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SERVICE MANUAL
Parts marked with “ ” are important for maintaining the safety of the set. Be sure to replace these parts withspecified ones for maintaining the safety and performance of the set.
CONTENTS
CODE: 00ZARFX13/S2E
DIGITAL MULTIFUNCTIONAL SYSTEM OPTIONFACSIMILE EXPANSION KIT
MODEL AR-FX13
[1] PRODUCT OUTLINE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-1
[2] SPECIFICATIONS. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-1
[3] INSTALLATION PROCEDURE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-1
[4] SIMULATION. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-1
[5] FAX SOFT SWITCH . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-1
[6] TROUBLE CODES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6-1
[7] CIRCUIT DIAGRAM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7-1
PARTS GUIDE
This document has been published to be usedfor after sales service only.The contents are subject to change without notice.
SHARP CORPORATION
AR-FX13 PRODUCT OUTLINE 1 - 1
[1] PRODUCT OUTLINE
This unit provides the FAX function when installed to the followingmachines:
Machines to install this unit :
• AR-M200
• AR-M201
• AR-208S
• AR-208D
[2] SPECIFICATIONS
Large item Middle item Small item Sub item Specifications
Communication system
Electronic transmission system
Electronic transmission time
Less than 3 sec (Super G3 mode, 33600bps)Less than 7 sec (G3 ECM mode, 14400bps)
Compression/ Extraction system
MH, MR, MMR, JBIG
MODEM speed 33600bps - 2400bps (Automatic fall-back)
Mutual communication Super G3/G3
Used line Public switched telephone network (PSTN), Private branch exchange (PBX)
R-key operation when setting PBX
Yes (Germany only)
PBX setting Yes (Germany, Sweden, Spain, Italy, Switzerland, Finland, Denmark, Norway)
Used line number 1 line
Connection form For 1 line of telephone;• FAX machine• External telephone
ECM YesTransmission functions
Transmission operation
Items which can be selected and registered by user when transmitting
• Specifying the destination number• Resolution• Density• Transmission start time• Polling receive• Cover addition setting• Send document scan system
Auto send function Auto send function to a predetermined telephone number
Application send function
Chain dial Max. 50 digitsRapid key dial Registration key One-touch key
Number of items Max. 18 items
Number of digits of destination number
Max. 40 digits
Destination registration name
Max. 20 characters
Retrieval characters 0 - 3 characters
Communication start speed
Max. speed: 33600bps/ High speed: 14400bps/ Middle speed: 9600bps/ Low speed: 4800bps
International communication mode
NO/ Mode 1/ Mode 2/ Mode 3
Transmission method One-touch dial key
Large item Middle item Small item Sub item Specifications
Transmission functions
Application send function
Speed dial Number of items 100 items (Reduction number 00 - 99)
Number of digit of destination number
40 digits
Destination registration name
20 characters
Retrieval characters 0 - 3 characters
Communication start speed
Max. speed: 33600bps/ High speed: 14400bps/ Meddle speed: 9600bps/ Low speed: 4800bps
International communication mode
NO/ Mode 1/ Mode 2/ Mode 3
Transmission method Speed dial key + (00 - 99) + Start key
Group dial Registration key One-touch dial key
Number of groups which can be registered
18 items (One-touch dial + Group dial)
Destination registration name
20 characters
Number of stations which can be registered in one group
Max. 100 stations in one group (Max. total items which can be registered: 150 items)
Numbers which can be registered
Destination numbers registered in one-touch dial and speed dial, 10-key dial
Retrieval characters 0 - 3 characters
Transmission method Group dial keyAddress book send Retrieval target • Speed dial
• One-touch dial• Group dial
Retrieval key SEARCH key
Retrieval character 0 - 3 characters
Send functions Document scan function
Document size Max. document width Inch series: 8.5"AB series: 210mm
Max. document length 500mm ∗ (Only from RSPF, with user support)∗ RSPF: Single surface scan
Send document size AB series: A4Inch series: Letter (8.5" x 11")/Legal (8.5" x 14") (Default: Letter (8.5" x 11"))
Document size specification
Yes
Half-tone reproduction Half-tone 256 gradations
Resolution selection Manual 5 stepsStandard/Fine/Super Fine/Fine + Half-tone/Super Fine + Half-tone (Default: Standard)
Scan density select function
Density select Light/Medium/Dark
Scan resolution select function
Selectable image quality mode
Scan density
Resolution select Standard: 8dot x 3.85 line/mmFine: 8dot x 7.7 line/mmSuper Fine: 8dot x 15.4 line/mmHalf-tone: Scan in 256 gradations
Document table scan (OC send) function
Book document scan/send function from the document table (OC). In one send job, the send document size is fixed.
AR-FX13 SPECIFICATIONS 2 - 1
Send functions Send document information adding function
Sender registration/send function
Sender telephone number
20 digits
Sender registration name
36 characters
Send header function Header display content Sender number registered in sender registration/ Sender name/ Send date and time/ page
Page counter function Adding position Top right (The right edge)
Adding form P. XXX (Max. 999)
Cover adding function Display items • Date and time• Destination name (Max. 20 characters)• Destination number (Max. 40 digits)• Sender name (Max. 20 characters)• Sender number (Max. 20 digits)• Send quantity (3 digits)• Send message (When send message adding
function is used)
Send message adding function
Fixed message NO MESSAGE/CONFIDENTIAL/PLS. DISTRIBUTE/URGENT/PLS. CALL BACK/IMPORTANT
Index function Yes (Max. 10 kinds in printable area)
Basic send functions
Direct send function Yes
Memory send function Send formNumber of items of send reservation
• Send reservation• Time specifying send• Group send• Serial broadcastMax. 52 items (excluding redial)Group send and broadcast are treated as one item.
Operation when memory full
• Document scan stop• Memory full display → Job continuation check• Job continuation: Scanned document data are sent.• Job stop: Scanned document data are deleted.• In either case, document is held in RSPF and not
discharged.
Quick online send function
Valid when memory mode is ON. Scan of send document data and send are performed together.
Auto resend function When busy tone detected
Redial is performed according to the setting of "Number/interval of redial when busy."
When no response (CED/ FSK signal are not detected)
Redial is performed according to the setting of "Number/ interval of resend in communication error."
Communication error
Long document send function
Supports up to 500mm. When this length is exceeded, "PAPER JAM" occurs.
Application send function
Manual send function This function allows to switch to FAX manually when off-hook with document set.
Time specifying send function
Available communication
Memory send, Polling, serial broadcast, serial send request
Number of set items Max. 5 items
Set range 00:00 - 23:59 (Unit: 1 min)
Day of week 8 kinds (From Monday to Sunday, and no specification)
Group send function A message is sent sequentially to two or more destinations registered in group dial. (Max. 52 destinations can be registered in one group.)
Serial broadcast function
Broadcast send destination
Max. 100 items
Duplex send function Valid only in duplex support models.Direct send and scan from OC cannot be made.
Send document size A4/ Letter/ Legal size
Large item Middle item Small item Sub item Specifications
AR-FX13 SPECIFICATIONS 2 - 2
Incoming functions system
Incoming detection function
Call signal detection function
Call bell is distinguished from net call signals to judge incoming.
Remote select function by CNG detection
Receive is started when CNG signal is detected in standby with external telephone used.
Application incoming function
Distinctive Ringing function
(North America)Conforms to the call distinguishing function provided by the local telephone company.
(Europe, Australia, New Zealand)Only distinction of TEL/FAX (When FAX distinction of ON/OFF) (Default: OFF)
Call bell pattern OFF/STANDARD/Pattern 1 - 5 (North America)
Incoming reject function
Incoming is rejected when remaining memory capacity is less than 7%.
Call sound volume adjustment function
Volume select OFF/LOW/MIDDLE/HIGH
Alarm sound volume adjustment function
Volume select OFF/LOW/MIDDLE/HIGH
Key sound volume setting
Follows setting on the main unit.
Junk FAX protection function
Junk stations are registered to be rejected.
Number of registrations
Max. 10 items
Receive functions system
Receive function Receive standby mode • Auto (AUTO)• Manual (MAN.)• Answering machine (A.M.)
Basic receive function
Auto receive function The line is switched to FAX by detection of call signal. (receive standby mode)
Number of calls AUTO: 0 - 9 times (Default: 2 times)
Tel/FAX auto select No
Incoming reject conditions
• During Simulation by serviceman• Insufficient memory capacity• During menu• During memory status display
Manual receive function
Receive is manually started.Number of calls 0 - 9 times (Default: 0 times)
Memory receive function
Receive data are accumulated in memory, and outputted when output conditions are satisfied.
Substitution receive function
Countermeasure against print inhibit state.• No recording paper• Recording paper jam• During copy/print job• During printing by printer• Cover open• Paper empty, size error
Forcible memory receive function
No
Overtake output function
No
Receive document output function
Auto reduction/ divided receive function
Auto reduction function When the reference line number is in the specified range.
Divided receive function
When the reference line number exceeds the specified range.
Polling receive function (Send request function)
The remote machine must be provided with polling function. Communication is allowed with an other company machine.
Sequential send request (Polling) communication
Polling is made to two or more specified destinations. Number of items of destination registration: Max. 100 items
Remote send Scanned document data in memory are sent automatically by send request from the remote machine.
Protection function • Check by sender number• Check by allow number
Large item Middle item Small item Sub item Specifications
AR-FX13 SPECIFICATIONS 2 - 3
Receive functions system
Print system Recording paper Recordable size A4/8.5" x 11"/8.5" x 14"
Recording paper setting
AUTO/TRAY 1/TRAY 2 (When the option installed)(In AUTO, TRAY1 has priority.) (Default: AUTO) (North America)
Paper feed Paper feed by tray (Excluding multi manual feed)
Recording paper size detection
The recording paper length is detected. If the size differs, a paper size error occurs.
Recording paper empty detection
Detected by a paper pickup error.
Duplex receive Available only in the duplex function support models.
Transfer function Receive data are transferred to the registered station.
Number of registered transfer destination
1 item
Registered telephone number
40 digits
Local transfer Countermeasures against an error• Paper jam• No toner cartridge• No toner• During toner supply• Toner empty• No recording paper
Telephone functions system
Main unit telephone function
On-hook dial function Yes
Manual redial function Max. memory digit 50 digits
Display digits End 20 digits
Pause function Yes (Fixed to 2sec)Pulse/Tone select function
Yes (Set by soft switch)
External telephone connection function
Select function by DTMF
Select number (1 digit) + [**] (0 - 9)
Record table system
Report list Report output function Report select • TIMER LIST• ACTIVITY REPORT• TELEPHONE# LIST• GROUP LIST• PASSCODE LIST• JUNK FAX# LIST• USER PROGRAM LIST
Recording table auto print function
Number of items Auto print for every 50 items of send/receive total.
Communication report list
Report select • Send report list• Receive report list• Serial broadcast send report list• Image memory addition
Print status select • ALWAYS PRINTS• ERROR ONLY• NEVER PRINTS
Large item Middle item Small item Sub item Specifications
AR-FX13 SPECIFICATIONS 2 - 4
Memory functions system
Memory outline Memory capacity Standard memory 2MB
Option NoDocument quantity to be stored
A4 standard documents 120 pages
Data storage area/ backup when service interruption (Recorded data, receive data)
Image data Flash memory (Data are retained when the power is turned off or when the battery is exhausted.)
Data other than image SRAM (Data are retained when the power is turned off, but deleted when the battery is exhausted with the power OFF.)
Treatment when memory full
Quick online Memory full on the first page
Send cancel without call-out
Memory full on the second or later page
The line is shut-off after sending the last page of scanned data.
Memory send Memory full on the first page
Send cancel
Memory full on the second or later page
Send/Cancel is selected depending on the select menu display.Send: The line is shut off after sending the scanned data.Cancel: Cancel even scanned data.
Memory status check function
Yes (The remaining memory capacity (%) is displayed on the LCD.)
Memory content check function
Not-sent job is displayed on the LCD. (Cancel is possible.)
Document jam Error LED, LCD message are displayed.
Service functions system
Simulation function
Send/receive of specified signals, commands, and image data are performed without a remote machine.
Counter function Communication counter
• Number of send pages• Number of receive pages• Number of output pages• Send time• Receive time
Others Environmental functions
Auto clear Conforms to the main unit setting. When the operation is left for 1 min or more, the display returns to the main menu.
Auto shut -off Conforms to the main unit setting.
Date and time setting function
(North America)Month/ Day/ Year/ Day of week/ O'clock/ minute
(Europe, Australia, New Zealand)Day/ Month/ Year/ Day of week/ O'clock/ minute
Image priority function
STANDARD/FINE/SUPER FINE
BEEP LENGTH (Communication end sound length) setting
3SEC/1SEC/NO BEEP
Auto summer time setting
(North America)Second Sunday of March AM2:00 → 3:00,First Sunday of November AM2:00 → 1:00(Default: OFF)
(Europe)Last Sunday of March AM1:00 → 2:00,Last Sunday of October AM1:00 → 0:00(Default: ON)
(Australia, New Zealand)Last Sunday of October AM2:00 → 3:00,Last Sunday of March AM3:00 → 2:00(Default: ON)
Multi language function
Conforms to the main unit setting.
Large item Middle item Small item Sub item Specifications
AR-FX13 SPECIFICATIONS 2 - 5
[3] INSTALLATION PROCEDURE
<Before installation>
For improvement of workability, some description in this manual aswell as components and accessories may change without priornotice. In this case, refer to the service manual.
Turn off the main switch of the copier and then remove the powerplug of the copier from the outlet.
1. Parts included
Remove all pieces of fixing tape and fixing materials from the finisher.
2. Installation procedure(1) Detach the RSPF or OC.Detach the RSPF or OC from the copier and softly place it on topof the original table as shown below.
(2) Remove the rear cabinet.1) Unscrew the screw and remove the rear cabinet shielding
plate. (Save the screw.)
2) Unscrew three screws and remove the rear cabinet. (Save thescrews.)
(3) Attach the speaker unit.Attach the speaker unit using a supplied screw as shown below.
(4) Attach the FAX modem PWB.1) When RSPF is installed, unscrew the screw holding the RSPF
ground terminal. (Save the screw.)
2) Insert two supplied screws and tighten them loosely as shownbelow.
3) Attach the sponge around the bent portion of the FFC cable asshown in the figure.
Cable: 1
Sponge: 1FAX Modem PWB: 1
Key sheet: 1
FAX keyboard: 1Ground angle: 1
Speaker unit: 1
Gasket: 2
Core: 1
Line cable: 1Line Adapter: 1(Australia/New Zealand)
Operation Manual: 1
Screws (M3x6): 5
For North America
Screws (M3x6): 6
For other than North America
North AmericaFCC label: 1
Australia/New ZealandA-tick label: 1
1
2
2 2
3
1
AR-FX13 INSTALLATION PROCEDURE 3 - 1
4) Align the top frame portion of the FAX modem PWB with thescrew hole at the back of the speaker unit.
5) Place the holes of the bottom portion of the FAX modem PWBonto the loosely tightened screws.
Slide the PWB to left to secure as shown below.
6) When RSPF is installed, secure the RSPF ground terminaland the FAX modem PWB onto the copier using the screwremoved earlier in (4)-1).
• When OC is installed, secure the FAX modem PWB ontothe copier using a supplied screw.
7) Secure the FAX modem PWB onto the copier using a suppliedscrew.
8) Tighten two loosely tightened screws completely.
9) Secure the ground angle using a supplied screw.
(5) Connect the cable, and the speaker connectorConnect the copier and the FAX modem PWB with the cable.
Fix the snap band to the FAX PWB.
NOTE: Connect the speaker connector to the FAX modem PWB.
(6) Work the rear cabinet, and attach the gasket.1) Cut and remove the cut-out portion from the rear cabinet using
a tool such as nippers. (Be careful with the tool’s direction sothat the cut surface is flat.)
2) Attach two Gasket as shown.
(7) Reattach the rear cabinet.1) Reattach the rear cabinet and secure it using three screws.
2) Reattach the rear cabinet shielding plate and secure it usingone screw removed earlier.
Reattach the RSPF detached in Step (1).
(8) Peel off the dummy key sheet.Open the RSPF or OC.
Peel the edge of the dummy key sheet using a tool such as aretractable knife, and then peel off the entire key sheet.
Ground angle
64
7
89
5 5
8
Speaker
connector
Cable
GasketGasket
Putting
standard
Putting
standard
1
2
Cut-out portion
AR-FX13 INSTALLATION PROCEDURE 3 - 2
(9) Remove the dummy keyboard.Unscrew the screw, and remove the dummy keyboard with a toollike a pillar as shown below. (Save the screw.)
(10) Attach the FAX keyboard.1) Remove the tape which is fixing the harness to the operation
panel.
2) Connect the copier cable to the FAX keyboard. Note that thecable should be folded as shown below and placed under thekeyboard.
3) Place the FAX keyboard and secure it using the screwremoved earlier.
4) Affix the key sheet to the FAX keyboard.
(11) Paste the label on the rear cabinet of the copier.Paste the FCC label on the position shown in the illustration.
Insert the power plug of the copier to the outlet and turn on the main switch of the copier. Then, carry out the following procedure.
(12) Set the destination.1) Execute SIM 66-01.
2) Set the following values to SW80-1 – 8 of the FAX soft switch.
U.S.A. (10110101)
Canada (00100000)
U.K. (10110100)
Germany (00000100)
France (00111101)
Sweden (10100101)
Spain (10100000)
Italy (01011001)
Switzerland (10100110)
Finland (00111100)
Denmark (00110001)
Norway (10000010)
Netherlands (01111011)
Luxembourg (01101001)
Belgium (00001111)
Australia (00001001)
New Zealand (01111110)
3) Only for U.K., France, Netherlands, Belgium, Luxembourg, setthe FAX soft SW67-1 to 0.
(13) Connect the FAX modem PWB line cable.Wrap the line cable twice around the supplied core, and connect itto the FAX modem PWB as shown.
In order to manifest the compliance with FCC Part 68 and ICES-03.it is required to provide the machine with the FCC RegistrationNumber (USA), Ringer Equivalence (USA) and Ringer Equivalence(Canada).After installing the FAX expansion kit in the machine, please put theregistration label, packed with the kit, on the prescribed location.
2
3
4Putting standard
FCC label
Puttingstandard
FCC label
AR-FX13 INSTALLATION PROCEDURE 3 - 3
[4] SIMULATION
1. Entering the simulation modeTo enter the serviceman simulation mode, press the keys as follows:
[#] key → [∗] key → [Clear] key → [∗] key
To cancel the simulation mode, press the [Clear All] key.
2. Key rule
3. List of simulations
[Numeric] key: Entry of MAIN CODE/SUB CODESelection of an itemSetup of an adjustment value in case of simulations for adjustment
[ ] [ ] key: Selection of MAIN CODE/SUB CODE Selection of an item
[ENTER]/[OK]/[START] key: Settlement<In case of simulations for print>
[ENTER]/[OK] key: Settlement (Without print)
[START] key: Settlement/Print
[Clear] key: (Interrupting operation check) Returns to the upper hierarchy.In case of simulation of operation check, terminates the operations.
[Clear All] key: Exits from the simulation mode.For a simulation of adjustment, the display returns to the initial display (00-00).
Main code
Sub code
Contents
22 11 FAX-related counter display
24 10 FAX counter clear
46 12 Density adjustment in the FAX mode (Collective adjustment)
13 FAX mode density adjustment (Normal text)
14 FAX mode density adjustment (Fine text)
15 FAX mode density adjustment (Super fine)
39 FAX mode sharpness adjustment
66 01 FAX soft SW setting
02 FAX soft SW initializing (excluding the adjustment values)
03 FAX PWB memory check
04 Signal send mode (Max. value)
05 Signal send mode (Soft SW set value)
07 Image memory content print
Main code
Sub code
Contents
66 10 Image memory content clear
11 300bps signal send (Max. value)
12 300bps signal send (Soft SW set value)
13 Dial test
17 DTMF signal send (Max. value)18 DTMF signal send (Soft SW set value)
21 FAX information print
24 FAST SRAM clear
30 TEL/LIU status change check
33 Signal detection check
34 Communication time measurement37 Speaker sound volume setting
38 Time setting/check
AR-FX13 SIMULATION 4 - 1
4. Descriptions of various simulationsMain code
Sub code
Contents Details of function/operation
22 11 FAX-related counter display
[Function]The FAX-related counter is displayed.
[Operation]
24 10 FAX counter clear [Function]When [ENTER]/[OK]/[START] key is pressed, the FAX count value is set to 0 and "000,000" is dis-played on the LCD.
[Operation]
46 12 Density adjustment in the FAX mode (Collective adjustment)
[Function]When [START] key is pressed, scan is executed with the entered exposure adjustment value and thedata stored on the FAX side is rewritten into the entered value.
All data of the exposure adjustment values are rewritten into the same value.
For the density adjustment table data, refer to SIM46-13 (density adjustment (Normal text) in the FAXmode).
[Operation]
1) Initial display
∗ [Clear] key: Returns to the main-sub codeinput display.
2) Select 1
("xxx,xxx" is the current value.)
∗ [Clear] key: Returns to "1) Initial display".
2) Select 2
("xxxxx: xxx. xx" is the current value.)
∗ [Clear] key: Returns to "1) Initial display".
SELECT COUNTER1:PAGE 2:TIME
SEND PAGE:xxx,xxxRECV PAGE:xxx,xxx
TX TIME:xxxxx:xx.xxRX TIME:xxxxx:xx.xx
1) Initial display
24-10 FAX CLR.CLEARED 000,000
1) Initial display
("XX" is the exposure adjustment value of nor-mal text stored on the FAX side.)
2) Enter a 2-digit value as the exposure adjust-ment value with [Numeric] key.
("YY" is the entered exposure adjustmentvalue.)
3) Press [START] key.
Scan is started (self print), and the LED of[START] key is turned off.
4) Print is started (self print).
After completion of printing, returns to “2)” dis-play.
ADJUST EXP. AUTO XX
ADJUST EXP. AUTO YY
ADJUST EXP. AUTO SCAN YY
ADJUST EXP. AUTO PRINT YY
AR-FX13 SIMULATION 4 - 2
46 13 FAX mode density adjustment (Normal text)
[Function]Scan is started with the exposure adjustment value entered with [START] key, and the stored data ofthe selected mode on the FAX side is rewritten into the input value.
[Operation]
14 FAX mode density adjustment (Fine text)
[Function]When [START] key is pressed, scan is started with the entered exposure adjustment value and thedata of the selected mode on the FAX side is changed to the entered value.
For the density adjustment value table data, refer to SIM46-13 (FAX mode density adjustment (Nor-mal text).)
[Operation]
15 FAX mode density adjustment (Super fine)
[Function]When [START] key is pressed, scan is started with the entered exposure adjustment value and thedata of the selected mode on the FAX side is changed to the entered value.
For the density adjustment value table data, refer to SIM46-13 (FAX mode density adjustment (Nor-mal text).)
[Operation]
Main code
Sub code
Contents Details of function/operation
Density adjustment value data table
When initializing each data: 50
Mode Photo Exposure adjustment valueSTD (Normal text) off
Fine (Fine text) on
off
Sfine (Super fine) on
off
1) Initial display
("XX" is the corresponding exposure adjustmentvalue of normal text mode stored on the FAXside.)
2) Enter a 2-digit value as the exposure adjust-ment value with [Numeric] key.
("YY" is the entered exposure adjustmentvalue.)
3) Press [START] key.
Scan is started (self print), and the LED of[START] key is turned off.
4) Print is started (self print).
After completion of printing, returns to “2)” display.
ADJUST EXP. STD XX
ADJUST EXP. STD YY
ADJUST EXP. STD SCAN YY
ADJUST EXP. STD PRINT YY
1) Initial display
("XX" is the corresponding exposure adjustmentvalue of the fine text mode stored on the FAXside.)
2) Enter a 2-digit value as the exposure adjust-ment value with [Numeric] key.
("YY" is the entered exposure adjustmentvalue.)
3) Press [START] key.
Scan start (self print)
4) Print start (self print)
After completion of printing, returns to “2)” display.
ADJUST EXP. FINE XX
ADJUST EXP. FINE YY
ADJUST EXP. FINE SCAN YY
ADJUST EXP. AUTO PRINT YY
1) Initial display
("XX" is the corresponding exposure adjustmentvalue of the super fine mode stored on the FAXside.)
2) Enter a 2-digit value as the exposure adjust-ment value with [Numeric] key.
("YY" is the entered exposure adjustmentvalue.)
3) Press [START] key.
Scan start (self print)
4) Print start (self print)
After completion of printing, returns to “2)” display.
ADJUST EXP. S-FINE XX
ADJUST EXP. S-FINE YY
ADJUST EXP. S-FINE SCAN YY
ADJUST EXP. S-FINE PRINT YY
AR-FX13 SIMULATION 4 - 3
46 39 FAX mode sharpness adjustment
[Function]When [START] key is pressed, scan is started with the entered sharpness adjustment value, and thedata of the selected mode stored on the FAX side is changed to the entered value.
[Operation]
66 01 FAX soft SW setting [Function]Use to check the FAX soft SW setting.Every time when the key is pressed, the bit on the first line is switched 0 and 1.
[Operation]
02 FAX soft SW initializing (excluding the adjustment values)
[Function]Use to initializing FAX soft SW.
[Operation]
Main code
Sub code
Contents Details of function/operation
Sharpness adjustment value data table
When initializing each data: 1
Mode Sharpness adjustment value
1: STD
2: FINE
3: S-FINE4: FINE/PHOTO
5: S-FINE/PHOTO
1) Initial display
2) [ ] [ ] key or after 2sec
Every time when [ ] key is pressed, thesecond line is changed in the sequence ofNo. 1 → 2 → 3 → 4 → 5 → 1.
When [ ] key is pressed, the sequence isreversed.
3) Select the arrow key 1-5, and the LED of[START] key is lighted.
("ZZZZ" is the mode selected among STD,FINE, S-FINE, FINE/PHOTO, and S-FINE/PHOTO.)
("X" is the corresponding sharpness adjustmentvalue of the selected mode stored on the FAXside.)
∗ [Clear] key: Returns to “2)” display.
4) Enter a one-digit value (0-2) as the sharp-ness adjustment value with [Numeric] key.
("Y" is the entered sharpness adjustment value.)
∗ [Clear] key: Returns to “2)” display.
5) Press [START] key.
Scan start (self print)
6) Print start (self print)
After completion of printing, returns to “4)” display.
SHARPNESS SETTINGPRESS ←,→
SHARPNESS SET (1-5)1:STD
SHARPNESS SETTINGZZZZ(0-2) X
SHARPNESS SETTINGZZZZ(0-2) Y
SHARPNESS SETTING SCAN Y
SHARPNESS SETTING PRINT Y
1) Initial display
∗ [Clear] key: Returns to the main-sub codeinput display.
2) Enter a 3-digit value of soft SW No. (Toenter the fourth digit, shift to the left.), andthe press [ENTER]/[OK] key.
"xxxxxxxx" is the set content.
∗ Select 2: Returns to the soft SW No. entry dis-play.
3) Select 1
4) Change with 1-8 of [Numeric] key and thepress [ENTER]/[OK] key.
"xxxxxxxx" is the set content.
∗ Select 2: Returns to the soft SW No. entry dis-play.
5) Select 1
After 2sec, returns to "1) Initial display".
ENTER FAX SOFT SW. #(3 DIGITS) SW.___
No.### xxxxxxxxCHANGE? 1:YES 2:NO
No.### xxxxxxxxUSE # KEY 12345678
No.### xxxxxxxxSTORED? 1:YES 2:NO
STORED
1) Initial display
After 2sec, main code and sub code input display.
INITIALIZED
AR-FX13 SIMULATION 4 - 4
66 03 FAX PWB memory check
[Function]Use to check the FAX PWB memory.
[Operation]
04 Signal send mode (Max. value)
[Function]Use to set the signal send mode (Max. value).
Facsimile simulation design specifications.
[Operation]
Main code
Sub code
Contents Details of function/operation
1) Initial display
2) [ ] [ ] key or after 2sec
Every time when [ ] key is pressed, the second line is changed in the sequence of No. 1 → 2 →3 → 1.
When [ ] key is pressed, the sequence is reversed.
∗ [Clear] key: Returns to the main-sub code input display.
3) [ENTER]/[OK] key
4) After completion of check
• When the result is OK
• In case of sum check error
• In case of address bus checkerror
• In case of data check error
• In case of data bus checkerror
• In case of erase check error
∗ [Clear] key: Returns to "1) Initial display".
SELECT CHECK MEMORYPRESS ←, →
SELECT MEMORY (1-3)1:DRAM
SELECT MEMORY (1-3)2:SRAM
SELECT MEMORY (1-3)3:FLASH
CHECKING MEMORY
MEMORY CHECK RESULT OK
MEMORY CHECK RESULTXXXXXXXX SUM NG
MEMORY CHECK RESULTXXXXXXXX A-BUS NG
MEMORY CHECK RESULTXXXXXXXX DATA NG
MEMORY CHECK RESULTXXXXXXXX D-BUS NG
MEMORY CHECK RESULTXXXXXXXX ERASE NG
1 NO SIGNAL 13 7200bps(V34) 25 2400bps(V27ter)
2 33600bps(V34) 14 4800bps(V34) 26 300bps(FLAG)
3 31200bps(V34) 15 2400bps(V34) 27 2100Hz(CED)
4 28800bps(V34) 16 14400bps(V33) 28 1100Hz(CNG)
5 26400bps(V34) 17 12000bps(V33) 29 300bps(V21)
6 24000bps(V34) 18 14400bps(V17) 30 2100Hz(ANSam)7 21600bps(V34) 19 12000bps(V17) 31 DUMMY RING
8 19200bps(V34) 20 9600bps(V17) 32 NO VOICE ANSWER
9 16800bps(V34) 21 7200bps(V17) 33 NO RING BACK TONE
10 14400bps(V34) 22 9600bps(V29) 34 LINE OFF HOOK
11 12000bps(V34) 23 7200bps(V29) 35 LINE ON HOOK
12 9600bps(V34) 24 4800bps(V27ter)
1) Initial display
2) 2-digit (1-35) with [Numeric] key / [ ] [ ] key / 2sec after
Pressing [ ] key or [ ] key reverses the sequence.
∗ [Clear] key: Returns to the main-sub code input display.
3) [ENTER]/[OK] key
Send after setting
∗ [Clear] key: Returns to "1) Initial display".
SELECT OUTPUT SIGNAL(2 DIGITS) No.___
No. (1-35)1:NO SIGNAL
..... No. (1-35)35:LINE ON HOOK
OUTPUTING SIGNAL MAXPRESS CLEAR TO STOP
AR-FX13 SIMULATION 4 - 5
66 05 Signal send mode (Soft SW set value)
[Function]Use to set the signal send mode (Soft SW set value).
Facsimile simulation design specifications.
[Operation]
07 Image memory content print
[Function]Use to print the image memory content.
[Operation]
10 Image memory content clear
[Function]Use to clear the image memory content.
[Operation]
Main code
Sub code
Contents Details of function/operation
1 NO SIGNAL 13 7200bps(V34) 25 2400bps(V27ter)
2 33600bps(V34) 14 4800bps(V34) 26 300bps(FLAG)
3 31200bps(V34) 15 2400bps(V34) 27 2100Hz(CED)
4 28800bps(V34) 16 14400bps(V33) 28 1100Hz(CNG)5 26400bps(V34) 17 12000bps(V33) 29 300bps(V21)
6 24000bps(V34) 18 14400bps(V17) 30 2100Hz(ANSam)
7 21600bps(V34) 19 12000bps(V17) 31 DUMMY RING
8 19200bps(V34) 20 9600bps(V17) 32 NO VOICE ANSWER
9 16800bps(V34) 21 7200bps(V17) 33 NO RING BACK TONE
10 14400bps(V34) 22 9600bps(V29) 34 LINE OFF HOOK11 12000bps(V34) 23 7200bps(V29) 35 LINE ON HOOK
12 9600bps(V34) 24 4800bps(V27ter)
1) Initial display
2) 2-digit (1-35) with [Numeric] key / [ ] [ ] key / 2sec after
Pressing [ ] key or [ ] key reverses the sequence.
∗ [Clear] key: Returns to the main-sub code input display.
3) [ENTER]/[OK] key: Send after setting
∗ [Clear] key: Returns to "1) Initial display".
SELECT OUTPUT SIGNAL(2 DIGITS) No.___
No. (1-35)1:NO SIGNAL
..... No. (1-35)35:LINE ON HOOK
OUTPUTING SIGNAL SSWPRESS CLEAR TO STOP
• When print is allowed
After completion of printing,main code and sub code inputdisplay.
• When there is no print data
After 2 sec, FAX control is terminated.
• When print is inhibited
After 2 sec, main code and sub code input display.
PRINT STORED NO DATA CAN NOT PRINT
• When there are some print data
After completion of memory clear, the buzzersounds.
Remains unchanged until the power is turnedoff.
• When there are no print data
After completion of memory clear
After 2sec, main code and sub code input dis-play.
CLEAR IMAGE MEMORY
CLEAREDPLEASE POWER OFF
CLEAR IMAGE MEMORY
CLEARED
AR-FX13 SIMULATION 4 - 6
66 11 300bps signal send (Max. value)
[Function]Use to set the 300bps signal send (Max. value).
1: NO SIGNAL2: 111113: 111104: 000005: 0101016: 00001
[Operation]
12 300bps signal send (Soft SW set value)
[Function]Use to set the 300bps signal send (Soft SW set value).
1: NO SIGNAL2: 111113: 111104: 000005: 0101016: 00001
[Operation]
Main code
Sub code
Contents Details of function/operation
1) Initial display
2) [ ] [ ] key or after 2sec
Every time when [ ] key is pressed, the second line is changed in the sequence of No. 1 → 2→ 3 → 4 → 5 → 6 → 1.
When [ ] key is pressed, the sequence is reversed.
∗ [Clear] key: Returns to the main-sub code input display.
3) [ENTER]/[OK] key
∗ [Clear] key: Returns to "1) Initial display".
SELECT SIGNALPRESS ←, →
SELECT SIGNAL (1-6)1:NO SIGNAL
..... SELECT SIGNAL (1-6)6:00001
OUTPUTING SIGNAL MAXPRESS CLEAR TO STOP
1) Initial display
2) [ ] [ ] key or after 2sec
Every time when [ ] key is pressed, the second line is changed in the sequence of No. 1 → 2→ 3 → 4 → 5 → 6 → 1.
When [ ] key is pressed, the sequence is reversed.
∗ [Clear] key: Returns to the main-sub code input display.
3) [ENTER]/[OK] key
∗ [Clear] key: Returns to "1) Initial display".
SELECT SIGNALPRESS ←, →
SELECT SIGNAL (1-6)1:NO SIGNAL
..... SELECT SIGNAL (1-6)6:00001
OUTPUTING SIGNAL SSWPRESS CLEAR TO STOP
AR-FX13 SIMULATION 4 - 7
66 13 Dial test [Function]Use to the dial test.
[Operation]
17 DTMF signal send (Max. value)
[Function]Use to set the DTMF signal send (Max. value).
[Operation]
Main code
Sub code
Contents Details of function/operation
■ Dial test (PULSE)
1) Initial display
∗ [Clear] key: Returns to the main-subcode input display.
2) Select 1
3) Enter the make time in 2 digits.
XXXX: Default
∗ After deleting with [Clear] key, inputcan be made.
4) [ENTER]/[OK] key
"yy" is the selected pulse 10 or 20.
"xx" is the input value.
∗ Select 2: Returns to “2)” display.
5) Select 1
Switched to 10/20PPS set withpulse selection inside.
6) After setting
7) After completion of sending
∗ Select 2: Returns to “4)” display.
8) Select 1
After 2sec, returns to "1) Initial display".
SELECT SIGNAL1:PULSE 2:DTMF
INPUT MAKE TIME(0-15) __
INPUT DIAL #XXXX
SEND yyPPS xxms1:YES 2:NO
SENDING yyPPS xxms
TERMINATE ?1:YES 2:NO
TERMINATED
■ Dial test (DTMF)
1) Initial display
∗ [Clear] key: Returns to the main-sub code input dis-play.
2) Select 2
↓ Select 2
3) Select 1 ↓
↓ Select 2
4) Select 1 ↓
XXXX: Default
∗ After deleting with [Clear] key, input can be made.
4) [ENTER]/[OK] key
"xx" indicates HI, and "yy" indicates Low Soft SW.
∗ Select 2: Returns to “4)” display.
5) Select 1
HI/LO is selected with the signal level inside.
6) After setting the signal send level
7) After completion of sending
∗ Select 2: Returns to “4)” display.
8) Select 1
After 2sec, returns to "1) Initial display".
SELECT SIGNAL1:PULSE 2:DTMF
SELECT HIGH LEVEL1:DEFAULT 2:SOFT SW.
↓INPUT VALUE(0-15) __
SELECT LOW LEVEL1:DEFAULT 2:SOFT SW.
↓INPUT VALUE(0-15) __
INPUT DIAL #XXXX
H:xx L:yy1:YES 2:NO
SENDING DTMF
TERMINATE ?1:YES 2:NO
TERMINATED
1) Initial display
∗ [Clear] key: Returns to the main-sub codeinput display.
2) [Numeric] key input
The content selected with signal send levelselection is set inside.
3) Communication is started after setting thesignal send level.
∗ [Clear] key: Returns to "1) Initial display".
INPUT DIAL #SENDING SIGNAL MAXPRESS CLEAR TO STOP
AR-FX13 SIMULATION
4 - 866 18 DTMF signal send (Soft SW set value)
[Function]Use to set the DTMF signal send (Soft SW set value).
[Operation]
21 FAX information print [Function]Use to print the FAX information.
[Operation]
24 FAST SRAM clear [Function]Use to clear the FAST SRAM.
[Operation]
30 TEL/LIU status change check
[Function]Use to check the TEL/LIU status change.
[Operation]
Main code
Sub code
Contents Details of function/operation
1) Initial display
∗ [Clear] key: Returns to the main-sub code inputdisplay.
2) [Numeric] key input
The content selected with signal send levelselection is set inside.
3) Communication is started after setting thesignal send level.
∗ [Clear] key: Returns to "1) Initial display".
INPUT DIAL #SENDING SIGNAL SSWPRESS CLEAR TO STOP
1) Initial display
2) [ ] [ ] key or after 2sec
Every time when [ ] key is pressed, the second line is changed in the sequence of 1 → 2 → 3→ 1.
When [ ] key is pressed, the sequence is reversed.
∗ [Clear] key: Returns to the main-sub code input display.
3) [ENTER]/[OK] key
• When print is allowed
After completion of printing,main code and sub code inputdisplay.
• When print is inhibited
After 2sec, FAX control is terminated.
SELECT REPORT (1-3)PRESS ←, →
SELECT REPORT (1-3)1:USER SW. LIST
SELECT REPORT (1-3)2:SOFT SW. LIST
SELECT REPORT (1-3)3:PROTOCOL
PRINT STORED CAN NOT PRINT
1) Initial display 2) After completion of clearing
After 2sec, main code and sub code input dis-play.
CLEAR FAST SRAM CLEARED
1) Initial display
↑The display is switched every 2sec.
↓
∗ [Clear] key: Returns to the main-sub code input display.
HS2 :xxx HS1 :xxxRHS :xxx EXHS:xxx
CHECKINGPRESS CLEAR TO STOP
AR-FX13 SIMULATION 4 - 9
66 33 Signal detection check [Function]Use to check the signal detection.
[Operation]
34 Communication time measurement
[Function]Use to measurement the communication time.
[Operation]
37 Speaker sound volume setting
[Function]Use to set the speaker sound volume.
1: NO SOUND2: LOW3: MID4: HIGH
[Operation]
Main code
Sub code
Contents Details of function/operation
1) Initial display
When a signal is detected, the display is changed from NONE to the following.
CI/CNG/CED/BT/DT/Flag/SDT/DTMF
∗ [Clear] key: Returns to the main-sub code input display.
CHECKING NONEPRESS CLEAR TO STOP
1) Initial display
"xx:xx:xx:xxx" indicates o'clock, minute, second, millisecond.
∗ [Clear] key: Returns to the main-sub code input display.
COMM. TIMExx:xx:xx:xxx msec
1) Initial display
2) [ ] [ ] key or after 2sec
Every time when [ ] key is pressed, the second line is changed in the sequence of 1 → 2 → 3→ 4 → 1.
When [ ] key is pressed, the sequence is reversed.
∗ [Clear] key: Returns to the main-sub code input display.
3) [ENTER]/[OK] key
xxx: Set content
After 2sec, main code and sub code input display.
SELECT SPEEKER VOL.PRESS ←, →
SELECT (1-4)1:NO SOUND
SELECT (1-4)2:LOW
.....
STOREDxxx
AR-FX13 SIMULATION 4 - 10
66 38 Time setting/check [Function]Use to check the time setting.
[Operation]
Main code
Sub code
Contents Details of function/operation
1) Initial display
∗ [Clear] key: Returns to the main-sub codeinput display.
2) Select 1
"xxxx.xx.xx(xxx)" is the current value. (No revi-sion of display)
3) Select 1
∗ Select 2: Returns to "1) Initial display".
4) Enter the year in 4 digits.
5) Enter the month in 2 digits.
6) Enter the day in 2 digits.
"xxxx.xx.xx(xxx) is the entered value.
∗ Select 2: Returns to "1) Initial display".
7) Select 1
After 2sec, returns to "1) Initial display".
2) Select 2
"xx:xx" is the current value.
3) Select 1
∗ Select 2: Returns to "1) Initial display".
4) Enter o'clock in 2 digits.
5) Enter minute in 2 digits.
"xx:xx" is the current value.
∗ Select 2: Returns to "1) Initial display".
6) Select 1
After 2sec, returns to "1) Initial display".
SELECT TO SET1:DATE 2:TIME
xxxx.xx.xx(xxx)CHANGE? 1:YES 2:NO
INPUT YEAR(4 DIGITS)____.__.__
INPUT MONTH(1-12) 1998.__.__
INPUT DAY(1-31) 1998.01.__
xxxx.xx.xx(xxx)STORED? 1:YES 2:NO
STORED
xx:xxCHANGE? 1:YES 2:NO
INPUT HOUR(0-24) __:__
INPUT MINUTE(00-59) 01:__
xx:xxSTORED? 1:YES 2:NO
STORED
AR-FX13 SIMULATION 4 - 11
[5] FAX SOFT SWITCH
1. FAX soft switch setting change quick reference tableLarge item Middle item Switch content Key operator Soft SW No. Usage
Dialing Remote machine call disable
Pause time None SW 5-5 – 8 When dialing disable/when error dialing
Dial call signal User program SW 48-1, 2 When dialing disable
DTMF-related item None SW 51-1 – 5 When dialing disable in PBX (private branch exchange/Fax service, etc.)
None SW 53-5 – 8 When dialing disable in PBX (private branch exchange/Fax service, etc.)
None SW 39-4 – 8 When dialing disable in PBX (private branch exchange/Fax service, etc.)
Pulse (10PPS) None SW 67-1 – 4 When pulse dialing disable
Signal detection Busy tone detection None SW 7-3 When busy tone detection disable
Busy tone detection None SW 51-7, 8 When busy tone error is detected
Dial tone detection None SW 7-2
Redial In case of an error Resend interval User program SW 4-1 – 4 When send errors occur frequently(For the New Zealand models, tough it is set to 0, recall is performed in an interval of 1min.)
In case of an error Number of times of resend User program SW 40-1 – 8
When busy Resend interval User program SW 4-5 – 8 Whey busy occurs frequently
When busy Number of times of resend User program SW 41-1 – 8
Arrival (Call-in) When CI detection disable
CI detection None SW 12-6, 7 No call-in
CI signal OFF detection time
None SW 55-1 – 7 No call-in
External telephone
Setting of an external telephone connected
Yes/No None SW 47-2 When an external telephone is connected
Remote switch number
Entry of a 2-digit number User program SW 2-5 – 8 When remote switch is erroneously detected
Remote switch setting
Yes/No User program SW 8-5 When remote switch is erroneously detected
Communication General Send level None SW 15-4 – 8 When the remote machine cannot receive signals in a proper level.
JBIG mode None SW 17-4, 8 When an error occurs in the JBIG modeSG3 V34 mode function setup None SW 43-1 When SG3 communication error occurs
frequently
V34 symbol rate None SW 43-4 – 6 When SG3 communication error occurs frequently
Transmission G3/SG3 DIS reception check None SW 6-8 When an error occurs in phase B
Line equalizer None SW 59-5 – 8 Setting is made referring to the distance from the station when a communication trouble occurs.
SG3 V34 send speed None SW 44-1 – 4 When an error occurs in the SG3 communication.
Manual send V34 None SW 42-8 When an error occurs in the SG3 communication in FAX service, etc.
G3 Modem send speed None SW 16-1 – 4 To specified/unspecified destinationRTN reception error None SW 52-5 When judged as “OK” though RTN is
received
Reception G3/SG3 CSI transmission None SW 6-3Maximum reception length None SW 7-6 When a document of 1m or longer is
received
SG3 V34 reception speed None SW 44-5 – 8 When fall-down occurs frequently in the SG3 communication
G3 Countermeasure against echo in reception
None SW 6-4 When an error occurs in phase B in reception
Modem speed in reception None SW 16-5, 6 When the line quality is poor and a fall-back or an error occurs
EYE-Q check only None SW 72-1 Change in the detection method of training error
Reception print Paper selection Automatic reduction print User program SW 24-8 When reduction print is not made
Index Index print setup User program SW 32-6 When an index is attached to the reception data
AR-FX13 FAX SOFT SWITCH 5 - 1
2. Soft switch list• When outside the set range, the default value is automatically set.
• Never change the soft switch setup which are inhibited to use.
∗ : A = U.S.A. / B = Canada / C = U.K., Netherlands, Luxembourg, Belgium / D = Germany, Sweden, Spain, Italy, Switzerland, Finland, Denmark, Norway / E = France / F = Australia / G = New Zealand
SW NO.
Data No.
Item Switch selection and contents of functions Initial value∗
RemarkA B C D E F G
SW1
1 Image quality priority selection
Bit No. 1 2
Normal
0 0 0 0 0 0 0Refer to User program “RESO.PRIORITY”.When a value outside the set range is set, the initial value is set.
Normal 0 0
2 Fine 0 10 0 0 0 0 0 0Super fine 1 0
3 Inhibited to use 0 0 0 0 0 0 0
4 Auto/Manual default setup
1: Manual reception 0: Automatic receptionAutomatic reception
0 0 0 0 0 0 0
Manual reception can be set only when external telephone is connected.
5 Send request protection
1: Not protected 0: ProtectedProtected 0 0 0 0 0 0 0
Refer to User program “SECURITY SELECTION”.
6 Inhibited to use 0 0 0 0 0 0 0
7 0 0 0 0 0 0 0
8 0 0 0 0 0 0 0
SW2
1 Inhibited to use 0 0 0 0 0 0 0
2 0 0 0 0 0 0 0
3 0 0 0 0 0 0 0
4 0 0 0 0 0 0 0
5 Remote selection number setup
Binary input
5
0 0 0 0 0 0 0 Refer to User program “REMOTE RECEPTION #”.When a value outside the set range is set, the initial value is set.
6 Bit No.Set range
5 6 7 80 to 9
1 1 1 1 1 1 17
0 0 0 0 0 0 0
81 1 1 1 1 1 1
SW3
1 Density default setup
Bit No. 1 2 3 4 5
Medium
0 0 0 0 0 0 0 When a value outside the set range is set, the initial value is set.
2 Light 1 0 0 0 0 0 0 0 0 0 0 03 Medium 0 0 1 0 0 1 1 1 1 1 1 1
4 Dark 0 0 0 0 1 0 0 0 0 0 0 0
5 0 0 0 0 0 0 0
6 Inhibited to use 0 0 1 1 1 1 1
7 Size specification Bit No. 7 8
Conforms to the machine
information.
0 0 0 0 0 0 0
When set to conformity to the machine information, if machine information is uncertain, set to centimeter size.
Centimeter size 0 0
Conforms to the machine information.
0 1
8 Inch size 1 01 1 1 1 1 1 1Conforms to the machine
information.1 1
SW4
1 Recall interval in communication error
Binary input
1min
0 0 0 0 0 0 0Refer to User program “RECALL INTERVAL (LINE ERROR)”.When a value outside the set range is set, the initial value is set.For the New Zealand models, tough it is set to 0, recall is performed in an interval of 1min.
Bit No.Set range
1 2 3 41 to 15min0: Recall immediately after cutting the line
20 0 0 0 0 0 0
30 0 0 0 0 0 0
41 1 1 1 1 1 1
5 Recall interval in busy
Binary input
3min
0 0 0 0 0 0 0 Refer to User program “RECALL INTERVAL (BUSY)”.When a value outside the set range is set, the initial value is set.
6 Bit No.Set range
5 6 7 81 to 15min
0 0 0 0 0 0 0
71 1 1 1 1 1 1
81 1 1 1 1 1 1
AR-FX13 FAX SOFT SWITCH 5 - 2
∗ : A = U.S.A. / B = Canada / C = U.K., Netherlands, Luxembourg, Belgium / D = Germany, Sweden,
Spain, Italy, Switzerland, Finland, Denmark, Norway / E = France / F = Australia / G = New ZealandSW5
1 Inhibited to use 0 0 0 0 0 0 02 0 0 0 0 0 0 0
3 G3 send data accumulation wait time
Bit No. 3 4
6sec
0 0 0 0 0 0 06sec 0 0
5sec 0 1
4 4sec 1 00 0 0 0 0 0 0
3sec 1 15 Pause time setup Binary input
2sec
0 0 0 0 0 0 0 When a value outside the set range is set, the initial value is set.
6 Bit No.Set range
5 6 7 81 to 15sec
0 0 0 0 0 0 0
7 1 1 1 1 1 1 1
8 0 0 0 0 0 0 0
SW6
1 ECM 1: Yes 0: No Yes 1 1 1 1 1 1 1
2 CED signal send 1: Yes 0: No Yes 1 1 1 1 1 1 1
3 CSI transmission 1: Yes 0: No Yes 1 1 1 1 1 1 14 DIS reception
confirmation in G3 send
1: 2 times 0: Once in NFS reception, 2 time in DIS reception
Once in NFS reception, 2 time in DIS reception
0 0 0 0 0 0 0
5 Inhibited to use 0 0 0 0 0 0 0
6 EOL detection timer
1: 25sec 0: 13sec13sec 0 0 0 0 0 0 0
7 Countermeasure for echo in reception (CED tone send interval)
1: 500ms 0: 75ms
500ms 1 1 1 1 1 1 1
8 Countermeasure for echo in transmission (After reception of DIS, hold time up to signal send is set.)
1: 800ms 0: 500ms
500ms 0 0 0 0 0 0 0
SW7
1 Dial tone ON/OFF detection time lower limit (Intermittent detection)
1: 300ms 0: 100ms
100ms 0 0 0 0 0 0 0
2 Dial tone detection 1: Yes 0: No Yes (A)No (B/C/D/E/F/G)
1 0 0 0 0 0 0
3 Busy tone detection
1: Yes 0: NoYes 1 1 1 1 1 1 1
4 Dial tone monitoring time
1: 10sec 0: 5sec5sec 0 0 0 0 0 0 0
5 Dial tone ON/OFF detection time upper limit (Intermittent detection)
1: 400ms 0: 700ms
700ms 0 0 0 0 0 0 0
6 Max. length of reception
1: No limit 0: 1.5m1.5m 0 0 0 0 0 0 0
7 Destination display time when one-touch key is pressed
Bit No. 7 8
2sec
0 0 0 0 0 0 0When a value outside the set range is set, the initial value is set.
2sec 0 0
8 4sec 0 10 0 0 0 0 0 0
6sec 1 0
SW8
1 Memory transmission/direct transmission default setup
1: Direct transmission 0: Memory transmissionMemory
transmission0 0 0 0 0 0 0
2 Proxy reception 1: Yes 0: No Yes 1 1 1 1 1 1 1
3 Inhibited to use 0 0 0 0 0 0 0
4 Quick online send 1: Yes 0: No Yes 1 1 1 1 1 1 1
SW NO.
Data No.
Item Switch selection and contents of functions Initial value∗
RemarkA B C D E F G
AR-FX13 FAX SOFT SWITCH 5 - 3
∗ : A = U.S.A. / B = Canada / C = U.K., Netherlands, Luxembourg, Belgium / D = Germany, Sweden,
Spain, Italy, Switzerland, Finland, Denmark, Norway / E = France / F = Australia / G = New ZealandSW8
5 Remote select function
1: Yes 0: No
Yes 1 1 1 1 1 1 1
Refer to User program “REMOTE RECEPTION SELECT”.
6 Number of times of CNG detection
Binary input
3 times
0 0 0 0 0 0 0 When a value outside the set range is set, the initial value is set.
7 Bit No.Set range
6 7 81 to 4 times
1 1 1 1 1 1 1
8 1 1 1 1 1 1 1
SW9
1 Print of total communication time and total pages
1: Yes 0: No
Yes 1 1 1 1 1 1 1
2 Inhibited to use 0 0 0 0 0 0 0
3 Ringing volume pattern number
Binary input
7 (A/B)1 (C/D/E/F/G)
0 0 0 0 0 0 0 When a value outside the set range is set, the initial value is set.
4 Bit No.Set range
3 4 5 6 7 8Pattern No. 1 to 35
0 0 0 0 0 0 05 0 0 0 0 0 0 0
6 1 1 0 0 0 0 0
7 1 1 0 0 0 0 0
8 1 1 1 1 1 1 1
SW10
1 Measurement of communication time (image)
1: Yes 0: NoYes 1 1 1 1 1 1 1
2 Sender’s telephone number registration
1: Inhibit 0: AllowAllow 0 0 0 0 0 0 0
3 Inhibited to use 0 0 0 0 0 0 0
4 0 0 0 0 0 0 05 0 0 0 0 0 0 0
6 ECM byte/frame 1: 64 [bytes/frame] 0: 256 [bytes/frame] 256 [bytes/frame] 0 0 0 0 0 0 0
7 Inhibited to use 0 0 0 0 0 0 0
8 0 0 0 0 0 0 0
SW11
1 Inhibited to use 0 0 0 0 0 0 0
2 0 0 0 0 0 0 03 0 0 0 0 0 0 0
4 1 1 1 1 1 1 1
5 1 1 1 1 1 1 1
6 0 0 0 0 0 0 0
7 1 1 1 1 1 1 1
8 0 0 0 0 0 0 0
SW12
1 Call time setup in automatic transmission(T0 timer setup)
Binary input
45sec
0 0 0 0 0 0 0 When a value outside the set range is set, the initial value is set.
2 Bit No.Set range
1 2 3 430 to 75sec5sec unitN x 5 + 30sec
0 0 0 0 0 0 0
3 1 1 1 1 1 1 1
4 1 1 1 1 1 1 1
5 Inhibited to use 0 0 0 0 0 0 0
6 CI detection Bit No. 6 7
4 sine wave
0 0 0 0 0 0 0When a value outside the set range is set, the initial value is set.
4 sine wave 0 0
7 3 sine wave 1 00 0 0 0 0 0 0
2 sine wave 0 1
8 Inhibited to use 0 0 0 0 0 1 1
SW13
1 Inhibited to use 0 0 0 0 0 0 0
2 0 0 0 0 0 0 0
3 Ringing volume Bit No. 3 4
Medium1 1 1 1 1 1 1
Refer to User program “RINGER VOLUME”.Silent 0 0
Small 0 1
4 Medium 1 00 0 0 0 0 0 0
Large 1 1
SW NO.
Data No.
Item Switch selection and contents of functions Initial value∗
RemarkA B C D E F G
AR-FX13 FAX SOFT SWITCH 5 - 4
∗ : A = U.S.A. / B = Canada / C = U.K., Netherlands, Luxembourg, Belgium / D = Germany, Sweden,
Spain, Italy, Switzerland, Finland, Denmark, Norway / E = France / F = Australia / G = New ZealandSW13
5 Speaker volume in DTMF send
Bit No. 5 6
Medium
1 1 1 1 1 1 1Not used 0 0
Small 0 1
6 Medium 1 00 0 0 0 0 0 0
Large 1 1
7 Inhibited to use 1 1 1 1 1 1 1
8 1 1 1 1 1 1 1
SW14
1 Inhibited to use 0 0 0 0 0 0 0
2 1 1 1 1 1 1 1
3 0 0 0 0 0 0 0
4 1 1 1 1 1 1 1
5 0 0 0 0 0 0 0
6 0 0 0 0 0 0 0
7 0 0 0 0 0 0 08 0 0 0 0 0 0 0
SW15
1 Busy tone detection time (Lower limit)
1: 350ms 0: 250ms250ms 0 0 0 0 0 0 0
2 Busy tone detection time (Upper limit)
1: 650ms 0: 750ms 750ms(A/B/C/D/E)650ms (F/G)
0 0 0 0 0 1 1
3 Busy tone detection time (Lower limit 2)
1: 150ms 0: Follows SW15-1. Follows SW15-1. (A/B)
150ms(C/D/E/F/G)
0 0 1 1 1 1 1
4 Signal send level Binary input–12dBm (A/B/G)
–11dBm(C/D/E)
–9dBm (F)
0 0 0 0 0 0 0 When a value outside the set range is set, the initial value is set.
5 Bit No.Set range
4 5 6 7 80 (0dBm) to 26 (–26dBm)
1 1 1 1 1 1 1
6 1 1 0 0 0 0 1
7 0 0 1 1 1 0 08 0 0 1 1 1 1 0
SW16
1 Modem speed (V.33 mode or less)
Bit No. 1 2 3 4
V.17 14.4kbps
1 1 1 1 1 1 1V.27 2400bps 0 0 0 0
V.29 9600bps 0 0 0 1
2 V.27 4800bps 0 0 1 0
0 0 0 0 0 0 0V.29 7200bps 0 0 1 1V.33 14.4kbps 0 1 0 0
3 V.33 12.0kbps 0 1 1 0
0 0 0 0 0 0 0V.17 9600bps 1 0 0 1
V.17 12.0kbps 1 0 1 0
4 V.17 7200bps 1 0 1 10 0 0 0 0 0 0
V.17 14.4kbps Others5 Modem speed in
reception fixedBit No. 5 6
No fixing
0 0 0 0 0 0 0No fixing 0 0
V.29-9600BPS 0 1
6 V.27ter-4800BPS 1 00 0 0 0 0 0 0
V.17-14400BPS 1 1
7 Inhibited to use 0 0 0 0 0 0 08 0 0 0 0 0 0 0
SW17
1 Inhibited to use 0 0 0 0 0 0 0
2 MH fixed (Except for SG3)
1: Yes 0: No (depending on the other party’s machine)
No 0 0 0 0 0 0 0
3 ECM MMR mode (Except for SG3)
1: Yes 0: NoYes 1 1 1 1 1 1 1
4 ECM JBIG mode (Except for SG3)
1: Yes 0: NoYes 1 1 1 1 1 1 1
SW NO.
Data No.
Item Switch selection and contents of functions Initial value∗
RemarkA B C D E F G
AR-FX13 FAX SOFT SWITCH 5 - 5
∗ : A = U.S.A. / B = Canada / C = U.K., Netherlands, Luxembourg, Belgium / D = Germany, Sweden,
Spain, Italy, Switzerland, Finland, Denmark, Norway / E = France / F = Australia / G = New ZealandSW17
5 Inhibited to use 0 0 0 0 0 0 06 MH fixed (in SG3) 1: Yes 0: No (depending on the
other party’s machine)No 0 0 0 0 0 0 0
7 ECM MMR mode (in SG3)
1: Yes 0: NoYes 1 1 1 1 1 1 1
8 ECM JBIG mode (in SG3)
1: Yes 0: NoYes 1 1 1 1 1 1 1
SW18
1 Inhibited to use 1 1 1 1 1 1 1
2 1 1 1 1 1 1 1
3 0 0 0 0 0 0 04 1 1 1 1 1 1 1
5 0 0 0 0 0 0 0
6 0 0 0 0 0 0 0
7 0 0 0 0 0 0 0
8 0 0 0 0 0 0 0
SW19
1 Inhibited to use 0 0 0 0 0 0 0
2 1 1 1 1 1 1 13 0 0 0 0 0 0 0
4 0 0 0 0 0 0 0
5 0 0 0 0 0 0 0
6 Recording table automatic print
1: Yes 0: NoNo 0 0 0 0 0 0 0
Refer to User program “AUTO LISTING”.
7 Inhibited to use 0 0 0 0 0 0 0
8 0 0 0 0 0 0 0
SW20
1 Line sound monitor range
Bit No. 1 2
OFF
0 0 0 0 0 0 0When a value outside the set range is set, the initial value is set.
OFF 0 02 Up to NSF signal send/
receive0 1
0 0 0 0 0 0 0All 1 0
3 Line monitor display
1: Yes 0: NoNo 0 0 0 0 0 0 0
4 Inhibited to use 0 0 0 0 0 0 05 Receivable
memory capacity1: 64Kbyte 0: 128Kbyte
128Kbyte 0 0 0 0 0 0 0
6 Inhibited to use 0 0 0 0 0 0 07 0 0 0 0 0 0 0
8 0 0 0 0 0 0 0
SW21
1 Interval between completion of communication and the next call
Binary input
1sec (A/B)6sec (C/D/E/F/G)
0 0 0 0 0 0 0
2 Bit No.Set range
1 2 3 4 5 6 7 80 to 255sec
0 0 0 0 0 0 0
3 0 0 0 0 0 0 0
4 0 0 0 0 0 0 05 0 0 0 0 0 0 0
6 0 0 1 1 1 1 1
7 0 0 1 1 1 1 1
8 1 1 0 0 0 0 0
SW22
1 Inhibited to use 0 0 0 0 0 0 0
2 0 0 0 0 0 0 03 0 0 0 0 0 0 0
4 0 0 0 0 0 0 0
5 0 0 0 0 0 0 0
6 0 0 0 0 0 0 0
7 0 0 0 0 0 0 0
8 0 0 0 0 0 0 0
SW NO.
Data No.
Item Switch selection and contents of functions Initial value∗
RemarkA B C D E F G
AR-FX13 FAX SOFT SWITCH 5 - 6
∗ : A = U.S.A. / B = Canada / C = U.K., Netherlands, Luxembourg, Belgium / D = Germany, Sweden,
Spain, Italy, Switzerland, Finland, Denmark, Norway / E = France / F = Australia / G = New ZealandSW23
1 Inhibited to use 0 0 0 0 0 0 02 0 0 0 0 0 0 0
3 0 0 0 0 0 0 0
4 0 0 0 0 0 0 0
5 0 0 0 0 0 0 0
6 0 0 0 0 0 0 0
7 0 0 0 0 0 0 08 0 0 0 0 0 0 0
SW24
1 Inhibited to use 0 0 0 0 0 0 0
2 0 0 0 0 0 0 0
3 Specified number reception (ANTI JUNK FAX)
Bit No. 3 4
Not set.
0 0 0 0 0 0 0Refer to Main menu “ANTI JUNK FAX”.When a value outside the set range is set, the initial value is set.
Not set. 0 0
4 Receive inhibit 0 10 0 0 0 0 0 0
5 Inhibited to use 0 0 0 0 0 0 0
6 Document output setup in reception
1: Collective output after completion of reception
0: Output after reception of every page
Output after reception of
every page (A/B)Collective output after completion
of reception(C/D/E/F/G)
0 0 1 1 1 1 1
7 Inhibited to use 0 0 0 0 0 0 0
8 Automatic reduction print
1: Allow 0: InhibitAllow 1 1 1 1 1 1 1
Refer to User program “AUTO RCV REDUCE”.
SW25
1 Automatic reduction rate setup
Binary input
10%
1 1 1 1 1 1 1
2 Bit No.Set range
1 2 3 40 to 15%
0 0 0 0 0 0 0
3 1 1 1 1 1 1 1
4 0 0 0 0 0 0 0
5 Transmission end sound tone
Bit No. 5 6
1000Hz
0 0 0 0 0 0 0When a value outside the set range is set, the initial value is set.
550Hz 0 0
6 1000Hz 0 11 1 1 1 1 1 1
1700Hz 1 0
7 Reception end sound tone
Bit No. 7 8
1000Hz
0 0 0 0 0 0 0When a value outside the set range is set, the initial value is set.
550Hz 0 0
8 1000Hz 0 11 1 1 1 1 1 1
1700Hz 1 0
SW26
1 Read completion sound
1: Mute 0: 1sec1sec 0 0 0 0 0 0 0
2 Inhibited to use 0 0 0 0 0 0 0
3 Speaker volume setup
Bit No. 3 4
Small
0 0 0 0 0 0 0
Refer to User program “BEEPER VOLUME (send completion sound / receive completion sound / scan completion sound / alarm sound)”
Silent 0 0
Small 0 1
4 Medium 1 0
1 1 1 1 1 1 1Large 1 1
5 Inhibited to use 0 0 0 0 0 0 0
6 0 0 0 0 0 0 0
7 0 0 0 0 0 0 0
8 0 0 0 0 0 0 0
SW NO.
Data No.
Item Switch selection and contents of functions Initial value∗
RemarkA B C D E F G
AR-FX13 FAX SOFT SWITCH 5 - 7
SW NO.
Data No.
Item Switch selection and contents of functions Initial value Remark
SW27
1 Inhibited to use 0
2 1
3 1
4 15 1
6 0
7 Recording paper tray selection Bit No. 7 8
AUTO
0Refer to User program “TRAY SELECTION”.When a value outside the set range is set, the initial value is set.
AUTO 0 0
8 TRAY1 0 10TRAY2 1 0
SW28
1 Inhibited to use 1
2 1
3 0
4 1
5 06 0
7 0
8 0
SW29
1 Number of auto switch calls of manual reception → auto reception
Binary input
0 time
0 Refer to User program “# OF RINGS MANUAL RX”.When a value outside the set range is set, the initial value is set.
2 Bit No.Set range
1 2 3 40 to 9Not switched when 0.
0
30
40
5 Setup of number of times of call rings
Binary input
2 times
0 Refer to User program “# OF RINGS AUTO RX”.When a value outside the set range is set, the initial value is set.
6 Bit No.Set range
5 6 7 80 to 9 times
0
71
80
SW30
1 Report output when canceling 1: Output 0: Not output Not output 0
2 Inhibited to use 0
3 14 0
5 Default data, sender print 1: ON 0: OFF ON 1
6 Inhibited to use 0
7 Date/sender print position setup 1: Inside of document 0: Outside of document Outside of document
0
8 Inhibited to use 1
SW31
1 Report output (in transmission) Bit No. 1 2
Only when transmission is
failed.
1
Refer to User program “PRINT SELECTION”.When a value outside the set range is set, the initial value is set.
Print inhibited 0 0
All print 0 1
2 Only when transmission is failed.
1 00
3 Report output (In broadcast and sequential send request)
Bit No. 3 4
All print
0
Refer to User program “PRINT SELECTION”.When a value outside the set range is set, the initial value is set.
Print inhibited 0 0All print 0 1
4 Only the address to which transmission is failed
1 01
5 Report output (in reception) Bit No. 5 6
Print inhibited0
Refer to User program “PRINT SELECTION”.When a value outside the set range is set, the initial value is set.
Print inhibited 0 0All print 0 1
6 Only in error 1 0 0
7 Contents of send document are printed in memory send
Bit No. 7 8
Only the address to which
transmission is failed
1
Refer to User program “PRINT SELECTION”.When a value outside the set range is set, the initial value is set.
Print inhibited 0 0
All print 0 18 Only the address to
which transmission is failed
1 00
AR-FX13 FAX SOFT SWITCH 5 - 8
∗ : A = U.S.A. / B = Canada / C = U.K., Netherlands, Luxembourg, Belgium / D = Germany, Sweden,
Spain, Italy, Switzerland, Finland, Denmark, Norway / E = France / F = Australia / G = New ZealandSW NO.
Data No.
Item Switch selection and contents of functions Initial value∗
RemarkA B C D E F G
SW32
1 Distinctive ringing (U.S.A., Canada, Australia, New Zealand)
Bit No. 1 2 3 4
OFF
0 0 0 0 0 0 0Refer to User program “DISTINCTIVE RING”.When a value outside the set range is set, the initial value is set.*1: For U.S.A.,
Canada only
OFF 0 0 0 0
2 Standard/ON 0 0 0 10 0 0 0 0 0 0
Pattern 1 *1 1 0 0 0
3 Pattern 2 *1 0 1 0 00 0 0 0 0 0 0
Pattern 3 *1 1 1 0 0
4 Pattern 4 *1 0 0 1 00 0 0 0 0 0 0
Pattern 5 *1 1 0 1 0
5 Inhibited to use 0 0 0 0 0 0 0
6 Index print setup 1: Print 0: Not printNot print 0 0 0 0 0 0 0
Refer to User program “INDEX PRINT”.
7 Inhibited to use 0 0 0 1 1 0 0
8 0 0 0 0 0 0 0
SW33
1 Page number print setup
1: Yes 0: NoYes 1 1 1 1 1 1 1
2 Inhibited to use 0 0 0 0 0 0 0
3 0 0 0 0 0 0 0
4 0 0 0 0 0 0 0
5 0 0 0 0 0 0 0
6 0 0 0 0 0 0 07 0 0 0 0 0 0 0
8 Reception data duplex print
1: Yes 0: NoNo 0 0 0 0 0 0 0
Refer to User program “DUPLEX RCV”.
SW34
1 Flash send wait time (U.S.A., Canada, U.K., Netherlands, Luxembourg, Belgium, France, Australia, New Zealand: Inhibited to use)
Bit No. 1 2
1sec
0 0 0 1 0 0 00sec 0 0
0.5sec 0 1
1sec 1 0
2 2sec 1 1
0 0 0 0 0 0 0
3 Inhibited to use 0 0 0 0 0 0 0
4 0 0 0 0 0 0 0
5 Signal send level Max.
Binary input
–8dBm
1 1 1 1 1 1 16 Bit No.
Set range5 6 7 80 (0dBm) to 15 (–15dBm)
0 0 0 0 0 0 0
7 0 0 0 0 0 0 0
8 0 0 0 0 0 0 0
SW35
1 Cover function default setup
1: Yes 0: NoNo 0 0 0 0 0 0 0
2 Inhibited to use 1 1 1 1 1 1 1
3 CI delete max. OFF time
Bit No. 3 4
5sec (A/B/F/G)10sec (C/D/E)
0 0 0 0 0 0 05sec 0 0
10sec 0 14 15sec 1 0
0 0 1 1 1 0 020sec 1 1
5 Answering machine call number setting
Binary input5 times (A/B)
6 times(C/D/E/F/G)
0 0 0 0 0 0 0
6 Bit No.Set range
5 6 7 80 to 15 times
1 1 1 1 1 1 1
7 0 0 1 1 1 1 1
8 1 1 0 0 0 0 0
SW36
1 CNG detection completion time
Binary input
45sec
0 0 0 0 0 0 0 When a value outside the set range is set, the initial value is set.
2 Bit No.Set range
1 2 3 4 5 6 7 81 to 255sec
0 0 0 0 0 0 0
3 1 1 1 1 1 1 1
4 0 0 0 0 0 0 0
5 1 1 1 1 1 1 1
6 1 1 1 1 1 1 17 0 0 0 0 0 0 0
8 1 1 1 1 1 1 1
AR-FX13 FAX SOFT SWITCH 5 - 9
∗ : A = U.S.A. / B = Canada / C = U.K., Netherlands, Luxembourg, Belgium / D = Germany, Sweden,
Spain, Italy, Switzerland, Finland, Denmark, Norway / E = France / F = Australia / G = New ZealandSW37
1 Inhibited to use 0 0 0 0 0 0 02 1 1 1 1 1 1 1
3 0 0 0 0 0 0 0
4 1 1 1 1 1 1 1
5 0 0 0 0 0 0 0
6 1 1 1 1 1 1 1
7 0 0 0 0 0 0 08 1 1 1 1 1 1 1
SW38
1 Protocol monitor Bit No. 1 2
Not output
0 0 0 0 0 0 0Not output 0 0
Not output 0 1
2 Output 1 00 0 0 0 0 0 0
Output only in an error 1 1
3 Protocol monitor save
1: Yes 0: NoYes 1 1 1 1 1 1 1
4 Inhibited to use 0 0 0 0 0 0 0
5 Flash send time (U.S.A., Canada, U.K., Netherlands, Luxembourg, Belgium, France, Australia, New Zealand: Inhibited to use)
Bit No. 5 6
90ms
0 0 0 0 0 0 090ms 0 0
180ms 0 1
270ms 1 0
6 360ms 1 1
0 0 0 0 0 0 0
7 Transfer function 1: Allow 0: Inhibit Allow 1 1 1 1 1 1 1
8 Inhibited to use 0 0 0 0 0 0 0
SW39
1 Inhibited to use 0 0 0 0 0 0 0
2 0 0 0 0 0 0 0
3 1 1 1 1 1 0 0
4 DTMF signal send time
Binary input
110ms (A/B/F/G)80ms (C/D/E)
0 0 0 0 0 0 0 When a value outside the set range is set, the initial value is set.
5 Bit No.Set range
4 5 6 7 860 to 310ms
(U.S.A., Canada)70 to 310ms
(Europe, Australia, New Zealand)
10ms unit
1 1 1 1 1 1 1
60 0 0 0 0 0 0
71 1 0 0 0 1 1
8 1 1 0 0 0 1 1
SW40
1 Number of times of recall in error
Binary input
1 times
0 0 0 0 0 0 0 Refer to User program “RECALL TIMES (LINE ERROR)”.When a value outside the set range is set, the initial value is set.
2 Bit No.Set range
1 2 3 4 5 6 7 80 to 1 times
(U.S.A., Canada, Australia, New Zealand)
0 to 5 times (Europe)
0 0 0 0 0 0 0
3 0 0 0 0 0 0 0
4 0 0 0 0 0 0 05 0 0 0 0 0 0 0
6 0 0 0 0 0 0 0
7 0 0 0 0 0 0 0
8 1 1 1 1 1 1 1
SW41
1 Number of times of recall in busy
Binary input
2 times
0 0 0 0 0 0 0 Refer to User program “RECALL TIMES (BUSY)”.When a value outside the set range is set, the initial value is set.
2 Bit No.Set range
1 2 3 4 5 6 7 80 to 14 times
(U.S.A., Canada)0 to 10 times
(Europe)0 to 9 times
(Australia, New Zealand)
0 0 0 0 0 0 03 0 0 0 0 0 0 0
4 0 0 0 0 0 0 0
5 0 0 0 0 0 0 0
6 0 0 0 0 0 0 0
7 1 1 1 1 1 1 1
8 0 0 0 0 0 0 0
SW42
1 Direct send recall(U.S.A., Canada)
1: Inhibit 0: AllowAllow 0 0 0 0 0 0 0
2 FAX receive auto select by CNG detection
1: Allow 0: InhibitAllow 1 1 1 1 1 1 1
Refer to User program “FAX SIGNAL AUTO RECEIVE”.
SW NO.
Data No.
Item Switch selection and contents of functions Initial value∗
RemarkA B C D E F G
AR-FX13 FAX SOFT SWITCH 5 - 10
∗ : A = U.S.A. / B = Canada / C = U.K., Netherlands, Luxembourg, Belgium / D = Germany, Sweden,
Spain, Italy, Switzerland, Finland, Denmark, Norway / E = France / F = Australia / G = New ZealandSW42
3 Auto receive select in answering telephone connection mode
1: Allow 0: Inhibit
Inhibit 0 0 0 0 0 0 0
Refer to Main menu “AM MODE”.
4 Inhibited to use 1 1 1 1 1 1 1
5 0 0 0 0 0 0 06 0 0 0 0 0 0 0
7 0 0 0 0 0 0 0
8 V.34 mode function in manual communication
1: ON 0: OFFON 1 1 1 1 1 1 1
SW43
1 V.34 mode function
1: ON 0: OFFON 1 1 1 1 1 1 1
2 Inhibited to use 0 0 0 0 0 0 0
3 1 1 1 1 1 1 1
4 V.34 receive symbol speed mask
Bit No. 4 5 6
3429
1 1 1 1 1 1 1When a value outside the set range is set, the initial value is set.
2400 0 0 0
2743 0 0 1
5 2800 0 1 00 0 0 0 0 0 0
3000 0 1 1
6 3200 1 0 01 1 1 1 1 1 1
3429 1 0 17 Inhibited to use 0 0 0 0 0 0 0
8 0 0 0 0 0 0 0
SW44
1 V.34 primary channel send speed
Binary input
33600bps
1 1 1 1 1 1 1
2 Bit No.Send speed =2400 (bps) x N
1 2 3 4When N = 0, 2400bps.When N = 15, 33600bps.
1 1 1 1 1 1 1
3 1 1 1 1 1 1 1
4 0 0 0 0 0 0 05 V.34 primary
channel receive speed
Binary input
33600bps
1 1 1 1 1 1 1
6 Bit No.Receive speed =2400 (bps) x N
5 6 7 8When N = 0, 2400bps.When N = 15, 33600bps.
1 1 1 1 1 1 1
7 1 1 1 1 1 1 1
8 0 0 0 0 0 0 0
SW45
1 FAST mode 1: Yes 0: No No 0 0 0 0 0 0 0
2 Sequence of year/month/day in LCD, report, and sender record
Bit No. 2 3Month/Day/Year
(A/B)Day/Month/Year
(C/D/E/F/G)
0 0 1 1 1 1 1Refer to User program “DATE&TIME FORMAT SET”.When a value outside the set range is set, the initial value is set.
Year/Month/Day 0 0
Month/Day/Year 0 1
3 Day/Month/Year 1 01 1 0 0 0 0 0
4 Time display format
1: am/pm 0: 24Ham/pm (A/B)
24H (C/D/E/F/G)1 1 0 0 0 0 0
Refer to User program “DATE&TIME FORMAT SET”.
5 Scan effective image area main scan right edge image loss (RSPF)
Binary input
96 dots
0 0 0 0 0 0 06 Bit No.
Set range5 6 7 80 to 360 dots24 dots interval
1 1 1 1 1 1 1
7 0 0 0 0 0 0 0
8 0 0 0 0 0 0 0
SW46
1 Specification of print sequence in duplex print
1: Print order (214365...) 0: Reception order (123456...)
Print order (214365...)
1 1 1 1 1 1 1
2 Specification of rotating direction duplex back surface print
1: 180 degrees rotation 0: No 180 degrees rotation180 degrees
rotation1 1 1 1 1 1 1
3 Priority in the day of week
1: Yes 0: No No (A/B/C/F/G)Yes (D/E)
0 0 0 1 1 0 0
SW NO.
Data No.
Item Switch selection and contents of functions Initial value∗
RemarkA B C D E F G
AR-FX13 FAX SOFT SWITCH 5 - 11
∗ : A = U.S.A. / B = Canada / C = U.K., Netherlands, Luxembourg, Belgium / D = Germany, Sweden,
Spain, Italy, Switzerland, Finland, Denmark, Norway / E = France / F = Australia / G = New ZealandSW46
4 Center No. in FAST mode
1: Host-Tel-No. 0: Service-No.Service-No. 0 0 0 0 0 0 0
5 Summer time 1: Allow 0: Inhibit Inhibit (A/B)Allow
(C/D/E/F/G)0 0 1 1 1 1 1
Refer to Entry Mode “DAY LIGHT SAVING”.
6 PBX setting (U.S.A., Canada, U.K., Netherlands, Luxembourg, Belgium, Australia, New Zealand: Inhibited to use)
Bit No. 6 7 8
Setting OFF
0 0 0 0 0 0 0Refer to User program “PBX SETTING MODE”.When a value outside the set range is set, the initial value is set.
Setting OFF 0 0 0
7 Flash send 1 0 10 0 0 0 0 0 0
ID send 1 1 0
80 0 0 0 0 0 0
SW47
1 Inhibited to use 0 0 1 1 1 1 1
2 External telephone connection
1: Yes 0: NoYes 1 1 1 1 1 1 1
3 Inhibited to use 0 0 0 0 0 0 04 0 0 0 0 0 0 0
5 0 0 0 0 0 0 0
6 1 1 1 1 1 1 1
7 0 0 0 0 0 0 0
8 0 0 0 0 0 0 0
SW48
1 Tone/Pulse default setup
Bit No. 1 2
TONE
1 1 1 1 1 1 1Refer to User program “DIAL MODE”.When a value outside the set range is set, the initial value is set.
10PPS 0 0
2 TONE 1 00 0 0 0 0 0 0
3 Telephone line menu
1: Inhibit 0: Allow Allow (A/B)Inhibit
(C/D/E/F/G)0 0 1 1 1 1 1
4 Inhibited to use 0 0 0 0 0 0 1
5 Scan effective image area main scan left edge image loss (RSPF)
Binary input
96 dots
0 0 0 0 0 0 0
6 Bit No.Set range
5 6 7 80 to 360 dots24 dots interval
1 1 1 1 1 1 1
7 0 0 0 0 0 0 0
8 0 0 0 0 0 0 0
SW49
1 Inhibited to use 0 0 0 0 0 0 0
2 0 0 0 0 0 0 0
3 Speaker sound volume pattern number in DTMF send
Binary input
1
0 0 0 0 0 0 0 When a value outside the set range is set, the initial value is set.
4 Bit No.Set range
3 4 5 6 7 8Pattern No. 1 to 35
0 0 0 0 0 0 0
5 0 0 0 0 0 0 06 0 0 0 0 0 0 0
7 0 0 0 0 0 0 0
8 1 1 1 1 1 1 1
SW50
1 Line monitor volume
Bit No. 1 2
Medium
1 1 1 1 1 1 1
When SPEAKER key is pressed, user setting can be made.
Silent 0 0
Small 0 12 Medium 1 0
0 0 0 0 0 0 0Large 1 1
3 Line monitor volume pattern number
Binary input
16
0 0 0 0 0 0 0 When a value outside the set range is set, the initial value is set.
4 Bit No.Set range
3 4 5 6 7 8Pattern No. 1 to 35
1 1 1 1 1 1 1
5 0 0 0 0 0 0 0
6 0 0 0 0 0 0 07 0 0 0 0 0 0 0
8 0 0 0 0 0 0 0
SW51
1 DTMF send level (High group) setup
Binary input
–6dBm(A/B/C/D/E)–5dBm (F/G)
0 0 0 0 0 0 0 When a value outside the set range is set, the initial value is set.
2 Bit No.Set range
1 2 3 4 50 (0.0dBm) to
21 (–21.0dBm)1.0dBm unit
0 0 0 0 0 0 0
3 1 1 1 1 1 1 1
4 1 1 1 1 1 0 05 0 0 0 0 0 1 1
SW NO.
Data No.
Item Switch selection and contents of functions Initial value∗
RemarkA B C D E F G
AR-FX13 FAX SOFT SWITCH 5 - 12
∗ : A = U.S.A. / B = Canada / C = U.K., Netherlands, Luxembourg, Belgium / D = Germany, Sweden,
Spain, Italy, Switzerland, Finland, Denmark, Norway / E = France / F = Australia / G = New ZealandSW51
6 CED detection time
1: 500ms 0: 1000ms1000ms 0 0 0 0 0 0 0
7 Busy tone detection cycle
Bit No. 7 8
2puls0 0 0 0 0 0 02puls 0 0
4puls 0 1
8 6puls 1 00 0 0 0 0 0 0
10puls 1 1
SW52
1 Busy tone detection level
Bit No. 1 2
–43dB
0 0 0 0 0 0 0–43dB 0 0
–35dB 0 12 –33dB 1 0
0 0 0 0 0 0 0–30dB 1 1
3 Inhibited to use 0 0 0 0 0 0 0
4 Super G3 disabled in the last call-out of recall in case of an error
1: Super G3 enabled 0: Super G3 disabledSuper G3 disabled
0 0 0 0 0 0 0
5 Error process in RTN reception
1: Not error 0: ErrorError 0 0 0 0 0 0 0
6 Inhibited to use 0 0 0 0 0 0 0
7 0 0 0 0 0 0 0
8 V.34 control channel communication speed
1: 2400bps 0: 1200bps
1200bps 0 0 0 0 0 0 0
SW53
1 Maximum DTMF send level
Binary input
0dBm
0 0 0 0 0 0 02 Bit No.
Set range1 2 3 40 (0.0dBm) to
15 (–15.0dBm)
0 0 0 0 0 0 0
3 0 0 0 0 0 0 0
4 0 0 0 0 0 0 0
5 DTMF send level (difference between high and low level)
Binary input
+2.0dBm(A/B/C/D/E/F)+1.5dBm (G)
1 1 1 1 1 1 0
6 Bit No.Set range
5 6 7 80 (–2.0dBm) to
15 (+5.5dBm)0.5dBm unitWhen set to 0: Low group = High group – (–2.0) dBm
0 0 0 0 0 0 1
70 0 0 0 0 0 1
80 0 0 0 0 0 1
SW54
1 Scan effective image area sub scan lead edge image loss (RSPF)
Binary input
96 lines
0 0 0 0 0 0 0
2 Bit No.Set range
1 2 3 40 to 240 lines16 lines interval
1 1 1 1 1 1 1
3 1 1 1 1 1 1 1
4 0 0 0 0 0 0 0
5 Scan effective image area sub scan rear edge image loss (RSPF)
Binary input
144 lines
1 1 1 1 1 1 1
6 Bit No.Set range
5 6 7 80 to 240 lines16 lines interval
0 0 0 0 0 0 0
7 0 0 0 0 0 0 0
8 1 1 1 1 1 1 1
SW55
1 CI signal OFF detection enable time
Binary input
1200ms(A/B/C/D/E/F)1100ms (G)
1 1 1 1 1 1 12 Bit No.
Set range1 2 3 4 5 6 70 to 1270ms10ms unit
1 1 1 1 1 1 1
3 1 1 1 1 1 1 0
4 1 1 1 1 1 1 1
5 0 0 0 0 0 0 1
6 0 0 0 0 0 0 1
7 0 0 0 0 0 0 08 Inhibited to use 0 0 0 0 0 0 0
SW56
1 CI signal ON detection enable time
Binary input155ms
(A/B/C/D/E)195ms (F/G)
0 0 0 0 0 1 1
2 Bit No.Set range
1 2 30 (155ms) to 7 (225ms)Step 10ms
0 0 0 0 0 0 0
3 0 0 0 0 0 0 0
4 Inhibited to use 0 0 0 0 0 0 0
SW NO.
Data No.
Item Switch selection and contents of functions Initial value∗
RemarkA B C D E F G
AR-FX13 FAX SOFT SWITCH 5 - 13
∗ : A = U.S.A. / B = Canada / C = U.K., Netherlands, Luxembourg, Belgium / D = Germany, Sweden,
Spain, Italy, Switzerland, Finland, Denmark, Norway / E = France / F = Australia / G = New ZealandSW56
5 DT/BT detection frequency range
Bit No. 5 6245Hz–650Hz (A/B/C/D/E/F)360Hz–440Hz
(G)
1 1 1 1 1 1 1Modem fixed (400Hz) 0 0
420Hz–680Hz 0 1
6 360Hz–440Hz 1 01 1 1 1 1 1 0
245Hz–650Hz 1 1
7 Inhibited to use 0 0 0 0 0 0 0
8 1 1 1 1 1 1 1
SW57
1 Inhibited to use 0 0 0 0 0 0 0
2 Sharp machine mode
1: ON 0: OFFON 1 1 1 1 1 1 1
3 Inhibited to use 0 0 0 0 0 0 0
4 Reception gain adjustment
Binary input
0.0dBm
0 0 0 0 0 0 0
5 Bit No.Set range
4 5 6 7 80 (+6.0dBm) to
24 (–6.0dBm)Step 0.5dBm
1 1 1 1 1 1 1
6 1 1 1 1 1 1 1
7 0 0 0 0 0 0 0
8 0 0 0 0 0 0 0
SW58
1 Dual wait inhibit time after CFR send
Binary input
1600ms
1 1 1 1 1 1 12 Bit No.
Set range1 2 3 40 to 3000ms200ms unit
0 0 0 0 0 0 0
3 0 0 0 0 0 0 0
4 0 0 0 0 0 0 0
5 FSK signal settlement time in double wait
Binary input
550ms
0 0 0 0 0 0 0
6 Bit No.Set range
5 6 7 8Settlement time = 50 (ms) x N + 200 (ms)
1 1 1 1 1 1 1
7 1 1 1 1 1 1 18 1 1 1 1 1 1 1
SW59
1 Inhibited to use 0 0 0 0 0 0 0
2 0 0 0 0 0 0 0
3 Reception SED ON level
Bit No. 3 4
–48dB
1 1 1 1 1 1 1–43dB 0 0
–38dB 0 14 –33dB 1 0
1 1 1 1 1 1 1–48dB 1 1
5 Transmission cable amplitude equalizer
Bit No. 5 6
0dB (A/B/C/D/E)4dB (F/G)
0 0 0 0 0 0 00dB 0 0
4dB 0 1
6 8dB 1 00 0 0 0 0 1 1
12dB 1 1
7 Reception cable amplitude equalizer
Bit No. 7 8
0dB
0 0 0 0 0 0 00dB 0 0
4dB 0 1
8 8dB 1 00 0 0 0 0 0 0
12dB 1 1
SW60
1 Scan effective image area sub scan lead edge image loss (RSPF back surface)
Binary input
96 lines
0 0 0 0 0 0 0
2 Bit No.Set range
1 2 3 40 to 240 lines16 lines interval
1 1 1 1 1 1 1
3 1 1 1 1 1 1 1
4 0 0 0 0 0 0 0
5 Scan effective image area sub scan rear edge image loss (RSPF back surface)
Binary input
144 lines
1 1 1 1 1 1 16 Bit No.
Set range5 6 7 80 to 240 lines16 lines interval
0 0 0 0 0 0 0
7 0 0 0 0 0 0 0
8 1 1 1 1 1 1 1
SW61
1 Inhibited to use 0 0 0 0 0 0 0
2 0 0 0 0 0 0 03 0 0 0 0 0 0 0
4 0 0 0 0 0 0 0
5 0 0 0 0 0 0 0
6 0 0 0 0 0 0 0
7 0 0 1 1 1 0 0
8 0 0 0 0 0 0 0
SW NO.
Data No.
Item Switch selection and contents of functions Initial value∗
RemarkA B C D E F G
AR-FX13 FAX SOFT SWITCH 5 - 14
∗ : A = U.S.A. / B = Canada / C = U.K., Netherlands, Luxembourg, Belgium / D = Germany, Sweden,
Spain, Italy, Switzerland, Finland, Denmark, Norway / E = France / F = Australia / G = New ZealandSW62
1 Inhibited to use 0 0 0 0 0 0 02 0 0 0 0 0 0 0
3 0 0 0 0 0 0 0
4 V.8 mode ANSam signal send time
Bit No. 4 5
4sec
0 0 0 0 0 0 03sec 0 0
4sec 0 1
5 5sec 1 01 1 1 1 1 1 1
6sec 1 1
6 Inhibited to use 0 0 0 0 0 0 0
7 0 0 0 0 0 0 0
8 0 0 0 0 0 0 0
SW63
1 Inhibited to use 1 1 1 1 1 1 1
2 0 0 0 0 0 0 0
3 0 0 0 0 0 0 04 1 1 1 1 1 1 1
5 0 0 0 0 0 0 0
6 0 0 0 0 0 0 0
7 1 1 1 1 1 1 1
8 1 1 1 1 1 1 1
SW64
1 Inhibited to use 0 0 0 0 0 0 02 1 1 1 1 1 1 1
3 0 0 0 0 0 0 0
4 0 0 0 0 0 0 0
5 0 0 0 0 0 0 0
6 1 1 1 1 1 1 1
7 1 1 1 1 1 1 18 0 0 0 0 0 0 0
SW65
1 Inhibited to use 0 0 0 0 0 0 0
2 0 0 0 0 0 0 0
3 0 0 0 0 0 0 0
4 0 0 0 0 0 0 0
5 0 0 0 0 0 0 06 0 0 0 0 0 0 0
7 0 0 0 0 0 0 0
8 0 0 0 0 0 0 0
SW66
1 Inhibited to use 0 0 0 0 0 0 0
2 0 0 0 0 0 0 0
3 0 0 0 0 0 0 04 0 0 0 0 0 0 0
5 0 0 0 0 0 0 0
6 0 0 0 0 0 0 0
7 0 0 0 0 0 0 0
8 0 0 0 0 0 0 0
SW67
1 Make time (10PPS) setup
Binary input 40ms (A/B)33ms (C/E)41ms (D)31ms (F)34ms (G)
1 1 0 1 0 0 12 Bit No.
Set range1 2 3 426 to 41ms by increment of 1ms
1 1 1 1 1 1 0
3 1 1 1 1 1 0 0
40 0 1 1 1 1 0
5 Inhibited to use 0 0 0 0 0 0 0
6 0 0 0 0 0 0 0
7 0 0 0 0 0 0 0
8 0 0 0 0 0 0 0
SW NO.
Data No.
Item Switch selection and contents of functions Initial value∗
RemarkA B C D E F G
AR-FX13 FAX SOFT SWITCH 5 - 15
SW NO.
Data No.
Item Switch selection and contents of functions Initial value Remark
SW68
1 Line open delay time in dial test Bit No. 1 2
2sec
02sec 0 0
3sec 0 1
2 4sec 1 00
5sec 1 1
3 Inhibited to use 0
4 0
5 T1 timer setup Binary input
40sec
0
6 Bit No.Set range
5 6 7 830 to 105sec5sec interval
0
7 18 0
SW69
1 Inhibited to use 0
2 0
3 0
4 0
5 06 0
7 0
8 0
SW70
1 Inhibited to use 0
2 1
3 04 Reception waiting time between
frames1: 4.4sec 0: 3.4sec
3.4sec 0
5 Preamble send time of 300bps Bit No. 5 6
1.0sec
00.5sec 0 0
1.0sec 0 1
6 1.5sec 1 01
2.0sec 1 1
7 RCP send times Bit No. 7 8
3 times03 times 0 0
6 times 0 1
8 9 times 1 00
12 times 1 1
SW71
1 Inhibited to use 0
2 0
3 0
4 05 1
6 1
7 0
8 0
SW72
1 EYE-Q check 1: EYE-Q check only 0: 0 reception & EYE-Q check
0 reception & EYE-Q check
0
2 ERR frame reception operation 1: Continues process. 0: Not continue process. (Error)
Not continue process. (Error)
0
3 Waiting time for CED/ANSam send start
Bit No. 3 4
2.25sec
0When a value outside the set range is set, the initial value is set.
2.25sec 0 0
4 3sec 0 10
4sec 1 05 RTC EOL send times 1: 6 times 0: 7 times 6 times 1
6 Inhibited to use 0
7 CNG send start Bit No. 7 8
0.5sec
0When a value outside the set range is set, the initial value is set.
0.5sec 0 0
8 1.0sec 0 10
1.5sec 1 0
AR-FX13 FAX SOFT SWITCH 5 - 16
SW73
1 Inhibited to use 0
2 0
3 0
4 05 0
6 0
7 0
8 0
SW74
1 Print effective image area sub scan lead edge void
Binary input
32 lines
0
2 Bit No.Set range
1 2 3 40 to 240 lines16 lines interval (600dpi)
03 1
4 0
5 Inhibited to use 0
6 0
7 1
8 1
SW75
1 Manual calibration setting when sending
1: ON 0: OFFOFF 0
2 Manual calibration setting when a signal arrives
1: ON 0: OFFOFF 0
3 Communication end sound (Buzzer sound length) setting
Bit No. 3 4
3sec
0
Communication error sound is generated even in silent setupRefer to User program “BEEP LENGTH”.When a value outside the set range is set, the initial value is set.
3sec 0 01sec 0 1
4 Silent 1 0
0
5 Print effective image area main scan void
Binary input
48 dots
0
6 Bit No.Set range
5 6 7 80 to 240 dots16 dots interval
0
7 18 1
SW76
1 Scan magnification ratio adjustment (main scan) flag
1: – 0: ++ 0
2 Scan magnification ratio adjustment (RSPF main scan)
Binary input
0%
0
3 Bit No.Set range
2 3 4 5 6 7 80 to ±12.7%0.1% interval
0
4 0
5 0
6 0
7 0
8 0
SW77
1 Scan magnification ratio adjustment (sub scan) flag
1: – 0: ++ 0
2 Scan magnification ratio adjustment (RSPF sub scan)
Binary input
0%
03 Bit No.
Set range2 3 4 5 6 7 80 to ±12.7%0.1% interval
0
4 0
5 0
6 0
7 0
8 0
SW NO.
Data No.
Item Switch selection and contents of functions Initial value Remark
AR-FX13 FAX SOFT SWITCH 5 - 17
SW NO.
Data No.
Item Switch selection and contents of functions Initial value Remark
SW78
1 Print magnification ratio adjustment (main scan) flag
1: – 0: ++ 0
2 Print magnification ratio adjustment (main scan)
Binary input
0%
03 Bit No.
Set range2 3 4 5 6 7 80 to ±12.7%0.1% interval
0
4 0
5 0
6 0
7 0
8 0
SW79
1 Print magnification ratio adjustment (sub scan) flag
1: – 0: ++ 0
2 Print magnification ratio adjustment (sub scan)
Binary input
0%
0
3 Bit No.Set range
2 3 4 5 6 7 80 to ±12.7%0.1% interval
0
4 05 0
6 0
7 0
8 0
SW80
1 Destination information
Binary input 1 2 3 4 5 6 7 8
Bit No. 1 2 3 4 5 6 7 8U.S.A. (10110101)Canada (00100000)U.K. (10110100)Germany (00000100)France (00111101)Sweden (10100101)Spain (10100000)Italy (01011001)Switzerland (10100110)Finland (00111100)Denmark (00110001)Norway (10000010)Netherlands (01111011)Luxembourg (01101001)Belgium (00001111)Australia (00001001)New Zealand (01111110)
U.S.A. 1 0 1 1 0 1 0 12 Canada 0 0 1 0 0 0 0 0
U.K. 1 0 1 1 0 1 0 0
3 Germany 0 0 0 0 0 1 0 0
France 0 0 1 1 1 1 0 1
4 Sweden 1 0 1 0 0 1 0 1
Spain 1 0 1 0 0 0 0 05 Italy 0 1 0 1 1 0 0 1
Switzerland 1 0 1 0 0 1 1 0
6 Finland 0 0 1 1 1 1 0 0
Denmark 0 0 1 1 0 0 0 1
7 Norway 1 0 0 0 0 0 1 0
Netherlands 0 1 1 1 1 0 1 1Luxembourg 0 1 1 0 1 0 0 1
8 Belgium 0 0 0 0 1 1 1 1
Australia 0 0 0 0 1 0 0 1
New Zealand 0 1 1 1 1 1 1 0
SW81
1 Language information
Binary input 1 2 3 4 5 6 7 8 Only command receive from the main unit can be rewritten.
Bit No. 1 2 3 4 5 6 7 8 U.S.A.: 1 0 0 0 0 0 0 0 1
2 0: Japanese1: American English2: English3: French4: German5: Italian6: Dutch7: Swedish8: Spanish
10: Turkish11: Greek12: Polish13: Hungarian14: Czech15: Russian16: Finnish17: Norwegian18: Danish19: Chinese
Canada: 1 0 0 0 0 0 0 0 1U.K.: 2 0 0 0 0 0 0 1 0
3 Germany: 4 0 0 0 0 0 1 0 0
France: 3 0 0 0 0 0 0 1 1
4 Sweden: 7 0 0 0 0 0 1 1 1
Spain: 8 0 0 0 0 1 0 0 0
5 Italy: 5 0 0 0 0 0 1 0 1Switzerland: 4 0 0 0 0 0 1 0 0
6 Finland: 16 0 0 0 1 0 0 0 0
Denmark: 18 0 0 0 1 0 0 1 0
7 Norway: 17 0 0 0 1 0 0 0 1
Netherlands: 6 0 0 0 0 0 1 1 0
Luxembourg: 3 0 0 0 0 0 0 1 18 Belgium: 3 0 0 0 0 0 0 1 1
Australia: 2 0 0 0 0 0 0 1 0
New Zealand: 2 0 0 0 0 0 0 1 0
AR-FX13 FAX SOFT SWITCH 5 - 18
∗ : A = U.S.A. / B = Canada / C = U.K., Netherlands, Luxembourg, Belgium / D = Germany, Sweden,
Spain, Italy, Switzerland, Finland, Denmark, Norway / E = France / F = Australia / G = New ZealandSW NO.
Data No.
Item Switch selection and contents of functions Initial value∗
RemarkA B C D E F G
SW82
1 OC scan size default setting
Bit No. 1 2 3 4
LETTER (A/B)A4 (C/D/E/F/G)
0 0 0 0 0 0 0 Refer to User program “OC SIZE PRIORITY”.When a value outside the set range is set, the initial value is set.
2 LETTER 0 0 0 1 0 0 0 0 0 0 0
3 LEGAL 0 0 1 0 0 0 1 1 1 1 1
4 A4 0 0 1 11 1 1 1 1 1 1
5 Inhibited to use 0 0 0 0 0 0 0
6 0 0 0 0 0 0 0
7 0 0 0 0 0 0 0
8 0 0 1 1 1 1 1
SW83
1 Inhibited to use 0 0 0 0 0 0 0
2 0 0 0 0 0 0 0
3 Speaker sound volume setting pattern number
Binary input
1
0 0 0 0 0 0 0 When a value outside the set range is set, the initial value is set.
4 Bit No.Set range
3 4 5 6 7 8Pattern No. 1 to 35
0 0 0 0 0 0 0
5 0 0 0 0 0 0 0
6 0 0 0 0 0 0 0
7 0 0 0 0 0 0 08 1 1 1 1 1 1 1
SW84
1 Inhibited to use 0 0 0 0 0 0 0
2 0 0 0 0 0 1 0
3 0 0 1 1 1 1 1
4 0 0 0 0 0 0 0
5 1 1 1 1 1 0 16 0 0 1 1 1 1 0
7 0 0 0 0 0 0 0
8 0 0 0 0 0 0 0
SW85
1 Inhibited to use 0 0 0 0 0 0 0
2 0 0 0 0 0 0 0
3 0 0 0 0 0 0 04 0 0 1 1 1 0 0
5 0 0 0 0 0 0 0
6 0 0 0 0 0 0 0
7 0 0 0 0 0 0 0
8 0 0 0 0 0 0 0
SW86
1 Inhibited to use 0 0 0 0 0 0 02 0 0 0 0 0 0 0
3 0 0 0 0 0 0 0
4 0 0 0 0 0 0 0
5 0 0 0 0 0 0 0
6 0 0 0 0 0 0 0
7 0 0 0 0 0 0 08 0 0 0 0 0 0 0
SW87
1 Inhibited to use 1 1 1 1 1 1 1
2 0 0 0 0 0 0 0
3 0 0 0 0 0 0 0
4 0 0 0 0 0 0 0
5 1 1 1 1 1 1 16 1 1 1 1 1 1 1
7 0 0 0 0 0 0 0
8 1 1 1 1 1 1 1
SW88
1 Inhibited to use 0 0 0 0 0 0 0
2 0 0 0 0 0 0 0
3 0 0 0 0 0 0 04 0 0 0 0 0 0 0
5 0 0 0 0 0 0 0
6 0 0 0 0 0 0 0
7 0 0 0 0 0 0 0
8 0 0 0 0 0 0 0
AR-FX13 FAX SOFT SWITCH 5 - 19
SW NO.
Data No.
Item Switch selection and contents of functions Initial value Remark
SW89
1 Inhibited to use 0
2 0
3 1
4 15 1
6 1
7 1
8 1
SW90
1 Inhibited to use 1
2 13 1
4 1
5 1
6 1
7 1
8 1
SW91
1 Symbol speed 3429 send enable in V.34 send
1: Enable 0: DisableEnable 1
2 Symbol speed 3200 high carrier send enable in V.34 send
1: Enable 0: DisableEnable 1
3 Symbol speed 3200 low carrier send enable in V.34 send
1: Enable 0: DisableEnable 1
4 Symbol speed 3000 high carrier send enable in V.34 send
1: Enable 0: DisableEnable 1
5 Symbol speed 3000 low carrier send enable in V.34 send
1: Enable 0: DisableEnable 1
6 Symbol speed 3429 enable in V.34 communicate
1: Enable 0: DisableEnable 1
7 Symbol speed 2800 enable in V.34 communicate
1: Enable 0: DisableEnable 1
8 Symbol speed 2743 enable in V.34 communicate
1: Enable 0: DisableEnable 1
SW92
1 Inhibited to use 0
2 13 0
4 1
5 1
6 0
7 0
8 0
SW93
1 Inhibited to use 02 1
3 0
4 1
5 1
6 0
7 08 0
SW94
1 Inhibited to use 0
2 1
3 0
4 1
5 16 0
7 0
8 0
AR-FX13 FAX SOFT SWITCH 5 - 20
SW95
1 Inhibited to use 0
2 1
3 1
4 15 0
6 0
7 0
8 0
SW96
1 Inhibited to use 1
2 13 0
4 1
5 1
6 0
7 0
8 0
SW97
1 Inhibited to use 0
2 1
3 1
4 1
5 1
6 17 1
8 1
SW98
1 Inhibited to use 0
2 1
3 0
4 05 0
6 0
7 0
8 0
SW99
1 Inhibited to use 0
2 13 0
4 1
5 1
6 0
7 0
8 0
SW
100
1 Inhibited to use 12 0
3 0
4 0
5 0
6 0
7 08 0
SW
101
1 Print effective image area sub scan lead edge void (Back surface)
Binary input
32 lines
0
2 Bit No.Set range
1 2 3 40 to 240 lines16 lines interval (600dpi)
0
3 1
4 0
5 Print effective image area sub scan rear edge void (Back surface)
Binary input
48 lines
06 Bit No.
Set range5 6 7 80 to 240 lines16 lines interval (600dpi)
0
7 1
8 1
SW NO.
Data No.
Item Switch selection and contents of functions Initial value Remark
AR-FX13 FAX SOFT SWITCH 5 - 21
SW
102
1 Scan effective image area main scan left edge image loss (OC)
Binary input
96 dots
0
2 Bit No.Set range
1 2 3 40 to 360 dots24 dots interval
1
3 0
4 05 Scan effective image area main
scan right edge image loss (OC)Binary input
96 dots
0
6 Bit No.Set range
5 6 7 80 to 360 dots24 dots interval
1
7 0
8 0
SW
103
1 Scan effective image area sub scan lead edge image loss (OC)
Binary input
96 lines
0
2 Bit No.Set range
1 2 3 40 to 240 line16 lines interval
13 1
4 0
5 Scan effective image area sub scan rear edge image loss (OC)
Binary input
144 lines
1
6 Bit No.Set range
5 6 7 80 to 240 line16 lines interval
0
7 0
8 1
SW
104
1 Scan effective image area main scan left edge image loss (RSPF back surface)
Binary input
96 dots
0
2 Bit No.Set range
1 2 3 40 to 360 dotsin the interval of 24 dots
1
3 0
4 0
5 Scan effective image area main scan right edge image loss (RSPF back surface)
Binary input
96 dots
0
6 Bit No.Set range
5 6 7 80 to 360 dotsin the interval of 24 dots
17 0
8 0
SW
105
1 Scan magnification ratio adjustment (OC main scan) flag
1: – 0: ++ 0
2 Scan magnification ratio adjustment (OC main scan)
Binary input
0%
0
3 Bit No.Set range
2 3 4 5 6 7 80 to ±12.7%0.1% interval
0
4 0
5 0
6 07 0
8 0
SW
106
1 Scan magnification ratio adjustment (OC sub scan) flag
1: – 0: ++ 0
2 Scan magnification ratio adjustment (OC sub scan)
Binary input
0%
0
3 Bit No.Set range
2 3 4 5 6 7 80 to ±12.7%0.1% interval
0
4 0
5 0
6 0
7 08 0
SW
107
1 Scan magnification ratio adjustment (RSPF back surface main scan) flag
1: – 0: ++ 0
2 Scan magnification ratio adjustment (RSPF back surface main scan)
Binary input
0%
0
3 Bit No.Set range
2 3 4 5 6 7 80 to ±12.7%0.1% interval
04 0
5 0
6 0
7 0
8 0
SW
108
1 Scan magnification ratio adjustment (RSPF back surface sub scan) flag
1: – 0: ++ 0
2 Scan magnification ratio adjustment (RSPF back surface sub scan)
Binary input
0%
0
3 Bit No.Set range
2 3 4 5 6 7 80 to ±12.7%0.1% interval
04 0
5 0
6 0
7 0
8 0
SW NO.
Data No.
Item Switch selection and contents of functions Initial value Remark
AR-FX13 FAX SOFT SWITCH 5 - 22
3. Soft switch descriptionsSW1 No.1, No.2 Image quality priority selectionUsed to select the image quality setting when pressing [Clear All]key or during auto clear.
Default: 0 0 (Normal)
SW1 No.3 Inhibited to use
SW1 No.4 Auto/Manual default setupUsed to select Auto/Manual reception mode when turning on thepower.
Default: 0 (Automatic reception)
SW1 No.5 Send request protectionUsed to set enable/disable of the confidential function (inhibit tosend to erroneous destinations) in send request communication(remote send).
The confidential function is performed by collating the number regis-tered in this machine and the number registered in the remotemachine.
Sender number ↔ Send request allow number
Default: 0 (Protected)
SW1 No.6–No.8 Inhibited to use
SW2 No.1–No.4 Inhibited to use
SW2 No.5–No.8 Remote selection number setupUsed to set the number in binary input for remote switch receivefrom external telephone.
However, "∗" in the remote switch number (X∗∗) is fixed.
Default: 5
SW3 No.1–No.5 Density default setupUsed to set the density when pressing [Clear All] key or during autoclear.
Default: 0 0 1 0 0 (Medium)
SW3 No.6 Inhibited to use
SW3 No.7, No.8 Size specificationUsed to set the size specification (AB series, inch series).
Under setting of "Follow information from machine," when commandinformation from the machine is uncertain, set this item to AB series.
Default: 0 1 (Conforms to the machine information.)
SW4 No.1–No.4 Recall interval in communication errorUsed to set the interval for recall when communication is cut off byan error during memory send. (Including no response from theremote machine.)
Setting is made in binary input.
When set to 0, resend is mad immediately after completion of com-munication.
However, the time interval set by SW21 "Interval between comple-tion of communication and the next call" is valid.
For the New Zealand models, tough it is set to 0, recall is performedin an interval of 1min.
Default: 1min
SW4 No.5–No.8 Recall interval in busyUsed to set the interval for the next call when busy tone is detectedin communication.
Setting is made in binary input.
Default: 3min
SW5 No.1, No2 Inhibited to use
SW5 No.3, No.4 G3 send data accumulation wait timeUsed to set wait time for accumulation of image data before sendingimage data directly.
Default: 0 0 (6sec)
SW5 No.5–No.8 Pause time setupUsed to set pause time when registering dials.
Default: 2sec
SW6 No.1 ECMUsed to set YES/NO of error resend mode.
When, however, SW43-1 (V.34 mode function) is OFF or whenSW34-1 (V.34 mode function) is ON and send is made other thanSG3, ECM setting of "NO" is valid.
Since the ECM function is essential in V.34 mode and the remotemachine may perform checking, when SW43-1 (V.34 mode function)is ON , this function is invalid in reception.
Default: 1 (Yes)
SW6 No.2 CED signal sendUsed to set YES/NO of CED signal send.
This is valid only when SW52-7 (V.34 mode function) is OFF.This is because ANSam signal send is necessary for V.34 mode.When set to 1, CED signal send is performed.When set to 0, CED signal send is not performed.
Default: 1 (Yes)
SW
109
1 Print magnification ratio adjustment (Main scan back surface) flag
1: – 0: ++ 0
2 Print magnification ratio adjustment (Main scan back surface)
Binary input
0%
0
3 Bit No.Set range
2 3 4 5 6 7 80 to ±12.7%0.1% interval
0
4 0
5 0
6 07 0
8 0
SW
110
1 Print magnification ratio adjustment (Sub scan back surface) flag
1: – 0: ++ 0
2 Print magnification ratio adjustment (Sub scan back surface)
Binary input
0%
0
3 Bit No.Set range
2 3 4 5 6 7 80 to ±12.7%0.1% interval
0
4 0
5 0
6 07 0
8 0
SW NO.
Data No.
Item Switch selection and contents of functions Initial value Remark
AR-FX13 FAX SOFT SWITCH 5 - 23
SW6 No.3 CSI transmissionUsed to set YES/NO of CSI signal send.
CSI signal includes the sender's number.
Default: 1 (Yes)
SW6 No.4 DIS reception confirmation in G3 sendUsed to set YES/NO of DIS receive check in G3 mode send.
When set to 1, DIS receive twice is checked.
When set to 0, DIS once is checked when "NSF/DIS" is received;and DIS twice is checked when NSF is not received.
Default: 0 (Once in NFS reception, 2 time in DIS reception)
SW6 No.5 Inhibited to use
SW6 No.6 EOL detection timerUsed to set detection timer of EOL (EndOfLine) in Phase C receive.
Default: 0 (13sec)
SW6 No.7 Countermeasure for echo in reception (CED tone send interval)Used to set the interval from CED send to FSK signal send of DIS.
Default: 1 (500ms)
SW6 No.8 Countermeasure for echo in transmission (After reception of DIS, hold time up to signal send is set.)Used to set the interval from DIS receive to DSC signal send.
Default: 0 (500ms)
SW7 No.1 Dial tone ON/OFF detection time lower limit (Intermittent detection)Used to set the minimum required time for detection of dial tonewhen the dial tone detection is set to "YES" and the kind of the dialtone detection is set to "Continuous."
Default: 0 (100ms)
SW7 No.2 Dial tone detectionUsed to set whether dial tone is detected or not when calling out.
When set to 1, dial tone is detected before calling out.
When set to 0, dial tone is not detected and dialing is made after acertain time (3.5sec).
Default: 1 (Yes) (U.S.A.) / 0 (No) (Other than U.S.A.)
SW7 No.3 Busy tone detectionUsed to set YES/NO of busy tone detection when calling out.
Default: 1 (Yes)
SW7 No.4 Dial tone monitoring timeUsed to set the monitoring time when detecting dial tone.
Default: 0 (5sec)
SW7 No.5 Dial tone ON/OFF detection time upper limit (Intermittent detection)Used to set the upper limit time for detection of dial tone when thedial tone detection is set to "YES" and the kind of the dial tone detec-tion is set to "Intermittent."
If a dial tone is detected for more than this upper limit time, it is notconsidered as a dial tone.
Default: 0 (700ms)
SW7 No.6 Max. length of receptionUsed to set max. length of reception for long document.
Default: 0 (1.5m)
SW7 No.7, No.8 Destination display time when one-touch key is pressedUsed to set the time from displaying the destination to the next oper-ation in one-touch dial or reduction dial.
Default: 0 0 (2sec)
SW8 No.1 Memory transmission/direct transmission default setupUsed to set whether memory send is ON or direct send is made(OFF) in the memory mode when pressing [Clear All] key or autoclear.
Default: 0 (Memory transmission)
SW8 No.2 Proxy receptionUsed to set whether proxy reception is enabled or not.
When set to 0, under the following error status, auto receive is notmade in auto receive mode.
• Cover open
• Unit error (Toner, drum, developing-related errors)
• Recording paper JAM
• Document JAM
• Recording paper empty
When set to 1, proxy reception is allowed.
Default: 1 (Yes)
SW8 No.3 Inhibited to use
SW8 No.4 Quick online sendUsed to set whether quick online send function is enabled or not.
When set to 0, send in memory mode ON is made in memory send.
When set to 1, send in memory mode ON is made in quick onlinesend.
Default: 1 (Yes)
SW8 No.5 Remote select functionUsed to set whether remote select function is enabled or not.
Default: 1 (Yes)
SW8 No.6–No.8 Number of times of CNG detectionUsed to set the number of times of CNG detection for judgment ofdetection.
Default: 3 times
SW9 No.1 Print of total communication time and total pagesUsed to set whether the total communication time and total pagesare printed on the communication report or not.
When set to 1, the total communication time and total pages areprinted on the communication report.
When set to 0, the total communication time and total pages are notprinted on the communication report.
Default: 1 (Yes)
SW9 No.2 Inhibited to use
SW9 No.3–No.8 Ringing volume pattern numberUsed to set ringing volume pattern.
Default: 7 (North America) / 1 (Other than North America)
SW10 No.1 Measurement of communication time (image)Used to set YES/NO of measurement of communication time inphase C. It is the communication time in the latest phase C. (Unit:msec)
Valid only in ECM communication.
Default: 1 (Yes)
SW10 No.2 Sender's telephone number registrationUsed to set whether registered sender's telephone number can bechanged or not.
Default: 0 (Allow)
SW10 No.3–No.5 Inhibited to use
AR-FX13 FAX SOFT SWITCH 5 - 24
SW10 No.6 ECM byte/frameUsed to set the frame size of error correction mode to be notified tothe remote machine.
Default: 0 (256 [bytes/frame])
SW10 No.7, No.8 Inhibited to use
SW11 No.1–No.8 Inhibited to use
SW12 No.1–No.4 Call time setup in automatic transmission (T0 timer setup)Used to set call time in automatic send.
Setting is made by binary input of N into "(5sec x N) + 30sec" in theincrement of 5sec.
Default: 45sec
SW12 No.5 Inhibited to use
SW12 No.6, No.7 CI detectionUsed to set the detection frequency of CI signal (call signal).
Default: 0 0 (4 sine wave)
SW12 No.8 Inhibited to use
SW13 No.1, No.2 Inhibited to use
SW13 No.3, No.4 Ringing volumeUsed to set the ringing volume when call-in.
Default: 1 0 (Medium)
SW13 No.5, No.6 Speaker volume in DTMF sendUsed to set the volume of transmission and DTMF sound from thespeaker when SPEAKER key is pressed.
Default: 1 0 (Medium)
SW13 No.7, No.8 Inhibited to use
SW14 No.1–No.8 Inhibited to use
SW15 No.1 Busy tone detection time (Lower limit)Used to set the lower limit of busy tone detection time (ON time).
Default: 0 (250ms)
SW15 No.2 Busy tone detection time (Upper limit)Used to set the upper limit of busy tone detection time (ON time).
SW15 No.3 Busy tone detection time (Lower limit 2)Used to set the lower limit 2 of busy tone detection time (ON time).
SW15 No.4–No.8 Signal send levelUsed to set signal send level from MODEM.
Setting is made in binary input in the increment of 1dBm.
SW16 No.1–No.4 Modem speed (V.33 mode or less)Used to set send start speed in communication other than V.34mode.
In an area of poor communication conditions, it is recommended toset communication speed to a lower level in advance.
Default: 1 0 0 0 (V.17 14.4kbps)
SW16 No.5, No.6 Modem speed in reception fixedUsed to set receive procedure start speed in a remote machineother than V.34.
In setting of no fixing, the operations are the same as V.17-14400BPS.
Default: 0 0 (No fixing)
SW16 No.7, No.8 Inhibited to use
SW17 No.1 Inhibited to use
SW17 No.2 MH fixed (Except for SG3)Used to set whether coding capacity is fixed to MH or not in commu-nication other than SG3.
Default: 0 (No)
SW17 No.3 ECM MMR mode (Except for SG3)Used to set whether MMR coding capacity is allowed or not in com-munication other than SG3.
Default: 1 (Yes)
SW17 No.4 ECM JBIG mode (Except for SG3)Used to set whether JBIG coding capacity is allowed or not in com-munication other than SG3.
Default: 1 (Yes)
SW17 No.5 Inhibited to use
SW17 No.6 MH fixed (in SG3)Used to set whether coding capacity is fixed to MH or not in SG3communication.
Default: 0 (No)
SW17 No.7 ECM MMR mode (in SG3)Used to set whether MMR coding capacity is allowed or not in SG3communication.
Default: 1 (Yes)
SW17 No.8 ECM JBIG mode (in SG3)Used to set whether JBIG coding capacity is allowed or not in SG3communication.
Default: 1 (Yes)
SW18 No.1–No.8 Inhibited to use
SW19 No.1–No.5 Inhibited to use
SW19 No.6 Recording table automatic printUsed to set whether communication report is automatically output-ted or not when the number of send/receive items which have notoutputted yet on communication report reaches 50.
When set to 1, they are automatically outputted.
When set to 0, they are not outputted even the number of itemsreaches 50.
Default: 0 (No)
SW19 No.7, No.8 Inhibited to use
SW20 No.1, No.2 Line sound monitor rangeUsed to set line sound monitor range when line sound monitor func-tion is used.
Default: 0 0 (OFF)
SW20 No.3 Line monitor displayUsed to set whether the communication speed and the receive levelare displayed on LCD or not.
Default: 0 (No)
SW20 No.4 Inhibited to use
SW20 No.5 Receivable memory capacityUsed to set the remained memory capacity for allowing call-in.
Default: 0 (128Kbyte)
SW20 No.6–No.8 Inhibited to use
SW21 No.1–No.8 Interval between completion of communication and the next callUsed to set the interval between completion of communication andthe next call.
Setting is made in binary input.
Default: 1sec (North America) / 6sec (Other than North America)
SW22 No.1–No.8 Inhibited to use
SW23 No.1–No.8 Inhibited to use
Default: 0 (750ms) (North America, Europe) / 1 (650ms) (Australia, New Zealand)
Default: 0 (Follows SW15-1.) (North America) / 1 (150ms) (Other than North America)
Default: –12dBm (North America, New Zealand) / –11dBm (Europe) / –9dBm (Australia)
AR-FX13 FAX SOFT SWITCH 5 - 25
SW24 No.1, No.2 Inhibited to use
SW24 No.3, No4 Specified number reception (ANTI JUNK FAX)Used to set whether the FAX receive rejection function is made validor not for registered FAX numbers.
Default: 0 0 (Not set.)
SW24 No.5 Inhibited to use
SW24 No.6 Document output setup in receptionUsed to set the document output procedure; whether all the receiveddocuments are collectively outputted after completion of reception orevery page is outputted when it is received.
SW24 No.7 Inhibited to use
SW24 No.8 Automatic reduction printUsed to set whether automatic reduction print is performed or not sothat a document longer than the fixed size and smaller than the auto-matic reduction line number setting is printed on fixed size paper.
Default: 1 (Allow)
SW25 No.1–No.4 Automatic reduction rate setupUsed to set automatic reduction rate when automatic reduction printis valid.
Default: 10%
SW25 No.5, No.6 Transmission end sound toneUsed to set transmission end sound tone in transmission.
Default: 0 1 (1000Hz)
SW25 No.7, No.8 Reception end sound toneUsed to set reception end sound tone in reception.
Default: 0 1 (1000Hz)
SW26 No.1 Read completion soundUsed to set whether buzzer sound is made or not when scan is com-pleted.
In manual send or when scan is completed in direct send, buzzersound is not made.
Default: 0 (1sec)
SW26 No.2 Inhibited to use
SW26 No.3, No.4 Speaker volume setupUsed to set speaker volume.
The following sounds are the targets of this setting.
• Alarm sound
• Send end sound
• Receive end sound
• Scan end sound
Default: 0 1 (Small)
SW26 No.5–No.8 Inhibited to use
SW27 No.1–No.6 Inhibited to use
SW27 No.7, No.8 Recording paper tray selectionUsed to select the recording paper tray used by FAX.
Valid only when two cassettes are installed.
Default: 0 0 (AUTO)
SW28 No.1–No.8 Inhibited to use
SW29 No.1–No.4 Number of auto switch calls of manual reception → auto receptionUsed to set the number of calls to switch to auto receive in manualreceive mode.
When set to 0, switch to auto receive is not made.
Default: 0 time
SW29 No.5–No.8 Setup of number of times of call ringsUsed to set the number of calls before starting reception in autoreceive mode.
Setting is made in binary input.
Default: 2 times
SW30 No.1 Report output when cancelingUsed to set whether the user cancel report is outputted or not whensend is canceled during document send.
Default: 0 (Not output)
SW30 No.2–No.4 Inhibited to use
SW30 No.5 Default data, sender printUsed to set whether sender information (registered in the senderregistration), sending date, and time are printed on the upper edgeof send document or not.
Default: 1 (ON)
SW30 No.6 Inhibited to use
SW30 No.7 Date/sender print position setupUsed to set whether date/sender information is printed inside thedocument area or outside the document area.
Default: 0 (Outside of document)
SW30 No.8 Inhibited to use
SW31 No.1, No.2 Report output (in transmission)Used to set whether communication report is outputted or not aftercompletion of sending (excluding sequential broadcast and sequen-tial send request).
Default: 1 0 (Only when transmission is failed.)
SW31 No.3, No.4 Report output (In broadcast and sequential send request)Used to set whether communication report is outputted or not aftercompletion of sending (sequential broadcast and sequential sendrequest).
Default: 0 1 (All print)
SW31 No.5, No.6 Report output (in reception)Used to set whether communication report is outputted or not inreception.
Default: 0 0 (Print inhibited)
SW31 No.7, No.8 Contents of send document are printed in memory sendUsed to set whether part of send document is printed on the commu-nication report or not in memory send.
Default: 1 0 (Only the address to which transmission is failed)
SW32 No.1–No.4 Distinctive ringing (North America, Australia, New Zealand)Used to set the ringing pattern as FAX reception.
Default: 0 0 0 0 (OFF)
SW32 No.5 Inhibited to use
SW32 No.6 Index print setupUsed to set whether the index is printed when outputting receiveddocument or not.
Default: 0 (Not print)
SW32 No.7, No.8 Inhibited to use
SW33 No.1 Page number print setupUsed to set whether the page number is added to the sender infor-mation print or not.
Default: 1 (Yes)
SW33 No.2–No.7 Inhibited to use
Default: 0 (Output after reception of every page) (North America) / 1 (Collective output after completion of reception) (Otherthan North America)
AR-FX13 FAX SOFT SWITCH 5 - 26
SW33 No.8 Reception data duplex printUsed to set whether duplex print of received data is made or not.
Default: 0 (No)
SW34 No.1, No.2 Flash send wait time (North America, U.K., Netherlands, Luxembourg, Belgium, France, Australia, New Zealand: Inhibited to use)Used to set the time from off-hook to Flash send.
Default: 1 0 (1sec)
SW34 No.3, No.4 Inhibited to use
SW34 No.5–No.8 Signal send level Max.Used to set the max. signal send level.
Default: –8dBm
SW35 No.1 Cover function default setupUsed to set whether cover is added as default or not.
When auto clear is made by pressing [Clear All] key, the machinereturns to this setting.
Default: 0 (No)
SW35 No.2 Inhibited to use
SW35 No.3, No.4 CI delete max. OFF timeUsed to set the max. wait time between detection of CI signal pulse(number of times) and detection of the next CI signal pulse.
If CIK signal pulse is not detected within this time, the number ofcalls up to that time is cleared.
Default: 0 0 (5sec) (Other than Europe) / 0 1 (10sec) (Europe)
SW35 No.5–No.8 Answering machine call number settingUsed to set the number of calls to switch to auto receive whenanswering telephone is not called in when the receive mode is set tothe answering telephone connection mode.
Setting is made in binary input.
SW36 No.1–No.8 CNG detection completion timeUsed to set the time for completion of CNG signal/mute detection inthe answering telephone connection mode.
Count is made from the last call signal.
Setting is made in binary input.
Default: 45sec
SW37 No.1–No.8 Inhibited to use
SW38 No.1, No.2 Protocol monitorUsed to set whether communication protocol result is printed or notafter completion of communication.
Default: 0 0 (Not printed.)
SW38 No.3 Protocol monitor saveUsed to set whether the protocol monitor of the last communicationis saved or not. When set to "Saved," the previous protocol monitorcan be printed with SIM66-21.
Default: 1 (Yes)
SW38 No.4 Inhibited to use
SW38 No.5, No.6 Flash send time (North America, U.K., Netherlands, Luxembourg, Belgium, France, Australia, New Zealand: Inhibited to use)Used to set the Flash send time.
Default: 0 0 (90ms)
SW38 No.7 Transfer functionUsed to set whether transfer function is enabled or not.
Default: 1 (Allow)
SW38 No.8 Inhibited to use
SW39 No.1–No.3 Inhibited to use
SW39 No.4–No.8 DTMF signal send timeUsed to set DTMF signal send time.
Setting is made in binary input by the increment of 10ms.
Default: 110ms (Other than Europe) / 80ms (Europe)
SW40 No.1–No.8 Number of times of recall in errorUsed to set the number of times of recall when a communicationerror occurs.
Setting is made in binary input.
When set to 0, recall is not made.
Default: 1 times
SW41 No.1–No.8 Number of times of recall in busyUsed to set the number of times of recall when busy tone is detectedduring transmission.
Setting is made in binary input.
When set to 0, recall is not made.
Default: 2 times
SW42 No.1 Direct send recall (North America only)Used to set whether direct send recall wait is allowed or not.
Default: 0 (Allow)
SW42 No.2 FAX receive auto select by CNG detectionUsed to set whether FAX receive auto select is enabled or not whenCNG signal is detected with external telephone used.
Default: 1 (Allow)
SW42 No.3 Auto receive select in answering telephone connection modeUsed to set whether auto receive select function in answering tele-phone connection mode is enabled or not.
Default: 0 (Inhibit)
SW42 No.4–No.7 Inhibited to use
SW42 No.8 V.34 mode function in manual communicationUsed to set whether V.34 mode is enabled or not in manual commu-nication.
When, however, SW43-1 is set to "0: OFF," V.34 mode is disabledeven tough this switch is set to "1: ON."
Default: 1 (ON)
SW43 No.1 V.34 mode functionUsed to set whether V.34 mode is enabled or not as a capacity ofown machine in send/receive.
Default: 1 (ON)
SW43 No.2, No.3 Inhibited to use
SW43 No.4–No.6 Symbol speed mask in V.34 receiveUsed to set symbol speed mask in V.34 receive.
Default: 1 0 1 (3429)
SW43 No.7, No.8 Inhibited to use
SW44 No.1–No.4 V.34 primary channel send speedUsed to set send start speed in V.34 send.
Setting is made in binary input of N in "2400 (bps) x N" in the rangeof 2400bps – 33600bps.
N is set in the range of 0 – 15. When set to 0, 2400bps; when set to15, 33600bps.
When set to 2400bps, all of SW91 No. 1 – 8 must be set as "Dis-able".
Default: 33600bps
Default: 5 times (North America) / 6 times (Other than North America)
AR-FX13 FAX SOFT SWITCH 5 - 27
SW44 No.5–No.8 V.34 primary channel receive speedUsed to set receive start speed in V.34 receive.
Setting is made in binary input of N in "2400 (bps) x N" in the rangeof 2400bps – 33600bps.
N is set in the range of 0 – 15. When set to 0, 2400bps; when set to15, 33600bps.
When set to 2400bps, all of SW43 No. 4 – 6 must changed to 2400.
Default: 33600bps
SW45 No.1 FAST modeUsed to set whether FAST function is enabled or not.
Default: 0 (No)
SW45 No.2, No.3 Sequence of year/month/day in LCD, report, and sender recordUsed to set the sequence of year/month/day in LCD, report, andsender record.
SW45 No.4 Time display formatUsed to set time display format in LCD, report, and sender record.
SW45 No.5–No.8 Scan effective image area main scan right edge image loss (RSPF)Used to set image loss of scan effective area.
Image loss on the right edge in RSPF main scan direction can beadjusted. When the set value is increased, image loss is increased.
Setting is made in binary input in the increment of 24 dots.
Default: 96 dots
SW46 No.1 Specification of print sequence in duplex printUsed to set the print sequence in duplex print of received data.
When set to 1, an odd-number page is printed after printing the nexteven-number page. (214365...)
When set to 0, print is made in the ordinary reception order.(123456...)
Default: 1 (Print order (214365...))
SW46 No.2 Specification of rotating direction duplex back surface printUsed to set whether the back surface is rotated 180 degrees induplex print or not.
When set to 1, the back surface is rotated 180 degrees and printed.
When set to 0, the back surface is not rotated and printed.
Default: 1 (180 degrees rotation)
SW46 No.3 Priority in the day of weekUsed to set which is indicated first, day or day of week, when dateformat is in the sequence of day, month, and year.
When set to 1, day of week is indicated first, and then day is indi-cated.
When set to 0, day is indicated first, and then day of week is indi-cated.
SW46 No.4 Center No. in FAST modeUsed to set which is set as FAST center number, Service-No orHost-Tel-No.
Default: 0 (Service-No.)
SW46 No.5 Summer timeUsed to set whether summer time function is enabled or not.
When set to 1, summer time function is enabled.
When set to 0, summer time function is disabled.
SW46 No.6–No.8 PBX setting (North America, U.K., Netherlands, Luxembourg, Belgium, Australia, New Zealand: Inhibited to use)Used to set Connect/Not Connect to PBX and to set the external lineconnection method when connected to PBX.
Default: 0 0 0 (Setting OFF)
SW47 No.1 Inhibited to use
SW47 No.2 External telephone connectionUsed to set whether external telephone is used or not.
This switch must be set to YES in order to use external telephone.
Default: 1 (Yes)
SW47 No.3–No.8 Inhibited to use
SW48 No.1, No.2 Tone/Pulse default setupUsed to set the dial type.
Default: 1 0 (TONE)
SW48 No.3 Telephone line menuUsed to set whether tone/pulse setting is displayed on the menu ornot.
SW48 No.4 Inhibited to use
SW48 No.5–No.8 Scan effective image area main scan left edge image loss (RSPF)Used to set image loss of scan effective area.
Image loss on the left edge in RSPF main scan direction can beadjusted. When the set value is increased, image loss is increased.
Setting is made in binary input in the increment of 24 dots.
Default: 96 dots
SW49 No.1, No.2 Inhibited to use
SW49 No.3–No.8 Speaker sound volume pattern number in DTMF sendUsed to set sound volume pattern in DTMF send.
Default: 1
SW50 No.1, No.2 Line monitor volumeUsed to set on-hook monitor volume and line volume in FAX commu-nication.
Default: 1 0 (Medium)
SW50 No.3–No.8 Line monitor volume pattern numberUsed to set line monitor volume pattern.
Default: 16
SW51 No.1–No.5 DTMF send level (High group) setupUsed to set high-group send level in DTMF signal send.
Setting is made in binary input in the increment of 1.0dBm.
SW51 No.6 CED detection timeUsed to set detection time of CED/ANSam signal for judgment ofdetection.
Default: 1000ms
Default: 0 1 (Month/Day/Year) (North America) / 1 0 (Day/Month/Year) (Other than North America)
Default: 1 (am/pm) (North America) / 0 (24H) (Other than North America)
Default: 0 (No) (North America, U.K., Netherlands, Luxembourg, Belgium, Australia, New Zealand) / 1 (Yes) (Germany, Sweden, Spain, Italy, Switzerland, Finland, Denmark, Norway, France)
Default: 0 (Inhibit) (North America) / 1 (Allow) (Other than North America)
Default: 0 (Allow) (North America) / 1 (Inhibit) (Other than North America)
Default: –6dBm (North America, Europe) / –5dBm (Australia, New Zealand)
AR-FX13 FAX SOFT SWITCH 5 - 28
SW51 No.7, No.8 Busy tone detection cycleUsed to set detection cycle of pulses of busy tone for detection ofbusy tone.
Default: 0 0 (2puls)
SW52 No.1, No.2 Busy tone detection levelUsed to set the mini. Detection level in busy tone detection.
Default: 0 0 (–43dB)
SW52 No.3 Inhibited to use
SW52 No.4 Super G3 disabled in the last call-out of recall in case of an errorUsed to set whether Super G3 is disabled or not in the last call-out ofrecall in case of a send error.
When, however, the number of recall in case of a send error is 0, thisfunction does not operate.
Default: 0 (Super G3 disabled)
SW52 No.5 Error process in RTN receptionUsed to set whether RTN reception is judged as an error or not.(Only in G3 mode)
When set to 1, RTN reception is not judged as an error.
When set to 0, RTN reception is judged as an error.
Default: 0 (Error)
SW52 No.6, No.7 Inhibited to use
SW52 No.8 V.34 control channel communication speedUsed to set control channel communication speed in V.34 mode.
If the remote machine does not make 2400bps enable, the speed isalways 1200bps.
Default: 0 (1200bps)
SW53 No.1–No.4 Maximum DTMF send levelUsed to set the max. send level of DTMF signal.
Setting is made in binary input in the increment of 1.0dBm.
Default: 0dBm
SW53 No.5–No.8 DTMF send level (difference between high and low level)Used to set DTMF signal send level in low group by the differencefrom that in high group.
Setting is made in binary input in the increment of 0.5dBm.
SW54 No.1–No.4 Scan effective image area sub scan lead edge image loss (RSPF)Used to set image loss in scan image area.
Image loss on the lead edge in RSPF sub scan direction can beadjusted. When the set value is increased, image loss on the leadedge is increased.
Setting is made in binary input in the increment of 16 lines.
Default: 96 lines
SW54 No.5–No.8 Scan effective image area sub scan rear edge image loss (RSPF)Used to set image loss in scan image area.
Image loss on the rear edge in RSPF sub scan direction can beadjusted. When the set value is increased, image loss on the rearedge is increased.
Setting is made in binary input in the increment of 16 lines.
Default: 144 lines
SW55 No.1–No.7 CI signal OFF detection enable timeUsed to set the min. OFF time for judgment of 1 pulse (1 call) of CI(call-in signal).
If OFF time continues more than the set value, it is judged as 1pulse.
Setting is made in binary input in the increment of 10ms.
Default: 1200ms (Other than New Zealand) / 1100ms (New Zealand)
SW55 No.8 Inhibited to use
SW56 No.1–No.3 CI signal ON detection enable timeUsed to set the min. ON time for judgment of 1 pulse (1 call) of CI(call-in signal).
If ON time continues more than the set value, it is judged as 1 pulse.
Setting is made in binary input in the increment of 10ms.
SW56 No.4 Inhibited to use
SW56 No.5, No.6 DT/BT detection frequency rangeUsed to set DT/BT detection frequency range.
SW56 No.7, No.8 Inhibited to use
SW57 No.1 Inhibited to use
SW57 No.2 Sharp machine modeUsed to set whether communication is made in Sharp machinemode or not.
Default: 1 (ON)
SW57 No.3 Inhibited to use
SW57 No.4–No.8 Reception gain adjustmentUsed to set reception gain correction.
Setting is made in binary input in the increment of 0.5dBm.
Default: 0.0dBm
SW58 No.1–No.4 Dual wait inhibit time after CFR sendUsed to set dual wait inhibit time after CFR send.
Setting is made in binary input in the increment of 200ms.
Default: 1600ms
SW58 No.5–No.8 FSK signal settlement time in double waitUsed to set FSK signal settlement time in double (dual) wait.
Setting is made in binary input in the increment of 50ms.
Default: 550ms (7)
SW59 No.1, No.2 Inhibited to use
SW59 No.3, No.4 Reception SED ON levelUsed to set reception SED ON level.
Default: 1 1 (–48dB)
SW59 No.5, No.6 Transmission cable amplitude equalizerUsed to set transmission cable amplitude equalizer.
SW59 No.7, No.8 Reception cable amplitude equalizerUsed to set reception cable amplitude equalizer.
Default: 0 0 (0dB)
Default: +2.0dBm (Other than New Zealand) / +1.5dBm (New Zealand)
Default: 155ms (North America, Europe) / 195ms (Australia, New Zealand)
Default: 1 1 (245Hz–650Hz) (Other than New Zealand) / 1 0 (360Hz–440Hz) (New Zealand)
Default: 0 0 (0dB) (North America, Europe) / 0 1 (4dB) (Australia, New Zealand)
AR-FX13 FAX SOFT SWITCH 5 - 29
SW60 No.1–No.4 Scan effective image area sub scan lead edge image loss (RSPF back surface)Used to set image loss in scan image area.
Image loss on the lead edge in RSPF bask surface sub scan direc-tion can be adjusted. When the set value is increased, image loss onthe lead edge is increased.
Setting is made in binary input in the increment of 16 lines.
Default: 96 lines
SW60 No.5–No.8 Scan effective image area sub scan rear edge image loss (RSPF back surface)Used to set image loss in scan image area.
Image loss on the rear edge in RSPF bask surface sub scan direc-tion can be adjusted. When the set value is increased, image loss onthe rear edge is increased.
Setting is made in binary input in the increment of 16 lines.
Default: 144 lines
SW61 No.1–No.8 Inhibited to use
SW62 No.1–No.3 Inhibited to use
SW62 No.4, No.5 V.8 mode ANSam signal send timeUsed to set ANSam/CED signal send time.
Default: 0 1 (4sec)
SW62 No.6–No.8 Inhibited to use
SW63 No.1–No.8 Inhibited to use
SW64 No.1–No.8 Inhibited to use
SW65 No.1–No.8 Inhibited to use
SW66 No.1–No.8 Inhibited to use
SW67 No.1–No.4 Make time (10PPS) setupUsed to set make time in dialing in 10PPS.
Setting is made in binary input in the increment of 1ms.
SW67 No.5–No.8 Inhibited to use
SW68 No.1, No.2 Line open delay time in dial testUsed to set time interval between end of dialing and opening theline. Valid only in dial test of simulation.
Default: 0 0 (2sec)
SW68 No.3, No.4 Inhibited to use
SW68 No.5–No.8 T1 timer setupUsed to set time for connection of the line when the remote machinedoes not respond in FAX communication.
The time of ITU-T standard is 35 ± 5sec.
Setting is made in binary input in the increment of 5sec.
Default: 40sec
SW69 No.1–No.8 Inhibited to use
SW70 No.1–No.3 Inhibited to use
SW70 No.4 Reception waiting time between framesUsed to set reception wait time between frames.
Default: 0 (3.4sec)
SW70 No.5, No.6 Preamble send time of 300bpsUsed to set preamble send time of 300bps.
Default: 0 1 (1.0sec)
SW70 No.7, No.8 RCP send timesUsed to set number of times of RCP frame send.
Default: 0 0 (3 times)
SW71 No.1–No.8 Inhibited to use
SW72 No.1 EYE-Q checkUsed to set TCF check in TCF reception.
When set to 1, check is made only with EYE-Q value (EQM value).Therefore, TCF check is loosely made.
When set to 0, check is made with received data and EYE-Q value(EQM value).
Default: 0 (0 reception & EYE-Q check)
SW72 No.2 ERR frame reception operationUsed to set operations when an image with an error frame isreceived.
Default: 0 (Not continue process. (Error))
SW72 No.3, No.4 Waiting time for CED/ANSam send startUsed to set waiting time from when the line is connected and themachine enters FAX receive state to when CED/ANSam signal issend to the line.
Default: 0 0 (2.25sec)
SW72 No.5 RTC EOL send timesUsed to set number of times of RTC EOL send.
Default: 1 (6 times)
SW72 No.6 Inhibited to use
SW72 No.7, No.8 CNG send startUsed to set CNG send time.
Default: 0 0 (0.5sec)
SW73 No.1–No.8 Inhibited to use
SW74 No.1–No.4 Print effective image area sub scan lead edge voidUsed to set print image area void.
The void amount on the lead edge in the sub scan direction can beadjusted. When the set value is increased, the void amount on thelead edge is increased.
Setting is made in binary input in the increment of 16 lines.
Default: 32 lines
SW74 No.5–No.8 Inhibited to use
SW75 No.1 Manual calibration setting when sendingSetting to execute the manual calibration or not when sending.
In case of an abnormal current waveform, the auto calibration failsand the DTFM signal is deformed. This setting provides the counter-measure against that problem.
Default: 0 (OFF)
SW75 No.2 Manual calibration setting when a signal arrivesSetting to execute the manual calibration or not when a signalarrives.
In case of an abnormal current waveform, the auto calibration failsand the transmission is affected. This setting provides the counter-measure against that problem.
Default: 0 (OFF)
SW75 No.3, No.4 Communication end sound (Buzzer sound length) settingUsed to set the length of communication end buzzer sound in com-munication.
Default: 0 0 (3sec)
Default: 40ms (North America) / 33ms (U.K., Netherlands, Luxembourg, Belgium, France) / 41ms (Germany, Sweden, Spain, Italy, Switzerland, Finland, Denmark, Norway) / 31ms (Australia) / 34ms (New Zealand)
AR-FX13 FAX SOFT SWITCH 5 - 30
SW75 No.5–No.8 Print effective image area main scan voidUsed to set void amount in print image area.
The void amount in the main scan direction can be adjusted. Whenthe set value is increased, the margins on the right and the left areincreased.
Setting is made in binary input in the increment of 16 dots.
Default: 48 dots
SW76 No.1 Scan magnification ratio adjustment (main scan) flagUsed to set the main scan magnification ratio in scan.
Bit 1 indicates plus or minus of the magnification ratio.
Default: 0 (+)
SW76 No.2–No.8 Scan magnification ratio adjustment (RSPF main scan)Used to set the main scan magnification ratio in RSPF scan.
By binary input, setting can be made in the range of 0 – ±12.7% in0.1% increments.
Default: 0%
SW77 No.1 Scan magnification ratio adjustment (sub scan) flagUsed to set the sub scan magnification ratio in scan.
Bit 1 indicates plus or minus of the magnification ratio.
Default: 0 (+)
SW77 No.2–No.8 Scan magnification ratio adjustment (RSPF sub scan)Used to set the sub scan magnification ratio in RSPF scan.
By binary input, setting can be made in the range of 0 – ±12.7% in0.1% increments.
Default: 0%
SW78 No.1 Print magnification ratio adjustment (main scan) flagUsed to set the main scan magnification ratio in print.
Bit 1 indicates plus or minus of the magnification ratio.
Default: 0 (+)
SW78 No.2–No.8 Print magnification ratio adjustment (main scan)Used to set the main scan magnification ratio in print.
By binary input, setting can be made in the range of 0 – ±12.7% in0.1% increments.
Default: 0%
SW79 No.1 Print magnification ratio adjustment (sub scan) flagUsed to set the sub scan magnification ratio in print.
Bit 1 indicates plus or minus of the magnification ratio.
Default: 0 (+)
SW79 No.2–No.8 Print magnification ratio adjustment (sub scan)Used to set the sub scan magnification ratio in print.
By binary input, setting can be made in the range of 0 – ±12.7% in0.1% increments.
Default: 0%
SW80 No.1–No.8 Destination informationUsed to set country code.
SW81 No.1–No.8 Language informationUsed to set language.
SW82 No.1–No.4 OC scan size default settingUsed to set OC scan default size.
SW82 No.5–No.8 Inhibited to use
SW83 No.1, No.2 Inhibited to use
SW83 No.3–No.8 Speaker sound volume setting pattern numberUsed to set sound volume pattern of communication end and scanend.
Default: 1
SW84 No.1–No.8 Inhibited to use
SW85 No.1–No.8 Inhibited to use
SW86 No.1–No.8 Inhibited to use
SW87 No.1–No.8 Inhibited to use
SW88 No.1–No.8 Inhibited to use
SW89 No.1–No.8 Inhibited to use
SW90 No.1–No.8 Inhibited to use
SW91 No.1 Symbol speed 3429 send enable in V.34 sendUsed to set whether symbol speed of 3429Hz is allowed or not inV.34 send.
Default: 1 (Enable)
SW91 No.2 Symbol speed 3200 high carrier send enable in V.34 sendUsed to set whether use of high carrier is allowed or not when sym-bol speed of 3200Hz is selected in V.34 send.
When high/low carriers are "disable", 3200Hz cannot be selected.
Default: 1 (Enable)
SW91 No.3 Symbol speed 3200 low carrier send enable in V.34 sendUsed to set whether use of low carrier is allowed or not when symbolspeed of 3200Hz is selected in V.34 send.
When high/low carriers are "disable", 3200Hz cannot be selected.
Default: 1 (Enable)
SW91 No.4 Symbol speed 3000 high carrier send enable in V.34 sendUsed to set whether use of high carrier is allowed or not when sym-bol speed of 3000Hz is selected in V.34 send.
When high/low carriers are "disable", 3200Hz cannot be selected.
Default: 1 (Enable)
SW91 No.5 Symbol speed 3000 low carrier send enable in V.34 sendUsed to set whether use of low carrier is allowed or not when symbolspeed of 3000Hz is selected in V.34 send.
When high/low carriers are "disable", 3200Hz cannot be selected.
Default: 1 (Enable)
SW91 No.6 Symbol speed 3429 enable in V.34 communicateUsed to set whether use of 3429Hz is allowed or not as symbolspeed in V.34 communicate.
Default: 1 (Enable)
SW91 No.7 Symbol speed 2800 enable in V.34 communicateUsed to set whether use of 2800Hz is allowed or not as symbolspeed in V.34 communicate.
Default: 1 (Enable)
Default: 0 0 0 1 (LETTER) (North America) / 0 0 1 1 (A4) (Other than North America)
AR-FX13 FAX SOFT SWITCH 5 - 31
SW91 No.8 Symbol speed 2743 enable in V.34 communicateUsed to set whether use of 2743Hz is allowed or not as symbolspeed in V.34 communicate.
Default: 1 (Enable)
SW92 No.1–No.8 Inhibited to use
SW93 No.1–No.8 Inhibited to use
SW94 No.1–No.8 Inhibited to use
SW95 No.1–No.8 Inhibited to use
SW96 No.1–No.8 Inhibited to use
SW97 No.1–No.8 Inhibited to use
SW98 No.1–No.8 Inhibited to use
SW99 No.1–No.8 Inhibited to use
SW100 No.1–No.8 Inhibited to use
SW101 No.1–No.4 Print effective image area sub scan lead edge void (Back surface)Used to set void amount in print image area.
Void amount on the lead edge in sub scan direction can be adjusted.When the set value is increased, the margin on the lead edge isincreased.
Setting is made in binary input in the increment of 16 lines.
Default: 32 lines
SW101 No.5–No.8 Print effective image area sub scan rear edge void (Back surface)Void amount on the rear edge in sub scan direction can be adjusted.When the set value is increased, the margin on the read edge isincreased.
Setting is made in binary input in the increment of 16 lines.
Default: 48 lines
SW102 No.1–No.4 Scan effective image area main scan left edge image loss (OC)Used to set image loss in scan image area.
Image loss on the left edge in OC main scan direction can beadjusted. When the set value is increased, image loss is increased.
Setting is made in binary input in the increment of 24 dots.
Default: 96 dots
SW102 No.5–No.8 Scan effective image area main scan right edge image loss (OC)Used to set image loss in scan image area.
Image loss on the right edge in OC main scan direction can beadjusted. When the set value is increased, image loss is increased.
Setting is made in binary input in the increment of 24 dots.
Default: 96 dots
SW103 No.1–No.4 Scan effective image area sub scan lead edge image loss (OC)Used to set image loss in scan image area.
Image loss on the lead edge in OC sub scan direction can beadjusted. When the set value is increased, image loss is increased.
Setting is made in binary input in the increment of 16 lines.
Default: 96 lines
SW103 No.5–No.8 Scan effective image area sub scan rear edge image loss (OC)Used to set image loss in scan image area.
Image loss on the rear edge in OC sub scan direction can beadjusted. When the set value is increased, image loss is increased.
Setting is made in binary input in the increment of 16 lines.
Default: 144 lines
SW104 No.1–No.4 Scan effective image area main scan left edge image loss (RSPF back surface)Used to set image loss in scan image area.
Image loss in RSPF back surface main scan direction can beadjusted. When the set value is increased, image loss is increased.
Setting is made in binary input in the increment of 24 dots.
Default: 96 dots
SW104 No.5–No.8 Scan effective image area main scan right edge image loss (RSPF back surface)Used to set image loss in scan image area.
Image loss on the right edge in RSPF back surface main scan direc-tion can be adjusted. When the set value is increased, image loss isincreased.
Setting is made in binary input in the increment of 24 dots.
Default: 96 dots
SW105 No.1 Scan magnification ratio adjustment (OC main scan) flagUsed to set the main scan magnification ratio in OC scan.
Bit 1 indicates plus or minus of the magnification ratio.
Default: 0 (+)
SW105 No.2–No.8 Scan magnification ratio adjustment (OC main scan)Used to set the main scan magnification ratio in OC scan.
By binary input, setting can be made in the range of 0 – ±12.7% in0.1% increments.
Default: 0%
SW106 No.1 Scan magnification ratio adjustment (OC sub scan) flagUsed to set the sub scan magnification ratio in OC scan.
Bit 1 indicates plus or minus of the magnification ratio.
Default: 0 (+)
SW106 No.2–No.8 Scan magnification ratio adjustment (OC sub scan)Used to set the sub scan magnification ratio in OC scan.
By binary input, setting can be made in the range of 0 – ±12.7% in0.1% increments.
Default: 0%
SW107 No.1 Scan magnification ratio adjustment (RSPF back surface main scan) flagUsed to set the main scan magnification ratio in RSPF back surfacescan.
Bit 1 indicates plus or minus of the magnification ratio.
Default: 0 (+)
SW107 No.2–No.8 Scan magnification ratio adjustment (RSPF back surface main scan)Used to set the main scan magnification ratio in RSPF back surfacescan.
By binary input, setting can be made in the range of 0 – ±12.7% in0.1% increments.
Default: 0%
SW108 No.1 Scan magnification ratio adjustment (RSPF back surface sub scan) flagUsed to set the sub scan magnification ratio in RSPF back surfacescan.
Bit 1 indicates plus or minus of the magnification ratio.
Default: 0 (+)
AR-FX13 FAX SOFT SWITCH 5 - 32
SW108 No.2–No.8 Scan magnification ratio adjustment (RSPF back surface sub scan)Used to set the sub scan magnification ratio in RSPF back surfacescan.
By binary input, setting can be made in the range of 0 – ±12.7% in0.1% increments.
Default: 0%
SW109 No.1 Print magnification ratio adjustment (Main scan back surface) flagUsed to set the main scan magnification ratio in back surface print.
Bit 1 indicates plus or minus of the magnification ratio.
Default: 0 (+)
SW109 No.2–No.8 Print magnification ratio adjustment (Main scan back surface)Used to set the main scan magnification ratio in back surface print.
By binary input, setting can be made in the range of 0 – ±12.7% in0.1% increments.
Default: 0%
SW110 No.1 Print magnification ratio adjustment (Sub scan back surface) flagUsed to set the sub scan magnification ratio in back surface print.
Bit 1 indicates plus or minus of the magnification ratio.
Default: 0 (+)
SW110 No.2–No.8 Print magnification ratio adjustment (Sub scan back surface)Used to set the sub scan magnification ratio in back surface print.
By binary input, setting can be made in the range of 0 – ±12.7% in0.1% increments.
Default: 0%
AR-FX13 FAX SOFT SWITCH 5 - 33
[6] TROUBLE CODES
1. Trouble codesA. Trouble codes list
B. Details of trouble codes
2. Communication error codesA. Error code identificationCommunication error xx (xxxx)
(In print out, the communication error display is made. In FAX statuscheck, “NGxxxxxx” is displayed.
When transmission or reception is not executed normally due to dis-tur-bance in protocol signals and image signals by the trouble in theline, the code of 6 digits is displayed on the transmission resultcheck menu (reception result check menu).
Upper 2 digits of a communication error code: 00 – 58 (error code) isdisplayed. (Communication result code)
Lower 4 digits of a communication error code: Error code1, Errorcode 2
1) Refer to the communication result code.
2) Refer to error code 1.
3) Refer to error code 2.
(Error code 1 other than V.34 mode is “00”.)
<Communication result code>
Main code
Sub code
Details of trouble
F6 10 FAX board trouble
U1 03 FAX board battery error
Main code
Sub code
Details of trouble
F6 10 Content FAX board trouble
Detail Communication trouble between MCU and FAX control PWB
Cause FAX control PWB connector disconnectionDefective harness between FAX control PWB and MCU PWBMotherboard connector pin breakageFAX control PWB ROM error/Data errorIC on FAX PWB causes abnormality
Check and remedy
Check connector/harness of FAX control PWB and MCU PWB.Check the grounding of the copier.Check FAX control PWB ROM.Replace the FAX PWB.
U1 03 Content FAX board battery error
Details The SRAM backup battery voltage on FAX PWB falls.
Cause The SRAM backup battery voltage on FAX PWB falls.
Check and remedy
Check voltage of the SRAM back up battery.Replace the battery.
Error code (Communication
result)
Communication report result
column
Communication interruption content
0 – 31 For details of 0 – 31, refer to the communication result code.
Depends on the communication disconnection position.For 16 or later, V.34 mode communication.
33 Busy The calling side cannot connect the line with the other party.
34 Cancel An interruption command is made during transmission or reception.A reservation is canceled.An interruption command is entered with the interruption key.
35 Power OFF Power OFF during transmission or reception
36 (Recording paper empty)
37 (Recording paper jam)
38 Reception memory over
Memory over during reception
39 (Discrepancy in the number of sheets)
40 (Interface not accepted)
41 Transmission length over
The length of transmission data of one page exceeds the range during transmission.
42 Reception length over
The length of reception data of one page exceeds the range during reception.
43 Communication (OK)
Communication enable before transmission
44 Document error A document jam during direct transmission
45 (Image quality error)
46 No response from the other party
The FAX signal from the other party cannot detect within T1 time.
47 (Communication error)
48 OK Communication normal end
49 No send request function on the other party
The other party has no send request function when receiving a send request.
The other party has no data to send.
50 Send request not accepted
DCN is received for DTC when sending a send request.
There is no data to send when sending a send request.
51 Send request enable number discrepancy
Discrepancy in the enable number when sending a send request.Discrepancy in the system number when sending a send request.
52 No confidential function on the other party
The other party has no confidential function when sending a confidential message. (Including the other company’s machines)
Error code (Communication
result)
Communication report result
column
Communication interruption content
AR-FX13 TROUBLE CODES 6 - 1
<Communication result codes>
(Note) For error codes 16 – 31, V.34 mode communication.
<Error codes 1>
Error codes 1 are fixed to “00”.
<Error codes 2>53 Confidential
function not accepted
DCN is received for NSS when receiving a confidential message.
54 Confidential box No. NG
A confidential box number which is not registered is directed when receiving a confidential message.
55 No interface function on the other party
The other party has no interface function when sending an interface command.
56 Interface not accepted
DCN is received for NSS when sending an interface command.A receiving station number which is not registered is directed when receiving an interface command.
57 Interface ID discrepancy
Discrepancy in the interface ID when receiving an interface command.
58 Reception inhibition number
Transmission is made from a reception inhibition number.
Error code
Final reception signal (Transmitting side)
Final reception signal (Receiving side)
0 Abnormal signal Abnormal signal
1 NSF, DIS NSS, DCS
2 CFR NSC, DTC
3 FTT EOP
4 MCF EOM5 PIP, PIN MPS
6 RTN, RTP PRI-Q
7 No signal DCN
8 PPR PPS-EOP
9 PPS-EOM
10 PPS-MPS, PPS-NULL
11 RNR RR12 CTR CTC
13 ERR EOR-Q
14 PPS-PRI-Q
15
16 Abnormal signal Abnormal signal
17 NSF, DIS NSS, DCS18 CFR NSC, DTC
19 FTT PPS-EOP
20 MCF PPS-EOM
21 PIP, PIN PPS-MPS, PPS-NULL
22 RTN, RTP PRI-Q
23 No signal DCN24 PPR
25 RNR RR
26 CTR CTC
27 ERR EOR-Q
28 PPS-PRI-Q
29 V.8 Phase-1 V.8 Phase-130 V.8 Phase-2 V.8 Phase-2
31 V.8 Phase-3 V.8 Phase-3
Error code (Communication
result)
Communication report result
column
Communication interruption content
Error codes 2
Content of communication interruptionTransmission/
Reception
01 Transmission length over Transmission
02 EOL time over Reception
03 Carrier detection time up Reception
04 Polarity reversion detection (in phase C) Transmission/Reception
05 8 min over (in phase C) Transmission
06 Memory image decoding error Reception07 Memory image decoding error Transmission
08 Time up between frames in phase C Transmission/Reception
10 Communication request NG Reception
11 Polarity reversion detection Reception
12 Invalid command reception Reception
13 Time over (1min timer/6sec timer) Reception
14 PUT error Reception
15 Time out occurrence during shift from Primary to Control in V.34 mode
Reception
20 Polarity reversion detection Transmission
21 Invalid command reception Transmission22 Fall back retry number over Transmission
23 Resend over of retry number Transmission
24 Time over (T5 timer) Transmission
25 Time over (T5 timer) in V.34 mode Transmission
26 Time out occurrence during shift from Primary to Control in V.34 mode
Transmission
30 Communication error due to communication abnormality between FAX_SUB and FAX_MAIN
Transmission/Reception
AR-FX13 TROUBLE CODES 6 - 2
[7] CIRCUIT DIAGRAM
1. FAX MAIN PWB (North America)
+3.3
VD
AA
3.3
V
DA
AG
ND
DA
AG
ND
DA
AG
ND
DA
A3
.3V
GN
D
DA
A3
.3V
DA
A3
.3V
DA
AG
ND
+24V
GN
D
GN
D
GN
D
DA
AG
ND
DA
AG
ND
GN
D
AB
ITC
LKA
SP
CLK
AR
XD
AT
XD
AF
ER
ST
_L
SP
OU
T
MC
LO
CK
RG
DT
-
CID
_L
EX
HK
D_L
S
L1
L2
C10
B0
.1u
F/1
6V
(160
8)
VA
1
DS
S4
01
M(N
,M.)
ZD
5H
ZS
2A
1
SA3DSS-401M
C14
B1
uF
/16V
(212
5)
C1001B0.1uF/16V(1608)
R10165.36kF1/4W(3226)
TP
GN
D0
R(N
.M.)
R10
05 5.3
6K
F1
/4W
(322
6)
TP
8
C72200pF(KH)
TP
15R
810
K
PC
1B
PC
817X
4 3
TP
24
R10
06 5.3
6K
F1
/4W
(322
6)
R10
0412
0K(1
608)
C11
15
0p
F/A
C2
50
V(7
.5m
m)
IC1
Si3
01
5-F
S
QE
21
DC
T2
IGN
D3
C1B
4
RN
G1
5
RN
G2
6
QB
7
QE
8V
RE
G9
RE
F11
RE
XT
212
RE
XT
13R
X14
FIL
T15
FIL
T2
16
VR
EG
210
SA1
DSS-401M
TP
4
R4215F(1608)
R44
30
1/4
W
TP
17
FB
1B
LM31
A60
1S
C3
B0
.22
uF
/10V
(160
8)
C13
B0
.02
2u
F/2
50V
(212
5)C
12(3
21
6)N
.M.
FL1
ST
110A
V
D7
1SS
355
C15
B0
.22
uF
/16V
(160
8)
R10
125
6k(
2125
)
R1008150(1608)
R3
10(2
125)
TP
317
R43
91
1/4
W
TP
13
C1007B3900pF/16V(1608)
R1002402F(1608)
R10155.36kF1/4W(3226)
R421.78kF2W(N.M.)
R12100kF(1608)
H1
C61
B10
00pF
TP
23
R10
170
R(1
608
)
C1006B3900pF/16V(1608)
L6
SB
T-0
260SA2
DSS-401M
R1510M(1608)
TP
3
D2DAN217
A
AK
K
C10
05B
0.1
uF
/50
V(2
125)
TP
31
TP
16
C34
0.4
7u
F/2
50V
C62200pF(KH)
D1DAN217A
AK
K
C4
10
pF
/50V
(160
8)
C1002B0.68uF/16V(2125)
Q10
012
SC
454
8(E
)B
EC
TP
279
Q2
2S
D17
33
1
34
R10009.31kF(1608)F
B2
BLM
31A
601S
C10
04B
0.01
uF/5
0V(1
608)
ZD
3M
TZ
J30B
PC
2A
TLP
620
12
L1T
WK
A-2
21K
NP
IC3
Si3
02
1-F
S
MC
LK1
FS
YN
C2
SC
LK3
VD
4
SD
O5
SD
I6
FC
/RG
DT
7
RE
SE
T8
AO
UT
9M
110
C1A
11G
ND
12V
A13
M0
14R
GD
T/F
SD
15O
FH
K16
R85
10K
R2
10(2
125)
R10105.36kF1/4W(3226)
TP
21
C1003B1800pF/50V(1608)
Q3
DT
C1
23J
KA
B
E
C
L2T
WK
A-2
21K
NP
C63
B10
00pF
TP
1
ZD1RLZ5.6
R10
130
R(1
60
8N
.M.)
R10
140
R(1
60
8N
.M.)
R10
07 5.3
6K
F1
/4W
(322
6)
MJ2
MJ-
62
J-R
D3
15
/MJ-
66
J-R
D31
5
BT
11
LT1
2
TE
L13
TE
L24
LT2
5
BT
26
TP
27
D10
001S
S35
5
R41
10
k1W
TP
26
R11
0R
(160
8)
RY
1B
OU
AZ
-SH
-12
4D
Z
+5
-4
R100178.7F(1608)
L3
SB
T-0
260
ZD1001RD43FM
L4
SB
T-0
260
R10
115
6k(
2125
)
TP
18
Q1
2S
C4
548(
E)
B
EC
C16B0.01uF/250V(2125N.M.)
C10
08B
56
0p
F/2
50V
(212
5)
RY
1A
OU
AZ
-SH
-12
4D
Z1
23
Q10
002S
A17
59
B
EC
D6 S
1Z
B60
12 3
4
L5
SB
T-0
260
R13
1.7
8kF
2W
(N.M
.)
MJ1
MJ-
62J-
RD
315/
MJ-
66J-
RD
315
1 2 3 4 5 6
TP
30
C9 B10
00pF
ZD
4H
ZS
2A
1P
C2
BT
LP62
0
4 3
TP
25
TP
33
C1000B0.1uF/16V(1608)
C10
09B
56
0p
F/2
50V
(212
5)
C5
15
0p
F/A
C2
50
V(7
.5m
m)
R10
092
.2K
(212
5)
ZD1000RLZ5.6
PC
1A
PC
817X
1 2
TP
12
R1410M(1608)
A A
B B
C C
D D
E E
44
33
22
11
FA
XM
AIN
PW
B(T
EL
/LIU
)(N
ort
hA
mer
ica)
1/6
AR-FX13 CIRCUIT DIAGRAM 7 - 1
+5V
AG
AG
AG
+5V
AG
+5V
+5V
Vref
AG
+5V
AG
Vref
Vref
Vref
+5V
+5V
AG
AG
GND
AG
AG
VOL_B
VOL_A
VOLCNT_A
VOLCNT_B
SPMUTE
BZ
VOL_C
SPOUT
C142
A4.7uF/50V
R165
4.7k
TP298
TP296
R161
33K
IC11 BU4051BCF
X0
13
X1
14
X2
15
X3
12
X4
1
X5
5
X6
2
X7
4
INH
6
A11
B10
C9
X3
VDD
16
VEE
7
VSS
8
IC10 BU4051BCF
X0
13
X1
14
X2
15
X3
12
X4
1
X5
5
X6
2
X7
4
INH
6
A11
B10
C9
X3
VDD
16
VEE
7
VSS
8
TP294
TP341
R153
62K
C137
0.1uF
R155
200K
TP311
TP313
C132
0.1uF
TP306
R156
18K
R168
3.3K
R177
22k
TP295
R1524.7k
TP331
TP338
IC12
NJM2113M
4 3
7
8
5
1
2
6
TP310
TP309
TP305
TP292
C136
4700pF
R180
200K
C143
A4.7uF/50V
TP297
TP301
CN3
B2B-PH-K-S
1 2
TP316
R16456k
R157
5.1k
R167
1K
C134
0.1uF
C135
0.1uF
R1514.7k
R16656k
R17056k
R173
10K(N.M.)
TP312
TP337
R1544.7k
R158
3.3K
TP304
R160
100K
TP308
C133
0.1uF
TP300
R16956k
R172
20k
TP302
TP315
R171
1.6k
C145
100pF
C139
2200pF
TP314
C141
A4.7uF/50V
R163
4.7k
TP293
R159
10k
R174
1k
ZD6
HZS2C1
C138
0.1uF
TP307
TP303
R179
100k
TP299
R1621M
R181
0R
TP322
R176
3.3k
C144
A4.7uF/50V
FA
XM
AIN
PW
B(S
PE
AK
ER
)(N
ort
hA
mer
ica)
2/6
4 4
3 3
2 2
1 1
DD
CC
BB
AA
AR-FX13 CIRCUIT DIAGRAM 7 - 2
A18
A14
A19
A8
A13
A5
A12
A17
A10
A9
A15
A16
A11
A20
A2
D5
D7
D0
D4
D1
D6
D2
D3
A0
D0
D5
D6
D7
D4
D3
D2
D1
A13
A5
A10
A15
A16
A0
A2
A4
A11
A14
A3
A12
A1
A6
A7
A8
A9
A7
A6
A3
A21
A17
A1
A4
+3.3V
GND
GND
GND
GND
GND
BAT
+3.3V
GND
+3.3V
+3.3V
GND
GND
BAT
GND
GND
BAT
+3.3V
GND
GND
GND
GND
A[21:0]
D[7:0]
F_RYBY
WEL
CS_S1L
CS_FL
OEL
CS_S0L
RESETL
RTC_DATA
RTC_CLK
RTC_CE0H
CS_S1L
C_BT
L_BT-
F_WP
TP245
TP175
TP149
TP242
TP68
TP130
R35
20k
TP215
TR2
KTC3875
C72
100pF
IC9
CS16LV10243EIR55
A0
20
A1
19
A2
18
A3
17
A4
16
CE1
30
I/O0
21
I/O1
22
I/O2
23
I/O3
25
VCC
8
I/O4
26
I/O5
27
WE
5
A5
15
A6
14
A7
13
A8
3
NC
9
A12
12
A11
1
A10
31
A9
2
VSS
24
CE2
6
OE
32
A13
4A14
11
A15
7A16
10
I/O7
29
I/O6
28
TP239
R94
75
CN4
B2B-PH-K-S
1 2
TP152
TR4
KTA1504
TP83
TP28
TP177
R36
1k
R6
1k
D31SS355
C31
0.1uF
+C74
A47uF/25V
TP216
TP176
C94
0.1uF
TP129
TP147
TP246
TP72
TP197
TP66
C54
12pF
TP243
C55
12pF
C73
0.1uF
TP156
TP240
TP194
TP196
TP195
C51
18pF(N.M.)
TP247
R73
10k
TR1
DTC363EKA
B
E
C
TP67
TP193
R5
100k
TP157
TP85
TP146
C52
12pF(N.M.)
R79
10k
TP32
TP180
TR3
KTA1504
TP70
TP155
R61
1k
TP276
IC5
SM8578BV
DATA
7
I/O-
1
CLK
6
CE
5XT
2
XT-
3
VDD
8
VSS
4
TP179
IC2
PST3426
OUT
1
VCC
2NC
3
GND
4
TP154
JP1
0R
TP274
TP217
TP178
TP244
TP153
BT1
HL50-A
1 2
R38
360
TP241
X3DT-3832.768KHz
14
23
C59
0.1uF
TP145
TP144
TP69
TP89
TP174
TP148
TP275
TP34
R60
1k
TP71
TP151
ZD2
UDZ2.0B
IC8
S29AL016D70TFI020
A19
9
A18
16
A17
17
A16
48
A15
1
A14
2
A13
3
A12
4
A11
5
A10
6
A9
7
A8
8
A7
18
A6
19
A5
20
A4
21
A3
22
A2
23
A1
24
A0
25
DQ15
45
DQ14
43
DQ13
41
DQ12
39
DQ11
36
DQ10
34
DQ9
32
DQ8
30
DQ7
44
DQ6
42
DQ5
40
DQ4
38
DQ3
35
DQ2
33
DQ1
31
DQ0
29
CE
26
OE
28
WE
11
WP
14
RY/BY
15
VPP
13
BYTE
47
RP
12
VCC
37
GND
27
GND
46
NC
10
R37
560
TP73
4 4
3 3
2 2
1 1
DD
CC
BB
AA
FA
XM
AIN
PW
B(S
RA
M&
FL
AS
HR
OM
(16M
))(N
ort
hA
mer
ica)
3/6
AR-FX13 CIRCUIT DIAGRAM 7 - 3
D1
D3D2
D4
D6
D7
D0
D5
A6
A8
A5
A2
A9
A1
A7
A4
A3
A10
A0A11
GND
GND
GND
GND
GND
+1.8V
GND
+3.3V
GND
+3.3V
GND
+3.3V
+3.3V
GND
GND
GND
GND
+3.3V
GND
+3.3V
+3.3V
+3.3V +3.3V
+3.3V
+3.3V
+3.3V
+3.3V
GND
MDM3.3V
A[21:0]
CS_ML
OEL
MCLOCK
M_RESETL
MDM_IRQ
CLKIN
WEL
ABITCLK
ASPCLK
ATXD
ARXD
AFERST_L
D[7:0]
CLKIN
FL6
TP94
FL9
TP48
FL7
R25
47k
FL4FL3
R48
47K
TP44
C46
0.1uF
TP102
C26
0.1uF
C29
0.1uF
TP42
C44
0.1uF
TP55
C48
0.1uF
TP19
TP11
TP76
R58
47K
TP50
TP98
TP51
TP36
C40
0.1uF
C21
0.1uF
R46
33(N.M.)
R91
47K
R23
47K
R32
47K
TP77
TP43
C19
A33uF/10V
R33
47K
C42
1uF
R56
47K
TP93
TP37
TP101
R55
47K
C66
0.1uF
C30
A47uF/25V
C43
0.1uF
TP52
TP56
R34
0R
R59
47K
TP49
C23
1uF
TP39
FB11
ACH32N.M.
C36
100pF
C41
1uF
TP81
TP29
TP47
TP100
FL12
ZJSR5101(22000p)
R18
75
R53
4.7k
CN1
A2-6PA-2.54DSA(NM)
1 2 3 4 5 6
TP78
R54
0R
TP53
C47
0.1uF
TP59
R50
33
R92
47K
TP60
R93
47K
X1
SG-710ECK24.576MS-L3
VDD
4
OUT
3OE
1
GND
2
TP92
R95
47K
C65
C470uF
TP62
TP95
C24
0.1uF
R96
47K
R97
47K
TP10
R98
47K
C20
A33uF/10V
R47
33
C22
0.1uF
R52
47K
TP99
TP65
C93
A47uF/25V
TP45
C45
0.1uF
TP58
R28
47K
C25
1uF
R29
47K
R19
47K
R26
47k
R31
47k
R20
47K
C49
0.1uF
TP80
TP38
TP63
TP7
R22
47K
R27
47k
BR1
MNR0433
12345 6 7 8
R10
100
R24
0R
R21
100
C27
0.1uF
MN195006E
IC4
T3IRQ
1
DPD00
2
VDD33
DPD01
4
VSS5
DPD02
6DPD03
7DPD04
8
VDD29
DPD05
10
VSS11
DPD06
12
DPD07
13
DPD08
14
VDD315
DPD09
16
DPD10
18
DPD11
19
DPD12
20
VSS17
VDD221
DPD13
22
VSS23
DPD14
24
DPD15
25
NDBGREQ
26
DBGMOD
27
TDO
28
TDI
29
VDD330
TCK
31
VSS32
TMS
33
AVDD34
AVSS35
PLLON
36
CXIN
39
VSS40
NRESET
41
VDD242
CXOUT
38
CNT
37
CLKOUT
43
VDD344
SCANNT
45
MINTEST
46
VSS47
INTEST
48
MODE0
49
MODE1
50
LON
51
VSS64
ATXD
63
VDD262
ARXD
61
ASPCLK
60
ABITCLK
59
EYEDAT
58
EYECLK
57
VSS56
REGOUT53
VDDREG54
VDDREG55
REGOUT52
BRXD
67
BSPCLK
66
BBITCLK
65
NDPCS
75
NDPRD
74
NDPWR
73
NLB
72
NUB
71
VSS70
BTXD
69
VDD368
GPIO0
76
GPIO1
77
DPA01
85
DPA00
84
GPIO5
83
GPIO4
82
GPIO3
81
VSS80
GPIO2
79
VDD378
VSS89
DPA03
88
DPA02
87
VDD286
DPA04
90
DPA05
91
VDD392
DPA06
93
DPA07
94
DPA08
95
DPA09
96
VDD297
DPA10
98
VSS99
DPA11
100
FL8
BR7
MNR0433
12345 6 7 8
TP61
FL14
TP79
TP20
FL13
C39
10pF
TP96
TP97
R9
100
FL2
TP9
FL5
8 8
7 7
6 6
5 5
4 4
3 3
2 2
1 1
DD
CC
BB
AA
FA
XM
AIN
PW
B(M
N19
5006
Q)
(No
rth
Am
eric
a)4/
6
AR-FX13 CIRCUIT DIAGRAM 7 - 4
A2
A1
A0
A3A
5A
6A
7
A4
A8
A9
A12
A14
A16
A17
A13 D
1
D3
D5
D7
A19
A20
D4
PB
_AE
0LP
B_W
EL
PB
_OE
LD
7
PB
_D
7
PB
_D
3P
B_
D2
PB
_D
0
D1
D4
D5
A10
A9
A5
A4
A2
A1
A15
A16
A19
A20
A14
WE
L
CS
_S
0LC
S_M
LC
S_
FL
OE
L
F_
RY
BY
MC
U_
D0
MC
U_
D2
MC
U_
INT
MC
U_
D7
MC
U_
OE
LM
CU
_C
EL
PB
_A5
PB
_A2
PB
_C
S1L
PB
_A0
PB
_A7
PB
_A1
PB
_D
6P
B_
D5
PB
_D
4
PB
_D
1
PB
_A6
PB
_A4
PB
_A3
D6
D3
D2
D0
A21
A18
A17
A11
A6
A3
A0
MC
U_
D6
MC
U_
D5
MC
U_
D4
MC
U_
D3
MC
U_
D1
HS
1L
HS
2L
PB
_D
5P
B_
D4
PB
_D
3P
B_
D2
PB
_D
1P
B_
D0
D6
A11
A10
A15
A18 D
2
A21
D0
M_R
ES
ET
L
HS
2L
HS
1L
CS
_O
P1L
WA
KE
_UP
CS
_O
P2L
PB
_A2
PB
_A3
PB
_A0
PB
_A1
PB
_D
6P
B_
D7
A8
A7
A12
A13
PB
_A6
PB
_A5
PB
_A4
PB
_A7
MC
U_
D0
MC
U_
D1
MC
U_
D2
MC
U_
D3
MC
U_
D6
MC
U_
D7
MC
U_
D4
MC
U_
D5
RE
SE
TL
GN
D
+3.3
V
GN
D
GN
D
GN
D
+3.3
V
GN
D
GN
D
GN
D GN
D
GN
D
+3.3
V
+3.3
V
+3.3
V
+3.3
V
GN
D
+3.3
V
GN
D
+3.3
V
GN
D+3
.3V
GN
DG
ND
GN
D
+3.3
V
+3.3
V
+3.3
V
+3.3
V
+3.3
V
+3.3
V
+3.3
V
+3.3
V
+3.3
V
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
+3.3
V
GN
D
GN
D
A[2
1:0
]
PB
_A
[7:0
]
MC
U_
D[7
:0]
EX
HK
D_L
F_
RY
BY
VO
L_C
VO
L_B
VO
LC
NT
_A
BZ
OE
LW
EL
MC
U_
CE
LM
CU
_O
EL
RG
DT
-
CS
_ML
CID
_L
EX
HK
D_L
MC
U_
INT
CL
KIN
PB
_D
[7:0
]
L_B
T-
C_B
T
CS
_S
0L
RT
C_
CE
0H
VO
LC
NT
_B
WE
L
SP
MU
TE
RT
C_
CL
K
RE
SE
TL V
OL_
A
RT
C_
DA
TA
M_R
ES
ET
L
CS
_F
LC
ID_
L
D[7
:0]
F_W
PS
PB
_WE
LP
B_O
EL
PB
_AE
0LP
B_
CS
1LF
L18
(N.M
.)
TP
285
TP
119
TP
229
IC6
P2
78
2A-0
8SR
Xin
1
Xou
t2
S1
3
LF4
VS
S5
FS
OU
T6
S0
7V
DD
8
TP
106
TP
134
FL1
7(N
.M.)
FL1
1(N
.M.)
TP
224
TP
114
BR
16
MN
R0
4 4
7
1 2 3 45678
uP
D6
59
44
GM
-P07
-JE
D-A
IC7
FA
X_D
AT
A_0
590
PB
_AD
DR
_03
13
PB
_DA
T_0
52
PB
_DA
T_0
34
PB
_DA
T_0
16
PB
_AD
DR
_05
11
PB
_AD
DR
_07
9
PB
_OE
_N23
PB
_AE
0_N
19
PB
_AD
DR
_01
15
VD
D1
PB
_DA
T_0
43
PB
_DA
T_0
25
PB
_DA
T_0
07
PB
_AD
DR
_06
10
PB
_AD
DR
_04
12
PB
_AD
DR
_02
14
PB
_AD
DR
_00
16
RE
SE
T_N
24
WA
KE
_UP
25
FA
X_D
AT
A_0
491
FA
X_D
AT
A_0
392
FA
X_D
AT
A_0
293
FA
X_D
AT
A_0
194
FA
X_D
AT
A_0
095
FA
X_D
AT
A_0
674
FA
XA
DD
_00
96
PB
_CE
2_N
17
PB
_CE
1_N
18
VD
D20
GN
D21
PB
_WR
_N22
TE
ST
MO
DE
08
FG
PI_
0726
FG
PI_
0627
FG
PI_
0528
FG
PI_
0429
FG
PI_
0330
FG
PI_
0231
FG
PI_
0132
FG
PI_
0033
FG
PIO
_07
34
FG
PIO
_06
35
FG
PIO
_05
36
FG
PIO
_04
37
TC
K38
TR
ST
39
GN
D42
TM
S43
NC
44
TD
I45
TD
O46
FG
PIO
_03
47
FG
PIO
_02
48
FG
PIO
_01
49
FG
PIO
_00
50
TE
LELI
N51
BE
EP
_O_V
152
BE
EP
_O_V
253
FG
PO
_00
72F
GP
O_0
171
FG
PO
_02
70F
GP
O_0
369
FG
PO
_04
68
FG
PO
_15
54
FG
PO
_14
55
FG
PO
_13
56
FG
PO
_12
57
GN
D58
FG
PO
_11
59
FG
PO
_10
60
FG
PO
_09
61
FG
PO
_08
62
GN
D63
VD
D64
FG
PO
_07
65
FG
PO
_06
66
FG
PO
_05
67
FA
X_D
AT
A_0
773
VD
D75
GN
D76
XIN
77
XO
UT
78
GN
D79
GN
D80
VD
D81
CLK
SE
L82
TM
D1
85T
MD
286
TE
ST
B87
TO
UT
88T
MD
0_O
UT
89
FA
XA
DD
_01
97F
AX
AD
D_0
298
FA
XA
DD
_03
99V
DD
100
GN
D10
1F
AX
AD
D_0
410
2F
AX
AD
D_0
510
3F
AX
AD
D_0
610
4F
AX
AD
D_0
710
5F
AX
AD
D_0
810
6F
AX
AD
D_0
910
7F
AX
AD
D_1
010
8F
AX
AD
D_1
110
9F
AX
AD
D_1
211
0F
AX
AD
D_1
311
1G
ND
112
FA
XA
DD
_14
113
FA
XA
DD
_15
114
FA
XA
DD
_16
115
FA
XA
DD
_17
116
FA
XA
DD
_18
117
FA
XA
DD
_19
118
FA
XA
DD
_20
119
FA
XA
DD
_21
123
VD
D12
0
GN
D12
1G
ND
122
FA
XW
R_N
124
FA
XO
E_N
125
FA
XC
S_N
_05
126
FA
XC
S_N
_04
127
FA
XC
S_N
_03
128
FA
XC
S_N
_02
129
FA
XC
S_N
_01
130
FA
XC
S_N
_00
131
RT
C_S
DA
TA
132
RT
C_S
CLK
133
RT
C_C
E13
4R
TC
_IO
N13
5U
AR
T_S
IN13
6U
AR
T_S
OU
T13
7U
AR
T_C
TS
138
UA
RT
_RT
S13
9F
AX
WR
IN_N
140
GN
D14
1V
DD
142
CP
U_D
T_0
714
3C
PU
_DT
_06
144
CP
U_D
T_0
514
5C
PU
_DT
_04
146
GN
D14
7C
PU
_DT
_03
148
CP
U_D
T_0
214
9C
PU
_DT
_01
150
CP
U_D
T_0
015
1G
ND
152
VD
D15
3C
PU
_RD
_N15
4C
PU
_CS
_N15
5C
PU
_IN
T_N
156
PB
_DA
T_0
715
7P
B_D
AT
_06
158
GN
D15
9G
ND
160
GN
D41
VD
D40
TM
D0
84
SY
SC
LK_I
N83
TP
121
TP
160
TP
111
BR
15
MN
R0
4 1
00
1 2 3 45678
R13
710
K
+C
104
A4
7u
F/2
5V
BR
17
MN
R0
4 4
71 2 3 4
5678
TP
218
BR
2
MN
R0
4(N
.M.)
1 2 3 45678
C99
100p
F
TP
255
TP
204
R11
710
K
TP
253
TP
84
R12
475
BR
12
MN
R0
4 1
001 2 3 4
5678
BR
4
MN
R0
4(N
.M.)
1 2 3 45678
R1
19
10k
FL1
0(N
.M.)
TP
208
TP
136
BR
13
MN
R0
4 1
001 2 3 4
5678
JP2
T2B
-SQ
TP
186
TP
259
TP
198
R78
10K
TP
182
R75
10K
C69
270p
F
TP
173
TP
223
R76
10K
R12
810
K
TP
82
TP
284
TP
120
R74
10K
+C
97 A4
7u
F/2
5V
BR
14
MN
R0
4 1
00
1 2 3 45678
R10
322
K
BR
26
MN
R0
4 1
0K1 2 3 4
5678
TP
228
TP
132
R14
222
K
TP
122
R14
322
K
R10
422
K
TP
140
TP
109
TP
113
R10
522
K
FL1
6(N
.M.)
TP
90
TP
158
TP
321
TP
205
TP
219
C96
100p
F
TP
254
BR
29
MN
R0
4 1
0K
1 2 3 45678
TP
251
TP
123
TP
105
FL2
0(N
.M.)
FL1
5(N
.M.)
TP
162
TP
200
TP
103
R13
110
K
FL1
9(N
.M.)
TP
142
BR
28
MN
R0
4 1
00
1 2 3 45678
TP
222
TP
283
R65
100
BR
6
MN
R0
4 1
0K
12345 6 7 8
TP
203
TP
137
R12
710
0
TP
318
TP
138
TP
135
R66
100
TP
187
TP
199
TP
108
R71
100
TP
282
TP
230
TP
280
TP
159
C58
18pF
TP
87
TP
126
R89
510
C56
18pF
TP
57
R63
0R
TP
252
C53
18pF
TP
249
185T
P
R12
110
K
TP
248
TP
131
R11
510
0
BR
5M
NR
04
0R
1 2 3 45678
R11
610
0
R12
610
0
BR
27
MN
R0
4 1
00
1 2 3 45678
R13
610
K
TP
323
TP
257
R12
510
0F
L21
(N.M
.)
R77
10K
TP
117
R70
10K
TP
115
R12
00
R(N
.M.)
R69
10K
TP
226
TP
22
TP
181
TP
133
R67
10K
TP
206
R12
21
0k(
N.M
.)
C70
0.1
uF
R72
10K
TP
201
TP
112
TP
227
TP
319
R11
810
k
TP
278
TP
124
C68
0.1
uF
TP
86
R10
110
0
TP
183
R10
210
K
R82
22K
TP
225
R81
22K
R88
0R
R10
010
K
TP
256
TP
91
BR
8M
NR
04
10K
12345 6 7 8
R80
22K
R13
510
K
TP
258
R14
110
K
R13
010
K
BR
21
MN
R0
4 2
2K
1 2 3 45678
BR
9
MN
R0
4 1
0K
12345 6 7 8
R13
410
k
TP
143
BR
3
MN
R0
4 0
R
1 2 3 45678
R14
010
KR
6210
K
TP
172
BR
22
MN
R0
4(N
.M.)
1 2 3 45678
BR
10
MN
R0
4 1
0K
12345 6 7 8
R13
310
K
R13
810
k
TP
104
TP
250
TP
260
BR
23
MN
R0
4(N
.M.)
1 2 3 45678
BR
11
MN
R0
4 1
0K
12345 6 7 8
R13
210
K
R68
10
K(N
.M.)
BR
30
MN
R0
4 1
0K
1 2 3 45678
TP
116
TP
184
TP
161
R12
910
K
BR
25
MN
R0
4 1
0K
12345 6 7 8
C10
20
.1u
F
TP
281
TP
125
TP
220.
C79
0.1
uF
TP
320
C81
0.1
uF
TP
277
C10
00
.1u
F
C98
0.1
uF
TP
110
C78
0.1
uF
R13
910
K
TP
118
C10
10
.1u
F
C76
0.1
uF
TP
88
TP
202
C80
0.1
uF
FL2
2(N
.M.)
D8
DA
20
4U
BR
24
MN
R0
4 2
2K
1 2 3 45678
C77
0.1
uF
TP
221
TP
107
R12
30R
TP
273
8 8
7 7
6 6
5 5
4 4
3 3
2 2
1 1
DD
CC
BB
AA
FA
X M
AIN
PW
B (
AS
IC_N
EW
_CIL
F)
(No
rth
Am
eric
a)5/
6
AR-FX13 CIRCUIT DIAGRAM 7 - 5
#MCU_D3
#MCU_D2
#MCU_D1
#MCU_D0
#MCU_D4
#MCU_D6
#MCU_D5
#MCU_D7
#PB_D0
#PB_A5
#PB_A0
#PB_D1
#PB_A1
#PB_D2
#PB_A2
#PB_D3
#PB_A6
#PB_A3
#PB_A4
#PB_D6
#PB_D4
#PB_D5
#PB_D7
#PB_A7
#PB_nWE
#PB_nAE0
#RESET-
#PB_nOE
#MDM_IRQ
#PB_nCS1
IN5V
#PB_A5
#PB_nWE
#PB_D3
#PB_A1
#MCU_D6
#PB_A4
#MDM_IRQ
#MCU_INT
#PB_A2
#PB_D0
#PB_D2
#MCU_D7
#MCU_D1
IN24V
IN3.3V
#PB_nAE0
#PB_nOE
#MCU_nOE
#PB_A0
#PB_D4
#PB_D6
#MCU_D5
#RESET-
#PB_nCS1
#PB_A3
#PB_A7
#PB_D1
#PB_D5
#PB_D7
#MCU_nCS
#MCU_D0
#MCU_D2
#MCU_D4
#PB_A6
#MCU_D3
#MCU_INT
#MCU_nCS
#MCU_nOE
PB_D7
PB_D6
PB_D4
PB_D1
PB_D3
PB_D5
PB_D2
PB_D0
PB_A7
PB_A6
PB_A5
PB_A4
PB_A3
PB_A2
PB_A1
PB_A0
MCU_D7
MCU_D6
MCU_D5
MCU_D4
MCU_D3
MCU_D2
MCU_D1
MCU_D0
GND
+3.3V
+5V
+24V
GND
GND
GND
GND
GND
GND
GND
IN3.3V
IN5V
GND
GND
IN24V
GND
GND
+3.3V
GND
+3.3V
GND
+3.3V
GND
+3.3V
GND
+3.3V
GND
+3.3V
GND
+3.3V
GND
+3.3V
GND
+3.3V
GND
+3.3V
GND
+3.3V
GND
+3.3V
GND
+3.3V
GND
+3.3V
GND
+3.3V
GND
+3.3V
GND
+3.3V
GND
+3.3V
GND
+3.3V
GND
+3.3V
GND
+3.3V
GND
+3.3V
GND
+3.3V
GND
+3.3V
GND
+3.3V
GND
+3.3V
GND
+3.3V
GND
+3.3V
GND
+3.3V
GND
MCU_D[7:0]
MDM_IRQ
PB_AE0L
PB_CS1L
PB_WEL
PB_OEL
RESETL
MCU_INT
PB_A[7:0]
PB_D[7:0]
MCU_CEL
MCU_OEL
1
40
C15033pF
R109
22
TP268
TP271
C14833pF
R107
22
TP264
TP234
R106
22
TP261
FB8
MNR0433
1 2 3 45678
C12310pF/50V(N.M.)
R186
22
TP286
C12810pF/50V(N.M.)
TP190
C12210pF/50V(N.M.)
C67
0.1uF
BR20
MNR040R1234
5 6 7 8
TP3.3V
LC3S-Y(N.M.)
FB6
MNR04100
12345 6 7 8
C11810pF/50V(N.M.)
R114
22
C12110pF/50V(N.M.)
C12710pF/50V(N.M.)
R1
22
C92
0.1uF
TP328
TP233
TP6
C12010pF/50V(N.M.)
C88
0.1uF
TP324
TP150
C114
0.1uF
TP290
TP214
R108
22
C82
0.1uF
C159
0.1uF
TP165
TP212
TP40
C95
0.1uF
TP266
TP41
+ C160
A47uF/25V
R146
0R
TP192
R64
22
TP189
C162
0.1uF
FL25
ZJSR5101(22000p)
FB3
MNR0433
1 2 3 45678
TP236
C84
0.1uF
C1
0.1uF
TP336
TP191
TP169
R39
22
R84
22
TP334
C86
0.1uF
TP139
TP128
R7
22
TP232
TP238
TP75
R147
0R
R57
22
R187
22
R99
22
TP211
R150
22
TP342
R17
22
TP166
TP263
FL23
ZJSR5101(22000p)
FB10
MNR0433
1 2 3 45678
TP235
TP272
C83
1000pF(N.M.)
C57
0.1uF
TP327
TP209
FL24
ZJSR5101(22000p)
R144
22
C62
0.1uF
TP288
C32
0.1uF
R182
22
TP54
C50
0.1uF
R90
22
C161
0.1uF
TP170
C131
0.1uF
C2
0.1uF
C18
0.1uF
TP340
C11233pF
TP267
C11133pF
TP188
C11033pF
TP164
C10933pF
C75
0.1uF
C11910pF/50V(N.M.)
C10833pF
TP64
+
C85
A47uF/25V
C10733pF
TP291
C11533pF
C71
0.1uF
C11633pF
R178
22
R83
22
TP339
TP74
C146
0.1uF
FB5
MNR04100
12345 6 7 8
TP335
TP265
TP210
+C87
A47uF/35V
R30
22
TP127
C105
0.1uF
FB12
ACH32N.M.
FB9
MNR0433
1 2 3 45678
TP35
BR19
MNR040R 1234
5 6 7 8
C155100pF
TP46
C15333pF
C60
0.1uF
C15433pF
R185
100
C15610pF/50V
C12610pF/50V
R184
0R
TP207
TP330
C12510pF/50V
C15833pF
R112
22
C28
0.1uF
C12410pF/50V
C147B1000pF
R40
22
TP325
TP171
TP141
TP168
TP326
TP269
R145
22
C103
0.1uF
TP332
R148
22
FB13
ACH32N.M.
TP287
TP289
TP329
R175
22
CN2
B40B-PNDZS-1
12
34
56
78
910
11
12
13
14
15
16
17
18
19
20
22
24
26
34
28
30
32
36
40
38
31
39
37
35
33
27
29
25
23
21
TP163
TP262
TP5V
LC3S-Y(N.M.)
D9
1SS355(N.M.)
TP24V
LC3S-Y(N.M.)
C91
0.1uF
TP231
C33
0.1uF
TP213
R183
33
TP5
C106
0.1uF
TP237
C11333pF
C129
0.1uF
FB4
MNR0433
1 2 3 45678
C15233pF
R113
22
BR18
MNR040R1234
5 6 7 8
TP270
C15133pF
R87
22
FB14
ACH32N.M.
FB7
MNR0447 1 2 3 4
5678
C14933pF
TP333
C11733pF
C140
0.1uF
C15733pF
TP167
8 8
7 7
6 6
5 5
4 4
3 3
2 2
1 1
DD
CC
BB
AA
FA
XM
AIN
PW
B(M
CU
I/F)
(No
rth
Am
eric
a)6/
6
AR-FX13 CIRCUIT DIAGRAM 7 - 6
2. FAX MAIN PWB (Europe, Australia, New Zealand)A A
B B
C C
D D
E E
44
33
22
11
DA
AG
ND
DA
AG
ND
DA
AG
ND
GN
D
+3.3
V
DA
AG
ND
+24V
GN
DG
ND
GN
D
+5V
GN
DG
ND
+3.3
V
+3.3
V
AB
ITC
LKA
SP
CLK
AR
XD
AT
XD
AF
ER
ST
_L
SP
OU
T
MC
LO
CK
RG
DT
-
CID
_L
S
HS
1_L
HS
2_L
FA
X M
AIN
PW
B (
TE
L/L
IU)
(Eu
rop
e, A
ust
ralia
, New
Zea
lan
d)
L1
L2
C13
B0
.1u
/16V
(160
8)
VA
1
DS
S-3
01
L(N
.M.)
TP
9
SA3DSS-301L
C3B0.1u/16V(1608)
C21
B1
uF
/16V
(212
5)
C7A1000pF(KH)
TP
GN
D0
R 1
/4W
(N.M
.)
C6A1000pF(KH)
TP
175
C7N.M.(5750)
R10
10K
PC
1B
TLP
621
4 3
TP
32
TP
30
R15
120K
(160
8)
C16
N.M
.(5
750
)
RY
1A
RS
B-2
46
8413
119
TP
247
SA1
DSS-401M
IC1
Si3
01
5-F
S
QE
21
DC
T2
IGN
D3
C1B
4
RN
G1
5
RN
G2
6
QB
7
QE
8V
RE
G9
RE
F11
RE
XT
212
RE
XT
13R
X14
FIL
T15
FIL
T2
16
VR
EG
210
R1001215F(1608)
TP
6C
14B
0.22
u/16
V(1
608)
FB
1B
LM31
A60
1S
C19B0.022u/250V(2125)
RY
1B
RS
B-2
4
+1
-16
D5
1SS
355
FL1
ST
110A
V
C18
N.M
.(3
216
)
C20
B0
.22
u/1
6V(1
608)
TP
12
R10
035
6k
1/1
0W
(212
5)
R1005150(1608)
R1
10
1/1
0W(2
125)
TP
7
TP
3
TP
18
C1008B3900p/16V(1608)
C10
06N
.M.
(32
16
)
R3402F(1608)
TP
10
C10
03N
.M.
(32
16
)
R461.78kF 2WR16
100kF(1608)
TP
29
C68
0.1
uF
H1
R91
0R
(160
8)
SA2
DSS-401M
L7
SB
T-0
260
C1007B3900p/16V(1608)
R1910M(1608)
TP
5
D2DAN217
A
AK
K
C4
B0
.1u
/50V
(212
5)
C44
0.2
2u
F/2
50V
C6N.M.(5750)
Q4
2S
D1
26
6A
(N.M
.)
1
34
D1DAN217A
AK
K
C16
3N
.M.(
KH
)
C11
10
pF
/50V
(160
8)
R53
0R
1/1
0W
(212
5)
C1002B0.68u/16V(2125)
Q10
012
SC
454
8(E
)B
EC
Q5
2S
D17
33
1
34
R29.31kF(1608)
TP
13
TP
25
FB
2B
LM31
A60
1S
C17
B0
.01
u/5
0V(1
608)
C42
F0
.1u
F/1
6V
ZD
5M
TZ
J30B
TP
36
L1
TW
KA
151K
NP
TP
16
IC2
Si3
02
1-F
S
MC
LK1
FS
YN
C2
SC
LK3
VD
4
SD
O5
SD
I6
FC
/RG
DT
7
RE
SE
T8
AO
UT
9M
110
C1A
11G
ND
12V
A13
M0
14R
GD
T/F
SD
15O
FH
K16
R11
10
1/1
0W(2
125)
R92
10K
TP
33
TP
17
C22B1800p/50V(1608)
Q9
DT
C1
23J
KA
B
E
C
L3
TW
KA
151K
NP
TP
8
IC3 T
HS
-56F
IN1
1
IN2
2G
ND
3A
OU
T4
OU
T2
5O
UT
16
VC
C7
ZD2RLZ5.6
C8
A4
.7u
F/5
0V
(NP
)
MJ2
MJ-
62
J-R
D31
5
BT
11
LT1
2
TE
L13
TE
L24
LT2
5
BT
26
D6
1SS
355
R4
68
0 1
/10W
(160
8)
R54
0R
1/1
0W
(212
5)
R52
39
K 1
W
R18
68
0 1
/10W
(160
8)
C533pF
TP
15
R14
0R
(160
8)
C2333pF
TP
24T
P23
L4
SB
T-0
260
R100278.7F(1608)
TP
14
L5
SB
T-0
260
ZD3RD43FM
C1
6A
15
0p
(KH
)
R10
045
6k
1/1
0W
(212
5)
Q2
2S
C4
548(
E)
B
EC
C24
A4
.7u
F/5
0V
(NP
)
C1001B0.01u/250V(N.M. 2125)
C10
05B
56
0p/
250V
(212
5)R
7 10
R 1
/4W
Q3
2SA
1759
B
EC
TP
34
L6
SB
T-0
260
D3 S
1Z
B60
12 3
4
L2 TW
KA
102K
NP
R49
1.7
8kF
2W
R20 1
0R
1/4
W
TP
174
MJ1
MJ-
64
J-R
D31
5
1 2 3 4 5 6
TP
31
TP
11
C12
1000
pF
C2B0.1u/16V(1608)
TP
4
C10
04B
56
0p/
250V
(212
5)
TP
21
C1
A
15
0p
(KH
)
TP
19
R17
2.2
K 1
/10
W(2
125)
C1
N.M
.(5
750
)
PC
1A
TLP
621
1 2
ZD1RLZ5.6
R610M(1608)
1/6
AR-FX13 CIRCUIT DIAGRAM 7 - 7
4 4
3 3
2 2
1 1
DD
CC
BB
AA
+5V
AG
AG
AG
+5V
AG
+5V
+5V
Vre
f
AG
+5V
AG
Vre
f
Vre
f
+5V
+5V
AG
AG
GN
DA
G
AG
VO
L_B
VO
L_A
VO
LC
NT
_A
VO
LC
NT
_B
SP
MU
TE
BZ
VO
L_CS
PO
UT
FA
X M
AIN
PW
B (
SP
EA
KE
R)
(Eu
rop
e, A
ust
ralia
, New
Zea
lan
d)
SP
OU
T
C14
2A
4.7
u/5
0V
R16
94
.7k
TP
314
TP
302
R16
533
K
TP
307
IC1
1 CD
40
51
BC
SJ
X0
13
X1
14
X2
15
X3
12
X4
1
X5
5
X6
2
X7
4
INH
6
A11
B10
C9
X3
VD
D16
VE
E7
VS
S8
IC1
2 CD
40
51
BC
SJ
X0
13
X1
14
X2
15
X3
12
X4
1
X5
5
X6
2
X7
4
INH
6
A11
B10
C9
X3
VD
D16
VE
E7
VS
S8
TP
322
TP
300
R15
762
K
C13
70
.1u
F
TP
324
R15
920
0KT
P33
2
C13
2F
0.1
u/1
6V
TP
310
R16
018
K
R17
2 3.3
K
TP
309
TP
318
R18
022
k
R1564.7k
IC1
3N
JM21
13M
4 3
78
5
1
2
6
TP
336
C13
6
4700
pF
C14
3A
4.7
u/5
0V
R18
320
0K
TP
323
CN
4
B2
B-P
H-K
-S
1 2
R16856k
TP
304
TP
303
R16
15
.1k
R17
1 1K
TP
308
TP
317
C13
40
.1u
F
R1554.7k
C13
50
.1u
F
R17056k
TP
311
R17456k
R1584.7k
TP
334
R16
23
.3K
R16
410
0K
TP
319
C13
3F
0.1
u/1
6V
R17
620
k
R17356k
TP
316
TP
330
TP
305
TP
312
R17
51
.6k
C13
9
2200
pF
C14
510
0pF
TP
320
C14
0A
4.7
u/5
0V
R16
74
.7k
R16
310
k
R17
71k
TP
306
ZD
6
HZ
2C
1
TP
321
C13
80
.1u
F
R18
210
0k
TP
315
TP
333
R1661M
R18
40R
C14
4A
4.7
u/5
0V
R17
9 3.3
kT
P30
1
TP
313
2/6
AR-FX13 CIRCUIT DIAGRAM 7 - 8
A4
A7
A18
A14
A19
A8
A13
A5
A12
A17
A10
A3
A9
A15
A16
A6
A11
A20
A2
D5
D7
D0
D4
D1
D6
D2
D3
D0
D5
D6
D7
D4
D3
D2
D1
A13
A5
A10
A15
A16
A0
A2
A4
A11
A14
A3
A12
A1
A6
A7
A8
A9
A21
A1
A0
A17
+3.3
V
GN
D
GN
D
GN
D
GN
D
GN
D
BA
T+3
.3V
GN
D
+3.3
V
+3.3
V
GN
D
GN
D
BA
T
GN
D
GN
D
BA
T+3
.3V
GN
D
GN
DG
ND
GN
D
A[2
1:0
]
D[7
:0]
F_
RY
BY
WE
L
CS
_S
1L
CS
_F
L
OE
L
CS
_S
0L
RE
SE
TL
RT
C_D
AT
A
RT
C_
CL
K
RT
C_
CE
0H
CS
_S
1L
C_B
T
L_B
T-
F_W
P
TP
205
R44
20k
TP
253
TP
208
Q8
KT
C38
75
C75
100p
F
IC1
0
IS6
2W
V12
88B
LL
A0
20A
119
A2
18A
317
A4
16
CE
130
I/O0
21I/O
122
I/O2
23I/O
325
VC
C8
I/O4
26I/O
527
WE
5
A5
15A
614
A7
13A
83
NC
9
A12
12
A11
1
A10
31
A9
2
VS
S24
CE
26
OE
32
A13
4A
1411
A15
7A
1610
I/O7
29
I/O6
28
TP
82
R10
075
TP
86
TP
325
Q6
KT
A15
04C
N2
00
2
B2
B-P
H-K
-S
1 2
R45
1k
R24
1k
D4
1SS
355
C40
0.1
uF
TP
22
JP3
0R
+C
774
7u
/25V
C99
0.1
uF
X2 DT
-38
32
.768
KH
zT
P32
9
TP
204
TP
81
TP
85
C60
12pF
C61
12pF
C76
0.1
uF
TP
117
TP
207
TP
20
TP
108
R81
10k
Q1
DT
C36
3EK
AB
E
C
R25
100k
R87
10k
Q7
KT
A15
04
R69
1k
TP
77
TP
79
IC6
SM
8578
BV
DA
TA
7
I/O-
1
CLK
6
CE
5X
T2
XT
-3
VD
D8
VS
S4
IC4
PS
T34
26
OU
T1
VC
C2
NC
3
GN
D4
TP
89
TP
203
TP
2
TP
206
BT
1H
L5
0-A
1 2
TP
83
R48
360
C65
F0
.1u
/16
V
TP
209
TP
80
TP
88
R68
1k
IC9
MB
M29
LV16
0BE
90T
N
A19
9
A18
16
A17
17
A16
48
A15
1
A14
2
A13
3
A12
4
A11
5
A10
6
A9
7
A8
8
A7
18
A6
19
A5
20
A4
21
A3
22
A2
23
A1
24
A0
25
DQ
1545
DQ
1443
DQ
1341
DQ
1239
DQ
1136
DQ
1034
DQ
932
DQ
830
DQ
744
DQ
642
DQ
540
DQ
438
DQ
335
DQ
233
DQ
131
DQ
029
CE
26
OE
28
WE
11
WP
14
RY
/BY
15
VP
P13
BY
TE
47
RP
12V
CC
37
GN
D27
GN
D46
NC
10
ZD
4U
DZ
2.0
B
R47
560
TP
78
4 4
3 3
2 2
1 1
DD
CC
BB
AA
FA
X M
AIN
PW
B (
SR
AM
& F
LA
SH
RO
M (
16M
)) (
Eu
rop
e, A
ust
ralia
, New
Zea
lan
d)
3/6
AR-FX13 CIRCUIT DIAGRAM 7 - 9
8 8
7 7
6 6
5 5
4 4
3 3
2 2
1 1
A10
A9
A8
A7
A6
A5
A4
A3
A2
A1
A0
D1
D3
D2
D4
D6
D7
D0
D5
A11
GN
D
GN
D
GN
D
GN
D
GN
D
+1.8
V
GN
D
MD
M3.
3V
+3.3
V
GN
D
MD
M3.
3V
+3.3
V
MD
M3.
3V
MD
M3.
3V
MD
M3.
3V
MD
M3.
3V
GN
D
+3.3
V
+3.3
V
GN
D
GN
D
GN
D
+3.3
VM
DM
3.3V
MD
M3.
3V
GN
D
+3.3
V
GN
D
+3.3
V
GN
D
A[2
1:0
]
CS
_ML
OE
L
MC
LO
CK
M_R
ES
ET
L
MD
M_
IRQ
CL
KIN
WE
L
AB
ITC
LKA
SP
CLK
AT
XD
AR
XD
AF
ER
ST
_L
D[7
:0]
CL
KIN
FL6FL10
FL7
R34
47k
FL4
R57
47K
FL3
TP
66
TP
63
C54
0.1
uF
TP
69
TP
58
C38
0.1
uF
C35
0.1
uF
C52
0.1
uF
C56
0.1
uF
TP
116
R66
47K
TP
39
C31
0.1
uF
C48
0.1
uF
TP
27
TP
61
R97
47K
R32
47K
R41
47K
TP
104
TP
242
TP
42
C29
A2
2u/
16V
R42
47K
TP
71
TP
212
C50
1u
F(1
608)
R64
47K
TP
28
R63
47K
TP
105
TP
101
TP
220
C39
A4
7u/
25V
C70
F0
.1u
/16
V
TP
115
C51
0.1
uF
R43
0R
TP
41
R67
47K
R20
043
3(N
.M.)
TP
60
TP
216
C32
1u
F(1
608)
TP
46
C47
100p
F
TP
72
C49
1u
F(1
608)
C16
410
pF
TP
70
TP
47
FL1
3Z
JSR
51
01
(220
00p)
R61
4.7
k
R26
75
TP
45
FB
2001
AC
H3
2(N
.M.)
TP
107
CN
1
A2
-6P
A-2
.54D
SA
(NM
)
1 2 3 4 5 6
R62
0R
C55
0.1
uF
TP
73
R58
33
TP
38
R98
47K
TP
59
TP
62
X1S
CO
10
-24
.576
000M
Hz-
3.3V
VD
D4
OU
T3
OE
1
GN
D2
R99
47K
C69
C4
70
/16V
R10
147
K
C33
0.1
uF
TP
102
R10
247
K
TP
44
R10
347
KR
104
47K
TP
51
TP
26
C30
0.1
uF
R59
33
C28
A2
2u/
16V
TP
75
TP
111
R60
47K
TP
214
C98
A4
7u/
25V
TP
65
TP
239
TP
109
C53
0.1
uF
TP
49
TP
211
TP
37
C34
1u
F(1
608)
R37
47K
TP
57
TP
64
R38
47K
TP
68
R28
47K
R35
47k
TP
48
C57
0.1
uF
R29
47K
R40
47k
R31
47K
R36
47k
BR
1M
NR
04
33
1 2 3 45678
TP
218
TP
50
TP
43R
330R
R13
100
TP
67
C36
0.1
uF
MN
1950
06E
IC5
T3I
RQ
1
DP
D00
2
VDD33
DP
D01
4
VSS5
DP
D02
6D
PD
037
DP
D04
8
VDD29
DP
D05
10
VSS11
DP
D06
12D
PD
0713
DP
D08
14
VDD315
DP
D09
16D
PD
1018
DP
D11
19D
PD
1220
VSS17
VDD221
DP
D13
22
VSS23
DP
D14
24D
PD
1525
ND
BG
RE
Q26
DB
GM
OD
27
TD
O28
TD
I29
VDD330
TC
K31
VSS32
TM
S33
AVDD34
AVSS35
PLL
ON
36
CX
IN39
VSS40
NR
ES
ET
41VDD2
42
CX
OU
T38
CN
T37
CLK
OU
T43
VDD344
SC
AN
NT
45
MIN
TE
ST
46
VSS47
INT
ES
T48
MO
DE
049
MO
DE
150
LON
51
VSS64
AT
XD
63
VDD262
AR
XD
61
AS
PC
LK60
AB
ITC
LK59
EY
ED
AT
58E
YE
CLK
57
VSS56
REGOUT53
VDDREG54 VDDREG55
REGOUT52
BR
XD
67
BS
PC
LK66
BB
ITC
LK65
ND
PC
S75
ND
PR
D74
ND
PW
R73
NLB
72N
UB
71
VSS70
BT
XD
69
VDD368
GP
IO0
76
GP
IO1
77
DP
A01
85
DP
A00
84
GP
IO5
83G
PIO
482
GP
IO3
81
VSS80
GP
IO2
79
VDD378
VSS89
DP
A03
88
DP
A02
87
VDD286
DP
A04
90D
PA
0591
VDD392
DP
A06
93D
PA
0794
DP
A08
95D
PA
0996
VDD297
DP
A10
98
VSS99
DP
A11
100
R30
100
TP
113
FL9
BR
7
MN
R0
4 3
3
1 2 3 45678
FL14FL8
TP
103
FL2
R12
100
FL5
DD
CC
BB
AA
FA
X M
AIN
PW
B (
MN
1950
06Q
) (E
uro
pe,
Au
stra
lia, N
ew Z
eala
nd
)4/
6
AR-FX13 CIRCUIT DIAGRAM 7 - 10
A2
A1
A0
A3
A5
A6
A7
A4
A8
A9
A12
A14
A16
A17
A13
D1
D3
D5
D7
A19
A20
D4
MC
U_
D0
MC
U_
D7
MC
U_
D6
MC
U_
D5
MC
U_
D3
MC
U_
D2
MC
U_
D1
PB
_AE
0LP
B_W
EL
PB
_OE
LD
7
D1
D4
D5 M
CU
_D
0
MC
U_
D2
MC
U_
INT
MC
U_
D7
MC
U_
CE
L
PB
_C
S1L
D6
D3
D2
D0 M
CU
_D
6M
CU
_D
5M
CU
_D
4M
CU
_D
3
MC
U_
D1
PB
_D
7P
B_
D6
PB
_D
5P
B_
D4
PB
_D
3P
B_
D2
PB
_D
1P
B_
D0
D6
A11
CS
_O
P1L
PB
_A1
A10
MC
U_
D4
PB
_A0
PB
_A6
PB
_A5
A15
CS
_O
P2L
PB
_A3
PB
_A4
A18
D2
A21
PB
_A2
D0
PB
_A7
PB
_D
7
A0
A1
A2
A3
A4
A5
A6
A7
A8
A9
A10
A11
A12
A13
A14
A15
A16
A17
A18
A19
A20
A21
PB
_A0
PB
_A1
PB
_A2
PB
_A3
PB
_A4
PB
_A5
PB
_A6
PB
_A7
PB
_D
0P
B_
D1
PB
_D
2P
B_
D3
PB
_D
4P
B_
D5
PB
_D
6
MC
U_
OE
L
WE
LO
EL
CS
_F
LC
S_M
LC
S_
S0L
F_
RY
BY
RE
SE
TL
M_R
ES
ET
L
WA
KE
_UP
GN
D
+3.3
V
GN
D
GN
D
GN
D
+3.3
V
GN
D
GN
D
GN
D GN
D
GN
D
+3.3
V
+3.3
V
+3.3
V
+3.3
V
GN
D
+3.3
V
GN
D
+3.3
V
GN
D
+3.3
V
GN
DG
ND
GN
D
+3.3
V
+3.3
V
+3.3
V
+3.3
V
+3.3
V
+3.3
V
+3.3
V
+3.3
V
+3.3
V
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
+3.3
V
GN
D
GN
D
A[2
1:0
]
PB
_A
[7:0
]
MC
U_
D[7
:0]
EX
HK
D_L
F_
RY
BY
VO
L_C
VO
L_B
VO
LC
NT
_A
BZ
OE
LW
EL
MC
U_
CE
LM
CU
_O
EL
RG
DT
-
CS
_ML
CID
_L
EX
HK
D_L
MC
U_
INT
CL
KIN
PB
_D
[7:0
]
L_B
T-
C_B
T
CS
_S
0L
RT
C_
CE
0H
VO
LC
NT
_B
WE
L
S
SP
MU
TE
RT
C_
CL
K
RE
SE
TL V
OL_
A
RT
C_
DA
TA
M_R
ES
ET
L
CS
_F
LC
ID_
L
D[7
:0]
HS
2_L
HS
1_L
F_W
P
PB
_C
S1L
PB
_AE
0LP
B_W
EL
PB
_OE
L
FL1
8(N
.M.)
TP
129
TP
233
IC7
P2
78
2A-0
8SR
Xin
1
Xou
t2
S1
3
LF4
VS
S5
FS
OU
T6
S0
7V
DD
8
TP
148
TP
264
TP
114
TP
130
FL1
2(N
.M.)
FL1
7(N
.M.)
uP
D6
59
44
GM
-P07
-JE
D-A
IC8
FA
X_D
AT
A_0
590
PB
_AD
DR
_03
13
PB
_DA
T_0
52
PB
_DA
T_0
34
PB
_DA
T_0
16
PB
_AD
DR
_05
11
PB
_AD
DR
_07
9
PB
_OE
_N23
PB
_AE
0_N
19
PB
_AD
DR
_01
15
VD
D1
PB
_DA
T_0
43
PB
_DA
T_0
25
PB
_DA
T_0
07
PB
_AD
DR
_06
10
PB
_AD
DR
_04
12
PB
_AD
DR
_02
14
PB
_AD
DR
_00
16
RE
SE
T_N
24
WA
KE
_UP
25
FA
X_D
AT
A_0
491
FA
X_D
AT
A_0
392
FA
X_D
AT
A_0
293
FA
X_D
AT
A_0
194
FA
X_D
AT
A_0
095
FA
X_D
AT
A_0
674
FA
XA
DD
_00
96
PB
_CE
2_N
17
PB
_CE
1_N
18
VD
D20
GN
D21
PB
_WR
_N22
TE
ST
MO
DE
08
FG
PI_
0726
FG
PI_
0627
FG
PI_
0528
FG
PI_
0429
FG
PI_
0330
FG
PI_
0231
FG
PI_
0132
FG
PI_
0033
FG
PIO
_07
34
FG
PIO
_06
35
FG
PIO
_05
36
FG
PIO
_04
37
TC
K38
TR
ST
39
GN
D42
TM
S43
NC
44
TD
I45
TD
O46
FG
PIO
_03
47
FG
PIO
_02
48
FG
PIO
_01
49
FG
PIO
_00
50
TE
LELI
N51
BE
EP
_O_V
152
BE
EP
_O_V
253
FG
PO
_00
72F
GP
O_0
171
FG
PO
_02
70F
GP
O_0
369
FG
PO
_04
68
FG
PO
_15
54
FG
PO
_14
55
FG
PO
_13
56
FG
PO
_12
57
GN
D58
FG
PO
_11
59
FG
PO
_10
60
FG
PO
_09
61
FG
PO
_08
62
GN
D63
VD
D64
FG
PO
_07
65
FG
PO
_06
66
FG
PO
_05
67
FA
X_D
AT
A_0
773
VD
D75
GN
D76
XIN
77
XO
UT
78
GN
D79
GN
D80
VD
D81
CLK
SE
L82
TM
D1
85T
MD
286
TE
ST
B87
TO
UT
88T
MD
0_O
UT
89
FA
XA
DD
_01
97F
AX
AD
D_0
298
FA
XA
DD
_03
99V
DD
100
GN
D10
1F
AX
AD
D_0
410
2F
AX
AD
D_0
510
3F
AX
AD
D_0
610
4F
AX
AD
D_0
710
5F
AX
AD
D_0
810
6F
AX
AD
D_0
910
7F
AX
AD
D_1
010
8F
AX
AD
D_1
110
9F
AX
AD
D_1
211
0F
AX
AD
D_1
311
1G
ND
112
FA
XA
DD
_14
113
FA
XA
DD
_15
114
FA
XA
DD
_16
115
FA
XA
DD
_17
116
FA
XA
DD
_18
117
FA
XA
DD
_19
118
FA
XA
DD
_20
119
FA
XA
DD
_21
123
VD
D12
0
GN
D12
1G
ND
122
FA
XW
R_N
124
FA
XO
E_N
125
FA
XC
S_N
_05
126
FA
XC
S_N
_04
127
FA
XC
S_N
_03
128
FA
XC
S_N
_02
129
FA
XC
S_N
_01
130
FA
XC
S_N
_00
131
RT
C_S
DA
TA
132
RT
C_S
CLK
133
RT
C_C
E13
4R
TC
_IO
N13
5U
AR
T_S
IN13
6U
AR
T_S
OU
T13
7U
AR
T_C
TS
138
UA
RT
_RT
S13
9F
AX
WR
IN_N
140
GN
D14
1V
DD
142
CP
U_D
T_0
714
3C
PU
_DT
_06
144
CP
U_D
T_0
514
5C
PU
_DT
_04
146
GN
D14
7C
PU
_DT
_03
148
CP
U_D
T_0
214
9C
PU
_DT
_01
150
CP
U_D
T_0
015
1G
ND
152
VD
D15
3C
PU
_RD
_N15
4C
PU
_CS
_N15
5C
PU
_IN
T_N
156
PB
_DA
T_0
715
7P
B_D
AT
_06
158
GN
D15
9G
ND
160
GN
D41
VD
D40
TM
D0
84
SY
SC
LK_I
N83
BR
16
MN
R0
4 4
7
1 2 3 45678
TP
219
BR
17
MN
R0
4 4
71 2 3 4
5678
+C
109
A4
7u/
25V
R14
010
K
BR
15
MN
R0
4 1
00
1 2 3 45678
TP
118
TP
179
TP
171
TP
260
R14
210
K
TP
258
C10
410
0pF
BR
2
MN
R0
4 (
N.M
.)
1 2 3 45678
TP
149
TP
232
R12
210
K
R12
975
BR
4
MN
R0
4 (
N.M
.)
1 2 3 45678
BR
12
MN
R0
4 1
001 2 3 4
5678T
P25
7
TP
190
TP
176
TP
294
FL1
1(N
.M.)
TP
168
TP
122
TP
150
TP
161
TP
163
JP2
T2B
-SQ
BR
13
MN
R0
4 1
00
1 2 3 45678
TP
231
TP
246
TP
99
R86
10K
TP
184
C72
270p
F
R83
10K
TP
226
TP
183
TP
259
TP
276
TP
156
R84
10K
TP
166
TP
123
+C
102
A4
7u/
25V
R82
10K
TP
230
BR
26
MN
R0
4 1
0K1 2 3 4
5678
R10
922
K
BR
14
MN
R0
4 1
00
1 2 3 45678
TP
188
TP
128
R14
522
KR
110
22K
R11
433
FL1
6(N
.M.)
R11
122
K
TP
223
TP
146
TP
274
TP
180
TP
173
C10
110
0pF
TP
140
TP
165
TP
121
BR
29
MN
R0
4 1
0K1 2 3 4
5678
TP
273
TP
256
TP
213
TP
185
FL1
5(N
.M.)
FL2
0(N
.M.)
TP
159
TP
191
TP
241
TP
236
BR
18
MN
R0
4 0
R1 2 3 4
5678
R12
410
K
TP
224
BR
19
MN
R0
4 0
R
1 2 3 45678
TP
243
TP
160
TP
127
R13
610
K
FL1
9(N
.M.)
BR
28
MN
R0
4 1
00
1 2 3 45678
TP
221
TP
181
TP
98
BR
6
MN
R0
4 1
0K
1 2 3 45678
R72
100
BR
5M
NR
04
0R
1 2 3 45678
R13
210
0
TP
157
TP
112
R74
100
TP
139
TP
192
R79
100
TP
217
TP
135
C64
18pF
TP
137
TP
279
TP
177
TP
261
TP
266
C62
18pF
R95
510
TP
235
TP
141
TP
90
R71
0R
TP
143
TP
158
TP
170
TP
194
R13
310
K
C59
18pF
TP
251
R12
610
K
TP
228
TP
124
R12
010
0
TP
244
TP
269
R12
110
0
R13
910
K
R13
110
0
BR
27
MN
R0
4 1
00
1 2 3 45678
TP
240
R14
622
K
R13
010
0
TP
222
R85
10K
FL2
1(N
.M.)
TP
97
TP
76R
7810
K
TP
238
TP
95
R77
10K
R12
50
R(N
.M.)
R75
10K
TP
290
C73
F0
.1u
/16
V
R80
10K
R12
71
0K
(N.M
.)
TP
186
TP
268
TP
331
TP
125
TP
147
R12
310
K
TP
145TP
155
TP
193
TP
134
C71
F0
.1u
/16
V
TP
234
TP
172
TP
267
TP
275
TP
281
TP
131
TP
153
TP
164
TP
126
TP
151
TP
110
TP
132
R10
710
0
TP
328
TP
270
R10
810
K
R90
22K
R89
22K
R10
610
K
TP
225
TP
133
TP
245
TP
119
BR
8M
NR
04
10K
1 2 3 45678
R13
810
K
R88
22K
R13
77
.5k
R14
410
K
BR
9
MN
R0
4 1
0K
1 2 3 45678
BR
21
MN
R0
4 2
2K
1 2 3 45678
R13
510
K
TP
227
TP
262
R70
10K
R14
310
K
R14
110
k
BR
10
MN
R0
4 1
0K
1 2 3 45678
BR
22
MN
R0
4 (
N.M
.)
1 2 3 45678
TP
138
TP
169
TP
278
TP
178
TP
252
TP
106
BR
30
MN
R0
4 1
0K1 2 3 4
5678
R76
10
K(N
.M.)
BR
11
MN
R0
4 1
0K
1 2 3 45678
BR
23
MN
R0
4 (
N.M
.)
1 2 3 45678
TP
136
BR
25
MN
R0
4 1
0K
1 2 3 45678
R13
410
K
TP
167
C10
7F
0.1
u/1
6V
TP
254
TP
237
C82
F0
.1u
/16
V
TP
152
TP
195
TP
215
C84
F0
.1u
/16
V
C10
5F
0.1
u/1
6V
C10
3F
0.1
u/1
6V
TP
327
TP
263
TP
87
C81
F0
.1u
/16
V
BR
3
MN
R0
4 0
R
1 2 3 45678
TP
142
TP
162
TP
187
C10
6F
0.1
u/1
6V
TP
144
TP
255
TP
280
C79
F0
.1u
/16
V
TP
249
TP
154
TP
250
TP
189
TP
96
TP
182
BR
24
MN
R0
4 2
2K
1 2 3 45678
D8
DA
20
4U
FL2
2(N
.M.)
C83
F0
.1u
/16
V
C80
F0
.1u
/16
V
TP
229
R20
010R
R12
80R
8 8
7 7
6 6
5 5
4 4
3 3
2 2
1 1
DD
CC
BB
AA
FA
X M
AIN
PW
B (
AS
IC_N
EW
_CIL
F)
(Eu
rop
e, A
ust
ralia
, New
Zea
lan
d)
5/6
AR-FX13 CIRCUIT DIAGRAM 7 - 11
#M
CU
_IN
T
#M
CU
_nO
E#
MC
U_
nC
S
#PB
_A5
#PB
_A0
#PB
_A1
#RE
SE
T-
#PB
_A2
#PB
_nW
E
#PB
_A6
#PB
_A3
#PB
_nO
E
#M
DM
_IR
Q
#PB
_nA
E0
#PB
_A7
#PB
_A4
#P
B_n
CS
1
#PB
_A4
#M
DM
_IR
Q
#M
CU
_IN
T
#PB
_A2
#P
B_D
0#
PB
_D2
#M
CU
_D
7
#M
CU
_D
1
IN2
4V
IN3
.3V
#PB
_nA
E0
#PB
_nO
E
#M
CU
_nO
E
#PB
_A0
#P
B_D
4#
PB
_D6
#M
CU
_D
5
#PB
_A6
#M
CU
_D
3
IN5
V
#RE
SE
T-
#PB
_nW
E#
PB
_nC
S1
#PB
_A1
#PB
_A3
#PB
_A5
#PB
_A7
#P
B_D
1#
PB
_D3
#P
B_D
5#
PB
_D7
#M
CU
_n
CS
#M
CU
_D
0#
MC
U_
D2
#M
CU
_D
4#
MC
U_
D6
#M
CU
_D
2
#M
CU
_D
7
#M
CU
_D
5#
MC
U_
D4
#M
CU
_D
3
#M
CU
_D
6
#M
CU
_D
0#
MC
U_
D1
PB
_D
2#
PB
_D3
#P
B_D
5
#P
B_D
2
#P
B_D
4
#P
B_D
1
#P
B_D
6P
B_
D7
PB
_D
1#
PB
_D0
#P
B_D
7
PB
_D
0
PB
_D
6P
B_
D5
PB
_D
4P
B_
D3
PB
_A7
PB
_A6
PB
_A5
PB
_A4
PB
_A3
PB
_A2
PB
_A1
PB
_A0 M
CU
_D
7M
CU
_D
6M
CU
_D
5M
CU
_D
4M
CU
_D
3M
CU
_D
2M
CU
_D
1M
CU
_D
0
GN
D
GN
D
GN
D
GN
D
+3.3
V+3
.3V
+3.3
V+3
.3V
+3.3
V+3
.3V
+3.3
V+3
.3V
+3.3
V+3
.3V
+3.3
V+3
.3V
+3.3
V+3
.3V
+3.3
V+3
.3V
+3.3
V+3
.3V
+3.3
V+3
.3V
+3.3
V+3
.3V
+3.3
V+3
.3V
+3.3
V+3
.3V
+3.3
V+3
.3V
+3.3
V+3
.3V
+3.3
V+3
.3V
GN
D
GN
D
IN3
.3V
IN5
V
GN
D
+3.3
V+5
V
GN
DG
ND
GN
DG
ND
+24V
IN2
4V
GN
D
GN
D
GN
D
GN
D
GN
D
GN
D
GN
DG
ND
GN
D
GN
D
GN
D
GN
DG
ND
GN
D
GN
DG
ND
GN
DG
ND
GN
D
GN
D
GN
D
GN
D
GN
D
GN
DG
ND
GN
D
GN
D
GN
D
GN
DG
ND
GN
D
GN
DG
ND
MC
U_
OE
LM
CU
_C
EL
MC
U_
INT
PB
_D
[7:0
]
PB
_A
[7:0
]
PB
_WE
L
PB
_C
S1L
MD
M_
IRQ
PB
_AE
0L
RE
SE
TL
PB
_OE
L
MC
U_
D[7
:0]
1
40
TP
295
C63
0.1
uF
C11433pF
TP
92
C12
90
.1u
F
C91
0.1
uF
C14633pF
TP
210
+ C90A47u/25V
R18
122 R
186
22
C67
0.1
uF
FB
7M
NR
04
331234
5 6 7 8
R15
10R
TP
288
TP
3.3V
LC
3S
-Y(N
.M.)
FL2
5Z
JSR
51
01
(220
00p)
R15
422R
117
22
C74
0.1
uF
C12510p/50V(N.M.)
C12610p/50V(N.M.)
C46
0.1
uF
C12810p/50V(N.M.)
R14
910
0
C12710p/50V(N.M.)
FB
6M
NR
04
100 1234
5 6 7 8
TP
299
R96
22
C15710p/50V(N.M.)
C16
20
.1u
F
C11
00
.1u
F
C15810p/50V(N.M.)
TP
54
TP
286
TP
344
R73
22
C16010p/50V(N.M.)
TP
200
R11
522 R
152
22
R14
722 R
187
22
R21
22
TP
283
TP
347
C25
0.1
uF
C78
0.1
uF
TP
94
R56
22
TP
349
C43
0.1
uF
R14
822R
113
22
TP
284
TP
346
R10
522
TP
55
C37
0.1
uF
C13
00
.1u
F
C95
0.1
uF
R51
22
TP
197
R17
822
C881000p(N.M.)
R11
822
R55
22
R39
22
FB
9M
NR
04
331234
5 6 7 8
TP
91
TP
335
C58
0.1
uF
R18
522
TP
5VL
C3
S-Y
(N.M
.)
R11
922
TP
298
R93
22
R15
322
R23
22
R11
622
TP
339
R22
22
C41
0.1
uF
C26
0.1
uF
TP
287
TP
285
TP
297
TP
348
R94
22
C14
10
.1u
F
C97
0.1
uF
R50
22
TP
120
R65
22
TP
201
C11
10
.1u
F
C86
0.1
uF
C27
0.1
uF
TP
24V
LC
3S
-Y(N
.M.)
TP
341
FB
3M
NR
04
331234
5 6 7 8
R11
20R
C66
0.1
uF
TP
343
C45
0.1
uF
TP
337
TP
52
TP
196
C9
0.1
uF
R9
22
+ C94A47u/25V
C15533pF
C14933pF
C15033pF
C15633pF
FB
2003
AC
H3
2(N
.M.)
C12410p/50V(N.M.)
C15233pF
TP
84
TP
282
C15333pF
TP
271
TP
289
TP
293
C15433pF
C15133pF
TP
1
FB
10M
NR
04
1001234
5 6 7 8
R15
00R
TP
345
FB
2004
AC
H3
2(N
.M.)
C93F0.1u/16V
TP
291
TP
296
FB
2002
AC
H3
2(N
.M.)
FB
4M
NR
04
33 1234
5 6 7 8
TP
100
FL2
4Z
JSR
51
01
(220
00p)
TP
202
TP
56
C116100pF
C11833pF
C11733pF
C8510p/50V
C12110p/50V
BR
20
MN
R0
4 0
R12345 6 7 8
C12033pF
C12210p/50V
C871000pF
C12310p/50V
C89F0.1u/16V
TP
326
TP
53
TP
277
TP
198
TP
342
TP
292
TP
340
FL2
3Z
JSR
51
01
(220
00p)
TP
74
+C
92A
47
u/35
V
TP
350
TP
35
C13
10
.1u
F
C96
0.1
uF
C14733pF
R27
22
C11233pF
FB
8M
NR
04
33 1234
5 6 7 8
C10
0.1
uF
C11333pF
D7
1S
S3
55
(N.M
.)
TP
199
C15
90
.1u
F
C10
00
.1u
F
FB
5M
NR
04
47 1234
5 6 7 8
C11533pF
TP
93
C14833pF
CN
20
01
B4
0B
-PN
DZ
S-1
12
34
56
78
910
1112
1314
1516
1718
192022242634 2830323640 38
3139 37 35 33 2729 25 23 21
TP
272
C16
10
.1u
F
C10
80
.1u
F
C11933pF
8 8
7 7
6 6
5 5
4 4
3 3
2 2
1 1
DD
CC
BB
AA
FA
X M
AIN
PW
B (
MC
U I/
F)
(Eu
rop
e, A
ust
ralia
, New
Zea
lan
d)
6/6
AR-FX13 CIRCUIT DIAGRAM 7 - 12
3. FAX OPERATIONA A
B B
C C
D D
E E
44
33
22
11
F-K
EY
IN6
F-K
EY
IN1
F-K
EY
SC
3
LED
_V3
F-K
EY
IN4
F-K
EY
IN7
F-K
EY
IN2
F-K
EY
IN3
DA
TA
1
LED
_V2
F-K
EY
SC
2F
-KE
YS
C1
F-K
EY
IN5
LED
_V1
CONTK
LSL
MEML
SFTL
SFTK
OT3K
MEMK
OT6K
OT8K
OT9K
RESOK
OT5K
BCK
S/SK
OT1K
OT7K
OT4K
CSK
R/PK
RMODK
OT2K
REPK
SPKK
2SIDEK
KE
Y40
6
SK
QN
AB
D01
0
KE
Y40
6
SK
QN
AB
D01
0
KE
Y42
1
SK
QN
AB
D01
0
KE
Y42
1
SK
QN
AB
D01
0
KE
Y41
6
SK
QN
AB
D01
0
KE
Y41
6
SK
QN
AB
D01
0
KE
Y42
0
SK
QN
AB
D01
0
KE
Y42
0
SK
QN
AB
D01
0
D40
2
1SS
133
D40
2
1SS
133
KE
Y40
7
SK
QN
AB
D01
0
KE
Y40
7
SK
QN
AB
D01
0
KE
Y41
3
SK
QN
AB
D01
0
KE
Y41
3
SK
QN
AB
D01
0
LTL-
1LH
G-0
02A
LED
402
LTL-
1LH
G-0
02A
LED
402
D40
3
1SS
133
D40
3
1SS
133
KE
Y40
8
SK
QN
AB
D01
0
KE
Y40
8
SK
QN
AB
D01
0
CN
401
BM
15B
-GH
S-T
BT
CN
401
BM
15B
-GH
S-T
BT
12345678910
11
12
13
14
15
LTL-
1LH
G-0
02A
LED
403
LTL-
1LH
G-0
02A
LED
403
KE
Y40
9
SK
QN
AB
D01
0
KE
Y40
9
SK
QN
AB
D01
0
LTL-
1LH
G-0
02A
LED
401
LTL-
1LH
G-0
02A
LED
401
KE
Y40
3
SK
QN
AB
D01
0
KE
Y40
3
SK
QN
AB
D01
0
KE
Y41
8
SK
QN
AB
D01
0
KE
Y41
8
SK
QN
AB
D01
0
KE
Y41
5
SK
QN
AB
D01
0
KE
Y41
5
SK
QN
AB
D01
0
KE
Y40
1
SK
QN
AB
D01
0
KE
Y40
1
SK
QN
AB
D01
0
KE
Y41
9
SK
QN
AB
D01
0
KE
Y41
9
SK
QN
AB
D01
0
KE
Y41
0
SK
QN
AB
D01
0
KE
Y41
0
SK
QN
AB
D01
0
TP
1T
P1
KE
Y41
7
SK
QN
AB
D01
0
KE
Y41
7
SK
QN
AB
D01
0
KE
Y40
2
SK
QN
AB
D01
0
KE
Y40
2
SK
QN
AB
D01
0
KE
Y40
4
SK
QN
AB
D01
0
KE
Y40
4
SK
QN
AB
D01
0
KE
Y41
2
SK
QN
AB
D01
0
KE
Y41
2
SK
QN
AB
D01
0
D40
1
1SS
133
D40
1
1SS
133
KE
Y40
5
SK
QN
AB
D01
0
KE
Y40
5
SK
QN
AB
D01
0
KE
Y41
4
SK
QN
AB
D01
0
KE
Y41
4
SK
QN
AB
D01
0
KE
Y41
1
SK
QN
AB
D01
0
KE
Y41
1
SK
QN
AB
D01
0
FAXOPERATIONPWB
1/1
AR-FX13 CIRCUIT DIAGRAM 7 - 13
LEAD-FREE SOLDER
The PWB’s of this model employs lead-free solder. The “LF” marks indicated on the PWB’s and the Service Manual mean “Lead-Free” solder.
The alphabet following the LF mark shows the kind of lead-free solder.
(1) NOTE FOR THE USE OF LEAD-FREE SOLDER THREAD
When repairing a lead-free solder PWB, use lead-free solder thread.
Never use conventional lead solder thread, which may cause a breakdown or an accident.
Since the melting point of lead-free solder thread is about 40°C higher than that of conventional lead solder thread, the use of the exclusive-usesoldering iron is recommendable.
(2) NOTE FOR SOLDERING WORK
Since the melting point of lead-free solder is about 220°C, which is about 40°C higher than that of conventional lead solder, and its soldering capacity isinferior to conventional one, it is apt to keep the soldering iron in contact with the PWB for longer time. This may cause land separation or may exceedthe heat-resistive temperature of components. Use enough care to separate the soldering iron from the PWB when completion of soldering isconfirmed.
Since lead-free solder includes a greater quantity of tin, the iron tip may corrode easily. Turn ON/OFF the soldering iron power frequently.
If different-kind solder remains on the soldering iron tip, it is melted together with lead-free solder. To avoid this, clean the soldering iron tip aftercompletion of soldering work.
If the soldering iron tip is discolored black during soldering work, clean and file the tip with steel wool or a fine filer.
Example:
5mm
Lead-Free
Solder compositioncode (Refer to thetable at the right.)
<Solder composition code of lead-free solder>
Solder composition
Sn-Ag-Cu
Sn-Ag-BiSn-Ag-Bi-Cu
Sn-Zn-Bi
Sn-In-Ag-Bi
Sn-Cu-Ni
Sn-Ag-Sb
Bi-Sn-Ag-PBi-Sn-Ag
a
b
z
i
n
s
p
Solder composition code
a
CAUTION FOR BATTERY REPLACEMENT
(Danish) ADVARSEL !Lithiumbatteri – Eksplosionsfare ved fejlagtig håndtering.
Udskiftning må kun ske med batteriaf samme fabrikat og type.
Levér det brugte batteri tilbage til leverandoren.
(English) Caution !Danger of explosion if battery is incorrectly replaced.
Replace only with the same or equivalent typerecommended by the manufacturer.
Dispose of used batteries according to manufacturer’s instructions.
(Finnish) VAROITUSParisto voi räjähtää, jos se on virheellisesti asennettu.
Vaihda paristo ainoastaan laitevalmistajan suosittelemaantyyppiin. Hävitä käytetty paristo valmistajan ohjeiden
mukaisesti.
(French) ATTENTIONIl y a danger d’explosion s’ il y a remplacement incorrect
de la batterie. Remplacer uniquement avec une batterie dumême type ou d’un type équivalent recommandé par
le constructeur.Mettre au rebut les batteries usagées conformément aux
instructions du fabricant.
(Swedish) VARNINGExplosionsfara vid felaktigt batteribyte.
Använd samma batterityp eller en ekvivalenttyp som rekommenderas av apparattillverkaren.
Kassera använt batteri enligt fabrikantensinstruktion.
(German) AchtungExplosionsgefahr bei Verwendung inkorrekter Batterien.
Als Ersatzbatterien dürfen nur Batterien vom gleichen Typ odervom Hersteller empfohlene Batterien verwendet werden.Entsorgung der gebrauchten Batterien nur nach den vom
Hersteller angegebenen Anweisungen.
CAUTION FOR BATTERY DISPOSAL
(For USA, CANADA)"BATTERY DISPOSAL"
THIS PRODUCT CONTAINS A LITHIUM PRIMARY(MANGANESS DIOXIDE) MEMORY BACK-UP BATTERY
THAT MUST BE DISPOSED OF PROPERLY. REMOVE THEBATTERY FROM THE PRODUCT AND CONTACT YOUR
LOCAL ENVIRONMENTAL AGENCIES FOR INFORMATIONON RECYCLING AND DISPOSAL OPTIONS.
"TRAITEMENT DES PILES USAGÉES"CE PRODUIT CONTIENT UNE PILE DE SAUVEGARDE DE
MÉMOIRE LITHIUM PRIMAIRE (DIOXYDE DE MANGANÈSE)QUI DOIT ÊTRE TRAITÉE CORRECTEMENT. ENLEVEZ LAPILE DU PRODUIT ET PRENEZ CONTACT AVEC VOTRE
AGENCE ENVIRONNEMENTALE LOCALE POUR DESINFORMATIONS SUR LES MÉTHODES DE RECYCLAGE ET
DE TRAITEMENT.
COPYRIGHT © 2008 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 otherwisewithout prior written permission of the publisher.
Trademark acknowledgements• Microsoft®, Windows®, Windows® 98, Windows® Me, Windows® 2000,
Windows® XP, Windows® Vista and Internet Explorer® are registered trademarks or trademarks of Microsoft Corporation in the U.S.A. and other countries.
• Adobe®, the Adobe® logo, Acrobat®, the Adobe® PDF logo, and ReaderTM are registered trademarks or trademarks of Adobe Systems Incorporated in the United States and other countries.
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• All other trademarks and copyrights are the property of their respective owners.
SHARP CORPORATIONDigital Document System GroupCS Promotion CenterYamatokoriyama, Nara 639-1186, Japan
2008 April Printed in Japan