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This document has been published to be used forafter sales service only.The contents are subject to change without notice.
Parts marked with “ “ are important for maintaining the safety of the set.
Be sure to replace these parts with specified ones for maintaining the safety and performance of the set.
SHARP CORPORATION
LASER PRINTER OPTIONS
FINISHER
MODEL AR-FN6
CODE : 00ZARFN6//A1E
[1] PRODUCT OUTLINE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 - 1
[2] CONFIGURATION. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2 - 1
[3] SPECIFICATIONS. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 - 1
[4] UNPACKING AND INSTALLATION . . . . . . . . . . . . . . . . . . . . . . 4 - 1
[5] EXTERNAL VIEWS AND INTERNAL STRUCTURES . . . . . . . 5 - 1
[6] MACHINE OPERATION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6 - 1
[7] OPERATIONAL DESCRIPTIONS . . . . . . . . . . . . . . . . . . . . . . . 7 - 1
[8] ADJUSTMENTS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 - 1
[9] DISASSEMBLY AND ASSEMBLY, MAINTENANCE . . . . . . . . . 9 - 1
[10] BLOCK DIAGRAM, WIRING DIAGRAM . . . . . . . . . . . . . . . . . 10 - 1
[11] OTHERS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11 - 1
CONTENTS
AR-FN6
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AR-FN6 PRODUCT OUTLINE, CONFIGURATION 1-1
[1] PRODUCT OUTLINE
This unit is installed to one of the following machines to serve as an after-process unit of output paper of a printer, copier or FAX machine. This unit allows to shift each bundle of paper printed in the page sequence or sorted by each page. It also allows to staple a bundle of paper sorted in the page sequence.
[2] CONFIGURATION
1. Before installing this unit, one of the multi-purpose tray (AR-MU1), the large capacity paper feed desk (AR-D13), and the 3-stage paper feed desk(AR-D14) must be installed in advance.
2. When this unit and the AR-MU1 are installed, the option power unit (AR-DC1) must be installed together. 3. This unit cannot be installed together with the male bin stacker (AR-MS1) and the upper exit tray extension (AR-TE4).
Applicable models AR-P350 / P450, AR-M350 / M450
Output units
AR-FN6
Sca
nner
rac
k
Finisher
=Any of the units must be installed together.
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ay
Dup
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B/W
sca
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DS
PF
Sad
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ishe
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Fin
ishe
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Mai
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Exi
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y
Pun
ch u
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pans
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Facs
imile
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it
Prin
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ver
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Har
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rive
Pow
er s
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it
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*1
*1
Simultaneous installationnot allowed
Simultaneous installationis required
B/W scanner module/DSPF(AR-EF1)
Upper exit trayextension(AR-TE4)
Finisher(AR-FN6)
Mail-bin stacker(AR-MS1)
Stand/MPD& 2000 sheetpaper drawer(AR-D13)
Power supply unit(AR-DC1)
Multi purpose drawer(AR-MU1)
Stand/3 x 500 sheetpaper drawer(AR-D14)
Saddle stitchfinisher(AR-FN7)
Duplexmodule/bypass tray(AR-DU4)
Exit tray(AR-TE3 or AR-DU4 Standard)
Duplex module(AR-DU3)
Simultaneousinstallationnot allowed
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AR-FN6 SPECIFICATIONS 3-1
[3] SPECIFICATIONS
1. Basic
2. Staple parts
3. Consumable parts
Type Desktop type finisher with dual exit tray
Transport speed To support 35-45 sheet/minute
Transport alignment Center alignment
Tray type (No. of tray)
Upper tray
EXIT tray
Lower Tray
Ascent/descent type offset tray
Output paper capacity
Upper tray
500 sheets sheets (A4/8.5"x11", 80g/m²)
Lower Tray
750 sheets (A4/8.5"x11", 80g/m²)
Output paper delivery Face-down
Output paper size
Upper tray
A3, B4, A4, A4R, B5, B5R, A5R11"x17", 8.5"x14", 8.5"x13", 8.5"x11", 8.5"x11"R,5.5"x8.5"R,Executive, Japanese post card,Monarch(98x191),Com-10(105x241), DL(110x220),C5(162x229), ISO B5(176x250)
Lower Tray
Spec of media for paper output
Upper tray
Tracing paper:52-59g/m² / 14-15lbsPlain paper:60-128g/m² / 16-34lbsIndex paper:176g/m² / 47lbsCover paper:205g/m² / 54-55lbsTransparency
Lower Tray
Plain 60-128g/m² /16-34lbs
Remaining paper detection
Upper tray
Not provided
Lower Tray
Provided
Exit tray full detection
Upper tray
Provided
Lower tray
Provided
Power consumption Less than about 67.3W
Power source Supplied from the optional power source(AR-DC1)(DC24V 2.7A / DC5V 0.5A)
External dimensions(WxDxH)
460 x 530 x 508 (mm)
Occupied dimensions(WxD)
460 x 530 (mm)
Weight Approx. 21kg
Offset stack Offset volume:25mmPaper size to be stapled
A4, B5, 8.5"x11"
Ability of stapler (Max. # of pages for staple)
30 sheets (smaller than A4/8.5"x11", 80g/m²)
Stapling pattern 3 patterns (front 1/rear 1/both)Stacking performance
Offset Horizontal displacement: Less than 15mm (Less than 10mm up to 250 sheets)Vertical displacement: Less than 15mm(In the non-staple mode on the offset tray)
Matching Max. deviation width Within 2mm(In the staple mode on the offset tray)
Staple supply Refill systemStaple detection Staple empty Provided
No cartridge ProvidedStaple jam Provided
Kinds of paper which cannot be stapled
Pre-punched paper, transparency film, heavy paper, label, envelope, postcard
Name Content LifeProductname
Remark
Staple cartridge
Staple cartridge
x3 3000x3 AR-SC1 Common with cartridge for AR-FN4 & AR-FN6
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AR-FN6 UNPACKING AND INSTALLATION 4-1
[4] UNPACKING AND INSTALLATION
<Before installation>
• Start installation after checking that the DATA and COMMUNICATIONindicators on the operation panel are neither lit nor blinking.
• For installation of AR-FN6, an optional stand/paper drawer (stand/MPD& 2000 sheet paper drawer, stand/3 x 500 sheet paper drawer or multipurpose drawer) must have been installed.Also if a multi purpose drawer has been installed, a power supply unit(AR-DC1) is needed additionally.
1) Turn off the main switch of the main unit of the printer.Turn the main switch located on the front side of the main unit to the"OFF" position.Then, remove the power plug of the main unit from the outlet.
2) Remove the upper cabinet of the stand/paper drawer.<1>Pull out the paper tray of the stand/paper drawer.
Remove the four screws attached to the right on the top of the stand/paper drawer and remove the cabinet.
<2>Mount screw B to the position shown in the illustration.
3) Attach the finisher.<1>Remove the paper exit actuator from the main unit of the printer.
<2>Raise the relay unit at the side of the finisher.
<3>Hold the grip of the finisher and place the finisher on the stand/paper drawer temporarily.Then, push the lower part to attach the finisher by sliding it toward the exit tray of the main unit.At this time, align the finisher with the exterior line of the stand/paper drawer.
<Parts included>
Mounting plates: 2 pcs. Staple cartridge: 1 pc.
Tray 1: 1 pc.
Screws A (M4x8): 5 pcs.
Screw B: 1 pc.
Tray 2: 1 pc.
Stapling position labels:
2 sheets
"OFF"
Cabinet
Screw B
Actuator
Relay unit
Push.
Push.
Place.
Grip
Grip
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AR-FN6 UNPACKING AND INSTALLATION 4-2
<4>Open the front cover of the finisher and fix the finisher with three screws A at the positions shown in the illustration.Then, close the front cover and close the paper tray of the stand/paper drawer.
<5>Attach the mounting plates to the positions shown in the illustration and fix them with screws A.
Caution: Insert the mounting plate under the desk frame.
4) Insert the staple cartridge.<1>Pull out the staple unit.
<2>Remove the sealing tape from the staple cartridge.
<3>Insert the staple cartridge.
<4>Slide the release lever to the left and return the staple unit.
5) Attach the trays.Attach tray 1, tray 2 to the positions shown in the illustration.
Steps 6) and after are the procedure to be carried out when a multipurpose drawer has been installed.If a stand/MPD & 2000 sheet paper drawer or a stand/3 x 500 sheetpaper drawer has been installed, carry out steps 9).
6) Process the AC inlet cover attached to the rear cabinet of the stand/paper drawer.
<1>Remove the two screws that secure the rear cabinet and remove the rear cabinet.
<2>Remove the screw that fixes the AC inlet cover and then remove the AC inlet cover.Process the AC inlet cover as shown in the illustration.
Screws A
Screws A
(Front side)
Mounting plates
Screws A
(Rear side)
Desk frame
Mounting plate
Tray 1
Tray 2
Screw
Screw
Screw
Rear
cabinet
AC inlet cover
Cut out.
AC inlet cover
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AR-FN6 UNPACKING AND INSTALLATION 4-3
7) Attach the power supply unit.Attach the power supply unit to the hanging portions and secure itusing the supplied three screws.
8) Connect the power supply unit harness to the PCU PWB of the mainunit of the printer.
<1>Remove the screw that fixes the harness cover of the main unit of the printer and slide the harness cover up to remove it.Process the harness cover as shown in the illustration.
<2>Connect the power supply unit harness connector to CN11 (red connector) of the PCU PWB of the main unit of the printer.
<3>Reattach the harness cover to its original position and fix it with the removed screw.At this time, ensure that the power supply unit harness is arranged as shown in the illustration.
* Fix the harness securely to the wire saddle.
9) Remove the AC inlet cover and then remove the rear cabinet of thestand/paper drawer.
<1>Remove the screw that fixes the AC inlet cover and then remove the AC inlet cover.
<2>Remove the AC cord of the power supply unit from the inlet connector of the main unit of the printer.Remove the four screws that fix the rear cabinet and then remove the rear cabinet.
10) Arrange the harness of the finisher.<1>Pass the harness of the finisher between the power supply unit and
the frame of the stand/paper drawer and connect it to the connector of the power supply unit.
<2>Fit the snap band attached to the finisher at the position shown in the illustration to fix the harness.
Optional power supply unit
Screws
Screws
Hanging portion
Hanging portion
Harness cover
Screw
Connector
CN11
Wire saddle
Harness cover
Optional power
supply harnesses
Screw
Wire saddleWire saddle
Screw
AC inlet cover
(* Similar work for the multi purpose drawer)
Rear cabinet
(* Similar work for the multi purpose drawer)
Snap band
Finisher harness Power supply unit
connector
(* Similar work for the multi purpose drawer)
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AR-FN6 UNPACKING AND INSTALLATION 4-4
11) Attach the rear cabinet of the stand/paper drawer.<1>Pass the AC cord of the power supply unit as shown in the illustration
and fix the rear cabinet of the stand/paper drawer with the screws.
<2>Attach the AC inlet cover to the rear cabinet of the stand/paper drawer and fix it with the removed screw.
12) Connect the AC cord of the optional power supply unit to the mainunit of the printer.
<1>Connect the AC cord of the power supply unit to the inlet connector of the main unit of the printer at the location shown in the illustration.
13) Paste the stapling position label. (Paste it only if the scanner module is installed.)Paste the label to the position shown in the illustration.
Rear cabinet
(* Similar work for the multi purpose drawer)
Screw
AC inlet cover
(* Similar work for the multi purpose drawer)
AC cord
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AR-FN6 EXTERNAL VIEWS AND INTERNAL STRUCTURES 5-1
[5] EXTERNAL VIEWS AND INTERNAL STRUCTURES
A. External view
B. Internal structure
1 Top cover 2 SF Knob 3 Top tray 4 Staple cartridge5 Offset tray 6 Front door 7 Staple unit
1 Finisher transport roller R1 2 De-curler roller 3 Transport roller R24 No.1 tray paper exit roller 5 S paper entry roller 6 Transport roller R27 Stapler unit 8 Lower tray paper exit roller 9 Alignment tray
2
3
5
6
4
1
7
1 23
5
4
98
6
7
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AR-FN6 EXTERNAL VIEWS AND INTERNAL STRUCTURES 5-2
C.Sensor
Code Name Function Active condition Remark
1 PID Paper In Detect Sensor Detection of paper entry into the interface transport section
L : Paper loaded
2 DOPD Door Open Detect Sensor Upper side cover open/close detection L : Door open
3 T1PF Tray 1 Paper Full Detect Sensor Upper side tray paper exit full detection L : Paper full
4 PPD Paper pushl Detect Sensor Detection of paper holding return in the compiler
H : Home position
5 SCID Staple Compiler In Detect Sensor 2 Staple paper entry detection L : Paper loaded
6 SCID2 Staple Compiler In Detect Sensor Staple paper entry detection L : Paper loaded
7 SCPD Staple Compiler Paper Detect Sensor Paper detection in the compiler L : Paper loaded
8 JFHP Jogger Front Home Position Sensor Jogger F home position detection H : Home position
9 JRHP Jogger Rear Home Position Sensor Jogger R home position detection H : Home position
10 PSHP Pushher Home Position Sensor Pusher home position detection H : Home position
11 STTHP1 Staple Turn Home Position Sensor 1 Staple rotation home position detection Detected by combination of STTHP1 and STTHP212 STTHP2 Staple Turn Home Position Sensor 2 Staple rotation home position detection
13 STUHP Staple Turn Home Position Sensor Staple shift home position detection H : Home position
14 POD Paper Out Detect Sensor Paper exit detection L : Paper loaded
15 T2UP Tray 2 Upper Detect Sensor Offset tray upper limit position detection
H : Upper limit
16 T2DN Tray 2 Down Detect Sensor Offset tray lower limit position detection H : Lower limit
17 T2PD Tray 2 Paper Detect Sensor Offset tray paper empty detection L : Paper loaded
18 DSW1 Door Switch 1 Right upper door open/close detection L : Door open
19 DSW2 Door Switch 2 Front door open/close detection L : Door open
20 STHP Stapler Home Position Sensor Stapler home position detection L : Home position
21 STNC Stapler No Cartridge Sensor Stapler cartridge empty detection H : Empty
22 STLS Stapler Low Staple Sensor Stapler staple empty detection H : Empty
23 STSP Stapler Self Priming Sensor Stapler staple ready position detection L : Ready
1.PID
2.DOPD
3.T1PF
9.JRHP
18.DSW1
7.SCPD
15.T2UP
14.POD16.T2DN
23.STSP22.STLS
21.STNC
20.STHP
19.DSW211.STTHP1
12.STTHP2
4.PPD
8.JFHP13.STUHP
5.SCID6.SCID2
10.PSHP
17.T2PD
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AR-FN6 EXTERNAL VIEWS AND INTERNAL STRUCTURES 5-3
D. Motor, Clutch, Solenoid, PWB
Code Name Function Remark
1 Main PWB Main Control PWB Communication with the machine, control of the machine operations
2 MM Main Motor Drives transport rollers
3 JFM Jogger Front Motor F side alignment plate drive
4 JRM Jogger Rear Motor R side alignment plate drive
5 PSM Pushher Motor Pusher drive
6 STM Staple Motor Staple drive
7 STUM Staple Unit Motor Stapler shift
8 STTM Staple Unit Turn Motor Stapler rotation
9 EVM Elevator Motor Offset tray up-down shift
10 T2OM Tray 2 Ouput Motor Drive of paper exit paddler to offset tray
11 FGS Finisher Gate Solenoid Paper entry gate selection
12 SCGS Staple Compiler Gate Solenoid Staple paper entry gate selection
13 SCRS Staple Compiler Rolor Solenoid Belt roller press/release selection
14 PPS Paper Push Solenoid Paper rear edge holding drive selection
15 SPS Stopper Solenoid Stopper drive selection
16 T2S Tray 2 Solenoid Paper exit paddler drive selection
1.Main PWB
2.MM
3.JFM
4.JRM
5.PSM
6.STM
7.STUM
8.STTM
9.EVM
10.T2OM
11.FGS
12.SCGS
13.SCRS
14.PPS15.SPS
16.T2S
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AR-FN6 MACHINE OPERATION 6-1
[6] MACHINE OPERATION
1. Using the stapling function from the printer featureWhen using the stapling function, select "Properties" on the printer driver setting screen, open the "Main" tab shown in the right illustration, and thenselect "Left", "Right" or "Top " at "Binding Edge" and "1 Staple" or "2 Staples" in the "Staple" drop down.
NOTES:•The settings screens above will appear only if the devices have been set properly in the printer driver.•The combination of paper selection and other functions may not be compatible. For instance, if heavy paper, envelopes, label stock, etc. are selected,it will not be possible to select duplex, offset tray, saddle stitch, etc.
The illustration below shows the screen for a PCL printer driver in the Windows 98 environment.
2. Using the finisher functions in the copy modeIf you touch the [OUTPUT] key on the copy mode basic screen, a screen for selecting the sort/group/staple sort functions and selecting an exit tray willappear.
1 : [GROUP] keyIf this function is selected, all copies of the same original will be grouped.2 : [STAPLE SORT] keyIf this function is selected, sorted copies will be stapled and delivered tothe offset tray. (not offset stacked)3 : [SORT] keyIf this function is selected, each set of copies will be sequentiallydelivered.4 : Icon displayThe icon of the selected function (sort, staple sort or group) is displayed.5 : [OFFSET] keyIf this function is selected (checked), the offset function will be enabled. Ifthe check mark is cleared, the offset function will be disabled. (If thestaple sort function is selected, the check mark of the offset function willbe automatically cleared.)
6 : [OFFSET TRAY] keyIf the offset tray is selected, printed sheets will be delivered to the offsettray. (If the staple sort function is selected, the offset tray will beautomatically selected.)7 : [TOP TRAY] keyIf the top tray is selected, printed sheets will be delivered to the top tray.8 : [OK] keyPress to close this screen and to return to the basic screen.
* If a function is selected, the corresponding key will be highlighted.
OK
STAPLE SORT
OUTPUT
GROUP
SORT
OFFSET TRAY
TOP TRAY
OFFSET
1 2 3 4 5
6
7
8
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AR-FN6 MACHINE OPERATION 6-2
3. Stapling position quick reference listWhen stapling is performed, the orientation of image data or original is related to the stapling position, binding position and orientation of papercomplicatedly. The table below shows the relation.
NOTES:•When using the stapling function, select the offset tray as an exit tray. If another tray is selected, the stapling function cannot be used.•Select only one paper size. If different sizes are included, stapling cannot be performed.
* The following types of paper cannot be stapled.Pre-punched paper, transparency film, heavy paper, label, envelope, postcard
Image data or originalResult
First page (front side) Second page (reverse side) Two sides
Portrait orientation printing
Left bindingTop binding
Right binding
Left bindingTop binding
Right binding
One-position stapling Two-position stapling
One-position stapling Two-position stapling
One-position stapling
Landscape orientation printing
Two-position staplingOne-position stapling
One-position stapling
One-position staplingTwo-position stapling with left binding cannot be made.
Two-position stapling with right binding cannot be made.
Two-position stapling with top binding cannot be made.
indicates stapling positions.
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AR-FN6 OPERATIONAL DESCRIPTIONS 7-1
[7] OPERATIONAL DESCRIPTIONS
1. Paper transport pathA. Machine paper exit reverse (Switchback)
When the duplex print or the left side paper exit tray is selected, paper isonce discharged to the interface unit and then switched back.
B. Paper exit to the upper tray
In the normal paper exit operation, paper is discharged to the upper tray.
C. Paper exit to the lower tray
When stapling or offset operation is performed, paper is discharged tothe lower tray.
2. Descriptions of each sectionThe finisher is composed of (1) upper paper transport section, (2)alignment tray section, and (3) tray 2 paper exit section. Offset and stapling (3 positions) can be performed with paper exit to tray2 as well as the selected tray by the command from the machine.
1
2
1 2
1
2
3
(1) Upper paper transport section
(2) Alignment tray section
Stapler
(3) Tray 2 paper exit section
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AR-FN6 OPERATIONAL DESCRIPTIONS 7-2
A. Upper transport section
(1) Paper transport path
By rotating the main motor (MM), all the transport rollers in the unit(except for the tray 2 final roller) are driven.
(2) Interface unit paper entry gate
The finisher gate solenoid (FGS) operates the interface unit paper entrygate to perform machine paper exit reversion and selection of the paperpath to the tray 1 and the tray 2.
(3) S paper entry gate
The compiler paper entry gate solenoid (SCGS) operates the S paperentry gate to select the paper path to the tray 1 or the tray 2.
(4) Tray 1 paper full detection
Tray 1 paper full detection is performed by the tray 1paper full sensor(T1PF) in linkage with the tray 1 paper full actuator.
B. Alignment tray section
(1) Jogger F/R
The jogger F/R motors (JFM, JRM) are driven at the timing of paperentry into the alignment tray to operate the joggers F/R (alignment plateson both sides), making transverse alignment of paper.
(2) Pusher
The pusher motor (PSM) is driven at the timing of paper entry into thealignment tray to operate the pusher (upper alignment plate). Paper issqueezed with the pusher and the stopper which is provided at the leadedge of paper to make longitudinal alignment of paper. The pusher alsoserves to hold the rear edge of a paper bundle in order not to change thesequence of the next paper when it enters the alignment tray. It alsopushes a stapled paper bundle to the tray 2 in the staple mode.
(3) Stopper
The stopper is driven by the stopper solenoid (SPS) to stop the leadedge of paper in order to hold paper in the alignment tray.
(4) Pressure release roller
The pressure release roller is driven by the pressure release solenoid(SCRS). It is pressed when paper is transported from the alignment trayto the tray 2. It also serves to improve longitudinal alignment capabilitywhen paper enters the alignment tray in the staple mode.
(5) Paper holder
The paper holder is driven by the paper holder solenoid (PPS) to hold therear edge of paper in the alignment tray.
(6) Alignment and paper exit in offset
1) The joggers F/R are moved to the standby position before paperentry into the alignment tray, and paper is passed to the alignmenttray.
2) When paper is passed into the alignment tray, the stopper solenoid isturned on to receive paper.
3) After paper entry into the alignment tray, the joggers are moved tothe suitable positions according to the paper size, and paper isoffset.
4) The stopper solenoid is turned off and the pressure release (roller)solenoid is turned on to discharge paper to the tray 2.
(7) Alignment in stapling
1) Before paper entry into the alignment tray, the joggers F/R aremoved to the standby position, and paper is entered into thealignment tray.
2) When paper enters the alignment tray, the stopper solenoid is turnedon to receive paper.
3) After paper entry into the alignment tray, the joggers F/F are movedto the paper size positions to align paper.
4) The paper holder solenoid is turned on at the same time with (3) tohold the rear edge of entered paper, and the pusher is moved to thepaper size position.
5) After completion of moving the pusher, the paper holder solenoid isturned off.
Paper entry sensor (PID)
S paper entry gate
Tray 1paper full actuator
Staple paper entry sensor 2(SCID2)
Interface unit paper entry gate
Staple paper entry sensor 1 (SCID)
Tray 1 paper full sensor (T1SP)
Paper size
Stopper
Center reference
Paper exit
Jogger RJogger F
1
2
4
3
Pressure release roller
Paper size
Stopper
Center reference
Pusher
Jogger RJogger F
1
1
2
43
5
3
Paper holder
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AR-FN6 OPERATIONAL DESCRIPTIONS 7-3
(8) Staple unit
The stapler staples paper. The ST shift motor slides the staplerhorizontally with the paper lead edge according to the staple positions(forward, backward, 2 positions).The ST rotating motor (STTM) rotates the stapler from the save positionto the stapling position, and can slide the staple replacement positionhorizontally and can discharge paper.
(9) Stapler
The stapler can staple max. 30 pages of 80g paper. It is composed of thedrive DC motor (STM), the home position sensor (STHP), the stapleempty sensor (STLS), the cartridge empty sensor (STNC), and the self-priming sensor (STSP) which detects a staplable position.
(10) Stapling
1) The stapler is moved from the staple replacement position to theslidable position.
2) The stapler is shifted to the stapling position.3) The stapler is rotated to the stapling position.
Put paper to be stapled in the staple tray.4) Paper is stapled.5) The stapler is rotated to the standby position.
When in one-position stapling, a bundle of paper is discharged to thetray 2 (paper exit section), and the procedure goes to (10)
6) The stapler is shifted to the second stapling position.7) The stapler is rotated to the stapling position.8) Paper is stapled. (Second stapling)9) The stapler is rotated to the standby position.
The bundle of paper is discharged to the tray 2 (paper exit section)10) After completion of a job, the stapler is shifted to the staple
replacement position.11) The stapler is rotated to the staple replacement position.
For one-position stapling, however, procedures (6) - (10) are notperformed.
(11) Paper exit after stapling
1) The joggers F/R are moved to the paper exit position.2) The stopper solenoid is turned off.3) The pressure release solenoid is turned on to shift the pusher to the
paper exit position, and the paper bundle is discharged to the tray 2paper exit section.
4) The pressure release solenoid is turned off and the pusher isreturned to the home position.
C. Tray 2 paper exit section
(1) Paper transport
Only in paper exit to the tray 2, the final roller is driven by rotating thepaper exit motor (T2OM).
(2) Elevator operation and tray 2 paper full detection
The elevator motor is rotated to move the tray 2 up and down so thatpaper is discharged at the fixed position according to the quantity ofpaper loaded in the tray 2.The tray 2 full is detected when both the tray 2 upper limit sensor which islinked with the tray 2 upper limit actuator and the tray 2 lower limit sensorare on.
2 6
7
11 10
3
1
4
5
8
9
Staplereplacementposition
Pusher
Jogger RJogger F
1 14
3
3
Stopper2
Pressure release roller
Paper bundle exit
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AR-FN6 OPERATIONAL DESCRIPTIONS 7-4
(3) Paddler operation/tray 2 upper limit detection actuator operation
When the paper exit motor is rotating, the tray 2 solenoid (T2S) is turned on so that the paddler is rotated to pull paper and pull the actuator toward theunit in order to improve the stacking capacity of paper loaded in the tray 2.
3. Basic operationA. Basic operation flow
Paper exit sensor
(POD)
Paddler
Tray 2 upper limitdetection actuator
Tray 2 upper limit sensor
(T2UP)
Tray 2 lower limit sensor
(T2DN)
Power on
Standby
Transport operation
Alignment operation
Stapling operation
Paper exit operation
Operation
in case of a jam
Standby
for jam cancel
Initializing
(After completion
of a job)
Paper exit end
Jam occurrence
Machine paper feed start
Initializing
Door close
Door open
Door open
Door open
Door open state
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AR-FN6 ADJUSTMENTS 8-1
[8] ADJUSTMENTS
1. Jogger position adjustmentA. Jogger F/R
1) Staple 5 sheets of A4 or LT paper and check the paper shift (A)shown in the figure below.
2) If the shift (A) is less than 1mm, there is no need to adjust.
3) If the shift (A) is 1mm or greater, adjust as shown in the table below.
B. Printer model adjustment procedure
1) In the DIAG MODE, select [FINISHER JOGGER ADJ.].
2) Press [OK] key, and the following display will be shown.Use [ ] key and [ ] key to change the adjustments value.(Adjustment range: 40 - 60)
3) Change the adjustment value and press OK key, and the stopper willbe turned on and the finisher joggers F/R will move to and stop at thepositions shown in the table below.
4) When the joggers F/R stop, open the door and load A$/LT paper inthe alignment tray, and check the jogger width visually.
5) When the jogger width is too wide or too narrow, use [ ] key and[ ] key again to change the adjustments value. Press [OK] key toshift the jogger to the A4/LT alignment position, and check visually.
The table below shows relationship between the adjustment value andthe jogger width.
6) After completion of the adjustment, remove the paper from thealignment tray and terminate the DIAG MODE.
C. MFP adjustment procedure
1) When the sub code of the simulation is entered, the following displayis shown.
SIM 3-6: Jogger position adjustment
2) Enter the adjustment value with [0] - [9] keys and press START key,and the menu below will be displayed. (Adjustment range: 40 - 60)
SIM 3-6: Jogger moving
When the stopper is turned on, and finisher joggers F/R move to andstop at the positions shown in the table below.
3) When the joggers F/R stop, open the door and load A4/LT paper inthe alignment tray, and check the jogger width visually.
4) When the jogger width is too wide or too narrow, use [0] - [9] keyagain to change the adjustments value. Press [START] key to shiftthe jogger to the A4/LT alignment position, and check visually.
The table below shows relationship between the adjustment value andthe jogger width.
5) After completion of the adjustment, remove the paper from thealignment tray and terminate the simulation.
Model Adjustment procedure
Pinter model DIAG MODE[FINISHER JOGGER ADJ.](Finisher jogger position adjustment)
MFP SIM 3-6(Built-in finisher jogger position adjustment)
Destination Jogger position
Inch series LT size alignment position
AB series A4 size alignment position
(A)
Staple
Jogger F Jogger R
FINISHER JOGGER ADJ.
ADJUST VALUE
50
Adjustment value Jogger width
Decreased by 1. Increased by about 0.375mm.
Increased by 1. Decreased by about 0.375mm
Destination Jogger position
Inch series LT size alignment position
AB series A4 size alignment position
Adjustment value Jogger width
Decreased by 1. Increased by about 0.375mm.
Increased by 1. Decreased by about 0.375mm
SIMULATION 3-6
FINISHER JOGGER ADJUSTMENT.INPUT VALUE 40-60,AND PRESS START.
50
SIMULATION 3-6
FINISHER JOGGER ADJUSTMENT.MOVING...
50
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AR-FN6 DISASSEMBLY AND ASSEMBLY, MAINTENANCE 9-1
[9] DISASSEMBLY AND ASSEMBLY, MAINTENANCE
1. Maintenance System Table
Check (Clean, replace, or adjust as necessary.) Clean Replace Adjust Lubricate Move position
Unit name Part nameWhen calling
50K 100K 150K 200K 250K 300K 350K 400K Remark
Transport section Transport rollers
De-curler roller ( )
Transport paper guides
Drive section Gears (Specified position)
Belts
Other Sensors
Discharge brush
Staple un Replace UN at 100K staple.
Staple cartridge User replacement for every 3000pcs.
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AR-FN6 DISASSEMBLY AND ASSEMBLY, MAINTENANCE 9-2
2. Disassembly and assemblyA.Unit transit
Note: When carrying the finisher unit removed from the printer, fold thetransport unit as described below.If not, the frame may be bent, causing a breakdown of themachine.
B. External cabinet
C.Transport unit
(1) Gate solenoid
(2) Transport roller
1)
2)
1)
2)
3)4)
4)
6)
7)
5)
6)
8)
9)
11)
12)
10)
13)
11)
12)
14)15)
16)
No. Parts name Job item cycle
1 Transport rollers Clean 100K
2 De-curler roller Check 50K
Clean 100K
3 Transport paper guide Clean 100K
2)
2)
3)
4)
1)
1)
2)
1)2)
3)
4)5)
4)
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AR-FN6 DISASSEMBLY AND ASSEMBLY, MAINTENANCE 9-3
(3) Upper open/close sensor
(4) Upper cover
(5) Paper entry sensor
(6) De-curler roller
(7) Transport roller
1)
2)3)
4)5)
6)
3)2)
1)
1)
3)
4)
1)
2)
3)
5)
4)6) 7)
8)
9)10)
11)
5)
4)3)
4)3)
2)
1)
3)
2)
1)
1)
2)
3)
1)
1)
1)
4)
5)
3)
2)
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AR-FN6 DISASSEMBLY AND ASSEMBLY, MAINTENANCE 9-4
D. Rear side of the unit
(1) Main motor
(2) Main control PWB
(3) Staple shift motor
(4) Elevator motor / Staple rotation motor
* A red seal is attached to the staple rotating motor.
(5) Pressure-release solenoid
3)
2)
1)
1)
2)
2)
3)3)
3)
1)
4)
1)
2)
1)1)
2)
2)3)
3)
1)
2)
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AR-FN6 DISASSEMBLY AND ASSEMBLY, MAINTENANCE 9-5
E. Stapler (1) Stapler unit
No. Parts name Job item cycle
1 Staple UN Replace 100K staple
2 Staple cartridge User replacement 3000pc.
1)2)
3)
4)
5)
6)
1)
2)
1)
1)2)
3)
4)
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AR-FN6 DISASSEMBLY AND ASSEMBLY, MAINTENANCE 9-6
F. Inside of the unit
(1) Jogger motor
(2) Pusher motor
(3) Elevator unit
1)
2)
3)
4)
4)
5)
7)
6)
6)
1)
2)
1)
1)2)
3)4)
6)
5)
7)
4)
4)
4)
1)
1)
2)
2)
1)2)
1)1)
2)
2)3)
3)
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AR-FN6 DISASSEMBLY AND ASSEMBLY, MAINTENANCE 9-7
G. Right side of the unit (Paper exit side)
(1) External cabinet
(2) Lower stage tray paper exit roller
(3) Paper exit paddler
No. Parts name Job item cycle
1 Transport roller clear 100K
1)
2)
3)4)
4)
6)
7)
5)
6)
8)
9)
2)
3)1)
4)
2)
3)
1)
3)
4) 2)
1)
1)
2)
1)
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AR-FN6 DISASSEMBLY AND ASSEMBLY, MAINTENANCE 9-8
H. Front side of the unit
(1) Stopper solenoid
(2) Paper holding solenoid
(3) Compiler paper entry gate solenoid
I. Gears, Clutch
J. Belts
No. Parts name Job item cycle
1 Paper guide clean 100K
1)
2)
2)
5)
3)
4)
4)
1)
2)
1)
2)
No. Parts name Job item cycle
1 Gears Lubricate 100K
No. Parts name Job item cycle
1 Belts clear 300K
1)
3)
2)4)
6)
8)
9)10)
7)
5)
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AR-FN6 BLOCK DIAGRAM, WIRING DIAGRAM 10-1
[10] BLOCK DIAGRAM, WIRING DIAGRAM
1. Block Diagram
Sta
ple
Uni
t Mot
or
AR
-FN
6
Ele
vato
r M
otor
Pap
er P
ush
Sol
enoi
d
Sta
ple
Com
pile
r G
ate
Sol
enoi
d
Fin
ishe
r G
ate
Sol
enoi
d
Tra
y2 S
olen
oid
Sto
pper
Sol
enoi
d
Sta
ple
unit
Tur
n M
otor
Pus
hher
Mot
or
4
Jogg
er F
ront
Mot
or
Jogg
er R
ear
Mot
or
Pus
hher
Hom
e P
ositi
on s
enso
r
Sta
ple
Com
pile
r P
aper
Det
ect s
enso
r
Jogg
er F
ront
Hom
e P
ositi
on s
enso
r
Tra
y1 P
aper
Ful
l det
ect s
enso
r
Sta
ple
Tur
n H
ome
Pos
ition
sen
sor2
Pap
er In
Det
ect s
enso
r
Pap
er O
ut D
etec
t sen
sor
Tra
y2 D
own
dete
ct s
enso
r
Sta
ple
Com
pile
r In
Det
ect s
enso
r2
Sta
ple
Com
pile
r In
Det
ect s
enso
r
Sta
ple
Tur
n H
ome
Pos
ition
sen
sor1
Tra
y2 U
pper
det
ect s
enso
r
Jogg
er R
ear
Hom
e P
ositi
on s
enso
r
Tra
y2 O
utpu
t Mot
or
Mai
n M
otor
Sta
pler
No
Car
trid
ge s
enso
r
Sta
pler
Hom
e P
ositi
on s
enso
r
Sta
pler
Sel
f Prim
ing
sens
or
Sta
pler
Low
Sta
ple
sens
or
Sta
pler
Mot
or
Sta
pler
Tra
y2 P
aper
Det
ect s
enso
r
Doo
r S
Witc
h 1
AR
-DC
1
Sta
ple
Com
pile
r R
olor
Sol
enoi
d
Pap
er P
ush
Det
ect s
enso
r
Doo
r O
pen
Det
ect s
enso
r
(74H
C15
1)
(74H
C15
1)
(MT
D13
61F
)
(MT
D13
61F
)
(MT
D13
61F
)
(MT
D13
61F
)
4
JFM
+24
V
44
JRM
+24
V
4 4
(MT
D13
61)
4
+24
VP
SM
4 4
ST
UM
+24
V
+24
VT
2OM
4
MM
+24
V1
22
CP
U(u
PD
7842
14A
GC
)
(ST
A45
7C)
2
EV
M
2
ST
TM
22
(2S
B11
98K
x4)
+24
VS
CG
S
PP
S+
24V
+24
VS
PS
T2S
+24
V
SC
RS
+24
V
FG
S+
24V
(TD
6200
3AP
)
GN
D1
GN
D2
FG
3 3 2
A ~
C
A ~
CP
70 ~
P72
Y Y
SE
L0 ~
SE
L2
T1P
F+
5V
(1-B
3)
(1-D
3)
DS
W1
DS
W2
Doo
r S
Witc
h 2
SC
PD
+5V
+5V
PP
D
JRH
P+
5V
+5V
JFH
P
T2P
D+
5V
+5V
T2U
P
T2D
N+
5V
+5V
PO
D
SC
ID2
+5V
+5V
PID
SC
ID+
5V
PS
HP
+5V
+5V
ST
TH
P2
+5V
+5V
DO
PD
(1-D
3)
ST
TH
P1
A8
~ A
16
AD
0 ~
AD
7
LAT
CH
EP
RO
M 1
M(7
4HC
373)
LE
A8
~ A
16
A0
~ A
7
D0
~ D
7
(M27
C10
01)
OE
A8
~ A
16
AD
0 ~
AD
7
A0
~ A
7
ST
M
ST
HP
ST
NC
ST
LS
ST
UH
P
Sta
ple
Uni
t Hom
e P
ositi
on s
enso
r
(1-B
3)
ST
SP
+5V
(2S
B11
98K
x4)
+5V
AR
-FN
6 B
LOC
K D
IAG
RA
M
P80
~ 8
3
P84
~ 8
7
P13
1
RT
P4
~ R
TP
7
P00
P30
~ 3
3
P13
2
P13
0
RT
P0
~ R
TP
7
P10
2
P10
3
P10
0,10
1
P92
,93
P90
,91
P24
P25
P26
P27
P94
/RE
SE
T
P22
P23
TX
D1
RX
D1
P16
D7
D1
D2
P17
D6
D5
D4
D2
INT
P2
INT
P4
INT
P5
P12
P11
P15
P14
P13
P36
P10
P35
P34
D1
D3
P01
RD
AS
TB
P37
INT
P3
D0
JPD
PS
PD
ST
UP
D
T2O
PD
MM
E
MM
CK
FG
S-F
IN2/
RE
S-F
IN2
DT
R-F
IN2/
DS
R-F
IN2/
TX
D-F
IN2
RX
D-F
IN2
IN0
DS
W1
DS
W2
24V
M
IN1
RD
AS
TB
+5V
+24
V
+24
V
+24
V1
+24
V2
+24
V2
+24
V2
ST
NC
ST
SP
ST
SP
ST
LS
MM
LK
ST
LSS
TN
C
MM
LK
AA
BB
CC
DD
EE
44
33
22
11
Tran
sist
orar
ray
(Opt
ion
pow
er)
Mai
n P
WB
Inpu
t buf
fer
Inpu
t buf
fer
Inpu
t buf
fer
Mul
tiple
xer
1
Mul
tiple
xer
2
+24V
mon
itor
(leve
lco
nver
ter)
circ
uit
Inpu
t buf
fer
Inpu
t buf
fer
Inpu
t buf
fer
Inpu
t buf
fer
Out
put b
uffe
r
Out
put b
uffe
r
Inpu
t buf
fer
Cho
ppin
gci
rcui
t
Cho
ppin
gci
rcui
t
Cho
ppin
gci
rcui
t
Cho
ppin
gci
rcui
t
Cho
ppin
gci
rcui
t
Out
put b
uffe
r
Out
put b
uffe
r
H b
ridge
circ
uit
H b
ridge
circ
uit
H b
ridge
circ
uit
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AR-FN6 BLOCK DIAGRAM, WIRING DIAGRAM 10-2
2. Wiring Diagram
1 2 4 5 6 7 8 9 10 11 12 13 14 15 16G
ND
1+
24V
GN
D1
+24
VG
ND
1
CN
A(B
16B
-PH
DS
S)
GN
D2
GN
D2
+5VN.C
.
TX
D-F
IN2
RX
D-F
IN2
+24
V
DT
R-F
IN2/
DS
R-F
IN2/
RE
S-F
IN2
FG
S-F
IN/
T1P
F/
+5V
1 2CN
I(S
3B-P
H-K
-S)
3G
ND
2
1 2 3T
1PF
3
ST
TM
15 17 1914131121
T2O
M/A
+24
V
ST
UM
B
ST
UM
A
ST
TM
-
43 22
SC
RS
/
+24
V1
T2O
M/B
16
ST
UM
/BS
TU
M/A
+24
V+
24V
N.C
.
1
10 18 2012987
1
2S
CR
S
65 21
+24
VN
.C.
+24
VT
2OM
BT
2OM
A
ST
TM
+
+24
V
2
CN
C(B
32B
-PH
DS
S)
RE
AR
Fra
me
+5V
EV
M+
+24
V
T2U
P
T2P
D
GN
D2
T2S
/
5 64321 117 8 9 10 12 13 14
EV
M-
+5V
GN
D2
+5V
GN
D2
T2D
N
Ele
vato
r U
NIT
64 5
MM
E/
CN
D(B
6B-P
H-K
-S)
MM
CK
2 3M
MLK
1G
ND
12 31 4 5
MM
2 5 7 1612S
TS
P/
1341S
TM
-S
TM
-
83 10 14
ST
M+
9
CN
E(B
16B
-PH
DS
S)
(ST
TD
)
ST
M+
11
GN
D2
GN
D2
ST
HP
/S
TLS
ST
NC
ST
UH
P
+5V
+5V
6 15
5 62 41 3 7
ST
M
8 9 10 11 12 13
ST
LSS
TH
PS
TS
P
ST
AP
LER
4 6 8
CO
M1
72P
ID/
FG
S/
1
CN
G(B
9B-P
H-K
-S)
+24
V
5
GN
D2
3
51 2 3 4 6 7 8
+24
VT
2S/
+5V
T2U
PG
ND
2+
5VT
2DN
GN
D2
+5V
T2P
DG
ND
2
(SM
P-1
8V-B
C)
CO
M1
GN
D2
PID
/
+24
VF
GS
/
Rel
ay U
NIT
SP
S/
+24
V
184 6 9
JFM
B
198 15721 1311 201410 1712 165
+24
V1
PP
S/
3 21 22 23 24
+24
V
JFM
/BJF
M/A
JFM
A+
24V
+24
VJR
MB
JRM
/BJR
M/A
JRM
A+
24V
+24
VP
SM
BP
SM
/BP
SM
/AP
SM
A+
24V
+24
V
1712 20
JFH
P
1864 162
SC
PD
/
139P
SH
P
117 19143 5 81 1510 21 22 23 24 25 26 27 28
JRH
P
CO
M2
SC
ID/
ST
TH
P1/
PP
D/
CN
F(B
24B
-PH
DS
S)
CN
H(B
32B
-PH
DS
S)
+5V
GN
D2
+5V
GN
D2
+5V
GN
D2
+5V
GN
D2
GN
D2
+5V
GN
D2
+5V
ST
TH
P2/
GN
D2
CO
M3
GN
D2
+5V
GN
D2
SC
ID2/
29 30 31 32
PS
M
1 2 3 4 5 6
JFM
1 2 3 4 5 6
JRM
1 2 3 4 5 6
FR
ON
T F
ram
eS
TA
PLE
Com
pile
r
3JF
HP
21
1JR
HP
32
1 32P
SH
P
31 2
3S
CID
21
SC
PD
ST
AP
LER
UN
IT
To
Opt
ion
DC
PS
Upp
er P
G
FG
SM
R-1
8V-N
(SM
P-0
9V-B
C)
ST
NC
GN
D2
+5V
DO
PD
/
FG
S
DO
PD
1 2 31 2
9
+5V
DO
PD
/G
ND
2
321P
ID
MA
IN P
WB
TF
23 24 25 26
GN
D2
PO
D/
1T
2S2
1T
2UP
2 31
T2D
N2 3
1T
2PD
2 3
SC
ID2
21 3
GY
OR
RD
RD
BL
PL
BR
PK
RD
RD
PL
BL
PK
BR
PL
BL
GY
GY
RD
GY
RD
GY
RD
BL
GY
OR
GY
OR
RD
BL
RD
BR
RD
BL
RD
BR
OR
GY
PK
OR
OR
GY
GY
PL
BR
RD
GY
BL
PL
BR
OR
GY
BL
OR
PL
GY
RD
BR
RD
RD
BL
PL
BR
PK
RD
RD
BL
PL
BR
PK
RD
RD
BL
PL
BR
PK
RD
RD
OR
GY
GY
GY
GY
GY
GY
GY
GY
GY
OR
OR
OR
OR
OR
OR
OR
OR
RD
RD
BL
PL
BR
PK
BL
BL
PL
BR
PK
BL
PL
OR
GY
BL
OR
PL
GY
RD
BR
RD
BL
BL
RD
GY
RD
BR
RD
RD
BR
OR
PK
GY
OR
PL
GY
OR
BR
GY
RD
BR
RD
BR
RD
RD
RD
RD
OR
YE
BR
BK
OR
YE
BR
OR
YE
BR
BK
BK
RD
1 32P
OD
OR
GY
15 16 17 18
N.C
.
N.C
.
N.C
.
GY
BR
(SM
P-1
0V-B
C)
1 2 3 5 6 7 8 9 10
+5V
+24
V1
GN
D2
+24
V2
4S
TT
HP
1/
+5V
ST
TH
P2/
GN
D2
+24
VP
PS
/P
LP
PS
1 3
RD
BR
DS
W2
2R
DR
D
1
OR
31
GY
2S
TT
HP
1B
L
GY
ST
TH
P2
2 31O
RP
L
RD
1P
PD
32
BR
2
RD
1S
PS
SC
GS
/1
BR
RD
SC
GS
2B
R
RD
RD
S P
aper
Ent
ry U
NIT
OR
+24
V
RX
D-F
IN2
TX
D-F
IN2
DS
R-F
IN2/
N.C
.
DT
R-F
IN2/
+5V
GN
D2
GN
D2
GN
D1
+24
VG
ND
1+
24V
GN
D1
2+
24V
51315
FG
S-F
IN/
1410 16341
RE
S-F
IN2
17891112 6 18F
G
7
N.C
.
27 28 29 30 31 32
+5V
GN
D2
PO
D/
N.C
.
N.C
.
DS
W1
21
3
RD
YE
2
BR
614
RD
OR
5
BK
ST
UM
EV
M21
+5V
BL
BL
FG
CN
B(B
6B-P
H-K
-R)
641 3 5
T2O
M
21 2 3 4 5 6
GN
D2
+24
V2
GN
D2
GN
D2
GN
D2
TE
ST
PL
BR
PK
GY
OR
BL
OR
PL
GY
ST
UH
P1 2 3
FG
GY
GY
SC
ID2/
GN
D2
CO
M3
(SM
P-0
3V-B
C)
1 2 3
9
FG
FG
+24
V1
N.C
.
N.C
.N
.C.
FG
FG
GY
Left
cove
r U
NIT
GY
GY
BR
OR
BK
RD
WH
YE
GY
Tra
y 1
full
dete
ctio
n
Com
pile
r do
or S
W
ST
shi
ft m
otor
Ele
vato
r m
otor
ST
rot
atio
n m
otor
Rol
ler
pres
sure
rel
ief s
olen
oid
Tra
y 2
sole
noid
Tra
y 2
uppe
r lim
it de
tect
ion
Tra
y 2
low
er li
mit
dete
ctio
n
Tra
y 2
pape
r de
tect
ion
Tra
y 2
pape
r ex
itde
tect
ion
Tra
y 2
pape
r ex
it m
otor
Mai
n m
otor
Ele
vato
r st
ay
Jogg
er F
.H.P
. det
ectio
n
Jogg
er R
.H.P
. det
ectio
n
Pus
her
H.P
. det
ectio
n
Com
pile
r pa
per
dete
ctio
n
Com
pile
r pa
per
entr
y de
tect
ion
Com
pile
r ga
teso
leno
id
Com
pile
r pa
per
entr
y de
tect
ion
2
Sto
pper
sol
enoi
d
Sta
ple
repl
acem
ent d
oor
SW
ST
rot
atio
n de
tect
ion
1
ST
rot
atio
n de
tect
ion
2
Pap
er h
old
sole
noid
Jogg
er F
mot
or
Jogg
er R
mot
or
Pus
her
mot
or
Pap
er e
ntry
det
ectio
n
Inte
rfac
e do
or o
pen/
clos
e de
tect
ion
Pap
er e
ntry
rev
erse
gat
e so
leno
id
ST
uni
t H.P
. det
ectio
n Pap
er h
old
dete
ctio
n
1-D
4
1-D
2
AA
BB
CC
DD
EE
44
33
22
11
AR
-FN
6 W
IRIN
G D
IAG
RA
M
���������� ������� ����� * ��� ��������� "# $%�&'()
AR-FN6 BLOCK DIAGRAM, WIRING DIAGRAM 10-3
3. Circuit Diagram
A
A
B
B
C
C
4
3
2
1
SF MAIN PWB TF UN (1/3)
(2-B1)
(2-B2)
(2-B4)
(2-A3)(2-A1)
(1-D4)
(1-D4)
(1-D3)
(2-A2)
(1-D3)
2
3
1
(1-C3)
1
1
PSBPSAT2O/BT2O/AT2OBT2OA
N.C.
PS/BPS/A
JPDT2OPD
JF/AJFBJFA
SCGSPPSSPST2S
SEL0
SEL2
IN0IN1
PPSSPST2S
PPD/
T2PD/T2DN
JRHPT2UP
RXD-FIN2/
DSR-FIN2DTR-FIN2
(EVRE)
PPD/
JRHP
T2UPT2DNT2PD/
SCGS
SEL1
TXD-FIN2/
VDD
VDD
VDD
SCID2/
SCID2/
JFHP
JFHP
X1
VSS
VSS
VSS
VSS
X2
STTHP2
STUHP/PSHP/
RES/
STTHP1
PSPD
+24V2
+24V
+5V
+5V
+5V
+5V
+5V
+5V
+24V1
+24V
+5V
+5V
+5V
+5V
+5V
+5V
+5V
+5V
+5V
+24VCNA-16
+24VCNA-14
+24VCNA-12
+5VCNA-08
GND2CNA-09
GND2CNA-10 C
4
+24V1CNF-02
+24V2CNF-03
R75R74R65 R66
4.7KJ x5
C9
R73
STTHP2/CNH-21
STTHP1/CNH-18
PSHPCNH-08
STUHPCNE-13
C61
DSR-FIN2/CNA-03
TXD-FIN2CNA-06
RES-FIN2CNA-02
R48
4.7KJ x3
RXD-FIN2CNA-05
R50
DTR-FIN2/CNA-04
PPD/CNH-27
T2PD/CNC-28
JRHPCNH-05
JFHPCNH-02
SCID2/CNH-25
T2UPCNC-22
T2DNCNC-25
FGS/CNG-08
PPS/CNH-32
SPS/CNH-30
T2S/CNC-19
SCRS/CNC-15
SOL1/CNC-17
TXD
CP6
DTR
CP8
RXD
CP9
DSR
CP10
TEST
CP1
BR810KJ x4
1 82 7
3 64 5
D1
DAN202K x
TESTCNE-16
D1 1SS133 x4
D2
D13
D14
D110
DAN202K x3
312
FGS-FIN/CNA-01
C81
D106 312
D107
DAP202K x3
312
D105 312
D108
312
D109
312
(EVRE)CNJ-02
C11
R53
10KJ x2
C41
473Z/16V
RES/
CP5
Q124DTC114YKA
B2
E1
C3
Q134
B2
E1
C3
Q132
DTC114YKA
B2
E1
C3
Q121
DTC114YKA
B2
E1
C3
+24V1CNC-01
SCGS/CNH-16
IC3
TD62003AP
IN11
IN22
IN33
IN44
IN55
IN66
IN77
GND8
COM9
OUT710
OUT116
OUT215
OUT314
OUT413
OUT512
OUT611
BR910KJ x4
1 8
2 73 64 5
R70
10KJ x4
R69
R68
R67
SOL1/CNK-02
C27
47U/35V
+
GND1CNA-15
GND1CNA-13
GND1CNA-11
JP1
L1
MMZ1608S121A
R59
4.7KJ
C58
47U/35V
+
C40471K/50V
R513.3KJ
X1 12.2MHz
R64
0J
R63
0J
R49
4.7KJ
C80
223Z/50V
R62
0J
C29473Z/16V
R60
2.4KJ
IC103A
BA10393F
+
-
3
21
C82
C62
Q129
B2
E1
C3
C7
C25
C63
471K/50V x3
Q120
DTC114YKA
B2
E1
C3
IC104
FS781
Xin1
VDD8
Xout2
S07
S13
FSOUT6
LF4
VSS5
C77
C76
222Z/50V x4
Q130
DTC114YKA x5
B2
E1
C3
C75
BR10
2.2KJ x4
27
36
45
C8
Q133
B2
E1
C3
C90
C89
222Z/50V x7
C37
473Z/16V
Q127
B2
E1
C3
BR11
2.2KJ x4
18
27
36
45
IC4
P120/RTP01
P121/RTP12
P122/RTP23
P123/RTP34
P124/RTP45
P125/RTP56
P126/RTP67
X111
VSS12
XT213
XT114
RESET15
P02/INTP2/NMI18
P03/INTP319
P04/INTP420
P05/INTP521
P06/INTP622
AVDD23
AVREF024
P10/ANI025
P11/ANI126
P12/ANI227
P13/ANI328
P14/ANI429
P15/ANI530
P16/ANI631
P17/ANI732
AVSS33
P130/ANO034
P131/ANO135
AVREF136
P70/RXD2/SI237
P71/TXD2/SO238
P72/ASCK2/SCK239
P20/RXD1/SI140
P21/TXD1/SO141
P22/ASCK1/SCK142
P23/PCL43
P24/BUZ44
P25/SI0/SDA045
P26/SO046
P27/SCK0/SCL047
P80/A048
P81/A149
P82/A250
P127/RTP78
VDD9
X210
P00/INTP016
P01/INTP117
Q131
B2
E1
C3
Q125
B2
E1
C3
C39473Z/16V
BR1
10KJ x4
18
27
36
45
BR2
2.2KJ x4
18
27
36
45
R47
C44473Z/16V
Q126
B2
E1
C3
BR28
10KJ x4
18
27
45
36
Q128
DTC114YKA x4
B2
E1
C3
BR3
10KJ x4
18
27
36
45
IC106
TC4S584F
NC1
VDD5
INA2
VSS3
OUT X4
R54
BR4
2.2KJ x4
18
27
36
45
T2OAT2OBT2O/AT2O/BPSAPSBPS/APS/B
JPD
JFAJFBJF/A
SEL0
SEL2
IN0IN1
T2OPD
SEL1
SOL1
SCRS
STLK
PSPD
���������� ������� ����� + ��� ��������� "# $%�&'()
AR-FN6 BLOCK DIAGRAM, WIRING DIAGRAM 10-4
C
C
D
D
E
E
4
3
2
1
uPD784214AGC
(1-D1)
(1-D3)
(1-E1)
(2-B2)
(2-C4)
(2-B4)(2-B3)
(2-C2)
(1-D3)
(1-B2)
(1-B2)
(2-C2)
(1-B1)
(2-A2)
(SCID)
(PID)
(1-D3)
(1-D3)
(SCID2)
(1-D2)
(1-D3)
MME
STU/ASTUB
AD1AD0
AD2AD3
AD5AD4
AD6AD7
RD/
ASTB
VPP
AD0
AD7A6
AD4 A4
AD1
AD6
AD3
AD5
A1
A5
AD3AD2AD1
A3
AD0
AD5
AD2
AD6
A0
A7
A2
AD4
AD7
SOL1
JF/BJRAJRBJR/AJR/B
STUA
STU/B
MMCK
STASTB
STTBSTTA
A16
A16A17
A12A13
A8
A10
A8
A11
A9
A18A19
SCRS
SCPD/
STSP/
STNCSTLS
STTD
STUPD
EVAEVB
MMLKDOPD/
T1PF/
24VM/DSW1/DSW2/TEST
N.C.
STHP/
PID/SCID/POD/
A15
A15
A14
A14A13A12A11
VDD
A10A9
VSS
+24V
+5V
+5V
+5V
+5V
+5V
+5V
+5V
+5V
+5V
+5V
+5V
+5V
+5V
+5V
PID/ CNG-03
STHP/CNE-07
SCID/CNH-15
C85
POD/ CNC-32
C16223Z/50V
C38
473Z/16V
MMLKCND-04
SCPD/ CNH-11
C1
47U/35V
+
STNC CNE-05
STSP/ CNE-11
STLS CNE-06
SO2
CP3
SI2
CP2
C46
COM2CNH-13
COM1CNG-01
R96
220J(1/4W)
R95
220J(1/4W)
R97
220J(1/4W)
MMCKCND-05
MME/ CND-03
C54
DOPD/CNG-05
T1PF/CNI-02
COM3CNH-23
D112
312
D111
DAN202K x2
312
C88
(STTD)CNE-15
Q122
DTC114YKA x2
B2
E1
C3
/SCK2
CP4
VPP
CP7
C47 C50 C60
222Z/50V x4
C27
47U/35V
+
BR610KJ x4
1 82 73 64 5
BR22120J x4
BR21120J x4
BR19120J x4
BR16120J x4
BR14 120J x4
C45 C48 C49 C59
473Z/16V x4
C58
47U/35V
+
VSSCP12
VDDCP11
R61
4.7KJ
R82
100J
R83
100J
BR24 120J x4
BR27120J x4
C23
222Z/50V x4
C12 C73
222Z/50V x7
C10
Q123
B2
E1
C3
IC110
74HC373
D03
Q02
D14
Q15
D27
Q26
D38
Q39
D413
Q412
D514
Q515
D617
Q616
D718
Q719
OE1
LE11
VCC20
GND10
IC108
74HC151
D04
D13
D22
D31
D415
D514
D613
D712
A11
B10
C9
ST7
W6
Y5
VCC16
GND8
C26222Z/50V
10
KJ x4
18
27
36
45
C74
IC105
74HC151
D04
D13
D22
D31
D415
D514
D613
D712
A11
B10
C9
ST7
W6
Y5
VCC16
GND8
C53
222Z/50V x2
C86
R91
10KJ
C24
C84
473Z/16V
C21C22
BR5
10KJ x4
18
27
36
45
BR25
10KJ x4
18
27
36
45
R94
10KJ
C65
473Z/16V
BR12
10KJ x4
18
27
36
45
P83/A351P84/A452P85/A553
P86/A654P87/A755P40/AD056
P41/AD157
P42/AD258
P43/AD359P44/AD460
P46/AD662P47/AD763P50/A864P51/A965P52/A1066
P53/A1167P54/A1268
P55/A1369P56/A1470P57/A1571VSS72
P60/A1673P61/A1774P62/A1875P63/A1976P64/RD77P65/WR78
P66/WAIT79P67/ASTB80VDD81P100/TI5/TO582P101/TI6/TO683
P102/TI7/TO784P103/TI8/TO885P30/TO086
P31/TO187
P33/TI189P34/TI290P35/TI0091
P36/TI0192
P32/TO288
P3793
TEST/VPP94P9095P9196P9297
P9398
P9499P95100
P45/AD561
BR15
10KJ x4
18
27
36
45
C78
222Z/50V
BR26
10KJ x4
18
27
36
45
BR13
10KJ x4
18
27
36
45
C52
473Z/16V
IC5
M27C1001
A012
A111
A210
A39
A48
A57
A66
A75
A827
A926
A1023
A1125
A124
A1328
A1429
A153
A162
CE22
OE24
VPP1
PGM31
O013
O114
O215
O317
O418
O519
O620
O721
VCC32
GND16
C83
222Z/50V
C51
222Z/50V
BR17
10KJ x4
18
27
36
45
BR18
10KJ x4
18
27
36
45
C79
473Z/16V
BR23
10KJ x4
18
27
36
45
C64
222Z/50V
BR7
2.2KJ x4
18
27
36
45
BR20
10KJ x4
18
27
36
45
ASTB
RD/
JF/BJRAJRBJR/AJR/B
STUASTUBSTU/ASTU/B
STASTB
STTASTTB
MMEMMCK
SEL0SEL1
IN1IN0
SEL2
STUPD
EVAEVB
SOL1SCRS
MMCK
MME
ASTB
RD/
���������� ������� ����� , ��� ��������� "# $%�&'()
AR-FN6 BLOCK DIAGRAM, WIRING DIAGRAM 10-5
A
A
B
B
C
C
4
3
2
1
SF MAIN PWB TF UN (2/3)
(1-B2,D2)
(1-D2)
(1-D3)
(1-D3)
(1-B2)
(1-B3)
(1-B2)
(1-B3)
(1-B3)
+5V
+5V
+5V
+24V
+24V
+24V
+24V
+5V
+24V
JFMBCNF-06
JFM/BCNF-07
JFM/ACNF-08
JFMACNF-09
R764.7KJ
JRMBCNF-12
JRM/B CNF-13
JRM/ACNF-14
JRMACNF-15
R244.7KJ
STUMBCNC-08
STUM/ACNC-06
STUM/B CNC-07
STUMACNC-05
R77
510J
R25
360J
T2OMA CNB-04
T2OM/B CNB-01
T2OM/ACNB-06
T2OMBCNB-03
D23
D12
R550.47J(1W)
R580.47J(1W)
R571KJ
C43332Z/50V
C42332Z/50V
R561KJ
R160.47J(1W)
R364.7KJ
R200.47J(1W)
C15332Z/50V
C30332Z/50V R35
1KJ
R151KJ
R37
510J
R1 6.8KJ
R34 6.8KJ
C28 222Z/50V
C3 222Z/50V
R46 6.8KJ
R44 6.8KJ
C36 222Z/50V
C35 222Z/50V
D24
M1FL20U x4
D4D11 D5
M1FL20U x4
D26
IC2
MTD1361
NC11
NC12
Rs A9
Vs A4
Vs B24
Rs B19
Vref A3
Vref B25
NC14
NC15
Vmm1
PG7
PG21
LG27
NC16
CR A2NC17
PG13
IN /A5
IN A6
IN /B23
IN B22
CR B26
OUT A10
OUT /A8
OUT B18
OUT /B20
D25
C2
47U/35V
+
C34
47U/35V
+
IC102
MTD1361F
NC2
NC5
Rs A3
Vs A25
Vs B18
Rs B12
Vref A24
Vref B19
NC6
NC7
Vmm22
PG15
NC8
NC9
NC10
CR A23
NC13
NC21
PG28
IN /A26
IN A27
IN /B17
IN B16
CR B20
OUT A4
OUT /A1
OUT B11
OUT /B14
IC107
MTD1361F
NC2
NC5
Rs A3
Vs A25
Vs B18
Rs B12
Vref A24
Vref B19
NC6
NC7
Vmm22
PG15
NC8
NC9
NC10
CR A23
NC13
NC21
PG28
IN /A26
IN A27
IN /B17
IN B16
CR B20
OUT A4
OUT /A1
OUT B11
OUT /B14
R72 6.8KJ
R71 6.8KJ
C57 222Z/50V
C56 222Z/50V
C55
47U/35V
+
R780.47J(1W)
R810.47J(1W)
R801KJ
C67332Z/50V
C66332Z/50V
R791KJ
R45
360J
IC101
MTD1361F
NC2
NC5
Rs A3
Vs A25
Vs B18
Rs B12
Vref A24
Vref B19
NC6
NC7
Vmm22
PG15
NC8
NC9
NC10
CR A23
NC13
NC21
PG28
IN /A26
IN A27
IN /B17
IN B16
CR B20
OUT A4
OUT /A1
OUT B11
OUT /B14
C4
47U/35V
+
C5 222Z/50V
C6 222Z/50V
R2 6.8KJ
R3 6.8KJ
R171KJ
C17332Z/50V
C18332Z/50V R18
1KJR220.47J(1W)
R210.47J(1W)
R23
360J
R844.7KJ
PSMBCNF-18
PSM/ACNF-20
PSM/B CNF-19
PSMACNF-21
R85
510J
IC109
MTD1361F
NC2
NC5
Rs A3
Vs A25
Vs B18
Rs B12
Vref A24
Vref B19
NC6
NC7
Vmm22
PG15
NC8
NC9
NC10
CR A23
NC13
NC21
PG28
IN /A26
IN A27
IN /B17
IN B16
CR B20
OUT A4
OUT /A1
OUT B11
OUT /B14
R89 6.8KJ
R86 6.8KJ
C71 222Z/50V
C69 222Z/50V
C68
47U/35V
+
C70332Z/50V
R901KJ
C72332Z/50V
R930.47J(1W)
R920.47J(1W)
R881KJ
R87
510J
R38
510J
Q135DTC114YKA
B2
E1
C3
Q114DTC114YKA
B2
E1
C3
Q136DTC114YKA
B2
E1
C3
Q119DTC114YKA
B2
E1
C3
D16 D18
M1FL20U x4
D15 D17
D19D22 D20
M1FL20U x4
D21
JFAJF/B
JF/A
JFB
JRAJR/B
JR/A
JRB
STUBSTU/B
STU/ASTUA
JPD
STUPD
T2OAT2O/A
T2O/BT2OB
T2OPD
PSBPS/B
PS/APSA
PSPD
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AR-FN6 BLOCK DIAGRAM, WIRING DIAGRAM 10-6
C
C
D
D
E
E
4
3
2
1
M1FL20U x2
(1-D3)
(1-D3)
(1-D3)
(1-D3)
M1FL20U x2
(1-D3)
(1-D3)
CNE-10,12CNC-02,03,23,26,29,31
CNB-02,05
CNF-01,04,05CNG-02,06,09
GND2CNH-01,04,07,10,17,20,
CNC-21,24,27,30
CNF-10,11,16,17,22,23,
CNI-03
CNI-01
CNG-04
-24
CNE-08,09,14
CNH-03,06,09,12,14,19,
CNC-04,09,10,16,18,20
-22,24,28
-26
CNH-29,31
8
4
TP1
TP8
CNK-01
CND-02
(1-A2)
1
1
1
1
1
1
1
1
1
1
1
CNJ-01
CNJ-03
1
1
+24V2
+5V
+24V2
+5V
+24V1
+24V
+24V
Q8
2SB1420 x4
Q7
Q4
R33
2.4KJ(1/2W)
R32
2.4KJ
R31
2.4KJ
R30
2.4KJ(1/2W)
R6
1KJ(1W)
D103
DAN202K
31 2
D8
Q3
D9
STM- CNE-01
R430.22J(1W)
STM+CNE-04
R10
4.7KJ(1/4W)
R13
4.7KJ(1/4W)
IC1
STA457C
11
66
55
1010
99
44
8833
22
77
R19
4.7KJ(1/4W)
R11
4.7KJ
D3
1SS133
STM-CNE-02
C31
473Z/16V
R41
100J
R40
2.4KJ
C33
473Z/16V
STM+CNE-03
D10
1SS133
C32
473Z/16V
R14
4.7KJ(1/4W)R8
100J
EVM+CNC-11
EVM-CNC-12
Q5
Q2
R29
2.4KJ(1/2W)
R28
2.4KJ
R27
2.4KJ
R26
2.4KJ(1/2W)
R4
1KJ(1W)
D104
DAN202K
31 2
D6
Q1
D7
STTM+CNC-13
STTM-CNC-14
C20
473K/50V
C13
103Z/50V
F2
RXE075
F1
RXE010
BA10393F
IC103B
+
-
5
67
Q6
2SB1240 x4
R39
2.4KJ
CND-01
C19
103Z/50V
Q118
B2
E1
C3
Q117
DTC114YKA x2
B2
E1
C3
Q116
B2
E1
C3
Q115
DTC114YKA x2
B2
E1
C3
Q109
B2
E1
C3
Q106
DTC114YKA x6
B2
E1
C3
CNG-07
C87
223Z/50V
R9
4.7KJ
R12
100J
Q108
B2
E1
C3
R42
430J
Q104
B2
E1
C3
R7
1KJ(1W)
C14
473K/50V
Q107
B2
E1
C3
Q105
B2
E1
C3
R5
1KJ(1W)
R52
0J
F3
RXE017
EVA
EVB
STB
STTA
STTB
STA
STLK
���������� ������� ����� . ��� ��������� "# $%�&'()
AR-FN6 BLOCK DIAGRAM, WIRING DIAGRAM 10-7
A
A
B
B
C
C
4
3
2
1
SF MAIN PWB TF UN (3/3)
PID
CNG (B9B-PH-K-S)
04
01
FGS/
03
SIGNAL
PID/
02
+24V
NO
FGS
GND2
05
06
07
08
COM1
CNI
01
03
02
NO
SCRS/
+24VSCRS
17
PSM
+24V
12
09
15
04
+24V
JFM/A
05
10
CNF (B24B-PHDSS)
02
01
+24V
18
13
SIGNAL
JFM
11
08
JRM
16
NO
JFM/B
06
JFMA
07
14
JFMB
03
JRMB
JRM/B
JRM/A
JRMA
+24V
+24V
+24V
PSMB
PSM/B
PSM/A
PSMA
14
06
12
15
09
04
10
05
07
CNH
01
02
03
13
08
11
16
NO
05
CNA (S16B-PHDSS)
01
02
04
SIGNALNO
03
+5V
GND2
GND1
POWER
UART
07
08
DTR-FIN2/
TXD-FIN2
RES-FIN2
06
09
10
+24V
RXD-FIN2
DSR-FIN2/
FGS-FIN/
11
12
FGS
GND1NO
+24V1
02
SIGNAL
03
GND1
MMLK
01
04
CND (B6B-PH-K-S)
05
MMMME/
MMCK
T2OM
12
08
07
NO
01
02
14
T2OM/B
STTM+
05
CNC (S32B-PHDSS)
04
T2OMB
13
+24V
T2OM/A
+24V
T2OMA
10
03
09
06
11
SIGNAL
STTM-STTM
EVM+
EVM-EVM
19
20
21
22
23
24
DSW2+24V1
17
18
GND2
STNC
09
07
06
01
STHP/
04
SIGNAL
02
STM-
STLS
12
13
14
03
+5V
STSP/
GND2
STAPLER
11
STM+
15
05
10
NO
16
CNE (B16B-PHDSS)
08
STUHP
STUHP
STUM
STUMA
STUM/A
STUM/B
STUMB
+24V
+24V
GND2
+5V
(STTD)
GND2
19
21
20
22
23
24
+24V
+24V
GND1
13
14
15
16
N.C.
15
16
25
26
27
28
17
18
19
20
+24V1
+24V
DSW1
+24V
SOL1/(SOL1)
GND2
GND2
GND2
GND2
29
30
31
32
DOPD
+5V
DOPD/
GND2
TEST
NO
02
SIGNAL
03
01
04
CNB (B6B-PH-K-R)
05
06
+24V SCGS
for CHECK
+24V2
GND2
09 GND2
STM-
STM+
(STTD)
+24V
T2S/T2S
+5V
T2UP
GND2
+5V
T2DN
GND2
T2PD/
+5V
GND2
GND2
POD/
T2UP
T2DN
T2PD
POD
21
22
23
24
25
26
27
28
29
30
31
32
06 N.C.
+5VCNK
01
02
NO
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AR-FN6 BLOCK DIAGRAM, WIRING DIAGRAM 10-8
C
C
D
D
E
E
4
3
2
1
CNI (S3B-PH-K-S)
01
03
SIGNAL
02
+5V
NO
GND2
14
06
12
15
09
GND2
04
10
05
07
CNH (B32B-PHDSS)
01
02
SCID
03
13
SIGNAL
08
11
JFHP
16
PSHP
+5V
NO
JFHP
COM2
+5V
GND2
JRHP JRHP
+5V
PSHP
GND2
+5V
GND2
SCPD/ SCPD
GND2
SCID/
120
130
CNCCND
CNE
CNH
CNA
STTHP2
STTHP1
STTHP2/
+5V
STTHP1/
17
18
GND2
T1PFT1PF/
CNF
PPD/
SCID2
CNI
19
21
20
22
23
24
+5V
GND2
COM3
GND2
25
26
27
28 GND2
PPD
+5V
SCID2/
+24V
SPS/
+24V
PPS/
29
30
31
32
SPS
PPS
SCGSSCGS/
CNBCNJ
CNK (B2B-PH-K-S)
01
SIGNAL
02
+24V
NO
(SOL1)SOL1/
CNG
CNK
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Contains lithium-ion battery. Must be disposed of properly.
Remove the battery from the product and contact
federal or state environmental
agencies for information on recycling and disposal options.
(For USA,CANADA)
CAUTION FOR BATTERY DISPOSAL
���������� � ��� ���������� ��� ������
COPYRIGHT 2001 BY SHARP CORPORATIONAll rights reserved.Printed in Japan.
No part of this publication may be reproduced,stored in a retrieval system, or transmitted,
in any form or by any means,electronic, mechanical, photocopying, recording, or otherwise,
without prior written permission of the publisher.
Trademark acknowledgmentsWindows and Windows NT are trademarks of Microsoft Corporation in the U.S.A.and other countries.IBM and PC/AT are trademarks of International Business Machines Corporation.PCL is a trademark of Hewlett-Packard Company.Pentium is a registered trademark of Intel Corporation.All other trademarks and copyrights are the property of their respective owners.
SHARP CORPORATIONDigital Document System GroupQuality & Reliability Control CenterYamatokoriyama, Nara 639-1186, Japan
N
cCOPYRIGHT 2001 BY SHARP CORPORATIONAll rights reserved.Printed in Japan.
No part of this publication may be reproduced,stored in a retrieval system, or transmitted,
in any form or by any means,electronic, mechanical, photocopying, recording, or otherwise,
without prior written permission of the publisher.
Trademark acknowledgmentsWindows and Windows NT are trademarks of Microsoft Corporation in the U.S.A.and other countries.IBM and PC/AT are trademarks of International Business Machines Corporation.PCL is a trademark of Hewlett-Packard Company.Pentium is a registered trademark of Intel Corporation.All other trademarks and copyrights are the property of their respective owners.
SHARP CORPORATIONDigital Document System GroupQuality & Reliability Control CenterYamatokoriyama, Nara 639-1186, Japan
N
cCOPYRIGHT 2001 BY SHARP CORPORATIONAll rights reserved.Printed in Japan.
No part of this publication may be reproduced,stored in a retrieval system, or transmitted,
in any form or by any means,electronic, mechanical, photocopying, recording, or otherwise,
without prior written permission of the publisher.
Trademark acknowledgmentsWindows and Windows NT are trademarks of Microsoft Corporation in the U.S.A.and other countries.IBM and PC/AT are trademarks of International Business Machines Corporation.PCL is a trademark of Hewlett-Packard Company.Pentium is a registered trademark of Intel Corporation.All other trademarks and copyrights are the property of their respective owners.
SHARP CORPORATIONDigital Document System GroupQuality & Reliability Control CenterYamatokoriyama, Nara 639-1186, Japan
2001 April Printed in Japan N
c
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