1.0 FO155

User Manual: FO155

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FO-155A
FO-355A

SHARP

SERVICEMANUAL
No. OOZFO155A/SME

FACSIMILE
MODEL

FO-155
FO-355

The. FO-355A is a modelwith cutter, andthe
FO-I55A is a modelwithoutcutter.This manual explainsthe FO-355A.

CONTENTS
CHAPTER 1. GENERAL DESCRIPTION
[1]Specifications . . . . . . . . . . . . . . . . . . . . . 1-1

CHAPTER 5. CIRCUIT DESCRIPTION
[1] Circuitdescription . .................5-1

[2]
[3]
[4]
[5]

[2] Circuitdescriptionof controlPWB ......5-2
[3] Circuitdescriptionof TEULIU PWB ... .5-8
[4] Circuitdescriptionof
powerSupplyPWB . . . . . . . .....5-10
[5] Circuitdescriptionof CCD PWB . .....5-12

OperationPanel . ...................1-2
TransmittableDocuments ... .........1-3
Installation. . . . . . . . . . . . . . . . . . . . . . . . 1-4
Quickreferenceguide .. .............1-6

CHAPTER 2. ADJUSTMENTS
[1]Adjustments. . . . . . . . . . . . . . . . . . . . ...2-1

[2] Diagnosticsand servicesoft switch .....2-2
[3] Troubleshooting. . . ................2-14
[4] Errorcodetable . .. . . .. . . .. .. .. ....2-15
CHAPTER 3. MECHANISM BLOCKS
[1]Generaldescription . ................3-1

[2] Disassemblyand assembly
procedures . ...................3-4
CHAPTER 4. DIAGRAMS
[1] Blockdiagram . . . . . . . . . . . . . . . . . . . . .4-1

[2] Wiringdiagram . . . . . . . . . . . . . . . . *, --4-2
[3] Point-to-pointdiagram ... ............4-3

CHAPTER 6. CIRCUIT SCHEMATICS AND

PARTSLAYOUT
[1] Control PWBcircuit . ................6-1
[2] TEULIU PWBcircuit . ...............6-6
[3] PowersupplyPWBcircuit . ...........6-9
[4] CCD PWBcircuit ..........
.......6-11
[5] Operationpanel PWBcircuit . . . . .....6-12
CHAPTER7. OPERATIONFLOWCHART
[1] Protocol . . . . . . . . . . . . . . . . . . . . . . . . . .7-1
[2] Poweron sequence . . . . . . . . . . . . . . . . . 7-2
CHAPTER8. OTHERS
[1] Servicetools . . . . . . . . . . . . . . . . . . . . . . 8-1
[2] IC signalname.. . .. . . . . . . . . . . . . . . . . . 8-4
PARTSGUIDE

Parts markedwith “A” is importantfor maintainingthe safety of the set. Be sureto replacethese parts with specified
onesfor maintainingthe safetyand performanceof the set.
Thisdocumenthasbeenpublishedto be used

SHARPCORPORATION

fOra”er-SaIeSSeNiCeOnIY.

Thecontentsare subjectto changewithoutnotice.

FO-155A
FO-355A

CAUTIONFORBATTERYREPLACEMENT—
ADVARSEL!
(Danish)
Lithiumbatteri-Eksplosionsfare
vedfejlagtigh~ndtering,
Udskiftningmakunskemedbatteriaf sammefabrikatog type.
Leverdetbrugtebatteritilbagetil Ieverandoren.
Caution!
(English)
Dangerof explosionif batteryis incorrectlyreplaced.
Replaceonlywiththe sameor equivalenttype
recommended
by the equipmentmanufacturer.
Discardusedbatteriesaccordingto manufacturer’s
instructions.
(Finnish)
“ VAROITUS
Paristovoi r~j~ht~~,jos se on virheeliisestiasennettu.
Vaihdaparistoainoastaanlaitevalmistajansuosittelemaan
WpPiin. H~vit~k~ytettyparistovalmistajanohjeiden
mukaisesti.
AITENTION
(French)
II y a dangerd’explosions’il y a replacement incorrect
de la batterie.Remplaceruniquementavecunebatteriedu
m~metypeoud’untyperecommand6parIe constructeur.
Mettreau r6butIesbatteriesusageesconformementaux
instructionsdufabricant.
VARNING
Explosionsfare
vid felaktigtbatteribyte.
Anv~ndsammabatteritypellerenekvivaient
typ somrekommenderas
av apparattiilverkaren.
Kasseraanv~ntbatterienligtfabrikantens
instruction.

(Swedish)

(German)
Achtung
Explosionsgefahr
beiVerwendunginkorrekterBatterien.
Als ErsatzbatteriendOrfennur BatterienvomgleichenTypodervom
HerstellerempfohleneBattenenverwendetwerden.
Entsorgungder gebrauchtenBatteriennurnachdenvomHersteller
angegebenenAnweisungen.

—

——

FO-155A
FO-355A

—

CHAPTER 1. GENERALDESCRIPTION
[1]SPECIFICATIONS
Applicable telephone line:

Effective scanning width:,

Publicswitchedtelephonenetwork
IPBX

210 mm

Automatic document feeder: 20 sheets max.

Compatibility:

ITU-T(CCITT)G3 mode

Configuration:

Half-duplex,desktoptransceiver

Compression scheme:

ModifiedHuffmanand Sharpspecial
mode

Scanning method:

Flat-bed,solid-stateCCD

Resolution:

Horizontal:
8 dot/mm
Vertical:
Standard+.85lines/mm
Fine/Halftone-7.7iines/mm
Superfine-15.4 lines/mm

Halftone (gray scale):

64 levels

Contrast control:

Automatic/Darkselectable

Copy function:

Standard

Telephone function:

Standard
(cannot be usedif powerfails)

Noise emission:

Lessthan 70 dBA
(Measuredaccordingto DIN45635.)

Power requirements:

230-240 V AC, 50/60 Hz

Operating temperature:

5 to 35°C

Power consumption:

Stand-by:6 W

Dimensions:

Width:352 mm

Recording system:

Thermalrecording

Display:

7 x 5 dots,1 line by 16-digitdisplay

Automatic cutter:

Standard(to lengthof original)

Reception modes:

Auto/Manual

Modem speed:

9600 bps with automaticfallbackto
7200,4800,or 2400bps

Weight:

Transmission time*:

Approx.15seconds
(Sharpspecialmode)

Effective recording width:

210mm,max.

~ Basedon ITU-T(CCITT)Test Chart #l at standardresolutionin
Sharp special mode, excludingtime for protocol signals (i.e.,
ITU-TphaseC timeonly).

Input document size:

Automaticfeeding:
Width— 216mm
Length— 128to 297mm
Manualfeeding:
Width— 216mm
Length— 128to 1000mm

Maximum:120W
Depth:294 mm
Height:130mm
Approx.3.5kg

As a part of our policy of continuousimprovement,SHARPreservesthe right to make design and specificationchangesfor procduct
improvementwithoutpriornotice.Theperformancespecificationsfiguresindicatedarenominalvaluesof productionunits.Theremaybe some
deviationfromthesevaluesin individualunits.

1-1

FO-155A
FO-355A

[2] Operation Panel

FUNCTION key

Pressthis keyto select
variousspecialfunctions.
Liquid crystal display

This displaysvarious
messagesduringoperation
and programming.
SPEED DIAL key

\
Reception mode key

RESOLUTION key

Pressthis keyto adjustthe
resolutionand contrast
beforesendingor copying
a document.

Pressthis keyto select
the modeof reception.

VOLUME key

Pressthese keysto adjust
the volumeof the handset
whenthe handsetis lifted,the
volumeof the speakerwhen
the Speaker key has been

Pressthis key to dial a
2-digit. SpeedDial number.
REDIAL key

Pressthis keyto
automaticallyredialthe
last numberdialed.
-\\\

pressed, or the volume of the

ringerat all othertimes.

\

Numeric keys

Usethese keysto dial
numbers, and enter
numbers and letters

/

/

during number/name
storingprocedures.”

to dial a fax or voice
numberautomatically.
(Notethat you must
attachthe Rapidkey
labels.)

/
HOLD/SEARCH key

Pressthis key to search
for an automaticdialing
number,or, duringa
phoneconversation,
pressitto put the other
patty on hold.

,,,,,j::fthesekey,l

/
SPEAKER key

Pressthis key to dial a
numberwithoutpicking
up the handset.

1 –2

\

I

:;::ij:;:

START key

Pressthis key to send or
receivea document.

COPY key
Pressthis keyto make
a copy of a document.

FO-155A
FO-355A

[3] Transmittable Documents

5. Automatic Document Feeder Capacity

1. Document Sizes

Numberof pagesthat can be placedinto the feederat anytimeis as
follows:

Normalsize

width
length

-.

.
----n~

Normalsize:max.ADF20 sheets

148-216 mm
128-297 mm

Specialsize:singlesheetonly(manualfeed)

---”

NOTES: ● When you needto send or copy more pagesthan the
feeder limit, placeadditionalpagesin feederwhen last
pagein feederis beingscanned.
●

Placeadditionalpagescarefullyandgentlyin feeder.
If force is used,double-feedingor a documentjam may
result.

6:g-’’’--”-’’’hIrm
6. Readable Width& Length

148mm

H

216mm
[Normalsize]

216mm
[Specialsize]

Thereadablewidthandlengthof a documentare slightlysmallerthan
the actualdocumentsize.

Usedocumentcarriersheetfor smallerdocuments.

With specialsizes,only one sheetcan be fed into the machineat
a time. Insert next page into feeder as current page is being
scanned.

●

Notethatcharactersor graphicsoutsidethe effectivedocumentscanningrangewill notbe read.
●

Readable width

210 mm,max.

2. Paper Thickness& Weight

I
I

ADF 10 Thickness0.06-0.12mm
sheets Weight
52–104g/m2
Normalsize
ADF20 Thickness10.06-0.09mm
sheets Weight
52-74.3g/m2
Thickness0.12-0.20mm
Specialsize
Weight
52-157 glm2

t

I

,,

Readablewidth

3. Document Types
●

Normalpaper

●

Documentshandwrittenin pencil (No. 2 lead or softer), fountain
pen,ball-pointpen,or felt-tippedpencanbe transmitted.
Documentsof normalcontrastduplicatedby a copyingmachine
can alsobetransmitted.
●

Readable length

Thisis the lengthof thedocumentsentminus4 mmfrom the top and
bottomedges.

Diazocopy(blueprint)
Diazocopydocumentsof a normalcontrastmaybetransmitted.

●

Readablelength

Carboncopy
A carboncopymaybe transmittedif its contrastis normal.

t
4. Cautions on Transmitting Documents
●

Documentswritten in yellow, greenishyellow, or light blue ink
cannotbe transmitted.

●

Ink,glue,andcorrectingfluidon documentsmustbe dry beforethe
documentscanbetransmitted.

●

All clips, staplesand pins must be removedfrom documentsbefore transmission.

●

Patched(taped)documentsshouldbe copiedfirst on a copierand
thenthe copiesusedfor transmission.

●

All documentsshouldbe fannedbeforeinsertioninto the feederto
preventpossibledoublefeeds.

1-3

----------------{*

4mm

FO-155A
FO-355A

7. Use of Document Carrier Sheet

TELEPHONE JACK

A documentcarriersheetmustbeusedfor the followingdocuments.

A standardRJ-11C telephonejack mustbe locatednearthe machine.
Thisis thetelephonejackcommonlyusedin mosthomesandoffices.

●

Thosewithtears.

●

Thosesmallerthansize 148mm (W) x 128mm (L).

●

Carbon-backeddocuments

●

Makeprintstraight
acrosspaper
E.G.
Placethedocument
carrierinthedocument
feederwith the clearfilm
sidedown

Pluggingthe fax machineinto a jack whichis not an RJ-11C jack
mayresultin damageto the machineor yourtelephonesystem. If
you do not knowwhat kind of jack you have,or neededto have
oneinstalled,contactthetelephonecompany.

2. Assembly and connections
@ Connectthe handsetcordto the handsetandthe faxas shown.
●

The endsof the handsetcordare identical,so theywill go into
eithersocket.

Placethe handseton the handsetrest.
Directionof insertion NOTE: To transmita carbon-backeddocument,inserta whitesheet
of paperbetweenthe carbonbackof the documentand the
documentcarrier.
●

Thosecontainingan easilyseparablewritingsubstance(e.g.,tracingpaperwrittenon with a soft,heavyleadpencil).

NOTES:

●

When usingthe documentcarrier,carefullyreadthe instructionswrittenon the back.

●

If the documentcarrieris dirty,cleanit with a soft, moist
cloth,andthendry it beforeusingfor transmission.

●

Do not placemorethanonedocumentin the carrierat a
time.

@ Insertone end of the line cord into the socketon the backof the
machinemarkedTEL. LINE. Insertthe otherendinto a wall telephonesocket.
●

[4] Installation

socketis notavailablein somecountries.)

1. Site selection
Takethe followingpointsinto considerationwhenselectinga site for
this model.

ENVIRONMENT
●

The machinemustbe installedon a levelsurface.

●

Keepthe machineawayfrom air conditioners,heaters,directsunlight,anddust.

●

Provideeasyaccessto the front,back,andsidesof the machine.
In particular,keep the area in front of the machineclear, or the
originaldocumentmayjam as it comesout afterscanning.

●

Thetemperatureshouldbe between5° and35°C.

●

The humidityshouldbe between30% and 85% (withoutcondensation).

ELECTRICITY
230-240V,50/60Hz, grounded(3-prong)AC outletis required.

Caution!
●

●

Connectionto a powersourceotherthan that specifiedwill cause
damageto the equipmentandis notcoveredunderthewarranty,
If your area experiencesa high incidenceof lightningor power
surges,we recommendthat you install a surge protectorfor the
powerand telephonelines.Surgeprotectorscan be purchasedat
mosttelephonespecialtystores.

If the

Be sure to plug the line cord into the TEL. LINE socket. Do
not plug it into the TEL. SET socket. (Note: The TEL. SET

machineis movedfroma coldto a warmplace...

If the machineis movedfrom a cold to a warm place, it is possible
that the reading glass may fog up, preventingproper scanningof
documentsfor transmission.To removethe fog, turn on the power
andwait approximately2 hoursbeforeusingthe machine.

1 –4

@ Plug the power cord into a 220-240V,50/60Hz, groundedAC
outlet.
●

FO-155A
FO-355A
@ Unwrapthe rollof fax paperandinsertit in the compartment.
●

Caution: The mains outlet (socket-outlet)shall be installed

nearthe equipmentandshallbe easilyaccessible.
●

The fax does not have a poweron/off switch,so the poweris
turnedon andoff by simplypluggingin or unpluggingthe power
cord.

●

Makesure the hubs on eachside of the compartmentfit into
the endsof the roll. The hub on the left side is mountedon a
springto allowfor insertion.
Important: The roll mustbe placedso that the leadingedgeof
the paperfeedsfromoverthe top of the roll. (Thepaperis oniy
coated on one side for printing. If the roll is placed upside
down,the paperwill comeout blankafterprinting.)

YES

@ Attachthe originaldocumentsupportby insertingthe tabs intothe
holesat the top, rearof the fax.
●

Flipupthe wire extenderon the support.

‘

NO

Note: The paperroll providedis only a sampleroll which is approximately50 m long.
THERMAL PAPER (50m roll): FO-40PRW

@ Passthe leadingedgeof the paperoverthe rollerandthroughthe
outletin the papercompartmentcover.Removeanyslack.

I

@ Closethe coverandthen pressthe STARTkey. A shortlengthof
the fax paperwill feedout. Graspthe paperby the edgeand pull
upwardto tearit off.

4. Loading the recording paper
@ Graspthe finger hold on the front and centerof the papercompartmentcover,andpull upto openthe cover.
Removethe packingpaperfromthe papercompartment.
c Caution! If you are replacingthe paper, do not touch the metal

strip in the compartment.It may be hot if a documenthasjust
beenprinted.

1-5

FUNCTION key menu

[5] Quick reference guide
Use this guideas a convenientreminderfor operatinqthe machineafter vou
have read the
.
detailedinstructionsfor eachprocedurein the manual.Note:

~. -- ...----=
1

●

Stepswhichare optionalare enclosedin a dottedframe: I

L.------

It

The followingchart showsthe layout of the functionsand settingsaccessedby pressingthe
FUNCTION key. Firstpressthe FUNCTION
key, the appropriatenumerickey as shown,and ~~
&b
then “#” or” x “ untilthe desireditemappears.
Instructionsfor makingeachsettingappearin the display.If you haveany difficulty,refer to the ~~
detailedinstructionsonthe pageshownbelowthe setting.

.---i

J
I

Transmitting
Normal

Printingoutiists

documents

~

Wait for
receptiontone +

II

Q

+

Hangup

B

@+@@

a

@+@@

ForAutomatic
Diaiing

H

~+@+@

SettingUser
Switches

=

~+@or@

Settingthedate
andtime

Direct Keypad

Dialing
Rapid Key Dialing
Load
dwument +

Speed Dialing
Load
dmument
+

Rediaiing

Making

.-------i REWUTW~
!.--------1
-

I +

,------~ “~~:

PressRapid
kev

(pre~untildesired
item
app=rs)

---_---l
+

“6’”

+

StoringNumbers

o
D
START

EnterSpeedDial
number(press2 +
numerickeys)

START

,-------

Load
document ‘~ ---“=W;
_---l

+

+

‘b”

Waitfor
receptiontone ++

Lifthandset
press~\ EAKER

Key

Dialling

Lifthandset

+

~

press~\ EAKER
Dialing

Lifthandset
pres ~~EAKER

+

Dial(press
numerickeys) +

Lifthandsetif you
pressedSPEAKER

PressRapid
key

Lifthandsetif you
pressedSPEAKER

Lifthandset
press~~EAKER “$

Pressthiskeyto deletethe
iettermarkedby the cursor(if
the cursoris to the rightof the
lastietterentered,it will
backspaceand deletethe last
letter).
Shift
Pressthis keyonceto change
case(pressit againto change
back).

0+

~

(Press
untildesired
itemappears)

Ciear

F[rl

WEEDDM

EnterSpeed Dialnumber ~
(press2 numerickeys)

Redialing

~

or@

c1

voice calls

Normai Dialing

Speed

@+@or@

Enteringyour
nameandFAX
number

START

Rapid

H

Dialing

if YOU
ptessSPEAKER

Lift handset

Z
(Cursor ieft)
Pressthis keyto movethe
cursorto the left.

Lifthandsetif you
PressSPEAKER

Symbo!s
Presseitherkeyrepeatedlyuntill
the desiredsymbolappears
(seethe symboliistbelow).

~
(Cursor right)
Pressthis keyto movethe
cursorto the}ight.

FO-155A
FO-355A
(1) F1OO(ICP-SO.7)is installedin orderto protectIC’Sfrom an overcurrentgeneratedin the motor drive circuit. If F1OOis open, replaceit with a newone.

CHAPTER2. ADJUSTMENTS
[1] Adjustments

3. Settings
(1) Dialmodeselector

General

DIALmode(SoftSwitchNo.SWB4DATANo.3)

Since the followingadjustmentsand settingsare providedfor this
model,makeadjustmentsand/orsetupasnecessary.

(step 1) Select “OPTIONSEITING”,

I. Adjustments
Adjustmentsofoutputvoltage(FACTORYONLY)

DISPIAY: OPTIONSE~lNG]~l

1. Installthe powersupplyunitin the machine.
3. When the documentis loaded,power is supplied to the output
lines. Confirm that outputs are within the limits below.

‘Ey:

o@@@o@@

DISPLAY:DIALMODE

Outputvoltagesettings

!E3:i!%}:si;5:

formerly
isshown.

I=[l=TONE,

(step3) Select,using”1”or “2”.

(

II

KEY:

NLIUA

I

b

CNHJ

L

CNLED

❑

r

[
CNSP
CNLIU[

TEL/LIU

Output

CNCSW
D

~cNTH
00
CNMTCNCCD
NLIUB
CNP

I Voltaqelimits I

+12V I 11.5V-12.5V I
+5V
4.75V- 5.25V
VM (+24V) 23.3V- 24.7V

POWER
SUPPLY

KEY:

(step4) End, using the “STOP”key.
KEY:

\

L

Connector
No.
PinNo.

1
2
3
4
5
6
7
8

I
1

I

CNPW
MG
MG
VM

VM
DG
+5V
AG
+12V

2. IC protectors replacement
ICPS(IC Protectors)are installedto protectthe motor driver circuit
andthe plungerdrivecircuit, ICPSprotectvariousICSand electronic
circuitsfroman overcurrentcondition.
Thelocationof ICPSareshownbelow:

I

CNUUA
cNPti
o
~cm
0=
CNMTCNCCD

CNLIUB

o2

DISPLAY:\PULSESELECTEDJ

d

CONTROL

o1

DISPLAY:TONESELECTED

CNPN

[

CNPW

n
F1OO
2–1

@

STOP

r

Cursor
registering,
Wheninitially

(step 2)Select“DIALMODE”.

2. Setthe recordingpaperanddocument.

PRESSX OR# I

2.PULSE1

FO-155A
FO-355A

[2] Diagnostics and service soft switch
1. Operating procedure
(1) Enteringthe diagnosticmode
PressWI

+

❑ + ❑ + ❑ + ❑ + ❑ , andthe followingdisplaywill appear.

I ROMVer. FUBOx(FTSO X) ~After2 see:I DIAGMODEI
FUBOX (355A)
Identical
1
FTSO~ (155A)
.
Thenpressthe ml
keyandcountrynameselectedbycountryselectwill appear.Selectthe desireditemwiththe
or selectwiththe rapidkey.Enterthe modewiththe STARTkey.

❑ keyor the ❑ key

(Diagospecifications)
m]+@@@@@

+1 Ver.FUBO*orRSOxl+

DIAGMODE
v

101
Softswitch
setting
mode ISTART~

F

*

ROM
&RAM
check
modeISTARTI02
#

Entry
datareceive

Aging
mode

m

03

Panel
check
mode

m

04

Entqdatasend

Check
pattern
mode

m

05

Autofeeder
mode

p’odu~~’ckmode
Signal
sendmode

m

06

Allblack
copy

m

Memory
clearmode

m

07
II
08

Copy
testmode

[:

CCDadjust
mode

If the dial mode cannot be set, repeat the dial mode operation, performing the followingoperation.
After the power is turned on and “WAIT A MOMENT”is indicated,
pressthe STOPkey.
START
KEY

STOP
KEY
@

+ “PowerON” +

~
u

“PowerON’ keepthe STOPkeypressed
while“WAIT A ..... is indicated.
Pressthe STARTkeywhen“MEMORYCLEAR?”appears.

1
Memoryclear
(Work+ Backup)

2. Diagnostic items
ITEM
No.

RAPID
key

1

01

2

02

ROM& RAMcheckmode ChecksprogramROM(128KByte)andworkRAM(32KByte).

3

03

Agingmode

Printsthe checkpatternat the speedof 1 sheet/5minutes.

Function

Contents

Softswitchsettingmode DisplaysoftSWcontents,andchangesthe setting.

4

04

Panelcheckmode

Displaysthe nameof keydepressedonthe operationpanel.

5

05

Checkpatternmode

Prints2 sheetsof checkpattern.

6

06

Productcheckmode

ExecutesNo.4, No.2 andNo.5 continuously.

7

07

Signalsendmode

Sendsmodemsignalssequentially.

8

08

Memoryclearmode

Clearsthe backupmemorycontentsto resetit to the initialstate.

9

09

CCDadjustmode

Usedfor CCDadjustment.Executescopyoperation.Whenthe STOPkeyis pressed, the unit goes
into the wait state. Whenthe STARTkeyis pressedagain,the unitstartsoperationagain.

10

10

Copytest mode

Checksthe copyoperation.

11

11

All blackcopy

Performsall-dotprinting(2m).(Checkthermalheadoperation)

12

12

Autofeedermode

Feedstheoriginaldocuments.

13

13

Entrydatasend

Sendstelephonelist, owntelephonenumberlist andoptionset list contentsin DTMFsignal.

14

14

Entrydatareceive

Receivestelephonelist, owntelephonenumberlist andoptionset list contents.

2-2

FO-155A
FO-355A

3. Diagnostic items description

3.6. Product check mode

3.1. Soft switch settingmode

This mode is usedto performNo. 4 (panelcheck), No. 2 (ROM &
RAMcheck)andNo.5 (checkpattern)continuously.

Usedto changethe softswitchsettings.

3.7. Signal send mode

Thesoft switchwhichis storedinternallyis set by usingthe keys.

Thismodeis usedto sendvatioussignalsto the line.

Theavailablesoftswitchesare SW-Al to SW-K1.

FAXsignalsare sentin the levelset bythe soft switch.

Thecontentof softswitchesis shownin page2-5to 2-13.

[1] Nosignal(CMLsignalturnedon)

Thecontentsaresetto factorydefaultsettings.

[2] 9600bps

3.2. ROM & RAM check mode

[3] 7200bps

ROMexecutesthe sumcheck,and RAMexecutesthe matchingtest.
The result will be notified with the numberof short soundsof the
buzzeras wellas by printingthe ROM& RAMchecklist.

[4] 4800bps
[5] 2400bps
[6] 300bps(FLAG)

Numberof shortsoundsof buzzer O+ Noerror

[7] 21OOHZ
(CED)

1 + ROMerror

[8] 11OOHZ
(CNG)

2 + RAMerror(32Kbyte)

[9] END

3.3. Aging mode

The signalcan be checkedby pluggingthe handsetinto the TEL line
connectoron the rearof the machine.

If any documentis first present,copyingwill be executedsheet by
sheet. If no documentis present,the check patternwill be printed
sheetby sheet.Thisoperationwill be executedat a rateof onesheet
per5minutes,andwill be endedat a totalof 10sheets.

3.8. Memory clear mode
This mode is used to clear the backup memory and reset to the
defaultsettings.

3.4. Panel check mode
In this mode,whethereachkey operatesproperlyor not is checked.
Pressa keyon the operationpanel,andthe correspondingkeywill be
displayed.In this mode,pressthe STOPkey,and the list of the keys
pressedin thismodewill be printedwiththe modeended.

3.9. CCD adjust mode

Whetherall keysare pressedin this modeor not will bejudgedwhen
the list is printed,andthe resultwill be printed.

This mode is used to adjust the optical system. Since the copy is
function performed,set the original. To abort the copy operation,
pressthe STOPkey.To restartpressthe STARTkey.Whenthe copy
is completedor when the STOP key is pressedin the interruption
state,exitfromthismodeoccurs.

3.5. Check pattern mode

3.10. Copy test mode

This modeis usedto checkthe statusof print head.Two sheetsof
checkpatternare printed.The followinginformationof check pattern
is printed.

Thismodeis usedto checkthe copyoperationandpicturequality.

@ Verticalstripes(altematewhiteand
blacklines)Approx.35mm
@ Fullblack

Approx.70 mm

@ Fullwhite

Approx.35 mm

Before usingthis mode,set the original. If there is no original,the
recordingpaperis cut.
The first pageis copiedin conditionof FINE/AUTOthe secondand
the subsequentpagesarecopiedin conditionof H-TONE/DARK.

3.11. All back copy
Thismodeis usedto checkthe printhead.
All-dotprint is executedunconditionallyuntil 2(m) is obtainedexcept
when any trouble occurs (recordingpaper-has run out, recording
paperjam, thermalprotect).

3.12. Auto feeder mode
In this mode, a documentis insertedand dischargedto check the
autofeedfunction.
After this mode is started, set a document, and the document feed
will beautomaticallytested.

3.13. Entry data send
This modeis usedto sendthe registereddatato the remotemachine
and makethe remotemachinecopythe registeredinformation.When
this modeis usedfor sending,the remotemachinemustbe set to the
entrydatareceivemode(Rapidkey 12).
Theinformationto besentis as follows.
1.Informationwhichcan be registeredin the “FUNC”+ “3’ entry
mode.
(Exceptingdataandtime)
2. Softswitchdata

2–3

FO-155A
FO-355A

3.14. Entry data receive
This mode is usedto receivethe registereddata whichis sent from
the remotemachineandto registerthe receiveddata in the machine.
When this mode is used to receivethe information,the remotemachinemustbe set to the entrydatasendmode(Rapidkey 11).
After completionof reception,the telephonenumberlist, own telephonenumberlist, optionset list, andsoftswitchlist areprinted.
Caution

Unless the time mode is set, the list print is not performed,“NO
DATA”appearson the display.

4. How to make soft switch setting
To enter the soft switch mode,makethe followingkeyentriesin
sequence.

I

Press IFUNCTION]

mTA

❑ ❑ ❑ ❑ ❑ -1

1 2 345

No.

678

S F T SW-Al = “o o 0 0 0 0 0 0 I
S FT

PresslFUNCTIONlkev.

SW-Al = 1:o 0 00 ()()()
I4
1

IS FT SW-Al= 1 0:0 o 0

I

1

0 0 ()[

❑ key.
Press❑ key.
Press

4
1

Bitl -8 are set.
S F T SW-Al = 1 0 0 0 0 0 0 01 -

1

Press1~1

key duringsetting.

S F T SW-A2 = ‘o o 0 0 0 0 0 0 [ 4
I S FT

~

SW-K1 =ooooooo#

Soft SW-A2- SW-K1are set.
To finishthe settingshalfwaybetween
SW-Al and SW-KI, pressthe STOP
key.In this case,the settingbeingdone
to the SW No. on displaywill be nullified
whilesettingsdoneto the preceding
SW Nos.remainin effect.
. When the COPYkeyis pressed,the
contentsof softswitchesare printed.
●

‘1
t

I

The soft switchmodeis terminated.

2-4

FO-155A
FO-355A

5.Soft switch description
●

Soft switch

Sw
NO.

DATA
NO.

Sw
I
Al

1

Digitallineequalizationsetting

2
3
4

Forced4800bpsreception
Reserved
Modemspeed

5

I
A2

Sw
I
A3

I
A4

Yes
Yes

No.4
No.5
Nolimit

o
o

7200BPS

4800BPS

2400BPS

1

1

0

1

0
1

0
0

9600BPS

Copy/Send:1m
Receive:1.5m
Transmitted
NSF:Once
DIS:Twice
No

1
0
o

7
8

CSItransmission
DISreceiveacknowledgement
duringG3
transmission
Nonmodulatedcarrierfor V29
transmissionmode
EOLdetecttimer
Protocolmonitor
Linemonitor
Si~naltransmissionlevel

Notransmitted
Twice

Sender’sinformationtransmit
H2mode
Communicationerrortreatmentin RTN
sendingmode(reception)
CNGtransmission
Autogaincontrol(MODEM)
Equalizerfreezecontrol(MODEM)
Equalizerfreezecontrol7200bpsonly
Errorcriterion
Disconnectthe linewhenDISis received
in RXmode.
FooterPrint
EndBuzzer
Antijunk faxcheck
CEDtonesignalinterval

No
No
Nocommunicationerror

Yes
Yes
Communi~tionerror

o
o
o

No
Enable
On
No

Yes
Disable

o
1

2
3
4
5
6
7
8
1
2
3
4
5
6
7
8

2
3
5

Yes

o
o
o
o

13sec
No
No

25sec
Yes
Yes
Binaryinput
No.=

o
o
1
0
1
1

8421
1234
1 0 1 1 (-lldBm)

off

o

Yes

10-2070

5-1070

o
0

No

Yes

1

Yes
Yes
Yes

No
No
No

o
1

o

75ms

500ms

750ms

1000ms

0
0

0
1

1
0

1
1

1

No.5

6

No. 6
7
8

1

I
B1

Sw
I
B2

Resewed
Resewed
Recallinterval

8421
1234

4
5
6
7
8
1
2

3
4
5
6
7
8

Recalltimes

Binaryinput
No.=

1

0

1010

1

(10x 30 sec= 5 rein)

o
0
0

8421
1234
0 0

Dialpausing(sec/pause)
Resewed
Resewed
Resewed
Reserved
Resewed
Reserved
Reserved

0
0
o

o
Binaryinput
No.=

4sec

1 0 (Twice)
2sec

2-5

Remarks

1

. No
No

Lengthlimitationofcopy/send/receive

1

Sw “4

Initial
setting

0

1

6

1

Sw

SwitchSettingandFunction

ITEM

1

0
o
o
o
o
o
o
o
o

OPTION

FO-155A
-A
... &
1?U-6DDA
Sw
NO.

DATA
NO.
1

Reserved

2

Reserved
Reserved
Reserved
Reserved
Reserved

3
4
5
6
7
8
1

Sw
I
B3

2
Sw
I
B4

3
4
.5
6
7

*.

1
2
Sw
I
B5

3
4
5
6
7
8
1

cl

Sw
I
D1

3

Resewed
Autodial modedelaytimerof beforeline
connect
Autodial modedelaytimerof afterline
connect
Dialmode
Pulse+Tonechangefunctionby~key
Dialpulsemake/breakratio(%)
Reserved
Reserved
Reserved
DTM~vel (low)

DTMFlevel(High)

5
6
7
8
1
2

Sw
i
D2

3
4
5
6
7
8

o
o

o
o

o
3 sec

Osec

o
1

3.6sec

3.0sec

o

Tone
Enable
40/60

Pulse
Disable
33167

1
1
0

8421
1234
1 0 0

Binatyinput
No.=

1 (-9dBm)

Light

Dark

0

1

0

1

0

0
Factory
Setting

0
Light

1
Dati

1

0

0
0

1
0

0
1

Factory
Setting

No.3
No.4
Fine

o
1
0
o
1
1
0
o
0

8421
1234
1 0 0 0 (-8dBm)

Binatyinput
No.=

Readingslice(Halftone)

Automaticswitchingmanualto auto
receivemode
Reserved
Reserved
Reserved
Cl off detectiontimer
Reserved
Reserved
Reserved
Distinctiveringingdetection
Reserved
Reserved
Reserved

OPTION

o
o

No. 1
No.2

Linedensityselection
Reserved
Reserved
Reserved
Numberof ringsfor autoreceive

Remarks

o
o

Readingslice(Binary)

4
5
6
7
8
1
2
3
d

0

1

Reserved

2
Sw
I

Initial
setting

SwitchSettingandFunction

ITEM

Standard

Da*er in Dark

Dati(erin Dark
1
1

0
0

o

OPTION

o

o
Binaryinput
No.=

Receptionafter
4 rings

8421
1234
O 0 1 0 (2 times)
Noreception

o
0

0
1
o
o

OPTION

o

350 ms

700 ms

Yes

No

2–6

o
o
o
o
o
o
o
o
0
o

OPTION

FO-155A
WA-9KK
A
L W-uuun

Sw
NO.

DATA
NO.
1
2

SwitchSettingandFunction
1
0
Switchto fax
Tel/Faxautoswitch

ITEM
Automaticswitchingmode
Pseudoringingtimeat the phone/fax
automaticswitchingmode

15s

3
Sw
I
El

4
5
6
7
8
1

Numberof CNGsignaldetectionatthe
phone/faxautomaticswitchingmode
CNGdetecttimeat TEUFAXmode
Reserved
Postanswertonetransmitin TEUFAX
mode
Reserved
Pseudoringersoundoutputlevelto the
line

Sw
I
F1

3
4
5
6
7
8
1
2

Sw
I
F2

Sw
I
G1

Sw
I
G2

Protectionof remotereception(5XX)
detect
RemotereceptionwithGEtelephone
Remoteoperationcodefiguresby
externaltel (O-9)

CNGdetectionin STAND-BYmode
Numberof CNGdetect
(AMmode)

3
4
5
6
7
8
1
2
3
4
5
6
7
8
1
2
3
4
5
6
7
8

Numberof CNGdetect(STAND-BY
mode)
Reserved
Reserved
Reserved
Quietdetecttime

Quietdetectstarttiming

OPTION

120s

0
1

1

0

1

0
1

0

1

0

0

Twice

Once

3s

5s

o
o

No

Yes

o

OPTlON

o
-lOdBm

-15dBm

-20dBm

-25dBm

0
0

1

0

0
1

1
1

50ms

80ms

IOOms

120ms

0
0

0
1

1
o

1
1

Reserved
Reserved
Resewed
Reserved
Resewed
Reserved
DTMFdetectiontime

2

o

60s

No.2

No.2
3
4
5
6
7
8
1

Remaks

30s

No.3

No. 1

2
Sw
{
E2

Initial
setting

No.1
No.2
Yes

0
0
o
o
o
o
o
o

0
0
o

No
Notcompatible

Compatible
Binaryinput
No.=

8421
1234
0 1 0

Yes

No.2
No.3
No.4
No.5

1
0
1
o
1
o

1 (5XX)

lpulse

No
2pulses

3pulses

4pulses

0
0
0
0

0
1
0
1

1
0
1
0

1
1
1
1

—
Binaryinput
No.=

8421
1234
0 1 0 0 (4sec)

Binaryinput
No.=

8421
1234
0 1 0

Reserved
Reserved
Reserved
Reserved
Resewed
Reserved
Reserved
Reserved

l(5sec)

0
1
0
1
o
o
o
0
1
o
0
0
1
o
1
o
o
o
o
o
o
o
o

2–7

OPTION

OPTION

OPTION

FO-155A
li’fi-35!iA
.- ---.-

Sw
NO.

DATA
NO.
1
2
3

Sw
I
G3

4
5

Reserved
TADconnect
Sectiontimeof quietdetection

Sw
I
H1

3
4
5
6
7
8
1

No.5
Reserved
Reserved
BusytonedetectionON/OFFtime
(Lowerlimit)
Busytonedetection
ON/OFFtime
(Upperlimit)
Reserved
Busytonecontinuoussounddetecttime
Reserved
Busytonedetectcontinuationsound
deter
Reserved
Busytonedetectintermittentsound
detect
Busytonedetectionpulsenumber

Sw
I
11

Sw
I
12

Sw
I
13

3

3
4
5
6
7
8
1
2
3
4
5
6
7
8
1
2
3
4
5
6
7
8

Faxswitching
whenA.M.full

40sec

50sec

60sec

0
0

0
1

1
0

1
1

o

650ms

900 ms

o

5sec

10sec

No

Yes

o
1
o
o

No

Yes

o
o

2pulses

4pulses

6pulses

lOpulses

0
0

0
1

1
0

1
1

No

Yes

o

o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o
o

Resewed

2-8

OPTION

0
1
o
o
o
o
o
o
o
o
o
o

Reserved
Reserved
Reserved
Reserved
Resewed
Reserved
Reserved
Reserved
Reserved
Reserved
Resewed
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Resewed
Reserved
Resetved
Reserved
Reserved

Rematis

0
1
o
o

150ms

No.2
4
5
6
7
8
1
2

30sec

350ms

No.1

2
Sw
I
H2

o
o
o
o

No

Yes

No.6

2

0

1

Reserved
Reserved

6
7
8
1

Initial
setting

SwitchSettingandFunction

ITEM

OPTION

FO-155A
nn-a~~
A
L U-uuun

Sw
NO.

DATA
NO.
1

ITEM
Transactionrepod
(Communication
resultreport)

2
Sw
I
JI

3
4
5
6
7

Sender’sphonenumbersetting

Sw
I
K1

3
4
5
6
7
8
1
2
3
4
5
6
7
8

0
1

1
1

No.1
No.2
Cannotchange

1
0
Changeallowed

Remarks

0
0
o

OPTION

o
o

Speakervolume

Pollingfunction(FO-355Aonly)
Reserved
Reserved
Reserved
Reserved
Reserved
EnteringdiagmodebypressingSPEED
key
Reserved
Resewed
Reserved
Reserved
Resewed
Reserved
Reserved

0
0

Initial
setting

o

No.7
No.8

2
Sw
I
J2

Noprint

Reserved
1 Reserved
Reserved
Ringervolume

8
1

SwitchSettingandFunction
0
1
Erroronly
Sendonly
Always

No.1
No.2
Yes

off

Low

Middle

High

0
0
Low

0
1
Low

1
0
Middle

1
1
High

1
0

0
0

0
1

1
0

1
1

1
0
o
o
o
o
o
o
o

No

Yes

No

o
o
o
o
o
o
o

.

2–9

OPTION

OPTION
OPTION

●

FO-155A
FO-355A
Soft switchfunctiondescription

SW-A2 No. 4 Line monitor

Normallyset to “O”. If set to “l”, the transmissionspeed and the
receptionlevelaredisplayedontheLCD. Usedfor linetests.

SW-Al No. 1 Digital line equalization setting

Lineequalizationis to be set accordingto the linecharacteristics.
Settingshouldbe madeaccordingto distancebetweenthe telephone
andthe telephonecompanycentralswitchingstation.

SW-A2No. 5- No. 8 Signaltransmission level
Usedto controlthe signaltransmissionlevel in the rangeof-lbB to
-15dB.

SW-Al No. 2 Forced 4800 BPS reception

Thefactorysettingis at -l OdB(MODEM
output).

Whenline conditionswarrantthat receptionstake placeat 4800BPS
repeatedly. It may improvethe successof receptionsby settingat
4800 BPS. This improvethe receiving document quality and reduces
handshake time due to fallback during training.
SW-Al No. 3 Reserved

Set to ‘O”.
SW-Al No. 4, No. 5 Modem speed
Used to set determine the initial modem speed. The default is

9600BPS.
It may be necessaryto programit to a slowerspeedwhenfrequent
line fallback is encountered,in order to save the time requiredfor
fallbackprocedure.
SW-Al No. 6 Maximum70py, transmit, receive page length

Usedto setthe maximumpagelength.
To avoid possiblepaperjam, the pagelengthis normallylimitedto 1
meterfor copyor transmit,and 1.5metersfor receive.
It is possibleto set it to “No limit”to transmita Iingdocument,suchas
a computerprintform, etc. (In thiscase,the receivermustalsobe set
to no limit.)
SW-Al No. 7 CSI transmission
(CSI TRANSMISSION)is a switchto set whetherthe machinesends

or does not sendthe signal(CSI signal)informingits own telephone
No. to the remotefax. Machinewheninformationis received.When
“nonsending”is set, the telephoneNo. is not outputon the remote
transmittingmachineif the remotetransmittingmachinehasthe function to displayor printthe telephoneNo. of receiving machine, using
this CSIsignal.
SW-Al No. 8 DIS receive acknowledgment during G3 transmission
Used to make a choiceof whetherreceptionof DIS(NSF)is acknowl-

edged after receivingtwo DISS(NSFS)or receivingone DIS (two
NSFS).

SW-A3No. 1 Sender’sinformation transmit
(SENDER’SINFORMATIONTRANSMISSION)
is a switchto set the
functionto print the contentof HEADERPRINT describedin the
passcodelist at the front end of receiver’soriginalwhen original is
sentto the remotemachine.
If this switchis set to “NO”,the HEADERPRINTis not outputat the
receivingmachine.
SW-A3 No. 2 H2 mode (SHARP special mode)

Usedto determinereceptionof H2mode(15sectransmissionmode).
When set to OFF, H2 modereceptionis inhibitedeven thoughthe
transmittingmachinehasH2modefunction.
SW-A3No. 3 Communicationerror treatment (reception) in RTN
sending
Usedto determinecommunicationerrortreatmentwhen RTNis sent
by occurenceof a receivedimageerror in G3 reception. Whenit is
setto”1”, communicationerrorisjudgedas no error.
SW-A3 No. 4 CNG transmission

Whenset to “O”,this modelallowsCNGtransmissionby pressingthe
Start key in the key paddialingmode. Whenset to “1”, CNGtransmissionin the key pad dialingmodecannotbe performed. In either
case,CNGtransmissioncanbe performedin theautodial mode.
SW-A3 No. 5 Auto gain control(MODEM)

When this mode is enabled,if the receptionsignal level is under
31dBm.The modemitselfcontrolsthesignalgainautomatically.
SW-A3 No. 6 Equalization freezecontrol

Thisswitchis usedto performreceptionoperationby fixingthe equalizercontrolof modemfor the linewhichis alwaysin unfavorablestate
andpicturecannotbe received.
M Usually, the control is executed according to the state of linewhere

the equalizersettingis changedalways.

It may be usefulfor overseascommunicationto avoid an echosuppressionproblem,if set to 1.

SW-A3No.7 Equalizationfreeze7200BPSonly
Setting which specifies SW-A3 No.6 control only in condition of
7200BPSmodemspeed.

SW-A2 No. 1 Non-modulated carrier detection for V29modem

SW-A3 No. 8 Error criterion

Though transmissionof a non-modulatedcarrier is not requiredfor
transmissionby the V29modemaccordingto the CCllT.

Usedto select error criterionfor sendingback RTN when receiving
imagedata.

Recommendation,
it may be permittedto a sendnon-modulatedcarrier
beforethe imagesignalto avoidandechosuppressionproblem.

SW-A4 No. 1 Disconnect the line when DIS is received in RX
mode

It may be usefulfor overseascommunicationto avoid an echo suppression problem, if set to 1.
SW-A2No. 2 EOL (End Of Line) detect timer
Usedto makea choiceof whetherto usethe 25-secondor 13-second
timerfor detectionof EOL.
This is effective to override communication failures with some facsimile modelsthat havelongerEOLdetection.

Bitl=O:WhenDISsignalis receivedduringRX mode,disconnectthe
lineimmediately.
Bitl=l: When DIS signalis receivedduringRX mode,wait the next
signal.
SW-A4 No. 2 Footer print

Whenset to “1”, the dateof reception,the sendermachineNo., and
the pageNo,are automaticallyrecordedat the endof reception.
SW-A4No. 3 End buzzer
Settingthis bit to O will disablethe end buzzer(includingthe error
buzzer/on-hookbuzzer).

SW-A2 No. 3 Protocol monitor

Normallyset to “O”. If set to “1”, communicationcan-bechecked,in
caseof troubles,withoutusing a G3testeror othertools.

SW-A4 No. 4 Anti junk fax check
Whenusethe Antijunkfaxfunction,setto”1”.

When communicationFSK data transmission or reception is made,
the data is taken into the buffer. When communication is finished, the
data is analized and printed out. When data is received with the line
monitor (SW-A2 No.4) set to”1” the reception level is also printed out.

2 –10

FO-155A
FO-355A
SW-A4 No. 5, No. 6 CED tone signal interval

SW-Cl No. 3, No. 4 Reading slice(half tone)

For internationalcommunication,the 21OOHZ
CED tone may act as
an echosuppressionswitch,causinga communication
problem.
Thoughthis softswitchis normallysetto “O’,it shouldbe setto”1” so
as to changethe timer betweenthe CEDtone and DIS signalfrom
75msto 500msto eliminatethe communicationproblemcausedby
echo.
RX
TX
“O”set:T=75ms
CED
“1”set:T=500ms
T

Usedto determinethe set valueof readingdensityin halftone mode.
Thestandardsettingis “OO”(Factory
settingis “00”)

H

SW-Cl No. 5 Line density selection

Used to set the transmissionmode which is automaticallyselected
whenthe Resolutionkey is not pressed. In the copymode,however,
the fine modeis automaticallyselectedunlessthe Resolutionkey is
manuallysetto anothermode.
SW-Cl No. 6- No. 8 Reserved

Setto “O”.

~\s

SW-A4 No. 7, No. 8 Reserved

Setto ‘O”.
SW-B1 No. 1- No. 4 Recall interval

Choiceis made for a redial intervalfor speedand rapid dial calls.
Useda binarynumberto programthis. [f setto “O”accidentally,1 will
be assumed.If a numberabove5 wasentered,it will be set to “5”. In
thiscase,it hasto becorrected.
SW-B1 No. 5- No. 8 Recall times

Choiceis madeas to howmanyredialsshouldbe,ade. Usea binary
numberto programit. If set to “O” or “1’ by accident,the redial
numberwill be set to ‘2”. If a numberabove9 wasentered,it will be
set to “9”.
SW-B2 No. 1 Dialing pause

SW-D1No. 1- No.4 Number of rings for auto answer mode
When the machineis set in the auto receivemode,the numberof
ringsbeforeanseringcatI be selected. It maybe set from oneto four
ringsusinga binarynumber. Sincethe facsimiletelephonecouldbe
usedas an ordina~ telephoneif the handsetis takenoff the hook,it
shouldbe programmedto the user’schoice. If the softswitchwasset
to “l”, directconnectionis madeto the facsimile. If a facsimilecalling
beep was heardwhenthe handsetis taken off the hook,press the
STARTkey and put the handseton the hook to have the facsimile
start receiving. If it was set to “O”accidentally,receivering is set to
“1”. If it wasabove6, receiveringsare set to “6”.
NOTE: If the machineis set to answerafter a largenumberof rings,
it maynot be able I to receivefaxessuccessfully.If you have
difficulty receivingfaxes, reduce the number of rings to a
maximumof 6.

Pausescan be insertedbetweentelephonenumbersof direct dial
connection.Selectionof 4 secor 2 secpauseis available.

SW-DI No. 5 Automatic switching from manual to auto receive

SW-B2 No. 2- No. 8 Reserved

This soft switchis usedto selectwhetherthe machineshouldswitch
to the auto receivemodeafter 5 ringsin the manualreceivemodeor
remainin the sameway as SW-D1No. 1, No. 2, No. 3 and No. 4
“0’1“0”1“(5 rings).

Set to “O”.
SW-B3 No. 1- No. 8 Reserved

Setto “O”.

mode

SW-D1 No. 6- No. 8 Reserved

SW-B4No. 1 Auto dial mode Delay timer of before line connect.
Delaytime betweenthe dial key inputand lineconnectionunderthe
autodial mode.
RAPIDO1
v

CMLRELAYON
v

I-----i

SW-D2 No. 1 Cl off detection timer

Set the minimumtime periodof Cl signalinterruptionwhichaffordsto
bejudgedas a Cl OFFsection.

’’A’””’
—
~

O: Osec
1:3sec
SW-B4No.2 Auto dial mode Delay timer of after line connect.

Delaytime betweenthe line connectionand dial data output under
the autodial mode.
RAPIDO1

Setto “O’.

~ DIALDATA—

CML RELAY QN

1-

. . .

-1
0 : 1.7sec
1 : 3sec

SW-B4No.3 Dial mode
Whenusingthe pulsedial,set to “1”. Whenusingthe tonedial,setto
● *
o.
SW-B4 No. 4 x key Pulse dial+ Tone dial

*.D
400msec
o

‘*

7
2000msec
@

SW-D2No. 1 = 0:750msec(Cl interruption>750 msec:Judgedas a
Cl OFFsection)
The section1 is not judgedas a Cl OFF section,the Cl signalA is
countedas one signal.The section2 is ju~d as a Cl OFFsection,
the Cl signalB is consideredas the secondsignal.
SW-D2No. 1 = 1:350msec(Cl interruption>350 msec:Judgedas a
Cl OFFsection)
The section1 is judgedas a Cl OFF section,andthe Cl signalA
is countedastwo signals.
The section2 is judgedas a Cl OFF section,andthe Cl signalB
is consideredas thethird signal.

Whensettingto 1, the modeis changedby pressingthe x keyfrom
the pulsedial modeto the tonedial mode.

SW-D2No.2- No.4 Reserved
Setto “O’.

SW-B4 No. 5 Dial pulse make/break ratio (%)

SW-D2 No. 5 Distinctive ringing detection

Whenusingthe33%makeratiopulsedial,setto O.
Whenusingthe 40%makeratiopulsedial,setto 1.

When set to “1”,machine recognizethe Cl signal FAXringingor TEL

SW-B4 No. 6- No. 8 Reserved

SW-El No. 1 Automatic switching mode

Setto “O”,

Usedto set auto TEUFAXswitchingmode or to set the nomal fax
mode.

ringingautomatically.

SW-Cl No. 1, No. 2 Reading slice(binary)
Used to determine the set value of reading density in standard/fine
settingis “00”)
mode. The standard settingis ‘OO”(Factory

2–11

FO-155A
FO-355A
SW-El No. 2, No. 3 Pseudo ringing time at the phone/fax automatic switching mode

SW-G1 No. 1 - No. 3 Quiet detect time (Used in answering machine mode)

Choice is made as to how long to rumble the dummy ringer on
TEL/FAXautomaticswitchingmode.

When an answeringmachineis connected,if a no sound state is
detectedfor a certain period of time, the machinejudges it as a
transmissionfrom a facsimilemachineandautomaticallyswitchesto
the FAXmode.

SW-El No. 4 Number of CNG signal detection at the phone/fax
automatic switching mode

Usedfor detectionof CNG in one tone or two tones in the TEL/FAX
automaticswitchingmode.

SW-G1 No. 5- No. 8 Quiet detect start timing (Used in answering
machine mode)

Insertsa pausebeforecommencingquietdetection.

SW-El No. 5 CNGdetect time at TEMAX mode
The number of times at which CNG signal is detectedis set during
receivingin theTEUFAXautomaticswitchsettingmode.
O:1time
1: 2 times

Set to “O”.

SW-El No. 6 Reserved

SW-G3 No. 4 TAD connected

Setto “O’.

Whenconnectingthe answeringmachineto the extensiontelephone
jack,setto”1”.

SW-El No. 7 Post answer tone transmit in TElfFAX mode

Whenset to “O”,machinesendthe 3 tones(880Hz/988Hti1046Hz)in
TEUFAXautochangeovermode.
SW-El No. 8 Reserved

SW-G2No. 1- No. 8 Reserved
SW-G3 No. 1- No. 3 Reserved
Set to “O”.

SW-G3No. 5- No. 6 Sectiontime of quiet detection.
The switchwhichsets the timefrom the startof detectionfunctionto
the endof thefunction.

Setto “O”.

SVV-G3No.7- No. 8 Reserved

SW-E2 No. 1, No. 2 Pseudo ringer sound output level to the line

Set to “O”.

Usedto adjustsoundvolumeof pseudoringer to the line (ring back
tone)generatedon selectingTEUFAX.

SW-HI No. 1 Busy tone detection ON/OFFtime (Lower limit).
The initialvalueof detectionis setaccordingto electriccondition.The
set valueis changedaccordingto the localswitchboard.(Erroneous
detectionof soundis reduced.)
Normallythe upperlimit is set to 750msec,andthe lowerlimitto 200
msec. If erroneousdetectionis causedby sound, etc, adjust the
detectionrange.The lowerlimitcan be set in the rangeof 350 msec
to 200msec.

SW-E2No. 3- No. 8 Reserved
Setto ‘O”.
SW-F1No. 1, No. 2 DTMFdetect time
Usedto set detecttime of DTMF(DualToneMultiFrequency)usedin
remotereception(5~ ~ ).
The longer the detect time is, the less the error detections are caused
by noises.
SW-F1 No. 3 Remote reception (5 K x )detect

Usedto set the functionof remotereception(5 x x ). Whenset to
“1”,the remotereceptionfunctionis disabled.
SW-F1 No. 4 Remote reception

SW-Hi No. 2 Busy tone detection ON/OFF time (Upper limit).
Similarlyto SW-Hi No. 1,the set valuecan be varied.Theupperlimit
can beset in the ranaeof 650 msecto 750msec.

I

I

SW-Hi No. 1
o

(Corresponding to TEL made by GE) P.B.X.
“1”:Compatiblewith TEL modeby GE

“O”:Notcompatible
●

●

I

I

I

SW-Hi No.2
o

\

Detectionrange

o

1

1

0

350 msec-900 msec

1

[ 350 msec-650 msec \

1

I

When sending (5 K M ) for remotereceptionwith a GE manufac-

SW-Hi No. 3 Reserved

tured telephoneremotereceptionmay not take place becauseof
specialspecificationsin their DTMF.
To overcomethis, a soft SW is providedto changethe modem
settingto allowfor remotereception.

Set to’”0”.
SW-Hi No. 4 Busy tone continuous sound detecttime
Set detectingtime of busytonefor 5 secondsor as is PIT.

If this soft SW is set to “1”, othertelephonesets maybe adversely
affected.

Set to ‘O”.

SW-F1 No. 5TEL

No. 8 Remote operation code figures by external

Remoteoperationcodescan be changesfrom Othrough9. If set to
greaterthan9, it defaultsto 9. The “5 x x “is not changed.
Ex-7K H (Default:5 H K )
SW-F2No. 1 CNG signal detection in standby condition
When settingto”1”, the CNGsignaldetectionfunctionduringstandby
stops.
SW-F2No.2, No. 3 Number of CNG signal detection
Usedfor detectionof CNGin 1 to 4 pulses.
SW-F2 No. 4, No. 5 Number of CNG signal detection(STAND-BY
mode)

Usedfor detectionof CNGin 1 to 4 pulses.
SW-F2 No. 6- No. 8 Reserved

Setto “O”.

\

I 150msec-900 msecI
150 msec-650 msec

SW-HI No. 5 Reserved
SW-Hi No. 6 Busy tone detect continuation sound detect

Used to select detectionof the continuoussoundof a certain frequency.
SW-Hi No. 7 Reserved
Set to “O”.
SW-HI No. 8 Busy tone detect intermittent sound detect

Lineoff detectionYES/NOis set.
SW-H2No. 1, No.2 Number of Busy tone pulses
Usedto set detectionof Busytoneintermittentsounds.
SW-H2No. 3 Fax switching when A. M. full
Usedto disableor enablethefunctionof OFF-HOOKhold.
If the answeringmachine’smemory (tape) is full and there is no
response,the machineautomaticallyswitchesto Faxreception.
The OFF-HOOKholdtime (Answeringmachineoperatingtime) is set
by normaloperation.

FO-155A
FO-355A
SW-H2 No. 4- No. 8 Reserved
Set to “O”.
SW-II No. 1- No. 8 Reserved

Setto “O”.
SW-12 No. 1- No. 8 Reserved

Setto “O”.
SW-13 No. 1- No. 8 Reserved

Setto “O”.
SW-J1 No. 1, No. 2 Transaction report (Communication result
printout)

It is possibleto obtaintransactionresultsaftereachcommunication.
Normally,the switchis set (No. 1:0, No. 2:0) so that the transaction
repoti is producedonlywhena communicationerroris encountered.
If No. 1 was set to 1 and No. 2 to O,the transactionreportwill be
producedeverytime a communicationis done, evenif the communicationwassuccessful.
Setting No. 1 to 1 and No. 2 to 1 will disable this function. No
transactionreportprinted.
SW-J1 No. 3 Sender’s phone number registration

Used to make a choice of whetherthe registeredsender’s phone
number can be changed or not. If the switch is set to “1”, new
registration of the sender’sphonenumberis disabledto preventaccidentalwronginput.
SW-J1No. 4- No. 6 Reserved
Setto “O”.
SW-J1 No. 7, No. 8 Ringer Volume

Usedto adjustringingvolume.
SW-J2 No. 1, No. 2 Seaker Volume

Usedto adjustsoundvolumefroma speaker.
SW-J2No.3 Polling function (FO-355Aonly)
PollingfunctionYES/NOis set.
SW-J2No. 4- No.8 Reserved
Setto ‘O”.
SW-K1 No. 1 Entering DIAG mode by pressing SPEEDkey
A bit whichis usedin the productionprocessonly. Whenthe SPEED
key is pressed,the switchis changedfrom the stand-bystateto the
DIAGmode.

SW-K1No.2- No. 8 Reserved
Set to “O”.

Caution
When the valuewhichthe user is not allowedto set usingthe soft SW is set, outputto the indicationor list is not performed.However,the actual

operationis performedat the set value.
(Example)Numberof ringsfor auto receive SWD1 No. l-No. 4
0100 +
(4times)

1111
(15times)
‘r

Display”ENTER(l-5)(4)

Set value
The operationis performed15times.

List

‘r
Valuewhenshipping

2-13

4RINGS

‘r
Valuewhen shipping

FO-155A
FO-355A

[3] Troubleshooting
Refer to the following actions to troubleshoot any of problems mentioned in 1-4.

●

[1] A communicationerroroccurs.

●

[2] Imagedistortionproduced.
●

[3] Unableto do overseascommunication.
[4] Communication
speedslowdueto FALLBACK.
●

●

●

Increasethe transmissionlevel SOH SWITCHA2-5,6,7,8.
Maybe used in case [1] [2] [3].

ApplylineequalizationSO~ SWITCHAl-1.
Maybe usedin case[1] [2] [3] [4].
Slowdownthe transmissionspeed SO~ SWITCHAl-4, 5.
Maybe used in case[2] [3].
ReplacetheTEL/LIUPWB.
Maybe usedin all cases.
Replacethe controlPWB.
Maybe usedin all cases.

* If transmissionproblemsstill existon the machine,usethe followingformatandcheckthe relatedmatters.

Decrease the transmission level SO~ SWITCHA2-5,6, 7, 8.

Maybe usedin case[3].

Ref.No. :
ATT:
TO:
---------------------------------------------------------------------------------------------------------------------Date :
A~:
cc:
--------------------------------------------------------------------------------------------------------------------Dept

FM:
--------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------

Ourcustomer

Otherparty

Problemmode

Frequency:
Confirmation
item

Date:

Fax Tel No.:

Tel No.
FaxNo.
Modelname
Tel No.
FaxNo.
Modelname

Name
------------------------------------------------------------------------------------------------------,
Address
------------------------------------------------------------------------------------------------------,
Contactperson
Name
----.
-------------------------------------------------------------------------------------------------Address
------------------------------------------------------------------------------------------------------Contactperson
Model:
G3
Phase:A, B, C, D.
Line:Domestic/ international
Reception/Transmission
Automaticreception/ Manualreception
Automaticdialing/ Manualdialing/Others
ROMversion:
70
Pleasemarkproblemwithan X.
Ourcustomer
Otherpatty
No problemis: O.
➤
4
Al A2 B1 ---B2 cl
C2 DI D2 El E2
---- ---- ----- ----- ----- ---

ZCA2

:

4
Our service

El
E2

Transmtsston level setting is (
::s :me :;-

Transmissionlevel(
Other party’s service

--------------------------------------------------------------------------------------------------------------------Countermeasure

‘*** Pleaseattachthe G3dataandactivityreporton problem.●***
m,–
. compiele
. . tnts
.. . reportbeforecallingthe
. .
riease
“TAC” hotline if problem still occurs.

2 –14

) dBm

Reception level (
) dBm
By level meter at B1 andB2

Comment

●

----—

~Sign :
Ref.No.:
I ------------------------------

**** Facsimilecommunicationproblem●****

●

From: Mr.

:

) dB at our

FO-155A
FO-355A

[4] Error code table
G3 Transmission
I

I

II

ErrorCondition(Receiverside)

Code

Final receivedsignal

o
1

Incompletesignalframe

Cannotrecognizebit streamafterflag

NSF,DIS

CannotrecognizeDCSsignal
CannotrecognizeNSSsignal

2

I CFR

I Disconnectslineduringrece~tion

I

II

Disconnectslinebyfallback

3
4

MCF

5

PIPor PIN

Disconnectslineduringreceptionof multi-page
CannotrecognizeNSS,DCSsignalin the caseof mode change
No responsein receiverside to picture signal after no response in transmitterside to receive
TALK modereauest

6

RTN or RTP

Cannot recognize NSS, DCSsignalaftertransmittingRTN or RTP signal.

7

No signal or DCN

No response in receiversideor DCNsignalreceived*

G3 Reception
I

Code

I

o
1

I

Final receivedsignal

ErrorCondition(Transmitterside)

[

I Imcompietesignaiframe I Cannotrecognizebit streamafterflag

NSS,DCS

CannotrecognizeCFRor ~ signal
Disconnectslinedurinatransmission

2

NSC, DTC

Cannot recognize NSS signal

3

EOP

CannotrecognizeMCF,PIP, PIN, RTN,RTPsignal

4

EOM

CannotrecognizeMCF,PIP,PIN, RTN, RTP signal in the case of mode change

5

MPS

CannotrecognizeMCF,PIP,PIN,RTN,RTPsignalin the caseof multi-page

6

PR1-Q

CannotrecognizePIP,PINsignalin thecaseof TALKrequest

7

Nosignalor DCN

No responsein transmitter(cannotrecognizeDISsignal)or DCNsignal received*

‘

2-15

I

I
I

FO-155A
FO-355A

3-2.
Automatic document feed

CHAPTER3. MECHANISMBLOCKS

1)Useof the paper feed rollerand separationrubberplateensures
error-freetransportandseparationof documents.The pIatespring
presses the document to the paper feed roller to assuresmooth
feedingof thedocument.

[1] General description

;.—
.
—
+
‘-b

2) Documentseparationmethod:Separationrubberplate

1.Document feed block and diagram

Separationrubberplate

Paparfeed
spring
I
Separation
Document
rubber
plate
Pi@ roller
(1)

//

Transfer
roller
(2)

\\

in* roller
(2)

Paperfeedspring

Paper feedroller/“

Transfer
roller(l)

Fig.3

3-3.
Documents applicable for automatic feed

Fig.1

2.Document feed operation
1) The documentplacedin the hopperactuatesthe documentsensor. After one second,the pulsemotor starts to drive the paper
feed roller.The documentis automaticallytaken up into the machine,andstoppedat the documentsensor.

I Feeder
caPaciN
. .
Paperweight

2) When a specifiednumberof pulsesare receivedfrom the documentsensorafterthe documentleadedgeis sensed,scanningis
started.

45kg

64,3kg

52g/m2

74.3glm2

0.09mm 0.06mm 0.09mm
0.06mm
B6(128mmx 182mm)A4(210mmx 297mm),Letter(216mmx 279mm)
10sheets,
max.
Feeder
capacity
52g/m2 104g/m2
45kg
90kg
Paperweight
Paperthickness
(ref.) 0.06mm 0.12mm 0.06mm 0.12mm
Papersize
B6(128mmx 182mm)A4(210mmx 297mm),Letter(216mmx 279mm)
Paperquality
I Highqualitypaperorequivalent
I
Paperthickness(ref.)

Papersize

3) Whena specifiednumberof pulsesare receivedfrom the documentsensorafter the documentrear edgeis sensed,scanningis
terminatedandthe documentis fed through.
4) If the document sensoris active(i.e., anotherdocumentis in the
hopper),when the precedingdocumentscanningis completed
and it is fed out, the nextdocumentis takenup intothe machine.
If the documentsensoris not active(i.e., thereis no documentin
the hopper),whenthe documentis fed out, the operationis terminated.

Square
4x6series
meterseries
(788mmx 1091mm
x
1000mm
sheets)
Minimum\ Maximum MinimumI Maximum
I1 20sheets,
max.
I

I

NOTE: Double-sidecoateddocumentsand documentson facsimile
recordingpapershouldbe insertedmanually.The document
feed quantity may be changed according to the document
thickness.

3.Hopper mechanism

Documentscorrespondingto a paper weight heavier than 64.3kg
(74.3g/m2)and lighterthan 135kg(157g/m2)are acceptablefor manualfeed.

3-1. General view

Documentsheavierthan 135kgin termsof the paperweightmustbe
duplicatedon a copierto makeit operativein the facsimile.

3-4.
Loading the documents
1) Make surethat the documentsare of suitablesize andthickness,
andfree fromcreases,folds,curls,wet glue,wet ink, clips,staples
andpins.
2) Placedocumentsfacedownin the hopper.
i) Adjustthedocumentguidesto the documentsize.
ii) Align the top edge of documentsand gently place them into
the hopper.The first pageunderthe stackwill be takenup by
the feedrollerto get readyfor transmission.
NOTES: 1) Curlededge of documents,if any, must be straighten
out.

Fig.2
The hopperis used to align documentswith the documentguides
adjustedto the paperwidth.

2) Do not load the documentsof different sizes and/or
thicknessestogether.

NOTE: Adjust the document guides before and after inserting the
document.

3-1

FO-155A
FO-355A

5.Optical system
Lastpageof document Separationrubberplate
Backof document

(1)General view

/
Document

r

/
Firstpageof document

CCD

—.

/
Paperfeedroller

CCD PWB

Fig.4

L’””mp~~-G’ass
-— —- —- —- —. —. —-—-—
/- –--l
n
_=---—-. -—---e-i—
._-----—->F>-P
----\
-—-—-—-—‘
-#\
Lens
Mirror 3
Ff
Mirror 2

Mir/or 1

3-5.
Documents requiring use of document carrier
Fig.6

1)DocumentssmallerthanB6 (128mmx 182mm).
2) Documentsthinnerthanthethicknessof 0.06mm.

(2) Composition

3) Documentscontainingcreases,folds, or curls, especially those
whose surface is curled (maximum allowable curl is 5mm).
4) Documentscontainingtears.

The optical system is composed of the document feed mechanism,
the lamp, the reflecting mirrors, the focusing lens, the CCD sensor,
and the read process circuit.

5) Carbon-backeddocuments.(Insert a white sheet of paper betweenthe carbonbackandthe documentcarrierto avoidtransfer
of carbonto the carrier.)

The LEDlampis usedto exposethe document.

5-1. LED Lamp

6) Documentscontainingan easilyseparablewriting material(e.g.,
thosewrittenwitha leadpencil).

5-2.
Lens

7) Transparentdocuments.

The lensis usedto focusthe light reflectedfromthe documenton the
CCDelements.

8) Foldedor glueddocuments.

5-3.
CCD

Documentin documentcarriershouldbe insertedmanuallyinto
thefeeder.

The CCD (chargecoupleddevice)imagesensorconsistsof a photodiodearray which convertsthe intensityof light reflectedfrom the
documentsurface into series of analog voltages which are then
storedin an analogshift register.The seriesof analogvoltagesare
then convertedinto a digital equivalentby a black/whitebinarylogic
circuit.

4.Document release
4-1. Cross section view
(RIGHTSIDE)

(Example)Scansignaloutputwaveform

Documentguideass’y

Papercover

/
/

Peak

t

/“”

1

Scanline
length

—
4

Maximum
tiument width,216mm

e

Fig. 7

JI

I

\ \

1)The minimumoutputfrom the CCD at the maximumscanwidthof
document(216mm)mustbe morethan40%of the peakvalue.

I

2) The peakoutput must be about200mVunderroomtemperature
to avoidCCDsaturation.

I

I

Lowercabinet

Fig.5

4-2.
General
Whenthe releaseleveris pulledby handin the directionof arrowA,
the latchis releasedandthe upperdocumentguidemoveson its axis
in the directionof the arrow.The feed rollers,the separationrubber
plate,andthe pinchrollersbecomefreeto makeit possibleto remove
thedocument.

3-2

FO-155A
FO-355A

6. Recording block
(1) General view

/

Recording paper
Fig. 8

6-1. Driving
Via the pulse motor gear shaft, the reduction gear, and the recording
paper feed gear, rotation of the pulse motor is conveyedto the re-

cordingpaperfeedrollerto feedthe recordingpaper.

6-2. Recording
Useof a thermalheadpermitseasiermaintenanceand low operating
costs.

1)Thermalhead
The thermalheadconsistsof 1728-dotheat elementsarrangedin a
single row and has the resolutionof 8 dots/mm.The maximumrecordingspeed is 10ms/line.The thermal head also incorporates a
1728-dot shift registerlatch and an output control driver circuit. Low
powerconsumptionis achievedby dividingthe head into nine segments.

2) Structureof the recordingmechanism
Recording is accomplished by pressing the thermal head on the recording paper against the platen roller.
The main scan (horizontal) is electronically achieved, whilethe sub-

scan (vertical) is achieved by moving the recordingpaper by the
recordingplatenroller.
Usually,the causefor unevenprinttone is causedby misalignmentof
the thermalheador unevencontactwiththe roller.
It canbe checkedin the followingmanner.

1)Checkif the thermalhead powerand signalcablesare properly
routed.
2) Checkthatthe thermalheadpivotmovessmoothlyup and down.
3) Checkthat the thermal head supportbracketis securedwithout
anyplay.
4) Checkto see that the recordingplatenroller has properconcentrici~, in the caseof a print tone variationevenlyrepeateddown
the page.
5) Replace the thermal head with a new one and checkto see if the
sametroubleoccurs.

3–3

FO-155A
FO-355A

[2] Disassembly and assembly procedures
●
●

Thischaptermainlydescribesthedisassemblyprocedures.Forthe assemblyprocedures,reversethedisassemblyprocedures.
Easyandsimpledisassemblylassembly
proceduresof somepartsand unitsareomifled.Fordisassemblyand assemblyof suchpartsand units,
referto the PartsList.

●

The numbersin the illustration,the partslist andtheflowchartin a samesectionarecommonto eachother.

●

To assure reliability of the product, the disassembly and the assembly procedures should be performed carefully and deliberately.

1

‘arts list (Fig. 1)

Recording paper cover unit

No.

a. Remove the recording paper cover unit, the mechanismunit
according to the flowchart.

b. Disassembly the recording paper cover unit, accordingto the
flowchart.

Part name
Mechanism unit

2

Recording paper cover unit

1

3

Screw (3x1O)

3

~

Recording paper cover compart
unit

,

5

Paper sensorlever

1
2
1
1
2

6
7
8
9

Screw(3x1O)
Paperguid
Platengear
Platenbearing
10 Platenroller

A
1

Q’ty

1

1

1

11

Hopper guid

1

12

Hopper spring

1

13

Recording paper cover A

1

14

Screw (3x1O)

1

15

Panel stopper

1

2

1

..\\

@

&w

‘.

Fig.1

.
3-4

FO-355A
I

2

I

f

Partslist (Fig.2)
No.

Head frame unit
I

a. Removethe recordingpaper cover unit, the mechanismunit

accordingto procedurel-a.
b. Removethe headframeunit fromthe mechanismunit accordingto theflowchart.
c, Disassemblethe headframeunitaccordingto the flowchart.

Partname

Q’ty

1

Mechanismunit

1

2

Screw(3x12)

2

3

Connector

1

4

Screw(3x6)

1

I 5 IHeadframeunit
I 6 IACcord
I 7 ]Screw

11

[ 8 IConnector

26
37
48

@

0
5

$
.

--o

(Headcable) ~

3

Headcablepasstothecore
4
%
2 times.

Headcable

ThermalHead

Headearthcable

Fig. 2

3–5

FO-155A
FO-355A
1

3

‘artslist (Fig. 3)”

Thermal head unit

Partname

No.
1

Q’ty

Thermalheadunit

1

Headspring

5

a. Removethe recordingpaper cover unit, the mechanismunit
accordingto procedurel-a.

2

b. Remove the head frame unit from the mechanism unit accord-

3“

Headframe

1

4

Screw

2

5

Headeatthcable

1

6

Headguide(R)

1

7

Headguide(L)

1

8

Headcable

1

9

Themal head

1

ing to procedure 2-b.

c. Removethe thermalheadto the flowchart.

1

24
35
@

(4)

8
89

ThemalHead
Heedguide
*
note)Theheadguideshould
be
securelv
locked
bvtheclickk\
ofthehiadframe:

lftA
A

D

//

‘w

‘\
Headguide
Headframe*(>
note)Theheadguideshould
be
securely
Icckedbytheclick—

\llT
Al

-

Ikk

Fig.3

3-6

FO-155A
FO-355A

4

‘adslist (Fig.4)
No.

Document guide upper ass’y,
document guide lower ass’y

Partname

Q’ty

1

Undercabinetunit

1

a. Removethe recordingpapercover unit, the mechanismunit
accordingto procedurel-a.

2

Screw[3x10)

4

b. Removethe headframeunit from the mechanismunit accordingto procedure2-b.

3

Uppercabinetunit

1

4

Connector

1

c. Removethe documentguideupperass’yand documentguide
lowerass’yto theflowchart.

5

HookswitchleverA

1

6

Documentguidelowerass’y

1

7

Documentguideupperass’y

1

Hookpartofa upper
cabass’yis attached

tohookpartof under
cabass’ycertainly.

Fig.4

3-7

FO-155A
FO-355A
I

5

I

Document guide lower ass’y

I

Partslist (Fia. 5)
.“,

No.

a. Removethe recordingpaper cover unit, the mechanismunit
accordingto the procedurel-a.
b. Removethe headframe unit from the mechanismunit accordingto procedure2-b.
c. Remove the document guide upper ass’y and document guide

Rollerbearing

3

Transferroller

2
1

4

Paperfeedrollergearass’y

1

7

14
25
36

@

2

6

d. Remove the document guide lower ass’y to the flowchart.

0
7

Arrow
viewA

I
Fig.5

3-8

‘rib

Q’ty
1

5

lower ass’y from the mechanism unit according to procedure
4-c.

Pad name
Transfer roller gear

1

2

Rollerbearing

IPaDerfeadroller
Documentguidelower

Ill
1

FO-155A
FO-355A
,

6

I
Partslist(Fig.6)

Document guide upper ass’y

1

Partname
I Q’ty I
No. I
1
1 Uppercabinetass’y
2
2 Screw(3x1O)
,
3 Documentguideupper
ass’y

a. Remove the recording paper cover unit, the mechanism unit
according to procedure l-a.

b. Remove the head frame unit from the mechanism unit according to procedure2-b.

1
1

4 Facesheet
5 Transferaear
6 lTransferbearina
7 Transferroller2
8 Paperfeedspring
~ Separationpressing
plate

c. Removethe documentguideupperass’yand documentguide
lower ass’y from the mechanismunit accordingto procedure
4-c.
d. Removethe documentguideupperass’yto the flowchart.

Partname
No. I
12 Pinchrollerspring
13 Pinchrollershaft
14 Pinchroller
,5 Cancellationlever
spring

11 Separationrubberplate

IFrontsensOrlever
Sensorleverreturn
spring
Documentsensorlever
Sensorleverreturn
spring

%+
n

Fig. 6

3–9

1
Ill
1
1
1

1 I 21 Documentguideupper I 1 1

The gear nailset to
shaftgroove
~~

/

1

16 Panellocklever

I 2 I 17
1
,8
1
19
1
Z.
1

10 Paperfeedspring

I Q’ty
2
1
2

FO-155A
FO-355A

7

Upper cabinet ass’y

I

a. Removethe recordingpapercover unit, the mechanismunit
accordingto procedurel-a.

Parts list (Fia.7)
.“,

No.

Part name

Q’ty

1

Screw (2x6)

8

2

Insulationsheet

2

3

OperationpanelPWB

1

c. Remove the document guide upper ass’y and document guide
lower ass’y from the mechanismunit accordingto procedure
4-c.

4

Panelcable

1

5

Dialkey

1

d. Remove the document guide upper ass’y from the upper cabi-

7

Startkey

1

8

Copykey

1

b. Remove the head frame unit from the mechanism unit according to procedure 2-b.

net ass’y according to procedure 6-d.

e, Remove the upper cabinet ass’y to the flowchart.

6 IDirectkey

Ill

9 IVolumekey
10

Mode key

1

11

Panel unit ass’y

1

12 Antivibrationsheet(1)

1

13 Antivibrationsheet(2)

1

P
1

-o
2

Fig. 7

3-10

FO-155A
FO-355A
8

Partslist (Fig.8)
Partname
No.I

Optical system unit

I1
I2

a. Removethe recordingpaper cover unit, the mechanismunit
accordingto procedurel-a.
b. Removethe headframeunit from the mechanismunitaccordingto procedure2-b.
c. Removethe documentguideupperass’yand documentguide
iower ass’y from the mechanismunit accordingto procedure
4-c.

I

3
4
5
6
7

Mechanismunit
Connector
Connector
Opticalsystemunit
Screw
CCDPWB
Shadingsheet

I Q’ty
3
1
I
2
1
1
16 Mirrorholdingspring1
2
1
1
17 Screw(3x4)
1 I 18 IMirrorholdingspring2 I 1
I
2
2
19 Mirror2
1
1
20 Mirror1
1
21 Mirrorcushion
1
1
1
22 Opticalframe
1
23 Cushion

I Q’ty I
1 I
1 I
1
1

8
9

Screw(3x6)
Lensholdingspring
10 Lens
11 Readerglass

d. Removethe opticaisystemunitto the flowchart.

Partname
No. I
12 lScrew(2x6)
13 ILED
14 Blindsheet
15 Screw(3x4)

r

““N,,8

The longholemustbeat rightSide.

-..
14
~
5

-.

..

Pk’

. ..

*1
\

218

/
11
\@
faceof
MirrorholdingSP fittingFig.

R&
o

SCREW
Mirror—

d
16

(Ieffsidealsosameoperation)

v1
4

>\

Fig.8
1. Attention the dection to arrow A.
2. Piease don’t touch to reflct face when fix the mirror to opticai
frame.
3. Check the dust fingerprintsand damagewhen have a thats

casecleanby dry cioth.

3–11

Q
2

I

FO-155A
FO-355A

9

Partslist (Fig. 9)
Partname
I No. /
1 Mechanismunit
2 Screw(3x8)
3 Connector
4 Drivesystemunit
5 HookswitchleverA
6 Connector
7 Screw(3x1O)

Drive system unit and speaker

a. Remove the recording paper cover unit, the mechanism unit
according to procedure l-a.
b, Removethe headframeunit fromthe mechanismunit according to procedure2-b.
c. Removethe documentguide upper ass’y and document guide
lower ass’y from the mechanism unit according to procedure
4-c.

8

d. Removethe opticalsystemunit from the mechanismunit accordingto procedure8-d.

I

Speaker

2

.

Fig.9

3-12

ReductiongearA
IdlergearA
ldlergear C
Idlergear B
PlanetgearleverA

23 Planetgearspring
24 Planetgear

2

/ I
/ 1
11
I 1 I 27 ]Planetgear
/1
lever
I 1 I 28 ICt’tange
1
29 Drivesystemmounting ,
frame
1
1, 30 Pinchpressingspring2
1

@

J

18
19
20
21
22

/ Q’tv [
1
1
1
1
1
1
1

/ 1 I 26 IPlanet~earsPfina

16 idlergearA

L

No. /
Partname
17 ReductiongearB

9 \Motoreaflhcable/ 1 I 25 IPlanet~earleverB

I 10 IMotor
I 11 \Heatsink
12 lCamholdspring
13 CamB
14 CamA
15 Detectionswitch

e. Removethe drivesystemunitandspeakerto theflowchart.

I Q’tv I
1
1
1
1
1
1
3
1

I in a dith

.

1

I

31 Pinchroller2
32 Washer

1
3

FO-155A
FO-355A

10

I

Partslist (Fig.10)

PWB section

i No. I

a. Remove the recording paper cover unit, ROMcoverand head
coverfromthe mechanismunitaccordingto procedurel-a.

1
2

Partname

I Q’ty

Mechanismunit

1

Screw(3x1O)

5

b. Removethe headframeunit fromthe mechanismunitaccordingto procedure2-b.

3 IPowersupplyPWB

c. Removethe documentguideupperass’yanddocumentguide
lower ass’y from the mechanismunit accordingto procedure
4-C,

4

ControlPWB

1

5

TEL/LIUPWB

1

d. Removethe opticalsystemunit from the mechanismunit accordingto procedure8-d.
e. Remove the drive system unit and speaker from the mechanism unit according to procedure 9-e.

f. Removethe PWB’SandACcordto theflowchart.

!
1

2

3

4
5

PWB guide rib

Fig. 10

3-13

I

1

I

FO-155A
FO-355A

11

Partslist (Fig.11)
No.

Wire treatment

a. Performwiretreatmentcarefullyanddeliberately.
b. For wire treatmentprocedureswhichare not describedin this
section,referto the sectionfor that portion of the unit.

,

\

Partname

Q’ty

1

Band

4

2

Core

1

3

Core

2

\

Detectionswitc
cable
L

CCD PWB \\

\

\

(Headcable) ~
Headcablepaastothecore
3
%)

Headcable

Pulltheheadcabletoarrowdir~tion
fixsotghterthebindingbandafter
connectionIha haadcable.

3-14

Speaker cable
//

/

FO-155A
FO-355A

CHAPTER4. DIAGRAMS
—- —. —-—-—-—-—

—-—

—-—-—-—-—-

,

1–-

I

t

1

I

-

IEl I

I
I

I

I
It
I
It
I

I

I

I

1

IIi
‘
II

I

I
1
I

!

I
I
I

It

I

1

I
I

I

T

I

I

I

t

I
I
I

t

I
I

I

I

1

t

1

‘-’

1

t

I

— - — - — - — - — - — - —,
I

I

I
1

I
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I

--

-t

-—

–1

1

1

I
I

w
z

I

●

I
I

i

I

------ ,-----L.r-----.

I

I

t

d
1-

4–1

,

FO-155A
I?O-355A

n

1
.
*,

\

r

L
f

I

b

13
c.)

z
0

u

m

I

1

I

I

II

I

H

I

t

n-

n

I

J

m

/–\
1

4-2

C9

FO-155A
FO-355A

—

T

mol

—
0

—
+ ,
%%
——
. N
.
[

4–3

FO-155A
FO-355A

CHAPTER5. CIRCUITDESCRIPTION

3. Operational description
Operationaldescriptionsare givenbelow:
●

When a document is loaded in standbymode, the state of the

[1] Circuit description

documentsensoris sensedvia the 1 chip fax engine(SFE-LC).If
the sensorsignalwas on, the motor is startedto bringthe documentinto the standbyposition.With depressionof the STARTkey
in the off-hookstate,transmissiontakesplace.

1. General description
The compactdesignof the controlPWBis obtainedby using ROCKWELL fax enginein the maincontrolsectionandhighdensityprinting
of surfacemountingpatts. EachPWBis independentaccordingto its
function as shownin Fig. 1.

Then,the procedureis sent out from the modemandthe motoris
rotatedto movethe documentdownto the scan line. In the scan
processor,the signalscannedby the CCD is sent to the internal
imageprocessorandthe ADconverterto converttheanalogsignal
into binary data. This binary data is transferredfrom the scan
processorto the image buffer within the RAM and encodedand
stored in the transmit buffer of the RAM. The data is then convertedfrom parallelto serialform by the modemwherethe serial
datais modulatedandsentontothe line.

2.PWB configuration

ACcord

Linecable

-

●

CCDPWB

TEULIUPWB

ControlPWB

Powersupply
PWB

First,the SFE-LCcontrolsthe proceduresignalsfrom the modem
to be readyto receivedata.Whenthe programgoesinto phaseC,
the serialdatafrom the modemis convertedto parallelform in the
modeminterfaceof the 1 chipfax engine(SFE-LC)whichis stored
in the receivebufferof the RAM.The data in the receivebufferis
decodedsoftware-wiseto reproduceit as binaryimagedatain the
imagebuffer.Thedatais DMAtransferredto the recordingprocessor withinthe maincontrolgatearraywhichis thenconvertedfrom
parallelto serial form to be sent to the thermalhead.The data is
printedline by line by the SFE-LCwhichis assignedto controlthe
motorrotationandstrobesignal.

d
(

\
L
L

Receiveoperation
There are two ways of startingreception,manualand automatic.
Depressionof the STARTkey in the off-hookmodein the caseof
manual receive mode, or Cl signal detection by the LIU in the
automaticreceivemode.

[J

\ f

f

Transmission operation

n

J

l—

‘ane’pwB
-

●

Copyoperation
To makea copyon this facsimile,the COPYkey is pressedwhen
the machineis in stand-bywith a documenton the documenttable
andthetelephoneset is in theon-hookstate.

Fig.1

1) Control PWB
The controlPWBcontrolsperipheralPWBS,mechanicalparts,transmission,andperformsoverallcontrolof the unit.
This machineemploysa l-chip modem(R96SHF)whichis installed
on the controlPW13,

2)TEULIU PWB
This PWB controls connection of the telephone line to the unit.

3)Power supply PWB
This PWB provides voltages of +5V, +12V, and +24V to the another
PWB.

4) Panel PWB
The panel PWB allows input of the operation keys.

5) CCD PWB
ThisPWBcontrolsthepickupopticaldevice.

6) LCD PWB
This PWBcontrolsthe LCDdisplay.

5-1

First, depressionof the COPYkey advancesthe documentto the
scan line. Similar to the transmittingoperation,the imagesignal
from the CCDis convertedto a binarysignalin the DMAmodevia
the 1 chip fax engine(SFE-LC)which is then sent to the image
buffer of the RAM. Next, the data is transferredto the recording
processorin the DMAmodeto sendthe imagedatato the thermal
headwhichis printedline by line. The copying takes place as the
operation is repeated,

FO-155A
FO-355A

3) 27CO1O(IC2):pin-32DIP(ROM)

[2] Circuit description of control PWB

EPROMof 1Mbitequippedwithsoftwarefor the mainCPU.

1.General description

4) M5M5255CFP-TOl-l..
(IC4):pin-28SOP(RAM)

Fig. 2 shows the functional blocks of the control PWB, whichis composedof 4 blocks.

Line memoryfor the mainCPUsystemRAMarea and coding/decoding process.Used as the transmission buffer.

Memoryof recordeddata such as daily reportand auto dials.When
the power is turned off, this memoryis backed up by the lithium

MAIN CONTROL BLOCK
, --------------------------

battery.

I

I

I
I
1

(2) ROM

:
;

I

I
I
I
I
I
I

MODEM BLOCK

t
(’1

(1)SFE-LC (

1,
1

I

(4) MODEM

I
I

I II

(J

I

I
I
I

$

I
I

1----

.. - . -----

. - .. -------

Fig. 2 Cont*WB

..--1

functional block diagram

2. Description of each block
(1) Main control block
The maincontrolblockis composedof ROCKWELL1 chip fax engine
(SFE-LC),ROM (128KByte), RAM (8KByte)and Modem(R96SHF).
Devicesare connectedto the bus to control the wholeunit.

1) SFE-LC(IC3): pin-144QFP(SFE-LC)
2) R96SHF(DFXL)(IC5): pin-100GFP(MODEM)
The FAXENGINEIntegratedFacsimileControllers.
SFE-LC,containsan internal8 bit microprocessorwith an external2
Mbyte address space and dedicated circuitry optimized for facsimile
image processing and facsimile machine control and monitoring.

MIRQn
A[19:O]
D~:O]
RDn
WRn
ROMCSn
CSIO:l]n
MCSn
WAITn
SYNC

TSTCLK
DEBUGn
RES=n

I MC24CPlJControllF

ExtamalCPU Bus
BUS IF

1

1
I MC24 Meaacellf8bitData.24bitAddress) I
Walchdog”Time~
RealTime Clock
CrystalOscillator
BatteryBackupCircuit
InterruptController

XIN
XOUT

t

f

PWRDWNn
BATRSTn

REGDMAi

TONE
GPIO~:O~lD~:O]
GP10[10:8~DC[2:O]
GPlo12/cs2tiscLK
GPlo13/cs3mxD
GP1014fCS4nlRxD
GPI01WIR08
GP1017/lR05n
PM[3:oyGPo[3:o]
sM[3:oyGPop:4] i

-VREF
+VREF
VIN
START

+

.Tv
Mater Control
GPIO
Tone
VideoPort
SART
J

+

E
InternalCPU Bus

t

t!
ScannerControl& VI*O Processing

*

~Bit FADC
CCD/CIS Scanner
5ms,A4/B4 Lines
ShadingCorrectional:1, 1:8)
Edge Enhancement
DynamicBackground& Contrast
Control
Dithering

CLK1

+

CLKln

CLK2
VID~l:O]

oPq4:o]
OPI[3:O]
LEDCTL
LCDCS

3
PWRIGND

TEST

Fig.3

5-2

Themal PrinterIF
5 ms Linelime
A4/B4 Lines
TPH ADC
4 StrobeTPH
Qichiese TPH
u

F

TBADI
PCLK
PDAT
PLAT
STRB[3:O]
STRBPOL

FO-155A
FO-355A

SFE-LC(IC3)terminaldescriptions
Pin Name

Input

output

Pin Description

Type

Type

(Activelow signalshavean “n” pin nameending.)

I

HU

-

Pin No.

1/0

135

CPUControlInterface
MIRQn

Modeminterrupt.(HysteresisIn, InternalPullup.)

SYSCLK

133

I

H

-

TSTCLK

130

0

-

3XC

System clock. (Hysteresis in.)

o

T

3XT

Address bus(20-bit).

1/0

T

3XT

Databus(8-bit).

128

o

-

3XTT

Readstrobe.
Write strobe.

Testclock.

I

BusControlInterface
A[19:O]

RDn

I

WRn

I

127

o

-

3xl-r

ROMCSn

I

120

o

-

2XT

ROM chip select.

CSln

122

o

-

2XT

1/0chipselect.

CSOn

57

0

I - I

2XTT

SRAMchip select. (Battery powered.)

o

-

2XC

Modem chip select.

MCSn

I

121

SYNC

I

I

I

126

o

-

2XC

IndicatesCPU op code fetch cycle (active high).

REGDMA

I

124

o

–

3XC

Indicates REGSEL cycle and DMA cycle.

WAITn

I

125

o

-

3XC

IndicatescurrentTSTCLK cycle is a wait state or a halt state.

PrimePowerResetLogicandTest
DEBUGn

129

I

HU

-

RESETn

131

1/0

HU

2X0

TEST

58

I

cl-

XIN

59

I

Osc

-

Crystaloscillatorinputpin.

XOUT

60

0

-

Osc

Crystaloscillatoroutputpin.

PWRDWNn

62

I

H

-

indicates loss of prime power (results in NMI).

BATRSTn

61

I

H

-

Battery power reset input.

START

101

0

-

2XS
2XS

Scannershiftgatecontrol.
1 Scannerclock,

I

Externalnon-maskableinput(NMI).
XFC-BReset.
I SetsTestmode(batterypowered).

Battery Power Control and Reset Logic

ScannerInterface
CLK1

I

100

-

I

CLK1n

99

101
0

-

2XS

Scannerclock-inverted.

CLK2

98

0

-

2XS

Scannerresetgatecontrol(or clock for CIS scanner).

[97:96]

o

-

2XC

Controlfor videopreprocessing
circuits.

VIDCTLII:0]

I

PrinterInterface
PCLK
PDAT
PLAT
STRB[3:O]
STRBPOL

I

29
30

10]

0

I

3XC

-

2XP

I ThermalPrintHead(TPH)clock.
Serialprintingdata(toTPH).

31

0

-

3XP

TPHdatalatch.

[33:36]

o

-

IXP

Strobesignalsfor the TPH.

37

I

c

-

Sets strobe polarity, active high/low.

5-3

—

I

FO-155A
FO-355A
Input
Type

output
Type

-

2XL

Pin No.

1/0

OPO[4:O]

1[42:44][46:47]1

O

OPI[3:O]

[49:52]

I

LEDCTL

55

ol-

4XC

LCDCS

54

ol-

Ixc

Pin Name

Pin Description

OperatorPanelInterface

I

HU

I

-

Keyboard/LED
strobe[4:0].
Keyboardreturn[3:OJ.(Puilup.Hysteresisin.)
lndicatesoutputsOPO[4:0]areforLEDs.
LCDchipselect.
GeneralPurposel/O

1/0

H

2XC

Programmable:GPIO(8 lines)or videodatabus.

1/0

H

2XC

Programmable:GPIO(3 lines)or video data control signals.

1/0

H

2XC

Programmable:GPIOline, 1/0chipselector SCLK(SART).

1/0

H

2XC

Programmable: GPIO line, 1/0 chip selector TXD (SART).

1/0

H

2XC

Programmable:
GPIOline, 1/0chipselector RXD(SART).

1/0

H

Ixc

Programmable: GPIQ line or active high interrupt.

1/0

H

1xc

Programmable: GPIO lineor activelowinterrupt.

[103:106]

.0

-

1xc

Programmable:scanmotorcontrolpinsor GPOpins.

[115:118]

o

-

IXC

Programmable:printmotorcontrolpinsor GPOpins.

119

0

-

Ixc

Toneoutputsignal.

+
GP1012/
CS2n/SCLK

80

+

GPIO161
lRQ8

76

GP1017/

75

+

lRQ5n

Miscellaneous
SM[3:O]I
GPO[7:4]
PM[3:O]/
GPO[3:O]
TONE
-Vref

66

I

-VR

+Vref

68

I

+VR

ADGA

69

ADVA
ADGD

Power,ReferenceVoltages,Ground
NegativeReference Voltage for Video A/D.
-

Positive Reference Voltage for VideoA/D.

VADG

A/DAnalogGround.

70

VADV

A/DAnalogPower.

72

VADG

A/D DigitalGround.

ADVD

71

VIN

67

I

VA

-

Analog Video A/D input.

THADI

65

I

TA

-

AnalogThermalA/Dinput.

VADV

WD DigitalPower.

VSS(8)

134,132,95,
88, 53, 45, 28,
21

DigitalGround.

VDD(7)

140, 123, 102,
81,48,41, 14

DigitalPower.

63

Batte~ Power.

VBAT

NoConnection
NC

1,2,3,4, 7,32,
38, 39, 40, 56,
64, 73, 74, 77,
82, 107,108,
109,110-114

Noconnection.

5–4

FO-155A
I?O-355A

(2) Panel control
Thefollowingcontrolsare performedbythe SFE-LC.
●

Operationpanelkeyscanning

●

OperationpanelLCDdisplay

(3) Mechanism/recording control block
●

Recordingcontrolblockdiagram(1)

H

Oggpeg~or

PANEU
LCD PWB

Keypa~,
LEDs & LCD

i

I

I
—

THERMAl
HEAD

Printer Data
Control &
Sensors

b

4

CCD PWB

I

OPO[4:0
OPI[3:O]
LEDCT
LCDCS

1

I

I

f

I

I

A

~“

L

I

I

i

I

I

J

~
~

–TEL/LIU

Integrated
Facsimile
I Controller
(IFC-LFE)

CLK1n

>
>
>

I
I

I

v

SYSCLK
MIROn
MCSn

4
M
3

MOTOR

I

TSTCLK
REGDMA

I

VIN
+VREF
-VREF

Scanner
Video
Preprocessing

I

STRB[3:O]
STRBPOL
THADI
*
PDAT
PCLK
PLAT

Scanner
Controls &
Sensors

E

k

3
P

H
A[19:O]
D~:O]
RDn
WRn
ROMCSn

CS[4:O]n

I

Sy;;;;~nc
Port
.

I

SCLK**
TXD*’
RXD**

I
n
4

GPIO

o
A[4:O]
D~:O]
RDn
WRn

*
E

MONOFAX
Facsimile
Modem

GPK)

R96SHF

A[19:O]
RDn
WRn
ROMCSn

External
Bus

CS[4:O]n

I

1

i-I

DEBUGn
VDD
Vss

>

—

Fig. 4

5-5

NOTE:* AlternativeGPO lines
** AlternativeGPO lines.

FO-155A
FO-355A

FEATURES

(4) Modem (R96DFXL) block

●

INTRODUCTION
The Rockwell R96DFXL MONOFAX modem is a synchronous 9600
bits per second (bps) half-duplexmodemwith error detectionand
DTMFreception.It has low power consumption and requires only a
single+5V DC powersupply.The modem is housed in a singleVLSI
devicepackage.
The modemcan operateoverthe publicswitchedtelephonenetwork
(PSTN) through line terminations provided by a data access arrangement (DAA).

The R96SHFis designedfor use in Group3 facsimilemachines.The
modemsatisfiesthe requirementsspecifiedin CCITTrecommendations V.29, V.27 ter, V.21 Channel2 and T.4, and meetsthe binary
signalingrequirementsof T.30.
The modemcan operateat 9600,7200,4800,2400,or 300 bps,and
alsoincludesthe V.27ter shorttrainingsequenceoption.
The modem can also perform HDLCframing accordingto T.30 at
9600,7200,4800,2400,or 300bps.
The modem features a programmable DTMF receiver and three programmabletone detectorswhichoperateconcurrentlywith the V.21
channel2 receiver.
The voice modeallows* host computerto efficientlytransmitand
receiveaudiosignalsandmessages.
The modem is availablein either a 100-pinplastic quad flat pack
(PQFP)or a 64-pinquadin-linepackage(QUIP).
Generalpurposeinputioutput(GPIO)pins are availablefor host assignmentin the 100-pinPQFP.
The modem’ssmall size, singlevoltagesupply,and low powerconsumptionallow the designof compactsystemenclosuresfor use in
bothofficeand homeenvironments.
MONOFAX is a registered trademark of Rockwell International.

Group3 facsimiletransmission/reception
– CCITTV.29,V.27ter, T.30,V.21Channel2, T.4
– HDLCFramingat all speeds

●

V.27ter shorttrain

●

ConcurrentDTMF,FSK,andtonereception

●

Voicemodetransmission/reception

b

Half-duplex(2-wire)

●

Programmablemaximumtransmitlevel:

●

Programmable
transmitanalogattenuation:

●

Receivedynamicrange:OdBmto -43 dBm

●

Programmable
dualtonegeneration

OdBmto-15 dBm
OdB to 14dB in 2 dB steps

●

Programmable
tonedetection

●

Programmable
turn-onandturn-offthresholds

●

Programmableinterfacememoryinterrupt

●

Diagnosticcapability
– Allows telephone line quality monitoring

●

Equalization
– Automatic adaptive equalizer
–

●

Fixed digital compromise equalizer

DTE interface: two alternate ports
– Selectable microprocessor bus (6500 or 8085)
– CCITT V.24 (EIA-232-D compatible) interface

●

~L and CMOS compatible

●

Low power consumption: 275 mW(typical)

●

SinglePackage
-

100-pinPQFP

– 64-pinQUIP

5–6

●

Single+5VDCpowersupply

●

Software compatible with R96MFX, R96EFX, R96SHF, and
R96VFXmodems

FO-155A
FO-355A

R96DFXL (IC5) Hardware Interface Signals

PinNo.
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
Notes:

Pin Signals - 100-Pin PQFP
Pin No.

Signal Name

1/0Type
IA/OB
IAIOB
IWOB

1
2
3

GP03
GP04
GP05

4

GP06

IA/OB

5
6
7

GP07
OVD2
OVD2

IA/OB

8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59

D7
D6
D5
D4
D3
D2
D1
DO
OVD2
OVA
RAMPIN
NC
NC
OVA
+5VD2
OVD1
SWGAINI
ECLKIN1
SYNCIN1
NC
NC
NC
OVA
NC
NC
NC
DAIN
ADOUT
BYPASS
RCVi
TXLOSS3
TXLOSS2
TXLOSSI
NC
NC
OVA
TXOUT
RXIN
+5VA
OVA
AGD
AOUT
OVD1
NC
m
WRITE-W–
m
READ-$2
RS4
RS3
RS2
RSI

GND
GND
IA/OB
IA/OB
IAIOB
IA/OB
IAfOB
IA/OB
IA/OB
IA/OB
GND
GND
R

GND
PWR
GND
R
R
R

GND

R
R
Ic
R
Ic
Ic
Ic

SignalName
RSO
GP13
NC
GP1l
RTS
EN85
OVD2
PORI
XTLI
XTLO
XCLK
YCLK
+5VD1
DCLKI
SYNCIN2
GP16
GP17
OVD2
CTS
TXD
OVD2
OVD2
DCLK
EYESYNC
EYECLKX
EYECLK
EYEX
ADIN
DAOUT
OVD2
EYEY
GP21
OVD2
GP20
GP19
RXD
RLSD
OVD2
RCVO
SWGAINO
GP02

1/0Type
1A
IAIOB
IA/OB
1A
R
GND
ID
R
R
OD
OD
PWR
R
R
IA/OB
IA/OB
GND
OA
1A
GND
GND
OA
OA
OA
OA
OA
R
R
GND
OA
IAIOB
GND
IAIOB
IA/OB
OA
OA
GND
R
R
INOB

1. NC = No connection; leave pin dis~onnected (open).
2. 1/0 Type: Digital signals: see Table 9;
Analog signals: see Table 10.
3. R = Required modem inter-connection; no connection
to host eauioment.

GND
AA
AB
PWR
GND
R
R
GND
Oc
1A
1A
1A
IA
1A
1A
1A
5–7

FO-155A
FO-355A

[3] Circuit description of TEULIU PWB
(1) TEVLIU block operational description
1) Blockdiagram

CML

RECMUTE

,

TELLINE ~

SURGE
PROTECTION
BLOCK

r

1
POLARITY
GUARD —
BLOCK

TA%PULSE
FILTER
BLOCK

ON-HOOK—
BLOCK

DIALPULSE
GENERATION—
BLOCK

SPEECHf
CIRCUIT
BLOCK

HANDSET
TX

“:[

I

L

TELMUTE
SIGTX
4 MODEM
;i:
MPX.B

Y#-DmF

c1

Cl DETECTION
CIRCUIT

L

J
D“

SPEAKER
AMP

SP

I

SPEAKER
DOOFVPAPER
SENSOR

2) Circuitdescription

1

1

I

I

PAPS

3) Blockdescription
1. Cl block

TheTEULIUPWBis composedof thefollowing10blocks,
1. Cl block

This blockis composedof a photocoupler(PC1)and is usedto
convertringersignalintoa digitalsignal.

2. Polarityguardblock

2. Polarity guard block

3. Pulse transmitting block

This block is composedof diode bridge (REC1) and is used to
supply a current and voltage of the same polarity to the telephone
circuit regardless of reversion of polarity in the telephone circuit.

4. ON-hookblock
5. Hookdetectionblock
6. Speechcircuitblock
7. Speakeramplifierblock
8. Power supply and bias circuit
9. Sensorblock

10. Signalselection

5-8

FO-155A
FO-355A
8. Power supply and bias circuit

3. Pulse transmitting block

+24V, +12V and +5V are suppliedfrom the control unit through
the connectorCNLIUB-1-7.

This block is composedof transistor(Ql), photo coupler(PC6)
and zener diode. Dial pulsessuppliedfrom CPUare amplifiedby

transistor(Ql) througha photo coupler(PC6) to the telephone
line.

9. Sensor block
This block is composed of PSNS(photointerrupter),and is used
to sense the presence of recording paper and the cover

4. ON-hook block

open/closeof the cover.

This block is composedof CML relay (CML), and CML is for
connectionof thetelephoneline.

1O.Signal selection

5. Hook detection block

The following signals are used to control the transmission line of
TEUFAX signal.

This block is composed of hook switch (RHS), and is used to
detect on/off of the hook switch and to inform CPU of connection/openof thetelephoneline.

●

6. Speech circuit block

●

This blockis composed of the speechIC (ICI), and is equipped
with 2-line/4-lineselectcircuit, auto pad circuit,and all other circuit.

TEL MUTE : Controls the mute of handset voice transmission
signal.

RECMUTE: Controls the mute of handset voice reception signal.

7. Speaker amplifier block

●

SP-MUTE:

Controls the mute of speaker amplifier.

●

MPX A:

Mutes the transmission drive amplifier.
H: Selected when the FAX signal is being re-

This blockis composedof the speechamplifierIC (IC102),and is
usedto amplifyvoicesignalin monitoringor in speakerreception
withthe amplifierIC andto supplyto the speaker.

ceived
L: Selectedwhenthe telephoneis beingusedor
whenthe FAXsignalis beingtransmitted
. MPXB:

Switchesoverthe gainof receptionamplifier.
H: Amplifier gain decreased
L: Amplifier gain increased

●

MPX C:
H: Receivesignalto modem
L: Externalremote

SignalflowwhenTEL speaking

CML

RECMLITE
I

I

I

TELLINE

SURGE
PROTECmONm
BLOCK

~ ON-HOOK_
BLOCK

TAXPULSE
FILTER
BLOCK

POIARITY
GUARD BLOCK

DIALPULSE
GENERATIONBLOCK

,.,.,

SPEECH $
CIRCUIT
BLOCK
=[

Rx
,.

o

~NDSET

~
TELMUTE
SIG TX

●
●

$k

3:

I

I
SPEAKER
AMP

P“
SPEAKER

OOOR/PAPER
SENSOR
LED

r

5-9

Lso
1+
I

HOOK

[

PAPs&

1

r

I

SP

Sw

RHS

MODEM

FO-155A
FO-355A

3.2. Controlsection
(1)+24V (VM) control

[4] Circuit description of power supply PWB
1. Block diagram
Noiea +
Filter
Cimuit d

AC IN

Regulater
*
Circuk

Switching

Rectifying~
Smoothing
Circuit

Circuit

12V

— Regulater*
Circuit

(RCC
avstem)
.
.
.

II

I

5V

() vMrvni

t

&l$+

Phot*pler

Fig. 1. Block diagram

2.General description
Theinputvoltageis 187VAC - 276VAC conformingto ULstandards.
The outputs are+24V(VM),
+5V,+12V.The overvoltageprotection
functionfor protectionof the load in case of powerabnormalityand
the overcurrentprotectionfunctionfor protectionof the powersupply
itselffromoverloadareadded.

3.Operational description
When230-240V/ACpoweris supplied,it is passedthrougha noise
filter to the rectifiersectionwhereit is smoothedto about300Vthen
suppliedto the invertersection.The invertersectionemploysonetransistorON/OFFself-excitedinvertor(R.C.C.system)and a stable
DCvoltageis suppliedto the secondaryside.
Theoperationof eachsectionis describedbelow:

3.1. Invertorsection

A voltageis generatedin the secondarysideby repeatedoperations of 3.1, and the outputin the secondary side is dividedby
R14,VR1,and R15to be inputtedto Q4. The dividedvoltageis
adjustedto about6.2Vby VR1.Q4 alwaysmonitorsthe divided
outputvoltage.Whenthe outputvoltageexceeds+24V,the divided voltage also exceeds6.2V and Q4 judges it as an increase in the output voltage. Then photocouplerPC1 is lit
throughR13to turn on the transistorin the light receivingside,
supplyinga current to the base of Q3, turning off Q1. (The
current which is to be passedthroughthe additionalline, R8,
and C8 to R4 is bypassedby Q3). Resultantly,ONtimeof Q1 is
shortenedand the energystored in the primarywindingis decreased,limitingthe increasein the output voltage.When the
output voltagebeginsto decrease,the light quantityof PCI is
decreasedto lengthenthe ONtimeto Q1. As a resultthe energy
in the primarywindingis increasedto compensatefor the decreasein the outputvoltage.
The negativefeedbackcontrolis repeatedto stabilizethe output
voltage.
(2) +5V,+12Vcontrol
The outputsof +5V and +12Vare stabilizedby the three-terminal regulatorICS(IC1and IC2).The overcurrentprotectionfunction protectsthe regulatorICSthemselves.
(3) NoiseFilterCircuit
The input noise filter section is composedof L and C, which
reducesnormalmodenoiseandcommonmodenoise.
Circuit
(4) Rectifying/Smoothing
The AC inputvoltageis rectifiedby diode D1 and smoothed by
capacitor C5 to supply DC voltage to the switching circuit section. Power thermistor TH1 suppresses inrush current at power

switch-on.

ZDI

R4
18K

7

a

RD27

(5) SwitchingCircuit
Thesystemappliedin this circuitis the self excited ringing choke
convertor(RCC).In this system,the DC voltagesuppliedfrom
the rectifying/smoothing
sectionis convertedintohighfrequency
pulses by ON/OFF repetition of MOS FET QI. Energy is
charged in the transformerTI during ON period of Q1, and
dischargedto the secondarycircuitduringOFF period.The output voltageis controlledby automaticadjustmentof ON period
of QI. The ON periodis determinedby C9 chargetime changed
according to 24V output through operation of photo-coupler
PC1.The overcurrentprotectionis performedby dringingQ1 to
OFF state throughdetectionof voltageincreasein the auxiliaty
windingof T1 by ZD2 and R11. The overvoltageprotectionis
performedby operatingthe overcurrentprotectioncircuitthrough
destructionof zenerdiodeZD3.

R9

103
~

—
1S2471

+
+

I[
6

,,
R3
470

(6) +5V,+12VCircuit
EachDCvoltagesuppliedby rectifyingthe outputof transformer
T1 with diodeD4 or D5 is stabilizedby 3-terminalregulatorICI
or IC2.

2S::W2
2S%18 ‘

3.3.Overcurrentprotectionfunction
Whenthe voltageacross R4 reachesthe gate ON voltagethrough
R5, R6,and R4,QI beginsto turn ON,flowinga currentfr;m pinl ;f
T1 primarywindingto pin3.Thena voltageis generatedfrompin5 of
auxiliarywindingto p~n4,turningQ1 gateON completely.The drain
current increaseslinearly to store energy in the primary winding.
However, voltage across R3 turns ION Q2 thorough R9 when the
drain current reaches a certain level. As a result, Q1 ga~evoltage falls
below the threshold voltage (about 4V) of the gate and Q1 turns off.
Simultaneously when QI turns off, the energystoredin the primary

winding is inducedin the secondarywinding to bias the rectifier
diodes D4, D5, and D6 forwardly,smoothingeachoutputcapacitor.
Thusa DCvoltageis obtained.

5-10

Whenthe outputcurrentin the secondaryside increasesto become
an overcurrentor shortR2/R4detectsthe draincurrentto turnon Q2.
The gate voltageof Q1 is controlledto shorten ON time of QI to
protectthe circuitfromtheovercurrent.

3.4.Overvoltageprotectionfunction
When the output voltage is abnormallyincreasedand ZD3 zener
voltage exceedsabout 30V, ZD3 is shorted to operate the same
procedureas the overcurrentprotectionfunction.To reset,turnoff the
AC switch,removethe cause,andreplaceZD3witha newone.

3.5. Hightemperatureprotectioncircuit
Thermal fuse F3 included in the power circuit is blown when the
surfacetemperature of rectifier D1 exceeds about 115 degreesCentigrade.(about239°F)

FO-155A
FO-355A

3.6 Rushcurrentlimitingcircuit

3.7. Linefilter

When AC power is supplied, a rush current flowingthroughcapacitor
C5 may blow fuse F1 and damage the circuit. To prevent this, the
powerthermistorTH1 is provided to limit the rush current.

To protect against external noises and noises generated in the power

circuit, the line filter is cmposed of LI, L2, Cl, C2, C3, and C4 to
reducenoises.

(Waveform)
. At standby

+

GND

GND

!

\

GND

5Vldiv 2@ldiv

4%
1

m

C1l
..

4

RI I
~

1

1

r

1

+

r

!

+

1

,

r

[

1

1

GND

I

(

1 1 !

I

111

. When the overcurrent protection circuit works

5V/div 0.2ms/div

IOOVldiv 0.2ms/div

“GND

5-11

GND

I

FO-155A
FO-355A

(2) Description of blocks

[5] Circuit description of CCD PWB
The CCD board picks up opticalinformationfrom the document,con-

verts it into an electrical(analog)signaland transfersit to the control
bead.

1.

CCD

The TCD1200SUP is a highly sensitive charged coupled image sensor that consists of 2160 picture elements.

Receivingfourdrivesignal(@T,@2,@l,oR)fromthe controlboard,the
transferredphotoelectricanalog signal OS is impedanceconverted,
andthesignalVO,is suppliedto thecontrolboard.

(1) Block diagram

2. Waveforms
—

1. $1,$2 (=$1)signalswithinthecontrolboard.

$T~

......

J:;prOx”’v

““=’’’uuu”uuln;;prox”;vprox
Approx.5V

Vo

+

1

OUTPUTCIRCUIT
(emitter follower) H
J

0“
1

Approx.IOOmV

Fig.8
Fig.9

5 – 12

FO-155A
FO-355A

CHAPTER6. CIRCUITSCHEMATICSAND PARTSLAYOUT

(

t

(

u

NC

;
~
3
NC
NC

NC
Nc

Nc
Nc

NC

: NC
‘ Nc

Nc

:.

NC
NC
NC
NC
NC
NC
NC
NC

Nc
NC
NC
NC
NC
NC
NC

u

:
~
~

73
,4

~

Nc

1:;::

NC
NC

+VREFw
-VREF w
VIN 67
THADI=

NC 106
NC
NC
NC
NC
NC

c

;:;

::

;;;

NC

TSTCLKIW
SY;:;::

113 ‘c
1;: ;:

NC

E

GP03 ‘5
SMO‘m
SM1 ‘m
SM2 lW
SM3 103

—

,

.

I

41
48
81
102
123
‘;;

r

c

69

“j~

(2-3C)
(2-4C)

10:

E

GPD2 ’16

VDD
ADGD
ADGA

(3-2H)
(3.IH)
(3-2H)
~~5H)

T~~

GPD01’8R127
117
GPD1

28

45

u

‘VREF
-vREF
‘IN
THADI

R129
R252

R2S6

~pXB

“2*MP;
—
’253 ;%

’25’

;~~

(1-lG)
CNLIUB-

CNLIUBCNPN-1
(3-3A)
(3-3A)
(3-3A)
(3-3A)

(4-4E)

(4-4E)
(4-4E)
(4-4E)
CNPN.6
CNPN-16
CNPN-14
CNPN.12
CNPN-10
CNPN-8

m
3
n
.-s

n

S

-----

ULLLLLL

ZJZA3
-----

6-1

FO-155A
FO-355A
a

m

v

1

R2s4

(3-4F)},CONT

CNCUT-4bcuTsw’

M
R260 [

CUTC1

470

I

OVD2

R2s3
GP21i

GPmi
GP19i
R25SV76
75 GP17i
10K

~?~

NC

92

.;;R~;V;;

CN;2U;;; CUTSW2

(4-3E)

97

~

GP16i
yo;g 6’ GP13

I

w

I

m

I

N

FO-155A
FO-355A

-E

-.

I

0
u

,.

I

(

<

6–3

FO-155A
FO-355A
a

I

In

9

1

m

I

N

I

-E:

1

.

1

FO-155A
FO-355A

Control PWB parts layout
(Bottom side)

Control PWB parts layout
(Top side)

6–5

FO-155A
FO-355A
fD

I

m

m

*

N

I

N
I

.

—

u
L

u

K
>

L-

FO-155A
FO-355A
w

I

In

I

.+

I

.

I

m

I

I

I

I

‘Iml
—

I

I

11
l--=’

~

II

I

Ai, I

I

fll
I

I

. i

r.

1

.

c

I

“>

I

*

I

6-7

FY

I

m

I

FO-155A
FO-355A

TEULIU PWB parts layout (Bottom side)

TEL/LIU PWB parts layout (Top side)

1

6–8

FO-155A
FO-355A
(9

m

I

I

1-

‘1

*

I

N

I

A
r

m

I

In

L

,
I

I

FO-155A
FO-355A

—

m
3
n

~~•
“RDENT2087FFZZ
MODEL :T2087
~
D2189-4001AT

6-10

FO-155A
FO-355A

OD
DOS

3
2

NC

0s E‘

r—

‘,

6-11

FO-155A
FO-355A
(D

In

I

*

I

CY

m

I

Q
y

z
v

x

[

Ob
NI
?

J

I

(

—

u
L

;
,
I
,

L

,
L

T6 I
-Y
T
0
I
n

1
,
1
I
I

z

-----

-Y

c

T
nI
Y
T
.I
J

.. ----

.

c

:t
m

m

K

—

<

6 –12

FO-155A
FO-355A

Operation panel PWB parts layout
(Top side)

Operation panel PWB parts layout
(Bottom side)

.

J

6 –13

FO-155A
FO-355A

CHAPTER7. OPERATIONFLOWCHART
[1] Protocol
Receiveside

Transmitter
side

G3communication

(Document inserted into
document sensordurin

standby)

F
CED

Torecording-------position

CED

NSF

NSF

Csl

Csl

DIS

DIS

I

‘s’ ~

------ Document
insededto
thereadingposition

‘S1

(DCS
‘ss

~

i

F

NSS

r

(DCS)

CFR

CFR

RTC
------------Cutlineprinted--------------

Nextpage inseri
command

I

I

1MCF

1

t

RTc ~

Cutlineprinted---------------

I

FITC

EOP

r

EOP
~E

MCF

MCF

‘c”
~
3
--------------

DcN
Recording
paporejected

7-1

c

-------.-----_-- Documentejected

FO-155A
FO-355A

[2] Power on sequence

START

I

I

CPUinitialized
MODEM initialized

‘WAIT A MOMENT” display

I

“MEMORY CLEAR ?“ display

NO

I

1’
YES

] NO
YES

I NO

o
2
I

YES

—
I

I

“MEMORY CLEARED” display

NO

1

“MEMORYCLEARED”display

&
[

4

STAND-BY

7–2

Memoryclear
I

Memory clear

STAND-BY

f PROCESS CHECK MODE>

I

(

FO-155A
FO-355A

CHAPTER8. OTHERS
[1]Service tools
1. List
DESCRIPTION

PARTSCODE

I NO.

Q’TY

PRICE
RANK

Q’TY

I PRICE
. .. ..... I

Extension board unit

u

“o

00

0

00

0

*r-,

vu

CNMIC3 CNPS2 CNCUT2
qqp
~

~2~lmciBn
21 CNCSW2 2 1
cNED24~l

4

~D
13

P

PNSNSA

HSW

n

CNMT2

C~H2

CNSNS

0

CNPSI

CNCLJT1

mm
31

6

CNB;2

IF

‘ c@2

1

21

CNTH1

~cNLEDl
13r-pp

CNMIC1

;NSP1

CNBZ1

~

CNM71

-i 1
CNCCD1

0

Q=

GCMK-C2X

o

LNO.

1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25

I

PARTSCODE

Q C N W-3872 SCZZ
QC N W–44 13 SCZZ
Q C N W-448 1 S CZZ
QC N W-3868S
CZZ
Q C N W-3870S
CZZ
Q C N W–3882 S CZZ
Q C N W–44 11 S C ZZ
QC NW-4 112 SCZZ
Q C N W–3869 S CZZ
QC NCM701 4SCOG
QCNC M70 1 4SCOB
QC N C M 2401 SCO F
QCNC M70 14SC0 F
QCNCM2482SC
1F
QCNCM701 4SCOC
QCNCM70 1 4SCOD
QCNCM2401
SCOB
QCNCM70 14SC 1 c
Q S W-Z2 206 S CZZ
VH G P 1 S 58 V1l - 1
Q PWBS2758SCZZ
VR D- RC2EY22 1 J
QC N C M 2442 SCOB
Q C N W-4236 S CZZ
QCNCM2401
SCOC

I

DESCRIPTION

CABLE(CNTH2)
CABLE(CNSNS)
CABLE(CNCSW2)
CABLE(CNLED2)
CABLE(CNMT2)
CABLE(CNPS2)
CABLE(CNCUT2)
CABLE(CNCCD2)
CABLE(CNSP2)
CONNECTOR(CNCCD1,CNCCD2)
CONNECTOR(CNLED1,CNLED2)
CONNECTOR(CNCUT1,CNCUT2)
CONNECTOR(CNMT1, CNMT2)
CONNECTOR(CNPN1,CNPN3)
CONNECTOR
(CNPS1, CNPS2)
CONNECTOR
(CNSNS)
CONNECTOR
(CNSP1, CNSP2)
CONNECTOR(CNTH1,CNTH2)
HOOKSWITCH(HSW)
(PSNS)
EXTENSIQNBC)ARtI{WITHOUTPARTS)
RESISTOR(1/4W220S2*5%) (Rl )
CONNECTOR(CNCSW1,CNCSW2)
CABLE(CNMIC2)
CONNECTOR(CNMIC1,CNMIC2)

8–1

I

1
1
1
1
1
1
1
1
1
2
4
2
2
2
2
1
2
2
1
1
1
1
2
1
1

RANK

AP
AX
AG
AE
AH
AF
AH
AG
AE
AB
AD
AB
AB
AF
AA
AB
AA
AC
AH
AE
AA
AB
AE
AB

FO-155A
FO-355A

2.Description
2-1. Extension board unit
1. Remove the TEULIU PWB, control PWB and PowerSupplyPWB

fromthis unit,and mountthe extensionboardunitinstead.
●

Before connectingthe wiring to the extension board unit, set
the test PWB switches to the fixed position.

2. The setting is as follows.

A set with a mounted
extensionboard unit
Cable
Connector
CNCSW2 QCNW-4481SCZZ
I CNMT2
— 1I QCNW-3870SCZZ i

Cablecolor
1.Black
I 2. Brown I
3. Red
4. Orange

[:
=

CNCCD2 I QCNW-4112SCZZ
i8SCZZ J

CNSNS Connectedto (PWB)
PSNS CNLIUA-6
I
RHS I CNLIUA-12
N.C.
HS1
HS2

N.C.

I

CNSNS I QCNW-4413SCZZ1

The recordingpaper sensor (PSNS)and the hook switchare operated by OR of the mechanicalunit switchand the test PWB switch.
When performing installation in the machineunit, set the test PWB
switchesto the fixedposition.

CONTROL
PWB

1
1-

Recordingpaper
sensor
HookSW

Mechanicalunit
PWBto betested
Actualoperationwithmechanicalunit
ON/OFFoperation ON (Photointerrupteris
interrupted.)
ON/OFF operation

ON

PWB sensor check

Recordingpaper

ON

ON/OFFoperation

ON

ON/OFF operation

sensor

HookSW

8–2

FO-155A
FO-355A

@ Lightly loosen the red screwsof the CCDpwbandobtainthe VID

2-2. Scan optical system adjustment

signal waveform in synchronization with $T signal waveform. Adjust the CCD pwb positioningto obtainthe waveformas shown

(1) Outline

below.

The adjustmentproceduresof the scanopticalsystemare described
below:
(2) Adjustmentprocedures

Scanadjustmentjig
/

Switchoff the machine and disconnect the AC power cable from
the wall socket.

-1

““’’”[)

\

Fully open the upper cabinet,removethe fixing screws of the
recording paper tray and removethe recordingpaper tray. In
order to performa focusadjustment,removethe opticalsystem
unitfromthe frame.

I

Disconnectthe mainpwbfromthe TEL/LIU pwb.

I

Connectyour oscilloscopechannel1 to the VIN signaland channel 2 of your oscilloscopeto $T signal (Refer Pin 4 of connector
CNCCDon the mainpwb).Connectthe earthclipsof eitherprobe
to AG groundas shown.Setthetriggerto channel2.

I
I

n

/

d~

4

Opticalsystem
unit

o

“o

Referencesurface

‘L

0

0

1

)

CCDwaveform

VIN
(CH1)

I

OT
(CH2)

I

~

I

CNCCD
n

/

ROT F

DIOI
VID CNCCD-I
@TCNCCD-4
VG CNCCD-3

1.81msec

H
0.5msedDlV

+

A

w“

Re-connect the main pwb to the TEULIU pwb and connectthese

circuitboardsto theconnectorsonthe chassis.

*1:

●
2:White

level

: Increase
thedifference
byfocusadjustment.
: Adjustasshownby
CCDPWBadjustment.

Re-assembleup to and includingthe recordingpapertray to the
mainchassisandcloseuppercabinet.
Plug the AC power cable into the wall outlet and turn the fax
machineon.
[CCDwaveformmodel]

Insed a test chart in the document hopper and execute the CCD
Adjust Mode diagnostic. Press the START key to enable local
copy until approximatelyone fifth of the page has been copied,
then press the STOPkeyto enablethe CPU wait state.

@ Afier completingthe CCDadjustment,tightenthe two red screws
on the CCD pwband applyscrewIockin-gmaterialto prevent the
CCDpwbfrommoving.

Fully openthe uppercabinetandremovethe recordingpapertray.

@ Assemble the recording paper tray and fixing screws.

Installthe scan adjustmentjig to the opticalsystemunit, so that
the patternsurfaceis on the lowerside.
Fit the pins of the scan adjustment jig to the holes of the optical
system frame.

8–3

FO-155A
FO-355A

[2] IC signal name
CONTROL P.W.B. UNIT
IC5:VHiR96SFELC-1(R96DFXL)
Refer to the table on p. 5-7.

IC4:VHiM5255CF70L(M5M5255CFP)

IC6:VHiNJM4558MF-(NJM4558M)

(TOPVIEW)

OUTPUT1

pa

INVERTINGINPUT1 2

NON-INVERTING
INPUT1 3

Vcc”

P

1

Vcc

w
A13

8 VCC+

-

7

+

+

4

OUTPUT2

6

INVERTINGINPUT2

5

NON-INVERTINGINPUT2

A6 4

A8

A5 5

A9

8

d

a
o

A4 6
A3

E

7

21 AlO

9

m

AO ~

d

DQ2 12

a

Signal

I

OE
I Writeenable
I 1/01-1/08 I Data 1/0
I

VCC

I PowerSource

I

DQ7

I

GND

I

DQ6

I

N.C.

I Ground
No connection

DQ4
28P2W-C (CFP)

IC103:VHiLM318M//-l(LM318)

ICIOO:VHiBU4053BCFl

INPUT

2 —

-

—

+

7

v+

5

BAUCOMP3

32

(BU4053BCF)

Xo

Y

Switches
In/Out

xl

2

Yo

1

YI

5

Zo

.3

?}

z

ZI

VDD: Pin 16
VSS: Pin 8
VEE: Pin7

8–4

15
+~

+
13

I

I

OQ8

DQ5

GND 14

TOP VIEW

I

b23 Al 1
22 S2

A28
Al

I Pinname

Common

Out/In

4

I

FO-155A
FO-355A

IC2:VHi27CO1012T!
(TMS27CO1O)

IC7: VHiULN2003ANS(ULN2003)
lC

EP-ROM

2C 3C 4C 5C 6C 7C COM

(TOPVIEW)
w

J
VPP 1

A’

27 A8

Pinname
AO-A16
E
G
GND
NC
PGM
DQ1-DQ8

A5

26 A9

Vcc

A4

25 Al 1

VPP

~ PGM

Al’ 2
A15
A12
A7

19 29 39 4B 59 69 79

E

d

I
24 ~

A3 9

a

M 10

23

21 DQ8

AO

20 DQ7

DQ1

19 Do’

DQ2

18 DQ5

D03
Controls<

Switches
In/out

;11

A

10

B

GND

:2
~9

c

fi3

Xo

‘ 12

x3

1

x4

fa
‘5

IC105: VHiLMT2904DR2
(LMT2904)

VHiLMT2903DR2(LMT2903)

●

x5

12

(’) Onlyinthe programmode

AlO

22F

Al 11

IC1OI:VHiBU4051BCFl(BU4051BCF)
—

Signal
Addressinput
Chipenable
Outputenable
Ground
No connection
Program
Data output(Programinput)
+5V power
+12.5V power(*)

8

1. A OUTPUT
2. A- INPUT

X6
a

7
VDD:Pin16
VSS: Pin8
VEE: Pin7

3. A+ INPUT
4. v5. B+ INPUT

6

6. B- INPUT
7. B OUTPUT

5

ICI: VHiTA7291PV-1(TA7291P)

8. V+

lC104: VHiPST591CMTl(PST591C)

< 5
Rmm

w“

VG

Vcc

OUT1
OUT2

VOUT

GND

I

8–5

@ MANUAL
RESET

FO-155A
FO-355A

TEULIU P.W.B.UNIT

PANELPWBUNIT
ICIOI: VHi74HC147/-l(74HC147)

IC104:VHiBU4053DR2

Controls{

11

A

,,ti10
\9
‘-l

B

4

c

5

c 54

6

c 6

D3

14 D

7

c 7

33

13 3

8

c 8

23

12 2

c

cc
c B~9

13

11 1

3

10 9

52

Xo

‘13

xl

2
,

:

Switches
In/Out {

Inputs

Common
Out/In

{

i
outputs

{

16

h

B

15 NC

v

GND

9

VDD: Pin 16
VSS: Pin8
VEE: Pin7

IC102,103:VHiNJM4558MF-(NJM4558M)
IC104:VHiNJM2113M-1(NJM2113M)

‘“’”1+”
INVERTING INPUT 1

b

8 VCC+

-

NON-INVERTING
INPUT1 3

Vcc-

7

+

+

4

OUTPLJT2

6

INVERTINGINPUT2

5

NON-INVERTINGINPUT2

LN

15 AGC

GAS2

14 REG

GAR
-“.

DTMF
MUTE

Vcc
REG
AGC
SLPE

-

. . .

.

.

.“

.,,...,”,

, . .wceivi~amplifierinput
I 11 I Dual-lonemulti-fraquency
input
I 12 I Muteinput
13 Positivesupplydecoupling
14 Voltageregulatordecoupling
15 Automatkgamconfrolinput
16 Slope(DC resistance)adjustment
.“

16 SLPE

GAS1 2

OR

1

m
1

I

MICMIC+
STAB

3

a
4

il

8 V02

FC2 2

7

GND

FCI

6

VCC

3

VIN 4

ICI: VHiTEA1062A-1(TEA1062A)

SYMBOL PIN
DESCRIPTION
LN
1 Posilrvelinetermmal
GAS1
2 Gainadjustment:
tranarniting
amplifier
GAS2
3 Gamadjustment:
transmitting
amplifier
OR
4 Non-mvertmg
output:receivinu

m

CD 1

P@
2

b

13 Vcc

5

12 MUTE

6

11 DTMF

7

10 IR

8

9 VEE

8–6

5 Vol

(TOP VIEW)

Vcc

A

Output

Inputs
}

J
output

SHARP

PARTS GUIDE

MODEL

FO-155
FO-355
Y

CONTENTS

❑

Cabinet, etc.

❑

Control PWB unit

❑

Upper cabinet

❑

TEL-Liu PWB unit

❑

Document guide upper

❑

Power supply PWB unit

❑

Drive unit

❑

CCD PWB unit

❑

Optical unit

❑

Hardware parts

❑

Packing material &Accessories

■

Index

Becauseparts markedwith “~” is indispensablefor the machinesafetymaintenanceand operation,it mustbe
replacedwiththe partsspecificto the productspecification.

FO-155A
FO-355A

❑

Cabinet, etc.
B13+

113

B13

41 \>

56

la

57

;1

I

W2

i

P

I

B13

)

,

613

.60

h

w

:

8,

w\
11

>

–1-

\

39

FO-155A
FO-355A

❑ Cabinet, etc.
PARTS

NO.

1

CODE

~ CPNLC

236 1XH15
CPNLC
236 1XH20
2 C C NW–4 436 X H O 1
s DC E KC8 8 7G X H Z Z
DC EKC8 8 9GXHZ
Z
4 DC EKL 46 2AXH0
2
5 GCABB2265XHz
A
6 RCORF

A

7
8
9
10
11

A

I

206

3XH

ML EVP2203XHz
MS PRP2687XHzz
NR~LP2249XHzz
MLEVP2204XHzz
LBNDJ2006XHzz
12 QACCL762AXHzz
13 RCORF2064XHzz
14 LPLTM2755XHzz
15 GLEGG2061xHzz
16 GC0VA2355xHzA
GC0VA2356XHzA
17 LBSHP2063xHzz
18 NGERH2282xHzz
19 NR0LR2313xHzz
20 PGi DM2432xHzz
21 PGi DM2433xHzz
22 QCNW–4434xHyz
23 RHEDZ2046XHzz
24 MSPRC2691XHZz
25 MSPRD2787xHzz
26 PGiDP2430XHzA
27 QCNW-4433XHYZ
28 NGERH2283XH01
29 LBSHP2068XHZZ
30 MSPRP2788XHZz
31 NGERH2286XHzz
32 NR0LR2316XHZZ
33 NR0LR2315XHZZ
35 PGiDP2431XHZA
36 PSHEZ3031XHZZ
37 PSHEZ3150XHZZ
38 PSPAZ2199XHZz
39 RDENT2087XHzz
40 LFRM–2155XHZZ
41 MLEVP2202XHZZ
42 GDAi –2071XHZA
43 LSTPP2042XHZZ
45 TLABH3803XHZZ
TLABH3803XHYZ
47 GC~VA2357XHZA
Jg PH~P–2087XHZZ
PHOP–2088XHZA
49 LANGF280-2XHZZ
50 LPLTP2754XHZZ
51 MSPRC2793XHZZ
52 NSFTZ2255XHZZ
53 PCUT–2032XHZZ
54 QcNw–4439xHY2
56 VHPSG1
13///–1
57 LPLTP2775XHZZ
601SPAKA4346XHZZ

22

A

PRICE NEW PART
RANK MARK RANK
BR
N
D
BQ
N
D
c.d
AF
E:
CB
N
CA
N
E.:
E:
BR
N
D
BB
E3
AF
c
AD
c
AC
c.J
AE
c
AD
c
AA
E3
AY
B
AF
AL
I c
c
AE
D
AV
[)
AV
c
AC
(..
AC
.
(u
AR
c
AD
AD
c
AE
N
c
BT
N
EB
c
AB
c
AD
c
AX
AP
N
(c
AF
c
(c
AC
c
AD
AC
(c
(c
AX
(c
AS
(c
AE
c
AA
N
c
AF
AQ
I c
E
BS
N
AU
c
c
AD
D
r
AT
(c
AC
c
AD
(c
AF
N
c(
AV
c(
AG
AM
c
AE
I c
c
AR
c(
AE
N
c
AF
c
BK
N
c
AF
B
I
AP
AQ
c
N](
I AH I
I c

DESCRIPTION
IUP]per cabinet ass’y
!UPp~er cabinet ass’y
Speaker ass’y
Control PWB unit
Control PWB unit
TEL– Liu PWB unit
I Lower cabine?t
I Core (TRA20)
I Hook swiItch lever A
\ Pinch pressing spring 2
] Pinch roller 2
IHOOIk switch lever B
\Ballnd (GT–100M)
AC cord ass’y
Core (TRA31)
Shield sheet
IRubber leg
IRecorrding paper cover A
I Recording paper cover A
IRollerbearinq
ITransfer roller 1 gear
ITransfer roller 1
Head guide:, right
Headgl uide, left
Head earthcable
IThermal head
\Head1pressure spring
IPapelrsensor lever spring
lDocument guide lower
IHed cable
IPap ~erfeed roller gear ass’y
IPlaten bearing
IHoP1per spring
Platen gear
Platen roller
Paper feed roller
Hopper guide
]Ja{cksheet
I Blind sheet
]Spacer
Power sup]ply PWBunit
Head
Pape!r sensor lever
IRecording
paper cover B
‘IPanel stopper
paper set label
Recording paper set label
Hopper cover
Extention hopper
I Extension hopper
Sensor bracket
Anti curl
Anti curl spring
Anti curl shaft
Cutter
Sensor cable
Paper sensor
Squeeze plate
Protection sheet

[155A]
[355A]
[155A]
[355A]

[155A]
[355A]

[355A]

~

[155A]
[355A]
[355A]
[155A]
[355A]

[355A]
[355A]
[355A]
[355A]
[355A]
[355A] _
[355A]
[355A]

I

-2–

FO-155A
FO-355A

❑

Upper cabinet

1

~

Document guide upper

–3–

FO-155A
FO-355A

~

Upper cabinet
NO.

PARTS CODE

1 DC E KP4 43 AX HO 1
2 GCABA2 264 XH Z F
3 HP NLC 236 IXHZA
HPNLC2361XHZD
4 JBTN–2157XHZA
5 JBTN–2158XHZA
6 JBTN–2159XHZA
7 JBTN–2160XHZA
8 JBTN–2161XHXA
9 JBTN–2162XHZA
10 PSHEZ3124XHZA
11 CCNW–4431XH01
12 PSHEZ3158XHZZ
13 PSHEZ3159XHZA
(Unit)
~ol CPNLC2361XH15
CPNLC2361XH20

❑

PRICE NEW PART
RANK MARK RANK
E
BL
Operationpanel PWB unit
D
Upper cabinet
AS
N
D
AH
Decorationpanel
D
Decorationpanel
AS
c
Diai key
AK
c - Direct key
AG
‘AF
c
Start key
AD
c
Stop key
c
Mode key
AE
N
c
Volume key
AC
c
Protect sheet
AF
N
Panel cable
AT
N
c
AB
N
c
Anti vibration sheet 1
AF
N
c
Anti vibration sheet2
8R

N
N

D
D

Upper cabinet ass’y
Uppercabinet ass’y

Document guide upper

-4-

DESCRIPTION

[155A]
[355A]

[155A]
[355A]

FO-155A
FO”355A

❑

Drive unit

❑

Optical unit –

B2

❑

Packing material& Accessories

–5–

FO-155A
FO-355A

~ Drive unit
PARTS CODE
I\ NO.2 IL F RM–
2153 X l-l Z Z
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18

LPLTM2
74 1 XHZ Z
MCAMP2019XHZZ
MCAMP2020XHZZ
MLEVP2190XHZZ
MLEVP2191XHZZ
MSPRC2735XHZZ
MSPRD2736XHZZ
NGERH2276XHZZ
NGERH2277XHZZ
NGERH2278XHZZ
NGERH2279XHZZ
NGERH2280XHZZ
NGERH2281XHZZ
RMOTZ2121SCZZ
MLEVP2194XHZZ
MSPRD2744XHZZ

PRICE NEW PART
DESCRIPTION
RANK MARK RANK
AU
c
Drive system mounting frame
c
Heat sink
AE
AC
c
CamA
AC
c
CamB
Planet gear leverA
c
AC
Planet gear leverB
AC
Planet gear spring
AC
:
c
Cam hold spring
AC
ReductiongearA
c
AC
ReductiongearB
c
AC
Pianet gear
c
AC
c
idler gearA
AC
ldlergear B
c
AC
c
ldlergear C
AD
B
AZ
N
Motor
AC
c
Changelever
AB
c
chanEeleversDrinE

H ODtical unit
PARTS CODE

NO.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15

DCEKD464AXH11
LFRM–2147XHYA
MSPRP2512XHZZ
MSPRP2618XHZZ
MSPRP2619XHZZ
PGLSP2043XHZZ
PLNS–2043XHZZ
PMi R-2061XHZZ
PMi R–2062XHZZ
PSHEZ2879XHZZ
PSHEZ2915XHZZ
QCNW–4441XHYZ
VHPSNK08A24–1
PFLT–2006XHZZ
PCUSS2075XHZZ

1,-lnntlee

Lolruuaazu

rln-fr”,,77

1 OAtl~L

I

PRICE NEW PART
RANK MARK RANK
BF
N
E
CCDPWB unit
AV
c
Optical frame
AK
c
Lensholding spring
hnlriinu cnrinu I
AD
,,.s,,
c. 1 Mirrnr
AD
c I Mirror holding; spring 2
c IReaderglass
AK
AU
Lens
B
AH
Mirror 1
c
AM
c
Mirror2
AK
c
Shield sheet
AY
c
Blind sheet
c
AE
N
LEDcable
AZ
B
LED(SNK08A24)
Himalnn
r!
AA
....... .. .. ~haat
AA
Cushion 1
c
Cushion2
I Afi
I
”.

,,”,”,,,~

~p,,,,~

I

DESCRIPTION

-

I

-....”.

;

AR

6[ PackinE material &Accessories
——

I NO. I
I

I

I

I
I
t

I

1

“llnoNw-jy

1——

PARTS CODE
-,.-.,..,,,x,bKH

AKA3001
cc;;
4\TiNSE3553
XHZZ
5TLABH3733XHZA
.-,.-,
ITIARH3733)(HYA
-,..,..-,
UUNIK424AXHOG
6 nllklTKd92CjxHE2
A4656XHZZ
1
;lzD’A”uq465tjxH
zz
1. arnfiC4766XHZ
Z
SPAKC4772XHZZ
..--,-.
11
-- SPAKP?-”
. . ..... .3363>LLL
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13 sPAKA4tJ31AHLL
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Hand set
Sidepad, left
Sidepad, right
Packing case
Packing case
Vinyl cover
AddV
Vinyl bag( 240X360mrri)
Recordingpaper tray

–6–

[155A]
[355A]
[155A]
[355A]

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[355A] .

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Control PWB unit

PRICE NEW PART
RANK MARK RANK
AK
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C.nacitnr
(1 KWV 10AF)
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5 V C E AG A 1 EW2 26 M
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c
Capacitor (25WV 22fl F)
6 V C E A G A 1 EW 226 M
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c
Capacitor (25WV 22AF)
7 V C E A G A 1 CW 106 M
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c
Capacitor (16WV IOgF)
8 j V C E A G A 1 EW2 26 M I A B
c ICapacitor (25WV 22UF)
9 V C E A G A 1 EW 226 M
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Capacitor (25WV 22,uF)
c
10 V C E A G A 1 HW 1 06 M
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c
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11 V C E A G A 1 CW 106 M
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c
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12 VCKYTV
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c
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13 VCKYTV
lCF 1 05Z
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c
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(RflWV
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18 VCKYTV 1HB222K
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21 VCKYTv
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24 VCKYTVICF
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25 VCKYTVI --f!F ---1 n 57
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27 VCCSTV IHL 10 2J
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29 VU CSTV
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96 vRs–Ts2ADoor3J
97 vHDls.s355//-l
98 vHDlss355//–l
99 vHDlss355//–l
100 vHDDAP202u/–l
101 vHDls.s355//-l
102 vHDlss355//–l
103 VHV i CPS07”/-/–l
104 VH i TA729
1“P’v–1
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105 VHi27010FUBOH
VHi27010FTS0G
106 VHi R96SFELC–1
107 VHiM5 1255CF70L
108 VHi R96SFELC–1
109 VHiNJ
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110 VHi ULN2003AN/
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112 VHiHE
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Capacitor(50WV1000PF)
~=macitor(5C)WV1000PF)
Capacitor (50WV 1000PF)
Connector(7pin)
Connector(2pin)
Connector(6pin)
Connector(12pin)
‘i-nnector (14pin)
IUull
IConlnector (6pin)(SF– 1018)
In .uu[lnector (16pin)
Connector(3pin)
Connector (8pin)
Iuor
- lnector(13pin)
n-.
mesistor(lW
62Q ~5%)
Diode(RD22FB)
Resistor(l/10WO~ k5%)
Resistor(l/10w OQY5%)
Diode(lSS355)
Diode (lSS355)
Diode(lSS355)
Diode(DAP202U)
Diode(lSS355)
‘ifide(lSS355)
I w,””
--.–-.– (iLr—bU./j
/,An -a-.
“r Pmfi-’=-’~r
1P)

IC socket ((32pin)
ICROM(fC~rEP–ROM)
lCROM(fc~rEP–ROM)
lCwith in lc3/iC5Daer
I
(SFE–LCl
1P{MKMK?KEcEo
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in ICs/lCspaer(R9Gf)FxL
IC(NJM4558M)
IC(ULN2003)
IC(HEF4053)
IC(HEF4051)
IC(NJM2903)
IC(NJM318M)
1Pfnc-rcn~ c)
,Ak1)
Iv
‘K’’hA290+IVI
I ‘n
[Dir~caialur
(LlOV~On *5°~)
Coil (NZ321fjA)
Coil (NZ3216A)
COil(NZ3216A)
COii(NZ3216A)
Uull (IXLOL
‘“”’M7=216A)
coil ,IVIIVIL2102S3O1A)
Transjistor (DTC114EK)
Transjistor (DTC114EK)
.;-A... {tn~n+,~v,,
Transr~,Ur
u I U1i+cn
Transistor (DTC114EKJ
Trans ;istor (DTC114EK)
Trans ;istor (DTC114EK)
Trans iistor (2SC2412KS)
Trans,alur
IL
‘;-+-- (U
‘nT?l
14EK)
n..
Resistor(1/4W ?nn
LUL~AlXayoj
Fuseresistor (1/4W 2Q)
Resistor(1/10W 270n f5%)
nl
(1/10W
770G
~50~j
I ‘esistor
- -.
-.
j‘ Desistor
ml
l)~OW270Q k50
I n-.:---- (!*li )~ow OQ *5% ‘)
I meal>tur
i1 n..:---ne>l>lur /.
(I1/~owOa ~5;)
Resistor(1/10W 0~ 25%)
Resistor l/10W ~,u,~ A~D--:-4 .- !* /~Ow270~ f5$~
\I.t.JI.t.JLd4uI

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10W 270Q 35%)
In--:-L--/,/
Inesl>lur ( l/ 10W 270Q k5%)
cl.-:----/1
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IOQ *50
u
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o
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1P
ID--:-* -- ‘T ‘low 3.OK~ ~5y
10
ID--:-A-- (Z*/~Ow~oK~
&5y;)
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11J
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nc>l>lur
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1.OW270a A5%)
/:!
Resistor( lilnl~’ ~TA~ ~5%)
JI \./Luvv+/Ur(a t 504)
, ,.=.,.t~r (1/10W 47Kn &5%)
1
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[C251]
[C252]

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146 V R S – T S z A u 1 0 3 I
147 v R S – T S z A u d O 7 I
148 V R S – T S z A —
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149 v R S – T S-------z A u I O---3 I
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132 V R D–H T 2 E Y 100 J
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133 R R–X AO 2 R O S C 2 E
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134 VR S–T S 2 AD 27 1 J
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135 V R S – T S 2 A D 2 7 1 .1
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137 V K > – I > Z A D
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139 V RS– T S ZADU
140 VRS i–TS2AD271J
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141 VRS– TS2AD 271 I \ AA
142 VRS– TZ
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123 RC i LZ2 104 SCZZ
124 V S D T C 1 14 E K/– 1
125 V S D T C 1 14 E K/– 1
126 V S D T C 1 14 E K/– 1
127 V S D T C 1 14 E K/– 1
128 V S D T C 1 14 E K/– 1
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117 VRS–Tt-JZBDOIIm
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DESCRIPTION

–i

–8–

--

[C2531
[C254]
[C255]
[cNccD] hlPC\AI 1
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LVIXUd~WJ
ICNCUTI [355A]
[CNLIUAl
ICNLIUB]
ICNMTI
ICNPNI
ICNPSI [355A]
[CNPW]
ICNTHI
IDll [155A] IDll [355A]
[D200]
[D2011
[D2021
[D203]
[D204]
[D205]
[D206]
[D2071
[F1OOI
HCII [355A]
DC21.
~c21 [355A]
~c21 [155A]
rlfi-1
LIC4]
DC51
~C61
DC7]
rlcloo]
Dclol]
DC102I
DC103I
DC104I
DC105]
[L2001
[L201]
[L202]
[L203]
[L204]
[L205]
[L2061
[Q1OOI
[Q101]
[Q102I
;v;;;~
[Q2011
[Q2021
[Q203]
IRl] I
[R2]
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[R102I
[R1031
[R 1041

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[R 1061
[R1071
[R 1081
[R 1091
[R 110]
IRl 11]
[R 112]
[R 113]
[R1141
IRl 15]
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IRl 171
IRl 181
[R1191

FO-155A
FO-355A

❑ Control
NO.

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PWB unit
PRICE

PARTS CODE

154 V RS–
155 V RS–
156 V RS–
157 VRS–
158 vRs–
159 VRS–
160 V RS–
161 VRS–
162 V RS–
163 V RS–
164 VRS–
165 VRS–
166 V RS–
167 V RS–
168 VRS–
169 VRS–
170 VRS–
171 VRS–
172I V R S –
173I V R S –
174I V R S –
175I V R i –

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T S2AD 273 J
TS2AD2
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TS2AD2
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TS 2AD 27 1 J
TS2AD 47 1 J
TS2AD1
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TS 2AD 1 03 J
TS2 AD 103 J
TS 2AD 1 03 J
TS2AD1
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TS2AD2
7 1J
TS2AD4
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TS2AD4
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T S 2 A D 1 03 J
T S 2 A D 1 03 J
T S 2 A D 1 Q; ~
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176 I V R S – T S 2 A D 302

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177 VRS– TS2AD 10 i j
178 V RS– TS2AD2
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192

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193 VRS– T‘S2ADOOOJ
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194 vi S–TS2AD2
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195 VRS– TS2AD
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- -? “I fI
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196 VRS–
TSZAD3
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—-—197 VRS– TSZ ADZ 23 J I
198 VRS– TS2AD — 1 03-- 1 [I
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T S 2AD2 71 ~ I
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207 VRS– TS2AD 1 03 J
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208 V K3—
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1L 4UY I V K 3 — I b Z A U 1 (J4 .]
210 I V R S – T S 2 A D 1 00 ]
211 VRS– T.S2AI)2 7 i j
212 VRS– TS2AD1
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213 VK3– I 3LAV1 U3J
214 v/Rs– Ts2AD
100 J
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215 VII-i/ 4 J
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216 v
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II-l7 -,..--...

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227
228
229
-—230
231

RS–
RS–
RS–
VRS–
VRS–
V RS–
VRS–
VRS–

T S2AD 103 J
T S2AD 332 J
T S2AD5 62 J
T,S2AD1 03 j
TS2AD2
7 1J
TS2AD 27 1 J
TS 2AD2 7 1 J
TS2AD2
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DESCRIPTION
Resistor(1/10W 27Kn t5%)
Resistor(1/10W 20K~ *5%)
R..i.tnr
(1
/1 flW 970~
-I-5%)
1 ,.”e,e.”,
\ A, A“. . G,
I Racictnr
I ,. ”4, .J. U,

nw.

(1
t-, /1A“.

970Q
~GO~)
G, L .-

,.~~istor (1/10W 270~ k 5%)
I, Daci
t,~.istor (1/10W 270Q t5%)
.- .. .
-——
Resistor(1/10W270Q t5%)
Resistor(1/10W 270~ *5%)
Resistor (1/10W 270~ Y5%)
Resistor(1/10W 470~ t5%)
Resistor (1/10W IOK~ f5%)
Resistor(1/10W IOK~ 35%)
Resistor(1/10W 10KQ t5%)
Resistor(1/10W 10Ko t5%)
Resistor(1/10W 10KQ A5%)
Resistor(1/10W 270Q A5%)
Resistor(1/10W 470Q A5%)
-.
j Kesistor (1/10W 470Q t;%)
]‘ Kesl
- istor (1/10W IOK~ Y5%)
Racl
,I ,.”.lstor
(1/10W IOK~ ~5~o)
loK~
-t5%)
IRn.istor (l/low
1,
I Resilstor (1/10W 10KQ f5%o)
. ... - -..
—.
I Racictnr I..I I,.I rlw
,I I?ac(

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D271J
D271J
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189 V R S–TS2AD
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190 VRS– TS2AC)1
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PART
RANK
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[R124] .
[R125] ,
[R126]
[R127]
[R128]
[R129]
[R1301
[R1311
[R132]
[R1331
[R1351
[R138]

rpI 2QI
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[R1401
[R1411
[R142]
[R1431
[R1441

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Resistor(1/10W 10I
Resistor(1/10W 27(
Resistor
Resistor
Resi:stor (1;1OW 270Q t5%)
Resi:stor (1/10W 270~ f5%)
Resi:
stor (1/10W 270n f5%)
Resi:
stor (1/10W 270Q t5%)
Resifstor (1/10W 270Q *5%)
Resi:
stor (1/10W 270n *5~o)
-“
Keslstor
(1/8W OQf50~)
Resistor (1/10W 10~ f5%)
rx:
Keslstor (1/10W 10~ t5%)
Resistor (1/10W 10Q t5%)
.
I Kesl!“stor (1/10W 17.4K~ ~ 1%)
/ Resi:stor (1/10W 86.6KQ t l~o)
I Resistor(1/10W On *5%)
I Resi:Stor( l/10W 2700 &50/o)
Dnei.
, ,,~=,stor(1/10W
10KO f5%)
I D~e;,
, ,,==lstor (1/10W 3.OQ Y5%)
] Resi:jtor (1/10W 22K~ f50/o)
I,,.~=,stor
Daci<
(1/10W IOKa k5%)
I, ,.=.,stor
Racit
(1/10W 10KQ ~5%)
I,,.==lstor
Daci.
(1/10W 00 t5%)
,,,=.,stor (1/10W IOMa Y5%)
, t,..,;tor (1/10W 270~ A5%)
I Resis+n”‘1L{11‘W
Awl 270Q f5%)
,., .- A- , -.. ..
““’ ‘
‘ ‘a=i=+nr “ “ ““’ “ “ ‘ii Zayo)
IDa.ie+Aw
/1/low 270Q f5%)
I Resistor(1/10W 470n t5%)
IRac;~+-F(1 flnlA~I nun f5%)
I Resistor(1/10W 10~ Y5%)
IDasistor(l/low 270Q *5°/0)
II ~~~~~+fi~
~AAK~
~5%)
u,~aza~ua tl
(L/ flnlA/
Juvv
1 Uul
I Dacie+fir
f 1 /1 nlAf
1 nn
I l\ G~la LU1 (L{
IUVV
LULL
? 50/o
I Resistor(1/10W 2700 *5%)
I Ra~i~+fi~ ~1 /ln~A1 1 nv~ *5%)
IDaei.t,-.w
(l
\ L, /low loK~ f5~)
1 ,,G=JQ.”,
IResistor (1/low IOQ f5%)
I Racietnr fl 11OW 470K~ ~5%)
I,\Ga,aL”, (L, 10W 20KQ *5%)
iI ~ac;.+mw
(/1/low looK~ ~5%)
--.,., (;j;ow 30KQ ~5%)
j i:;;:;:;
:or (1/10W 30Ka k5%)
.-” “ I’n’” ‘ ‘a- <5%)
v ~~n~~ x50/. )
UI (1/
JUVV
15KQ k5°/o)
or (1/10W 68Ka t5%)
!lc=lalor (1/1 n“f 270Q t50/)
Resistor(1/1- J 10KQ *5%)
J a.anii
-i a,,= z>y~)
J rn ,.
Resistor(1/1.Ovv
Dn.-:-+-.
/ * 1~
mC31>lU[
(1/
IOW 5.6K0 t5°~)
Resistor (1/10W 10KQ f5%)
Resistor(1/10w 270Q t5%)
Resistor(111OW270Q t5%)
Resistor(1/10W 270Q f5%)
Resistor(1/10w 270Q *5%)
“J

–9–

[R1201
[R1211
[R1221

Ll\

LUUJ

[R1511
[R152]
[R1531 ,
[R1541
[R1551
[R156]
[R1571
[R1581
[R1591
[R1601
[R1611
[R162]
[R1631 .
[R1641
[R1651 .
[R166]
[R1671
[R2001

[R2011
[R2021
[R203]
[R204]
[R205]
[R206]
[R207]
[R2081
[R21OI
[R2111 [155A]
[R2111 [355A]
[R2121
[R2131
[R214] [355A]
[R215] [355A]
[R216] [355A1
[R217]
[R2181
[R219]
ro~onl
I.1\LCUJ
[R2211
[R2221
[R2231
[R224] [355A]
[R2251 :;;;~;
[R2271
[R2281
[R229] “
[R2301
[R2311
[R232]
[R233]
[R234]
[R235]

FO-155A
FO-355A

❑ Control
NO.

PRICE NEW PART
DESCRIPTION
RANK MARK RANK
AA
c
Resistor(1/10W 270~ t5%)
[ Qac:-*- . / , /.
I1 ..,
AA . II
1P
, ,,=~lstor~ij JOW270Q t5°/0)
I
.. . . ,,.., /., c..,.,
A.., A-- - , -- ..
I AA
I
1P
I Dae,~rmr
‘ ‘ULJz5yo)
AA
c
Resistor(1/10W On k5%)
AA
c Resistor(1/10W 4.7KQ f5%)
AA
c
Resistor(1/10W 270Q k5%)
(1 /1 n\A/ 1 ~K~
i-5%)
AA t
c I I?acic+nr
,,
I ....
\&,
I
(1 /1 n\A/ 1~K~
~5~]
I[ Dacictnw
I AA
I1
1P
,,uo,
t
I ,,~a,
Racic+n”
/1
~5y)
I AA
I
1P
a.u,
( L, /1t“,n\A/, 970Q
G,
II AA
I1
lr’
,.,
.
,,ua,
I[ Rac;stor(1/10W
10KQ t5%)
I
I ,..
AA , !I
1 (-’
I Dacietfir
/1
(
(., /1low
470Q t5%)
I
I
I ,,go, aL”,
AA . I
Daei-J - 7* )-,
,I ,,~=ls[or~1/
JOW10KQ f5°/o)
II ,.,
I
I1P “
..*. , , , ,,
AA . tI
1P “
I ,\Dacir~m~
II ,.,
I
I Ga, aLv, (;/’;OW 82Q Y5%)
II ..,
AA , I
Ir “
I Rae;
e+fiv f~~,1 II~OW270Q
f
t5%)
I
I
I ,\ Ga, ak”,
1I
II A A II
I b I nesls~ort li LOW270Q *5%)
x:
c
I Resistor(1/10W 270~ Y5%)
]
A A
I
I
n
I m -. .
‘“ ‘“ OW270Q ~5%)
ls~or~lt IOW 270Q t50~)
istor (1/10W 270~ k5%)
istor (1/10W 270Q Y5%)
istor (1/10W 10KQ *5%)
,. ,- -.. . . . .. — --

PARTS CODE

232
--233
234
235
236
237
238

t

PWB unit

V RS– T S 2AD2 7 1 J
. . - - —- - . ———
VKS–
TS2AD77
- ----. 1- “I
—
VRS– Ts 7An7 7 1 I
VRS– TS 2AD0 O 0 J
V R S–T S 2AD 472 J
V RS– TS 2AD2 7 1 J
V RS– T S 2 A D
—103.1
---

---

.

.

-

-

—

-

-

.

—

.

.

-

-

—

-

-

.

—

-

W4,4

-

Z3Y I V R S – F S —
.2 A —
D 1
----0 3 I
Z4U V K S – I S 2 A D
—-.7 7 1
-- I
I. . - — —
241 v K s – F s 2 A D 1 fI 3 I

I

.

.

.

-

I

—

1

- —..- - - - A n 47 . 1
242 V R S – T s
- 7---- -I
. . — -

k

—

-

—

243 v R s – T S- ---7 A n -1 n
“
244 V R S – T -s ---7 A n -R -7
245 V R S – T -S -,,
7 A -n -77 ,
?Ac \/, ,,
w u
c — T1 dLnu
c 7 n n 9 7
A-r”,
LI
247I V R S – T S 2 A D 27

-7 -I
“n “I
.1 “I
1
1
L.J
1J

9AQ I V W C _ T C 9 A n

I

9

7

,.,

.

..,

.

1

I

.L ”,,

\L,

L“,

AL

,

AL

I

m.–.

I

L”,

a.”,

.L.

,.

1.,

%Uw,uh,,+,y
Ow 470Q :5%)
OW270a f5%)
-.. . . . .
I

- ---- - “ - “

265 V R S– T s —
7 A
..-n n- n“ n“-I
266 V R S – T s 7 A n n n n I
&“, I . ,, “ a ii iii
i;i
76R I v R c —T C 9 nA n
u 1 n n I
269 VR S–T SiAb;
iij
— —
270 V R S–T P 2 B D5 6 1 J
271 VRS– TS- 7
An 1
—..—
- -5 -? -I

=
t

-“w

.

,.

“

272 V RS–

d

L

!

.,

(,

--.—

T S 2 A D 3 3 3

I

I

I
I
I

-

-

—

-

-

.

—

-

l-. -

---

-

-

-

-

K 3 — I > Z ~ U

.

:

:

“.

4 / 1 J

281 I V R S – T S 2 A D 103 j
i RS– TS 2AD 103 J
283I, \iRS– TS2AD 103 J
284 V RS– TS2AD2
7 1J
285 V RS– T$ 2AD 47 1 J
286 V RS– TS 2AD 100 J
287 VRS– TP 2 B D2 O 1 J
288 V RS– TS 2AD8 20 J
289 VRS– TS 2AD3 O 2 J
290 V RS– TS2AD 103 J
291 VRSTS2AD8662F
292 VRSTS2AD
475 2F
293 VRSTS2AD1
183F
294 VRS– TS2AD3
33 J
295 VRS– TS2AD3
33 J
296 V RS– T P2BDIJ O 0 J
297 VRS– TS 2A D2 23 J
298 VRS– TS 2A D2 7 1 J
299 RR LYD3 12 7QCZZ
301 RCRSB0297AFZZ
302 RCRSP2080SCZZ
(Unit)
~ol D CEKC88 7GXHZZ
D CEKC88
9GXHZZ

w
I

,

I

I

Ir

I

I

1P

!

!,

r

I

AA

I

-AA -

I

,.,

r

I

I

AA

I

1P

AA .
,.,

II

I

I

1

.

I

I

1P

n

1P
1

I

I

I1

P
u

E
E

control PWB unit
c ontrol PWB unit

c

;
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c

AH

B

AD
AF
N
N

stor (1/10W 0~ f5%)
stor (1/10W Oa t5~o)
;jsistor (1/10W l.oKo k5%)
“:s1.
RC
4‘“stor (1/10W 10~ t5~o)
Resistor (1/10W 20KQ t5%)
IResistor(1/8W 560Q Y5%)
1B?
SiStor(1/10w 15K~‘50A)
I l\t
‘‘a”;”’A” “ “““ ‘=\n t5%)

B
B

P

If’
I

I

*\l

iI ,,‘aoietor (1/10W 270Q t50A)
jtor ( l/10W l.OK~ t-50~)
IResis
JI ~esis
r,<
;tor (1/10W IOKa k5!?/o)
I,,Dac,
- c
,~.,stor
(l/10W 270a t5°/o)
I, Daci.
,.=.lstor (1/10W 10~ A5%)
Dacic
,I ,.=.tstor
(1/10W 10KQ *5%)
I Racic
,...,itor (1/10W 470~ t5%)
Resistor (1/10W 10KQ k5%)
Resistor(1/10W 10K~ t5%)
Resistor(1/10W 10KQ f5%)
Resistor(1/10W 270Q k5%)
Resistor(1/10W 470Q i5%)
Resistor(1/10W 10Q f5%)
Resistor(1/8W 200Q k5%)
Resistor(1/10W 82Q A5%)
Resistor(1/10W 3.OK~ f5%)
Resistor(1/10W IOK~ *5%)
Resistor(1/10W 86.6Kn 3 1%)
Resistor(1/10W 47.5K~ * 1%)
Resistor(1/10W 118KQ f 1%)
Resistor(1/10W 33KQ t5%)
Resistor(1/10W 33KQ *5%)
Resistor(1/8W OQt5%)
Resistor (1/10W 22KQ *5%)
Resistor (1/10W 270Q ~5%)
Rclay (JSIAF–24V)
c rystal (32.768KHz)
c rystal (24.00014MHz)

“

1P
I

AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA

I Calstor (1/10W Oa 25%3’

! D~
I ,,!
I De=
—

~

c

A A. I1
I
, ,..
I, ..,
AA . If
I1 AA
. . . . I1
I AA
I1
. . .

cB
cA

u
u

;
c

AA

AA

‘-

:

AA
I AA
I AA

.

Z/Y I V K > — I b Z A D 1 U 3 J

I ,,
.-lrln
zuu I v

,.,

AA

J

273 \’-S.2AD77
274 ~KS–1
— —-. 1-- I
275 kK>–
I SZAD1
02J
276 V R S – T S 2 A D
— 1 03-- J
--,-. I i , - . - — .
Lfl I V K b — i b Z A D
Z 7 1 J
——
n-,n I . , - - - - - . - . - _-- J
L/U I V K > — I S Z A D 1 U O
.-1-1
- I. , - A - ,. - . - . - ..,.

I

,

1

AA . I
t ,.,

I

I

UW 10KQ t5~o)
istor (1;1OW 270Q *5%)
istor (1/10W OQk5%)
istor (1/10W 82~ k5%)
. .
‘- ‘- OW270~ &5%)
-.. . --- — —-

G213L

–10 –

.

[R2361
[R237]
[R239]
[R241]
[R242]
[R243]
[R2441
[R245]
[R2461 -

rR9~ 71J
L,,GYJ

[R248]
[R249]
[R250]
[R251]
[R252]
[R253]
[R254]
[R255]
[R2561
[R2571
[R2581
[R259]
[R2601 [355A1
[R261]
[R2621
[R2631
[R2651
[R2661
[R2671
[R2681
LnL/

“

.
,

UJ

[R271]
[R2721
[R273]
[R274]
[R275]
[R2761
[R2771
[R2781
[R279]
[R280]

LRLO>C
8-175
8-176
8-177

. .,,
~-779

7-23L
8-155
7-153
8-179
7-152
7-215
8-148
7-226
7-273
8-142
8-153
8-135
8-150
7-222

–17–

c
c
c
c
c

OCBBFZ-89;54Z/
OCBLRH0368ZQ/
OCBMRZ0362ZZ/
ocBMzzo610zz/

c
c

AA
AA
AA
AA
AA
,,
HH
AA
AA
AA

c
c

I

c
II c

,

.,
r.n

AA
AA
AA
AA
AA
AA
AA
AA
AA

[01

0CBPCZO084ZZ/
:
c
c

;
c
c
c
c
c
c
c
c

AA

c

AA
AA
AA

c
c
c

50-B4
50-914
50-B9
50-B5
50-B6
50-97
50-B13
50-B15
50-B8
50-911
50-W2
50-B12
50-W1

AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA

c
c
c
c
c
c
c
c
c
c
c
c
c

9- 4
9- 64
9- 65
9- 66

AC
AU
AF

8-164
8-173
8-127
8-132
7-244
7-260
7-288
8-159
8-141
8-128
7-293
7-191
8-143
7-292
7-192
7-291
7-124
7-125
7-126
7-127
7-128
7-129
7-131
8-107
8-109
8-110
8-115
8-116
8-117
8-118
8-119
8-120
8-108
8-113
8-104
8-111
8-112
8-114
7-130
10- 5
8-105
8-106

:x]

i
c

AA

II

7-294

I

PART
RANK
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B

NO.

VRS–TS2AD683J
u
VRS–TS2AD753J
u
VRS–TS2AD820J
U
II
VRS–TS2AD821J
VRS–TS2AD823J
VRS–TS2AD91OJ
VRSTS2AD1183F
VRSTS2AD1742F
VRSTS2AD3651F
VRSTS2AD4752F
VRSTS2AD8662F
11
vsDTc114EK/–l
If
u
M
I/
v
IJ
M
u
u
II
u
n
I/
IJ
II
vsDTDl14EK/–l
VS2SA1037KR–1
VS2SA1807–P–I
VS2SC2412KR–1
u
I/
VS2SC2412KS–1
u
JS2SC4061K/–l

XBBSD30P06000
XBPSD30P06KO0
XBPSD30P08000
XBPSN40P06KO0
XEBSD30P06000
XEBSD30P08000
XEBSD30PIOOO0
XEBSD30P12000
XEBSF30P08000
XJPSD30P04000
XRESJ20–04000
XUBSD20P06000
XWHSD30–08100

AA

II
O

I/

1

AA

VRS–TS2AD332J

92J
71J

c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c
c

7-289

7-218
7-219
8-131
8-151

VRS–TS2AD4
It

L

c

7-211
AA
7-223
AA
7-228
AA
7-229
AA
7-230
AA
7-231 , AA ,
7-232 I AA I
7-233
AA
7-234
AA
7I-L. “37
AA
7-> $0
AA
7-> 45
AA
7-> $6
AA
7-2i t7
AA
7-ZI !8 j AA
T.
I-L49
AA
7-250
AA
7-251
AA
7-255
AA
7-258
AA
7-261
AA
7-262
AA
7-274
AA
7-277
AA
7-284
AA
7-298
AA
7-154
AA
7-196
AA
8-145
AA
8-160
AA
7-147
AA
AA
7-176

VRS–TS2AD303J
//
fl
If

VRS–TS2AD3

I

PRICE NEW
RANK ,MARK
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AB
AB
AB
AB
AB
AB
AB
AB I
AB
AB
AB
AB
AB
AB
AB
AB
AC
AB
AE
AD
AD
AD
AB
AB
AC
AC

PARTS CODE

OCBPCZO193ZZ/
ocBPEzoo55zz/
ocBPJczzoo37/
ocBPJTol15zz/
ocBPKzo194zz/
OCBUACOO04DZ/
OCBUACO056BZ/
OCBUACO098EZ/
ocBuAGo141Az/
OCBUBBO149DZ/
OCBUBBO166BB/
OCBUBCO182BL/
OCBUBC0220BZ/
OCBUBC0280BZ/
OCBUBDAC270D/
OCBUBDAE300D/
OCBUBDBW3R6B/
OCBUBDBW6R2C/

#

9- 61
999999999999999999-

60
62
56
57
59
10
8
9
7
11
16
14
12
15
17
19
18
20

N

c
c
c

AL

c

AD
AF
AD
AG
AF

c
c
c
A
A

AC
AC

c
B

AD
AK
AR
AH
AK
AE
AD
AC
AC
AD
AB
AB

B
B
B
B
B
B
B
B
B
B
B
B

FO-155A
FO-355A

PARTS CODE
ocBucBol12Az/
OCBUCCOO13DZ/
ocBuDco139Az/
OCBUDZO052ZZ/
ocBuEEB183cT/
OCBUEEB242CT/

NO.

I
I

999999-

6
5
21
58
25
34

PRICE NEW PART
RANK MARK RANK
B
AK
B
AM
AN
B
B
AG
c
I AC
Ic
I AC

I PARTS CODE

NO.

PRICE NEW PART
RANK MARK RANK

PRICE NEW PART
RANK MARK RANK

NO.

PARTS CODE

I

I

I

,

I

I

I

1

I

,
t

99999999-

ocBuGFF471ER/
OCBUGFF683ER/
OCBUGFZ224GQ/
ocBuGzo945zz/
OCBUKZ0578ZZ/
I)CBUKZ0697ZZ/
OCBUZZOIOOZZ/
OCB829650004/

53
43
37
39
3
2
55
1

AC
AD
AG
AQ
AH
AL
AH
BD

c
c
c
c
c
c
B
B

–l8k

I

1

1

I

FO-155A
FO-355A

—

SHARP
COPYRIGHT @ 1996 BY SHARP CORPORATION
All rightsreserved.
PrintedinfiJapan.
No partof this publicationmaybe reproduced,
storedin a retrievalsystem,or transmitted,
in anyform or by any means,
electronic,mechanical,photocopying,recording,or otherwise,
withoutpriorwrittenpermissionof the-publisher.
\
‘\

SHARPCORPORATION
Communication& AudioSystemsGroup
Quality& ReliabilityControlCenter
Higashihiroshima,Hiroshima739-o1,Japan
Printedin Japan

>.
,

9603-542NSOIS*T



---

Source Exif Data:

File Type                       : PDF
File Type Extension             : pdf
MIME Type                       : application/pdf
PDF Version                     : 1.2
Linearized                      : No
Creator                         : Acrobat Capture 1.0
Create Date                     : 1997:09:04 12:18:38
Producer                        : Acrobat PDFWriter 2.01 for Windows
Title                           : 1.0
Author                          : TSD
Subject                         : 
Modify Date                     : 1997:09:09 11:51:07
Page Count                      : 94

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