Download Sharp FO-78 Service manual

UX-68DE
FO-78DE
SERVICE MANUAL
No. 00ZUX68DE/SME
FACSIMILE
UX-68
MODEL FO-78
Illustration: UX-68
This service manual is omitted because it is partly common to UX-40DE of the service manual of the previous
issue. Those common parts are to refer to the service manual of UX-40DE (00ZUX40DE/SME).
CONTENTS
CHAPTER 1. GENERAL DESCRIPTION
[1] Specifications ............................................ 1-1
[2] Operation panel ......................................... 1-2
[3] Refer to the service manual of UX-40DE.
[4] Refer to the service manual of UX-40DE.
[5] Quick reference guide ............................... 1-8
CHAPTER 2. ADJUSTMENTS
[1] Adjustments ............................................... 2-1
[2] Diagnostics and service soft switch .......... 2-2
[3] Troubleshooting ...................................... 2-19
[4] Error code table ....................................... 2-20
CHAPTER 3. MECHANISM BLOCKS
[1] Refer to the service manual of UX-40DE.
[2] Refer to the service manual of UX-40DE.
CHAPTER 4. DIAGRAMS
[1] Block diagram ............................................4-1
[2] Wiring diagram .......................................... 4-2
[3] Point-to-point diagram ............................... 4-3
CHAPTER 5. CIRCUIT DESCRIPTION
[1] Circuit description ...................................... 5-1
[2] Circuit description of control PWB ..............5-2
[3] Circuit description of TEL/LIU PWB .......... 5-9
[4] Circuit description of
power supply PWB ............................5-12
[5] Circuit description of CIS unit ...................5-12
CHAPTER 6. CIRCUIT SCHEMATICS AND
PARTS LAYOUT
[1] Control PWB circuit ................................... 6-1
[2] TEL/LIU PWB circuit ................................. 6-9
[3] Power supply PWB circuit ...................... 6-13
[4] Operation panel PWB circuit ................... 6-15
CHAPTER 7. OPERATION FLOWCHART
[1] Refer to the service manual of UX-40DE.
[2] Refer to the service manual of UX-40DE.
CHAPTER 8. OTHERS
[1] Refer to the service manual of UX-40DE.
[2] Refer to the service manual of UX-40DE.
PARTS GUIDE
Parts marked with " " are important for maintaining the safety of the set. Be sure to replace these parts with specified ones for
maintaining the safety and performance of the set.
SHARP CORPORATION
This document has been published to be used
for after sales service only.
The contents are subject to change without notice.
UX-68DE
FO-78DE
CAUTION FOR BATTERY REPLACEMENT
(Danish)
ADVARSEL !
Lithiumbatteri-Eksplosionsfare ved fejlagtig håndtering.
Udskiftning må kun ske med batteri af samme fabrikat og type.
Levér det brugte batteri tilbage til leverandoren.
(English)
Caution !
Danger of explosion if battery is incorrectly replaced.
Replace only with the same or equivalent type
recommended by the equipment manufacturer.
Discard used batteries according to manufacturer’s
instructions.
(Finnish)
VAROITUS
Paristo voi räjähtää, jos se on virheellisesti asennettu.
Vaihda paristo ainoastaan laitevalmistajan suosittelemaan
tyyppiin. Hävitä käytetty paristo valmistajan ohjeiden
mukaisesti.
(French)
ATTENTION
Il y a danger d’explosion s’ il y a remplacement incorrect
de la batterie. Remplacer uniquement avec une batterie du
même type ou d’un type recommandé par le constructeur.
Mettre au rébut les batteries usagées conformément aux
instructions du fabricant.
(Swedish)
VARNING
Explosionsfare vid felaktigt batteribyte.
Använd samma batterityp eller en ekvivalent
typ som rekommenderas av apparattillverkaren.
Kassera använt batteri enligt fabrikantens
instruktion.
(German)
Achtung
Explosionsgefahr bei Verwendung inkorrekter Batterien.
Als Ersatzbatterien dürfen nur Batterien vom gleichen Typ oder
vom Hersteller empfohlene Batterien verwendet werden.
Entsorgung der gebrauchten Batterien nur nach den vom
Hersteller angegebenen Anweisungen.
UX-68DE
FO-78DE
CHAPTER 1. GENERAL DESCRIPTION
[1] Specifications
Automatic dialing:
Rapid Key Dialing: 5 numbers
Speed Dialing: 35 numbers
Fax paper:
Initial starter roll (included with machine):
10 m
Recommended replacement roll:
FO-20PR, 30m
Modem speed:
9600 bps with automatic fallback to lower
speeds
Transmission time* :
Approx. 15 seconds
Resolution:
Horizontal: 8 dots/mm
Vertical:
Standard: 3.85 lines/mm
Fine/Halftone: 7.7 lines/mm
Super fine: 15.4 lines/mm
Automatic document feeder: 5 pages max. (80g/cm2 paper)
Halftone (grayscale):
64 levels
Display:
16-digit LCD display
Compression scheme:
MR, MH, Sharp (H2)
Applicable telephone line:
Public switched telephone network/PBX
Compatibility:
ITU-T (CCITT) G3 mode
Input document size:
Automatic feeding:
Width: 148 to 216 mm
Length: 140 to 297 mm
Manual feeding:
Width: 148 to 216 mm
Length: 140 to 600 mm
Effective scanning width:
210 mm max.
Effective printing width:
210 mm max.
Contrast control:
Automatic/Dark selectable
Reception modes:
Fax, Tel, Tel/Fax, A.M.
Copy function:
Yes
Telephone function:
Yes (cannot be used if power fails)
Noise emission:
Less than 70 dBA (Measured
according EN 277779 (DIN 45635))
Power requirements:
220-230 V AC, 50 Hz
Operating temperature:
5 - 35°C
Humidity:
Maximum: 85 % RH
Power consumption:
Standby: 2.6 W
Maximum: 115 W
Dimensions:
Width: 304 mm
Depth: 236 mm
Height: 122 mm
Weight:
Approx. 2.6 kg
* Based on ITU-T (CCITT) Test Chart #1 at standard resolution in Sharp
special mode, excluding time for protocol signals (i.e., ITU-T phase C
time only).
Note: The facsimile machine is Year 2000 compliant.
As a part of our policy of continuous improvement, SHARP reserves the right to make design and specification changes for procduct
improvement without prior notice. The performance specifications figures indicated are nominal values of production units. There may be some
deviation from these values in individual units.
1–1
UX-68DE
FO-78DE
[2] Operation panel
12
3 4 5 67 8
TEL
9
10
11
FAX
TEL/FAX ANRUFB.
AUFN.
A
ZURÜCK WIEDERG./VOR
C
B
ABC
LÖSCHEN
D
1
LAUTSTÄRKE
E/
STOP
FUNKTION
KOPIE/
HILFE
12
13
1. Zielwahltasten (Rapid Dial keys)
PQRS
SYMBOLE
LAUTSPR.
0
16 17 18
Press this key to cancel operation before it is completed.
14. KOPIE/HILFE (COPY/HELP key)
When a document is in the feeder, press this key to make
a copy of a document. At any other time, press this key to
print out the Help List, a quick reference guide to the
opeation of your fax machine.
15. Taste AUFLÖSUNG/EMPFANGSART
(RESOLUTION/RECEPTION MODE key)
7. FUNKTION (FUNCTION key)
When a document is in the feeder, press this key to adjust
the resolution for faxing or copying. At any other time,
press this key to select the reception mode (an arrow in the
display will point to the currently selected reception mode).
Press this key to select various special functions.
8. Taste LAUTSTÄRKE (VOLUME keys)
16. LAUTSPR. (SPEAKER key)
Press this key to listen the line and fax tones through the
speaker when faxing a document.
Note: This is not a speakerphone. You must pick up the
handset to talk with the other party.
9. Zifferntasten (Number keys)
Use these keys to dial numbers, and enter numbers and
letters when storing auto-dial numbers.
10. KURZWAHL (SPEED DIAL key)
ALPHAWAHL
R
13. Taste STOP (STOP key)
This displays messages and prompts during operation and
programming.
Press this keys to adjust the volume of the speaker when
the SPEAKER key has been pressed, the volume of the
ringer at all other times.
9
Press this key to send or receive a document or to scan a
document into memory before sending it.
5. LCD-Anzeige (Display)
Press this key to erase recorded messages.
8
12. Taste START/SPEICHER (START/MEMORY key)
4. WIEDERG./VOR (PLAY/SKIP key)
6. LÖSCHEN (DELETE key)
WXYZ
TUV
WAHLWDH.
Press this key to automatically redial the last number
dialed.
3. ZURÜCK (REPEAT key)
Press this key to play recorded messages. During
playback, press it to skip forward to the next message.
6
KURZWAHL
11. WAHLWDH. (REDIAL key)
2. AUFN. (REC/MEMO key)
Press this key to repeat playback of a message.
MNO
5
14 15
Press one of these keys to dial a fax number automatically.
Press this key to record a phone conversation or a
message.
AUFLÖSUNG/
EMPFANGSART
3
JKL
GHI
7
START/
SPEICHER
2
4
ABRUF
DEF
17. ALPHAWAHL/R (SEARCH/R key)
Press this key to search for an auto-dial number, or, if you
are on a P.B.X. extension, press this key to transfer a call.
Press this key to dial a fax or voice number using an
abbreviated 2-digit Speed Dial number.
18. BEDIENFELD ENTRIEGELN (Panel release)
Grasp this finger hold and pull toward you to open the
operation panel.
1–2
UX-68DE
FO-78DE
SENDING FAXES
[5] Quick reference guide
ENTERING YOUR NAME AND NUMBER
1. Press:
Place your document (up to 5 pages)
face down in the document feeder.
FUNKTION
3
Display shows: OWN NUMBER SET
START/
2. Press: SPEICHER
3. Enter your fax number (max. of 20 digits) by pressing the number keys.
•
To insert a space between digits, press the # key. To enter "+", press the
•
If you make a mistake, press the SPEED DIAL key to backspace and clear the
mistake.
4. Press:
key.
Normal Dialing
1. Lift the handset or press
START/
SPEICHER
LAUTSPR.
2. Dial the fax number.
5. Enter your name by pressing the appropriate number keys as shown below.
• To enter two letters in succession that require the same key, press the SPEAKER
key after entering the first letter.
3. Wait for the reception tone (if a person answers, ask them to press their Start
key).
SPACE =
J=
T=
A=
K=
U=
Rapid Key Dialing
Press the appropriate Rapid Key. Transmission will begin automatically.
B=
L=
V=
M=
W=
1. Press:
N=
X=
2. Enter 2-digit Speed Dial number.
O=
Y=
3. Press: SPEICHER
P=
Z=
START/
4. Press: SPEICHER
Speed Dialing
C=
D=
E=
F=
G=
KURZWAHL
START/
RECEIVING FAXES
Q=
H=
R=
I=
S=
Press the RESOLUTION/RECEPTION MODE key until the arrow in the display
points to the desired reception mode (make sure the document feeder is empty).
TEL FAX
05—NOV 10:30
•
To change case, press the REDIAL key.
Press # or to scroll through symbols and special characters.
AUFLÖSUNG/
EMPFANGSART
TEL/FAX ANRUFB.
TEL FAX
05—NOV 10:30
TEL/FAX ANRUFB.
TEL FAX
STOP
START/
6. When finished, press: SPEICHER
05—NOV 10:30
TEL/FAX ANRUFB.
TEL FAX
05—NOV 10:30
SETTING THE DATE AND TIME
TEL/FAX ANRUFB.
FAX mode: The fax machine automatically answers on the set number of rings
and receives the incoming document.
FUNKTION
1. Press:
3
TEL mode:
Display shows: DATE & TIME SET
2. Press:
Beep
START/
SPEICHER
START/
SPEICHER
3. Enter two digits for the Day (01 through 31).
4. Enter two digits for the Month (01 through 12).
RECEIVING
5. Enter four digits for the Year (Ex: 2000).
6. Enter two digits for the Hour (01 through 23).
TEL/FAX mode: This mode is convenient for receiving both faxes and voice calls.
When a call comes in, the fax will detect whether it is a voice call (including manually dialed fax transmissions), or an automatically dialed fax.
7. Enter two digits for the Minute (00 through 59).
8. When finished, press:
STOP
START/
SPEICHER
A.M. mode: Select this mode when you go out to receive both voice messages
and faxes.
STORING AND CLEARING AUTO DIAL NUMBERS
FUNKTION
1. Press:
3
Display shows: FAX/TEL # MODE
2. Press 1 to store a number or 2 to clear a number.
3. Enter a 2-digit Speed Dial number (from 01 to 05 for Rapid Key Dialing, or 06
to 40 for Speed Dialing) (If you are clearing a number, go to Step 7.)
4. Enter the full fax/telephone number.
START/
5. Press: SPEICHER
6. Enter the name of the location by pressing number keys (Refer to the letter
entry table in ENTERING YOUR NAME AND NUMBER.)
7. Press:
STOP
START/
SPEICHER
1–8
UX-68DE
FO-78DE
MEMO
1–9
UX-68DE
FO-78DE
CHAPTER 2. ADJUSTMENTS
2. IC protectors replacement
[1] Adjustments
ICPs (IC Protectors) are installed to protect the motor driver circuit.
ICPs protect various ICs and electronic circuits from an overcurrent condition.
The location of ICPs are shown below:
General
Since the following adjustments and settings are provided for this model,
make adjustments and/or setup as necessary.
CNLIUA CNLIUB
CNPW
1. Adjustments
Adjustments of output voltage (FACTORY ONLY)
CONTROL PWB
(TOP SIDE)
1. Install the power supply unit in the machine.
2. Set the recording paper and document.
CNMT
3. When the document is loaded, power is supplied to the output lines.
Confirm that outputs are within the limits below.
Output voltage settings
CNL IUB
FU100
TEL/LIU PWB
POWER SUPPLY PWB
(1) FU100 (KAB2402) is installed in order to protect IC’s from an overcurrent generated in the motor drive circuit. If FU100 is open, replace
it with a new one.
CN2
CNL IUA
3. Settings
CNLIUB
CNLIUA
CNPW
Setting is not required since the required mode is TONE ONLY.
CONTROL PWB
Output
+5V
+24V
Voltage limits
4.75V ∼ 5.25V
24.0V ∼ 26.0V
Connector
No.
Pin No.
1
2
3
4
5
6
7
8
CNPW
DG
+5V
MG
MG
+24V
+24V
DG
PSAVE
2–1
UX-68DE
FO-78DE
[2] Diagnostics and service soft switch
1. Operating procedure
(1) Entering the diagnostic mode
Press FUNC → 9 →
→ 8 → # → 7 , and the following display will appear.
After 2 sec: DIAG MODE
ROM Ver. FPB0
FPB0
Then press the START key and country name selected by country select will appear. Select the desired item with the
with the direct key. Enter the mode with the START key.
key or the # key or select
(Diag•specifications)
FUNC
9
8
7
FPB0
DIAG MODE
START
Soft switch mode
START
—
—
START
ROM & RAM check
START
A
—
START Flash memory clear
Aging mode
START
—
—
START Flash memory check
Panel check mode
START
—
—
START
Message print
Check pattern
START
B
E
START
Auto feeder mode
Signal send mode
START
C
D
START
All black mode
Memory clear
START
—
—
START
Shading mode
If the diag mode cannot be set, repeat the diag mode operation, performing the following operation.
After the power is turned on and "WAIT A MOMENT" is indicated, press
the STOP key.
START
KEY
STOP
KEY
"Power ON" +
Country selct
In relation with the process response (request from Production
Engineering) "WAIT A MOMENT" clock indication may appear depending
on STOP key timing. If the STOP key is held down, "MEMORY CLEAR?"
appears.
Memory clear
(Work + Backup)
2. Diagnostic items
ITEM
DIRECT
No.
key
1
—
SOFT SWITCH MODE
2
A
ROM & RAM CHECK
ROM is sum-checked, and RAM is matched. Result list is output.
3
—
AGING MODE
10 sheets of check patterns are output every 5 minutes per sheet.
4
—
PANEL CKECK MODE
Panel keys are tested. Result list is output.
5
B
CHECK PATTERN
2 sheets of check patterns are output.
6
C
SIGNAL SEND MODE
Various signals of FAX communication are output.
7
—
MEMORY CLEAR
Back-up memory is cleared, and is set at delivery.
8
—
SHADING MODE
Shading compensation is performed in this mode.
9
D
ALL BLACK PRINT
To check the print head, whole dots are printed over the interval of 2 m.
10
E
AUTO FEEDER MODE
Insertion and discharge of document are tested.
11
—
MESSAGE PRINT
The display message of each language is printed out together with the English equivalent.
12
—
FLASH MEMORY CHECK Checks flash memory write/read.
13
—
FLASH MEMORY CLEAR Checks flash memory clearing.
14
—
COUNTRY SELECT
Contents
Function
Soft switches are displayed and changed. List can be output.
The software parameter that it agreed in each country name is set up.
2–2
UX-68DE
FO-78DE
3. Diagnostic items description
3. 1. Soft switch mode
3. 6. Signal send mode
This mode is used to send various signals to the circuit during FAX communication. Every push of START key sends a signal in the following
sequence. Moreover, the signal sound is also output to the speaker when
the line monitor of the soft switch is on.
The soft switches are provided so that each operation mode can be set
by using the operation panel.
In this mode, these switches can be checked and set.
[1] No signal (CML signal turned on)
The contents of these switches are backed up.
[2] 9600bps
The available soft switches are SW-A1 to SW-K1.
[3] 7200bps
The content of soft switches is shown in page 2-5 to 2-18.
[4] 4800bps
The contents are set to factory default settings.
[5] 2400bps
[6] 300bps (FLAG)
3. 2. ROM & RAM check
[7] 2100Hz (CED)
ROM executes the sum check, and RAM executes the matching test.
The result will be notified with the number of short sounds of the buzzer
as well as by printing the ROM & RAM check list.
Number of short sounds of buzzer 0 → No error
[8] 1100Hz (CNG)
[9] Pseudo Ring (models with auto TEL/FAX changeover function)
[10] END
1 → ROM error
2 → RAM error (32Kbyte)
3. 7. Memory clear
This mode is used to clear the backup memory and to reset to the factory default settings.
The content of each setting will be cleared.
3. 3. Aging mode
If any document is first present, copying will be executed sheet by sheet.
If no document is present, the check pattern will be printed sheet by
sheet. This operation will be executed at a rate of one sheet per 5minutes, and will be ended at a total of 10 sheets.
Note: Be sure to execute the memory clear mode whenever you change
the country select setting. The default settings of the soft switches
vary according to the destinations. Therefore, if you do not execute
the memory clear after changing the country select setting, some
functions may not work.
3. 4. Panel check mode
This mode is used to check whether each key operates properly or not.
Press the key on the operation panel, and the key will be displayed on
the display. Therefore, press all keys. At this time,finally press the STOP
key.
3. 8. Shading mode
The mode is used for the shooting compensation. For reading, set up
the special original paper.
When the STOP key is pressed, the keys which are not judged as
"pressed" will be printed on the result list.
The shooting compensation memorizes the reference data of white and
black for reading.
• LED part of the contact image sensor (CIS) is kept on during the term
from when "START" of the panel test mode to end with the STOP key.
Moreover, the memorized data is not erased even if memory clear mode
is executed.
3. 5. Check pattern
3. 9. All black print
This mode is used to check the status of print head. Two sheets of check
pattern are printed. The following information of check pattern is printed.
This mode is used to check the state of the printing head and intentionally overheat it. Whole dots are printed over the interval of 2 m. If it is
overheated or the printing sheet is jammed, press STOP key for the end.
1 Vertical stripes (alternate white and black lines) Approx. 35 mm
2 Full black
Approx. 70 mm
3 Full white
Approx. 35 mm
3. 10. Auto feeder mode
In this mode, a document is inserted and discharged to check the auto
feed function.
After this mode is started, set a document, and the document feed will
be automatically tested.
1
2
3
RANK 0 or 1
Note:
There is a selection RANK 0 or 1 depending on resistance value of the
thermal head. RANK 0 or RANK 1 is printed at the tail of check pattern
to identify.
2–3
UX-68DE
FO-78DE
3. 11. Message print
3. 14. Country select
Used to print the displayed message of communication for translate each
language.
This mode is used to set line connecting parameters which correspond
to each destination.
When the country select mode is selected, and then the START key is
pressed, the destination (country name) currently set will be displayed.
By pressing the # or key, selectable destinations (country names) are
displayed. When the destination (country name) you want to choose is
displayed, press the START key. Each parameter will be stored in RAM.
3. 12. Flash memory check
Data is written into and read from the flash memory to check the data
conformity. When the unit enters this mode, the check is started.
3. 13. Flash memory clear
Destinations (Country names) you can select are as follows:
Data in the flash memory is cleared (memory clear). When the unit enters this mode, the check is started.
*Operation of hardware and signal in the flash memory check mode and
flash memory clear mode, and the result of check.
The result is announced by the buzzer beeps. The result of check is
printed.
Beeps
COUNTRY NAME
AUSTRIA
0 → No error
1 → Memory error
(AT)
GERMANY
(DE)
FRANCE
(F)
Note: Be sure to execute the memory clear mode whenever you
change the country select setting. The default settings of the
soft switches vary according to the destinations. Therefore, if
you do not execute the memory clear after changing the country select setting, some functions may not work.
Do not set a country select setting which is different from that
of the destination of the machine. Some functions will not work
because the function and the PWB specifications are different.
4. How to make soft switch setting
To enter the soft switch mode, press the following key entries in sequence.
Press FUNCTION
DATA No.
9
8
7
START
START
1 2 3 4 5 6 7 8
S F T SW-A1 = 0 0 0 0 0 0 0 0
Press FUNCTION key.
S F T SW-A1 = 1 0 0 0 0 0 0 0
Press
key.
Press
key.
S F T SW-A1 = 1 0 0 0 0 0 0 0
S F T SW-A1 = 1 0 0 0 0 0 0 0
Bit1 - 8 are set.
S F T SW-A1 = 1 0 0 0 0 0 0 0
Press START key during setting.
S F T SW-A2 = 0 0 0 0 0 0 0 0
Soft SW-A2 - SW-K1 are set.
S F T SW-K1 = 0 0 0 0 0 0 0 0
To finish the settings halfway between
SW-A1 and SW-K1, press the STOP
key. In this case, the setting being done
to the SW No. on display will be nullified
while settings done to the preceding
SW Nos. remain in effect.
When the COPY key is pressed, the
contents of soft switches are printed.
The soft switch mode is terminated.
2–4
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FO-78DE
5. Soft switch description
• Soft switch
SW
NO.
SW
l
A1
DATA
NO.
Switch setting and function
ITEM
1
1
2
3
Protect from echo
Forced 4800bps reception
Footer Print
No
Yes
Yes
Yes
No
No
0
0
0
4
Length limitation of copy/send/receive
No limit
Copy/Send:60cm
Receive:1.5m
0
5
CSI transmission
Not transmitted
Transmitted
0
6
DIS receive acknowledgement during G3
transmission
Twice
NSF:Once
DIS:Twice
0
7
Non modulated carrier for V29 transmission
mode
Yes
No
0
8
Reserved
0
Modem speed
SW
l
A2
SW
l
A3
SW
l
A4
V.29
9600bps 7200bps
1
2
3
4
5
6
Reserved
H2 mode
7
8
V.27 ter
4800bps
2400bps
No. 1
No. 2
No. 3
0
0
0
0
0
1
0
0
1
0
0
0
0
0
0
No. 4
1
1
0
0
1
No
Yes
0
0
Communication error treatment in RTN
sending mode(Reception)
No communication error
Communication error
0
CNG transmission
CED tone signal interval
No
1
No. 1
1000ms
1
2
No. 2
1
Yes
750ms
1
500ms
0
75ms
0
0
0
1
0
0
No
0
3
MR Coding
4
5
6
Reserved
Reserved
Reserved
0
0
0
7
8
Reserved
Reserved
0
0
1
2
3
4
5
6
Signal Transmission level
(0~-31 dBm setting by 1dBm step)
Protocol monitor(Error print)
Printed at com. error
Not printed
0
1
0
0
0
0
7
8
Protocol monitor
Line monitor
Yes
Yes
No
No
0
0
Yes
No. =
No. 1
No. 2
Digital equalization setting(Transmitter)
3
4
No. 3
No. 4
Digital equalization setting(Reception
5
6
for Caller ID)
7
8
Error criterion
Anti junk fax check
0
Binary input
16 8 4 2 1
1 2 3 4 5
0 1 0 0 0
Digital equalization setting(Reception)
1
2
SW
l
A5
Initial
setting
0
No. 5
No. 6
10 ~ 20 %
Yes
2–5
7.2km
0km
1
1
0
0
7.2km
0km
1
1
0
0
7.2km
0km
1
1
0
0
5 ~ 10 %
No
1
1
0
0
0
0
0
1
Remarks
UX-68DE
FO-78DE
SW
NO.
SW
l
A6
DATA
NO.
1
SW
l
B1
Auto gain control(MODEM)
Enable
Disable
1
2
End Buzzer
Yes
No
1
3
4
5
Disconnect the line when DIS is received in RX mode No
Equalizer freeze control(MODEM)
On
Equalizer freeze control 7200 bps only
No
Yes
Off
Yes
1
0
0
6
7
8
CNG transmission in manual TX mode
Yes
Initial compression scheme for sharp fax in TX mode MR mode
Modem speed automatic down when RX
Yes
level is under -40dBm
No
H2 mode
No
1
0
0
1
2
3
Reserved
0
1
0
4
Reserved
0
5
6
7
Reserved
Reserved
Reserved
0
0
0
8
Reserved
0
1
Reserved
2
3
Auto dial fax transmission by REDIAL key
Reserved
4
5
6
7
8
1
2
Recall interval
(0~15.5min setting by 0.5min step)
No. 1
No. 2
SW
l
B3
0
0
0
1
No. =
Recall times(0~15times setting)
No. =
5
Dial tone detection(Before auto dial)
6
7
8
Reserved
Busy tone detection(After auto dial)
Busy tone detection pulse number
(After auto dial)
Waiting time after dialing
Binary input
8 4 2 1
0
1
0
1
0
0
0
1
2
3
4
1
0
0
1
0
Yes
1
No
4 pulses
Yes
2 pulses
0
1
0
Dial pausing(sec/pause)
2
3
Dial mode
Pulse → Tone change function by
4
Dial pulse make/break ratio(%)
55 seconds 90 seconds 140 seconds
0
0
0
1
No
Yes
5
6
7
8
1
0
No
45 seconds
PBX connection
Reserved
PBX recall function(R key select)
key
0
0
Binary input
16 8 4 2 1
4 5 6 7 8
0 1 0 1 0
No. 1
No. 2
Auto dial mode
1
1
No
1
0
1
1
1
0
0
0
NO OPERATION
FLASH
No. 5
No. 6
0
0
ID
1
1
FLASH
1
1
No. 7
No. 8
0
0
1
1
PBX select
SW
l
B4
1
0
0
Yes
4
1
2
3
4
Remarks
5 seconds 13 seconds 20 seconds 25 seconds
3
SW
l
B2
0
1
EOL detect timer
SW
l
A7
Initial
setting
Switch setting and function
ITEM
OPTION
4 sec
2 sec
0
0
1
Tone
Enable
Pulse
Disable
1
1
33/67
1
40/60
Delay timer of before line
0 second 1.5 seconds 3.0 seconds 4.5 seconds
No. 5
No. 6
5
6
7
connect
Reserved
0
1
0
8
Reserved
0
2–6
0
0
0
1
1
0
OPTION
1
1
UX-68DE
FO-78DE
SW
NO.
DATA
NO.
SW
l
B5
1
2
3
4
5
Auto dial mode
SW
l
B6
SW
l
B7
1
Delay timer of after line
connect
1.7s
2.0s
2.5s
3.0s
3.6s
4.0s
5.5s
7.0s
0
0
0
0
0
1
0
1
0
0
1
1
1
0
0
1
0
1
1
1
0
1
1
1
6
7
8
1
Reserved
DTMF signal transmission level
2
(Low frequency 0~15.5dBm setting
3
4
5
by 0.5dBm step)
6
7
Reserved
Reserved
0
0
8
Reserved
0
1
DTMF signal transmission level
2
(High frequency 0~15.5dBm setting
3
4
5
by 0.5dBm step)
6
7
Reserved
Reserved
8
Reserved
Reading Slice(Binary)
No
No
No. =
16 8 4 2 1
1
1
No. =
0
2 3 4 5
0 0 0 1
0
0
1
Binary input
0
16 8 4 2 1
1
1
0
2 3 4 5
1 1 0 0
1
0
0
0
0
0
Factory
setting
Dark
Light
Daker in
dark
No. 1
No. 2
0
0
Factory
setting
0
1
Dark
1
0
Light
1
1
Daker in
dark
0
0
No. 3
No. 4
0
0
1
0
1
1
0
0
0
0
Line density selection
Reserved
Fine
0
1
Standard
7
8
MTF correction in half tone mode
Reserved
No
Yes
1
Number of rings for auto receive
2
(0~15rings setting)
Automatic swiching manual to auto receive
function
0
0
Binary input
No. =
0
8 4 2 1
0
1 2 3 4
0 0 1 0
1
0
0
Yes
No
CI detect frequency
6
7
8
1
0
1
0
0
0
1
Binary input
3
4
5
6
3
4
5
Remarks
0
0
Reading Slice(Half tone)
SW
l
D1
0
No. 1
No. 2
No. 3
Fax signal detection after telephone mode dial Yes
Recalling fixed only one time when dialing was Yes
unsuccessful without detecting busy tone signal
Reserved
Reserved
1
2
SW
l
C1
Initial
setting
Switch setting and function
ITEM
No. 6
No. 7
Reserved
2–7
As PTT
11.5Hz
13.0Hz
20.0Hz
0
0
0
1
1
0
1
1
0
0
0
OPTION
UX-68DE
FO-78DE
SW
NO.
SW
l
D2
SW
l
D3
SW
l
D4
DATA
NO.
Switch setting and function
ITEM
1
1
2
Reserved
Reserved
0
0
3
4
Reserved
Reserved
0
0
5
Reserved
0
6
Caller ID function
7
Reserved
0
8
Reserved
0
1
CI off detection timer
2
(0~1550ms setting by 50ms step)
Yes
SW
l
E2
No
No. =
Binary input
0
1
1
0
2 3 4 5
1 1 1 0
1
1
0
6
Reserved
0
7
Reserved
0
8
Reserved
0
1
DTMF type Caller ID RX level
2
(0~-44dBm setting by 1dBm step)
No. =
Binary input
1
32 16 8 4 2 1
0
3
4
5
1
1
6
7
Reserved
8
Reserved
2 3 4 5 6
0 1 1 0 0
1
1
0
0
0
0
9sec 15sec 30sec 60sec 90sec 120sec 150sec 180sec
1
2
3
4
automatic switching mode
5
6
CNG detect time at TEL/FAX mode
Post answer tone(TEL/FAX mode)
3 sec
No
5 sec
Yes
0
1
7
8
Type of post answer tone
Pseudo ringer ON/OFF cycle
LA-SI-DO tone
1 sec ON / 4 sec OFF
800Hz single tone
1 sec ON / 2 sec OFF
0
1
1
Pseudo ringer sound output level to the line
2
(0~-15dBm setting by 1dBm step)
Number of CNG signal detection at the
TEL/FAX automatic switching mode
No. 1
No. 2
No. 3
Twice
0
0
0
0
0
1
Post answer tone transmission level
5
(0~-15dBm setting by 1dBm step)
0
1
1
1
0
0
Once
1
0
1
1
1
0
1
1
1
0
1
0
1
Binary input
1
8 4 2 1
0
1 2 3 4
1 0 1 0
Binary input
1
0
No. =
3
4
0
1
0
8 4 2 1
1
6
No. =
5 6 7 8
0
7
8
1
1 0 0 1
0
1
0
Reserved
Action select when DTMF "#" is received during
A.M. Remote
phone/fax automatic switching mode
SW
l
E3
0
16 8 4 2 1
3
4
5
Pseudo ringing time at the TEL/FAX
SW
l
E1
Initial
setting
0
No Action
No Action
operation
Disconnect line
2
No. 2
0
0
1
1
0
3
4
No. 3
0
1
0
1
Reserved
0
0
5
6
Reserved
Reserved
0
0
7
8
Reserved
Reserved
0
0
2–8
Remarks
OPTION
UX-68DE
FO-78DE
SW
NO.
DATA
NO.
1
0
DTMF detection time
SW
l
F1
50ms
80ms
100ms
120ms
1
No. 1
0
0
1
1
0
2
3
No. 2
0
1
No
0
1
0
0
4
5
Protection of remote reception(5
)
detection
Remote reception with GE telephone
Remote operation code figure by external
6
TEL (0~9)
7
8
1
CNG detection in STAND-BY mode
Number of CNG detect(AM mode)
Yes
Compatible
No. =
SW
l
G2
SW
l
G3
SW
l
G4
1
0
8
4
2
1
1
5
0
6
1
7
0
8
1
0
1
1
Yes
1 pulse
No
2 pulses
3 pulses
4 pulses
No. 2
0
0
1
1
0
No. 3
0
1 pulse
1
2 pulses
0
3 pulses
1
4 pulses
1
4
No. 4
0
0
1
1
0
5
6
No. 5
0
1
0
1
Reserved
1
0
7
8
Reserved
Reserved
0
0
1
2
Reserved
Reserved
0
0
3
4
Reserved
Reserved
0
0
5
6
Reserved
Reserved
0
0
7
8
Reserved
Reserved
0
0
1
2
Reserved
Reserved
0
0
3
4
Reserved
Reserved
0
0
5
6
Reserved
Reserved
0
0
7
8
Reserved
Reserved
0
0
1
2
Reserved
Reserved
0
0
3
4
Reserved
Reserved
0
0
5
6
Reserved
Reserved
0
0
7
Reserved
0
8
1
Reserved
Quiet detect level setting
2
(0~-44dBm setting by 1dBm step)
3
SW
l
G1
Not compatible
Binary input
2
SW
l
F2
Initial
setting
Switch setting and function
ITEM
Number of CNG detect(STAND-BY mode)
No. =
Binary input
0
1
32 16 8 4 2 1
0
3
4
5
1
1
6
7
Fax switching when A.M. full
8
Reserved
Yes
2 3 4 5 6
0 1 1 0 0
No
OPTION
OPTION
1
1
0
0
0
0
2–9
Remarks
OPTION
UX-68DE
FO-78DE
SW
NO.
DATA
NO.
1
2
SW
l
H2
1
5sec
No
No
Yes
0
4
Busy tone detect intermittent sound detect
during OGM
No
Yes
1
5
Busy tone detect intermittent sound detect
Busy tone detection pulse number
No
10sec
Yes
2pulses
Yes
4pulses
6pulses
10pulses
No. 6
0
0
1
1
0
No. 7
0
1
0
1
Reserved
Reserved
1
0
0
2
3
Reserved
Reserved
0
0
4
5
6
Reserved
Reserved
Reserved
0
0
0
7
8
Reserved
Reserved
ICM recording time
0
0
4min
15s
30s
60s
No. 1
0
0
1
1
0
No. 2
0
2s
1
3s
0
4s
1
5s
0
3
No. 3
0
0
1
1
0
4
No. 4
0
0s
1
1s
0
2s
1
3s
0
5
No. 5
0
0
1
1
1
6
7
No. 6
0
1
Off
0
1
0
0
A.M. Quiet time 1
A.M. Quiet time 2
8
Key input buzzer on/off switch
(Two way recording mode)
Reserved
A.M. Quiet detect time
On
SW
l
I3
OPTION
0
Binary input
1
SW
l
I2
0
7
8
1
2
Remarks
1
1
6
1
SW
l
I1
Initial
setting
0
Busy tone continuous sound detect time
Busy tone detect continuation sound detect
during OGM
Busy tone detect continuation sound detect
3
SW
l
H1
Switch setting and function
ITEM
No. =
16 8 4 2 1
0
2
1
2 3 4 5
0
3
4
5
0
0 1 1 0
1
1
0
6
Reserved
0
7
8
Reserved
Reserved
0
0
1
2
Two way alarm
Max OGM record time
Yes
15s
No
60s
1
0
3
4
Two way record function
Toll saver
Disable
Disable
Enable
Enable
0
0
5
No
1
6
FAX reception in case of detecting No sound Yes
detect after ICM recording
Reserved
7
8
Reserved
Transfer dial recall
0
Disable
Enable
2 – 10
0
0
OPTION
UX-68DE
FO-78DE
SW
NO.
DATA
NO.
1
AGC Maximum Gain (line) 10~25dB (1dB step)
No. =
8
4
2
1
1
2
1
2
3
4
1
3
4
1
1
0
0
0
0
AGC Maximum Gain (mic) 10~25dB (1dB step)
No. =
8
4
2
1
1
6
5
6
7
8
1
7
8
1
1
1
1
1
1
AGC Eref access code (line) -0~-30dB (2dB step)
Binary input
1
No. =
8
4
2
1
1
2
1
2
3
4
1
3
4
1
1
0
1
0
1
AGC Eref access code (mic) -0~-30dB (2dB step)
Binary input
5
No. =
8
4
2
1
1
6
5
6
7
8
1
7
8
1
1
1
1
1
1
AGC Gain Adaptation Threshold (line)
Binary input
1
SW
l
I6
No. =
8
4
2
1
1
2
1
2
3
4
1
3
4
1
1
1
1
1
1
AGC Gain Adaptation Threshold (mic)
Binary input
5
No. =
8
4
2
1
1
6
5
6
7
8
1
7
8
1
1
1
1
1
1
AGC Slew Rate (line)
Slow
Normal
Little fast
Fast
No. 1
0
0
1
1
0
No. 2
0
Slow
1
Normal
0
Little fast
1
Fast
1
3
No. 3
0
0
1
1
0
4
5
6
No. 4
0
1
0
1
Reserved
Reserved
1
0
0
7
8
Reserved
Reserved
0
0
1
2
AGC Slew Rate (mic)
SW
l
I7
OGM/ICM output level (0~-31dBm setting by
1
SW
l
I8
Remarks
Binary input
5
SW
l
I5
0
Binary input
1
SW
l
I4
Initial
setting
Switch setting and function
ITEM
Binary input
1dBm step)
No. =
16 8 4 2 1
0
2
1
2 3 4 5
0
3
4
5
0
0 1 0 1
1
0
1
6
AM OGM announce only mode
7
Reserved
Yes
No
0
8
Reserved
0
2 – 11
0
OPTION
UX-68DE
FO-78DE
SW
NO.
DATA
NO.
1
2
Switch setting and function
ITEM
Sender’s phone number setting
Summer time
1
Cannot change
No
Ringer volume
SW
l
J1
SW
l
J2
SW
l
J3
SW
l
K1
Initial
setting
0
Change allowed
Yes
0
0
3
No. 3
Off
0
Low
0
Middle
1
High
1
1
4
No. 4
0
1
0
1
0
5
6
Reserved
Reserved
7
Polling key
8
1
Reserved
Reserved
2
Reserved
Speaker volume
Remarks
OPTION
0
0
Yes
No
0
OPTION
0
0
0
3
No. 3
Very Low
0
4
No. 4
0
0
1
1
0
1
5
No. 5
0
1
0
1
0
0
6
7
Speaker monitor function
Saving energy start timing
Yes
5sec
8
Saving energy mode
Enable
1
Communication results printout
(Transaction report)
Low
0
Middle
0
High
0
Very High
1
0
No
180sec
OPTION
1
0
Disable
1
Error
Send only
Always
No print
No. 1
0
0
0
0
0
2
No. 2
0
0
1
1
0
3
No. 3
0
1
0
1
12 hour
Month-Day-Year
24 hour
Day-Month-Year
OPTION
0
4
5
6
Time format
Date format
Reserved
0
0
0
7
Reserved
8
1
Reserved
Entering diag mode by pressing SPEED key Yes
2
Reserved
0
3
4
Reserved
Reserved
0
0
5
6
Reserved
Reserved
0
0
7
8
Reserved
Reserved
0
0
0
No
2 – 12
0
0
UX-68DE
FO-78DE
SW-A3 No. 1, No. 2 CED tone signal interval
• Soft switch function description
For international communication, the 2100Hz CED tone may act as an
echo suppression switch, causing a communication problem.
Though SW-A3 No. 1 and No. 2 are normally set to 0, this selfing is used
to change the time between the CED tone signal to eliminate the communication caused by echo.
SW-A1 No. 1 Protect from echo
Used to protect from echo in reception.
SW-A1 No. 2 Forced 4800BPS reception
When line conditions warrant that receptions take place at 4800 BPS
repeatedly.
It may improve the success of receptions by setting at 4800BPS.
This improves the receiving document quality and reduces handshake
time due to fallback during training.
TX
RX
CED
T
SW-A1 No. 3 Footer print
DIS
When set to "1", the date of reception, the sender machine No., and the
page No. are automatically recorded at the end of reception.
SW-A3 No. 3 MR coding
SW-A1 No. 4 Length limitation of copy/send/receive
Used to select the MR coding enable or disable.
Used to set the maximum page length.
To avoid possible paper jam, the page length is normally limited to 0.6
meter for copy or transmit, and 1.5 meters for receive.
It is possible to set it to "No limit" to transmit a long document, such as a
computer print form, etc. (In this case, the receiver must also be set to
no limit.)
SW-A3 No. 4 ~ No. 8 Reserved
Set to "0".
SW-A4 No. 1 ~ No. 5 Signal transmission level
(0~-31 dBm setting by 1dBm step)
Used to control the signal transmission level in the range of -0dB to
-31dB.
The factory setting is at -11dB(HK), -9dB(SG) (MODEM output).
SW-A1 No. 5 CSI transmission
(CSI TRANSMISSION) is a switch to set whether the machine sends or
does not send the signal (CSI signal) informing its own telephone No. to
the remote fax machine when information is received. When "nonsending"
is set, the telephone No. is not output on the remote transmitting machine if the remote transmitting machine has the function to display or
print the telephone No. of receiving machine, using this CSI signal.
SW-A4 No. 6 Protocol monitor (Error Print)
If set to "1", protocol is printed at communication error.
SW-A4 No. 7 Protocol monitor
Used to make a choice of whether reception of DIS(NSF) is acknowledged after receiving two DISs(NSFs) or receiving one DIS (two NSFs).
It may be useful for overseas communication to avoid an echo suppression problem, if set to 1.
Normally set to "0". If set to "1", communication can be checked, in case
of trouble, without using a G3 tester or other tools.
When communication FSK data transmission or reception is made, the
data is taken into the buffer. When communication is finished, the data is
analyzed and printed out. When data is received with the line monitor
(SW4-No. 8) set to "1" the reception level is also printed out.
SW-A1 No. 7 Non modulated carrier for V29 transmission mode
SW-A4 No. 8 Line monitor
Though transmission of a nonmodulated carrier is not required for transmission by the V29 modem according to the CCITT Recommendation, it
may be permitted to a send nonmodulated carrier before the image signal to avoid an echo suppression problem.
It may be useful for overseas communication to avoid an echo suppression problem, if set to 1.
Normally set to "0". If set to "1", the transmission speed and the reception level are displayed on the LCD. Used for line tests.
SW-A1 No. 6 DIS receive acknowledgment during G3 transmission
SW-A5 No. 1, No. 2 Digital equalization setting (Reception)
Line equalization when reception is to be set according to the line characteristics.
Setting should be made according to distance between the telephone
and the telephone company central switching station.
SW-A1 No. 8 Reserved
Set to "0".
SW-A5 No. 3, No. 4 Digital equalization setting (Transmitter)
SW-A2 No. 1 ~ No. 4 Modem speed
Line equalization when transmission is to be set according to the line
characteristics.
Setting should be made according to distance between the telephone
and the telephone company central switching station.
Used to set the initial modem speed. The default is 9600BPS.
It may be necessary to program it to a slower speed when frequent line
fallback is encountered, in order to save the time required for fallback
procedure.
SW-A5 No. 5, No. 6 Digital equalization setting
(Reception for Caller ID)
SW-A2 No. 5 Reserved
Set to "0".
Line equalization when reception for CALLER ID is to be set according
to the line characteristics.
Setting should be made according to distance between the telephone
and the telephone company central switching station.
SW-A2 No. 6 H2 mode
Used to determine reception of H2 mode (15 sec transmission mode).
When set to OFF, H2 mode reception is inhibited even though the transmitting machine has H2 mode function.
SW-A5 No. 7 Error criterion
SW-A2 No. 7 Communication error treatment in RTN sending mode
(Reception)
Used to select error criterion for sending back RTN when receiving image data.
Used to determine communication error treatment when RTN is sent by
occurrence of a received image error in G3 reception. When it is set to
"1", communication error is judged as no error.
SW-A5 No. 8 Anti junk fax check
When using the Anti junk fax function, set to "1".
SW-A6 No. 1 Auto gain control(MODEM)
SW-A2 No. 8 CNG transmission
When this mode is enabled, if the reception signal level is under 31dBm,
the modem itself controls the signal gain automatically.
When set to "0", this model allows CNG transmission by pressing the
Start key in the key pad dialing mode. When set to "1", CNG transmission in the key pad dialing mode cannot be performed. In either case,
CNG transmission can be performed in the auto dial mode.
SW-A6 No. 2 End buzzer
Setting this bit to 0 will disable the end buzzer (including the error buzzer/
on-hook buzzer).
2 – 13
UX-68DE
FO-78DE
SW-A6 No. 3 Disconnect the line when DIS is received in RX mode
SW-B3 No. 1, No. 2 Waiting time after dialing
Bit1 = 0 : When DIS signal is received during RX mode, disconnect the
line immediately.
Bit1 = 1 : When DIS signal is received during RX mode, wait for the next
signal.
This is waiting time for the opponent's signals after dialing.
45 / 55 / 90 / 140 seconds settings are available.
SW-B3 No. 3 PBX connection
Used to select according to the connected line: PBX (Private Branch
Exchange).
SW-A6 No. 4 Equalizer freeze control (MODEM)
This switch is used to perform reception operation by fixing the equalizer control of modem for the line which is always in unfavorable state
and picture cannot be received.
* Usually, the control is executed according to the state of line where the
equalizer setting is changed always.
SW-B3 No. 4 Reserved
Set to "0".
SW-B3 No. 5, No. 6 PBX recall function (R key select)
SW-A6 No.5 Equalizer freeze 7200BPS only
Used to set the operation mode of PBX recall when the R key is pressed.
Setting is made according to the type of PBX.
Setting which specifies SW-A6 No. 4 control only in condition of 7200BPS
modem speed.
No. 5=1, No. 6=1:Time break recall (=Flash) is performed.
SW-B3 No. 7, No. 8 PBX select
SW-A6 No. 6 CNG transmission in manual TX mode
Used to select the operation mode of PBX recall in auto dialing.
No. 7=1, No. 8=1:Time break recall (=Flash) is performed before dialing.
When set to "1", fax transmit the CNG signal in case of manual
transmissiom mode (User press the START key after waiting for the fax
answering signal from handset or speaker).
No. 7=0, No. 8=0:The PBX ID digit is automatically added when dialing
to external line. PBX ID is up to 3 digits and entered in
Option settings mode.
SW-A6 No. 7 Initial compression scheme for sharp fax in TX mode
When set to "0", if the other fax is Sharp model, fax transmit the document by H2 mode.
When set to "1", even if the other fax is Sharp model, fax transmit the
document by MR mode.
SW-B4 No. 1 Dialing pause (sec/pause)
Pauses can be inserted between telephone numbers of direct dial connection. Selection of 4 sec or 2 sec pause is available.
SW-B4 No. 2 Dial mode
SW-A6 No. 8 Modem speed automatic down when RX level is under
-40dBm
When using the pulse dial, set to 0. When using the tone dial, set to 1.
SW-B4 No. 3 Pulse → Tone change function by
When set to "1", if fax signal level is under -40dBm during reception,
machine selects the slower modem speed automatically.
It is effective when noises occur on the received document due to the
long distance communications.
key
When setting to 1, the mode is changed by pressing the
pulse dial mode to the tone dial mode.
key from the
SW-B4 No. 4 Dial pulse make/break ratio (%)
SW-A7 No. 1, No. 2 EOL (End Of Line) detect timer
When using the 33% make ratio pulse dial, set to 0.
When using the 40% make ratio pulse dial, set to 1.
Used to make a choice of whether to use the 5 or 13 or 20 or 25 seconds
timer for detection of EOL.
This is effective to override communication failures with some facsimile
models that have longer EOL detection.
SW-B4 No. 5, No. 6 Auto dial mode Delay timer of before line connect
Delay time between the dial key input and line connection under the
auto dial mode.
SW-A7 No. 3 ~ No. 8 Reserved
Set to "0".
RAPID A
SW-B1 No. 1 Reserved
CML RELAY ON
Set to "0".
DIALLING
SW-B1 No. 2 Auto dial fax transmission by REDIAL key
When set to "1", if original documents are set to the feeder and you
press REDIAL key, machine will dial and transmit the ducuments automatically.
When set to "0", operator needs to press the START key after FAX reception tone is heard.
No.5=0
No.5=0
No.5=1
No.5=1
No.6=0 : 0sec
No.6=1 : 1.5sec
No.6=0 : 3.0sec
No.6=1 : 4.5sec
SW-B1 No. 3 Reserved
SW-B4 No. 7, No. 8 Reserved
Set to "0".
Set to "0".
SW-B1 No. 4 ~ No. 8 Recall interval
(0~15.5min setting by 0.5min step)
Choice is made for a redial interval for speed and rapid dial calls.
Use a binary number to program this with 0.5min steps. If set to 0 accidentally, 0.5min will be assumed.
SW-B2 No. 1 ~ No.4 Recall times (0~15times setting)
Choice is made as to how many redials there should be.
SW-B2 No. 5 Dial tone detection (Before auto dial)
Used to set YES/NO of dial tone detection in auto dialing.
SW-B2 No. 6 Reserved
Set to "0".
SW-B2 No. 7 Busy tone detection (After auto dial)
Used to set YES/NO of busy tone detection after auto dialing.
SW-B2 No. 8 Busy tone detection pulse number (After auto dial)
Used for detection of busy tone in 2 or 4 pulses.
2 – 14
UX-68DE
FO-78DE
SW-B5 No. 1 ~ No. 3 Auto dial mode Delay timer of after line connect
SW-C1 No. 5 Line density selection
Used to set the transmission mode which is automatically selected when
the Resolution key is not pressed. In the copy mode, however, the fine
mode is automatically selected unless the Resolution key is manually
set to another mode.
Delay time between the line connection and dial data output under the
auto dial mode.
This setting is available when dial tone detection(SW-B2 No. 5) is set to
"NO".
SW-C1 No. 6 Reserved
DIAL DATA
RAPID A
Set to "0".
CML RELAY ON
SW-C1 No. 7 MTF correction in half tone mode
This allows selection of MTF correction (dimness correction) in the half
tone mode.
When "NO" (=1) is selected, the whole image becomes soft and mild.
Clearness of characters will be reduced. Normally set to "YES" (=0).
No. 1
No. 2
No. 3
0
0
0
1.7sec
SW-C1 No. 8 Reserved
0
0
1
2.0sec
Set to "0".
0
1
0
2.5sec
0
1
1
3.0sec
SW-D1 No.1 ~ No. 4 Number of rings for auto receive
(0~15rings setting)
1
0
0
3.6sec
1
0
1
4.0sec
1
1
0
5.5sec
1
1
1
7.0sec
When the machine is set in the auto receive mode, the number of rings
before answering can be selected. It may be set from one to nine rings
using a binary number. Since the facsimile telephone could be used as
an ordinary telephone if the handset is taken off the hook, it should be
programmed to the user's choice. If the soft switch was set to 1, direct
connection is made to the facsimile.
If a facsimile calling beep was heard when the handset is taken off the
hook, press the START key and put the handset on the hook to have the
facsimile start receiving. If it was set to 0 accidentally, receive ring is set
to 1.
SW-B5 No. 4 Fax signal detects after telephone mode dial
When set to "1", if machine detects the fax answering signal after telephone calling (handset off-hook or speaker mode dial), machine starts
to receive the documents automatically.
NOTE: If the machine is set to answer after a large number of rings, it
may not be able to receive faxes successfully.
If you have difficulty receiving faxes, reduce the number of rings
to a maximum of 5.
SW-B5 No. 5 Recalling fixed only one time when dialing was unsuccessful without detecting busy tone signal
When set to "1", if machine does not detect the busy tone after auto
dialing and dialing is unsuccessful, machine will try to recall only one
time.
SW-D1 No. 5 Automatic switching manual to auto receive function
This soft switch is used to select whether the machine should switch to
the auto receive mode after 5 rings in the manual receive mode or remain in the same way as SW-D1 No. 1, No. 2, No. 3 and No. 4 "0"1"0"1"(5
rings).
SW-B5 No. 6 ~ No. 8 Reserved
Set to "0".
SW-B6 No. 1 ~ No. 5 DTMF signal transmission level
(Low frequency 0~15.5dBm setting by 0.5dBm step)
SW-D1 No. 6, No. 7 CI detect frequency
The transmission level of DTMF signal is adjusted. (lower frequency)
Detection frequency of ring signal for auto reception is set.
When set to No. 6=0, No. 7=0, frequency is set to PTT recommendation.
When set to No. 6=0, No. 7=1, frequency is set to 11.5Hz or more.
When set to No. 6=1, No. 7=0, frequency is set to 13.0Hz or more.
When set to No. 6=1, No. 7=1, frequency is set to 20.0Hz or more.
00000: 0dBm
↓
11111: -15.5 dBm (-0.5dBm x 31)
SW-B6 No. 6 ~ No. 8 Reserved
SW-D1 No. 8 Reserved
Set to "0".
Set to "0".
SW-B7 No. 1 ~ No. 5 DTMF signal transmission level
(High frequency 0~15.5dBm setting by 0.5dBm step)
SW-D2 No. 1 ~ No. 5 Reserved
Set to "0".
The transmission level of DTMF signal is adjusted. (higher frequency)
SW-D2 No. 6 Caller ID Function
00000: 0dBm
Used for Caller ID function.
↓
SW-D2 No. 7, No. 8 Reserved
11111: -15.5 dBm (-0.5dBm x 31)
Set to "0".
SW-B7 No. 6 ~ No. 8 Reserved
Set to "0".
SW-C1 No. 1, No. 2 Reading slice (Binary)
Used to determine the set value of reading density in standard/fine/super-fine mode.
The standard setting is "00"(Factory setting is "00").
SW-C1 No. 3, No. 4 Reading slice (Half tone)
Used to determine the set value of reading density in half tone mode.
The standard setting is "00"(Factory setting is "00").
2 – 15
UX-68DE
FO-78DE
SW-D3 No. 1 ~ No. 5 CI off detection timer
(0~1550ms setting by 50ms step)
SW-E3 No. 2, No. 3 Action select when DTMF "#" is received during
phone/fax automatic switching mode
Set the minimum time period of CI signal interruption which affords to be
judged as a CI OFF section with 50ms steps.
(Example)
SW-E3 No. 4 ~ No. 8 Reserved
A
Set to "0".
SW-F1 No. 1, No. 2 DTMF detection time
B
1
400msec
Used to set detect time of DTMF (Dual Tone Multi Frequency) used in
).
remote reception(5
The longer the detect time is, the less the error detection is caused by
noises.
2
2000msec
SW-F1 No. 3 Protection of remote reception (5
0 1 1 1 0 (50ms~14) : 700ms(CI interruption>700ms:Judged as a CI
OFF section)
The section 1 is not judged as a CI OFF section, the CI signal A is counted as one signal.
The section 2 is judged as a CI OFF section,
the CI signal B is considered as the second signal.
0 0 1 1 1 (50ms~7) : 350ms(CI interruption>350ms:J udged as a CI
OFF section)
The section 1 is judged as a CI OFF section,
and the CI signal A is counted as two signals.
The section 2 is judged as a CI OFF section,
and the CI signal B is considered as the third
signal.
Used to set the function of remote reception (5
the remote reception function is disabled.
) detection
). When set to "1",
SW-F1 No. 4 Remote reception with GE telephone
"1": Compatible with TEL mode by GE
"0": Not compatible
• When sending (5
) for remote reception with a GE manufactured
telephone remote reception may not take place because of special
specifications in their DTMF.
To overcome this, a soft SW is provided to change the modem setting
to allow for remote reception.
• If this soft SW is set to "1", other telephone sets may be adversely
affected.
SW-D3 No. 6 ~ No. 8 Reserved
SW-F1 No. 5 ~ No. 8 Remote operation code figure by external TEL
(0~9)
Set to "0".
Remote operation codes can be changed from 0 through 9. If set to
greater than 9, it defaults to 9. The "5
" is not changed.
Ex- 7
(Default : 5
)
SW-D4 No. 1 ~ No. 6 DTMF type Caller ID RX level
(0~-44dBm setting by 1dBm step)
This is used for DTMF type Caller ID detection level setting.
SW-F2 No. 1 CNG detection in STAND-BY mode
SW-D4 No. 7, No. 8 Reserved
Set to "0".
When setting to "1", the CNG signal detection function during standby
stops.
SW-E1 No. 1 ~ No. 3 Pseudo ringing time at the TEL/FAX automatic
switching mode
SW-F2 No. 2, No. 3 Number of CNG detect (AM mode)
Choice is made as to how long to rumble the dummy ringer on TEL/FAX
automatic switching mode.
SW-F2 No. 4, No. 5 Number of CNG detect (STAND-BY mode)
Used for detection of CNG in 1 to 4 pulses.
Used for detection of CNG in 1 to 4 pulses.
SW-E1 No. 4 Number of CNG signal detection at the TEL/FAX automatic switching mode
SW-F2 No. 6 ~ No. 8 Reserved
Used for detection of CNG in one tone or two tones in the TEL/FAX
automatic switching mode.
Set to "0"
SW-G1 No. 1 ~ No. 8 Reserved
SW-E1 No. 5 CNG detect time at TEL/FAX mode
Set to "0"
The switch which sets the time from the start of CNG detection to the
end of detection.
SW-G2 No. 1 ~ No. 8 Reserved
Set to "0"
SW-E1 No. 6 Post answer tone (TEL/FAX mode)
When set to "0", machine send the tones in TEL/FAX auto changeover
mode.
SW-G3 No. 1 ~ No. 8 Reserved
SW-E1 No. 7 Type of post answer tone
SW-G4 No. 1 ~ No. 6 Quiet detect level setting
(0~-44dBm setting by 1dBm step)
Set to "0"
When set to "0", post answer tone is 800Hz single tone.
When set to "1", post answer tone is 880Hz/988Hz/1046Hz(LA-SI-DO)
tone.
This is used to change the quiet detect level setting.
If quiet detection is difficult due to noise, reduce this setting level.
SW-E1 No. 8 Pseudo ringer ON/OFF cycle
(Example)
When set to "0", pseudo ringer is 1 sec ON and 2 sec OFF cycles.
When set to "1", pseudo ringer is 1 sec ON and 4 sec OFF cycles.
Factory setting : 1 0 1 1 0 0 (- 44dBm)
↓
SW-E2 No. 1 ~ No. 4 Pseudo ringer sound output level to the line
(0~-15dBm setting by 1dBm step)
1 0 1 0 0 0 (- 40dBm)
SW-G4 No. 7 Fax switching when A.M. full
Used to adjust the sound volume of pseudo ringer to the line (ring back
tone) generated on selecting TEL/FAX.
If the answering machine’s memory (tape) is full and there is no response,
the machine automatically switches to Fax reception.
SW-E2 No. 5 ~ No. 8 Post answer tone transmission level
(0~-15dBm setting by 1dBm step)
SW-G4 No. 8 Reserved
Used to adjust the sound volume of post answer tone to the line generated on selecting TEL/FAX.
Set to "0".
SW-E3 No. 1 Reserved
Set detecting time busy tone for 5 seconds or 10 seconds.
SW-H1 No. 1 Busy tone continuous sound detect time
Set to "0"
2 – 16
UX-68DE
FO-78DE
SW-H1 No. 2 Busy tone detect continuation sound detect during
OGM
SW-I3 No. 5 FAX reception in case of detecting no sound detect
after ICM recording
Used to detect the continuous tone of specific frequency during OGM
output.
If this switch is set to "0", machine doesn’t change to FAX reception
mode when detect no sound in ICM recording.
SW-H1 No. 3 Busy tone detect continuation sound detect
SW-I3 No. 6, No. 7 Reserved
Used to select detection of the continuous sound of certain frequency.
Set to "0".
SW-H1 No. 4 Busy tone detect intermittent sound detect during OGM
SW-I3 No. 8 Transfer dial recall
Used to detect the intermittent tone of specific frequency during OGM
output.
If this switch is set to "1", machine disable redial in Transfer function.
SW-I4 No. 1 ~ No. 4 AGC maximum gain (Line)
(10~25dB) (1 dB step)
SW-H1 No. 5 Busy tone detect intermittent sound detect
Used to select detection of the intermittent sound of certain frequency.
The AGC Maximum Gain limits the gain applied by the AGC. Message
with average energy below the AGC Energy Reference Level will have
their average energy level increased by no more than the AGC Maximum Gain. The AGC Maximum Gain should average energy of the message with the lowest average energy to the AGC Energy Reference Level.
SW-H1 No. 6, No. 7 Busy tone detection pulse number
Used to set detection of Busy tone intermittent sounds.
SW-H1 No. 8 Reserved
SW-I4 No. 5 ~ No. 8 AGC maximum gain (Mic)
(10~25dB) (1 dB step)
Set to "0".
SW-H2 No. 1 ~ No. 8 Reserved
The AGC Maximum Gain limits the gain applied by the AGC. Message
with average energy below the AGC Energy Reference Level will have
their average energy level increased by no more than the AGC Maximum Gain. The AGC Maximum Gain should average energy of the message with the lowest average energy to the AGC Energy Reference Level.
Set to "0".
SW-I1 No. 1, No. 2 ICM recording time
Used to select the incoming message recording time among 15sec/30sec/
60sec/4min.
SW-I5 No. 1 ~ No. 4 AGC eref access code (Line)
(-0~-30dB) (2 dB step)
SW-I1 No. 3, No. 4 A.M. quiet time 1
Used to select four kinds of no sound time (2 sec ~ 5 sec) after reception
in the T.A.D mode until OGM is output.
Reception
OGM output
The AGC Energy Reference Level controls the playback level. Any message having average speech energy above the energy reference level
has its playback level attenuated, and any level has its playback level
increased. If the playback level is too high (low), then decreasing (increasing) the AGC energy Reference level will achieve the desired level.
ICM recording
2 sec~ 5 sec ( SW-I1No. 3, No. 4)
SW-I5 No. 5 ~ No. 8 AGC eref access code (Mic)
(-0~-30dB) (2 dB step)
SW-I1 No. 5, No. 6 A.M. quiet time 2
The AGC Energy Reference Level controls the playback level. Any message having average speech energy above the energy reference level
has its playback level attenuated, and any level has its playback level
increased. If the playback level is too high (low), then decreasing (increasing) the AGC energy Reference level will achieve the desired level.
Used to select four kinds of no sound time (0 sec ~ 3 sec) after OGM
output the T.A.D mode until ICM recording is started.
Reception
OGM output
ICM recording
SW-I6 No. 1 ~ No. 4 AGC gain adaptation threshold (Line)
0 sec~3 sec (SW-I1 No. 5, No. 6)
The AGC adjusts the amount of gain applied to the incoming message
only when the average energy exceeds the AGC Gain Adaptation Threshold. The AGC Gain Adaptation Threshold prevents message background
noise from corrupting the gain provided that the AGC Gain Adaptation
Threshold is greater than the background noise energy. In the event that
a message has background noise energy greater than the AGC Gain
Adaptation Threshold, the AGC Gain can be no greater than the AGC
Maximum Gain. Note that the AGC Gain Adaptation Threshold must
always be greater than the RPACS VOX Turn-On Threshold.
SW-I1 No. 7 key input buzzer on/off switch (Two way recording mode)
Used to turn ON/OFF key input buzzer in the TWO-WAY recording mode.
SW-I1 No. 8 Reserved
Set to "0".
SW-I2 No. 1 ~ No. 5 A.M. quiet detect time
Used to set no sound time (0 sec - 32 sec) during the T.A.D. mode operation.
SW-I6 No. 5 ~ No. 8 AGC gain adaptation threshold (Mic)
The AGC adjusts the amount of gain applied to the incoming message
only when the average energy exceeds the AGC Gain Adaptation Threshold. The AGC Gain Adaptation Threshold prevents message background
noise from corrupting the gain provided that the AGC Gain Adaptation
Threshold is greater than the background noise energy. In the event that
a message has background noise energy greater than the AGC Gain
Adaptation Threshold, the AGC Gain can be no greater than the AGC
Maximum Gain. Note that the AGC Gain Adaptation Threshold must always be greater than the RPACS VOX Turn-On Threshold.
SW-I2 No. 6 ~ No. 8 Reserved
Set to "0".
SW-I3 No. 1 Two way alarm
When set to "1", alarm sound is given to remote side during two way
recording.
SW-I3 No. 2 Max OGM record time
Used to select the maximum OGM recording time (1=15sec, 0=60sec).
SW-I7 No. 1, No. 2 AGC slew rate (Line)
SW-I3 No. 3 Two way record function
The AGC Slew Rate controls the convergence of the message playback
level to the desired playback level. A large slew rate will allow faster
convergence and a small slew rate will allow slower convergence.
If this switch is set to "1", machine doesn’t work two way recording function.
SW-I3 No. 4 Toll saver
SW-I7 No. 3, No. 4 AGC slew rate (Mic)
Used to turn on the toll saver function. If it is off, the reception frequency
in the AM mode is indentical with that in the FAX mode.
The AGC Slew Rate controls the convergence of the message playback
level to the desired playback level. A large slew rate will allow faster
convergence and a small slew rate will allow slower convergence.
2 – 17
UX-68DE
FO-78DE
SW-I7 No. 5 ~ No. 8 Reserved
SW-K1 No. 1 Entering diag mode by pressing SPEED key
Set to "0".
A bit which is used in the production process only. When the SPEED key
is pressed, the switch is changed from the stand-by state to the diag
mode.
SW-I8 No. 1 ~ No. 5 OGM/ICM output level
(0~-31dBm setting by 1dBm step)
SW-K1 No. 2 ~ No. 8 Reserved
Used to control OGM and ICM output level.
Set to "0".
SW-I8 No. 6 AM OGM announce only mode
If this switch is set to 1, the machine is not recording ICM.
(disconnect the line after OGM output)
SW-I8 No. 7, No. 8 Reserved
Set to "0".
SW-J1 No. 1 Sender's phone number setting
Used to make a choice of whether the registered sender's phone number
can be changed or not. If the switch is set to "1", new registration of the
sender's phone number is disabled to prevent accidental wrong input.
SW-J1 No. 2 Summer time setting
Used to set YES/NO of automatic clock adjustment for Summer time.
SW-J1 No. 3, No. 4 Ringer Volume
Used to adjust ringing volume.
SW-J1 No. 5, No. 6 Reserved
Set to "0".
SW-J1 No. 7 Polling key
If this switch is set to 1, the last of Rapid key works as polling key.
SW-J1 No. 8 Reserved
Set to "0".
SW-J2 No. 1, No. 2 Reserved
Set to "0".
SW-J2 No. 3 ~ No. 5 Speaker Volume
Used to adjust sound volume from a speaker.
SW-J2 No. 6 Speaker monitor function
Used to select whether to make the speaker monitor function valid or
not.
SW-J2 No. 7 Saving energy start timing
Used to set the time between the machine’s stand-by state (clock indication) after operation and saving energy mode.
It is possible to set the time to either 5 sec or 180 sec (default).
SW-J2 No. 8 Saving energy mode
Used to select whether to make the saving energy mode valid or not.
SW-J3 No. 1 ~ No. 3 Communication results printout
(Transaction report)
It is possible to obtain transaction results after each communication.
Normally,the switch is set (No. 1 : 0, No. 2 : 0, No. 3 : 0) so that the
transaction report is produced only when a communication error is encountered.
If No.1 was set to 0 and No. 2 to 1 and No. 3 to 0, the transaction report
will be produced every time a communicaion is done, even if the
communicaion was successful.
Setting No. 1 to 0 and No. 2 to 1 and No. 3 to 1 will disable this function.
No transaction report printed.
SW-J3 No. 4 Time format
When set to "0", 24hour time format is used.
When set to "1", 12hour time format is used.
SW-J3 No. 5 Date format
When set to "0", Day-Month-Year format is used.
When set to "1", Month-Day-Year format is used.
SW-J3 No. 6 ~ No. 8 Reserved
Set to "0".
2 – 18
UX-68DE
FO-78DE
[3] Troubleshooting
Refer to the following actions to troubleshoot any of the problems mentioned in 1-4.
[1]
A communication error occurs.
[2]
Image distortion produced.
[3]
Unable to do overseas communication.
[4]
Communication speed slow due to FALLBACK.
•
Increase the transmission level SOFT SWITCH A4-1, 2, 3, 4, 5.
May be used in case [1] [2] [3].
•
Decrease the transmission level SOFT SWITCH A4-1, 2, 3, 4,
5. May be used in case [3].
*
•
Apply line equalization SOFT SWITCH A5-1, 2.
May be used in case [1] [2] [3] [4].
•
Slow down the transmission speed SOFT SWITCH A2-1, 2, 3,
4. May be used in case [2] [3].
•
Replace the TEL/LIU PWB.
May be used in all cases.
•
Replace the control PWB.
May be used in all cases.
If transmission problems still exist on the machine, use the following
format and check the related matters.
TO:
ATT:
Ref.No. :
CC:
ATT:
Date
:
Dept
:
Sign
:
FM:
From: Mr.
Our customer
Other party
Problem mode
Name
Address
Contact person
Name
Address
Contact person
Line: Domestic / international
Reception / Transmission
Frequency:
Confirmation
item
Ref.No.:
***** Facsimile communication problem *****
Fax Tel No.:
Our customer
Date:
Model:
G3
Automatic reception / Manual reception
Automatic dialing / Manual dialing / Others
% ROM version:
Other party
B1
B2
Tel No.
Fax No.
Model name
Tel No.
Fax No.
Model name
Phase: A, B, C, D.
Please mark problem with an X.
No problem is: 0.
A1 A2 B1 B2 C1 C2
A1
A2
C1
D2
C2
E1
E2
Our service
D1
Other party's service
Comment
Countermeasure
**** Please attach the G3 data and activity report on problem. ****
* Please complete this report before calling the “TAC” hotline if problem still occurs.
2 – 19
D1 D2 E1 E2
Transmission level setting is (
customer
Transmission level (
) dBm
Reception level (
) dBm
By level meter at B1 and B2
) dB at our
UX-68DE
FO-78DE
[4] Error code table
1. Communication error code table
G3 Transmission
Code
Final received signal
Error Condition (Receiver side)
0
Incomplete signal frame
Cannot recognize bit stream after flag
1
NSF, DIS
Cannot recognize DCS signal by echo etc.
2
CFR
Cannot recognize NSS signal (FIF code etc)
Disconnects line during reception (carrier missing etc)
3
4
FTT
MCF
Disconnects line by fall back
Disconnects line during reception of multi page
5
PIP or PIN
Cannot recognize NSS, DCS signal in the case of mode change
The line is hung up without replying to telephone request from the receiving party.
6
RTN or RTP
Cannot recognize NSS, DCS signal after transmit RTN or RTP signal.
7
8
No signal or DCN
−
No response in receiver side or DCN signal received* (transmitter side)
Owing to error in some page the error could not be corrected although the specified number of
error retransmissions were attempted.
11
−
Error occurred after or while reception by the remote (receiving) machine was revealed to be
impossible.
12
−
Error occurred just after fallback.
13
−
Error occurred after a response to retransmission end command was received.
G3 Reception
Code
0
Final received signal
Incomplete signal frame
Error Condition (Receiver side)
Cannot recognize bit stream after flag
1
NSS, DCS
2
NSC, DTC
Cannot recognize CFR or FTT signal
Disconnects line during transmission (line error)
Cannot recognize NSS signal (FIF code etc)
3
EOP
Cannot recognize MCF, PIP, PIN, RTN, RTP signal
4
5
EOM
MPS
Cannot recognize MCF, PIP, PIN, RTN, RTP signal in the case of mode change
The line is hung up without replying to communication request.
6
7
PR1-Q
No signal or DCN
Cannot recognize PIP, PIN signal in the case of TALK request
No response in transmitter (cannot recognize DIS signal) or DCN signal received* (receiver side)
8
9
−
−
Error occurred upon completion of reception of all pages.
Error occurred when mode was changed or Transmission/Reception switching was performed.
10
11
−
−
Error occurred during partial page or physical page reception.
Error occurred after or during inquiry from the remote (transmitting) machine as to whether
12
−
reception is possible or not.
Error occurred during or just after fallback.
13
−
Error occurred after the retransmission end command was received.
2 – 20
UX-68DE
FO-78DE
MEMO
2 – 21
4–1
LINE
HANDSET
SPEAKER
SURGE
PROTECT/
FILTER
AMPLIFIER
AMPLIFIER
MODEM
FM209V
CML
AMPLIFIER
D-FF
CI
TRANSFORMER
BZ
TEL/LIU
PWB UNIT
CLOCK
32.768kHz
ROM
2Mbit
16MHz
AMPLIFIER
RESET IC
VBT
SRAM
256kbit
PIO
CPU
RTC
SURGE
TRANS
ABSORBER
RECTIFIER
DIODE
TRANSFORMER
RECTIFIER
STABILIZER
+5V
PANEL I/F
SIO
THERMAL
HEAD I/F
SENSOR I/F
MOTOR I/F
CIS I/F
TIMER
WATCHDOG
TIMER
INTERRUPT
CONTROLLER
CPU I/F
1CHIP FAX ENGINE (FC200)
+24V
FILTER
POWER SUPPLY
PWB UNIT
OPERATION
PANEL
PANEL
DRIVER
PM
LCD
THERMAL
HEAD
CONTACT
IMAGE
SENSOR
PAPER
SENSOR
[1] Block diagram
SPEAKER
AMPLIFIER
FLASH
MEMORY
512k x 8bit
CLOCK
32.256MHz
+3.3V
REGULATOR
+5V
CONTROL PWB UNIT
UX-68DE
FO-78DE
CHAPTER 4. DIAGRAMS
16
4–2
OPERATION
PANEL PWB
UNIT
CNLCD
2
16
CNDR
CNCIS
CNTH
CNPN
CNMT
6
FRONT
SENSOR
2
CNFRS
CONTROL
PWB UNIT
CNCSW
2
CAM SW
SPEAKER
2
CNSP
CNPW
TEL/LIU
PWB UNIT
CNTLJ
CNLNJ
CNHJ
POWER SUPPLY
PWB UNIT
CN2
CNLIUB
CNLIUB
8
CNLIUA
CNLIUA
5
12
ARG
HANDSET
AC CORD
[2] Wiring diagram
14
LCD UNIT
DOOR
SENSOR
7
CIS(CONTACT IMAGE SENSOR)UNIT
FG
THERMAL HEAD
TX/RX
MOTOR
FG
UX-68DE
FO-78DE
CNPN
UX-68DE
FO-78DE
[3] Point- to-point diagram
CNMT
TX/RX
MOTOR
THERMAL
HEAD
OPERATION
PANEL
PWB
CIS
TPAD
TPBD
TPAD
TPBD
VMT
VMT
VTH
VTH
STRB1
STRB2
THI
N.C.
MG
MG
MG
+5V
STRB3
STRB4
LATCH
PCLK
DATA
VTH
1
2
3
4
5
6
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
CNPN
1
DG
2
+5V
3
SEN4
4
E
5
SEN0
6
SEN1
7
SEN2
8
SEN3
9
SEN5
10
SEN6
11
SEN7
ORGSNS 12
13
KEN4A
14
KEN3A
15
KEN2A
16
KEN1A
VO
DG
+5V
øT
CISCLK
GLED
+24V
1
2
3
4
5
6
7
1
2
3
4
5
6
TPAD
TPBD
TPAD
TPBD
VMT
VMT
CNTH
1
VTH
2
VTH
3
STRB1
4
STRB2
5
THI
6
RANK
7
MG
8
MG
9
MG
10
+5V
11
STRB3
12
STRB4
13
LATCH
14
PCLK
15
DATA
16
VTH
CNPN
1
DG
2
+5V
3
SEN4
4
E
5
SEN0
6
SEN1
7
SEN2
8
SEN3
9
SEN5
10
SEN6
11
SEN7
12 ORGSNS
13
KEN4A
14
KEN3A
15
KEN2A
16
KEN1A
CONTROL
PWB
CNLIUA
1
TELOUT
2
TELIN
TELMUTE 3
4
CI
5
HS
6
RHS
7
RXIN
8
TXOUT
9
CML
10
+5V
11
DG
12
+24V
CNLIUA
1
TELOUT
2
TELIN
3 TELMUTE
4
CI
5
HS
6
RHS
7
RXIN
8
TXOUT
9
CML
10
+5V
11
DG
12
+24V
CNLIUB
RLYCNT
1
TXMUTE 2
DPON
3
DPMUTE 4
E-RLY
5
CNLIUB
1
RLYCNT
2
N.C.
3
DPON
4 DPMUTE
5
E-RLY
CNDR
DRSNS 1
2
DG
CNPW
1
DG
2
+5V
3
MG
4
MG
5
+24V
6
+24V
7
DG
8
PSAVE
CNCIS
1
VO
2
DG
3
+5V
4
øT
5
CISCLK
6
GLED
7
+24V
4–3
1
2
DRSNS
DG
CN2
1
DG
2
+5V
3
MG
4
MG
5
+24V
6
+24V
7
DG
8
PSAVE
TEL/LIU
PWB
DOOR
SENSOR
POWER
SUPPLY
PWB
CNCSW
1
CSW
2
DG
1
2
CSW
DG
CAM
SWITCH
CNSP
1
SP+
2
SP-
1
2
SP+
SP-
SPEAKER
CNFRS
1
FRSNS
2
DG
1
2
FRSNS
DG
FRONT
SENSOR
UX-68DE
FO-78DE
3. Operational description
CHAPTER 5. CIRCUIT DESCRIPTION
Operational descriptions are given below:
•
[1] Circuit description
When a document is loaded in standby mode, the state of the document sensor is sensed via the 1 chip fax engine (FC200). If the sensor signal was on, the motor is started to bring the document into the
standby position. With depression of the START key in the off-hook
state, transmission takes place.
Then, the procedure is sent out from the modem and the motor is
rotated to move the document down to the scan line. In the scan
processor, the signal scanned by the CIS is sent to the internal image processor and the AD converter to convert the analog signal into
binary data. This binary data is transferred from the scan processor
to the image buffer within the RAM and encoded and stored in the
transmit buffer of the RAM. The data is then converted from parallel
to serial form by the modem where the serial data is modulated and
sent onto the line.
1. General description
The compact design of the control PWB is obtained by using CONEXANT
fax engine in the main control section and high density printing of surface mounting parts. Each PWB is independent according to its function
as shown in Fig. 1.
2. PWB configuration
TEL/LIU
PWB
CIS
LCD
PWB
•
CONTROL
PWB
Receive operation
There are two ways of starting reception, manual and automatic.
Depression of the START key in the off-hook mode in the case of
manual receive mode, or CI signal detection by the LIU in the automatic receive mode.
POWER
SUPPLY
PWB
PANEL
PWB
Transmission operation
First, the FC200 controls the procedure signals from the modem to
be ready to receive data. When the program goes into phase C, the
serial data from the modem is converted to parallel form in the modem interface of the 1 chip fax engine (FC200) which is stored in the
receive buffer of the RAM. The data in the receive buffer is decoded
software-wise to reproduce it as binary image data in the image buffer.
The data is DMA transferred to the recording processor within the
FC200 which is then converted from parallel to serial form to be sent
to the thermal head. The data is printed line by line by the FC200
which is assigned to control the motor rotation and strobe signal.
AC CORD
TX/RX
MOTOR
Fig. 1
1) Control PWB
•
The control PWB controls peripheral PWBs, mechanical parts, transmission, and performs overall control of the unit.
This machine employs a 1 chip modem (FM209V) which is installed on
the control PWB.
Copy operation
To make a copy on this facsimile, the COPY key is pressed when the
machine is in stand-by with a document on the document table and
the telephone set is in the on-hook state.
First, depression of the COPY key advances the document to the
scan line. Similar to the transmitting operation, the image signal from
the CIS is converted to a binary signal in the DMA mode via the 1
chip fax engine (FC200) which is then sent to the image buffer of the
RAM. Next, the data is transferred to the recording processor in the
DMA mode to send the image data to the thermal head which is
printed line by line. The copying takes place as the operation is repeated.
2) TEL/LIU PWB
This PWB controls connection of the telephone line to the unit.
3) Power supply PWB
This PWB provides voltages of +5V and +24V to the other PWBs.
4) Panel PWB
The panel PWB allows input of the operation keys.
5) LCD PWB
This PWB controls the LCD display.
5–1
UX-68DE
FO-78DE
3) 27C2000 (IC10): pin-32 DIP (ROM)
[2] Circuit description of control PWB
ROM of 2 Mbit equipped with software for the main CPU.
1. General description
4) W24258S-70LE (IC6): pin-28 SOP (SRAM)
Fig. 2 shows the functional blocks of the control PWB, which is composed of 5 blocks.
Line memory for the main CPU system RAM area and coding/decoding
process. Used as the transmission buffer.
MAIN CONTROL BLOCK
Memory of recorded data such as daily report and auto dials. When the
power is turned off, this memory is backed up by the lithium battery.
5) KM29W040T (IC4): pin-44 TSOP (FLASH MEMORY)
(3) ROM
A 512k × 8 bit NAND FLASH MEMORY to store the voice and image
data when using memory functions.
MODEM BLOCK
(1) FAX ENGINE
(2) MODEM
(5)
FLASH
MEMORY
(4) SRAM
Fig. 2 Control PWB functional block diagram
2. Description of each block
(1) Main control block
The main control block is composed of CONEXANT 1 chip fax engine
(FC200), ROM (2Mbit), SRAM (256kbit), FLASH MEMORY (512k × 8
bit) and Modem (FM209V).
Devices are connected to the bus to control the whole unit.
1) FC200 (IC3) : pin-144 QFP (FAX ENGINE)
2) FM209V (IC5) : pin-128 QFP (MODEM)
The FAX ENGINE Integrated Facsimile Controllers.
FC200, contains an internal 8 bit microprocessor with an external 16
Mbyte address space and dedicated circuitry optimized for facsimile
image processing and facsimile machine control and monitoring.
MIRQN
A[23:0]
D[7:0]
RDN
WRN
ROMCSN
CSN[1:0]
MCSN
SYNC
REGDMA
WAITN
RASN
CASN[1:0]
DWRN
MC24 CPU CONTROL IF
MC24 MEGACELL(8BIT DATA,24BIT ADDRESS)
WATCHDOG TIMER
REAL TIME CLOCK
CRYSTAL OSCILLATOR
BATTERY BACK-UP CIRCUIT
INTERRUPT CONTROLLER
BUS INTERFACE
EXTERNAL CPU BUS
CPU BUS
DRAM CONTROL
INTERNAL & EXTERNAL BUS CONTROL
INTERNAL & EXTERNAL DECODE
DMA CONTROLLER
OPERATOR PANEL IF
32 KEYS
8 LEDS
LCD MODULE
MOTOR POWER
CONTROL RINGER
SYNC SERIF 1
TONE
GPIO[0]
GPIO[1]/SASTXD
GPIO[2]/SASRXD
GPIO[3]/SASCLK
GPIO[4]/CPCIN
GPIO[5]/SSCLK2
GPIO[6]/SSTXD2
GPIO[7]/SSRXD2
GPIO[8]/FWRN
GPIO[9]/FRDN
GPIO[10]/SSSTAT2
GPIO[11]/BE/SERINP
GPIO[12]/CS2N
GPIO[13]/CS3N
GPIO[14]/CS4N
GPIO[15]/CS5N
GPIO[16]/IRQ8
GPIO[17]/IRQ5N
GPIO[18]/IRQ9N
GPIO[19]/RDY/SEROUT
GPIO[20]/ALTTONE
SM[3:0]/GPO[7:4]
PM[3:0]/GPO[3:0]
GENERAL I/O
TONE/ALTTONE
GPIO
CALLING PARTY
CONTROL
AUTOBAUD
SYNC-ASYNC SASIF
SYNC SERIF 2
FLASH MEMORY IF
AUTOBAUD
SEE
"OPIF
INPUTS"
BELOW
SCANNER CONTROL & VIDEO PROCESSING
8-BIT PADC
CCD/CIS SCANNER
5 ms,A4/B4 LINES
SHADING CORRECTION(1:1,1:8)
DITHERING
MULTILEVEL B4-A4 REDUCTION
ERROR DIFFUSION
MTF
BI-LEVEL RESOLUTION
CONVERSION
PROGRAMMABLE
REDUCTION &
EXPANSION
THERMAL PRINTER IF
T.4/T.6 CODEC
MH,MR,MMR
HARDWARE,ALTERNATE
COMPRESSION &
DECOMPRESSION
5 ms LINE TIME
A4/B4 LINES
TPH ADC
4 STROBE TPH
LATCHLESS TPH
EXTEMAL DMA I/F
DMA BUS
+VREF
–VREF
VIN
SEE
"OPIF
OUTPUTS"
BELOW
INTERNAL CPU BUS
2.6kBYTE VIDEO RAM
START
CLK1
CLK1N
CLK2
VIDCTL0/FCS1N
VIDCTL1/FCS2N
WRPROTN
SYSCLK
TSTCLK
DEBUGN
RESETN
XIN
XOUT
PWRDWNN
BATRSTN
OPIF INPUTS
PWR/GND
TEST
OPI[0]/GPIO[21]/SSRXD1
OPI[1]/GPIO[22]/SSSTAT1
OPI[2]/GPIO[23]/SSCLK1
OPI[3]/GPIO[24]
Fig. 3
5–2
OPIF OUTPUTS
LEDCTL/GPO[16]
LCDCS/GPO[17]
OPO[0]/GPO[8]/SINPWR CTRL
OPO[1]/GPO[9]/PMPWR CTRL
OPO[2]/GPO[10]/RINGER
OPO[3]/GPO[11]
OPO[4]/GPO[12]/SSTXD1
OPO[5]/GPO[13]
OPO[6]/GPO[14]
OPO[7]/GPO[15]
THADIN
PCLK
PDAT
PLAT
STRB[3:0]
STRBPOL
UX-68DE
FO-78DE
FC200 (IC3) Terminal descriptions
Pin No.
I/O
Input
Type
135
133
130
I
I
O
HU
H
−
A[23:0]
[15:20][22:27]
D[7:0]
[141:144]
RDn
WRn
ROMCSn
CS1n
CS0n
MCSn
SYNC
REGDMA
WAITn
RASn
CAS[1:0]n
DWRn
[1:6][8:13]
O
TU
CPU Control Interface
−
Modem interrupt, active low. (Hysteresis In, Internal Pullup.)
−
System clock. (Hysteresis In.)
123XT
Test clock.
Bus Control Interface
123XT
Address bus (24-bit).
[136:139]
I/O
TU
123XT
128
127
120
122
57
121
126
124
125
113
[111:112]
109
O
O
O
O
O
O
O
O
O
O
O
O
−
−
−
−
−
−
−
−
−
−
−
−
DEBUGn
RESETn
TEST
129
131
58
I
I/O
I
XIN
XOUT
PWRDWNn
59
60
62
I
O
I
BATRSTn
WRPROTn
61
110
I
O
START
CLK1
CLK1n
CLK2
FCS1n/VIDCTL0
FCS2n/VIDCTL1
101
100
99
98
96
97
O
O
O
O
O
O
29
30
31
[33:36]
37
O
O
O
O
I
47
O
46
O
−
2XL
44
O
−
2XCT
43
42
O
O
−
−
2XL
2XL
Keyboard/LED strobe [3] or GPO[11]
Keyboard/LED strobe [4] or GPO[12] or SSTXD1 (for SSIF1)
40
39
38
52
O
O
O
I/O
−
−
−
HU
2XL
2XL
2XL
2XC
51
I/O
HU
2XC
Keyboard/LED strobe [5] or GPO[13]
Keyboard/LED strobe [6] or GPO[14]
Keyboard/LED strobe [7] or GPO[15]
(Pullup, Hysteresis In) Keyboard return [0] or GPIO[21] or SSRXD1
(for SSIF1)
(Pullup, Hysteresis In) Keyboard return [1] or GPIO[22] or SSSTAT1
(for SSIF1)
Pin Name
MIRQn
SYSCLK
TSTCLK
PCLK/DMAACK
PDAT
PLAT
STRB[3:0]
STRBPOL/DMAREQ
OPO[0]/GPO[8]/
SMPWRCTRL
OPO[1]/GPO[9]/
PMPWRCTRL
OPO[2]/GPO[10]/
RINGER
OPO[3]/GPO[11]
OPO[4]/GPO[12]/
SSTXD1
OPO[5]/GPO[13]
OPO[6]/GPO[14]
OPO[7]/GPO[15]
OPI[0]/GPIO[21]/
SSRXD1
OPI[1]/GPIO[22]/
SSSTAT1
Output
Type
Pin Description
(Note: Active low signals have an "n" pin name ending.)
Data bus (8-bit).
123XT
Read strobe.
123XT
Write strobe.
123XT
ROM chip select.
123XT
I/O chip select.
123XT
SRAM chip select. (Battery powered.)
123XT
Modem chip select.
123XT
Indicates CPU op code fetch cycle (active high).
123XT
Indicates REGSEL cycle and DMA cycle.
123XT
Indicates current TSTCLK cycle is a wait state or a halt state.
123XT
DRAM row address select. (Battery powered.)
123XT
DRAM column address select. (Battery powered.)
123XT
DRAM write. (Battery powered.)
Prime Power Reset Logic and Test
HU
−
External non-maskable input (NMI).
HU
2XO
FC200 Reset.
C
−
Sets Test mode (Battery powered).
Battery Power Control and Reset Logic
OSC
−
Crystal oscillator input pin.
−
OSC
Crystal oscillator output pin.
H
−
Used by external system to indicate -to FC200 - loss of prime power.
(Results in NMI)
H
−
Battery power reset input.
(Battery powered.) Write protect during loss of VDD power.
−
1XC
NOTE:The functional logic is powered by battery power, but the output drive
is powered by DRAM battery power.
Scanner Interface
−
2XS
Scanner shift gate control.
−
2XS
Scanner clock.
−
2XS
Scanner clock-inverted.
−
2XS
Scanner reset gate control (or clock for CIS scanner).
−
2XT
Flash memory chip select or Video Control signal.
−
2XT
Flash memory chip select or Video Control signal.
Printer Interface
−
3XC
Thermal Print Head (TPH) clock, or external DMAACK.
−
2XP
Serial printing data (to TPH).
−
3XP
TPH data latch.
−
1XP
Strobe signals for the TPH.
C
−
Sets strobe polarity, active high/low or external DMA request.
Operator Panel Interface
−
2XL
Keyboard/LED strobe [0] or GPO[8] or Scan Motor Power Control
Keyboard/LED strobe [1] or GPO[9] or Print Motor Power Control
Keyboard/LED strobe [2] or GPO[10] or RINGER
5–3
UX-68DE
FO-78DE
FC200 (IC3) Terminal descriptions
Pin Name
Pin No.
I/O
OPI[2]/GPIO[23]/
SSCLK1
OPI[3]/GPIO[24]
LEDCTL
LCDCS
50
I/O
49
55
54
I/O
O
O
GPIO[0]
GPIO[1]/SASTXD
GPIO[2]/SASRXD
GPIO[3]/SASCLK
GPIO[4]/CPCIN
GPIO[5]/SSCLK2
GPIO[6]/SSTXD2
GPIO[7]/SSRXD2
GPIO[8]/FWRn
94
93
92
91
90
89
87
86
85
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
GPIO[9]/FRDn
84
I/O
GPIO[10]/SSSTAT2
GPIO[11]/BE/
SERINP
GPIO[12]/CS[2]n
GPIO[13]/CS[3]n
GPIO[14]/CS[4]n
GPIO[15]/CS[5]n
GPIO[16]/IRQ[8]
GPIO[17]
GPIO[18]/IRQ[9]n
GPIO[19]/RDY/
SEROUT
GPIO[20]/ALTTONE
83
82
I/O
I/O
80
79
78
77
76
75
74
73
I/O
I/O
I/O
I/O
I/O
I/O
I/O
I/O
107
I/O
SM[3:0]/GPO[7:4]
PM[3:0]/GPO[3:0]
TONE
[103:106]
[115:118]
119
O
O
O
-Vref/CLREF
66
I
ADXG
68
I
ADGA
ADVA
ADGD
+Vref
VIN
THAD1
69
70
72
71
67
65
I
I
I
VSS(12)
VDD(8)
VBAT
VDRAM
7,21,28,45,
53,56,64,88,
95,108,132,
134
14,32,41,48,
81,102,123,
140
63
114
Input
Type
Output
Type
Pin Description
Operator Panel Interface
2XC
(Pullup, Hysteresis In) Keyboard return [2] or GPIO[23] or SSCLK1
(for SSIF1)
HU
2XC
(Pullup, Hysteresis In) Keyboard return [3] or GPIO[24]
−
4XC
Indicates outputs OPO[7:0] are for LEDs.
−
1XC
LCD chip select.
General Purpose I/O
H
2XC
(Hysteresis In) GPIO[0].
H
2XC
(Hysteresis In) GPIO[1] or SASTXD (for SERIF).
H
2XC
(Hysteresis In) GPIO[2] or SASRXD (for SERIF).
H
2XC
(Hysteresis In) GPIO[3] or SASCLK (for SERIF).
H
2XC
(Hysteresis In) GPIO[4] or Calling Party Control Input.
H
2XC
(Hysteresis In) GPIO[5] or SSCLK2 (for SSIF2).
H
2XC
(Hysteresis In) GPIO[6] or SSTXD2 (for SSIF2).
H
2XC
(Hysteresis In) GPIO[7] or SSRXD2 (for SSIF2).
H
2XC
(Hysteresis In) GPIO[8] or flash write enable signal for NAND-type flash
memory.
H
2XC
(Hysteresis In) GPIO[9] or flash read enable signal for NAND-type flash
memory.
H
2XC
(Hysteresis In) GPIO[10] or SSSTAT2 (for SSIF2).
H
1XC
(Hysteresis In) GPIO[11] or bus enable or serial port data input for
autobaud detection.
H
2XC
(Hysteresis In) GPIO[12] or I/O chip select [2].
H
2XC
(Hysteresis In) GPIO[13] or I/O chip select [3].
H
2XC
(Hysteresis In) GPIO[14] or I/O chip select [4].
H
2XC
(Hysteresis In) GPIO[15] or I/O chip select [5].
H
1XC
(Hysteresis In) GPIO[16] or external interrupt 8.
H
1XC
(Hysteresis In) GPIO[17].
H
1XC
(Hysteresis In) GPIO[18] or external interrupt 9.
H
1XC
(Hysteresis In) GPIO[19] or ready signal or Serial port data output for
autobaud detection.
H
1XC
(Hysteresis In) GPIO[20] or ALTTONE.
Miscellaneous
−
1XC
Programmable: scan motor control pins or GPO pins.
−
1XC
Programmable: print motor control pins or GPO pins.
−
1XC
Tone output signal.
Power, Reference Voltages, Ground
-VR
−
Negative Reference Voltage for Video A/D or Reference Voltage for the
Clamp Circuit.
VXG
−
A/D Internal GND. (NOTE: This pin requires an external 0.22µF decoupling
capacitor to ADGA.)
VADG
A/D Analog Ground
VADV
A/D Analog Power
VADG
A/D Digital Ground
+VR
Positive Reference Voltage for Video A/D.
VA
−
Analog Video A/D input.
TA
−
Analog Thermal A/D input.
Power and Ground
Digital Ground
HU
Digital Power
Battery Power
DRAM Battery Power
5–4
UX-68DE
FO-78DE
(2) Panel control block
The following controls are performed by the FC200.
•
Operation panel key scanning
•
Operation panel LCD display
(3) Mechanism/recording control block
•
Recording control block diagram (1)
PANEL/LCD PWB
TEST
BATRSTN
RESETN
TELEPHONE
LINE
TONE/ALTTONE
TSTCLK
REGDMA
WAITN
SYNC
PWRDWNN
STRB[3:0]
STRBPOL
THADI
PDAT
PCLK
PLAT
RXIN
TXOUT
SPEAKER
MICROPHONE
CIRCUIT
LINE
INTERFACE
MIC
SPKR
PRINTER DATA
CONTROI &
SENSORS
OPO[7:0]*
OPI[3:0]*
LEDCTL*
LCDCS*
TXA
RXA
THERMAL HEAD
OPERATOR
PANEL,
KEYPAD,
LEDS & LCD
ANALOG
SWITCH
MOTOR
START
CLK2
CLK1
CLK1N
VIDCTL[1:0]
SYSCLK
MIRON
MCSN
EXTENDED
FACSIMILE
CONTROLLER
CIS
SCANNER
VIDEO
PREPROCESSING
SYNC PORTS (2)
(SSIF)
GENERAL
PURPOSE I/O
SYNC/ASYNC
SERIAL
PORT
VIN
+VREF
–VREF
SSCLK[2:1]*
SSTXD[2:1]*
SSRXD[2:1]*
SSSTAT[2:1]*
GPIO
SASCLK
SASTXD
SASRXD
A[23:0]
D[7:0]
RDN
WRN
ROMSCN
RIN
SPKR
EXTERNAL BUS
SCANNER
CONTROLS &
SENSORS
RTC
CRYSTAL
SM[3:0]*
A[4:0]
D[7:0]
RDN
WRN
MONOFAX
FACSIMILE
MODEM
RXDAT
TXDAT
RMODE
TMODE
CLKIN
SLEEPN
GPIO
WRPROTN
FRDN*
FRWN*
FCLE*
FCS[0:2]
DEBUGN
VDD
VDRAM
VBAT
VSS
D[7:0]
XIA
GPIO
CAS[0,1]N,RASN,DWRN
CS[5:0]N*
RIN
SPKRLO
SPKRHI
PRINTER &
SCANNER
MOTOR DRIVERS
TXA2
TXA1
XIN
XOUT
PM[3:0]*
DRAM
(OPTION)
FLASH MEMORY
NOTES:*ALTERNATIVE GPO,GPI OR GPIO LINES
SPEAKERPHONE ONLY
VOICE OR SPEAKERPHONE
Fig. 4
5–5
UX-68DE
FO-78DE
(4) Modem (FM209V) block
FEATURES
INTRODUCTION
•
The CONEXANT FM209V MONOFAX modem is a synchronous 9600
bits per second (bps) half-duplex modem with error detection and DTMF
reception. It has low power consumption and requires a single +5V and
+3.3V DC power supply. The modem is housed in a single VLSI device
package.
The modem can operate over the public switched telephone network
(PSTN) through line terminations provided by a data access arrangement (DAA).
The FM209V is designed for use in Group 3 facsimile machines.
The modem satisfies the requirements specified in CCITT recommendations V.29, V.27 ter, V.21 Channel 2 and T.4, and meets the binary
signaling requirements of T.30.
The modem can operate at 9600, 7200, 4800, 2400, or 300 bps, and
also includes the V.27 ter short training sequence option.
The modem can also perform HDLC framing according to T.30 at 9600,
7200, 4800, 2400, or 300 bps.
The modem features a programmable DTMF receiver and three programmable tone detectors which operate concurrently with the V.21
channel 2 receiver.
The voice mode allows the host computer to efficiently transmit and
receive audio signals and messages.
The modem is available in either a 128-pin plastic quad flat pack (TQFP).
General purpose input/output (GPIO) pins are available for host as
signment in the 128-pin TQFP.
The modem’s small size, single voltage supply, and low power consumption allow the design of compact system enclosures for use in both
office and home environments.
MONOFAX is a registered trademark of CONEXANT.
USART
(OPTIONAL)
•
ITU-T V.29, V.27 ter, T.30, V.21 Channel 2, T.4
-
ITU-T V.17 and V.27 ter short train
-
HDLC framing at all speeds
-
Receive dynamic range: 0 dBm to -43 dBm
-
Automatic adaptive equalization
-
Fixed and programmable digital compromise equalization
-
DTMF detect and tone detect
-
ITU-T V.21 Channel 2 FSK 7E Flag Detect
-
Ring detector
-
Programmable transmits level
-
Programmable single/dual tone transmission
V.23 and Type I Caller ID
TX = 75 bps. RX = 1200 bps
TX = 1200 bps. RX = 75 bps
-
Half-duplex mode:
TX = RX = 1200 bps
-
Serial and parallel data modes
-
Programmable parallel data mode
-
5, 6, 7 or 8 data bits
-
1 or 2 Stop bits
-
Mark, Space, Even, or Odd Parity
Break function
TXD
OFFHOOK
RXD
TALK
-
Transmitter squelch
DCLK
RINGD
-
Compromise equalizer
RTS#
LINEOUT
CTS#
LINEIN
SPKRM
READ#
WRITE#
DATA BUS
DAA
TELEPHONE
LINE
SPEAKER
DRIVER
(OPTIONAL)
FM209V
MONOFAX
MODEM
•
•
Programmable interface memory interrupt
•
DTE interface: two alternate ports
•
•
•
ADDR BUS
CS#
RESET#
IRQ1#
Eight General Purpose Input (GPI) and eight General Purpose Output (GPO) pins for host assignment
-
Selectable microprocessor bus (6500 or 8085)
-
ITU-T V.24 (EIA/TIA-232-E compatible) interface
TTL and CMOS compatible
3.3V/5V operation
Power consumption
-
Operating Mode: 200 mW (Basic), 275 mW (-V option). 300 mW
(-VS option)
-
Sleep Mode: 1 ma (Basic. -V option and -VS option)
IRQ2#
EYEXY
CRYSTAL
Full-duplex modes:
-
SPKRP
HOST
PROCESSOR
(DTE)
-
-
RLSD#
DECODER
Group 3 facsimile transmission/reception
XTLI
EYECLK
XTLO
EYESYNC
EYE
PATTERN
GENERATOR
(OPTIONAL)
•
Packaging
-
GND
+5V
+3.3V
POWER
SUPPLY
Fig. 5
5–6
128-pin TQFP (thin quad flat pack)
UX-68DE
FO-78DE
FM209V (IC5) Hardware Interface Signals
Pin Signals – 128-Pin TQFP
Pin No.
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
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
60
61
62
63
64
65
66
67
68
69
70
71
Signal Name
I/O Type
SR4IN/RESERVED
SR3OUT/RESERVED
EYESYNC
EYECLK
RXD
SR1IO
NC
EYEXY
SR4OUT
VDD1
RLSD#
DCLK
EN85#
GPI0
RTS#
DGND1
TXD
SA1CLK
RS4
RS3
RS2
RS1
RS0
YCLK
IACLK
IA1CLK
CTRLSIN S/NC
RESERVED/NC
SOUT S/NC
SIN S/NC
FSYNC S/NC
IARESET S#/NC
AGND1
LINEIN S/NC
MICP S/NC
MICM S/NC
MICBIAS S/NC
NC
NC
VREF S/NC
VC S/NC
VAA S/NC
LINEOUT S/NC
NC
AGND2
SPKRP S/NC
SPKRM S/NC
AVDD S/NC
RESERVED/NC
ICLK S/NC
MCLK P
CTRLSIN P
RESERVED
SOUT P
SIN P
FSYNC P
IARESET P#
AGND3
NC
LINEIN P
MICP P
MICM P
MICBIAS P
NC
NC
VREF P
VC P
VAA P
LINEOUT P
AGND4
SPKRP P
MI
MI
OA
OA
OA
MI
—
OA
MI
PWR
OB
OB
IA
IA
IA
GND
IA
MI
IB
IB
IB
IB
IB
I
MI
MI
MI
MI
MI
MI
MI
MI
GND
I
I
I
O
—
—
MI
MI
PWR
O
—
GND
O
O
PWR
MI
MI
MI
MI
MI
MI
MI
MI
MI
GND
—
I
I
I
O
—
NC
MI
MI
PWR
O
GND
O
5–7
Pin Description
Modem Interconnect
Modem Interconnect
Eye Pattern Circuit
Eye Pattern Circuit
DTE serial interface
Modem Interconnect
No Connection
Eye Pattern Circuit
Modem Interconnect
3.3V Digital Supply for DSP
DTE Serial Interface
DTE Serial Interface
Host Parallel Interface
Host Parallel Interface
DTE Serial Interface
DSP Digital Ground
DTE Serial Interface
Modem Interconnect
Host Parallel Interface
Host Parallel Interface
Host Parallel Interface
Host Parallel Interface
Host Parallel Interface
Modem Interconnect
Modem Interconnect
Modem Interconnect
Modem Interconnect
Modem Interconnect
Modem Interconnect
Modem Interconnect
Modem Interconnect
Modem Interconnect
IA Analog Ground
Line Interface
Microphone Input
Microphone Input
Microphone Bias Output
No Connection
No Connection
Modem Interconnect
Modem Interconnect
5V IA Analog power
Line Interface
No Connection
IA Analog Ground
Speaker Interface Output
Speaker Interface Output
5V IA Digital power
Modem Interconnect
Modem Interconnect
Modem Interconnect
Modem Interconnect
Modem Interconnect
Modem Interconnect
Modem Interconnect
Modem Interconnect
Modem Interconnect
IA Analog Ground
No Connection
Line Interface
Microphone Input
Microphone Input
Microphone Bias Output
No Connection
No Connection
Modem Interconnect
Modem Interconnect
5V Analog Supply for IA
Line Interface
IA Analog Ground
Speaker Interface Output
UX-68DE
FO-78DE
FM209V (IC5) Hardware Interface Signals
Pin Signals – 128-Pin TQFP
Pin No.
Signal Name
I/O Type
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
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
SPKRM P
AVDD P
NC
ICLK P
MCLK S/NC
VDD2
D7
D6
D5
D4
D3
D2
DGND2
VDD3
D1
DGND3
D0
CSBR#
WRITE#
CS#
READ#
GPI2
GPI3
GPI4
GPI5
GPI6
GPI7
GPO7
VDD4
GPO6
GPO5
RESERVED
GPO4
GPO3
DGND4
CTS#
IRQ1#
GPO2
GPO1
GPO0
VDD5
VGG
DGND5
RESET#
XTALI
XTALO
RESERVED
XCLK
GPI1
IRQ2#
SR3IN
RESERVED
RESERVED
DGND6
DVAA
AGND5
RESERVED
O
PWR
—
MI
MI
PWR
IB/OC
IB/OC
IB/OC
IB/OC
IB/OC
IB/OC
GND
PWR
IB/OC
GND
IB/OC
IB
IB
IB
IB
IA
IA
IA
IA
IA
IA
OC
PWR
OC
OC
MI
OC
OC
GND
OB
OB
OC
OC
OC
PWR
PWR
GND
IB
I
O
MI
OB
IA
OA
MI
MI
MI
GND
PWR
GND
MI
Notes:
I/O types: MI = Modem interconnect.
IA, IB, = digital input
OA, OB, OC = digital output
I = analog input
O = analog output
P Signals: Primary IA
S Signals: Secondary IA
Reserved = No external connection allowed.
5–8
Pin Description
Speaker Interface Output
5V Digital power for IA
No Connection
Modem Interconnect
Modem Interconnect
3.3V Digital Supply for DSP
Host Parallel Interface
Host Parallel Interface
Host Parallel Interface
Host Parallel Interface
Host Parallel Interface
Host Parallel Interface
DSP Digital Ground
3.3V Digital Supply for DSP
Host Parallel Interface
DSP Digital Ground
Host Parallel Interface
Host Parallel Interface
Host Parallel Interface
Host Parallel Interface
Host Parallel Interface
General purpose input
General purpose input
General purpose input
General purpose input
General purpose input
General purpose input
General purpose output
3.3V DSP Digital Power
General purpose output
General purpose output
Modem Interconnect
General purpose output
General purpose output
DSP Digital Ground
DTE Serial Interface
Interrupt request
General purpose output
General purpose output
GPO0 (IA reset)
3.3V DSP Digital Power
5V DSP Digital
DSP Digital Ground
External reset
Crystal in
Crystal out
Modem Interconnect
X clock output
General purpose input
Interrupt request
Modem Interconnect
Modem Interconnect
Modem Interconnect
DSP Digital Ground
3.3V DSP analog power
DSP Analog Ground
Modem Interconnect
UX-68DE
FO-78DE
[3] Circuit description of TEL/LIU PWB
(1) TEL/LIU block operational description
1) Block diagram
FAX MODEM FM209V
TEL/LIU PWB
SP OUT
ENABLE
CONTROL PWB
TXOUT
RTLOOP
SPKRP-P
L1
CML
M
L2
B
MIC ENABLE
SIN
DAC
SP
DRIVER
TXMUTE
C
(0:1)
(1:0)
(0:0)
(1:1)
DAC GAIN
0,6dB
CI
DPON
H
~ +
~ –
L
DPON
DPMUTE
H
HS
RXIN
VOL_A
MIC
GAIN
MICP
MIC IN
LPF
MIC
1 ENABLE
VOL_B
0
VOL_C
RXCONT
0,20,25,30dB
L
ADC
TELIN
LINEIN
LINE IN
LPF
LINE IN
1 ENABLE
0
SOUT
ADC GAIN
0,–4dB
W-TONE
RHS
HANDSET
RANK
RX
DRSNS
TELMUTE
TX
LINE
DRIVER
TELOUT
VOL_A
VOL_B
VOL_C
SPEAKER
LINEOUT
ENABLE
(0:0)
(1:1)
(1:0)
SPMUTE
IACR2
BIT7
DAC
GAIN
TXRX
LOOP
BIT6
BIT5
MIC GAIN
IACR3
TELMUTE
IA-RESET
MUTE,0,
–6,–12dB
4051
IACR1
TXMUTE
LNINSEL
LINEOUT
BIT4
BIT3
BIT2
BIT1
BIT0
L/O E SPKR E ADC
L/I E
MIC E
GAIN
MICBIAS
LINEOUT
RXTXLOOP
SEL
ATTENUATION
LINE SEL
BZOUT
CML
SPMUTE
RCVOL
LEDON
VTHON
CUTI
HS
CI
FAX
ENGINE
FC200
CSWI
PESNS
FRSNS
ORGSNS
PSNS
VREFCONT
MDMRST
Fig. 6
2) Circuit description
3) Block description
The TEL/LIU PWB is composed of the following 6 blocks.
1. Speech circuit section
1. Speech circuit section
•
2. Dial transmission section
3. Speaker amplifier section
The receiver volume is an electronic volume type, this model is
switched in 2 steps.
2. Dial transmission section
4. Ringer circuit section
•
D.P. transmission: The CML relay and PC1 are turned on and off
for control in the DP calling system. (Refer to the attached sheet.)
•
DTMF transmission: It is formed in the modem, and is output.
5. Externally connected TEL OFF HOOK detection circuit
6. CI detection circuit
3. Speaker amplifier section
•
Ringer volume : It is controlled by the combination of the attenuator
value of the LINE DRIVER in the modem and the
ringer sending level sent from the modem.
•
Speaker volume: It is controlled by the attenuator value of the LINE
DRIVER in the modem.
4. Ringer circuit section
•
5–9
The ringer sound is formed in the tone of modem when CI signal is
detected. The amplifier circuit drives the speaker of the main body.
UX-68DE
FO-78DE
5. Externally connected TEL OFF HOOK detection circuit section
•
4) Signal selection
The following signals are used to control the transmission line of TEL/
FAX signal. For details, refer to the signal selector matrix table.
The circuit current detection is turned on together with OFF HOOK
of main body or OFF HOOK of externally connected TEL. ON of
CML OFF (HS=L) is judged as OFF HOOK of externally connected
TEL.
[Control signals from output port]
6. CI detection circuit
•
Signal Name
Description
Line connecting relay
(The circuit is located H: Line make
in the TEL/LIU PWB.) L: Line break
CML
CI is detected by the photocoupler which is integrated in series in
the primary side TEL circuit well proven in the existing unit.
SP MUTE
(The circuit is located
in the TEL/LIU PWB.)
TEL MUTE
Speaker tone mute control signal
H: Muting (Power down mode)
L: Muting cancel (Normal operation)
Handset reception mute control signal
H: Muting
L: Muting cancel
DPON
Connecting DC circuit and DP generating
(The circuit is located H: Line connect / Make
in the TEL/LIU PWB.) L: Line disconnect / Break
DPMUTE
Adjust the resistance during make ratio
(The circuit is located H: Muting
in the TEL/LIU PWB.) L: Muting cancel
TXMUTE
Tx route mute circuit
(The circuit is located H: Muting
in the control PWB.) L: Muting cancel
VOLUME SETTING
OUTPUT
VOL A
VOL B
VOL C ON-HOOK ICM/OGM ICM/OGM
VALUE
(GP02)
(GP03)
(GP04)
PLAY
RINGER
X
0
1K
0
0
0
—
—
HIGH
HIGH
—
—
X
1
10K
1
0
0
HIGH
HIGH
MIDDLE1
—
—
—
X
2
39K
0
1
0
MID 1
MID 1
MIDDLE2
—
—
—
X
3
100K
1
1
0
MID 2
MID 2
MIDDLE3
—
—
—
X
4
200K
0
0
1
MID 3
MID 3
LOW
MIDDLE
—
—
X
5
300K
1
0
1
—
—
—
—
—
FIXED
X
6
470K
0
1
1
LOW
LOW
—
—
FIXED
—
X
7
750K
1
1
1
—
—
—
LOW
—
—
5 – 10
Receiving MONITOR
BUZZER DTMF/DP
UX-68DE
FO-78DE
[Signals for status recognition according to input signals]
Signal Name
RHS
CI
Function
H:The handset is in the on-hook state.
L: The handset is in the off-hook state.
Incoming call (CI) detection signal
[Other signals]
Signal Name
TEL IN
TEL OUT
SPOUT
TXOUT
RXIN
NO
Signal Name (CNLIUA)
NO
Signal Name (CNLIUA)
1
TELOUT
7
RXIN
2
3
TELIN
TELMUTE
8
9
TXOUT
CML
4
5
CI
10
11
+5V
HS
6
RHS
12
DG
+24V
NO
Signal Name (CNLIUB)
NO
Signal Name (CNLIUB)
1
RLYCNT
N. C.
3
DPON
4
5
DPMUTE
E-RLY
Function
Receiving signal from line or modem
Transfer signal to line
Speaker output signal
2
Transmission (DTMF) analog signal output
from modem
Reception (DTMF, others) analog signal input
into modem
(Example: TEL speaking)
FAX MODEM FM209V
TEL/LIU PWB
SP OUT
ENABLE
CONTROL PWB
L1
CML
C
SP
DRIVER
CML
SPMUTE
RCVOL
LEDON
VTHON
4051
SPMUTE
IACR1
IACR2
IACR3
BIT7
DAC
GAIN
TXRX
LOOP
(0:1)
MIC ENABLE
(1:0)
(0:0)
,,,,,,,,,,,,,,,,,,,,
(1:1)
,,,,,,,,,,,,,,,,,,,,
SIN
DAC
,,,,,
,,
,,
,,
,,
DAC GAIN
,,
TXMUTE
,,
0,6dB
,,,,,,,,,,,,
,,
,,
B
,,,,,,,,,,,,
,,
,,
CI
,,
DPON
,,
,,
H
,,
,,
MIC
~ +
MIC
,,
GAIN
L
,,
RXIN
MICP
~ –
ENABLE
DPMUTE
,,
DPON
HS
MIC IN
,,
H
1
LPF
,,
,,
0
,,
,,
0,20,25,30dB
L
,,
SOUT
,,
ADC
,,
,,
,,
,,
LINE IN
,,
LINEIN
TELIN
ENABLE ,,
,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
,,
,,
GAIN
,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,, LINE IN,,,,,,,,,
,,,,,,,,,
,, ADC
,,
,,
,, 0,–4dB
,,
,,
1
LPF
,,,,,
,,
,,
,,
HANDSET
,,
,,
0
,,
,,
RX
,,
,,
,,
,,
,,,,,,,
,,
,,
,,
,,,,,,,
,,
,,
,,
TELMUTE
,,
,,
,,
TX
LINE
,,
,,
,,
,,
,,
,,
DRIVER
LNINSEL,,,
LINEOUT
,,,
,, (0:0)
,,
,,
TELOUT
,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
,,
,,
,,,,,,,,,,,,
,,,,
,,,,,
,,
(1:1)
,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,
,,
,,
,,,,,,,,,,,,
,,,,
,,,,,
,,
,,
(1:0)
,,
,,
VOL_A
MUTE,0,
LINEOUT
,,
VOL_B
–6,–12dB
ENABLE
,,
VOL_C
,,
SPEAKER
,,
,,
,,
BZOUT
,,,,,,, ,,,,,,,,,,,,,,,
,,,,,,,,,,,,,,,,,
,,
M
L2
RTLOOP
SPKRP-P
TXOUT
BIT6
BIT5
MIC GAIN
BIT4
BIT3
BIT2
BIT1
BIT0
L/O E SPKR E ADC
L/I E
MIC E
GAIN
LINEOUT
RXTXLOOP MICBIAS
ATTENUATION
SEL
LINE SEL
TX/RX SIGNAL
,,,,,,,,
,,,,,,,,
,,,,,,,,
,,,,,,,,
OGM/ICM/MEMO/PLAYBACK SIGNAL
OGM/MEMO/RECORD SIGNAL
Fig. 7
5 – 11
VREFCONT
MDMRST
FAX
ENGINE
FC200
VOL_A
VOL_B
VOL_C
RXCONT
W-TONE
RHS
RANK
DRSNS
TXMUTE
TELMUTE
IA-RESET
CUTI
HS
CI
CSWI
PESNS
FRSNS
ORGSNS
PSNS
UX-68DE
FO-78DE
[4] Circuit description of power supply PWB
1. Block diagram
F1
1.6A/250V
Noise
Filter
Circuit
AC IN
Rectifying
Smoothing
Circuit
Switching
Circuit
(RCC system)
F2
1.6A/250V
Regulator
Circuit
+5V
+24V
Control
Circuit
Photo Coupler
Fig. 8
2-1. Noise filter circuit
2-4. Control circuit
The input noise filter section is composed of L1, C1, C15 and C21 which
reduces normal mode noise from the AC line and common mode noise
to the AC line.
This circuit controls output voltage of 24V by adjusting ON period of Q1,
looking at signal from photo-coupler PC1.
In this operation IC1 takes charge of important part.
The over current protection is performed by bringing Q1 to OFF state
through detection of voltage of T1 subwiding.
The over voltage protection is performed by operating the over current
protection circuit through detection of zener diode ZD4 and short-circuiting
of load.
2-2. Rectifying/smoothing circuit
The AC input voltage is rectified by diode D1, 2, 3, 4 and smoothed by
capacitor C2 to supply DC voltage to the switching circuit section.
Power thermistor TH1 suppresses inrush current at power switch-on.
2-5. +5V circuit
2-3. Switching circuit
DC voltage supplied by rectifying the output of transformer T1 with diode
D8 is stabilized by 3-terminal regulator IC1.
This circuit includes MOS FET Q1 and the gate drive circuit, and components around Q1.
In this circuit, the DC voltage supplied from the rectifying/smoothing section is converted into high frequency pulses by ON/OFF repetition of
Q1.
[5] Circuit description of CIS unit
1. CIS (Contact Image Sensor)
2. Waveforms
Cis is an image sensor which puts the original paper in close contact
with the full-size sensor for scanning, being a monochromatic type
with the pixel number of 1,728 dots and the main scanning density of
8 dots/mm.
The following clock is supplied from FC200 of the control board, and
VO is output.
5ms
It is composed of sensor, rod lens, LED light source, light-conductive
plate, control circuit and so on, and the reading line and focus are
previously adjusted as the unit.
Due to the full-size sensor, the focus distance is so short that the set
is changed from the light weight type to the compact type.
Approx.5V
øT
0V
1.984µs
CISCLK
VO
2V(TYP)
(White original paper)
Fig. 9
5 – 12
6–1
N.M.
R116 150
R120 470
FCS
N.M.
B
DG
RA12
270 x 4
RA11
470 x 4
L102
HM601
R213
270
33
34
35
36
29
30
31
37
96
97
100
99
98
101
90
91
92
93
94
38 : OPO7
OPI0
OPI1
OPI2
OPI3
LEDCTL
LCDCS
OPO0
OPO1
OPO2
OPO3
OPO4
OPO5
OPO6
52
51
50
49
55
54
47
46
44
43
42
40
39
38
C180
C181
C139
C140
C194
C193
C179
118
GPO0
GPO1 117
116
GPO2
115
GPO3
VDRAM 114
RA14
470 x 4
L108 R169
HM601 120
RA15
470 x 4
22P
22P
22P
22P
22P
22P
22P
X2
32.768kHz
C176
18P +VREF
–VREF
VIN
THADI
C178
1
BZOUT
KEN1A
KEN2A
KEN3A
KEN4A
E
SEN0
SEN1
SEN2
SEN3
SEN4
SEN5
SEN6
SEN7
F
DG
C177
22P
TPA
(5-5F)
TPB
(5-5F)
TPA
(5-5F)
TPB
(5-5F)
C107 1000P
DG
C108 1000P
DG
C109 1000P
DG
C110 1000P
DG
VTHON
(5-5F)
RCVOL
(6-3C)(6-5E)
LEDON
RA2
(5-5F)
470 x 4 MDMRST
(3-2B)
CNPN-4
CNPN-5
CNPN-6
CNPN-7
CNPN-8
CNPN-3
CNPN-9
CNPN10
CNPN-11
E
DG
XOUT 60
D
106
SM0
SM1 105
104
SM2
103
SM3
DG
71
66
67
65
119
DG
C173
0.1
C172
1
BATRST
RD
WR
ROMCS
CS1
CS0
MCS
SYNC
REGDMA
WAIT
RAS
CAS0
CAS1
DWR
WRPROT
A23
A22
A21
A20
A19
A18
A17
A16
A15
A14
A13
A12
A11
A10
A9
A8
A7
A6
A5
A4
A3
A2
A1
A0
R168
DG 1M DG
C175
2200P
C
DG
59
R167
10M
62
C113
0.1
RA1
270 x 4
IC3
FC200
+VREF
–VREF / CLREF
VIN
THADI
TONE
RA16
470 x 4
STRB3
STRB2
STRB1
STRB0
PCLK
PDAT
PLAT
STRBPOL
VIDCTL0/FCS1
VIDCTL1
CLK1
CLK1
CLK2
START
GPIO4
GPIO3
GPIO2
GPIO1
GPIO0
XIN
DG
R152
10K
33K
33K
33K
33K
VBAT 63
A
STRB4
STRB3
STRB2
STRB1
PCLK
DATA
LATCH
CISCLK
PHIT
C142
(2-1D)
R124
R122
R118
R119
PWRDWN
61
1
2
CNTH-12
CNTH-11
CNTH-4
CNTH-3
CNTH-14
CNTH-15
CNTH-13
CNCIS-5
CNCIS-4
C143
DG
RA5
470 x 4
R148
470
L N
M
D0
D1
D2
D3
D4
D5
D6
D7
TSTCLK
SYSCLK
MIRQ
RESET
DEBUG
TEST
C221
1000P
C220
C222
C217
C218
3
CNLIUB-4
(4-3D)
(4-5D)
(4-5D)
(4-2D)
ADVA
DG
70
DPMUTE
PESNS
FRSNSI
ORGSNSI
PSNS
ADGA
ADGD
GPIO9/FRD
GPIO8/FWR
GPIO7/FCLE
GPIO6/FALE
GPIO5/FREADY
69
72
84
85
86
87
89
VDD
VDD
VDD
VDD
VDD
VDD
VDD
VDD
ADXG
(2-2D)
(2-3D)
(2-3D)
(2-3D)
(2-2D)
14
32
41
48
81
102
123
140
68
R147
33K
VSS
R218 270
FRD
R217 270
FWR
R216 270
FCLE
R215 270
FALE
FREADY
R214 R219
270 33K
VSS
21
1000P x 4
28
R143
470
VSS
4
VSS
45
GPIO14
GPIO13
GPIO12
GPIO11
GPIO10
VSS
53,56
78
79
80
82
83
VSS
64,88
RA10
470 x 4
VSS
95,108
R117
470
GPIO20
GPIO19
GPIO18
GPIO17
GPIO16
GPIO15
VSS
132
E-RLY
DPON
PSAVE
RLYCNT
CSWI
107
73
74
75
76
77
C153
1
DG
C114
R150 C118
10K 1000P
C116
1
C115
C151
1
DG
C131
C156
DG
1
C152
C158
DG
1
C154
C159
DG
DG
1
C133
C157
DG
1
C160
DG
1
DG
C134
1
DG
C132
C117
C133,C159,C158,C156,C151,C132,C114,C117: 1000P x 8
7,134
CNLIUB-5
CNLIUB-3
CNPW-8
CNLIUB-1
(4-6D)
C205
C200
C197
R151 33K
R149 33K
R121 33K
R105
C155
0.1
+5V
+5V
R107 33K
HS
CI
R104
(1-5A)(6-4E)
(1-5A)
(1-5A)
R100 33K
R108 33K
RA9
470 x 4
N.M.
CML
HS
CI
F
RA4
270 x 4
CUTI
VREFCONT
CML
SPMUTE
1000P x 3
CML
HS
CI
E
SYSCLK
MIRQ
RA3
270 x 4
144
143
142
141
139
138
137
136
130
133
135
131
129
58
(4-4D)
(5-2A)
(1-6B)
(6-2I)
(1-6B)
(1-6B)
CNLIUA-9
CNLIUA-5
CNLIUA-4
D
D0
D1
D2
D3
D4
D5
D6
D7
5
C
(3-2A)
(3-3B)
6
B
[1] Control PWB circuit Main control block
A
G
DG
H
I
J
K
DG
GND
3
OUT
VCC
2
IC7
XC61
1
H
H
R164
10K
R163
10K
R166
10K
CE1
MCS
RD
WR
ROMCS
C135
68P
DG DG
A17
A16
A15
A14
A13
A12
A11
A10
A9
A8
A7
A6
A5
A4
A3
A2
A1
A0
C136
68P
R123 100
R125 100
C171
1
+5V
BATRST
128
127
120
122
57
121
126
124
125
113
112
111
109
110
1
A
2
B
3
C
4
D
5
E
6
F
8 R127
R126 270
9 270
10
11
RA8
270 x 4
12
13
15
16
RA7
270 x 4
17
18
19
20
RA6
270 x 4
22
23
24
25
RA13
270 x 4
26
27
G
DG
(2-6A)
(3-4B)
(2-6A)
(3-4B)
CE2
Q3
2SC2412K
(2-4D)
(3-3B)
I
(2-2D)
(2-4A)(3-3B)
(2-4D)(3-3B)
(2-4A)
A[17-0]
D[7-0]
1/6
I
1
2
3
4
5
6
UX-68DE
FO-78DE
CHAPTER 6. CIRCUIT SCHEMATICS AND PARTS LAYOUT
VBT
(5-2D)
(5-2D)
(5-6D)
(5-1I)
(6-1G)
+5V
CNPN-16
CNPN-15
CNPN-14
CNPN-13
CA2
CA1
DG
DG
DG
DG
DG
DG
DG
6–2
1
2
3
4
5
6
A
(1-3H)
(1-3H)
(1-6I)
(1-5I)
ROMCS
RD
D[7~0]
A[17~0]
Memory block
A
A17
A16
A15
A14
A13
A12
A11
A10
A9
A8
A7
A6
A5
A4
A3
A2
A1
A0
B
B
30
2
3
29
28
4
25
23
26
27
5
6
7
8
9
10
11
12
22
24
A17
A16
A15
A14
A13
A12
A11
A10
A9
A8
A7
A6
A5
A4
A3
A2
A1
A0
CE
OG
21
20
19
18
17
15
14
13
GND
16
31
PGM
32
VCC
1
VPP
D7
D6
D5
D4
D3
D2
D1
D0
IC10
27C020
L110
0
C216
0.1
C
DG
C
+5V
(1-3H)
(1-3H)
D7
D6
D5
D4
D3
D2
D1
D0
D
(1-3B)
(1-4B)
(1-4B)
(1-1I)
(1-4B)
(1-4B)
(1-4B)
CE1
WR
VBT
D
R128
22K
5
41
42
FWR
CE2
FREADY
FRD
43
4
FCS
3
2
20
27
22
1
26
2
23
21
24
25
3
4
5
6
7
8
9
10
FALE
FCLE
A14
A13
A12
A11
A10
A9
A8
A7
A6
A5
A4
A3
A2
A1
A0
VSS
VDD
IO8
IO7
IO6
IO5
IO4
IO3
IO2
IO1
E
CE
RE
R/B
WP
WE
ALE
CLE
27
26
25
24
21
20
19
18
14
28
19
18
17
16
15
13
12
11
40
GND
1
VSS
22
VSS
44
VCC
23
VCC
I/O7
I/O6
I/O5
I/O4
I/O3
I/O2
I/O1
I/O0
IC4
KM29W040
CS1
WE
CS2/OE
A14
A13
A12
A11
A10
A9
A8
A7
A6
A5
A4
A3
A2
A1
A0
IC6
W24258S-70LE
E
C119
0.1
DG
D7
D6
D5
D4
D3
D2
D1
D0
+5V
100 x 8
R109
R133
R132
R131
R130
R129
R154
R153
DG
C161
0.1
VBT
D7
D6
D5
D4
D3
D2
D1
D0
F
F
G
G
H
H
2/6
I
I
1
2
3
4
5
6
UX-68DE
FO-78DE
6–3
B
(1-1D)
DG N.M.
C
DG
DG
L100
HM601
C130
0.01
R134
470
119 XCLK
24 YCLK
115
RESET
13
EN85
AVDD-P(+3.3VIAD)
VDD5(+3.3VDD)
VDD4(+3.3VDD)
VDD3(+3.3VDD)
VDD2(+3.3VDD)
VDD1(+3.3VDD)
32
N.C./IARESET-S
57
IARESET-P
14
120
93
94
95
96
97
98
GPI0
GPI1
GPI2
GPI3
GPI4
GPI5
GPI6
GPI7
GPO0
W-TONE/GPO1
VOL-C/GPO2
VOL-B/GPO3
VOL-A/GPO4
MONITOR/GPO5
GPO6
GPO7
111
110
109
105
104
102
101
99
E
8
EYEXY
4
EYECLK
3
EYESYNC
R135
470
W-TONE
VOL_C
VOL_B
VOL_A
TELMUTE
TXMUTE
TXMUTE
(6-1C)
(6-2G)
(6-2G)
(6-2G)
D
DG
DG
DG
F
DG
DG
DG
29
122
54
50
75
26
30
55
9
76
25
51
31
18
56
27
52
6
DG
R138
10K
MAG
G
G
DG
R103
0
C105
10P
X1
32.256MHz
XTLO
VC-P
N.C.
RESERVED
N.C./MICP-S
N.C./MICM-S
N.C./MICBIAS-S
N.C./SPKRP-S
N.C./SPKRM-S
N.C./LINEIN-S
N.C./LINEOUT-S
N.C./VREF-S
N.C./VC-S
N.C.
N.C.
LINEIN-P
C106
10P
R102
100
DG
H
38,39,44,49,59,64,65,74
1,2,53,103,118,123,124,128
35
36
MAG
37
46
47
34
43
40
41
7
28
67
C167
0.1
I
3/6
(6-4E)
I
MAG
C1
10/50
C4
10/50
(6-3C)
(6-6E)
(6-2D)
MAG
C166
0.1
SPOUT
SIGTX
R162
1K
SIGRX
TELOUTI
R160
2.2K
C168
0.1
60
72
71
63
62
61
H
69
LINEOUT-P
66
VREF-P
SPKRM-P
SPKRP-P
MICBIAS-P
MICM-P
MICP-P
VAA-S(+5VIAA)
C145
0.1
116
MAG
MDMRST
R112
0
R158
0
R136
0
R187
0
R113
270
N.M.
R220
33K
73
112
100
85
77
10
N.C./SOUT-S
SR3IN
SOUT-P
N.C./ICLK-S
ICLK-P
IA1CLK
N.C./SIN-S
SIN-P
SR4OUT
N.C./MCLK-S
IACLK
MCLK-P
N.C./FSYNC-S
SA1CLK
FSYNC-P
N.C./CTRLSIN-S
CTRLSIN-P
SR1IO
A
DG
7
1
2
6
R101
270
C124
C146
1
DG
L105
HM601
XTLI
117
1
4
Q PRE
CLK
D
3
C2 CLR
5
R222
113 VGG(+5VDD)
DG
L103
HM601
IC2
WT74
MCS
RD
WR
MIRQ
DGND6
DGND5
DGND4
DGND3
DGND2
DGND1
IC4
FM209V
125
114
106
87
84
16
D7
D6
D5
D4
D3
D2
D1
D0
CS
READ
WRITE
IRQ1
IRQ2
RESERVED/CSBR
48 N.C./AVDD-S(+3.3VIAD)
126 DVAA(+3.3VDA)
C227
SYSCLK
8
(1-3H)
(1-3H)
(1-3H)
(1-6F)
78
79
80
81
82
83
86
88
91
92
90
108
121
89
C170
0.1
MAG
R140
0
AGND5
AGND4
AGND3
AGND2
AGND1
N.M.
(1-6F)
R106
470
C111
1
L101
HM601
+5V
D7
D6
D5
D4
D3
D2
D1
D0
MAG
C169
1
C3
47/25
VAA-P(+5VIAA)
2
3
C112
0.1
D[7~0]
RS4
RS3
RS2
RS1
RS0
C129
1
C128
1
R161
3
127
70
58
45
33
19
20
21
22
23
DG
C148
1
C127
0.1
L104
HM601
F
68
(1-6I)
A4
A3
A2
A1
A0
CNDR-1
RTS
CTS
TXD
DCLK
RXD
RLSD
R142
33K
L106
HM601
E
1
1
1
1
15
107
17
12
5
11
DG
R123
R111
100K R114
33K
R115
470
R139
470
RHS
RANK
R110
100K
DG
C198
1000P
CNLIUA-6
CNTH-6
C149
C150
C125
C126
N.M.
R137
470
C137
0.1
+3.3V
+5V
C147
2200P
D
+5V
42
4
(1-6I)
A[4~0]
R141
10K
C
+5V
5
B
+3.3V
6
Modem block
A
1
2
3
4
5
6
UX-68DE
FO-78DE
C199
1000P
CNLIUA-3
CNLIUB-2
C219
1000P
(6-1C)
6–4
A
DG
+24V
DG
DG
CUT
ORGSNS
DG
FRSNS
DG
CSW
R170
0
N.M.
B
R191
4
2
4
2
DG DG
3
1
DG
3
N.M.
PI1
PI2
SG206
R2
2.2K(1/2W)
1
R1
2.2K(1/2W)
DG
C121 N.M.
DG
C183
2200P
DG
C122
2200P
DG
C120
2200P
C
PSNS
PESNS
PSNS
PESNS
CUTI
ORGSNSI
FRSNSI
CSWI
D
(1-3A)
(1-3A)
(1-5A)
(1-3A)
(1-3A)
(1-4A)
D
E
CNPW-3
CNPW-4
CNPW-5
CNPW-6
CNPW-1
CNPW-7
CNPW-2
E
MG
MG
+24V
+24V
DG
DG
+5V
DG
F
BAT1
CR2032
F
R206
C224
0.1
DG
C192
0.1
R211
5.6K
FG
R212
200
C223
0.1
I
R
DG
1
MG
G
DG
+5V
<VBT>
+24VA
C8
100/50
DG
C10
22/50
+5V
3
C11
47/25
Q
+24V
N.M.
R207
2
REG100
XC62
D2
1SS355
D6
RB705D
+5V
G
C229
1
CNCUT -3
N.M.
CNCUT -2
CNCUT-1
CNPN-12
CNFRS-2
CNFRS-1
CNCSW-2
CNCSW-1
C
R155
2
3
4
5
6
B
Sensor/Reset/Power supply block
A
N.M.
DG
+24V
DG
DG
C206
1000P
+5V
C196
1000P
+5V
+3.3V
VBT
H
CNLIUA-12
CNPN-1
CNLIUA-11
CNLIUA-10
CNPN-2
H
I
4/6
I
1
2
3
4
5
6
UX-68DE
FO-78DE
C228
6–5
1
A
(1-5A)
CNCIS-1
DG
VREFCONT
VO
B
(5-5I)
DG
R146
20K
+5V
R145
30K
R144
43K
N.M.
C226
<VO>
DG
DG
C165
1
C144
0.1
C141
0.1
C
Q4
2SA1037
DG
MG
DG DG
R165
5.1K
LEDON
C164
1000P
+5VO
N.M. C2
R159
0
C174
N.M.
+24V
+5V
DG
Q2
2SA1037
R157
5.1K
+5VO
<DG>
<VIN>
GLED
+24V
+5VO
VIN
VREF–
VREF+
CNCIS-6
CNCIS-7
CNCIS-2
CNCIS-3
(1-1F)
D
(1-1F)
(1-1F)
D
E
E
(5-5I)
VTHON
F
(1-1E)
(1-1D)
(1-1E)
(1-1E)
(1-1E)
(1-1E)
F
+24V
VTHON
LEDON
TPA
TPB
TPA
TPB
MG
1
2
3
4
5
6
7
8
+24V
COM
1C
2C
3C
4C
5C
6C
7C
G
+5V
RY1
DQ1U24VDC
D3
1SS355
1B
2B
3B
4B
5B
6B
7B
E
IC1
ULN2003A
G
MG
R208
470K
MG
C9
10/50
MG
C163
1
R156
22K
+24V
R209
20K
9
16
15
14
13
12
11
10
D1
100(1W)
FU100
KAB2402
MG
+5V
MG
MG
MG
VTH
VTH
VTH
THI
THADI
C138
1000P
C162
1000P
MG
H
VTHON
LEDON
TPAD
TPBD
TPAD
TPBD
VMT
VMT
1000P x 4
C100
1000P
H
DG
DG
DG
DG
MG
2
3
C
C101
C102
C104
C103
4
5
6
B
Video processing/Motor drive / Thermal block
A
I
CNTH-5
(1-1E)
CNTH-10
CNTH-7
CNTH-8
CNTH-9
CNTH-1
CNTH-2
CNTH-16
(5-3E)
(5-4B)
CNMT-1
CNMT-2
CNMT-3
CNMT-4
CNMT-5
CNMT-6
5/6
I
1
2
3
4
5
6
UX-68DE
FO-78DE
6–6
1
2
3
4
5
6
CNLIUA-8
CNLIUA-2
CNLIUA-7
CNMIC-3
CNMIC-2
CNMIC-1
CNLIUA-1
A
TXOUT
TELIN
RXIN
TELOUT
C204
0.022
R196
47K
C211
0.1
DG
DG
B
DG
DG
DG
C188
0.1
+5V
N.M.
4
5
CONT
VDD
3
2
1
TXMUTE
(3-4H)
(3-1C)
(3-1D)
SIGTX
D
D
C214
0.1
C185
1
C184
6.8
N.M.
SPOUT
R175
3.3K
DG
(3-3H)
(1-1D)
W-TONE
VSS
OUT/IN
IN/OUT
C
4
R177
0
R176
1
R194
3.3K
DG
C201
1
8 DG
7
C208
33P
DG
R221
0
IC11
2904
6 –
5 +
+24VA
1
R193
51K
IC11
2904
C203
820P
R173
118K
L107
1.5K
IC8
TC4S66
C
2 –
3 +
RCVOL
R171
0
DG
Q7
PDTC114
C187
0.1
C212
1
+5VA
DG
C182
+5VA
R192
13k
C5
47/25
N.M.
R197
118K
C6
R195
100
Q5
PDTC114
C207
1
R174 N.M.
R172
30K
C202
0.1
DG
R182
DG
R180
C225
R181
+5V
+5V
C195
1
B
Analog signal block
A
R199
15K
R179
10K
C189
1
R178
12K
C186
1
DG
Q6
PDTC114
D5
1SS355
+5V
DG
4
2
E
DG
X
C190
4700P
A
B
C
VSS
VSS
VSS
VDD
R205
20K
IC9
HCF4051
R204
10K
DG
X7
X6
X5
X4
X3
X2
X1
X0
(1-5A)
(3-4H)
(1-1D)
(3-4H)
R201 C215
100K 0.01
R184
750K
R183
470K
5
1
R185
300K
R202
200K
15
R188
39K
12
14
R189
10K
R186
100K
13
R190
1K
CML
SIGRX
RCVOL
TELOUTI
Q1
PDTC114
D4
1SS355
+5V
E
F
11
10
9
6
7
8
16
3
F
VOL_A
VOL_B
VOL_C
(1-1E)
(3-1D)
(3-1D)
(3-1D)
R203
3K
C213
0
BZOUT
DG
C191
1
+5V
L111
0
R198
100K
G
C210
1
G
DG
6
DG
1 78
4 –
2
3 +
+5V
DG
C7
47/25
IC12
NJM2113
5
R210
220K
C209
220P
H
H
CNSP-2
CNSP-1
SPMUTE
SP–
SP+
I
(1-5A)
6/6
I
1
2
3
4
5
6
UX-68DE
FO-78DE
UX-68DE
FO-78DE
Control PWB parts layout (Top side)
6–7
UX-68DE
FO-78DE
Control PWB parts layout (Bottom side)
6–8
6–9
1
CNHJ-3
CNHJ-2
JP10 N.M.
D3
1N4148
B
D2
1N4148
DG
C7
4.7/50
+5V
DG
C
C112
DG
R122
10K
DG
C107
1000P
DG
IC101
2904
7
IC101
2904
R117
16K
1
N.M.
D
DG
– 6
+ 5
+
–
R128
8.2K
R125
24K
C10
2.2/50
R129
3.3K
N.M.
PC4
DG
~
~
REC1
S1ZB60
R1
0
ZD5
C110
2200P
R124
47K
N.M.
C108
2 –
3 +
C111
1000P
ZD4
PC6
TLP521
DG
R123
3.3K
C9
D1
1N4148
R102
120K
R2
47K(1/2W)
ZD3
BZX79B20V
VREF
R119
150
Q101
BC847B
C3
0.47
1
2
TELIN
E
TELMUTE
DG
3
4
CNLIUA-3
CNLIUA-2
CNLIUA-1
PC3
TLP521
R3
820(3W)
ZD7
BZX79B3V3
Q1
2SA1807
C4
10/50
N.M.
C113
Q2
2N5401
R104
12
TELOUT
VREF
N.M.
R113
N.M.
PC1
PC2
TLP627
Q102
PDTC114
R106
L6
R-5C
N.M.
JP11
L7
R-5C
DG
C102
0.01
R116
10K
10
C104
0.033
ZD6
BZX79B3V3
F
F
C5
3.3/50
A
RX–
RX+
TX–
C101
0.01
N.M.
C106
0.047
B
8
C2
1
T1
I2165
VA2
SIOV-S05K60T
JP12
DG
C6
22/50
N.M.
9
CML
C M
L5
4.7mH
C105
0.022
R101
160
C1
0.47
R103
13K
CNHJ-1
R115
1K
L1
JP1
+5V
R114
1.5K
L8
R-5C
JP9
ARG
AR2
RA-501P-V6
VA1
DSS-301L
L3
4.7mH
C103
0.022
JP5 N.M.
NOTE:
These marks are all satety-cirtical parts.
E
D
Q3
BS108
R110
15
R112
47
VREF
DG
R134
0
C8
10/50
R120
1K
N.M.
G
DG
R121
30K
R118
20K
R140
22K
C116
0
C120
0.1
C123
1200P
R141
30K
R131
2.2K
R137
750
+5V
Q104
R135
22K
+5VA
PC5
R109 TLP521
0
S
DG
R108
56
G
C11
22/50
Q113 N.M. +5V
+
R126
1K
C114
DG
R130
R127
+5V
G
7
R138
240K
DG
4
IC102
2904
8
IC102
2904
2 –
3
+
R144
30K
R143
10K
H
DG
4
8
I
I
CNLIUA-7
+5VA
CNLIUA-8
1/2
+24VA
RXIN
C118
0.056
TXOUT
+5VA
IC101
2904
R142
3.3K
DG
C109
0.1
1
R136
3.3K
R133
390
N.M.
C121
1000P
C115
0.01
DG
H
IC102
2904
– 6
5
+
C119
100P
R139
1K
A
R132
2
CNHJ-4
TX+
N.M.
AR1
RA-501P-V6
JP3
N.M.
L2B
R-5C
L2A
R-5C
JP2
N.M.
JP7
D
C117
CNTLJ-4
CNLNJ-1
CNLNJ-6
CNTLJ-1
JP4
JP6
JP8
L4
ZD1
BZX79B20V
CNTLJ-2
CNLNJ-5
CNLNJ-4
CNLNJ-3
CNLNJ-2
CNTLJ-3
C
ZD2
BZX79B6V8
3
B
R105
470K
4
5
6
A
[2] TEL/LIU PWB circuit
1
2
3
4
5
6
UX-68DE
FO-78DE
R111
10K
R107
20K
6 – 10
1
2
3
4
5
6
B
A
+5V
DG
R153
470
R152
100K
R150
R151
R149
470
R148
470
PC5
TLP521
B
SW1
HOOK SW
DG
DG
PC6
TLP521
PC1
PC4
PC3
TLP627
C127
0.01
PC2
TLP627
TEL/LIU PWB circuit
A
DG
DG
C126
0.1
C125
0.1
DG
Q107
DG
Q109
DG
Q110
PDTC114
DG
Q108
PDTC114
N.M.
RHS
HS
CI
RLYCNT
N.M.
E-RLY
DPMUTE
DPON
C
CNHS-2
CNHS-1
CNLIUA-6
CNLIUA-5
CNLIUA-4
CNLIUB-1
CNLIUB-5
CNLIUB-4
CNLIUB-3
C
D
Q105
N.M.
R146
+24V
D
A
E
CNLIUA-12
CNLIUA-11
CNLIUA-10
+24V
DG
+5V
F
C13
22/50
C12
47/25
F
D4
1N4148
CML
R147
1K
R145
1K
NOTE:
These marks are all satety-cirtical parts.
E
DG
Q106
PDTC114
C124
0.1
C122
0.1
CML
G
CNLIUA-9
+24VA
DG
+5VA
G
H
H
I
2/2
I
1
2
3
4
5
6
UX-68DE
FO-78DE
UX-68DE
FO-78DE
TEL/LIU PWB parts layout (Top side)
6 – 11
UX-68DE
FO-78DE
TEL/LIU PWB parts layout (Bottom side)
6 – 12
6 – 13
A
-50.0V
-25.00us
CH2 W1
50.0V
1
F1
1.6A/250V
CN1
C1
0.22
R1
3.3M
2
C7
3900P
F2
1.6A/250V
V1
ERZV07D471
L1
ELF15N003A
C21
TH1
89.2
B
25.00us
-50.0V
-25.00us
C
D
5us/div
25.00us
D6
N.M.
5us/div
C17
1000P
PC1
10V/div
C24
0.22
R7
D5
33 1SS355
C6
0
N.M.
T1
PTTP124
10V/div
CH2 W1
50.0V
R8
47K
ZD2
RD2.0SB
L2
RS208
D9
C23
*R5
1.5K
*R6
18K
R4
330
PC2
PC123YS
C4
2200P
R24
ZD6
25.00us
5us/div
200V/div
GND
D
GND
R10
0.33
ZD1
RD27SB
Q1
FS5KM
R3
R2
-800V
-25.00us
C
GND
R9
470
Q3
2SC2412K
C3
1000P
C2
68/400
5.02ms
GND
1ms/div
50V/div
CH2 W1
1200V
Q2
2SD2114K
1
D4
D3
C15
2200P
D2
D1
ERA15-06 x 4
-50V
-4.9Sms
B
C10
2200/16
D8
SR140
N.M. C13
R15
330K
R14
1.5K
Q5
2SC4210
PC2
PC123YS
ZD7
RD20ESAB
5us/div
ZD5
RD6.2SB
Q4
2SC2412K
R13
4.7K
R11
39
25.00us
20V/div
GND
E
*:ADJUSTMENT RESISTOR
R18
27K
FB1
PC1
PC123YS
C8
560/35
D7
S3L20U-4004P15
-100.0V
-25.00us
CH2 W1
100.0V
E
C9
0.47
Q6
2SC4210
2
3
4
5
6
CH2 W1
450V
A
[3] Power supply PWB circuit
F
R17
8,2K
VR1
1K
R21
150K
R12
180K
C12
0.1
F
R16
22K
R19
4.7K
R20
4.7K
C16
100/10
L3
JUMPER
F3
CCP2E100(4A)
G
ZD4
RD30FB
G
R25
10K
H
H
8
7
6
PSAVE
DG
+24V
+24V
5
MG
3
MG
+5V
2
4
DG
CN2
1
I
I
1
2
3
4
5
6
UX-68DE
FO-78DE
IC1
UPC29M05AHF
UX-68DE
FO-78DE
Power supply PWB parts layout (Top side)
T1
Q1
D9
J7
R10
C3
D7
J3
C8
C2
L1
C13
ZD6
V1
J5
C10
FB1
D8
IC1
R24
ZD7
L2
C7
C16
L3
VR1
2
D4
C9
1
F1
TH1
R2
R3
J1
D1
PC1
CN2
C24
PC2
D3
8
CN1
C1
J4
ZD4
1
R1
C15
C21
D2
F2
J6
J12
J11
J10
JW1
R4
C4
C23
R9
ZD1
R11
R15
R16
C12
Q2
R25
C5
R14
D6
R13
R17
Q6
R12
R21
R19
6 – 14
R20
C17
Q5
C6 R7
R5 ZD2
ZD5
F3
Q4
R18
D5
R6
Q3
R8
Power supply PWB parts layout (Bottom side)
6 – 15
1
2
3
4
5
6
B
KEN1A
KEN2A
KEN3A
KEN4A
SEN7
SEN6
SEN5
SEN4
RS
SEN3
LD7
SEN2
LD6
SEN1
LD5
SEN0
LD4
D8
D7
1SS270
D6
1SS270
D1
1SS270
D5
1SS270
D2
1SS270
D3
1SS270
D4
1SS270
REC
REDIAL
05
01
RESO/MODE
FUNC
VOLUME
C
REPEAT
SPEED
START
02
7
4
1
D
A
B
C
D
NOTE: Since the parts of PWB cannot be supplied, change it as a unit.
CNPN-16
CNPN-15
CNPN-14
CNPN-13
CNPN-11
CNPN-10
CNPN-9
CNPN-3
CNLCD-4
CNPN-8
CNLCD-14
CNPN-7
CNLCD-13
CNPN-6
CNLCD-12
CNPN-5
CNLCD-11
[4] Operation panel PWB circuit
A
PLAY
HOLD
STOP
03
0
8
5
2
E
DELETE
SPEAKER
COPY
04
#
9
6
3
E
CNPN-1
CNPN-2
CNPN-4
C1
R2
6.2K
F
DG
N.M.
R1
1K
G
VO
R/W
DG
DG
E
ORGSNS
+5V
C2
ORGSNS
SW-169-72AU
G
+5V
E
DG
ORGSNS
F
CNLCD-3
CNLCD-5
CNLCD-1
CNLCD-2
CNLCD-6
CNPN-12
H
DG
VO
R/W
N.C.
N.C.
LD4
LD6
DG
SEN4
SEN0
SEN2
SEN5
SEN7
KEN4A
KEN2A
H
2
4
6
8
10
12
14
16
1
3
5
7
9
11
13
2
4
6
8
10
12
14
CNLCD
1
3
5
7
9
11
13
15
CNPN
+5V
RS
E
N.C.
N.C.
LD5
LD7
+5V
E
SEN1
SEN3
SEN6
ORGSNS
KEN3A
KEN1A
I
I
1
2
3
4
5
6
UX-68DE
FO-78DE
UX-68DE
FO-78DE
MEMO
6 – 16
UX-68DE
FO-78DE
PARTS GUIDE
MODEL
UX-68
FO-78
CONTENTS
1
Cabinet, etc.
6
Packing material & Accessories
2
Scanner unit
7
Control PWB unit
3
Upper cabinet
8
TEL-LIU PWB unit
4
Document guide upper
9
Power supply PWB unit
5
Drive unit
Index
Because parts marked with " " are indispensable for the machine safety maintenance and operation, it must be
replaced with the parts specifi to the product specification.
UX-68DE
FO-78DE
[1] Cabinet, etc.
49
54
1
B3
53
46
2
CAM
SWITCH
CABLE
2
7
11
MOTOR
CABLE
9
8
DOCUMENT
GUIDE UPPER
B3
B3
B3
47
B7x2
SCANNER
UNIT
41
30
5
6
22
39
B3
B1
B7x2
31
B4
29
34
56
52
B4
39
33
53
34
B3
17
57
36
28
56
40
REL
EAS
23
19
E
24
58
B7
16
28
37
B4
B5
45
B3
DRIVE
UNIT
20
21
B4
B3 15
B3
40
12
B3
55
CIS EARTH
CABLE
14
B3
13
B3
18
14
27
B3x2
–1–
UX-68DE
FO-78DE
NO.
PARTS CODE
PRICE
RANK
NEW
MARK
PART
RANK
N
N
E
E
C
C
C
C
C
C
C
C
C
B
C
D
D
C
C
E
C
C
C
C
C
B
E
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
B
E
C
C
C
C
C
B
D
D
C
C
C
C
C
C
C
C
C
DESCRIPTION
[1] Cabinet etc.
1
2
5
6
7
8
9
11
12
13
!
!
!
!
!
!
14
15
16
17
18
19
20
21
22
23
24
27
28
29
30
31
33
34
36
37
39
40
41
45
46
!
47
49
52
53
54
55
56
57
58
B1
B3
B4
B5
B7
DCEKK201CFF10
DCEKK201CFF11
CCNW-212AXH01
MSPRC2954FFZZ
NGERP2318XHZZ
PGIDM2560XHSA
PGIDM2560XHSC
PGIDM2561XHSA
PGIDM2561XHSC
PHOP-2104FFSA
PHOP-2104FFSC
QSW-M2296XHZZ
CCNW-215AFF01
GCABB2343FFSA
GCABB2343FFSC
MSPRP3119XHZZ
MSPRP3123XHZZ
DCEKL227CFF01
GCASP2110FFSD
GCASP2110FFSE
GCASP2111FFSA
GCASP2111FFSC
MLEVP2320XHZZ
QACCE2013BMZZ
RDENT2144XHZZ
GDAI-2083FFZZ
MLEVP2316XHZZ
MSPRD3116FFZZ
PGIDM2563XHSA
PGIDM2563XHSC
LBSHP2112XHZZ
LFRM-2208XHZZ
LHLDZ2184XHZZ
LHLDZ2185XHZZ
MSPRC3112FFZZ
MSPRC3148FFZZ
NGERH2478XHZZ
NROLR2425XHZZ
QCNW-209AXHZZ
QCNW-210AXHZZ
RHEDZ2059XHZZ
CPWBX3094FF01
GDAI-2082XHSA
GDAI-2082XHSC
LSTPP2054XHZZ
MLEVP2319XHZZ
PGIDM2566XHZZ
RCORF2064XHZZ
HPNLH2393XHSJ
HPNLH2393XHSP
LHLDW1033CE00
LPLTM3107XHZZ
PSHEZ3410FFZZ
MLEVP2321XHZZ
LX-BZ2138FFZZ
XEBSD30P08000
XBBSD30P06000
XBPSN40P06K00
XEBSD30P12000
AK
AD
AC
AC
AD
AC
AC
N
N
N
N
AC
BA
AC
AE
AC
AB
AF
AC
AC
N
AB
AP
AH
AC
BF
N
AD
AC
AC
AC
AF
N
N
AA
AD
AN
AA
AA
AA
AA
N
N
Operation panel unit
Operation panel unit
Panel cable ass’y
Hopper spring
Pinion gear
Hopper,guide,left
Hopper,guide,left
Hopper,guide,right
Hopper,guide,right
Hopper cover
Hopper cover
Door sensor
Speaker ass’y
Lower cabinet
Lower cabinet
Panel lock lever spring
Speaker holder lever spring
TEL/Liu PWB unit
PWB case,top
PWB case,top
PWB case,bottom
PWB case,bottom
Hook switch joint lever
AC cord ass’y
Power supply PWB unit
Paper support guide
Paper sensor lever
Paper sensor lever spring
PO guide
PO guide
Platen bearing
Head frame
Head holder,left
Head holder,right
Head spring 1
Head spring 2
Platen gear
Platen roller
Head cable
Head earth cable
Thermal head
Control PWB unit(Without ROM)
Handset cover
Handset cover
Panel stopper
Hook switch lever
Head guide
Core(TRA31)
Decoration panel
Decoration panel
Band
Earth plate
Jack sheet
Release lever
Screw(2x6)
Screw(3x8)
Screw(3x6)
Screw(4x6)
Screw(3x12)
–2–
[68]
[78]
[68]
[78]
[68]
[78]
[68]
[78]
[68]
[78]
[68]
[78]
[68]
[78]
[68]
[78]
[68]
[78]
[68]
[78]
UX-68DE
FO-78DE
[2] Scanner unit
13
12
19
5
1
15
10
11
20
19
15
16
2
2
19 20
22 16
20
8
7
9
5
15
16
1
17
22
16
6
15
2
3
6
19
18
21
4
NO.
PARTS CODE
PRICE
RANK
NEW
MARK
PART
RANK
N
N
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
B
B
C
B
C
C
DESCRIPTION
[2] Scanner unit
!
1
2
3
4
5
6
7
8
9
10
11
12
13
15
16
17
18
19
20
21
22
LBSHP2110XHZZ
LFRM-2209FFZZ
LHLDZ2180XHZZ
LHLDZ2181XHZZ
MLEVP2317XHZZ
MSPRC3117FFZZ
NGERH2479XHZZ
NGERH2480XHZZ
NGERH2481XHZZ
NROLR2375XHZZ
NROLR2428XHZZ
NSFTZ2273XHZZ
PGIDM2562XHZZ
QCNW-4814XHZZ
QCNW-213AXHZZ
QSW-M2293XHZZ
RUNTZ2054XHZZ
LHLDW1033CE00
RCORF2063XHZZ
PSHEZ3543XHZZ
QCNW-352AFFZZ
AB
AC
AC
AB
AB
AB
AB
AL
AP
AF
AD
AG
AC
AE
BE
AA
AF
AE
Back roller bearing
Scanner frame
CIS support,left
CIS support,right
CIS release lever
CIS spring
Back roller gear
Reduction gear,17/28Z
Reduction gear,17/23Z
Feed roller
Back roller
Feed roller shaft
Document guide lower
CIS cable
Front sensor cable
Front sensor
CIS unit
Band
Core
CIS earth sheet
CIS earth cable
–3–
UX-68DE
FO-78DE
[3] Upper cabinet
8
6
5
4
3
1
7
B2x3
NO.
PARTS CODE
PRICE
RANK
NEW
MARK
PART
RANK
DESCRIPTION
[3] Upper cabinet
1
3
4
5
6
7
8
B2
901
CCNW-212AXH01
GCABA2342FFSX
GCABA2342FFSY
JBTN-2257FFSA
JBTN-2257FFSC
JBTN-2258FFSA
JBTN-2258FFSC
JBTN-2261FFSA
JBTN-2261FFSC
DCEKP203CFF02
JBTN-2262FFSA
JBTN-2262FFSC
XUBSD20P06000
(Unit)
DCEKK201CFF10
DCEKK201CFF11
AK
N
N
N
N
N
AA
N
N
C
D
D
C
C
C
C
C
C
E
C
C
C
Panel cable ass’y
Upper cabinet
Upper cabinet
12 key
12 key
Start key
Start key
Direct key
Direct key
Operation panel PWB unit
TAD key
TAD key
Screw(2x6)
E
E
Operation panel unit
Operation panel unit
[68]
[78]
[68]
[78]
[68]
[78]
[68]
[78]
[68]
[78]
[68]
[78]
[4] Document guide upper
3
2
5
4
1
6
7
NO.
PARTS CODE
PRICE
RANK
NEW
MARK
PART
RANK
DESCRIPTION
[4] Document guide upper
1
2
3
4
5
6
7
LPLTG2911XHZZ
LPLTP2908XHZZ
LPLTP3051XHZZ
MSPRT3140FFZZ
MSPRT3139FFZZ
PGIDM2554FFZZ
PSHEZ3517FFZZ
AE
AE
AB
C
C
C
C
C
C
C
Separator rubber
Separator plate
Feed plate
Separate spring
Feed spring
Document guide upper
Blind sheet
–4–
UX-68DE
FO-78DE
[5] Drive unit
22
2
B3
20
21
6
17
9
12
9
1
13
15
10
4
12
9
PARTS CODE
NO.
PRICE
RANK
NEW
MARK
PART
RANK
1
2
4
5
6
8
9
10
12
13
15
17
20
21
22
B3
LFRM-2207XHZZ
LPLTM3049XHZZ
MCAMP2027XHZZ
MLEVP2311XHZZ
MLEVP2312XHZZ
MLEVP2314XHZZ
MSPRC2735XHZZ
MSPRC3110XHZZ
NGERH2278XHZZ
NGERH2379XHZZ
NGERH2391XHZZ
NGERH2475XHZZ
QCNW-4933XHZZ
QSW-F2224SCZZ
RMOTZ2148XHZZ
XEBSD30P08000
AF
AD
AC
AB
AB
AB
AC
AB
AC
AC
AC
AB
AC
AE
AT
AA
C
C
C
C
C
C
C
C
C
C
C
C
C
B
B
C
8
DESCRIPTION
[5] Drive unit
Drive unit frame
Motor plate
Cam
Planet lever A
Planet lever B
Mode lever
Planet gear spring
Cam spring
Planet gear
Idler gear,25Z
Reduction gear,17/30Z
Reduction gear,17/43Z
Cam switch cable
Cam switch
Motor
Screw(3x8)
–5–
12
5
UX-68DE
FO-78DE
[6] Packing material & Accessories
5
17
16
3
1
TAPE
TAPE
4
AC CORD
ORIGINAL DOCUMENT
SUPPORT SIDE
9
11
2
27
7
6
TAPE
(1)
TAPE
R
(3)
(4)
(2)
8
26
10
26
NO.
PARTS CODE
PRICE
RANK
NEW
MARK
PART
RANK
N
N
D
D
E
E
C
C
C
C
D
D
D
D
D
D
C
C
D
S
DESCRIPTION
[6] Packing material & Accessories
1
2
3
4
5
6
7
8
9
10
11
16
17
26
27
TINSG4052FFZZ
TINSG4053FFZZ
DUNTK204CFFBG
DUNTK204CFFWH
QCNW-3976XHBG
QCNW-3976XHOW
PHOP-2105XHZZ
QCNW-4649FFZZ
SPAKP3385FFZZ
SPAKA287BFFZZ
SPAKA288BFFZZ
SPAKA289BFFZZ
SPAKC168BFFZZ
TLABM433AFFZZ
PGIDM2578XHZZ
PGIDM2579XHZZ
TLABM363BFFZZ
TPAPK2205FFZZ
AK
AK
AD
N
AE
AE
N
N
Operation manual
Operation manual
Handset
Handset
Handset cord
Handset cord
Original document support
Telephone line cord
Vinyl cover
Packing add.,left
Packing add.,right
Pad
Packing case
Pop label
Paper roll shim,right
Paper roll shim,left
Box label
Fax paper(Initial starter roll 10m)
–6–
[68]
[78]
[68]
[78]
[68]
[78]
UX-68DE
FO-78DE
NO.
PARTS CODE
PRICE
RANK
NEW
MARK
PART
RANK
DESCRIPTION
[7] Control PWB unit
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
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
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
UBATL2046SCZZ
VCEAGA1HW106M
VCEAGA1EW476M
VCEAGA1HW106M
VCEAGA1EW476M
VCEAGA1EW476M
VCEAGA1HW107M
VCEAGA1HW106M
VCEAGA1HW226M
VCEAGA1EW476M
VCKYTV1HB102K
VCKYTV1HB102K
VCKYTV1HB102K
VCKYTV1HB102K
VCKYTV1HB102K
VCCCTV1HH100D
VCCCTV1HH100D
VCKYTV1HB102K
VCKYTV1HB102K
VCKYTV1HB102K
VCKYTV1HB102K
VCKYTV1CF105Z
VCKYTV1EF104Z
VCKYTV1EF104Z
VCKYTV1HB102K
VCKYTV1CF105Z
VCKYTV1CF105Z
VCKYTV1HB102K
VCKYTV1HB102K
VCKYTV1EF104Z
VCKYTV1HB222K
VCKYTV1HB222K
VCKYTV1CF105Z
VCKYTV1CF105Z
VCKYTV1EF104Z
VCKYTV1CF105Z
VCKYTV1CF105Z
VCKYTV1HB103K
VCKYTV1CF105Z
VCKYTV1HB102K
VCKYTV1HB102K
VCKYTV1CF105Z
VCCCTV1HH680J
VCCCTV1HH680J
VCKYTV1EF104Z
VCKYTV1HB102K
VCCCTV1HH220J
VCCCTV1HH220J
VCKYTV1HF104Z
VCKYTV1EF104Z
VCKYTV1EF104Z
VCKYTV1CF105Z
VCKYTV1HB222K
VCKYTV1CF105Z
VCKYTV1CF105Z
VCKYTV1CF105Z
VCKYTV1HB102K
VCKYTV1CF105Z
VCKYTV1CF105Z
VCKYTV1CF105Z
VCKYTV1EF104Z
VCKYTV1HB102K
VCKYTV1CF105Z
VCKYTV1HB102K
VCKYTV1HB102K
VCKYTV1CF105Z
VCKYTV1EF104Z
VCKYTV1HB102K
VCKYTV1CF105Z
VCKYTV1HB102K
VCKYTV1CF105Z
VCKYTV1EF104Z
VCKYTV1EF104Z
VCKYTV1EB104K
VCKYTV1CF105Z
VCKYTV1EF104Z
VCKYTV1CF105Z
VCKYTV1CF105Z
VCKYTV1EF104Z
VCKYTV1HB222K
AK
AA
AA
AA
AA
AA
AA
AA
AB
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AB
AA
AA
AA
AB
AB
AA
AA
AA
AA
AA
AB
AB
AA
AB
AB
AB
AB
AA
AA
AB
AA
AA
AA
AA
AA
AA
AA
AA
AA
AB
AA
AB
AB
AB
AA
AB
AB
AB
AA
AA
AB
AA
AA
AB
AA
AA
AB
AA
AB
AA
AA
AA
AB
AA
AB
AB
AA
AA
B
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
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
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
Battery(CR2032T34)
Capacitor(50WV 10µF)
Capacitor(25WV 47µF)
Capacitor(50WV 10µF)
Capacitor(50WV 47µF)
Capacitor(25WV 47µF)
Capacitor(50WV 100µF)
Capacitor(50WV 10µF)
Capacitor(50WV 22µF)
Capacitor(25WV 47µF)
Capacitor(50WV 1000PF)
Capacitor(50WV 1000PF)
Capacitor(50WV 1000PF)
Capacitor(50WV 1000PF)
Capacitor(50WV 1000PF)
Capacitor(50WV 10PF)
Capacitor(50WV 10PF)
Capacitor(50WV 1000PF)
Capacitor(50WV 1000PF)
Capacitor(50WV 1000PF)
Capacitor(50WV 1000PF)
Capacitor(16WV 1µF)
Capacitor(25WV 0.1µF)
Capacitor(25WV 0.1µF)
Capacitor(50WV 1000PF)
Capacitor(16WV 1µF)
Capacitor(16WV 1µF)
Capacitor(50WV 1000PF)
Capacitor(50WV 1000PF)
Capacitor(25WV 0.1µF)
Capacitor(50WV 2200PF)
Capacitor(50WV 2200PF)
Capacitor(16WV 1µF)
Capacitor(16WV 1µF)
Capacitor(25WV 0.1µF)
Capacitor(16WV 1µF)
Capacitor(16WV 1µF)
Capacitor(50WV 0.01µF)
Capacitor(16WV 1µF)
Capacitor(50WV 1000PF)
Capacitor(50WV 1000PF)
Capacitor(16WV 1µF)
Capacitor(50WV 68PF)
Capacitor(50WV 68PF)
Capacitor(25WV 0.1µF)
Capacitor(50WV 1000PF)
Capacitor(50WV 22PF)
Capacitor(50WV 22PF)
Capacitor(50WV 0.1µF)
Capacitor(25WV 0.1µF)
Capacitor(25WV 0.1µF)
Capacitor(16WV 1µF)
Capacitor(50WV 2200PF)
Capacitor(16WV 1µF)
Capacitor(16WV 1µF)
Capacitor(16WV 1µF)
Capacitor(50WV 1000PF)
Capacitor(16WV 1µF)
Capacitor(16WV 1µF)
Capacitor(16WV 1µF)
Capacitor(25WV 0.1µF)
Capacitor(50WV 1000PF)
Capacitor(16WV 1µF)
Capacitor(50WV 1000PF)
Capacitor(50WV 1000PF)
Capacitor(16WV 1µF)
Capacitor(25WV 0.1µF)
Capacitor(50WV 1000PF)
Capacitor(16WV 1µF)
Capacitor(50WV 1000PF)
Capacitor(16WV 1µF)
Capacitor(25WV 0.1µF)
Capacitor(25WV 0.1µF)
Capacitor(25WV 0.1µF)
Capacitor(16WV 1µF)
Capacitor(25WV 0.1µF)
Capacitor(16WV 1µF)
Capacitor(16WV 1µF)
Capacitor(25WV 0.1µF)
Capacitor(50WV 2200PF)
–7–
[BAT1]
[C1]
[C3]
[C4]
[C5]
[C7]
[C8]
[C9]
[C10]
[C11]
[C100]
[C101]
[C102]
[C103]
[C104]
[C105]
[C106]
[C107]
[C108]
[C109]
[C110]
[C111]
[C112]
[C113]
[C114]
[C115]
[C116]
[C117]
[C118]
[C119]
[C120]
[C122]
[C125]
[C126]
[C127]
[C128]
[C129]
[C130]
[C131]
[C132]
[C133]
[C134]
[C135]
[C136]
[C137]
[C138]
[C139]
[C140]
[C141]
[C144]
[C145]
[C146]
[C147]
[C148]
[C149]
[C150]
[C151]
[C152]
[C153]
[C154]
[C155]
[C156]
[C157]
[C158]
[C159]
[C160]
[C161]
[C162]
[C163]
[C164]
[C165]
[C166]
[C167]
[C168]
[C169]
[C170]
[C171]
[C172]
[C173]
[C175]
UX-68DE
FO-78DE
NO.
PARTS CODE
PRICE
RANK
NEW
MARK
PART
RANK
DESCRIPTION
[7] Control PWB unit
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
VCCCTV1HH180J
VCCCTV1HH220J
VCKYTV1CF105Z
VCCCTV1HH220J
VCCCTV1HH220J
VCCCTV1HH220J
VCKYTV1HB222K
VRS-TS2AD682J
VCKYTV1CF105Z
VCKYTV1CF105Z
VCKYTV1EB104K
VCKYTV1EF104Z
VCKYTV1CF105Z
VCKYTV1HB472K
VCKYTV1CF105Z
VCKYTV1EF104Z
VCCCTV1HH220J
VCCCTV1HH220J
VCKYTV1CF105Z
VCKYTV1HB102K
VCKYTV1HB102K
VCKYTV1HB102K
VCKYTV1HB102K
VCKYTV1HB102K
VCKYTV1CF105Z
VCKYTV1EB104K
VCKYTV1HB821K
VCKYTV1HB223K
VCKYTV1HB102K
VCKYTV1HB102K
VCKYTV1CF105Z
VCCCTV1HH330J
VCKYTV1HB221K
VCKYTV1CF105Z
VCKYTV1EB104K
VCKYTV1CF105Z
VRS-TS2AD000J
VCKYTV1EB104K
VCKYTV1HB103K
VCKYTV1EF104Z
VCKYTV1HB102K
VCKYTV1HB102K
VCKYTV1HB102K
VCKYTV1HB102K
VCKYTV1HB102K
VCKYTV1HB102K
VCKYTV1HF104Z
VCKYTV1EF104Z
QCNCM7014SC0G
QCNCM2442SC0B
QCNCM705BAF06
QCNCM7014SC0B
QCNCW2500SC1B
QCNCW2500SC0E
QCNCM7014SC0F
QCNCM7014SC1F
QCNCW2500SC0H
QCNCM2401SC0B
QCNCM7014SC1F
VRS-HT3AA101J
VHD1SS355//-1
VHD1SS355//-1
VHD1SS355//-1
VHD1SS355//-1
VHDRB705D//-1
QFS-P2010SCZZ
VHIULN2003ANS
VHITC7WT74FU1
VHIFC2FM209V1
VHIKM29W040-1
VHIFC2FM209V1
VHIW24258S7LE
VHIXC61AN45M1
VHITC4S66F/-1
VHIHCF4051M1T
QSOCZ0115SC32
VHI27020FPB0C
VHINJM2904M-2
VHINJM2113M-1
RCILZ2145XHZZ
AA
AA
AB
AA
AA
AA
AA
AA
AB
AB
AA
AA
AB
AA
AB
AA
AA
AA
AB
AA
AA
AA
AA
AA
AB
AA
AA
AA
AA
AA
AB
AA
AA
AB
AA
AB
AA
AA
AB
AA
AA
AA
AA
AA
AA
AA
AA
AA
AB
AB
AB
AD
AF
AB
AD
AF
AA
AD
AA
AB
AB
AB
AB
AD
AD
AE
AF
BK
AV
BK
AQ
AE
AC
AG
AC
BN
AG
AG
AF
N
N
N
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
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
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
C
B
B
B
C
Capacitor(50WV 18PF)
Capacitor(50WV 22PF)
Capacitor(16WV 1µF)
Capacitor(50WV 22PF)
Capacitor(50WV 22PF)
Capacitor(50WV 22PF)
Capacitor(50WV 2200PF)
Resistor(1/10W 6.8KΩ ±5%)
Capacitor(16WV 1µF)
Capacitor(16WV 1µF)
Capacitor(25WV 0.1µF)
Capacitor(25WV 0.1µF)
Capacitor(16WV 1µF)
Capacitor(50WV 4700PF)
Capacitor(16WV 1µF)
Capacitor(25WV 0.1µF)
Capacitor(50WV 22PF)
Capacitor(50WV 22PF)
Capacitor(16WV 1µF)
Capacitor(50WV 1000PF)
Capacitor(50WV 1000PF)
Capacitor(50WV 1000PF)
Capacitor(50WV 1000PF)
Capacitor(50WV 1000PF)
Capacitor(16WV 1µF)
Resistor(25WV 0.1µF)
Capacitor(50WV 820PF)
Capacitor(50WV 0.022µF)
Capacitor(50WV 1000PF)
Capacitor(50WV 1000PF)
Capacitor(16WV 1µF)
Capacitor(50WV 33PF)
Capacitor(50WV 220PF)
Capacitor(16WV 1µF)
Capacitor(25WV 0.1µF)
Capacitor(16WV 1µF)
Resistor(1/10W 0Ω ±5%)
Capacitor(25WV 0.1µF)
Capacitor(50WV 0.01µF)
Capacitor(25WV 0.1µF)
Capacitor(50WV 1000PF)
Capacitor(50WV 1000PF)
Capacitor(50WV 1000PF)
Capacitor(50WV 1000PF)
Capacitor(50WV 1000PF)
Capacitor(50WV 1000PF)
Capacitor(50WV 0.1µF)
Capacitor(25WV 0.1µF)
Connector(7pin)
Conector(2pin)
Connector(2pin)
Connector(2pin)
Connector(12pin)
Connector(5pin)
Connector(6pin)
Connector(16pin)
Connector(8pin)
Connector(2pin)
Connector(16pin)
Resistor(1W 100Ω ±5%)
Diode(1SS355)
Diode(1SS355)
Diode(1SS355)
Diode(1SS355)
Diode(RB705D)
IC protector(KAB2402)
IC(ULN2003A)
IC(TC7WT74)
IC(FC200)(Within IC3 and IC5 pair)
IC(KM29W040T)
IC(FM209V)(Within IC3 and IC5 pair)
IC(W24258S-70LE)
IC(XC61AN4502ML)
IC(TC4S66F)
IC(HCF4051)
IC socket(32pin)
IC,EPROM(2MB)
IC(NJM2904M)
IC(NJM2113)
Coil(HM601)
–8–
[C176]
[C177]
[C178]
[C179]
[C180]
[C181]
[C183]
[C184]
[C185]
[C186]
[C187]
[C188]
[C189]
[C190]
[C191]
[C192]
[C193]
[C194]
[C195]
[C196]
[C197]
[C198]
[C199]
[C200]
[C201]
[C202]
[C203]
[C204]
[C205]
[C206]
[C207]
[C208]
[C209]
[C210]
[C211]
[C212]
[C213]
[C214]
[C215]
[C216]
[C217]
[C218]
[C219]
[C220]
[C221]
[C222]
[C223]
[C224]
[CNCIS]
[CNCSW]
[CNDR]
[CNFRS]
[CNLIUA]
[CNLIUB]
[CNMT]
[CNPN]
[CNPW]
[CNSP]
[CNTH]
[D1]
[D2]
[D3]
[D4]
[D5]
[D6]
[FU100]
[IC1]
[IC2]
[IC3]
[IC4]
[IC5]
[IC6]
[IC7]
[IC8]
[IC9]
[IC10]
[IC10]
[IC11]
[IC12]
[L100]
UX-68DE
FO-78DE
NO.
PARTS CODE
PRICE
RANK
NEW
MARK
PART
RANK
DESCRIPTION
[7] Control PWB unit
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
RCILZ2145XHZZ
RCILZ2145XHZZ
RCILZ2145XHZZ
RCILZ2145XHZZ
RCILZ2145XHZZ
RCILZ2145XHZZ
VRS-TS2AD152J
RCILZ2145XHZZ
VRS-TS2AD000J
VRS-TS2AD000J
VHPSG206S//-1
VSDPC114EK/-1
VS2SA1037KS-1
VS2SC2412KS-1
VS2SA1037KS-1
VSDPC114EK/-1
VSDPC114EK/-1
VSDPC114EK/-1
VRD-HT2HY222J
VRD-HT2HY222J
VRS-TS2AD333J
VRS-TS2AD271J
VRS-TS2AD101J
VRS-TS2AD000J
VRS-TS2AD471J
VRS-TS2AD333J
VRS-TS2AD333J
VRS-TS2AD101J
VRS-TS2AD104J
VRS-TS2AD104J
VRS-TS2AD000J
VRS-TS2AD271J
VRS-TS2AD333J
VRS-TS2AD471J
VRS-TS2AD151J
VRS-TS2AD471J
VRS-TS2AD333J
VRS-TS2AD333J
VRS-TS2AD471J
VRS-TS2AD333J
VRS-TS2AD333J
VRS-TS2AD101J
VRS-TS2AD333J
VRS-TS2AD101J
VRS-TS2AD271J
VRS-TS2AD271J
VRS-TS2AD223J
VRS-TS2AD101J
VRS-TS2AD101J
VRS-TS2AD101J
VRS-TS2AD101J
VRS-TS2AD101J
VRS-TS2AD471J
VRS-TS2AD471J
VRS-TS2AD000J
VRS-TS2AD471J
VRS-TS2AD103J
VRS-TS2AD471J
VRS-TS2AD000J
VRS-TS2AD103J
VRS-TS2AD333J
VRS-TS2AD471J
VRS-TS2AD433J
VRS-TS2AD303J
VRS-TS2AD203J
VRS-TS2AD333J
VRS-TS2AD471J
VRS-TS2AD333J
VRS-TS2AD103J
VRS-TS2AD333J
VRS-TS2AD103J
VRS-TS2AD101J
VRS-TS2AD101J
VRS-TS2AD223J
VRS-TS2AD512J
VRS-TS2AD000J
VRS-TS2AD000J
VRS-TS2AD222J
VRS-TS2AD3R0J
VRS-TS2AD102J
AF
AF
AF
AF
AF
AF
AA
AF
AA
AA
AG
AB
AB
AB
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
C
C
C
C
C
C
C
C
C
C
B
B
B
B
B
B
B
B
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
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
Coil(HM601)
Coil(HM601)
Coil(HM601)
Coil(HM601)
Coil(HM601)
Coil(HM601)
Resistor(1/10W 1.5KΩ ±5%)
Coil(HM601)
Resistor(1/10W 0Ω ±5%)
Resistor(1/10W 0Ω ±5%)
Photo transistor(SG206S)
Transistor(PDTC114)
Transistor(2SA1037KS)
Transistor(2SC2412-K)
Transistor(2SA1037KS)
Transistor(PDTC114)
Transistor(PDTC114)
Transistor(PDTC114)
Resistor(1/2W 2.2KΩ ±5%)
Resistor(1/2W 2.2KΩ ±5%)
Resistor(1/10W 33KΩ ±5%)
Resistor(1/10W 270Ω ±5%)
Resistor(1/10W 100Ω ±5%)
Resistor(1/10W 0Ω ±5%)
Resistor(1/10W 470Ω ±5%)
Resistor(1/10W 33KΩ ±5%)
Resistor(1/10W 33KΩ ±5%)
Resistor(1/10W 100Ω ±5%)
Resistor(1/10W 100KΩ ±5%)
Resistor(1/10W 100KΩ ±5%)
Resistor(1/10W 0Ω ±5%)
Resistor(1/10W 270Ω ±5%)
Resistor(1/10W 33KΩ ±5%)
Resistor(1/10W 470Ω ±5%)
Resistor(1/10W 150Ω ±5%)
Resistor(1/10W 470Ω ±5%)
Resistor(1/10W 33KΩ ±5%)
Resistor(1/10W 33KΩ ±5%)
Resistor(1/10W 470Ω ±5%)
Resistor(1/10W 33KΩ ±5%)
Resistor(1/10W 33KΩ ±5%)
Resistor(1/10W 100Ω ±5%)
Resistor(1/10W 33KΩ ±5%)
Resistor(1/10W 100Ω ±5%)
Resistor(1/10W 270Ω ±5%)
Resistor(1/10W 270Ω ±5%)
Resistor(1/10W 22KΩ ±5%)
Resistor(1/10W 100Ω ±5%)
Resistor(1/10W 100Ω ±5%)
Resistor(1/10W 100Ω ±5%)
Resistor(1/10W 100Ω ±5%)
Resistor(1/10W 100Ω ±5%)
Resistor(1/10W 470Ω ±5%)
Resistor(1/10W 470Ω ±5%)
Resistor(1/10W 0Ω ±5%)
Resistor(1/10W 470Ω ±5%)
Resistor(1/10W 10KΩ ±5%)
Resistor(1/10W 470Ω ±5%)
Resistor(1/10W 0Ω ±5%)
Resistor(1/10W 10KΩ ±5%)
Resistor(1/10W 33KΩ ±5%)
Resistor(1/10W 470Ω ±5%)
Resistor(1/10W 43KΩ ±5%)
Resistor(1/10W 30KΩ ±5%)
Resistor(1/10W 20KΩ ±5%)
Resistor(1/10W 33KΩ ±5%)
Resistor(1/10W 470Ω ±5%)
Resistor(1/10W 33KΩ ±5%)
Resistor(1/10W 10KΩ ±5%)
Resistor(1/10W 33KΩ ±5%)
Resistor(1/10W 10KΩ ±5%)
Resistor(1/10W 100Ω ±5%)
Resistor(1/10W 100Ω ±5%)
Resistor(1/10W 22KΩ ±5%)
Resistor(1/10W 5.1KΩ ±5%)
Resistor(1/10W 0Ω ±5%)
Resistor(1/10W 0Ω ±5%)
Resistor(1/10W 2.2KΩ ±5%)
Resistor(1/10W 3.0Ω ±5%)
Resistor(1/10W 1.0KΩ ±5%)
–9–
[L101]
[L102]
[L103]
[L104]
[L105]
[L106]
[L107]
[L108]
[L110]
[L111]
[PI2]
[Q1]
[Q2]
[Q3]
[Q4]
[Q5]
[Q6]
[Q7]
[R1]
[R2]
[R100]
[R101]
[R102]
[R103]
[R106]
[R107]
[R108]
[R109]
[R110]
[R111]
[R112]
[R113]
[R114]
[R115]
[R116]
[R117]
[R118]
[R119]
[R120]
[R121]
[R122]
[R123]
[R124]
[R125]
[R126]
[R127]
[R128]
[R129]
[R130]
[R131]
[R132]
[R133]
[R134]
[R135]
[R136]
[R137]
[R138]
[R139]
[R140]
[R141]
[R142]
[R143]
[R144]
[R145]
[R146]
[R147]
[R148]
[R149]
[R150]
[R151]
[R152]
[R153]
[R154]
[R156]
[R157]
[R158]
[R159]
[R160]
[R161]
[R162]
UX-68DE
FO-78DE
NO.
PARTS CODE
PRICE
RANK
NEW
MARK
PART
RANK
DESCRIPTION
[7] Control PWB unit
241
242
243
244
245
246
247
248
249
250
251
252
253
254
255
256
257
258
259
260
261
262
263
264
265
266
267
268
269
270
271
272
273
274
275
276
277
278
279
280
281
282
283
284
285
286
287
288
289
290
291
292
293
294
295
296
297
298
299
300
301
302
303
304
305
306
307
308
309
310
311
901
VRS-TS2AD103J
VRS-TS2AD103J
VRS-TS2AD512J
VRS-TS2AD103J
VRS-TS2AD106J
VRS-TS2AD105J
VRS-TS2AD121J
VRS-TS2AD000J
VRS-TS2AD000J
VRS-TS2AD303J
VRSTS2AD1183F
VRS-TS2AD332J
VCKYTV1CF105Z
VRS-TS2AD000J
VRS-TS2AD123J
VRS-TS2AD103J
VRS-TS2AD474J
VRS-TS2AD754J
VRS-TS2AD304J
VRS-TS2AD104J
VRS-TS2AD000J
VRS-TS2AD393J
VRS-TS2AD103J
VRS-TS2AD102J
VRS-TS2AD133J
VRS-TS2AD513J
VRS-TS2AD332J
VRS-TS2AD101J
VRS-TS2AD473J
VRSTS2AD1183F
VRS-TS2AD104J
VRS-TS2AD153J
VRS-TS2AD104J
VRS-TS2AD204J
VRS-TS2AD302J
VRS-TS2AD103J
VRS-TS2AD203J
VRS-TS2AD474J
VRS-TS2AD203J
VRS-TS2AD224J
VRS-TS2AD562J
VRS-TS2AD201J
VRS-TS2AD271J
VRS-TS2AD271J
VRS-TS2AD271J
VRS-TS2AD271J
VRS-TS2AD271J
VRS-TS2AD271J
VRS-TS2AD333J
VRS-TS2AD333J
VRS-TS2AD000J
RR-TZ3017SCZZ
RR-TZ3018SCZZ
RR-TZ3017SCZZ
RR-TZ3017SCZZ
RR-TZ3018SCZZ
RR-TZ3017SCZZ
RR-TZ3017SCZZ
RR-TZ3017SCZZ
RR-TZ3018SCZZ
RR-TZ3018SCZZ
RR-TZ3018SCZZ
RR-TZ3017SCZZ
RR-TZ3017SCZZ
RR-TZ3018SCZZ
RR-TZ3018SCZZ
RR-TZ3018SCZZ
VHI62FP332P-1
RRLYD3138XHZZ
RCRSQ2157SCZZ
RCRSB0297AFZZ
(Unit)
CPWBX3094FF01
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AB
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AG
AA
AA
AA
AA
AA
AA
AA
AA
AA
AC
AC
AC
AC
AC
AC
AC
AC
AC
AC
AC
AC
AC
AC
AC
AC
AF
AG
AF
AD
N
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
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
C
C
C
C
C
B
B
B
B
Resistor(1/10W 10KΩ ±5%)
Resistor(1/10W 10KΩ ±5%)
Resistor(1/10W 5.1KΩ ±5%)
Resistor(1/10W 10KΩ ±5%)
Resistor(1/10W 10MΩ ±5%)
Resistor(1/10W 1.0MΩ ±5%)
Resistor(1/10W 120Ω ±5%)
Resistor(1/10W 0Ω ±5%)
Resistor(1/10W 0Ω ±5%)
Resistor(1/10W 30KΩ ±5%)
Resistor(1/10W 118KΩ ±1%)
Resistor(1/10W 3.3KΩ ±5%)
Capacitor(16WV 1µF)
Resistor(1/10W 0Ω ±5%)
Resistor(1/10W 12KΩ ±5%)
Resistor(1/10W 10KΩ ±5%)
Resistor(1/10W 470KΩ ±5%)
Resistor(1/10W 750KΩ ±5%)
Resistor(1/10W 300KΩ ±5%)
Resistor(1/10W 100KΩ ±5%)
Resistor(1/10W 0Ω ±5%)
Resistor(1/10W 39KΩ ±5%)
Resistor(1/10W 10KΩ ±5%)
Resistor(1/10W 1.0KΩ ±5%)
Resistor(1/10W 13KΩ ±5%)
Resistor(1/10W 51KΩ ±5%)
Resistor(1/10W 3.3KΩ ±5%)
Resistor(1/10W 100Ω ±5%)
Resistor(1/10W 47KΩ ±5%)
Resistor(1/10W 118KΩ ±1%)
Resistor(1/10W 100KΩ ±5%)
Resistor(1/10W 15KΩ ±5%)
Resistor(1/10W 100KΩ ±5%)
Resistor(1/10W 200KΩ ±5%)
Resistor(1/10W 3KΩ ±5%)
Resistor(1/10W 10KΩ ±5%)
Resistor(1/10W 20KΩ ±5%)
Resistor(1/10W 470KΩ ±5%)
Resistor(1/10W 20KΩ ±5%)
Resistor(1/10W 220KΩ ±5%)
Resistor(1/10W 5.6KΩ ±5%)
Resistor(1/10W 200Ω ±5%)
Resistor(1/10W 270Ω ±5%)
Resistor(1/10W 270Ω ±5%)
Resistor(1/10W 270Ω ±5%)
Resistor(1/10W 270Ω ±5%)
Resistor(1/10W 270Ω ±5%)
Resistor(1/10W 270Ω ±5%)
Resistor(1/10W 33KΩ ±5%)
Resistor(1/10W 33KΩ ±5%)
Resistor(1/10W 0Ω ±5%)
Block resistor(270Ωx4)
Block resistor(470Ωx4)
Block resistor(270Ωx4)
Block resistor(270Ωx4)
Block resistor(470Ωx4)
Block resistor(270Ωx4)
Block resistor(270Ωx4)
Block resistor(270Ωx4)
Block resistor(470Ωx4)
Block resistor(470Ωx4)
Block resistor(470Ωx4)
Block resistor(270Ωx4)
Block resistor(270Ωx4)
Block resistor(470Ωx4)
Block resistor(470Ωx4)
Block resistor(470Ωx4)
IC(XC62FP3302P)
Relay(DQ1U24VDC)
Crystal(32.256MHz)
Crystal(32.768kHz)
E
Control PWB unit(Without ROM)
B
Varistor(RA-501P-V6-2)
[R163]
[R164]
[R165]
[R166]
[R167]
[R168]
[R169]
[R170]
[R171]
[R172]
[R173]
[R175]
[R176]
[R177]
[R178]
[R179]
[R183]
[R184]
[R185]
[R186]
[R187]
[R188]
[R189]
[R190]
[R192]
[R193]
[R194]
[R195]
[R196]
[R197]
[R198]
[R199]
[R201]
[R202]
[R203]
[R204]
[R205]
[R208]
[R209]
[R210]
[R211]
[R212]
[R213]
[R214]
[R215]
[R216]
[R217]
[R218]
[R219]
[R220]
[R221]
[RA1]
[RA2]
[RA3]
[RA4]
[RA5]
[RA6]
[RA7]
[RA8]
[RA9]
[RA10]
[RA11]
[RA12]
[RA13]
[RA14]
[RA15]
[RA16]
[REQ100]
[RY1]
[X1]
[X2]
[8] TEL/LIU PWB unit
!
1
VHVRA501PV6-1
AE
– 10 –
[AR1]
UX-68DE
FO-78DE
NO.
PARTS CODE
PRICE
RANK
NEW
MARK
PART
RANK
DESCRIPTION
[8] TEL/LIU PWB unit
!
!
!
!
!
!
!
!
!
2
3
4
5
6
7
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
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
VHVRA501PV6-1
QCNW-4753XHZZ
VCQYNA1HM474K
RC-FZ3053FFZZ
RC-FZ3055FFZZ
VCEAGA1HW106M
VCEAGA1HW335M
VCEAGA1HW226M
VCEAGA1HW475M
VCEAGA1HW106M
VCEAGA1HW225M
VCEAGA1HW226M
VCEAGA1EW476M
VCEAGA1HW226M
VCKYTV1HB103K
VCKYTV1HB103K
VCKYTQ1HB223K
VCKYTQ1HB333K
VCKYTQ1HB223K
VCKYTV1HB473K
VCKYTV1HB102K
VCKYTV1HF104Z
VCKYTV1HB222K
VCKYTV1HB102K
VCKYTQ1HB103K
VRS-TP2BD000J
VCKYTQ1HB563K
VCCCTV1HH101J
VCKYTV1HF104Z
VCKYTV1HB102K
VCKYTV1HF104Z
VCKYTV1HB122K
VCKYTV1HF104Z
VCKYTV1HF104Z
VCKYTV1HF104Z
VCKYTV1HB103K
RRLYZ3427SCZZ
QJAKZ2079XH0D
QCNCM2548SC1B
QCNCM2548SC0E
QJAKZ2073SCFF
QJAKZ2073SCFD
RH-DX0045BMZZ
RH-DX0045BMZZ
RH-DX0045BMZZ
RH-DX0045BMZZ
QSW-Z2263XHZZ
VHILMT2904DR2
VHILMT2904DR2
RFILN2027XHZZ
RFILN2027XHZZ
RCILF2125SCZZ
RCILF2125SCZZ
RFILN2027XHZZ
RFILN2027XHZZ
RFILN2027XHZZ
VHPTLP627//-1
VHPTLP627//-1
VHPTLP521-1BL
VHPTLP521-1BL
VS2SA1807-P-1
VS2N5401///-1
VSBS108////-1
VSBC847B///-1
VSDPC114EK/-1
VSDPC114EK/-1
VSDPC114EK/-1
VSDPC114EK/-1
VRD-HT2HY473J
VRS-HT3LA821J
VRS-TS2AD161J
VRS-TS2AD124J
VRS-TS2AD103J
VRS-TP2BD120J
VRS-TS2AD474J
VRS-TS2AD203J
VRS-TP2BD560J
VRS-TS2AD000J
VRS-TP2BD150J
VRS-TS2AD103J
AE
AE
AE
AA
AB
AB
AA
AA
AA
AB
AA
AB
AB
AB
AB
AA
AB
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AB
AA
AA
AA
AB
AN
AD
AH
AE
AE
AG
AC
AC
AD
AD
AC
AC
AC
AH
AH
AE
AE
AE
AE
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
B
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
C
C
C
C
B
C
C
C
C
C
B
B
B
B
B
B
B
C
C
C
C
C
C
C
B
B
B
B
B
B
B
B
B
B
B
B
C
C
C
C
C
C
C
C
C
C
C
C
Varistor(RA-501P-V6-2)
Cable
Capacitor(50WV 0.47µF)
Capacitor(250WV 1.0µF)
Capacitor(250WV 0.47µF)
Capacitor(50WV 10µF)
Capacitor(50WV 3.3µF)
Capacitor(50WV 22µF)
Capacitor(50WV 4.7µF)
Capacitor(50WV 10µF)
Capacitor(50WV 2.2µF)
Capacitor(50WV 22µF)
Capacitor(50WV 47µF)
Capacitor(50WV 22µF)
Capacitor(50WV 0.01µF)
Capacitor(50WV 0.01µF)
Capacitor(50WV 0.022µF)
Capacitor(50WV 0.033µF)
Capacitor(50WV 0.022µF)
Capacitor(50WV 0.047µF)
Capacitor(50WV 1000PF)
Capacitor(50WV 0.1µF)
Capacitor(50WV 2200PF)
Capacitor(50WV 1000PF)
Capacitor(50WV 0.01µF)
Resistor(1/8W 0Ω ±5%)
Capacitor(50WV 0.056µF)
Capacitor(50WV 100PF)
Capacitor(50WV 0.1µF)
Capacitor(50WV 1000PF)
Capacitor(50WV 0.1µF)
Capacitor(50WV 1200PF)
Capacitor(50WV 0.1µF)
Capacitor(50WV 0.1µF)
Capacitor(50WV 0.1µF)
Capacitor(50WV 0.01µF)
Relay
Jack
Connector(12pin)
Connector(5pin)
Jack
Jack
Diode(1N4148)
Diode(1N4148)
Diode(1N4148)
Diode(1N4148)
Hook switch
IC(LMT2904DR)
IC(LMT2904DR)
Coil(R-5C)
Coil(R-5C)
Coil(4.7mH)
Coil(4.7mH)
Coil(R-5C)
Coil(R-5C)
Coil(R-5C)
Photo coupler(TLP627)
Photo coupler(TLP627)
Photo coupler(TLP521)
Photo coupler(TLP521)
Transistor(2SA1807)
Transistor(2N5401)
FET(BS108)
Transistor(BC847B)
Transistor(PDTC114)
Transistor(PDTC114)
Transistor(PDTC114)
Transistor(PDTC114)
Resistor(1/2W 47KΩ ±5%)
Resistor(3W 820Ω ±5%)
Resistor(1/10W 160Ω ±5%)
Resistor(1/10W 120KΩ ±5%)
Resistor(1/10W 10KΩ ±5%)
Resistor(1/8W 12Ω ±5%)
Resistor(1/10W 470KΩ ±5%)
Resistor(1/10W 20KΩ ±5%)
Resistor(1/8W 56Ω ±5%)
Resistor(1/10W 0Ω ±5%)
Resistor(1/8W 15Ω ±5%)
Resistor(1/10W 10KΩ ±5%)
– 11 –
[AR2]
[ARG]
[C1]
[C2]
[C3]
[C4]
[C5]
[C6]
[C7]
[C8]
[C10]
[C11]
[C12]
[C13]
[C101]
[C102]
[C103]
[C104]
[C105]
[C106]
[C107]
[C109]
[C110]
[C111]
[C115]
[C116]
[C118]
[C119]
[C120]
[C121]
[C122]
[C123]
[C124]
[C125]
[C126]
[C127]
[CML]
[CNHJ]
[CNLIUA]
[CNLIUB]
[CNLNJ]
[CNTLJ]
[D1]
[D2]
[D3]
[D4]
[HOOK SW]
[IC101]
[IC102]
[L2A]
[L2B]
[L3]
[L5]
[L6]
[L7]
[L8]
[PC2]
[PC3]
[PC5]
[PC6]
[Q1]
[Q2]
[Q3]
[Q101]
[Q102]
[Q106]
[Q108]
[Q110]
[R2]
[R3]
[R101]
[R102]
[R103]
[R104]
[R105]
[R107]
[R108]
[R109]
[R110]
[R111]
UX-68DE
FO-78DE
NO.
PARTS CODE
PRICE
RANK
NEW
MARK
PART
RANK
DESCRIPTION
[8] TEL/LIU PWB unit
!
!
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
901
VRS-TP2BD470J
VRS-TS2AD152J
VRS-TS2AD102J
VRS-TS2AD103J
VRS-TS2AD163J
VRS-TS2AD203J
VRS-TS2AD151J
VRS-TS2AD102J
VRS-TS2AD303J
VRS-TS2AD103J
VRS-TS2AD332J
VRS-TS2AD473J
VRS-TS2AD243J
VRS-TS2AD102J
VRS-TS2AD822J
VRS-TS2AD332J
VRS-TS2AD222J
VRS-TS2AD391J
VRS-TS2AD000J
VRS-TS2AD223J
VRS-TS2AD332J
VRS-TS2AD751J
VRS-TS2AD244J
VRS-TS2AD102J
VRS-TS2AD223J
VRS-TS2AD303J
VRS-TS2AD332J
VRS-TS2AD103J
VRS-TS2AD303J
VRS-TS2AD102J
VRS-TS2AD102J
VRS-TS2AD471J
VRS-TS2AD471J
VRS-TS2AD104J
VRS-TS2AD104J
VHDS1ZB60//-1
RTRNI2165XHZZ
VHVDSS301L/-U
VHVSIOVS05K60
VHEBZX79B20/A
VHEBZX79B6V8A
VHEBZX79B20/A
VHEBZX79B3V3A
VHEBZX79B3V3A
(Unit)
DCEKL227CFF01
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AC
AG
AF
AC
AC
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
C
C
C
C
B
B
B
B
B
B
B
B
B
Resistor(1/8W 47Ω ±5%)
Resistor(1/10W 1.5KΩ ±5%)
Resistor(1/10W 1KΩ ±5%)
Resistor(1/10W 10KΩ ±5%)
Resistor(1/10W 16KΩ ±5%)
Resistor(1/10W 20KΩ ±5%)
Resistor(1/10W 150Ω ±5%)
Resistor(1/10W 1KΩ ±5%)
Resistor(1/10W 30KΩ ±5%)
Resistor(1/10W 10KΩ ±5%)
Resistor(1/10W 3.3KΩ ±5%)
Resistor(1/10W 47KΩ ±5%)
Resistor(1/10W 24KΩ ±5%)
Resistor(1/10W 1KΩ ±5%)
Resistor(1/10W 8.2KΩ ±5%)
Resistor(1/10W 3.3KΩ ±5%)
Resistor(1/10W 2.2KΩ ±5%)
Resistor(1/10W 390Ω ±5%)
Resistor(1/10W 0Ω ±5%)
Resistor(1/10W 22KΩ ±5%)
Resistor(1/10W 3.3KΩ ±5%)
Resistor(1/10W 750Ω ±5%)
Resistor(1/10W 240KΩ ±5%)
Resistor(1/10W 1KΩ ±5%)
Resistor(1/10W 22KΩ ±5%)
Resistor(1/10W 30KΩ ±5%)
Resistor(1/10W 3.3KΩ ±5%)
Resistor(1/10W 10KΩ ±5%)
Resistor(1/10W 30KΩ ±5%)
Resistor(1/10W 1KΩ ±5%)
Resistor(1/10W 1KΩ ±5%)
Resistor(1/10W 470Ω ±5%)
Resistor(1/10W 470Ω ±5%)
Resistor(1/10W 100KΩ ±5%)
Resistor(1/10W 100KΩ ±5%)
Diode bridge(S1ZB60)
Transformer
Varistor(DSS-301L)
Varistor(SIOV-S05K60T)
Zener diode(BZX79B20V)
Zener diode(BZX79B6V8)
Zener diode(BZX79B20V)
Zener diode(BZX79B3V3)
Zener diode(BZX79B3V3)
E
TEL/Liu PWB unit
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
B
B
B
B
B
B
B
A
A
A
B
Capacitor(RE224-C)
Capacitor(KMF400VB68M)
Capacitor(ECKZ3D102KBP)
Capacitor(GRM40B222K50PT)
Resistor(MCR10EZHJ000)
Capacitor(DE1510-1E392M-KX)
Capacitor(LXJ35VB560(M))
Capacitor(ECQV1H474JL3)
Capacitor(LXZ16VB2200(K))
Capacitor(GRM40B104K25PT)
Capacitor(DE1007E222M-KH)
Capacitor(KME10VB100(M))
Capacitor(GRM40B102K50PT)
Capacitor(DEO805R681K1K-MHR)
Capacitor(AMZV-223J50)
Base post ass’y(B 2P3-VH)
Connector(8PL-FJ)
Diode(ERA15-06)
Diode(ERA15-06)
Diode(ERA15-06)
Diode(ERA15-06)
Diode(1SS355)
Diode(S3L20U-4004P15)
Diode(SR140)
Current fuse(21501.6 ME600)
Current fuse(21501.6 ME600)
Circuit protect chip(CCP2E100)
Beads core(BL02RNI-R62T4)
[R112]
[R114]
[R115]
[R116]
[R117]
[R118]
[R119]
[R120]
[R121]
[R122]
[R123]
[R124]
[R125]
[R126]
[R128]
[R129]
[R131]
[R133]
[R134]
[R135]
[R136]
[R137]
[R138]
[R139]
[R140]
[R141]
[R142]
[R143]
[R144]
[R145]
[R147]
[R148]
[R149]
[R152]
[R153]
[REC1]
[T1]
[VA1]
[VA2]
[ZD1]
[ZD2]
[ZD3]
[ZD6]
[ZD7]
[9] Power supply PWB unit
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
26
27
28
0CBUGFM224KR/
0CBUGZ1072ZZ/
0CBUGCV102HZ/
0CBUGXAEF222/
0CBUEXCAO000/
0CBUGCM392BJ/
0CBUGAE561TS/
0CBUGFF474JA/
0CBUGAC222VV/
0CBUGXAED104/
0CBUGZ1041ZZ/
0CBUGAB101RV/
0CBUGXAEF102/
0CBUGCU681BR/
0CBUGFF223EH/
0CBPKZ0194ZZ/
0CBPCZ0275ZZ/
0CBUBC0125DK/
0CBUBC0125DK/
0CBUBC0125DK/
0CBUBC0125DK/
0CBUBY0020AK/
0CBUBC0336AZ/
0CBUBC0302BZ/
0CBPJCEJ1601/
0CBPJCEJ1601/
0CBPZZ0906ZZ/
0CBBFZ89256Z/
AF
AN
AD
AC
AB
AF
AH
AF
AK
AC
AF
AF
AC
AC
AC
AC
AD
AD
AD
AD
AD
AD
AL
AE
AH
AH
AH
AD
– 12 –
[C1]
[C2]
[C3]
[C4]
[C6]
[C7]
[C8]
[C9]
[C10]
[C12]
[C15]
[C16]
[C17]
[C21]
[C24]
[CN1]
[CN2]
[D1]
[D2]
[D3]
[D4]
[D5]
[D7]
[D8]
[F1]
[F2]
[F3]
[FB1]
UX-68DE
FO-78DE
NO.
PARTS CODE
PRICE
RANK
NEW
MARK
PART
RANK
DESCRIPTION
[9] Power supply PWB unit
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
60
61
62
63
64
65
66
67
68
69
70
71
72
73
!
901
0CBUCB0199AZ/
0CBUKZ0826ZZ/
0CBUZZ0156ZZ/
0CBPZZ0940ZZ/
0CBLRZ6616ZN/
0CBLRZ6619ZQ/
0CBUDC0163CZ/
0CBUDC0163CZ/
0CBUAG0161AC/
0CBUDA0128AK/
0CBUAY0016CK/
0CBUAY0016CK/
0CBUAC0289AK/
0CBUAC0289AK/
0CBUEEC335CH/
0CBUEEC105CH/
0CBUEEC105CH/
0CBUEXCAS331/
0CBUEXCAS152/
0CBUEXCAS183/
0CBUEXCAS330/
0CBUEXCAS473/
0CBUEXCAS471/
0CBUEFDR33DB/
0CBUEXCAS390/
0CBUEXCAS184/
0CBUEXCAS472/
0CBUEXCAS152/
0CBUEXCAS334/
0CBUEXCAS223/
0CBUEXCAS822/
0CBUEXCAS273/
0CBUEXCAS472/
0CBUEXCAS472/
0CBUEXCAS154/
0CBUEXCAS103/
0CB829655027/
0CBUDC0232AK/
0CBUEZ0507ZZ/
0CBUFBA102FE/
0CBUBDAX270A/
0CBUBXAD2R0A/
0CBUBDBM300D/
0CBUBXAD6R2C/
0CBUBDBE200D/
(Unit)
RDENT2144XHZZ
AR
AK
AN
AB
AQ
AQ
AG
AG
AQ
AD
AD
AD
AD
AD
AC
AC
AC
AB
AB
AB
AB
AB
AB
AE
AB
AB
AB
AB
AB
AB
AB
AB
AB
AB
AB
AB
BE
AF
AD
AD
AD
AD
AC
AD
AD
B
C
C
C
C
C
B
B
B
B
B
B
B
B
C
C
C
C
C
C
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
IC(UPC29M05AHF)
Filter(ELF15N003A)
Coil(RS208)
Jumper(J1/6Z-T26-A)
Heat sink(MN903-5001AT)
Heat sink(MF903-5002AT)
Photo coupler(PC123YS)
Photo coupler(PC123YS)
FET(FS5KM-18A-AN)
Transistor(2SD2114K)
Transistor(2SC2412K)
Transistor(2SC2412K)
Transistor(2SC4210)
Transistor(2SC4210)
Resistor(RDM12TB335J)
Resistor(RDM12TB105J)
Resistor(RDM12TB105J)
Resistor(CR21TR331J)
Resistor(CR21TR152J)
Resistor(CR21TR183J)
Resistor(CR21TR330J)
Resistor(CR21TR473J)
Resistor(CR21TR471J)
Resistor(RSMF1TBR33G)
Resistor(CR21TR390J)
Resistor(CR21TR184J)
Resistor(CR21TR472J)
Resistor(CR21TR152J)
Resistor(CR21TR334J)
Resistor(CR21TR223J)
Resistor(CR21TR822J)
Resistor(CR21TR273J)
Resistor(CR21TR472J)
Resistor(CR21TR472J)
Resistor(CR21TR154J)
Resistor(CR21TR103J)
Transformer(PTTP124-KTT)
Thermistor(KL07L8R2TB)
Varistor(ERZV07D471)
Variable resistor(ENV CYA A01 B13)
Zener diode(RD27SB)
Zener diode(RD2.0SB)
Zener diode(RD30FB)
Zener diode(RD6.2SB)
Zener diode(RD20ESAB)
BA
E
Power supply PWB unit
– 13 –
[IC1]
[L1]
[L2]
[L3]
[MT1]
[MT2]
[PC1]
[PC2]
[Q1]
[Q2]
[Q3]
[Q4]
[Q5]
[Q6]
[R1]
[R2]
[R3]
[R4]
[R5]
[R6]
[R7]
[R8]
[R9]
[R10]
[R11]
[R12]
[R13]
[R14]
[R15]
[R16]
[R17]
[R18]
[R19]
[R20]
[R21]
[R25]
[T1]
[TH1]
[V1]
[VR1]
[ZD1]
[ZD2]
[ZD4]
[ZD5]
[ZD7]
UX-68DE
FO-78DE
Index
PARTS CODE
[C]
CCNW-212AXH01
″
CCNW-215AFF01
CPWBX3094FF01
″
[D]
DCEKK201CFF10
″
DCEKK201CFF11
″
DCEKL227CFF01
″
DCEKP203CFF02
DUNTK204CFFBG
DUNTK204CFFWH
[G]
GCABA2342FFSX
GCABA2342FFSY
GCABB2343FFSA
GCABB2343FFSC
GCASP2110FFSD
GCASP2110FFSE
GCASP2111FFSA
GCASP2111FFSC
GDAI-2082XHSA
GDAI-2082XHSC
GDAI-2083FFZZ
[H]
HPNLH2393XHSJ
HPNLH2393XHSP
[J]
JBTN-2257FFSA
JBTN-2257FFSC
JBTN-2258FFSA
JBTN-2258FFSC
JBTN-2261FFSA
JBTN-2261FFSC
JBTN-2262FFSA
JBTN-2262FFSC
[L]
LBSHP2110XHZZ
LBSHP2112XHZZ
LFRM-2207XHZZ
LFRM-2208XHZZ
LFRM-2209FFZZ
LHLDW1033CE00
″
LHLDZ2180XHZZ
LHLDZ2181XHZZ
LHLDZ2184XHZZ
LHLDZ2185XHZZ
LPLTG2911XHZZ
LPLTM3049XHZZ
LPLTM3107XHZZ
LPLTP2908XHZZ
LPLTP3051XHZZ
LSTPP2054XHZZ
LX-BZ2138FFZZ
[M]
MCAMP2027XHZZ
MLEVP2311XHZZ
MLEVP2312XHZZ
MLEVP2314XHZZ
MLEVP2316XHZZ
MLEVP2317XHZZ
MLEVP2319XHZZ
MLEVP2320XHZZ
MLEVP2321XHZZ
MSPRC2735XHZZ
MSPRC2954FFZZ
MSPRC3110XHZZ
MSPRC3112FFZZ
MSPRC3117FFZZ
MSPRC3148FFZZ
MSPRD3116FFZZ
MSPRP3119XHZZ
MSPRP3123XHZZ
MSPRT3139FFZZ
MSPRT3140FFZZ
No.
1-2
3-1
1-12
1-45
7-901
PRICE NEW PART
RANK MARK RANK
AK
AK
N
N
1-1
3-901
1-1
3-901
1-16
8-901
3-7
6-2
6-2
N
N
N
N
3-3
3-3
1-13
1-13
1-17
1-17
1-18
1-18
1-46
1-46
1-22
N
N
N
N
N
N
N
AD
1-54
1-54
3-4
3-4
3-5
3-5
3-6
3-6
3-8
3-8
2-1
1-28
5-1
1-29
2-2
1-55
2-19
2-3
2-4
1-30
1-31
4-1
5-2
1-56
4-2
4-3
1-47
1-B1
5-4
5-5
5-6
5-8
1-23
2-5
1-49
1-19
1-58
5-9
1-5
5-10
1-33
2-6
1-34
1-24
1-14
1-15
4-5
4-4
AB
AB
AF
AF
AA
AA
AC
AC
AC
AC
AE
AD
AD
AE
AB
AC
AC
AB
AB
AB
AC
AB
AC
AC
AN
AC
AB
AC
AC
C
C
C
E
E
E
E
E
E
E
E
E
E
E
D
D
D
D
C
C
C
C
C
C
C
N
N
D
D
N
N
C
C
C
C
C
C
C
C
N
N
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
C
C
C
C
C
C
C
PARTS CODE
[N]
NGERH2278XHZZ
NGERH2379XHZZ
NGERH2391XHZZ
NGERH2475XHZZ
NGERH2478XHZZ
NGERH2479XHZZ
NGERH2480XHZZ
NGERH2481XHZZ
NGERP2318XHZZ
NROLR2375XHZZ
NROLR2425XHZZ
NROLR2428XHZZ
NSFTZ2273XHZZ
[P]
PGIDM2554FFZZ
PGIDM2560XHSA
PGIDM2560XHSC
PGIDM2561XHSA
PGIDM2561XHSC
PGIDM2562XHZZ
PGIDM2563XHSA
PGIDM2563XHSC
PGIDM2566XHZZ
PGIDM2578XHZZ
PGIDM2579XHZZ
PHOP-2104FFSA
PHOP-2104FFSC
PHOP-2105XHZZ
PSHEZ3410FFZZ
PSHEZ3517FFZZ
PSHEZ3543XHZZ
[Q]
QACCE2013BMZZ
QCNCM2401SC0B
QCNCM2442SC0B
QCNCM2548SC0E
QCNCM2548SC1B
QCNCM7014SC0B
QCNCM7014SC0F
QCNCM7014SC0G
QCNCM7014SC1F
″
QCNCM705BAF06
QCNCW2500SC0E
QCNCW2500SC0H
QCNCW2500SC1B
QCNW-209AXHZZ
QCNW-210AXHZZ
QCNW-213AXHZZ
QCNW-352AFFZZ
QCNW-3976XHBG
QCNW-3976XHOW
QCNW-4649FFZZ
QCNW-4753XHZZ
QCNW-4814XHZZ
QCNW-4933XHZZ
QFS-P2010SCZZ
QJAKZ2073SCFD
QJAKZ2073SCFF
QJAKZ2079XH0D
QSOCZ0115SC32
QSW-F2224SCZZ
QSW-M2293XHZZ
QSW-M2296XHZZ
QSW-Z2263XHZZ
[R]
RC-FZ3053FFZZ
RC-FZ3055FFZZ
RCILF2125SCZZ
″
RCILZ2145XHZZ
″
″
″
″
″
″
″
RCORF2063XHZZ
No.
5-12
5-13
5-15
5-17
1-36
2-7
2-8
2-9
1-6
2-10
1-37
2-11
2-12
4-6
1-7
1-7
1-8
1-8
2-13
1-27
1-27
1-52
6-16
6-17
1-9
1-9
6-4
1-57
4-7
2-21
1-20
7-138
7-130
8-41
8-40
7-132
7-135
7-129
7-136
7-139
7-131
7-134
7-137
7-133
1-39
1-40
2-16
2-22
6-3
6-3
6-5
8-3
2-15
5-20
7-146
8-43
8-42
8-39
7-156
5-21
2-17
1-11
8-48
8-5
8-6
8-53
8-54
7-160
7-161
7-162
7-163
7-164
7-165
7-166
7-168
2-20
– 14 –
PRICE NEW PART
RANK MARK RANK
AC
AC
AC
AB
AB
AB
AB
AB
AD
AL
AP
AP
AF
C
C
C
C
C
C
C
C
C
C
C
C
C
AC
AC
AD
AE
AC
AC
AE
AE
AD
N
AE
N
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
AE
AG
AC
AD
AE
AE
AD
AC
AE
AE
AD
AG
B
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
B
C
C
C
C
B
B
B
B
AD
AD
AF
AF
AF
AF
AF
AF
AF
AF
AF
C
C
C
C
C
C
C
C
C
C
C
C
B
AA
AB
AH
AD
AB
AB
AD
AD
AB
AF
AF
AH
AC
AC
N
AK
AK
PARTS CODE
No.
RCORF2064XHZZ
RCRSB0297AFZZ
RCRSQ2157SCZZ
RDENT2144XHZZ
″
RFILN2027XHZZ
″
″
″
″
RH-DX0045BMZZ
″
″
″
RHEDZ2059XHZZ
RMOTZ2148XHZZ
RR-TZ3017SCZZ
″
″
″
″
″
″
″
RR-TZ3018SCZZ
″
″
″
″
″
″
″
RRLYD3138XHZZ
RRLYZ3427SCZZ
RTRNI2165XHZZ
RUNTZ2054XHZZ
[S]
SPAKA287BFFZZ
SPAKA288BFFZZ
SPAKA289BFFZZ
SPAKC168BFFZZ
SPAKP3385FFZZ
[T]
TINSG4052FFZZ
TINSG4053FFZZ
TLABM363BFFZZ
TLABM433AFFZZ
TPAPK2205FFZZ
[U]
UBATL2046SCZZ
[V]
VCCCTV1HH100D
″
VCCCTV1HH101J
VCCCTV1HH180J
VCCCTV1HH220J
″
″
″
″
″
″
″
VCCCTV1HH330J
VCCCTV1HH680J
″
VCEAGA1EW476M
″
″
″
″
VCEAGA1HW106M
″
″
″
″
VCEAGA1HW107M
VCEAGA1HW225M
VCEAGA1HW226M
″
1-53
7-311
7-310
1-21
9-901
8-51
8-52
8-55
8-56
8-57
8-44
8-45
8-46
8-47
1-41
5-22
7-292
7-294
7-295
7-297
7-298
7-299
7-303
7-304
7-293
7-296
7-300
7-301
7-302
7-305
7-306
7-307
7-309
8-38
8-118
2-18
PRICE NEW PART
RANK MARK RANK
AF
AD
AF
BA
BA
AC
AC
AC
AC
AC
B
B
B
E
E
C
C
C
C
C
B
B
B
B
B
B
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
B
B
B
B
BF
AT
AC
AC
AC
AC
AC
AC
AC
AC
AC
AC
AC
AC
AC
AC
AC
AC
AG
AN
AG
BE
6-7
6-8
6-9
6-10
6-6
D
D
D
D
D
6-1
6-1
6-26
6-11
6-27
N
N
N
N
N
D
D
D
D
S
7-1
AK
B
7-16
7-17
8-29
7-81
7-47
7-48
7-82
7-84
7-85
7-86
7-97
7-98
7-112
7-43
7-44
7-3
7-5
7-6
7-10
8-14
7-2
7-4
7-8
8-7
8-11
7-7
8-12
7-9
8-9
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AB
AB
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
UX-68DE
FO-78DE
PARTS CODE
No.
VCEAGA1HW226M
″
VCEAGA1HW335M
VCEAGA1HW475M
VCKYTQ1HB103K
VCKYTQ1HB223K
″
VCKYTQ1HB333K
VCKYTQ1HB563K
VCKYTV1CF105Z
″
″
″
″
″
″
″
″
″
″
″
″
″
″
″
″
″
″
″
″
″
″
″
″
″
″
″
″
″
″
″
″
″
VCKYTV1EB104K
″
″
″
″
VCKYTV1EF104Z
″
″
″
″
″
″
″
″
″
″
″
″
″
″
″
″
VCKYTV1HB102K
″
″
″
″
″
″
″
″
″
″
″
″
″
″
8-13
8-15
8-8
8-10
8-26
8-18
8-20
8-19
8-28
7-22
7-26
7-27
7-33
7-34
7-36
7-37
7-39
7-42
7-52
7-54
7-55
7-56
7-58
7-59
7-60
7-63
7-66
7-69
7-71
7-75
7-77
7-78
7-83
7-89
7-90
7-93
7-95
7-99
7-105
7-111
7-114
7-116
7-253
7-74
7-91
7-106
7-115
7-118
7-23
7-24
7-30
7-35
7-45
7-50
7-51
7-61
7-67
7-72
7-73
7-76
7-79
7-92
7-96
7-120
7-128
7-11
7-12
7-13
7-14
7-15
7-18
7-19
7-20
7-21
7-25
7-28
7-29
7-40
7-41
7-46
PRICE NEW PART
RANK MARK RANK
AB
AB
AB
AA
AA
AB
AB
AA
AA
AB
AB
AB
AB
AB
AB
AB
AB
AB
AB
AB
AB
AB
AB
AB
AB
AB
AB
AB
AB
AB
AB
AB
AB
AB
AB
AB
AB
AB
AB
AB
AB
AB
AB
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
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
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
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
C
C
C
C
C
PARTS CODE
No.
VCKYTV1HB102K
″
″
″
″
″
″
″
″
″
″
″
″
″
″
″
″
″
″
″
″
″
VCKYTV1HB103K
″
″
″
″
VCKYTV1HB122K
VCKYTV1HB221K
VCKYTV1HB222K
″
″
″
″
″
VCKYTV1HB223K
VCKYTV1HB472K
VCKYTV1HB473K
VCKYTV1HB821K
VCKYTV1HF104Z
″
″
″
″
″
″
″
VCQYNA1HM474K
VHDRB705D//-1
VHDS1ZB60//-1
VHD1SS355//-1
″
″
″
VHEBZX79B20/A
″
VHEBZX79B3V3A
″
VHEBZX79B6V8A
VHIFC2FM209V1
″
VHIHCF4051M1T
VHIKM29W040-1
VHILMT2904DR2
″
VHINJM2113M-1
VHINJM2904M-2
VHITC4S66F/-1
VHITC7WT74FU1
VHIULN2003ANS
VHIW24258S7LE
VHIXC61AN45M1
VHI27020FPB0C
VHI62FP332P-1
VHPSG206S//-1
VHPTLP521-1BL
″
VHPTLP627//-1
″
VHVDSS301L/-U
7-57
7-62
7-64
7-65
7-68
7-70
7-100
7-101
7-102
7-103
7-104
7-109
7-110
7-121
7-122
7-123
7-124
7-125
7-126
8-22
8-25
8-31
7-38
7-119
8-16
8-17
8-37
8-33
7-113
7-31
7-32
7-53
7-80
7-87
8-24
7-108
7-94
8-21
7-107
7-49
7-127
8-23
8-30
8-32
8-34
8-35
8-36
8-4
7-145
8-117
7-141
7-142
7-143
7-144
8-121
8-123
8-124
8-125
8-122
7-149
7-151
7-155
7-150
8-49
8-50
7-159
7-158
7-154
7-148
7-147
7-152
7-153
7-157
7-308
7-171
8-60
8-61
8-58
8-59
8-119
– 15 –
PRICE NEW PART
RANK MARK RANK
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AB
AB
AB
AB
AB
AB
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AE
AD
AC
AB
AB
AB
AB
AC
AC
BK
BK
AG
AV
AG
AG
AC
AF
AE
AQ
AE
BN
AF
AG
AE
AE
AH
AH
AF
N
N
N
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
C
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
B
B
B
B
B
B
PARTS CODE
No.
VHVRA501PV6-1
″
VHVSIOVS05K60
VRD-HT2HY222J
″
VRD-HT2HY473J
VRS-HT3AA101J
VRS-HT3LA821J
VRS-TP2BD000J
VRS-TP2BD120J
VRS-TP2BD150J
VRS-TP2BD470J
VRS-TP2BD560J
VRS-TS2AD000J
″
″
″
″
″
″
″
″
″
″
″
″
″
″
″
VRS-TS2AD101J
″
″
″
″
″
″
″
″
″
″
″
VRS-TS2AD102J
″
″
″
″
″
″
″
VRS-TS2AD103J
″
″
″
″
″
″
″
″
″
″
″
″
″
″
VRS-TS2AD104J
″
″
″
″
″
″
VRS-TS2AD105J
VRS-TS2AD106J
VRS-TS2AD121J
VRS-TS2AD123J
VRS-TS2AD124J
VRS-TS2AD133J
VRS-TS2AD151J
″
VRS-TS2AD152J
8-1
8-2
8-120
7-179
7-180
8-70
7-140
8-71
8-27
8-75
8-80
8-82
8-78
7-117
7-169
7-170
7-184
7-191
7-215
7-219
7-236
7-237
7-248
7-249
7-254
7-261
7-291
8-79
8-100
7-183
7-188
7-202
7-204
7-208
7-209
7-210
7-211
7-212
7-232
7-233
7-268
7-240
7-264
8-84
8-89
8-95
8-105
8-111
8-112
7-217
7-220
7-229
7-231
7-241
7-242
7-244
7-256
7-263
7-276
8-74
8-81
8-85
8-91
8-109
7-189
7-190
7-260
7-271
7-273
8-115
8-116
7-246
7-245
7-247
7-255
8-73
7-265
7-195
8-88
7-167
PRICE NEW PART
RANK MARK RANK
AE
AE
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
B
B
B
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
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
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
UX-68DE
FO-78DE
PARTS CODE
No.
VRS-TS2AD152J
VRS-TS2AD153J
VRS-TS2AD161J
VRS-TS2AD163J
VRS-TS2AD201J
VRS-TS2AD203J
″
″
″
″
VRS-TS2AD204J
VRS-TS2AD222J
″
VRS-TS2AD223J
″
″
″
VRS-TS2AD224J
VRS-TS2AD243J
VRS-TS2AD244J
VRS-TS2AD271J
″
″
″
″
″
″
″
″
″
VRS-TS2AD3R0J
VRS-TS2AD302J
VRS-TS2AD303J
″
″
″
″
VRS-TS2AD304J
VRS-TS2AD332J
″
″
″
″
″
VRS-TS2AD333J
″
″
″
″
″
″
″
″
″
″
″
″
″
″
VRS-TS2AD391J
VRS-TS2AD393J
VRS-TS2AD433J
VRS-TS2AD471J
″
″
″
″
″
″
″
″
″
″
″
VRS-TS2AD473J
″
VRS-TS2AD474J
″
″
VRS-TS2AD512J
8-83
7-272
8-72
8-86
7-282
7-225
7-277
7-279
8-77
8-87
7-274
7-238
8-98
7-207
7-234
8-101
8-106
7-280
8-94
8-104
7-182
7-192
7-205
7-206
7-283
7-284
7-285
7-286
7-287
7-288
7-239
7-275
7-224
7-250
8-90
8-107
8-110
7-259
7-252
7-267
8-92
8-97
8-102
8-108
7-181
7-186
7-187
7-193
7-197
7-198
7-200
7-201
7-203
7-221
7-226
7-228
7-230
7-289
7-290
8-99
7-262
7-223
7-185
7-194
7-196
7-199
7-213
7-214
7-216
7-218
7-222
7-227
8-113
8-114
7-269
8-93
7-257
7-278
8-76
7-235
PRICE NEW PART
RANK MARK RANK
AA
AA
AA
AA
AG
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
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
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
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
C
C
C
C
C
PRICE NEW PART
RANK MARK RANK
PARTS CODE
No.
VRS-TS2AD512J
VRS-TS2AD513J
VRS-TS2AD562J
VRS-TS2AD682J
VRS-TS2AD751J
VRS-TS2AD754J
VRS-TS2AD822J
VRSTS2AD1183F
″
VSBC847B///-1
VSBS108////-1
VSDPC114EK/-1
″
″
″
″
″
″
″
VS2N5401///-1
VS2SA1037KS-1
″
VS2SA1807-P-1
VS2SC2412KS-1
[X]
XBBSD30P06000
XBPSN40P06K00
XEBSD30P08000
″
XEBSD30P12000
XUBSD20P06000
[0]
0CBBFZ89256Z/
0CBLRZ6616ZN/
0CBLRZ6619ZQ/
0CBPCZ0275ZZ/
0CBPJCEJ1601/
″
0CBPKZ0194ZZ/
0CBPZZ0906ZZ/
0CBPZZ0940ZZ/
0CBUAC0289AK/
″
0CBUAG0161AC/
0CBUAY0016CK/
″
0CBUBC0125DK/
″
″
″
0CBUBC0302BZ/
0CBUBC0336AZ/
0CBUBDAX270A/
0CBUBDBE200D/
0CBUBDBM300D/
0CBUBXAD2R0A/
0CBUBXAD6R2C/
0CBUBY0020AK/
0CBUCB0199AZ/
0CBUDA0128AK/
0CBUDC0163CZ/
″
0CBUDC0232AK/
0CBUEEC105CH/
″
0CBUEEC335CH/
0CBUEFDR33DB/
0CBUEXCAO000/
0CBUEXCAS103/
0CBUEXCAS152/
″
0CBUEXCAS154/
0CBUEXCAS183/
0CBUEXCAS184/
0CBUEXCAS223/
0CBUEXCAS273/
0CBUEXCAS330/
0CBUEXCAS331/
0CBUEXCAS334/
0CBUEXCAS390/
7-243
7-266
7-281
7-88
8-103
7-258
8-96
7-251
7-270
8-65
8-64
7-172
7-176
7-177
7-178
8-66
8-67
8-68
8-69
8-63
7-173
7-175
8-62
7-174
AB
AB
AE
AB
C
C
C
C
C
C
C
C
C
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
1-B4
1-B5
1-B3
5-B3
1-B7
3-B2
AA
AA
AA
AA
AA
AA
C
C
C
C
C
C
9-28
9-33
9-34
9-17
9-25
9-26
9-16
9-27
9-32
9-41
9-42
9-37
9-39
9-40
9-18
9-19
9-20
9-21
9-24
9-23
9-69
9-73
9-71
9-70
9-72
9-22
9-29
9-38
9-35
9-36
9-66
9-44
9-45
9-43
9-52
9-5
9-64
9-47
9-56
9-63
9-48
9-54
9-58
9-60
9-49
9-46
9-57
9-53
AD
AQ
AQ
AD
AH
AH
AC
AH
AB
AD
AD
AQ
AD
AD
AD
AD
AD
AD
AE
AL
AD
AD
AC
AD
AD
AD
AR
AD
AG
AG
AF
AC
AC
AC
AE
AB
AB
AB
AB
AB
AB
AB
AB
AB
AB
AB
AB
AB
B
C
C
C
A
A
C
A
C
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
B
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
– 16 –
AA
AA
AA
AA
AA
AA
AA
AA
AA
AE
PARTS CODE
0CBUEXCAS471/
0CBUEXCAS472/
″
″
0CBUEXCAS473/
0CBUEXCAS822/
0CBUEZ0507ZZ/
0CBUFBA102FE/
0CBUGAB101RV/
0CBUGAC222VV/
0CBUGAE561TS/
0CBUGCM392BJ/
0CBUGCU681BR/
0CBUGCV102HZ/
0CBUGFF223EH/
0CBUGFF474JA/
0CBUGFM224KR/
0CBUGXAED104/
0CBUGXAEF102/
0CBUGXAEF222/
0CBUGZ1041ZZ/
0CBUGZ1072ZZ/
0CBUKZ0826ZZ/
0CBUZZ0156ZZ/
0CB829655027/
No.
9-51
9-55
9-61
9-62
9-50
9-59
9-67
9-68
9-12
9-9
9-7
9-6
9-14
9-3
9-15
9-8
9-1
9-10
9-13
9-4
9-11
9-2
9-30
9-31
9-65
PRICE NEW PART
RANK MARK RANK
AB
AB
AB
AB
AB
AB
AD
AD
AF
AK
AH
AF
AC
AD
AC
AF
AF
AC
AC
AC
AF
AN
AK
AN
BE
C
C
C
C
C
C
B
B
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
C
B
UX-68DE
FO-78DE
COPYRIGHT © 2000 BY SHARP CORPORATION
ALL RIGHTS RESERVED.
No part of this publication may be reproduced,
stored in a retrieval system, or transmitted in
any form or by any means, electronic, mechanical,
photocopying, recording, or otherwise, without
prior written permission of the publisher.
SHARP CORPORATION
Communication Systems Group
Quality & Reliability Control Center
Higashihiroshima, Hiroshima 739-0192, Japan
Printed in Japan
A0002-614NS•IS•P