OFF positionof the safety area detecting switch.



  • E590

Main Cause The punch home position sensor (PI3P) is faulty. The punch motor (M1P)is faulty. The punch driver PCB is faulty.Mode ofDetection0001 The puncher does not leave home position when the punch motorhas been driven for 200 msecs.0002 The puncher does not return to home position when the punch motorhas been driven for 200 msecs.



  • E593

Main Cause The horizontal registration home position sensor (PI1P) is faulty. The horizontalregistration motor (M1P) is faulty. The punch driver PCB is faulty.Mode ofDetection0001 The puncher does not leave home position when the horizontal registrationmotor has been driven for 4 secs.0002 The puncher does not return to home position when the horizontalregistration motor has been driven for 4 secs.



  • E5F0

Main Cause The paper positioning plate home position sensor (PI7S) is faulty. The paperpositioning plate motor (M4S) is faulty. The saddle stitcher controllerPCB is faulty.Mode ofDetection0001 The paper positioning plate home position sensor does not turn onwhen the paper positioning plate motor has been driven for about1.3 secs.0002 The paper positioning plate home position sensor does not turn off1 sec after the paper positioning plate motor has been driven for 1sec.



  • E5F1

Main Cause The folding motor clock sensor (PI4S) is faulty. The paper folding homeposition sensor (PI21S) is faulty. The folding motor (M2S) is faulty. Thesaddle stitcher controller PCB is faulty.Mode ofDetection0001 The number of detection pulses of the folding motor clock sensordrops below a specific value.0002 The state of the paper folding home position sensor does notchange when the folding motor has been driven for 3 secs.



  • E5F2

Main Cause The guide home position sensor (PI13S) is faulty. The guide motor (M3S)is faulty. The saddle stitcher controller PCB is faulty.Mode ofDetection0001 The guide home position sensor does not turn on when the guidemotor has been driven for about 0.5 sec.0002 The guide home position sensor does not turn off when the guidemotor has been driven for 1 sec.



  • E5F3

Main Cause The alignment home position sensor (PI5S) is faulty. The alignment motor(M5S) is faulty. The saddle stitcher controller PCB is faulty.Mode ofDetection0001 The alignment plate home position sensor does not turn on whenthe alignment motor has been driven for 0.5 sec (initially, drivenfor about 1.7 sec).0002 The alignment plate home position sensor does not turn off whenthe alignment motor has been driven for 1 sec.



  • E5F4

Main Cause The stitch home position sensor (rear, MS5S) is faulty. The stitch motor(rear, M6S) is faulty. The saddle stitcher controller PCB is faulty.Mode of Detection 0001 The stitcher home position sensor (rear) does not turn off when thestitch motor (rear) has been rotated CW for 0.5 sec or more.0002 The stitch home position sensor (rear) does not turn on when thestitch motor (rear) has been rotated CCW for 0.5 sec or more.



  • E5F5

Main Cause The stitch home position senor (front, MS7S) is faulty. The stitch motor(front, M7S) is faulty. The saddle stitcher controller PCB is faulty.Mode ofDetection0001 The stitch home position sensor (front) does not turn off when thestitch motor (front) has been rotated CW for 0.5 sec or more.0002 The stitch home position sensor (front) does not turn on when thestitch motor (front) has been rotated CCW for 0.5 sec or more.



  • E5F6

Main Cause The paper push-on plate motor clock sensor (PI1S) is faulty. The paperpush-on plate leading edge position sensor (PI15S) is faulty. The paperpush-on plate home position sensor (PI14S) is faulty. The paper push-onplate motor (M8S) is faulty. The saddle stitcher controller PCB is faulty.Mode ofDetection0001 The paper push-on plate home position sensor does not turn onwhen the paper push-on plate motor has been driven for 0.3 sec ormore.0002 The paper push-on plate home position sensor does not turn offwhen the paper push-on plate motor has been driven for 0.3 sec ormore.0003 The paper push-on plate leading edge position sensor does not turnoff when the paper push-on plate motor has been driven for 0.3 secor more.0004 The number of detection pulses of the paper push-on plate motorclock sensor drops below a specific value.0005 The paper push-on plate leading edge sensor does not turn onwhen the paper push-on plate motor has been driven for 0.3 sec or more.



  • E5F8

Main Cause The guide home position sensor (PI13S) is faulty. The paper push-on platehome position sensor (PI14S) is faulty. The paper push-on plate leadingedge position sensor (PI15S) is faulty. The saddle stitcher controller PCB isfaulty.Mode ofDetection0001 The connector of the guide home position sensor is found to bedisconnected.0002 The connector of the paper home positioning plate home positionsensor is found to be disconnected.0003 The connector of the paper push-on plate leading edge positionsensor is found to be discontented.



  • E5F9

Main Cause The inlet door switch (MS1S) is faulty. The front door switch (MS2S) isfaulty. The delivery door switch (MS3S) is faulty. The saddle stitch controllerPCB is faulty.Mode of Detection 0001 When the inlet cover, front cover, and the delivery cover are foundto be closed, the inlet door switch detects an open condition for 1sec or more from the start of the initial rotation of the host machineor the start of printing.0002 When the inlet cover, front cover, and delivery cover are found tobe closed, the front door switch detects an open condition for 1 secor more after the start of the initial rotation of the host machine orthe start of printing.0003 When the inlet cover, front cover, and delivery cover are found tobe closed, the delivery door switch detects an open condition for 1sec or more from the start of the initial rotation of the host machineor the start of printing.


Thursday, February 5, 2009

Outline operations of Canon Ir 5000/6000

Canon IR 6000
This is how the machines works when printing one set of
duplexing print of 10 originals.
You can see the numbers that indicate the sides of the pages is already printed.

Wednesday, February 4, 2009

Video about Removing Primary & Pre tansfer

Here's how to remove primary charging and pre transfer charging

Toner

Toner is a powder used in laser printers and photocopiers which forms the text and images on the printed paper. In its early form it was simply carbon powder. In order to improve the quality of the printout the individual carbon particles were blended in a polymer. The polymer particles can be melted by the heat of the fuser, causing it to bind to the fibers in the paper.In a copier, the toner stored inside a cartridge is stuck on larger, positively charged beads. As toner-coated beads are made to roll over the drum, the toner particles are more attracted by the positively charged ions on the unexposed areas on the drum's surface than the weakly charged beads. Later, the same particles are attracted even more towards the electro-statically charged paper. The plastic in the toner lets the user keep it from jumping ship once he/she has finally got it on the paper.In order to perform these tasks, quartz tube lamps and Teflon-coated rollers are required. First, the sheet of paper is sent between two of the rollers. Following it, the rollers are gently pressed down on the page to embed the toner in the paper fiber.
In the meantime, the lamps are on inside the rollers, producing sufficient heat to melt the toner. The toner, however, does not melt onto the rollers. How? The Teflon coating on the rollers prevents the toner and paper from sticking to them. The Price of toner is about US$10/kg but if you want the best the price is US$50.

Tuesday, February 3, 2009

Who is Canon?

Canon is a Japanese corporation specializing in imaging and optical products, including cameras, faxes, copiers, and printers. The current Canon Corporation was founded in 1937 as a maker of cameras. Despite Canon’s high industry profile in the camera market, most of the company’s revenue comes from office products such as Canon copiers.
Canon has also teamed up with Toshiba to design and manufacture flat panel televisions in the last few years. The company also has plans to develop OLED (Organic Light-Emitting Diode) and rear-projection displays.

Canon iR5000/iR6000 Service Mode

If you want to see service mode all you need to do is press the following in sequence (*) than 2 and 8 at the same time than (*).this service mde is to program or adjust the machine so be careful dont press any key if you dont know the code or your machine can malfunction

Upper separation claws

This is the easy parts called upper separation claw totaly it have six claws, you can change it by release the spring and remove the claws.
Be careful when mounting it dont chip the tip of
Upper separation claws













Paper cassette problem

I have a problem with my cassette deck, the paper dont want to go up so i cant print,after i search the problem is locate at the sensor in the cassette deck and with the machine.
To solve this problem i just use duct tape put it at the machine sensor just like in the third pictures and the paper is ready to print











Monday, February 2, 2009

Feeder always tilt down

If the feeder cover is loose (can't stop in the middle) always tilt down, i have the solutions:

1 Go find piece of acrylic about 3 mm thick
2 With a screwdriver hold the spring and slide it the acrylic at the left side (see pict)
carefull the spring is hard and difficult

If you done the feeder is now can stop at the middle not going down or close all the time

Need Help on Buying the “Right” Copier?

If you want to buy copier machine in Jakarta you better search the responsible and reputable store, because if not they dont have after sell services or one year guarantee services thats means trouble, you can ask the about copier machine in this store:

MCM Jl.Cideng Timur/40, Tlp:6318655

Muncul Group Jl.Daan Mogot/45, Tlp:5666233,56941577

Cahaya Terang Jl.Paus 89A Rawamangun, Tlp.4753057,47863140

Wisuda Tlp.4700089,4897863

Theres alot copier machines brand in Jakarta like Xerox,Minolta,Canon but stay or chose with Canon because the spareparts is easy to find and not to expensive.
Dont forget to bring one ream of paper if you decide to buy the machine, after you negotition about the price you can test it the machine with your paper (the store dont provide the paper) ask the salesman to turn it on the machine and copy as many you like just watch the machine work see if its error or paper jam.
If you can chose the counter below one million (1000000) more expensive but it can tell you that the machine is better performance,but becareful some store can manipulate the counter.
My recomend if you can go to MCM they are better, the price little high but the service is good, they also have the spareparts in case your machine need it.

Basic operations




This is basic step by step how the copier machine works, its consists of the following eight steps

Wednesday, January 28, 2009

Manual Service Canon Ir 5000-6000

At last i can find it manual service for Canon Image Ready 5000/6000 and know for everybody who want to learn about copier machine or want to be copier technician i can help you with service manual just be patien and send a comment i will reply as soon as possible.If you have can handle all the error and trouble in this copier machine then you can safe your money quiet a lot.
I will posting my experience with this machine too step by step, if you have a sugestion please comment

Funny Video

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