2.4 V
AC-LS1 AC power adaptor
(not supplied), 4.2 V
1.7W
+
40°C (+32° to +104°F)
0° to
−
20° to +60°C (−4° to +140°F)
126.9 × 58 × 47 mm (5 × 2
7
1
/8 inches)
(W/H/D, protruding portions not
inclu
ded)
“Memory Stick” and wrist strap
included)
3
/8×
BC-CS1 Ni-MH battery charger
Power requirements
Output voltage
Dimensions 70 × 29 × 74 mm (2
MassApprox. 70g (2 oz)
Operating temperature range
AC 100 to 240V 50/60Hz
2.2 W
DC 1.8V 180/110 mA × 2
inches) (W/H/D)
0° to +40°C (32° to +104°F)
7
/8×1 3/16×3
Accessories
•Video connector cable (1)
•R6 (size AA) Ni-MH batteries (2)
•Ni-MH Battery charger (1)
•Power cord (mains lead) (1)
•USB cable (1)
•Wrist strap
•“Memory Stick” (16MB) (1)
•CD-ROM (USB driver: SPV D -00 8) (1)
•Operating Instructions (1)
Design and specifications are subject to change
without notice.
— 2 —
Page 3
Table for differences of function
Model DSC-P51
DSC-P51M
(Note)
US, Canadian, AEP, UK, E,
Destination
USHong Kong, Australian, Chinese,
Korea, Tourist, Japanese
Note : DSC-P51M is the same as DSC-P51 (US model) except packing materials.
Therefore, information about DSC-P51 (US model) in the text is applied.
DSC-P51/P51M
SAFETY-RELATED COMPONENT WARNING!!
COMPONENTS IDENTIFIED BY MARK 0 OR DOTTED LINE WITH
MARK 0 ON THE SCHEMATIC DIAGRAMS AND IN THE PARTS
LIST ARE CRITICAL TO SAFE OPERATION. REPLACE THESE
COMPONENTS WITH SONY PARTS WHOSE PART NUMBERS
APPEAR AS SHOWN IN THIS MANUAL OR IN SUPPLEMENTS
PUBLISHED BY SONY .
SAFETY CHECK-OUT
After correcting the original service problem, perform the following
safety checks before releasing the set to the customer.
1.Check the area of your repair for unsoldered or poorly-soldered
connections. Check the entire board surface for solder splashes
and bridges.
2.Check the interboard wiring to ensure that no wires are
"pinched" or contact high-wattage resistors.
3.Look for unauthorized replacement parts, particularly
transistors, that were installed during a previous repair. Point
them out to the customer and recommend their replacement.
4.Look for parts which, through functioning, show obvious signs
of deterioration. Point them out to the customer and
recommend their replacement.
5.Check the B+ voltage to see it is at the values specified.
6.Flexible Circuit Board Repairing
•Keep the temperature of the soldering iron around 270˚C
during repairing.
• Do not touch the soldering iron on the same conductor of the
circuit board (within 3 times).
• Be careful not to apply force on the conductor when soldering
or unsoldering.
ATTENTION AU COMPOSANT AYANT RAPPORT
À LA SÉCURITÉ!
LES COMPOSANTS IDENTIFÉS P AR UNE MARQUE 0 SUR LES
DIAGRAMMES SCHÉMA TIQUES ET LA LISTE DES PIÈCES SONT
CRITIQUES POUR LA SÉCURITÉ DE FONCTIONNEMENT. NE
REMPLACER CES COMPOSANTS QUE PAR DES PIÈSES SONY
DONT LES NUMÉROS SONT DONNÉS DANS CE MANUEL OU
DANS LES SUPPÉMENTS PUBLIÉS PAR SONY.
Unleaded solder
Boards requiring use of unleaded solder are printed with the leadfree mark (LF) indicating the solder contains no lead.
(Caution: Some printed circuit boards may not come printed with
the lead free mark due to their particular size.)
: LEAD FREE MARK
Unleaded solder has the following characteristics.
• Unleaded solder melts at a temperature about 40°C higher than
ordinary solder.
Ordinary soldering irons can be used but the iron tip has to be
applied to the solder joint for a slightly longer time.
Soldering irons using a temperature regulator should be set to
about 350°C.
Caution: The printed pattern (copper foil) may peel away if the
heated tip is applied for too long, so be careful!
• Strong viscosity
Unleaded solder is more viscous (sticky , less prone to flo w) than
ordinary solder so use caution not to let solder bridges occur such
as on IC pins, etc.
• Usable with ordinary solder
It is best to use only unleaded solder but unleaded solder may
also be added to ordinary solder.
FP-075 ···········································································4-53
4-4. Waveforms ·····································································4-57
4-5. Parts Location································································ 4-61
5.ADJUSTMENTS
Before Starting Adjustment ·······················································5-1
1-1. Adjusting Items when Replacing
Main Parts and Boards ···················································· 5-2
5-1. Camera Section Adjustments··········································· 5-3
1-1. Preparations Before Adjustment······································5-3
1-1-1.List of Service Tools ························································5-3
1-1-2.Preparations ·····································································5-4
1-1-3.Discharging of the Flashlight Power Supply···················5-4
1-1-4.Precautions ······································································5-6
1.Setting the Switch····························································5-6
2.Order of Adjustments ······················································ 5-6
4.Preparing the Flash Adjustment Box·······························5-7
1-2. Initialization of A, B, D, E, F, 7, 9 Page Data ·················5-8
1-2-1.Initialization of A, D Page Data ······································5-8
1.Initializing A, D Page Data··············································5-8
2.Modification of A, D Page Data ······································5-8
4.D Page Table····································································5-8
1-2-2.Initialization of B, E, F, 7, 9 Page Data ··························· 5-9
1.Initializing B, E, F, 7, 9 Page Data ··································5-9
2.Modification of B, E, F, 7, 9 Page Data.··························5-9
7.9 Page Table···································································5-11
1-3. Video System Adjustment ·············································5-12
1.Composite Video Level Adjustment······························5-12
1-4. Camera System Adjustments·········································5-13
Data Setting During Camera System Adjustments········5-13
1.Used the Adjusting Remote Commander ······················5-37
2.Precautions upon Using the Adjusting
Remote Commander······················································ 5-37
2-2. Data Process ··································································5-38
2-3. Service Mode·································································5-39
1.Setting the Test Mode ···················································· 5-39
2.Bit V alue Discrimination ··············································· 5-39
6-1. Exploded Vie ws·······························································6-1
6-1-1.Cabinet (Front) Section ···················································6-1
6-1-2.Cabinet (Rear) Assembly·················································6-2
6-1-3.Lens Block Assembly······················································6-3
6-2. Electrical Parts List ························································· 6-4
DSC-P51/P51M
* The color reproduction frame is shown on page 153.
— 5 —
Page 6
DSC-P51/P51M
When installing a connector, don’t press down at wire of connector.
It is possible that a wire is snapped.
COVER
COVER
SECTION 1
SERVICE NOTE
• NOTE FOR REPAIR
Make sure that the flat cable and flexible board are not cracked of
bent at the terminal.
Do not insert the cable insufficiently nor crookedly.
Cut and remove the part of gilt
which comes off at the point.
(Be careful or some
pieces of gilt may be left inside)
When remove a connector, don’t pull at wire of connector.
It is possible that a wire is snapped.
[Discharging of the ST-068 board’s charging capacitor
(C510)]
The charging capacitor (C510) of the ST -068 board is charged up to
the maximum 300 V potential.
There is a danger of electric shock by this high voltage when the
battery is handled by hand. The electric shock is caused by the
charged voltage which is kept without discharging when the main
power of the unit is simply turned off. Therefore, the remaining
voltage must be discharged as described below.
Preparing the Short Jig
To preparing the short jig, a small clip is attached to each end of a
resistor of 1 kΩ /1 W (1-215-869-11).
Wrap insulating tape fully around the leads of the resistor to prevent
electrical shock.
1 kΩ/1 W
Wrap insulating tape.
Discharging the Capacitor
Short-circuit between the positive and the negative terminals of
charged capacitor with the short jig about 10 seconds.
Capacitor
R:1 kΩ/1 W
(Part code:
1-215-869-11)
1-1
Page 7
DSC-P51/P51M
[Description on Self-diagnosis Display]
Self-diagnosis display
• C: ss: ss
You can reverse the camera
malfunction yourself. (However,
contact your Sony dealer or local
authorized Sony service facility
when you cannot recover from the
camera malfunction.)
• E: ss: ss
Contact your Sony dealer or local
authorized Sony service facility.
Display Code
C:32:ss
C:13:ss
E:61:ss
E:91:ss
E:92:ss
Countermeasure
Turn the power off and on again.
Format the “Memory stick”.
Insert a new “Memory Stick”.
Checking of lens drive circuit.
Checking of flash unit or replacement
of flash unit.
Insert a battery pack correctly.Battery pack is not inserted correctly.
Turn the power off and on again.
Trouble with hardware.
Unformatted memory stick is inserted.
Memory stick is broken.
When failed in the focus and zoom
initialization.
Abnormality when flash is being
charged.
Battery pack was installed or removed
when using the AC adaptor.
Cause
Caution Display During Error
SYSTEM ERROR
FORMAT ERROR
MEMORY STICK ERROR
—
1-2E
Page 8
DSC-P51/P51M
COVER
COVER
SECTION 2
DISASSEMBLY
The following flow chart shows the disassembly procedure.
DSC-P51/P51M
2-1. CABINET (REAR)
BLOCK ASSEMBLY
(Page 2-2)
2-2. PK-062 BOARD
(Page 2-3)
2-3. LCD MODULE
(Page 2-3)
2-7. ST-068 BOARD
(Page 2-5)
SERVICE POSITION
(CD-391 BOARD, PK-062 BOARD, SY-075 BOARD: SIDE B)
(Page 2-2)
2-5. CABINET (FRONT)
BLOCK ASSEMBLY
(Page 2-4)
2-6. CABINET (UPPER)
BLOCK ASSEMBLY
(Page 2-5)
2-4. CD-391 BOARD
(Page 2-4)
2-8. MEMORY STICK
CONNECTOR
(Page 2-6)
2-9. LENS BLOCK
ASSEMBLY
(Page 2-6)
2-12.CH-109,
SY-075 BOARD
(Page 2-8)
SERVICE POSITION
(SY-075 BOARD: SIDE A)
(Page 2-8)
2-10.OPTICAL FINDER
(B148A),
VIDEO LENS
(B147A)
(Page 2-7)
2-11.JK-223 BOARD
(Page 2-7)
2-1
Page 9
DSC-P51/P51M
NOTE: Follow the disassembly procedure in the numerical order given.
2-1. CABINET (REAR) BLOCK ASSEMBLY
OPEN
1 Screw (M2)
8 Cabinet (rear) block assembly
7 FP-067 flexible board
(CN701)
5 Claw
6
2 Screw
(M2)
DC JACK HARNESS LOCATION
3 Two screws (M2)
DC jack
DC jack harness
4 Two claws
[SERVICE POSITION (CD-391 BOARD, PK-062 BOARD, SY-075 BOARD: SIDE B)]
Note 1: Don't use the 12 pin flexible board of CPC-9 jig.
It causes damage to the unit.
Note 2: The old CPC-9 jig (Parts code: J-6082-393-B) Cannot be used,
because it cannot operate the adjustment remote commander.
DC-IN
Adjustment remote
commander
DC jack
SY-075 board
AC power
adaptor
CPC-9 jig
(J-6082-393-C)
(Note 1, 2)
PK-062 board
18
1
1
18
Cabinet (rear) block assembly
CD-391 board
2-2
Page 10
2-2. PK-062 BOARD
DSC-P51/P51M
Note: When installing PK-062 board, connect S257 with
power save knob and S258 with mode knob.
Mode knob
(Note)
5 Three screws
(DIA. 1.7 × 4)
4 LCD flexible board
(CN801)
1 FP-067 flexible board
(CN901)
7 PK-062 board
3 Back light flexible
board
(CN802)
S258
S257
6 Three screws
(DIA. 1.7
×
4)
Power save knob
(Note)
2 Connector (CN902)
2-3. LCD MODULE
1 Two screws
(DIA. 1.7
× 4)
5 LCD module
4 Light guide plate block
3 LCD retainer
2 Two screws
(DIA. 1.7 × 4)
2-3
Page 11
DSC-P51/P51M
2-4. CD-391 BOARD
5 Seal rubber (DQ)
4 Optical filter block
3 CD-391 board
2 Two screws
1 FP-077 flexible board
(M1.7
(CN301)
×
5)
2-5. CABINET (FRONT) BLOCK ASSEMBLY
4 Open the BT lid
5 Screw (M2)
2 Connector
7 Claw
(CN601)
3 Tape
1 FP-075 board
(CN602)
8 Cabinet (front) block
assembly
6 Screw (M2)
2-4
Page 12
2-6. CABINET (UPPER) BLOCK ASSEMBLY
9 Cabinet (upper) block assembly
1 Screw (M2)
DSC-P51/P51M
2 Claw
8 Flexible board
(CN706)
Note: High-voltage cautions
(See page 1-1).
7
6 Boss
5 Claw
4
3 Screw (DIA. 1.7 × 4)
2-7. ST-068 BOARD
4 ST-068 board
3 FP-530 flexible board
(CN502)
1 Claw
2
Note: High-voltage cautions
(See page 1-1).
2-5
Page 13
DSC-P51/P51M
2-8. MEMORY STICK CONNECTOR
1 Connector (CN703)
2 Two screws (M1.7)
4 Memory stick connector
2-9. LENS BLOCK ASSEMBLY
7 Boss
5 FP-072 flexible board
(CN704)
3 FP-529 flexible board
3 FP-536 flexible board
(CN708)
4 Flexible board
(CN203)
2 FP-070 flexible board (CN201)
8 Lens block assembly
1 FP-077 flexible board
(CN102)
Claw
Claw
-BOTTOM VIEW -
2-6
6 Claw
Page 14
2-10.OPTICAL FINDER (B148A), VIDEO LENS (B147A)
5 Screw (DIA. 1.7
DSC-P51/P51M
×
4)
3 Screw (DIA. 1.7
×
4)
4 Lens frame (L)
assembly
6 Two screws
(DIA. 1.7
8 Video lens (B147A)
×
4)
7 Optical finder (B148A)
2 Lens frame (R)
1 Screw (DIA. 1.7
×
4)
2-11.JK-223 BOARD
3 FP-072 flexible board
Lens block assembly
4 JK-223 board
2 Jack fixed plate
1 Screw (DIA. 1.7 × 4)
2-7
Page 15
DSC-P51/P51M
2-12.CH-109 BOARD, SY-075 BOARD
6 Flexible board
(CN706)
7 FP-530 flexible board
(CN707)
1 Connector (CN001)
2 DC jack
5
9 SY-075 board
4 Two screws (DIA. 1.7
×
4)
3 Connector (CN002)
[SERVICE POSITION (SY-075 BOARD: SIDE A)]
Adjustment remote
commander
Memory stick
connector
CPC-9 jig
(J-6082-393-C)
(Note 1, 2)
18
1
Note 1: Don't use the 12 pin flexible board of CPC-9 jig.
It causes damage to the unit.
Note 2: The old CPC-9 jig (Parts code: J-6082-393-B) Cannot be used,
because it cannot operate the adjustment remote commander.
( ) : Number in parenthesis ( ) indicates the division number of schematic diagram where the component is located.
13
−
+
12
IC203 (3/4)
IRIS DRIVE
(3/8)
8
+
–
IC201 (2/2)
IRIS DRIVE
(3/8)
7
IC203 (4/4)
HALL AMP
(3/8)
14
10
9
5
+
–
6
PRELAMP AF ON
SELF TIMER LED
LENSV CLOSE ON
LENSV OPEN ON
D205
Q202
IRIS
DRIVE
Q204
CONTROL
43
46
20
21
23
24
IC203 (1/4)
HALL GAIN
BIAS
OUT7A
OUT7B
OUT3A
OUT3B
OUT4A
OUT4B
CONTROL
(3/8)
1
SHUTTER
DRIVER
FOCUS
MOTOR
DRIVE
IC201 (1/2)
IRIS DRIVE
(3/8)
2
–
1
+
3
IC203 (2/4)
HALL BIAS
CONTROL
(3/8)
5
7
+
–
IN7
IN3
IN4
6
31
48
47
33PS
7
5
8
6
3
+
–
2
VLIM
EN7
EN3
EN4
IRIS CONT1
IRIS CONT2
HALL REF
HALL GAIN
HALL OFFSET
MSHUT REF
HALL AD
LENSV BREAK
LENS TEMP AD
XCAM DR PS
MSHUT ON
MSHUT EN
HR EN0
HR DIR0A
HR DIR0B
CAMERA BLOCK 2
18
CAMERA BLOCK 2
17
(3-6)
(3-5)
OPTICAL VIEWFINDER BLOCK
M901
LENS BARRIER
MOTOR
FP-075 FLEXIBLE BOARD
LENS
BARRIER
SENSOR
FP-069 FLEXIBLE BOARD
D001
SELF TIMER/
AF ILLUMINATOR
ZOOM
MOTOR
M
FOCUS RESET
SENSOR
ZOOM
SENSOR
OVF ZOOM
SENSOR
OVF
ZOOM
MOTOR
M
M
PRELAMP LED ON
ZOOM A
17
ZOOM A
21
ZOOM B
15
ZOOM B
19
XFC RST SENS
8
XZM RST SENS
7
CN203
OVF SENS RST
1
OVF A
8
OVF A
6
OVF B
7
OVF B
5
CN601
OUT2
2
OUT1
1
CN602
XSENCV OPEN
3
XSENCV CLOSE
4
CN708
5
6
FB601
FB602
Q703
LED
DRIVE
D 2.9V
OUT5A
37
OUT5B
38
41
OUT6A
OUT6B
42
14
OUT1A
15
OUT1B
17
OUT2A
18
OUT2B
7
6
ZOOM
MOTOR
DRIVE
ZOOM
DRIVE
IC202
7ch LENS DRIVER
(3/8)
IC601
LENS MOTOR
DRIVE
(2/8)
OUT1
OUT2
OVF
IN1
IN2
EN5
EN6
IN6
IN1
EN1
36BR5
3
1
2
12
11
2
3
HR EN1
HR DIR1B
HR DIR2A
HR EN2
XFC RST SENS
XZM RST SENS
XOVF RST SENS
XSENCV OPEN
XSENCV CLOSE
CAMERA BLOCK 1
2
(3-4)
05
3-73-8
Page 22
COVER
COVER
3. BLOCK DIAGRAMS
3. BLOCK DIAGRAMS
DSC-P51/P51M
3-5. VIDEO FLASH MODE CONTROL BLOCK DIAGRAM
PK-062 BOARD (2/3)
BEEP
Q402
MODULATOR
79
MELODY
10MHz IN
10MHz OUT
32kHz IN
32kHz OUT
XTALLY_LED
AV JACK IN
IC401
(1/3)
CHARGE/XSTB LED
XPWR ON
XAE LOCK ON
XSHTR ON
MODE DIAL
KEY AD1
KEY AD3
BATT/XEXT
CAMERA
BLOCK 2
(3-6)
CAMERA
BLOCK 1
(3-4)
CAMERA
BLOCK 2
(3-6)
CAMERA
BLOCK 1
(3-4)
CAMERA
BLOCK 2
(3-5)
21
13
20
7
24
05
CN901 (2/4)
FR SI
23
FR SO
24
XFR SCK
25
XMS IN
36
XMC NMI
29
XMC HELP
30
PAL/XNTSC
31
BLOCK
(3-11)
(BACK UP)
INITIAL RESET,
BACK UP VCC
XCS MC
28
SELF TIMER LED
38
SYS V
40
XRST SYS
33
LCD BLOCK
USB JACK IN
35
LCD
BT401
LITHIUM
BATTERY
EVER 4V
IC402
(1/3)
(3-11)
25
22
CVCHK OUT
LANC IN
LANC OUT
XCPC IN
37
VIN
VBAT
RESET
S401
RESET
XRST SYS
FR SI
FR SO
XFR SCK
XMC NMI
XMC HELP
PAL/XNTSC
XMS IN
INVERTER
INVERTER
32.768 kHz
IC401 ts REC/PB
Q405
Q404
1.32 Vp-p
FR SI
23
24
FR SO
XFR SCK
25
80
MC WAKE UP
36
XMC HELP
72
PAL/XNTSC
LANC IN
39
40
LANC OUT
10
LANC JACK IN
735
XRESET
XCS MC
26
19
SELF TIMER LED
32
SYS V
XRST SYS
77
6
MS IN
9
XUSB JACK IN
FRONT CONTROLLER
( ) : Number in parenthesis ( ) indicates the division number of schematic diagram where the component is located.
1
AV JACK IN
34
STB CHARGE
79
XSTB FULL
80
19
17
XPWR LED
16
XAE LOCK SW
18
20
BATT/XEXT
59
BZ901
BUZZER
CVCK OUT
XSTB
PWRSAVE
XPWR ON
XSHTR ON
SY-075 BOARD (4/4)
34
CAMERA
BLOCK 2
CN701
(5/5)
19
(3-6)
CAMERA
BLOCK 1
12
(3-4)
3737
ST UNREG
79
80
19
CAMERA
BLOCK 1
10
(3-4)
17
16
18
20
59
H
IC651 6 REC/PB
VAMP ON
CV OUT
XPWR ON
XPWR LED
XAE LOCK SW
XSHTR ON
BATT UNREG
ACV UNREG
BATT/XEXT
460 mVp-p
CN707
STRB ON
CN706
CN002
CN001
7
POWERSAVE
VIDEO -IN
6
1
3
4
9
10
12
6
3
10
8
4
3
2
1
2
1
3
H
IC651 4 REC/PB
IC651
VIDEO AMP
(2/8)
V-OUT
ST UNREG
STB CHARGE
XSTB FULL
XSTB PWRSAVE
STRB ON
BT901
BATTERY
TERMINAL
1.9 Vp-p
CN704
(2/2)
4
2
1
V OUT
AV JACK IN
ST-068 BOARD
CN502
Q501, 502
12
11
10
9
4
3
1
Q503,
509
POWER
POWER
TRANS
S402
D401
(SHUTTER)
CONTROL SWITCH BLOCK
+
–
J001
DC IN
DRIVE
10 MHz
IC401 wk REC/PB
28
X401
10MHz
29
52
32.768kHz
51
15
11
LED
DRIVE
16
46STB CHG
34XTSB FULL
75XSTB PWRSAVE
1
17XPWR LED ON
5
4
54
55KEY AD0
56
58
S252
W
8
Q901
BUZZER
AMP
2.3 Vp-p
X402
XTALLY LED
AV JACK IN
CHARGE LED
Q254 (1/2)
MODE DIAL
SP+/BEEP OUT
XTALLY LED
(TALL/ACCESS (RED))
AV JACK IN
CHARGE LED
(STBR/CHARGE (AMBER))
S258
MODE
DIAL
S253
CONTROL
S255, 256
FUNCTION
SWITCH
S254
TZOOM
D252
D254
OFF
ON
CN902
CN901
S257
POWER
SAVE
(3/4)
S401
4
1
3
Q504
FLASH
CHARGE
DETECTOR
M 5V
JK-223 BOARD (2/2)
CN201
9
10
T501
5
2
Q505 − 507
FLASH
CONTROL
D502
C510
CHARGING
CAPACITOR
+
Q508
L502
J201
VIDEO
OUT
XE H
TRIGGER
XE L
FLASH
UNIT
3-93-10
Page 23
DSC-P51/P51M
COVER
COVER
3. BLOCK DIAGRAMS
3. BLOCK DIAGRAMS
3-6. LCD BLOCK DIAGRAM
PK-062 BOARD (3/3)
H
IC801 rh REC/PB
25
CAMERA BLOCK 1
(3-4)
CAMERA BLOCK 1
(3-4)
CAMERA BLOCK 2
(3-6)
CPC
(FOR CHECK)
11
3
23
BL L1
HSY
PANEL COM
CPC IN
LANC IN
LANC OUT
CN901 (4/4)
PANEL R
7
PANEL G
9
PANEL B
11
MODE CONTROL
PANEL V
44
HDO
43
LCD SO
48
XLCD SCK P
47
XCS PANEL TG
49
CN903
BL L1
1
PANEL HDO
7
PANEL COM
8
PANEL VG
9
VC
CVCHK OUT
2CVCHK OUT
XCPC IN
5
LANC IN
11
LANC OUT
12
05
VIDEO, FLASH,
BLOCK (3-9)
( ) : Number in parenthesis ( ) indicates the division number of schematic diagram where the component is located.
360 mVp-p
XRST SYS
22
VIDEO, FLASH,
MODE CONTROL
BLOCK
(3-9)
PANEL R
PANEL G
PANEL B
H
IC801 rj REC/PB
XLCD SCK P
XCS PANEL TG
LCD SO
XLCD SCK P
XCS PANEL TG
PANEL V
XRST SYS
HDO
PANEL HDO
BL L1
360 mVp-p
500 mVp-p
H
IC801 rk REC/PB
R-IN
48
G-IN
47
B-IN
46
SI
40
XSCK
39
XCS
41
OP IN+
46
SI
45
SO
42
XSCK
44
XCS
48
XVD
36
POCB
1
HDI
2
HDB
BIAS
OP IN–
78 910
FILTER
29
PD
V
IC802 rk REC/PB
H
IC802 1 REC/PB
OP OUT
2.8 Vp-p
2.8 Vp-p
LCD DRIVE
LCD DRIVER
VCO
11
C821,
L805,
OSC
R820
27 26
OSCI
OSCO
IC802
LCD TIMING
GENERATOR
(2/3)
IC801
(2/3)
BLACK IN
BGP
FRP
3239333730402941452538
SW
FRP
BGP
5.24 MHz
IC802 wj REC/PB
COM FRP
XP. SAVE
COM FRP
DR. P. SAVE
2H
IC801 w; REC/PB
XC. SAVE
28
XC. SAVE
4.2 Vp-p
BL ON
4
3.7 Vp-p
EXT DA2
COM OUT
EXT DA1
VR
VG
VB
GSRT
STBYB
RESET
SRT
OE
CLR
MCLK
HCNT
20
22
24
37
27
35
2H
IC801 wj REC/PB
14GRES
15GPCK
16
17
18
20
21
22
23
24
2H
IC801 ws REC/PB
5.3 Vp-p
BACK LIGHT
CONTROL
3.0 Vp-p
IC803
(2/3)
PANEL VG
PANEL COM
2H
IC801 wf REC/PB
1
+
4
3
–
3.0 Vp-p
Q807, 809, 810
BACK LIGHT
DRIVE
BACK LIGHT
SWITCH
Q808
CN801
CN802
PANEL UNIT
VR
19
VG
20
VB
21
VCOM
11
LCD901
COLOR
LCD
GRES
6
GPCK
7
GSRT
8
STBYB
9
STBYB
13
RESET
10
SRT
14
OE
15
CLR
16
MCLK
17
HCNT
18
BL H
4
BL THL
3
MONITOR
D901
BACK LIGHT
3-113-12
Page 24
COVER
COVER
3. BLOCK DIAGRAMS
3. BLOCK DIAGRAMS
DSC-P51/P51M
3-7. POWER BLOCK DIAGRAM 1
FLASH
UNIT
SY-075 BOARD (1/2)
J001
DC IN
BT901
BATTERY
TERMINAL
+
–
2
1
3
4
3
2
1
05
CN001
ACV UNREG
BATT/XEXT
ACV GND
CN002
BATT UNREG/+
BATT UNREG
BATT GND/-
D002, 003
Q004, 006
Q001
Q002, 007, 008,
010, 011
SWITCH
CONTROL
( ) : Number in parenthesis ( ) indicates the division number of schematic diagram where the component is located.
IC003
(8/8)
L010
REG2
STB
REG3
REG1
L020
CAM 15V
CAM −7.5V
A 4.9V
A 2.9V
D 2.9V
D 3.1V
M 5V
D 1.5V
CAM DD ON
D010
L009, 014
L011
L012
L013
L017
L018
SWITCHING
6
1
4
8
Q039, 040
L023
D019
B
D016
IC002
(7/8)
DC/DC
CONVERTER
Q034, 035, 038
SWITCHING
L021
POWER BLOCK 2
(3-16)
CN701
L016
D 1.5V
D 3.1V
D 2.9V
A 2.9V
A 4.9V
M 5V
CAM 15V
CAM DD ON
CAM −7.5V
EVER 3.2V
SYS DD ON
FAST CHARGE
STB CHARGE
XCS DDCON
UNREG SO
UNREG SCK
BATT/XEXT
74
75
65
63
7373
6969
68
62
67
64
6666
60
76
72
70
79
57
55
56
59
ST-068 BOARD
BATT/XEXT
FAST CHARGE
FLASH
DRIVE
T501
Q505,
Q507,
Q508
STB CHARGE
SYS DD ON
XCS DDCON
UNREG SO
UNREG SCK
EVER 3.2V
Q506
STRB ON
F001
F007
F006
F002
F003
F004
F005
Q501, 502
57
CONT
44
XCS
45
DATA
46
CLK
47
RST
48
LD ON
56
VCC1
CN502
12
10
2
9
IC001
DC/DC CONTROL
(8/8)
VCC2
OUT 1p
OUT 1n
VIN 1–
OUT 3p
VIN 3–
VCC3
VCC5
OUT 4p
OUT 4n
VIN 4–
OUT 5p
OUT 5n
OUT 5S
VIN 5–
OUT 6p
OUT 6n
OUT 6S
VIN 6–
OUT 9
IN 9–
SCP 9
VCC4
OUT 10
AMP IN
AMP OUT
IN 10
SCPIN
ST UNREG
M 5V
STB CHARGE 5V
41
D005
36
37
55
32
54
42
20
30
31
53
38
39
43
52
28
29
18
50
L002
23
80
1
19
22
4
5
−
3
10
L005
1
3
11
4
L006
L003
SWITCHING
CN707
Q022
ST UNREG
BATT UNREG
ACV UNREG
Q017, 020
SWITCHING
Q033, 044
SWITCHING
Q023, 026
SWITCHING
Q024, 027
SWITCHING
D009 D011
Q013
EMERGENCY
DETECT
D014
D006
Q704
2
VDD
D017
L007L015
L025
L001
Q028
Q029
Q019
SWITCHING
OUT
Q018, 021
SWITCHING
Q042, 043
SWITCHING
1
IC004
BATTERY DETECT
(7/8)
L008
VCC
7
VEE
3
−
7.5V/13.5V/15V REG.
3-133-14
BATT UNREG
ACV UNREG
EVER 4V
DD CON SENS
D 2.9V
PANEL 2.9V
PANEL 4.9V
BL VO+
PANEL 13.5V
BUZZER 15V
PANEL −15V
−
BL VO
EVER 3.2V
SYS DD ON
FAST CHARGE
STB CHARGE
XCS DDCON
UNREG SO
UNREG SCK
BATT/XEXT
PK-062 BOARD (1/2)
CN901
74
75
65
63
68
62
67
64
60
76
72
70
79
57
55
56
59
BATT UNREG
ACV UNREG
EVER 4V
DD CON SENS
PANEL 2.9V
PANEL 4.9V
BL VO+
PANEL 13.5V
BUZZER 15V
PANEL −15.5V
BL VO
EVER 3.2V
SYS DD ON
FAST CHARGE
STB CHARGE
XCS DDCON
UNREG SO
UNREG SCK
BATT/XEXT
D 2.9V
POWER BLOCK 2
A
(3-15)
−
Page 25
DSC-P51/P51M
COVER
COVER
3. BLOCK DIAGRAMS
3. BLOCK DIAGRAMS
3-8. POWER BLOCK DIAGRAM 2
PK-062 BOARD (2/2)
IC402
05
A
POWER
BLOCK1
(3-14)
LITHIUM BATTERY
EVER 4V
EVER 3.2V
SYS DD ON
FAST CHARGE
STB CHARGE
XCS DDCON
UNREG SO
UNREG SCK
BATT/XEXT
DD CON SENS
BATT UNREG
ACV UNREG
D 2.9V
BUZZER 15V
PANEL 4.9V
PANEL −15.5V
PANEL 13.5V
PANEL 2.9V
BL VO–
BL VO+
BACK LIGHT
BT401
(BACK UP)
IC803
CONTROL
(2/3)
Q802
INITIAL RESET, BACK UP VCC
Q812
L801
L802
IC802
LCD TIMING
GENERATOR
(2/3)
(1/3)
VBAT
3
VRO
8
VIN
7
RESET
L804
L803
( ) : Number in parenthesis ( ) indicates the division number of schematic diagram where the component is located.
SY-075 BOARD (2/2)
VOUT
CS
IC801
LCD
DRIVER
(2/3)
IC401
FRONT CONTROLLER
(1/3)
L401
BACKUP VCC
6
4
5
31 BATT IN
73 XRESET
76
SYS DD ON
FAST CHARGE
48
46 STB CHG
22
XCS DDCON
20
UNREG SO
21
UNREG SCK
8
BATT/XEXT
66
DD CON SENS
BATT SENS
67
68 ACV SENS
CN902
CN903
AVC UNREG
BL L2
CN801
CN802
B
POWER
BLOCK1
1
10
UNREG
6
BL L2
VGH
1
VGL
3
VDD
4
VDD
23
VSH
24
BL L
6
BL THH
1
BZ901
BUZZER
CPC
(FOR CHECK)
PANEL UNIT
MONITOR
BACK LIGHT
LCD901
COLOR
LCD
D901
(3-14)
CAM 15V
CAM −7.5V
A 4.9V
A 2.9V
D 3.1V
M 5V
D 1.5V
D 2.9V
CAM DD ON
Q701
L502
34
33
29
31
32
36
D701
L501
30
D23/PTA (7)
L601
IC601
LENS
MOTOR
DRIVE
FB502
IC501
MC CAM, SH DSP
(4/8)
CAM 15V
CAM −7.5V
A 4.9V
A 2.9V
A 2.9V
D 3.1V
D 2.9V
FB501
L203
L651
IC651
VIDEO AMP
198
D 2.9V
M 5V
7ch LENS DRIVER
(2/8)
PTM (6)
CH-109 BOARD
CN101CN705
37
38
5V
R124
42
R123
40
39
36
L204
L202
IC202
(3/8)
FB303
IC302
64M
SDRAM
(2/8)
D 3.1V
L206
IC204
(D/A CONV.)
L101
3V
L103
FB105
L102
Q203
XLENS RST LED
D 1.5V
D 2.9V
EVR
(3/8)
FB102
FB06
Q201
CN703
CN201
CN203
A 2.9V
IC503
EEPROM
(5/8)
L205
FB103
40 HCVDD
46 FE3V
47 DRV3V
44 TG3V
2
9
10
2
IC203
HALL AMP
(3/8)
CAMERA
MODULE
VCC
MEMORY
STICK
ZM SENS VCC
FC SENS VCC
OVF SENS VCC
FB504
IC502
16M FLASH
(5/8)
FB101
IC101
IRIS DRIVER
CN102
CAM 15V
CAM −7.5V
FB781
IC201
(3/8)
19
3
LENS ASSY
ZOOM
ZOOM
SENSOR
SENSOR
FOCUS
SENSOR
L781
IC781
CLOCK GEN.
(5/8)
CAM 15V
CAM −7.5V
FB302
CD-391 BOARD
CN301
19
3
FB301
CCD IMAGER
OPTICAL
VIEWFINDER
BLOCK
SENSOR
FB301
L301
IC301
CAMERA DSP
(1/8)
IC301
OVF
ZOOM
L302
L301
XLENS RST LED
198
PIO01
3-153-16E
Page 26
COVER
COVER
SECTION 4
PRINTED WIRING BOARDS AND SCHEMATIC DIAGRAMS
4-1. FRAME SCHEMATIC DIAGRAM (1/2)
4-2. SCHEMATIC DIAGRAMS4-3. PRINTED WIRING BOARDS
4-2. SCHEMATIC DIAGRAMS4-3. PRINTED WIRING BOARDS
DSC-P51/P51MDSC-P51/P51M
1
3
OVF
5
6842
7
914111216
D902
SELF TIMER/
AF ILLUMINATOR
13
1510
A
FP-536
12345
CP_LED
XSENCV_CLOSE
XSENCV_OPEN
N.C.
12345
6P
CN708
SENC_GND
AF_LED_5V
N.C.
6
8PCN203
OVF_SENS_PST
B to B
1
2
3
4
5
6
7
8
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
41
43
45
47
49
51
53
55
57
59
61
63
65
67
69
OVF_SENS_VCC
OVF_SENS_GND
NC
OVF_B
OVF_A
OVF_B
OVF_A
CN201 21P
DRIVE-
DRIVE+
HALL-
BIAS+
BIAS-
HALL+
XZM_RST_SENS
XFC_RST_SENS
ZM_SENS_VCC
FC_SENS_VCC
REG_GND
REG_GND
TEMP_OUT
FOCUS_B
ZOOM_B
FOCUS_A
ZOOM_A
FOCUS_B
ZOOM_B
FOCUS_A
ZOOM_A
REG_GND
REG_GND
REG_GND
CA_AD12
CA_AD10
CA_AD8
CA_AD6
CA_AD4
CA_AD2
CA_AD0
REG_GND
XTG_CS
XCAM_SO
REG_GND
A_4.9V
A_2.9V
CAM_-7.5V
D_3.1V
REG_GND
REG_GND
REG_GND
CLPDM
CA_HD
REG_GND
REG_GND
REG_GND
CCD_TEMP
REG_GND
REG_GND
REG_GND
REG_GND
REG_GND
REG_GND
REG_GND
70PCN705
TG_CLK
REG_GND
CA_AD13
CA_AD11
CA_AD9
CA_AD7
CA_AD5
CA_AD3
CA_AD1
REG_GND
XGCAM_CS
XCAM_SCK
REG_GND
REG_GND
CAM_15V
TG_WEN
REG_GND
REG_GND
REG_GND
REG_GNDREG_GND
REG_GND
REG_GND
XCAM_RESET
VSUB_CONT
REG_GND
REG_GND
REG_GND
REG_GND
REG_GND
REG_GND
REG_GND
MCK12
A_2.9V
CLPOB
CA_FD
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
42
44
46
48
50
52
54
56
58
60
62
64
66
68
70
6PCN602
CN301
B
C
CD-391 BOARDLENS BLOCK
D
CCD_TEMP
CAM_-7.5V
VSUB_CONT
CCD_OUT
CAM_15V
20P
GND
1
2
3
GND
4
V4
5
V3A
6
V3B
7
V2
8
V1A
9
V1B
10
VSHT
11
RG
12
H1
13
H2
14
15
GND
16
17
GND
18
19
GND
20
FP-070
E
FP-077
1011121314151617181920
H2
CCD_OUT
GND
H1
VSUB_CONT
20P
GND
CN102
GND
CAM_15V
F
V2
RG
V1A
V3B
V1B
VSHT
V3A
G
H
CH-109 BOARD
I
J
123456789
V4
GND
CAM_-7.5V
CCD_TEMP
GND
REG_GND
70
REG_GND
68
REG_GND
66
CA_AD12
64
CA_AD10
62
CA_AD8
60
CA_AD6
58
CA_AD4
56
CA_AD2
54
CA_AD0
52
REG_GND
50
XTG_CSXGCAM_CS
48
XCAM_SO
46
REG_GND
44
A_4.9V
42
A_2.9V
40
CAM_-7.5V
38
D_3.1V
36
REG_GND
34
REG_GND
32
REG_GND
30
REG_GND
28
CLPDM
26
CA_HD
24
REG_GND
22
REG_GND
20
REG_GND
18
CCD_TEMP
16
REG_GND
14
REG_GND
12
REG_GNDREG_GND
10
REG_GND
8
REG_GND
6
REG_GND
4
REG_GND
2
CN101
TG_CLK
REG_GND
CA_AD13
CA_AD11
CA_AD9
CA_AD7
CA_AD5
CA_AD3
CA_AD1
REG_GND
XCAM_SCK
REG_GND
REG_GND
CAM_15V
TG_WEN
REG_GND
REG_GND
REG_GND
REG_GND
REG_GND
REG_GND
XCAM_RESET
VSUB_CONT
REG_GND
REG_GND
REG_GND
REG_GND
REG_GND
REG_GND
MCK12
A_2.9V
CLPOB
CA_FD
70P
69
67
65
63
61
59
57
55
53
51
49
47
45
43
41
39
37
35
33
31
29
27
25
23
21
19
17
15
13
11
9
7
5
3
1
6
N.C.
N.C.
AF_LED_5V
PRELAMP_LED_ON
PRELAMP_LED_ON
SY-075 BOARD (1/2)
2P
CN601
1 OUT1
2 OUT2
10PCN704
N.C.
USB_JACK_IN
V_OUT
REG_GND
REG_GND
AV_JACK_IN
123456789
REG_GND
REG_GND
D+
D-
10
FP-075 FLEXIBLE BOARD
K
CN201
AV JACK
J201
JK-223 BOARD
CN202
L
05
VCC
1
D-
2
D+
3
4ID
5
GND
5P
USB
4-14-2
AV_JACK_IN
REG_GND
REG_GND
USB_JACK_IN
REG_GND
REG_GND
V_OUT
10P
10
9
8
N.C.
7
6
5
4
D-
3
D+
2
1
FP-072
FRAME (1/2)
Page 27
DSC-P51/P51M
COVER
COVER
FRAME SCHEMATIC DIAGRAM (2/2)
4-2. SCHEMATIC DIAGRAMS4-3. PRINTED WIRING BOARDS
4-2. SCHEMATIC DIAGRAMS4-3. PRINTED WIRING BOARDS
1
3
FLASH UNIT
5
6842
7
914111216
13
1510
A
ST-068 BOARD
BZ901
REG_GND
REG_GND
REG_GND
REG_GND
REG_GND
REG_GND
REG_GND
XPWR_LED
XSHTR_ON
REG_GND
FR_SO
REG_GND
XCS_MC
XMC_HELP
REG_GND
XMS_IN
SYS_V
REG_GND
PANEL_V
REG_GND
LCD_SO
REG_GND
REG_GND
REG_GND
REG_GND
BL_VO-
BL_VO+
BUZER_15V
EVER_3.2V
REG_GND
XSTB_FULL
BUZZER
PK-062 BOARD
2
4
6
8
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
42
44
46
48
50
52
54
56
58
60
62
64
66
68
70
72
74
76
78
80
CN903
CVCHK_OUT
REG_GND
CPC_IN
PANEL_COM
UNREG
LANC_IN
LANC_OUT
MAKER_RECOG
CN802
BL_THH
BL_THL
BL_L1
BL_L2
BL_H
HCNT
MCLK
STBYB
VCOM
RESET
STBYB
GSRT
GPCK
GRES
18P
1
2
3
N.C.
4
5
6
7
HSY
8
9
VG
CPC
(FOR CHECK)
10
11
12
13
14
N.C.
15
N.C.
16
N.C.
17
N.C.
18
N.C.
6P
1
N.C.
2
3
4
N.C.
5
BL_L
6
24PCN801
VSH
24
VDD
23
VSS
22
VB
21
VG
20
VR
19
18
17
CLR
16
OE
15
SRT
14
13
VBC
12
11
10
9
8
7
6
N.C.
5
VDD
4
VGL
3
VSS
2
VGH
1
12PCN502
B
STB_CHARGE
ST_UNREG
ST_UNREG
REG_GND
ST_UNREG
987654321
121110
REG_GND
REG_GND
REG_GND
XSTB_FULL
STRB_ON
M_5V
XSTB_PWRSAVE
FP-530
987654321
REG_GND
XSTB_FULL
121110
M_5V
STRB_ON
XSTB_PWRSAVE
C
12P
CN707
ST_UNREG
ST_UNREG
ST_UNREG
STB_CHARGE
REG_GND
REG_GND
REG_GND
D
E
F
SY-075 BOARD (2/2)
G
H
CONTROL
SWITCH
BLOCK
123456789
10P
CN706
N.C.
REG_GND
D_2.9V
XPWR_LED
N.C.
XPWR_ON
N.C.
REG_GND
XSHTR_ON
10
XAE_LOCK_SW
2
REG_GNDREG_GND
4
REG_GND
6
REG_GNDREG_GND
8
REG_GND
10
REG_GND
12
REG_GND
14
REG_GND
16
XPWR_LED
18
XAE_LOCK_SW
20
XSHTR_ON
22
REG_GND
24
FR_SOFR_SI
26
REG_GND
28
XCS_MC
30
XMC_HELP
REG_GND
32
34
AV_JACK_IN
36
XMS_IN
38
SELF_TIMER_LED
40
SYS_VXMS_ACCESS_LED
42
REG_GND
44
PANEL_V
46
REG_GND
48
LCD_SO
50
REG_GND
52
REG_GND
54
REG_GND
56
UNREG_SCK
58
REG_GND
60
BL_VO-
62
BL_VO+
64
BUZER_15V
66
PANEL_-15V
68
PANEL_4.9V
70
FAST_CHARGE
72
SYS_DD_ON
74
BATT_UNREG
76
EVER_3.2V
78
REG_GND
80
XSTB_FULLSTB_CHARGE
XSTB_PWRSAVE
XCS_PANEL_TG
CN701
REG_GND
PANEL_R
PANEL_G
PANEL_B
REG_GND
AE_LOCK_LED
XPWR_ON
REG_GND
XFR_SCK
REG_GND
XMC_NMI
PAL/XNTSC
XRST_SYS
USB_JACK_IN
CVCHK_OUT
REG_GND
REG_GND
XLCD_SCK
REG_GND
REG_GND
UNREG_SO
XCS_DDCON
BATT/XEXT
REG_GND
DD_CON_SENS
EVER_4.0V
PANEL_13.5V
PANEL_2.9V
REG_GND
D_2.9V
ACV_UNREG
REG_GND
2P
CN902
1 BEEP_OUT
2 REG_GND
80P
1
3
5
7
9
11
13
15
17
19
21
23
25
27
29
31
33
35
37
39
FP-067
41
43
HDO
45
47
49
51
53
55
57
59
61
63
65
67
69
71
73
75
77
79
1
REG_GND
3
REG_GND
5
REG_GND
7
PANEL_R
9
PANEL_G
11
PANEL_B
13
REG_GND
15
AE_LOCK_LED
17
XPWR_ON
19
XSTB_PWRSAVE
21
REG_GND
23
FR_SI
25
XFR_SCK
27
REG_GND
29
XMC_NMI
31
PAL/XNTSC
33
XRST_SYS
35
USB_JACK_IN
37
CVCHK_OUT
39
XMS_ACCESS_LED
41
REG_GND
43
HDO
45
REG_GND
47
XLCD_SCK
49
XCS_PANEL_TG
51
REG_GND
53
REG_GND
55
UNREG_SO
57
XCS_DDCON
59
BATT/XEXT
61
REG_GND
63
DD_CON_SENS
65
EVER_4.0V
67
PANEL_13.5V
69
PANEL_2.9V
71
REG_GND
73
D_2.9V
75
ACV_UNREG
77
REG_GND
79
STB_CHARGE
80PCN901
XAE_LOCK_SW
AV_JACK_IN
SELF_TIMER_LED
UNREG_SCK
PANEL_-15V
PANEL_4.9V
FAST_CHARGE
SYS_DD_ON
BATT_UNREG
I
8PCN703
MS_SCLK
VCC
MS_VCC
VSS
MS_BS
MS_DIO
XMS_IN
VSS
J
8
1234567
FP-529
4P
CN002
BATT_GND/-
BATT_GND/-
123
BATT_UNREG/+
BATT_UNREG
4
3PCN001
ACV_GND
BATT/XEXT
ACV_UNREG
123
FRAME (2/2)
MS SOCKET
BT901
DRY BATTERY
ACV
J001
LCD901
PANEL UNIT
K
D901
05
BACK LIGHT
4-34-4
Page 28
4-2. SCHEMATIC DIAGRAMS
COVER
COVER
4-2. SCHEMATIC DIAGRAMS
THIS NOTE IS COMMON FOR SCHEMATIC DIAGRAMS
(In addition to this, the necessary note is printed in each block)
DSC-P51/P51M
(For schematic diagrams)
• All capacitors are in µF unless otherwise noted. pF : µ
Link
µF. 50 V or less are not indicated except f or electrolytics
and tantalums.
• Chip resistors are 1/10 W unless otherwise noted.
kΩ=1000 Ω, MΩ=1000 kΩ.
• Caution when replacing chip parts.
New parts must be attached after removal of chip.
Be careful not to heat the minus side of tantalum
capacitor, Because it is damaged by the heat.
• Some chip part will be indicated as follows.
ExampleC541L452
22U10UH
TA A2520
Kinds of capacitor
Temperature characteristics
External dimensions (mm)
• Constants of resistors, capacitors, ICs and etc with XX
indicate that they are not used.
In such cases, the unused circuits may be indicated.
•Parts with ★ differ according to the model/destination.
Refer to the mount table for each function.
• All variable and adjustable resistors have characteristic
curve B, unless otherwise noted.
• Signal name
XEDIT→ EDITPB/XREC → PB/REC
• 2: non flammable resistor
• 5: fusible resistor
• C: panel designation
• A: B+ Line
• B: B– Line
•J : IN/OUT direction of (+,–) B LINE.
• C: adjustment for repair.
• A: VIDEO SIGNAL (ANALOG)
• A: AUDIO SIGNAL (ANALOG)
• A: VIDEO/AUDIO SIGNAL
• A: VIDEO/AUDIO/SERVO SIGNAL
• A: SERVO SIGNAL
• Circled numbers refer to waveforms.
(Measuring conditions voltage and waveform)
•Voltages and waveforms are measured between the
measurement points and ground when camera shoots
color bar chart of pattern box. They are reference values
and reference waveforms.
(VOM of DC 10 MΩ input impedance is used)
•Voltage values change depending upon input
impedance of VOM used.)
1. Connection
Pattern box
L
Front of the lens
L = About 30 cm
2. Adjust the distance so that the output waveform of
Fig. a and the Fig. b can be obtain.
H
Yellow
Cyan
White
Magenta
Green
AABBA=B
Fig. a (Video output terminal output waveform)
Fig.b (Picture on monitor TV)
When indicating parts by reference number, please
include the board name.
Red
Blue
Note :The components identified by mark 0 or
dotted line with mark 0 are critical for safety.
Replace only with part number specified.
Note :Les composants identifiés par une marque
0 sont critiques pour la sécurité.
Ne les remplacer que par une pièce portant
le numéro spécifie.
waveform of IC301 cannot
be measured,because it is
mounted by the
side of the lens.
D301
C304
0.01u
R304
R302
R301
100k
R303
3.3
IC301ICX284DQN-13
3.3
100
C305
0.1u
H2
C306
0.1u
R8.2/P0
0
Q301
DTC144EHT2L
SWITCH
R305
2200
VSHT
CSUB
12
13VL14RG15H116
R306
VDD
GND
9
10
11
0
0.1u
C308
R307
220k
C307
2200p
C310
0.1u
Precautions for Replacement of CCD Imager
• The CD-391 board mounted as a repair part is not equipped
with a CCD imager.
When replacing this board, remove the CCD imager from the
old one and mount it onto the new one.
• If the CCD imager has been replaced, carry out all the
adjustments for the camera section.
•As the CCD imager may be damaged by static electricity from
its structure, handle it carefully like for the MOS IC.
In addition, ensure that the receiver is not covered with dusts
nor exposed to strong light.
EVR Data Re-writing Procedure When Replacing Board
The data that is stored in the repair board, is not necessarily correct.
Perform either procedure 1 or procedure 2 or procedure 3 when replacing board.
Procedure 1
Save the EVR data of the machine in which a board is going to be replaced. Download the saved data after a
board is replaced.
DSC-P51/P51M
SECTION 5
ADJUSTMENTS
(Machine before starting repair)
Save the EVR data
to a personal computer.
Procedure 2
Remove the EEPROM from the board of the machine that is going to be re paired. Install the removed EEPR OM
to the replaced board.
PC
Remove the EEPROM and install it.
(Former board)
(New board)
PC
Download the saved
data to a machine.
(Machine after a board is replaced)
Procedure 3
When the data cannot be saved due to defective EEPROM, or when the EEPROM cannot be removed or installed, save the data from the same model of the same destination, and download it.
(Machine to be repaired)
Download the data.
Save the data.
(The same model of the same destination)
After the EVR data is saved and downloaded, check the
respective items of the EVR data.
(Refer to page 5-2 for the items to be checked.)
(Machine to be repaired)PC
5-1
Page 63
DSC-P51/P51M
1-1. Adjusting items when replacing main parts and boards
When replacing main parts and boards, adjust the items indicated by z in the following table.
Replaced parts
Block
replacement
Mounted parts
Board
replacement
replacement
Adjustment sectionAdjustment
Initialization of A, B, D,
E, F, 7, 9 page data
VideoComposite video level adj.
CameraHall adj.
LCDLCD initial data input
Initialization of A, D page data
Initialization of B, E, F, 7, 9, page data
Flange back adj.
F No. compensation
Mechanical shutter adj.
Light value adj.
Mixed color cancel adj.
Auto white balance standard data input
Auto white balance adj.
Color reproduction adj.
CCD (white and black) defect
compensation
CCD linearity check
Strobe white balance adj.
Backlight current adj.
VCO adj.
D range adj.
Contrast adj.
V-COM level adj.
V-COM DC adj.
White balance adj.
(LCD panel)
(Back light unit)
(CCD imager)
(Camera Module)
(EVR)
(CAMERA DSP)
(VIDEO AMP)
(LCD drive)
LCD901
D901
IC301
IC204
IC301
IC651
IC801
(LCD Timing generator)
IC802
(COMPLETE)
(COMPLETE)
EEPROM
(COMPLETE)
(COMPLETE)
IC503
RadarWRadarWRadarWRadarWRadarWRadarW
Lens block assy
Flash unit
LCD block
LCD block
CD-391 board
CH-109 board
SY-075 board
SY-075 board
SY-075 board
PK-062 board
PK-062 board
CH-109 board
ST-068 board
SY-075 board
PK-062 board
SY-075 board
Supporting
zz
zz
zzzzz
zzzzzz
zzzzz
zzzzz
zzzzz
zzzzzzz
zzzzzzz
zzzzzzz
zzzzzzz
zzzzzzz
zzzz
zzz
zzzzzzzzz
zzz
zzzzz
zzzz
zzzz
zzzz
zzzzz
zzzzz
zzzzzz
Table 5-1-1
5-2
Page 64
Ref. No.
J-1
J-2
J-3
J-4
J-5
J-6
J-7
J-8
Name
Filter for color temperature correction (C14)
Pattern box PTB-450
Color bar chart for pattern box
Adjusting remote commander (RM-95 upgraded).
(Note 1)
Siemens star chart
Clear chart for pattern box
CPC-9 jig (Note 2)
Minipattern box
Parts Code
J-6080-058-A
J-6082-200-A
J-6020-250-A
J-6082-053-B
J-6080-875-A
J-6080-621-A
J-6082-393-C
J-6082-353-B
Usage
Auto white balance adjustment/check
White balance adjustment/check
For checking the flange back
For connecting the adjusting remote commander
For adjusting the LCD block
For adjusting the flange back
J-9Back ground paper J-2501-130-A For adjusting the strobe
5-1. CAMERA SECTION ADJUSTMEN T
1-1.PREPARATIONS BEFORE ADJUSTMENT
1-1-1. List of Service Tools
• Oscilloscope• Color monitor• Vectorscope
• Regulated power supply• Digital voltmeter
DSC-P51/P51M
Note 1: If the micro processor IC in the adjusting remote
commander is not the new micro processor (UPD7503GC56-12), The pages cannot be switched. In this case,
replace with the new micro processor (8-759-148-35).
J-1J-5J-2
J-6J-7
J-3J-4
J-8J-9
Note 2: The old CPC-9 jig (Parts code: J-6082-393-B) cannot be
used, because it cannot operate the adjusting remote
commander.
Fig. 5-1-1
5-3
Page 65
DSC-P51/P51M
1-1-2. Preparations
Note 1: For details of how remove the cabinet and boards, refer
to “2. DISASSEMBLY”.
Note 2: When performing only the adjustments, the lens block
and boards need not be disassemble.
1) Connect the equipment for adjustments according to Fig. 5-1-
6.
2) Connect the Adjusting remote commander to PK-062 board
CN903 via CPC-9 jig (J-6082-393-C). (See Fig. 5-1-3)
Note 3: Setting the “Forced CAMERA mode power ON” Mode
1) Select page: 0, address: 01, and set data: 01.
2) Select page: D, address: 21, set data: 04, and press
the PAUSE button of the adjusting remote commander.
The above procedure will enable the camera power
to be turned on. After completing adjustments, be
sure to exit the “Forced CAMERA mode power ON
Mode”.
Note 4: Exiting the “Forced CAMERA mode power ON Mode”
1) Select page: 0, address: 01, and set data: 01.
2) Select page: D, address: 21, set data: 00, and press
the PAUSE button of the adjusting remote commander.
3) Select page: 0, address: 01, and set data: 00.
Pattern box
L
Front of the lens
L = About 30 cm
Fig. 5-1-2
1-1-3. Discharging of the Flashlight Power Supply
The capacitor which is used as power supply of flashlight is charged
with 200 V to 300 V voltage. Discharge this voltage before starting adjustments in order to protect service engineers from electric
shock during adjustment.
Discharge procedure
1. Press the FLASH button (PK-062 board S253 (CONTROL
UP)) and set the NO FLASH mode.
2. Fabricate the discharging jig as shown in Fig. 5-1-5 locally by
yourself. Connect the discharging jig to the positive (+) and
negative (–) terminal of the flash voltag e charge capacitor . Allow ten seconds to discharge the voltage.
Capacitor
R:1 kΩ/1 W
(Part code:
1-215-869-11)
CPC-9 jig
(J-6082-393-C)
(Note 1, 2)
CPC lid
Note 1: Don’t use the 12 pin flexible board of CPC-9 jig.
It causes damage to the unit.
Note 2: The old CPC-9 jig (Parts code: J-6082-393-B)
cannot be used, because it cannot operate
the adjusting remote commander.
1
18
PK-062 board
CN903
Fig. 5-1-4
Fig. 5-1-3
1 kΩ/1 W
Wrap insulating tape.
Fig. 5-1-5
5-4
Page 66
DSC-P51/P51M
LCD PANEL
BACK LIGHT
–
+
Adjusting
remote
commander
118
Regulated
power supply
(6.0 to 7.2 Vdc)
MS SOCKET
M
SY-075
BOARD
FP-075 FLEXIBLE BOARD
PK-062
BOARD
ST-068
BOARD
CONTROL SWITCH
BLOCK
LENS UNIT
OVF UNIT
CD-391
BOARD
JK-223
BOARD
CN705
CN703
CN201
CN001
CN708
CN203
CN102
CN101
CH-109
BOARD
CN301
CN201
J201
Video
Color
monitor
Vectorscope
Terminated
75 Ω
CN707
CN701
CN601
CN602
CN706
CN901
CN802
CN801
CN903
CN502
CPC-9 jig (Note 1, 2)
(J-6082-393-C)
BUZZER
CN902
AF
ILLUMINATION
AC IN
AC power
adaptor
LENS BARRIER
MOTOR
DC IN jack
CN704
Note 1: Don’t use the 12 pin flexible board of CPC-9 jig.
It causes damage to the unit.
Note 2: The old CPC-9 jig (Parts code: J-6082-393-B)
cannot be used, because it cannot operate
the adjusting remote commander.
Fig. 5-1-6
5-5
Page 67
DSC-P51/P51M
1-1-4. Precautions
1. Setting the Switch
Unless otherwise specified, set the switches as follows and perform adjustments.
1. Mode Dial .......................................... CAMERA
2. ZOOM switch
(PK-062 board S252, S254) .............. WIDE end
3. EV (Menu display) ............................ 0EV
4. DSIPLAY/LCD ON/OFF button
(PK-062 board S256)......................... OSD OFF
5. WB (WHITE BALANCE)
(Menu display) ................................... AUTO
6. P.EFFECT (Menu display) ................ OFF
7. VIDEO OUT (SET UP setting) ......... NTSC
2. Order of Adjustments
Basically carry out adjustments in the order given.
Color bar chart (Color reproduction adjustment frame)
H
Yellow
Cyan
White
Magenta
Green
ABB
A=B
Red
Blue
A
Enlargement
B
A
C=D
V
Difference in level
3. Subjects
1) Color bar chart (Standard picture frame).
When performing adjustments using the color bar chart, adjust the picture frame as shown in Fig. 5-1-7. (Standard picture frame)
2) Clear chart (Standard picture frame)
Remove the color bar chart from the pattern box and insert a
clear chart in its place. (Do not perform zoom operations during this time)
3) Chart for flange back adjustment
Join together a piece of white A0 size paper (1189mm × 841
mm) and a piece of black paper to make the chart shown in
Fig. 5-1-8.
Note: Use a non-reflecting and non-glazing vellum paper. The
size must be A0 or larger and the joint between the white
and black paper must not have any undulations.
Fig. 5-1-7
Electronic beam scanning frame
DC
Red
Cyan
White
Green
Yellow
Fig. b (monitor TV picture)
Adjust the camera zoom and direction to
obtain the output waveform shown in Fig a
and the monitor TV display shown in Fig. b.
Black
1189 mm
Magenta
Blue
CRT picture frame
White
841 mm
Fig. 5-1-8
5-6
Page 68
4. Preparing the Flash Adjustment Box
A dark room is required to provide an accurate flash adjustment.
If it is not available, prepare the flash adjustment box as given
below;
1) Provide woody board A, B and C of 15 mm thickness.
DSC-P51/P51M
woody board A (2)
530 mm
1026 mm: Depth 1m
513 mm: Depth 50 cm
woody board B (2)
500 mm
1000 mm1030 mm
Fig. 5-1-9
2) Apply black mat paint to one side of woody board A and B.
3) Attach background paper (J-2501-130-A) to woody board C.
4) Assemble so that the black sides and the background paper
side of woody board A, B and C are internal. (Fig 5-1-10)
1026 mm: Depth 1m
513 mm: Depth 50 cm
woody board A
woody board B
woody board C (1)
1000 mm
1000 mm
woody board A
woody board B
woody board C
Fig. 5-1-10
5-7
Page 69
DSC-P51/P51M
1-2.INITIALIZATION OF A, B, D, E, F, 7, 9 PAGE
DAT A
1-2-1. Initialization of A, D Page Data
1. Initializing A, D Page Data
Note: If the A, D page data has been initialized, the following
adjustments need to be performed again.
1) Modification of A, D page data
2) Video system adjustments
3) LCD system adjustments
4) System control system adjustments
Adjsuting pageA
Adjsuting Address00 to FF
Adjusting pageD
Adjusting Address10 to 73
Initializing Method:
Order Page Address DataProcedure
10 0101
24 0305
34 002D
44 012DPress PAUSE button.
54 02Check the data changes to “01”.
6
2. Modification of A, D Page Data
If the A, D page data has been initialized, change the data of the
“Fixed data-2” address shown in the following table by manual
input.
Modifying Method:
1) Before changing the data, select page: 0, address: 01, and set
data: 01.
2) New data for changing are not shown in the tables because
they are different in destination. When changing the data, copy
the data built in the same model.
Note: If copy the data built in the different model, the
camera may not operate.
3) When changing the data, press the PAUSE button of the
adjusting remote commander each time when setting new data
to write the data in the non-volatile memory.
4) Check that the data of adjustment addresses is the initial value.
If not, change the data to the initial value.
Processing after Completing Modification of A, D Page Data:
Order Page Address DataProcedure
12 0029
22 0129Press PAUSE button.
Perform “Modification of
A, D page Data”.
3. A Page Table
Note 1: Fixed data-1: Initialized data.
(Refer to “1. Initializing the A Page Data”)
Note 2: Fixed data-2: Modified data.
(Refer to “2. Modification of A Page Data”)
Address Initial valueRemark
00, 01Fixed data-1 (Initialized data)
0200Test mode
03 to 61F ixed data-1 (Initialized data)
62
63
64 to 7FFixed data-1 (Initialized data)
809BBacklight current adj. (BL L)
813CBacklight current adj. (BL H)
826BVCO adj. (NTSC)
8371VCO adj. (PAL)
8466V-COM DC adj.
8515D Range adj.
8608Black limit adj.
8783Psig Gray adj./V-COM adj.
8890
8983
8A2EContrast adj.
8B00Center voltage adj.
8C
8D
8E
8F
90 to 9FFixed data-1 (Initialized data)
A080Composite video level adj.
A1, A2Fixed data-1 (Initialized data)
A3
A4
A5 to A8Fixed data-1 (Initialized data)
A9Fixed data-2
AAto FFFixed data-1 (Initialized data)
4. D Page Table
Note 1: Fixed data-1: Initialized data.
(Refer to “1. Initializing the D Page Data”)
Note 2: Fixed data-2: Modified data.
(Refer to “2. Modification of D Page Data”)
Address Initial valueRemark
10 to 1FFixed data-1 (Initialized data)
20Not used
2100Test mode
22 to 36F ixed data-1 (Initialized data)
37 to 3FNot used
40 to 5AFixed data-1 (Initialized data)
5BNot used
5C to 73F ixed data-1 (Initialized data)
Fixed data-2
White balance adj.
Fixed data-2
Fixed data-2
5-8
Page 70
DSC-P51/P51M
1-2-2. Initialization of B, E, F, 7, 9 Page Data
1. Initializing B, E, F, 7, 9 Page Data
Note: If the B, E, F, 7, 9 Page data has been initialized,
“Modification of B, E, F, 7, 9 Page Data” and following
adjustments need to be performed again.
1) Modification of B, E, F, 7, 9 page data
2) Camera system adjustments
Adjusting pageB
Adjusting Address00 to FF
Adjusting pageE
Adjusting Address00 to FF
Adjusting pageF
Adjusting Address00 to FF
Adjusting page7
Adjusting Address00 to FF
Adjusting page9
Adjusting Address00 to FF
Initializing Method:
Order Page Address DataProcedure
10 0101
26 0305
36 002D
46 012D Press PAUSE button.
56 02Check the data changes to “01”.
6
Perform “Modification of B,
E, F, 7, 9 page Data”.
3. B Page Table
Note 1: Fixed data-1: Initialized data.
(Refer to “1. Initializing B, E, F, 7, 9 Page Data”)
Note 2: Fixed data-2: Modified data.
(Refer to “2. Modification of B, E, F, 7, 9 Page Data”)
Address Initial valueRemark
00 to FFFixed data-1 (Initialized data)
4. E Page Table
Note 1: Fixed data-1: Initialized data.
(Refer to “1. Initializing B, E, F, 7, 9 Page Data”)
Note 2: Fixed data-2: Modified data.
(Refer to “2. Modification of B, E, F, 7, 9 Page Data”)
Address Initial valueRemark
00 to FFFixed data-1 (Initialized data)
2. Modification of B, E, F, 7, 9 Page Data
If the B, E, F, 7, 9 Page data has been initialized, change the data
of the “Fixed data-2” address shown in the following tables by
manual input.
Modifying Method:
1) Before changing the data, select page: 0, address: 01, and set
data: 01.
2) New data for changing are not shown in the tables because
they are different in destination. When chang ing the data, copy
the data built in the same model.
Note: If copy the data built in the different model, the
camera may not operate.
3) When changing the data, press the PAUSE button of the
adjusting remote commander each time when setting new data
to write the data in the non-volatile memory.
4) Check that the data of adjustment addresses is the initial value.
If not, change the data to the initial value.
Processing after Completing Modification of B, E, F, 7, 9
Page data
Order Page Address DataProcedure
12 0029
22 0129Press PAUSE button.
5-9
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5. F Page Table
Note 1: Fixed data-1: Initialized data. (Refer to “1. Initializing the B, E, F, 7, 9 Page Data”)
Note 2: Fixed data-2: Modified data. (Refer to “2. Modification of B, E, F, 7, 9 Page Data”)
Before perform the camera system adjustments, check that the
specified values of “VIDEO SYSTEM ADJUSTMENTS” are satisfied.
Note: For “CAMERA SYSTEM ADJUSTMENTS”, perform in
order of item numbers.
Data setting during camera system adjustments
Perform the following data setting before the camera system adjustments.
It is not necessary to perform the following data setting ever ytime
when you perform some items of camera system adjustments continuously unless the power is turned off. Only when the power is
turned off during this adjustments, perform the data setting again,
then continue the adjustments.
Set up setting:
1) VIDEO OUT of SET UP setting............... NTSC (NTSC mode)
(This adjustment must be performed in NTSC mode, so don't
set the SET UP setting to “PAL”)
Data setting method:
Order Page Address DataProcedure
10 0101
Set the bit value of bit 5 is
2A 01
32 10
4A 00
5A 02
6D 2104Press PAUSE button.
76 C1
86 6C01
9Wait for 1 second.
10E9600Press PAUSE button.
Note 1:For the bit values, refer to “5-2. SERVICE MODE”,
“2-3. 2. Bit value discrimination”.
Note 2: In case of wrong data.
• Select page: 2, address: 00 and set data: 29.
• Select page: 2, address: 01 and set data: 29.
• Select page: 2, address: 0C, set the bit value of bit 1 is
1.
• Select page: 2, address: 04 and set data: 04.
Set the adjusting remote commander to normal LANC,
and the power will be turned off and on automatically.
Note 3: Repeat the “Data setting method”, if the power was turned
off and on during the “CAMERA SYSTEM ADJUSTMENTS”.
“1”, and press PAUSE
button. (Note 1)
Check the bit values of bit3,
bit4 and bit5 are “1”.
(Note 1, 2)
Set the bit value of bit 1 is
“1”, and press PAUSE
button. (Note 1)
Set the bit value of bit 1 is
“1”, and press PAUSE
button. (Note 1)
Check the data changes to
“02”.
After completing the camera system adjustments,
release the data setting:
Order Page Address DataProcedure
1E 9640
26 6C00
3D 2100Press PAUSE button.
Set the bit value of bit 1 is
4A 02
5A 00
6A 01
70 0100
“0”, and press PAUSE
button. (Note 1)
Set the bit value of bit 1 is
“0”, and press PAUSE
button. (Note 1)
Set the bit value of bit 5 is
“0”, and press PAUSE
button. (Note 1)
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DSC-P51/P51M
E=F
V
EF
Picture Frame Setting
ModeCAMERA
SubjectColor bar chart
(Standard picture frame with the
zoom lens at WIDE end)
Measurement PointVideo terminal of VIDEO OUT
jack (75 Ω terminated)
Measuring InstrumentOscilloscope and monitor TV
Specified ValueA=B, C=D, E=F
Note 1: Displayed data of the page 1 of adjusting remote com-
mander.
1:
XX:XX
YL data
YH data
Switch setting
1) FOCUS (Menu Setting) ... MULTI AF
Setting method:
Order Page Address DataProcedure
1
Shoot the color bar chart
with the zoom WIDE end.
Enter the output of VIDEO
2
OUT to the monitor TV, and
move the position as shown
in Fig. 5-1-14.
Horizontal width of one color
(B, C) and that of black (A,
3
D) on the color bar chart
should be same. (See Fig. 51-12)
With vertical width of black
(E, F) set in same, the color
4
bar chart should come to the
center of monitor TV. (See
Fig. 5-1-13)
5
Check that the color bar on
the monitor TV is focused.
60 0322
71
Note down the YH and YL
data. (Note 1)
How to reset the zoom and focus when they deviated:
The inner focus lens flange back adjustment is carried out automatically. In whichever case, the focus will be deviated during
auto focusing/manual focusing.
ModeCAMERA
SubjectSiemens star chart with ND filter
for minipattern box (Note 1)
Measurement PointCheck operation on monitor TV
Measuring Instrument
Adjustment PageF
Adjustment Address18 to 3E
Note 1: Dark Siemens star chart.
Note 2: Check that the data of page: 6, address: 02 is “00”.
If not, turn the power of unit OFF/ON.
Preparations before adjustments:
1) The minipattern box is installed as shown in the following figure.
Note 3: The attachment lenses are not used.
2) Install the minipattern box so that the distance between it and
the front of lens of camera is less than 3 cm.
3) Make the height of minipattern box and the camera equal.
4) Check the output voltage of the regulated power supply is the
specified voltage ± 0.01 Vdc.
5) Check that the center of Siemens star chart meets the center of
shot image screen with the zoom lens at TELE end and WIDE
end respectively.
Adjusting method:
Order Page Address DataProcedure
Perform “Data setting during
1
camera system adjustment”.
(Refer to page 5-13)
26 0113Press PAUSE button.
36 0127
46 02
Press PAUSE button.
(Note 4)
Check the data changes to
“01”.
Check the data.
5F 3E
00: Normal
01 to FF: Defective
Note 4: The adjustment data will be automatically input to page:
F, address: 18 to 3E.
Processing after Completing Adjustment:
Order Page Address DataProcedure
16 0100Press PAUSE button.
Release the data setting
2
performed at step 1.
(Refer to page 5-13)
3
Perform “Flange Back
Check”.
Specified voltage:The specified voltage varies according to the
minipattern box, so adjustment the power supply output voltage to the specified voltage wr itten on the sheet which is supplied with the minipattern box.
Below 3 cm
Minipattern box
Camera
Camera
table
Output voltage : Specified voltage ± 0.01 Vdc
Red (+)
Black (–)
Yellow (SENS +)
White (SENS –)
Black (GND)
Regulated power supply
Output current : more than 3.5 A
Need not connected
Fig. 5-1-15
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3. Flange Back Adjustment
(Using the flange back adjustment chart and
Subject More than 500 m Away)
The inner focus lens flange back adjustment is carried out automatically. In whichever case, the focus will be deviated during
auto focusing/manual focusing.
3-1.Flange Back Adjustment (1)
ModeCAMERA
SubjectFlange back adjustment chart
Measurement Point Check operation on monitor TV
Measuring Instrument
Adjustment PageF
Adjustment Address18 to 3E
Note 1: Check that the data of page: 6, address: 02 is “00”.
If not, turn the power of unit OFF/ON.
Preparations before adjustments:
1) Place the Flange back adjustment chart 2.0 m from the front
of the lens.
2) Check that the center of Flange back adjustment chart meets
the center of shot image screen with the zoom lens at TELE
end and WIDE end respectively.
Adjusting method:
Order Page Address DataProcedure
1
26 0113Press PAUSE button.
36 0115
46 02
5F 3E
Note 2: The adjustment data will be automatically input to page:
F, address: 18 to 3E.
Processing after Completing Adjustment:
Order Page Address DataProcedure
16 0100Press PAUSE button.
2
3
RadarW
(2.0 m from the front of lens)
(Luminance: 300 to 400 lux)
Perform “Data setting during
camera system adjustment”.
(Refer to page 5-13)
Press PAUSE button.
(Note 2)
Check the data changes to
“01”.
Check the data.
00: Normal
01 to FF: Defective
Release the data setting
performed at step 1.
(Refer to page 5-13)
Perform “Flange Back
Adjustment (2)”.
DSC-P51/P51M
3-2.Flange Back Adjustment (2)
Perform this adjustment after performing “Flange Back Adjustment (1)”.
ModeCAMERA
SubjectSubject more than 500 m away
(Subject with clear contrast such
as buildings, etc.)
Measurement PointCheck operation on monitor TV
Measuring Instrument
Adjustment PageF
Adjustment Address18 to 3E
Adjusting method:
Order Page Address DataProcedure
Set the zoom lens to the
1
2
36 0113Press PAUSE button.
4
56 0129
66 02
7F 3E
Note 1: Subject with clear contrast such as building, etc.
Nearby subjects less than 500 m away should not be in
the screen.
Note 2: The adjustment data will be automatically input to page:
F, address: 18 to 3E.
Processing after Completing Adjustment:
Order Page Address DataProcedure
16 0100Press PAUSE button.
2
3
TELE end and expose a
subject that is more than 500
m away. (Note 1)
Perform “Data setting during
camera system adjustment”.
(Refer to page 5-13)
Place ND filter on the lens so
that the optimum image is
obtain.
Press PAUSE button.
(Note 2)
Check the data changes to
“01”.
Check the data.
00: Normal
01 to FF: Defective
Release the data setting
performed at step 2.
(Refer to page 5-13)
Perform “Flange Back
Check”.
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4. Flange Back Check
ModeCAMERA
SubjectSiemens star
(1.0 m from the front of the lens)
(Luminance: 200 to 400 lux)
Measurement PointCheck operation on monitor TV
Measuring Instrument
Specified valueFocused at the TELE end and
WIDE end
Checking method:
Order Page Address DataProcedure
1
2
3
4B 3DNote down the data.
5B 3D50Press PAUSE button. (Note 1)
6
7Turn on the auto focus.
8
96 2C01
10
Note 1: How to find the data
Decrease the data of page: B, address: 3D until four sides
of a black frame can be seen on the monitor, then find
the value. The largest value under this condition will be
the setting value. If the value is less than 50, change
monitors.
Place the Siemens star 1.0 m
from the front of the lens.
To open the IRIS , decrease
the luminous intensity to the
Siemens star up to a point
before noise appear on the
image.
Perform “Data setting during
camera system adjustment”.
(Refer to page 5-13)
Shoot the Siemens star with
the zoom TELE end.
Check that the lens is
focused.
While observe the TV
monitor, change the zoom to
the WIDE end and check that
the lens is focused.
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5. F No. Compensation
Compensate the unevenness of the iris meter sensitivity.
ModeCAMERA
SubjectClear chart
Adjustment PageF
Adjustment Address5E to 64
Note 1: Check that the data of page: 6, address: 02 is “00”.
If not, turn the power of unit OFF/ON.
Adjusting method:
Order Page Address DataProcedure
1
2
36 01BB
46 02
Note 2: The adjustment data will be automatically input to page:
F, address: 5E to 64.
Processing after Completing Adjustment:
Order Page Address DataProcedure
16 0100Press PAUSE button.
2
RadarW
(Standard picture frame with the
zoom lens at WIDE end)
Perform “Data setting during
camera system adjustment”.
(Refer to page 5-13)
Perform “Picture Frame
setting”.
(Refer to page 5-14)
Press PAUSE button.
(Note 2)
Check the data changes to
“01”.
Release the data setting
performed at step 1.
(Refer to page 5-13)
Processing after Completing Adjustment:
Order Page Address DataProcedure
16 2C00
Set data noted down at step
4, and press PAUSE button.
Release the data setting
performed at step 3.
(Refer to page 5-13)
2B 3D
3
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6. Mechanical Shutter Adjustment
Adjust the period which the mechanical shutter is closed, and compensate the exposure.
ModeCAMERA
SubjectClear chart
(Standard picture frame with the
zoom lens at WIDE end)
Adjustment PageF
Adjustment AddressB8 to D7
Note 1: Check that the data of page: 6, address: 02 is “00”.
If not, turn the power of unit OFF/ON.
Adjusting method:
Order Page Address DataProcedure
Perform “Data setting during
1
2
36 01AD
46 02
56 ABCheck the data is “00”.
Note 2: The adjustment data will be automatically input to page:
F, address: B8 to D7.
Processing after Completing Adjustment:
Order Page Address DataProcedure
16 0100Press PAUSE button.
2
camera system adjustment”.
(Refer to page 5-13)
Perform “Picture Frame
setting”.
(Refer to page 5-14)
Press PAUSE button.
(Note 2)
Check the data changes to
“01”.
Release the data setting
performed at step 1.
(Refer to page 5-13)
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DSC-P51/P51M
7. Light V alue Adjustment
Adjust the standard LV value.
ModeCAMERA
SubjectClear chart
Measurement PointDisplayed data of page: 1 (Note
Measuring InstrumentAdjusting remote commander
Adjustment PageF
Adjustment Address65 to 67
Specified ValueAE level 1: 0FE0 to 1020
Note 1: Check that the data of page: 6, address: 02 is “00”.
If not, turn the power of unit OFF/ON.
Note 2: The right four digits of the page: 1 displayed data of the
adjusting remote commander.
1:XX:XX
Adjusting method:
Order Page Address DataProcedure
1
2
36 010D
46 02
50 0306
61
7F 65
Note 3: The adjustment data will be automatically input to page:
F, address: 65 to 67.
RadarWRadarWRadarW
(Standard picture frame with the
zoom lens at WIDE end)
2) and page: F, address: 65
AE level 2: 34 to 4A
Displayed data
Perform “Data setting during
camera system adjustment”.
(Refer to page 5-13)
Perform “Picture Frame
setting”.
(Refer to page 5-14)
Press PAUSE button.
(Note 4)
Check the data changes to
“01”.
Check that the displayed data
(Note 2) satisfies the AE
level 1 specified value.
Check that the displayed data
satisfies the AE level 2
specified value.
Processing after Completing Adjustment:
Order Page Address DataProcedure
16 0100Press PAUSE button.
20 0300
Release the data setting
3
performed at step 1.
(Refer to page 5-13)
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DSC-P51/P51M
8. Mixed Color Cancel Adjustment
To perform mixed color cancel adjustment based on data of each
color in color bar.
ModeCAMERA
SubjectColor bar chart
(Standard picture frame with the
zoom lens at WIDE end)
Adjustment PageF
Adjustment Address6E and 6F
Note 1: Check that the data of page: 6, address: 02 is “00”.
If not, turn the power of unit OFF/ON.
Adjusting method:
Order Page Address DataProcedure
Perform “Data setting during
1
2
37 5DNote down the data.
47 5D81Press PAUSE button.
57 22Note down the data.
67 2200Press PAUSE button.
76 01D7Press PAUSE button.
86 01D5
96 02
Note 2: The adjustment data will be automatically input to page:
F, address: 6E and 6F.
Processing after Completing Adjustment:
Order Page Address DataProcedure
16 0100Press PAUSE button.
27 22
37 5D
4
camera system adjustment”.
(Refer to page 5-13)
Perform “Picture Frame
setting”.
(Refer to page 5-14)
Press PAUSE button.
(Note 2)
Check the data changes to
“01”.
Set the data noted down at
step 4, and press PAUSE
buttton.
Set the data noted down at
step 3, and press PAUSE
button.
Release the data setting
performed at step 1.
(Refer to page 5-13)
RadarWRadarWRadarW
9. Auto White Balance 3200K Standard Data Input
RadarWRadarWRadarW
Adjust the white balance standard data at 3200K.
ModeCAMERA
SubjectClear chart
(Standard picture frame with the
zoom lens at WIDE end)
Adjustment PageF
Adjustment Address70 to 77, B0, B2, B4
Note 1: “Auto White Balance 3200K Check 1” and “Auto White
Balance 3200K Check 2” should be performed continuously if “Auto White Balance 3200K Standard Data Input” is performed.
Note 2: Check that the data of page: 6, address: 02 is “00”.
If not, turn the power of unit OFF/ON.
Note 3: “Auto White Balance 3200K Standard Data Input” is
available only once after the power is turned on. T urn the
power off, then on again if the adjustment is retried.
Adjusting method:
Order Page Address DataProcedure
Perform “Data setting during
1
2
36 B603
47 5DNote down the data.
57 5D81Press PAUSE button.
66 3701
76 0111Press PAUSE button.
86 38
96 01C1Press PAUSE button. (Note 4)
10602
1160100Press PAUSE button.
1263702
136010BPress PAUSE button. (Note 4)
14602
Note 4: The adjustment data will be automatically input to page:
F, address: 70 to 77, B0, B2 and B4.
Processing after Completing Adjustment:
Order Page Address DataProcedure
16 0100Press PAUSE button.
2
camera system adjustment”.
(Refer to page 5-13)
Perform “Picture Frame
setting ”. (Refer to page 5-
14)
Check the data changes to
“01”.
Check the data changes to
“01”.
Check the data changes to
“01”.
Perform “Auto white Balance
3200K Check 1”.
5-20
Page 82
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10. Auto White Balance 3200K Check 1
ModeCAMERA
SubjectClear chart
(Standard picture frame with the
zoom lens at WIDE end)
Measurement PointDisplayed dataVideo terminal of
of Page: 1VIDEO OUT jack
(Note 2)(75 Ω terminated)
Specified ValueR ratio: 3F60 to 40A0
B ratio: 3F60 to 40A0
R-Y level data: 007E to 0082
B-Y level data: 007E to 0082
Note 1: Perform this check after performing after performimng
“Auto White Balance 3200K Standard Data Input”.
Note 2: Check that the data of page: 6, address: 02 is “00”.
If not, turn the power of unit OFF/ON.
Note 3: The right four digits of the page: 1 displayed data of the
adjusting remote commander.
1:XX:XX
Displayed data
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DSC-P51/P51M
Checking method:
Order Page Address DataProcedure
“Auto white Balance 3200K
1
26 370D
36 0111Press PAUSE button.
46 38
56 01C1Press PAUSE button.
66 02
70 0304
81
90 0305
101
110032C
121
130032D
141
Standard Data Input” is
completed.
Check the data changes to
“01”.
Check the data changes to
“01”.
Check that the displayed data
(Note 3) satisfied the R ratio
specified value.
Check that the displayed data
(Note 3) satisfied the B ratio
specified value.
Check that the R-Y level data
(Note 2) satisfied the
specified value.
Check that the B-Y level data
(Note 2) satisfied the
specified value.
Processing after Completing Adjustment:
Order Page Address DataProcedure
16 0100Press PAUSE button.
26 B600
3
Perform “Auto white Balance
3200K Check 2”.
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DSC-P51/P51M
11. Auto White Balance 3200K Check 2
ModeCAMERA
SubjectClear chart
(Standard picture frame with the
zoom lens at WIDE end)
Measurement PointDisplayed dataVideo terminal of
of Page: 1VIDEO OUT jack
(Note 3)(75 Ω terminated)
Specified ValueR ratio: 3F60 to 40A0
B ratio: 3F60 to 40A0
R-Y level data: 007E to 0082
B-Y level data: 007E to 0082
Note 1: Perform this check after “Auto white Balance 3200K
Check 1” without a break.
Note 2: Check that the data of page: 6, address: 02 is “00”.
If not, turn the power of unit OFF/ON.
Note 3: The right four digits of the page: 1 displayed data of the
adjusting remote commander.
1:XX:XX
Displayed data
Checking method:
Order Page Address DataProcedure
1
26 370E
36 010FPress PAUSE button.
46 02
50 0304
61
70 0305
81
90 032E
101
110032F
121
“Auto White Balance 3200K
Check 1” is completed.
Check the data changes to
“01”.
Check that the displayed data
(Note 3) satisfied the R ratio
specified value.
Check that the displayed data
(Note 3) satisfied the B ratio
specified value.
Check that the R-Y level data
(Note 3) satisfied the
specified value.
Check that the B-Y level data
(Note 3) satisfied the
specified value.
RadarWRadarWRadarW
Processing after Completing Adjustment:
Order Page Address DataProcedure
16 0100Press PAUSE button.
26 3700
30 0300
Set the data that is kept as a
memo in step 4 of “Auto
47 5D
5
White Balance 3200K
Standard Data Input”, and
press the PAUSE button.
(Refer to page 5-20)
Release the data setting
performed in step 1 of “Auto
White Balance 3200K
Standard Data Input”.
(Refer to page 5-13)
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12. Auto White Balance 5800K Standard Data Input
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Adjust the white balance standard data at 5800K.
ModeCAMERA
SubjectClear chart
(Standard picture frame with the
zoom lens at WIDE end)
Adjustment PageF
Adjustment Address88 to 8F, A0 to A3, B1, B3
Note 1: “Auto White Balance 5800K Check 1” and “Auto White
Balance 5800K Check 2” should be performed continuously if “Auto White Balance 5800K Standard Data Input” is performed.
Note 2: Check that the data of page: 6, address: 02 is “00”.
If not, turn the power of unit OFF/ON.
Note 3: “Auto White Balance 5800K Standard Data Input” is
available only once after the power is turned on. T urn the
power off, then on again if the adjustment is retried.
Check that the R-Y level data
(Note 4) satisfied the
specified value.
Check that the B-Y level data
(Note 4) satisfied the
specified value.
Release the data setting
performed at step 1.
(Refer to page 5-13)
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20. AF Illumination Check
Check the deviation of optical axis of AF illuminator.
ModeCAMERA
SubjectFlash adjustment box (Note 3)
Measurement PointCheck operation on monitor TV
Measuring Instrument
Note 1: Perform checking by making the shooting surface of the
Flash adjustment box perpendicular to the optical axis of
the camera.
Note 2: Perform this checking in the Flash adjustment box.
Restrict external light to enter the Flash adjustment box
as less as possible.
Note 3: Refer to “4. Preparing the Flash adjustment box”.
(See page 5-7)
Switch setting
1) FOCUS (Menu Setting) ... MULTI AF
Adjusting method:
Order Page Address DataProcedure
1
29 A906/04
36 01EFPress PAUSE button.
46 02
5F 10 Check the data is “00”.
RadarW
(50 cm or 1 m from the front of
lens)
Perform “Data setting during
camera system adjustment”.
(Refer to page 5-13)
Press PAUSE button.
(50cm/1m)
Check the data changes to
“01”.
Processing after Completing Adjustment:
Order Page Address DataProcedure
16 0100Press PAUSE button.
Release the data setting
2
performed at step 1.
(Refer to page 5-13)
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DSC-P51/P51M
CPC lid
PK-062 board
CN903
CPC-9 jig
(J-6082-393-C)
(Note 1, 2)
1
18
Note 1: Don’t use the 12 pin flexible board of CPC-9 jig.
It causes damage to the unit.
Note 2: The old CPC-9 jig (Parts code: J-6082-393-B)
cannot be used, because it cannot operate
the adjusting remote commander.
1-5.LCD SYSTEM ADJUSTMENTS
Before perform the camera system adjustments, check that the
specified values of “VIDEO SYSTEM ADJUSTMENTS” are satisfied.
Note 1: Taken an extreme care not to destroy the liquid crystal
display module by static electricity when replacing it.
Note 2: Set the LCD BRIGHTENSS (SET UP setting) to the
NORMAL.
[Adjusting connector]
Most of the measuring points for adjusting the LCD system are
concentrated in CN 903 of the PK-062 board.
Connect the Measuring Instruments via the CPC-9 jig (J-6082393-C).
The following table shows the Pin No. and signal name of CN
903.
Pin No.Signal NamePin No.Signal Name
1BL_L110UNREG
2CVCHK OUT11LANC IN
3N. C.12LANC OUT
4REG_GND13MAKER_RECOG
5CPC_IN14N. C.
6BL_L215N. C.
7HSY16N. C.
8PANEL_COM17N. C.
9VG18N. C.
(This adjustment must be performed in NTSC mode, so don’t
set the menu setting to “PAL” )
Adjusting method:
Order Page Address DataProcedure
10 0101
24 F113(NTSC Mode)
34 1D82(PAL Mode)
Change the data and set the
4A 82frequency (f) to the NTSC
specified value.
5A 82Press PAUSE button.
Change the data and set the
6A 83frequency (f) to the PAL
specified value.
7A 83Press PAUSE button.
4. D Range Adjustment (PK-062 Board)
Set the D Range of the RGB decoder for driving the LCD to the
specified value.
If deviated, the LCD screen image will be blackish or saturated
(whitish).
ModePLAY
SignalArbitrary
Measurement PointPin 9 of CN903 (VG)
Set the level of the VIDEO signal for driving the LCD to the specified value.
If deviated, the LCD screen image will be blackish or saturated
(whitish).
ModePLAY
SignalArbitrary
Measurement PointPin 9 of CN903 (VG)
Set the DC bias of the common electrode drive signal of LCD to
the specified value.
If deviated, the LCD display will be move, producing flicker and
conspicuous vertical lines.
ModePLAY
SignalArbitrary
Measurement Point
Measuring Instrument
Check on the LCD screen
Adjustment PageA
Adjustment Address84
Specified ValueShake the set from side to side
and check that no stripe lines can
be seen in the blue back image.
Note 1: Perform “Bright Adjustment” and “Contrast Adjustment”
before this adjustment.
Adjusting method:
Order Page Address DataProcedure
10 0101
2A 0203Press PAUSE button.
34 F182
Change the data so that
4A 84
brightness of the section A
and section B is equal.
5A 84
Read the data and this data is
named Dref.
Convert Dref to decimal
6
notation, and obtain Dref’.
(Note 2)
Calculate D
7
following equations.
(decimal calculation)
’ using
84
D84’ = Dref’ – 10
Convert D
8
mal number, and obtain D84.
’ to a hexadeci-
84
(Note 2)
9A 84D84Press PAUSE button.
104F107
Shake the set from side to
11
side and check that no stripe
lines can be seen on the LCD
screen. (Note 3)
12A84Subtract 08 from the adjust-
ment value (D84) (Note 2)
13A84Press PAUSE button.
Shake the set from side to
14
side and check that no stripe
lines can be seen on the LCD
screen. (Note 4)
Note 2: Refer to table 5-2-2. “Hexadecimal-decimal conversion
table”.
Note 3: When any stripe lines are seen, perform the following
precedure.
Note 4: If any suitable value can not be found, input the value of
and finish this adjustment.
D
84
Processing after Completing Adjustments:
Order Page Address DataProcedure
1A 0200Press PAUSE button.
24 F100
30 0100
A
B
A
B
A
B
A
B
Fig. 5-1-21
5-35
Page 97
DSC-P51/P51M
8. White Balance Adjustment (PK-062 Board)
Correct the white balance.
If deviated, the LCD screen color cannot be reproduced.
ModePLAY
SignalArbitrary
Measurement Point
Measuring Instrument
Adjustment PageA
Adjustment Address88, 89
Specified ValueLCD screen must not be colored
Note 1: Check the white balance only when replacing the fol-
lowing parts. If necessary, adjust them.
1. LCD panel
2. Light induction plate
3. IC801
Adjusting method:
Order Page Address DataProcedure
10 0101
2A 0203Press PAUSE button.
34 F102
4A 8890
5A 8983
6
7A
Note 2: To write in the non-volatile memory (EEPROM), press
the PAUSE button each time to set the data.
88
89
Check on the LCD screen
Press PAUSE button.
(Intital value)
Press PAUSE button.
(Intital value)
Check that the LCD screen is
not colored. If not colored,
proceed to “Processing after
Completing Adjustments”.
Change the data so that the
LCD screen is not colored.
(Note 2)
Processing after Completing Adjustments:
Order Page Address DataProcedure
1A 0200Press PAUSE button.
24 F100
30 0100
5-36
Page 98
DSC-P51/P51M
5-2. SERVICE MODE
2-1.ADJUSTING REMOTE COMMANDER
The adjusting remote commander is used for changing the calculation coefficient in signal processing, EVR data, etc. The adjusting remote commander performs bi-directional communication
with the unit using the remote commander signal line (LANC).
The resultant data of this bi-directional communication is written
in the non-volatile memory.
1. Used the Adjusting Remote Commander
1) Connect the adjusting remote commander to the CN903 on
the PK-062 Board via CPC-9 jig (J-6082-393-C).
2) Set the HOLD switch of the adjusting remote commander to
“HOLD” (SERVICE position).
3) Turn on the power with the POWER switch of the unit.
If it has been properly connected, the LCD on the adjusting remote commander will display as shown in Fig. 5-2-1.
0 : 00 : 00
PageData Address
• Changing the address
The address increases when the FF (M) button is pressed,
and decreases when the REW (M) button is pressed. There
are altogether 256 addresses, from 00 to FF.
• Changing the data (Data setting)
The data increases when the PLAY (N) button is pressed,
and decreases when the STOP (x) button is pressed. There
are altogether 256 data, from 00 to FF.
• Writing the adjustment data
The PAUSE button must be pressed to write the adjustment
data in the nonvolatile memory. (The new adjustment data
will not be recorded in the nonvolatile memory if this step is
not performed)
2. Precautions upon Using the Adjusting Remote
Commander
Mishandling of the adjusting remote commander may erase the
correct adjustment data at times. T o prev ent this, it is recommended
that all adjustment data be noted down before beginning adjustments and new adjustment data after each adjustment.
Fig. 5-2-1
4) Operate the adjusting remote commander as follows.
• Changing the page
The page increases when the EDIT SEARCH + button is
pressed, and decreases when the EDIT SEARCH – button is
pressed. There are altogether 16 pages, from 0 to F.
Hexadecimal
notation
LCD Display01 23456789AbcdEF
Decimal notation
conversion value
0123456789ABCDEF
0123456789101112131415
Table 5-2-1
5-37
Page 99
DSC-P51/P51M
2-2.DATA PROCESS
The calculation of the adjusting remote commander display data
(hexadecimal notation) are required for obtaining the adjustment
data of some adjustment items. In this case, after converting the
hexadecimal notation to decimal notation, calculate and convert
the result to hexadecimal notation, and use it as the adjustment
data. Table 5-2-2. indicates the hexadecimal notation- the decimal notation, calculation table.
Note : ( ) indicate the adjusting remote control unit display.
(Example) In the case that the adjusting remote control unit display are BD (bd).
As the upper digit of the hexadecimal notation is B (b), and the lower digit is D (d), the intersection “189” of
the1 and 2 in the above table is the decimal notation to be calculated.
Table 5-2-2
5-38
Page 100
DSC-P51/P51M
2-3.SERVICE MODE
1. Setting the Test Mode
Page DAddress 21
DataFunction
00Normal
02Forced MOVIE mode power ON
03Forced PLAY mode power ON
04Forced CAMERA mode power ON
• Before setting the data, select page: 0, address: 01, and set data:
01.
•For page D, the data set is recorded in the non-volatile memory
by pressing the PAUSE button of the adjusting remote commander. In this case, take note that the test mode will not be
exited even when the main power is turned off.
• After completing adjustments/repairs, be sure to return the data
of this address to “00”, and press the PAUSE button of the adjusting remote commander.
Select page: 0, address: 01, and set data: 00.
2. Bit V alue Discrimination
Bit values must be discriminated using the display data of the adjusting remote commander for following items. Use the table below to discriminate if the bit value is “1” or “0”.
3. Switch Check (1)
Page 2Address 80
BitFunction
POWER SW
0
(CONTROL
SWITCH BLOCK)
1
2
SHUTTR SW
(CONTROL SWITCH
3
BLOCK)
XSHUTTER LOCK SW
(CONTROL SWITCH
4
BLOCK)
MEMORY STICK
5
IN SW (MS Socket)
Using method:
1) Select page: 2, address: 80.
2) By discriminating the bit value of dispaly data, the state of the
switches can be discriminated.
When bit value=1 When bit value=0
OFFON
OFFON
OFFON
OUTIN
Display on the adjustilng remote commander
0 : 00 : 00
Page
Display on theBit values
Adjustingbit3bit2bit1bit0
remoteorororor
commanderbit7bit6bit5bit4
00000
10001
20010
30011
40100
50101
60110
70111
A
B
Example: If “8E” is displayed on the adjusting remote com-
81000
91001
A (A)1010
B (b)1011
C (c)1100
D (d)1101
E (E)1110
F (F)1111
mander, the bit values for bit7 to bit4 ar e shown in the
A column, and the bit values for bit3 to bit0 are shown
in the B column.
bit3 to bit0 discrimination
bit7 to bit4 discrimination
Address
5-39
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