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Aug 20 2007
Portable Manual
FeederDADF-S1
ApplicationThis manual has been issued by Canon Inc. for qualified persons to learn technical theory, installation, maintenance, and repair
of products. This manual covers all localities where the products are sold. For this reason, there may be information in this
manual that does not apply to your locality.
CorrectionsThis manual may contain technical inaccuracies or typographical errors due to improvements or changes in products. When
changes occur in applicable products or in the contents of this manual, Canon will release technical information as the need
arises. In the event of major changes in the contents of this manual over a long or short period, Canon will issue a new edition
of this manual.
The following paragraph does not apply to any countries where such provisions are inconsistent with local law.
TrademarksThe product names and company names used in this manual are the registered trademarks of the individual companies.
CopyrightThis manual is copyrighted with all rights reserved. Under the copyright laws, this manual may not be copied, reproduced or
translated into another language, in whole or in part, without the written consent of Canon Inc.
COPYRIGHT 2001 CANON INC.Printed in Japan
CautionUse of this manual should be strictly supervised to avoid disclosure of confidential information.
Introduction
Symbols UsedThis documentation uses the following symbols to indicate special information:
Symbol Description
Indicates an item of a non-specific nature, possibly classified as Note, Caution, or Warning.
Indicates an item requiring care to avoid electric shocks.
Indicates an item requiring care to avoid combustion (fire).
Indicates an item prohibiting disassembly to avoid electric shocks or problems.
Indicates an item requiring disconnection of the power plug from the electric outlet.
Indicates an item intended to provide notes assisting the understanding of the topic in question.
Indicates an item of reference assisting the understanding of the topic in question.
Provides a description of a service mode.
Provides a description of the nature of an error indication.
Memo
REF.
Introduction
The following rules apply throughout this Service Manual:1. Each chapter contains sections explaining the purpose of specific functions and the relationship between electrical and mechanical systems with refer-
ence to the timing of operation.In the diagrams, represents the path of mechanical drive; where a signal name accompanies the symbol , the arrow indicates thedirection of the electric signal.The expression "turn on the power" means flipping on the power switch, closing the front door, and closing the delivery unit door, which results insupplying the machine with power.
2. In the digital circuits, '1'is used to indicate that the voltage level of a given signal is "High", while '0' is used to indicate "Low".(The voltage value, how-ever, differs from circuit to circuit.) In addition, the asterisk (*) as in "DRMD*" indicates that the DRMD signal goes on when '0'.In practically all cases, the internal mechanisms of a microprocessor cannot be checked in the field. Therefore, the operations of the microprocessorsused in the machines are not discussed: they are explained in terms of from sensors to the input of the DC controller PCB and from the output of theDC controller PCB to the loads.
The descriptions in this Service Manual are subject to change without notice for product improvement or other purposes, and major changes will be com-municated in the form of Service Information bulletins.All service persons are expected to have a good understanding of the contents of this Service Manual and all relevant Service Information bulletins and beable to identify and isolate faults in the machine."
ContentsContents
Chapter 1 Maintenance and Inspection
1.1 Periodically Replaced Parts ...............................................................................................................................11.1.1Periodically Replaced Parts .........................................................................................................................1
1.2 Durables ................................................................................................................................................................11.2.1Durables ..........................................................................................................................................................1
1.3 Periodical Servicing .............................................................................................................................................21.3.1Scheduled Servicing Chart...........................................................................................................................2
1.4 Cleaning ................................................................................................................................................................31.4.1Rollers..............................................................................................................................................................31.4.2Guides .............................................................................................................................................................51.4.3Sensors ...........................................................................................................................................................7
Chapter 2 Standards and Adjustments
2.1 Basic Adjustment ...............................................................................................................................................112.1.1Overview .......................................................................................................................................................112.1.2Angle Guide (angle of opening at 90 deg) ...............................................................................................112.1.3Sensor Output ..............................................................................................................................................112.1.4Tray Width.....................................................................................................................................................112.1.5Eliminating the Tilt .......................................................................................................................................112.1.6Height ............................................................................................................................................................122.1.7Right Angle ...................................................................................................................................................122.1.8Registration Roller Skew Adjustment .......................................................................................................132.1.9Angle Guide (angle of opening of 70 deg) ...............................................................................................142.1.10Magnification ..............................................................................................................................................142.1.11Horizontal Registration..............................................................................................................................152.1.12Leading Edge Registration .......................................................................................................................162.1.13White Level .................................................................................................................................................172.1.14Adjusting the Hinge Pressure ..................................................................................................................17
2.2 Adjustment at Time of Parts Replacement ....................................................................................................182.2.1Overview .......................................................................................................................................................182.2.2Procedure of Replacing the ADF Controller PCB...................................................................................18
Chapter 3 Error Code
3.1 Overview .............................................................................................................................................................213.1.1Overview .......................................................................................................................................................21
3.2 Service Error Code ............................................................................................................................................223.2.1Error Code ....................................................................................................................................................22
3.3 Jam Code............................................................................................................................................................243.3.1Jam Codes ....................................................................................................................................................24
3.4 Alarm Code .........................................................................................................................................................263.4.1Alarm Code ...................................................................................................................................................26
ContentsChapter 4 Outline of Components
4.1 Outline of Electrical Components ................................................................................................................... 274.1.1Sensors......................................................................................................................................................... 274.1.2Motor, Clutch, Solenoid, PCB, etc............................................................................................................ 284.1.3Connector ..................................................................................................................................................... 30
4.2 Variable Resistors (VR), Light-Emitting Diodes (LED), and Check Pins by PCB ................................... 314.2.1Overview....................................................................................................................................................... 314.2.2DADF Controller PCB................................................................................................................................. 314.2.3Original Placement led PCB...................................................................................................................... 32
Chapter 5 System Construction
5.1 Basic Construction ............................................................................................................................................ 335.1.1Overview of the Electrical Circuit.............................................................................................................. 33
5.2 Product Specifications...................................................................................................................................... 335.2.1Specifications............................................................................................................................................... 33
Chapter 1
1
Chapter 1 Maintenance and Inspection
1.1 Periodically Replaced Parts
1.1.1 Periodically Replaced Parts0015-7020
The machine does not have parts that must be replaced on a periodical basis.
1.2 Durables
1.2.1 Durables0015-7021
Some parts of the machine may have to be replaced once or more over the period of product life because of wear or damage. Replace them when they fail7, usingthe following table as a guide; the number of originals the machine has picked up may be checked using the host machine's service mode:
T-1-1
F-1-1
Expected service life shows the central value of a group of evaluation data points. Parts Numbers may subject to change because of design.
No Parts name Parts No. Q'ty Lifetime Remarks
1 Pickup roller FC3-0722 1
80,000 originals They are replaced according to the number of actual paper feed.
2 Separation pad unit FL2-0748 1
3 Separation Roller FC5-3115 1
4 Dust-colleting tapeA FC5-2959 1
5 Dust-colleting tapeB FC5-2960 1
6 Dust-colleting tapeD FC5-3016 2
7 Dust-colleting tapeE FC5-3017 4
8 Stamp(option) FC7-5465 1
7,000 originals
They are replaced when the print is light or the 1/2 or less cannot be printed.
[3] [2]
[8]
[1]
[7][6] [6][4]
[7] [5]
Chapter 1
2
1.3 Periodical Servicing
1.3.1 Scheduled Servicing Chart0015-7022
Do not use solvents or oils other than those indicated. Be sure to clean the rollers and scrapers, as the presence of paper lint or dust on them can cause lines in images.
A: clean B: lubricate C: replace D: adjustment
T-1-2
*1: the actual number of originals the machine has handled may be checked using its host machine's service mode: COPIER>COUNTER>FEEDER>FEED.
*2: apply silicone oil.
The following diagram shows the arrangement of the parts that need to be serviced on a periodical basis:
F-1-2
No Parts name
Servicing*1
80,000 originals or 6 months 160,000 originals or 12 month
1 Post-separation sensor (prism) A
2 Read sensor (prism) A
3 Delivery reversal sensor (prism) A
4 No. 1 registration roller A
5 No. 2 registration roller A
6 Pickup roller A
7 Read roller 1 A
8 Read roller 2 A
9 Read roller 3 A
10 Feed roller A
11 Reversal roller A
12 Delivery roller A
13 Registration rear roller A
14 each Roller/Roll A
15 each Scraper A
16 DADF height (See the Adjustment Procedure.) D
[5] [11] [4] [6][10][1]
[3] [12][9][8][7]
[2]
[13]
Chapter 1
3
1.4 Cleaning
1.4.1 Rollers0015-9595
1. No. 1 registration roll, No. 2 registration roll, registration rear roll, registration rear roller, No. 2 registration roller1) Perform the following procedure for cleaning the No. 1 registration roll [1], the No. 2 registration roll [2], the registration rear roll [3], the registration rear roller
[4], the No. 2 registration roller [5].1-1) Enter the service mode: FEEDER>FUNCTION>ROLL-CLN and reverse the ROLL-CLN; then, press the OK to reverse the roller.1-2) Push a lint-free paper moistened with alcohol, etc, onto each roller to clean them.1-3) Press the OK to stop the roller.
F-1-32. Reversing roller, No. 1 registration roller, reversing roller roll1) Open the feed cover.2) Open the reversing guide [1].3) Clean the reversing roller [2], the No. 1 registration roller [3], the reversing roller roll [4] with a lint-free paper moistened with alcohol, etc.
F-1-43. Second-surface read roller1) Open the feed cover and the reversing guide.2) Detach the guide plate.3) Clean the second-surface read roller [1] with a lint-free paper moistened with alcohol, etc.
MEMO:The No. 1 registration roll, the No. 2 registration roll and the registration rear roll are not rotated by executing FEEDER > FUNCTION > ROLL-CLN.
[1]
[2]
[3]
[4] [5]
[2] [3]
[4] [1]
Chapter 1
4
F-1-54. Read roller 11) Detach the front cover and the feeder cover.2) Detach the feeder guide and the read roller guide.3) Clean the Read roller 1 [1] with a lint-free paper moistened with alcohol, etc.
F-1-65. Platen roller 1, platen roll (front), platen roll (rear)1) Open the ADF.2) Clean the platen roller 1 [1], the platen roll (front) [2], the platen roll (rear) [3] with a lint-free paper moistened with alcohol, etc.
F-1-76. Read roll, roll scraper1) Open the ADF and detach the lower left cover.2) Clean the read roll [1] and the roll scraper [2] with a lint-free paper moistened with alcohol, etc.
F-1-87. Read roll 2, read roll 31) Open the ADF and the white sheet support plate (external) [1].2) Clean the read roll 2 [2] and the read roll 3 [3] with a lint-free paper moistened with alcohol, etc.
[1]
[1]
[1][2] [3]
[2][1]
Chapter 1
5
F-1-98. Second-surface platen roller1) Open the ADF and the white sheet support plate (external).2) Open the white sheet plate (inside) [1].3) Clean the second-surface platen roller [2] with a lint-free paper moistened with alcohol, etc.
F-1-109. Delivery reversing upper roller, delivery reversing lower roller1) Raise the document pickup tray.2) Clean the delivery reversing upper roller [1] and the delivery reversing lower roller [2] with a lint-free paper moistened with alcohol etc.
F-1-11
1.4.2 Guides0015-9611
1. Inside feeder cover, read guide, feeder guide, open/close guide (front), registration guide1) Open the feeder cover.2) Clean the feeder inside cover [1], the read guide [2], the feeder guide [3], the open/close guide [4] and the registration guide [5] with a lint-free paper moistened
with alcohol, etc.
Pay due attention to prevent the static charge eliminator from getting caught in the roller.
[2] [3] [1]
[2] [1]
[2]
[1]
Chapter 1
6
F-1-122. Delivery feeding guide, open/close guide (back)1) Open the feeder cover and the open/close guide [2].2) Clean the back of the delivery feeding guide [1] and the open/close guide [2] with a lint-free paper moistened with alcohol, etc.
F-1-133. Roll scraper1) Open the feeder cover and detach the feeder inside cover.2) Clean the roll scraper [1] with a lint-free paper moistened with alcohol, etc.
F-1-144. Delivery upper guide1) Open the feeder cover and the open/close guide.2) Clean the front and back of the delivery upper guide [1] with a lint-free paper moistened with alcohol, etc.
[1]
[2] [3] [4] [5]
[2][1]
[1]
[1]
Chapter 1
7
F-1-15
1.4.3 Sensors0015-7025
1. Delivery Reversal Sensor, Prism1) Open the feeder cover.2) Open the reversal guide.3) Open the reversal Flapper.4) Clean the prism [1] using an air blower brush.
F-1-162. Read Sensor, Prism1) Detach the feeder cover.2) Detach the feed guide.3) Detach the read roller guide.4) Clean the front read sensor (hole) [1] using an air blower brush.
F-1-175) Clean the rear read sensor (hole) [1] using an air blower brush.
[1]
[1]
[1]
Chapter 1
8
F-1-18
3. Separation Read Sensor, Prism1) Open the feed cover.2) Detach the inside cover.3) Detach the post-separation sensor.4) Clean the post-separation sensor (hole) [1] using an air blower brush and the prism [2] using a cotton swab.
F-1-19
[1]
[1][2]
Chapter 1
9
Chapter 2
11
Chapter 2 Standards and Adjustments
2.1 Basic Adjustment
2.1.1 Overview0015-7027
The machine's basic adjustments must be made in the following order:[1] angle guide (angle of opening at 90 deg)[2] sensor output*1[3] tray width*1[4] tilt[5] height[6] right angle[7] registration roller skew [8] angle guide (angle of opening at 70 deg)[9] magnification*1[10] horizontal registration*1[11] leading edge registration*1[12] white level*1[13] hinge pressure
*1: adjustment made using the host machine's service mode.
Memo:Be sure to make these basic adjustments whenever you have detached themachine or replaced any of the parts indicated.
2.1.2 Angle Guide (angle of opening at 90 deg)0015-7028
This item is performed since some operations are difficult to implementwithout widening the opening of the ADF.To be precise, the opening angle of the ADF is made 70 to 90 deg.1) Bend over the edge of the rubber cover [1], and remove the 2 mountingscrews [2]; then, detach the angle guide plate [3].
F-2-1
2.1.3 Sensor Output0015-7029
Make the following adjustments if you have replaced any of the followingparts:- reader controller PCB- post-separation sensor PCB (PCB2)- read sensor PCB (PCB3)- delivery reversal sensor PCB (PCB4)
If you have replaced any of the sensors (i.e., PCB2, PCB3, PCB4), be sureto clean the surface of the prism before starting to make the adjustments.
Adjustment Procedure1) Turn on the host machine, and start its service mode.
Press the User Mode key; press the 2 an 8 keys at the same time; then,press the user Mode key once again.
Check to be sure that there is no paper inside the ADF before starting the ad-justments.
2) Make the following selections to highlight [SENS-IN]; FEEDER>FUNCTION>SENS-INT
3) Press the OK key. In response, the machine will run an automatic adjustment session, andwill indicate 'OK!' if it ends normally.
4) When done, end service mode.
2.1.4 Tray Width0015-7030
To adjust the tray width, go through the steps under either "1. AB-Configu-ration" or "2. Inch-Configuration."
1. AB-Configuration1) Turn on the host machine, and start its service mode.
Press the User Mode key; press the 2 and 8 keys at the same time;then, press the User Mode key once again.
2) Touch the following in sequence on the screen to bring up the Adjustmentscreen: FEEDER>FUNCTION>TRY-A4.
3) Move the tray side guide to the index A4/A3.4) Press the OK key to register the A4 width.5) Move the tray side guide to the index A5R.6) Touch [TRY-A5R] to highlight.7) Move the tray side guide to the index A5R.8) Press the OK key to register the A5R width.9) Press the Reset key twice to end service mode.10) Turn off the host machine's control panel power switch and main power
switch in sequence.11) Turn on the host machine's main power switch.2. Inch-Configuration1) Turn on the host machine, and start its service mode.
Press the User Mode key, and press the 2 and 8 keys at the same time;then, press the User Mode key once again.
2) Touch the following in sequence on the screen to bring up the Adjustmentscreen: FEEDER>FUNCTION>TRY-LTR.
3) Move the tray side guide to the index LTR/11x17.4) Press the OK key to register the LTR width.5) Touch [TRY-LTRR] to highlight.6) Move the tray side guide to the index STRM/LTRR/LGL.7) Press the OK key to register the LTRR width.8) Press the Reset key twice to end service mode.9) Turn off the host machine's control panel power switch and main power
switch in sequence.10) Turn on the host machine's main power switch.
2.1.5 Eliminating the Tilt0015-7031
Be sure you have adjusted the angle of the ADF before starting the followingadjustment:
1) Loosen the nut [1] found at the rear of the left hinge; then, turn the hexbolt [2] so that the fixing member [3] is as far as the line marking [4].
- turn the bolt clockwise to move the member ahead.- turn the bolt counterclockwise to move the member in reverse.
2) Tighten the nut.[1]
[1]
[3]
[2]
Chapter 2
12
F-2-2
2.1.6 Height0015-7032
1) With the machine closed, check to see if the height adjusting rolls [1]found at the left rear and front are in contact with the reading glass [2].
F-2-3
Memo:To facilitate the work, try executing the following to turn on the scanninglamp using the host machine's service mode: COPIER>FUNCTION>MISC-R>SCANLAMP.
If the height adjusting rolls [1] at the left front and rear are not in contactwith the reading glass [2],turn the fixing screw [3] found at the top of the lefthinge.
F-2-4
2.1.7 Right Angle0015-7033
The following steps adjust the relationship between the machine's originalfeed direction and the host machine's scanner system:1. In the case of single-side and both-side (the first surface) reading1) Prepare a test chart.If no test chat is available, create the test chart indicated below with A4 orLTR paper.2) Place the test chart on ADF and make one copy.
F-2-53) Overlay the test chart on top of the image obtained in step2 and check theangle (A part).
F-2-64) Loosen the 2 knurled screws found at the front of the right hinge unit.5) Bend over the edge of the rubber cover [2] found at the rear of the righthinge unit, and loosen the fixing nut [3]; make adjustments using the boltwith a hex hole [4].
[1][2]
[3]
[4]
[1]
[2]
[3]
Right angle
10mm 10mm
10m
m10
mm
[A]
Chapter 2
13
F-2-7- if A>B (less than 90 deg), turn the bolt clockwise.- if A
Chapter 2
14
F-2-12In the case of A>BSlide the plate [1] up to adjust.
In the case of ABSlide the plate up to adjust.
In the case of A
Chapter 2
15
F-2-165) Start service mode as follows: press the User Mode key, press the 2 and 8keys at the same time, and press the User Mode key once again.6) Make the following selections: FEEDER>ADJUST>LA-SPEED; then,change the setting to make adjustments.-To make the image on copy B longer, decrease the setting (so that the streamreading speed will be decreased).To make the image on copy B shorter, increase the setting (so that the streamreading speed will be increased).[ range -30 to 30 : -3 to + 3 % ] 7) Make a copy of the text charge once again, and check to see that the imageis as indicated.2. In the case of both-side reading (the second surface)1) Using A4 or LTR paper, prepare a test chart as follows:
F-2-172) Place the test chart you have prepared on the copyboard glass, and make
a copy. Refer to the output as copy A.3) Place the test chart in the original pickup tray, and make a backside copy
in both-side reading. Refer to the output as copy B.4) Put copy A and copy B together, and compare the length of the image in
feed direction, making sure that dimension a is as indicated. If not, go tostep 5).
standard: a ADJUST>LA-SPEED2; then,
change the setting to make adjustments.-To make the image on copy B longer, decrease the setting (so that thestream reading speed will be decreased).To make the image on copy B shorter, increase the setting (so that thestream reading speed will be increased).[ range -30 to 30 : -3 to + 3 % ]
7) Make a copy of the text charge once again, and check to see that the imageis as indicated.
2.1.11 Horizontal Registration0015-7037
Be aware that there are 2 types of the horizontal registration adjustment inthe reading unit; front side reading unit and back side reading unit.1. In the case of single-side reading or both-side reading (front side)1) Obtain the Test Chart. If the Test Chart is not available, prepare one using A4 or LTR paper asfollows:
F-2-192) Place the Test Chart in the original pickup tray, and make a single-side
copy.3) Put the Test Chart over the output of step 2), and check to see that the fol-lowing is true A
Chapter 2
16
F-2-204) Start service mode as follows: press the User Mode key, press the 2 and 8keys at the same time, and press the User Mode key once again.5) Make the following selections: COPIER>ADJUST>ADJ-XY>ADY-Y-DF. Then, change the setting to make adjustments.- A higher setting will increase the margin of A, decreasing the margin of B.(in: 0.1 m)(range: -30 to 30)
6) Make a copy of the Test Chart once again, and check to see that the imageis as indicated.2. In the case of both-side reading (the second surface)1) Obtain the Test Chart. If the Test Chart is not available, prepare one using A4 or LTR paper asfollows:
F-2-212) Place the Test Chart in the original pickup tray, and make a backside copy
in both-side reading.3) Put the Test Chart over the output of step 2), and check to see that the fol-lowing is true A ADJ-XY>ADJY-DF2. Then, change the setting to make adjustments.- A higher setting will increase the margin of A, decreasing the margin of B.(in: 0.1 m)(range: -30 to 30)
6) Make a copy of the Test Chart once again, and check to see that the imageis as indicated.
2.1.12 Leading Edge Registration0015-7038
Be aware that there are 2 types of the leading edge registration adjustmentin the reading unit; front side reading unit and back side reading unit.1. In the case of single-side reading or both-side reading (front side)1) Obtain the Text Chart. If the Text Chart is not available, make one using A4 or LTR paper as fol-lows:
F-2-232) Place the Text Chart in the original tray, and make a single-side copy.3) Check to see that dimension A of the Test Chart and the image obtainedin step 2) are as indicated: A
Chapter 2
17
F-2-244) Start service mode as follows: press the User Mode key, press the 2 and 8keys at the same time, and press the User Mode key once again.5) Make the following selections: FEEDER>ADJUST>DOCST. Then,change the setting to make adjustments.- if A >/= 1 mm, increase the setting (so that the margin will be increased).- if B >/= 1 mm, decrease the setting (so that the margin will be decrease).
(unit: 0.5 mm) (range: -30- to 10; -5 to +5 mm)
6) Make a copy of the Test Chart once again, and see the image is as indicat-ed.2. In the case of both-side reading (the second surface)1) Obtain the Text Chart. If the Text Chart is not available, make one using A4 or LTR paper as fol-lows:
F-2-252) Place the Text Chart in the original tray, and make a backside copy in
both-side reading.3) Check to see that dimension A of the Test Chart and the image obtainedin step 2) are as indicated: A DOCST2. Then,change the setting to make adjustments.- if A >/= 1 mm, increase the setting (so that the margin will be increased).- if B >/= 1 mm, decrease the setting (so that the margin will be decrease).
(unit: 0.5 mm) (range: -30- to 10; -5 to +5 mm)
6) Make a copy of the Test Chart once again, and see the image is as indicat-ed.
2.1.13 White Level0015-7039
1) Place A4 or LTRR paper on the copyboard glass, and close the machine.
Make sure that the paper is not too small. Otherwise, white level may not beadjusted.
2) Make the following selections on the Service Mode screen to bring up theAdjustment screen: COPIER>FUNCTION>CCD.
3) Touch [DF-WLVL1] to highlight.4) Press the OK key.
In response, the machine runs an auto adjustment session, and will indi-cate 'OK!' if it ends normally.
5) Remove the paper from the copyboard glass, and place it in the originalpickup tray of the machine.
6) Press [DF-WLVL2] on the touch panel to highlight.7) Press the OK key.
In response, the machine will run an auto adjustment session (duplexingstream reading).
8) Press the Reset key twice to end service mode.
2.1.14 Adjusting the Hinge Pressure0015-7040
1) Open the ADF, and measure the height of the point at which it stops clos-ing when let go.2) Check to see if the height is 10 to 20 cm in range.
1. if 10 cm or less, turn it counterclockwise using a hex wrench to make ad-justments.
2. if 20 cm or more, turn it clockwise using a hex wrench to make adjust-ments.
MemoService Toolhex wrench (8 mm); CK - 0540
A
B
Right angle
10mm 10mm
10m
m10
mm
A
B
Chapter 2
18
F-2-27
2.2 Adjustment at Time of Parts Replacement
2.2.1 Overview0015-7041
Make the appropriate adjustments whenever you have replaced the followingmajor parts:- reader controller PCB (i.e., after EEPROM initialization) [1]sensor output [2]tray width [3]magnification [4]horizontal registration [5]leading edge registration [6]white level - DADF controller PCB (when clearing EEPROM) [1]magnification (Backside in both-side reading) [2]horizontal registration (Backside in both-side reading) [3]leading edge registration (Backside in both-side reading)- Post-separation sensor [1]sensor output - Read sensor [1]sensor output - Post-separation sensor [1]sensor output - Original detecting volume [1]tray width
Memo: For details of these adjustments, see the instructions given for basic adjust-ments.If you have replaced the reader controller PCB (or initialized EEPROM), seethe descriptions given under "After Replacing the Reader Controller PCB"on the host machine service manual.
2.2.2 Procedure of Replacing the ADF Controller PCB0016-0129
1) In a service mode, input the correcting values described on the service la-bel found at the backside of the front cover.- COPIER>ADJUST>CCD>DFCH-G2- COPIER>ADJUST>CCD>DFCH-G10- COPIER>ADJUST>CCD>MTF-M1- COPIER>ADJUST>CCD>MTF-M2- COPIER>ADJUST>CCD>MTF-M3- COPIER>ADJUST>CCD>MTF-S1
2) Select: COPIER>FUNCTION>MTF-CLC3) Select: COPIER>FUNCTION>DF-LNR
10 20cm
Chapter 2
19
Chapter 3
21
Chapter 3 Error Code
3.1 Overview
3.1.1 Overview0015-7054
The CPU of the machine's ADF controller PCB is equipped with a function to monitor the state of the machine, flashing the Original Placement indicator when itfinds a fault in the course of a check it runs as programmed. The machine communicates the presence of a fault to its host machine in the form of a code, which isany of the following 3 types; check the Original Placement indicator to find out the nature of a fault:
T-3-1
In addition, you may also use the host machine's service mode for a specific code for an alarm or jam; an error, on the other hand, will be indicated on the hostmachine's control panel in the form of an error code:
F-3-1
Nature of fault Original Placement indicatorAlarm flashes at intervals of 240 msecJam flashes at intervals of 160 msecError flashes at intervals of 80 msec
< JAM > < 1/7 > < READY>Display Adjust Function Option Test CounterI/O
0102030405060708
103110301030103010291029- - - -
- - - -
1653192117481152
18101755
- - - -
- - - -
1653192317481152
18131756- - - -
- - - -
00010A1100420005010D0A08- - - -
- - - -
93990
2515
86688096
0- - - -
- - - -
A4- - - - - - - -
A4A4A4- - - - - - - -
- - - - - - - -
- - - - - - - -
1
01
1
00 -
-
1
02
1
1
0 -
-
No. DATE TIME1 TIME2 L PCODE CNTR SIZE
Chapter 3
22
3.2 Service Error Code
3.2.1 Error Code0016-0841
T-3-2
Code Details Code Contents DetailsE202 HP position detection error
The HP position, which is the criterion for positioning of the front side reader optical motor or backside optical glass motor, cannot be detected within a specified period.
Cause: Fault occurred in the motor, driver IC, or separation HP sensor. A fault occurred in the guide for glass move (in the case of the backside optical glass motor)
1 Scanner HP A fault occurred in outward HP positioning of the front side reader optical motor
error
2 Scanner HP A fault occurred in homeward HP positioning of the front side reader optical motor.
error
101 Glass HP A fault occurred in outward HP positioning of the backside optical glass motor. 30mm at HP detection
error
102 Glass HP A fault occurred in homeward HP positioning of the backside optical glass motor. 10mm at HP detection
error
E225 Light volume error
Cause: Unstable power/light volume, CCD not driving, a fault occurred in the analog processor
1 Light volume error on the front side The light volume becomes less than the standard level when shading is executed by the CCD unit.
101 Light volume error on the backside The light volume becomes less than the standard level when shading is executed by the CIS unit.
Chapter 3
23
E227 Power supply (24V) error
The 24V port does not become active within a specified period.
Cause: Unstable power supply, a fault occurred in wire connection between the reader and controller, a fault occurred in wire connection between the reader controller PCB and ADF controller PCB, blowout of a fuse
1 The 24V port for the reader controller PCB is turned off when power is turned on.
2 The 24V port for the reader controller PCB is turned off when a job starts.
3 The 24V port for the reader controller PCB is turned off when a job completes.
4 The 24V port for the reader controller PCB is turned off when load is driven.
101 The 24V port for the ADF controller PCB is turned off when power is turned on.
102 The 24V port for the ADF controller PCB is turned off when a job starts.
103 The 24V port for the ADF controller PCB is turned off when a job completes.
E248 EEPROM error
Writing/reading cannot be performed when accessing EEPROM.
Cause: Unstable power supply, a fault occurred in the reader controller PCB, a fault occurred in the ADF controller PCB
1 An error occurred when turning on the power of the EEPROM for the reader controller PCB.
2 An error occurred when performing writing to the EEPROM of the reader controller PCB.
3 An error occurred when performing reading after writing to the EEPROM of the reader controller PCB.
101 An error occurred when turning on the power of the EEPROM for the ADF controller PCB.
102 An error occurred when performing writing to the EEPROM of the ADF controller PCB.
103 An error occurred when performing reading after writing to the EEPROM for the ADF controller PCB.
E400 A fault has been detected in the communication with th ADF driver PCB.Cause: there is an open circuit; there is a fault in the DC controller PCB.
1 Check sum error The check sum value of the data received from the ADF driver PCB fails to match 14 times continuously.
2 Status error The status of the data received from the ADF drive PCB fails to match 14 times continuously.
3 Reception error An SCI serial communication error interrupt has been detected 14 times continuously.
100 ASIC communication error An error occurred in communication between the ADF controller PCB and ASIC (RAKUDA).
Code Details Code Contents Details
Chapter 3
24
3.3 Jam Code
3.3.1 Jam Codes0015-7544
T-3-3
E413 The level of the separation HP sensor does not change within a specific period of time.Cause: there is a fault in the separation motor or the driver PCB; there is a fault in the separation HP sensor; there has been an increase in the load of the separation cam.
1 Read roller 1 open The level of the Separation HP sensor does not change within a specific period of time after the Separation motor has been driven.
2 Read roller 1 close The level of the Separation HP sensor does not change within a specific period of time after the Separation motor has been driven.
E423 SDRAM (video image memory) error
Cause: Unstable power supply, a fault occurred in the ADF controller PCB, a fault occurred in SDRAM
1 SDRAM access error An error occurred during access to the SDRAM.
2 SDRAM verification error
3 SDRAM unit count error
Code Sensor Type Sensor No. Description
01H
Post-separation sensor: non arrival PCB2 The post-separation sensor does not detect paper when the paper has been moved 452 (45.2 mm x 10) mm after the start of separation.
02H
Post-separation sensor: stationary PCB2 - The separation sensor detects paper when the paper has been moved 500 mm (if an extra long paper, +200 mm) 45.5 mm after the registration pickup. - The sensor goes on before the paper (paper with hole) has been fed 12 mm after the detection of the trailing edge; then, the separation sensor detects the paper when the paper has been fed 50 mm after the activation of the sensor.
03H
Primary registration sensor: non arrival PI1 The primary registration sensor does not detect paper when the paper has been fed 134.8 mm (33.7 mm x 4) after the activation of the post-separation sensor.
04H
Primary registration sensor: stationary PI1 The primary registration sensor does not go off although paper has been fed 4 times the interval between the separation sensor and the primary registration sensor (42.5 x 4) after the activation of the separation sensor.
05H
Primary read sensor: non arrival PCB3 - The read sensor does not detect paper when the paper has been fed 364.2 mm (182.1 x 2) from the registration point. - The read sensor does not detect paper when the paper has been fed 157.4 mm (78.7 x 2) from the secondary registration point.
06H
Primary read sensor: stationary PCB3 - The read sensor detects paper when the paper has been fed 500 mm (if an extra long paper, +200 mm) after the start of feed, resumed after a temporary stop for reading. - At the time of LTRR/LGL recognition in the mix mode, the read sensor detects paper when the paper has been fed 514 mm after the start of feed from the edging wait point.
07H
Delivery sensor: non arrival PCB4 - In the mode other than the high-speed duplexing mode, the delivery sensor does not detect paper when the paper is fed 132.1 mm (66.1 mm x 2) after it has reached the leading edge downstream roller with reference to the activation of the read sensor. - At the time of switchback, the delivery sensor does not detect paper when the paper has been fed 50 mm (25 x 2 mm) after the start of feed.
Code Details Code Contents Details
Chapter 3
25
*1: Although it used to be considered as an error, as a remedy, consider it as a jam during reading. In case that the error occurs once again during the lock initialization at the time of the jam recovery, consider it as an error. In case that the lock initialization is executed normally at the time of the jam recover, the job can be continued.
Although driving the unlock motor, the level of the unlock HP sensor is not changed within the specified time.
Cause: fault in either the motor or the driver IC, the unlock HP sensor fault, increased load on the unlock cam
08H
Delivery sensor: stationary PCB4 The delivery sensor detects paper when the paper has been fed 161.9 mm (111.9 + 50 mm) from the trailing edge read end point.
09H
Secondary registration sensor: non arrival PI12 - The secondary registration sensor does not go on although paper is fed 4 times the interval between the primary registration roller and the secondary registration sensor (82.2 x 4 mm) after re-pickup from the primary registration roller in case of pickup from the tray with the simplexing pickup. - At the time of pickup from the reversing duplexing path with the reversing duplexing pickup, the secondary registration roller does not go on although paper has been fed 4 times the interval between the point from the reversing roller +20 mm and the secondary registration sensor (22.6 x 4 mm).
10H
Secondary registration sensor: stationary PI12 The secondary registration sensor detects paper when the paper has been fed 500 x 2 mm after the activation of the secondary registration sensor.
11H
Secondary read sensor: non arrival PI11 The read 2 sensor does not go on although paper has been fed twice the interval between the read position and the secondary read sensor (47.4 x 2) after the start of reading.
12HSecondary read sensor: stationary PI11 At the time of the secondary read sensor detection, the read sensor detects paper
when the paper has been fed 500 mm (if an extra long paper, +200 mm).
42H 1st sheet post-separation sensor: stationary PCB2 1st sheet of the post-separation sensor stationary (02H)
43H 1st sheet registration sensor: non arrival PI1,PI12 1st sheet of the registration sensor non arrival (03H)
44H 1st sheet registration sensor: stationary PI1,PI12 1st sheet of the registration sensor stationary (04H)
45H 1st sheet read sensor: non arrival PCB3,PI11 1st sheet of the read sensor non arrival (05H)
46H 1st sheet read sensor: stationary PCB3,PI11 1st sheet of the read sensor stationary (06H)
47H1st sheet delivery sensor: non arrival PCB4 1st sheet of the delivery sensor non arrival (07H)
48H1st sheet delivery sensor: stationary PCB4 1st sheet of the delivery sensor stationary (08H)
49H
1st sheet secondary registration sensor: non arrival
PI12 1st sheet of the secondary registration sensor non arrival (09H)
50H1st sheet of secondary registration sensor: stationary
PI11 1st sheet of the secondary registration sensor stationary (10H)
51H1st sheet of secondary read sensor: non arrival
PI11 1st sheet of the secondary read sensor non arrival (11H)
52H1st sheet of secondary read sensor: stationary
PI11 1st sheet of the secondary read sensor stationary (12H)
90H DF open SR3 The ADF has been opened while in operation.
91H User DF open SR3 The ADF has been opened while in operation (paper wait).
92H DF cover open PI6 The cover has been opened while in operation (the drive system in operation).
93H User cover open PI6 The cover has been opened while in operation (paper wait).
Code Sensor Type Sensor No. Description
Chapter 3
26
3.4 Alarm Code
3.4.1 Alarm Code0015-7636
The machine flashes the original detection LED at intervals of 240 msec when it identifies a fault as being an alarm condition.
T-3-4
Code Fault Description
xx03 Separation has failed. The 1st original does not reach the post-separation sensor.The 1st original does not reach the registration sensor.
xx11 The number of jam recovery sheets is greater than the number of originals.
In jam recovery mode, the tray runs out of originals before as many as 'the number of recovery sheets - 1' has been delivered.
xx14 High-speed duplexing operation fails. The original is longer than the specified limit.
Chapter 4
27
Chapter 4 Outline of Components
4.1 Outline of Electrical Components
4.1.1 Sensors0015-7042
T-4-1
T-4-2
Symbol Name Roll Parts NumberPI1 Registration sensor Detect an original (front) reading timing WG8-5593PI2 Separation HP sensor Detect the pressure/release status in separation motor WG8-5593
PI3 A4/LTR detecting sensor Identify a document as AB series or INCH series WG8-5593
PI4 LTR-R/LGL sensor Identify a document as LGL or LTR WG8-5593PI5 Document Detecting Sensor Detect the presence/absence of a document WG8-5593PI6 Cover open/close detecting sensor Detect the feeder cover as open or close WG8-5593PI7 Size detecting sensor 1 Identify the document width WG8-5593
PI8Size detecting sensor 2 WG8-5593
PI9 Size detecting sensor 3 WG8-5593
PI10 Size detecting sensor 4 WG8-5593
PI11 Secondary read sensor Detect the document (back side) reading timing WG8-5593
PI12 Secondary registration sensor Detect the document (back side) registration timing WG8-5593
PI13 CIS glass moving HP sensor Detect the CIS glass home position 1 WG8-5593
Symbol I/O > FEEDER Connector No. JAM/E code
PI1 P001-1 1:PresentP004-5 1:Present J411 0003, 0004, 0043, 0044
PI2 P006-2 1:ON(Light block) J413
PI3 P005-0 1:A4R J408
PI4 P005-1 1:Lerge J408PI5 P005-2 0:Present J410PI6 P005-3 1:Close J410 0092, 0093PI7 P004-0 0:Present J412PI8 P004-1 1:Present J412PI9 P004-2 0:Present J412
PI10 P004-3 1:Present J412
PI11 P006-5 1:Present J413 0011, 0012, 0045, 0046, 0050, 0051, 0052
PI12 P001-3 1:PresentP006-3 1:PresentJ412 0009, 0010, 0043, 0044, 0049
PI13 P006-6 1:HP sensor J412
Chapter 4
28
F-4-1
4.1.2 Motor, Clutch, Solenoid, PCB, etc.0015-7043
T-4-3
T-4-4
Symbol Name Roll Parts No.
M1 Pickup motor Drive picking up operation FK2-0204-000
M2 Read motor Drive feeding operation FK2-0205-000
M3 Feeding/reversing motor Drive the feeding reversing roller, the reversing roller FK2-3714-000M4 Separation motor Pressure/release the read roller 1 FK2-0207-000
M5 Secondary registration motor Drive the secondary registration roller FK2-3713-000
M6 CIS glass moving motor Drive the CIS glass FK2-3715-000
CL1 Pickup clutch Drive the pickup roller FK2-0209-000
SL1Stamp solenoid (When only the option is operating) Drive the approved stamp FK2-3724-000
SL2 Separation solenoid Pressure the delivery reversing lower roller FK2-0210-000FM1 Read motor cooling fan Cool down the internal machine FH6-1742-000
FM2 CIS unit cooling fan (front) Cool down the CIS unit FH6-1742-000
FM3 CIS unit cooling fan (rear) FH6-1742-000
FM5 Delivery motor/registration motor cooling fan Cool down the delivery motor and the registration motor FH6-1742-000
PCB1 ADF controller PCB Control the ADF FM3-0370-000
PCB2 Post separation sensor PCB Detect jam FM2-1022-000
PCB3 Read sensor PCB FM2-1022-000
PCB4 Delivery/reversing sensor PCB FM2-1022-000
PCB5 Document set display LED PCB Detect the presence/absence of a document on a tray FM2-1023-000
PCB6 Inverter PCB FK2-3723-000
PCB7 ADF Driver PCB Control the motors in relevant with ADF FM3-0371-000
VR Original width volume Detect the width of an original FM2-1024-000
Symbol I/O > FEEDER PART-CHK JAM/E code Connector No.
M1P002-2 0:Feeding directionP002-3 1:In operation
MTR-CHK>0 J211
M2P002-6P002-7 1:In operation
MTR-CHK>1 J212
M3P002-0 0:Feeding directionP002-1 1:In operation
MTR-CHK>2 J213
M4 MTR-CHK>3 E413 J214
M5 P002-4 1:In operationP002-5 0:Feeding directionMTR-CHK>4 J216L
PI1
PI13
PI11
PI12
PI2
PI7PI9
PI8PI10
PI6
PI5
PI4
PI3
Chapter 4
29
F-4-2
M6 MTR-CHK>5 J214
CL1 P003-0 1:ON CL-CHK>0 J213
SL1P003-1 1:ONP005-7 0:with stamp
SL-CHK>1 J409
SL2 SL-CHK>0 J214
FM1P003-2 1:ONP004-6 1:alarm
FAN-CHK>0 J215
FM2P003-3 1:ONP005-4 1:alarmP005-6 1:alarm
FAN-CHK>1 J412
FM3P003-3 1:ONP005-4 1:alarmP005-6 1:alarm
FAN-CHK>1 J413
FM5 P003-2 1:ONP004-6 1:alarmFAN-CHK>0 J215
PCB1 0001, 0002 ---
PCB2P004-4 1:Present P007P011
0042 ---
PCB3
P001-0 0:Present P006-4 1:Present P008P012
0005, 0006, 0045, 0046 ---
PCB4P001-2 0:Present P006-1 1:Present P009
0007, 0008, 0047, 0048 ---
PCB5 P003-6 1:display ON ---
PCB6 ---
PCB7 E400 ---
VR P010 J408
Symbol I/O > FEEDER PART-CHK JAM/E code Connector No.
CL1
FM1
FM2
FM3
FM5
M6
M2M1
VR
M3
M5
M4
SL2
SL1
Chapter 4
30
F-4-3
4.1.3 Connector0016-0032
F-4-4
PCB2
PCB1
PCB7
PCB3PCB4
PCB5PCB6
J810
J820
J800
J834
J835
J833
J7
J731
J733
J958
J1010
J720
J702
J710
J700
J701
J715
J832J732
J734
J5
J1401
J1401
J408
J410
J305
J409
J407
J204
J201
J202
J111
J2052
J2050
J2053
J2051
J203
J112
J100
J403
J411
J412
J413
Chapter 4
31
F-4-5
4.2 Variable Resistors (VR), Light-Emitting Diodes (LED), and Check Pins by PCB
4.2.1 Overview0015-7044
Of the LEDs and check pins used in the machine, those needed for servicing the machine in the field are discussed.
Do not touch the check pins not indicated in the list. They are intended for use at the factory, and require special tools and high accuracy.
4.2.2 DADF Controller PCB0015-7045
Some LEDs emit dim light even when they area off. The is a normal condition, and must be kept in mind.
J2141
J2140
J2143
J2142
J214
J201
J404
J2151
J2131
J2130
J215J211
J216J212
J213
J215
Chapter 4
32
F-4-6
4.2.3 Original Placement led PCB0015-7046
F-4-7
J404 J413 J412J403J409
J407
IC401
IC402
IC801
IC501
LED401
J411 J408 J410
J405
J406J402
IC602
IC601J401
J201LE
D2011
3
Chapter 5
33
Chapter 5 System Construction
5.1 Basic Construction
5.1.1 Overview of the Electrical Circuit0015-6823
The machine uses the DADF controller PCB to control. This PCB possesses CPU (IC401).CPU reads the signals inputted at a sensor etc. or the signal from the host machine and in response, drives the loads such as motor or solenoid etc. by standard timing.
F-5-1
5.2 Product Specifications
5.2.1 Specifications0015-6809
T-5-1
Item Specifications RemarksDocument pickup method Auto pickup-delivery method
Document type Sheet document / book document
Document weight BW document (1-sided sheet document): AB series 42~ 128g/m2 INCHseries 50~ 128g/m2BW document (2-sided sheet document):50~ 128g/m2
As for a document exceeding 432 mm, feed a 1-sided sheet: 60 to 90 g/m2
Color document:64~ 128g/m2
BW/Color mix (BW document):50~ 128g/m2
EEPROM(IC412)
FLASHROM
(IC402)
SENSOR
CPU(IC401)
ASIC1(IC403)
ASIC2(IC404)
CIS UNIT
MOTOR
SOLENOID
CLUTCH
DADF CONTROLLER PCB
READER CONTROLLER PCB
Chapter 5
34
Document size Size: B6, A5 (STMT)~ A3, (LDR:11x17)
As for B6, landscape feeding only
Feeding direction:128.0mm~ 432.0mm(Extra long mode*1:630mm)
Width direction:139.5mm~ 304.8mm(Feedable size:304.8mm)
Document set direction Document tray pickup:face-up stacking
Document set position Document tray pickup:center reference
Document reading method Stream reading 2-sided simultaneous reading: 423 mm and below
Document separation method Upper separation
Document feeding mode 1-sided / reversing 2-sided / 2-sided simultaneous reading
Document tray capacity L size/S size *2: 100-sheet (Under the condition of 80 g/m2 and below)
As for a document exceeding 80 g/m2, weight conversion.
Height of bend document: 10 mm and below
As for a document exceeding 432 mm, set one sheet at a time
Document mix function Mixture of the same series Set a document at the rear side.
Mixture of different series
- Assured combination of mixture of different series AB series: A3/B4 B4/A4R A4/B5 B5/A5
Document size detection function Normal operation: Width detection and LGL/LTR length detection on the pickup tray Length detection during the feeding
Mixed document: Length/width detection during the feeding
Left document recognition Available with combination of the main body
Stamp function Available Optional setting (the service mode switching)
Item Specifications Remarks
Chapter 5
35
*1: Set the extra long mode with the service mode. Select COPIER > OPTION > USER > MF-LG-ST, and set to 1. (Default: 0)
*2: The paper size specification is as follow: L size: A3, LDR S size: A4, LTR
Document processing speed Stream reading 600dpi 1-sided :77ipm, 2-sided :87ipm S size*2, value for 2-side is reference.
1-sided :38ipm, 2-sided :50ipm L size*2, value for 1-side and 2-side are for reference.
SEND300dpi
1-sided :77ipm, 2-sided :100ipm S size*2
1-sided :38ipm, 2-sided :53ipm L size*2 value for 1-side and 2-side are for reference.
Standard 400mm/s Reading speed
Min~ Max 200 to 400mm/s
Communication method with the reader
Serial communication
Power supply DC24V, DC13V supply from the connected equipment
Weight About 20.2kg
Dimensions 615.3(W) x 560.3(D) x 156.2(H) mm
Usage environment According to the connected equipment
Temperature range
Humidity range
Item Specifications Remarks
Aug 20 2007
Chapter 1 Maintenance and Inspection1.1 Periodically Replaced Parts1.1.1 Periodically Replaced Parts
1.2 Durables1.2.1 Durables
1.3 Periodical Servicing1.3.1 Scheduled Servicing Chart
1.4 Cleaning1.4.1 Rollers1.4.2 Guides1.4.3 Sensors
Chapter 2 Standards and Adjustments2.1 Basic Adjustment2.1.1 Overview2.1.2 Angle Guide (angle of opening at 90 deg)2.1.3 Sensor Output2.1.4 Tray Width2.1.5 Eliminating the Tilt2.1.6 Height2.1.7 Right Angle2.1.8 Registration Roller Skew Adjustment2.1.9 Angle Guide (angle of opening of 70 deg)2.1.10 Magnification2.1.11 Horizontal Registration2.1.12 Leading Edge Registration2.1.13 White Level2.1.14 Adjusting the Hinge Pressure
2.2 Adjustment at Time of Parts Replacement2.2.1 Overview2.2.2 Procedure of Replacing the ADF Controller PCB
Chapter 3 Error Code3.1 Overview3.1.1 Overview
3.2 Service Error Code3.2.1 Error Code
3.3 Jam Code3.3.1 Jam Codes
3.4 Alarm Code3.4.1 Alarm Code
Chapter 4 Outline of Components4.1 Outline of Electrical Components4.1.1 Sensors4.1.2 Motor, Clutch, Solenoid, PCB, etc.4.1.3 Connector
4.2 Variable Resistors (VR), Light-Emitting Diodes (LED), and Check Pins by PCB4.2.1 Overview4.2.2 DADF Controller PCB4.2.3 Original Placement led PCB
Chapter 5 System Construction5.1 Basic Construction5.1.1 Overview of the Electrical Circuit
5.2 Product Specifications5.2.1 Specifications