PLAIN PAPER COPIER 3560/70

SERVICEPLAINMANUAL
PAPER COPIER
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Copyright TOSHIBA CORPORATION 1995
ALL RIGHTS RESERVED
3560/70
GENERAL PRECAUTIONS REGARDING THE INSTALLATION
AND SERVICE FOR THE COPIER 3560/70
The installation and service should be done by a qualified service technician.
1. Transportation/Installation
• When transporting/installing the copier, use two persons and be sure to use the positions as indicated below.
The copier is fairly heavy and weighs approximately A kg (B lb), therefore pay full attention when
handling it.
3560
3570
A
73
92
B
161
203
4 portions
2. Installation
• Be sure to use a dedicated outlet with AC 115V/15A (220V, 230V, 240V/10A) or more for its power
source.
• The copier must be grounded for safety.
Never ground it to a gas pipe or a water pipe.
• Select a suitable place for installation.
Avoid excessive heat, high humidity, dust, vibration and direct sunlight.
• Also provide proper ventilation as the copier emits a slight amount of ozone.
• To insure adequate working space for the copying operation, keep a minimum clearance of 80 cm
(32”) on the left, 80 cm (32”) on the right and 10 cm (4”) in the rear.
• After having installed the copier, be sure to push the carrying handles into the copier and fasten
them with screws.
3. Service of Machines
• Basically, be sure to turn the main switch off and unplug the power cord during service.
• Be sure not to touch high-temperature sections such as the exposure lamp, the fuser unit, the
damp heater and their periphery.
• Be sure not to touch high-voltage sections such as the chargers and the high-voltage transformer.
• Be sure not to touch rotating/operating sections such as gears, belts, pulleys, etc.
• When servicing the machines with the main switch turned on, be sure not to touch live sections
such as the lamp terminal, etc. and rotating/operating sections.
• Use suitable measuring instruments and tools.
4. Main Service Parts for Safety
• The breaker, door switch, fuse, thermostat, thermofuse, thermistor, etc. are particularly important
for safety. Be sure to handle/install them properly.
5. Cautionary Labels
• During service be sure to check the rating plate and the cautionary labels such as “Unplug the
power cord during service”, “Hot area” etc. to see if there is any dirt on their surface or whether
they are properly stuck to the copier.
6. Disposition of Consumable Parts/Packing Materials
• Regarding the recovery and disposal of the copier, supplies, consumable parts and packing materials, it is recommended to follow the relevant local regulations or rules.
7. When parts are disassembled, reassembly is basically the reverse of disassembly unless
otherwise noted in this manual or other related documents. Be careful not to reassemble
small parts such as screws, washers, pins, E-rings, toothed washers in the wrong places.
8. Basically, the machine should not be operated with any parts removed or disassembled.
9. Precautions Against Static Electricity
• The PC board must be stored in an anti-electrostatic bag and handled carefully using a wristband,
because the ICs on it may become damaged due to static electricity.
Caution: Before using the wrist band, pull out the power cord plug of the copier and make sure
that there is no uninsulated charged objects in the vicinity.
1.
SPECIFICATIONS • ACCESSORIES • OPTIONS • SUPPLIES
1.1 Specifications
Copy process
Indirect electrophotographic process (dry)
Type
Desk top (console when the pedestal is used)
Exposure Type
Slit exposure with fixed table
Acceptable originals Kind
Sheets, books, and 3-dimensional objects.
When the document feeder is used:
Sheet originals only (60 g/m2~90 g/m2) (16 lb.~24 lb.)
Maximum size
A3 (Ledger)
Copy paper
Cassette
Size
Duplexing
A3~A5-R
Manual
A3~A6-R
(Ledger~Statement-R)
Thickness
(Weight)
Special
paper
Nov. 1997 © TOSHIBA
_
Note
Adjustable to
Unfixed, Arbitary sizes
64~80
64~130
Unit: g/m2
(17~22)
(17~34)
(Unit: lb.)
_
OHP film
etc.
1-1
3560/70 SPECIFICATIONS
Copy speed
Cassette/manual
Paper size
A4, B5, A5-R
LCF
3560
35
3570
35
3560
35
3570
35
A4-R, B5-R
LT-R
26
26
—
—
B4, FOLIO
22
22
—
—
LG, Computer
A3
19
19
—
—
15
15
15
15
LT, ST-R
CPM
LD
Reduction/
Enlargement
Manual feeding represents the value when the size is set.
System copy speed
(BLI format)
Mode
Original→Copy
CPM
Number of copies
3560/70
1 set
30
3 set
33
5 set
34
1 set
10
3 set
19
5 set
24
1 set
8
3 set
17
5 set
21
1 set
16
3 set
25
5 set
29
1 →1
1 →2
2 →2
2 →1
* Ten originals (A4) are set in the RADF. This includes the first copy time.
First copy
Approx. 4.0 sec. (Actual-size A4 or Letter from large capacity feeder)
Warm-up time
Approx. 80 sec.
Multiple copying
1~999, keyboard entry
Reproduction ratio
Actual ratio
100% or 101% (Setting mode)
Zoom ratios 50~200% (Multiple reduction and enlargement in 1% steps)
3560/70 SPECIFICATIONS
1-2
Nov. 1997 © TOSHIBA
Paper supply
Cassette or sheet-bypass feeding
Cassette:
600 sheets
Sheet-bypass feeding: 50 sheets
Toner supply
Automatic density detection and replenishment
Toner cartridge replacement
Exposure
Automatic control and manually selectable (9 steps)
Weight
Copier: *173 or *292 kg (with 2 cassettes and the platen cover),
*1: 3560, *2: 3570
Power source
ADU:
10 kg
115 V ~ 60 Hz, 12A For the U.S.A. and Canada
220–240 V ~ 50/60 Hz, 8A For Europe
Power consumption
1.5 kW (115 V), 1.7 kW (220 V/240 V)
Counter
7-digit total counter
Machine size
mmm
666410m
540mm
540mm
601
59
8mmmm
Nov. 1997 © TOSHIBA
1-3
3560/70 SPECIFICATIONS
1.2 Accessories
Copy receiving tray
:
1 pc.
Operator’s manual
:
1 pc.
Set-up report
:
1 pc.
Drum
:
1 pc.
Developer
:
1 bottle
Toner
:
1 pc.
*Accessories vary according to the destination.
1.3 Options
Automatic duplexing unit: ADU
MD-5002A
Automatic document feeder: ADF
MR-3006A (RADF), MR-2008 (ADF)
Paper feed pedestal: PFP
KD-1003 (1 cassette), KD-2009 (2 cassettes)
Paper feed unit
MY-1006
Large capacity feeder: LCF
MP-1501LT, MP-1501A4, MP-4001LT, MP-4001A4
Sorter
MG-1003B (10 bins), MG-2012 (20 bins)
MG-1004A (10 bins staple)
MG-2009A (20 bins)
MG-2010 (20 bins staple)
Key copy counter
MU-8/MU-10 (6 digit)
*Options vary according to the destination.
1.4 Supplies
Drum
OD-3560
Developer
ZD-3560
Toner
ZT-3560, 3560E
3560/70 SPECIFICATIONS
1-4
Nov. 1997 © TOSHIBA
2.
OUTLINE OF THE MACHINE
2.1 Sectional Views and Electrical Parts Location Diagram
2.1.1
Sectional view
[A] Front view
1
2
AS
AO AP AN
AR
3
4
5
BK
AM
AL
7
6
AT
8
EP ER
AQ
FK
FR
ENEM
EQ
FQ
GK
GT
EL
BN
ES
FR
AK
EK
ES
CT
BL
BM
BO BR
EO
CL
CK CN
CO
DS
ET
BS
BQ
DO
CS
DT
BP
CM
FT
DR
CR
FL
DN
DP
FS
BT
FM
DQ
DK
CQ
FN DM DL
FO
FP
(This diagram includes an installed ADU.)
Nov. 1997 © TOSHIBA
2-1
3560/70 GENERAL
9
CP
No.
Name
No.
Name
1
Carriage 1
CQ
Cassette
2
Mirror 1
CR
Manual feed separation pad
3
Reflector
CS
Manual feed roller
4
Light distribution adjustment plates
DT
Manual pickup roller
5
Exposure lamp
DK
Cassette separation roller
6
Carriage 2
DL
Cassette feed roller
7
Mirror 2
DM
Cassette pickup roller
8
Mirror 3
DN
Upper transport roller
9
Mirror unit
DO
Manual feed switch (S6)
AT
Mirror 4
DP
Paper guide
AK
Mirror 5
DQ
Lower transport roller
AL
Mirror 6
DR
Aligning switch (S8)
AM
Slit glass
DS
Aligning roller (U)
AN
Auto exposure sensor
ET
Aligning roller (L)
AO
Lens
EK
Thermistor-1 (THMS1)
AP
Original glass
EL
Thermostat (THERMO)
AQ
Ozone filter
EM
Heater lamp
AR
Main charger
EN
Heat roller (upper side)
AS
Discharge lamp
EO
Pressure roller (lower side)
BT
Receiving tray
EP
Separation claw (for heat roller)
BK
LED eraser array
EQ
Felt roller
BL
Main blade
ER
Heat roller cleaning blade
BM
Recovery blade
ES
Fuser exit roller
BN
Toner recovery auger
FT
Scraper
BO
Separation claw (for drum)
FK
Fuser cover
BP
Transfer charger
FL
Paper stop switch-1 (S7)
BQ
Separation charger
FM
Paper stop switch-2 (S16)
BR
Drum
FN
Paper-empty switch-2 (S14)
BS
Bias guide
FO
Cassette tray
CT
Transport belt
FP
Cassette size switch-2 (S15)
CK
Magnetic roller
FQ
Exit/ADU selection gate
CL
Leveller (doctor)
FR
Exit roller
CM
Auto-toner sensor
FS
ADU (option)
CN
Mixer 1
GT
Exit fan (M7)
CO
Mixer 2
GK
Bottom fan (M8)
CP
Sheet bypass guide
3560/70 GENERAL
2-2
Nov. 1997 © TOSHIBA
[B] Rear side view
HP
HO
IO
GQ
IP
IQ
GP
IK IT
HR HT
HK
GR HL
HN
ES
HQ
HM
GS
IT
HS
EN
CT
IT
IN
IM
IL
IN
Nov. 1997 © TOSHIBA
2-3
3560/70 GENERAL
FR
No.
3560/70 GENERAL
Name
GP
Scanning motor (M2)
GQ
Carriage drive wire
GR
Drum gear
GS
Aligning clutch (CLT2)
HT
Drum driving gear
HK
Drum belt
HL
Belt for dev-unit, ALGN-roller & paper feeding drive
HM
Belt for fuser drive
HN
Main motor (M1)
HO
Lens motor (M3)
HP
Mirror motor (M4)
HQ
Thermistor-2 (THMS2)
HR
Dev-unit drive gear
HS
Aligning roller
IT
Paper feed belt
IK
Manual feed clutch (CLT4)
IL
Transport roller clutch (CLT1)
IM
Transport roller drive belt
IN
Cassette feed clutch (CLT3, 5)
IO
Optical fan (M6,12)
IP
Document motor (M11)
IQ
Optical fan (M15)
2-4
Nov. 1997 © TOSHIBA
2.1.2
Electrical parts layout
[A] DC electrical parts (except motors)
7
BO
8
AK
AL
BP
2
BR
3
6
BT
4
1
BQ
DK
BL
BM
AN
AO
BN
AQ
[Front side]
AT
AS
CQ
BS
AP
Nov. 1997 © TOSHIBA
BKCM
AR CS
CL
CN
CP
CO
DT
CK
AM
CR
9
5
[Rear side]
CT
2-5
3560/70 GENERAL
No.
Name
No.
Name
1
Control panel key PC board (PWA-KEY2)
*BK
2
Control panel key PC board (PWA-KEY1)
BL
Exit switch (EXIT-SW) (S9)
3
Liquid crystal module (LCD)
BM
Heat-roller thermistor 1 (THMS1-HTR)
4
Total counter (T-CTR)
BN
Toner sensor (SNR-ATC)
5
Logic PC board (PWA-LGC)
BO
Lens switch (LNS-SW) (S11)
6
Auto paper sensor-2 (APS-R)
BP
Mirror switch (MRR-SW) (S12)
7
Auto paper sensor-3 (APS-C)
BQ
Automatic exposure PC board (PWA-AES)
8
Auto paper sensor-4 (APS-F)
BR
Control panel PC board (PWA-PNL)
9
Toner-full switch (T-FUL-SW) (S13)
BS
Aligning-roller clutch (RGT0-CLT) (CLT2)
Size switch 1 (SIZE1-SW) (S5)
CT
Transport-roller clutch (RGT1-CLT) (CLT1)
AK
Discharge lamp PC board (PWA-ERS)
CK
Manual-feed roller clutch (MFED-CLT) (CLT4)
AL
LED eraser array PC board (K-DCH)
*CL
AM
High-voltage power supply (PS-HVT)
CM
Size switch 2 (SIZE2-SW) (S15)
AN
Home switch (HOME-SW) (S10)
CN
Feed-roller clutch 2 (FED2-CLT) (CLT5)
AO
Platen switch (PTN-SW) (S27)
CO
Paper-empty switch 2 (EMP2-SW) (S14)
AP
Manual feed switch (M-FED-SW) (S6)
CP
Paper stop switch 2 (PSTP2-SW) (S16)
AQ
Aligning switch (PSTPO-SW) (S8)
CQ
Heat-roller thermistor-2 (THMS2-HTR)
AR
Paper stop switch 1 (PSTP1-SW) (S7)
CR
Drum thermistor (DRM-THMS)
AS
Side door switch (U-COV-SW) (S4)
BT
Auto paper sensor-1 (APS-3B)
*AT
*: Option
3560/70 GENERAL
2-6
Paper-empty switch-1 (EMP1-SW) (S3)
Feed-roller clutch 1 (FED1-CLT) (CLT3)
*CS
Tray-up switch (T-UP1-SW) (S28)
DT
Tray-up switch (T-UP2-SW) (S29)
DK
Separation claw solenoid (SCRP-SOL) (SOL1)
Nov. 1997 © TOSHIBA
[B] DC electrical parts (motors)
EK
EM
DR
DN
DQ
[Front side]
EO
EL
EN
DM
ET
DS
DP
DO
[Rear side]
No.
Name
No.
Name
DM
Main motor (MAIN-MOT) (M1)
ET
Tray-up motor-2 (T-UP2-MOT) (M14)
DN
Scanning motor (SCN-MOT) (M2)
EK
Optical fan-F (OPT-FAN-F) (M12)
DO
Lens motor (LNS-MOT) (M3)
EL
Optical fan-R (OPT1-FAN-R) (M6)
DP
Mirror motor (MRR-MOT) (M4)
EM
Exit fan (EXIT-FAN) (M7)
DQ
Toner motor (TNR-MOT) (M9)
EN
Bottom fan (BTM-FAN) (M8)
DR
Document motor (DCM-MOT) (M11)
EO
Optical fan-R (OPT2-FAN-R) (M15)
*DS
Tray-up motor-1 (T-UP1-MOT) (M13)
*: Option
Nov. 1997 © TOSHIBA
2-7
3560/70 GENERAL
[C] AC electrical parts
FR
FP
FO
EQ
ES
FL
FN
FT
FM
FQ
[Front side]
ER
EP
FK
[Rear side]
No.
Name
No.
Name
EP
SW power supply (PS-ACC)
FM
Thermostat (Option)
EQ
Door switch (DOOR-SW) (S2)
FN
Damp heater U1 (D-HTR-U1) (Option)
ER
Main switch (MAIN-SW) (S1)
FO
Exposure lamp (EXPO-LAMP)
ES
Lamp regulator PC board (PWA-LRG)
FP
Thermofuse (FU-EXPO)
FT
Heater lamp (HTR-LAMP)
FQ
Fuse PC board (PWA-FUS) (Option)
FK
Damp heater L (D-HTR-L) (Option)
FR
Damp heater U2 (D-HTR-U2) (Option)
FL
Thermostat (K-THERMO)
3560/70 GENERAL
2-8
Nov. 1997 © TOSHIBA
2.2 Symbol and Function of Electrical Parts
(1) Motors
Parts list
Symbol
M1
Function
Code name
MAIN-MOT (Main motor)
Drives the drum, developer,
Remarks
Page
Item
IC motor
10
31
heat roller and transport belt
M2
SCN-MOT (Scanning motor)
Scans the optical system
Pulse motor
5
23
M3
LNS-MOT (Lens motor)
Drives the lens unit
Pulse motor
11
23
M4
MRR-MOT (Mirror motor)
Drives the mirror unit
Pulse motor
11
23
M6
OPT1-FAN-R (Optics fan-R)
Cools the optical system
IC motor: Z80
5
8
M7
EXIT-FAN (Exit-fan)
Cools the drum and cleaner
IC motor: Z80
4
14
M8
BTM-FAN (Bottom fan)
Prevents the paper from floating IC motor: Z80
4
14
up through suction
M9
TNR-MOT (Toner motor)
Replenishes the toner
Brush motor
24
30
M11
DCM-MOT (Document motor)
Drives copy-area indicators
Pulse motor
9
2
M12
OPT-FAN-F (Optical fan-F)
Cools the optical system
IC motor: Z60
4
39
M13
T-UP1-MOT (Tray-up motor-1)
Drives the upper cassette tray to Brush motor
12
36
12
36
5
8
lift up/down
M14
T-UP2-MOT (Tray-up motor-2)
Drives the lower cassette tray to Brush motor
lift up/down
M15
OPT2-FAN-R (Optics fan-R)
Cools the optical system
IC motor: Z80
(2) Electromagnetic spring clutches
Parts list
Symbol
CLT1
Code name
Function
Remarks
Page
Item
Transmits transport-roller drive.
13
17
Transmits aligning-roller drive.
16
16
FED1-CLT
Transmits feed-roller clutch
12
24
(Feed-roller clutch-1)
drive. (Upper cassette)
MFED-CLT
Transmits manual-feed roller
15
17
(Manual-feed roller clutch)
clutch drive.
FED2-CLT
Transmits feed-roller clutch
12
24
(Feed-roller clutch-2)
drive. (Lower cassette)
RGT1-CLT
(Transport-roller clutch)
CLT2
RGT0-CLT
(Aligning-roller clutch)
CLT3
CLT4
CLT5
(3) Counters
Parts list
Symbol
Code name
Function
Remarks
T
T-CTR (Total counter)
Total counter
7-digit
K
K-CTR (Key-copy counter)
Individual counter
6-digit (option)
Nov. 1997 © TOSHIBA
2-9
Page
Item
3
32
101
5
3560/70 GENERAL
(4) Switches
Parts list
Symbol
Code name
S1
MAIN-SW (Main switch)
Power supply
S2
DOOR-SW (Door switch)
For safety, cancels abnormal
Function
Remarks
Page
Item
Tumbler type
6
3
Push switch
6
4
Photointerruptor
12
32
Push switch
2
27
condition
S3
EMP1-SW
Detects lack of paper in the upper
(Paper-empty switch-1)
cassette
U-COV-SW
For safety, detects open/closed
(Side door switch)
condition of paper jam release cover
S5
SIZE1-SW (Size switch-1)
Detects upper cassette size
Push switch
14
31
S6
M-FED-SW
Detects manual feeding
Photointerruptor
15
3
PSTP1-SW
Detects paper in front of the
Photointerruptor
14
15
(Paper stop switch-1)
upper transport roller
PSTP0-SW
Detects paper in front of the
Photointerruptor
16
20
(Aligning switch)
aligning roller
S9
EXIT-SW (Exit switch)
Detects exiting paper
Photointerruptor
29
8
S10
HOME-SW (Home switch) Detects home position of the
Photointerruptor
11
8
Photointerruptor
11
8
Detects home position of the mirror Photointerruptor
11
8
Push switch
10
25
Photointerruptor
12
32
S4
(Manual-feed switch)
S7
S8
optical system
S11
LNS-SW (Lens switch)
Detects home position of the lens
unit
S12
MRR-SW (Mirror switch)
unit
S13
S14
S15
T-FUL-SW
Detects when the used toner bag
(Toner-full switch)
is full
EMP2-SW
Detects lack of paper in the lower
(Paper-empty switch-2)
cassette
SIZE2-SW
Detects lower cassette size
Push switch
14
31
PSTP2-SW
Detects paper in front of the lower
Photointerruptor
2
26
(Paper stop switch-2)
transport roller
PTN-SW
Detects open/closed condition of
Photointerruptor
5
38
(Platen switch)
the platen cover
T-UP1-SW
Detects the position of the upper
Photointerruptor
12
32
(Tray-up-1 switch)
cassette tray
T-UP2-SW
Detects the position of the lower
Photointerruptor
12
32
(Tray-up-2 switch)
cassette tray
(Size switch-2)
S16
S27
S28
S29
3560/70 GENERAL
2 - 10
Nov. 1997 © TOSHIBA
(5) Heaters and lamps
Parts list
EXP
Function
Code name
Symbol
EXPO-LAMP
Exposes the original
(Exposure lamp)
HTR
HTR-LAMP (Heater lamp)
Remarks
Halogen lamp
Page
Item
19
13
26
6
300W
Fixing
Halogen lamp
900W
(100V series)
1030W
(200V series)
ERS
ERS-LAMP
Discharges the drum
Fuse type
4
12
To interrupt the charge
LED
4
10
(Discharge lamp)
DCH
DCH-LED
(LED eraser array)
DHU1
D-HTR-U1 (Damp heater U1)
Keeps optical system warm (option)
Cement resistor
102
4
DHU2
D-HTR-U2 (Damp heater U2)
Keeps optical system warm (option)
Cement resistor
102
4
DHL
D-HTR-L (Damp heater L)
Keeps the drum and transfer/separation Cement resistor
7
30
charger case warm (option)
(6) PC boards
Parts list
Symbol
Code name
LGC
PWA-LGC (Logic PC board)
PNL
PWA-PNL
Function
Remarks
Page
Item
Controls the entire copier
8
15
Controls control panel
3
33
Controls operation keys
3
11
Controls operation keys
3
14
Controls exposure lamp
5
20
K-DCH
Turns on and drives LED during
4
10
(LED eraser array PC board)
reduction
PWA-ERS
Discharge lamp
4
12
Reads dark/light of the original
18
37
Fuse for the damp heater circuit
7
31
(Control panel PC board)
KEY1
PWA-KEY1
(Key PC board)
KEY2
PWA-KEY2
(Key PC board)
LRG
PWA-LRG
(Lamp regulator PC board)
DCH
ERS
(Discharge lamp PC board)
AES
PWA-AES
(Automatic exposure PC board)
FUS
PWA-FUS (Fuse PC board)
Nov. 1997 © TOSHIBA
2 - 11
3560/70 GENERAL
(7) Transformers
Parts list
Code name
Symbol
HVT
Function
PS-HVT (Charging transformer) Generates high voltage electricity
Remarks
Page
Mono unit type
Item
7
27
8
7
for charging (negative voltage)
(Transfer/separation
Generates high voltage electricity
transformer) for transfer/separation and
developing bias voltage
(Transfer bias
Generates bias voltage to raise
transformer) transfer efficiency
ACC
PS-ACC
Power supply for whole copier
(Power supply for all)
power
(8) Solenoid
Parts list
Symbol
SOL1
Function
Code name
SCRP-SOL
Remarks
Drives the separation claws for the drum
Page
Item
4
42
(Separation claw solenoid)
(9) Others
Parts list
Symbol
ATS
THMS1
Function
Code name
Remarks
Page
Item
24
33
SNR-ATC
Reads toner density with a magnetic
(Auto-toner sensor)
sensor
THMS1-HTR
Detects temperature of the heat roller
27
19
THMS2-HTR
Detects the temperature of the heat roller
27
27
(Heat-roller thermistor-2)
end
Prevents abnormal heating of heat roller
27
8
Prevents abnormal heating of the
19
12
(Heat-roller thermistor-1)
THMS2
THERMO K-THERMO
(Thermostat)
FU
FU-EXPO (Thermofuse)
exposure lamp
3560/70 GENERAL
2 - 12
Nov. 1997 © TOSHIBA
2.3 Wire Harness Location Diagram
[A] Location diagram for upper unit
Nov. 1997 © TOSHIBA
2 - 13
3560/70 GENERAL
[B] Location diagram for lower unit
3560/70 GENERAL
2 - 14
Nov. 1997 © TOSHIBA
2.4 Removal of Covers and PC Boards
The above item 2.4 is the same one as for 2060/2860.
Changes for the 3560/70
1. The front cover, the inner cover, the upper exit cover and the left top cover have slightly been changed.
2. The control panel has slightly been changed to accommodate a graphic touch panel.
COSMOS
Texts from 2-15 in the 3560/70 Service Manual are
the same as texts from 2-15 to 2-19 in the 2060,2860/
70 Service Manual.
Do you refer to the 2060,2860/70 Service Manual ?
OK
Nov. 1997 © TOSHIBA
Skip
2 - 15
Cancel
3560/70 GENERAL
3.
COPYING PROCESS
The above item 3 is the same one as for the 2060/2860 except for the transfer value.
Transfer value
2060/2860
3560/70
–DC 5.25KV
–DC 5.10KV
COSMOS
Texts from 3-1 in the 3560/70 Service Manual are the
same as texts from 3-1 to 3-3 in the 2060,2860/70
Service Manual.
Do you refer to the 2060,2860/70 Service Manual ?
OK
Nov. 1997 © TOSHIBA
Skip
3-1
Cancel
3560/70 PROCESS
4.
COPIER OPERATION
The above item 4 is the same one as for the 2060/2860 except for page 4-3.
COSMOS
Texts from 4-1 in the 3560/70 Service Manual are the
same as texts from 4-1 to 4-13 in the 2060,2860/70
Service Manual.
Do you refer to the 2060,2860/70 Service Manual ?
OK
Nov. 1997 © TOSHIBA
Skip
4-1
Cancel
3560/70 OPERATION
3560/70 OPERATION
4-2
HVT-M
EXPO
OFF 0.1
OFF 0.1
0.2
0.71
1.20
1.47
1.37
ON
ON
ON
ON
FWD
1.02
0.84
0.72
0.44
BWD
2.41
BWD
2.29
High
2.82
2.46
2.35
2.10
2.03
2.11
2.12
1.99
LOW
OFF
2.13
ON
2.53
CW
2.40
2.89
3.16
High
2.86
3.68
ON
ON
3.06
ON
ON
FWD
2.86
2.71
3.93
xxx
EXIT-SW
RGT
SCN
MAIN-MOT
0.1
4.10
3.98
High
4.52
4.16
4.05
3.79
3.72
3.80
3.81
BWD
LOW
OFF
ON
5.62
5.87
7.27 7.30
3560/70 change item
1. The optical fan became 3 pieces (M6, M12, M15) from 2 pieces.
2. The timing chart has been changed.
Nov. 1997 © TOSHIBA
5.
DISPLAY UNIT
The display unit consists of key switches for copier operation/selection of each mode, LEDs and an LCD
displaying the copier state or messages.
Particularly, when the operator’s attention is recommended, a graphic symbol lights or flashes and the
message indicating that condition is displayed.
5.1 Detailed Drawing of the Control Panel and the Display Panel
For the U.S.A. and Canada
FUNCTION CLEAR
TIMER ENERGYSAVER INTERRUPT
ZOOM
200%
FC
ORIGINAL
COPYSIZE
LD
100%
HELP
LG
50%
IMAGEMODE
LT
1
2
3
4
5
6
ST
8
9
OTHER
7
CLEAR/STOP
0
C/
AMS
APS
LIGHT AUTO DARK
PRINT
For Europe
Arrangement of the control panel
Details of the display panel
Nov. 1997 © TOSHIBA
5-1
3560/70 DISPLAY
5.2 Items Shown on the Display Panel
5.2.1
Display during normal copying
No.
Message
1 WAIT WARMING UP
2
READY
3
COPYING
4
SAVING ENERGY
5
6
PRESS PRINT
PLACE NEXT
ORIGINAL
—
Conditions of machine
Being warmed up
• Indicated after the main switch
is switched on up until the
machine becomes capable of
copying.
Capable of copying.
• Indicated when the machine is
capable of copying and the
operator’s instructions for
copying conditions are awaited.
• Returns to the initial condition
if no key input is given for 45
seconds.
Now copying.
• Indicated by pressing the
PRINT key.
• Copy quantity indicator becomes
“1” and copying is completed.
Energy saving conditions.
Notes
• The number and reproduction ratio
of the copies are indicated, for
example, as “0”, “100%” when the
main switch comes on.
ADU 1-sided copying standby
state. A below.
Timer off
• No message is displayed in the
panel except for timer LED.
• When using ADU 1-sided, and when
not using ADF.
• Released by pressing the PRINT
key.
• Copy quantity indicator indicates as
“1”. When a digital key is pressed,
the set number is indicated.
• The set number is cleared to “1” by
pressing the CLEAR/STOP key.
• Manual copying is possible.
• After completion of copying, the copy
quantity indicator returns to the
initially set number.
• Released by pressing the ENERGY
SAVER key or the PRINT key.
A
3560/70 DISPLAY
5-2
Nov. 1997 © TOSHIBA
5.2.2
Display in the event of faulty conditions
No.
Message
7 ADD PAPER
8
9
10
Abnormal state & indication
Indication of lack of paper.
• Flashes when there is no paper
in the cassette.
• Indicates which cassette has no
paper. (A below.)
• Manual copying is possible.
ADD TONER:
Indication of lack of toner.
• B below is indicated when
PRESS INFO
the toner in the toner cartridge
runs out.
• When this message is displayed,
it is not possible to copy.
INSERT
Key copy counter withdrawn.
• Indicated when the key copy
KEY COPY COUNTER counter is withdrawn when the
machine is READY or during
copying. C below.
• When it is removed after
pressing the PRINT key, the
machine stops after that copy is
completed, but the counter
counts it.
DISPOSE OF
Indication of need to replace the
toner bag.
USED TONER
• Indicated when the toner bag is
full. D below.
The copier stops.
B
D
Solution
• Supply paper to the selected
cassette.
• Released after the cartridge is
replaced and the front cover is
closed.
• Released and returned to normal
conditions by inserting the key
copy counter.
Open the front cover and replace
the toner bag.
C
A
Nov. 1997 © TOSHIBA
5-3
3560/70 DISPLAY
No.
Message
11 PAPER MISFEED
12
13
14
15
Abnormal state & indication
Bypass paper jamming
• Indicates when paper jams at
IN BYPASS
the bypass guide. A below.
MISFEED IN COPIER Paper jammed in the machine.
• Indicated when paper jams in
PRESS INFO
the machine. B below.
Misfeed from LCF, PFP
• Indicated when paper fed from
a cassette does not arrive at the
paper-stop switch within a set
time. C and F below.
MISFEED
Original jammed
• Indicated when an original is
IN DOC. FEEDER
jammed in the optional
document feeder. D below
MISFEED IN SORTER: Paper jammed in the sorter.
• Indicates when paper is jammed
PRESS INFO
in the sorter. E below.
MISFEED IN ADU:
Indicates when paper is jammed
in the ADU section. G below.
PRESS INFO
D
D
Solution
The machine is returned to normal
conditions automatically by pulling
the paper out from the bypass guide.
• Press the HELP (INFO) key and
remove the paper jammed in the
copier following the message.
Open the ADF feed cover and
remove the jammed original.
Remove the paper jammed in the
sorter and open and close the front
cover once.
Press the HELP (INFO) key and
remove the paper jammed in the
copier following the message.
A
E
B
G
C
F
3560/70 DISPLAY
5-4
Nov. 1997 © TOSHIBA
No.
Message
16 CALL FOR SERVICE:
17
CALL
TIME FOR PERIODIC
MAINTENANCE
Nov. 1997 © TOSHIBA
Abnormal state & indication
Some or one of the mechanism,
motors, switches or sensors are
abnormal.
Indication of PM cycle.
• Indicated when it is time for
periodic maintenance and
inspection.
• Capable of copying.
5-5
Solution
Turn off the machine, remove the
cause of the fault and turn the
machine back on.
Maintenance and inspection by a
qualified service technician.
3560/70 DISPLAY
3560/70 DISPLAY
–
–
–
–
–
–
–
–
_
_
Key copy counter not
inserted (optional)
Bypass misfeed
Replace toner bag
Clear paper
Service call
Interrupt mode
Energy-saving mode
5-6
–
–
–
–
_
–
–
_
_
–
–
_
–
_
_
_
–
_
_
_
–
_
–
–
_
–
_
_
_
_
_
_
_
–
_
–
–
_
–
_
_
_
–
_
_
_
REPRODUCTION EXPOSURE ORIGINAL
SIZE
RATIO
key
key
selection
key
–
_
–
–
_
–
_
_
_
_
_
_
_
INTERRUPT
key
_
–
–
–
_
–
_
_
_
–
_
_
_
ENERGY
SAVER
key
– : Operation is ignored.
–
_
–
–
_
–
_
_
_
–
_
_
_
COPY
SIZE
key
Nov. 1997 © TOSHIBA
Note: The interrupt mode will be automatically cancelled when the machine is not used for 45 seconds.
(4) During copying, avoid sheet bypass feeding because of possible paper jamming.
When not copying .... When pressed once, the copy quantity indicator returns to “1”.
change.)
During copying ......... Interruption of the copying (Stop function ..... The copy quantity indicator will not
(3) The function of the CLEAR/STOP key changes in the following manner according to the machine status.
(2) During copying, avoid changing exposure as far as possible.
–
_
–
–
_
–
_
_
_
_
_
_
_
Sheet
bypass
(1) By pressing the ENERGY SAVER key or the PRINT key, the energy-saving mode will be cancelled.
_: Machine operates or indicates in accordance with the operator’s action.
–
–
–
_
_
_
–
Add toner
_
_
–
Add paper
–
–
Copying
_
–
Reproduction-ratio
changing
_
_
_
_
Ready
_
Digital
keys
_
_
CLEAR/
STOP
key
–
PRINT
key
Warming up
Condition
Operation
5.3 Relationship between Copier Conditions and Operator’s Actions
5.4 Description of Operation
5.4.1
Dot matrix LCD display circuit
(1) Structure
LCD module is an STN black and white mode transmissive type LCD with a 320 × 240-dot display
capacity. It includes a driver LSI, frame print board, and lateral CFL backlighting.
*STN: Super Twisted Nematic
(2) Block diagram
CP
D0
D1
D2
D3
FRAME
IC3
Nov. 1997 © TOSHIBA
IC2
160
160
120
LCD PANEL
320x240 DOTS
LOAD
D.OFF
VDD
VSS
Vo
VEE
IC1
IC4
120
power
supply
SW
5-7
3560/70 DISPLAY
(3) Drive
• LCD control: Drive is effected by the LCD controller on the PNL board.
• What character is displayed in what position: IC7 (main CPU) and IC4 (LCD controller) of the panel
circuit control.
• Message data, executable programs, and character codes: Stored in the PROM on the PNL board.
• Each character on the liquid crystal is made up of 16 × 16 dots or 16 × 8 dots. The whole panel
consists of 320 × 240 dots.
Graphic data is written by the main CPU to the liquid crystal controller at the RAM address corresponding to the position at which it is to be displayed. The LCD controller then sends the data to the
LCD.
AD0
UD0
D7
D3
~
~
UD3
~
AD15
~
Display
D0
Display
synchronous
clock
RAM
D0
LCD controller
PNL CPU
3560/70 DISPLAY
LCD
5-8
Nov. 1997 © TOSHIBA
Data Transmission Method.
1/tF
1/tF
FRAME
240
1
2
240
1
2
240
1
2
LOAD
FRAME
LOAD
CP
CPx(320/4)pulses
D0-D3
5.4.2
LED display circuit
(1) LED display method
For example, the following shows how the LED LP6 (APS) lights up for displaying “automatic paper
sensing”.
+5VD
R60
R61
“L” 16
DSPON0
“L”
Q3
R
(APS)
LP6
D8
R17
IC1
When DSPON0 signal becomes “L” level, transistor Q3 is turned ON. Further, when IC1 pin16 (D8)
becomes “L” level, current flows from +5VD to LP6 (APS) through the transistor. In this way LP6
(APS) lights up.
Nov. 1997 © TOSHIBA
5-9
3560/70 DISPLAY
(2) The actual circuit is controlled as follows.
5VD
R60
1
2
(NO7)
DSON0
1E4
5
6
IC15
1/10W4.7K
R61
1
2
1/10W560
R59
1
2
(NO7)
DSON1
1E4
3
4
IC15
E
B
1/10W4.7K
B
R58
1
2
1/10W560
Q3
2SA142BY
C
DSPON0
E
C
DSPON1
3B4
5E2 5B6
Q2
2SA142BY
5E2 5B6
DSPON0
VDD
1
2
1
2
1
2
1
2
C1
21K
30
1
23
18
13
8
1
2
CKME0.1/25
R111
C2
LECLK
CKM33P/50J
21K
21K
21K
C4
R131
R101
R121
27
4
26
28
2
3
29
CKM33P/50J
3B4
LEDAT
LELTH0
LERST
CKM33P/50J C5
3B4
3B4
3B4
21K
21K
21K
21K
CKM33P/50J C3
R211
R181
R201
R191
VDD
VSSL
VSSD3
VSSD2
VSSD1
VSSD0
IC1
7932M
GND
3560/70 DISPLAY
LAST
L/R
SIN
LATCH
BEO
STB
CK
D16
D15
D14
D13
D12
D11
D10
D9
D8
D7
D6
D5
D4
D3
D2
D1
SOUT
6
7
9
10
11
12
14
15
16
17
19
20
21
22
24
25
R31
2100
LTL16KG K
A LP1
P/3
R51
2100
LTL16KG K
A LP2
P/2
R81
2100
LTL16KG K
A LP3
P/1
R91
2100
LTL16KG K
A LP4
P/0
R161
2100
LTL16KG K
A LP5
P/USER
R171
2100
LTL16KG K
A LP6
APS
R21
2100
LTL16KG K
A LP7
0/3
R41
2100
LTL16KG K
A LP8
0/2
R61
2100
LTL16KG K
A LP9
0/1
R71
2100
LTL16KG K
A LP10
0/0
R141
2100
LTL16KG K
A LP11
O/USER
R151
2100
LTL16KG K
A LP12
AMS
R11
2100
LTL16KG K
A LP13
FC
5
SGD
5 - 10
Nov. 1997 © TOSHIBA
3B4
DSPON1
VDD
1
2
1
2
1
2
1
2
C1
21K
30
1
23
18
13
8
1
2
CKME0.1/25
R61
C3
LECLK
27
4
26
28
2
3
29
CKM33P/50J
21K
21K
21K
C4
R81
R51
R71
CKM33P/50J
3B4
LEDAT
LELTH1
LERST
CKM33P/50J C5
3B4
3B4
3B4
21K
21K
21K
21K
CKM33P/50J C2
R31
R41
R21
R11
VDD
VSSL
VSSD3
VSSD2
VSSD1
VSSD0
LTL16KG K
A LP1
INT
2100
LTL16KG K
A LP2
P/S
R221
2100
LTL16KG K
A LP3
TIMER
R191
2100
LTL16KG K
A LP4
PHOTO
R181
2100
LTL16KG K
A LP5
AUTO
R171
2100
LTL433G K
A LP6
EXPO1
R161
2100
LTL433G K
A LP7
EXPO2
R151
2100
LTL433G K
A LP8
EXPO3
R141
2100
LTL433G K
A LP9
EXPO4
R131
2100
LTL433G K
A LP10
EXPO5
R121
2100
LTL433G K
A LP11
EXPO6
R111
2100
LTL433G K
A LP12
EXPO7
R101
2100
LTL433G K
A LP13
EXPO8
R91
2100
LTL433G K
A LP14
EXPO9
5
6 msec 6 msec
The signals of DSPON0 and DSPON1 beDSPON0
Q3
ON
Q3
OFF
DSPON1
Q2
OFF
Q2
ON
Q2 (or Q3) is turned ON when DSPON0 (or
DSPON1) is “L” level.
•
2100
R211
SGD
come “H” level by one turn every 6 msec.
•
SOUT
6
7
9
10
11
12
14
15
16
17
19
20
21
22
24
25
IC1
7932M
GND
•
LAST
L/R
SIN
LATCH
BEO
STB
CK
D16
D15
D14
D13
D12
D11
D10
D9
D8
D7
D6
D5
D4
D3
D2
D1
R201
LED ON/OFF signal from PNL is inputted
to the SIN (pin 26) terminal of IC1 through
LEDAT
LEDAT signal line. (Serial data)
•
The LED ON/OFF signal is inputted to IC1
in serial is outputted to output terminals of
D7
LP7
ON
(example)
D1 – D16 in parallel.
LP8
ON
ON
(example)
Condition of LED lighting
1 The transistor (Q2 or Q3) connected on the anode side of the LED is ON status.
2 Output connected on the cathode side of the LED is “L” level.
When the above conditions 1 and 2 are fulfilled, the LED lights.
Refer to the following names of the LED which are ON/OFF controlled by DSPON0/DSPON1 signals.
Nov. 1997 © TOSHIBA
5 - 11
3560/70 DISPLAY
Transmission
LP SIGNAL
DSP-ON-0
IC7932 LP SIGNAL
DSP-ON-1
IC7932
order
1
IC1-6
IC1-6
2
IC1-7
IC1-7
3
IC1-9
1 INT
Interrupt
IC1-9
4
1 P/3
Paper size
IC1-10
2 P/S
Energy saver
IC1-10
5
2 P/2
Paper size
IC1-11
3 TIMER
Timer
IC1-11
6
3 P/1
Paper size
IC1-12
4 PHOTO Photo mode
IC1-12
7
4 P/0
Paper size
IC1-14
5 AUTO
Auto exposure
IC1-14
8
5 P/USER
Paper size (User adjustment)
IC1-15
6 EXPO1
Exposure display1 (L MAX)
IC1-15
9
6 APS
Automatic paper selection
IC1-16
7 EXPO2
Exposure display2
IC1-16
10
7 0/3
Original size
IC1-17
8 EXPO3
Exposure display3
IC1-17
11
8 0/2
Original size
IC1-19
9 EXPO4
Exposure display4
IC1-19
12
9 0/1
Original size
IC1-20
10 EXPO5
Exposure display5
IC1-20
13
10 0/0
Original size
IC1-21
11 EXPO6
Exposure display6
IC1-21
14
11 0/USER
Original size (User adjustment)
IC1-22
12 EXPO7
Exposure display7
IC1-22
15
12 AMS
Automatic magnification selection
IC1-24
13 EXPO8
Exposure display8
IC1-24
16
13 FC
All clear
IC1-25
14 EXPO9
Exposure display9 (D MAX)
IC1-25
DSP-ON-0 signal is LED and IC on PWA-KEY1.
DSP-ON-1 signal is LED and IC on PWA-KEY2.
3560/70 DISPLAY
5 - 12
Nov. 1997 © TOSHIBA
6. DRIVE SYSTEM
The above item 6 is the same one as for the 2060/2860.
COSMOS
Texts from 6-1 in the 3560/70 Service Manual are the
same as texts from 6-1 to 6-6 in the 2060,2860/70
Service Manual.
Do you refer to the 2060,2860/70 Service Manual ?
OK
Nov. 1997 © TOSHIBA
Skip
6-1
Cancel
3560/70 DRIVE
7.
OPTICAL SYSTEM
The above item 7 is all the same as for the 2060/2860 except for 7.7.4 (because there were two rear
fans).
However, numbers of R, C, IC, etc. are changed (refer to the circuit diagram).
Example
2060/2860
3560/70
R51 (P7-8, 9)
R12
R55 (P7-8, 9)
R14
R58 (P7-8, 9)
R18
C24 (P7-8)
C10
IC15 (P7-8)
IC41
IC18 (P7-12)
IC21
IC19 (P7-12)
IC35
IC30 (P7-12)
IC37
J1-B13 (P7-14)
J1-B4
IC19 (P7-14)
IC35
IC30 (P7-14)
IC37
IC10 (P7-14)
IC18
IC19 (P7-16, 17)
IC35
IC18 (P7-16, 17)
IC21
COSMOS
Texts from 7-1 (except for 7.7.4) in the 3560/70
Service Manual are the same as texts from 7-1 to 735 in the 2060,2860/70 Service Manual.
Do you refer to the 2060,2860/70 Service Manual ?
OK
Nov. 1997 © TOSHIBA
Skip
7-1
Cancel
3560/70 OPTICAL
7.7.4
(1)
(2)
Optical fan (rear)
Remove the upper rear cover.
Remove the connectors (2) and the screws
(4).
Two optical fans can be removed together with
the COV-FAN-R.
Optical fan (rear)
COV-FAN-R
Connector
3560/70 OPTICAL
7-2
Nov. 1997 © TOSHIBA
8
PAPER FEEDING SECTION
The above item 8 is the same one as for the 2060/2860.
However, number of IC is changed (refer to the circuit diagram).
Example
2060/2860
3560/70
IC13 (P8-7)
IC9
IC12 (P8-7)
IC3
COSMOS
Texts from 8-1 in the 3560/70 Service Manual are the
same as texts from 8-1 to 8-15 in the 2060,2860/70
Service Manual.
Do you refer to the 2060,2860/70 Service Manual ?
OK
Nov. 1997 © TOSHIBA
Skip
8-1
Cancel
3560/70 FEEDER
9.
DRUM-RELATED SECTION
The above item 9 is the same one as for the 2060/2860.
However, number of IC is changed (refer to the circuit diagram).
Example
2060/2860
3560/70
IC30 (P9-15, 16)
IC37
IC19 (P9-15, 16)
IC35
IC40 (P9-15, 16)
IC46
IC18 (P9-16)
IC21
COSMOS
Texts from 9-1 in the 3560/70 Service Manual are the
same as texts from 9-1 to 9-16 in the 2060,2860/70
Service Manual.
Do you refer to the 2060,2860/70 Service Manual ?
OK
Nov. 1997 © TOSHIBA
Skip
9-1
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3560/70 DRUM
10. DEVELOPER UNIT
The above item 10 is all the same as for 2060/2860 except for the shape of the cartridge holder.
2060/2860
3560/3570
However, numbers of IC, R, Q, D, etc. are changed (refer to the circuit diagram).
Example
2060/2860
3560/70
Q3 (P10-14)
Q2
IC19 (P10-14)
IC35
Q8 (P10-14)
Q10
R21 (P10-14)
R157
R22 (P10-14)
R156
D3 (P10-14)
D2
IC40 (P10-15)
IC46
IC19 (P10-15)
IC35
IC30 (P10-15)
IC37
COSMOS
Texts from 10-1 in the 3560/70 Service Manual are
the same as texts from 10-1 to 10-15 in the 2060,2860/
70 Service Manual.
Do you refer to the 2060,2860/70 Service Manual ?
OK
Nov. 1997 © TOSHIBA
Skip
10 - 1
Cancel
3560/70 DEVELOPER
11. CLEANER UNIT
The above item 11 is all the same as for the 2060/2860 except that 11.4.3, 11.4.4 and 11.4.5 have been
changed due to the addition of separation claws and a separation claw solenoid.
Separation claw
When the drum has been removed
COSMOS
Texts from 11-1 (except for 11.4.3, 11.4.4 and 11.4.5)
in the 3560/70 Service Manual are the same as texts
from 11-1 to 11-6 in the 2060,2860/70 Service Manual.
Do you refer to the 2060,2860/70 Service Manual ?
OK
Nov. 1997 © TOSHIBA
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11 - 1
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3560/70 CLEANER
11.4.3
Recovery blade
(1) Turn the cleaner unit upside down.
(2) Remove the three separation claws (4 screws).
Refer to 11.4.4.
(3) Remove the recovery blade (2 screws).
Recovery blade
11.4.4
Separation claw
(1) Turn the cleaner unit upside down.
Spring
(2) Remove the spring.
(3) Remove the lever from the fitting sections of
Separation claw
the separation claw holders.
Lever
Separation
claw holder
(4) Remove the 4 screws and take out the separation claw with the holder.
3560/70 CLEANER
11 - 2
Nov. 1997 © TOSHIBA
(5) Remove the separation claw from its fitting.
Separation claw
Separation
claw holder
11.4.5
Block for charger output adjustment,
separation claw solenoid
(1) Remove cleaner unit.
(2) Remove inner cover (upper).
(3) Remove a screw and a connector.
Charger output adjustment block,
separation claw solenoid
Charger output adjustment block
Separation claw solenoid
Nov. 1997 © TOSHIBA
11 - 3
3560/70 CLEANER
12 FUSER UNIT/PAPER-EXIT UNIT
The above item 12 is the same one as for the 2060/2860.
However, numbers of R, IC, C, etc. are changed (refer to the circuit diagram).
Example
2060/2860
3560/70
R136 (P12-6)
R34
R86 (P12-6)
R24
R81 (P12-6)
R23
R66 (P12-6)
R22
C34 (P12-6)
C14
IC12 (P12-6)
IC35
COSMOS
Texts from 12-1 in the 3560/70 Service Manual are
the same as texts from 12-1 to 12-14 in the 2060,2860/
70 Service Manual.
Do you refer to the 2060,2860/70 Service Manual ?
OK
Nov. 1997 © TOSHIBA
Skip
12 - 1
Cancel
3560/70 FUSER
10C1
7D8
[TMOT-ON]
[RESET]
0.1/25
2
1
4
5
12C8
11C5
11B3
12D8
12C8
9A2
12D8
[DFACK]
[TFULSW]
[DEVSW]
[S-CNT]
[DF-CNT]
[SCP-SOL]
[SACK]
6
1/10W4.7K
*7
4.7K
RR10
VDD
D[0:15]
RR9
7
13 - 1
0.1/25
GND
*6
VDD
IC32
2
1
1
2
2
1
VDD
GND
2
2
1
1000P/50
*2
C89
D15
3
2
2
1
D15
D14
D13
D12
D11
D10
D9
D8
D7
D6
D5
D4
D3
2
1
2
1
143
144
118
92
74
57
37
5
132
108
83
48
18
91
90
89
88
87
86
85
84
82
81
80
79
78
[AVSS]
[AVCC]
[DVSS]
[DVSS]
[DVSS]
[DVSS]
[DVSS]
[DVSS]
[DVCC]
[DVCC]
[DVCC]
[DVCC]
[DVCC]
D15/P17
D14/P16
D13/P15
D12/P14
D11/P13
D10/P12
D9/P11
D8/P10
D7
D6
D5
D4
D3
D2
D1
D0
A23/P27
A22/P26
A21/P25
A20/P24
A19/P23
A18/P22
A17/P21
A16/P20
A15
A14
A13
A12
A11
A10
A9
A8
A7
A6
1
A4
A5
A6
A7
A8
A9
A10
A11
A12
A13
A14
A15
A16
A17
A18
113
112
111
110
109
107
106
105
104
103
102
101
100
99
98
93
94
95
96
GND
2
A3
114
C28
1000P/50
VDD
VDD
A2
115
97
A1
116
2 1/10W4.7K
2 1/10W22K
R52 1
R51 1
2 1/10W4.7K
2 1/10W22K
R58 1
*2
R57 1
1
R83 1
R119
1 R69
1 R90
2
2
CRG1SW
*4
1 R68
2
1/10W4.7K
1 R67
2
APS2
APS1
APS0
24VCHK
2
2
DFREQ
TXRDY2
IPCSW
FANCHG0
E-FAN
B-FAN
EXP-ON
WDTEN
MRR-D
A[0:18]
MRR-C
MRR-B
MRR-A
LNS-D
LNS-C
LNS-B
R20
1
2 HTRTH21/10W22K
LNS-A
1/10W4.7K
VDD
[AESIN]
[DRMTH]
12B8
11B8
VDD
2
[MRR-A]
[MRR-B]
[MRR-C]
[MRR-D]
[A[0:18]]
9A6
9A6
9B6
9B6
2D3
2E2
6B2
8D5
[E-FAN]
[FANCHG0]
[IPCSW]
[TXRDY2]
[DFREQ]
9C2
9D2
13D8
2A4
12C8
9B2
[WDTEN]
[LNS-D]
9C6
[EXP-ON]
[B-FAN]
[LNS-C]
9C6
2E2
[LNS-B]
9C6
7B1
[HTRTH2-]
[LNS-A]
[APS2]
12A8
[CRG1SW]
[APS1]
12A8
8D1
12A3
9C6
[APS0]
12A8
11B5
[24VCHK]
7E8
7
D14
D13
D12
D11
D10
D9
D8
D7
D6
D5
D4
D3
D2
D1
D0
PMOT-REF
2
[HC132]
&
3300P/50
6B2
2
2
1
1
1
C57
[D[0:15]]
1
R88 1
R239
2
2
2
C18
13C5
1
R39 1
1
R241
77
76
75
A5
A4
A3
A2
A0
117
1
D2
D1
D0
P97/TO7
P96/TI6
P95/TO5
A1
A0
R15
R158
2
2
31
30
29
P94/TI4
P93/TO3
P92/TI2
119
120
121
1/10W2.2K
R64 1
R43 1
2
*6
1
1/10W22K
R233
28
27
26
PE7
PE6
1
[PMOT-REF]
SCP-SOL
2
2
2
P91/TO1
P90/TI0
02CZ5.1Y
SACK
1
1
R40 1
R235
R154
25
24
122
123
124
1/10W3.3K
DF-CNT
S-CNT
DEVSW
TFULSW
2
PE5
PE4
PE3
PE2
PE1
0.1/25
2
P87/INT3
P86/INT2
P85/INT1
P84/INT0
[HTRTH-]
8E1
12A3
[ATSIN]
[HTRDY]
2A2
[FMOT-REF]
[TXRDY0]
11D2
11D4
[PACK]
8E5
8E5
[MMOT-REF]
[HTRDY2]
11C5
[SREQ]
[PDWNCHK]
[DFRXD]
7D8
[SRXD]
12D8
12D8
12C8
1
2 2
1 1
02CZ5.1Y
0.1/25
R63 1
R44 1
47
46
45
125
126
[MREQ-DF]
0.1/25
DFACK
UARTINT2
1/10W820
PE0
A
P83/NMI2
2
K
44
1
43
[MACK-DF]
12C8
12C8
A
UARTINT1
2
[DFTXD]
12C8
2
K
UARTINT0
1
2
2
R73 1
128
R91 1
1/10W22K *4
2
R72 1
127
2
R71 1
[MREQ-S]
12D8
ATSIN
8A8
(R15) (R16) (R17)
1/10W6.8K
*3
1/10W22K
(R48)
1/10W2.2K
(R66)
DRMTH
AESIN
HTRTH-
[MACK-S]
12D8
1
ZCINT
R105
P82/WAIT
1
2
1/10W4.7K
R22 1
2
1/10W22K
FMOT-REF
HTRDY
TXRDY0
PACK
HTRDY2
MMOT-REF
PDWNCHK
SREQ
DFRXD
SRXD
1/10W4.7K
*4
1000P/50
2200P/50
1000P/50
C90
C53
2
8
MACK-DF
DFTXD
6 MREQ-DF
2
MREQ-S
MACK-S
[WDTOUT]
[RD]
[STXD]
[WR]
[MMOT-BRK]
12D8
11C5
2E1
6D2
8E5
2E1
6D2
8E5
7B1
R19
DCM-D
34
C17
R47
12
1
1/10W22K
R41
IC29
1
129
IC18
2
1/10W4.7K
[N07]
9
R98
1
R17
130
131
140
139
138
137
136
135
134
133
1
PD4
PD3
PD2
PD1
PD0
PC7
PC6
PC5
PC4
PC3
PC2
PC1
PC0
13
[N07]
2
2
R37 1
1
2
R234
1/10W22K
*3
R236
1
R66
P81/SCOUT
P80/BS
P77/PG13
P76/PG12
P75/PG11
P74/PG10
P73/PG03
P72/PG02
P71/PG01
P70/PG00
P67
P66
P65
13
12
11
10
9
8
7
6
22
21
20
19
17
16
15
14
42
4
3
R16
33
32
56
55
54
53
52
51
50
49
58
59
PB7
PB6
PB5
PB4
PB3
PB2
PB1
PB0
PA7/SCLK1
PA6/CTS1
PA5/RXD1
PA4/TXD1
PA3/SCLK0
PA2/CTS0
PA1/RXD0
PA0/TXD0
WDTOUT
DAOUT1
73
IC29
[N07]
IC29
[N07]
10
STXD
WDTOUT
RD
WR
MMOT-BRK
R65
D14
DCM-C
11
P64
P63
RD
DAOUT0
4
VDD
5
1
IC33
[N07]
A2
A1
C36
DCM-B
DCM-A
IC18
[N07]
60
61
62
P62
P61
P60
P57
P56
P55
P54
P53
P52
VREFH
VREFL
DAREFH
DAREFL
AM8/16
NMI
EA
X2
IC29
[N07]
8
12
11
K
C13
D13
C24
VDD
2A4
[UARTINT2]
RGT-D
RGT-C
2A3
10D5
[RGT-D]
[UARTINT1]
10C5
[RGT-C]
RGT-B
RGT-A
2A2
10D5
[RGT-B]
12D5
10C5
[RGT-A]
SCN-D
[ZCINT]
10B5
[SCN-D]
SCN-C
SCN-B
[UARTINT0]
10A5
[SCN-C]
10
*3
2
63
64
65
66
67
68
69
70
71
141
142
1
2
35
23
40
39
72
36
3
IC33
1
9D6
10B5
[SCN-B]
SCN-A
1
R137
2
2
RR11
4.7K
2 3 4 5
1
VDD
WR
CLK
1 R84
2
13
[N07]
IC33
[N07]
D15
1SS184
8
2
[DCM-D]
10A5
[SCN-A]
BZON
1
R135
1/10W4.7K
1
R122
RM1
4.7K
VDD
2 3 4 5
1
VDD
X1
RESET
1 R79
2
*3
1 R78
2
2
9D6
11C3
[BZON]
2
20M
1
38
41
[U95C063]
IC35
1/10W4.7K
[MMOT-DIR]
11C5
9
IC30
[HC14]
C41
0.1/25
9
R48
[DCM-C]
10D1
[RST-SW]
RST-SW
RGTDEV
1
X1
1/10W470
2
[XD]
2
6 MMOT-DIR
[MMOT-OFF]
11C5
GND
2
1
R80
1
2
1/10W470K
10
2
9D6
9D2
[RGTDEV]
CS1
VDD
R77
3
1
2
1
GND
C38
2200P/50
IC14
10 MMOT-OFF
12
IC30
[HC14]
2
[DCM-B]
2E1
[CS1]
CS2
CS0
2
1/10W4.7K
R75 1
5
[N07]
IC29
[N07]
IC29
[N07]
11
2
9D6
6D2
G/A-WR
*2
2
1
RESET
TMOT-ON
ERS-ON
SSR-SW
11
13
IC30
12
VDD
[DCM-A]
2E1
[CS0]
[CS2]
[G/A-WR] 2E1 8A5
GND
VDD
10A1
R76
1/10W1M
12A3
[SSR-SW]
[ERS-ON]
RN2401
C
B
Q7
E
+5VSW
1/10W4.7K
[HC14]
VDD
13
R242
1
2
2
A
6
1
3
5
1
4
2 3 4 5 6 7 8 9
3
2 3 4 5 6 7 8 9
C27
1 1
F
1
Nov. 1997 © TOSHIBA
2
R38
1
2
1
C70
2 2
E
2
D
R42
2
1
C
R240
1
2
B
2
GND
1
GND
R81 1
HINT
How to search for where a signal in a
circuit diagram has jumped to.
13. ELECTRIC CIRCUIT DIAGRAM
13.1 Logic Circuit (PWA-LGC) 1/13
8
A
B
C
C29
C30
C40
C39
D
C92
C91
E
4.7K
F
1
13
3560/70 CIRCUIT DIAGRAMS
1
2
3
4
5
8
APSF
EXTSW
12B8
11E4
[APST]
[FPLL-OK]
RR7
4.7K/22K
6
3B1
11B5
[EXTSW]
4
APSC
[PFACK]
12A8
[APSF]
2
APSR
3C1
12A8
[APSC]
8
LNSSW
[PSTPR]
12B8
[APSR]
6
MRRSW
RR8
4.7K/22K
4
MPLL-OK
13B8
11B8
[LNSSW]
2
PLTNSW
[PC-CNT]
11B8
[MRRSW]
8
CTR-CNT
6
VDD
GND
2
VDD
GND
1
JP1
R74
2
174
175
A12
A13
A14
1/10W4.7K
1/10W22K
R82
1
2
1/10W4.7K
[DEL]
VDD
[D[0:7]] 6B2
R249 1
1/10W100
145
146
147
148
D4
D5
D6
D7
GND
2
143
D3
C93
1000P/50
142
D2
16
15
14
13
11
10
9
8
6
5
4
3
206
205
204
203
141
D1
197
196
195
194
193
192
166
165
164
163
154
153
152
151
150
66
65
64
63
62
61
60
59
58
50
49
48
140
1
2
2
2
2
D0
2
R95
1
1/10W470
D[0:7]
2
*3
1
1/10W22K
R163
1
R250
2
1
R251
1
1
R252
R109
1
R253
1
2
1
R254
R129
2
1
R255
2
1
R256
2
173
A11
GND
172
A10
47
171
2
170
167
A9
96
83
169
2
2
168
R93
1
2
R86
2
1
1
R133
A2
[JPC]
1
2
1/10W22K
1
R70
1/10W4.7K
1/10W470
1/10W4.7K
R132
2
1
1/10W1M
R164
1
2
1/10W4.7K
R131
1
2
1
R127
2
71
111
1
R126
2
1
R138
*5
46
45
28
25
30
136
9
29
19
18
55
1/10W4.7K
R134 1
2
IC27
GND
56
160
A[0:3],A[9:14]
A0
[A[0:3],A[9:14]] 1A7
A1
8
[N07]
2 1/10W470
161
O37
O36
O35
O34
O33
O32
O31
O30
O27
O26
O25
O24
O23
O22
O21
O20
O17
O16
O15
O14
O13
O12
O11
O10
O07
O06
O05
O04
O03
O02
O01
O00
Y3B
Y2B
Y1B
Y0B
TXRD2
RXRD2
TXD2
RXD2
RTS2
DSR2
DTR2
CTS2
UARTINT2
TXRD1
RXRD1
TXD1
RXD1
RTS1
DSR1
DTR1
CTS1
UARTINT1
TXRD0
RXRD0
TXD0
RXD0
RTS0
DSR0
DTR0
CTS0
UARTINT0
DSPLTH
DSPDAT
DSON1
DSON0
DALTH
DADAT
LELTH
LEDAT
TO1
CSIPC1
VDD;27,53,67,78
VDD;104,130,157
VDD;183,198,208
GND;1,2,7,12,17
GND;26,37,44,51
GND;52,57,79,88,97
GND;105,106,112,121
GND;131,139,144,149
GND;155,156,159,162
GND;176,182,191,202
IO17
IO16
IO15
IO14
IO13
IO12
IO11
IO10
IO07
IO06
IO05
IO04
IO03
IO02
IO01
IO00
DT7
DT6
DT5
DT4
DT3
DT2
DT1
DT0
IN32
IN31
IN30
IN27
IN26
IN25
IN24
IN23
IN22
IN21
IN20
IN17
IN16
IN15
IN14
IN33
IN13
IN12
IN11
IN10
IN07
IN06
IN05
IN04
IN03
IN02
IN01
IN00
ADRS14
ADRS13
ADRS12
ADRS11
ADRS10
ADRS9
ADRS2
ADRS1
ADRS0
UTEST2
UTEST1
UTEST0
TEST2
TE01
INVO
INVI
MULTD1
MULTD0
MULTY
MULTA
DECOB
DECOA
X2O
X1I
X2
X1
RD
CSIPC0
CSRAM1
CSRAM0
WRRAM
PWM
SCK
135
134
133
132
129
128
127
126
125
124
123
122
120
119
118
117
116
115
114
113
110
109
108
107
92
91
90
89
87
86
85
84
24
23
22
IC14
[N07]
1
2
GND
IC12
[N07]
IC12
[N07]
2
IC22
2
3
13
11
1
9
11
IC31
[N07]
IC31
[N07]
IC31
[N07]
IC31
[N07]
IC27
[N07]
IC27
[N07]
1/10W100
*2
IC22
1/10W22K *2
R110 1
2
[N07]
5
1/10W470
R106 1
12
9
5
*3 [N07]
3
R170
1
2
13
R167
1
2
11
R166
1
2
2
1/10W22K
1
R123
1/10W470
13
1 1 C94
1000P/50
2 2
R62 1
R128
C95
21
75
76
72
95
74
93
73
94
77
41
42
38
82
40
80
39
81
43
34
35
31
70
33
68
32
69
36
181
184
180
179
186
187
177
178
190
101
100
99
98
188
189
4
12
10
2
1
5
3
1
13
1
11
9
11
5
8
10
6
4
12
10
IC18
[N07]
IC18
[N07]
IC14
[N07]
IC33
[N07]
IC33
[N07]
IC33
[N07]
IC22
[N07]
IC22
[N07]
IC22
[N07]
IC22
[N07]
CS11
TXRDY2
PTXD
PRXD
PREQ
ERROR
2
6
4
2
RMS7
RMS6
RMS5
RMS4
RMS3
RMS2
RMS1
RMS0
OPT-FAN1
OPT-FAN0
FANCHG1
12 A3DTCT
2
10 MACK-P
8 MREQ-P
10 ZMDTCT
6 MERR-P
ASST-CLT
RSTRT
MACK-PF
MREQ-PF
ACC-FAN
FMOT-DIR
CTR-ON
HVT-M
HVT-AC
HVT-DC
HVT-PRE
FMOT-BRK
FMOT-ONA
R108 1
2
1/10W4.7K
IC14
PCTXD
PCRXD
UARTINT2
VDD
R107 1
2
1/10W4.7K
IC31
PCDSR
PCDTR
PCCTS
PCRTS
VDD
R169 1
2
1/10W4.7K
[N07]
TXRDY0
PFTXD
PFRXD
PFREQ
UARTINT1
R168 1
2
1/10W4.7K
[N07]
DALTH
DADAT
LELTH
LEDAT
CSIPC0
CSRAM0
WRRAM
[CSRAM0]
[CSIPC0]
8E5
[LELTH]
[DADAT]
[DALTH]
[UARTINT0]
[PFREQ]
[PFRXD]
[PFTXD]
[TXRDY0]
[UARTINT1]
[PCCTS]
[PCDTR]
[PCDSR]
[PCRTS]
[PCRXD]
[PCTXD]
[UARTINT2]
[PREQ]
[PRXD]
[PTXD]
[TXRDY2]
[CS11]
[FMOT-ONA]
[FMOT-BRK]
[HVT-PRE]
[HVT-DC]
[HVT-AC]
[HVT-M]
[CTR-ON]
[FMOT-DIR]
[ACC-FAN]
[MREQ-PF]
[MACK-PF]
[RSTRT]
[ASST-CLT]
[MERR-P]
[ZMDTCT]
[MREQ-P]
[MACK-P]
[ERROR]
[A3DTCT]
[FANCHG1]
[OPT-FAN0]
[OPT-FAN1]
[RMS0]
[RMS1]
[RMS2]
[RMS3]
[RMS4]
[RMS5]
[RMS6]
[RMS7]
8A1
8A1
1E5
3B1
3B1
3B1
1A4
1E5
13B8
13B8
13B8
13B8
13B8
13B8
1E5
11D2
11D2
11E2
1A8
6D2
9E2
11E4
9E2
9E2
9E2
9E2
9C2
11E4
9C2
3C1
3B1
3C1
9C1
11E2
13A8
11E2
11E2
13A8
13A8
9A2
9A2
9A2
13D5
13D5
13D5
13D5
13C5
13C5
13C5
13C5
[LEDAT]
[WRRAM]
6D2
11A5
[EXPPWM]
6D2
[DACLK]
[LECLK]
11B5
8A1
11A5
VDD
11A5
1 R45
EXPPWM
2
UARTINT0
R165 1
2
1/10W4.7K
8
6
1/10W4.7K
DACLK
LECLK
6
FPLL-OK
APST
VDD
R130
1
2
2
1/10W470
1
1
2
1
RW
WR
CSI0
ENB
EN0
RST
2
5
1/10W4.7K
R160
1
2
VDD
PFACK
PSTPR
PC-CNT
PERR
9
7
5
3
1
9
7
5
3
1
9
7
5
3
1
VDD
EXP-ONI
VDD
R120
R121
C46
2200P/50
200
138
199
102
20
137
IC31
4
11D2
11C5
[MPLL-OK]
6
ENABLE
RR3
4.7K/22K
4
SORT-SW
7A1
EXP-ON
FDCLTAD
FDCLT-AD
STCLTAD
A17
A16
RD
G/A-WR
WR
CS0
CS1
1
185
3
[PERR]
11B8
13A8
[PLTNSW]
13A8
11A3
[ENABLE]
[CTR-CNT]
2
PSTPCO
[EXP-ONI]
1A7
3B8
[FDCLTAD]
[EXP-ON]
13B3
3B8
1A7
1A7
1A1
1F3
1A1
1F3
1F4
[FDCLT-AD]
[STCLTAD]
[A17]
[A16]
[RD]
[G/A-WR]
[WR]
[CS0]
[CS1]
GND
12A3
12B3
1
R136
201
2
[SORT-SW]
3B1
GND
8M 2
X2
GARST
D
VDD
3560/70 CIRCUIT DIAGRAMS
[XD]
E
7D8
2 1/10W4.7K
2 1/10W4.7K
C
[PSTPCO]
3
[GARST]
R94 1
[N07]
A
GND
F
R96
1/10W1M
2
1
B
1
1
GND
ASIC
[GC2XB]
IC21
HINT
How to search for where a signal in a
circuit diagram has jumped to.
Logic Circuit (PWA-LGC) 2/13
7
8
A
7
13 - 2
B
C
D
E
F
2
13
Nov. 1997 © TOSHIBA
HINT
How to search for where a signal in a
circuit diagram has jumped to.
Logic Circuit (PWA-LGC) 3/13
1
2
3
4
5
6
7
8
VDD
RR4
56
2F3
2
2
2
2
1
1
PSTPCO
2A2
PFTXD
57
[PFACK]
2E5
PFACK
58
[PFRXD]
2A2
PFRXD
59
[MACK-PF]
2A5
MACK-PF
60
[PFREQ]
2A2
PFREQ
[PFTXD]
61
62
[N07]
B
[AMOT-OFF] 13B3
4
AMOT-OFF
3
IC14
[SIZE[0:3]]
5C8
SIZE[0:3]
R149
1
63
SIZE0
3
SIZE1
4
SIZE2
5
SIZE3
6
2
7
1/10W22K
8
[AD-CNT] 13A3
AD-CNT
[24VCHK]
7E8
24VCHK
[RSTRT]
2A6
RSTRT
17
MREQ-PF
18
[MREQ-PF]
2A5
19
[PSTPR]
2E5
20
PSTPR
C
P04/D4
CLR
P30/RXD
P31/RXD
P05/D5
P06/D6
P07/D7
P32/TXD
P10/A0
P33/TXD
P11/A1
P34/CTS
P12/A2
P35/RD
P13/A3
P36/WR
P14/A4
P37/WAIT
P15/A5
P50/AN0
P16/A6
P51/AN1
P17/A7
P52/AN2
P20/A8
P53/AN3
P21/A9
P54/AN4
P22/A10
P55/AN5
P23/A11
P80/INT0
P24/A12
P81/INT1
P25/A13
P82/INT2
P26/A14
P83/TO34
P27/A15
P40/A16
1
C52
P03/D3
EA
2200P/50
2
P41/A17
GND
P42/A18
P43/A19
GND
DRV-1
26
DRV-2
27
DRV-3
28
DRV-4
29
DRV-5
30
RETS0
36
RETS1
37
RETS2
38
RETS3
39
RETS4
40
RETS5
41
RETS6
42
RETS7
P62/M02
P63/M03
P70/M10
P71/M11
P72/M12
P73/M13
[DRV-[0:7]]
1/10W4.7K
*4
DRV-7
35
STCLTAD
2E2
[STCLTAD]
STCLT-AD
13B3
[STCLT-AD]
STSOL-AD
13B3
[STSOL-AD]
2E2
[FDCLTAD]
13B3
[AMOT-BRK]
[N07]
13
12
IC13
[N07]
B
11
10
IC13
FDCLTAD
[N07]
13
43
44
12
AMOT-BRK
IC27
45
CLK-A
4A1
[CLK-A]
46
CLK-B
4C1
[CLK-B]
CLK-C
13A5
[CLK-C]
CLK-D
13A5
[CLK-D]
47
[N07]
3
48
49
4
IC18
[N07]
9
50
51
8
IC14
C
52
RGCLT-CU
4C1
9D1
[RGCLT-CU]
53
54
[N07]
1
9
P60/M00
P61/M01
DRV-6
31
4E1
VDD
1 R113
2 1/10W22K
NMI
25
DRV-[0:7]
1 R114
R33 1
P02/D2
DRV-0
2
[PSTPCO]
PFCRST
22
P01/D1
X2
A
2 3 4 5 9 8 7 6
24
2
55
X1
23
1 R111
2 1/10W4.7K
2 1/10W4.7K
1
CK
P00/D0
1 R112
21
R97 1
IC20
AGND
2
34
VREF
2
X3
7D8
2
1 R124
1 R125
1 R118
2 R151
1 R162
2 R31
[PFCRST]
1
33
R161
4.7K
M-CONT
[U91C640]
GND
1
R92
1/10W1M
*6
1
1/10W4.7K
[XD]
2
VDD
A
2 12M
3
1
[SKT]
VDD
10
2
IC13
3
11
12
14
13B3
[ENDM-B]
ENDM-C
13B3
[ENDM-C]
ENDM-D
13B3
[ENDM-D]
SIDM-A
13A3
[SIDM-A]
SIDM-B
13A3
[SIDM-B]
SIDM-C
13A3
[SIDM-C]
SIDM-D
13A3
[SIDM-D]
15
SCSW-A
5F1
[SCSW-A]
14
SCSW-B
5F1
[SCSW-B]
13
SCSW-C
13B5
[SCSW-C]
12
SCSW-D
13B5
[SCSW-D]
11
SCSW-E
5A1
13B5 [SCSW-E]
IC13
[N07]
9
15
8
IC13
[N07]
1
2
IC12
[N07]
3
4
D
IC12
[N07]
D
[ENDM-A]
6
IC13
16
13B3
ENDM-B
4
[N07]
5
13
ENDM-A
[N07]
5
6
IC12
[N07]
9
8
IC12
1/10W4.7K
[RETS[0:7]]
5D8
RETS[0:7]
2
VDD
*3
1 R117
2
1 R116
2
1 R115
BIN/OCT
[HC138A]
IC15
1
2
3
VDD
E
R171
1
2
6
R172
1
2
4
GND
0
2
1
4
2
3
&
4
EN
5
1/10W470
1
5
6
*2
7
10
E
9
7
F
F
3
1
Nov. 1997 © TOSHIBA
2
3
4
5
6
7
13 - 3
13
3560/70 CIRCUIT DIAGRAMS
HINT
How to search for where a signal in a
circuit diagram has jumped to.
Logic Circuit (PWA-LGC) 4/13
1
3
2
4
5
6
7
8
VDD
R
11
1
C82
2200P/50
2
[DEL]
GND
C1
DRV-0
3
2
R244
1
DRV-1
4
5
R243
1
DRV-2
7
6
R89 1
DRV-3
8
9
R2 1
DRV-4
13
12
DRV-5
14
15
DRV-6
17
16
DRV-7
18
1D
D19
A2
CLK-A
D20
A1
3B8
K
[CLK-A]
1SS184
A
[HC273]
IC5
1
A1
7D8
R216
1
2
1/10W4.7K
A2
[PFCRST]
PFCRST
K
1SS184
A
2 1/10W100
2 1/10W100
TRMLC-A
13C3
[TRMLC-A]
TRMLC-B
13C3
[TRMLC-B]
2 1/10W100
2 1/10W100
FDMLC-A
13C3
[FDMLC-A]
FDMLC-B
13C3
[FDMLC-B]
9D2
[FDCLT-SF]
FDCLT-SF
1SS184
1SS184
K
K
1SS184
K
19
K
1SS184
B
B
D22
A1
A2
A1
A2
A1
A2
A1
A2
D23
D24
D21
GND
[HC273]
IC6
1
[CLK-B]
3C8
R
11
CLK-B
C
24V
C1
2
TRMCU-A
1
4
5
TRMCU-B
2
DRV-2
7
6
TRMCL-A
7
DRV-3
8
9
TRMCL-B
DRV-4
13
12
FDCLT-CU
DRV-5
14
15
FDCLT-CL
DRV-6
17
16
RGCLT-CL
DRV-7
18
19
DRV-0
3
DRV-1
1D
1
C2
[AZ8428]
IC9
OUTA1
IN1
IN2
10/50
1
2
C1
RGCLT-CU
IN2
10/50
19
DRV-0
D
DRV-1
[DRV-[0:7]]
3A8
1
DRV-[0:7]
GND
3
TRMCLB
12C5
[TRMCLB]
5
TRMCLA
12C5
[TRMCLA]
[GND]
0.1/50
DG
24V
EN2
2
OUTA0
2
[HC244]
IC7
EN1
1
[TRMCUA]
[VCC]
4
C78
2
R228
1/10W470
1
2
[TRMCUB]
12B5
C
[AZ8428]
IC3
IN1 OUTA1
0.1/50
1
3C8
12B5
TRMCUA
2
7
[RGCLT-CU]
TRMCUB
5
[GND]
C77
2
3
[VCC]
4
1
OUTA0
1
4
18
DRV0
13A5
[DRV0]
16
DRV1
13A5
[DRV1]
DRV-2
6
14
DRV2
13A5
[DRV2]
DRV-3
8
12
DRV3
13A5
[DRV3]
DRV-4
11
9
DRV4
13A5
[DRV4]
DRV-5
13
7
DRV-6
15
5
DRV-7
17
3
2
DRV5
13A5
DRV6
13A5
DRV7
13A5
[I62308FS]
IC2
CLAMP
+5VSW
CLAMP
3
[DRV5]
[DRV6]
2
FEDCLTCU
12B5
[FEDCLTCU]
6
7
FEDCLTCL
12C5
[FEDCLTCL]
10
RGTCLTCU
12C5
[RGTCLTCU]
14
15
RGTCLTCL
12D5
[RGTCLTCL]
[VCC]
8
[VCC]
4
[GND]
5
1
C76
0.1/25
E
1
C75
0.1/50
2
[GND]
12
[GND]
13
2
9
11
1
[DRV7]
D
16
[GND]
17
DG
[FIN]
18
E
[FIN]
GND DG
F
F
4
1
3560/70 CIRCUIT DIAGRAMS
2
3
4
5
6
7
13 - 4
13
Nov. 1997 © TOSHIBA
HINT
How to search for where a signal in a
circuit diagram has jumped to.
Logic Circuit (PWA-LGC) 5/13
1
A
2
[SCSW-E]
3E8
3
4
5
1
SCSW-E
19
[PJAM1AD] 13A3
PJAM1AD
R231
1
2
ENDSW
R179
1
2
8
SIDSW
R178
1
2
11
APLL-OK
R229
1
2
13
7
15
5
17
3
[SIDSW] 13A3
[APLL-OK] 13B3
1/10W22K
2
*5
VDD
SIZCU0
2
[SIZCU1] 12A5
SIZCU1
4
[SIZCU2] 12A5
SIZCU2
6
RR1
B
[SIZCU3] 12A5
[SIZCL1] 12B5
SIZCL1
4
[SIZCL2] 12B5
SIZCL2
6
[SIZCL0] 12C5
1
2 1/10W470
R225
1
2 1/10W470
2 1/10W4.7K
1
R223
1
R219
1
2 1/10W4.7K
2 1/10W4.7K
2 1/10W4.7K
2 1/10W4.7K
1
2 1/10W4.7K
[SIZE-3]
13B5
SIZE-3
R221
1
[SIZE-2]
13B5
SIZE-2
R217
1
R237
1
2 1/10W4.7K
2 1/10W4.7K
[SIZE-1]
SIZE-1
R224
1
1
[SIZE-0]
13B5
SIZE-0
R220
1
R238
1
2 1/10W470
2 1/10W4.7K
13B5
R227
1
B
2 1/10W22K
2 1/10W22K
2 1/10W22K
2 1/10W22K
VDD
RR2
1
1
19
R209
EN2
18
SIZE0
4
16
SIZE1
6
14
SIZE2
12
SIZE3
1
8
11
1
7
15
5
17
3
1
2
1
2
R202
1
2
R186
1
2
R195
1
2
R194
1
2
1
R28 1
2
19
R26 1
[PSTPCU]
12B3
PSTPCU
[PEMPCU]
12A5
PEMPCU
[TUPCU]
12A5
TUPCU
[UCOVDOR]
12B5
UCOVDOR
[PEMPLC]
13C3
PEMPLC
R248
1
2
[TUPLC]
13C3
TUPLC
R247
1
[TDWNLC]
13C3
TDWNLC
R246
1
[LCDOR]
13C3
LCDOR
R245
1
R193
2
RR5
VDD
3
[HC244]
IC4
EN1
[RETS-1]
13B5
RETS-1
4
[RETS-2]
13B5
RETS-2
6
[RETS-3]
13B5
RETS-3
8
5
EN2
2
2
2
4
16
1
7
18
1
2
6
14
1
2
8
12
R200
1
2
11
9
RETS0
2
R199
1
2
13
7
RETS1
2
R205
1
2
15
5
RETS2
2
R206
1
2
17
3
2
2
2
9
4.7K/22K
1/10W22K
*8
2 1000P/50
*3
19
GND
[PSTPCL]
12B5
PSTPCL
R189
1
2 1/10W22K
[PEMPCL]
12C5
PEMPCL
R208
1
12C5
TUPCL
R207
1
2 1/10W22K
2 1/10W22K
R214
11
2
13C5
RETS-4
2
RR6
[RETS-5]
13C5
RETS-5
4
[RETS-6]
13C5
RETS-6
6
[RETS-7]
13C5
RETS-7
8
5
EN2
4
16
6
14
8
12
1
7
18
2
9
4.7K/22K
13C3
LC-CNT
1
9
RETS4
[LC-KEY]
13C3
LC-KEY
R213
1
7
RETS5
[LCF4000]
13C3
R198
1
2 1/10W22K
2 1/10W22K
13
LCF4000
15
5
RETS6
[SFBSW]
11C3
SFBSW
R159
1
2 1/10W22K
17
3
RETS7
SCSW-A
[SCSW-B]
3E8
SCSW-B
D
1
[LC-CNT]
3E8
[RETS[0:7]]
3
[HC244]
IC10
EN1
2 1/10W22K
[SCSW-A]
3D1
RETS3
[RETS-4]
1
1/10W4.7K
RETS[0:7]
VDD
1
C96
2
1
1
1
C97
*4
[SIZE[0:3]]
1
R188
C99
0.1/25
1
RETS-0
13B5
R196
C98
1/10W10K
1
3B1
C
[RETS-0]
*8
SIZE[0:3]
9
13
R197
1/10W4.7K
2
2
R204
R187
[HC244]
IC8
EN1
2
8
VDD
1
1
9
E
R222
R218
R184
4.7K/22K
[TUPCL]
VDD
R230
7
SIZCL3
9
R185
5
[SIZCL3] 12B5
12
2
R226
3
C
14
7
4.7K/22K
2
16
6
5
9
SIZCL0
1
4
1
8
SIZCU3
18
VDD
[SIZCU0] 12A5
3
D
A
PEMPAD
[ENDSW] 13A3
8
EN2
[PEMPAD] 13A3
2
7
[HC244]
IC11
EN1
R232
1
6
2
E
2 1/10W4.7K
2 1/10W4.7K
R155
1
R201
1
R210
1
R215
1
R203
1
R211
1
2 1/10W470
2 1/10W4.7K
R212
1
2 1/10W4.7K
2 1/10W4.7K
2 1/10W4.7K
F
F
5
1
Nov. 1997 © TOSHIBA
2
3
4
5
6
7
13 - 5
13
3560/70 CIRCUIT DIAGRAMS
HINT
How to search for where a signal in a
circuit diagram has jumped to.
Logic Circuit (PWA-LGC) 6/13
1
3
2
4
5
6
7
8
A
A
[A[0:18]]
[D[0:15]] 1E7
2D6
1A7
8C5
A[0:18]
D[0:15]
[SKT]
SRAM8KX8
TIMEKEEPER
[M48T58]
IC37
0
B
C
A0
10
A1
9
A2
8
A3
7
A4
6
A5
5
A6
4
A7
3
A8
25
A9
24
A10
21
A11
23
A12
VDD
21
A2
22
A3
23
A4
24
A5
25
A6
26
A7
27
A8
28
A9
29
9
A10
31
10
A11
32
11
A12
33
12
A13
34
W
A14
35
G
A15
36
E1
A16
37
A17
38
A18
39
2
B2
3
B3
4
B4
5
B5
A
0
8191
8
22
20
26
1
1
A1
B1
7
2
FT
1
6
27
[SKT]
EPROM 256KX16
[M27C4002]
IC36
VDD
E2
B6
B7
B8
11
D0
12
D1
13
D2
15
D3
16
D4
17
D5
18
D6
19
D7
70
20
2
D
[WRRAM]
2A1
WRRAM
[CSRAM0]
2A1
CSRAM0
[RD]
1A1
RD
[CS2]
[WR]
1F3
[CS11]
B
SRAM32KX8
[M71256]
IC40
VPP
O1
0
O2
1
O3
2
O4
3
O5
4
O6
5
O7
6
O8
7
8
9
O9
A
0
262143
10
O10
O11
O12
11
O13
12
O14
13
O15
14
O16
19
D0
A0
10
18
D1
A1
9
17
D2
A2
8
16
D3
A3
7
A4
6
A5
5
A6
4
A7
3
15
14
13
12
D4
D5
D6
D7
10
D8
A8
25
9
D9
A9
24
8
D10
A10
21
7
D11
A11
23
6
D12
A12
2
5
D13
A13
26
4
D14
A14
1
3
D15
27
22
15
20
16
0
O0
1
O1
2
O2
3
O3
4
O4
5
O5
6
7
8
A
0
32767
O6
O7
11
D0
12
D1
13
D2
15
D3
16
D4
17
D5
18
D6
19
D7
9
C
10
11
12
13
14
WE
OE
CS
20
17
OE
CE
100
CS2
1A1
WR
2A4
CS11
D
E
E
F
F
6
1
3560/70 CIRCUIT DIAGRAMS
2
3
4
5
6
7
13 - 6
13
Nov. 1997 © TOSHIBA
HINT
How to search for where a signal in a
circuit diagram has jumped to.
Logic Circuit (PWA-LGC) 7/13
1
3
2
4
5
6
7
8
+5VSW
A
A
[EXP-ONI]
2E2
5 [HC132]
&
4
IC32
EXP-ONI
Q9
E
RN2401
C
B
6
R46
1
2
EXPON
11B5
[EXPON]
1/10W330
VDD
R192
1/10W4.7K
B
D18
[WDTOUT]
1A1
WDTOUT
[WDTEN]
1A7
WDTEN
[HC132]
&
10
9
Q11
C
RN1401
E
K
R190
1
2
02CZ3.3X
1/10W68
A
1
2
2
B
E
B
Q1
2SA1428Y
C
[HC14]
8
IC32
1
B
IC26
R191
1
2
1/10W3.3K
GND
GND
C
C
VDD
R104
1
2
R101
1
R99 1
1/10W4.7K
R102
R103
1/10W22K
1
2
2
2
1
2
[HC14]
8
11
IC26
1
2
1/10W330
[HC14]
9
10
RESET
IC26
1
*3
13
GND
2
PNLRST
11B3
PFCRST
3B1
GARST
2E1
[GARST]
2
PFPRST
13B5
[PFPRST]
12D5
PDWNCHK
1A3
[PDWNCHK]
24VCHK
1A5
[PFCRST]
D
IC30
2
1/10W4.7K
[ACOFF]
4A1
[HC14]
1
D16
1SS184
R87
[PNLRST]
K
A2
1
[RESET]
IC18
IC26
D
13E8
12
[HC14]
A1
1F2
[N07]
C4
4.7/16
[HC14]
[HC14]
3
ACOFF
4
5
IC26
6
IC26
24V
R150
1
2
1/10W22K
1/10W22K
3C1
[24VCHK]
VDD
2
R153
1
2
1
R152
1/10W4.7K
1
E
C65
0.1/25
A1
K
E
2
A2
D17
1SS184
GND
F
F
7
1
Nov. 1997 © TOSHIBA
2
3
4
5
6
7
13 - 7
13
3560/70 CIRCUIT DIAGRAMS
HINT
How to search for where a signal in a
circuit diagram has jumped to.
Logic Circuit (PWA-LGC) 8/13
AO3
AO4
AO5
AO6
12C3
[HVACVREF]
SCN-CHG
10B5
[SCN-CHG]
5
BIASVREF
12C3
[BIASVREF]
6
ATSVREF
11B3
[ATSVREF]
1A4
[ATSIN]
I/O0
13C8
[I/O0]
ATSIN
[G/A-WR]
[VCC]
1F3
G/A-WR
24V
1/10W22K
1
C11
0.1/50
DG
[D[0:7]]
1
2
2
1
1
R177
R183
3
I/O1
13D8
[I/O1]
16
4
I/O2
13C8
[I/O2]
D3
15
5
I/O3
13E8
[I/O3]
D4
14
6
I/O4
13C8
[I/O4]
D5
13
7
I/O5
13E8
[I/O5]
D6
12
8
6B2
D[0:7]
I/O6
13D8
[I/O6]
D7
11
9
I/O7
13E8
[I/O7]
C12
0.1/50
VDD
1/10W4.7K
2
1
1
1
1
1
1
1
1
R147
R146
R142
R143
R144
R173
2
VDD
[HC244D]
IC23
EN
*8
R145
1
DG
HTRTH2+
2
1
17
D2
GND
[HTRTH2+] 12A3
2
1
D1
1
C
R21 1
2
1
18
2
ATS-IN
B
D0
2
1
[ATS-IN] 11B3
2
3EN2[AB]
R13
1/10W10K
IC44
8
3
+ VCC 1
VEE
2
4
[AO75358S]
1
R182
2
24V
19
G3
3EN1[BA]
IC44
8
5
+ VCC 7
VEE
6
4
[AO75358S]
*8
R176
[VSS/L]
[HC245]
IC17
2
R181
1
R11
1/10W22K
2
1/10W4.7K
[VDD/U]
[GND]
GND
R10
1
2
VDD
2
B
HVACVREF
4
2
1
3
A
2
16
2
[HVTVREF]
2
8
1
C20
0.1/25
12C3
10
AO8
9
[HVMVREF]
HVTVREF
7
AO7
VDD
12C3
2
2
AO2
2
LD
HTRVREF
2
12
HVMVREF
15
1
DALTH
11
R175
2A2
AO1
2
[DALTH]
CK
2
13
8
1
14
DACLK
7
1
DADAT
2A1
6
R180
2A2
[DACLK]
5
R174
[DADAT]
D/A8
[AA62353S]
IC46
DI
DO
4
R148
A
3
2
2
1
C
A0
2
18
AD0
13C8
[AD0]
A1
4
16
AD1
13D8
[AD1]
A2
6
14
AD2
13C8
[AD2]
A3
8
12
AD3
13D8
[AD3]
1/10W4.7K
R56 1
2
19
1/10W3.3K
1
C31
0.1/25
R55 1
2
A4
11
9
AD4
13C8
[AD4]
1/10W3.3K
A5
13
7
AD5
13D8
[AD5]
A6
15
5
AD6
13C8
[AD6]
A7
17
3
AD7
13D8
[AD7]
2
R59 1
2
[A[0:7]]
1/10W3.3K
D
[HTRTH2-]
1A6
1A7
A[0:7]
HTRTH2R61 1
2
C32
1
2
1
1/10W1.5K
2
1
1/10W4.7K
0.1/25
R34 1
HTRTH+
18
4
16
2
6
14
1/10W1M
R27
1
2
1/10W1K
R85
1
2
8
12
1/10W1M
1/10W1K
VDD
R54
2
1/10W4.7K
R32 1
2
1
C15
0.1/25
1/10W10K
2
R30
1
[HTRTH-]
1A4
HTRTH-
R25 1
2
1/10W3.9K
2
2
1/10W1K
1
7
8
9
R29 1
2
5
[HC244D]
IC24
EN
2
GND
VDD
1
E
D
VDD
R60
[HTRTH+] 12A3
[HC244D]
IC23
EN
R53
2
1
[AK7522S]
IC42
O1
I1+
I1-
O1
I2+
O2
13
12
4
3
19
[HC132]
&
11
SSR-
IC32
HTRDY
6
HTRDY2
12D5
[SSR-]
1A4
[HTRDY]
1A3
[HTRDY2]
VDD
[HC244D]
IC24
EN
11
9
R141
2
1
R140
2
1
R139
2
1
1/10W4.7K
*3
[CSIPC0]
2A1
CSIPC0
13
7
13D8
[CSIPC]
[WR]
1A1
WR
15
5
WE
13D8
[WE]
[RD]
1A1
RD
17
3
OE
13E8
[OE]
I2-
CSIPC
E
GND
[VCC]
[GND]
1/10W3.3K
R24
R23 1
2
C14
1
1/10W4.7K
2
1/10W3.9K
2
1
0.1/25
F
GND
F
1
3560/70 CIRCUIT DIAGRAMS
2
3
4
5
6
8
7
13 - 8
13
Nov. 1997 © TOSHIBA
HINT
How to search for where a signal in a
circuit diagram has jumped to.
Logic Circuit (PWA-LGC) 9/13
3
2
4
+5VSW
24V
CLAMP
A
FANCHG1
3
2
[OPT-FAN0]
2A7
OPT-FAN0
6
7
[OPT-FAN1]
2A7
OPT-FAN1
11
10
[SCP-SOL]
1E6
1
8
4
1
5
2
12
13
B
17
GND
18
24V
+5VSW
R3 1
2
R4 1
2
15
OPTFAN0
11C5
[OPTFAN0]
OPTFAN1
12B8
[OPTFAN1]
SCRPSOL
1
[VCC]
2
[I62308FS]
IC38
CLAMP
D3
1S1834
2W100 x2
[VCC]
11B3
[SCRPSOL]
C59
0.1/50
1A7
MRR-A
2
MRRA
11B8
[MRRA]
[MRR-B]
1A7
MRR-B
6
7
MRRB
11A8
[MRRB]
1A7
MRR-C
11
10
MRRC
11A8
[MRRC]
1A7
MRR-D
14
15
MRRD
11A8
[MRRD]
[MRR-D]
3
[GND]
8
DG
C23
0.1/25
[GND]
[FIN]
4
1
5
2
12
24V
[FIN]
13
17
GND
16
D1
1S1834
9
[B-FAN]
1A8
B-FAN
3
2
BTMFAN
11C5
[BTMFAN]
[E-FAN]
1A8
E-FAN
6
7
EXTFAN0
11B5
[EXTFAN0]
[ACC-FAN]
2A5
ACC-FAN
11
10
ACCFAN
13D5
[ACCFAN]
[CTR-ON]
2A5
CTR-ON
12
13
17
GND
18
2A6
[ASST-CLT]
ASST-CLT
4
[HC14]
3C8
[RGCLT-CU]
RGCLT-CU
3
4
IC30
5
[GND]
DG
[GND]
[FIN]
1A8
FANCHG0
[RGTDEV]
1F4
RGTDEV
4B8
[FDCLT-SF]
13A8
[CTRON]
FDCLT-SF
x2
2
LNSA
11A8
[LNSA]
7
LNSB
11A8
[LNSB]
[LNS-C]
1A7
LNS-C
11
10
LNSC
11A8
[LNSC]
[LNS-D]
1A7
LNS-D
14
15
LNSD
11A8
[LNSD]
4
1
5
2
12
17
RGTCLTCS
11B5
[RGTCLTCS]
14
15
13
17
18
FEDCLTSF
[VCC]
1
[VCC]
2
11C3
[FEDCLTSF]
C7
0.1/50
DG
DCMA
11E8
[DCMA]
7
DCMB
11D8
[DCMB]
1E5
10
DCMC
11D8
[DCMC]
1E5
DCM-D
14
15
DCMD
11D8
[DCMD]
4
1
5
2
12
17
3
16
HVTPRE
12C3
[HVTPRE]
HVT-DC
4
15
HVTDC
12D3
[HVTDC]
14
HVTAC
12C3
[HVTAC]
HVTM
12C3
[HVTM]
11E4
[FMOT-ON]
2A5
HVT-AC
[HVT-M]
2A5
HVT-M
6
13
7
12
8
11
F
[VCC]
1
[VCC]
2
D
C73
0.1/50
[GND]
[GND]
[GND]
DG
[GND]
[FIN]
[FIN]
DG
18
[HVT-AC]
9
11
13
5
16
DCM-C
[FIN]
HVT-PRE
C19
0.1/25
[FIN]
2
[FIN]
17
9
[FIN]
6
C74
0.1/25
[GND]
2
10
DG
[GND]
DCM-B
8
[GND]
2A5
1
[GND]
1E5
[GND]
2A5
2A5
[GND]
[DCM-B]
1
[HVT-DC]
[FMOT-ONA]
[GND]
3
[DCM-D]
[HVT-PRE]
FMOT-ONA
C
DCM-A
18
E
2
1E5
DG
1
[VCC]
C22
0.1/50
[DCM-A]
[DCM-C]
[GND]
[I62385US]
IC45
1
1
CLAMP
GND
VDD
[VCC]
[I62308FS]
IC43
CLAMP
2
[RGT-DEV]
12
GND
9
12C3
5
2
9
6
18
RGT-DEV
4
16
16
7
1
C8
0.1/25
[FIN]
LNS-B
C34
0.1/25
10
8
[FIN]
1A6
8
6
D
[GND]
1A6
1
11
1
DG
[LNS-B]
3
13
3
[GND]
[LNS-A]
[FIN]
CLAMP
[FANCHG0]
B
[GND]
LNS-A
[GND]
[I62308FS]
IC1
CLAMP
6
IC25
2
C21
0.1/50
[GND]
CLAMP
GND
[HC32]
1
[VCC]
[I62308FS]
IC34
CLAMP
2W100
5
2
[GND]
2
C44
0.1/25
2
2
1
[VCC]
11A3
C35
0.1/50
R5 1
8
4
CTRON
1
[VCC]
R6 1
1
C
15
14
[VCC]
1
K
18
A
CLAMP
9
[MRR-A]
1
[GND]
16
CLAMP
[MRR-C]
[GND]
[I62308FS]
IC28
CLAMP
8
24V
9
2A7
14
7
16
[FANCHG1]
SCP-SOL
6
K
[I62308FS]
IC19
CLAMP
A
C67
0.1/25
5
A
1
FMOT-ON
E
[VCC]
[GND]
2
GND
F
1
Nov. 1997 © TOSHIBA
2
3
4
5
6
9
7
13 - 9
13
3560/70 CIRCUIT DIAGRAMS
HINT
How to search for where a signal in a
circuit diagram has jumped to.
Logic Circuit (PWA-LGC) 10/13
1
3
2
4
5
6
7
8
+5VSW
A
A
Q6
E
VDD
1F4
SCN-C
15
8A8
SCN-CHG
[SCN-B]
1F4
SCN-B
E
[SCN-D]
1F4
SCN-D
R12 1
2
9
1/10W6.8K
14
16
R18
R9
1
B
2
1
1/10W3.3K
R7
1
2
11
R14
2
1/10W680
1
2
1/10W100
1
2
1/2W2.2K
1
1
0.1/25
4
2
5
[AZ6713]
IC41
A
OA
A
OA
VREFA
TBA
B
OB
B
OB
VREFB
TBB
2
SCNA
11D8
[SCNA]
3
SCNC
11D8
[SCNC]
6
SCNB
11D8
[SCNB]
7
SCND
11D8
[SCND]
8
10
[VCC]
[PG]
[SG]
K 1S1834
[SCN-C]
[SCN-CHG]
Q4
2SD1417
1/10W1K
13
K 1S1834
B
SCN-A
D8 A
2
1F4
D9 A
1
[SCN-A]
K 1S1834
C
R8
C
[ERSLP]
K 1S1834
RN2401
11E8
D10 A
ERSLP
D11 A
ERS-ON
C9
1F2
C10
[ERS-ON]
B
B
*2
DG
GND
+5VSW
24V
E
DG
K
Q10
DG
A
D2
1S1834
[TMOT-ON]
1F2
TMOT-ON
B
TNRMOT
C
RN2401
C
R157
1
2
11B3
[TNRMOT]
C
C
B
Q2
2SD1417
1/10W1K
E
VDD
15
9
[RGT-B]
1F5
RGT-B
[RGT-D]
1F5
RGT-D
16
2
DG
14
R49
1/10W3.9K
D
E
4
5
R50
1/10W330
D12
1S1834
1F4
RST-SW
1
OA
VREFA
TBA
B
OB
B
OB
VREFB
[VCC]
[PG]
[SG]
TBB
2
RGTA
11D5
[RGTA]
3
RGTC
11E5
[RGTC]
6
RGTB
11E5
[RGTB]
7
RGTD
11E5
[RGTD]
8
10
D
C25
2
0.1/25
A
[RST-SW]
1
C26
1
K
Q8
1
24VF
1
2
+5VSW
11
OA
A
K 1S1834
RGT-C
K 1S1834
1F5
D6 A
[RGT-C]
[AZ6712]
IC39
A
D4 A
13
K 1S1834
RGT-A
K 1S1834
1F4
D5 A
1/10W3.3K
[RGT-A]
D7 A
VDD
R156
1
2
2
DGK
0.1/25
B
RSTSW
RN2401
C
R36
1
2
12B3
[RSTSW]
GND
C
B
Q5
2SD1417
1/10W1K
DGK
E
R35
1
2
1/10W3.3K
E
E
DGF
F
F
1
3560/70 CIRCUIT DIAGRAMS
2
3
4
5
6
10
7
13 - 10
13
Nov. 1997 © TOSHIBA
HINT
How to search for where a signal in a
circuit diagram has jumped to.
Logic Circuit (PWA-LGC) 11/13
1
3
2
5VD
VDD
4
24V
J1
53313V
CTRON
A2
2F3
[CTR-CNT]
9C4
[CTRON]
J2
53313V
J3 [CN28A]
A1
53313V
A2
A3
A3
LELTH
2A2
[LELTH]
A4
A4
LEDAT
2A2
[LEDAT]
A5
A5
LECLK
2A1
[LECLK]
A6
A6
A7
A7
A8
A8
A9
A9
A10
A10
A11
A11
[PNLRST]
A12
CONTROL-PANEL
A13
SCRPSOL
9A4
[SCRPSOL]
A13
DEV-UNIT
A14
B1
2
1
RXE017
B2
TNRMOT
10C4 [TNRMOT]
2
EXTSW
ATS-IN
B4
8B1
[ATS-IN]
2F4
[EXTSW]
LED-ARRY
ATSVREF
B6
DEVSW
B7
8A8
[ATSVREF]
FAN-MOTOR
1E6
[DEVSW]
MAIN-MOTOR
B8
LRG
B9
SFBSW
B10
5E1
1A6
[CRG1SW]
OPT-UNIT1
A17
2A1
[EXPPWM]
A18
EXPON
7B8
[EXPON]
B1
RGTCLTCS
9D4
[RGTCLTCS]
B2
EXTFAN0
9C4
[EXTFAN0]
9B4
[BTMFAN]
BTMFAN
1C1
[MMOT-OFF]
B7
MMOT-BRK
1A1
[MMOT-BRK]
B8
MMOT-REF
1A3
[MMOT-REF]
B9
MPLL-OK
2F4
[MPLL-OK]
MMOT-DIR
1F4
[BZON]
[LNSA]
A8
MRRD
9B8
[MRRD]
A9
MRRC
9B8
[MRRC]
A10
MRRB
9A8
[MRRB]
A11
MRRA
9A8
[MRRA]
DRMTH
1A4
[DRMTH]
LNSSW
2F4
[LNSSW]
MRRSW
2F4
[MRRSW]
PLTNSW
2F3
[PLTNSW]
B
A14
B4
B7
B8
B10
B11
MMOT-OFF
B14
9C8
B9
B6
BZON
LNSA
B6
B4
[FEDCLTSF]
[LNSB]
A5
B5
B12
9D4
[LNSC]
9C8
B3
A20
B5
FEDCLTSF
9C8
LNSB
B2
EXPPWM
B11
B13
LNSC
A4
B1
B3
[SFBSW]
A3
A13
CRG1SW
A19
B5
[LNSD]
A12
A16
B3
9C8
A6
A15
C66
0.1/50
A
LNSD
A7
A14
R1 1
8
VDD 24V
24V
A2
7D8
C
7
A1
PNLRST
SFB
6
[CN40A]
CTR-CNT
A1
A12
B
5VE
VDD
[CN28A]
A
5
GND
B12
C
B13
B14
B10
B11
B12
B13
SGD
GND
DG
1C2
[MMOT-DIR]
TFULSW
1E6
[TFULSW]
OPTFAN0
9A4
[OPTFAN0]
B14
B15
B16
B17
OPTFAN2
B18
B19
EXITFAN1
24V
B20
D
D
J4 [CN14]
1
53052-14V
SCNB
10B8
[SCNB]
3
SCND
10B8
[SCND]
4
SCNA
10A8
[SCNA]
6
SCNC
10A8
[SCNC]
7
DCMD
9D8
[DCMD]
8
DCMB
9D8
[DCMB]
9
DCMC
9D8
[DCMC]
10
DCMA
9D8
[DCMA]
10A4
[ERSLP]
2
GND
J18
53324-10
CONTROL-PANEL
E
SGE
[CN10]
1
5
2
PRXD
2A4
[PRXD]
3
PACK
1A3
[PACK]
4
PREQ
5
PERR
2A4
[PREQ]
2E5
[PERR]
6
MERR-P
2A6
[MERR-P]
7
MREQ-P
2A6
[MREQ-P]
8
MACK-P
2A6
2A4
PTXD
9
VDD
24VK
J22
53324-7
[CN7]
FMOT-REF
1
1A4
[FMOT-REF]
2
J23
53052-6V
OPT-UNIT2
[CN6]
RGTA
1
10C8
[RGTA]
3
FMOT-DIR
2A5
[FMOT-DIR]
2
4
FPLL-OK
2E8
[FPLL-OK]
3
RGTC
10C8
[RGTC]
11
[MACK-P]
5
FMOT-BRK
2A5
[FMOT-BRK]
4
RGTB
10D8
[RGTB]
12
[PTXD]
6
FMOT-ON
9E4
[FMOT-ON]
5
RGTD
10D8
[RGTD]
FEED-MOTOR
GND
13
6
7
10
REGIST-MOTOR
ERSLP
14
E
GND
F
F
11
1
Nov. 1997 © TOSHIBA
2
3
4
5
6
7
13 - 11
13
3560/70 CIRCUIT DIAGRAMS
HINT
How to search for where a signal in a
circuit diagram has jumped to.
Logic Circuit (PWA-LGC) 12/13
1
3
2
4
VDD
VDD
A
J5 [CN11]
1
53324-11
6
7
24V
SORT-SW
2F3
[SORT-SW]
J8
53313V
3
A1
SIZCU3
5B1
[SIZCU3]
A2
SIZCU2
5B1
[SIZCU2]
A3
SIZCU1
5B1
[SIZCU1]
A4
SIZCU0
5B1
[SIZCU0]
J11
53313V
1A6
[APS2]
APSF
2F4
[APSF]
APSC
2F4
[APSC]
9A4
[OPTFAN1]
AESIN
1A4
[AESIN]
APSR
2F4
[APSR]
APST
2E7
[APST]
DFACK
1E5
[DFACK]
DFREQ
6
1A4
[HTRTH-]
A6
7
HTRTH2+
8C1
[HTRTH2+]
A7
8
HTRTH2-
1A6
[HTRTH2-]
A8
A8
[SSR+]
A9
A9
SSR+
12D5
10
A10
11
A11
A6
TUPCU
PEMPCU
5D1
5D1
[TUPCU]
A7
[PEMPCU]
A10
A11
FEDCLTCU
A12
24V 24VF
[CN10]
4D8
APS
[FEDCLTCU]
RSTSW
10D4
A14
TRMCUA
4C8
[TRMCUA]
B3
A15
TRMCUB
4C8
[TRMCUB]
B4
PSTPCL
5E1
[PSTPCL]
UCOVDOR
PSTPCO
5D1
[UCOVDOR]
4
2F3
B1
SIZCL3
5C1
[SIZCL3]
B10
B2
SIZCL2
5C1
[SIZCL2]
B11
7
5D1
B3
SIZCL1
5B1
[SIZCL1]
B4
SIZCL0
5B1
[PSTPCU]
8
9
RGT-DEV
10
9D4
[SIZCL0]
TUPCL
5E1
[TUPCL]
5E1
[PEMPCL]
4D8
[FEDCLTCL]
B8
A20
FEEDER-UNIT2
6
PSTPCU
B7
A19
5
B6
A18
[PSTPCO]
B9
GND
B5
[RGT-DEV]
B6
C
B7
GND
J12
53324-9
B8
PEMPCL
1
BIASVREF
8A8
[BIASVREF]
B11
2
HVMVREF
8A8
[HVMVREF]
B12
9E4
[HVTM]
B13
9E4
[HVTPRE]
B14
TRMCLA
4C8
[TRMCLA]
8A8
[HVACVREF]
B15
TRMCLB
4C8
[TRMCLB]
9E4
[HVTAC]
B16
8A8
[HVTVREF]
B17
RGTCLTCU
4D8
[RGTCLTCU]
9E4
[HVTDC]
B18
RGTCLTCL
4D8
[RGTCLTCL]
HVTM
HVTPRE
4
HVACVREF
5
HVTAC
6
HVTVREF
7
HVTDC
8
FEDCLTCL
5VD
24V
24VF
RADF
[CN15]
5VE
C6
22/50
J10
53324-6
2
4
[CN6]
1
SORTER
2
3
ACOFF
7D1
[ACOFF]
4
ZCINT
1E5
[ZCINT]
1
5
SSR-
8E5
[SSR-]
6
SSR+
2
12A3 [SSR+]
5
POWER-UNIT2
6
7
C3
47/50
8
[MREQ-DF]
4
DF-CNT
1E6
[DF-CNT]
5
DFRXD
1A3
[DFRXD]
DFTXD
1A2
[DFTXD]
1A2
[MACK-DF]
MACK-DF
9
1
3
1A2
8
GND
1
[DFREQ]
MREQ-DF
7
J13
17548710V
D
2
1A8
3
6
B20
24VK
1
GND
B19
VDD
C
[CN9]
2
B9
B10
[CN8]
3
B
B5
A17
[RSTSW]
OPTFAN1
B1
B2
A16
1
3
POWER-UNIT1
[APS1]
A5
A5
2
J9
53052-15V
1A6
APS2
[HTRTH+]
VDD
HVT-UNIT
[APS0]
APS1
8E1
B
J7
53324-8
1A6
A4
HTRTH-
A13
FEEDER-UNIT1
A3
APS0
5
GND
J6
53324-10
A2
HTRTH+
9
A
A1
SSR-SW
[SSR-SW]
24V
VDD
4
1F2
8
[CN22A]
[CN40A]
2
FUSER-UNIT
5
[CN10]
1
SACK
1E6
[SACK]
2
SREQ
1A3
[SREQ]
D
3
MREQ-S
1A2
[MREQ-S]
4
S-CNT
1E6
[S-CNT]
5
STXD
1A2
[STXD]
1A2
[MACK-S]
1A3
[SRXD]
6
MACK-S
7
8
SRXD
9
10
9
GND
10
11
E
SGE
1
C5
100/16
12
2
E
13
14
15
SGD
DGF
DGK
E1
1 DUMMY 2
F
GND
DG
F
12
1
3560/70 CIRCUIT DIAGRAMS
2
3
4
5
6
7
13 - 12
13
Nov. 1997 © TOSHIBA
HINT
How to search for where a signal in a
circuit diagram has jumped to.
Logic Circuit (PWA-LGC) 13/13
1
3
2
4
J14 [CN20A]
A1
53313V
A2
A
3B1
[AD-CNT]
A1
DRV3
4D4
[DRV3]
[ENDSW]
A2
DRV2
4D4
[DRV2]
2
9C4
[CTRON]
A3
SIDSW
5A1
[SIDSW]
A3
DRV1
4D4
[DRV1]
3
CTR-CNT
2F3
[CTR-CNT]
A4
PEMPAD
5A1
[PEMPAD]
A4
DRV0
4D4
[DRV0]
4
ZMDTCT
2A6
[ZMDTCT]
A5
PJAM1AD
5A1
[PJAM1AD]
A5
DRV7
4E4
[DRV7]
5
ENABLE
2F3
[ENABLE]
A6
SIDM-D
3D8
[SIDM-D]
A6
DRV6
4D4
[DRV6]
6
ERROR
2A7
[ERROR]
A7
SIDM-B
3D8
[SIDM-B]
A7
DRV5
4D4
[DRV5]
7
A3DTCT
2A7
[A3DTCT]
A8
SIDM-C
3D8
[SIDM-C]
A8
DRV4
4D4
[DRV4]
8
A9
CLK-D
3C8
[CLK-D]
9
A10
CLK-C
3C8
[CLK-C]
10
SIDM-A
3D8
[SIDM-A]
B1
APLL-OK
5A1
[APLL-OK]
A11
SIZE-0
5B6
[SIZE-0]
B2
AMOT-BRK
3B8
[AMOT-BRK]
A12
SIZE-2
5B6
[SIZE-2]
B3
AMOT-OFF
3B1
[AMOT-OFF]
A13
PFPRST
7D8
[PFPRST]
B4
FDCLT-AD
2E2
[FDCLT-AD]
A14
B5
STCLT-AD
3B8
[STCLT-AD]
B1
SCSW-E
3E8
[SCSW-E]
B6
STSOL-AD
3B8
[STSOL-AD]
B2
SIZE-3
5B6
[SIZE-3]
3D8
[ENDM-D]
B3
SIZE-1
5B6
[SIZE-1]
PFP
ENDM-D
B8
ENDM-B
3C8
[ENDM-B]
B4
RETS-0
5C6
[RETS-0]
B9
ENDM-C
3D8
[ENDM-C]
B5
RETS-1
5C6
[RETS-1]
B10
ENDM-A
3C8
[ENDM-A]
B6
RETS-3
5D6
[RETS-3]
B7
RETS-2
5D6
[RETS-2]
B8
SCSW-D
3E8
[SCSW-D]
B9
SCSW-C
3E8
[SCSW-C]
B10
RETS-7
5E6
[RETS-7]
B11
RETS-6
5E6
[RETS-6]
B12
RETS-5
5D6
[RETS-5]
B13
RETS-4
5D6
[RETS-4]
1E7
[PMOT-REF]
2
LC-CNT
5E1
[LC-CNT]
3
TRMLC-B
4A8
[TRMLC-B]
4
TRMLC-A
4A8
[TRMLC-A]
5
FDMLC-B
4B8
[FDMLC-B]
6
FDMLC-A
4A8
[FDMLC-A]
7
LC-KEY
5E1
[LC-KEY]
8
LCF4000
5E1
[LCF4000]
5D1
[LCDOR]
5D1
9
LCDOR
10
TDWNLC
11
PEMPLC
12
TUPLC
1
RMS7
[TDWNLC]
2
RMS6
5D1
[PEMPLC]
3
5D1
[TUPLC]
GND
HC244WM
J20
175487-9V
PC
1
1
C83
GND
2
C49
2
0.1/25
0.1/25
27C4002
7407M
1
C42
2
0.1/25
1
C86
0.1/25
2
2A8
[RMS7]
2A8
[RMS6]
RMS5
2A8
[RMS5]
4
RMS4
2A8
[RMS4]
5
RMS3
2A8
[RMS3]
6
RMS2
2A8
[RMS2]
7
RMS1
2A7
[RMS1]
8
RMS0
2A7
[RMS0]
0.1/25
71256S
C69
0.1/25
0.1/25
HC14M
2
7407M
0.1/25
C88
2
0.1/25
HC244WM
HC14M
J24
5045-2V
ACC-FAN
C2XB
1
1
C47
E
2
1
1
1
C51
2
C87
2
2
C48
HC244WM
2
0.1/25
48T58
0.1/25
7522S
0.1/25
C2XB
0.1/25
HC273WM
C2XB
C43
2
C16
2
C60
C81
2
2
C61
2
[PCDSR]
2A3
[PCDTR]
6
PCCTS
2A3
[PCCTS]
7
PC-CNT
2E5
[PC-CNT]
B
[CN30]
1
C
3
AD0
8C8
[AD0]
4
AD2
8C8
[AD2]
5
AD4
8D8
[AD4]
6
AD6
8D8
[AD6]
7
I/O0
8B8
[I/O0]
8
I/O2
8B8
[I/O2]
9
I/O4
8B8
[I/O4]
10
I/O6
8C8
[I/O6]
WE
1
ACCFAN
2
1
6
2
IC30
2
12
13
[HC32]
1
9C4
[ACCFAN]
[HC32]
1
91C640N
9
[N07]
3
3
IC25
IC25
1
15
17
[HC32]
1
C62
2A3
PCDTR
24V
0.1/25
1
1
1
1
PCDSR
5
16
10
1
4
GND
[CN2]
GND
0.1/25
[PCRTS]
8E8
[WE]
CSIPC
8E8
[CSIPC]
IPCSW
1A8
[IPCSW]
14
[HC14]
1
C72
[PCRXD]
2A3
13
0.1/25
1
1
C85
[PCTXD]
2A3
PCRTS
12
2
5
C33
2A3
PCRXD
3
11
IPC
2
7407M
PCTXD
2
VDD
[AMP] J21
174215V
1
C100
0.1/25
1
2
2
1
GND
9
HC244WM
1
C79
HC138M
1
C37
2
0.1/25
7407M
1
C58
1
C68
2
[CN9]
9
10
D
GND
8
[CN10]
J17
171825V
VDD
7407M
A
2
RMS
HC244WM
CTRON
DG
24VF
14
7407M
PMOT-REF
B14
13
HC273WM
COIN-VENDER
1
VDD
B7
1
LCF
VDD
[CN10]
5A1
VDD
C
24V
J19
17548710V
8
ENDSW
[CN14]
J15
17548714V
7
AD-CNT
A9
B
6
[CN28A]
J16
53313V
A10
ADU
5
+5VSW
+5VSW
8C8
[AD1]
19
AD3
8C8
[AD3]
20
AD5
8D8
[AD5]
21
AD7
8D8
[AD7]
22
I/O1
8B8
[I/O1]
23
I/O3
8B8
[I/O3]
24
I/O5
8B8
[I/O5]
25
I/O7
8C8
[I/O7]
8E8
[OE]
7D8
[RESET]
OE
27
IPRST
28
[N07]
5
18
26
4
IC27
11
D
AD1
6
29
1
30
2
IC27
8
C54
0.022/50
1
2
RESET
R100
1/10W4.7K
E
GND
IC25
2
GND
0.1/25
0.1/25
7407M
F
HC32M
C56
2
0.1/25
C64
2
0.1/25
1
C71
0.1/25
C2XB
HC245AWM
1
1
0.1/25
0.1/25
7407M
C45
2
0.1/25
0.1/25
HC244WM
C63
2
0.1/25
7407M
1
1
1
2
0.1/25
C80
2
HC244WM
1
C55
0.1/25
2
0.1/25
HC132M
1
C84
2
0.1/25
1
C50
F
2
0.1/25
13
1
Nov. 1997 © TOSHIBA
2
3
4
5
6
7
13 - 13
13
3560/70 CIRCUIT DIAGRAMS
3560/70 CIRCUIT DIAGRAMS
[PNLRST] 5A2
F
1
2
2
3
2C1
3D2
3E2
4D4
[CS2]
[CS1]
[VLON]
10
[CS0]
IC3
[HC14]
4
5
5B6
5B6
5B6
5B6
5C6
5C6
[SCN2]
[SCN3]
[SCN4]
[SCN5]
[SCN6]
[SCN7]
[D[0:15]]
5C8
2A8
[PNLRDY]
[SCN1]
4E1
[DSON0]
6
7
13 - 14
2
1
2
1
2
1
C9
2
1
78
79
80
81
82
84
85
86
87
88
89
90
91
D2
D3
D4
D5
D6
D7
D8
D9
D10
D11
D12
D13
D14
D15
2
1
77
D1
0.1/25
143
144
118
92
74
57
37
5
132
108
83
48
18
76
*6
[AVSS]
[AVCC]
[DVSS]
[DVSS]
[DVSS]
[DVSS]
[DVSS]
[DVSS]
[DVCC]
[DVCC]
[DVCC]
[DVCC]
[DVCC]
D15/P17
D14/P16
D13/P15
D12/P14
D11/P13
D10/P12
D9/P11
D8/P10
D7
D6
D5
D4
D3
D2
D1
D0
P97/TO7
P96/TI6
P95/TO5
P94/TI4
P93/TO3
P92/TI2
P91/TO1
P90/TI0
A23/P27
A22/P26
A21/P25
A20/P24
A19/P23
A18/P22
A17/P21
A16/P20
A15
A14
A13
A12
A11
A10
A9
A8
A7
A6
A5
A4
A3
A2
A1
A0
PE7
PE6
PE5
PE4
PE3
PE2
PE1
PE0
PD4
PD3
PD2
PD1
PD0
PC7
PC6
PC5
PC4
A
2
2
2
2
2
2
R29 1
R28 1
R27 1
R26 1
R25 1
R24 1
124
123
122
121
120
A13
A14
A15
A16
A17
A18
101
100
99
98
93
94
95
96
97
A12
102
A8
109
103
A7
110
104
A6
111
A11
A5
112
105
A4
113
A9
A3
114
A10
A2
115
106
A1
116
107
A0
117
2
119 R23 1
1/10W10K *8
2
R30 1
125
*3
A
126
127
1SS193
D2
128
K
K
D3
2
140 R10 1
1/10W10K *8
129
2
R11 1
139
130
2
R12 1
138
A
2
R14 1
137
K
2
R15 1
136
D8
RETK15
2
R16 1
135
131
RETK14
2
R17 1
2
1
4B2
2A1
2A1
2A1
5A6
5D2
3D2
3E2
5D2
5D2
5D2
R33
1/10W4.7K
1
2
R34
1
2
PTXD
1 1/10W1K
LCDVR
RD
WR
MPUCLK
C17
2200P/50
IC8
[HC14]
5E2
5E2
5B6
5B6
*4
2
2
2
2
R18 1
R19 1
R20 1
R21 1
4.7K
RM3
5E2
5B6
A[0:18]
VDD
RETK7
RETK6
RETK5
RETK4
RETK3
RETK2
RETK1
RETK0
SCN10
SCN9
SCN8
[RETK15]
[RETK14]
[RETK13]
[RETK12]
VDD
5E2
5B6
1/10W68K
RETK13
RETK12
2
R13 1
IC8
[HC14]
IC3
[HC14]
8
3
VDD
LECLK
LELTH0
5A6
5A6
5C2
5C2
5C2
2A1
5A6
2C1
5A8
5A8
5A8
5B8
5B8
5B8
5B8
5B8
5B8
5B8
5B6
5C2
5C2
[MERR-P]
[MREQ-P]
[MACK-P]
[PTXD]
[A[0:18]]
[RETK7]
[RETK6]
[RETK5]
[RETK4]
[RETK3]
[RETK2]
[RETK1]
[RETK0]
[SCN10]
3A2
5C2
[SCN8]
[SCN9]
5B8
5C2
[LCDVR]
[RD]
[WR]
[MPUCLK]
[LECLK]
[LELTH0]
[LELTH1]
[LEDAT]
[PREQ]
[PACK]
[PRXD]
[CNTRST]
[LERST]
R42
2
1/10W4.7K
1
2
GND R41
[HC14]
[HC14]
9
6
5
1
2 MACK-P
IC3
IC3
1 1/10W1K
C23
2200P/50
2
R44
1/10W4.7K
GND
1
2
[HC14]
R43
2
1
1
2
3
MREQ-P
IC3
1 1/10W1K
R31
C26
1/10W4.7K
2200P/50
1
2
2
[HC14]
R32
8
9
1
2 MERR-P
11
GND
IC8
1 1/10W1K
C16
2200P/50
2
RETK8
5A8 [RETK8]
RETK9
5A8 [RETK9] GND
RETK10
5A8 [RETK10]
RETK11
5A8 [RETK11]
IC8
[HC14]
134
10
4
4
R55 1
2
1/10W10K
R53 1
2
1/10W4.7K
133
13
12
11
10
9
8
7
6
22
21
20
19
17
16
15
14
42
4
3
73
72
36
R35 1
2
1/10W4.7K
IC13
4
LELTH1
LEDAT
PREQ
PACK
PRXD
CNTRST
LERST
7
2
1
D15
75
C10
D0
31
30
29
28
27
26
25
24
P87/INT3
P86/INT2
P85/INT1
P84/INT0
P83/NMI2
P82/WAIT
P81/SCOUT
P80/BS
P77/PG13
P76/PG12
P75/PG11
P74/PG10
P73/PG03
P72/PG02
P71/PG01
PC3
PC2
PC1
PC0
PB7
PB6
PB5
PB4
PB3
PB2
PB1
PB0
PA7/SCLK1
PA6/CTS1
PA5/RXD1
PA4/TXD1
PA3/SCLK0
P70/PG00
P67
P66
P65
P64
P63
P62
P61
P60
P57
P56
P55
P54
P53
P52
VREFH
PA2/CTS0
PA1/RXD0
PA0/TXD0
WDTOUT
DAOUT1
DAOUT0
RD
WR
CLK
IC13
2
3
IC13
[N07]
6
10
2
6
GND
VDD
D7
D14
D13
D12
D11
D10
D9
D8
1SS193
1SS193
1SS193
1SS193
1SS193
1SS193
1SS193
1SS193
47
46
45
44
43
34
33
32
56
55
54
53
52
51
50
49
58
59
60
61
62
63
64
65
66
67
68
69
70
71
141
VREFL
DAREFH
DAREFL
AM8/16
NMI
EA
X2
X1
RESET
IC15
[N07]
2
5
[N07]
IC13
[N07]
IC12
[N07]
2 3 4 5
D6
D5
D4
K
K
K
K
K
K
K
K
11
3
2
1
142
1
2
35
23
40
39
38
41
[U95C063]
IC7
1
IC13
[N07]
8
11
12
1
2 3 4 5 6 7 8 9
D3
A
A
A
A
A
A
A
A
IC15
[N07]
IC12
[N07]
GND
2
1
1
9
[N07]
IC13
[N07]
6
68K
D2
VDD
D9
D4
D10
D5
D11
D6
D12
D7
10
4
GND
2
1
VDD
C25
2200P/50
R40
1
2
1/10W4.7K
2
13
IC8
[HC14]
RR1
D1
D0
D[0:15]
SCN7
SCN6
SCN5
SCN4
SCN3
SCN2
SCN1
SCN0
PNLRDY
DSON0
DSON1
PERR
CS3
BZON
VLON
CS1
CS2
CS0
GND
R22 1
2
1/10W1M
3
12
2 20M
[XD]
IC3
[HC14]
X2
1
13
C24
0.01/50
1
R39
1
2
1/10W10K
5
1
VDD
3B2
5C8
5E2
5C8
5E2
5C8
5E2
5C8
5F2
5C8
5F2
5C8
5F2
5E2
5E2
4F1
[DSON1]
5C8
5C2
[PERR]
E
[SCN0]
3D2
[CS3]
[BZON 4D2] 5B2
11
R38
1/10W4.7K
1
0.1/25
VDD
1
PNLRST
VDD
VDD
RM2
D
VDD
5
4.7K
C
VDD
4
9 8 7 6 5 4 3 2
A
3
1
B
2
RM1
1
4.7K
13.2.1
9 8 7 6 5 4 3 2
R37
1/10W4.7K
1
2
HINT
How to search for where a signal in a
circuit diagram has jumped to.
13.2 Control Panel Circuit
Control panel circuit (PWA-PNL) 1/5
8
A
1
B
C
0.1/25
C8
C18
D
C20
C13
C11
C7
E
F
1
5
Nov. 1997 © TOSHIBA
HINT
How to search for where a signal in a
circuit diagram has jumped to.
Control panel circuit (PWA-PNL) 2/5
1
2
3
4
5
6
7
8
D[0:7]
[D[0:7]]
3B2
VDD
CNTRST
[MPUCLK]
1A2
MPUCLK
R51
1
11
10
6
[WR]
1A2
WR
[RD]
1A2
RD
7
8
12
1
C30
2200P/50
3
2
4
5
GND
13
46
GND
MPUCLK
MEMWR
LP
MEMRD
WF
MPUSEL
YD
LD0
IORD
LD1
BHE
LD2
LD3
VWE
UD0
OSC2
UD1
UD2
UD3
3
VCS0
VCS3
VCS4
A[0:17]
A0
14
A1
15
A2
16
A3
17
A4
18
4
A5
19
5
A6
20
6
A7
21
7
A8
22
14
12
A9
23
13
11
A10
24
15
10
A11
25
9
A12
26
A13
27
A14
28
A15
29
C
[CS0]
A16
2
A17
3
1
CS0
1E3
0
2
1
EN
2
VDD
3
GND
D
VDD
VD0
68
VD1
69
VD2
70
VD3
71
VD4
72
VD5
73
VD6
74
VD7
75
76
77
78
81
82
83
84
E
DB0
AB1
DB1
AB2
DB2
AB3
DB3
AB4
DB4
AB5
DB5
AB6
DB6
AB7
DB7
AB8
DB8
DB9
AB9
AB10
DB10
AB11
DB11
AB12
DB12
AB13
DB13
AB14
DB14
AB15
DB15
VA0
VD0
VA1
VD1
VA2
VD2
VD3
VA3
VD4
VA4
VD5
VA5
VD6
VA6
VD7
VA7
VD8
VA8
VD9
VA9
VD10
VA10
VD11
VA11
VD12
VA12
VD13
VA13
VD14
VA14
VD15
VA15
LCDEN
4A2
[LCDEN]
PNLRDY
1E5
[PNLRDY]
LCDENB
5E8
[LCDENB]
5E8
[XSCL]
LP
5E8
[LP]
WF
5E8
[WF]
YD
5E8
[YD]
A
88
89
[N07]
11
90
10
[N07]
IC6
2 1/10W68
95
9
[N07]
5
96
IC6
6
L1
1
2
XSCL
BLM21A102S
[N07]
97
IC6
98
[N07]
3
4
IC6
2
91
8
IC6
1
92
93
2
C29
20P/50
B
94
GND
L6
1
L7
1
L9
1
L8
1
67
66
65
64
63
30
D0
31
D1
32
D2
33
D3
34
D4
35
D5
36
D6
37
D7
[N07]
2
13
[N07]
2
11
IC12
10
[N07]
IC12
2
9
[N07]
5
2
8
IC12
6
IC12
*4
BLM21A102S
12
L2
1
L3
1
L4
1
L5
1
BLM21A102S
2
UD0
5E8
[UD0]
2
UD1
5E8
[UD1]
2
UD2
5D8
[UD2]
2
UD3
5D8
[UD3]
*4
C
VDD
38
39
SRAM32KX8
[M71256]
IC5
40
41
VA[0:14]
42
43
44
45
47
VA0
48
VA1
49
VA2
50
VA3
51
VA4
52
VA5
53
54
55
VA6
VA7
VA8
56
VA9
57
VA10
58
VA11
59
VA12
60
VA13
61
VA14
VA0
10
VA1
9
VA2
8
VA3
7
VA4
6
VA5
5
VA6
4
VA7
3
VA8
25
VA9
24
VA10
21
VA11
23
VA12
2
VA13
26
VA14
1
27
22
20
0
O0
1
O1
2
O2
3
O3
4
O4
5
O5
6
7
8
A
O6
0
32767
O7
11
VD0
12
VD1
13
VD2
15
VD3
16
VD4
17
VD5
18
VD6
19
VD7
D
9
10
11
12
13
14
WE
OE
CS
20
R54
1/10W100
62
E
1
85
AB0
8
IC15
1
GND
X/Y
[HC139A]
IC16
1
87
OSC1
VCS2
1A7
9
86
R50 1
IOWR
1
2
1/10W4.7K
[N07]
IOCS
VCS1
[A[0:17]]
R57
9
2
8M 2
LCDENB
XSCL
MEMCS
1 R45
1/10W1M
X1
1
100
[XD]
B
99
[U1351]
IC4
READY
RESET
2
1A1
VDD
A
[CNTRST]
2 1/10W4.7K
VDD
GND
1351F0A
VD[0:7]
1351F0A
1
C31
1
C2
2
0.1/25
2
4.7/16
GND
F
F
2
1
Nov. 1997 © TOSHIBA
2
3
4
5
6
7
13 - 15
5
3560/70 CIRCUIT DIAGRAMS
HINT
How to search for where a signal in a
circuit diagram has jumped to.
Control panel circuit (PWA-PNL) 3/5
1
2
3
4
5
6
7
8
A
A
[A[0:18]]
[D[0:15]]
1A7
1E6
2A1
A[0:18]
D[0:15]
B
VDD
B
VDD
[SKT]
EPROM 256KX16
[M27C4002]
IC10
1
C
A1
21
A2
22
A3
23
A4
24
A5
25
A6
26
A7
27
A8
28
A9
29
A10
31
A11
32
A12
33
A13
34
A14
35
A15
36
A16
37
A17
38
A18
39
VPP
O1
0
O2
1
O3
2
O4
3
O5
4
O6
5
O7
6
O8
7
O9
8
9
A
0
262143
O10
O11
10
O12
11
O13
12
O14
13
O15
14
O16
19
D0
18
D1
17
D2
16
D3
15
D4
14
13
12
10
9
D5
D6
D7
D8
D9
8
D10
7
D11
6
D12
5
D13
4
3
D14
D15
15
16
17
20
OE
2
CE
[SKT]
EPROM 256KX16
[M27C4002]
IC11
1
A1
21
A2
22
A3
23
A4
24
A5
25
A6
26
A7
27
A8
28
A9
29
A10
31
A11
32
A12
33
A13
34
A14
35
A15
36
A16
37
A17
38
A18
39
20
100
2
VPP
O1
0
O2
1
O3
2
O4
3
O5
4
O6
5
O7
6
O8
7
8
9
O9
A
0
262143
O10
O11
10
O12
11
O13
12
O14
13
O15
14
O16
19
D0
18
D1
17
D2
16
D3
15
D4
14
D5
13
D6
12
D7
10
D8
9
D9
8
D10
7
D11
6
D12
5
D13
4
D14
3
D15
SRAM32KX8
[M71256]
IC9
15
A0
10
A1
9
A2
8
A3
7
A4
6
A5
5
A6
4
A7
3
A8
25
A9
24
A10
21
A11
23
A12
2
A13
26
A14
1
16
27
17
22
OE
20
CE
100
0
O0
1
O1
2
O2
3
O3
4
O4
5
O5
6
7
8
A
0
32767
O6
O7
11
D0
12
D1
13
D2
15
D3
16
D4
17
D5
18
D6
19
D7
C
9
10
11
12
13
14
WE
OE
CS
20
D
D
[RD]
1A2
RD
[CS2]
1E3
CS2
R49 1
2 1/10W470
[CS3]
1E4
CS3
R52 1
2 1/10W470
[CS1]
1E3
CS1
R36 1
2 1/10W470
[WR]
1A2
WR
E
E
F
F
3
1
3560/70 CIRCUIT DIAGRAMS
2
3
4
5
6
7
13 - 16
5
Nov. 1997 © TOSHIBA
HINT
How to search for where a signal in a
circuit diagram has jumped to.
Control panel circuit (PWA-PNL) 4/5
1
2
3
4
5
6
7
8
VDD
A
9
1
3
[LCDEN]
2A8
8
LCDEN
1
1
2
2
C3
47/50
7
A
2
VEE
5D8
[VEE]
CO
VREF
ON/OFF
[GND}
[GND}
C38
0.1/50
1
2
VDD
5VD
2
C4
100/16
4
[HB5311S]
IC17
VIN
VOUT
R67 1
2
1/10W10K
R65
1
2
1/10W100K
1
R62
1/10W10K
[LCDVR]
B
1A2
IC14
10
LCDVR
4
+
2
-
[AO75902S]
1
9
VDD
R56 1
8
VCC
VEE
IC14
12
[TH+]
5B6
[TH-]
5B6
TH-
C39
B
0.1/25
2
1
R66
1/10W68K
E1
1 DUMMY 2
GND
SGD
IC14
3
2
1
IC14
5
GND
4
+
-
R64 1
2
1/10W100K
1
VCC
VEE
11
[AO75902S]
2
C12
0.1/50
C
47/16
2
2
R68
1/10W10K
TH+
C6
13
11
1
1
4
+ VCC 14
VEE
11
[AO75902S]
2 1/10W47K
2
6
4
+
-
7
VCC
VEE
[AO75902S]
VOP
5D8
[VOP]
11
C
R63 1
2
1/10W120K
1
R69
1/10W68K
GND
5VD
VDD
2 1/10W4.7K
R46 1
D
D
1
[BZON]
1E4
BZ1
2
BZON
E
[N07]
MEB-12C-5
[VLON]
1E3
VLON
13
12
R47
1
2
B
Q1
2SA1428Y
1/10W680
IC6
C
R48
1
2
1
VIN
[AZM10A]
IC1
VHIGH1
1/10W680
VHIGH2
C21
0.1/25
1
1
2
2
2
C1
47/16
GND
VLOW
3
CCFL+
5E4
[CCFL+]
4
CCFL-
5F4
[CCFL-]
5
5VD
R60
1
2
1/10W4.7K
E
[N07]
[DSON0]
1E4
DSON0
5
6
IC15
B
1/10W560
R59
1
2
1/10W4.7K
R58
[N07]
[DSON1]
1E4
DSON1
3
4
IC15
SGD
1
2
Q3
2SA1428Y
C
E
B
1/10W560
E
E
R61
1
2
DSPON0
5B6
5E2
[DSPON0]
DSPON1
5B6
5E2
[DSPON1]
Q2
2SA1428Y
C
F
F
4
1
Nov. 1997 © TOSHIBA
2
3
4
5
6
7
13 - 17
5
3560/70 CIRCUIT DIAGRAMS
HINT
How to search for where a signal in a
circuit diagram has jumped to.
Control panel circuit (PWA-PNL) 5/5
1
2
VDD
3
4
5
6
7
8
5VD
VDD
A
J60
53324-13
[CN13]
PNLRST
1
1F1
2
3
4
5
[N07]
6
LGC
12
IC15
8
24V
10
CTRON
11
CTR-CNT
12
BZON
13
5C4
[24V]
5C4
[CTRON]
5C4
[CTR-CNT]
1E4
[BZON]
KEY2
GND
RETK11
1B4
[RETK11]
3
RETK10
1B4
[RETK10]
A3
LELTH1
1A1
[LELTH1]
4
RETK9
1B4
[RETK9]
A4
LEDAT
1A1
[LEDAT]
5
RETK8
1B4
[RETK8]
6
RETK7
1A5
[RETK7]
A6
7
RETK6
1A5
[RETK6]
A7
8
RETK5
1A5
[RETK5]
9
RETK4
1A5
[RETK4]
10
RETK3
1A5
[RETK3]
11
RETK2
1A5
[RETK2]
12
RETK1
1A5
[RETK1]
TOUCH-PNL
DSPON1
A10
TH+
13
GND
PTXD
1A3
[PTXD]
4F4
[DSPON1]
4C2
[TH-]
4B2
[TH+]
4E4
[DSPON0]
B1
SCN3
1E6
[SCN3]
B2
SCN8
1A5
[SCN8]
B3
RETK12
1B4
[RETK12]
B4
RETK13
1B4
[RETK13]
B5
RETK14
1B4
[RETK14]
B6
RETK15
J66
SLP12R-5
[CN12]
1B4
[RETK15]
1
RETK0
1A5
[RETK0]
SCN2
1E6
[SCN2]
2
SCN10
1A5
[SCN10]
B8
SCN4
1E6
[SCN4]
3
SCN9
1A5
[SCN9]
B9
SCN5
1E6
[SCN5]
4
SCN8
1A5
[SCN8]
B10
SCN6
1E6
[SCN6]
5
SCN7
1E6
[SCN7]
B11
SCN7
1E6
[SCN7]
6
SCN6
1E6
[SCN6]
7
SCN5
1E6
[SCN5]
TOUCH-PNL
3
MACK-P
1A3
[MACK-P]
8
SCN4
1E6
[SCN4]
4
MREQ-P
1A3
[MREQ-P]
9
SCN3
1E6
[SCN3]
5
MERR-P
1A4
[MERR-P]
10
SCN2
1E6
[SCN2]
11
SCN1
1E5
[SCN1]
12
SCN0
1E5
[SCN0]
6
PERR
7
PREQ
8
9
1E4
[PERR]
1A1
[PREQ]
PACK
1A1
[PACK]
PRXD
1A1
[PRXD]
J62
53014-4V
GND
[CN4]
24V
1
CTRON
2
CTR
10
SGD
D1 1S1834
K
A
CTR-CNT
3
5B2
[24V]
5B2
[CTRON]
5B2
[CTR-CNT]
A
B
B7
12
[CN10]
1
DSPON0
A11
[HC14]
SGD
2
LGC
2
[LERST]
TH-
IC8
C
[LECLK]
1A1
A9
B
1
1A2
LERST
A8
9
[CN12]
LECLK
A5
13
7
J61
53324-10
J65
SLP12R-5
J64 [CN22A]
A1
53313V
A2
[PNLRST]
C
VDD
4
GND
GND
D
J63
53313V
VDD
VDD
VDD
[CN24A]
A1
LECLK
1A2
[LECLK]
A2
LERST
1A1
[LERST]
A3
LELTH0
1A2
[LELTH0]
A4
LEDAT
1A1
[LEDAT]
7407
7407
7407
7407
HC14
HC14
1
1
1
1
1
1
C40
C35
2
A5
0.1/25
A6
C37
2
C36
2
0.1/25
C15
2
0.1/25
0.1/25
C22
J68
53324-14
1
C14
2
0.1/25
HC139MX
2
0.1/25
2
A8
A9
DSPON1
4E4
4F4
27C240
[DSPON0]
27C240
71256S
71256S
1351F0A
A10
C32
A11
1
1
C33
2
1
C19
2
C34
2
C27
2
1
C28
2
2
E
B1
RETK12
1B4
[RETK12]
B2
RETK13
1B4
[RETK13]
B3
RETK14
1B4
[RETK14]
B4
RETK15
1B4
[RETK15]
B5
SCN0
1E5
[SCN0]
B6
SCN1
1E5
[SCN1]
B7
SCN2
1E6
[SCN2]
B8
SCN3
1E6
[SCN3]
B9
SCN4
1E6
[SCN4]
B10
SCN5
1E6
[SCN5]
B11
SCN6
1E6
[SCN6]
B12
SCN7
1E6
[SCN7]
0.1/25
0.1/25
0.1/25
0.1/25
0.1/25
1
1
C5
A12
KEY1
LCD
1351F0A
1
47/16
2
75902
D
1
2
VOP
4C7
[VOP]
3
VEE
4A7
[VEE]
6
UD3
2C8
[UD3]
7
UD2
2B8
[UD2]
8
UD1
2B8
[UD1]
9
UD0
2B8
[UD0]
2A8
[LCDENB]
2A8
[XSCL]
LCDENB
10
C41
2 0.1/25
0.1/25
GND
[CN14]
5
VEE
0.1/25
[DSPON1]
1
R9
R8
R7
R6
R5
R4
R3
R2
R1
4
A7
DSPON0
330 *9
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
XSCL
11
12
LP
2B8
[LP]
13
WF
2B8
[WF]
14
YD
2B8
[YD]
E
GND
GND
J67
S3L2E
CCFL
[CN4]
1
CCFL+
4D8
[CCFL+]
CCFL-
4E8
[CCFL-]
2
3
4
F
F
SGD
GND
5
1
3560/70 CIRCUIT DIAGRAMS
2
3
4
5
6
7
13 - 18
5
Nov. 1997 © TOSHIBA
HINT
How to search for where a signal in a
circuit diagram has jumped to.
13.2.2
Control key circuit (PWA-KEY1) 1/3
1
2
3
4
5
6
7
8
A
A
[DSPON0]
DSPON0
3B4
VDD
R21 1
R19 1
2 1K
2 1K
R20 1
2 1K
2 1K
R18 1
B
[AZ7932S]
IC1
[LEDAT]
3B4
LEDAT
R13 1
2 1K
26
[LECLK]
3B4
LECLK
R11 1
29
[LELTH0]
3B4
LELTH0
R10 1
2 1K
2 1K
28
SI
D1
LATCH
D2
3
LERST
3B4
R12 1
2 1K
2
STB
D4
BE0
D5
24
4
LAST
L/R
21
19
16
D8
14
11
9
D14
6
D16
1
2
8
C1
C4
C3
C2
C5
2
1
2
2
13
2
0.1/50
33P/50
33P/50
33P/50
33P/50
18
23
K
A LP12
AMS
R14 1
2 100
LTL16KG
K
A LP11
O/USER
R7 1
2 100
LTL16KG
K
A LP10
O/0
R6 1
2 100
LTL16KG
K
A LP9
O/1
R4 1
2 100
LTL16KG
K
A LP8
O/2
R2 1
2 100
LTL16KG
K
A LP7
O/3
R17 1
2 100
LTL16KG
K
A LP6
APS
R16 1
2 100
LTL16KG
K
A LP5
P/USER
R9 1
2 100
LTL16KG
K
A LP4
P/0
R8 1
2 100
LTL16KG
K
A LP3
P/1
R5 1
2 100
LTL16KG
K
A LP2
P/2
R3 1
2 100
LTL16KG
K
A LP1
P/3
B
C
7
D15
1
LTL16KG
10
D13
1
2 100
12
D12
1
R15 1
15
D11
1
FC
17
D7
D10
30
A LP13
20
D9
C
K
22
D6
27
LTL16KG
25
D3
[LERST]
2 100
5
SOUT
CK
R1 1
[VDD]
[VSSL]
[VSSD]
[VSSD]
[VSSD]
[VSSD]
D
D
GND
SGD
E
E
F
F
1
Nov. 1997 © TOSHIBA
2
3
4
5
6
1
7
13 - 19
3
3560/70 CIRCUIT DIAGRAMS
HINT
How to search for where a signal in a
circuit diagram has jumped to.
Control key circuit (PWA-KEY1) 2/3
1
2
[SCN0]
3C4
3
4
S28 [SWAA]
1
2
S21 [SWAA]
1
3
4
1
2
2
4
S15 [SWAA]
1
2
5
2
9
2
2
F/C
2
2
2
3
4
A
4
B3F-1000
S23 [SWAA]
1
3
4
7
2
3
4
8
B3F-1000
B3F-1000
S17 [SWAA]
1
3
0
2
S16 [SWAA]
1
3
4
P
2
B3F-4000
S25 [SWAA]
1
3
HELP
4
2
B
3
4
C/S
B3F-1000
S24 [SWAA]
1
3
4
P
2
B3F-4000
B3F-1000
S19 [SWAA]
1
3
4
200%
2
B3F-1000
3
4
C/S
B3F-1000
S20 [SWAA]
1
3
100%
4
2
B3F-1000
C
3
4
50%
B3F-1000
SCN5
S4 [SWAA]
1
2
S3 [SWAA]
1
3
4
P/0
2
B3F-1000
3C4
6
4
S27 [SWAA]
1
3
4
S18 [SWAA]
1
[SCN6]
3
SCN4
C
3C4
S30 [SWAA]
1
3
B3F-1000
B3F-1000
[SCN5]
4
SCN3
2
3C4
S29 [SWAA]
1
3
B3F-1000
4
S31 [SWAA]
1
3
4
S26 [SWAA]
1
[SCN4]
2
B3F-1000
B3F-1000
3C4
8
SCN2
B
[SCN3]
2
4
S14 [SWAA]
1
3
B3F-1000
3C4
7
SCN1
S22 [SWAA]
1
[SCN2]
S13 [SWAA]
1
3
B3F-1000
B3F-1000
3C4
6
SCN0
A
[SCN1]
5
S2 [SWAA]
1
3
P/1
4
2
B3F-1000
S1 [SWAA]
1
3
4
P/2
2
B3F-1000
3
4
P/3
B3F-1000
SCN6
S11 [SWAA]
1
2
S12 [SWAA]
1
3
4
O/USER
2
S6 [SWAA]
1
3
AMS
4
2
S5 [SWAA]
1
3
4
APS
2
3
4
P/USER
D
D
B3F-1000
[SCN7]
3C4
B3F-1000
B3F-1000
B3F-1000
SCN7
S10 [SWAA]
1
2
4
B3F-1000
S9 [SWAA]
1
3
O/0
2
S8 [SWAA]
1
3
O/1
4
B3F-1000
2
S7 [SWAA]
1
3
4
O/2
B3F-1000
2
3
4
O/3
B3F-1000
RETK12
3D4
[RETK12]
RETK13
3D4
[RETK13]
RETK14
3C4
[RETK14]
RETK15
3C4
[RETK15]
E
E
F
F
1
3560/70 CIRCUIT DIAGRAMS
2
3
4
5
6
2
7
13 - 20
3
Nov. 1997 © TOSHIBA
Nov. 1997 © TOSHIBA
13 - 21
F
E
D
C
B
A
1
1
2
2
LGC
J70
53325-12V
LGC
J69
53325-8V
12
11
10
9
8
7
6
5
4
3
2
1
[CN12]
8
7
6
5
4
3
2
1
[CN8]
3
3
GND
VDD
SGD
4
RETK12
RETK13
RETK14
RETK15
SCN0
SCN1
SCN2
SCN3
SCN4
SCN5
SCN6
SCN7
LECLK
LERST
LELTH0
LEDAT
DSPON0
4
2E7
2E7
2E7
2E7
2A2
2A2
2B2
2B2
2C2
2C2
2D2
2D2
1B2
1B2
1B2
1B2
1A2
[RETK12]
[RETK13]
[RETK14]
[RETK15]
[SCN0]
[SCN1]
[SCN2]
[SCN3]
[SCN4]
[SCN5]
[SCN6]
[SCN7]
[LECLK]
[LERST]
[LELTH0]
[LEDAT]
[DSPON0]
5
5
6
6
7
7
8
3
3
F
E
D
C
B
A
HINT
How to search for where a signal in a
circuit diagram has jumped to.
Control key circuit (PWA-KEY1) 3/3
3560/70 CIRCUIT DIAGRAMS
HINT
How to search for where a signal in a
circuit diagram has jumped to.
13.2.3
Control key circuit (PWA-KEY2) 1/3
1
2
3
4
5
6
7
8
A
A
[DSPON1]
3B4
DSPON1
VDD
R3 1
R1 1
R2 1
2 1K
2 1K
R4 1
B
2 1K
2 1K
[AZ7932S]
IC1
[LEDAT]
1?2
LEDAT
R8 1
2 1K
26
[LECLK]
1?2
LECLK
R6 1
29
[LELTH1]
1?2
LELTH1
R5 1
2 1K
2 1K
28
SI
D1
LATCH
D2
[LERST]
1?2
LERST
R7 1
2 1K
2
STB
D4
BE0
D5
24
4
LAST
D7
L/R
D8
21
19
16
14
11
9
D14
6
D16
1
8
C1
C4
C2
C3
C5
1
1
2
2
2
13
2
0.1/50
33P/50
33P/50
33P/50
33P/50
18
23
K
A LP13
EXPO8
R11 1
2 100
LTL433G
K
A LP12
EXPO7
R12 1
2 100
LTL433G
K
A LP11
EXPO6
R13 1
2 100
LTL433G
K
A LP10
EXPO5
R14 1
2 100
LTL433G
K
A LP9
EXPO4
R15 1
2 100
LTL433G
K
A LP8
EXPO3
R16 1
2 100
LTL433G
K
A LP7
EXPO2
R17 1
2 100
LTL433G
K
A LP6
EXPO1
R18 1
2 100
LTL16KG
K
A LP5
AUTO
R19 1
2 100
LTL16KG
K
A LP4
PHOT0
R22 1
2 100
LTL16KG
K
A LP3
TIMER
R21 1
2 100
LTL16KG
K
A LP2
P/S
R20 1
2 100
LTL16KG
K
A LP1
INT
B
C
7
D15
1
LTL433G
10
D13
2
2 100
12
D12
1
R10 1
15
D11
1
EXPO9
17
D9
30
A LP14
20
D10
C
K
22
D6
27
LTL433G
25
D3
3
2 100
5
SOUT
CK
R9 1
[VDD]
[VSSL]
[VSSD]
[VSSD]
[VSSD]
[VSSD]
D
D
GND
TH+
[TH+]
2
3B4
SGD
E
NTH42G
E
1
E1
TH-
3B4
[TH-]
F
F
1
1
3560/70 CIRCUIT DIAGRAMS
2
3
4
5
6
7
13 - 22
3
Nov. 1997 © TOSHIBA
HINT
How to search for where a signal in a
circuit diagram has jumped to.
Control key circuit (PWA-KEY2) 2/3
1
2
3
4
5
6
7
8
A
A
[SCN3]
3C4
SCN3
S2 [SWAA]
1
2
S1 [SWAA]
1
3
P/S
4
2
B3F-1000
B
[SCN8]
3C4
3
4
INT
B3F-1000
SCN8
B
S5 [SWAA]
1
2
4
B3F-1000
S3 [SWAA]
1
3
AUTO
2
4
B3F-1000
S6 [SWAA]
1
3
PHOTO
2
S4 [SWAA]
1
3
E/U
4
B3F-1000
2
3
4
E/D
B3F-1000
RETK12
3C4
[RETK12]
RETK13
3C4
[RETK13]
RETK14
3C4
[RETK14]
RETK15
3C4
[RETK15]
C
C
D
D
E
E
F
F
2
1
Nov. 1997 © TOSHIBA
2
3
4
5
6
7
13 - 23
3
3560/70 CIRCUIT DIAGRAMS
3560/70 CIRCUIT DIAGRAMS
13 - 24
F
E
D
C
B
A
1
1
2
2
LGC
J72
53325-6V
LGC
J71
53325-10V
3
3
6
5
4
3
2
1
[CN6]
10
9
8
7
6
5
4
3
2
1
[CN10]
GND
VDD
SGD
TH-
TH+
4
SCN3
SCN8
RETK12
RETK13
RETK14
RETK15
LECLK
LERST
LELTH1
LEDAT
DSPON1
4
2A2
2B2
2C7
2C7
2C7
2C7
1?2
1?2
1?2
1?2
1A2
1E3
1E3
[SCN3]
[SCN8]
[RETK12]
[RETK13]
[RETK14]
[RETK15]
[LECLK]
[LERST]
[LELTH1]
[LEDAT]
[DSPON1]
[TH-]
[TH+]
5
5
6
6
7
7
8
3
3
F
E
D
C
B
A
HINT
How to search for where a signal in a
circuit diagram has jumped to.
Control key circuit (PWA-KEY2) 3/3
Nov. 1997 © TOSHIBA
13.3 Power Supply Circuit (PS-ACC)
[A] 115 V
Nov. 1997 © TOSHIBA
13 - 25
3560/70 CIRCUIT DIAGRAMS
[B] 230 V
3560/70 CIRCUIT DIAGRAMS
13 - 26
Nov. 1997 © TOSHIBA
14. POWER STABILIZING CIRCUIT
14.1 Power Circuit
This power circuit has the following 3 DC outputs.
DC output
Rating
Main load
5V
5.1V±5%
LED eraser array, LCD, LED, logic IC power supplies
24VA – E, I, J
24V±10%
Motors, clutches, high-voltage transformer, scanning motor
24VF – H
24V±10%
RADF, optional sorter, main switch
14.2 Description of Operation
When the main switch on the copier is turned ON, AC power is supplied to the switching power supply,
and then the 5V power supply for the logic ICs, and the 24VF – H DC power supply for the RADF and
sorter are turned ON. At this time, if the door switch is ON (closed), the 24VA – E, I, J DC voltages are
turned ON.
Each of these power circuit is provided with overcurrent protection fuses (excluding 5V) and an overcurrent
protection unit is provided in the circuit to protect the copier’s power circuit in case of an overload or a
power output short.
When these functions are in operation, remove the cause of the overload or short. When a fuse has
blown, replace the fuse. Or, when overcurrent protection in the circuit is in operation, turn the main switch
OFF then ON again to enable circuit operation.
The power circuit is also provided with an overvoltage protection function. This function prevents the
power supply from turning ON to protect electrical components if two different voltages short. If this
happens, remove the cause of the short, and turn the main switch OFF then ON again to enable circuit
operation.
Nov. 1997 © TOSHIBA
14 - 1
3560/70 POWER
14.3 DC Voltage Applications and Related Fuse Numbers
Voltage
Load
Fuse Numbers
+5.1V
For LSIs, logic ICs, LED eraser array, LCD, and display LEDs.
—
ACOFF
For detection of abnormalities in the power supply, and exposure lamp control.
—
+24VA
Main motor (M1)
F7
+24VB
Scanning motor (M2), lens motor (M3), mirror motor (M4), tray-up motor (M13),
+24VC
exit fan (M7), OPT fan (M6, 12, 15), Bottom fan (M8), toner motor (M9), document
ZCINT
F8
motor (M11), aligning clutch (CLT2), transport clutch (CLT1), feed clutch (CLT3 – 5),
total counter
+24VD, E
PFP (pedestal)
+24VI
ADU
+24VJ
LCF
+24VF
RADF
F4
+24VG
Sorter
F5
+24VH
Reset switch (main switch) drive, remote monitoring
F6
F9
[A] DC voltage check
DC output voltages can be checked on following connector pin.
Voltage
Connector
Pin
24VA
J529
1
24VB
J534
2
24VC
J530
11
24VD
J533
7
24VE
J533
8
24VI
J535
1
24VJ
J536
1
24VF
J532
1
24VG
J533
1
24VH
J530
2
5V
J531
5
14.4 AC Voltage
1 Heater lamp voltage
2 Lamp regulator voltage
3 Damp heater voltage
3560/70 POWER
14 - 2
Nov. 1997 © TOSHIBA
14.5 Output Sequence
ON
AC input
500ms or
less
+5V
OFF
4.75V or
more
4.75V or more
20ms or 10ms or
more
more
10ms ~ 120ms
ACOFF
21.6V or more
Reg 1 (Option)
+24V
21.6V or more
0 – 200ms
Reg 2 (Copier)
+24V
21.6V or more
21.6V or more
Zero cross
Nov. 1997 © TOSHIBA
14 - 3
3560/70 POWER
15. PC BOARD ASSEMBLY
15.1 PWA-LGC
Nov. 1997 © TOSHIBA
15 - 1
3560/70 PC BOARD
15.2 PWA-PNL
3560/70 PC BOARD
15 - 2
Nov. 1997 © TOSHIBA
15.3 PWA-KEY
KEY1
KEY2
Nov. 1997 © TOSHIBA
15 - 3
3560/70 PC BOARD
15.4 PWA-ERS
3560/70 PC BOARD
15 - 4
Nov. 1997 © TOSHIBA
15.5 PS-ACC
[A-1] 115V
Nov. 1997 © TOSHIBA
15 - 5
3560/70 PC BOARD
[A-2] 230V
3560/70 PC BOARD
15 - 6
Nov. 1997 © TOSHIBA
Nov. 1997 © TOSHIBA
Grid output
Main charge output
Faston terminal for the developer unit bias output
Guide bias output
Separation output
Transfer output
15.6 PS-HVT
15 - 7
3560/70 PC BOARD
16. WIRE HARNESS CONNECTION DIAGRAM
16.1 AC Wire Harness
G
L
*1
J521
Breaker
100V~: 15A
200V~: 10A
J523-1
Main SW
N
J522
Main SW
J523-2
J80-1
J80-3
Thermostat
D-HTR-L
Door SW
Fuse 1A
Door SW
J80-2
J81-2
J81-1
D-HTR-U1
J82-1
D-HTR-U2
J82-2
J523-3
J523-4
*1
Thermostat
J525-1 J90-3
J90-1 J525-3
Heater lamp
SSR
TRIAC
*1
Fuse
100V~: 10A
200V~: 6.3A
J526-1
J91-1
Lamp regulator
J91-2
J501-3
Option +24V, +5V
(DF, Sorter, RMS, etc.)
J524-2
J526-3
J501-1
J524-1
Exposure lamp
Thermo fuse
Relay
*1
*1
SW.
Reg
SW.
Reg
CKT
Copier +24V
(Motor, clutch, high-voltage, etc.)
*1: Parts inside the switching power supply
Nov. 1997 © TOSHIBA
16 - 1
3560/70 WIRE
16.2 DC Wire Harness Connection Diagram
J239
4
3
K-CTR
2
1
PWA-LGC
PWA-PNL
J1A
CTR-CNT
CTRON
+24V
VDD
VDD
GND
GND
5VD
5VD
SGD
SGD
PNLRST
SCRPSOL
+24V
1
2
3
4
5
6
7
8
9
10
11
12
13
14
B
+24V
TNRMOT
1
2
J275
14
2
13
3
12
4
11
5
10
6
7
9
8
8
9
7
6 10
5 11
4 12
3 13
2 14
1 15
12
11
10
9
8
7
6
5
4
3
2
1
2
2
1
1
J218
J229
8
1
7
2
6
5
4
3
2
1
DG
ATS-IN
+24V
ATSVREF
DEVSW
GND
GND
SFBSW
VDD
9
10
11
3
2
1
+24V
FEDCLTSF
12
13
2
1
BZON
14
GND
PRXD
PACK
PREQ
PERR
MERR-P
MREQ-P
MACK-P
PTXD
GND
J18
1
2
3
4
5
6
7
8
9
10
3
4
5
6
7
8
J60
3
4
5
6
7
8
SCRP-SOL
J546
2
1
J308
4
3
2
1
2
1
4
3
2
1
TNR-MOT
SNR-ATS
J105
M-FED-SW
J212
15
J275
2
1
M-FED-CLT
J60
13
1
J61
10
9
8
7
6
5
4
3
2
1
10
1
9
2
8
3
7
4
6
5
6
5
7
4
8
3
9
2
1 10
J276
J63A
J69
1
2
3
4
5
6
7
8
9
10
11
12
8
7
6
5
4
3
2
1
LECLK
LERST
LELTH0
LEDAT
GND
VDD
SGD
DSPON0
DSPON1
J70
12
11
10
9
8
7
6
5
4
3
2
1
B
SCN3 1
SCN8 2
RETK12 3
RETK13 4
RETK14 5
RETK15 6
SCN2 7
SCN4 8
SCN5 9
SCN6 10
SCN7 11
J68
GND 1
VOP 2
VEE 3
GND 4
VDD 5
UD3 6
UD2 7
UD1 8
UD0 9
LCDENB 10
XSCL 11
LP 12
WF 13
YD 14
J72
6
5
4
3
2
1
J67
CCFL+ 1
2
3
CCFL– 4
J66
RETK0 1
SCN10 2
SCN9 3
SCN8 4
SCN7 5
SCN6 6
SCN5 7
SCN4 8
SCN3 9
SCN2 10
SCN1 11
SCN0 12
J65
1
RETK11 2
RETK10 3
RETK9 4
RETK8 5
RETK7 6
RETK6 7
RETK5 8
RETK4 9
RETK3 10
RETK2 11
RETK1 12
J62
+24V 1
CTRON 2
CTR-CNT 3
GND 4
3560/70 WIRE
16 - 2
PWA-KEY1
B
RETK12 1
RETK13 2
RETK14 3
RETK15 4
SCN0 5
SCN1 6
SCN2 7
SCN3 8
SCN4 9
SCN5 10
SCN6 11
SCN7 12
J64A
LECLK 1
LERST 2
LELTH1 3
LEDAT 4
GND 5
VDD 6
SGD 7
DSPON1 8
TH– 9
TH+ 10
DSPON0 11
J71
10
9
8
7
6
5
4
3
2
PWA-KEY2
1
J77
14
13
12
11
10
9
8
7
6
5
4
3
2
1
LCD
1
2
3
4
T-CTR
Nov. 1997 © TOSHIBA
J307
VDD
GND
LELTH
LEDAT
LECLK
+5VE
+5VE
SGE
SGE
J2A
1
2
3
4
5
6
7
8
9
9
8
7
6
5
4
3
2
1
GND
EXTSH
VDD
10
11
12
J227
3
1
2
2
1
3
GND
CRG1SW
VDD
13
14
15
J114
3
HOME-SW
2
1
VDD
EXPPWM
EXPON
GND
+24V
16
17
18
19
20
RGT3-CLT
J2B
1
9
8
7
6
5
4
3
2
1
J502
4
4
3
3
2
2
1
1
DCH
J104
3
2
1
PS-LRG
J242
EXIT-FAN
2
4
3
+24V
BTM-FAN
3
4
2
1
EXIT-SW
J202
1
2
2
1
2
1
3
4
J204
2
2
1
1
EXT-FAN
BTM-FAN
J43
PWA-LGC
+24V
MMOT-OFF
MMOT-BRK
MMOT-REF
MPLL-OK
GND
VDD
5
6
7
8
9
10
11
MMOT-DIR
TFULSW
12
13
GND
OPT1-FAN-R
+24V
OPT2-FAN-R
+24V
EXIT1-FAN
+24V
14
15
16
17
18
19
20
8
7
6
5
4
3
2
1
8
7
6
5
4
3
2
1
J103
2
1
1
2
J201
2
2
1
1
J209
2
2
1
1
OPT2FAN-R
J244
12
11
10
9
8
7
1
2
3
4
5
6
+24V
MRRD
MRRC
MRRB
MRRA
+24V
7
8
9
10
11
12
6
5
4
3
2
1
7
8
9
10
11
12
DRMTH
GND
13
14
J301
2
1
1
2
1
2
3
GND
MRRSW
VDD
4
5
6
GND
PLTNSW
7
8
VDD
9
10
T-FULL-SW
OPT1FAN-R
J3A
1
2
3
4
5
6
GND
LNSSW
VDD
PS-ACC
J529
J121
2
1
+24V
LNSD
LNSC
LNSB
LNSA
+24V
J3B
J47
1
2
3
4
5
MAIN-MOT
J542
6
6
5
5
4
4
3
3
2
2
1
1
J545
6
6
5
5
4
4
3
3
2
2
1
1
MRR-MOT
DRM-THMS
J243
6
1
5
2
4
3
J102
3
2
1
3
2
1
J113
3
2
1
4
5
6
LNS-MOT
J101
3
2
1
LNS-SW
MRR-SW
PTN-SW
11
12
13
14
Nov. 1997 © TOSHIBA
16 - 3
3560/70 WIRE
J544
J4
SCNB
+24V
SCND
SCNA
+24V
SCNC
1
2
3
4
5
6
6
5
4
3
2
1
DCMO
DCMB
DCMC
DCMA
+24V
+24V
7
8
9
10
11
12
6
5
4
3
2
1
+24V
ERSLP
13
14
J305
2
2
1
1
6
5
4
3
2
1
SCN-MOT
6
5
4
3
2
1
DCM-MOT
J541
J5
PWA-ERS
J310
GND
SORT-SW
VDD
1
2
3
3
2
1
SSR-SW
HTRTH+
HTRTH–
4
5
6
4
3
2
1
HTRTH2+
7
HTRTH2–
SSR+
8
9
10
11
SORTER-SW
J302
4
3
2
1
THMS1-HTR
5
4
3
2
1
THMS2-HTR
J309
PWA-LGC
5
4
3
2
1
J6
J223
J224
J303
+24V
1
5
1
2
1
RSTSW
2
4
2
1
2
1
MAIN-SW
1
J304
J227
GND
PSTPC0
VDD
3
4
5
3
2
1
GND
PSTPCU
VDD
6
7
8
3
2
1
+24V
RGTCLTC0
9
10
2
1
3
4
5
J226
3
2 PSTP0-SW
1
J108
1
2
3
3
2 PSTP1-SW
1
2
1
RGT0-CLT
J214
J222
J7
BIASVREF
HVMVREF
HVTM
HVTPRE
HVACVREF
HVTAC
HVTVREF
HVTDC
1
2
3
4
5
6
7
8
PS-ACC
J534
3560/70 WIRE
16 - 4
10
9
8
7
6
5
4
3
2
1
1
2
3
4
5
6
7
8
9
10
J511
10
9
8
7
6
5
4
3
2
1
10
9
8
7
6
5
4
3
2
1
PS-HVT
Nov. 1997 © TOSHIBA
PWA-LGC
J233
J115
SIZCU3
SIZCU2
J8A
1
2
15
14
1
2
SIZCU1
SIZCU0
GND
3
4
5
13
12
11
3
4
5
GND
TUPCU
VDD
6
7
8
10
9
8
6
7
8
J116
3
2 T-UP1-SW
1
6
5
4
3
2
1
SIZE1-SW
For upper Cassette
GND
PEMPCU
VDD
9
10
11
7
6
5
9
10
11
J117
3
2 EMP1-SW
1
FEDCLTCU
+24V
12
13
4
3
12
13
J211
1
2
1
2
FED1-CLT
14
15
J547
2
1
2
1
T-UP1-MOT
TRMCUA
TRMCUB
14
15
2
1
GND
PSTPCL
VDD
16
17
18
J225
5
1
4
2
3
3
J106
3
2 PSTP2-SW
1
UCOVDOR
GND
19
20
2
1
J107
2
U-COV-SW
1
SIZCL3
SIZCL2
J8B
1
2
15
14
1
2
SIZCL1
SIZCL0
GND
3
4
5
13
12
11
3
4
5
GND
TUPCL
VDD
6
7
8
10
9
8
6
7
8
GND
PEMPCL
VDD
9
10
11
7
6
5
9
10
11
FEDCLTCL
+24V
12
13
4
3
12
13
TRMCLA
TRMCLB
14
15
2
1
14
15
+24V
RGTCLTCU
16
17
18
19
20
2
1
J115
J234
6
5
4
SIZE2-SW
3
2
1
J116
3
T-UP2-SW
2
1
J117
3
2
EMP2-SW
1
J211
1
1
2
2
J547
2
2
1
1
J213
2
2
1
1
For lower Cassette
FED2-CLT
T-UP2-MOT
RGT1-CLT
J533
PS-ACC
+24V
1
DG
2
J237
11
12
SORTER
J254
J9
+24V
+24V
DG
DG
+24V
+24V
DG
DG
DG
VDD
+5VD
SG
SGD
+24VF
DGF
SGE
+5VE
ACOFF
ZCINT
SSR–
SSR+
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
J530
11
10
9
8
7
6
5
4
3
2
1
J10
J531
1
2
3
4
5
6
SG
VDD
DG
DG
+24V
+24V
3
4
5
6
7
8
DG
+24V
J534
1
2
J222
2
1
+5V
DG
SG
J535
1
2
3
4
5
J536
1
2
J255
+24V
DG
J529
1
2
3
4
DG
5
DG
6
J47
5
2
1
J532
1
2
J236
11
12
+24V
6
5
4
3
2
1
6
5
4
3
2
1
+24V
+24V
+24V
+24V
DG
PFP
HVT
1
2
3
4
2
1
ADU
J235
Power
Source
pins
LCF
MAIN-MOT
4
3
ADF
PS-ACC
Nov. 1997 © TOSHIBA
16 - 5
3560/70 WIRE
GND
VDD
APS0
APS1
APS2
VDD
APSF
GND
VDD
APSC
GND
OPTFAN1
+24V
J11
A
1
2
3
4
5
J272
J109
6
7
8
9
10
11
J11
B
1
2
19
18
17
16
15
19
18
17
16
15
5
4
3
2
1
14
13
12
11
10
9
14
13
12
11
10
9
6
5
4
3
2
1
8
7
8
7
3
4
6
5
6
5
GND
5
4
4
VDD
APSR
GND
VDD
APST
GND
6
7
8
9
10
3
2
1
3
2
1
DFACK
DFREQ
MREQ-DF
DF-CNT
11
J12
1
2
3
4
DFRXD
GND
DFTXD
GND
MACK-DF
5
6
7
8
9
1
2
3
4
5
6
7
8
9
10
PS-ACC
J532
11
12
FG
2
1
J306
1
2
3
4
3
2
1
J112
J110
3
2
1
1
2
3
4
5
6
J247
+24V
AESIN
PWA-LGC
APS-3B
2
1
3
2
1
J203
APS-F
APS-C
J111
OPTFAN-F
PWA-AES
APS-R
J236
ADF
FG
SACK
SREQ
MREQ-S
S-CNT
STXD
GND
MACK-S
SRXD
GND
J237
J13
1
2
3
4
1
2
3
4
5
8
9
5
6
7
8
9
10
SORTER
10
PS-ACC
J533
6
7
11
12
J14A
1
2
3
4
5
6
7
8
9
10
J235A
AD-CNT
ENDSW
SIDSW
PEMPAD
PJAM1AD
SIDM-D
SIDM-B
SIDM-C
SIDM-A
+5VSW
J14B
1
2
3
4
5
6
7
8
9
10
J235B
APLL-OK
AMOT-BRK
AMOT-OFF
FDCLT-AD
STCLT-AD
STSOL-AD
ENDM-D
ENDM-B
ENDM-C
ENDM-A
10
9
8
7
6
5
4
3
2
1
ADU
10
9
8
7
6
5
4
3
2
1
J235
PS-ACC
J535
4
3
2
1
J235 Power Source pins
3560/70 WIRE
16 - 6
Nov. 1997 © TOSHIBA
GND
LC-CNT
TRMLC-B
TRMLC-A
FOMLC-B
FOMLC-A
LC-KEY
LC-LED
LCDOR
TDWNLC
PEMPLC
TUPLC
GND
VDD
J15
1
2
3
4
5
6
7
8
9
10
11
12
13
14
J16A
DRV3
DRV2
DRV1
DRV0
DRV7
DRV6
DRV5
DRV4
CLK-D
CLK-C
SIZE-0
SIZE-2
PFPRST
+5VSW
1
2
3
4
5
6
7
8
9
10
11
12
13
14
J241
14
13
12
11
10
9
8
7
6
5
4
3
2
1
J248
28
27
26
25
24
23
22
21
20
19
18
17
16
15
PFP
J16B
PWA-LGC
SCSW-E
SIZE-3
SIZE-1
RETS-0
RETS-1
RETS-3
RETS-2
SCSW-D
SCSW-C
RETS-7
RETS-6
RETS-5
RETS-4
PMOT-REF
1
2
3
4
5
6
7
8
9
10
11
12
13
14
RMS7
RMS6
RMS5
RMS4
RMS3
RMS2
RMS1
RMS0
+24V
GND
J17
1
2
3
4
5
6
7
8
9
10
+24V
CTRON
CTR-CNT
ZMDTCT
ENABLE
ERROR
A3DTCT
VDD
GND
DG
J19
1
2
3
4
5
6
7
8
9
10
LCF
14
13
12
11
10
9
8
7
6
5
4
3
2
1
J20
PCTXD
PCRXD
PCRTS
PCDSR
PCDTR
PCCTS
PC-CNT
VDD
GND
Nov. 1997 © TOSHIBA
16 - 7
1
2
3
4
5
6
7
8
9
3560/70 WIRE
17. UNPACKING PROCEDURE
17.1 Unpacking and Set-up Procedure
for the 3560
(1) Unpacking the copier carton box.
(2) Unpack the accessory package. Remove the
accessory package and other packing material. Below are accessories (accessories vary
according to the destination):
2
Screw (M3 × 6) (black)
2
. Operator’s manual pocket
1
. Copy receiving tray
1
13
. Bracket for fixing handle
13
Plastic cover
( 4 )
( 22 )
( 30 )
4
. Easy set-up instruction
1
. Operator’s manual
1
. Others (vary according to the destination)
(3) Pulling out the handles located on both sides
of the body.
Keep the machine horizontal and the handles
firmly grasped when transporting.
Nov. 1997 © TOSHIBA
17 - 1
3560/70 INSTALLATION
(4) After setting the machine on the appropriate
stand, pushing the handles into the body.
Fix the handles by using the screws and the
brackets included in the package.
(5) Pull out the cassette.
(6) Remove the packing materials and parts
from inside of the cassette.
. Developer bottle
1
( 17 )
Accessories vary according to the destination.
. Power cord
3560/70 INSTALLATION
1
( 22 )
17 - 2
Nov. 1997 © TOSHIBA
(7) Remove the paper from the package.
(8) Set the paper for each cassette.
(9) Insert the cassette gently.
Nov. 1997 © TOSHIBA
17 - 3
3560/70 INSTALLATION
(10) Open the front cover.
(11) Remove the packing screws (four).
(12) Open the upper unit.
3560/70 INSTALLATION
17 - 4
Nov. 1997 © TOSHIBA
(13) Remove the pressure release bracket (2
pcs.) from the fuser unit.
. Remove the toner cartridge (only for
AUD, TWD, SAD, ASD).
(14) Remove the screw (1) and connector (1),
then the process unit.
(15) Place the process unit on a flat surface.
Raise the lever located on each side of the
process unit in the direction of the arrow.
. Remove the developer unit from the
process unit.
Note: If the photoconductor is exposed to fluorescent light or external light for long
time, it may suffer from light-caused
fatigue. So, be sure to cover the process
unit with, for example, a suitable cloth.
Nov. 1997 © TOSHIBA
17 - 5
3560/70 INSTALLATION
(16) Remove the top cover of the developer unit.
(17) Pour in the developer material.
Note: Before pouring in the developer material,
be sure to shake the developer bottle
fully.
By rotating the magnetic roller, check to
make sure that the developer material is
transported properly.
(18) Reinstall the top cover.
Be sure to install the top cover firmly.
3560/70 INSTALLATION
17 - 6
Nov. 1997 © TOSHIBA
(19) After placing the developer unit in the process unit, move down the lever on each side
to fix the developer unit.
(20) Reinstall the process unit into the machine.
Reinstall the screw and connector.
. Be careful not to catch your fingers between the two units when the upper unit
is pressed down.
(21) Close the upper unit and the front cover.
Nov. 1997 © TOSHIBA
17 - 7
3560/70 INSTALLATION
(22) Connect the power cable to the outlet.
. Install the operator’s manual pocket.
(23) Turn on the copier main switch.
(24) Automatic adjustment of the auto-toner
sensor
1. When the power switch is turned on, the
auto-toner sensor is automatically adjusted by the following procedure.
2. “UA” is shown on the message display.
The automatic adjustment of the autotoner sensor starts.
3. The machine starts its operation. The
value on the message display changes.
4. About 2 to 3 minutes later, the value on
the message display stabilizes at
235~245.
3560/70 INSTALLATION
17 - 8
Nov. 1997 © TOSHIBA
5. The automatic adjustment of the autotoner sensor is complete and “Install
new cartridge” is shown on the
message display.
. If the adjustment has finished abnormally, the machine stops its operation
and displays the CALL SERVICE.
Then, for the subsequent adjustment
of the auto-toner sensor, follow the
procedure described in the Service
Manual.
(25) <Procedure for installing the toner cartridge>
Open the front cover.
(26) Shake the new toner cartridge to the right
and to the left 5 or 6 times to loosen the
toner inside.
Nov. 1997 © TOSHIBA
17 - 9
3560/70 INSTALLATION
(27) Pull to remove the seal from the new toner
cartridge.
. Do not shake the toner cartridge after
removing the seal (the toner may spill).
(28) Install the new toner cartridge in the
machine.
. Push the toner cartridge fully in until it
is locked securely.
(29) Close the front cover.
3560/70 INSTALLATION
17 - 10
Nov. 1997 © TOSHIBA
(30) Install the 4 plastic covers to the outer covers.
. The copy receiving tray should be
installed in the slots in the exit cover.
(31) Put the original on the glass.
<Final Check>
(32) Making copies from the cassette and the
bypass, check the following.
. Paper feeding from the cassette is
correct.
. Paper feeding from the bypass feed
guide is correct.
. Automatic duplexer operation is correct
(if ADU is installed).
. Light distribution is correct.
. Fixing and cleaning are correct.
. Exposure level is correct.
. Control
panel
displays
and
key
operation are correct.
Nov. 1997 © TOSHIBA
17 - 11
3560/70 INSTALLATION
* Basic operations
* Special features
– Automatic paper selection (APS), Automatic magnification selection (AMS)
– Duplex mode (if ADU is installed)
– Enlarging and reducing modes
– Interrupting mode
– Dual-page copying
– Edge erase copying
– User set
– Image shifting
– Copy-mode memory
Note: The
packing
material
should
be
disposed of properly.
3560/70 INSTALLATION
17 - 12
Nov. 1997 © TOSHIBA
17.2 Unpacking and Set-up Procedure
for the 3570
(1) Unpacking the copier carton box.
(2) Unpack the accessory package. Remove the
accessory package and other packing material. Below are accessories (accessories
vary according to the destination):
2
Screw (M3 × 6) (black)
2
. Large-capacity feeder
1
( 5-1 )
1
( 5-5 )
. Operator’s manual pocket
1
( 24 )
. Copy receiving tray
1
13
. Bracket for fixing handle
( 4 )
. Fixing parts for the largecapacity feeder
13
Plastic cover
4
. Original feed tray
1
. Easy set-up instruction
1
. Operator’s manual
1
( 32 )
( 34 )
. Others (vary according to the destination)
Nov. 1997 © TOSHIBA
17 - 13
3560/70 INSTALLATION
(3) Pulling out the handles located on both
sides of the body.
Keep the machine horizontal and the
handles firmly grasped when transporting.
(4) After setting the machine on the appropriate
stand, pushing the handles into the body.
Fix the handles by using the screws and the
brackets included in the package.
(5-1) Remove the packing material inside of the
large-capacity feeder.
3560/70 INSTALLATION
17 - 14
Nov. 1997 © TOSHIBA
(5-2) Remove the packing material from the paper feeding side of the copy machine.
(5-3) Insert the pins of the copy machine into
the hinge of the large-capacity feeder.
(5-4) Install the connector.
Nov. 1997 © TOSHIBA
17 - 15
3560/70 INSTALLATION
(5-5) Unpacking the accessory package.
1
( 5-6 )
. Harness cover B
1
( 5-7 )
. Clamp
1
13
. Harness cover A
Screw (M4 × 8) (black)
13
. Hinge fixing bracket
Screw (M4 × 8) (silver)
13
. Connector cover
Screw (M4 × 8) (silver)
( 5-8 )
1
1
1
1
2
( 5-9 )
( 5-11 )
(5-6) Install the harness cover A.
(5-7) Install the harness cover B.
3560/70 INSTALLATION
17 - 16
Nov. 1997 © TOSHIBA
(5-8) Attach the FG harness of the copy
machine to the large-capacity feeder by
screw (M4 × 8, black, 1).
. Attach the clamp to the large-capacity
feeder.
(5-9) Fix the hinge fixing bracket by screw (M4
× 8, silver, 1)
(5-10) Attaching 2 connectors.
After attaching them, fix the harness by
clamp.
Nov. 1997 © TOSHIBA
17 - 17
3560/70 INSTALLATION
(5-11) Fix the connector cover by screw (M4 ×
8, silver, 2).
(6-1) Pull out the automatic duplexing unit.
(6-2) Remove the packing parts.
3560/70 INSTALLATION
17 - 18
Nov. 1997 © TOSHIBA
(6-3) Remove the packing material.
(6-4) Push the automatic duplexing unit into
the body carefully.
(7) Pull out the cassette.
Nov. 1997 © TOSHIBA
17 - 19
3560/70 INSTALLATION
(8) Remove the packing materials and parts
from inside of the cassette.
. Developer bottle
1
( 19 )
Accessories vary according to the destination.
. Power cord
1
( 24 )
(9) Remove the paper from the package.
(10) Set the paper for each cassette.
3560/70 INSTALLATION
17 - 20
Nov. 1997 © TOSHIBA
(11) Insert the cassette gently.
(12) Open the front cover.
(13) Remove the packing screws (four).
Nov. 1997 © TOSHIBA
17 - 21
3560/70 INSTALLATION
(14) Open the upper unit.
(15) Remove the pressure release bracket (2
pcs.) from the fuser unit.
. Remove the toner cartridge.
Accessories vary according to the destination.
(16) Remove the screw (1) and connector (1),
then the process unit.
3560/70 INSTALLATION
17 - 22
Nov. 1997 © TOSHIBA
(17) Place the process unit on a flat surface.
Raise the lever located on each side of the
process unit in the direction of the arrow.
. Remove the developer unit from the
process unit.
Note: If the photoconductor is exposed to fluorescent light or external light for long
time, it may suffer from light-caused
fatigue. So, be sure to cover the process
unit with, for example, a suitable cloth.
(18) Remove the top cover of the developer unit.
(19) Pour in the developer material.
Note: Before pouring in the developer material,
be sure to shake the developer bottle
fully.
By rotating the magnetic roller, check to
make sure that the developer material is
transported properly.
Nov. 1997 © TOSHIBA
17 - 23
3560/70 INSTALLATION
(20) Reinstall the top cover.
Be sure to install the top cover firmly.
(21) After placing the developer unit in the process unit, move down the lever on each side
to fix the developer unit.
(22) Reinstall the process unit into the machine.
Reinstall the screw and connector.
3560/70 INSTALLATION
17 - 24
Nov. 1997 © TOSHIBA
. Be careful not to catch your fingers between the two units when the upper unit
is pressed down.
(23) Close the upper unit and the front cover.
(24) Connect the power cable to the outlet.
. Install the operator’s manual pocket.
. Connect the ADF’s connector to the connector section marked “ADF”.
(25) Turn on the copier main switch.
Nov. 1997 © TOSHIBA
17 - 25
3560/70 INSTALLATION
(26) Automatic adjustment of the auto-toner
sensor
1. When the power switch is turned on, the
auto-toner sensor is automatically adjusted by the following procedure.
2. “UA” is shown on the message display.
The automatic adjustment of the autotoner sensor starts.
3. The machine starts its operation. The
value on the message display changes.
4. About 2 to 3 minutes later, the value on
the message display stabilizes at
235~245.
5. The automatic adjustment of the autotoner sensor is complete and “Install
new cartridge” is shown on the message
display.
. If the adjustment has finished abnormally, the machine stops its operation
and displays the CALL SERVICE.
Then, for the subsequent adjustment
of the auto-toner sensor, follow the
procedure described in the Service
Manual.
(27) <Procedure for installing the toner cartridge>
Open the front cover.
3560/70 INSTALLATION
17 - 26
Nov. 1997 © TOSHIBA
(28) Shake the new toner cartridge to the right
and to the left 5 or 6 times to loosen the
toner inside.
(29) Pull to remove the seal from the new toner
cartridge.
. Do not shake the toner cartridge after
removing the seal (the toner may spill).
(30) Install the new toner cartridge in the
machine.
. Push the toner cartridge fully in until it
is locked securely.
Nov. 1997 © TOSHIBA
17 - 27
3560/70 INSTALLATION
(31) Close the front cover.
(32) Install the 4 plastic covers to the outer covers.
. The copy receiving tray should be
installed in the slots in the exit cover.
(33) Unpacking the accessory package.
. Original feed tray
1
( 34 )
. Screw (M4 × 6) (silver)
2
( 35 )
3560/70 INSTALLATION
17 - 28
Nov. 1997 © TOSHIBA
(34) Remove tape.
(35) Fix the original feed tray temporally by
screw (M4 × 6, silver, 2)
(36) Adjust the original feed tray.
. Prepare an A4 (or Letter) sized test original
by drawing a line in the center of the sheet,
as shown.
. Place the test original 1 face up in the tray.
Adjust the side guides to the edges of the
original.
. Press PRINT to make a copy. Fold the copy
in half to check that the center line is copied in the center of the sheet.
If not, loosen the two screws and adjust the
position of the original feed tray. Repeat the
procedure until the center line on the copy
is in the fold. After the adjustment, tighten
the two screws of the original feed tray.
Nov. 1997 © TOSHIBA
17 - 29
3560/70 INSTALLATION
(37) Put the original on the glass.
<Final Check>
(38) Making copies from the cassette and the bypass, check the following.
. Paper feeding from the cassette is correct.
. Paper feeding from the bypass feed guide
is correct.
. Automatic duplexer operation is correct
(if ADU is installed).
. Light distribution is correct.
. Fixing and cleaning are correct.
. Exposure level is correct.
. Control panel displays and key operation
are correct.
* Basic operations
* Special features
– Automatic paper selection (APS), Automatic magnification selection (AMS)
– Duplex mode (if ADU is installed)
– Enlarging and reducing modes
– Interrupting mode
– Dual-page copying
– Edge erase copying
– User set
– Image shifting
– Copy-mode memory
Note: The packing material should be disposed
of properly.
3560/70 INSTALLATION
17 - 30
Nov. 1997 © TOSHIBA
17.3 Key Copy Counter MU-8/MU-10
To install the key copy counter, the following parts are required:
• MU-10 Counter socket
• MU- 8 Key copy counter
Counter socket
• MU-10
(1) Remove the upper feed cover.
Key copy counter
• MU-8
Screw holes for the socket
Cut the window for the counter.
(2) Remove the blind plate (1 screw) for the 200V
machine.
(3) Pull out the harness connector from the opening in the machine frame.
Disconnect the short connector from the har-
Blind plate
ness.
Note: Remove the rear cover if the harness connector is in the back etc.
Harness connector
Nov. 1997 © TOSHIBA
17 - 31
3560/70 INSTALLATION
(4) Insert the socket connector into the harness
connector.
(5) Install the counter socket to the frame (2 M3
screws).
Socket
connector
Harness connector
(6) Reinstall the upper feed cover.
Screws
(M3)
(7) Insert the key copy counter with its arrow mark
facing up as shown.
3560/70 INSTALLATION
17 - 32
Nov. 1997 © TOSHIBA

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