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SERVICEMANUAL
DADF-R1
COPYRIGHT 2007 CANON INC. CANON DADF-R1 REV. 1 PRINTED IN U.S.A.
MAY 2007
DADF_R1 SM cover.qxp 5/7/2007 11:07 AM Page 1
Rev. 1
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 inproducts. When changes occur in applicable products or in the contents of this manual, Canon will release technicalinformation as the need arises. In the event of major changes in the contents of this manual over a long or shortperiod, 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 individualcompanies.
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, orWarning.
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 inquestion.
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 elec-
trical and mechanical systems with reference to the timing of operation.In the diagrams, represents the path of mechanical drive; where a signal name accompanies thesymbol, the arrow indicates the direction of the electric signal.The expression "turn on the power" means flipping on the power switch, closing the front door, and closingthe delivery unit door, which results in supplying 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 usedto indicate "Low".(The voltage value, however, differs from circuit to circuit.) In addition, the asterisk (*) asin "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 microprocessors used in the machines are not discussed: they are explainedin terms of from sensors to the input of the DC controller PCB and from the output of the DC controller PCBto the loads.
The descriptions in this Service Manual are subject to change without notice for product improvement or otherpurposes, and major changes will be communicated 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 allrelevant Service Information bulletins and be able to identify and isolate faults in the machine."
Contents
Contents
Chapter 1 Specifications
1.1 Product Specifications ...................................................................................... 1-11.1.1 ADF Specifications..................................................................................................... 1-1
1.2 Names of Parts .................................................................................................. 1-31.2.1 External View .............................................................................................................. 1-31.2.2 Cross Section ............................................................................................................. 1-4
1.3 Using the Machine ............................................................................................ 1-51.3.1 Original Set Indicator ................................................................................................. 1-5
Chapter 2 Installation
2.1 Unpacking and Checking the Components .................................................. 2-12.1.1 Points to Note About Installation ............................................................................. 2-12.1.2 Checking the Contents (DADF-R1)......................................................................... 2-12.1.3 Checking the Contents (Power Supply Unit-S1) ................................................... 2-2
2.2 Installation Procedure....................................................................................... 2-32.2.1 Turning Off the Host Machine (imagePRESS C1 Series) ................................... 2-32.2.2 Points to Note When Turning ON/OFF the power of Host Machine (imagePRESS
C7000Series) .................................................................................................................. 2-32.2.3 Installing the DADF-R1 (imagePRESS C1 Series)............................................... 2-32.2.4 Installing the DADF-R1 (imagePRESS C7000Series) ......................................... 2-92.2.5 Installing the Option Power Supply Unit-S1 (imagePRESS C1 Series) .......... 2-15
2.3 Making Adjustments ....................................................................................... 2-182.3.1 Adjustment (imagePRESS C1Series, imagePRESS C7000Series)................ 2-182.3.2 Adjusting the Right Angle (imagePRESS C1Series, imagePRESS C7000Series)
2-182.3.3 Horizontal Registration Adjustment (imagePRESS C1Series, imagePRESS
C7000Series) ................................................................................................................ 2-192.3.4 Leading Edge Registration Adjustment (imagePRESS C1Series, imagePRESS
C7000Series) ................................................................................................................ 2-222.3.5 Horizontal Registration Adjustment (Fine Adjustment) (imagePRESS C1Series,
imagePRESS C7000Series) ....................................................................................... 2-262.3.6 Leading Edge Registration Adjustment (Fine Adjustment for Both Sides)
(imagePRESS C1Series, imagePRESS C7000Series) ......................................... 2-272.4 Attaching the Labels etc................................................................................. 2-28
2.4.1 Attaching the Cleaning Instructions Label (imagePRESS C1Series, imagePRESS
Contents
C7000Series)................................................................................................................ 2-282.4.2 Attaching the Manual Feeder Placement Label (imagePRESS C1Series,
imagePRESS C7000Series) ...................................................................................... 2-28
Chapter 3 Functions
3.1 Basic Construction ............................................................................................. 3-13.1.1 Overview of Electrical Circuit................................................................................... 3-13.1.2 Inputs to ADF Controller PCB ................................................................................. 3-23.1.3 Outputs from ADF Controller PCB ......................................................................... 3-4
3.2 Basic Operation.................................................................................................. 3-53.2.1 Outline......................................................................................................................... 3-53.2.2 Outline......................................................................................................................... 3-73.2.3 CW Pickup/Delivery .................................................................................................. 3-73.2.4 Pre-Reversal/Reversal/Delivery.............................................................................. 3-83.2.5 Manual Feeder Pickup/Delivery ............................................................................ 3-10
3.3 Document Detection ........................................................................................ 3-113.3.1 Outline....................................................................................................................... 3-113.3.2 Detecting the Presence/Absence of an Original ................................................ 3-123.3.3 Original Size Detection 1 ....................................................................................... 3-133.3.4 Original Size Detection 2 ....................................................................................... 3-143.3.5 Detecting the Presence/Absence of an Original in the Manual Feeder ......... 3-18
3.4 Document Pickup/Separation ........................................................................ 3-193.4.1 Outline....................................................................................................................... 3-193.4.2 Moving Up/Down the Pickup Roller Unit ............................................................. 3-203.4.3 Switching the Separation Pressure ...................................................................... 3-223.4.4 Separation Sensor (S4) and Skew Sensor (S5)................................................. 3-233.4.5 Controlling the Pickup Motor (M3) ........................................................................ 3-243.4.6 Controlling the Separation Motor (M4)................................................................. 3-253.4.7 Sequence of Operations ........................................................................................ 3-26
3.5 Document Feeding/Delivery ........................................................................... 3-263.5.1 Outline....................................................................................................................... 3-263.5.2 Controlling the Belt Motor (M2) ............................................................................. 3-273.5.3 Controlling the Delivery Motor (M5) ..................................................................... 3-28
3.6 Feeding Unit ..................................................................................................... 3-293.6.1 Outline of CW Pickup/Delivery .............................................................................. 3-293.6.2 CW Pickup/Delivery Fixed Reading ..................................................................... 3-293.6.3 CW Pickup/Delivery (stream reading) ................................................................. 3-333.6.4 Double-Sided Originals (fixed reading) ............................................................... 3-403.6.5 Fixed Reading (continuous; double-sided original) ........................................... 3-473.6.6 Controlling the Reversal Motor (M1) .................................................................... 3-543.6.7 Manual Feeder Pickup/Delivery Operation ......................................................... 3-55
Contents
3.7 Detecting Jams ................................................................................................ 3-573.7.1 Overview ................................................................................................................... 3-573.7.2 List of Jam Code ...................................................................................................... 3-583.7.3 Alarm Code ............................................................................................................... 3-61
3.8 Power Supply................................................................................................... 3-623.8.1 Overview.................................................................................................................... 3-62
Chapter 4 Parts Replacement Procedure
4.1 Removing from the Host Machine .................................................................. 4-14.1.1 Feeder ..........................................................................................................................4-1
4.2 External Covers ................................................................................................. 4-14.2.1 External Covers ..........................................................................................................4-14.2.2 Front Cover .................................................................................................................4-14.2.3 Main Cover ..................................................................................................................4-24.2.4 ADF Controller Cover ................................................................................................4-34.2.5 Side Guide Lock .........................................................................................................4-3
4.3 Drive System...................................................................................................... 4-34.3.1 Reversal Motor ...........................................................................................................4-44.3.2 Pickup Motor ...............................................................................................................4-54.3.3 Delivery Motor ............................................................................................................4-54.3.4 Belt Motor Unit ............................................................................................................4-6
4.4 Document Feeding System ............................................................................. 4-64.4.1 Registration Roller .....................................................................................................4-64.4.2 Reversing Roller .........................................................................................................4-74.4.3 Feed Belt .....................................................................................................................4-94.4.4 Separation Belt .........................................................................................................4-104.4.5 Delivery Roller ..........................................................................................................4-124.4.6 Pickup Rollor .............................................................................................................4-144.4.7 Separation Rollor .....................................................................................................4-154.4.8 Feeding (pull-off) Roller ..........................................................................................4-174.4.9 Document Tray .........................................................................................................4-184.4.10 Manual Feed Registration Roller .........................................................................4-19
Chapter 5 Maintenance
5.1 User Maintenance ............................................................................................. 5-15.1.1 User maintenance item ............................................................................................. 5-1
5.2 Maintenance and Inspection ........................................................................... 5-15.2.1 Periodically Replaced Parts .....................................................................................5-1
5.2.1.1 Periodiccally Replaced Parts .............................................................................................. 5-1
Contents
5.2.2 Durables ..................................................................................................................... 5-15.2.2.1 Durables ................................................................................................................................ 5-1
5.2.3 Periodical Servicing .................................................................................................. 5-25.2.3.1 Scheduled Servicing Chart ................................................................................................. 5-2
5.2.4 Cleaning ...................................................................................................................... 5-45.2.4.1 Outline.................................................................................................................................... 5-45.2.4.2 Separation Assembly........................................................................................................... 5-45.2.4.3 Registration Roller ............................................................................................................... 5-55.2.4.4 Copyboard Glass ................................................................................................................. 5-65.2.4.5 Belt Assembly ....................................................................................................................... 5-65.2.4.6 Original Trailing Edge Sensor ............................................................................................ 5-65.2.4.7 Original Sensor ..................................................................................................................... 5-65.2.4.8 Separation Paper/Skew Paper Sensor ............................................................................. 5-75.2.4.9 Pre-Registration Roller Paper Sensor .............................................................................. 5-75.2.4.10 Post-Registration Roller Paper Sensor........................................................................... 5-85.2.4.11 Reversal Paper Sensor ..................................................................................................... 5-85.2.4.12 Manual Feed Registration Paper Sensor ....................................................................... 5-95.2.4.13 Pickup Roller ....................................................................................................................... 5-95.2.4.14 Separation Belt/Feeding Roller ........................................................................................ 5-95.2.4.15 Pull-Off Roller.................................................................................................................... 5-105.2.4.16 Registration Roller ........................................................................................................... 5-105.2.4.17 Reversing Roller A, Support Member ........................................................................... 5-105.2.4.18 Reversing Roller B, Support Member ........................................................................... 5-115.2.4.19 Manual Feed Roller, Support Member ......................................................................... 5-115.2.4.20 Delivery Roller, Support Member .................................................................................. 5-115.2.4.21 Manual Feed Registration Roller, Support Member ................................................... 5-11
5.3 Adjustment ........................................................................................................ 5-125.3.1 Basic Adjustment .................................................................................................... 5-12
5.3.1.1 Basic Adjustments ............................................................................................................. 5-125.3.1.2 ADF Height Adjustment..................................................................................................... 5-125.3.1.3 ADF Right Angle Adjustment ........................................................................................... 5-135.3.1.4 Horizontal Registration Adjustment ................................................................................. 5-145.3.1.5 Leading Edge Registration Adjustment .......................................................................... 5-175.3.1.6 Horizontal Registration Adjustment (Fine Adjustment) ................................................ 5-205.3.1.7 Leading Edge Registration Adjustment (Fine Adjustment) ......................................... 5-21
5.3.2 Adjustment at Time of Parts Replacement ......................................................... 5-225.3.2.1 Outline.................................................................................................................................. 5-225.3.2.2 Replacing the EEPROM ................................................................................................... 5-235.3.2.3 Adjusting the Sensors and the Delivery Motor .............................................................. 5-23
5.3.3 Auxiliary Adjustmant ............................................................................................... 5-255.3.3.1 Outline.................................................................................................................................. 5-255.3.3.2 Adjusting the Degree of Arching at the Registration Roller (pickup from the tray), (at time
of reversal), (manual feed mode) ........................................................................................... 5-255.3.3.3 Adjusting the Speed of the Feeding Belt ........................................................................ 5-285.3.3.4 Adjusting the Speed of Reversal ..................................................................................... 5-305.3.3.5 Checking the Sensor Output ............................................................................................ 5-33
Contents
5.3.3.6 Hinge Spring Pressure Adjustment ................................................................................. 5-365.3.4 Other ..........................................................................................................................5-37
5.3.4.1 Outline .................................................................................................................................. 5-375.3.4.2 Jam History.......................................................................................................................... 5-375.3.4.3 Version of the Software ..................................................................................................... 5-375.3.4.4 Checking the Original Width ............................................................................................. 5-385.3.4.5 Resetting the Backup RAM............................................................................................... 5-39
5.4 Troubleshooting............................................................................................... 5-395.4.1 Error Code .................................................................................................................5-39
5.4.1.1 E402 display lamp .............................................................................................................. 5-395.4.1.2 E404 display lamp .............................................................................................................. 5-405.4.1.3 E405 display lamp .............................................................................................................. 5-405.4.1.4 E410 display lamp .............................................................................................................. 5-415.4.1.5 E420 display lamp .............................................................................................................. 5-41
5.4.2 Alarm Code ...............................................................................................................5-425.4.2.1 Alarm .................................................................................................................................... 5-42
5.5 Outline of Electrical Components ................................................................. 5-435.5.1 Sensors...................................................................................................................... 5-435.5.2 Motors, Clutches, and Solenoids........................................................................... 5-445.5.3 PCBs .......................................................................................................................... 5-45
5.6 Variable Resistors (VR), Light-Emitting Diodes (LED), and Check Pins by PCB 5-465.6.1 Outline........................................................................................................................ 5-465.6.2 ADF Controller PCB................................................................................................. 5-465.6.3 DIP Switch Functions .............................................................................................. 5-475.6.4 Reversal Motor Driver PCB/ Belt Motor Driver PCB........................................... 5-505.6.5 Pickup Tray PCB ...................................................................................................... 5-505.6.6 Indication LED PCB ................................................................................................. 5-51
5.7 Service Tools ................................................................................................... 5-515.7.1 Special Tools List ..................................................................................................... 5-515.7.2 Solvents and Oils List .............................................................................................. 5-51
Chapter 6 Error Code
6.1 Service Error Code ........................................................................................... 6-16.1.1 E402 ............................................................................................................................. 6-16.1.2 E404 ............................................................................................................................. 6-16.1.3 E405 ............................................................................................................................. 6-16.1.4 E410 ............................................................................................................................. 6-16.1.5 E420 ............................................................................................................................. 6-1
6.2 Jam Codes ......................................................................................................... 6-26.2.1 List of Jam Code ........................................................................................................ 6-2
Contents
6.3 Alam Code .......................................................................................................... 6-66.3.1 List of Alarm Code..................................................................................................... 6-6
Chapter 1
SPECIFICATIONS
Contents
Contents
1.1 Product Specifications ...................................................................................... 1-11.1.1 ADF Specifications..................................................................................................... 1-1
1.2 Names of Parts .................................................................................................. 1-31.2.1 External View .............................................................................................................. 1-31.2.2 Cross Section ............................................................................................................. 1-4
1.3 Using the Machine ............................................................................................ 1-51.3.1 Original Set Indicator ................................................................................................. 1-5
Chapter 1
1-1
1.1 Product Specifications
1.1.1 ADF Specifications0013-3451
T-1-1
Item Description RemarksOriginal pickup autoOriginal placement original tray face-up
manual feeder face-down: against rear endOriginal separation top separationOriginal type SheetOriginal weight original tray 50 to 216 g/m2 However, if large-size double-
sided, 100 g/m2; if longer than 432 mm, 60 to 90 g/m2.
manual feeder 38 to 216 g/m2
Original size A5 to A3 / STMT to 279.4 X 431.8 mm (11'X17')feed direction: 139.7 to 432.0 mm (630.l0 mm)cross-feed direction: 182.0 to 297.0 mm
Value in parentheses represents extra-long paper.
Original tray capacity small-size 100 sheets In below 80 g/m2 paper. The manuscripts exceeding 80 g/m2 are base weight conversion.
A5, A4, B5, STMT, LTR, A4R, B5R, LTRR
large-size 100 sheets 80 g/m2 or less.If heavier than 80 g/m2, conversion used.If longer than 432 mm, 1 sheet.
A3, B4, LGL, 279.4X431.8 mm (11'X17')
Original reference tray centermanual feeder rear
Original reading stream (single-sided)/fixedPre-cycle end noControl panel noDisplay noOriginal AE detection no (image processing after reading by host machine)2-on-1 no (image processing after reading by host machine)Original handling single-sided, double-sidedStream reading yes (all sizes; with 20 % to 200 % only on one side)Manual feeding yes (1 sheet)Original size identification yesResidual original detection yes (in combination with host machine)Jam recovery yesCount mode noOriginal size mix yes (limited to same paper series; width)Book original supported (mobile hinge assembly; up/down)Tracing paper mode noSilent mode nostamp noCommunication with host machine
IP communication 2
Chapter 1
1-2
The above information is subject to change for product revision.
Power supply 24 VDC, 13 VDC From printer unit by way of reader unit.
Weight 21.5 kg (approx.) Not including delivery tray.Dimensions 646 (W) x 569.5 (D) x 143 (H) mm Not including delivery tray.Power consumption 100 W or less (during operation)Operating noise sound pressure: host machine + 3 dB Host machine + ADF +
finisher alone: 72 dBsound quality: 10.78 sone (85 ipm)
DF opening/closing noise (impact)
sound pressure: 70 dB
Operating noise same as host machineTemperature rangeHumidity range
Chapter 1
1-3
1.2 Names of Parts
1.2.1 External View0013-3452
F-1-1
[1] Upper cover [4] Manual feed tray[2] Side guide [5] Front cover[3] ADF controller cover
[1]
[2]
[3][4]
[5]
Chapter 1
1-4
1.2.2 Cross Section0013-3453
F-1-2
[1] Reversing roller B member [13] Delivery roller B member[2] Reversing roller B [14] Delivery roller[3] Reversing flapper [15] Delivery guide flapper[4] Registration pressure roller [16] Feeding belt[5] Registration roller [17] Stopper plate[6] Pull-off roller [18] Separation belt[7] Pull-off pressure roller [19] Feed belt driver roller[8] Feeding roller [20] Guide flapper[9] Pickup roller [21] Pre-reversal flapper[10] Manual feed registration roller [22] Reversing roller A[11] Manual feed stopper plate [23] Reversing roller A member[12] elivery roller A member
[1] [2] [3] [4] [5] [6] [7] [8] [9] [10] [11] [12]
[15] [14] [13][16][18] [17][19][20][21][23] [22]
Chapter 1
1-5
1.3 Using the Machine
1.3.1 Original Set Indicator0013-3454
The Original Set Indicator [1] goes on when an original is placed on the original tray, and flashes when a jamoccurs.
F-1-3
-Warnings and Action to TakeIf the Original Set indicator starts to flash while an original is inside the DADF, suspect a jam; go through thefollowing to remove the jam:1) Remove all originals from the original tray.2) Open the upper cover, and remove the jam, if found.3) Open the DADF, and remove the original from the copyboard glass, if found.4) Put the originals back into initial sequence, and place the stack in the DADF.
Chapter 2
INSTALLATION
Contents
Contents
2.1 Unpacking and Checking the Components .................................................. 2-12.1.1 Points to Note About Installation ............................................................................. 2-12.1.2 Checking the Contents (DADF-R1)......................................................................... 2-12.1.3 Checking the Contents (Power Supply Unit-S1) ................................................... 2-2
2.2 Installation Procedure....................................................................................... 2-32.2.1 Turning Off the Host Machine (imagePRESS C1 Series) ................................... 2-32.2.2 Points to Note When Turning ON/OFF the power of Host Machine (imagePRESS
C7000Series) .................................................................................................................. 2-32.2.3 Installing the DADF-R1 (imagePRESS C1 Series)............................................... 2-32.2.4 Installing the DADF-R1 (imagePRESS C7000Series) ......................................... 2-92.2.5 Installing the Option Power Supply Unit-S1 (imagePRESS C1 Series) .......... 2-15
2.3 Making Adjustments ....................................................................................... 2-182.3.1 Adjustment (imagePRESS C1Series, imagePRESS C7000Series)................ 2-182.3.2 Adjusting the Right Angle (imagePRESS C1Series, imagePRESS C7000Series)
2-182.3.3 Horizontal Registration Adjustment (imagePRESS C1Series, imagePRESS
C7000Series) ................................................................................................................ 2-192.3.4 Leading Edge Registration Adjustment (imagePRESS C1Series, imagePRESS
C7000Series) ................................................................................................................ 2-222.3.5 Horizontal Registration Adjustment (Fine Adjustment) (imagePRESS C1Series,
imagePRESS C7000Series) ....................................................................................... 2-262.3.6 Leading Edge Registration Adjustment (Fine Adjustment for Both Sides)
(imagePRESS C1Series, imagePRESS C7000Series) ......................................... 2-272.4 Attaching the Labels etc................................................................................. 2-28
2.4.1 Attaching the Cleaning Instructions Label (imagePRESS C1Series, imagePRESS C7000Series) ................................................................................................................ 2-28
2.4.2 Attaching the Manual Feeder Placement Label (imagePRESS C1Series, imagePRESS C7000Series) ....................................................................................... 2-28
Chapter 2
2-1
2.1 Unpacking and Checking the Components
2.1.1 Points to Note About Installation0014-6095
2.1.2 Checking the Contents (DADF-R1)14-2693
F-2-1
The machine calls for the separately available power supply Unit-S1. (Only for imagePRESS C1 series)
[1] DADF 1 pc. [2] Original delivery tray 1 pc.[3] Fan unit 1 pc. [4] Fan holder 2 pc.[5] Fan duct 2 pc. [6] Cover duct 1 pc.[7] Electrostatic filter 2 pc. [8] Screw (Bind; M4X30) 4 pc.[9] Screw (P tight; M4X10) 6 pc. [10] Screw (RS tight; M4X10) 2 pc.[11] Harness retainer 2 pc. [12] Cleaning instruction label
(only with the products designed for USA/EUR) 4 pc. (only with the products designed for AUS/ASIA) 5 pc.
[13] Manual Feeder Placement label 1 pc. [14]* Sheet, FCC Class A 1 pc.
*: Included only for UL.
[1] [2] [3]
[4] [5] [6] [7] [8]
[9] [12][11][10] [13] [14]
Chapter 2
2-2
2.1.3 Checking the Contents (Power Supply Unit-S1)0013-0957
only for imagePRESS C1 Seires
F-2-2
[1] Power Supply unit 1 pc. [2] Screw (Bind; M4X6) 4 pc.[3] Fan relay cable 1 pc. [4] DC relay cable 1 pc.[5] AC relay cable 1 pc. [6]* Ferrite core 1 pc.* The parts is only for the 200V machine.
[1] [2] [3] [5][4] [6]
Chapter 2
2-3
2.2 Installation Procedure
2.2.1 Turning Off the Host Machine (imagePRESS C1 Series)
0013-5068
2.2.2 Points to Note When Turning ON/OFF the power of Host Machine (imagePRESS C7000Series)
0016-3369
T-2-1
2.2.3 Installing the DADF-R1 (imagePRESS C1 Series)
0013-0864
1) Remove the reader unit right cover [1].- 3 cover rubber pieces [2]- 3 screws [3]
F-2-3
Turning Off the Main PowerBe sure to go through the following steps when turning off the main power to protect the machine's hard disk:1) Hold down the control panel power switch for 3 sec or more.2) Follow the shut-down instructions on the screen. (The main power will go off automatically.)3) Disconnect the 2 power plugs of the machine (1 at the for the rear, 1 at the left side).
Power-On Order for Turning On the Power When Pickup/Delivery Accessories are ConnectedBe sure to turn on the power in the correct order otherwise it may causean error because the host machine fails to recognize accessoriesincluding this equipment.
<Power-On Order>1) Accessories (accessories including this equipment)2) Host machineMEMO:There is no power-on order among accessories
Points to Note When Turning Off the Main Power of the Host MachineBe sure to turn off the main power in the following order to protect hard disk of the host machine.1) Press the power switch on control panel for 3 sec or more.2) Follow the instruction on the shutdown sequence screen (the main power switch will go off automatically).3) Turn off the breaker.4) Disconnect the power plug.
[1]
[2]
[2]
[2]
[3]
[3]
[3]
Chapter 2
2-4
2) Remove the reader unit upper right cover [1].- 2 screws [2]
F-2-4
3) Remove the fan hole covering [1].
F-2-5
4) Remove the reader unit fixing plate (rear right)[1].- 1 stepped screw [2]- 2 screws [3]
F-2-6
5) Fit the 2 harness retainers [1].
F-2-7
Do not use the removed fan hole covering [1].
[2]
[1]
[1]
[1]
[2]
[3]
[1]
Chapter 2
2-5
6) Holding the fan [4] so that the label side [1] facesupward, orient it in relation to the cable guides [2]and [3]; then, fit it in place in the fan holder [5].
F-2-8
7) Likewise, perform step 6) for the other fan.
8) Lead the cable [1] through the 2 cable guides [2].
F-2-9
9) After placing the harness [2] of the fun [1] to facethe rear side of the main body, fit the fan hole [3]and the emboss [4].
F-2-10
Point of caution of fan installation direction.[A] The fan orientation is wrong.[B] The cable guide orientation is wrong.
[1] [4]
[5]
[2]
[3]
[A] [B]
[1]
[2]
[1]
[1]
[2] [3]
[4]
Chapter 2
2-6
10) Fix the fan holder [1] in place. (Make sure not toget the harness caught by the fan holder.)- 2 screws (Bind; 4X30) [2]
F-2-11
11) Fix the cable [1] in place using 2 harnessretainers [2].
F-2-12
12) After placing the harness [2] of the fun [1] to facethe rear side of the main body, fit the fan hole [3]and the emboss [4].
F-2-13
13) Fix the fan holder [1] in place. (Make sure not toget the harness caught by the fan holder.)- 2 screws (Bind; 4X30) [2]
F-2-14
[1]
[2]
[1][2]
[1]
[2] [3] [4]
[1]
[1]
[2]
Chapter 2
2-7
14) Lead the cable [1] through the 4 cable guides [2].
F-2-15
15) Connect the connector [1], and route the harness[2] through the cable guide [3].
16) Fix the harness [4] using the 2 harness retainers[5].
F-2-16
17) Fix the harness [1] using the harness retainer [2]as shown.
F-2-17
18) Mount the 2 fan ducts [1].- 4 screws (P tight; M4X10) [2]
F-2-18
[1][2]
[5] [1]
[2] [4][3]
[2]
[1]
[1]
[2]
Chapter 2
2-8
19) Fit the 2 Electrostatic filter [1] in place.
F-2-19
20) Mount the cover duct [1] to the reader unit rightcover.- 2 screws (P tight; M4X10) [2]
F-2-20
21) Attach the parts, which have been detached at theprevious steps.- reader unit fixing plate (rear right)- reader unit upper right cover- reader unit right cover
22) Mount the Original delivery tray [1].- 2 screws (RS tight; M4X10) [2]
F-2-21
23) Lift the DADF [1] to fit it into the reader unit.
F-2-22
[1]
[1]
[2]
Be careful not to pinch your hands between the DADF and the copier.
[1]
[2]
[1]
Chapter 2
2-9
24) Fit the cable [1] of the DADF to the hostmachine.
F-2-23
25) Close the DADF.
2.2.4 Installing the DADF-R1 (imagePRESS C7000Series)
0016-3327
1) Detach the sub station upper right cover [1].- 3 screws [3]
F-2-24
2) Detach the reader right cover [1].- 3 screws [2]
F-2-25
3) Detach the reader upper right cover [1].- 2 screws [2]
F-2-26
[1]
[1]
[2]
[1]
[2]
[2]
[2]
[1]
[2]
Chapter 2
2-10
4) Remove the fan hole covering [1].
F-2-27
5) Remove the reader fixing plate (rear right) [1].- 1 stepped screw [2]- 2 screws [3]
F-2-28
6) Fit the 2 harness retainers [1].
F-2-29
7) Holding the fan [4] so that the label side [1] facesupward, orient it in relation to the cable guides [2]and [3]; then, fit it in place in the fan holder [5].
F-2-30
Do not use the removed fan hole covering [1].
[1]
[1]
[2]
[3]
[1]
[1] [4]
[5]
[2]
[3]
Chapter 2
2-11
8) Likewise, perform step 7 for the other fan.
9) Lead the cable [1] through the 2 cable guides [2].
F-2-31
10) After placing the harness [2] of the fun [1] to facethe rear side of the main body, fit the fan hole [3]and the emboss [4].
F-2-32
11) Fix the fan holder [1]. (Make sure not to get theharness caught by the fan holder.)- 2 screws (binding; M4X30) [2]
F-2-33
Point of caution of fan installation direction.[A] The fan orientation is wrong.[B] The cable guide orientation is wrong.
[A] [B]
[1]
[2]
[1]
[1]
[2] [3]
[4]
[1]
[2]
Chapter 2
2-12
12) Fix the cable [1] in place using 2 harnessretainers [2].
F-2-34
13) After placing the harness [2] of the fun [1] to facethe rear side of the main body, fit the fan hole [3]and the emboss [4].
F-2-35
14) Fix the fan holder [1] in place. (Make sure not toget the harness caught by the fan holder.)- 2 screws (binding; M4X30) [2]
F-2-36
15) Lead the cable [1] through the 4 cable guides [2].
F-2-37
[1][2]
[1]
[2] [3] [4]
[1]
[1]
[2]
[1][2]
Chapter 2
2-13
16) Connect the connector [1] and route the harness[2] through the cable guide [3].
17) Fix the harness [4] using the 2 harness retainers[5].
F-2-38
18) Fix the harness [1] using the harness retainer [2]as shown.
F-2-39
19) Mount the 2 fan ducts [1].- 4 screws (P tight; M4X10) [2]
F-2-40
20) Fit the 2 Electrostatic filter [1] in place.
F-2-41
[5] [1]
[2] [4][3]
[2]
[1]
[1]
[2]
[1]
Chapter 2
2-14
21) Mount the cover duct [1] to the reader rightcover.- 2 screws (P tightening; M4X10) [2]
F-2-42
22) Attach the detached parts.- Reader fixing plate (rear right)- Reader upper right cover- Reader right cover
23) Mount the document delivery tray [1].- 2 screws (RS tight; M4X10) [2]
F-2-43
24) Attach the sub station upper right cover [1].25) Lift the DADF [1] to fit it into the reader unit.
F-2-44
26) Close the DADF.27) Fit the cable [1] of the DADF to the host
machine.
F-2-45
[1]
[2]
[1]
[2]
Be careful not to pinch your hands between the DADF and the copier.
[1]
[1]
Chapter 2
2-15
2.2.5 Installing the Option Power Supply Unit-S1 (imagePRESS C1 Series)
0013-0952
1) Open the decurler front cover [1].
F-2-46
2) Open the decurler upper unit [1].
F-2-47
3) Move the outer delivery roller cover [1] in thedirection of the arrow to detach it.- 1 screws [2]
F-2-48
4) Removing the delivery tray.5) Remove the lower left cover [1].
- 2 face covers [2]- 3 screws [3]
F-2-49
6) Disconnect the connector [1] and the 2 reusebands [2].
F-2-50
[1]
[1]
[1]
[2]
[2]
[3] [1]
[3]
[1] [2]
Chapter 2
2-16
7) Disconnect the jumper connector [1]. (Theremoved jumper connector will no longer beused.)
F-2-51
8) Hold up the handle, remove the connector [1].
F-2-52
9) Fit the protrusion [1] of the reuse band into thefixing hole [2].Attach the ferrite core [3]. (Only for the 200Vmachine)
F-2-53
10) Connect the connector of the AC relay cable [1].
F-2-54
[1]
[1]
- Take care so that the harness is not trapped by the ferrite core.
[1][2]
[3]
[1]
Chapter 2
2-17
11) Fix the power supply unit [1] to the hostmachine.- 4 screws (Bind; M4X6) [2]
F-2-55
12) Connect the connector [2] of AC cable to thepower supply unit [1].
F-2-56
13) Connect the connector [1].- 2 reuse bands [2]
F-2-57
14) Connect the fan relay cable [1].- 3 connectors [2]
F-2-58
15) Lift the grip to connect the 2 connectors [2] of theDC relay cable [1].
16) Fix the 4 cables in place using 3 wire saddles [3].
F-2-59
17) Attach the parts, which have been detached at theprevious steps.- lower left cover- face cover- delivery tray- outer delivery roller cover- decurler upper unit- decurler front cover
18) Connect the host machine's 2 power plugs (back,left) to 2 separate power supply systems; then,turn on the main power switch.
[1]
[2] [2]
[2] [1]
[1] [2]
[1]
[2]
[2]
[3] [1]
[2]
Chapter 2
2-18
2.3 Making Adjustments
2.3.1 Adjustment (imagePRESS C1Series, imagePRESS C7000Series)
0013-0255
When the machine has properly been installed,perform the following in sequence:[1] Adjusting the Right Angle[2] Horizontal Registration Adjustment[3] Leading Edge Registration Adjustment[4] Horizontal Registration Adjustment (FineAdjustment)[5] Leading Edge Registration Adjustment (FineAdjustment for Both Sides)
2.3.2 Adjusting the Right Angle (imagePRESS C1Series, imagePRESS C7000Series)
0013-0259
Here, the original feed direction of the machine isadjusted in relation to the optical system of the hostmachine.1) Prepare a test chart as shown using A4 or LTR
copy paper.
F-2-60
2) Place the test chart [1] prepared above in theoriginal tray, and make a copy in stream readingmode at 100% magnification.
F-2-61
3) Place other copy paper [2] on the image [1] youobtained in step 2), and check the image for rightangles.- A < 1 mm- B < 1 mm
F-2-62
If not as indicated, go through the following:4) Open the DADF.
Right angle
10mm10mm
10m
m10
mm
[1]
A
Feeddirection
Feeddirection
B
[1]
[2]
Chapter 2
2-19
5) Loosen the fixing nut [1] found at the rear of theright hinge unit, and turn the adjusting screw [2]to adjust.- If A > 0, turn the adjusting screwcounterclockwise.- If B > 0, turn the adjusting screw clockwise.
F-2-63
6) Tighten the fixing nut to fix the adjusting screw inplace.
2.3.3 Horizontal Registration Adjustment (imagePRESS C1Series, imagePRESS C7000Series)
0013-0256
Horizontal Registration Adjustment for thefollowing 2:
- pickup from the original tray <See A for details>- pickup from the manual feeder tray <See B fordetails>
A. Pickup from the Original Tray1) Remove the DADF controller cover [1].
- 1 screw [2]
F-2-64
2) Set the DIP switch (SW1) on the DADF controllerPCB as follows:
F-2-65
3) Turn OFF the power.4) Place a single sheet of A4 or LTR copy paper [1]
in the original tray.
F-2-66
5) Press the push switch (SW2) on the DADFcontroller PCB once.-> In response, the original is picked up andstopped on the copyboard glass.
F-2-67
[2][1]
[2]
[1]
J1
J2
J5
J3 J6 J7 J8 J9 J10
J16 J15
J11
J14
IC8
J13
J12
J4CB1
SW1
DSP1SW4SW3SW2
Chapter 2
2-20
6) Open the DADF, and check to make sure that C isas indicated.
T-2-2
F-2-68
7) Close the DADF, and push the push switch (SW2)on the DADF controller PCB once.-> In response, the original will be discharged tothe delivery tray.
8) When done, tighten the original tray fixing screw.9) Put the DIP switch (SW1) of the ADF controller
PCB back to its initial configuration, and mountthe ADF controller cover.
< If Not as Indicated >If the dimension is not as indicated, adjust theposition of the original tray.1) Loosen the tray fixing screw [1], and adjust the
position of the original tray [2].- If C > 3.1 mm for A4/11.9 for LTR, move theoriginal tray toward the rear.- If C < 3.1 mm for A4/11.9 for LTR, move theoriginal tray toward the front.
F-2-69
2) When done, tighten the original tray fixing screw.3) Put the DIP switch (SW1) of the ADF controller
PCB back to its initial configuration, and mountthe ADF controller cover.
B. Pickup from the Manual Feeder Tray1) Remove the DADF controller cover [1].
- 1 screw [2]
F-2-70
2) Set the DIP switch (SW1) of the DADF controllerPCB as shown.
F-2-71
3) Turn OFF the power.
Original size Value of CA4 3.1+/-1mmLTR 11.9+/-1mm
C
Original
[1]
[2]
[1]
[2]
[1]
Chapter 2
2-21
4) Open the manual feed tray [1], and set A4 or LTRpaper [2] in it.But the paper [1] against the rear side [3] of themanual feed tray.
F-2-72
F-2-73
5) Press the push switch (SW2) on the DADFcontroller PCB once.-> In response, the original will be picked up andstopped on the copyboard glass.
F-2-74
6) Open the DADF, and check to see that C in thefigure is as indicated.
T-2-3
F-2-75
7) Close the DADF, and press the push switch (SW2)on the DADF controller PCB once.-> In response, the original will be discharged tothe delivery tray.
8) When done, tighten the manual feeder tray fixingscrew.
9) Put the DIP switch (SW1) on the DADF controllerPCB back to its initial configuration, and attachthe DADF controller cover.
< If Not as Indicated >If the dimension is not as indicated, adjust theposition of the manual feeder tray.1) Loosen the manual feeder tray fixing screw [1],
and adjust the manual feeder tray [2].- If C > 3.1 mm, move the manual feeder traytoward the rear.- If C < 3.1 mm, move the manual feeder traytoward the front.
[1]
[2]
[3]
J1
J2
J5
J3 J6 J7 J8 J9 J10
J16 J15
J11
J14
IC8
J13
J12
J4CB1
SW1
DSP1SW4SW3SW2
Value of C3.1+/-1mm
C
Original
Chapter 2
2-22
F-2-76
2) When done, tighten the manual feeder tray fixingscrew.
3) Put the DIP switch (SW1) on the DADF controllerPCB back to its initial configuration, and attachthe DADF controller cover.
2.3.4 Leading Edge Registration Adjustment (imagePRESS C1Series, imagePRESS C7000Series)
0013-3698
Leading Edge Registration Adjustment for thefollowing 2:
- pickup from the original tray <See A for details>- pickup from the manual feeder tray <See B fordetails>- pickup from the original tray (small-size streamreading) <See C for details>
A. Pickup from the Original Tray1) Remove the DADF control cover [1].
- 1 screw [2]
F-2-77
2) Set the DIP switch (SW1) on the DADF controllerPCB as follows:
F-2-78
3) Turn ON the power.4) Place a single sheet of A4 or LTR copy paper [1]
in the original tray.
F-2-79
5) Press the push switch (SW2) on the DADFcontroller PCB once.-> In response, the original will be picked up andstopped on the copyboard glass.
F-2-80
[1]
[2]
[2]
[1]
J1
J2
J5
J3 J6 J7 J8 J9 J10
J16 J15
J11
J14
IC8
J13
J12
J4CB1
SW1
DSP1SW4SW3SW2
Chapter 2
2-23
6) Lift the DADF, and check to be sure that D in thefigure is 11 +/-1 mm.
F-2-81
7) Close the DADF.8) Adjust the original stop position using the push
switches (SW3, SW4) on the DADF controllerPCB.A press on each will shift the original stopposition by 0.5 mm. When done, press the pushswitch (SW2).-> The original will be discharged, and the changewill be saved.
F-2-82
T-2-4
F-2-83
<EX> If the copy paper stop position is displaced onthe copyboard glass by 12 mm,
- Keeping the copy paper on the copyboard glass,close the DADF.- To change the stop position to the left by 1 mm,press the push switch (SW4) twice (1/0.5=2);then, press the push switch (SW2).-> The copy paper will be discharged, and thechange will be saved.
9) Put the DIP switch (SW1) of the ADF controllerPCB back to its initial configuration, and mountthe ADF controller cover.
Switch Direction of shiftSW3 RightSW4 Left
D
Original
D 11 1mm
J1
J2
J5
J3 J6 J7 J8 J9 J10
J16 J15
J11
J14
IC8
J13
J12
J4CB1
SW1
DSP1SW4SW3SW2
Holding down the push switch will not shift the copy paper by more than a single interval.
Original
SW3SW4
Chapter 2
2-24
B. Pickup from the Manual Feeder Tray1) Remove the DADF controller cover [1].
- 1 screw [2]
F-2-84
2) Set the DIP switch (SW1) of the DADF controllerPCB as shown.
F-2-85
3) Turn OFF the power.4) Open the manual feed tray [1], and set A4 or LTR
paper [2] in it.But the paper [1] against the rear side [3] of themanual feed tray.
F-2-86
F-2-87
5) Press the push switch (SW2) on the DADFcontroller PCB once.-> In response, the original will be picked up andstopped on the copyboard cover.
F-2-88
6) Lift the DADF, and see that D in the figure is 11+/-1 mm.
F-2-89
[2]
[1]
[1]
[2]
[3]
J1
J2
J5
J3 J6 J7 J8 J9 J10
J16 J15
J11
J14
IC8
J13
J12
J4CB1
SW1
DSP1SW4SW3SW2
D
Original
D 11 1mm
Chapter 2
2-25
7) Close the DADF.8) Adjust the original stop position using the push
switches (SW3, SW4) on the DADF controllerPCB.A press on each switch will shift the original stopposition by 0.5 mm. When done, press the pushswitch (SW2).-> The original will be discharged, and the changewill be saved.
F-2-90
T-2-5
F-2-91
<EX> If the copy paper stop position is displaced by12 mm on the copyboard glass,
- Keeping the copy paper on the copyboard glass,close the DADF.- To change the stop position by 1 mm to the left,press the push switch (SW4) twice (1/0.5=2), andthen press the push switch (SW2).-> The copy paper will be discharged, and thechange will be saved.
9) Put the DIP switch (SW1) of the ADF controllerPCB back to its initial configuration, and mountthe ADF controller cover.
C. Document Tray Pickup ((small-size streamreading))1) Turn ON the power.2) Set either one A4 document or LTR document [1]
on the document tray and execute copy.
F-2-92
3) Compare the document and the print image tocheck that displacement of the leading edgeregistration is 1 mm or less [A].If the displacement is 1 mm or more, perform thefollowing step.
F-2-93
Switch Direction of shiftSW3 RightSW4 Left
J1
J2
J5
J3 J6 J7 J8 J9 J10
J16 J15
J11
J14
IC8
J13
J12
J4CB1
SW1
DSP1SW4SW3SW2
Original
SW3SW4
Holding down the push switch will not shift the copy paper by more than a single interval.
Chapter 2
2-26
4) Display the service mode (FEEDER > ADJUST >STRD-S) and change the setting according to thedisplacement.This setting adjusts the value of the leading edgeregistration for the document tray pickup.- Setting range: -7 to 7- 1 unit: 0.5 mm
When the value is set larger, the margin is madesmaller. When the value is set smaller, the marginis made larger.
F-2-94
5) Press the OK key.6) Exit from the service mode.7) Set either one A4 document or LTR document on
the document tray and execute copy.8) Compare the document and the print image to
check that displacement of the leading edgeregistration is 1 mm or less.
2.3.5 Horizontal Registration Adjustment (Fine Adjustment) (imagePRESS C1Series, imagePRESS C7000Series)
0013-0257
This adjustment is normally unnecessary at the timeof installation. In the case that the customer needs theadjustment with high accuracy, perform thefollowing step.The horizontal registration adjustment (fineadjustment) is executed to the following 2 occasions.
- Document tray pickup <See A for details>- Manual feed tray pickup <See B for details>
When executing this adjustment, use the servicemode.The adjustment value is stored in the DADFcontroller PCB.A. Document Tray Pickup1) Turn ON the power.2) Set either one A4 document or LTR document [1]
on the document tray and execute copy.
F-2-95
3) Compare the document and the print image tocheck that displacement of the horizontalregistration is 1 mm or less [A].If the displacement is 1 mm or more, perform thefollowing step.
F-2-96
4) Display the service mode (COPIER > ADJUST >ADJ-XY > ADJ-Y-DF) and change the settingaccording to the displacement.This setting adjusts the value of the horizontalregistration for the document tray pickup.- Setting range: 1 to 211- 1 unit: 0.1 mm
When the value is set larger, the margin is madesmaller. When the value is set smaller, the marginis made larger.
F-2-97
5) Press the OK key.6) Exit from the service mode.7) Set either one A4 document or LTR document [1]
on the document tray and execute copy.8) Compare the document and the print image to
check that displacement of the horizontalregistration is 1 mm or less.
Feeding direction
Set the value larger Set the value smaller
Print image
Feeding direction
Set the value larger
Set the value smaller
Print image
Chapter 2
2-27
B. Manual Feed Tray Pickup1) Set either one A4 document or LTR document [2]
on the manual feed tray [1].Insert the document to the rear end [3].
F-2-98
F-2-99
2) For the subsequent procedure, follow 'A.Document Tray Pickup'.
2.3.6 Leading Edge Registration Adjustment (Fine Adjustment for Both Sides) (imagePRESS C1Series, imagePRESS C7000Series)
0015-3389
This adjustment is normally unnecessary at the timeof installation. In the case that the customer needs theadjustment with high accuracy, perform the
following step.The leading edge registration adjustment (FineAdjustment for Both Sides) is executed to thefollowing 2 occasions.
- Document tray pickup (the 1st side) <See A fordetails>- Document tray pickup (the 2nd side) <See B fordetails>
When executing this adjustment, use the servicemode.The adjustment value is stored in the DADFcontroller PCB.A. Document Tray Pickup (the 1st side)1) Set either one A4 document or LTR document [1]
on the document tray and execute double-sidedcopy.
F-2-100
2) For the subsequent procedure, follow 'A.Document Tray Pickup (Single Side)'.For the service mode, use the following item:FEEDER > ADJSUT > DOCST
B. Document Tray Pickup (the 2nd side)This procedure is the same as in the case of 'B.Document Tray Pickup (the 1st Side)'. For theservice mode, use the following item:FEEDER > ADJSUT > DOCST-MMEMO:
See 'A. Document Tray Pickup'.
[1]
[2]
[3]
Measure the displacement of the 1st side (front side) of the print image.
Measure the displacement of the 2nd side (back side) of the print image.
Chapter 2
2-28
2.4 Attaching the Labels etc.
2.4.1 Attaching the Cleaning Instructions Label (imagePRESS C1Series, imagePRESS C7000Series)
0013-1542
1) Position the cleaning instructions label [1] on theupper rear cover as shown, and attach it.
F-2-101
2.4.2 Attaching the Manual Feeder Placement Label (imagePRESS C1Series, imagePRESS C7000Series)
0013-1545
1) Open the manual feeder [1] of the DADF, andposition and attach the manual feeder placementlabel [2]. (Be sure to select the correct language.)
F-2-102
1mm
1mm
[1]
[2]
[1]
FUNCTIONS
Chapter 3
Contents
Contents
3.1 Basic Construction ............................................................................................ 3-13.1.1 Overview of Electrical Circuit ................................................................................... 3-13.1.2 Inputs to ADF Controller PCB .................................................................................. 3-23.1.3 Outputs from ADF Controller PCB .......................................................................... 3-4
3.2 Basic Operation ................................................................................................. 3-53.2.1 Outline.......................................................................................................................... 3-53.2.2 Outline.......................................................................................................................... 3-73.2.3 CW Pickup/Delivery ................................................................................................... 3-73.2.4 Pre-Reversal/Reversal/Delivery............................................................................... 3-83.2.5 Manual Feeder Pickup/Delivery............................................................................. 3-10
3.3 Document Detection ....................................................................................... 3-113.3.1 Outline........................................................................................................................ 3-113.3.2 Detecting the Presence/Absence of an Original ................................................. 3-123.3.3 Original Size Detection 1 ........................................................................................ 3-133.3.4 Original Size Detection 2 ........................................................................................ 3-143.3.5 Detecting the Presence/Absence of an Original in the Manual Feeder .......... 3-18
3.4 Document Pickup/Separation........................................................................ 3-193.4.1 Outline........................................................................................................................ 3-193.4.2 Moving Up/Down the Pickup Roller Unit .............................................................. 3-203.4.3 Switching the Separation Pressure ....................................................................... 3-223.4.4 Separation Sensor (S4) and Skew Sensor (S5) ................................................. 3-233.4.5 Controlling the Pickup Motor (M3)......................................................................... 3-243.4.6 Controlling the Separation Motor (M4) ................................................................. 3-253.4.7 Sequence of Operations ......................................................................................... 3-26
3.5 Document Feeding/Delivery .......................................................................... 3-263.5.1 Outline........................................................................................................................ 3-263.5.2 Controlling the Belt Motor (M2) .............................................................................. 3-273.5.3 Controlling the Delivery Motor (M5) ...................................................................... 3-28
3.6 Feeding Unit..................................................................................................... 3-293.6.1 Outline of CW Pickup/Delivery............................................................................... 3-293.6.2 CW Pickup/Delivery Fixed Reading ...................................................................... 3-293.6.3 CW Pickup/Delivery (stream reading) ................................................................. 3-333.6.4 Double-Sided Originals (fixed reading) ............................................................... 3-403.6.5 Fixed Reading (continuous; double-sided original) ............................................ 3-473.6.6 Controlling the Reversal Motor (M1) ..................................................................... 3-543.6.7 Manual Feeder Pickup/Delivery Operation .......................................................... 3-55
Contents
3.7 Detecting Jams................................................................................................. 3-573.7.1 Overview .................................................................................................................. 3-573.7.2 List of Jam Code ..................................................................................................... 3-583.7.3 Alarm Code .............................................................................................................. 3-61
3.8 Power Supply ................................................................................................... 3-623.8.1 Overview................................................................................................................... 3-62
Chapter 3
3-1
3.1 Basic Construction
3.1.1 Overview of Electrical Circuit0013-3455
The machine's electrical mechanisms are controlled by the ADF controller PCB (microcomputer CPU). TheCPU interprets signals from sensors and the host machine, and generates appropriate signals to drive such loadsas motors and solenoids at such times as programmed in advance.
F-3-1
CPU(Q1)
ROM(IC1)
EEPROM(IC2)
RAM(Q4)
D/A(Q9)
IPC(Q2)
+5V +24V +5R+24R
Power supply PCB
Copier
Solenoid
Clutch
OriginalindicatorLED PCB
Sub tray PCB
Reversalmotor
driver PCB
Belt motordriver PCB
Motor
Sensor
Motor
Motor
ADF controller PCB
DC5V(Q65)
Chapter 3
3-2
3.1.2 Inputs to ADF Controller PCB0013-3456
-Inputs to ADF Controller PCB(1/2)
F-3-2
+5V
PI 1BTCLK
J12-3-2-1
+5V
PI 2SPCLK
J12-6-5-4
+5V
PI 3LCVR
J12-7-9-8
+5V
PI 4PRTR
J12-10-12-11
+5V
PI 5TRCLK
J14-B10-B9-B8
+5V
PI 6LCVF
J14-B5-B7-B6
+5V
PI 7PKHP
J14-A3-A5-A4
-9-7-8
+5V
PI 8PKH1
J14-A6-A8-A7
-6-4-5
+5V
PI 9PKH2
J14-A9-A11-A10
-3-1-2
-1-3-2
-4-6-5
-7-9-8
+5V
PI 10RFOP
J12-13-15-14
+5V
PI 11EJCLK
J2-13-15-14
+5V
PI 12MFST
J2-8-10-9
-5-3-4
-8-10-9
-3-1-2
-5-7-6
J141
J21J23
+5V
PI 13EJJAM
J3-3-2-1
Pulses according to therotation speed of the beltmotor.
Pulses according to therotation speed of theseparation motor.
When the paper cover isclosed, '1'.
When paper is present,'1'.
Pulses according to therotation speed of theregistration roller.
When the upper cover isclosed, '1'.
When the pickup roller isin home position, '1'.
When the pickup roller ison paper, '1'.
When the pickup roller ison paper, '1'.
When the DADF isclosed, '1'.
Pulses according to therotation speed of thedelivery motor.
When paper is present,'1'.
Belt motor clocksensor
Separation motorclock sensor
Upper cover sensor(rear)
Pre-reversal sensor
Registration rollerclock sensor
Upper cover sensor(front)
Pickup rollerhome positionsensor
Pickup roller heightsensor 1
Pickup roller heightsensor 2
ADF open/closedsensor
Delivery motor clocksensor
Manual feed setsensor
Original deliverysensor
ADF controller PCB
When paper is present,'1'.
Chapter 3
3-3
-Inputs to ADF Controller PCB(2/2)
F-3-3
+5V+5V
TNSAJTNS
J14-B1-B4-B3-B2
-4-1-2-3
-2-5-4-3
-4-1-2-3
S1
+5V+5V
RGBSAJRGBS
J13-8-3-4S2
RGASAJRGAS
-5-6-7
-1-6-5
-4-3-2
-8-3-4
-5-6-7
-6-1-2
-3-4-5
-1-6-5
-4-3-2
-1-6-5
-4-3-2
S3
+5V+5V
SPSAJSPS
J13-14-9
-10S4
SKSAJSKS
DTS
DTSAJ
TAILSAJTAILS
SSW-0SSW-1SSW-2SSW-3SSW-4
-11-12-13
J13-2-1
-7-8
-2-1
-2-1
-3-2
-1-2
-2-1
-1-6-5
-4-3-2
-1-6-5
-4-3-2
-6-1-2
-3-4-5
S5
S6
+5V+5V
MFRGSAJMFRGS
J2-4-7-6-5
S9
+5V+5V
S7
J14-A1-A2
J5-12-9
-10
-11
J5-6-5-4-3-2-1
-2-5-4
-3
-8-9
-10-11-12-13
J144J149
J131J134
J132J136
J140J145
J133 J132J135
-9-6-7-8
-4-7-6-5
-1-4-3-2
-7-4-5-6
-4-1-2-3
J23 J21J25
SW301J51
Reference signal forpaper detectionWhen paper is present, '0'.
Paper
Reversal sensor
Pre-registrationroller paper sensor
Post registrationroller paper sensor
Separation sensor
Skew sensor
Original sensor(light-receiving)
Original sensor(light-emitting)
Original trailingedge sensor
Manual feedregistration rollerpaper sensor
ADF controller PCB
Reference signal forpaper detectionWhen paper is present, '0'.
Reference signal forpaper detectionWhen paper is present, '0'.
Reference signal forpaper detectionWhen paper is present, '0'.
Reference signal forpaper detectionWhen paper is present, '0'.
When paper is present, '0'.
Light intensity adjustmentsignal
Light intensity adjustmentsignalWhen paper is present, '1'.Light intensity adjustmentsignalWhen paper is present, '1'.
Signal according topaper width
Reference signal forpaper detectionWhen paper is present, '0'.
Pickup trayPCB
Originalwidth
detectingswitch
Com
para
tor
circ
uit
Com
para
tor
circ
uit
Com
para
tor
circ
uit
Com
para
tor
circ
uit
Com
para
tor
circ
uit
Chapter 3
3-4
3.1.3 Outputs from ADF Controller PCB0013-3458
-Outputs from ADF Controller PCB(1/1)
F-3-4
+24V
CLD*J10-3
-4
+24V
SL1D*J9-1
-2
+24V
SL2D1*
SL2D2*
J9-3-4
-5
+24V
+24V
SL3D*J10-1
-2-2-1
-1-2
-2-1
-1-2
-2-1
-1-2
+24V
+24V+5V
SL4D1*
SL4D2*
M1OB*M1OA*M1OBM1OAT-Vref
EJMD*
SEPM+SEPM-
J2-1-2
-3
-12-11-10
-1-2-3
-3-2-1
-1-2-3
-3-2-1
-1-2-3
J6-8~10-1-2-3-4-5-6
-4~6-13-12-11-10
-9-8
-1-2-3-4-5-6
+24V+24V
AA*B
B*
-1-2-3-4-5-6
+24V+24V
AA*B
B*
-4~6-13-12-11-10
-9-8
M1
J8-1-2
-2-1
J2-11-12
-2-1
-2-1
-1-2
-11-12M5
M4
J24
J81
J21
FM1
J601J602
J21J22
J101
FAN(+24V)LOCK
J9-6-7-8
-3-2-1
-1-2-3J93
J92
J91
J102CL
SL1
SL2
SL3
SL4
+24V+5V
M2OB*M2OA*M2OBM2OAB-Vref
J7-8~10-1-2-3-4-5-6
M2
J71J72
Separation clutch
Reversal solenoid
Stopper plate solenoid(2-position)
Pre-reversal solenoid
Delivery solenoid(2-position)
Reversal motor
Belt motor
Pickup motor
Separation motor
Delivery motor
ADF controller PCB
When '0',the separation clutchgoes on.
When '0', the solenoidgoes on.
When '0', the solenoidgoes on. (position 1)When '0', the solenoidgoes on. (position 2)
When '0', the solenoidgoes on.
When '0', the solenoidgoes on. (position 1)When '0', the solenoidgoes on. (position 2)
For details,see Functions.
For details,see Functions.
For details,see Functions.
For details,see Functions.
For details,see Functions.
When '1', the fangoes on.When the fan isat rest, '1'.
Rev
ersa
l mot
erdr
iver
PC
BB
elt m
otor
driv
er P
CB
M3OAM3OA*M3OBM3OB*
J11-1-2-3-4
-1-2-3-4
M3
J111
Chapter 3
3-5
3.2 Basic Operation
3.2.1 Outline0013-3459
The DADF uses five motors and one clutch to pick up, separate, move, and deliver originals.
Diagram of Drive
F-3-5
Name (notation) DescriptionReversal motor (M1) Moves and reverses originals.Belt motor (M2) Moves originals.Pickup motor (M3) Moves up/down the pickup roller.Separation motor (M4) Separates originals.Delivery motor (M5) Delivers originals and picks up manually fed originals.Separation clutch (CL) Turns on/off the pull-off roller and the separation/feed drive system.
PI 2
PI 1
PI 5
PI 11
SL3
SL1
SL2
SL4
M5
Pre
-rev
ersa
lsol
enoi
ddr
ive
sign
al(S
L1D
)
Sep
arat
ion
mot
orcl
ock
sign
al(S
PC
LK)
Sep
arat
ion
mot
ordr
ive
sign
al
Sep
arat
ion
clut
chdr
ive
sign
al(C
LD)
Sto
pper
sole
noid
driv
esi
gnal
2(S
L2D
2)
Sto
pper
plat
eso
leno
idsi
gnal
1(S
L2D
1)
Pic
kup
mot
ordr
ive
sign
al
Bel
tmot
ordr
ive
sign
alB
eltm
otor
cloc
ksi
gnal
(BT
CLK
)
Rev
ersa
lmot
ordr
ive
sign
al
Rev
ersa
lsol
enoi
ddr
ive
sign
al(S
L3D
)R
egis
trat
ion
rolle
rcl
ock
sign
al(T
RC
LK)
Del
iver
yso
leno
iddr
ive
sign
al1
(SL4
D)
Del
iver
ym
otor
driv
esi
gnal
Del
iver
ym
otor
cloc
ksi
gnal
(EJC
LK)
CL
Del
iver
yso
leno
iddr
ive
sign
al1
(SL4
D)
ADF controller PCB
M2
M3
M4
M1
Chapter 3
3-6
Sensor Arrangement
F-3-6
PI4 PI7
PI6PI3
PI12SW301
S6 (light-emitting side)
PI8,PI9
S1
S2
S3
S7
S9
PI10 PI13
S6 (light-receiving side)
S4,S5
ADF controller PCBP
re-r
ever
sal p
aper
det
ectio
n si
gnal
Rev
ersa
l pap
er d
etec
tion
sign
al
Pos
t-re
gist
ratio
n ro
ller
pape
r de
tect
ion
sign
al
Pre
-reg
istr
atio
n ro
ller
pape
r de
tect
ion
sign
al
Sep
arat
ion
pape
r de
tect
ion
sign
al (
SP
S)/
Ske
w p
aper
det
ectio
n si
gnal
(S
KS
)
Pic
kup
rolle
r ho
me
posi
tion
sign
al
Pic
kup
rolle
r he
ight
1 s
igna
l/2 s
igna
l
Left
cove
r re
ar s
igna
l
Left
cove
r fr
ont s
igna
l
Orig
inal
sen
sor
light
em
issi
on s
igna
l
Orig
inal
det
ectio
n si
gnal
Orig
inal
pla
cem
ent i
ndic
atio
n lig
ht e
mis
sion
sig
nal
Orig
inal
wid
th d
etec
tion
sign
al
Orig
inal
trai
l edg
e de
tect
ion
sign
al
RF
ope
n/cl
osed
det
ectio
n si
gnal
Man
ual f
eede
r re
gist
ratio
n pa
per
dete
ctio
n si
gnal
Man
ual f
eede
r pl
acem
ent s
igna
l
Orig
inal
del
iver
y de
tect
ion
sign
al
Chapter 3
3-7
3.2.2 Outline0013-3460
The DADF operates in either of the following three modes; the DADF operates in response to instructions fromthe copier, executing appropriate modes to suit the copier's operations.The following table shows each operation mode, an outline of its operation, and its corresponding copyingmode:
T-3-1
3.2.3 CW Pickup/Delivery0013-3463
The following is an outline of the flow of originals.Pickup
F-3-7
Scan
F-3-8
Delivery
F-3-9
No. Mode Operation Copying mode Copying operation1 CW pickup/
deliveryPicks up an original, and delivers it as it is after copying.
Single-sided original to single-sided copy Signal-sided original to double-sided copy
Stream reading (fixed if the reproduction ratio is not between 50 % and 200 %)
2 Pre-reversal pickup/reversal/delivery
Reverses an original, picks it up, reverses it once again after copying, and delivers it. Fixed reading
Double-sided original to double-sided copyDouble-sided original to single-sided copy
Fixed reading
3 Manual feederpickup/delivery
Picks up an original from the manual feeder, and delivers it after copying.
Manual copy Fixed reading
Chapter 3
3-8
3.2.4 Pre-Reversal/Reversal/Delivery0013-3465
The following is an outline of the flow of originals:
F-3-10
Picking up
Pre-reversing
Feeding
Copyingthe 1st side
Moving
To next page
Chapter 3
3-9
F-3-11
Reversing
Copyingthe 2nd side
Delivering
From previous page
Chapter 3
3-10
3.2.5 Manual Feeder Pickup/Delivery0013-3466
The following is an outline of the flow of originals:
F-3-12
Picking up
Stopping
Switching back
Copying
Delivering
Chapter 3
3-11
3.3 Document Detection
3.3.1 Outline0013-3467
The DADF is equipped with the following five types of mechanisms of detection:
T-3-2
F-3-13
Item Description Sensor used (notation)Presence/absence of an original
Identifies the presence/absence of an original on the original tray.
Original sensor (S6)
Original size 1 Identifies the size of the original placed in the original tray (as to beinglarge-size or small-size).
Original trailing edge sensor (S7)
Original size 2 Identifies the size of an original on the move (default size).
Registration roller clock sensor (PI5)
Original in manual feeder Detects the presence/absence of an original in the manual feeder.
Manual feeder set sensor (PI12)
S7
PI5
SW301
PI12
S6(light-emitting side)
S6(light-receiving side)
Chapter 3
3-12
3.3.2 Detecting the Presence/Absence of an Original0013-3469
The presence/absence of an original in the original tray is detected by the original sensor (S6).When an original is placed on the original tray, the light from the light-emitting side of the original sensor isblocked, causing the light-receiving side of the original sensor to send the original detection signal (DTS) to theADF controller PCB, which in response turns on the Original Set indicator.
F-3-14
ADF controller PCB
S6 (light-receiving side)
S6(light-emitting side)
S6(light-receiving side)
ADF controller PCB
When an original is detected When no original is detected
S6(light-emitting side)
S6(light-receiving side)
ADF controller PCB
DT
S s
igna
l
DT
S s
igna
l
Original
Light is blocked.
S6 (light-emitting side)
Chapter 3
3-13
3.3.3 Original Size Detection 10013-3470
In original size detection 1, the original trailing edge sensor is used (S7), which is designed to identify theoriginal in the original tray as being small-size or large-size.When the original covers the original trailing edge sensor, the light from the LED of the original trailing edgesensor is reflected by the original to hit the phototransistor, at which time the DADF identifies the original asbeing large-size.The DADF sends original size data (small-size or large-size) to the copier, which uses the data to determine thepoint at which the scanner is stopped for stream reading.
F-3-15
Small size: A5, A4, B5, STMT, LTRLarge-size: A4R, B5R, A3, B4, LTRR, LGL, 279.4X431.8mm (11"X17")
ADF controller PCB
ADF controller PCB
If the original is identifiedas being large-size
If the original is identifiedas being small-size
ADF controller PCB
Reflected light detected Reflected light absent
S7 S7
S7
Original Original
TAIL
S
Chapter 3
3-14
3.3.4 Original Size Detection 20013-3471
A. OutlineIn original size detection 2, the original width detecting switch (SW301) and the registration roller clock sensor(PI5) are used to identify a default size.The original width detecting switch is designed to find out the width of originals. As many as five contact plates(SSW0 through 4) are in contact with the original width detecting switch, operating in keeping with the slideguide. The state (ON or OFF) of each contact plate is communicated to the ADF controller PCB, which uses theinput to determine the width of the original.The following table shows the states of the contact plates in relation to default sizes; the states other than thoseindicated are assumed to indicate the presence of an original which is not of a default size.
F-3-16
T-3-3
Default size SSW0 SSW1 SSW2 SSW3 SSW4A5, A4R ON ON OFF ON ON
ON OFF OFF ON ONA4, A3 ON OFF OFF ON OFF
ON OFF OFF OFF OFFB5R ON OFF OFF OFF ONB5, B4 ON OFF ON OFF ON
ON OFF ON OFF OFFSTMT, LTRR, LGL ON ON ON OFF ON
ON ON OFF OFF ONLTR, 279.4 X 431.8 mm (11" X 17") ON ON OFF OFF OFF
ON ON ON OFF OFF
Slide guide
ADF controller PCB
ON
/OF
F
Original widthdetecting switch (SW301)
Chapter 3
3-15
The registration roller clock sensor (PI5) is used to measure the length of originals with reference to therevolutions made by the clock plate mounted to the slave roller of the registration roller. Based on therevolutions of the lock plate, the ADF controller PCB identifies the length of the original in question (in feedingdirection).
F-3-17
The DADF uses the data on the width and the length of the original obtained by original detection 2 to identifya default size, and sends the result to the copier. In response, the copier selects the appropriate copy paper sizeto suit the identified size of the original.The following tables show the default sizes in relation to the sizes detected by the DADF:
T-3-4
A- and A/B-Configuration
T-3-5
(unit: mm)Default size Original length Original widthB5R 237 to 297 180 to 184A5 128 to 188 208 to 212A4R 277 to 317FOOLSCAP 317 to 370B5 162 to 222 255 to 259B4 344 to 404A4 190 to 250 295 to 299A3 400 to 460A size outside of the above ranges will be identified as a non-default size.
ADF controller PCB
Slave roller
Registration roller
Clock plate
Registration rollerclock sensor (PI5)
TR
CLK
Chapter 3
3-16
Inch-Configuration
T-3-6
Inch/A- and Inch/AB-Configuration
(unit: mm)Default size Original length Original widthSTMT 120 to 180 213 to 217.9LTRR 259 to 309FOOLSCAP 310 to 343LGL 343 to 396LTR 196 to 256 274.4 to 281.4279.4X431.8 (11"X17") 412 to 472A size outside of the above ranges will be identified as a non-default size.
(unit: mm)Default size Original length Original widthB5R 237 to 297 180 to 184A5 128 to 188 208 to 212A4R 277 to 337STMT 120 to 180 213.9 to 217.9LTRR 259 to 309FOOLSCAP 310 to 343LGL 343 to 396B5 162 to 222 255 to 259B4 344 to 404LTR 196 to 256 277.4 to 281.4279.4X431.8 (11"X17") 412 to 472A4 190 to 250 295 to 299A3 400 to 460A size outside of the above ranges will be identified as a non-default size.
Chapter 3
3-17
B. Slide Guide LockThe DADF is equipped with a slide guide lock so that the slide guide will not slide beyond the width of an A4/A3 sheet.To use an original wider than 297 mm, remove the slide guide lock (up to 305 mm; however, the feeding lengthmust be 432 mm or less).
F-3-18
Be sure to adjust the slide guide to suit the original size when making copies.Otherwise, the original is likely to move askew.
C. Slide Guide Positioning MemberThe rail of the slide guide is provided with notches to make sure that the slide guide stops to suit a specificdefault original size. Some of these points representing differing paper sizes, however, are close enough to allowthe slide guide to be set at the wrong point.To prevent wrong positioning of the slide guide, the DADF comes with two types of slide guide positioningmembers; when fitted correctly, the positioning members will make sure that the slide guide will stop at thecorrect point.
T-3-7
Color of slide guide positioning member
Stop position of slide guideSide with 1 notch Side with 2 notches
Gray (for A/B-configuration) A4R A4RLTRR
Black (for Inch-configuration) LTRR LTRRA4R
Slide guide lock
Chapter 3
3-18
F-3-19
3.3.5 Detecting the Presence/Absence of an Original in the Manual Feeder0013-3476
The presence/absence of an original in the manual feeder is detected using the manual set sensor (PI12).When an original is placed in the manual feeder, the original pushes the sensor flag, causing the sensor flag toreach the sensor, enabling the DADF to assume the presence of an original in the manual feeder.When the Start key is pressed, the DADF picks up the original from the manual feeder for copying.
F-3-20
Slide guidepositioning member (gray)
Slide guidepositioning members (black)
Relocate.
Relocate.
For Inch-configuration
For A/B-configuration
Slide guide positioningmember (gray)
Manual set sensor (PI12)
Sensor flagOriginal
Chapter 3
3-19
3.4 Document Pickup/Separation
3.4.1 Outline0013-3478
The pickup roller unit is butted against the original, and the pickup roller is rotated to pick up an original. Thepickup roller unit is moved up/down by the pickup motor (M3), and the pickup roller is rotated by the separationmotor (M4) and the separation clutch (CL).Originals are separated by the separation roller and the separation belt with the help of the feeding roller. Therollers and the belt are driven by the separation motor (M4) and the separation clutch (CL).The separation assembly is equipped with a separation sensor (S4) and a skew sensor (S5) to monitor themovement of originals.
F-3-21
Feeding roller
Feeding belt
CL
Feeding roller
Separation roller
Separation belt
M4
M4
CL
Separation sensor (S4)
Skew sensor (S5)
Pickup rollers
Chapter 3
3-20
3.4.2 Moving Up/Down the Pickup Roller Unit0013-3479
A. OutlineThe DADF is equipped with two pickup roller units, each designed to move up/down between home positionand the surface of the stack of originals. The pickup roller unit is moved up/down by the pickup motor (M3).The pickup roller unit stops at either of the following positions; positioning is controlled by means of pulsesfrom sensors and the pickup motor.
T-3-8
F-3-22
Stop position Operation Related sensor (notation)Home position Waits until the next copying operation. Pickup roller home position sensor (PI7)Wait position Waits until the next pickup position Pickup height sensor 1/2 (PI8/9)
Pulse control of pickup motor (M3)Pickup position Picks up originals Pickup height sensor 1/2 (PI8/9)
Pulse control of pickup motor (M3)
Home position Escape position Pickup position
M3
PI 9
PI 8
PI 8/9
PI 7
PI 7
Pickup roller units
Separation unit
Chapter 3
3-21
B. MovementWhen the Start key on the copier is pressed, the DADF's stopper plate moves down and the pickup motor (M3)starts so that the pickup roller unit moves down to reach the stack of originals.The pickup motor will stop when the pickup roller unit has reached the pickup height sensor 1 (PI8) and thepickup height sensor 2 (PI9) and then has moved down about 1 mm.
F-3-23
When the pickup roller unit stops to move down, the separation clutch (CL) and the separation motor (M3) startto move the 1st original to the separation assembly.
F-3-24
When the leading edge of the 1st original reaches the separation sensor (S4), the pickup motor (M3) starts torotate to move the pickup roller unit from the surface of the stack of originals. The pickup roller unit stops about6 mm from the surface of the stack of originals.
F-3-25
M3 M3
1 m
m (a
ppro
x.)
PI 8/9
Pickup roller unit
Stopper plate
M4
CL
M3
Separation sensor (S4)
6 m
m (
appr
ox.)
Chapter 3
3-22
When the trailing edge of the 1st original moves past the point of contact [1] of the pickup roller, the pickuproller unit once again moves down to the surface of the stack of originals to pick up the 2nd original.
F-3-26
3.4.3 Switching the Separation Pressure0013-3480
The DADF's separation assembly is equipped with a separation pressure switching mechanism which enablesswitching between two settings (low or high).The separation pressure may be switched by operating the separation pressure lever located in front of theseparation assembly. When the lever is operated, the position of the separation belt moves up or down to changethe amount of overlap in relation to the feeding roller, thereby varying the separation pressure.
MEMO:The separation pressure lever is set to "Low" at time of shipment from the factory.
F-3-27
M3
[1]
High Low
Chapter 3
3-23
3.4.4 Separation Sensor (S4) and Skew Sensor (S5)0013-3481
The paper path is equipped with a separation sensor (S4) and a skew sensor (S5) to monitor the movement oforiginals for the following:
A separation fault (delay) is identified if the separation sensor does not detect an original a specific period oftime after the separation motor has started to rotate.
F-3-28
Both separation sensor and skew sensor are used to find out whether an original is moving askew. These twosensors are arranged in a single row in front-rear direction. An original is identified as moving askew if adiscrepancy in timing is detected when it moves past these sensors. If the discrepancy is an equivalent of 10 mm,the DADF will assume that the original is moving askew, at which point it stops its operation to protect theoriginal and causes the copier to indicate a jam message.
Item Sensor used (notation) AlarmSeparation fault (delay) Separation sensor (S4) 0031Skew Separation sensor (S4) 0011
Skew sensor (S5)
Separation sensor (S4)
Separation sensor does not detect an original fora specific period of time
Separation sensor goes on withina specific period of time
Separation sensor (S4)
Original moving askew
Skew sensor (S5)
Separation sensor (S4)
Discrepancy detected in timing
10 mm or more
Chapter 3
3-24
3.4.5 Controlling the Pickup Motor (M3)0013-3482
The following is a diagram of the circuit used to control the pickup motor (M3).The pickup motor is a 4-phasestepping motor, and has the following mechanisms:- turning on/off the motor- controlling the direction of motor rotation- holding the motor at rest
F-3-29
[1] ADF controller PCBM3: pickup motor
The CPU (IC18) sends phase control signals (PICKA, PICKB, PICKA*, PICKB*) to the motor driver (IC31).In response, the motor driver controls the output timing of the pulse signals accordingly, switching over thedirection of motor rotation.PICKI0/PICKI1 is a current setup signal, and its variation (combination) enables a switch-over among 4 steps(from 0 % to 100 %). PICKSTBY is a motor standby signal, and is used to turn off the motor drive circuit, duringwhich time no phase signal is sent to the motor.
Error code: E410- fault in the pickup motor (M3)- fault in the pickup roller height sensor (PI8)- fault in the pickup roller height sensor (PI9)- fault in the pickup roller home position sensor (PI7)- fault in the ADF controller PCB
M3
IC31
MO
TOR
DR
IVE
R
IC18CPU
J114B*
B
PICKI1
A*
A
2
[1]
1
3
PICKSTBYPICKI0PICKB*PICKBPICKA*PICKA
Chapter 3
3-25
3.4.6 Controlling the Separation Motor (M4)0013-3483
The following is a diagram of the circuit used to control the separation motor (M4). The separation motor is aDC motor, and the circuit has the following functions:- turning on/off the motor- controlling the speed of the motor- protecting the motor against overcurrent
F-3-30
[1] ADF controller PCB[2] Current detection circuitM4: separation motorMI2: separation motor clock sensor
When the CPU sends the motor rotation speed signal (SPPWM), the separation motor (M4) starts to rotate in aspecific direction. The separation motor clock sensor (PI2) sends the separation motor rotation speed signal(SPCLK) to IC17 (speed control IC). In response, IC17 compares the arriving rotation speed signal against thespeed reference signal (SEPCLKREF) from the CPU, and sends the result as the speed control signal (SPMFV)to the CPU. Using the arriving speed control signal, the CPU varies the rotation speed signal. LED3 goes onwhen the motor rotation speed is within a specific range, while going off if out of the range. The currentdetection circuit monitors the current flowing in the separation motor; when the level of the current exceeds aspecific value, it sends the separation motor stop signal (SPLIM) to stop the motor. The CPU identifies a faultin the separation motor if the separation motor stop signal continues, indicating an error code (E405) on the hostmachine's display.
Error code: E405- fault in the separation motor (M4)- fault in the separation clock sensor (PI2)- fault in the ADF controller PCB
M4
SPLIM
SPPWM
SPCLKSEPCLKREF
SPMFV
+24R
+5V
J12
J8
PI 2IC18CPUQ28
Q29
LED3
IC16
1
2
5
Chapter 3
3-26
3.4.7 Sequence of Operations0013-3484
Picking Up/ Separation Originals
F-3-31
3.5 Document Feeding/Delivery
3.5.1 Outline0013-3485
Originals are moved by rotating the feeding belt by the belt motor (M2). Further, originals are moved either tothe right or to the left depending on the operating mode in question.Originals are delivered by rotating the delivery motor (M5). Originals are always delivered to the originaldelivery tray.
F-3-32
Start key ON
Original sensor (S6)
Pickup roller homeposition sensor (PI 7)Pickup roller heightsensor 1/2 (PI 8/9)
Pickup motor (M3)
Separation motor (M4)
Separation clutch (CL)
Separation sensor (S4)Skew sensor (S5)
UP DOWN UP UPDOWN
Picking up/separating1st original
Picking up/separating2nd original
EndPickup roller shiftingto home position
Feeding/Separation
Pickupposition
Waitposition
Pickupposition
Waitposition Home position
M5
M2
Delivery trayDelivery roller
Feeding belt
Chapter 3
3-27
3.5.2 Controlling the Belt Motor (M2)0013-3486
The following is a diagram of the circuit used to control the belt motor, which is a 4-phase stepping motor. Thecircuit has the following functions:- turning off/on the motor- controlling the direction of the motor- controlling the speed of motor rotation
F-3-33
[1] ADF controller PCB[2] belt motor driver PCBM2: belt motorPI1: belt motor clock sensor
The CPU (IC18) on the ADF controller PCB sends various motor control signals to the belt motor driver PCB,which in turn controls the motor as instructed by these signals.
T-3-9
Error code: E402- fault in the belt motor (M2)- fault in the belt motor clock sensor (PI1)- fault in the ADF controller PCB
Signals DescriptionINA phase control (direction and speed of rotation)INB phase control (direction and speed of rotation)IN_A phase control (direction and speed of rotation)IN_B phase control (direction and speed of rotation)B-Vref motor rotation torque setting
IC18CPU
IC601
+24U
+24R
A*
A
B
B*
M2
+5R
IN_B
IN_A
INB
INA
B-Vref
J602J71J7
PI 1
J12
BTCLK
13
12
11
10
9
8
7
6
5
4
3
2
1
1
2
3
4
5
6
7
8
9
10
11
12
13
14
2
3
1
4
6
25
[1]
[2]
Chapter 3
3-28
3.5.3 Controlling the Delivery Motor (M5)0013-3487
The following is a diagram of the circuit used to control the delivery motor (M5), which is a DC motor. Thecircuit has the following functions:- turning on/off the motor- controlling the speed of motor rotation
F-3-34
[1] ADF controller PCBM5: delivery motorPI11: delivery motor clock sensor
The CPU (IC18) on the ADF controller PCB sends the motor rotation speed signal (EJMPWM*) to the drivecontrol block, which in turn generates the motor drive signal (EJMD*) in keeping with the arriving signal.The rotation of the motor generates the motor rotation signal (EJCLK), used by the CPU to monitor theoperation of the motor.
T-3-10
Error code: E404- fault in the delivery motor (M5)- fault in the delivery motor clock sensor (PI11)- fault in the ADF controller PCB
- Related adjustment - sensor/delivery motor adjustment: when replacing the delivery motor
Signal DescriptionEJMPWM * motor rotation speed controlEJMD * motor operation drive controlEJCLK motor operation monitoring
+3.3v
+24R
M5Q19
Q20IC7
J2
J3
IC18CPU
EJMD*EJMPWM*
PI 11
EJCLKEJCLK
11
12
2
[1]
Chapter 3
3-29
3.6 Feeding Unit
3.6.1 Outline of CW Pickup/Delivery0013-3489
The machine uses CW pickup/delivery both in fixed reading mode and in stream reading mode.
T-3-11
The machine uses fixed reading mode for the following:- the magnification is set to 201% or higher.- the machine has identified the original as being of a non-default size.- Stream reading is disabled in the host machine's service mode.- the host machine has detected soiling of the copyboard glass.
3.6.2 CW Pickup/Delivery Fixed Reading0013-3491
In fixed reading, the original is held in place on the copyboard glass, and is read by the scanner being moved bythe host machine. Specifically,A. Single-Sided Original1) The machine picks up the 1st original, and butts its lead edge against the registration roller to remove the
skew. (For details of pickup operation, see 'Original Pickup/Separation.')
F-3-35
Operation Mode of operation Printing modePrinting mode fixed reading single-sided original -> signal-sided print
(magnification: between 201% and 400%)single-sided original -> double-sided print (magnification: between 201% and 400%)
stream reading single-sided original -> double-sided print (magnification: between 50% and 200%)single-sided original -> double-sided print (magnification: between 50% and 200%)
Registration roller
1st original
Chapter 3
3-30
2) The machine rotates the registration roller and the transport belt to move the 1st original.When the trail edge of the 1st original has moved past the pull-off roller, the machine starts pickup of the 2ndoriginal. (advance pickup)
F-3-36
3) The machine rotates the registration roller and the transport belt to move the 1st original.The machine moves the 1st original using the transport belt over a specific distance after its trail edge hasmoved past the pre-registration roller sensor (S2), determining the original stop position.
F-3-37
4) The host machine starts printing operation using its scanner.
F-3-38
5) When the host machine's scanner starts to move in reverse, the machine rotates the transport belt in reverseto move the 1st original in the direction of delivery. At the same time, the machine rotates the registrationroller to move the 2nd original.
F-3-39
Registration roller Transport belt
2nd originalPull-off roller
Pre-registrationroller paper sensor(S2)
Transport belt
2nd original
Chapter 3
3-31
6) The machine moves the 1st and 2nd originals using the transport belt; rotating it over a specific distance afterthe trail edge of the 2nd original has moved past the pre-registration roller paper sensor (S2) to determine thestop position for the 2nd original.The machine moves the 1st original in the direction of delivery, stopping it on the copyboard glass.
F-3-40
In the case of a large-size original, the machine controls the distance between sheets so that only a single originalis on the copyboard glass at a time in step 6.
B. Sequence of Operation (single-sided original)
F-3-41
Pre-registration roller paper sensor(S2)
2nd original 1st original
COPYStart key ON
Original sensor (S6)
Pickup roller homeposition sensor (PI 7)
Pickup roller heightsensor 1/2 (PI 8/9)
Stopper plate solenoid (SL2)
Pickup motor (M3)
Separation motor (M4)
Separation clutch (CL)
Reversal motor (M1)
Belt motor (M2)
Delivery motor (M5)
UP DOWN UP DOWN UP UPDOWN
separates 1st original
moves 1st original in delivery directionreads 2nd originalseparates 3rd original
delivers 1st originalmoves 2nd original in delivery directionreads 3rd direction
delivers 2nd originalmoves 3rd original in delivery direction
delivers 3rd original
reads 1st originalseparates 2nd original
A4 Single-Sided Originals; Fixed Reading
: motor reverse rotation
Chapter 3
3-32
C. Mix of Single-Sided Originals1) The 1st original is picked up, and its lead edge is butted against the registration roller to remove the skew.
(For details of pickup operation, see 'Original Pickup/Separation.')
F-3-42
2) The machine rotates the registration roller and the transport belt to move the 1st original.
F-3-43
3) The machine places the 1st original on the copyboard. The host machine starts to scan the original.
F-3-44
4) The machine uses the transport belt and the delivery roller to discharge the 1st original. The host machinemoves the scanner in reverse.
F-3-45
Registration roller
1st original
Registration roller Transport belt
2nd original
Transport belt
Chapter 3
3-33
5) When the 1st original is fully discharged, the machine starts pickup of the 2nd original.
F-3-46
6) Goes back to step 2 above, and repeats the subsequent steps.
D. Sequence of Operation (single-sided originals)
F-3-47
3.6.3 CW Pickup/Delivery (stream reading) 0013-3509
In stream reading mode, the host machine keeps its scanner in place, and reads the original being moved overthe copyboard glass. The following is an outline of the operation:A. Small-Size Original1) The machine picks up the 1st original, and butts its lead edge against the registration roller to remove the
skew. (For details of pickup operation, see 'Original Pickup/Separation.')
F-3-48
2nd original
Start key ON
Original sensor (S6)
Pickup roller home position sensor (PI 7)
Pickup roller heightsensor 1/2 (PI 8/9)
Stopper plate solenoid (SL2)
Pickup motor (M3)
Separation motor (M4)
Separation clutch (CL)
Reversal motor (M1)
Belt motor (M2)
Delivery motor (M5)
UP DOWN UP UPDOWN
picks up 1st original reads 1st original
1discharges 1st original
picks up 2nd original reads 2nd original
discharges 2nd original
A4/A3 Single-Sided Originals; Fixed Reading
: motor reverse rotation
1st original
Chapter 3
3-34
2) The machine rotates the registration roller and the transport belt to move the original.When the trail edge of the 1st original leaves the pull-off roller, the machine starts pickup of the 2nd original.
F-3-49
3) When the lead edge of the 1st original has moved past the post-registration roller paper sensor (S3), themachine moves it over a specific distance using the transport belt and stops it (at standby position). (At thistime, the machine starts to keep track of the distance over which the 1st original moves after it has movedpast the pre-registration roller sensor (S2).)
F-3-50
4) The machine rotates the transport belt to move the original over a specific distance. The host machine readsthe original.When the machine has moved the 1st original (based on the count reading started after the trail edge of theoriginal has moved past the pre-registration roller paper sensor (S2)), the machine sends the image lead edgesignal to the host machine.In response to the signal, the host machine starts to read the original.At this time, the machine starts to move the 2nd original.
F-3-51
2nd originalPull-off roller
Standby positionPost-registration roller paper sensor(S3)
Pre-registration roller sensor(S2)
2nd original
Pre-registration roller paper sensor(S2)
Chapter 3
3-35
5) The machine rotates the transport belt to move the 2nd original. If the read signal arrives from the hostmachine before the 2nd original reaches the front position (25 mm + stop distance), the machine does not stopthe original for reading. If the signal does not arrive before the original reaches the front position (25 mm +stop distance), on the other hand, the machine stops the original in standby position and then rotates thetransport belt for reading of the 2nd original.
F-3-52
6) The machine goes back to step 2. above and repeats the subsequent steps.
B. Sequence of Operation (small-size original)
F-3-53
2nd original
UP DOWN UP DOWN UP UPDOWN
separates 1st original
holds 1st original in standby
separates 2nd original
reads 1st original holds 2nd original in standbyseparates 3rd original
discharges 1st originalreads 2nd originalholds 3rd original in standby
discharges 2nd originalreads 3rd original
discharges 3rd original
A4 Single-Sided Originals; Stream Reading
does not stop 2nd original before reading
stops 3rd original before reading
Original sensor (S6)
Pickup roller home position sensor (PI 7)
Pickup roller heightsensor 1/2 (PI 8/9)
Stopper plate solenoid (SL2)
Pickup motor (M3)
Separation motor (M4)
Separation clutch (CL)
Reversal motor (M1)
Belt motor (M2)
Delivery motor (M5)
: motor reversal rotation
Start key ON
Chapter 3
3-36
C. Large-Size Original1) The 1st original is picked up, and its lead edge is butted against the registration roller to remove the skew.
(For details of pickup operation, see 'Original Pickup/Separation.')
F-3-54
2) The machine rotates the registration roller and the transport belt to move the original.When the trail edge of the 1st original moves past the pre-registration roller sensor (S2), the machine startspickup of the 2nd original.(if the original is 279.4 x 431.8 mm (11x17), after the original starts to move in 4)
F-3-55
3) When the lead edge of the original has moved past the post-registration roller paper sensor (S3), the machinerotates the transport belt over a specific distance, and stops the original (standby position).(At this time, the machine starts to keep track of the distance over which the 1st original moves after it hasmoved past the pre-registration roller paper sensor (S2).)
F-3-56
1st original
Registration roller
2nd originalSeparation sensor(S2)
Standby positionPost-registration roller paper sensor(S3)
Pre-registration roller paper sensor(S2)
Chapter 3
3-37
4) The machine rotates the transport belt to move the original.When the original has been moved over a specific distance (based on the count reading started when the trailedge of the original has moved past the pre-registration roller paper sensor (S2)), the machine sends the imagelead edge signal to the host machine.In response to the signal, the host machine starts to read the original. At this time, the machine also movesthe 2nd original.
F-3-57
5) The machine rotates the transport belt motor to move the 2nd original. If the read signal arrives from the hostmachine before the 2nd original arrives in front of read position (25 mm + stop distance), the machine doesnot stop the 2nd original for reading. If the signal does not arrives in front of read position (25 mm + stopdistance), on the other hand, the machine stops the original at standby position and rotates the transport beltfor reading of the 2nd original.
F-3-58
6) The machine goes back to step 2. above and repeats the subsequent steps.
Pre-registration roller paper sensor(S2)
Pre-registration roller paper sensor(S2)
Chapter 3
3-38
D. Sequence of Operation (large-size original)
F-3-59
E. Mix of Originals1) The 1st original is picked up, and its lead edge is butted against the registration roller to remove the skew.
(For details of pickup operation, see 'Original Pickup/Separation.')
F-3-60
Start key ON
Original sensor (S6)
Pickup roller home position sensor (PI 7)
Pickup roller heightsensor 1/2 (PI 8/9)
Stopper plate solenoid (SL2)
Pickup motor (M3)
Separation motor (M4)
Separation clutch (CL)
Reversal motor (M1)
Belt motor (M2)
Delivery motor (M5)
UP DOWN UP UPDOWN
separates 1st original
reads and discharges 1st originalmoves 2nd original to standby position
reads 2nd original discharges 2nd original
moves 1st original to standby position
separates 2nd original
A3, 2 Single-Sided Originals, Stream Reading
: motor reverse rotation
does not stop 2nd original before reading
stops 3rd original before reading
1st original
Registration roller
Chapter 3
3-39
2) The machine rotates the registration roller and the transport belt to move the 1st original.
F-3-61
3) When the lead edge of the 1st original has moved past the post-registration roller sensor (S3) and has beenmoved over a specific distance by the transport belt, the machine stops the original (standby position). (Atthis time, the machine starts to keep track of the distance over which the 1st original moves after it has movedpast the pre-registration roller paper sensor (S2).)
F-3-62
4) The machine rotates the transport belt to move the original over a specific distance, and discharges it (readingtakes place here).
F-3-63
5) When the 1st original has fully been discharged, the machine starts pickup of the 2nd original.
F-3-64
6) The machine goes back to step 2. and repeats the subsequent steps.
Registration roller Transport belt
2nd original
Standby positionPost-registration roller paper sensor(S3)
Pre-registration roller paper sensor(S2)
2nd original
2nd original
Chapter 3
3-40
F. Sequence of Operation (mixed originals)
F-3-65
3.6.4 Double-Sided Originals (fixed reading) 0013-3510
A. Fax/SEND (double-sided original)1) The machine picks up the 1st original, and butts its lead edge against the registration roller to remove the
skew. (For details of pickup operation, see 'Original Pickup/Separation.')
F-3-66
Start key ON
Original sensor (S6)
Pickup roller home position sensor (PI 7)
Pickup roller heightsensor 1/2 (PI 8/9)
Stopper plate solenoid (SL2)
Pickup motor (M3)
Separation motor (M4)
Separation clutch (CL)
Reversal motor (M1)
Belt motor (M2)
Delivery motor (M5)
UP DOWN UP UPDOWN
picks up 1st originalreads and discharges 1st original
picks up 2nd originalreads and discharges 2nd original
A4/A3, 3 Single-Sided Originals; Stream Reading
: motor reversal rotation
Registration roller
1st original
Chapter 3
3-41
2) The host machine starts to read the original using its scanner when the machine places the original on thecopyboard glass.
F-3-67
3) As the host machine moves its scanner in reverse, the machine moves the original to the reversing path.
F-3-68
4) The machine turns over the 1st original, and places it on the copyboard glass.
F-3-69
F-3-70
1st original
1st original
1st original
1st original
Chapter 3
3-42
5) The host machine scans the back of the 1st original.
F-3-71
6) The 1st original turns over the 1st original once again.
F-3-72
7) The machine discharges the 1st original.
F-3-73
8) The machine places the 2nd original on the copyboard glass.
F-3-74
1st original
1st original
1st original2nd original
1st original2nd original
Chapter 3
3-43
F-3-75
9) The machine goes back to step 2. above and repeats the subsequent steps.
B. Sequence of Operation (fax/SEND; double-sided original)
F-3-76
C. Printing (double-side original)1) The machine picks up the 1st original, and butts its lead edge against the registration roller to remove the
skew. (For details of pickup operation, see 'Original Pickup/Separation.')
F-3-77
1st original2nd original
Reversing solenoid (SL1)
DOWN UPDOWN UP
A4, 2 Double-Sided Originals; Scan
picks up 1st original
turns over 1st original
turns over 2nd original
reads faceof 1st original
turns over1st original
discharges 1st original
picks up 2nd
original
readsbackof 1st
original
readsface
of 2nd original
reads back
of 2nd original
turns over2nd original
discharges2nd
original
Start key ON
Original sensor (S6)
Pickup roller home position sensor (PI 7)
Pickup roller heightsensor 1/2 (PI 8/9)Stopper plate solenoid (SL2)
Pickup motor (M3)
Separation motor (M4)
Separation clutch (CL)
Reversal motor (M1)
Belt motor (M2)
Delivery motor (M5)
: motor reversal rotation
1st original
Registration roller
Chapter 3
3-44
2) The machine drives the registration roller and the reversing roller for pre-reversal of the original.For the 1st original, the machine uses the reversing roller to move it over a specific distance after its trail edgehas moved past the pre-registration roller paper sensor (S2), and stops it.
F-3-78
3) The machine uses the reversing roller and the transport belt to move the original.The machine rotates the transport belt over a specific distance after the trail edge of the 1st original has movedpast the reversal sensor (S1), thus determining the original stop position.
F-3-79
4) The host machine's scanner starts to read the original as part of printing operation.
F-3-80
Pre-registration roller paper sensor(S2)
Reversing roller
Reversal sensor(S1)Transport belt
Scanning lamp
Scanning (printing)
Chapter 3
3-45
5) When the host machine's scanner starts to move in reverse, the machine rotates the transport belt to move the1st original to the reversing assembly. At this time, the machine butts the lead edge of the original against thereversing roller to remove the skew.
F-3-81
6) The machine rotates the reversing roller and the transport belt to move the original over the copyboard glass.When the trail edge of the 1st original has moved past the pre-registration roller paper sensor (S2), themachine moves the original over a specific distance using the transport belt.
F-3-82
7) The host machine's scanner starts to scan the original as part of printing operation.At this time, the machine picks up the 2nd original, and executes pre-reversal. (See steps 1 and 2.)
F-3-83
8) When the host machine's scanner starts to move in reverse, the machine rotates the reversing roller and thetransport belt to move the 1st and 2nd originals.
F-3-84
Butting
Pre-registration roller paper sensor(S2)
Scanning (printing)
2nd original
1st original2nd original
Chapter 3
3-46
9) When the 2nd original has moved past the reversal sensor (S1), the machine rotates the transport belt over aspecific distance and then stops the movement.
F-3-85
10) The host machine's scanner starts to scan the original as part of printing operation.
F-3-86
D. Sequence of Operation (double-sided original)
F-3-87
Reversal sensor(S1) 2nd original
Scanning (printing)
Reversing solenoid (SL1)
DOWN
DOWN
UPUP UPDOWN UP
A4 Double-Sided Originals; Copying
separates1st original
pre-reversal for 1st original
moves 2nd original to copyboard glass
reads back of 1st original
reads back of 2nd original
turns over 1st originalseparates
2nd original
turns over2nd originalseparates
3rd original
reads face of 1st originalpre-reversal for 2nd original
reads face of 2nd originalpre-reversal for 3rd original
reads back of 3rd original
turns over3rd original
reads face of 3rd
original
moves 3rd originalto copyboard glass
discharges 2nd original moves 3rd original
Start key ON
Original sensor (S6)
Pickup roller home position sensor (PI 7)
Pickup roller heightsensor 1/2 (PI 8/9)
Stopper plate solenoid (SL2)
Pickup motor (M3)
Separation motor (M4)
Separation clutch (CL)
Reversal motor (M1)
Belt motor (M2)
Delivery motor (M5)
: motor reversal rotation
discharges 3rd original
Chapter 3
3-47
3.6.5 Fixed Reading (continuous; double-sided original)0013-3514
A. Fax/SEND (continuous; double-sided original)1) The machine picks up the 1st original, and butts its lead edge against the original roller to remove the skew.
(For details of pickup operation, see 'Original Pickup/Separation.')
F-3-88
2) As soon as the original is placed on the copyboard glass, the host machine starts to read it using its scanner.
F-3-89
3) The machine sends the original to the reversing path as the host machine moves its scanner in reverse.
F-3-90
4) The machine turns over the 1st original, and places it on the copyboard glass.
F-3-91
Registration roller
1st original
1st original
1st original
1st original
Chapter 3
3-48
F-3-92
5) The host machine scans the back of the 1st original
F-3-93
6) The machine turns over the 1st original once again.
F-3-94
7) The machine starts to pick up the 2nd original when the trail edge of the 1st original moves past theregistration roller.
F-3-95
1st original
1st original
1st original
1st original 2nd original
Chapter 3
3-49
8) The machine places the 2nd original on the copyboard glass and, at the same time, discharges the 1st original.
F-3-96
F-3-97
9) The machine goes back to step 2. above and repeats the subsequent steps.
B. Sequence of Operation (fax/SEND; double-sided original)
F-3-98
1st original2nd original
1st original2nd original
Reversal solenoid (SL1)
DOWN UPDOWN UP
A4, 2 Double-Sided Originals; Scan
picks up 1st original
turns over 1st original
turns over2nd original
reads face of
1st original
turns over 1st original
again
discharges1st original
picks up 2nd
original
readsback of
1storiginal
reads face of 2nd
original
readsback of
2nd original
reads back of 2nd original
turns over 2nd original again
Start key ON
Original sensor (S6)
Pickup roller home position sensor (PI 7)
Pickup roller heightsensor 1/2 (PI 8/9)
Stopper plate solenoid (SL2)
Pickup motor (M3)
Separation motor (M4)
Separation clutch (CL)
Reversal motor (M1)
Belt motor (M2)
Delivery motor (M5)
: motor reversal rotation
Chapter 3
3-50
C. Printing (double-sided original)1) The machine picks up the 1st original, and butts its lead edge against the registration roller to remove the
skew. (For details of pickup operation, see 'Original Pickup/Separation.')
F-3-99
2) The machine places the original on the copyboard glass.
F-3-100
3) The machine sends the original to the reversing path.
F-3-101
4) The machine turns over the 1st original, and places it on the copyboard glass.
F-3-102
Registration roller
1st original
1st original
1st original
1st original
Chapter 3
3-51
F-3-103
5) The host machine scans the back of the 1st original.
F-3-104
6) The machine sends the original to the reversing path as the host machine moves its scanner in reverse.
F-3-105
7) The machine turns over the 1st original, and places it on the copyboard glass.
F-3-106
1st original
1st original
1st original
1st original
Chapter 3
3-52
F-3-107
8) As soon as the original is placed on the copyboard cover, the host machine uses its scanner to scan and readits face.
F-3-108
9) The machine sends the original in the direction of the delivery roller while the host machine moves its scannerin reverse.
F-3-109
10) The machine discharges the 1st original while placing the 2nd original on the copyboard glass.
F-3-110
1st original
1st original
1st original
1st original2nd original
Chapter 3
3-53
F-3-111
11) The machine goes back to step 2. and repeats the subsequent steps.
D. Sequence of Operation (printing; double-sided original)
F-3-112
1st original2nd original
DOWN UP UPDOWN
moves 1storiginal to
copyboard glass
reads back of 2nd original
reads face of 1st originalseparates 2nd original
reads face of 2nd original
discharges 2nd original
discharges 1st originalmoves 2nd original to
copyboard glassturns over 2nd original
turns over2nd original
UP
A3, 2 Double-Sided Originals; Printing
Reversing solenoid (SL1)
Original sensor (S6)
Pickup roller home position sensor (PI 7)
Pickup roller heightsensor 1/2 (PI 8/9)
Stopper plate solenoid (SL2)
Pickup motor (M3)
Separation motor (M4)
Separation clutch (CL)
Reversal motor (M1)
Belt motor (M2)
Delivery motor (M5)
: motor reversal rotation
Start key ON
separates1st
original
reads back of 1st original
turns over 1st originalseparates
2nd original
reads face of1st original
pre-reversal for 2nd original
Chapter 3
3-54
3.6.6 Controlling the Reversal Motor (M1)0013-3516
The following is a diagram of the circuit used to control the reversal motor (M1), which is a 4-phase steppingmotor. The circuit has the following functions:- turning off/on the motor- controlling the direction of motor rotation- controlling the speed of motor rotation
F-3-113
[1] ADF controller PCB[2] reversal motor drive PCBM1: reversal motorPI5: reversal motor clock sensor
The CPU (Q18) on the ADF controller PCB sends various motor control signals to the reversal motor driverPCB, which in turn controls the motor as dictated by these signals.
T-3-12
Signal name
Description
INA phase control (direction and speed of rotation)INB phase control (direction and speed of rotation)IN_A phase control (direction and speed of rotation)IN_B phase control (direction and speed of rotation)T-Vref motor rotation torque setting
IC18CPU
IC601
+24U
+24R
A*
A
B
B*
M1
+5RIN_BIN_A
INBINA
T-Vref
J602J71J6
PI 5
J14
TRCLK
13121110
987654321
123456789
10111213
B9
3
1
4
6
25
[1]
[2]
Chapter 3
3-55
3.6.7 Manual Feeder Pickup/Delivery Operation0013-3518
The machine uses 'manual feeder pickup/delivery' only for fixed reading mode.1) When an original is placed in the manual feeder, the manual feeder placement sensor (PI12) detects it.
F-3-114
2) When the Start key is pressed, the machine uses the delivery roller to move the original until the lead edge ofthe original butts against the manual feeder registration roller (thus removing the skew).
F-3-115
3) The machine moves the original to move the delivery roller and the transport belt. The original stops whenits lead edge reaches the reversal sensor (S1).
F-3-116
4) The machine rotates the transport belt. The original is moved over a specific distance after its trail edge hasmoved past the reversal sensor (S1), and is then stopped.
F-3-117
Manual feeder placement sensor(PI12)
Manual feeder registration sensor(S9)
Reversal sensor(S1)
Reversal sensor(S1)
Chapter 3
3-56
5) The host machine starts printing operation.
F-3-118
6) When the host machine's scanner starts to move in reverse, the machine starts to rotate the transport belt andthe delivery roller, thus moving the original to the delivery assembly.
F-3-119
Sequence of Operation
F-3-120
Copy
Start key ONOriginal placed in manual feeder
Belt motor (M2)
Delivery solenoid (M5)
Reversal solenoid(SL4)
Manual feeder placement sensor(PI 12)
Reversal sensor(SL1)Original delivery sensor(PI 1)Original placed in manual feeder(PI 13)
pickup print dischargemove
original placed
0.4 sec (approx.)
Chapter 3
3-57
3.7 Detecting Jams
3.7.1 Overview 0013-3519
The machine checks for jams using the following sensors. The CPU on the ADF controller PCB runs a check atsuch times as programmed in advance, and detects the presence/absence of a jam in relation to the presence/absence of paper over a specific sensor.Upon detection of a jam, the machine communicates the fact to the host machine, which in turn indicates thefact in service mode in the form of a code. A check may also be made with reference to the indicator (DSP1) ofthe machine's ADF control PCB.
Service Mode Screen of the Host Machine
F-3-121
The indicator (DSP1) of the machine's controller PCB flashes 4 times to indicate a specific jam type:[EX: if code is 0013]
F-3-122
F-3-123
Jam code[1] indicates the presence
of a jam in the machine
PI 4 PI 7
PI6PI3
PI12
PI 8,PI 9
S1
S2
S3
S7
S9
PI 10PI 13
S4,S5
S6 (light-emitting)
S6(light-receiving)
Chapter 3
3-58
3.7.2 List of Jam Code0013-3520
The following shows jam codes, jam types, and associated sensors with descriptions of detection conditions:
T-3-13
Code Sensor type Sensor notation
Description
0001 separation delay S4 At time of separation, the separation sensor does not detect the original when it has been moved over a specific distance (221 mm) after the start of the separation motor.
0002 pickup delay S4, S2 At time of separation, the pre-registration sensor does not detect the original when it has been moved over a specific distance (93 mm) after the separation sensor has detected its lead edge.
0003 pickup stationary 1 S3 At time of pickup, the post-registration sensor does not detect the original when it has been moved over a specific distance (40 mm) after the start of the reversal motor.
0004 pickup stationary 2 S2 At time of pickup, the pre-registration roller sensor detects the original when it has been moved over a specific distance (330 mm if small; 660 mm if large) after the start of the reversal motor.
0005 reversal delay S1 At time of reversal, the reversal sensor does not detect the original when it has been moved a specific distance (104 mm) from the platen roller.
0006 reversal stationary S1 At time of reversal, the reversal sensor detects the original when it has been moved over a specific distance (original length x 1.5 mm) after the end of arching.
0007 delivery delay PI13 At time of delivery, the delivery sensor does not detect the original when it has been moved over a specific distance (631 mm - original length) after the start of the belt motor.
0008 delivery stationary 1 PI13, S9 At time of delivery, the manual feeder registration roller sensor detects the original when it has been moved over a specific distance (original length + 100 mm) after the delivery sensor has gone on.
0009 delivery stationary 2 PI13, S9 At time of delivery, the delivery sensor detects the original when it has been moved over a specific distance (100 mm) after the manual feeder registration roller sensor has gone off.
0010 pre-reversal delay 1 S3 At time of pre-reversal, the post-registration roller sensor does not detect the original after it has been moved over a specific distance (50 mm) from the start of the reversal motor.
0011 pre-reversal delay 2 S1, S3 At time of pre-reversal, the reversal sensor does not detect the original when it has been moved over a specific distance (100 mm) after the post-registration roller sensor has gone on.
0012 pre-reversal delay 2 PI4 At time of pre-reversal, the pre-reversal sensor does not detect an original when the reversal motor stops.
0013 pre-reversal stationary 1 S1, S4 At time of pre-reversal, the separation sensor detects the original when it has been moved over a specific distance (169 mm) after the reversal sensor has gone on.
0014 pre-reversal stationary 2 S2, S4 At time of pre-reversal, the pre-registration roller sensor detects the original when it has been moved over a specific distance (120 mm) after its trail edge has moved past the separation pull-off roller.
0015 pre-reversal stationary 3 S2, S3 At time of reversal, the post-registration sensor detects the original when it has been moved over a specific distance (50 mm) after its trail edge has moved past the pre-registration roller sensor.
0016 pre-reversal stationary 4 S1, S3 At time of pre-reversal, the reversal sensor detects the original when it has been moved over a specific distance (100 mm) after the start of the reversal motor.
Chapter 3
3-59
0017 pre-reversal pickup delay S1 At time of pre-reversal pickup, the reversal sensor does not detect the original when it has been moved over a specific distance (100 mm) after the start of the reversal motor.
0018 pre-reversal pickup stationary 1
S1, PI4 At time of pre-reversal pickup, the pre-reversal sensor detects the original when it has been moved over a specific distance after the reversal sensor has detected its lead edge.
0019 pre-reversal pickup stationary 2
S1, PI4 At time of reversal pickup, the reversal sensor detects the original when it has been moved over a specific distance after the pre-reversal sensor has detected its trail edge.
0020 reversal pickup delay S2 At time of reversal, the pre-registration roller sensor does not detect the original when it has been moved over a specific distance (197 mm) after the end of arching.
0021 reversal pickup stationary S2 At time of reversal, the pre-registration sensor detects the original when it has been moved over a specific distance (original length x 1.5 mm) after the pre-registration roller sensor has gone on.
0022 pickup lead edge skew S4, S5 At time of separation, there is a discrepancy of 10 mm in timing of lead edge detection between separation sensor and skew sensor.
0023 pickup trail edge skew S4, S5 A time of pickup, there is a discrepancy of 10 mm in timing of trail edge detection between separation sensor and skew sensor.
0024 pickup NG1 S1 At time of pickup, the reversal sensor detects the original before it has moved past the pre-registration roller sensor.
0025 pickup NG2 S2, S3 At time of pickup, the post-registration roller sensor detects an original before the reversal motor has started.At time of pickup, the pre-registration roller sensor does not detect the original when it has been moved over a specific distance.At time of pre-reversal, the post-registration roller sensor detects an original before the reversal motor has started.At time of reversal, the pre-registration roller sensor does not detect the original when its trail edge moves past the reversal sensor.
0026 reversal pickup edge skew S4, S5 At time of pre-reversal, there is a discrepancy of 10 mm in timing of trail edge detection between separation sensor and skew sensor.
0027 reversal pickup NG1 PI4 At time of reversal, the pre-reversal sensor detects an original while the machine waits for the activation of the pre-registration roller sensor.
0030 manual feed registration delay
S9 At time of arching in manual feed mode, the manual feeder registration roller sensor does not detect an original within a specific time after the start of the delivery motor.
0031 manual feed registration stationary
S1 In manual feed mode, the reversal sensor does not detect the original when it has been moved over a specific distance (638 mm) after the start of the belt motor.
0032 manual feed reversal stationary
S1 In manual feed mode (platen roller), the reversal sensor detects the original when it has been moved over a specific distance (50 mm) after the start of the belt motor.
0033 manual feed delivery delay PI13 At time of delivery in manual feed mode, the delivery sensor does not detect the original when it has been moved over a specific distance (621 mm - original length).
0034 manual feed delivery stationary
PI13 At time of delivery in manual feed mode, the delivery sensor does not detect the original after it has been moved over a specific distance (621 mm - original length).
0043 1st sheet pickup stationary 1 S3 A pickup stationary 1 condition (0003) has occurred on the 1st sheet.0044 1st sheet reversal delay S2 A pickup stationary 2 condition (0004) has occurred on the 1st sheet.0045 1st sheet registration delay S1 A reversal delay condition (0005) has occurred on the 1st sheet.0046 1st sheet reversal stationary S1 A reversal stationary condition (0006) has occurred on the 1st sheet.0047 1st sheet delivery delay PI13 A delivery delay condition (0007) has occurred on the 1st sheet.
Code Sensor type Sensor notation
Description
Chapter 3
3-60
0048 1st sheet delivery stationary 1 PI13, S9 A delivery stationary condition (0008) has occurred on the 1st sheet.0049 1st sheet delivery stationary 2 PI13, S9 A delivery stationary condition (0009) has occurred on the 1st sheet.0050 1st sheet pre-reversal delay 1 S3 A pre-reversal delay 1 condition (0010) has occurred on the 1st sheet.0051 1st sheet pre-reversal delay 2 S1, S3 A pre-reversal delay 1 condition (0011) has occurred on the 1st sheet.0052 1st sheet pre-reversal delay 3 PI4 A pre-reversal delay 3 condition (0012) has occurred on the 1st sheet.0053 1st sheet pre-reversal
stationary 1S1, S4 A pre-reversal delay 1 condition (0013) has occurred on the 1st sheet.
0054 1st sheet pre-reversal stationary 2
S2, S4 A pre-reversal stationary 2 condition (0014) has occurred on the 1st sheet.
0055 1st sheet pre-reversal stationary 3
S2, S3 A pre-reversal stationary 3 condition (0015) has occurred on the 1st sheet.
0056 1st sheet pre-reversal stationary 4
S1, S3 A pre-reversal stationary 4 condition (0016) has occurred on the 1st sheet.
0057 1st sheet pre-reversal pickup delay
S1 A pre-reversal pickup delay condition (0017) has occurred on the 1st sheet.
0058 1st sheet pre-reversal pickup stationary 1
S1, PI4 A pre-reversal pickup stationary 1 condition (0018) has occurred on the 1st sheet.
0059 1st sheet pre-reversal stationary 2
S1, PI4 A pre-reversal pickup stationary 2 condition (0019) has occurred on the 1st sheet.
0060 1st sheet reversal pickup delay
S2 A reversal pickup delay condition (0020) has occurred on the 1st sheet.
0061 1st sheet reversal pickup stationary
S2 A reversal pickup stationary condition (0021) has occurred on the 1st sheet.
0062 1st sheet pickup lead edge skew
S4, S5 A pickup lead edge skew condition (0022) has occurred on the 1st sheet.
0063 1st sheet pickup trail edge skew
S4, S5 A pickup trail edge skew condition (0023) has occurred on the 1st sheet.
0064 1st sheet pickup NG1 S1 A pickup NG1 condition (0024) has occurred on the 1st sheet.0065 1st sheet pickup NG2 S2, S3 A pickup NG2 condition (0025) has occurred on the 1st sheet.0066 1st sheet reversal pickup trail
edge skewS4, S5 A reversal pickup trail edge skew condition (0026) has occurred on
the 1st sheet.0067 1st sheet reversal pickup
NG1PI4 A reversal pickup NG1 condition (0027) has occurred on the 1st
sheet.0071 timing fault 1 - A software control mechanism has failed.0072 timing fault 2 - At time of fixed reading, the delivery of the preceding original is not
over when an original has been moved and stopped on the right side of the platen roller.
0073 illegal size S3 In LDR stream reading, the post-registration roller sensor detects the original when it has been moved over a specific distance (30 mm) from standby position.
0074 manual feeder original size fault
S1, S9 In manual feed mode, the reversal sensor detects an original while the manual feeder registration roller sensor detects another original.
0075 image lead edge fault S7 In stream reading, no change of read position has taken place despite a request for a change of reading position.
0076 1st sheet image lead edge position fault
S7 An image lead edge fault condition (0075) has occurred on the 1st sheet.
0077 belt speed setting fault PI1 The speed setting of the belt motor is the minimum speed (100 mm/sec) or lower or is the maximum speed (700 mm/sec) or higher.
0078 belt speed switchover fault PI1 At time of a belt motor speed switchover, the belt motor is not operating at a specific speed.
Code Sensor type Sensor notation
Description
Chapter 3
3-61
3.7.3 Alarm Code0013-3522
T-3-14
0079 belt status fault PI1 At time of a switchover of the belt motor state (acceleration, constant, deceleration), the motor is not in any of the 3 states.
0080 image lead edge output timing fault
S2, S3, SW301
At time of stream reading, the image lead edge signal is generated during acceleration over the distance from standby position to image lead edge position.
0081 reversal speed setting fault PI5 The speed setting of the reversal motor is the minimum speed (100 mm/sec) or lower or is the maximum speed (700 mm/sec) or higher.
0082 reversal speed switchover fault
PI5 At time of a reversal motor speed switchover, the motor is not operating at a specific speed.
0083 reversal status fault PI5 At time of a switchover of the motor state (acceleration, constant, deceleration), the motor is not in any of the 3 settings.
0084 last original error PI1 While the last original is being discharged from the platen roller or is being moved, a belt motor error has occurred.
0085 error PI1, PI2, PI11
A motor error other than an IPC communication/pickup error has occurred. (less than 3 occurrences)
0090 ADF open PI10 An ADF open condition has been detected.0091 user DF open PI10 An ADF open condition has been detected while the machine is in
operation.0092 cover open PI3, PI6 A cover open condition (front or rear) has been detected.0093 user cover open PI3, PI6 While the machine is operating, a sensor in the paper path has
detected an original.0094 initial stationary PI4, PI12,
PI13, S1, S2, S3, S4, S5, S9
At the start of operation, the presence of an original has been detected by a senser in the paper path.
0095 cycle NG S6 While no sensor is on, the pickup signal is received for a specific time (2 sec).
0096 residual original S1 Before the start of a left pickup job, the reversal sensor has detected an original while the belt motor is being driven for a specific time.
0097 manual feeder residual original
S1, S9 At time of manual feed pickup, the reversal sensor detects an original while the manual feeder registration roller sensor also detects an original.
0098 power-down - While the machine is operating, a drop has occurred in the voltage of the power supplied by the host machine.
Code Name Description03 separation fault a jam caused by the 1st original not reaching the post-
separation sensor a jam caused by the 1st original not reaching the registration sensor
11 decrease in number of originals after jam recovery
a condition caused by a decrease in the number of originals in the tray before delivery of as many as [originals to be recovered - 1] have been delivered at time of jam recovery
21 mode fault selection of mode not permitting execution
Code Sensor type Sensor notation
Description
Chapter 3
3-62
3.8 Power Supply
3.8.1 Overview0013-3523
The following is a diagram of the machine's power supply system:The machine is supplied with 24V and 13V power by its host machine. The 24V power is supplied to variousloads by way of a circuit breaker (CB1). Of the 24V power supplied to the loads, 24U is sent by way of a fuse,while 24R is sent directly.The 13 V power is converted into 5 V for sensors by a regulator IC (IC15). Another regulator IC (IC26) is usedto convert 5 V into 3.3 V, which is used to drive the ADF controller PCB.
F-3-124
[1] Host machine[2] ADF controller PCB[3] Motors, clutches, solenoids[4] Sensors
CB1
IC153.3V
FU6IC26
6
1J4
J1
24V
FU2
5R
24R
24U
5V
13V
[2]
PARTS REPLACEMENT PROCEDURE
Chapter 4
Contents
Contents
4.1 Removing from the Host Machine .................................................................. 4-14.1.1 Feeder ..........................................................................................................................4-1
4.2 External Covers ................................................................................................. 4-14.2.1 External Covers ..........................................................................................................4-14.2.2 Front Cover .................................................................................................................4-14.2.3 Main Cover ..................................................................................................................4-24.2.4 ADF Controller Cover ................................................................................................4-34.2.5 Side Guide Lock .........................................................................................................4-3
4.3 Drive System...................................................................................................... 4-34.3.1 Reversal Motor ...........................................................................................................4-44.3.2 Pickup Motor ...............................................................................................................4-54.3.3 Delivery Motor ............................................................................................................4-54.3.4 Belt Motor Unit ............................................................................................................4-6
4.4 Document Feeding System ............................................................................. 4-64.4.1 Registration Roller .....................................................................................................4-64.4.2 Reversing Roller .........................................................................................................4-74.4.3 Feed Belt .....................................................................................................................4-94.4.4 Separation Belt .........................................................................................................4-104.4.5 Delivery Roller ..........................................................................................................4-124.4.6 Pickup Rollor .............................................................................................................4-144.4.7 Separation Rollor .....................................................................................................4-154.4.8 Feeding (pull-off) Roller ..........................................................................................4-174.4.9 Document Tray .........................................................................................................4-184.4.10 Manual Feed Registration Roller .........................................................................4-19
Chapter 4
4-1
4.1 Removing from the HostMachine
4.1.1 Feeder
4.1.1.1 Disconnecting the DADF0013-3525
1) Turn off the copier.2) Disconnect the DADF's communication cable [1]
from the copier.
F-4-1
3) Open the DADF fully.4) Standing at the rear of the copier, lift the DADF to
detach.
F-4-2
4.2 External Covers
4.2.1 External Covers
4.2.1.1 External Covers0013-3526
[1] Body front cover[2] Main cover[3] Original tray[4] Upper cover[5] ADF controller cover
F-4-3
4.2.2 Front Cover
4.2.2.1 Removing the Front Cover0013-3527
1) Remove the front cover [1].- 3 screws [2] (remove)- 1 screw [3] (loosen)
F-4-4
[1]
Lift
[5]
[1]
[4]
[3][2]
Chapter 4
4-2
F-4-5
F-4-6
4.2.3 Main Cover
4.2.3.1 Removing the Main Cover0013-3529
1) Open the upper cover, and insert a screwdriverfrom above the hook; then, remove the two hooks[1].
F-4-7
2) Free the hook of the pickup assembly cover [2]from the right stay; then, detach it while payingattention to the hooks on the front and rear sideplates.
F-4-8
3) When you have removed the ADF controllercover, disconnect the connector [3] of the ADFcontroller PCB; then, remove the screw [4], andremove the grounding wire [5]. Free the harnessfrom the wire saddle [6], and detach the othersaddle [7].
F-4-9
[1]
[1]
[2]
Hooks
Push. Freed.
[3]
[5]
[2]
[4]
[1]
Chapter 4
4-3
4) Remove the four screws [1], and detach the maincover [2].
The main cover is fitted with the original tray [3],and cables are connected to it. Take extra care whenremoving it not to damage the cables.
F-4-10
4.2.4 ADF Controller Cover
4.2.4.1 Removing the ADF Controller Cover
0012-8791
1) Remove the ADF controller cover [2].- 1 screw [1]
F-4-11
4.2.5 Side Guide Lock
4.2.5.1 Side Guide Lock0012-8792
1) The side guide of the original tray is equippedwith a side guide lock [1] which is fitted into thegroove of the tray.
When the lock is in the groove, the tray is set to A3/A4; otherwise, the tray may accommodate originalsas wide as 305 mm.
F-4-12
4.3 Drive System
4.3.1 Reversal Motor
4.3.1.1 Preparation for Removing the Reversal Motor Unit
0013-3530
1) Remove the front cover.2) Remove the main cover.
4.3.1.2 Removing the Reversal Motor Unit0013-3535
1) Disconnect the connector J602 [2] from thereversal motor driver PCB [1].
2) Remove the cable [2] from the cable clamp. 3) Remove the screw [4], and detach the pre-reversal
sensor base [3].
F-4-13
[1] [1]
[1]
[1]
[3]
[2]
[1]
[2]
[1]
[1] [2] [3][4]
Chapter 4
4-4
4) Remove the screw [1], and detach the cover [2].5) Remove the 2 screws [3], and detach the reversal
motor unit [4].
F-4-14
4.3.2 Pickup Motor
4.3.2.1 Preparation for Removing the Pickup Motor Unit
0013-3538
1) Remove the front cover.2) Remove the main cover.3) Remove the separation motor unit.
4.3.2.2 Removing the Pickup Motor Unit0013-3539
1) Disconnect J601 [1] and J602 [2], and free thecable from the edge saddle [3].
2) Locate the harness connected to the belt motor,and free it from the wire saddle [3].
F-4-15
3) Remove the 2 screws [1], and detach the beltmotor driver PCB unit [2].
F-4-16
4) Detach the fan mtor unit [1] by removing the 2screws [2].
F-4-17
5) Disconnect the pick up motor unit [1] connecter[2] and open/closed sensor (rear) [3] connecter[4].
F-4-18
[1]
[4]
[3]
[3]
[2]
[1] [2][3]
[1]
[2]
[1]
[2]
[2]
[1]
[4]
[3]
Chapter 4
4-5
6) Remove the 2 mounting screws [1], and detach thepickup motor unit [2].
F-4-19
4.3.3 Delivery Motor
4.3.3.1 Preparation for Removing the Delivery Motor
0013-3541
1) Disconnect the DADF.2) Remove the front cover.3) Remove the main cover.
4.3.3.2 Removing the Delivery Motor0013-3542
1) Remove the screw [1] from the bottom of theDADF, and remove the bearing [2] and the rod[3].
F-4-20
2) Remove the 5 screws [1], and detach the hinge(right) [2].
F-4-21
3) Remove the screw [1], and detach the deliverymotor sensor [2].
F-4-22
4) Remove the delivery motor.4-1) Remove the grip ring [1], and detach the lock
plate [2].4-2) Remove the E-ring [3], and remove the belt
retaining washer [4] and the gear [5].
[1][2]
[2] [3] [1]
[1]
[1][1] [2]
[1]
[1]
[2][1]
Chapter 4
4-6
4-3) Remove the screw [6], and detach the deliverymotor [7].
F-4-23
If you have replaced the delivery motor, be sure toadjust the sensor and the delivery motor.
4.3.4 Belt Motor Unit4.3.4.1 Preparation for Removing the Belt
Motor Unit0013-3546
1) Remove the front cover.2) Remove the main cover.3) Remove the separation motor unit.4) Remove the pickup motor unit.
4.3.4.2 Removing the Belt Motor Unit0013-3547
1) Remove the 3 screws [1], and detach the beltmotor unit [2].
F-4-24
4.4 Document Feeding System
4.4.1 Registration Roller
4.4.1.1 Preparation for Removing the Registration Roller
0013-3555
1) Remove the front cover.2) Remove the main cover.
4.4.1.2 Removing the Registration Roller0013-3557
1) Remove the 2 screws [1], and detach the reversingguide [2].
When mounting the reversing guide, do so whileforcing it in the direction of the arrow. If notmounted properly, it can trigger jams.
F-4-25
[6][2]
[5]
[3][4]
[7]
[1]
[1]
[1][2]
[1]
[1] [2]
Only when mounting it.
Chapter 4
4-7
2) Remove the 2 screws [1], and detach theregistration sensor PCB [2].
F-4-26
When removing the registration sensor PCB, be sureto disconnect the connector of the cable connected toit.
F-4-27
3) Remove the grip ring [2] and the bearing [3] of theregistration roller [1] (front side plate).
F-4-28
4) Remove the E-ring [2], gear [3], E-ring [4], andbearing [5] of the registration roller [1] (rear sideplate).
The gear holds a pin. Take care not to lose it whenremoving the gear.
F-4-29
4.4.2 Reversing Roller
4.4.2.1 Preparation for Removing the Reversing Roller
0013-3559
1) Remove the front cover.2) Remove the main cover.3) Remove the reversal motor unit.
[1][1] [2]
Registration sensor PCB Connector
[1][3] [2]
[2] [1] [3] [4] [5]
Chapter 4
4-8
4.4.2.2 Removing the Reversing Roller0013-3560
1) Remove the 2 screws (M3X4) [1] and (M3X6) [2]of the pickup front side plate , and disconnect theconnector [3]; then, detach the pre-reversalsolenoid unit [4].
F-4-30
2) Remove the 2 screws [4], and detach the reversingguide [5].
When mounting the reversing guide, do so whileforcing it in the direction of the arrow. If not properlymounted, it can trigger jams.
F-4-31
3) Remove the reversing roller.
3-1) Remove the E-ring [2], gear [3], and parallel pin[4] on the rear side plate side of the reversingroller [1] (2 pc.).
F-4-32
The gear holds a pin. Take care not to lose it whenremoving the gear.
3-2) Remove the grip ring [2] and the bearing [3] onthe front side plate side of the reversing roller[1] (2 pc.).
F-4-33
[3][1]
[2]
[4]
[4]
[4] [5]
Only when mounting it.
[2]
[2] [3]
[3]
[4]
[1]
[1]
[2]
[2]
[3] [1]
[3] [1]
Chapter 4
4-9
3-3) Remove the E-ring [4] and the bearing [5] on therear side plate side of the reversing roller [1] (2pc.).
F-4-34
3-4) Pull out the reversing roller [1].
4.4.3 Feed Belt
4.4.3.1 Preparation for Removing the Feeding Belt
0013-3563
1) Remove the front cover.
4.4.3.2 Removing the Feeding Belt0013-3565
1) Turn the releasing lever [1] clockwise to decreasethe tension of the belt.
F-4-35
2) Turn the releasing levers (left/right) [1] outwardafter removing the 2 fixing screws [2] each.
F-4-36
F-4-37
3) Detach the feeding belt [1].
F-4-38
[5]
[4]
[1]
[1]
[4]
[5]
[1]
[2] [1]
[2][1]
[1]
Chapter 4
4-10
4.4.3.3 Attaching the Feeding Belt0013-3564
1) Insert a screwdriver between the DADF and thefeeding assembly as shown to increase the gap.
2) Fit in the feeding belt, and pull out the screwdriverwhen the belt has come into contact with it; then,push in the belt.
F-4-39
4.4.4 Separation Belt
4.4.4.1 Preparation for Removing the Separation Belt
0013-3566
1) Remove the front cover.2) Remove the main cover.
4.4.4.2 Removing the Separation Belt0013-3567
1) Remove the 2 screws, and loosen the separationunit.
2) Remove the grip ring [1] at the front; then, removethe clutch ring [2] and the clutch [3].
F-4-40
3) Disconnect the 2 connectors [1], and remove the 2screws [2]; then, detach the separation unit [3].
F-4-41
F-4-42
[3]
[2][1]
[3]
[2][1]
[2][3]
Chapter 4
4-11
4) Remove the 2 mounting screws [1], and detach theseparation auxiliary plate [2].
F-4-43
5) Loosen the screw [3] on the separation pressureadjusting lever [2] of the separation roller [3].
F-4-44
When mounting the separation pressure adjustinglever, be sure that the lever is set to low.
F-4-45
6) Loosen the screw [3] on the thrust stopper [2] ofthe separation roller [1].
F-4-46
[1][1] [2]
[3] [1] [2]
"High" "Low"
[2][1] [3]
Chapter 4
4-12
7) Remove the E-ring [2] and the gear [3] at the rearof the separation roller [1].
The gear holds a pin. Take care not to lose it whenremoving the gear.
F-4-47
8) Remove the E-ring [2] at the rear of the separationroller [1] to detach the separation belt [3].
F-4-48
4.4.5 Delivery Roller
4.4.5.1 Preparation for Removing the Delivery Roller
0013-3568
1) Disconnect the DADF.2) Remove the front cover.3) Remove the main cover.
4.4.5.2 Removing the Delivery Roller0013-3569
1) Remove the screw [1] from the bottom of theDADF, and remove the bearing [2] and the rod[3].
F-4-49
2) Remove the 5 screws [1], and detach the hinge(right) [2].
F-4-50
[1][2][3]
[2]
[3]
[1]
[2] [3] [1]
[1]
[1][1] [2]
[1]
[1]
Chapter 4
4-13
3) Remove the E-ring [1], and detach the solenoidlink arm [2].
F-4-51
4) Remove the screw [1], and detach the deliveryguide plate [2].
5) Remove the screw [3], and free the groundingwire [4] of the static eliminator attached to thedelivery guide.
F-4-52
6) Remove the 3 screws [1], and disconnect theconnector [2]; then, detach the solenoid unit [3]from the delivery assembly front side plate.
F-4-53
7) Remove the screw [1], and detach the deliverysensor support plate [2] on the delivery assemblyrear side plate side.
F-4-54
8) Remove the screw [1], and detach the deliveryguide support plate [2] on the delivery assemblyrear side plate side.
F-4-55
9) Remove the screw [1], and detach the deliverylower guide support plate [2] on the deliveryassembly front plate side.
[1] [2]
[1] [2]
[4] [3]
[1]
[2] [3]
[1]
[1][2]
[2] [1]
Chapter 4
4-14
10) Remove the E-ring [3] from the deliveryassembly front plate side; then, remove the screw[4], and detach the bushing [5].
F-4-56
11) Remove the E-ring [1] from the deliveryassembly rear side plate side; then, remove thegear [2] and the parallel pin [3].
12) Remove the E-ring [4]; then, remove the screw[5] and the bushing [6].
F-4-57
13) Shift down the delivery lower guide [1], andslide out the delivery roller [2] together with themanual feed tray [3].
F-4-58
4.4.6 Pickup Rollor
4.4.6.1 Removing the Pickup Roller0013-3571
1) Open the upper cover, and insert a screwdriverfrom above the hook; then, remove the 2 hooks[1].
F-4-59
2) Remove pickup assembly cover [1].
F-4-60
[1] [2]
[3]
[5]
[4]
[1] [2][6] [4] [5] [3]
[3][1] [2]
[1]
[1]
[2]
Free the claws,and detach the cover.
Chapter 4
4-15
3) Remove the resin E-ring [1]; then, remove theroller arm [2], and detach the pickup roller [3].
F-4-61
4.4.7 Separation Rollor
4.4.7.1 Preparation for Removing the Separation Roller
0013-3572
1) Remove the front cover.2) Remove the main cover.
4.4.7.2 Removing the Separation Roller0013-3573
1) Remove the 2 screws [1], and detach the sensorstay [2].
2) Remove the 3 screws [3], and detach the 3 guideplates [5] from the right stay [4].
F-4-62
3) Remove the 2 screws [1], and detach the lowerguide [2].
F-4-63
F-4-64
4) Remove the grip ring [1] on the front side plateside, and pull out the clutch ring [2].
F-4-65
[1] [2] [3]
[1][1]
[2]
[4][5]
[5]
[5][3]
[3]
[3]
[1][2]
[2][1]
[2][1]
Chapter 4
4-16
5) Remove the screw [2] of the gear support plate(front) [1]; then, shift the gear support plate(front) [1] to the left to pull out the clutch [3] tothe front.
The clutch has 2 stoppers. Use the white stopperwhen re-assmbling.
F-4-66
6) Disconnect the 2 connectors [1], and remove the 2mounting screws [2]; then, detach the separationunit [3].
F-4-67
F-4-68
7) Remove the E-ring [1], and pull out the shaft [2].
F-4-69
8) Remove the grip ring [1] at the front, and removethe bushing [2].
F-4-70
[1][2] [3]
[3]
[2][1]
[2][3]
[1] [2]
[1][2]
Chapter 4
4-17
9) Remove the E-ring [1] and the bushing [2] at therear, and detach the rod arm plate [3].
F-4-71
10) Remove the E-ring [1] and the one-way gear [2]at the rear.
F-4-72
11) Remove the separation roller.
When mounting the one-way gear, be sure that theprotrusion faces inside.
F-4-73
4.4.8 Feeding (pull-off) Roller
4.4.8.1 Preparation for Removing the Feeding (pull-off) Roller
0013-3574
1) Remove the front cover.2) Remove the main cover.
4.4.8.2 Removing the Feeding (pull-off) Roller
0013-3575
1) Remove the mounting screw [2] of the gearsupport plate [1] of the pickup front side plate.
F-4-74
[3] [2]
[1]
[1] [2]
One-way gear Protrusion
[1][2]
Chapter 4
4-18
2) Remove the E-ring [1], washer [2], 2 shims [3],gear (black) [4], gear (white) [5], 2 shims [6], andspring [7] in sequence.
F-4-75
3) Remove the gear support plate of the front sideplate.
4) Remove the E-ring [2], gear [3], parallel pin [4],grip ring [5], and bearing [6] of the feeding (pull-off) roller [1] (front side plate).
F-4-76
5) Remove the E-ring [2], gear [3], parallel pin [4],E-ring [5], and bearing [6] of the feeding (pull-off) roller [1] (rear side plate); then, remove thefeeding (pull-off) roller [1].
The gear holds a pin. Take care not to drop it.
F-4-77
4.4.9 Document Tray
4.4.9.1 Removing the Original Tray0013-3576
1) Remove the ADF controller cover.2) Disconnect the connector [1] of the ADF
controller PCB.3) Free the harness from the wire saddle [4] and the
other saddle [5].4) Remove the screw [2], and remove the grounding
wire [3].
F-4-78
[1]
[5]
[6]
[4][3]
[3]
[2]
[2][3][1][5][6] [4]
[6] [5] [4] [1] [2]
[3]
Push. Freed.
[3]
[5]
[2]
[4]
[1]
Chapter 4
4-19
5) Move the side guides (front) [1]/(rear) [2] to theinside; then, remove the 2 screws [3], and detachit.
F-4-79
After mounting it, be sure to adjust the horizontalregistration.
4.4.10 Manual Feed Registration Roller
4.4.10.1 Preparation for Removing the Manual Feed Registration
0013-3578
1) Remove the front cover.2) Remove the main cover.
4.4.10.2 Removing the Manual Feed Registration Roller
0013-3579
1) Remove the 3 screws [1], and disconnect theconnector [2]; then, remove the solenoid unit [3]from the delivery assembly front side plate.
F-4-80
2) Remove the 2 screws [1], and detach the manualfeed registration sensor PCB assembly [2].
F-4-81
3) Remove the grip ring [2] and the bearing [3] fromthe manual feed registration roller [1]. (deliveryassembly front side plate)
F-4-82
4) Remove the grip ring [2] of the manual feedregistration roller [1].
5) Remove the E-ring [4] of the feeding belt rollershaft [3].
6) Remove the gear [5] and the parallel pin [6].
[3][1]
[2]
[3]
[1]
[2] [3]
[1]
[1] [2]
[2][1][3]
Chapter 4
4-20
7) Remove the gear unit [6] and the bushing [8].
F-4-83
8) Remove the E-ring [2] and the bearing [3] fromthe delivery assembly rear plate; then, pull out themanual feed registration roller [1].
F-4-84
[3]
[8] [7]
[4][2] [1]
[6]
[5]
[1][3] [2]
MAINTENANCE
Chapter 5
Contents
Contents
5.1 User Maintenance ............................................................................................. 5-15.1.1 User maintenance item ............................................................................................. 5-1
5.2 Maintenance and Inspection ........................................................................... 5-15.2.1 Periodically Replaced Parts .....................................................................................5-1
5.2.1.1 Periodiccally Replaced Parts .............................................................................................. 5-15.2.2 Durables ......................................................................................................................5-1
5.2.2.1 Durables................................................................................................................................. 5-15.2.3 Periodical Servicing ...................................................................................................5-2
5.2.3.1 Scheduled Servicing Chart ................................................................................................. 5-25.2.4 Cleaning ......................................................................................................................5-4
5.2.4.1 Outline .................................................................................................................................... 5-45.2.4.2 Separation Assembly ........................................................................................................... 5-45.2.4.3 Registration Roller ................................................................................................................ 5-55.2.4.4 Copyboard Glass .................................................................................................................. 5-65.2.4.5 Belt Assembly ....................................................................................................................... 5-65.2.4.6 Original Trailing Edge Sensor ............................................................................................ 5-65.2.4.7 Original Sensor ..................................................................................................................... 5-65.2.4.8 Separation Paper/Skew Paper Sensor ............................................................................. 5-75.2.4.9 Pre-Registration Roller Paper Sensor............................................................................... 5-75.2.4.10 Post-Registration Roller Paper Sensor ........................................................................... 5-85.2.4.11 Reversal Paper Sensor ..................................................................................................... 5-85.2.4.12 Manual Feed Registration Paper Sensor ....................................................................... 5-95.2.4.13 Pickup Roller ....................................................................................................................... 5-95.2.4.14 Separation Belt/Feeding Roller ........................................................................................ 5-95.2.4.15 Pull-Off Roller .................................................................................................................... 5-105.2.4.16 Registration Roller ............................................................................................................ 5-105.2.4.17 Reversing Roller A, Support Member ........................................................................... 5-105.2.4.18 Reversing Roller B, Support Member ........................................................................... 5-115.2.4.19 Manual Feed Roller, Support Member .......................................................................... 5-115.2.4.20 Delivery Roller, Support Member................................................................................... 5-115.2.4.21 Manual Feed Registration Roller, Support Member ................................................... 5-11
5.3 Adjustment ....................................................................................................... 5-125.3.1 Basic Adjustment .....................................................................................................5-12
5.3.1.1 Basic Adjustments .............................................................................................................. 5-125.3.1.2 ADF Height Adjustment ..................................................................................................... 5-125.3.1.3 ADF Right Angle Adjustment ............................................................................................ 5-135.3.1.4 Horizontal Registration Adjustment ................................................................................. 5-145.3.1.5 Leading Edge Registration Adjustment .......................................................................... 5-175.3.1.6 Horizontal Registration Adjustment (Fine Adjustment) ................................................ 5-205.3.1.7 Leading Edge Registration Adjustment (Fine Adjustment) .......................................... 5-21
Contents
5.3.2 Adjustment at Time of Parts Replacement ......................................................... 5-225.3.2.1 Outline.................................................................................................................................. 5-225.3.2.2 Replacing the EEPROM ................................................................................................... 5-235.3.2.3 Adjusting the Sensors and the Delivery Motor .............................................................. 5-23
5.3.3 Auxiliary Adjustmant ............................................................................................... 5-255.3.3.1 Outline.................................................................................................................................. 5-255.3.3.2 Adjusting the Degree of Arching at the Registration Roller (pickup from the tray), (at time
of reversal), (manual feed mode) ........................................................................................... 5-255.3.3.3 Adjusting the Speed of the Feeding Belt ........................................................................ 5-285.3.3.4 Adjusting the Speed of Reversal ..................................................................................... 5-305.3.3.5 Checking the Sensor Output ............................................................................................ 5-335.3.3.6 Hinge Spring Pressure Adjustment ................................................................................. 5-36
5.3.4 Other ......................................................................................................................... 5-375.3.4.1 Outline.................................................................................................................................. 5-375.3.4.2 Jam History ......................................................................................................................... 5-375.3.4.3 Version of the Software ..................................................................................................... 5-375.3.4.4 Checking the Original Width ............................................................................................. 5-385.3.4.5 Resetting the Backup RAM .............................................................................................. 5-39
5.4 Troubleshooting ............................................................................................... 5-395.4.1 Error Code ................................................................................................................ 5-39
5.4.1.1 E402 display lamp.............................................................................................................. 5-395.4.1.2 E404 display lamp.............................................................................................................. 5-405.4.1.3 E405 display lamp.............................................................................................................. 5-405.4.1.4 E410 display lamp.............................................................................................................. 5-415.4.1.5 E420 display lamp.............................................................................................................. 5-41
5.4.2 Alarm Code .............................................................................................................. 5-425.4.2.1 Alarm .................................................................................................................................... 5-42
5.5 Outline of Electrical Components .................................................................. 5-435.5.1 Sensors..................................................................................................................... 5-435.5.2 Motors, Clutches, and Solenoids .......................................................................... 5-445.5.3 PCBs ......................................................................................................................... 5-45
5.6 Variable Resistors (VR), Light-Emitting Diodes (LED), and Check Pins by PCB 5-465.6.1 Outline....................................................................................................................... 5-465.6.2 ADF Controller PCB................................................................................................ 5-465.6.3 DIP Switch Functions ............................................................................................. 5-475.6.4 Reversal Motor Driver PCB/ Belt Motor Driver PCB.......................................... 5-505.6.5 Pickup Tray PCB ..................................................................................................... 5-505.6.6 Indication LED PCB ................................................................................................ 5-51
5.7 Service Tools .................................................................................................... 5-515.7.1 Special Tools List .................................................................................................... 5-515.7.2 Solvents and Oils List ............................................................................................. 5-51
Chapter 5
5-1
5.1 User Maintenance
5.1.1 User maintenance item0013-3772
T-5-1
5.2 Maintenance and Inspection
5.2.1 Periodically Replaced Parts
5.2.1.1 Periodiccally Replaced Parts0013-3773
This machine dose not have the periodiccally replaced parts.
5.2.2 Durables
5.2.2.1 Durables0013-3774
Some parts of the DADF may require replacement once or more over the period of product warranty because ofwear or damage. Replace them as needed by referring to the following guide, in which the life of each part isexpressed in terms of the number of originals (may be checked in the copier's service mode).
T-5-2
* Replacement with unit is recommended for No. 3 and 4, however individual part is set up.
Item Period Substance
Copyboard glass opportune or every 10,000 documents
CleaningCopyboard glass retaineropportuneFeeding belt
Vertical size plate
No. Part name Part No. Q'ty Estimated life Remarks1 Feeding belt FC6-0929-000 1 200,000 The time when
cleaning is not effective.
2 Pickup roller FB4-7640-000 2 250,000 Replace3 Pickup/Feeding roller* FM2-2048-000 1 80,0004 Separation belt* FG6-7724-000 15 Hinge (L) FC6-0987-000 1 100,0006 Hinge (R) FC6-0988-000 1
Chapter 5
5-2
The actual number of originals handled may be checked in the copier's service mode (COPIER > COUNTER >DRBL-2).
Expected service life shows the central value of a group of evaluation data points. Parts Numbers may subjectto change because of design
5.2.3 Periodical Servicing
5.2.3.1 Scheduled Servicing Chart0013-3775
Do not use solvents or oils other than those indicated.
T-5-3
Ref. Part nameevery 100,000 or 6 mo
every 200,000 or 1 yr Remarks
1 Original training edge sensor (S7) Cleaning Actual volume2 Original sensor (S6) Cleaning3 Separation paper sensor (S4) Cleaning4 Skew paper sensor (S5) Cleaning5 Pre-registration roller paper
sensor (S2)Cleaning
6 Post-registration roller paper sensor (S3)
Cleaning
7 Reversal paper sensor (S1) Cleaning8 Manual registration roller paper
sensor (S9)Cleaning
9 Pickup roller Cleaning10 Feeding roller Cleaning11 Separation belt Cleaning12 Pull-off roller Cleaning13 Registration roller Cleaning14 Reversing roller A, member Cleaning15 Reversing roller B, member Cleaning16 Manual feed roller, member Cleaning17 Delivery roller, member Cleaning
Various slave roller, member Cleaning
Chapter 5
5-3
F-5-1
The actual number of originals handled may be checked in the copier's service mode (the sum of L-FEED andS-FEED under COPIER > COUNTER > Feeder).
F-5-2
The values in the foregoing table are estimates only, and are subject to change in the future.
[2] Original sensor (S6) [1] Original training edge sensor (S7)
[3] Separation paper sensor (S4)
[4] Skew paper sensor (S5)
[7] Reversal paper sensor (S1)
[9] Pickup roller
[10] Feeding roller[11] Separation belt
[12] Pull-off roller
[13] Registration roller
[5] Pre-registration roller paper sensor (S2)
[6] Post-registration roller paper sensor (S3)
[8] Manual registration roller paper sensor (S9)
[14] Reversing roller A, member
[15] Reversing roller B, member
[17] Delivery roller, member
[16] Manual feed roller, member
FEED 00000061
00000123
00001763
00000001
L-FEED
S-FEED
TTL-MF
< 1/1 > < READY >
Display I/O Adjust Function Option Test
+/- OK
Chapter 5
5-4
5.2.4 Cleaning
5.2.4.1 Outline0013-3776
T-5-4
5.2.4.2 Separation Assembly0013-3777
1) Remove the screw, and detach the ADF controllercover.
2) Set the DIP switch (SW1) on the ADF controllerPCB as indicated.
F-5-3
3) Press the push switch (SW2) on the ADFcontroller PCB.
F-5-4
4) Moisten copy paper with alcohol, and slide it inwhile firmly holding on to its trailing edge.
Be sure to keep the trailing edge of the copypaper as indicated.
F-5-5
F-5-6
5) Press the push switch (SW2) on the ADFcontroller PCB to end the operation.
Item DescriptionSeparation assembly
Clean the separation assembly using copy paper and alcohol.
Registration roller (tray pickup)
1. If the dirt is limited,Execute automatic cleaning of the registration roller.2. If dirt is appreciable,Clean the registration roller using lint-free paper and alcohol.
J1
J2
J5
J3 J6 J7 J8 J9 J10
J16 J15
J11
J14
IC8
J13
J12
J4CB1
SW1
DSP1SW4SW3SW2
Slide guideRail
For A4,
Butt the end ofpaper.
Slideguide
Rail
For LTR,
Matchthe edge of paper.
Chapter 5
5-5
5.2.4.3 Registration Roller0013-3778
If the dirt is limited,1) Remove the screw, and detach the ADF controller
cover.2) Set the DIP switch (SW1) on the ADF controller
PCB as indicated.
F-5-7
3) Place about ten sheets of copy paper in the originaltray.
4) Press the push switch (SW2) on the ADFcontroller PCB. The operation will endautomatically.
F-5-8
If dirt is appreciable,1) Open the upper cover, and open the feeding guide.2) Remove the two screws, and detach the reversal
guide.
F-5-9
When mounting the reversing guide, do so whileforcing it in the direction of the arrow. If notmounted properly, it can trigger jams.
F-5-10
3) Remove the ADF controller cover, and set the DIPswitch (SW1) ADF controller PCB as follows.
F-5-11
4) Press the push switch (SW2) on the ADFcontroller PCB.- The reversing assembly will start to operate.
F-5-12
J1
J2
J5
J3 J6 J7 J8 J9 J10
J16 J15
J11
J14
IC8
J13
J12
J4CB1
SW1
DSP1SW4SW3SW2
Screw
Screw Reversal guide
[1]
J1
J2
J5
J3 J6 J7 J8 J9 J10
J16 J15
J11
J14
IC8
J13
J12
J4CB1
SW1
DSP1SW4SW3SW2
Chapter 5
5-6
5) Clean with lint-free paper moistened with alcohol.
F-5-13
5.2.4.4 Copyboard Glass0013-3779
1) Wipe the copyboard glass of the copier with acloth moistened with alcohol.
F-5-14
5.2.4.5 Belt Assembly0013-3780
1) Dry wipe the original feeding belt while moving itin the direction of the arrow.If the dirt is excessive, wipe it with a clothmoistened with a solution of mild detergent; then,dry wipe it.
F-5-15
5.2.4.6 Original Trailing Edge Sensor0013-3781
1) Clean the sensor widow in the original tray usinga blower brush.
F-5-16
5.2.4.7 Original Sensor0013-3782
1) Remove the pickup assembly cover.2) Clean the light-receiving area of the sensor stay
and the light-emitting area at the rear of the guideplate using a blower brush.
F-5-17
Chapter 5
5-7
5.2.4.8 Separation Paper/Skew Paper Sensor
0013-3783
Do not use a solvent (alcoholfamily or ketonefamily) to clean the prism face.It is made of acrylic resin, and contact with solventcan discolor it, adversely affecting its operation.
1) Open the pickup assembly upper cover.2) Open the registration guide.3) Put the blower brush between the separation stay
and the separation guide to clean. (The one to thefront is the separation paper sensor, while the oneat the rear is the skew paper sensor.)
F-5-18
F-5-19
5.2.4.9 Pre-Registration Roller Paper Sensor
0013-3784
Do not use a solvent (alcoholfamily or ketonefamily) to clean the prism face.It is made of acrylic resin, and contact with solventcan discolor it, adversely affecting its operation.
1) Remove the reversing guide.2) Clean the face of the prism behind the reversing
guide.
F-5-20
3) Remove the registration sensor PCB.4) Clean the 2 filter surfaces of the sensor.
F-5-21
Surface to clean(back)
Surface to clean(face)
Prism
Surface to clean(back)
Surfaces to clean
Chapter 5
5-8
5.2.4.10 Post-Registration Roller Paper Sensor
0013-3785
Do not use a solvent (alcoholfamily or ketonefamily) to clean the prism face.It is made of acrylic resin, and contact with solventcan discolor it, adversely affecting its operation.
1) Open the pickup upper cover.2) Remove the reversing guide.3) Clear the surface of the prism of the post-
registration roller paper sensor.
F-5-22
5.2.4.11 Reversal Paper Sensor0013-3786
1) Remove the reversing guide.2) Remove the 2 screws [1], and detach the reversal
sensor [2].
F-5-23
3) Clean the filter face of the reversal sensor [1]using a blower brush.
F-5-24
4) Open the DADF fully.5) While opening the pickup middle guide found to
the left of the feeding belt, aim a blower brushagainst the prism of the reflecting face of thereversal sensor in view in the rear to clean.
F-5-25
Surfacesto clean
[1][1] [2]
[1]
Chapter 5
5-9
5.2.4.12 Manual Feed Registration Paper Sensor
0013-3787
1) Remove the body front cover.2) Remove the main cover.3) Aim a blower brush against the detecting hole of
the registration sensor on the delivery upper guideto clean.
F-5-26
5.2.4.13 Pickup Roller0013-3788
1) Open the pickup assembly upper cover.2) Remove the pickup cover.3) Clean the surface of the roller using lint-free paper
or cloth moistened with alcohol.
F-5-27
5.2.4.14 Separation Belt/Feeding Roller0013-3789
1) Obtain a single sheet of A4 or LTR copy paper.2) Remove the ADF controller cover, and set the DIP
switch (SW1) on the ADF controller PCB asindicated.
F-5-28
3) Press the push switch (SW2) on the ADFcontroller PCB.- The separation assembly will start.
4) Moisten t the copy paper obtained in step 1) withalcohol.
5) Keep the copy paper against the pickup slot toclean.
The pull-off roller is also driven. Hold the copypaper so that it will not be drawn to the pull-offroller: in the case of A4, as shown in Figure A; in thecase of LTR, as shown in Figure B.
F-5-29
F-5-30
6) At the end of cleaning work, press the push switch(SW2) once again.- The separation assembly will stop.
Slide guideRail
Against the edge ofthe paper.
Rail
Againstthe edge of the paper.
Slide guide
Chapter 5
5-10
5.2.4.15 Pull-Off Roller0013-3790
1) Open the upper cover, and open the feeding guide.2) Remove the ADF controller cover, and set the DIP
switch (SW1) on the ADF controller PCB asindicated.
F-5-31
3) Press the push switch (SW2) on the ADFcontroller PCB.- The separation assembly will start.
4) Clean it with lint-free paper moistened withalcohol.
F-5-32
5.2.4.16 Registration Roller0013-3792
1) Open the upper cover, and open the feeding guide.2) Remove the reversing guide.3) Remove the ADF controller cover, and set the DIP
switch (SW1) on the ADF controller PCB asindicated.
F-5-33
4) Press the push switch (SW2) on the ADFcontroller PCB.- The reversing assembly will start.
5) Clean it with lint-free paper moistened withalcohol.
F-5-34
6) Press SW2 to stop the operation.
5.2.4.17 Reversing Roller A, Support Member
0013-3794
1) Open the pickup assembly upper cover.2) Clean the reversing roller A [1] and the support
member [2] with lint-free paper or a clothmoistened with alcohol.
F-5-35
[1]
[2]
Chapter 5
5-11
5.2.4.18 Reversing Roller B, Support Member
0013-3795
1) Open the pickup assembly upper cover.2) Clean the reversing roller B [1] and the support
member [2] with lint-free paper or a clothmoistened with alcohol.
F-5-36
5.2.4.19 Manual Feed Roller, Support Member
0013-3796
1) Open the manual feed tray.2) Clean the manual feed (delivery) roller [1] and the
support member [2] with lint-free paper or a clothmoistened with alcohol.
F-5-37
5.2.4.20 Delivery Roller, Support Member0013-3797
1) With the manual feed tray closed, clean thedelivery (manual feed) roller [1] and the supportmember [2] with lint-free paper or a clothmoistened with alcohol.
F-5-38
5.2.4.21 Manual Feed Registration Roller, Support Member
0013-3798
1) Remove the main cover.2) Remove the 2 screws [1], and the detach the
manual feed registration sensor PCB [2].
F-5-39
[1][2]
[1][2]
[1]
[2]
[1] [2]
Chapter 5
5-12
3) Clean the manual feed registration roller [1] withlint-free paper or a cloth mounted with alcohol.
F-5-40
4) Shift up the DADF.5) Open the delivery lower guide [1].6) Clean the manual feed registration roller member
[2] with lint-free paper or a cloth moistened withalcohol.
F-5-41
5.3 Adjustment
5.3.1 Basic Adjustment
5.3.1.1 Basic Adjustments0013-3799
The basic adjustments of the DADF consist of thefollowing, which must be performed in sequence:[1] ADF height adjustment[2] ADF right angle adjustment[3] Horizontal registration adjustment[4] Leading edge registration adjustment[5] Horizontal registration adjustment (fineadjustment)[6] Leading edge registration adjustment (fineadjustment)
5.3.1.2 ADF Height Adjustment0013-3800
1) Remove the front cover [1].- 3 screws [2] (remove)- 1 screw [3] (loosen)
F-5-42
F-5-43
[1]
[2]
[1]
Chapter 5
5-13
F-5-44
2) Make adjustments by loosening the 2 fixed screws[3] on the magnet catch [2] so that the left andright rubber feet [1] are in contact with the basewhen the DADF is closed.
F-5-45
3) After the adjustment, tighten the fixing screws onthe magnet catch, and mount the front cover.
5.3.1.3 ADF Right Angle Adjustment0013-3801
Here, the original feed direction of the machine isadjusted in relation to the optical system of the hostmachine.1) Prepare a test chart as shown using A4 or LTR
copy paper.
F-5-46
2) Place the test chart [1] prepared above in theoriginal tray, and make a copy in stream readingmode at 100 % magnification.
F-5-47
[1] [2] [3][3]
[1][2] [3][3]
Right angle
10mm10mm
10m
m10
mm
[1]
Chapter 5
5-14
3) Place other copy paper [2] on the image [1] youobtained in step 2), and check the image for rightangles.- A < 1 mm- B < 1 mm
F-5-48
If not as indicated, go through the following:4) Open the DADF.5) Loosen the fixing nut [1] found at the rear of the
right hinge unit, and turn the adjusting screw [2]to adjust.- If A > 0, turn the adjusting screwcounterclockwise.- If B > 0, turn the adjusting screw clockwise.
F-5-49
6) Tighten the fixing nut to fix the adjusting screw inplace.
5.3.1.4 Horizontal Registration Adjustment0013-3815
Horizontal Registration Adjustment for thefollowing 2:
- pickup from the original tray- pickup from the manual feeder tray
A. Pickup from the Original Tray1) Remove the DADF controller cover [1].
- 1 screw [2]
F-5-50
2) Set the DIP switch (SW1) on the DADF controllerPCB as follows:
F-5-51
3) Place a single sheet of A4 or LTR copy paper [1]in the original tray.
F-5-52
A
Feeddirection
Feeddirection
B
[1]
[2]
[2][1]
[2]
[1]
Chapter 5
5-15
4) Press the push switch (SW2) on the DADFcontroller PCB once.-> In response, the original is picked up andstopped on the copyboard glass.
F-5-53
5) Open the DADF, and check to make sure that C isas indicated.
T-5-5
F-5-54
6) Close the DADF, and push the push switch (SW2)on the DADF controller PCB once.-> In response, the original will be discharged tothe delivery tray.
7) When done, tighten the original tray fixing screw.8) Put the DIP switch (SW1) of the ADF controller
PCB back to its initial configuration, and mountthe ADF controller cover.
< If Not as Indicated >If the dimension is not as indicated, adjust theposition of the original tray.1) Loosen the tray fixing screw [1], and adjust the
position of the original tray [2].- If C > 3.1 mm for A4/11.9 for LTR, move theoriginal tray toward the rear.- If C < 3.1 mm for A4/11.9 for LTR, move theoriginal tray toward the front.
F-5-55
2) When done, tighten the original tray fixing screw.3) Put the DIP switch (SW1) of the ADF controller
PCB back to its initial configuration, and mountthe ADF controller cover.
B. Pickup from the Manual Feeder Tray1) Remove the DADF controller cover [1].
- 1 screw [2]
F-5-56
2) Set the DIP switch (SW1) of the DADF controllerPCB as shown.
F-5-57
Original size Value of CA4 3.1 +/- 1 mmLTR 11.9 +/- 1 mm
J1
J2
J5
J3 J6 J7 J8 J9 J10
J16 J15
J11
J14
IC8
J13
J12
J4CB1
SW1
DSP1SW4SW3SW2
C
Original
[1]
[2]
[1]
[2]
[1]
Chapter 5
5-16
3) Open the manual feed tray [1], and set A4 or LTRpaper [2] in it.But the paper [1] against the rear side [3] of themanual feed tray.
F-5-58
F-5-59
4) Press the push switch (SW2) on the DADFcontroller PCB once.-> In response, the original will be picked up andstopped on the copyboard glass.
F-5-60
5) Open the DADF, and check to see that C in thefigure is as indicated.
T-5-6
F-5-61
6) Close the DADF, and press the push switch (SW2)on the DADF controller PCB once.-> In response, the original will be discharged tothe delivery tray.
7) When done, tighten the manual feeder tray fixingscrew.
8) Put the DIP switch (SW1) on the DADF controllerPCB back to its initial configuration, and attachthe DADF controller cover.
< If Not as Indicated >If the dimension is not as indicated, adjust theposition of the manual feeder tray.1) Loosen the manual feeder tray fixing screw [1],
and adjust the manual feeder tray [2].- If C > 3.1 mm, move the manual feeder traytoward the rear.- If C < 3.1 mm, move the manual feeder traytoward the front.
[1]
[2]
[3]
J1
J2
J5
J3 J6 J7 J8 J9 J10
J16 J15
J11
J14
IC8
J13
J12
J4CB1
SW1
DSP1SW4SW3SW2
Value of C3.1 +/- 1 mm
C
Original
Chapter 5
5-17
F-5-62
2) When done, tighten the manual feeder tray fixingscrew.
3) Put the DIP switch (SW1) on the DADF controllerPCB back to its initial configuration, and attachthe DADF controller cover.
5.3.1.5 Leading Edge Registration Adjustment
0012-9539
Leading Edge Registration Adjustment for thefollowing 2:
- pickup from the original tray- pickup from the manual feeder tray
A. Pickup from the Original Tray1) Remove the DADF control cover [1].
- 1 screw [2]
F-5-63
2) Set the DIP switch (SW1) on the DADF controllerPCB as follows:
F-5-64
3) Place a single sheet of A4 or LTR copy paper [1]in the original tray.
F-5-65
4) Press the push switch (SW2) on the DADFcontroller PCB once.-> In response, the original will be picked up andstopped on the copyboard glass.
F-5-66
5) Lift the DADF, and check to be sure that D in thefigure is 11 +/- 1 mm.
F-5-67
6) Close the DADF.7) Adjust the original stop position using the push
switches (SW3, SW4) on the DADF controller
[1]
[2]
[2]
[1]
J1
J2
J5
J3 J6 J7 J8 J9 J10
J16 J15
J11
J14
IC8
J13
J12
J4CB1
SW1
DSP1SW4SW3SW2
D
Original
D 11 1mm
Chapter 5
5-18
PCB.A press on each will shift the original stopposition by 0.5 mm. When done, press the pushswitch (SW2).-> The original will be discharged, and the changewill be saved.
F-5-68
T-5-7
F-5-69
Holding down the push switch will not shift the copypaper by more than a single interval.
<EX> If the copy paper stop position is displaced onthe copyboard glass by 12 mm,
- Keeping the copy paper on the copyboard glass,close the DADF.- To change the stop position to the left by 1 mm,press the push switch (SW4) twice (1/0.5=2);then, press the push switch (SW2).-> The copy paper will be discharged, and thechange will be saved.
8) Put the DIP switch (SW1) of the ADF controllerPCB back to its initial configuration, and mountthe ADF controller cover.
B. Pickup from the Manual Feeder Tray1) Remove the DADF controller cover [1].
- 1 screw [2]
F-5-70
2) Set the DIP switch (SW1) of the DADF controllerPCB as shown.
F-5-71
3) Open the manual feed tray [1], and set A4 or LTRpaper [2] in it.But the paper [1] against the rear side [3] of themanual feed tray.
F-5-72
Switch Direction of shiftSW3 RightSW4 Left
J1
J2
J5
J3 J6 J7 J8 J9 J10
J16 J15
J11
J14
IC8
J13
J12
J4CB1
SW1
DSP1SW4SW3SW2
Original
SW3SW4
[2]
[1]
[1]
Chapter 5
5-19
F-5-73
4) Press the push switch (SW2) on the DADFcontroller PCB once.-> In response, the original will be picked up andstopped on the copyboard cover.
F-5-74
5) Lift the DADF, and see that D in the figure is 11+/- 1 mm.
F-5-75
6) Close the DADF.7) Adjust the original stop position using the push
switches (SW3, SW4) on the DADF controllerPCB.A press on each switch will shift the original stopposition by 0.5 mm. When done, press the pushswitch (SW2).-> The original will be discharged, and the changewill be saved.
F-5-76
T-5-8
F-5-77
Holding down the push switch will not shift the copypaper by more than a single interval.
[2]
[3]
J1
J2
J5
J3 J6 J7 J8 J9 J10
J16 J15
J11
J14
IC8
J13
J12
J4CB1
SW1
DSP1SW4SW3SW2
D
Original
D 11 1mm
Switch Direction of shiftSW3 RightSW4 Left
J1
J2
J5
J3 J6 J7 J8 J9 J10
J16 J15
J11
J14
IC8
J13
J12
J4CB1
SW1
DSP1SW4SW3SW2
Original
SW3SW4
Chapter 5
5-20
<EX> If the copy paper stop position is displaced by12 mm on the copyboard glass,
- Keeping the copy paper on the copyboard glass,close the DADF.- To change the stop position by 1 mm to the left,press the push switch (SW4) twice (1/0.5=2), andthen press the push switch (SW2).-> The copy paper will be discharged, and thechange will be saved.
8) Put the DIP switch (SW1) of the ADF controllerPCB back to its initial configuration, and mountthe ADF controller cover.
5.3.1.6 Horizontal Registration Adjustment (Fine Adjustment)
0013-3802
In the case that the customer needs the adjustmentwith high accuracy, perform the following step.
The horizontal registration adjustment (fineadjustment) is executed to the following 2 occasions.
- Document tray pickup- Manual feed tray pickup
When executing this adjustment, use the servicemode.The adjustment value is stored in the DADFcontroller PCB.
A. Document Tray Pickup1) Set either one A4 document or LTR document [1]
on the document tray and execute copy.
F-5-78
2) Compare the document and the print image tocheck that displacement of the horizontalregistration is 1 mm or less [A].If the displacement is 1 mm or more, perform thefollowing step.
F-5-79
3) Display the service mode (COPIER > ADJUST >ADJ-XY > ADJ-Y-DF) and change the settingaccording to the displacement.This setting adjusts the value of the horizontalregistration for the document tray pickup.- Setting range: 1 to 211- 1 unit: 0.1 mm
When the value is set larger, the margin is madesmaller. When the value is set smaller, the marginis made larger.
F-5-80
4) Press the OK key.5) Exit from the service mode.6) Set either one A4 document or LTR document [1]
on the document tray and execute copy.7) Compare the document and the print image to
check that displacement of the horizontalregistration is 1 mm or less.
B. Manual Feed Tray Pickup1) Set either one A4 document or LTR document [2]
on the manual feed tray [1].Insert the document to the rear end [3].
Feeding direction
Set the value larger
Set the value smaller
Print image
Chapter 5
5-21
F-5-81
F-5-82
2) For the subsequent procedure, follow 'A.Document Tray Pickup'.
MEMO:See 'A. Document Tray Pickup'.
5.3.1.7 Leading Edge Registration Adjustment (Fine Adjustment)
0013-3844
In the case that the customer needs the adjustmentwith high accuracy, perform the following step.
The leading edge registration adjustment (fineadjustment) is executed to the following 3 occasions.
- Document tray pickup (single side)- Document tray pickup (the 1st side)- Document tray pickup (the 2nd side)
When executing this adjustment, use the servicemode.The adjustment value is stored in the DADF
controller PCB.
A. Document Tray Pickup (single side)1) Set either one A4 document or LTR document [1]
on the document tray and execute copy.
F-5-83
2) Compare the document and the print image tocheck that displacement of the leading edgeregistration is 1 mm or less [A].If the displacement is 1 mm or more, perform thefollowing step.
F-5-84
3) Display the service mode (FEEDER > ADJUST >STRD-S) and change the setting according to thedisplacement.This setting adjusts the value of the leading edgeregistration for the document tray pickup.- Setting range: -7 to 7- 1 unit: 0.5 mm
When the value is set larger, the margin is madesmaller. When the value is set smaller, the marginis made larger.
F-5-85
[1]
[2]
[3]
Feeding direction
Set the value larger Set the value smaller
Print image
Chapter 5
5-22
4) Press the OK key.5) Exit from the service mode.6) Set either one A4 document or LTR document on
the document tray and execute copy.7) Compare the document and the print image to
check that displacement of the leading edgeregistration is 1 mm or less.
B. Document Tray Pickup (the 1st side)1) Set either one A4 document or LTR document [1]
on the document tray and execute double-sidedcopy.
F-5-86
2) For the subsequent procedure, follow 'A.Document Tray Pickup (single side)'.For the service mode, use the following item:FEEDER > ADJSUT > DOCST
Measure the displacement of the 1st side (front side)of the print image.
C. Document Tray Pickup (the 2nd side)This procedure is the same as in the case of 'B.Document Tray Pickup (the 1st side)'. For the servicemode, use the following item:FEEDER > ADJSUT > DOCST-M
Measure the displacement of the 2nd side (back side)of the print image.
5.3.2 Adjustment at Time of Parts Replacement
5.3.2.1 Outline0013-3850
T-5-9
Major parts WorkADF controller PCB
1) Replacement of the EEPROM
EEPROM (memory back-up)
2) Adjust the sensors and the delivery motor
Reversal sensor (S1)Pre-registration roller paper sensor (S2)Post-registration roller paper sensor (S3)Separation paper sensor (S4)Skew paper sensor (S5)Original sensor (S6)Original trailing edge sensor (S7)Manual feed registration roller paper sensor (S9)Delivery motor (M5)
Chapter 5
5-23
5.3.2.2 Replacing the EEPROM0013-3854
Perform the following when replacing the ADFcontroller PCB.1) Remove the EEPROM (IC8) from the faulty ADF
controller PCB.
F-5-87
2) Mount the EEPROM removed in step 1) to thenew ADF controller PCB.
MEMO:The EEPROM on the new ADF controller PCB is notused yet.
3) Turn on the copier, and check to make sure thaterror code E420 is not indicated.
4) If error code E420 is indicated, mount back theEERPOM once removed from the new ADFcontroller PCB.
5) Perform the work under 1.2.3 "Adjusting theSensors and the Delivery Motor."
5.3.2.3 Adjusting the Sensors and the Delivery Motor
0013-3868
Perform the adjustment if you have replaced any ofthe following parts:- EEPROM (memory backup)- Reversal sensor (S1)- Pre-registration roller senor (S2)- Post-registration roller sensor (S3)- Separation paper sensor (S4)- Skew paper sensor (S5)- Original sensor (S6)- Original trailing edge sensor (S7)- Manual feed registration roller paper sensor (S9)- Delivery motor (M5)
MEMO:The delivery motor is adjusted by sending areference signal to it, and the speed of rotation at thattime is measured by the delivery motor clock sensor(PI11).
The result is used when generating the motor rotationspeed control signal (EJMPWM*).
A. Steps to Take1) Open the DADF, and make a single A4 copy of a
solid black original.2) Remove the screw [1], and detach the ADF
controller cover [2].
F-5-88
3) Set the DIP switch (SW1) on the ADF controllerPCB as indicated.
F-5-89
4) Place the output obtained in step 1) in the originaltray with the black side facing down. Take carenot to cover the original sensor (S6) when placingthe output.
F-5-90
5) Press the push switch (SW2) on the ADFcontroller PCB.The LED will indicate the following in sequence,showing the result at the end: 1, 2, 3, 4, 5, 6, 7, 8,9, A.
J1
J2
J5
J3 J6 J7 J8 J9 J10
J16 J15
J11
J14
IC8
J13
J12
J4CB1
SW1
DSP1SW4SW3SW2 [1]
[2]
Black side down
Originalsensor (S6)
Original trailingedge paper sensor(S7)
Chapter 5
5-24
F-5-91
T-5-10
6) At the end of the operation, press the push switch(SW2) on the ADF controller PCB once again.
If the Result is NGCheck the condition of each of the sensors (S1through S9), and replace the sensor considered to befaulty.The condition of a sensor is indicated in thefollowing three levels:
T-5-11
Result DSP1 indication DescriptionOK
(O)
All sensors (S1 through S9) are normal).
NG
(F)
Any of the sensors (S1 through S9) is faulty.
J1
J2
J5
J3 J6 J7 J8 J9 J10
J16 J15
J11
J14
IC8
J13
J12
J4CB1
SW1
DSP1SW4SW3SW2
Condition
DSP1 indication Check or replace
Good
(Å?)
No
Alarm 1
(=)
No
Alarm 2
(-)
Yes
Faulty
(F)
Yes
Chapter 5
5-25
1) While DSP1 is indicating 'NG', press the pushswitch SW3 or SW4 to select the sensor.
T-5-12
2) At the end of the operation, press the push switch(SW2) on the ADF controller PCB.
5.3.3 Auxiliary Adjustmant
5.3.3.1 Outline0013-3884
T-5-13
5.3.3.2 Adjusting the Degree of Arching at the Registration Roller (pickup from the tray), (at time of reversal), (manual feed mode)
0013-3885
1) Remove the screw [1], and detach the ADFcontroller cover [2].
F-5-92
Switch DSP1 indication
Sensor or motor in question
SW3 1 Original sensor (S6)2 Original trailing edge
sensor (S7)Separation sensor (S4)
3 Separation sensor (S4)4 Skew sensor (S5)5 Pre-registration roller
paper sensor (S2)6 Post-registration paper
sensor (S3)7 Reversal sensor (S1)8 Pre-last original paper
sensor (S8)SW4 9 Delivery motor (M5)
Item to adjust FunctionDegree of arching at the registration roller when pickup is from the tray
Removing the skew for CW pickup
Degree of arching at the registratoin roller at time of reversal
Removing the skew at time of reversal
Degree of arching at the registration roller in manual feed mode
Removing the skew in manual feed mode
Speed of the feeding belt
Fine-adjusting the reproduction ratio for stream reading mode
Speed of reversal Fine-adjusting the speed of reversal
Checking the sensor output
Checking the presence/absence of paperover a specific sensor
Hinge spring pressure Adjustment of a hinge hold angle
Item to adjust Function
[1]
[2]
Chapter 5
5-26
2) Set the DIP switch (SW1) on the ADF controllerPCB as follows to suit the need:
T-5-14
T-5-15
3) Place a single sheet of A4 or LTR copy paper [1]in the original tray.
F-5-93
F-5-94
4) Press the push switch (SW2) on the ADFcontroller PCB.- The copy paper will be picked up and stopped onthe copyboard glass.- DSP1 will start to flash to indicate the currentvalue.
F-5-95
Item Switch settingPickup from tray
Reversal
Manual feed
Item Switch settingPickup from tray
Reversal
Manual feed
Butted.
Manual feed tray Copy paper
J1
J2
J5
J3 J6 J7 J8 J9 J10
J16 J15
J11
J14
IC8
J13
J12
J4CB1
SW1
DSP1SW4SW3SW2
Chapter 5
5-27
T-5-16
* : 0.1 % (feed length)
Switch DSP1 indication
Adjustment value*
Switch DSP1 indication
Adjustment value*
Switch DSP1 indication
Adjustment value*
SW3 A-E2 -30 SW3 A-F7 -9 SW3 A-0C 12A-E3 -29 A-F8 -8 A-CD 13
A-E4 -28 A-F9 -7 A-CE 14A-E5 -27 A-FA -6 A-CF 15A-E6 -26 A-Fb -5 A-10 16A-E7 -25 A-FC -4 A-11 17A-E8 -24 A-Fd -3 A-12 17A-E9 -23 A-FE -2 A-13 18A-EA -22 A-FF -1 A-14 19A-Eb -21 A-00 0
(reference value)
A-15 20
A-Ec -20 A-01 1 A-16 21A-Ed -19 A-02 2 A-17 22A-Ee -18 A-03 3 A-18 23A-Ef -17 A-04 4 A-19 24A-F0 -16 A-05 5 A-1A 25A-F1 -15 A-06 6 A-1b 26A-F2 -14 A-07 7 A-1C 27A-F3 -13 A-08 8 A-1d 28A-F4 -12 A-09 9 A-1E 29A-F5 -11 A-0A 10 A-1F 30
SW4 A-F6 -10 SW4 A-0b 11 SW4 - -
Chapter 5
5-28
5) Press the push switch SW3 or SW4 on the ADFcontroller PCB to adjust the degree of arching byreferring to the table.
T-5-17
F-5-96
6) At the end of operation, press the push switch(SW2) on the ADF controller PCB once again.The copy paper will be delivered, and theadjustment value will be stored in memory.
5.3.3.3 Adjusting the Speed of the Feeding Belt
0013-3891
MEMO:Adjusting the speed of the feeding belt willautomatically adjust the speed of reversal.
1) Remove the screw [1], and detach the ADFcontroller cover [2].
F-5-97
2) Set the DIP switch (SW1) on the ADF controllerPCB as indicated.
F-5-98
3) Pres the push switch (SW2).DSP 1 displays the current volume by flushing.
F-5-99
Switch ChangeSW3 Increases the
arching.SW4 Decreases the
arching.
J1
J2
J5
J3 J6 J7 J8 J9 J10
J16 J15
J11
J14
IC8
J13
J12
J4CB1
SW1
DSP1SW4SW3SW2
[1]
[2]
J1
J2
J5
J3 J6 J7 J8 J9 J10
J16 J15
J11
J14
IC8
J13
J12
J4CB1
SW1
DSP1SW4SW3SW2
Chapter 5
5-29
T-5-18
* : 0.1 % (image reproduction ratio)
Switch DSP1 indication
Adjustment value*
Switch DSP1 indication
Adjustment value*
Switch DSP1 indication
Adjustment value*
SW3 A-E2 -30 SW3 A-F7 -9 SW3 A-0C 12A-E3 -29 A-F8 -8 A-CD 13
A-E4 -28 A-F9 -7 A-CE 14A-E5 -27 A-FA -6 A-CF 15A-E6 -26 A-Fb -5 A-10 16A-E7 -25 A-FC -4 A-11 17A-E8 -24 A-Fd -3 A-12 17A-E9 -23 A-FE -2 A-13 18A-EA -22 A-FF -1 A-14 19A-Eb -21 A-00 0 (reference
value)A-15 20
A-Ec -20 A-01 1 A-16 21A-Ed -19 A-02 2 A-17 22A-Ee -18 A-03 3 A-18 23A-Ef -17 A-04 4 A-19 24A-F0 -16 A-05 5 A-1A 25A-F1 -15 A-06 6 A-1b 26A-F2 -14 A-07 7 A-1C 27A-F3 -13 A-08 8 A-1d 28A-F4 -12 A-09 9 A-1E 29A-F5 -11 A-0A 10 A-1F 30
SW4 A-F6 -10 SW4 A-0b 11 SW4 - -
Chapter 5
5-30
4) Press the push switch SW3 or SW4 on the ADFcontroller PCB, and adjust the speed of the belt byreferring to the table.
F-5-100
T-5-19
5) At the end of the operation, press the push switch(SW2) on the ADF controller PCB once again.
5.3.3.4 Adjusting the Speed of Reversal0013-3893
1) Remove the ADF cover [2] by the screw [1].
F-5-101
2) Set the DIP switch (SW1) on the ADF controllerPCB as indicated.
F-5-102
3) Pres the push switch (SW2).DSP 1 displays the current volume by flushing.
F-5-103
Switch ChangeSW3 Increases the belt speed
(decreasing the image).SW4 Decreasing the belt speed
(increasing the image).
J1
J2
J5
J3 J6 J7 J8 J9 J10
J16 J15
J11
J14
IC8
J13
J12
J4CB1
SW1
DSP1SW4SW3SW2
[1]
[2]
J1
J2
J5
J3 J6 J7 J8 J9 J10
J16 J15
J11
J14
IC8
J13
J12
J4CB1
SW1
DSP1SW4SW3SW2
Chapter 5
5-31
T-5-20
* : 0.1 % (image reproduction ratio)
Switch DSP1 indication
Adjustment value*
Switch DSP1 indication
Adjustment value*
Switch DSP1 indication
Adjustment value*
SW3 A-E2 -30 SW3 A-F7 -9 SW3 A-0C 12A-E3 -29 A-F8 -8 A-CD 13
A-E4 -28 A-F9 -7 A-CE 14A-E5 -27 A-FA -6 A-CF 15A-E6 -26 A-Fb -5 A-10 16A-E7 -25 A-FC -4 A-11 17A-E8 -24 A-Fd -3 A-12 17A-E9 -23 A-FE -2 A-13 18A-EA -22 A-FF -1 A-14 19A-Eb -21 A-00 0
(reference value)
A-15 20
A-Ec -20 A-01 1 A-16 21A-Ed -19 A-02 2 A-17 22A-Ee -18 A-03 3 A-18 23A-Ef -17 A-04 4 A-19 24A-F0 -16 A-05 5 A-1A 25A-F1 -15 A-06 6 A-1b 26A-F2 -14 A-07 7 A-1C 27A-F3 -13 A-08 8 A-1d 28A-F4 -12 A-09 9 A-1E 29A-F5 -11 A-0A 10 A-1F 30
SW4 A-F6 -10 SW4 A-0b 11 SW4 - -
Chapter 5
5-32
4) Press the push switch SW3 or SW4 on the ADFcontroller PCB to adjust the speed of reversal byreferring to theable.
F-5-104
T-5-21
5) At the end of the operation, press the push switch(SW2) on the ADF controller.
Switch ChangeSW3 Increase the speed of
reversal.SW4 Decrease the speed of
reversal.
J1
J2
J5
J3 J6 J7 J8 J9 J10
J16 J15
J11
J14
IC8
J13
J12
J4CB1
SW1
DSP1SW4SW3SW2
Chapter 5
5-33
5.3.3.5 Checking the Sensor Output0013-3896
The DADF uses a 7-segment LED (DSP1) on its ADF controller PCB to allow a check on the presence/absenceof paper or the state (open/closed) of the upper cover of the following sensors:
T-5-22
DIS1 Sensor in question (notation)
DSP1 Sensor in question (notation)
(1)
Original sensor (S6)
(8)
Manual feed registration roller paper sensor (S9)
(2)
Original trailing edge sensor (S7)
(A)
Pre-reversal paper sensor (PI 4)
(3)
Separation sensor (S4)
(b)
Original delivery sensor (PI 13)
(4)
Skew sensor (S5)
(C)
Manual feed set sensor (PI 12)
(5)
Pre-registration roller paper sensor (S2)
(d)
ADF open/closed sensor(PI 10)
(6)
Pre-registration roller paper sensor (S2)
(E)
Upper cover sensor(front; PI 6, rear;PI 3)
Chapter 5
5-34
1) Remove the ADF controller cover [2] by removing the screw [1].
F-5-105
2) Set the DIP switch (SW1) on the ADF controller PCB as indicated (normal operation mode).
F-5-106
3) Press the push switch (SW2) once.The 7-segment LED (DSP1) on the ADF controller PCB will start to flash [1] to indicate that a check on thesensor operation has started.
F-5-107
(7)
Reversal sensor (S1)
(F)
Pickup roller home position sensor (PI 7)
DIS1 Sensor in question (notation)
DSP1 Sensor in question (notation)
[1]
[2]
J1
J2
J5
J3 J6 J7 J8 J9 J10
J16 J15
J11
J14
IC8
J13
J12
J4CB1
SW1
DSP1SW4SW3SW2
Chapter 5
5-35
4) Press the push switch SW3 or SW4; the indicationof the 7-segment LED (DSP1) will change toindicate the state (paper present/absent) of thesensor in question.
F-5-108
T-5-23
5) To end the check, press the push switch (SW2)once.The LED2 indication will return to normal mode.
F-5-109
5.3.3.6 Hinge Spring Pressure Adjustment0013-3910
A. How to Check the Hinge1) Open the ADF widely.
F-5-110
2) Close the ADF gradually and stop it just before thepoint where it closes with its own weight (justbefore the hinge becomes unable to retain theADF).
F-5-111
3) At this point, if the distance 'A' between the edgeof the front cover and the upper front cover is20cm or more, perform the hinge spring pressureaadjustment described next.
F-5-112
DSP1 Presence/absence of paperON PresentFlashing Absent
J1
J2
J5
J3 J6 J7 J8 J9 J10
J16 J15
J11
J14
IC8
J13
J12
J4CB1
SW1
DSP1SW4SW3SW2
J1
J2
J5
J3 J6 J7 J8 J9 J10
J16 J15
J11
J14
IC8
J13
J12
J4CB1
SW1
DSP1SW4SW3SW2
A
Chapter 5
5-36
B. How to Adjust the Pressure of Hinge Spring1. Hinge (left)1) Unscrew a screw [1] and detach and pre-reversal
solenoid mount [2].
F-5-113
2) Rotate the spring pressure adjusting screw [A] ofthe hinge to the direction of the arrow [B] (in aclockwise direction) using a hex wrench 18 timesby 60 degrees (Max. angle to be rotated per time)per time (Shorten the spring pressure adjustingscrew [A] by 2 mm).
F-5-114
2. Hinge (right)1) Unscrew a screw [1] and detach the delivery
motor clock sensor mount [2].
F-5-115
2) Rotate the spring pressure adjusting screw [A] ofthe hinge to the direction of the arrow [B] (in aclockwise direction) using a hex wrench 18 timesby 60 degrees (Max. angle to be rotated per time)per time (Shorten the spring pressure adjustingscrew [A] by 2 mm).
F-5-116
[1] [2]
[1] [2]
[1][2]
[1][2]
Chapter 5
5-37
5.3.4 Other
5.3.4.1 Outline0013-3914
T-5-24
5.3.4.2 Jam History0013-3919
1) Remove the screw [1], and detach the ADFcontroller cover [2].
F-5-117
2) Set the DIP switch (SW1) on the ADF controllerPCB as indicated.
F-5-118
3) Press the push switch (SW2) on the ADFcontroller PCB.DSP1 will indicate the latest jam code.
F-5-119
4) Press the push switches SW3 and SW4 to changethe DSP1 indication, thereby checking the jamhistory.DSP1 will flash 5 times in sequence to indicatethe nature of the jam.
F-5-120
T-5-25
5) At the end of the check, press the push switch(SW2) on the ADF controller PCB once again.
5.3.4.3 Version of the Software0013-3921
1) Remove the screw [1], and detach the ADFcontroller cover [2].
Item DescriptionJam history Indicates the most
recent 3 jams.Software version Indicates the version of
the software.Document width detection switch (SW301) check
A document width detection switch (SW301) check is carried out automatically.
Backup RAM clearance
A backup RAM clear is performed.
[1]
[2]
Switch DSP1 Description
SW3 1-X1-X2-Y1-Y2 Previous (latest)
2-X1-X2-Y1-Y2 2nd most recent
SW4 3-X1-X2-Y1-Y2 3rd most recent
J1
J2
J5
J3 J6 J7 J8 J9 J10
J16 J15
J11
J14
IC8
J13
J12
J4CB1
SW1
DSP1SW4SW3SW2
J1
J2
J5
J3 J6 J7 J8 J9 J10
J16 J15
J11
J14
IC8
J13
J12
J4CB1
SW1
DSP1SW4SW3SW2
Chapter 5
5-38
F-5-121
2) Set the DIP switch (SW1) on the ADF controllerPCB as indicated.
F-5-122
3) Press the push switch (SW2) on the ADFcontroller PCB.DSP1 will flash 4 times to indicate the version ofthe software.
F-5-123
EX:If for Version 3.01,
4) Press the push switch (SW2) on the ADFcontroller PCB to end the indication.
5.3.4.4 Checking the Original Width0013-3923
1) Remove the screw [1], and detach the ADFcontroller cover [2].
F-5-124
2) Set the DIP switch (SW1) on the ADF controllerPCB as indicated.
F-5-125
3) Press the push switch (SW2) on the ADFcontroller PCB.DSP1 will go on or flash to indicate the width ofthe original each time the position of the sideguide is changed.
F-5-126
T-5-26
[1]
[2]
J1
J2
J5
J3 J6 J7 J8 J9 J10
J16 J15
J11
J14
IC8
J13
J12
J4CB1
SW1
DSP1SW4SW3SW2
[1][0][0] [3]
DSP1 indication Default size0 ON A4
Flash Non-default1 ON LTR
Flash Non-default2 ON B4
Flash Non-default3 ON LTR
[1]
[2]
J1
J2
J5
J3 J6 J7 J8 J9 J10
J16 J15
J11
J14
IC8
J13
J12
J4CB1
SW1
DSP1SW4SW3SW2
Chapter 5
5-39
Note: * The original width detecting switch(SW301) may be faulty.4) Press the push switch (SW2) on the ADF
controller PCB to end the operation.
5.3.4.5 Resetting the Backup RAM0012-8904
1) Remove the ADF controller cover [2].- 1 screw [1]
F-5-127
2) Set the DIP switch (SW1) on the ADF controllerPCB as shown.
F-5-128
3) Press the push switch (SW2) on the ADFcontroller PCB so that the machine will be inbackup RAM reset mode.-> DSP1 goes off.
4) Press the push switch (SW3) 5 times insuccession.-> DSP1 indicates ‘0’, and then the indicationbecomes reverse video.
F-5-129
5.4 Troubleshooting
5.4.1 Error Code
5.4.1.1 E402 display lamp0012-8906
Check the following in the indicated sequence: beltmotor (M2), belt motor clock sensor (PI 1), beltmotor driver PCB.A. Belt Motor (M2)1) Set the DIP switch (SW1) on the ADF controller
PCB as shown.
F-5-130
2) Press the push switch (SW2). (To stop, press thepush switch once again.)- If the belt motor rotates, go to B. "Belt MotorClock Sensor (PI 1)."- If the belt motor does not rotate, go to step 3).
3) Replace the belt motor.
If no improvement is noted, go to B. "Belt MotorClock Sensor (PI 1)."
B. Belt Motor Clock Sensor (PI 1)1) Bring in a tester, and set its test range to 10 VDC.2) Turn the belt motor by hand, and check the voltage
between connectors "J12-2 (+)" and "J12-1 (-)" onthe ADF controller PCB.- If the voltage alternates between 0 and 5 V, go toC. "Belt Motor Driver PCB."- If the voltage does not alternate between 0 and 5V, go to step 3).
3) Replace the belt motor clock sensor.
If no improvement is noted, go to C. "Belt MotorDriver PCB."
Flash Non-default4 ON A4
Flash Non-default5 ON ERROR*
Flash ERROR6 ON ERROR
Flash ERROR7 ON ERROR*
Flash ERROR
DSP1 indication Default size
[1]
[2]
J1
J2
J5
J3 J6 J7 J8 J9 J10
J16 J15
J11
J14
IC8
J13
J12
J4CB1
SW1
DSP1SW4SW3SW2
Chapter 5
5-40
C. Belt Motor Driver PCB1) Check the cable connection between the belt
motor driver PCB and the ADF controller PCB.- If the cable is connected correctly, go to step 3).- If the cable is not connected correctly, go to step2).
2) Connect the cable correctly.If no improvement is noted, go to step 3).
3) Replace the belt motor drive PCB.
If no improvement is noted, replace the ADFcontroller PCB.
5.4.1.2 E404 display lamp0012-8908
Check the following in the indicated sequence:delivery motor (M5), delivery motor clock sensor (PI11).A. Delivery Motor (M5)1) Set the DIP switch (SW1) on the ADF controller
PCB as shown.
F-5-131
2) Press the push switch (SW2). (To stop, press thepush switch once again.)- If the delivery motor rotates, go to B. "DeliveryMotor Clock Senor (PI 11)."- If the delivery motor does not rotate, go to step3).
3) Replace the deliver motor.If you have replaced the delivery motor, be sure toperform the instructions under "Adjusting theSensors and the Delivery Motor."
If no improvement is noted, go to B. "DeliveryMotor Clock Sensor (PI 11)."
B. Delivery Motor Clock Sensor (PI 11)1) Bring in a tester, and set its test range to 10 VDC.2) Turn the delivery motor by hand, and check the
voltage between connectors "J3-2 (+)" and "J3-1(-)".- If the voltage alternates between 0 and 5 V, go tostep 3).- If the voltage does not alternate between 0 and 5V, go to step 4).
3) Replace the ADF controller PCB.4) Replace the delivery motor clock sensor.
5.4.1.3 E405 display lamp0012-8909
Check Separation Motor (M4) and then SeparationMotor Clock Sensor (PI 2).A. Separate Motor (M4)1) Set DIP switch (SW1) on ADF Controller PCB as
shown in a figure.
F-5-132
2) Press push switch (SW2). (Press push switchagain when you want to stop it.)- Separation motor is rotating: Go to "B.Separation Motor Clock Sensor (PI 2)."- Separation motor is not rotating: Go to the step 3.
3) Remove a connector (J8) on ADF Controller PDB.4) Prepare a tester, and set the test range as x1 ohm.5) Contact a lead rod of the tester to the connector on
the cable side, and check the resistor value.
F-5-133
- When the resistor value is about 5.0 ohm: Go to"B. Separation Motor Clock Sensor (PI 2)."- When the resistor value is not about 5.0 ohm: Goto the step 6.
6) Replace Separation Motor.
If the condition is not improved, go to "B. SeparationMotor Clock Sensor (PI 2)."
B. Separation Motor Clock Sensor (PI 2)1) Prepare a tester, and set the test range as 10 VDC.2) Rotate Separation Motor with your hand, and
check voltage between "J12-5(+)" connector and"J12-4(-)" connector on ADF Controller PCB.- The voltage is alternately changed 0V and 5V:Go to the step 3.- The voltage is not alternately changed 0V and5V: Go to the step 4.
3) Replace ADF Controller PCB.4) Replace Separation Motor Clock Sensor.
151413121110987654321
J2
ADFController
PCB
Chapter 5
5-41
5.4.1.4 E410 display lamp0012-8911
Check Pick-up Motor (M3), Pick-up Roller HeightSensor 1 (PI 8), Pick-up Roller Height Sensor 2 (PI9), and then Pick-up Roller Home Position Sensor(PI 7).A. Pick-up Motor (M3)1) Set DIP switch (SW1) on ADF Controller PCB as
shown in a figure.
F-5-134
2) Press push switch (SW2). (Press push switchagain when you want to stop it.)Each press on SW3 causes the Up/Downmovement.- Pick-up Motor is rotating: Go to "B. Pick-upRoller Height Sensor 1 (PI 8)."- Pick-up Motor is not rotating: Go to the step 3.
3) Replace Pick-up Motor.
If the condition is not improved, go to "B. Pick-upRoller Height Sensor 1 (PI 8)."
B. Pick-up Roller Height Sensor 1 (PI 8)1) Prepare a tester, and set the test range as 10 VDC.2) Move Pick-up Roller unit (rear side) with your
hands up and down, and check voltage between"J14-A8(+)" connector and "J14-A7(-)"connector on ADF Controller PCB.- The voltage is alternately changed 0V and 5V:Go to "C. Pick-up Roller Height Sensor 2 (PI 9)."- The voltage is not alternately changed 0V and5V: Go to the step 3.
3) Replace Pick-up Roller Height Sensor 1.
If the condition is not improved, go to "C. Pick-upRoller Height Sensor 2 (PI 9)."
C. Pick-up Roller Height Sensor 2 (PI 9)1) Prepare a tester, and set the test range as 10 VDC.2) Move Pick-up Roller unit (front side) with your
hands up and down, and check voltage between"J14-A11(+)" connector and "J14-A10(-)"connector on ADF Controller PCB.- The voltage is alternately changed 0V and 5V:Go to "D. Pick-up Roller Home Position Sensor(PI 7)."- The voltage is not alternately changed 0V and5V: Go to the step 3.
3) Replace Pick-up Roller Height Sensor 2.
If the condition is not improved, go to "D. Pick-upRoller Home Position Sensor (PI 7)."
D. Pick-up Roller Home Position Sensor (PI 7)1) Prepare a tester, and set the test range as 10 VDC.2) Check voltage between "J14-A5(+)" connector
and "J14-A4(-)" connector on ADF Controller
PCB when putting back Pick-up Roller unit to thehome position with your hand.- When the voltage is about 5 V: Go to the step 3.- When the voltage is not about 5 V: Go to the step4.
3) Replace ADF Controller PCB.4) Replace Pick-up Roller Home Position Sensor.
5.4.1.5 E420 display lamp0012-8912
Check Communication Cable, Connector, and thenADF Controller PCB.A. Communication Cable1) Check communication cable connecting copying
machine and the machine.- The cable is connected properly: Go to "B.Connector."- The cable is not connected properly: Go to thestep 2.
2) Connect communication cable properly.
If the condition is not improved, go to "B.Connector."
B. Connector1) Check a connector (J1) on ADF Controller PCB.
- The connector is connected properly: Go to "C.ADF Controller PCB."- The connector is not connected properly: Go tothe step 2.
2) Connect the connector properly.
If the condition is not improved, go to "C. ADFController PCB."
C. ADF Controller PCB1) Check the cable between the connector (J1) on
ADF Controller PCB and the communicationcable.- The cable is connected properly: Go to the step2.- The cable is not connected properly: Go to thestep 3.
2) Replace ADF Controller PCB.3) Connect the cable properly.
Chapter 5
5-42
5.4.2 Alarm Code
5.4.2.1 Alarm0012-8913
Particulars of the Alarm are shown below.
T-5-27
Indication Code
Details of the error Behavior of the machine
Behavior of copying machine
Reset
03xx The separation sensor does not detect the 1 st original after a feed of specific distance.
Stop the operation and light Original Set Indicator.
Stop Remove the origianl and set the machine again.
11xx The last sheet of paper is detected before feeding the number of prints for recovery when the jam recovery sensor is active.
Stop the operation and light Original Set Indicator.
Stop Remove the original and set the machine again.
Chapter 5
5-43
5.5 Outline of Electrical Components
5.5.1 Sensors0013-3928
F-5-135
T-5-28
Name Notation Description
Photointerrupter PI 1 Belt motor clock detectionPI 2 Separation motor clock detectionPI 3 Left cover open/closed detection (rear)PI 4 Pre-reversal paper detectionPI 5 Registration roller rotation detectionPI 6 Left cover open/closed detection (front)PI 7 Pickup roller home position detectionPI 8 Pickup roller height detection 1PI 9 Pickup roller height detection 2PI 10 ADF open/closed detectionPI 11 Delivery motor clock detectionPI 12 Manual feed set detectionPI 13 Original delivery detection
PI 10
PI 11
PI 13
PI 12
PI 4
PI 1PI 3
PI 2
PI 7
PI 6PI 5
PI 9
PI 8
S1
S2S3
S5
S6
S6
S7
S4
S9
Chapter 5
5-44
T-5-29
5.5.2 Motors, Clutches, and Solenoids0013-3931
F-5-136
T-5-30
Name Notation DescriptionReflecting type sensor
S1 Reversing assembly paper detectionS2 Pre-registration roller paper detectionS3 Post-registration roller paper detectionS4 Separation paper detectionS5 Skew paper detectionS6 Original detectionS7 Original trailing edge detectionS9 Manual feed registration roller paper
detection
Name Notation DescriptionMotor M1 Reversal motor
M2 Belt motorM3 Pickup motorM4 Separation motorM5 Delivery motor
Clutch CL Separation clutch
SL1SL4
SL2
SL3
M3
M1
M2
FM1 M5M4
CL
Chapter 5
5-45
5.5.3 PCBs0013-3932
F-5-137
T-5-31
Solenoid SL1 Reversing solenoidSL2 Stopper plate solenoidSL3 Pre-reversal solenoidSL4 Delivery solenoid
Fan FM1 Belt motor cooling fan
Reference Name1 ADF controller PCB2 Reversal motor driver PCB3 Belt motor driver PCB4 Pickup tray PCB5 Indication LED PCB
Name Notation Description
1
23
4
5
Chapter 5
5-46
5.6 Variable Resistors (VR), Light-Emitting Diodes (LED), and CheckPins by PCB
5.6.1 Outline0013-3934
Of the LEDs and check pins found in the machine, those used in the field are discussed:
Do not touch any check pins that are not indicated in the table. They are for the factory, and require special toolsand high precision.
5.6.2 ADF Controller PCB0013-3935
Some LEDs emit light when they are off because of leakage current. This is a normal condition, and must bekept in mind.
Arrangement of Components
F-5-138
J1
J2
J5
J3 J6 J7 J8 J9 J10
J16 J15
J11
J14
IC8
J13
J12
J4CB1
SW1
DSP1SW4SW3SW2
Chapter 5
5-47
5.6.3 DIP Switch Functions0013-3936
The DIP switch (SW1) on the ADF controller PCB provides the following functions according to how it is set:
T-5-32
Setting DescriptionNormal Operation
Single-Sided Intermittent FeedPress the push switch SW2 on the ADF controller PCB; thereafter, each press on the push switch SW2 will send the original intermittently.
Double-Sided Intermittent FeedPress the push switch SW2 on the ADF controller PCB; thereafter, each press on the push switch SW2 will send the original intermittently.
Belt Motor (M2) DrivePress the push switch SW2 on the ADF controller PCB to start it; another press will stop it.The operation will be as follows, executed automatically:CW (700 -> 520 -> 260 -> 30 mm/sec) ->CCW: 700 -> 520 -> 260 -> 130 mm/sec).Reversal Motor (M1) DrivePress the push switch SW2 on the ADF controller PCB to start it; another press will stop it.The operation will be as follows, executed automatically:CW (700 -> 520 -> 260 -> 130 mm/sec) -> CCW (700-> 520 -> 260 -> 130 mm/sec).Delivery Motor (M5) DrivePress the push switch SW2 on the ADF controller PCB to start it; another press will stop it.While in operation, each press on the push switch SW3 changes the speed of motor rotation to 100mm/sec. (700 -> 100 mm/sec)Pickup Motor (M3) DrivePress the push switch (SW2) on the ADF controller PCB; press SW3 to move up or SW4 to move down. Another press on SW2 will stop it.
Chapter 5
5-48
Solenoid/Clutch DrivePress the push switch SW2 on the ADF controller PCB to execute the following in sequence; the operation will end automatically:Stopper plate solenoid (SL2)->Delivery solenoid (SL4)->Pre-reversal solenoid (SL3)->Reversal solenoid (SL1)->Clutch (CL)Separation Motor (M4), Clutch (CL) DrivePress the push switch (SW2) on the ADF controller PCB to start it; another press will stop it.While in operation, each press on the push switch SW3 changes the speed of motor rotation to 100mm/sec. (700 -> 100 mm/sec)Manual Feed OperationPlace an original in the manual feed assembly, and press the push switch (SW2) on the ADF controller PCB so that the original will be picked up and stopped.
Tray Pickup Arch AdjustmentPress the push switch SW2 on the ADF controller PCB to start, and use the push switch SW3/SW4 to make adjustments. At the end, press the push switch SW2 to store the new setting.
Reversal Arch adjustmentPress the push switch SW2 on the ADF controller PCB to start, and use the push switch SW3/SW4 to make adjustments. At the end, press the push switch SW2 to store the new setting.
Manual Feed Arch AdjustmentPress the push switch SW2 on the ADF controller PCB to start, and use the push switch SW3/SW4 to make adjustments. At the end, press the push switch SW2 to store the new setting.
Setting Description
Chapter 5
5-49
Feeding Belt Speed Adjustment (reproduction ratio in stream reading)Press the push switch SW2 on the ADF controller to start, and use the push switch SW3/SW4 to make adjustments. At the end, press the push switch SW2 to store the new setting.Reversal Speed AdjustmentPress the push switch SW2 on the ADF controller PCB to start, and use the push switch SW3/SW4 to make adjustments. At the end, press the push switch SW2 to store the new setting.
Original Stop Position AdjustmentPress the push switch SW2 on the ADF controller PCB to start, and use the push switch SW3/SW4 to make adjustments. At the end, press the push switch SW2 to store the new setting.
Manual Feed Original Stop Position AdjustmentPress the push switch SW2 on the ADF controller PCB to start, and use the push switch SW3/SW4 to make adjustments. A the end, press the push switch SW2 to store the new setting.
Sensor and Delivery Motor Auto AdjustmentPress the push switch SW2 on the ADF controller PCB. The operation will end automatically.
Separation Assembly CleaningPress the push switch (SW2) on the ADF controller PCB to rotate the registration roller; another press will stop the operation.
Registration Roller CleaningIf the dirt is limited,Place 10 sheets of copy paper in the original tray, and press the push switch on the ADF controller PCB. The operation will end automatically.Registration Roller CleaningIf the dirt is appreciable,Press the push switch SW2 on the ADF controller PCB. When the registration roller starts to rotate, clean with lint-free paper moistened with alcohol.To stop operation, press the push switch SW2 onceagain.
Setting Description
Chapter 5
5-50
5.6.4 Reversal Motor Driver PCB/ Belt Motor Driver PCB0013-3945
F-5-139
5.6.5 Pickup Tray PCB0013-3947
F-5-140
Original Width Detecting Switch (SW301) CheckPress the push switch SW2 on the ADF controller PCB to start it; another press will stop it.
Backup RAM ClearPress the push switch SW2 on the ADF controller PCB; press the push switch SW3 five times in succession to automatically end backup RAM clear.
Setting Description
J602
J601
J51J52
SW301
Chapter 5
5-51
5.6.6 Indication LED PCB0013-3949
F-5-141
5.7 Service Tools
5.7.1 Special Tools List0013-3950
You will need the following special tool when servicing the machine in addition to the standard tools set.
T-5-33
MEMO:*Use the following as a guide:A: Each service person is expected to carry one.B: Each group of five service persons is expected to carry one.C: Each workshop is expected to carry one.
5.7.2 Solvents and Oils List0013-3951
F-5-142
Tool name Tool No. Shape Rank* RemarksDigital Multimeter
FY9-2002-000 A For making electrical checks
J55
No. Name Uses Composition Remarks
1 Alcohol Cleaning; e.g., glass, plastic, rubber (external covers).
Fluorine-family hydrogen carbon, alcohol, surface activating agent
• Do not bring near fire.• Procure locally.• IPA (isopropyl alcohol)
2 Lubricant Driving parts, friction parts
Silicone oil CK-0551 (20 g)
ERROR CODE
Chapter 6
Contents
Contents
6.1 Service Error Code ........................................................................................... 6-16.1.1 E402 ............................................................................................................................. 6-16.1.2 E404 ............................................................................................................................. 6-16.1.3 E405 ............................................................................................................................. 6-16.1.4 E410 ............................................................................................................................. 6-16.1.5 E420 ............................................................................................................................. 6-1
6.2 Jam Codes ......................................................................................................... 6-26.2.1 List of Jam Code ........................................................................................................ 6-2
6.3 Alam Code.......................................................................................................... 6-66.3.1 List of Alarm Code ..................................................................................................... 6-6
Chapter 6
6-1
6.1 Service Error Code
6.1.1 E4020013-3982
Cause- The belt motor (M2) is faulty.- The belt motor clock sensor (PI 1) is faulty.- The ADF controller PCB is faulty.
DetectionWhen the belt motor drive signal is generated, no clock signal is detected for 100 msec.
6.1.2 E4040013-3983
Cause- Cause The delivery motor (M5) is faulty.- The delivery motor clock sensor (PI 11) is faulty.- The ADF controller PCB is faulty.
DetectionWhen the delivery motor drive signal is generated, no clock signal is detected for 200 msec.
6.1.3 E4050013-3984
Cause- The separation motor (M4) is faulty.- The separation motor clock sensor (PI 2) is faulty.- The ADF controller PCB is faulty.
DetectionWhen the separation motor drive signal is generated, no clock signal is generated for 200 msec.
6.1.4 E4100013-3985
Cause- The pickup motor (M3) is faulty.- The pickup roller height sensor 1 (PI 8) is faulty.- The pickup roller height sensor 2 (PI 9) is faulty.- The pickup roller home position sensor (PI 7) is faulty.- The ADF controller PCB is faulty.
Detection- The pickup roller height sensor 1 (PI 8) and the pickup roller height sensor 2 (PI 9) do not generate a signalwithin 2 sec after the pickup motor has been driven.- The pickup roller home position sensor (PI 7) does not generate a signal within 2 sec after the pickup motorhas been driven.
6.1.5 E4200013-3986
CauseThe backup data cannot be read; or, the data that has been read has an error.
DetectionWhen the copier is turned on, the backup data cannot be read twice; or, the data that has been read has an error.
Chapter 6
6-2
6.2 Jam Codes
6.2.1 List of Jam Code0013-4228
T-6-1
Code Sensor type Sensor notation
Description
0001 separation delay S4 At time of separation, the separation sensor does not detect the original when it has been moved over a specific distance (221 mm) after the start of the separation motor.
0002 pickup delay S4, S2 At time of separation, the pre-registration sensor does not detect the original when it has been moved over a specific distance (93 mm) after the separation sensor has detected its lead edge.
0003 pickup stationary 1 S3 At time of pickup, the post-registration sensor does not detect the original when it has been moved over a specific distance (40 mm) after the start of the reversal motor.
0004 pickup stationary 2 S2 At time of pickup, the pre-registration roller sensor detects the original when it has been moved over a specific distance (330 mm if small; 660 mm if large) after the start of the reversal motor.
0005 reversal delay S1 At time of reversal, the reversal sensor does not detect the original when it has been moved a specific distance (104 mm) from the platen roller.
0006 reversal stationary S1 At time of reversal, the reversal sensor detects the original when it has been moved over a specific distance (original length x 1.5 mm) after the end of arching.
0007 delivery delay PI13 At time of delivery, the delivery sensor does not detect the original when it has been moved over a specific distance (631 mm - original length) after the start of the belt motor.
0008 delivery stationary 1 PI13, S9 At time of delivery, the manual feeder registration roller sensor detects the original when it has been moved over a specific distance (original length + 100 mm) after the delivery sensor has gone on.
0009 delivery stationary 2 PI13, S9 At time of delivery, the delivery sensor detects the original when it has been moved over a specific distance (100 mm) after the manual feeder registration roller sensor has gone off.
0010 pre-reversal delay 1 S3 At time of pre-reversal, the post-registration roller sensor does not detect the original after it has been moved over a specific distance (50 mm) from the start of the reversal motor.
0011 pre-reversal delay 2 S1, S3 At time of pre-reversal, the reversal sensor does not detect the original when it has been moved over a specific distance (100 mm) after the post-registration roller sensor has gone on.
0012 pre-reversal delay 2 PI4 At time of pre-reversal, the pre-reversal sensor does not detect an original when the reversal motor stops.
0013 pre-reversal stationary 1
S1, S4 At time of pre-reversal, the separation sensor detects the original when it has been moved over a specific distance (169 mm) after the reversal sensor has gone on.
0014 pre-reversal stationary 2
S2, S4 At time of pre-reversal, the pre-registration roller sensor detects the original when it has been moved over a specific distance (120 mm) after its trail edge has moved past the separation pull-off roller.
0015 pre-reversal stationary 3
S2, S3 At time of reversal, the post-registration sensor detects the original when it has been moved over a specific distance (50 mm) after its trail edge has moved past the pre-registration roller sensor.
0016 pre-reversal stationary 4
S1, S3 At time of pre-reversal, the reversal sensor detects the original when it has been moved over a specific distance (100 mm) after the start of the reversal motor.
Chapter 6
6-3
0017 pre-reversal pickup delay
S1 At time of pre-reversal pickup, the reversal sensor does not detect the original when it has been moved over a specific distance (100 mm) after the start of the reversal motor.
0018 pre-reversal pickup stationary 1
S1, PI4 At time of pre-reversal pickup, the pre-reversal sensor detects the original when it has been moved over a specific distance after the reversal sensor has detected its lead edge.
0019 pre-reversal pickup stationary 2
S1, PI4 At time of reversal pickup, the reversal sensor detects the original when it has been moved over a specific distance after the pre-reversal sensor has detected its trail edge.
0020 reversal pickup delay S2 At time of reversal, the pre-registration roller sensor does not detect the original when it has been moved over a specific distance (197 mm) after the end of arching.
0021 reversal pickup stationary
S2 At time of reversal, the pre-registration sensor detects the original when it has been moved over a specific distance (original length x 1.5 mm) after the pre-registration roller sensor has gone on.
0022 pickup lead edge skew
S4, S5 At time of separation, there is a discrepancy of 10 mm in timing of lead edge detection between separation sensor and skew sensor.
0023 pickup trail edge skew S4, S5 A time of pickup, there is a discrepancy of 10 mm in timing of trail edge detection between separation sensor and skew sensor.
0024 pickup NG1 S1 At time of pickup, the reversal sensor detects the original before it has moved past the pre-registration roller sensor.
0025 pickup NG2 S2, S3 At time of pickup, the post-registration roller sensor detects an original before the reversal motor has started.At time of pickup, the pre-registration roller sensor does not detect the original when it has been moved over a specific distance.At time of pre-reversal, the post-registration roller sensor detects an original before the reversal motor has started.At time of reversal, the pre-registration roller sensor does not detect the original when its trail edge moves past the reversal sensor.
0026 reversal pickup edge skew
S4, S5 At time of pre-reversal, there is a discrepancy of 10 mm in timing of trail edge detection between separation sensor and skew sensor.
0027 reversal pickup NG1 PI4 At time of reversal, the pre-reversal sensor detects an original while the machine waits for the activation of the pre-registration roller sensor.
0030 manual feed registration delay
S9 At time of arching in manual feed mode, the manual feeder registration roller sensor does not detect an original within a specific time after the start of the delivery motor.
0031 manual feed registration stationary
S1 In manual feed mode, the reversal sensor does not detect the original when it has been moved over a specific distance (638 mm) after the start of the belt motor.
0032 manual feed reversal stationary
S1 In manual feed mode (platen roller), the reversal sensor detects the original when it has been moved over a specific distance (50 mm) after the start of the belt motor.
0033 manual feed delivery delay
PI13 At time of delivery in manual feed mode, the delivery sensor does not detect the original when it has been moved over a specific distance (621 mm - original length).
0034 manual feed delivery stationary
PI13 At time of delivery in manual feed mode, the delivery sensor does not detect the original after it has been moved over a specific distance (621 mm - original length).
0043 1st sheet pickup stationary 1
S3 A pickup stationary 1 condition (0003) has occurred on the 1st sheet.
0044 1st sheet reversal delay
S2 A pickup stationary 2 condition (0004) has occurred on the 1st sheet.
0045 1st sheet registration delay
S1 A reversal delay condition (0005) has occurred on the 1st sheet.
Code Sensor type Sensor notation
Description
Chapter 6
6-4
0046 1st sheet reversal stationary
S1 A reversal stationary condition (0006) has occurred on the 1st sheet.
0047 1st sheet delivery delay
PI13 A delivery delay condition (0007) has occurred on the 1st sheet.
0048 1st sheet delivery stationary 1
PI13, S9 A delivery stationary condition (0008) has occurred on the 1st sheet.
0049 1st sheet delivery stationary 2
PI13, S9 A delivery stationary condition (0009) has occurred on the 1st sheet.
0050 1st sheet pre-reversal delay 1
S3 A pre-reversal delay 1 condition (0010) has occurred on the 1st sheet.
0051 1st sheet pre-reversal delay 2
S1, S3 A pre-reversal delay 1 condition (0011) has occurred on the 1st sheet.
0052 1st sheet pre-reversal delay 3
PI4 A pre-reversal delay 3 condition (0012) has occurred on the 1st sheet.
0053 1st sheet pre-reversal stationary 1
S1, S4 A pre-reversal delay 1 condition (0013) has occurred on the 1st sheet.
0054 1st sheet pre-reversal stationary 2
S2, S4 A pre-reversal stationary 2 condition (0014) has occurred on the 1st sheet.
0055 1st sheet pre-reversal stationary 3
S2, S3 A pre-reversal stationary 3 condition (0015) has occurred on the 1st sheet.
0056 1st sheet pre-reversal stationary 4
S1, S3 A pre-reversal stationary 4 condition (0016) has occurred on the 1st sheet.
0057 1st sheet pre-reversal pickup delay
S1 A pre-reversal pickup delay condition (0017) has occurred on the 1st sheet.
0058 1st sheet pre-reversal pickup stationary 1
S1, PI4 A pre-reversal pickup stationary 1 condition (0018) has occurred on the 1st sheet.
0059 1st sheet pre-reversal stationary 2
S1, PI4 A pre-reversal pickup stationary 2 condition (0019) has occurred on the 1st sheet.
0060 1st sheet reversal pickup delay
S2 A reversal pickup delay condition (0020) has occurred on the 1st sheet.
0061 1st sheet reversal pickup stationary
S2 A reversal pickup stationary condition (0021) has occurred on the 1st sheet.
0062 1st sheet pickup lead edge skew
S4, S5 A pickup lead edge skew condition (0022) has occurred on the 1st sheet.
0063 1st sheet pickup trail edge skew
S4, S5 A pickup trail edge skew condition (0023) has occurred on the 1st sheet.
0064 1st sheet pickup NG1 S1 A pickup NG1 condition (0024) has occurred on the 1st sheet.0065 1st sheet pickup NG2 S2, S3 A pickup NG2 condition (0025) has occurred on the 1st sheet.0066 1st sheet reversal
pickup trail edge skewS4, S5 A reversal pickup trail edge skew condition (0026) has occurred on the 1st
sheet.0067 1st sheet reversal
pickup NG1PI4 A reversal pickup NG1 condition (0027) has occurred on the 1st sheet.
0071 timing fault 1 - A software control mechanism has failed.0072 timing fault 2 - At time of fixed reading, the delivery of the preceding original is not over
when an original has been moved and stopped on the right side of the platen roller.
0073 illegal size S3 In LDR stream reading, the post-registration roller sensor detects the original when it has been moved over a specific distance (30 mm) from standby position.
0074 manual feeder original size fault
S1, S9 In manual feed mode, the reversal sensor detects an original while the manual feeder registration roller sensor detects another original.
Code Sensor type Sensor notation
Description
Chapter 6
6-5
0075 image lead edge fault S7 In stream reading, no change of read position has taken place despite a request for a change of reading position.
0076 1st sheet image lead edge position fault
S7 An image lead edge fault condition (0075) has occurred on the 1st sheet.
0077 belt speed setting fault PI1 The speed setting of the belt motor is the minimum speed (100 mm/sec) or lower or is the maximum speed (700 mm/sec) or higher.
0078 belt speed switchover fault
PI1 At time of a belt motor speed switchover, the belt motor is not operating at a specific speed.
0079 belt status fault PI1 At time of a switchover of the belt motor state (acceleration, constant, deceleration), the motor is not in any of the 3 states.
0080 image lead edge output timing fault
S2, S3, SW301
At time of stream reading, the image lead edge signal is generated during acceleration over the distance from standby position to image lead edge position.
0081 reversal speed setting fault
PI5 The speed setting of the reversal motor is the minimum speed (100 mm/sec) or lower or is the maximum speed (700 mm/sec) or higher.
0082 reversal speed switchover fault
PI5 At time of a reversal motor speed switchover, the motor is not operating at a specific speed.
0083 reversal status fault PI5 At time of a switchover of the motor state (acceleration, constant, deceleration), the motor is not in any of the 3 settings.
0084 last original error PI1 While the last original is being discharged from the platen roller or is being moved, a belt motor error has occurred.
0085 error PI1, PI2, PI11
A motor error other than an IPC communication/pickup error has occurred. (less than 3 occurrences)
0090 ADF open PI10 An ADF open condition has been detected.0091 user DF open PI10 An ADF open condition has been detected while the machine is in operation.0092 cover open PI3, PI6 A cover open condition (front or rear) has been detected.0093 user cover open PI3, PI6 While the machine is operating, a sensor in the paper path has detected an
original.0094 initial stationary PI4, PI12,
PI13, S1, S2, S3, S4, S5, S9
At the start of operation, the presence of an original has been detected by a senser in the paper path.
0095 cycle NG S6 While no sensor is on, the pickup signal is received for a specific time (2 sec).0096 residual original S1 Before the start of a left pickup job, the reversal sensor has detected an original
while the belt motor is being driven for a specific time.0097 manual feeder
residual originalS1, S9 At time of manual feed pickup, the reversal sensor detects an original while
the manual feeder registration roller sensor also detects an original.0098 power-down - While the machine is operating, a drop has occurred in the voltage of the
power supplied by the host machine.
Code Sensor type Sensor notation
Description
Chapter 6
6-6
6.3 Alam Code
6.3.1 List of Alarm Code0013-4229
T-6-2
Code Name Description03 separation fault a jam caused by the 1st original not reaching the post-
separation sensor a jam caused by the 1st original not reaching the registration sensor
11 decrease in number of originalsafter jam recovery
a condition caused by a decrease in the number of originals in the tray before delivery of as many as [originals to be recovered - 1] have been delivered at time of jam recovery
21 mode fault selection of mode not permitting execution
APPENDIX
1
1 General Timing ChartA4 3 One-Sided Originals Fixed Reading
F-1-1
A4/A3 2 One-Sided Originals Fixed Reading
F-1-2
COPYStart key ON
Original sensor S6
Pickup roller homeposition sensor PI 7
Pickup roller heightsensor 1/2 PI 8/9
Stopper plate solenoid SL2
Pickup motor M3
Separation motor M4
Separation clutch CL
Reversal motor M1
Belt motor M2
Delivery motor M5
UP DOWN UP DOWN UP UPDOWN
separates 1st original
moves 1st original in delivery directionreads 2nd originalseparates 3rd original
delivers 1st originalmoves 2nd original in delivery directionreads 3rd direction
delivers 2nd originalmoves 3rd original in delivery direction
delivers 3rd original
reads 1st originalseparates 2nd original
A4 Single-Sided Originals; Fixed Reading
motor reverse rotation
Start key ON
Original sensor S6
Pickup roller home position sensor PI 7
Pickup roller heightsensor 1/2 PI 8/9
Stopper plate solenoid SL2
Pickup motor M3
Separation motor M4
Separation clutch CL
Reversal motor M1
Belt motor M2
Delivery motor M5
UP DOWN UP UPDOWN
picks up 1st original reads 1st original
1discharges 1st original
picks up 2nd original reads 2nd original
discharges 2nd original
A4/A3 Single-Sided Originals; Fixed Reading
motor reverse rotation
2
A4 3 One-Sided Originals Stream Reading
F-1-3
holds 1st original in standby
separates 2nd original
reads 1st originalholds 2nd original in standbyseparates 3rd original
discharges 1st originalreads 2nd originalholds 3rd original in standby
discharges 2nd originalreads 3rd original
discharges 3rd original
A4 Single-Sided Originals; Stream Reading
does not stop 2nd original before reading
stops 3rd original before reading
Original sensor S6
Pickup roller home position sensor PI 7
Pickup roller heightsensor 1/2 PI 8/9
Stopper plate solenoid SL2
Pickup motor M3
Separation motor M4
Separation clutch CL
Reversal motor M1
Belt motor M2
Delivery motor M5
motor reversal rotation
Start key ON
3
A3 2 One-Sided Originals Stream Reading
F-1-4
Start key ON
Original sensor S6
Pickup roller home position sensor PI 7
Pickup roller heightsensor 1/2 PI 8/9
Stopper plate solenoid SL2
Pickup motor M3
Separation motor M4
Separation clutch CL
Reversal motor M1
Belt motor M2
Delivery motor M5
UP DOWN UP UPDOWN
separates 1st original reads and discharges 1st original
moves 2nd original to standby positionreads 2nd original discharges
2nd original
moves 1st original to standby position
separates 2nd original
A3, 2 Single-Sided Originals, Stream Reading
motor reverse rotation
does not stop 2nd original before reading
stops 3rd original before reading
4
A4/A3 2 One-Sided Originals Stream Reading
F-1-5
A4 3 Two-Sided Originals Fixed Reading
F-1-6
Start key ON
Original sensor S6
Pickup roller home position sensor PI 7
Pickup roller heightsensor 1/2 PI 8/9
Stopper plate solenoid SL2
Pickup motor M3
Separation motor M4
Separation clutch CL
Reversal motor M1
Belt motor M2
Delivery motor M5
UP DOWN UP UPDOWN
picks up 1st original reads and discharges
1st original
picks up 2nd original reads and discharges 2nd original
A4/A3, 3 Single-Sided Originals; Stream Reading
motor reversal rotation
Reversing solenoid SL1
DOWN
DOWN
UPUP UPDOWN UP
A4 Double-Sided Originals; Copying
separates1st original
pre-reversal for 1st original
moves 2nd original to copyboard glass
reads back of 1st original
reads back of 2nd original
turns over 1st originalseparates
2nd original
turns over2nd originalseparates
3rd original
reads face of1st original
pre-reversal for 2nd original
reads face of 2nd originalpre-reversal
for 3rd original
reads back of 3rd original
turns over3rd original
reads face of 3rd
original
moves 3rd originalto copyboard glass
discharges 2nd originalmoves 3rd original
discharges 3rd originalStart key ON
Original sensor S6
Pickup roller home position sensor PI 7
Pickup roller heightsensor 1/2 PI 8/9
Stopper plate solenoid SL2
Pickup motor M3
Separation motor M4
Separation clutch CL
Reversal motor M1
Belt motor M2
Delivery motor M5
motor reversal rotation
5
A3 2 Two-Sided Originals Fixed Reading
F-1-7
Start key ON
Original sensor (S6)
Pickup roller home position sensor (PI 7)
Pickup roller height sensor 1/2 (PI 8/9)
Stopper plate solenoid (SL2)
Pickup motor (M3)
Separation motor (M4)
Separation clutch (CL)
Reversal motor (M1)
Reversal solenoid (SL1)
Belt motor (M2)
Delivery motor (M5)
DOWN UP UPDOWN
Separate1storiginal
Move1st
originalto
copyboardglass
Read back of 1st original
Read back of 2nd original
Read face of 1st originalSeparate 2nd original
Read face of 2nd original
Deliver2ndoriginal
Deliver 1st originalMove 2nd original to copyboard glassReverse 2nd original
Reverse1st original
Reverse 1st original
Reverse 2nd original
UP
: motor reverse rotation.
A3, 2 Double-sided Originals, Copying
6
A4 2 Two-Sided Originals Scan
F-1-8
Manual Feed Copy
F-1-9
Reversal solenoid SL1
DOWN UPDOWN UP
A4, 2 Double-Sided Originals; Scan
picks up 1st original
turns over 1st original
turns over2nd original
reads face of 1st
original
turns over 1st original
again
discharges1st original
picks up 2nd
original
readsbackof 1st
original
reads face
of 2nd
original
readsback
of 2nd
original
reads back of 2nd original
turns over 2nd
original again
Start key ON
Original sensor S6
Pickup roller home position sensor PI 7
Pickup roller heightsensor 1/2 PI 8/9Stopper plate solenoid SL2
Pickup motor M3
Separation motor M4
Separation clutch CL
Reversal motor M1
Belt motor M2
Delivery motor M5
motor reversal rotation
Start key ONOriginal placed in manual feeder
Belt motor (M2)
Delivery solenoid (M5)
Reversal solenoid(SL4)
Manual feeder placement sensor(PI 12)
Reversal sensor(SL1)Original delivery sensor(PI 1)Original placed in manual feeder(PI 13)
pickup print dischargemove
original placed
0.4 sec (approx.)
9
2 General Circuit DiagramSignal NamesSignals and AbbreviationsThe following is a list of signals and its abbreviations used in this chapter and circuit diagrams.
MEMO:The abbreviations in parentheses are electrical signals but are analog, which cannot be expressed in terms of '1' or '0'. Others are digital signals, which can be expressed in terms of '1' and '0'.
T-2-1
BTCLK Belt Motor ClockDetection signal PKH2 Pick-Up Roller Height Detection Signal 2 SSW-0 Original Width Detection signal 0
B-Vref Belt Motor Rotation Torque signal PKHP Pick-Up Roller Home Position Detection signal SSW-1 Original Width Detection signal 1
CLD* Clutch Drive command REF-CLK Belt Motor Phase Control command SSW-2 Original Width Detection signal 2
CW/CCW Rotation Direction signal RFOP ADF Open/Closed Detection signal SSW-3 Original Width Detection signal 3
DTLED Original Set LED Drive command RGAS Registration Rear Original Edge Detecting signal SSW-4 Original Width Detection signal 4
DTS Original Detection signal RGASAJRegistration Roller Rear Original Edge Detection Reference signal
TAILS Original Trailing Edge Detection signal
DTSAJ Original Detection Reference signal RGBS Registration Roller Front OriginalEdge Detection signal TAILSAJ Original Rear Edge Detection Reference signal
EJCLK Delivery Motor Clock Detection signal RGBSAJRegistration Roller Front Original Edge DetectionReference signal
TNS Reversal Detection signal
EJJAM Original Delivery Detection signal PRTR Pre-Reversal Detection signal TNSAJ Reversal Detection Reference signal
EJMD* Delivery Motor Drive command SEPM+ Separation Motor Drive command TRCLK Registration Roller Clock Detection signal
LCVF Left Cover Front Open/Closed Detection signal SEPM- Separation Motor Drive command T-Vref Reversal Motor Rotation Torque signal
LCVR Left Cover Rear Open/Closed Detection signal SKS Original Skew Detection signal
M1OA Reversal Motor Drive command SKSAJ Original Skew Detection Reference signal
M1OA* Reversal Motor Drive command SL1D* Reversing Solenoid Drive command
M1OB Reversal Motor Drive command SL2D1* Stopper Plate Solenoid Drive command (positiona1)
M1OB* Reversal Motor Drive command SL2D2* Stopper Plate Solenoid Drive command (position 2)
M3OA Pick-Up Motor Drive command SL3D* Pre-Reversal Solenoid Drive command
M3OA* Pick-Up Motor Drive command SL4D1* Delivery Solenoid Drive signal (position 1)
M3OB Pick-Up Motor Drive command SL4D2* Delivery Solenoid Drive signal (position 2)
M3OB* Pick-Up Motor Drive command SPCLK Separation Motor Clock Detection signal
MFRGSManual Feeder Registration RollerOriginal Detectionsignal
SPS Separation Detection signal
MFRGSAJManual Feeder Registration RollerOriginal DetectionReference signal
SPSAJ Separation Detection Reference signal
MFST Manual Feeder Original Set Detection signal
MO1 Belt Motor Drive command
MO2 Belt Motor Drive command
PKH1 Pick-Up Roller Height Detection Signal 1
10
General Circuit Diagram
F-2-1
12
CL1
21
1234
24V
SL3
D*
24V
21
12
12345 12 10 89111213 1234567
24V
24V
GN
D
LOC
K24
V
21 3 21
SE
PM
+S
EP
M-
21
12123
21
M4
5VGN
D24
V24
V24
VP
GP
GP
G
13121110987654321
M2
54321 6
J72M
5VGN
D24
V24
V24
VP
GP
GP
G
13121110987654321
654321 654321
M1
1312111098765432113121110987654321
54321 6
321
321
123
GN
D
5V
PI11J102F S
J102MJ102F
J101MJ101F
J101F S
J92MJ92F
J91MJ91F J81F
J92FS J91FSJ81M
J72F
J71M
J71F
J602F
J601M
J601F
J602M EI
J31M
J31F
32
13
21
1
2
3
1
2
3
1
2
3
1
2
3
1
2
3
1
2
3
1
2
3
1
2
3
1
21
2
1
2
3
4
5
6
1
2
3
4
5
6
6
5
4
3
2
1
1
2
3
4
5
6
8
7
6
5
4
3
2
1
1
2
3
4
5
6
7
8
GND
GND5V
GND5V
8
7
6
5
4
3
2
1
14
13
12
11
10
9
1
2
3
4
5
6
1
2
3
4
5
6
6
5
4
3
2
1
S5
1
2
3
4
5
6
13
8
7
6
5
4
3
2
1
14
12
11
10
9
15
GND
5VGND
5V5VGND
5VGND
5VGND
8
9
10
11
12
13
14
15
2
3
4
5
6
7
1
GND24V5VGND
LASTSLASTSAJ
SSW_C
8
7
6
5
4
3
2
1
13
12
11
10
9
1
2
3
4
5
6
13
12
11
10
9
8
7
6
5
4
3
2
1
21
21
21
12
1
2
3
P S
P S
S2
S3
P S
P S
S4
P S
S7S6
J132
F
J122
M
PI2
J122
F
J121
M
PI1
J121
F
J123
M
J123
F
J124
M
J124
F
J125
M
PI4
PI3
J125
F
J136
M
J136
F
J135
M
J135
F
J133
FS
J133
F
J132
FS
J133
M
J132
M
J134
F
J131
FS
J131
F
J131
M
J134
M
PI10
J10 J9 J7J8 J6
J12J13
J3
J5 J51F
J53M
J51M
J55M
J55F
J54FSJ54M
J54F
J52M
SL1
SL2
SL3
1
2
3
1
2
3
1
2
3
1
2
3
1
2
3
1
2
3
8
7
6
5
4
3
2
1
9 1
2
3
4
5
6
7
8
9
3
2
1
3
2
1
3
2
1
3
2
1
5VGND
5V
5V
GND
GND
GND
GND
5V
5V
GND
5VGND
J146
M
J146
F
PI7
J147
M
J147
F
PI8
J148
M
J128
F
PI9
J141
FS
J141
M
J142
M
J148
F
PI5
J143
M
J143
F
PI6
J141
F
1
2
3
2
1
1
2
3
1
2CT
S6
LED2
J145
F
J140
F
J145
M
J140
MJ1
40F
S
5
4
3
2
1
4
3
2
1
1
4
5
2
3
4
3
2
1P S
S1
J149
M
J149
F
J144
FS
J144
M
J144
F
1234567891011121314
1
2
3
3
2
1
8
9
10
11
12
13
14
15
2
3
4
5
6
7
1
GND5V
24V
GND5V
GND5V
24V
7
6
5
4
3
2
1
12
11
10
9
8
8
9
10
11
12
2
3
4
5
6
7
1
7
6
5
4
3
2
1
1
2
3
4
5
6
7
3
2
1
4
3
2
1
3
2
1
3
2
1
1
2
2
1
3
2
1
M5
4
3
2
1
P S
S9
J2
J22F
S
J22F
J21F
J22M
J27F
J26F
J24F
S
J24F
J24M
J26M
PI12
J25M
J25F
J23F
S
J27M
PI13
J21M
J21F
S
J23F
J23M
SL4
FM1
21 3
123
J93MJ93F
J93FS
678
MT2 MT3
1
2
3
1
2
3
4
5
6
7 GND13VGNDTXDRXDEDGOGND
24VPG
J1M
J15M
J4M
J16M 1
2
3
4
5 GNDDL-MDRST*MD*GND
J501
CJ5
01A
J501
BB8
12
34
A7
MT1
12345
4321
M30A*M30A
1234
M3
J111L
J111HJ111D
J11
M30B*M30B
J14AJ14B
CLD
*
SL2
D1*
SL1
D*
SL2
D2*
M2O
BM
2OA
M2O
B*
M2O
A*
B-V
ref
M1O
B*
M1O
A*
M1O
BM
1OA
T-V
ref
EJC
LK
DTSRGBSAJRGBSRGASAJRGAS
SPSAJSPSSKSAJSKS
BTCLK
SPCLK
LCVR
PRTR
RFOP
DTLED
TAILSTAILSAJ
SSW_0SSW_1SSW_2SSW_3SSW_4
ADF controller PCB
LCVF
TRNSAJTRNS
TRCLK
DTSAJ
PKHP
PKH1
PKH2
EJJAM
EJMD*
MFST
MFRGSAJMFRGS
SL4D2*SL4D1*
Interface cable
SW.301
Reversal sensor
Registration roller clock sensor
Left cover sensor (front)
Pickup roller height sensor 1
Pickup roller height sensor 2
Pickup roller home position sensor
Original sensor (light-emitting side)
Separationsensor
Skew sensor
Post-registration roller paper sensor
Pre-registration roller paper sensor
Original sensor (light-receiving side)
ADF open/closed sensor
Pre-reversal sensor
Left cover sensor
Separation motor clock sensor
Belt motor clock sensor
Pickup motor Clutch
Pre-reversing solenoid
Stopper plate solenoid (2 positions)
Reversing solenoid
Separation motor
Belt motor driver PCB
Belt motor
Reversal motor driver PCB
Reversal motor
Delivery motor clock sensor
Display PCB
Tray PCB
Originalwidth detectionswitch
Original trailingedge sensor
Manual feed set sensor
Manual feed registration roller paper sensor
Delivery solenoid (2 positions)
Originaldelivery sensor
Coolingfan
8
7
6
5
4
3
2
1
11
10
9
7
8
6
5
4
3
2
1
11
10
9
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