Sony DSC-P51-M Service Manual L3-1.0

DSC-P51/P51M

SERVICE MANUAL

Ver 1.0 2002. 04

Revision History

Revision History

PHOTO DSC-P51

Link

Link

SPECIFICATIONS

SPECIFICATIONS

BLOCK DIAGRAMS

BLOCK DIAGRAMS

LEVEL 3

US Model

DSC-P51/P51M

Canadian Model

AEP Model

UK Model

E Model

Hong Kong Model

Australian Model

Chinese Model

Korea Model

Tourist Model

Japanese Model

DSC-P51

PRINTED WIRING BOARDS

PRINTED WIRING BOARDS

SERVICE NOTE

SERVICE NOTE

DISASSEMBLY

DISASSEMBLY

•For INSTRUCTION MANUAL, refer to separate file (992997071.pdf).

• 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.

• This service manual contains information for Japanese model as well.

FRAME SCHEMATIC DIAGRAMS

FRAME SCHEMATIC DIAGRAMS

SCHEMATIC DIAGRAMS

SCHEMATIC DIAGRAMS

ADJUSTMENTS

ADJUSTMENTS

REPAIR PARTS LIST

REPAIR PARTS LIST

DIGITAL STILL CAMERA

DSC-P51/P51M

COVER

COVER

SPECIFICATIONS

System

Image device

Total pixels number of camera

Lens

6.64 mm(1/2.7 type) color
CCD
Primary colo r filte r

Approx. 2 100 000 pixels
2×zoom lens
f=6.3 to 12.6 mm (35 mm camera
conversion: 41to 82 mm), F3.8

Camera

Effective pixels number of camera
Exposure co nt rol

White balanceAutomatic, Daylight, Cloudy,

Data formats Moving images: MPEG1

Recording media

Flash Recommended distance

Approx. 1 980 000 pixels

Automatic,
Scene Selection (3 mode)

Fluorescent, Incan descent

Still images: JPEG, GIF (for Clip
Motion)

“Memory Stick”

0.4 to 2.8 m (1.3 to 9.2 f t) (W/T)
(when ISO sensitivity is set to Auto)

Output connectors

VIDEO OUT j ack

USB jack mini-B

LCD screen

LCD panel used
Total number of dots

Minijack
1 Vp-p, 75 ohm, unbalanced, sync
negative

4.0 cm (1.6 type) TFT drive

61 600 (280×220) dots

Power, etc.

Power AA nickel hydride batteries (2)

Power consumption (when recording)

Operating temp er atu re range

Storage temperature range

Dimensions

Mass 275 g (10 oz) (cam era, two ba tter ies,

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

Mass Approx. 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 —

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.

— 3 —

DSC-P51/P51M

TABLE OF CONTENTS

Section Title Page Section Title Page

1. SERVICE NOTE ························································1-1

Self-diagnosis Display·····················································1-2

2. DISASSEMBLY

2-1. Cabinet (Rear) Block Assembly······································ 2-2

Service Position (CD-391 Board, PK-062 Board,

SY-075 Board: Side B) ····················································2-2
2-2. PK-062 Board·································································· 2-3
2-3. LCD Module····································································2-3
2-4. CD-391 Board ·································································2-4
2-5. Cabinet (Front) Block Assembly·····································2-4
2-6. Cabinet (Upper) Block Assembly····································2-5
2-7. ST-068 Board···································································2-5
2-8. Memory Stick Connector ················································2-6
2-9. Lens Block Assembly······················································2-6
2-10. Optical Finder (B148A), Video Lens (B147A) ···············2-7
2-11. JK-223 Board ··································································2-7
2-12. CH-109 Board, SY-075 Board·········································2-8

Service Position (SY-075 Board: Side A)························ 2-8
2-13. Circuit Boards Location ··················································2-9
2-14. Flexible Boards Location ················································2-9

3. BLOCK DIAGRAMS

3-1. Overall Block Diagram ··················································· 3-1
3-2. Camera Block Diagram 1 ················································3-3
3-3. Camera Block Diagram 2 ················································3-5
3-4. Lens Motor Drive Block Diagram···································3-7
3-5. Video Flash Mode Control Block Diagram ·····················3-9
3-6. LCD Block Diagram ·····················································3-11
3-7. Power Block Diagram 1 ················································3-13
3-8. Power Block Diagram 2 ················································3-15

4. PRINTED WIRING BOARDS AND

SCHEMATIC DIAGRAMS

4-1. Frame Schematic Diagrams·············································4-1

Frame Schematic Diagram (1/2) ·····································4-1

Frame Schematic Diagram (2/2) ·····································4-3
4-2. Schematic Diagrams························································4-5

CD-391 (CCD IMAGER) ···············································4-7
CH-109 (CAMERA PROCESS)·····································4-9
SY-075 (1/8) (CAMERA DSP) ····································4-11
SY-075 (2/8) (VIDEO, MEMORY)······························4-13
SY-075 (3/8) (LENS DRIVE)······································· 4-15
SY-075 (4/8) (SH DSP) ················································4-17
SY-075 (5/8) (FLASH MEMORY CLOCK
GENERATOR) ·····························································4-19
SY-075 (6/8) (CONNECTOR)······································4-21
SY-075 (7/8) (DC IN) ···················································4-23
SY-075 (8/8) (DC/DC CONVERTER)························· 4-25
PK-062 (1/3) (FRONT CONTROL)·····························4-27
PK-062 (2/3) (LCD DRIVE,
TIMING GENERATOR) ··············································4-29
PK-062 (3/3) (CONTROL SWITCH) ··························4-31
JK-223 (JACK) ····························································· 4-32
FP-075 FLEXIBLE·······················································4-32
ST-068 (FLASH DRIVE) ·············································4-33

4-3. Printed Wiring Boards ···················································4-35

CD-391 ·········································································· 4-37

CH-109 ·········································································· 4-39

SY-075 ···········································································4-41

PK-062···········································································4-45

JK-223 ···········································································4-49

ST-068 ···········································································4-51

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

3. Subjects ··········································································· 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

3. A Page Table····································································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

3. B Page Table ····································································5-9

4. E Page Table ····································································5-9

5. F Page Table ··································································5-10

6. 7 Page Table···································································5-11

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

Picture Frame Setting ···················································· 5-14

Check on the Oscilloscope ············································5-14

1. Hall Adjustment·····························································5-15

2. Flange Back Adjustment

(Using the minipattern box) ··········································5-16

3. Flange Back Adjustment

(Using the flange back adjustment chart

and Subject More than 500 m Away) ···························· 5-17

4. Flange Back Check························································5-18

5. F No. Compensation······················································ 5-18

6. Mechanical Shutter Adjustment ···································· 5-19

7. Light V alue Adjustment ·················································5-19

8. Mixed Color Cancel Adjustment···································5-20

9. Auto White Balance 3200K Standard Data Input ·········5-20

10. Auto White Balance 3200K Check 1 ····························5-21

11. Auto White Balance 3200K Check 2 ····························5-22

12. Auto White Balance 5800K Standard Data Input ·········5-23

13. Auto White Balance 5800K Check 1 ····························5-23

14. Auto White Balance 5800K Check 2 ····························5-24

15. Color Reproduction Adjustment····································5-25

16. CCD White Defect Compensation ································5-26

17. CCD Black Defect Compensation·································5-27

18. CCD Linearity Check ····················································5-28

19. Strobe White Balance Adjustment·································5-29

20. AF Illumination Check ··················································5-30
1-5. LCD System Adjustments ·············································5-31

1. LCD Initial Data Input ··················································5-32

2. Backlight Current Adjustment (PK-062 Board)············5-32

— 4 —

Section Title Page

3. VCO Adjustment (PK-062 Board) ································5-33

4. D Range Adjustment (PK-062 Board)··························· 5-33

5. Contrast Adjustment (PK-062 Board) ···························5-34

6. V-COM Level Adjustment (PK-062 Board)··················5-34

7. V-COM DC Adjustment (PK-062 Board) ····················· 5-35

8. White Balance Adjustment (PK-062 Board)·················5-36
5-2. Service Mode·································································5-37
2-1. Adjusting Remote Commander ·····································5-37

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

3. Switch Check (1) ···························································5-39

4. Switch Check (2) ···························································5-40

5. LED Check ····································································5-40

6. Self Diagnosis Code ······················································ 5-40

6. REPAIR PARTS LIST

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 —

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

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

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

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

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

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

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

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

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

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.

DC jack

8 CH-109 board

AC power
adaptor

DC-IN

Lens block assembly

Cabinet (rear) block assembly

1

18

Cabinet (upper) block assembly

SY-075 board

2-8

2-13.CIRCUIT BOARDS LOCATION

ST-068

SY-075

CH-109

DSC-P51/P51M

PK-062

CD-391

JK-223

Board Name Function

CD-391 CCD IMAGER
CH-109 CAMERA PROCESS
JK-223 JACK
PK-062 FRONT CONTROL, LCD DRIVE, TIMING GENERATOR,

CONTROL SWITCH
ST-068 FLASH DRIVE
SY-075 CAMERA DSP, VIDEO, MEMORY, LENS DRIVE, SH DSP,

FLASH MEMORY CLOCK GENERATOR, CONNECTOR, DC IN,

DC/DC CONVERTER

2-14.FLEXIBLE BOARDS LOCATION

Control switch block

FP-067

FP-536

FP-070

FP-530

FP-077

FP-075

FP-072

FP-529

2-9E

COVER

COVER

Link

Link

OVERALL BLOCK DIAGRAM

OVERALL BLOCK DIAGRAM

3. BLOCK DIAGRAMS

VIDEO FLASH MODE CONTROL

VIDEO FLASH MODE CONTROL

BLOCK DIAGRAM

BLOCK DIAGRAM

DSC-P51/P51M

CAMERA BLOCK DIAGRAM 1

CAMERA BLOCK DIAGRAM 1

CAMERA BLOCK DIAGRAM 2 POWER BLOCK DIAGRAM 1

CAMERA BLOCK DIAGRAM 2 POWER BLOCK DIAGRAM 1

LENS MOTOR DRIVE BLOCK DIAGRAM

LENS MOTOR DRIVE BLOCK DIAGRAM

LCD BLOCK DIAGRAM

LCD BLOCK DIAGRAM

POWER BLOCK DIAGRAM 2

POWER BLOCK DIAGRAM 2

DSC-P51/P51M

COVER

COVER

BLOCK DIAGRAMS

3-1. OVERALL BLOCK DIAGRAM

LENS

FP-075 FLEXIBLE
BOARD

LENS

BARRIER

SENSOR

M

LENS
TEMP

SENSOR

MM

FOCUS

SENSOR

M

SECTION 3

3. BLOCK DIAGRAMS

3. BLOCK DIAGRAMS

( ) : Number in parenthesis ( ) indicates the division number of schematic diagram where the component is located.

ZOOM

SENSOR

H

IRIS

METER

M

CD-391 BOARD

IC301

CCD IMAGER

V1A, V1B, V2
V3A, V3B, V4

VSUB CONT

IC201, 203

(3/8)

IRIS DRIVE

HALL AMP

IC202

(3/8)

ZOOM MOTOR

DRIVE

FOCUS MOTOR

DRIVE

SHUTTER DRIVER

OVF ZOOM DRIVE

H1, H2

CH-109 BOARD

CCD OUT

IC204

EVR

(D/A CONVERTER)

(3/8)

IC101

CAMERA

MODULE

HALL AD

SY-075 BOARD

DATA BUS 14

CAM SO, XCAM SCK

XZM RST SENS

XFC RST SENS

HR DIR1A, HR DIR1B,

HR DIR0A, HR DIR0B,

HR EN1

HR EN0

MSHUT ON,

MSHUT EN

HR DIR2A,HR EN2

LENS TEMP AD

IC301

CAMERA

DSP
(1/8)

PANEL R
PANEL G
PANEL B

CV OUT

32

25

16

DATA BUS

ADDRESS BUS

DATA BUS

ADDRESS BUS

1414

32

25

16

20

16

IC302

64M

SDRAM

(2/8)

IC502

16M FLASH

(5/8)

CAM SO, XCAM SCK

IC501

MC CAM,

SH DSP

(4/8)

IC503

EEPROM

(5/8)

VAMP ON

USB D+
USB D

LCD SO, XLCD SCK

CV OUT

−

IC651

VIDEO AMP

(2/8)

PK-062 BOARD (1/2)

PANEL R
PANEL G
PANEL B

LCD SO, XLCD SCK

JK-223 BOARD

V OUT

IC801

LCD DRIVE

(2/3)

IC802

LCD TIMING
GENERATOR

(2/3)

J201

VIDEO

OUT

PANEL UNIT

VR
VG
VB

LCD901

COLOR

LCD

MONITOR

D901

BACK LIGHT

FP-069 FLEXIBLE BOARD

D902

SELF TIMER/

AF ILLUMINATOR

OPTICAL VIEWFINDER BLOCK

M

ZOOM

SENSOR

XOVF RST SENS

FLASH

UNIT

ST-068 BOARD

CHARGING

CAPACITOR

T501

CONTROL SWITCH BLOCK

POWER
ON/OFF

SHUTTER

SWITCH

Q501, 502

PRELAMP AF CONT

ST UNREG

STB CHG

XSTB FULL

BT901

BATTERY

TERMINAL

J001

DC IN

XOVF RST SENS

STRB ON

X781

27MHz

IC781

CLOCK GEN.

(5/8)

TG CLK
USB CLK
MC CLK

USB D+
USB D–

HALL AD
PRELAMP AF CONT

MS DIO, MS BS, MS SCLK

CN202

MS

SOCKET

USB

PK-062 BOARD (2/2)

STB CHG
XSTB FULL
SYS DD ON

XAE LOCK SW, XSHTR ON

CAM 15V
CAM –7.5V
A 4.9V
A 2.9V

IC001

DC/DC

CONTROL

+

(8/8)

–

05

D 2.9V
D 3.1V
PANEL 13.5V
PANEL 4.9V
PANEL 2.9V
PANEL –15.5V
BL VO+

−

BL VO

UNREG SCK, UNREG SO

AVC UNREG
ST UNREG
BATT UNREG
EVER 4V

XPWR ON

IC401

FRONT CONTROLLER

(1/3)

KEY INPUTS

BEEP

RESET

KEY AD0, 1

KEY AD3

MODE DIAL

IC402

INITIAL RESET,

BACK UP VCC

(1/3)

EVER 4V

FUNCTION

SWITCH

ZOOM

SWITCH

MODE

DIAL

BT401

LITHIUM

BATTERY

BZ901

BUZZER

3-1 3-2

DSC-P51/P51M

COVER

COVER

3. BLOCK DIAGRAMS

3. BLOCK DIAGRAMS

3-2. CAMERA BLOCK DIAGRAM 1

6

1.2 Vp-p

103 µsec

Q302 E (CN301 qj) REC

CD-391 BOARD

CN301

3.5 Vp-p

18 MHz

IC301 qf (CN301 qs) REC

3.7 Vp-p

16.7 MHz

IC301 qh (CN301 qf) REC

3.5 Vp-p

16.7 MHz

IC301 qg (CN301 qd) REC

7.4 Vp-p

103 µsec

IC301 1, 2, 3

(CN301 5, 6, 7) REC

7.4 Vp-p

103 µsec

IC301 4, 5, 6

(CN301 8, 9, q;) REC

VOUT

IC301

CCD IMAGER

RG

H2

H1

VSHT

V4

V3A

V3B

V2

V1A

V1B

CSUB

Q302

8

BUFFER

14

16

15

11

1

2

3

4

5

6

Q301

12

SWITCH

TH301

CCD

TEMP

SENSOR

17

12

14

13

11

5

6

7

8

9

10

15

2

05

VSUB CONT

( ) : Number in parenthesis ( ) indicates the division number of schematic diagram where the component is located.

CH-109 BOARD SY-075 BOARD (1/4)

12

ı
14
16
18

ı
27

96

8

9

250

183 TG WE N PIO15

141
140

143 – 147 149 – 153
155 – 158 160 – 164

32

166 167 169 – 171
173 – 178 180 181

119 123 – 127 129

131 – 134 136

118

22

120

137
116
113
112
111
106

139
138

88

223

ADIN0 – 13

CLKTG

CCDHD

CCDFD

SUBCNTL

DQM0
DQM1

BA0 1

XWE
QCLK
QCLKE
XCAS
XRAS
XCSO

DQM2
DQM3

CLKI
EXTPAL

IC301

CAMERA DSP

(1/8)

DQ00 – 31

AQ00 – 11

H

Q303 E REC/PB

H

Q302 E REC/PB

H

Q301 E REC/PB

H

Q304 E REC/PB

CCD OUT

RG

H2

H1

VSHT

V4

V3A

V3B

V2

V1A

V1B

CCD TEMP

CN102

17

4 CCD OUT

3RG

12

14

2H2

1H1

13

11 VSHT

11

10 V4

5

8 V3A

6

9 V3B

7

7V2

8

5 V1A

9

6 V1B

10

15

2

CAMERA BLOCK 2

CAMERA BLOCK 2

IC101

CAMERA
MODULE

(3-6)

(3-5)

D0 − D13

15

IC781 2 (X781) REC/PB

16

12

23
28
29

24XTG CS

25XGCAM CS

26XCAM SO

27XCAM SCK

33XCAM RESET

34CA HD

35CA FD

38MCK12

39TG CLK

45WEN

CCD TEMP

27 MHz

X781

27MHz

TG CLK EN
USB CLK EN
USB CLK
MC CLK1

PAL/XNTSC

DATA BUS

XTG CS

XGCAM CS

XCAM RESET

XCAM SCK

CAM SO

CN101 CN705

14 14 14

4.0 Vp-p

FIN

CA

AD0 − AD13

51

64

XTG CS

48

XGCAM CS

47

XCAM SO

46

XCAM SCK

45

XCAM RESET

17

CA HD

24

CA FD

23

MCK12

67 4

TG CLK

69

TG WEN

35

VSUB CONT

15

CCD TEMP

16

44 MHz

IC781 4 REC/PB

IC781

CLOCK GEN.

(5/8)

CLK3_OUT

REF_OUT

CLK2_OUT

CLK3_ON

CLK2_ON

5 13

7

20

23

24

25

26

54

47

48

2

36

56

55

XTG CS

XGCAM CS

CAM SO

XCAM SCK

XCAM RESET

MCK

3.0 Vp-p

42
16
11

VSUB CONT

DQ0 − 31

64M SDRAM

DATA BUS

MCK

CA HD

CA FD

DQM0
DQM1

3 5 6 8 9 11 12 14
32 34 35 37 38 40 41 43
48 50 51 53 54 56 57 59
77 79 80 82 83 85 86 88

22 25 28

A0 − 11

63 − 69

BA0 1

IC302

(2/8)

WE#

CLK
CKE

CAS#

RAS#

CS#

DQM2
DQM3

4.3 Vp-p

27 MHz

IC781 qh REC/PB

17
74

32

23
24

18
71
70
19
20
21

29
62

DATA BUS

ADDRESS BUS12 12

3-3 3-4

D00 – 15

A01 – 25

340 mVp-p

330 mVp-p

450 mVp-p

SHUTTER

STROBE1

CSXRAM

310 mVp-p

65 – 69

71 81

29 – 41
43 – 54

PIO02

EN0
EN1

DIR0A
DIR0B
DIR1B

SENS0

PIO10

SENS1

PIO11

WRHX

WRLX

RDX

CSX

XWAIT

IRQIMG

AUCK

PLLBYP

NTVDO

RSTX

LCDVD

16 16

246
196

233

237
234
235
239
232
192
236
184
242DIR2A
241EN2
201PIO00
189PIO07
187PIO13

248

60

59

55

58

57

64

62
259
104

227

94

RO

212

GO

207

BO

204

YO

215

229

HD

225

DATA BUS

ADDRESS BUS25 25

XFC RST SENS

XZM RST SENS

XSENCV OPEN

XSENCV CLOSE

XOVF RST SENS

Q303

BUFFER

Q302

BUFFER

Q301

BUFFER

Q304

BUFFER

MSHUT ON
MSHUT EN

HR EN0

HR EN1
HR DIR0A
HR DIR0B
HR DIR1B

HR DIR2A

HR EN2

STRB ON

CAMERA BLOCK 2

1

(3-5)

LENS MOTOR DRIVE
BLOCK

2

(3-8)

VIDEO, FLASH,
MODE CONTROL BLOCK

10

(3-10)

MC XWE1
MC XWE0

MC XRD
MC XCS4
MC XCS6

XWAIT

IRQIMG

AU LRCK

PLLBYP

XRST SYS

SYS V

AMP OUT ON

A 2.9V

Q305

CV OUT

PAL/XNTSC

CN701

SYS V

XRST SYS

PANEL R

PANEL G

PANEL B

PANEL V

HDO

12

(1/5)

40
33

7

9

11

44
43

31

CAMERA
BLOCK 2

5

(3-5)

VIDEO, FLASH,
MODE CONTROL
BLOCK
(3-10)

VIDEO, FLASH,
MODE CONTROL

7

BLOCK
(3-9)

LCD BLOCK

11

(3-11)

LCD BLOCK

3

(3-11)

VIDEO, FLASH,
MODE CONTROL

13

BLOCK
(3-9)

COVER

COVER

3. BLOCK DIAGRAMS

3. BLOCK DIAGRAMS

DSC-P51/P51M

3-3. CAMERA BLOCK DIAGRAM 2

SY-075 BOARD (2/4)

MODE CONTROL BLOCK

VIDEO, FLASH,

JK-223 BOARD (1/2)

CN202 CN203

VCC

1

D+

3

−

D

2

(3-9)

USB JACK IN

5

2

3

D+

D

24

−

CAMERA BLOCK 1

CN701 (2/5)

USB JACK IN

35

CN704
(1/2)

6

USB D+

9

USB D–

8

(3-4)

( ) : Number in parenthesis ( ) indicates the division number of schematic diagram where the component is located.

DATA BUS16

1

ADDRESS BUS25 25

CAMERA BLOCK 1

CAMERA BLOCK 1

LENS MOTOR DRIVEBLOCK

16 16

ADDRESS BUS ADDRESS BUS

(3-4)

(3-3)

(3-8)

16

16 DATA BUS 16

DATA BUS DATA BUS

20 ADDRESS BUS 20

MC XRD
MC XWE1
MC XWE0
MC XCS4
MC XCS6
XWAIT
IRQIMG

5

AU LRCK
PLLBYP
XRST SYS
SYS V
AMP OUT ON

TG CLK EN
USB CLK EN

16

17

USB CLK
MC CLK1
PAL/XNTSC

HALL AD

LENSV CLOSE ON

LENSV OPEN ON

LENSV BREAK
LENS TEMP AD
XCAM DR PS

DATA BUS

ADDRESS BUS25 25

IC502

16M FLASH

29

ı

36
38

ı

45

1

ı

9

16

ı

25
48

DQ0 – 15

A0 – 19

(5/8)

D3.1V

WE–

RESET–

26

CE

OE

28
11
12

USB D+PULLUP

Q501

USB JACK IN

39 41 – 45 47 49
51 52 54 56 – 60

62 – 64 66 68 – 70
72 73 75 76 78
79 81 83 – 88 90
92 93 95 97

109

CSO
RD

99

101

WE1/DQMLU

100

WE0/DQMLL

CS4/PTJ (2)

114

CS6A/PTJ (5)

117

WAIT

138

IRQ1/PTF (1)

165

TCLK/PTJ (7)

146
162 SCL (O/D) /PTF (6)

RESETP

140

IRQ0/PTF (0)

164

15 DMNS/PTD (5)

D28/PTB (4)

22

D27/PTB (3)

23

UCLK/PTH (0)

184

EXTAL

179

SDA (O/D) PTF (7)

160

CKIO

187

AN (0) /PTL (0)

228

168 IRQ4/PTF (4)

128 IRQ5/PTF (5)

A0/PTK (0)

61

AN (1) /PTL (1)

229
192 PTM (7)

6 VBUS/PTD (3)

31 D22/PTA (6)

28 D24/PTB (0)

DP

239

DM

238

D0 – 15

A1 – 25

IC501

MC CAM

SH DSP

(4/8)

MSDIR/PTC (0)

MSBS/PTC (2)

MSDIO/PTC (1)

MSSCLK/PTC (3)

PTN (6)

PTN (0)
SCK1/SCPT (6)
TXD1/SCPT (4)
RXD1/SCPT (5)

PTM (4)

RXD2/PTH (3)

PTN (5)
AN (2) /PTL (2)

D30/PTB (6)

PTM (2)

SCS0/SCPT (3)

NMI

PTN (1)
TXD0/SCPT (0)
RXD0/SCPT (0)
SCK0/SCPT (2)

TXD2/PTH (2)
SCK2/PTH (4)

PTN (4)

PK-062 BOARD (1/3)

CN701

(3/5)

216

35D18/PTA (2)

39
15

XMS ACCESS LED

AE LOCK LED

FP-529 FLEXIBLE
BOARD

CN703

214
215
213

71
189
199
200
201

220
203
110
230

MS BS

7

MS DIO

5

MS SCLK

3

XMS IN

4

RST

6

CS

1

SCK

2

DI

3

DO

4

EVR (D/A CONVERTER)

DI

14

CLK

13

LD

1219

IC204

(3/8)

IC503

EEPROM

(5/8)

AO2
AO1
AO5
AO4
AO6
AO7
AO3

1

15

4
3
5
6
2

CN901
(1/4)

39
15

Q254 (2/2)

(MS SOCKET)

1

10

CAM SO

XCAM SCK

XCAM RESET

XGCAM CS

XTG CS

CCD TEMP

IRIS CONT2
IRIS CONT1

HALL REF

MSHUT REF

HALL GAIN

HALL OFFSET
PRELAMP AF ON
SELF TIMER LED

LED

DRIVE

D251

(MS ACCESS LED)

FLASH LED (GREEN)

CAMERA BLOCK 1

15

(3-3)

LENS MOTOR DRIVE
BLOCK

18

(3-8)

D253

AE LOCK/

VIDEO, FLASH,

13

134

136
157
190
191
185

202
204
137

VAMP ON

CN701

XCS MC

SELF TIMER LED

XMC NMI

XMC HELP

FR SI

FR SO

XFR SCK

XMS IN

LCD SO

XLCD SCK

XCS PANEL TG

(4/5)

MODE CONTROL BLOCK

19

(3-10)

VIDEO, FLASH,

28
38

29
30
23
24
25
36

48
47
49

MODE CONTROL BLOCK

20

(3-9)

VIDEO, FLASH,

21

MODE CONTROL BLOCK
(3-9)

LCD BLOCK

23

(3-11)

05

3-5 3-6

DSC-P51/P51M

COVER

COVER

3. BLOCK DIAGRAMS

3. BLOCK DIAGRAMS

3-4. LENS MOTOR DRIVE BLOCK DIAGRAM

LENS ASSY

IRIS METER

M

SENSOR

FOCUS

MOTOR

H

LENS

TEMP

M

SY-075 BOARD (3/4)

CN201

DRIVE (−)

1

DRIVE (+)

2

BIAS (+)

4

HALL (+)

6

BIAS (–)

5

HALL (–)

3

TEMP OUT

13

FOCUS A

16

FOCUS A

20

FOCUS B

14

FOCUS B

18

( ) : 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

3-7 3-8

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

3-9 3-10

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 9 10

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

3-11 3-12

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

73 73

69 69

68

62

67

64
66 66

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

L007 L015

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.

3-13 3-14

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)

−

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

3-15 3-16E

COVER

COVER

SECTION 4

PRINTED WIRING BOARDS AND SCHEMATIC DIAGRAMS

4-1. FRAME SCHEMATIC DIAGRAM (1/2)

4-2. SCHEMATIC DIAGRAMS 4-3. PRINTED WIRING BOARDS

4-2. SCHEMATIC DIAGRAMS 4-3. PRINTED WIRING BOARDS

DSC-P51/P51MDSC-P51/P51M

1

3

OVF

5

6842

7

91411 12 16

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_CS XGCAM_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_GND REG_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

4-1 4-2

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)

DSC-P51/P51M

COVER

COVER

FRAME SCHEMATIC DIAGRAM (2/2)

4-2. SCHEMATIC DIAGRAMS 4-3. PRINTED WIRING BOARDS

4-2. SCHEMATIC DIAGRAMS 4-3. PRINTED WIRING BOARDS

1

3

FLASH UNIT

5

6842

7

91411 12 16

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_GND REG_GND

4

REG_GND

6

REG_GND REG_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_SO FR_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_V XMS_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_FULL STB_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

4-3 4-4

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.

Example C541 L452

22U 10UH
TA A 2520

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→ EDIT PB/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.

4-5

COVER

COVER

Link

Link

DSC-P51/P51M

4-2. SCHEMATIC DIAGRAMS

CD-391 BOARD

CD-391 BOARD

CH-109 BOARD (CAMERA PROCESS)

CH-109 BOARD (CAMERA PROCESS)

SY-075 BOARD (1/8) (CAMERA DSP) PK-062 BOARD (1/3) (FRONT CONTROL)

SY-075 BOARD (1/8) (CAMERA DSP) PK-062 BOARD (1/3) (FRONT CONTROL)

SY-075 BOARD (2/8) (VIDEO, MEMORY)

SY-075 BOARD (2/8) (VIDEO, MEMORY)

SY-075 BOARD (3/8) (LENS DRIVE) PK-062 BOARD (3/3) (CONTROL SWITCH)

SY-075 BOARD (3/8) (LENS DRIVE) PK-062 BOARD (3/3) (CONTROL SWITCH)

SY-075 BOARD (4/8) (SH DSP)

SY-075 BOARD (4/8) (SH DSP)

SY-075 BOARD (5/8)

SY-075 BOARD (5/8)

(FLASH MEMORY CLOCK GENERATOR)

(FLASH MEMORY CLOCK GENERATOR)

SY-075 BOARD (6/8) (CONTROLLER)

SY-075 BOARD (6/8) (CONTROLLER)

COMMON NOTE FOR SCHEMATIC DIAGRAMS WAVEFORMS

COMMON NOTE FOR SCHEMATIC DIAGRAMS WAVEFORMS

(CCD IMAGER)

(CCD IMAGER)

SY-075 BOARD (7/8) (DC IN)

SY-075 BOARD (7/8) (DC IN)

SY-075 BOARD (8/8) (DC/DC CONVERTER)

SY-075 BOARD (8/8) (DC/DC CONVERTER)

PK-062 BOARD (2/3)

PK-062 BOARD (2/3)

(LCD DRIVE, TIMING GENERATOR)

(LCD DRIVE, TIMING GENERATOR)

JK-223 BOARD (JACK)

JK-223 BOARD (JACK)

FP-075 FLEXIBLE BOARD

FP-075 FLEXIBLE BOARD

ST-068 BOARD (FLASH DRIVE)

ST-068 BOARD (FLASH DRIVE)

COVER

COVER

4-2. SCHEMATIC DIAGRAMS CD-391 PRINTED WIRING BOARD

4-2. SCHEMATIC DIAGRAMS CD-391 PRINTED WIRING BOARD

DSC-P51/P51MDSC-P51/P51M

4-2. SCHEMATIC DIAGRAMS

1

A

20PCN301

246

CH-109

(THROUGH THE FP-077 FLEXIBLE)

CN102

(SEE PAGE 4-10)

B

CAM_-7.5V

CCD_TEMP

TH301

GND

GND

123456789

V3B

V3A

V4

V1B

V1A

V2

1011121314151617181920

C

For Schematic Diagram

• Refer to page 4-37 for printed wiring board.

• Refer to page 4-57 for waveforms.

3

CD-391 BOARD

CCD IMAGER

XX MARK:NO MOUNT

NO MARK:REC/PB MODE
R:REC MODE
P:PB MODE

VSHT

H1

RG

H2

GND

VSUB_CONT

CCD_OUT

L301

100uH

GND

CAM_15V

GND

5

Q302

2SC4250(T5LSONY1)

BUFFER

R14.8/P0

R10.3/P0

7

6

R9.5/

C311

10p

C309

D

1

2

1V42

V3A3V3B

4V25

V1A

0.1u

6

7

8

GND

V1B

VOUT

R308
3300

P0

C312

XX

IC301

CCD IMAGER

Note:The voltage and

FB301

C303

22u
16V

MA111-(K8).S0

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

IC301 ICX284DQN-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.

3

E

4

5

F

C301

1u

SIGNAL PATH

VIDEO

SIGNAL

G

Y/CHROMA

REC

05

C302

3.3u
35V

4-7 4-8

CD-391

DSC-P51/P51M

COVER

COVER

For Schematic Diagram

• Refer to page 4-39 for printed wiring board.

4-2. SCHEMATIC DIAGRAMS CH-109 PRINTED WIRING BOARD

4-2. SCHEMATIC DIAGRAMS CH-109 PRINTED WIRING BOARD

1

2 134 1411

3 158 166 17

75

9

10

12

CH-109 BOARD

A

B

C

D

E

F

G

H

I

CAMERA MODULE(CH BLOCK)

XX MARK:NO MOUNT

D12

D10

D8

D6

D4

D2

D0

05

IC101

V4

D2

V3B

V3AV2V1B

VSHT

V1A

H1

H2

RG

12345678910111213141516171819202122232425

V4

V3A

V3B

V2

V1A

V1B

VSHT

RG

H1

H2

76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100101

CN102

10

11

12

13

14

15

16

17

18

19

20

1

2

3

4

5

6

7

8

9

20P

GND

CCD_TEMP

CAM_-7.5V

GND

V4

V3A

V3B

V2

V1A

V1B

VSHT

RG

H1

H2

VSUB_CONT

GND

CCD_OUT

GND

CAM_15V

GND

CD-391

CN301

THROUGH THE

FP-077 FLEXIBLE

(SEE PAGE 4-7)

Note: Each model has its own camera module.

Discrimination method is the following.

ABCD
DSC-P31 a
DSC-P51 a
DSC-P71 a

D13

CN101

70

REG_GND

68

REG_GND

66

150

R109

150

R110

150

R111

150

R112

150

R113

150

R114

0

R115

R122

0

REG_GND

64

CA_AD12

62

CA_AD10

60

CA_AD8

58

CA_AD6

56

CA_AD4

54

CA_AD2

52

CA_AD0

50

REG_GND

48

XTG_CS

46

XCAM_SO

44

REG_GND

42

A_4.9V

40

A_2.9V

38

CAM_-7.5V

36

D_3.1V

34

REG_GND

32

REG_GND

30

REG_GND

28

REG_GND

26

CLPDM CLPOB

24

CA_HD

22

REG_GND

20

REG_GND

18

REG_GND

16

CCD_TEMP

14

REG_GND

12

REG_GND

10

REG_GND

8

REG_GND

6

REG_GND

4

REG_GND

2

REG_GND

70P

SY-075 (6/8)

CN705

(SEE PAGE 4-21)

R124

XX

R123

0

L101
47uH

TG_CLK

MCK12

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

A_2.9V

CAM_15V

TG_WEN

REG_GND

REG_GND

REG_GND

REG_GND

CA_FD

REG_GND

REG_GND

XCAM_RESET

VSUB_CONT

REG_GND

REG_GND

REG_GND

REG_GND

REG_GND

REG_GND

REG_GND

FB102

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

C103
47u

6.3V

R102

150

D13

R103

150

D11

R104

150

D9

R105

150

D7

R106

150

D5

R107

150

D3

R108

0

D1

R121

0

FB103

R118

10

R119

0

26272829303132333435363738394041424344454647484950

D1

TG3V

DRV3V

HVDD

D0

HVDD

TG3V

FE3V

DRV3V

51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75

FE3V

D101

XX

R125

XX

D102

XX

R126

XX

FB101

C107

4.7u

C105

22u

16V

L102
10uH

FB106

L103
10uH

FB105

C106

R116

0.1u

100k

C108

47u

6.3V

C109

47u

6.3V

D9D8D7D6D5D4D3

D12

D11

D10

IC101

CAMERA MODULE

(CH-111 BOARD)

Note:The voltage and waveform of CSP(chip size package)

cannot be measured,because its lead layout is different
form that of conventional IC.

ABCD

CH-109

4-9 4-10

DSC-P51/P51MDSC-P51/P51M

COVER

COVER

For Schematic Diagram

• Refer to page 4-41 for printed wiring board.

1

3

SY-075 BOARD (1/8)

A

CAMERA DSP(HMS BLOCK 1/2)

B

C

D

E

F

G

H

I

J

K

L

M

N

XX MARK:NO MOUNT

4

5

11

05

SY-075 (6/8)

2

SY-075 (3/8)

3

SY-075 (3/8)

SY-075 (2/8)

SY-075 (4/8)

8

SY-075 (6/8)

SY-075 (6/8)

SY-075 (6/8)

1

SY-075 (5/8)

6

SY-075 (6/8)

SY-075 (5/8)

9

10

7

VSUB_CONT

CA_AD13

CA_AD12

CA_AD11

CA_AD10

CA_AD09

CA_AD08

CA_AD07

CA_AD06

CA_AD05

CA_AD04

CA_AD03

CA_AD02

CA_AD01

CA_AD00

TG_WEN

HR_DIR1A

HR_DIR1B

HR_DIR0A

HR_DIR0B

MSHUT_ON

MSHUT_EN

ZM_DC_EN

ZM_DC_BR

XZM_RST_SENS

XFC_RST_SENS

XLENS_RST_LED

HR_DIR2A

HR_DIR2B

XOVF_RST_SENS

ZOOM_ENCODER1

ZOOM_ENCODER2

ZOOM_ENCODER3

ZOOM_ENCODER4

XSENCV_OPEN

XSENCV_CLOSE

MC_XRD

MC_XCS6

MC_XCS4

MC_XWE0

MC_XWE1

AU_LRCK

AMP_OUT_ON

MC_CLK1

XRST_SYS

PAL/XNTSC

PANEL_V

STRB_ON

CA_HD

CLPOB

CLPDM

HR_EN1

HR_EN0

HR_EN2

IRIS_IN

IRIS_EN

IROIMG

MC_A25

MC_A24

MC_A23

MC_A22

MC_A21

MC_A20

MC_A19

MC_A18

MC_A17

MC_A16

MC_A15

MC_A14

MC_A13

MC_A12

MC_A11

MC_A10

MC_A09

MC_A08

MC_A07

MC_A06

MC_A05

MC_A04

MC_A03

MC_A02

MC_A01

MC_D15

MC_D14

MC_D13

MC_D12

MC_D11

MC_D10

MC_D09

MC_D08

MC_D07

MC_D06

MC_D05

MC_D04

MC_D03

MC_D02

MC_D01

MC_D00

PLLBYP

CA_FD

MCK

XWAIT

SYS_V

HDO

Digital

VSUB_CONT

Digital

HR_DIR1A

HR_DIR1B

HR_DIR0A

HR_DIR0B

MSHUT_ON

MSHUT_EN

ZM_DC_EN

ZM_DC_BR

XZM_RST_SENS

XFC_RST_SENS

XLENS_RST_LED

HR_DIR2A

HR_DIR2B

XOVF_RST_SENS

ZOOM_ENCODER1

ZOOM_ENCODER2

ZOOM_ENCODER3

ZOOM_ENCODER4

XSENCV_OPEN

XSENCV_CLOSE

Digital

AMP_OUT_ON

XRST_SYS

PAL/XNTSC

CA_AD13

CA_AD12

CA_AD11

CA_AD10

CA_AD09

CA_AD08

CA_AD07

CA_AD06

CA_AD05

CA_AD04

CA_AD03

CA_AD02

CA_AD01

CA_AD00

CLPDM

TG_WEN

HR_EN1

HR_EN0

HR_EN2

IRIS_IN

IRIS_EN

IROIMG

MC_A25

MC_A24

MC_A23

MC_A22

MC_A21

MC_A20

MC_A19

MC_A18

MC_A17

MC_A16

MC_A15

MC_A14

MC_A13

MC_A12

MC_A11

MC_A10

MC_A09

MC_A08

MC_A07

MC_A06

MC_A05

MC_A04

MC_A03

MC_A02

MC_A01

MC_XRD

MC_XCS6

MC_XCS4

MC_XWE0

MC_XWE1

MC_D15

MC_D14

MC_D13

MC_D12

MC_D11

MC_D10

MC_D09

MC_D08

MC_D07

MC_D06

MC_D05

MC_D04

MC_D03

MC_D02

MC_D01

MC_D00

AU_LRCK

PLLBYP

MC_CLK1

PANEL_V

STRB_ON

CA_HD

CLPOB

XWAIT

SYS_V

CA_FD

MCK

HDO

CLPOB

CLPDM

CA_HD

CA_FD

CA_AD13

CA_AD12

CA_AD09

CA_AD11

CA_AD10

CA_AD08

CA_AD06

CA_AD07

CA_AD04

CA_AD05

CA_AD03

CA_AD02

CA_AD00

CA_AD01

MC_A23

MC_A25

MC_A22

MC_A24

MC_A19

MC_A21

MC_A18

MC_A20

MC_A15

MC_A14

MC_A17

MC_A11

MC_A16

MC_A13

MC_A08

MC_A07

MC_A12

MC_A05

MC_A10

MC_A04

MC_A09

MC_A03

MC_A02

MC_A06

MC_A01

MC_XRD

MC_XCS6

MC_XCS4

MC_XWE0

MC_XWE1

IRQIMG

XWAIT

MC_D09

MC_D02

MC_D00

MC_D08

MC_D13

MC_D05

MC_D01

4-2. SCHEMATIC DIAGRAMS

4-2. SCHEMATIC DIAGRAMS

287SM288

MST

D0474D0775D12

73

Digital

MC_D04

MC_D07

286

MC_D12

7

275

276

277

278

279

280

281

282

283

284

285

XTST

DGND_16

D1577D1178D03

76

MC_D15

MC_D11

VRPR

VRNR

AVDD_3

D06

79

80

MC_D03

MC_D06

MC_D14

VRPL

VRNL

AVS_2

AVS_3

AOUTL

AOUTR

D1481D1082DGND_383XWAITIN84MD085MD186MD287PLLVCC88CLKI89PLLGND90PLLMD091PLLINSEL92DACMD93VCC2_294RSTX95SONYTEST96CLKTG

C306

22u
4V

MC_D10

AVDD_2

9

259

260

261

262

263

264

265

266

267

268

269

270

271

272

273

274

AVDD_1

C307

VRH

0.01u

MC_CLK1

AIN

N.C.

VRL

VR_1

ACLK

AVS_1

DGND_15

C311

0.1u

L301

R304

10uH

1k

MCK

XRST_SYS

SCLK

ADCK

XACLK

XPWAD

XPWDA

VCC3_14

Note:The voltage and waveform of CSP(chip size package)

cannot be measured.because its lead layout is different
form that of conventional IC.

PLLMD198PLLMD299PLLXMSK

VCC3_3

PLL24

97

100

101

102

C313

0.1u

C312

0.1u

5

C302

0.1u

Digital

0.1uC301

CL301

CL302

CL303

CL304

CL305

CL306

Digital

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17

18

19

20

21

22

23

24

25

26

27

28

29

30

31

32

33

34

35

36

37

38

39

40

41

42

43

44

45

46

47

48

49

50

51

52

53

54

55

56

57

58

59

60

61

62

63

64

65

66

67

68

69

70

71

72

684 17 182

SMCK

CAMVDI

EXTVALID

DGND_0

PBLK

OPBCLP

CLPDM

CCDHD

CCDFD

VCC3_0

ADIN15

ADIN13

ADIN12

ADIN09

ADIN14

ADIN11

VCC2_0

ADIN10

ADIN08

ADIN06

ADIN07

ADIN04

ADIN05

ADIN03

ADIN02

ADIN00

ADIN01

DGND_1

A23

A25

A22

A24

A19

A21

A18

A20

A15

A14

A17

A11

A16

VCC3_1

A13

A08

A07

A12

A05

A10

A04

A09

A03

A02

A06

A01

RDX

VCC2_1

CSX

CSXRAM

WRLX

WRHX

IRQJPG

IRQIMG

DGND_2

XWAIT

D09

D02

D00

D08

D13

VCC3_2

D05

D01

SY-075 BOARD SIDE A SY-075 BOARD SIDE B

SY-075 BOARD SIDE A SY-075 BOARD SIDE B

AU_LRCK

AUCK

PLL12

13

HR_EN2

HR_EN1

STRB_ON

MSHUT_ON

VSUB_CONT

R306

1k

C316

0.1u

C318

0.1u

244

245

246

247

248

249

250

251

252

253

254

255

256

257

258

SIA

SOA

VR_0

PLLBYP

N.C.

105

106

AVDD_0

STRBAD

IC301

CAMERA DSP

IC301

MB87M1410LGA-G-ER

XCS0

DGND_4

XCS1

107

108

109

HR_XCS0

AVS_0

DGND_14

XCS2

XCS3

110

111

HR_XRAS

SUBCNTL

XRAS

112

HR_XCAS

STROBE2

XCAS

113

STROBE1

QCLKE

114

HR_QCLKE

VCC3_13

VCC3_4

115

SHUTTER

N.C.

116

HR_QCLK

IRISOUT

QCLK

117

VCC2_8

VCC2_3

103

104

PLLBYP

VCC2_7

DGND_5

HR_DIR2B

243

DIR2B

BA1

118

HR_BA1

HR_DIR2A

242

DIR2A

AQ09

119

HR_AQ09

241

120

EN2

BA0

HR_BA0

HR_DIR1B

XOVF_RST_SENS

239

240

DIR1B

SENSE2

VCC3_5

AQ12

121

122

238

123

HR_DIR1A

237

DIR1A

AQ06

124

HR_AQ06

EN1

AQ05

HR_AQ05

HR_DIR0B

XZM_RST_SENS

235

236

DIR0B

SENS1

AQ11

AQ03

125

126

HR_AQ11

HR_AQ03

HR_DIR0A

234

127

HR_AQ10

HR_EN0

233

DIR0A

AQ10

128

1411 12 16

SYS_V

PANEL_V

CL312

XFC_RST_SENS

227

228

229

230

231

232

EN0

VPD

SENS0

LCDVD

NTVDO

CAMVDO

VCC3_12

DGND_6

AQ02

VCC2_4

AQ07

AQ08

AQ04

129

HR_AQ02

AQ01

130

131

132

133

134

C317

0.1u

HR_AQ07

HR_AQ08

HR_AQ04

HR_AQ01

Y/CHROMA

A

SY-075 (2/8)

20

1510

HDO

PAL/XNTSC

R309
6800

C322

0.5%

0.1u

C321

0.1u

217

218

219

220CO221

222

223

224

225HD226

FLD

N.C.

VRO2

VREF2

VAVS4

VAVD4

EXTPAL

DGND_13

(XSENCV_OPEN)

(XSENCV_CLOSE)

TG_WEN

VCC3_6

AQ00

XWE

DQM3

DQM2

DQM1

DQM0

DGND_7

DQ30

135

136

137

138

139

DQ31

140

141

142

143

144

VAVD3

VAVS3

VAVS2

VAVD2

VAVD0

VAVD1

DGND_12

VCC2_6

VCC3_11

VCC2_5

DGND_11

VCC3_10

DGND_10

VCC3_9

DGND_9

VCC3_8

DGND_8

VCC3_7

VREF1

VAVS0

VAVS1

PIO14

PIO11

PIO15

FB301

R310

18k

0.5%

R311

27k

0.5%

216

YO

215

214

213

RO

212

211

VRO1

210

209

208

GO

207

206

205

BO

204

203

202

PIO00

201

200

PIO05

199

PIO01

198

PIO06

197

PIO02

196

PIO03

195

PIO09

194

193

PIO10

192

PIO04

191

PIO12

190

PIO07

189

PIO08

188

PIO13

187

186

185

184

183

182

DQ00

181

DQ02

180

179

DQ03

178

DQ01

177

DQ06

176

DQ04

175

DQ07

174

DQ05

173

172

DQ09

171

DQ08

170

DQ10

169

168

DQ12

167

DQ11

166

165

DQ13

164

DQ14

163

DQ16

162

DQ17

161

DQ18

160

159

DQ15

158

DQ19

157

DQ20

156

DQ21

155

154

DQ24

153

DQ26

152

DQ22

151

DQ23

150

DQ27

149

148

DQ28

147

DQ25

146

DQ29

145

FB302

R313

330

0.5%

R314

560

0.5%

R312

10k

0.5%

C323

0.1u

R318

18k

0.5%

C324

0.1u

R315

560

0.5%

R316

560

0.5%

ZOOM_ENCODER1

XLENS_RST_LED

ZOOM_ENCODER2

C319

0.1u

ZOOM_ENCODER3

XOVF_RST_SENS

C326

0.1u
ZOOM_ENCODER4

C325

0.1u

C327

0.1u

R319

27k

0.5%

XSENCV_OPEN

MSHUT_EN

ZM_DC_BR

XFC_RST_SENS

IRIS_EN

XSENCV_CLOSE

ZM_DC_EN

XZM_RST_SENS

TG_WEN

HR_DQ00

HR_DQ02

HR_DQ03

HR_DQ01

HR_DQ06

HR_DQ04

HR_DQ07

HR_DQ05

HR_DQ09

HR_DQ08

HR_DQ10

HR_DQ12

HR_DQ11

HR_DQ13

HR_DQ14

HR_DQ16

HR_DQ17

HR_DQ18

HR_DQ15

HR_DQ19

HR_DQ20

HR_DQ21

HR_DQ24

HR_DQ26

HR_DQ22

HR_DQ23

HR_DQ27

HR_DQ28

HR_DQ25

HR_DQ29

AMP_OUT_ON

YO

RO

GO

BO

IRIS_IN

SIGNAL PATH

19

A_2.9V

D_2.9V

D_1.5V

REG_GND

AMP_OUT_ON

1

GND

2

3

4

5

GND

VIDEO SIGNAL

CHROMA

REC

PB

B

C320

0.1u

HR_AQ00

HR_XWE

HR_DQM3

HR_DQM2

HR_DQM1

HR_DQM0

HR_DQ30

HR_DQ31

GND

SY-075 (2/8)

6

4-11 4-12

SY-075 (1/8)

DSC-P51/P51M

SY-075 (2/8)

COVER

COVER

For Schematic Diagram

• Refer to page 4-41 for printed wiring board.

• Refer to page 4-58 for waveforms.

1

SY-075 BOARD (2/8)

A

VIDEO MEMORY
(HMS BLOCK 2/2,

VI BLOCK,LD2 BLOCK)

XX MARK:NO MOUNT

NO MARK:REC/PB MODE

B

C

A

SY-075 (1/8)

D

E

F

Note:The voltage and waveform of CSP(chip size package)
cannot be measured,because its lead layout is defferent
form that of conventional IC.

G

H

I

J

K

L

5

05

SY-075 (1/8)

4-13 4-14

3

IC302

64M SDRAM

B

SY-075 (1/8)

REG_GND

AMP_OUT_ON

XSENCV_OPEN

XSENCV_CLOSE

A_2.9V

D_2.9V

D_1.5V

4-2. SCHEMATIC DIAGRAMS

4-2. SCHEMATIC DIAGRAMS

5

2.8

Q305

UMF5NTR

5

R328

2200

1

GND

2

R317

100k

SWITCH

3

0

4

2.8

2.8

1

6

2

2.2

R320
2200

2

3

4

1

5

GND

HR_DQ00

HR_DQ01

HR_DQ02

HR_DQ03

HR_DQ04

HR_DQ05

HR_DQ06

HR_DQ07

HR_DQM0

HR_XWE

HR_XCAS

HR_XRAS

HR_XCS0

HR_AQ11

HR_BA0

HR_BA1

HR_AQ10

HR_AQ00

HR_AQ01

HR_AQ02

HR_DQM2

HR_DQ16

HR_DQ17

HR_DQ18

HR_DQ19

HR_DQ20

HR_DQ21

HR_DQ22

HR_DQ23

GND

6

0

0.8

0

Q301
2SB1462J­QR(K8).SO

BUFFER

FB303

C342

10u

6.3V

C329

0.1u

C332

0.1u

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17

18

19

20

21

22

23

24

25

26

27

28

29

30

31

32

33

34

35

36

37

38

39

40

41

42

43

44

45

C328

R321
2200

3

0

0.7

Q302
2SB1462J­QR(K8).SO

BUFFER

K4S643233E-DE80T

VDDQ

VDD

DQ0

VDDQ

DQ1

DQ2

VSSQ

DQ3

DQ4

VDDQ

DQ5

DQ6

VSSQ

DQ7

NC

VDD

DQM0

WE#

CAS#

RAS#

CS#

A11

BA0

BA1

A10

A0

A1

A2

DQM2

VDD

NC

DQ16

VSSQ

DQ17

DQ18

VDDQ

DQ19

DQ20

VSSQ

DQ21

DQ22

VDDQ

DQ23

VDD

VDDQ

SY-075 BOARD SIDE A SY-075 BOARD SIDE B

SY-075 BOARD SIDE A SY-075 BOARD SIDE B

6842

7

91411 12 16

13

1510

SIGNAL PATH

L302
10uH

C341

10u

6.3V

C340

10u

6.3V

C339

22u

4V

10u

6.3V

4

R322

R323

2200

2200

0.8

IC302

0

0.8

Q303
2SB1462J­QR(K8).SO

BUFFER

DQ15

VSSQ

DQ14

DQ13

VDDQ

DQ12

DQ11

VSSQ

DQ10

VDDQ

DQM1

DQM3

DQ31

VDDQ

DQ30

DQ29

VSSQ

DQ28

DQ27

VDDQ

DQ26

DQ25

VSSQ

DQ24

VSSQ

VSS

VSS

DQ9

DQ8

NC

VSS

NC

NC

CLK

CKE

A9

A8

A7

A6

A5

A4

A3

VSS

NC

VSS

Q304

2SB1462J-QR(K8).SO

BUFFER

90

89

88

87

86

85

84

83

82

81

80

79

78

77

76

75

74

73

72

71

70

69

68

67

66

65

64

63

62

61

60

59

58

57

56

55

54

53

52

51

50

49

48

47

46

HR_DQ15

HR_DQ14

HR_DQ13

C335

0.1u

HR_DQ12

HR_DQ11

HR_DQ10

HR_DQ09

HR_DQ08

HR_DQM1

HR_QCLK

HR_QCLKE

HR_AQ09

HR_AQ08

HR_AQ07

HR_AQ06

HR_AQ05

HR_AQ04

HR_AQ03

HR_DQM3

HR_DQ31

C337

0.1u
HR_DQ30

HR_DQ29

HR_DQ28

HR_DQ27

HR_DQ26

HR_DQ25

HR_DQ24

PANEL_R

PANEL_G

PANEL_B

12

SY-075 (6/8)

A_2.9V

D_2.9V

D_1.5V

REG_GND

37

SY-075 (8/8)

36

SY-075 (8/8)

34

SY-075 (8/8)

C601

4.7u
10V

VIDEO SIGNAL

CHROMA

Y/CHROMA

REC

PB

L651

10uH

L601
10uH

5

0

0

C653

C652

0.1u

10u

6.3V

R651

1k

C651

1u

IC601

1

VCC

2

IN1

3

IN2

4

SGND

R601

10k

C654

XX

NJM2574RB1(TE2)

IC651

2.8

R652

0

C655

XX

IC601

MOTOR DRIVE

C656

0.1u

R653

0

2.6

2.8

7

8

CL/BI SW

LPF/THR SW

1

2

LB1938T-TLM-E

6

1.5

PowerSave

GND

3

0.9

PGND

OUT1

OUT2

NC

Video-in

Vsag

R604

1M

R654

5

VCC

V-OUT

4

10k

2.8

0.9

8

7

6

5

D601

XX

R603

XX

6

IC651

VIDEO AMP

5

C658
100u

4V

C657

22u

4V

OPEN:0.5/CLOSE:0.1

D602

XX

R605

XX

FB601

FB602

R656

68

R655

68

R607

XX

R608

XX

2 OUT2

1 OUT1

1

2

3

4

5

6

CVCHK_OUT

V_OUT

VAMP_ON

LENSV_CLOSE_ON

LENSV_OPEN_ON

M_5V

CN601

ZOOM_DC-

ZOOM_DC+

_HR_EN1

_HR_DIR1A

CN602 6P

CP_LED

N.C.

XSENCV_OPEN

XSENCV_CLOSE

SENC_GND

N.C.

SY-075 (6/8)

13

SY-075 (6/8)

14

15

SY-075 (5/8)

16

SY-075 (5/8)

SY-075 (8/8)

39

2P

M901
LENS
BARRIER

M

MOTOR

17

SY-075 (3/8)

FP-075 FLEXIBLE
(SEE PAGE 4-32)

DSC-P51/P51MDSC-P51/P51M

COVER

COVER

For Schematic Diagram

• Refer to page 4-41 for printed wiring board.

1

3

SY-075 BOARD (3/8)

A

LENS DRIVE(LD BLOCK)

B

C

D

E

F

G

H

I

J

K

L

M

XX MARK:NO MOUNT

LENS
BLOCK

OPTICAL

VIEWFINDER

05

FP-070

FLEXIBLE

BOARD

3

SY-075 (1/8)

CN201

CN202

ZOOM_ENCODER_1

ZOOM_ENCODER_2

ZOOM_ENCODER_3

ZOOM_ENCODER_4

FOCUS_RESET_VCC

FOCUS_RESET_GND

FOCUS_RESET_SENS

CN203

21P

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

ZOOM_ENCODER4

ZOOM_ENCODER3

ZOOM_ENCODER2

ZOOM_ENCODER1

XX

ZOOM_DRIVE-

ZOOM_DRIVE-

ZOOM_DRIVE+

ZOOM_DRIVE+

ENCODER_GND

TEMP_OUT

TEMP_GND

FOCUS_B

FOCUS_A

FOCUS_B-

FOCUS_A-

SHUTTER-

SHUTTER-

SHUTTER+

SHUTTER+

8P

OVF_SENS_GND

OVF_SENS_VCC

OVF_SENS_RST

DRIVE-

DRIVE+

HALL+

OVF_A

OVF_B

OVF_A

OVF_B

HALL-

BIAS+

1

2

3

4

5

BIAS-

6

7

8

9

10

11

12

13

14

15

16

17

18

19

20

21

25

24

23

22

21

20

19

18

17

16

15

14

13

12

11

10

9

8

7

N.C.

6

IRIS+

5

IRIS-

4

3

2

1

D206

XX

8

7

6

5

NC

4

3

2

1

NO MARK:REC/PB MODE

R259

0

XX

XX

R201

XX

R202

R203

XX

R204

XX

D207

D208

MAZR082H0AS0

R205

4.7k

MAZR082H0AS0

Q201

2SB1462J-QR(K8).SO

SWITCH

D209

MAZR082H0AS0

D210

R207

56k

R256

xx

5

ZOOM_DC-

ZOOM_DC+

SHUTTER-

SHUTTER+

D212

MAZR082H0AS0

FOCUS_B

ZOOM_B

FOCUS_A

FOCUS_B

ZOOM_B

FOCUS_A

FOCUS_B

FOCUS_A

FOCUS_B

FOCUS_A

OVF_B

OVF_B

4-2. SCHEMATIC DIAGRAMS

4-2. SCHEMATIC DIAGRAMS

7

D204

MA-111(K8).SO

D205

ZOOM_DC-

ZOOM_DC+

D213

MAZR082H0AS0

D214

MAZR082H0AS0

2SD2216J-QR(K8).SO

1SS401(TE85L)

L202
10uH

C203

0.1u

IC201

IRIS DRIVE

Q202

IRIS DRIVE

4.3

0.8

0.1

R208

10

Q203

2SB1462J-QR(K8).SO

B+ SWITCH

0

2.9

R215
4700

C202

33u
10V

C205

0.01u

C206

0.1u

C228

0.1u

R209

100

C204

0.22u

2.8

R216

C207

0.1u

OVF_A

OVF_B

OVF_A

OVF_B

684 172

SY-075 BOARD SIDE A SY-075 BOARD SIDE B

SY-075 BOARD SIDE A SY-075 BOARD SIDE B

9

R236
2200

180k

R224

C211

R213

0.033u

100k

IC203

Q204

BIAS CONTROL

0.1u

OVF_A

14

OUT1A15OUT1B

2.9

R218

0

R223
180k

C215

0.001u

0.9

0.7

13

14

OUT

IN(-)

NJM12902V(TE2)

IC203

OUT2IN(-)

1

0

0.1

R220

R225

330

22k

R206

XX

C212

XX

13

CNF

1.4

IN1

12

0

EN1

11

0

IN2

10

0

EN2

9

2.5

IN3

8

0

EN3

7

0

IN4

6

0

EN4

5

0

IN5

4

0

EN5

3

0

IN6

2

EN6

1

IN7

48

0

R219

R221

XX

XX

C210

3300p

0.9

0.9

0.9

3.1

5

6

7

8

VCC

OUT

IN(-)

IN(+)

NJM2904V(TE2)

IC201

OUT2IN(-)3IN(+)4GND

1

0.8

0.9

0.9

R211
100k

C208

4700

R217

56k

CP1

CP2

CP3

CP4

VG

DGND

VLIM

VREF

PS

VCC

BR6

BR5

0.1u

R212

10k

FOCUS_B

FOCUS_B

0

22

23

OUT4A24OUT4B

OUT5A38OUT5B39VM340PGND2

37

0

5

ZOOM_DC+

ZOOM_DC-

R214

47k

FOCUS_A

00

21

VM2

OUT3B

7CH LENS DRIVER

C209

1u

R210

56k

0

25

0

26

27

0

28

0

29

30

0.9

31

32

2.9

33

2.9

34

35

0

36

HALL BIAS CONTROL

OVF_B

OVF_B

FOCUS_A

00

055

16

17

19

20

VM1

OUT2A18OUT2B

OUT3A

PGND1

IC202

IC202

M50230FP-DF0T

OUT6A42OUT6B43OUT7A44RNF45VM446OUT7B47EN7

41

00

50000

5

ZOOM_B

ZOOM_B

SHUTTER+

2SD2216J-QR(K8).SO

0.7

C213

OVF_A

0

SHUTTER-

R230

1k

0.5%

2700

R226

R229

180k

0.9

11

12

GND

IN(+)

IN(+)4VCC5IN(+)6IN(-)7OUT

3

0.1

3.1

R228

12k

R227
1200

C214

0.1u

L203

4.7uH

R222

XX

R231

16k

0.5%
R260

R233

0.1u

100k

R237

C220

XX

0.01u

R232

22k

R234

C216

100k

0.022u

C217

0.022u

1

0.8

0.8

8

9

10

OUT

IN(-)

IN(+)

1.1

0.9

0.9

C219

0.01u

10k

XX

R235

C218

L204

10uH

R258

XX

D211

XX

13

IC204 BH2223FV-E2

0.1

1

A02

2

A03

0.8

3

A04

0.9

4

A05

1

5

A06

1.8

6

A07

7

A08

8

A09

EVR(D/A CONVERTER)

L205

10uH

C225

C224

0.1u

C223

1u

10u

6.3V

1411 12 16

670215501

GND

16

0.80

A01

15

1.4

DI

14

2.9

CLK

13

0

LD

12

NC

11

A010

10

3.1

VCC

9

IC204

1510

19

SY-075 (5/8)

37

SY-075 (8/8)

35

SY-075 (8/8)

42

SY-075 (8/8)

36

SY-075 (8/8)

39

SY-075 (8/8)

SY-075 (2/8)

18

SY-075

(6/8)

20

SY-075 (5/8)

SY-075 (1/8)

17

2

PRELAMP_AF_ON

CAM_SO

XCAM_SCK

L206

R246

10uH

C226

C227

0.1u
10u

6.3V

R244 0

R257

XX

A_2.9V

R247

XXR238

XXR239

0R240

0R241

XXR243

0R245

0

D_3.1V

0

REG_GND

D_2.9V

M_5V

HALL_AD

DAC_STBY

LENS_TEMP_AD

XCAM_DR_PS

LENSV_BREAK

XOVF_RST_SENS

XFC_RST_SENS

XLENS_RST_LED

XZM_RST_SENS

HR_DIR2A

HR_EN2

IRIS_IN

IRIS_EN

HR_DIR2B

HR_EN2

HR_DIR0A

HR_EN0

HR_DIR0B

HR_DIR1A

ZM_DC_EN

HR_EN1

HR_DIR1B

MSHUT_ON

MSHUT_EN

ZM_DC_BR

ZOOM_DC+

ZOOM_DC-

_HR_EN1

_HR_DIR1A

4-15

4-16

SY-075 (3/8)

DSC-P51/P51M

COVER

COVER

A

B

C

D

E

F

G

H

I

J

K

L

M

For Schematic Diagram

• Refer to page 4-41 for printed wiring board.

XTRST

3

SH DSP(SH BLOCK 1/2)

XX MARK:NO MOUNT

NO MARK:REC/PB MODE

C501

10u

6.3V

L502
10uH

C502

22u
4V

TCK

TDI

TDO

TMS

VAMP_ON

DAC_STBY

TG_CLK_EN

USB_CLK_EN

MS_POWER_ON

AE_LOCK_LED

MC_D15

MC_D14

MC_D13

MC_D12

MC_D11

MC_D10

MC_D09

MC_D08

MC_D07

MC_D06

MC_D05

MC_D04

MC_D03

MC_D02

MC_D01

MC_D00

DTA144EHT2L

Digital

Digital

1

SY-075 BOARD (4/8)

36

SY-075 (8/8)

SY-075 (8/8)

SY-075 (8/8)

D_2.9V

35

D_3.1V

D_1.5V

34

REG_GND

XRST_JTAG

CL501

XASEMD0

CL502

XASEBREAK

CL503

CL504

CL505

CL506

CL507

CL508

R505 0

CL509

AMP_OUT_ON

MC_D15

MC_D14

MC_D13

MC_D12

MC_D11

MC_D10

MC_D09

MC_D08

MC_D07

MC_D06

MC_D05

MC_D04

MC_D03

MC_D02

MC_D01

MC_D00

SWITCH

Q501

2.9

USB_JACK_IN

R506

USB_D+PULLUP

4-2. SCHEMATIC DIAGRAMS

4-2. SCHEMATIC DIAGRAMS

R526

47k

R525

1k

231

232

(A5) AN[4]/PTL[4]

(D4) AN[3]/PTL[3]

CCD_TEMP

LENS_TEMP_AD

0.1u

C508

229

230

(C5) AN[2]/PTL[2]

(D5) AN[1]/PTL[1]

7

HALL_AD

R528

47k

1k

R527

0.1u

C509

227

228

(B6) AVss(AD)

(A6) AN[0]/PTL[0]

224

225

226

(D6) PTM(3)

(C6) TO1/PTE(3)

CL511

221

222

223

(A7) CTS5/SCPT2(6)

(B7) RTS5/SCPT2(5)

(C7) RXD5/SCPT2(4)

MS_BS

XCAM_RESET

CL512

47k

R533

220

(D7) TXD5/SCPT2(4)

MS_DIO

XMS_ACCESS_LED

0

R536

C511

0.1u

47k

R583

214

215

216

217

218

219

(B8) VccQ

(D8) VssQ

(C8) CKIO2

(A8) PTM(4)

(B9) MSDIO/PTC(1)

(A9) MSDIR/PTC(0)

Note:The voltage and waveform of CSP(chip size package)

cannot be measured.because its lead layout is different
form that of conventional IC.

C510

0.1u

MS_SCLK

Digital

213

(D9) MSBS/PTC(2)

(C9) MSSCLK/PTC(3)

MC CAM SH DSP

HD6417190BPZ110BV

5

3.1

FB501

FB502

R520

0.4

C503

47k

0.1u

C504

0.1u

1k

1

STATUS1/PTE(1) (B2)

2

STATUS0/PTE(0) (D2)

3

XVDATA/PTD(0) (B1)

4

TXENL/PTD(1) (C2)

5

SUSPND/PTD(1) (C1)

6

VBUS/PTD(3) (E2)

7

T02/PTQ(1) (D1)

8

47kR517

TO0/PTE(2) (D3)

9

BREQ (E1)

TO3/PTQ(2) (C3)

10

TXDMNS/PTD(7) (E3)

11

TXDPLS/PTD(6) (E4)

12

PTM(2) (F1)

13

DPLS/PTD(4) (F2)

14

DMNS/PTD(5) (F3)

15

TEND/PTQ(0) (F4)

16

D31/PTB(7) (G1)

17

Vcc (G2)

18

D30/PTB(6) (G3)

19

Vss (G4)

20

D29/PTB(5) (H1)

21

D28/PTB(4) (H2)

22

D27/PTB(3) (H3)

23

VssQ (H4)

24

D26/PTB(2) (J1)

25

VccQ (J2)

26

D25/PTB(1) (J4)

27

D24/PTB(0) (J3)

28

PTM(1) (K2)

29

D23/PTA(7) (K3)

30

D22/PTA(6) (K4)

31

D21/PTA(5) (K1)

32

D20/PTA(4) (L3)

33

D19/PTA(3) (L4)

34

D18/PTA(2) (L2)

35

D17/PTA(1) (L1)

36

D16/PTA(0) (M4)

37

VssQ (M3)

38

D15 (M2)

39

VccQ (M1)

40

D14 (N4)

41

D13 (N3)

42

D12 (N2)

43

D11 (N1)

44

D10 (P4)

45

Vcc (P3)

46

D9 (P2)

47

Vss (P1)

48

D8 (R4)

49

PTM(0) (R3)

50

D7 (T4)

51

D6 (R1)

52

VssQ (T3)

53

D5 (T1)

54

VccQ (R2)

55

D4 (U1)

56

D3 (U2)

57

D2 (V1)

58

D1 (T2)

59

D0 (W1)

60

684 17 182

USB_D-

USB_D+

Digital

Digital

R522

R521

27

27

0.1uC506

233

234

235

236

237

238

239

240

(B4) DP

(A2) DM

(A1)AVss

(A4) AVcc(AD)

(B3) AVcc(USB)

(C4) AN[5]/PTL[5]

(B5) AN[6]/PTL[6]

(A3) AN[7]/PTL[7]

(XAU_POWER_SAVE)

(XAU_LINE_MUTE)

(XAU_SP_MUTE)

A0/PTK(0) (V2)62A1 (V4)63A2 (W2)64A3 (V3)65VssQ (W3)66A4 (V5)67VccQ (W4)68A5 (U4)69A6 (W5)70A7 (U3)71PTN(6) (U5)72A8 (T5)73A9 (W6)74TI2A/PTN(7) (V6)75A10 (U6)76A11 (T6)77TI2B/PTQ(7) (W7)78A12 (V7)79A13 (U7)80VssQ (T7)81A14 (W8)82VccQ (V8)83A15 (U8)84A16 (T8)85A17 (W9)86A18 (V9)87A19/PTK(1) (T9)88A20/PTK(2) (U9)89Vss (V10)90A21/PTK(3) (U10)91Vcc (T10)92A22/PTK(4) (W10)93A23/PTK(5) (U11)94VssQ (T11)95A24/PTK(6) (V11)96VccQ (W11)97A25/PTK(7) (T12)98BS (U12)99RD (V12)

61

SY-075 BOARD SIDE A SY-075 BOARD SIDE B

SY-075 BOARD SIDE A SY-075 BOARD SIDE B

9

FR_SI

FB503

R540

68

C512

0.1u

211

212

(A10) Vcc

(D10) PTM(5)

IC501

IC501

209

210

(B10) Vss

(C10) DACK1/PTC(7)

C513

0.1u

206

207

208

(D11) TXD3/PTH(5)

(C11)DREQ(1)/PTC(6)

XLCD_SCK

XGCAM_CS

203

204

205

(A11) SCK3/PTH(7)

(D12) SCK2/PTH(4)

(B11) RXD3/PTH(6)

CAM_SI

LCD_SO

CAM_SO

100k

R548

200

201

202

(B12) TXD2/PTH(2)

(C12) RXD2/PTH(3)

(A12) RXD1/SCPT(5)

WE0/DQMLL (W12)

100

101

XCAM_SCK

CAM_DD_ON

R549

100k

197

198

199

(B13) PTM(6)

(C13) SCK1/SCPT(6)

(D13) TXD1/SCPT(4)

(A13) SCK4/SCPT2(1)

WE1/DQMLU (T13)

WE2/DQMUL (U13)

WE3/DQMUU/AH (V13)

102

103

104

196

TI3A/PTQ(6) (W13)

105

R582
100k

193

194

195

(B14) CTS4/SCPT2(3)

(A14) RTS4/SCPT2(2)

(C14) TXD4/SCPT2(0)

(D14) RXD4/SCPT2(0)

RDWR (T14)

AUDSYNC/PTG(4)(U14)

TI3B/PTQ(5) (V14)

VssQ (W14)

106

107

108

CL513

FR_SO

XCAM_DR_PS

191

192

(D15) PTM(7)

CS0 (T15)

109

110

XEEPROM_CS

188

189

190

(A15) PTN(0)

(C17) TXD0/SCPT(0)

(C15) RXD0/SCPT(0)

(LENSV_CLOSE_ON)

(LENSV_OPEN_ON)

PTN(5) (U15)

VccQ (T16)

CS2/PTJ(0) (W15)

111

112

113

XFR_SCK

MC_CLK1

185

186

187

(A16) CKIO

(B15) VssQ

(C16) VccQ

(AU_HGL_SEL)

CS3/PTJ(1) (U16)

CS4/PTJ(2) (W16)

CS5A/PTJ(3) (V15)

114

115

116

USB_CLK

182

183

184

(A18) MD0

(B17) UCLK/PTH(0)

(A17)SCK0/SCPT(2)

(F19) IRQ4/PTF(4)

(F18) IRQ3/PTF(3)

(F17) IRQ2/PTF(2)

(F16) IRQ1/PTF(1)

(G19) IRQ0/PTF(0)

(G17) SCL(O/D)/PTF(6)

(H19) SDA(O/D)PTF(7)

(J17) AUDATA(0)/PTG(0)

(K19) AUDATA(1)/PTG(1)

(K16) IRQ7/PTQ(4)

(K17) AUDATA(2)/PTG(2)

(K18) AUDATA(3)/PTG(3)

(L17) IRQ6/PTQ(3)

(L18) TCLK/PTJ(7)

(M16) ASEBREKAK/PTG(5)

(M17) ASEMD0

(P18) SCS0/SCPT(3)

(U17) DACK0/PTC(5)

(R19) DREQ0/PTC(4)

(T17) IRQ5/PTF(5)

(R18) RASU/PTE(5)

CS5B/PTJ(4) (W17)

CS6A/PTJ(5) (V17)

CS6B/PTJ(6) (W18)

117

118

119

181

(B16) MD1

(C18) VssQ

(C19) Vcc(PLL2)

(E18) CAP2

(D19) Vss(PLL2)

(D17) Vss(PLL1)

(E19) CAP1

(D16) Vcc(PLL1)

(E17) Vss

(E16) AUDCK

(G18) Vcc

(G16) Vss

(H18) TCK

(H17) TDI

(H16) PTN(1)

(J19) TMS

(J18) TRST

(J16) PTN(2)

(L16) VccQ

(L19) VssQ

(M18) VccQ

(M19) PTN(3)

(N16) RESETP

(N17) RESETM

(N18) WAIT

(N19) PTN(4)

(P16) NMI

(P17) Vcc

(P19) Vss

(R16) BACK

(R17) TDO

(T19) VccQ

(U18)CASU/PTE(7)

(V19)CASL/PTE(6)

(T18)RASL/PTE(4)

(V18) CKE/PTH(1)

MD3 (V16)

120

13

(B18) MD2

(A19) VccQ

(D18) EXTAL

(B19) XTAL

(U19) VssQ

VccQ (W19)

1411 12 16

C518

0.1u

180

179

178

177

176

C527

0.1u

175

174

173

172

171

170

169

168

167

166

165

164

163

162

161

160

159

158

157

156

155

154

153

152

151

150

149

148

147

146

145

144

143

142

141

140

139

138

137

136

135

134

133

132

131

130

129

128

127

126

125

124

123

122

121

C516

R507

1k

R508

XX

R563

47k

R554
47k

1510

L501

0

C522

22u

4V

CL514

R557

LENSV_CLOSE_ON

47k

R586
470k

0.1u

R568

47k

R569

47k

R573

C523

0.1u

R564

47k

LENSV_OPEN_ON

PAL/XNTSC

XMC_HELP

XASEBREAK

XASEMD0

XRST_JTAG

1k

XRST_SYS

XCS_PANEL_TG

XMC_NMI

SYS_V

IRQIMG

SYS_V

XTRST

XCS_MC

19

D_2.9V

DigitalDigital

C

SY-075 (5/8)

Digital

Digital

SIGNAL PATH

PLLBYP

TCK

TDI

TMS

AU_LRCK

XWAIT

TDO

AMP_OUT_ON

PLLBYP

AU_LRCK

XWAIT

MC_XCS4

MC_XCS6

MC_XWE0

MC_XWE1

MC_XRD

MC_A01

MC_A02

MC_A03

MC_A04

MC_A05

MC_A06

MC_A07

MC_A08

MC_A09

MC_A10

MC_A11

MC_A12

MC_A13

MC_A14

MC_A15

MC_A16

MC_A17

MC_A18

MC_A19

MC_A20

MC_A21

MC_A22

MC_A23

MC_A24

MC_A25

MC_D00

MC_D01

MC_D02

MC_D03

MC_D04

MC_D05

MC_D06

MC_D07

MC_D08

MC_D09

MC_D10

MC_D11

MC_D12

MC_D13

MC_D14

MC_D15

Digital

1

GND

VIDEO SIGNAL

Y/CHROMA

REC

PB

AMP_OUT_ON

PLLBYP

AU_LRCK

XWAIT

MC_XCS4

MC_XCS6

MC_XWE0

MC_XWE1

MC_XRD

MC_A01

MC_A02

MC_A03

MC_A04

MC_A05

MC_A06

MC_A07

MC_A08

MC_A09

MC_A10

MC_A11

MC_A12

MC_A13

MC_A14

MC_A15

MC_A16

MC_A17

MC_A18

MC_A19

MC_A20

MC_A21

MC_A22

MC_A23

MC_A24

MC_A25

MC_D00

MC_D01

MC_D02

MC_D03

MC_D04

MC_D05

MC_D06

MC_D07

MC_D08

Digital

MC_D09

MC_D10

MC_D11

MC_D12

MC_D13

MC_D14

MC_D15

6

SY-075 (1/8)

SY-075 (4/8)

MC_A01

LENSV_BREAK

MC_A02

MC_A03

MC_A04

MC_A05

MC_A06

MC_A07

MC_A08

XEEPROM_WE

MC_A09

MC_A10

MC_A11

MC_A12

MC_A13

MC_A14

MC_A15

MC_A16

MC_A17

MC_A18

MC_A19

MC_A20

MC_XWE1

MC_XCS0

XTG_CS

DigitalDigital

N

MC_XRD

MC_A21

MC_A22

MC_A23

MC_A07

MC_A08

MC_A09

MC_A10

MC_A04

MC_A05

MC_A01

MC_A02

05

MC_A03

MC_A06

MC_A11

MC_A12

MC_A13

MC_A14

MC_A15

MC_A16

MC_A17

MC_A18

MC_A19

MC_A20

MC_A24

MC_A25

MC_XWE0

MC_XWE1

MC_XCS4

MC_XCS6

4-17 4-18

DSC-P51/P51MDSC-P51/P51M

COVER

COVER

For Schematic Diagram

• Refer to page 4-41 for printed wiring board.

• Refer to page 4-58 for waveforms.

1

SY-075 BOARD (5/8)

A

B

C

D

E

F

G

H

FLASH MEMORY CLOCK GENERATOR
(SH BLOCK 2/2,GEN BLOCK)

D_2.9V

C

SY-075 (4/8)

SIGNAL PATH

REC

PB

GND

1

VIDEO SIGNAL

Y/CHROMA

Digital

Digital

FB504

3

MC_A17

MC_A16

MC_A15

MC_A14

MC_A13

MC_A12

MC_A11

MC_A10

MC_A09

MC_A20

MC_XWE1

XRST_SYS

MC_A19

MC_A18

MC_A08

MC_A07

MC_A06

MC_A05

MC_A04

MC_A03

MC_A02

XEEPROM_CS

XCAM_SCK

CAM_SO

CAM_SI

XEEPROM_WE

4-2. SCHEMATIC DIAGRAMS

4-2. SCHEMATIC DIAGRAMS

XX MARK:NO MOUNT

NO MARK:REC/PB MODE

IC502

MBM29LV160BE-90PBT-44-ER

1

A15

2

A14

3

A13

4

CL518

A12

5

A11

6

A10

7

A9

8

A8

9

A19

NC(A20)

10

WE~

11

RESET~

12

NC

13

NC(WP/ACC)

14

RY/BY~

15

A18

16

A17

17

A7

18

A6

19

A5

20

A4

21

A3

22

A2

23

A1

24

DQ15/A1

IC502

16M FLASH

Note:The voltage and waveform of CSP(chip size package)

cannot be measured.because its lead layout is different
form that of conventional IC.

IC503

EEPROM

AK6417AL-L

Digital

IC503

1

CS

2

SCK

3

DI

4

DO

2.8 2.8

0

0

0

BYTE

DQ7

DQ14

DQ6

DQ13

DQ5

DQ12

DQ4

DQ11

DQ3

DQ10

DQ2

DQ9

DQ1

DQ8

DQ0

VCC

RST

GND

SY-075 BOARD SIDE A SY-075 BOARD SIDE B

SY-075 BOARD SIDE A SY-075 BOARD SIDE B

5

L781

10uH

FB781

C526
10u

6.3V

A16

48

47

Vss

46

45

44

43

42

41

40

39

38

Vcc

37

36

35

34

33

32

31

30

29

OE

28

Vss

27

CE

26

A0

25

8

N.C

C524

7

0.1u

2.8

6

5

R579

100k

C525

0.1u

MC_D15

MC_D07

MC_D14

MC_D06

MC_D13

MC_D05

MC_D12

MC_D04

MC_D11

MC_D03

MC_D10

MC_D02

MC_D09

MC_D01

MC_D08

MC_D00

MC_XRD

MC_XCS0

MC_A01

C781

10u

6.3V

9

7

1.6

IMIC6008ATD

IC781

2.9 2.9

C783

0.1u

C782

0.1u

X781

27MHz

00

14

15

16

VSS

REF_OUT

CCD_SEL2

FIN3VSS4CLK3_OUT5CLK3_ON6CCD_SEL17CLK1_0n8VDD

12

1.6

13

CLK2_ON

1.4

8

12

2.9

2.9

VDD

C784

0.1u

0

R783

11

1k

XX

R791

911126842

10

VSS

CLK2_OUT

9

CLK1_OUT

C785

0.1u

107

R788

0

R789

0

IC781

CLOCK GEN

R790

0

R785

R787

R786

22

22

22

MC_CLK1

USB_CLK

TG_CLK

TG_CLK_EN

USB_CLK_EN

Digital

VAMP_ON

MS_DIO

MS_BS

MS_SCLK

MS_POWER_ON

FR_SO

FR_SI

XFR_SCK

XCS_MC

XMC_HELP

XMC_NMI

XCS_PANEL_TG

XMS_ACCESS_LED

AE_LOCK_LED

LCD_SO

XLCD_SCK

SYS_V

PAL/XNTSC

XRST_SYS

TG_CLK

XTG_CS

XCAM_RESET

XGCAM_CS

CCD_TEMP

CAM_SO

XCAM_SCK

CAM_DD_ON

LENSV_BREAK

DAC_STBY

HALL_AD

LENS_TEMP_AD

XCAM_DR_PS

MC_CLK1

LENSV_OPEN_ON

LENSV_CLOSE_ON

Digital

USB_D+

USB_D-

IRQIMG

Digital

Digital

VAMP_ON

MS_DIO

MS_BS

MS_SCLK

MS_POWER_ON

FR_SO

FR_SI

XFR_SCK

XCS_MC

XMC_HELP

XMC_NMI

XCS_PANEL_TG

XMS_ACCESS_LED

AE_LOCK_LED

LCD_SO

XLCD_SCK

SYS_V

PAL/XNTSC

XRST_SYS

TG_CLK

XTG_CS

XCAM_RESET

XGCAM_CS

CCD_TEMP

CAM_SO

XCAM_SCK

CAM_SO

XCAM_SCK

CAM_DD_ON

CAM_DD_ON

LENSV_BREAK

DAC_STBY

HALL_AD

LENS_TEMP_AD

XCAM_DR_PS

MC_CLK1

LENSV_OPEN_ON

LENSV_CLOSE_ON

USB_D+

USB_D-

IRQIMG

27

4

15

SY-075 (2/8)

21

SY-075 (6/8)

SY-075 (6/8)

28

SY-075 (6/8)

23

SY-075 (6/8)

19

SY-075 (3/8)

24

SY-075 (6/8)

25

26

SY-075 (3/8)

8

SY-075 (1/8)

SY-075 (2/8)

SY-075 (6/8)

SY-075 (1/8)

13

22

SY-075 (8/8)

SY-075 (6/8)

20

16

05

Digital

4-19

Digital

4-20

SY-075 (5/8)

DSC-P51/P51M

COVER

COVER

For Schematic Diagram

• Refer to page 4-41 for printed wiring board.

1

SY-075 BOARD (6/8)

A

CONNECTOR(CN BLOCK)

XX MARK:NO MOUNT

NO MARK:REC/PB MODE

CN704

27

CN707

CN708

VSUB_CONT

XCAM_SCK

XGCAM_CS

XCAM_RESET

CCD_TEMP

10P

12P

XSTB_PWRSAVE

CAM_DD_ON

6P

PRELAMP_LED_ON

PRELAMP_LED_ON

PRELAMP_AF_ON

CA_AD00

CA_AD01

CA_AD02

CA_AD03

CA_AD04

CA_AD05

CA_AD06

CA_AD07

CA_AD08

CA_AD09

CA_AD10

CA_AD11

CA_AD12

CA_AD13

MCK

TG_WEN

CLPOB

CA_FD

CLPDM

CA_HD

CAM_SO

XTG_CS

TG_CLK

EVER_4.0V

AV_JACK_IN

REG_GND

REG_GND

USB_JACK_IN

REG_GND

REG_GND

USB_D+

USB_D-

V_OUT

ST_UNREG

ST_UNREG

ST_UNREG

ST_UNREG

STB_CHARGE

REG_GND

REG_GND

REG_GND

REG_GND

XSTB_FULL

STRB_ON

STRB_ON

AF_LED_5V

AF_LED_5V

V_OUT

Digital

M_5V

1

2

3

N.C.

4

5

6

7

D-

8

D+

9

10

Digital

Digital

1

2

3

4

5

6

7

8

9

10

11

12

1

2

N.C.

3

N.C.

4

5

6

CA_AD00

CA_AD01

CA_AD02

CA_AD03

CA_AD04

CA_AD05

CA_AD06

CA_AD07

CA_AD08

CA_AD09

CA_AD10

CA_AD11

CA_AD12

CA_AD13

TG_WEN

CLPOB

CA_FD

VSUB_CONT

CLPDM

CA_HD

CAM_SO

XCAM_SCK

XTG_CS

XGCAM_CS

XCAM_RESET

CCD_TEMP

TG_CLK

SY-075 (7/8)

33

B

JK-223

CN201

THROUGH THE

FP-072 FLEXIBLE

C

(SEE PAGE 4-32)

SY-075 (5/8)

D

E

FP-530 FLEXIBLE

F

G

H

D902

SELF TIMER

AF

ILLUMINATOR

18

14

41

ST-068

CN502

THROUGH THE

(SEE PAGE 4-33)

11

26

SY-075 (3/8)

SY-075 (8/8)

SY-075 (5/8)

FP-536

FLEXIBLE

SY-075 (2/8)

SY-075 (1/8)

I

J

1

SY-075 (1/8)

K

24

SY-075 (5/8)

23

L

SY-075 (5/8)

4-2. SCHEMATIC DIAGRAMS

4-2. SCHEMATIC DIAGRAMS

3

Digital

Digital

22k

R704

0

2

R708

R705

68

22k

R707

68

39

36

32

SY-075 (8/8)

38

37

SY-075 (8/8)

40

MCK

35

4.9

1.9

6

3

1

4

SY-075 (8/8)

SY-075 (8/8)

SY-075 (7/8)

SY-075 (8/8)

SY-075 (8/8)

5

0

3

6

2

2.8

RN4983FE(TPLR3)

SWITCHING

Q703

HN1C01FU-TE85R

LED DRIVE

5

0

00

R709

1k

4

Q704

PANEL_4.9V

PANEL_2.9V

PANEL_-15V

BUZER_15V

PANEL_13.5V

4.9

1

R711

10k

R710

10k

EVER_3.2V

CAM_-7.5V

CAM_15V

D_2.9V

A_4.9V

A_2.9V

D_3.1V

M_5V

5

6842

PANEL_R

PANEL_G

PANEL_B

AE_LOCK_LED

FR_SI

XFR_SCK

XMC_NMI

PAL/XNTSC

XRST_SYS

CVCHK_OUT

XMS_ACCESS_LED

HDO

XLCD_SCK

XCS_PANEL_TG

UNREG_SO

XCS_DDCON

BATT/XEXT

DD_CON_SENS

ACV_UNREG

CA_AD12

CA_AD10

CA_AD08

CA_AD06

CA_AD04

CA_AD02

CA_AD00

XTG_CS

CAM_SO

CLPDM

CA_HD

CCD_TEMP

7

SY-075 BOARD SIDE A SY-075 BOARD SIDE B

SY-075 BOARD SIDE A SY-075 BOARD SIDE B

91411 12 16

PK-062 (1/3)

CN901

(THROUGH THE FP-067 FLEXIBLE)

(SEE PAGE 4-27)

80PCN701

1

REG_GND

3

REG_GND

5

REG_GND

PANEL_R

7

PANEL_G

9

PANEL_B

11

REG_GND

13

AE_LOCK_LED

15

XPWR_ON

17

XSTB_PWRSAVE

19

REG_GND

21

FR_SI

23

XFR_SCK

25

REG_GND

27

XMC_NMI

29

PAL/XNTSC

31

XRST_SYS

33

USB_JACK_IN

35

CVCHK_OUT

37

XMS_ACCESS_LED

39

REG_GND

41

HDO

43

REG_GND

45

XLCD_SCK

47

XCS_PANEL_TG

49

51

REG_GND

53

REG_GND

UNREG_SO

55

XCS_DDCON

57

BATT/XEXT

59

61

REG_GND

DD_CON_SENS

63

EVER_4.0V

65

PANEL_13.5V

67

PANEL_2.9V

69

71

REG_GND

D_2.9V BATT_UNREG

73

ACV_UNREG

75

REG_GND REG_GND

77

STB_CHARGE

79

70PCN705

1

REG_GND

3

REG_GND

5

REG_GND

7

CA_AD12

9

CA_AD10

CA_AD8

11

13

CA_AD6

CA_AD4

15

17

CA_AD2

19

CA_AD0 CA_AD1

21

REG_GND

23

XTG_CS

25

XCAM_SO

27

REG_GND

29

A_4.9V

31

A_2.9V

CAM_-7.5V

33

D_3.1V

35

37

REG_GND

REG_GND

39

REG_GND

41

REG_GND

43

45

CLPDM

CA_HD

47

49

REG_GND

51

REG_GND

53

CCD_TEMP

55

57

REG_GND

59

REG_GND

61

REG_GND

63

REG_GND

65

REG_GND

67

REG_GND

69

REG_GND

CH-109

CN101

(SEE PAGE 4-9)

SELF_TIMER_LED

PANEL_-15V

XAE_LOCK_SW

AV_JACK_IN

PANEL_4.9V

FAST_CHARGE

REG_GND

REG_GND

REG_GND

REG_GND

REG_GND

REG_GND

REG_GND

XPWR_LED

XSHTR_ON

REG_GND

REG_GND

XCS_MC

XMC_HELP

REG_GND

XMS_IN

REG_GND

PANEL_V

REG_GND

LCD_SO

REG_GND

REG_GND

REG_GND

UNREG_SCK

REG_GND

BL_VO-

BL_VO+

BUZER_15V

SYS_DD_ON

EVER_3.2V

XSTB_FULL

TG_CLK

REG_GND

CA_AD13

CA_AD11

CA_AD9

CA_AD7

CA_AD5

CA_AD3

REG_GND

XGCAM_CS

XCAM_SCK

REG_GND

REG_GND

CAM_15V

TG_WEN

REG_GND

REG_GND

REG_GND

REG_GND

REG_GNDREG_GND

REG_GND

XCAM_RESET

VSUB_CONT

REG_GND

REG_GND

REG_GND

REG_GND

REG_GND

REG_GND

REG_GND

FR_SO

SYS_V

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

72

74

76

78

80

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

TG_CLK

MCK

CA_AD13

CA_AD11

DigitalDigital

CA_AD09

CA_AD07

CA_AD05

CA_AD03

CA_AD01

XGCAM_CS

XCAM_SCK

TG_WEN

CLPOB

CA_FD

XCAM_RESET

VSUB_CONT

XCS_MC

XMC_HELP

PANEL_V

LCD_SO

UNREG_SCK

BL_VO-

BL_VO+

FAST_CHARGE

SYS_DD_ON

BATT_UNREG

FR_SO

SYS_V

R703
3300

R702

470

2.8

2.8

R701
100k

31

7

SY-075 (5/8)

SY-075 (2/8)

10

9

SY-075 (8/8)

SY-075 (7/8)

13

SY-075 (1/8)

1510

CONTROL

SWITCH

BLOCK

28

12

SY-075 (1/8)

SY-075 (1/8)

22

SY-075 (5/8)

29

30

SY-075 (8/8)

SY-075 (2/8)

13

R706

390

PANEL_R

PANEL_G

PANEL_B

PANEL_V

HDO

PAL/XNTSC

XRST_SYS

XMC_NMI

AE_LOCK_LED

FR_SI

XFR_SCK

XMS_ACCESS_LED

XLCD_SCK

XCS_PANEL_TG

LCD_SO

SYS_V

XMC_HELP

XCS_MC

FR_SO

UNREG_SO

XCS_DDCON

DD_CON_SENS

UNREG_SCK

SYS_DD_ON

BATT/XEXT

ACV_UNREG

FAST_CHARGE

BATT_UNREG

BL_VO-

BL_VO+

CVCHK_OUT

10

9

8

7

6

5

4

3

2

1

XAE_LOCK_SW

REG_GND

XSHTR_ON

N.C.

XPWR_ON

N.C.

D_2.9V

XPWR_LED

N.C.

REG_GND

PAL/XNTSC

XRST_SYS

PANEL_R

PANEL_G

PANEL_B

PANEL_V

HDO

PAL/XNTSC

XRST_SYS

XMC_NMI

AE_LOCK_LED

FR_SI

XFR_SCK

XMS_ACCESS_LED

XLCD_SCK

XCS_PANEL_TG

LCD_SO

SYS_V

XMC_HELP

XCS_MC

FR_SO

UNREG_SO

XCS_DDCON

DD_CON_SENS

UNREG_SCK

SYS_DD_ON

BATT/XEXT

ACV_UNREG

FAST_CHARGE

BATT_UNREG

BL_VO-

BL_VO+

CVCHK_OUT

SYS_V

10PCN706

SIGNAL PATH

VIDEO SIGNAL

CHROMA

Y/CHROMA

REC

PB

MS_POWER_ON

8

7

6

5

4

3

2

1

MS_SCLK

MS_DIO

MS_BS

VSS

MS_BS

MS_VCC

MS_DIO

XMS_IN

MS_SCLK

VCC

VSS

Digital

0

5

3

1

2

2.8

SWITCHING

4

6

Q701

UMF5NTR

C701

D701

4.7u

MA111-(K8).S0

2.6

21

SY-075 (5/8)

8PCN703

SOCKET

MEMORY

STICK

MS

MEMORY STICK

FP-529

FLEXIBLE

BOARD

SY-075 (6/8)

05

4-21 4-22

DSC-P51/P51MDSC-P51/P51M

COVER

COVER

For Schematic Diagram

• Refer to page 4-41 for printed wiring board.

1

SY-075 BOARD (7/8)

A

B

C

D

E

DC IN(DD BLOCK 1/2)

XX MARK:NO MOUNT

NO MARK:REC/PB MODE

CN001

BT901

BATTERY

TERMINAL

(DRY BATTERY)

J001

DC IN

CN002

3P

4P

BATT_UNREG/+

BATT/XEXT

ACV_UNREG

ACV_GND

LND001

STATIC_GND

BATT_UNREG

BATT_GND/-

BATT_GND/-

1

2

3

FB001

D001

MA8082-(K8).S0

4

3

2

1

4-2. SCHEMATIC DIAGRAMS

4-2. SCHEMATIC DIAGRAMS

3 107

Q001

CPH6313-TL

SWITCH

R001

C002

0.022u

1k

C001

0.022u

C004

0.1u

LF001

1

3

MA111-(K8).S0

MA111-(K8).S0

R004

D003

2

4

D002

R005

470k

4

4

3

10k

R006
220k

0

R015

470k

R016

10k

5

5
6

4

1
2

D020

XX

C010

0.022u

0

Q002

SSM3K03FE(TPL3)

SWITCHING

Q004

HAT1054R-EL

1

3

4

3.8

4

R017

-3.8

R019

C012

1k

Q004,006

SWITCH

Q006

-3.8

HAT1054R-EL

2

1M

XX

4

4

8

6

7

5

5

7

6

8

4

SWITCH CONTROL

4

4

2

R023

10k

Q007

2SJ347-TE85L

1.5

0.3

3

1

4

-11.8

3.2

2

-11.8

SY-075 BOARD SIDE A SY-075 BOARD SIDE B

SY-075 BOARD SIDE A SY-075 BOARD SIDE B

3.2

Q008
RN4983FE(TPLR3)
SWITCH CONTROL

6

3

0

5

1

4

3.2

0

Q010

SSM3K03FE(TPL3)

0.7

SWITCH CONTROL

R033

470k

2SD2216J-QR(K8).SO

C017

0.022u

R032

1M

2.9

0.7

Q011

SWITCH CONTROL

R034

10k

911126842

BATT/XEXT

FAST_CHARGE

F007

2A/32V

F001

2A/32V

F002

2A/32V

F003

2A/32V

F004

2A/32V

F006

2A/32V

0

F005

2A/32V

D006

MA2SD24008S0

ACV_UNREG

BATT_UNREG

1

2

3

GND

EVER_3.2V

4

13

30

SY-075 (6/8)

E

SY-075 (8/8)

5

F

R088

10k

IC004

1

OUT

2

VDD

BATTERY DETECT

XC61CC1502NR

IC004

GND

4

NC

3

C077

1u

R083

D021

MA2SD24008S0

XX

C074

1.5

XX

G

R087

1M

05

MCH3306-TL-E

SWITCHING

R084

330k

R086

1M

Q043

1.5

1.5

C075

0.022u

0

R085

0

0

SSM3K03FE(TPL3)

4-23

D014

1.5

MA2SD24008S0

Q042

SWITCHING

MA2SD24008S0

D010

L009
10uH

C044

4.7u
10V

C045

10u
10V

L014

22uH

D016

RB161M-20TR

IC002

DC/DC

CONVERTER

IC002

S-8321ADMP-DND-T2

3.6

45

The components identified by mark 0 or dotted
line with mark 0 are critical for safety.
Replace only with part number specified.

4-24

D017

MA2SD24008S0

4

123

4

SY-075 (6/8)

L016
10uH

C051

33u
10V

C052

4.7u
10V

EVER_3.2V

EVER_4.0V

32

33

SY-075 (6/8)

Les composants identifiés par une marque 0 sont
critiques pour la sécurité. Ne les remplacer que
par une piéce portant le numéro spécifié.

SY-075 (7/8)

DSC-P51/P51M

COVER

COVER

For Schematic Diagram

• Refer to page 4-41 for printed wiring board.

1

SY-075 BOARD (8/8)

A

DC/DC CONVERTER(DD BLOCK 2/2)

XX MARK:NO MOUNT

B

C

D

E

61

C005

R010

0.033u

2200

C065

R060

0.033u

F

G

100k

C006
6800p

R011

22k

C007

R012

0.033u

4.7k

C008

R013

0.033u

22k

R014
4700

C009

0.033u

H

I

J

R009
8200

0.5%

R007

22k

0.5%

R008
100k

0.5%

IN2+

62

FB1

63

IN1-

64

FB3

65

IN3-

66

FB4

67

IN4-

68

FB5

69

IN5-

70

FB7

71

IN7-

72

IN7+

73

FB6

74

IN6-

75

IN61-

76

FB8

77

IN8-

78

IN8+

79

FB9

80

IN9-

K

L

05

C015

0.033u

59

60

FB2

IN2-

SCP92FB103IN10-4AMPIN5AMPOUT6CT17RT8CT29CS10SCPIN11CP12TLOFF13GND14VREG(2.2V)15DT216DT117PGND118OUT6s19VCC420VCC5

1

0.033u

C014

R025
4700

R026

47k

3

E

SY-075 (7/8)

SYS_DD_ON

0

R080

56

57

58

VCC1

CONT

CH2UP

Note:The voltage and waveform of CSP(chip size package)

cannot be measured,because its lead layout is different
form that of conventional IC.

100p

C016

R030

10k

0.5%

R028

56k

0.5%

R029

27k

5%

R079

0

IC001

DC/DC CONTROL

100pC018

27k

0.5%

C019

R031

2SD2216J-QR(K8).SO

EMERGENCY DETECT

IC001

FA3692Q-TE2

C020

0.1u

Q013

0

R078

0.1u

4.8

EVER_3.2V

49

VIN8-50VIN6-51VIN7-52VIN5-53VIN4-54VIN3-55VIN1-

R038
4700

-2.3

4-2. SCHEMATIC DIAGRAMS

4-2. SCHEMATIC DIAGRAMS

5

2

3

1

4

GND

5

UNREG_SO

UNREG_SCK

XCS_DDCON

C022

0.033u

470

R044

470

R047

44

45

46

47

48

CLK

RST

DATA

LDON

47k

47k

0.1u

R048

R045

C021

R041

33k

R042

68k

C023

0.033u

R049 470

41

43

XCS

VCC242VCC3

OUT5S

PGND3

OUT5n

OUT5p

OUT1n

OUT1p

OUT2n

OUT2p

OUT3n

OUT3p

OUT4n

OUT4p

OUT6n

OUT6p

OUT7n

OUT7p

OUT8n

OUT8p

OUT10

PGND2

D005

MA2SD24008S0

OUT9

684 17 182

40

39

38

37

36

35

34

33

32

31

30

29

28

27

26

25

24

23

22

21

7

R081

0

C024

91411 12 16

Q017

MCH3306-TL-E

4

SWITCHING

0

C025

1u

L001

4.7uH

C026

1u

C027

10u

C028

10u

C029

1u

1u

C066

1u

L004

2.3

1.9

L003

10uH

L002
22uH

0

0uH

1.5

1

4.8

Q018

MCH3306-TL-E

SWITCHING

1.3

MCH3406-TL-E

SWITCHING

4.9

1

2

3

L005

4.7uH

4

5

2

CPH5802-TL

SWITCHING

5

4

2.5

4.8

1

L006
0uH

MCH3406-TL-E

SWITCHING

Q024

C032

CPH5803-TL-E

SWITCHING

5

4

1.4

SY-075 BOARD SIDE A SY-075 BOARD SIDE B

SY-075 BOARD SIDE A SY-075 BOARD SIDE B

L015
10uH

C047

10u

6.3V

L010

1uH

C046

10u

6.3V

L011

1uH

C048

10u

6.3V

L012

1uH

L013

1uH

4.9

0

0

C049

10u

C050

10u

L017

10uH

L018

1uH

L020

1uH

R070

100k

C069

9.9

0.47u

R066

10k

C073

0.1u

R069

33k

MA-111(K8).SO

IC003

2.8

1

STB

2

GND

-11.8

3

VEE

-7.5

4

REG3

−

7.5V

IC003

-7.5V/13.5V/15V REG

R073

0

C071

XX

3

Q033

3

2.9

5

2

0.8

Q023

1

2.2u

Q022

3

1.9

5

5

4

Q019

CPH5802-TL

SWITCHING

Q020

MCH5801-TL-E

SWITCHING

L025

1

22uH

2

3.1

Q041

XX

4

MCH5801-TL-E

3

4

4

4.9

1

7.9

2

C033

2.2u

-11.8

L007
22uH

Q021

SWITCHING

Q026
CPH5802-TL
SWITCHING

5

4

Q027

CPH5802-TL

SWITCHING

51

4

RB161M-20TR

RB161M-20TR

C035

4.7u

C067

4.7u

L008

22uH

3

1.6

3

1.6

D011

D009

RB161M-20

RB161M-20

C038

4.7u

C034

4.7u

4

1

2

4.9

4

2

5

D013

D012

R061

10k

0.5%

R077
1800

0.5%

C036

4.7u

Q028

MCH3306-TL-E

SWITCH

4.9

C042

4.7u

Q029

MCH3306-TL-E

SWITCH

55

C043

4.7u

C039

2.2u

C041

2.2u

C054

1u

L021
10uH

2.9

2SB1462J­QR(K8).SO

SWITCH

D019

BA3986FV-E2

13.5V

15V

13

Q038

(STB2)

1510

UNREG_SCK

UNREG_SO

XCS_DDCON

SYS_DD_ON

UNREG_SCK

UNREG_SO

XCS_DDCON

SYS_DD_ON

DD_CON_SENS

D_1.5V

REG_GND

29

SY-075 (6/8)

34

SY-075 (2/8,4/8)

35

D_3.1V

SY-075

(3/8,4/8,6/8)

42

REG_GND

SY-075

(3/8)

36

D_2.9V

SY-075

(2/8,3/8,4/8,6/8)

37

A_2.9V

PANEL_2.9V

SY-075

(2/8,3/8,6/8)

38

A_4.9V

C056

10u

C057

4.7u

R062

R063

1800

22k

0.5%

R071

82k

0.5%

0.5

1

4

00

5

R065

100k

REG1

13.5

VCC

REG2

0

2

Q035

-22

Q034

2SD2216J-QR(K8).SO

PANEL -15V REG

R072

XX

Q040
2SB1462J­QR(K8).SO
SWITCHING

14.3

R075

47k

R064

120k

0.5%

C068

1u

Q039

UN9213J-

(TX).SO

SWITCHING

15

14.3

2.8

R076

15

47k

R068

0

C070

XX

HN1A01FE-Y/

6

3

GR(TPLR3)

-22

PANEL -15V REG

-22.6

-22.5

8

15

7

15

6

5

C072

XX

R074

XX

C053

1u

35V

L019

10uH

C063

L023

3.3u

4.7uH
20V

C061

C062

XX

XX

PANEL_4.9V

BL_VO+

BL_VO-

M_5V

BUZER_15V

PANEL_-15V

PANEL_13.5V

CAM_-7.5V

CAM_15V

CAM_DD_ON

ST_UNREG

SY-075 (6/8)

31

SY-075 (6/8)

39

SY-075 (2/8,3/8,6/8)

40

SY-075 (6/8)

25

SY-075 (5/8)

41

SY-075 (6/8)

SY-075 (8/8)

4-25 4-26

DSC-P51/P51MDSC-P51/P51M

COVER

COVER

For Schematic Diagram

• Refer to page 4-45 for printed wiring board.

• Refer to page 4-59 for waveforms.

1

PK-062 BOARD (1/3)

A

B

C

D

E

F

G

H

I

J

FRONT CONTROL(FR BLOCK)

XX MARK:NO MOUNT

1

PK-062 (3/3)

2

PK-062 (2/3)

3

PK-062 (3/3)

4

PK-062 (2/3)

5

PK-062 (2/3)

6

PK-062 (2/3)

7

PK-062 (2/3)

KEY_AD3

KEY_AD1

KEY_AD0

MODE_DIAL

ACV_UNREG

CVCHK_OUT

XCPC_IN

LANC_IN

LANC_OUT

XTALLY_LED

CHARGE_LED

AE_LOCK_LED

XMS_ACCESS_LED

BL_VO-

BL_VO+

PANEL_V

XLCD_SCK

XCS_PANEL_TG

LCD_SO

XRST_SYS

PANEL_R

PANEL_G

PANEL_B

PANEL_13.5V

PANEL_2.9V

REG_GND

8

PK-062 (3/3)

REG_GND

9

PK-062 (2/3)

05

PANEL_4.9V

PANEL_-15.5V

D_2.9V

MODE_DIAL

ACV_UNREG

CVCHK_OUT

LANC_OUT

XTALLY_LED

CHARGE_LED

AE_LOCK_LED

XMS_ACCESS_LED

HDO

XCS_PANEL_TG

KEY_AD3

KEY_AD1

KEY_AD0

XCPC_IN

LANC_IN

BL_VO-

BL_VO+

PANEL_V

XLCD_SCK

LCD_SO

XRST_SYS

3

HDO

BUZZER

AE_LOCK_LED

XPWR_ON

XSTB_PWRSAVE

FR_SI

XFR_SCK

XMC_NMI

PAL/XNTSC

XRST_SYS

USB_JACK_IN

CVCHK_OUT

XMS_ACCESS_LED

HDO

XLCD_SCK

XCS_PANEL_TG

UNREG_SO

XCS_DDCON

BATT/XEXT

DD_CON_SENS

ACV_UNREG

STB_CHARGE

NO MARK:REC/PB MODE

R:REC MODE
P:PB MODE

∗

:IMPOSSIBLE TO MEASURE THE

VOLTAGE AT THE MARKED POINTS.

REG_GND

1

REG_GND

3

REG_GND

5

PANEL_R

7

PANEL_G

9

PANEL_B

11

REG_GND

13

AE_LOCK_LED

15

XPWR_ON

17

XSTB_PWRSAVE

19

REG_GND

21

FR_SI

23

XFR_SCK

25

REG_GND

27

XMC_NMI

29

PAL/XNTSC

31

33

XRST_SYS

35

USB_JACK_IN

37

CVCHK OUT

XMS_ACCESS_LED

39

REG_GND

41

HDO

43

REG_GND

45

XLCD_SCK

47

XCS_PANEL_TG

49

51

REG_GND

REG_GND

53

UNREG_SO

55

XCS_DDCON

57

59

BATT/XEXT

REG_GND

61

DD_CON_SENS

63

EVER_4.0V

65

PANEL_13.5V

67

PANEL_2.9V

69

REG_GND

71

D_2.9V

73

ACV_UNREG

75

REG_GND

77

STB_CHARGE

79

CN902

80PCN901

BZ901

5

2P

SY-075 (6/8)

CN701

(THEOUGH THE FP-067 FLEXIBLE)

(SEE PAGE 4-22)

D901

XX

4-2. SCHEMATIC DIAGRAMS

4-2. SCHEMATIC DIAGRAMS

7

1BEEP_OUT

2REG_GND

REG_GND

REG_GND

REG_GND

REG_GND

REG_GND

REG_GND

REG_GND

XPWR_LED

XAE_LOCK_SW

XSHTR_ON

REG_GND

REG_GND

XMC_HELP

REG_GND

AV_JACK_IN

SELF_TIMER_LED

REG_GND

PANEL_V

REG_GND

REG_GND

REG_GND

REG_GND

UNREG_SCK

REG_GND

BUZER_15V

PANEL_-15V

PANEL_4.9V

FAST_CHARGE

SYS_DD_ON

BATT_UNREG

EVER_3.2V

REG_GND

XSTB_FULL

R901

XX

STATIC GND

STATIC_GND

FR_SO

XCS_MC

XMS_IN

SYS_V

LCD_SO

BL_VO-

BL_VO+

C901

0.47u

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

0

2SD2216J-QR(K8).SO

LND901

10

PK-062 (3/3)

0.6

Q901

BUZZER AMP

XPWR_LED

XAE_LOCK_SW

XSHTR_ON

XCS_MC

XMC_HELP

AV_JACK_IN

XMS_IN

SELF_TIMER_LED

PANEL_V

LCD_SO

UNREG_SCK

BL_VO-

BL_VO+

FAST_CHARGE

SYS_DD_ON

BATT_UNREG

XSTB_FULL

FR_SO

SYS_V

R909

33k

XMS_IN

XPWR_ON

XSHTR_ON

XAE_LOCK_SW

BATT/XEXT

XCPC_IN

AV_JACK_IN

USB_JACK_IN

XTALLY_LED

CHARGE_LED

XPWR_LED

SELF_TIMER_LED

UNREG_SO

D402

MAZT082H08S0

PK-062 BOARD SIDE A PK-062 BOARD SIDE B

PK-062 BOARD SIDE A PK-062 BOARD SIDE B

91411 12 16684 172

R435

100k

0.6

Q402

DTC144EHT2L

R406

470k

R409

1k

IC402

INITIAL RESET,
BACK UP VCC

R411

1M

R470

1M

C403

0.1u

R424

R413

470k

R404

470k

470k

R414

47k

XRESET

L401

47uH

C401

4700p

C402

22u

6.3V

C410

22u

6.3V

R401
470k

2.9

DTA144EHT2L

2.4

R405
100k

R420

100k

Q405

INVERTER

Q404

DTC144EHT2L

INVERTER

S401

RESET

2.4

0

R402
470k

R407

0

MODULATOR

C422
100p

R415

1k

2.8

1234567891011121314151617181920

XPWR_ON

R2.7/P0

XPB_ON

XLENZ_CAP_OPN

2.8

1k

R418

1k

R419

1k

R422

R423

1k

470

C404

0.1u

XSHTR_ON

3

XAE_LOCK_ON

2.4

MS_IN

2.8

XLANC_PWR_ON

0.4

BATT/XEXT

2.4

XUSB_JACK_IN

0.2

LANC_JACK_IN

2.6

AV_JACK_IN

LCD_COM/XDATA

GND

3

BACK_UP_VCC

2

XTALLY_LED

0

CHARGE/STB_LED

0

XPWR_LED_ON

2.8

XLANC_ON

0

SELF_TIMER_LED

0

UNREG_SO

3

5678

CS

RESET

3

VOUT

3

VIN

VRO

IC402

BD4201FV-E2

VBAT

VCH

VSS

4.1

13

XRST_SYS

SYS_DD_ON

XSTB_PWRSAVE

XRST_SYS

SYS_DD_ON

XSTB_PWRSAVE

MB89097PFV-G-111-BND-ER-E1

XRESET

PAL/XNTSC

XRESET

MELODY_ENV

IC401

FRONT CONTROL

PAL/XNTSC

IC401

DRY_BATT_IN1

ACV_UNREG

BATT_UNREG

DD_CON_SENS

R441

1M

0.5%

C407

0.1u

(AN13)

0.5%

R440

1M

ACV_SENS

DEW_SENS

C408

0.47u

0.5%

R442

1M

0.1

1.5

BATT_SENS

DD_CON_SENS

C409

0.01u

R443

1M

0.5%

R445

1k

MFOCUS_B

AVss

AVREF

XMC_NMI

R428

XX

0

0 330 03233

0.1

MELODY

MC_WAKE_UP

STB_PLUNGER

1

UNREG_SCK

XCS_DDCON

FR_SO

FR_SI

30

2.7

470

R426

FR_SI

XCS_DDCON

FR_SO

R433

47k

C423
2200p

XFR_SCK

2.9

XFR_SCK

1SS357-TPH3

21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40

3 0

R425

470

R472
100k

UNREG_SCK

∗

3.1

3.3

1234

2.8

XCS_MC

D401

XCS_MC

X401

10MHz

MOD0

1.2

R437

1

10MHz_OUT

10MHz_IN

1.3∗2.8

1M

3

2

R434

150

N.C.

BATT_IN

SYS_V

MOD1

1kR444

R446

SYS_V

R436

33

BT401

(LITHIUMBATTERY)

XSTB_FULL

2.7

2.7

470k

R429

470k

XSTB_FULL

XSETUP_ON

XMC_HELP

Program_Dial_A

Program_Dial_B

2.7

2.9

2.7

470kR451

470kR452

XMC_HELP

SIGNAL PATH

REC

PB

C412

0.1u

2

1.5

LANC_IN

6162636465666768697071727374757677787980

AVCC

LANC_IN

470k

R455

LANC_OUT

MFOCUS_A

ZOOM_AD_KEY

KEY_AD4

KEY_AD3

KEY_AD2

KEY_AD1

KEY_AD0

MODE_DIAL

BACK_UP_VCC

32kHz_IN

32kHz_OUT

GND

BEEP_ON

FAST_CHARGE

INIT_CHARGE

STB_CHG

XSTB_POPUP

XCS_LCD

BATT_SI

BATT_SO

(RESERVED)

LANC_OUT

VIDEO SIGNAL

CHROMA

1510

R403

2.3

2.9

2.3

2.9

2.9

0.6

3

1.4

1.3

51 52 53 54 55 56 57 58 59 60

50

0

0

41 42 43 44 45 46 47 48 49

R460

C415

XX

C417

XX

C418

XX

C419

XX

R430

X402

10M

32.768kHz

150k

R431

10k

1k

1kR461

1kR462

1kR463

C420

8p

C421

8p

R469

10k

R416

10k

R465

10k

R466

10k

KEY_AD3

KEY_AD1

KEY_AD0

MODE_DIAL

FAST_CHARGE

STB_CHARGE

4-27

4-28

PK-062 (1/3)

DSC-P51/P51M

COVER

COVER

For Schematic Diagram

• Refer to page 4-45 for printed wiring board.

• Refer to page 4-59, 60 for waveforms.

1

24 86

3

PK-062 BOARD (2/3)

LCD DRIVE,TIMING GENERATOR(RGB/TG BLOCK)

A

XX MARK:NO MOUNT

NO MARK:REC/PB MODE

B

C

9

PK-062 (1/3)

D

PK-062 (1/3)

E

PK-062 (1/3)

PANEL_-15.5V

PANEL_4.9V

7

PANEL_2.9V

PANEL_13.5V

REG_GND

6

PANEL_B

PANEL_G

PANEL_R

F

CVCHK_OUT

XCPC_IN

2

G

PK-062 (1/3)

LANC_IN

LANC_OUT

ACV_UNREG

CVCHK_OUT

XCPC_IN

LANC_IN

LANC_OUT

ACV_UNREG

R803

UMF5NTR

100k

B+ SWITCH

R853
4700

2.8

6

0

3

R804

33k

4-2. SCHEMATIC DIAGRAMS

4-2. SCHEMATIC DIAGRAMS

5

R805

100k

R851

10k

Q802

2.1

2

D803

MA111-(K8).S0

1

2.8

4

5

3.3

C801

0.1u

4.1

Q812

UMF5NTR

B+ SWITCH

2

4.8

4.8

6

1

0

3

4

5

2.8

R852

1k

L801

10uH

C804

33u

6.3V

C802

XX

D802

C806

XX

MA111-(K8).S0

C833

0.1u

R809

470k

R807

C805

0.1u

R808

XC_SAVE

XLCD_SCK_P

XTG_SO

XCS_PANEL_TG

0

XX

XP_SAVE

R810

150k

0.5%

C807

0.01u

C808

0.01u

C809

0.01u

L802
10uH

7

L804

C813

EXT_DA1

BLK

P_BGP

0.01u

31

32

33

34

BGP

C_BG

GND3

BLACK_IN

IC801

LCD DRIVER

IC801

CXA3592R-T4

1.4 1.4 1.4 1.4 2.6

R813
2700

R812

15k

35

36

EXT_DA2

XC.SAVE

XSCK

SI

XCS

Vcc1

TRAP_ADJ

LPF_ADJ

XP.SAVE

B_IN

G_IN

R_IN

R_INJECT

7

8

N.C2N.C3N.C4N.C5N.C6N.C7BIAS8OP_IN+9OP_IN-10OP_OUT11VCO12N.C

1

1.2

37

2.8

38

2.9

39

2.3

40

2.9

41

2.8

42

2.8

43

1.2

44

2.8

45

1.8

46

1.8

47

1.8

48

9

9

10uHL803

10uH

C814

1u

25V

P_FRP

COM_FRP

6

28

29

30

N.C

FRP

COM_FRP

68k

R814

R815

47k

R816

C816

22k

560p

PK-062 BOARD SIDE A PK-062 BOARD SIDE B

PK-062 BOARD SIDE A PK-062 BOARD SIDE B

C815

0.1u

27

4.61.2002.7 0.2 1.4 0

COM_OUT

10 15

C818

C820

0.1u

10u

6.3V

4.8

13.5

25

Vcc226Vcc3

5

B_DC_DET

4

G_DC_DET

3

R_DC_DET

GND2

GND1

C817

0.1u
R819

100k

R818

1M

R820

1M

R817

L805

68k

27uH

R821

10k

C822

6.8u
16V

R824

2.4

24

VB

1.6

23

C823

2.4

0.1u

22

VG

1.6

21

C824

2.4

0.1u

20

VR

1.6

19

C825

0.1u

18

17

4.8

16

VSH

13.5

15

Vcc4

14

N.C

13

N.C

D801

1SV290(TPL3)

C821

0.001u

C819

220p

100

R823

100

R822

100

P_TG24

P_TG23

P_TG22

P_TG21

P_TG20

P_TG18

P_TG17

P_TG16

P_TG15

P_TG14

1211

13

14

16

C828

R837

0.1u

XX

R858

0

C830

C829

1u

R840

C832

220k

0.1u

1u

17 18

24PCN801

VSH

24

VDD

23

22

VSS

21

VB

20

VG

19

VR

18

HCNT

17

MCLK

16

CLR

15

OE

14

SRT

13

STBYB

12

VBC

11

VCOM

10

RESET

9

STBYB

8

GSRT

7

GPCK

6

GRES

5

N.C.

4

VDD

3

VGL

2

VSS

1

VGH

PANEL UNIT

LCD901
COLOR

LCD

MONITOR

H

I

J

K

L

PK-062 (2/3)

05

(FOR CHECK)

5

PK-062 (1/3)

R811

10

CN903

18P

CPC

MAKER_RECOG

XLCD_SCK

XCS_PANEL_TG

LCD_SO

XRST_SYS

PANEL_V

HDO

CVCHK_OUT

REG_GND

CPC_IN

PANEL_COM

UNREG

LANC_IN

LANC_OUT

BL_L1

BL_L2

1

2

3

NC

4

5

6

7

HSY

8

9

VG

10

11

12

13

NC

14

NC

15

16

NC

17

NC

NC

18

R856

0

XLCD_SCK_P

XCS_PANEL_TG

LCD_SO

XRST_SYS

PANEL_V

HDO

CVCHK_OUT

XCPC_IN

ACV_UNREG

LANC_IN

LANC_OUT

XRST_SYS

P_BGP

BLK

P_FRP

COM_FRP

XLCD_SCK_P

XCS_PANEL_TG

XTG_SO

LCD_SO

PANEL_V

HDO

2.8 2.80002.8 1.4

3

C811

XX

C810

100p

6.3V

37

38

0.1

39

1.4

40

1.4

41

2.9

42

C812

0.1u

2.8

43

2.2

44

2.8

45

2.8

46

47

48

12

10

36

POCB

BGP

SWCOM

SW

FRP

COM_FRP

XSCK

VDD

XCS

SO

SI

VSYB

XVD

HDI2HDB3W/H4BL-ON5BL-DET6GND7TESTI8LED9PWM10TESTI11TESTI12CPMODE

1

2.6 2.6 2.8

35

SYF

33

34

+IN

OUT

32

-IN

IC802

LCD TIMING GENERATOR

CM7021L3-E2

XC_SAVE

28

29PD30PS31

GND

IC802

XP_SAVE

11

26

27

25

OSCI

OSCO

XC.SAVE

DR.P.SAVE

2.82.8

RESET

STBYB

HCNT

MCLK

GSRT

GPCK

GRES

1.42.7

P_TG24

24

1.4

P_TG23

23

0.4

P_TG22

22

CLR

2.4

P_TG21

21

OE

0.1

P_TG20

20

SRT

2.8

19

VDD

0

P_TG18

18

0

P_TG17

17

0

P_TG16

16

0.1

P_TG15

15

2.6

P_TG14

14

13

CP

R855

10k

R825

10k

R827

22k

R826

47k

R857
330k

SIGNAL PATH

C826

0.1u

IC803

TC75S55F(TE85R)

3.3

123

3.3

IC803

BACK LIGHT

R831

CONTROL

47k

0.5%

VCC

4.8

4

4

45

2SD2216J­QR(K8).SO

R839

100

3.4

2SB1218A-QRS-TX

DRIVE

R841

68

0.5%

CN802 6P

1

4.1

1.4

Q810

C834

C835

10u

10u

16V

16V

BL_THH

2

N.C.

3

BL_THL

4

BL_H

5

N.C.

6

BL_L

BL_VO-

PK-062 (1/3)

BL_VO+

D901

BACK LIGHT

4

R838

R835

68

10k

0.5%

0.5%

R833
3300

4.8

0.5%

4.1

R836

100

3.4

3.4

Q807

R834
3300

2.8

0.5%

1.4

Q809

2SB1218A-QRS-TX

0

Q808

DTC144EHT2L

BACK LIGHT

SWITCH

Q807,809,810

BACK LIGHT

VIDEO SIGNAL

CHROMA

REC

PB

The components identified by mark 0 or dotted
line with mark 0 are critical for safety.

4-29 4-30

Replace only with part number specified.

Les composants identifiés par une marque 0 sont
critiques pour la sécurité. Ne les remplacer que
par une piéce portant le numéro spécifié.

DSC-P51/P51MDSC-P51/P51M

SY-075 (2/8)

(SEE PAGE 4-14)

CN602

1

2

3

4

5

6

S002

S001

1

A

SENCV_CLOSE

SENCV_OPEN

N.C.

N.C.

SENC_GND

CP_LED

(LENS BARRIER CLOSE)

(LENS BARRIER OPEN)

FP-075 FLEXIBLE BOARD

3

C

5

B

42

05

COVER

COVER

For Schematic Diagram

• Refer to page 4-45 for printed wiring board.

4-2. SCHEMATIC DIAGRAMS

4-2. SCHEMATIC DIAGRAMS

For Schematic Diagram

• Refer to page 4-49 for JK-223 printed wiring board.

JK-223 BOARDPK-062 BOARD SIDEBPK-062 BOARD SIDE A

JK-223 BOARDPK-062 BOARD SIDEBPK-062 BOARD SIDE A

FP-075 FLEXIBLE BOARD

FP-075 FLEXIBLE BOARD

• Refer to page 4-53 for FP-075 FLEXIBLE printed wiring board.

1

PK-062 BOARD (3/3)

A

CONTROL SWITCH(SW1 BLOCK)

XX MARK:NO MOUNT

NO MARK:REC/PB MODE

MODE_DIAL

B

1

PK-062 (1/3)

C

KEY_AD0

KEY_AD1

KEY_AD3

REG_GND

D

E

PK-062 (1/3)

F

8

PK-062 (1/3)

3

10

PK-062 (1/3)

D_2.9V

XTALLY_LED

AE_LOCK_LED

CHARGE_LED

XMS_ACCESS_LED

STATIC_GND

R263
1200

R264
1500

3

5

642

1

37

SIGNAL PATH

JK-223 BOARD

A

S258

MODE

DIAL

S253

CONTROL

R251

6800

8

6

S257

ON

OFF

5

R266

POWER SAVE

0

RN1904FE(TPLR3)

3

3.3

6

3.7

2

0

1200

Q254

LED DRIVE

1200R253

D252

D251

RIGHT

2

4

SET

67

DOWN

S254

2

4

R255

680

R256

220

R257

330

R254

330

UP

1

LEFT

R252

1200

S252

2

1

4

3

WT

ZOOM

SML-310LTT86

D253

SML-310MTT86

D254

SML-311YTT86

SML-310LTT86

R265
3300

R262

10k

D255

XX

7

1
2

3
4

5

4

1

R258
1500

R259
1500

1

R261

33k

3

(TALLY/ACCESS LED(RED))

(AE LOCK/FLASH LED(GREEN))

(STRB/CHARGE LED(AMBER))

D251

(MS ACCESS LED(RED))

D252

D254

D253

R260
3300

S255
MENU

2

4

DISPLAY/

LCD

S256

2

4

1

3

B

C

1

3

D

E

JACK

XX MARK:NO MOUNT

SY-075 (6/8)

CN704

THROUGH THE

FP-072 FLEXIBLE

(SEE PAGE 4-21)

05

CN201

CN203

10P

AV_JACK_IN

USB_JACK_IN

xx

AV_JACK_IN

USB_JACK_IN

V_OUT

REG_GND

REG_GND

REG_GND

REG_GND

V_OUT

REG_GND

REG_GND

REG_GND

REG_GND

REC

PB

10

9

8

7

N.C.

6

5

4

3

D-

2

D+

1

l

igita
D

Digital

10

9

8

N.C.

7

6

5

4

D-

3

D+

2

1

Digital

D207

MA8082-(K8).S0

D203

XX

VIDEO SIGNAL

VDR201

D201

MAZT082H08S0

Y/CHROMA

Digital

R206

0

R202

D208

MA8082-(K8).S0

LF201

2

3

2

3

LF202

R207

XX

D204

XX

5

FB202

1k

C202

XX

CN202

1

VCC

1

4

D-

2

1

D+

3

4

4ID

5

GND

FB203

D206

MA111-(K8).S0

5P

642

LND201

STATIC_GND

J201

VIDEO

OUT

USB

R204

0

4-31

4-32

PK-062 (3/3)/JK-223/FP-075 FLEXIBLE

DSC-P51/P51M

COVER

COVER

For Schematic Diagram

• Refer to page 4-51 for printed wiring board.

4-2. SCHEMATIC DIAGRAMS ST-068 PRINTED WIRING BOARD

4-2. SCHEMATIC DIAGRAMS ST-068 PRINTED WIRING BOARD

A

B

C

D

E

F

1

ST-068 BOARD

FLASH DRIVE(ST BLOCK)

XX MARK:NO MOUNT

NO MARK:REC/PB MODE

SY-075 (6/8)

THROUGH THE

FP-530 FLEXIBLE

(SEE PAGE 4-21)

05

R:REC MODE

P:PB MODE

CN707

XSTB_PWRSAVE

ST_UNREG

ST_UNREG

ST_UNREG

STB_CHARGE

REG_GND

REG_GND

REG_GND

REG_GND

XSTB_FULL

M_5V

STRB_ON

12P CN502

FLASH

UNIT

9116842

LND501

XE_H

R514

4.7M

L502

142895811

C511

0.047u
250V

XE_L

LND502

R512

47

R513

1M

202

56

0

CY25AAJ-8-T13

FLASH DRIVE

IGBT

4

Q508

78

23

1

3 107

Q502

MCH3306-TL

SWITCH

4.1

R502

100k

R501
4700

DTC144EHT2L

12

11

10

9

8

7

6

5

4

3

2

1

0

Q501

SWITCH

R503

10k

4.1

4.1

0

C501

C502

XX

R519

XX

C503

10u

C504

XX

10u

C513

0.01u

5

Q503

CPH3209-SONY-TL-E

TRANS DRIVE

0

MA111-(K8).S0

D501

R505

2200

0

R515

100k

Q504

R5/P0

5

3

Q506

R509
4700

0

D502

HAU160C030TP

CHARGING

CAPACITOR

2.8

5

4

C509

0.047u

R510

1k

2SD2216J-QR(K8).SO

FLASH CONTROL

C510

135uH

315V

0

C508

1u

150

R511

0

Q507

T501

4

P

1

C512

0.22u
3

C507

0.1u

F

R517

R507

3

2700

2

1

0

R516

10k

82

0

R518

0

Q509

MCH3405-TL

SWITCH

5

S

2

RN1902FE(TPL3)

0

SWITCHING

6

2

0

1

0

DTA114EHT2L

B+ SWITCH

0

3

4

Q505

RN1902FE(TPL3)

SWITCHING

R5/P0

R5/P0

6

2

00

1

ST-068

The components identified by mark 0 or dotted
line with mark 0 are critical for safety.
Replace only with part number specified.

4-33 4-34

Les composants identifiés par une marque 0 sont
critiques pour la sécurité. Ne les remplacer que
par une piéce portant le numéro spécifié.

4-3. PRINTED WIRING BOARDS

COVER

COVER

4-3. PRINTED WIRING BOARDS

THIS NOTE IS COMMON FOR WIRING BOARDS
(In addition to this, the necessary note is printed in each block)

(For printed wiring boards)

•

: Uses unleaded solder.

• : Circuit board
: Flexible board

Pattern from the side which enables seeing.
(The other lay ers’ patterns are not indicated)

• Through hole is omitted.

• Circled numbers refer to waveforms.

• There are a few cases that the part printed on diagram

isn’t mounted in this model.

• C: panel designation

• Chip parts.
Transistor Diode

C

EB

DSC-P51/P51M

43

12

3

43

12

31

4625

4

3

12

5

5246

654

123

31
21

12

345

534

54

45

21321321

123

312

43

12

21

34

4-35

COVER

COVER

Link

Link

DSC-P51/P51M

4-3. PRINTED WIRING BOARDS

CD-391 BOARD

CH-109 BOARD

SY-075 BOARD (SIDE A) ST-068 BOARD

PK-062 BOARD (SIDE A)

MOUNTED PARTS LOCATION

MOUNTED PARTS LOCATION

CIRCUIT BOARDS LOCATION

CIRCUIT BOARDS LOCATION

PK-062 BOARD (SIDE B)

JK-223 BOARD

FP-075 FLEXIBLE BOARDSY-075 BOARD (SIDE B)

WAVEFORMSCOMMON NOTE FOR PRINTED WIRING BOARDS

WAVEFORMSCOMMON NOTE FOR PRINTED WIRING BOARDS

DSC-P51/P51MDSC-P51/P51M

COVER

COVER

CD-391 (CCD IMAGER)

• For Printed Wiring Board.

• :Uses unleaded solder.

• CD-391 board is four-layer print board. However, the pat­terns of layers 2 to 3 have not been included in the dia­gram.

• There are a few cases that the part isn't mounted in this
model is printed on this diagram.

• See page 4-61 for printed parts location.

4-2. SCHEMATIC DIAGRAMS 4-3. PRINTED WIRING BOARDS

4-2. SCHEMATIC DIAGRAMS 4-3. PRINTED WIRING BOARDS

MOUNTED PARTS LOCATION

MOUNTED PARTS LOCATION

12

1

2

6

4

3

5

12

4-37 4-38

CD-391

DSC-P51/P51M

COVER

COVER

CH-109 (CAMERA PROCESS)

• For Printed Wiring Board.

• :Uses unleaded solder.

• CH-109 board is eight-layer print board. Howe v er , the pat­terns of layers 2 to 7 have not been included in the dia­gram.

• There are a few cases that the part isn't mounted in this
model is printed on this diagram.

• See page 4-61 for printed parts location.

4-2. SCHEMATIC DIAGRAMS 4-3. PRINTED WIRING BOARDS

4-2. SCHEMATIC DIAGRAMS 4-3. PRINTED WIRING BOARDS

(Including IC101 (CH-111 Board))

MOUNTED PARTS LOCATION

MOUNTED PARTS LOCATION

CH-109

12, 22

12, 22

4-39 4-40

DSC-P51/P51MDSC-P51/P51M

4-2. SCHEMATIC DIAGRAMS 4-3. PRINTED WIRING BOARDS

COVER

COVER

SY-075 (CAMERA DSP, VIDEO MEMORY, LENS DRIVE, SH DSP, FLASH MEMORY, CLOCK GENERATOR, DC/DC CONVERTER)

• For Printed Wiring Board.

• :Uses unleaded solder.

•SY-075 board is eight-layer print board. However, the pat­terns of layers 2 to 7 have not been included in the dia­gram.

• There are a few cases that the part isn't mounted in this
model is printed on this diagram.

• See page 4-61 for printed parts location.

4-2. SCHEMATIC DIAGRAMS 4-3. PRINTED WIRING BOARDS

MOUNTED PARTS LOCATION

MOUNTED PARTS LOCATION

9

8

7

4-41

4-42

12, 22

SY-075

DSC-P51/P51M

COVER

COVER

4-2. SCHEMATIC DIAGRAMS 4-3. PRINTED WIRING BOARDS

4-2. SCHEMATIC DIAGRAMS 4-3. PRINTED WIRING BOARDS

MOUNTED PARTS LOCATION

MOUNTED PARTS LOCATION

KA

A

K

K

A

K

A

1

8

5

58

3

4

1

1

4

4

6

SY-075

2

12, 22

(MS SOCET)

5

4-43 4-44

DSC-P51/P51MDSC-P51/P51M

4-2. SCHEMATIC DIAGRAMS 4-3. PRINTED WIRING BOARDS

COVER

COVER

PK-062 (FRONT CONTROL, LCD DRIVE, TIMING GENERATOR, CONTROL SWITCH)

• For Printed Wiring Board.

• :Uses unleaded solder.

• PK-062 board is four-layer print board. However, the pat­terns of layers 2 to 3 have not been included in the dia­gram.

• There are a few cases that the part isn't mounted in this
model is printed on this diagram.

• See page 4-62 for printed parts location.

4-2. SCHEMATIC DIAGRAMS 4-3. PRINTED WIRING BOARDS

MOUNTED PARTS LOCATION

MOUNTED PARTS LOCATION

9

10

12

11

BT401

BATTERY,

LITHIUM SECONDARY

7

8

6

5

4

K

A

3

2

1

4-45

4-46

12

PK-062

DSC-P51/P51M

COVER

COVER

4-2. SCHEMATIC DIAGRAMS 4-3. PRINTED WIRING BOARDS

4-2. SCHEMATIC DIAGRAMS 4-3. PRINTED WIRING BOARDS

POWER SAVE

(TALLY/ACCESS)

(AE LOCK/FLASH)

MODE DIAL

MOUNTED PARTS LOCATION

MOUNTED PARTS LOCATION

ZOOM (T)ZOOM (W)

CONTROL

(STRB/CHARGE)

DISPLAY/LCDMENU

(MS ACCESS)

PK-062

12

RESET

4-47 4-48

DSC-P51/P51MDSC-P51/P51M

12

VIDEO OUT

USB

COVER

COVER

JK-223 (JACK)

• For Printed Wiring Board.

• :Uses unleaded solder.

• JK-223 board is four-layer print board. However, the pat­terns of layers 2 to 3 have not been included in the dia­gram.

• There are a few cases that the part isn't mounted in this
model is printed on this diagram.

• See page 4-63 for printed parts location.

4-2. SCHEMATIC DIAGRAMS 4-3. PRINTED WIRING BOARDS

4-2. SCHEMATIC DIAGRAMS 4-3. PRINTED WIRING BOARDS

MOUNTED PARTS LOCATION

MOUNTED PARTS LOCATION

4-49

12

4-50

JK-223

DSC-P51/P51M

COVER

COVER

ST-068 (FLASH DRIVE)

• For Printed Wiring Board.

• :Uses unleaded solder.

•ST-068 board is four-layer print board. However, the pat­terns of layers 2 to 3 have not been included in the dia­gram.

• There are a few cases that the part isn't mounted in this
model is printed on this diagram.

• See page 4-63 for printed parts location.

4-2. SCHEMATIC DIAGRAMS 4-3. PRINTED WIRING BOARDS

4-2. SCHEMATIC DIAGRAMS 4-3. PRINTED WIRING BOARDS

3

1

4

5

MOUNTED PARTS LOCATION

MOUNTED PARTS LOCATION

1

45

8

12

C510

12

ST-068

4-51 4-52

COVER

COVER

FP-075 (LENS BARRIER SENSOR) FLEXIBLE BOARD

4-2. SCHEMATIC DIAGRAMS 4-3. PRINTED WIRING BOARDS

4-2. SCHEMATIC DIAGRAMS 4-3. PRINTED WIRING BOARDS

DSC-P51/P51MDSC-P51/P51M

4-53

4-54

FP-075 FLEXIBLE

COVER

COVER

4-4. WAVEFORMS

CD-391 BOARD

CD-391 BOARD

CD-391 BOARD

DSC-P51/P51M

1

2

3

7.4 Vp-p

103 µsec

IC301 1, 2, 3

(CN301 5, 6, 7) REC

7.4 Vp-p

103 µsec

IC301 4, 5, 6

(CN301 8, 9, q;) REC

6

1.2 Vp-p

103 µsec

Q302 E (CN301 qj) REC

18 MHz

IC301 qf (CN301 qs) REC

4

16.7 MHz

IC301 qg (CN301 qd) REC

5

3.5 Vp-p

3.5 Vp-p

3.7 Vp-p

16.7 MHz

IC301 qh (CN301 qf) REC

4-57

DSC-P51/P51M

COVER

COVER

SY-075 BOARD

SY-075 BOARD SIDE A SY-075 BOARD SIDE B

SY-075 BOARD SIDE A SY-075 BOARD SIDE B

1

2

3

H

Q301 E REC/PB

H

Q302 E REC/PB

310 mVp-p

330 mVp-p

6

460 mVp-p

H

IC651 6 REC/PB

7

4.0 Vp-p

27 MHz

IC781 2 (X781) REC/PB

8

4

5

H

Q303 E REC/PB

H

Q304 E REC/PB

340 mVp-p

450 mVp-p

1.9 Vp-p

3.0 Vp-p

44 MHz

IC781 4 REC/PB

9

4.3 Vp-p

27 MHz

IC781 qh REC/PB

H

IC651 4 REC/PB

4-58

COVER

COVER

PK-062 BOARD (1/2)

PK-062 BOARD SIDE A PK-062 BOARD SIDE B

PK-062 BOARD SIDE A PK-062 BOARD SIDE B

DSC-P51/P51M

1

2

3

10 MHz

IC401 wk REC/PB

32.768 kHz

IC401 ts REC/PB

2.3 Vp-p

1.32 Vp-p

6

5.3 Vp-p

2H

IC801 wj REC/PB

7

360 mVp-p

H

IC801 rh REC/PB

8

4

5

2H

IC801 w; REC/PB

2H

IC801 ws REC/PB

3.7 Vp-p

3.0 Vp-p

3.0 Vp-p

360 mVp-p

H

IC801 rj REC/PB

9

500 mVp-p

H

IC801 rk REC/PB

q;

2.8 Vp-p

2H

IC801 wf REC/PB

H

IC802 1 REC/PB

4-59

DSC-P51/P51M

COVER

COVER

PK-062 BOARD (2/2)

qa

5.24 MHz

IC802 wj REC/PB

qs

PK-062 BOARD SIDE A PK-062 BOARD SIDE B

PK-062 BOARD SIDE A PK-062 BOARD SIDE B

4.2 Vp-p

2.8 Vp-p

V

IC802 rk REC/PB

4-60

COVER

COVER

4-3. PRINTED WIRING BOARDS

4-3. PRINTED WIRING BOARDS

DSC-P51/P51M

4-5. MOUNTED PARTS LOCATION

CD-391 BOARD

* C301 A-1
* C302 A-1
* C303 A-2

C304 B-1
* C305 A-1
* C306 B-2
* C307 A-1
* C308 A-1
* C309 A-1

C310 B-1
* C311 A-1

* CN301 B-1

* D301 A-1

* FB301 B-2

IC301 A-1

* L301 B-1

* Q301 A-1
* Q302 A-1

* R301 A-1
* R302 B-2

R303 B-2

R304 B-2
* R305 A-1
* R306 B-1
* R307 A-1
* R308 A-1

* TH301 B-2

CH-109 BOARD

* C103 A-1
* C105 B-2
* C106 B-2
* C107 B-1
* C108 A-2
* C109 A-1

* CN101 A-1
* CN102 B-2

* FB101 B-1
* FB102 B-1
* FB103 B-2
* FB105 A-1
* FB106 A-2

* L101 B-1
* L102 A-2
* L103 A-1

R102 A-2
R103 A-1
R104 A-2
R105 A-1
R106 A-2
R107 A-1
R108 B-2
R109 A-2
R110 A-1
R111 A-2
R112 A-1
R113 A-2
R114 A-1
R115 B-2

* R116 B-2

R118 A-1
R119 A-1
R121 A-2
R122 A-2

* R123 A-1

SY-075 BOARD

* C001 C-1
* C002 C-1
* C004 D-2
* C005 A-4
* C006 B-4
* C007 B-4
* C008 B-4
* C009 B-4
* C010 B-3
* C014 B-3
* C015 A-3
* C016 B-3
* C017 D-2
* C018 B-3
* C019 B-3
* C020 B-3
* C021 B-3
* C022 A-3
* C023 A-3
* C024 B-2
* C025 C-2
* C026 B-1
* C027 B-1
* C028 B-1
* C029 B-2
* C032 B-2
* C033 B-3
* C034 C-2
* C035 B-2
* C036 B-1
* C038 B-2
* C039 B-2
* C041 B-2
* C042 B-1
* C043 A-1
* C044 C-2
* C045 C-2
* C046 B-3
* C047 B-2
* C048 C-1
* C049 C-2
* C050 C-2
* C051 B-1
* C052 B-1
* C053 A-3
* C054 A-1
* C056 A-1
* C057 A-1
* C063 A-2
* C065 B-4
* C066 C-3
* C067 C-2
* C068 B-3
* C069 A-3
* C073 A-1
* C075 C-3
* C077 C-3
* C202 D-4
* C203 C-3
* C204 C-5
* C205 D-4
* C206 C-3
* C207 D-3
* C208 C-5
* C209 C-5
* C210 C-4
* C211 B-4
* C213 B-4
* C214 B-5
* C215 B-3
* C216 C-3
* C217 C-3
* C219 C-4
* C220 C-3
* C223 B-4
* C224 B-4
* C225 B-4
* C226 B-4
* C227 B-4
* C228 C-3

C301 B-4
C302 B-5
C306 C-3
C307 C-3

C311 C-3
C312 C-3
C313 C-3
C316 C-5
C317 C-3
C318 C-5
C319 D-4
C320 C-3
C321 D-5
C322 C-5
C323 D-4
C324 D-5
C325 D-4
C326 D-4
C327 D-4

* C328 D-5

C329 C-2
C332 C-3
C335 C-2
C337 C-3
C339 D-4
C340 D-4
C341 D-5
C342 D-3
C501 B-4
C502 B-2
C503 C-3
C504 C-3
C506 C-3
C508 C-2
C509 C-2
C510 B-4
C511 B-2
C512 B-2
C513 B-4
C516 A-3
C518 B-2
C522 B-2
C523 A-3

* C524 B-4

C525 B-5
C526 B-5

C527 A-3
* C601 A-3
* C651 D-5
* C652 D-5
* C653 D-5
* C656 D-5
* C657 D-5
* C658 D-5
* C701 D-4

C781 B-4

C782 B-1

C783 B-4

C784 B-4

C785 B-4

* CN001 C-1

CN002 D-3
* CN201 C-5
* CN203 B-5
* CN601 A-4
* CN602 A-4
* CN701 A-2
* CN703 D-4

CN704 D-4

CN705 C-5

CN706 A-1

CN707 A-1
* CN708 B-5

* D001 D-2
* D002 D-2
* D003 D-2
* D005 D-3
* D006 C-2
* D009 B-2
* D010 C-3
* D011 A-3
* D012 B-2
* D013 B-2
* D014 C-2
* D016 B-1
* D017 B-1

* D019 A-3
* D021 C-3
* D204 B-5
* D205 C-5
* D208 C-5
* D209 C-5
* D210 C-4
* D212 C-5
* D213 C-5
* D214 C-5
* D601 A-4
* D602 A-4
* D701 D-4

* F001 D-2
* F002 C-2
* F003 C-2
* F004 C-2
* F005 C-2
* F006 C-2
* F007 C-2

* FB001 C-2

FB301 D-4
FB302 D-4
FB303 D-4
FB501 A-3
FB502 A-2
FB503 B-2

FB504 B-5
* FB601 A-4
* FB602 A-4

FB781 B-4

* IC001 B-3
* IC002 B-1
* IC003 A-2
* IC004 C-3
* IC201 B-4
* IC202 C-4
* IC203 C-4
* IC204 C-4

IC301 C-4

IC302 C-3

IC501 B-3

IC502 B-5
* IC503 D-4
* IC651 D-5

IC781 B-4

* L001 B-1

L002 B-1

L003 C-2

L004 B-2

L005 C-1

L006 C-2

L007 B-2

L008 B-1
* L009 C-2
* L010 B-3
* L011 B-1
* L012 B-2
* L013 B-2

L014 B-1
* L015 B-2
* L016 B-1
* L017 A-1
* L018 A-1
* L019 B-3
* L020 A-1
* L021 A-1
* L023 A-2

L025 C-1
* L202 C-3
* L203 D-3
* L204 B-5
* L205 B-4
* L206 A-4

L301 C-3

L302 D-5

L501 B-2

L502 B-2
* L651 B-5

L781 B-4

no mark : side A
* mark : side B

* LF001 C-2

* Q001 C-2
* Q002 D-3
* Q004 C-3
* Q006 C-2
* Q007 D-3
* Q008 D-2
* Q010 D-2
* Q011 D-3
* Q013 B-3
* Q017 C-2
* Q018 B-1
* Q019 B-2
* Q020 B-2
* Q021 B-1
* Q022 B-2
* Q023 A-1
* Q024 A-1
* Q026 A-1
* Q027 A-1
* Q028 A-1
* Q029 A-1
* Q033 C-2
* Q034 A-3
* Q035 B-3
* Q038 A-3
* Q039 A-2
* Q040 A-2
* Q042 C-3
* Q043 C-3
* Q202 B-5
* Q203 B-5
* Q204 B-4
* Q301 C-4
* Q302 D-4
* Q303 D-4
* Q304 C-5
* Q305 C-5

Q501 B-2
* Q701 D-4
* Q703 B-5
* Q704 A-1

* R001 C-2
* R004 C-2
* R005 C-2
* R006 D-3
* R007 B-4
* R008 B-4
* R009 B-4
* R010 A-4
* R011 B-4
* R012 B-4
* R013 B-4
* R014 B-4
* R015 D-3
* R016 D-3
* R017 D-3
* R019 D-3
* R023 D-2
* R025 B-4
* R026 B-3
* R028 B-3
* R029 B-3
* R030 B-3
* R031 B-3
* R032 D-3
* R033 D-3
* R034 D-3
* R038 B-3
* R041 B-3
* R042 D-3
* R044 A-3
* R045 B-3
* R047 A-3
* R048 B-3
* R049 A-3
* R060 B-4
* R061 B-3
* R062 B-3
* R063 B-3
* R064 B-3
* R065 B-3

4-61

DSC-P51/P51M

COVER

COVER

* R066 A-3
* R068 A-2
* R069 A-3
* R070 A-3
* R071 B-3
* R073 A-2
* R075 A-2
* R076 A-2
* R077 B-3
* R078 A-3
* R079 A-3
* R080 A-4
* R081 A-3
* R084 C-3
* R085 C-3
* R086 C-3
* R087 C-3
* R088 C-3
* R206 B-5
* R208 B-5
* R209 C-5
* R210 C-4
* R211 C-4
* R212 C-4
* R213 C-4
* R214 C-4
* R215 B-5
* R216 B-5
* R218 C-4
* R220 C-4
* R223 C-3
* R224 C-3
* R225 C-4
* R226 C-3
* R227 C-4
* R228 C-4
* R229 C-3
* R230 C-3
* R231 C-3
* R232 C-3
* R233 C-3
* R234 C-3
* R235 C-4
* R236 B-3
* R247 A-4
* R256 B-5
* R258 C-3
* R259 B-5
* R260 B-3

R304 C-3
R306 C-5
R309 C-5
R310 C-5
R311 C-5

R312 D-4
* R313 C-5
* R314 D-4
* R315 D-4
* R316 C-4
* R317 C-5

R318 D-5

R319 D-5
* R320 C-4
* R321 D-4
* R322 D-4
* R323 D-5
* R328 C-5

R505 A-3

R506 C-3

R507 A-3

R517 A-3

R520 C-3

R521 B-2

R522 C-2

R525 C-2

R526 C-2

R527 C-2

R528 C-2

R533 B-2

R536 B-2

R540 B-2

R548 B-2

R549 B-2

R554 A-3

R557 A-3
R563 A-3
R564 A-3
R568 A-3
R569 A-3
R573 A-3

* R579 A-4

R582 B-2
R583 B-2

R586 A-3
* R601 A-4
* R603 A-4
* R604 A-4
* R605 A-4
* R607 A-3
* R608 A-3
* R651 D-5
* R652 D-5
* R653 D-5
* R654 D-5
* R655 D-5
* R656 D-5
* R701 D-4
* R702 D-4
* R703 D-4

R704 A-1
* R705 B-4

R706 A-1
* R707 B-5
* R708 B-5
* R709 B-5
* R710 B-5
* R711 B-5

R783 B-4

R785 B-4

R786 B-4

R787 B-4

R788 B-4

R789 B-4

R790 B-4

X781 B-5

4-3. PRINTED WIRING BOARDS

4-3. PRINTED WIRING BOARDS

PK-062 BOARD

BT401 B-4

C401 C-4
C402 C-4
C403 C-4
C404 C-4
C407 D-6
C408 C-6
C409 B-4
C410 C-4
C412 B-5
C420 B-5
C421 B-6
C422 C-4
C423 C-4
C801 A-2
C804 B-2
C805 A-3
C807 A-3
C808 A-3
C809 A-3
C810 B-2
C812 B-2
C813 B-4
C814 B-3
C815 B-4
C816 B-3
C817 B-2
C818 B-4
C819 B-2
C820 A-3
C821 B-3
C822 B-4
C823 C-4
C824 B-4
C825 B-4
C826 C-3
C829 C-2
C830 C-3
C832 B-3
C833 A-3
C901 D-5

CN801 C-3
CN802 D-3
CN901 B-1
CN902 D-6
CN903 D-6

* D251 D-2
* D252 A-5
* D253 A-5
* D254 A-5

D401 C-4
D402 A-1
D801 B-3
D802 A-2
D803 A-2

IC401 C-5
IC402 C-4
IC801 B-3
IC802 B-2
IC803 C-3

L401 C-4
L801 A-2
L802 B-2
L803 A-3
L804 A-3
L805 B-2

Q254 A-5
Q402 B-5
Q404 B-4
Q405 B-4
Q802 A-2
Q807 C-3
Q808 C-3
Q809 C-4
Q810 C-4
Q812 A-3
Q901 D-5

* R251 B-6

R252 A-2

* R253 C-6

R254 D-2
R255 A-5
R256 A-5

R257 A-5
* R258 B-6
* R259 B-6
* R260 B-6

R261 A-5

R262 A-4

R263 A-4

R264 A-4

R265 A-4

R266 A-4

R401 B-4

R402 B-4

R403 B-6

R404 C-4

R405 B-4

R406 B-4
* R407 D-6

R409 C-4

R411 B-4

R413 B-4

R414 C-4

R415 B-4

R416 B-6

R418 B-4

R419 B-4

R420 B-4

R422 C-4

R423 B-4

R424 C-4

R425 C-4

R426 C-4

R429 D-5

R430 C-5

R431 B-5

R433 C-4

R434 D-4

R435 B-5

R436 A-4

R437 C-5

R440 D-6

R441 D-5

R442 C-6

R443 C-5

R444 D-5

R445 B-4

R446 D-5

R451 D-5

R452 D-5

R455 D-5

R460 C-6

R461 C-6

R462 C-6

R463 C-6

R465 B-6

R466 B-6

R469 B-6

R470 C-4

R472 D-4

R803 A-2

R804 A-2

R805 A-3

R807 A-3

R809 B-3

R810 A-3

R811 B-2

R812 B-4

R813 B-3

R814 B-3

R815 B-2

R816 B-2

R817 B-2

R818 B-3

R819 B-3

R820 B-3

R821 B-3

R822 B-3

R823 B-3

R824 C-3

R825 C-3

R826 C-3
R827 C-3
R831 C-3
R833 C-3
R834 C-3
R835 C-3
R836 C-4
R838 C-3
R839 C-4
R840 C-3
R841 C-3
R851 A-3
R852 B-2
R853 A-2
R855 C-3
R856 B-1
R857 C-3
R858 C-2
R909 D-5

* S252 A-2
* S253 D-6
* S254 A-1
* S255 B-6
* S256 B-6
* S257 A-5
* S258 A-3
* S401 D-6

X401 D-5
X402 B-5

4-62

COVER

COVER

4-3. PRINTED WIRING BOARDS

4-3. PRINTED WIRING BOARDS

DSC-P51/P51M

JK-223 BOARD

* CN202 A-1

CN203 B-2

* D201 A-2
* D206 B-2
* D207 A-2
* D208 B-2

* FB202 A-2

* J201 B-1

* LF201 A-1
* LF202 A-1

* R202 B-2

R204 A-2

* R205 B-2

R206 A-2

* VDR201 A-2

ST-068 BOARD

C503 A-2
C504 A-2

* C507 A-1

C508 A-1
* C509 A-2
* C510 A-5
* C511 A-3
* C512 A-3

C513 A-2

* CN502 A-1

* D501 A-3
* D502 A-4

L502 A-3

Q501 A-1

Q502 A-1

Q503 A-2

Q504 A-1
* Q505 A-2
* Q506 A-2
* Q507 A-2
* Q508 A-2
* Q509 A-3

R501 A-1

R502 A-1

R503 A-1
* R505 A-3
* R507 A-3

R509 A-1
* R510 A-2
* R511 A-2
* R512 A-2
* R513 A-2
* R514 A-3
* R515 A-3
* R516 A-3
* R517 A-3
* R518 A-3

T501 A-2

4-63

4-63E

COVER

COVER

Before starting adjustment

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

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 section Adjustment

Initialization of A, B, D,
E, F, 7, 9 page data

Video Composite video level adj.
Camera Hall adj.

LCD LCD 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

zzz z z

zzz zzz

zz zzz

zz zzz

zz zzz

zzz zzzz

zzz zzzz

zzz zzzz

zzz zzzz

zzz zzzz

zzzz

zz z

z zzz zzz zz

zzz

zz zz z

z zzz

z zzz

z zzz

zzzzz

zzzzz

zz z zzz

Table 5-1-1

5-2

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-9 Back 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-1 J-5J-2

J-6 J-7

J-3 J-4

J-8 J-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

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

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

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

AB B

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

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

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 page A
Adjsuting Address 00 to FF
Adjusting page D
Adjusting Address 10 to 73

Initializing Method:

Order Page Address Data Procedure

10 0101
24 0305
34 002D
44 01 2D Press PAUSE button.
54 02 Check 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 Data Procedure

12 0029
22 01 29 Press 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 value Remark

00, 01 Fixed data-1 (Initialized data)

02 00 Test mode

03 to 61 F ixed data-1 (Initialized data)

62
63

64 to 7F Fixed data-1 (Initialized data)

80 9B Backlight current adj. (BL L)
81 3C Backlight current adj. (BL H)
82 6B VCO adj. (NTSC)
83 71 VCO adj. (PAL)
84 66 V-COM DC adj.
85 15 D Range adj.
86 08 Black limit adj.
87 83 Psig Gray adj./V-COM adj.
88 90
89 83
8A 2E Contrast adj.
8B 00 Center voltage adj.
8C
8D
8E
8F

90 to 9F Fixed data-1 (Initialized data)

A0 80 Composite video level adj.

A1, A2 Fixed data-1 (Initialized data)

A3
A4

A5 to A8 Fixed data-1 (Initialized data)

A9 Fixed data-2

AAto FF Fixed 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 value Remark

10 to 1F Fixed data-1 (Initialized data)

20 Not used

21 00 Test mode
22 to 36 F ixed data-1 (Initialized data)
37 to 3F Not used

40 to 5A Fixed data-1 (Initialized data)

5B Not used

5C to 73 F ixed data-1 (Initialized data)

Fixed data-2

White balance adj.

Fixed data-2

Fixed data-2

5-8

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 page B
Adjusting Address 00 to FF
Adjusting page E
Adjusting Address 00 to FF
Adjusting page F
Adjusting Address 00 to FF
Adjusting page 7
Adjusting Address 00 to FF
Adjusting page 9
Adjusting Address 00 to FF

Initializing Method:

Order Page Address Data Procedure

10 0101
26 0305
36 002D
46 01 2D Press PAUSE button.
56 02 Check 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 value Remark

00 to FF Fixed 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 value Remark

00 to FF Fixed 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 Data Procedure

12 0029
22 01 29 Press PAUSE button.

5-9

DSC-P51/P51M

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”)

Address Initial value Remark

00 to 0F Fixed data-1 (Initialized data)

10 FF
11 FF
12 FF
13 FF
14 FF
15 FF
16 FF
17 FF
18 14
19 40
1A 20
1B E8
1C 10
1D 7D
1E 00
1F 00
20 00
21 00
22 1C
23 00
24 20
25 20
26 23
27 44
28 0A
29 00
2A 00
2B 00
2C 00
2D 00
2E 00
2F 00
30 00
31 00
32 00
33 00
34 00
35 00
36 00
37 00
38 00
39 00
3A 00
3B 00
3C 00
3D 00

AF Illumination check.

Flange back adj.

Address Initial value Remark

3E FF Flange back adj.

3F to 57 Fixed data-1 (Initialized data)

58 5E
59 83
5A 13
5B 5B
5C 75
5D 5D
5E 00
5F 00
60 00
61 00 F No. compensation
62 00
63 00
64 00
65 30
66 FE Light value adj.
67 6D
68 68 Hall adj.

69 to 6D Fixed data-1 (Initialized data)

6E 00
6F 00
70 2C
71 D9
72 1D
73 C0
74 2C
75 A8
76 1E
77 02

78 to 87 F ixed data-1 (Initialized data)

88 1A
89 DA
8A 2D
8B B1
8C 1A
8D D1
8E 2E
8F 01

90 to 9F Fixed data-1 (Initialized data)

A0 2A
A1 A0
A2 61
A3 00
A4 03
A5 E9 Color reproduction adj.
A6 63

Hall adj.

Mixed color calcel adj.

AWB 3200K standard data input

AWB 5800K standard data input

AWB 5800K standard data input

5-10

DSC-P51/P51M

Address Initial value Remark

A7 83
A8 D5

A9 FE
AA 73
AB 45 Color reproduction adj.
AC 63
AD 83
AE 03

AF E9

B0 00 AWB 3200K standard data input

B1 00 AWB 5800K standard data input

B2 00 AWB 3200K standard data input

B3 00 AWB 5800K standard data input

B4 00 AWB 3200K standard data input

B5 Fixed data-1 (Initialized data)

B6 28

B7 6E

B8 08

B9 D2
BA 06
BB 03
BC 00
BD 00

BE 00

BF 00

C0 00

C1 00

C2 00

C3 00

C4 00

C5 00

C6 00 Mechanical shutter adj.

C7 43

C8 52

C9 00
CA 00
CB 00
CC 80
CD 80

CE 80

CF 88

D0 88

D1 00

D2 00

D3 00

D4 00

D5 00

D6 00

D7 14

Strobe white balance adj.

Address Initial value Remark

D8 to DA Fixed data-1 (Initialized data)

DB 00
DC 00
DD 00
DE 00

DF 00
E0 00
E1 00
E2 00
E3 00
E4 00
E5 00 Strobe white balance adj.
E6 00
E7 00
E8 00
E9 00

EA 00

EB 00
EC 00

ED 00

EE 00
EF 00

F0 to FF Fixed data-1 (Initialized data)

6. 7 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 value Remark

00 to FF Fixed data-1 (Initialized data)

7. 9 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 value Remark

00 to FF Fixed data-1 (Initialized data)

5-11

DSC-P51/P51M

1-3. VIDEO SYSTEM ADJUSTMENT

1. Composite Video Level Adjustment

Adjust the sync level of the composite video signal output and
check the burst level of the composite video signal output.

Mode PLAY
Signal Arbitrary
Measurement Point Video terminal of VIDEO OUT

jack (75 Ω terminated)
Measuring Instrument Oscilloscope
Adjustment Page A
Adjustment Address A0
Specified Value Sync level:

A = 286 ± 5 mV (NTSC Mode)

A = 300 ± 5 mV (PAL Mode)

Burst level:

B = 286 ± 10 mV (NTSC Mode)

B = 300 ± 30 mV (PAL Mode)

Adjusting method:

Order Page Address Data Procedure

10 0101
2A 0203
34 F104

Change the data and set the

4A A0

5A A0 Press PAUSE button.
6

Processing after Completing Adjustments:

Order Page Address Data Procedure

14 F100
20 0100

sync level (A) to the specified
value.

Check the burst level (B) to the
specified value.

B

A

H

Fig. 5-1-11

5-12

DSC-P51/P51M

1-4. CAMERA SYSTEM ADJUSTMENTS

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 Data Procedure

10 0101

Set the bit value of bit 5 is

2A 01

32 10

4A 00

5A 02

6D 21 04 Press PAUSE button.
76 C1
86 6C01

9Wait for 1 second.

10 E 96 00 Press 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 Data Procedure

1E 9640
26 6C00
3D 21 00 Press 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)

5-13

DSC-P51/P51M

E=F

V

EF

Picture Frame Setting

Mode CAMERA
Subject Color bar chart

(Standard picture frame with the
zoom lens at WIDE end)

Measurement Point Video terminal of VIDEO OUT

jack (75 Ω terminated)
Measuring Instrument Oscilloscope and monitor TV
Specified Value A=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 Data Procedure

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:

Order Page Address Data Procedure

16 2C01
26 9000
36 9100
46 92 YL (Note 2)
56 93 YH (Note 2)
66 01 79 Press PAUSE button.

76 07

Check the data changes to
“01”.

86 01 00 Press PAUSE button.

Note 2: The data noted down at step 7 of “Setting method”.

Check on the oscilloscope

1. Horizontal period

A=B

B

A

C=D

C

D

Fig. 5-1-12

2. Vertical period

Processing after Completing Adjustment:

Order Page Address Data Procedure

10 0300

Check on the monitor TV

Color bar chart picture frame

5-14

Fig. 5-1-13

Monitor TV picture frame

Fig. 5-1-14

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1. HALL Adjustment

Mode CAMERA
Subject Not required
Measurement Point Displayed data of page: 1

Measuring Instrument Adjusting remote commander
Adjustment Page F
Adjustment Address 58 to 5D, 68

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 Data Procedure

1

26 9416
36 9586

46 016D

56 02
66 01 00 Press PAUSE button.

Note 2: The adjustment data will be automatically input to page:

F, address: 58 to 5D and 68.

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(Note 2)

Perform “Data setting during
camera system adjustment”.
(Refer to page 5-13)

Press PAUSE button.
(Note 2)

Check the data changes to
“01”.

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Processing after Completing Adjustment:

Order Page Address Data Procedure

16 01 00 Press PAUSE button.
26 9400
36 9500
40 0300

Release the data setting

5

performed at step 1.
(Refer to page 5-13)

5-15

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2. Flange Back Adjustment

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(Using the minipattern box)

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The inner focus lens flange back adjustment is carried out auto­matically. In whichever case, the focus will be deviated during
auto focusing/manual focusing.

Mode CAMERA
Subject Siemens star chart with ND filter

for minipattern box (Note 1)
Measurement Point Check operation on monitor TV
Measuring Instrument
Adjustment Page F
Adjustment Address 18 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 Data Procedure

Perform “Data setting during

1

camera system adjustment”.
(Refer to page 5-13)

26 01 13 Press 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 Data Procedure

16 01 00 Press 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

5-16

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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)

Mode CAMERA
Subject Flange back adjustment chart

Measurement Point Check operation on monitor TV
Measuring Instrument
Adjustment Page F
Adjustment Address 18 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 Data Procedure

1

26 01 13 Press 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 Data Procedure

16 01 00 Press PAUSE button.

2

3

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(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)”.

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3-2.Flange Back Adjustment (2)

Perform this adjustment after performing “Flange Back Adjust­ment (1)”.

Mode CAMERA
Subject Subject more than 500 m away

(Subject with clear contrast such

as buildings, etc.)
Measurement Point Check operation on monitor TV
Measuring Instrument
Adjustment Page F
Adjustment Address 18 to 3E

Adjusting method:

Order Page Address Data Procedure

Set the zoom lens to the

1

2

36 01 13 Press 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 Data Procedure

16 01 00 Press 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”.

5-17

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4. Flange Back Check

Mode CAMERA
Subject Siemens star

(1.0 m from the front of the lens)

(Luminance: 200 to 400 lux)
Measurement Point Check operation on monitor TV
Measuring Instrument
Specified value Focused at the TELE end and

WIDE end

Checking method:

Order Page Address Data Procedure

1

2

3

4B 3D Note down the data.
5B 3D 50 Press 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.

Mode CAMERA
Subject Clear chart

Adjustment Page F
Adjustment Address 5E 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 Data Procedure

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 Data Procedure

16 01 00 Press PAUSE button.

2

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(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 Data Procedure

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

5-18

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6. Mechanical Shutter Adjustment

Adjust the period which the mechanical shutter is closed, and com­pensate the exposure.

Mode CAMERA
Subject Clear chart

(Standard picture frame with the

zoom lens at WIDE end)
Adjustment Page F
Adjustment Address B8 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 Data Procedure

Perform “Data setting during

1

2

36 01AD

46 02
56 AB Check 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 Data Procedure

16 01 00 Press 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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7. Light V alue Adjustment

Adjust the standard LV value.

Mode CAMERA
Subject Clear chart

Measurement Point Displayed data of page: 1 (Note

Measuring Instrument Adjusting remote commander
Adjustment Page F
Adjustment Address 65 to 67
Specified Value AE 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 Data Procedure

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.

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(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 Data Procedure

16 01 00 Press PAUSE button.
20 0300

Release the data setting

3

performed at step 1.
(Refer to page 5-13)

5-19

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8. Mixed Color Cancel Adjustment

To perform mixed color cancel adjustment based on data of each
color in color bar.

Mode CAMERA
Subject Color bar chart

(Standard picture frame with the

zoom lens at WIDE end)
Adjustment Page F
Adjustment Address 6E 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 Data Procedure

Perform “Data setting during

1

2

37 5D Note down the data.
47 5D 81 Press PAUSE button.
57 22 Note down the data.
67 22 00 Press PAUSE button.
76 01 D7 Press 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 Data Procedure

16 01 00 Press 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)

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9. Auto White Balance 3200K Standard Data Input

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Adjust the white balance standard data at 3200K.

Mode CAMERA
Subject Clear chart

(Standard picture frame with the

zoom lens at WIDE end)
Adjustment Page F
Adjustment Address 70 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 Data Procedure

Perform “Data setting during

1

2

36 B603
47 5D Note down the data.
57 5D 81 Press PAUSE button.
66 3701
76 01 11 Press PAUSE button.

86 38
96 01 C1 Press PAUSE button. (Note 4)

10 6 02
11 6 01 00 Press PAUSE button.

12 6 37 02
13 6010BPress PAUSE button. (Note 4)

14 6 02

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 Data Procedure

16 01 00 Press 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

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10. Auto White Balance 3200K Check 1

Mode CAMERA
Subject Clear chart

(Standard picture frame with the
zoom lens at WIDE end)

Measurement Point Displayed data Video terminal of

of Page: 1 VIDEO OUT jack
(Note 2) (75 Ω terminated)

Specified Value R 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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Checking method:

Order Page Address Data Procedure

“Auto white Balance 3200K

1

26 370D
36 01 11 Press PAUSE button.

46 38
56 01 C1 Press PAUSE button.
66 02
70 0304

81

90 0305

10 1

11 0 03 2C

12 1

13 0 03 2D

14 1

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 Data Procedure

16 01 00 Press PAUSE button.
26 B600

3

Perform “Auto white Balance
3200K Check 2”.

5-21

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11. Auto White Balance 3200K Check 2

Mode CAMERA
Subject Clear chart

(Standard picture frame with the
zoom lens at WIDE end)

Measurement Point Displayed data Video terminal of

of Page: 1 VIDEO OUT jack
(Note 3) (75 Ω terminated)

Specified Value R 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 Data Procedure

1
26 370E

36 01 0F Press PAUSE button.
46 02
50 0304

61

70 0305

81

90 032E

10 1

11 0 03 2F

12 1

“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.

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Processing after Completing Adjustment:

Order Page Address Data Procedure

16 01 00 Press 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)

5-22

12. Auto White Balance 5800K Standard Data Input

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Adjust the white balance standard data at 5800K.

Mode CAMERA
Subject Clear chart

(Standard picture frame with the

zoom lens at WIDE end)
Adjustment Page F
Adjustment Address 88 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.

Adjusting method:

Order Page Address Data Procedure

1 Place the C14 filter on the

lens.
Perform “Data setting during

2

3

4F A0 2A Press PAUSE button.
5F A1 A0 Press PAUSE button.
6F A2 61 Press PAUSE button.
7F A3 00 Press PAUSE button.
86 B603

97 5D Note down the data.
10 7 5D 81
11 6 37 07
12 6 01 11 Press PAUSE button.

13 6 38
14 601C3Press PAUSE button. (Note 4)
15 6 02
16 6 01 00 Press PAUSE button.

17 6 37 08
18 601A5Press PAUSE button. (Note 4)

19 6 02

Note 4: The adjustment data will be automatically input to page:

F, address: 88 to 8F, A0 to A3, B1 and B3.

Processing after Completing Adjustment:

Order Page Address Data Procedure

16 01 00 Press 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
5800K Check 1”.

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13. Auto White Balance 5800K Check 1

Mode CAMERA
Subject Clear chart

(Standard picture frame with the
zoom lens at WIDE end)

Filter Filter C14 for color temperature

correction

Measurement Point Displayed data of Video terminal of

Page: 1 (Note 3) VIDEO OUT jack

Specified Value R ratio: 2A00 to 2B40

B ratio: 6060 to 61A0
R-Y level data: 0076 to 0082
B-Y level data: 0078 tto 0084

Note 1: Perform this check after performing after performimng

“Auto White Balance 5800K 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

Checking method:

Order Page Address Data Procedure

“Auto white Balance 5800K

1

26 3713
36 01 11 Press PAUSE button.

46 38
56 01 C3 Press PAUSE button.
66 02
70 0304

81

90 0305

10 1

11 0 03 2C

12 1

13 0 03 2D

14 1

Processing after Completing Adjustment:

Order Page Address Data Procedure

16 01 00 Press PAUSE button.
26 B600

3

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 3) satisfied the
specified value.

Check that the B-Y level data
(Note 3) satisfied the
specified value.

Perform “Auto white Balance
5800K Check 2”.

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(75 Ω terminated)

5-23

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14. Auto White Balance 5800K Check 2

Mode CAMERA
Subject Clear chart

(Standard picture frame with the
zoom lens at WIDE end)

Measurement Point Displayed data Video terminal of

of Page: 1 VIDEO OUT jack
(Note 3) (75 Ω terminated)

Specified Value R ratio: 2A00 to 2B40

B ratio: 6060 to 61A0
R-Y level data: 0076 to 0082
B-Y level data: 0078 to 0084

Note 1: Perform this check after “Auto White Balance 5800K

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 Data Procedure

1
26 3714

36 01 3F Press PAUSE button.
46 02
50 0304

61

70 0305

81

90 032E

10 1

11 0 03 2F

12 1

“Auto White Balance 5800K
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.

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Processing after Completing Adjustment:

Order Page Address Data Procedure

16 01 00 Press PAUSE button.
26 3700
30 0300

Set the data that is kept as a
memo in step 4 of “Auto

47 5D

5

6

White Balance 5800K
Standard Data Input”, and
press the PAUSE button.
(Refer to page 5-23)

Release the data setting
performed in step 1 of “Auto
White Balance 5800K
Standard Data Input”. (Refer
to page 5-13)

Remove the C14 filter on the
lens.

5-24

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R-Y

B-Y

R

B

G

M

G

Y

E

C

Y

Burst position

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15. Color Reproduction Adjustment

Adjust the color separation matrix coefficient so that proper color
reproduction is produced.

Mode CAMERA
Subject Color bar chart

(Standard picture frame with the
zoom lens at WIDE end)

Measurement Point Video terminal of VIDEO OUT

jack (75 Ω terminated)
Measuring Instrument Vectorscope
Adjustment Page F
Adjustment Address A4 to AF
Specified Value All color luminance points

should settle within each color

reproduction frame.

Menu setting:

1) VIDEO OUT of SET UP menu

................................ NTSC (NTSC mode)

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Processing after Completing Adjustment:

Order Page Address Data Procedure

16 01 00 Press PAUSE button.
26 3700

37 0F

4

Set data noted down at step
3, and press PAUSE button.

Release the data setting
performed at step 1.
(Refer to page 5-13)

Note 1: Check that the data of page: 6, address: 02 is “00”.

If not, turn the power of unit OFF/ON.

Note 2: “Color Reproduction Adjustment” is available only once

after the power is turned on. Turn the power off, then on
again if the adjustment is retried.

Adjusting method:

Order Page Address Data Procedure

Perform “Data setting during

1

2
37 0F Note down the data.

47 0F 81 Press PAUSE button.
56 01 AB Press PAUSE button.
66 1280
7Wait for 1 second.
86 1200

9Wait for 2 seconds.
10 6 37 1F
11 601A9Press PAUSE button. (Note 3)

12 6 02
13 6 37 20

14

Note 3: The adjustment data will be automatically input to page:

F, address: A4 to AF.

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 each color
luminance point is in each
color reproduction frame.

Fig. 5-1-16

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DSC-P51/P51M

RadarW

RadarW

RadarW

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16. CCD White Defect Compensation

Mode CAMERA
Subject Not required
Measurement Point Displayed data of page: 6,

address: 55

Measuring Instrument Adjusting remote commander

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“CCD White Defect Compensation” should be made

when the set warms up at certain duration after the power
was turned on, as it is affected with the temperature.

Adjusting method:

Order Page Address Data Procedure

Perform “Data setting during

1

2E 64 Note down the data.
3E 64 1E Press PAUSE button.
4E 69 Note down the data.
5E 69 0A Press PAUSE button.
66 01 8B Press PAUSE button.

76 02

86 55

96 01 00 Press PAUSE button.
10 E 64 0F Press PAUSE button.
11 E 69 60 Press PAUSE button.
12 6 01 87 Press PAUSE button.

13 6 02

14 6 55

camera system adjustment”.
(Refer to page 5-13)

Check the data changes to
“01”.

Check the data.
00 to 7F: Normal
80 to FF: Defective

Check the data changes to
“01”.

Check the data.
00: Normal
01 to FF: Defective

RadarW

Processing after Completing Adjustment:

Order Page Address Data Procedure

16 01 00 Press PAUSE button.

Set data noted down at step
2, and press PAUSE button.

Set data noted down at step
4, and press PAUSE button.

Release the data setting
performed at step 1.
(Refer to page 5-13)

2E 64

3E 69

4

5-26

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RadarW

RadarW

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17. CCD Black Defect Compensation

Mode CAMERA
Subject Clear chart

(Standard picture frame with the
zoom lens at WIDE end)

Measurement Point Displayed data of page: 6,

address: 55

Measuring Instrument Adjusting remote commander

Note 1: Check that the data of page: 6, address: 02 is “00”.

If not, turn the power of unit OFF/ON.

Note 2: Check that there are no dust, no dirt and reflection of the

clear chart.

Note 3: Any subject other than the clear chart should be in the

screen.

Adjusting method:

Order Page Address Data Procedure

Perform “Data setting during

1

2E 65 Note down the data.
3E 65 4C Press PAUSE button.
46 2C01
56 9000
66 9103
76 9200
86 9300
96 01 79 Press PAUSE button.

10 6 30 08
11 6 07
12 6 01 8D Press PAUSE button.
13 6 02

14 6 55

15 6 01 00 Press PAUSE button.
16 E 65 5A Press PAUSE button.
17 6 01 89 Press PAUSE button.

18 6 02

19 6 55

Note 4: If the data is “00” at the check in this adjustment method

order #14, skip the orders from #15 to #19 , and go for­ward to “Processing after Completing Adjustment.

camera system adjustment”.
(Refer to page 5-13)

Check the data changes to
“01”.

Check the data changes to
“01”.

Check the data.
00 to 14 : Normal
15 to FF : Defective
(Note 4)

Check the data changes to
“01”.

Check the data.
00: Normal
01 to FF: Defective

RadarW

DSC-P51/P51M

Processing after Completing Adjustment:

Order Page Address Data Procedure

16 01 00 Press PAUSE button.
26 2C00
36 9100
46 3000

5E 65

6

Set data noted down at step
2, and press PAUSE button.

Release the data setting
performed at step 1.
(Refer to page 5-13)

5-27

DSC-P51/P51M

18. CCD Linearity Check

Check that CCD output keeps being straight even ISO sensitivity
is changed.

Mode CAMERA
Subject Clear chart

Measurement Point Displayed data of Page: 1 (Note 1)
Measuring Instrument Adjusting remote commander
Specified Value R ratio 1: 3D00 to 4200

Note 1: The right four digits of the page: 1 displayed data of the

adjusting remote commander.

1:XX:XX

Adjusting method:

Order Page Address Data Procedure

1

2

36 3723

46 01 0F Press PAUSE button.

56 02

60 0304

71

80 0305

91

10 6 01 00 Press PAUSE button.
11 7 10 Note down the data.
12 7 10 FF
13 B 70 Note down the data.
14 B 70 40 Press PAUSE button.
15 6 37 24
16 6 01 0F Press PAUSE button.

17 6 02
18 0 03 04

19 1

20 0 03 05

21 1

RadarWRadarWRadarW

(Standard picture frame with the
zoom lens at WIDE end)

B ratio 1: 3D00 to 4200
R ratio 2: 3E00 to 4200
B ratio 2: 3E00 to 4200

Displayed data

Perform “Data setting during
camera system adjustment”.
(Refer to page 5-13)

Perform “Picture Frame
setting ”. (Refer to page 5-14)

Check the data changes to
“01”.

Check that the displayed data
(Note 1) satisfied the R ratio
1 specified value.

Check that the displayed data
(Note 1) satisfied the B ratio
1 specified value.

Check the data changes to
“01”.

Check that the displayed data
(Note 1) satisfied the R ratio
2 specified value.

Check that the displayed data
(Note 1) satisfied the B ratio
2 specified value.

Processing after Completing Adjustment:

Order Page Address Data Procedure

16 01 00 Press PAUSE button.
26 3700
30 0300

47 10

5B 70

6

Set data noted down at step
11, and press PAUSE button.

Set data noted down at step
13, and press PAUSE button.

Release the data setting
performed at step 1.
(Refer to page 5-13)

5-28

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19. Strobe White Balance Adjustment

Adjust the white balance when the strobe light flashed.

Mode CAMERA
Subject Flash adjustment box (Note 3)

(1 m from the front of lens)

Measurement Point Displayed data of page: 1 (Note

4) and page: F, address: E8, EA,

EC, EE
Measuring Instrument Adjusting remote commander
Adjustment Page F
Adjustment Address B6, B7, DB to EF
Specified Value Y level data: 03 to 07

R-Y level data:

007A to 0086 (Note 4)

B-Y level data:

007A to 0086 (Note 4)

Note 1: Check that the data of page: 6, address: 02 is “00”.

If not, turn the power of unit OFF/ON.

Note 2: Perform this adjustment in the Flash adjustment box.
Note 3: Refer to “4. Preparing the Flash adjustment box”.

(See page 5-7)

Note 4: The right four digits of the page: 1 displayed data of the

adjusting remote commander.

1:XX:XX

Displayed data

Note 5: “Strobe White Balance Adjustment” is available only

once after the power is turned on. Turn the power off,
then on again if the adjustment is retried.

Switch setting:

1) FLASH (Control button) .............. ON

Adjusting method:

Order Page Address Data Procedure

Perform “Data setting during

1

2

36 2C01
46 9000
56 9100
66 92FF
76 93FF
86 6C01

96 01 79 Press PAUSE button.
10 6 07
11 6 01 67 Press PAUSE button.

12 Check the flashing.
13 6 02

14 F E8

15 6 01 00 Press PAUSE button.
16 6 01 67 Press PAUSE button.

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 that the displayed data
satisfies the Y level specified
value.

RadarW

DSC-P51/P51M

Order Page Address Data Procedure

17 Check the flashing.
18 6 02
19 6 01 00 Press PAUSE button.

20 6 01 67 Press PAUSE button.
21 Check the flashing.

22 6 02
23 6 01 00 Press PAUSE button.

24 6 01 67 Press PAUSE button.
25 Check the flashing.

26 6 02
27 6 01 00 Press PAUSE button.

28 601B9Press PAUSE button. (Note 6)
29 Check the flashing.

30 6 02
31 6 01 00 Press PAUSE button.

32 601E7Press PAUSE button. (Note 6)
33 Check the flashing.

34 6 02

EA Check that the displayed data

35 F

36 Wait for 1 second.
37 0 03 2C

38 1

39 0 03 2D

40 1

Note 6: The adjustment data will be automatically input to page:

F, address: B6 to B7 and DB to EF.

Processing after Completing Adjustment:

Order Page Address Data Procedure

16 01 00 Press PAUSE button.
26 9000
36 9100
46 9200
56 9300
66 2C00
76 6C00
80 0300

9

EC satisfies the Y level specified

EE value.

Check the data changes to
“01”.

Check the data changes to
“01”.

Check the data changes to
“01”.

Check the data changes to
“01”.

Check the data changes to
“01”.

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)

5-29

DSC-P51/P51M

RadarW

RadarW

RadarW

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20. AF Illumination Check

Check the deviation of optical axis of AF illuminator.

Mode CAMERA
Subject Flash adjustment box (Note 3)

Measurement Point Check 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 Data Procedure

1

29 A9 06/04
36 01 EF Press 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 Data Procedure

16 01 00 Press PAUSE button.

Release the data setting

2

performed at step 1.
(Refer to page 5-13)

5-30

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 Name Pin No. Signal Name

1 BL_L1 10 UNREG
2 CVCHK OUT 11 LANC IN
3 N. C. 12 LANC OUT
4 REG_GND 13 MAKER_RECOG
5 CPC_IN 14 N. C.
6 BL_L2 15 N. C.
7 HSY 16 N. C.
8PANEL_COM 17 N. C.
9VG 18N. C.

Fig. 5-1-17

5-31

DSC-P51/P51M

1. LCD Initial Data Input

Mode PLAY
Signal Arbitrary
Adjustment Page A
Adjustment Address 62, 63, 80 to 8F, A3, A4

Adjusting method:

1) Select page: 0, address: 01, and set data: 01.

2) Select page: A, and enter the data giv en in the follo wing table.

Note: Press the PAUSE button each time the data are set, as the

data are written to non-volatile memory (EEPROM).

Address Data Remark

62 9A
63 66
80 9B Backlight current adj.(BL L)
81 3C Backlight current adj.(BL H)
82 6B VCO adj. (NTSC Mode)
83 71 VCO adj. (PAL Mode)
84 66 V-COM DC adj.
85 15 D Range adj.
86 08 Fixed value
87 83 V-COM adj.
88 90
89 83

8A 2E Contrast adj.

8B 00
8C 05

8D 0C

8E 56

8F 1F
A3 23
A4 04

Fixed value

White Balance adj.

Fixed value

2. Backlight Current Adjustment (PK-062 Board)

Adjust electric current value of backlight in two modes.

Mode PLAY
Signal Arbitrary
Measurement Point Pin 6 of CN903 (BL-L2)

Pin 1 of CN903 (BL-L1)
Measuring Instrument Digital voltmeter
Adjustment Page A
Adjustment Address 80, 81
Specified Value L = 0.373 ± 0.004 Vp-p

H = 0.714 ± 0.004 Vp-p

Adjusting method:

Order Page Address Data Procedure

10 0101

Change the data and set the

2A 80

3A 80 Press PAUSE button.

4A 81

5A 81 Press PAUSE button.

Processing after Completing Adjustments:

Order Page Address Data Procedure

10 0100

voltage (L) to the specified
value.

Change the data and set the
voltage (H) to the specified
value.

Processing after Completing Adjustments:

1) Select page: 0, address: 01, and set data: 00.

5-32

DSC-P51/P51M

A

2H

Pedestal

Pedestal

A: Pedestal level difference between 1H period and

previous 1H period.

3. VCO Adjustment (PK-062 Board)

Set the VCO free-run frequency. If deviated, the LCD screen will
be blurred.

Mode PLAY
Signal Arbitrary
Measurement Point Pin 7 of CN903 (HSY)
Measuring Instrument Frequency counter
Adjustment Page A
Adjustment Address 82 (NTSC Mode)

83 (PAL Mode)

Specified Value T = 15734 ± 30 Hz (NTSC Mode)

T = 15625 ± 30 Hz (PAL Mode)

Menu setting:

1) VIDEO OUT of SET UP setting

..................................NTSC (NTSC mode)

(This adjustment must be performed in NTSC mode, so don’t
set the menu setting to “PAL” )

Adjusting method:

Order Page Address Data Procedure

10 0101
24 F1 13 (NTSC Mode)
34 1D 82 (PAL Mode)

Change the data and set the

4A 82 frequency (f) to the NTSC

specified value.

5A 82 Press PAUSE button.

Change the data and set the

6A 83 frequency (f) to the PAL

specified value.

7A 83 Press 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).

Mode PLAY
Signal Arbitrary
Measurement Point Pin 9 of CN903 (VG)

External trigger: Pin 8 of

CN903 (PANEL_COM)
Measuring Instrument Oscilloscope
Adjustment Page A
Adjustment Address 85
Specified Value A = 2.95 ± 0.05 Vp-p

Adjusting method:

Order Page Address Data Procedure

10 0101
2A 02 03 Press PAUSE button.
34 F103

Change the data and set the

4A 85

voltage (A) to the specified
value. (Note)

5A 85 Press PAUSE button.

Note: Adjust it between data 00 and 3F.

Processing after Completing Adjustments:

Order Page Address Data Procedure

1A 02 00 Press PAUSE button.
24 F100
30 0100

Processing after Completing Adjustments:

Order Page Address Data Procedure

14 F1 00 (NTSC Mode)
24 1D 80 (PAL Mode)
30 0100

Fig. 5-1-18

5-33

DSC-P51/P51M

5. Contrast Adjustment (PK-062 Board)

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).

Mode PLAY
Signal Arbitrary
Measurement Point Pin 9 of CN903 (VG)

External trigger: Pin 8 of CN903

(PANEL COM)
Measuring Instrument Oscilloscope
Adjustment Page A
Adjustment Address 8A
Specified Value A = 2.65 ± 0.05 Vp-p

Adjusting method:

Order Page Address Data Procedure

10 0101
2A 02 03 Press PAUSE button.
34 F103

Change the data and set the

4A 8A voltage (A) to the specified

value. (Note)

5A 8A Press PAUSE button.

Note: Adjust it between data 00 and 7F.

Processing after Completing Adjustments:

Order Page Address Data Procedure

1A 02 00 Press PAUSE button.
24 F100
30 0100

6. V-COM Level Adjustment (PK-062 Board)

Set the common electrode drive signal level of LCD to the speci­fied value.

Mode PLAY
Signal Arbitrary
Measurement Point Pin 8 of CN903

(PANEL_COM)
Measuring Instrument Oscilloscope
Adjustment Page A
Adjustment Address 87
Specified Value A = 5.42 ± 0.05 Vp-p

Adjusting method:

Order Page

Address

Data Procedure

10 0101
2A 02 03 Press PAUSE button.
34 F103

Change the data and set the PSIG

4A 87

signal level (A) to the specified
value.

5A 87 Press PAUSE button.

Processing after Completing Adjustment:

Order Page

Address

Data Procedure

1A 02 00 Press PAUSE button.
24 F100
30 0100

10 steps peak

A

Pedestal

2H

A: Between the pedestal and 10 steps peak

Fig. 5-1-19

A

2H

Fig. 5-1-20

5-34

DSC-P51/P51M

7. V-COM DC Adjustment (PK-062 Board)

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.

Mode PLAY
Signal Arbitrary
Measurement Point
Measuring Instrument

Check on the LCD screen

Adjustment Page A
Adjustment Address 84
Specified Value Shake 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 Data Procedure

10 0101
2A 02 03 Press 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.

10 4 F1 07

Shake the set from side to

11

side and check that no stripe
lines can be seen on the LCD
screen. (Note 3)

12 A 84 Subtract 08 from the adjust-

ment value (D84) (Note 2)

13 A 84 Press 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 Data Procedure

1A 02 00 Press PAUSE button.
24 F100
30 0100

A

B

A

B

A

B

A

B

Fig. 5-1-21

5-35

DSC-P51/P51M

8. White Balance Adjustment (PK-062 Board)

Correct the white balance.
If deviated, the LCD screen color cannot be reproduced.

Mode PLAY
Signal Arbitrary
Measurement Point
Measuring Instrument
Adjustment Page A
Adjustment Address 88, 89
Specified Value LCD 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 Data Procedure

10 0101
2A 02 03 Press 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 Data Procedure

1A 02 00 Press PAUSE button.
24 F100
30 0100

5-36

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

Page Data 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 Display 01 23456789AbcdEF
Decimal notation
conversion value

0123456789ABCDEF

0123456789101112131415

Table 5-2-1

5-37

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.

Hexadecimal nontation-Decimal notation

The lower digits of the 0 1 2 3 4 5 6 7 8 9 A B C D E F
hexadecimal notation
The upper digits of the (A)(b)(c)(d)(E)(F)
hexadecimal notation
0 0123456789101112131415
1 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31
2 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47
3 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63
4 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79
5 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95
6 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111
7 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127
8 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143
9 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159
A (A) 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175

1→

B (b) 176 177 178 179 180 181 182 183 184 185 186 187 188 189 190 191
C (c) 192 193 194 195 196 197 198 199 200 201 202 203 204 205 206 207
D (d) 208 209 210 211 212 213 214 215 216 217 218 219 220 221 222 223
E (E) 224 225 226 227 228 229 230 231 232 233 234 235 236 237 238 239
F (F) 240 241 242 243 244 245 246 247 248 249 250 251 252 253 254 255

2

↓

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

DSC-P51/P51M

2-3. SERVICE MODE

1. Setting the Test Mode

Page D Address 21

Data Function

00 Normal
02 Forced MOVIE mode power ON
03 Forced PLAY mode power ON
04 Forced 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 2 Address 80

Bit Function

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

OFF ON

OFF ON

OFF ON

OUT IN

Display on the adjustilng remote commander

0 : 00 : 00

Page

Display on the Bit values
Adjusting bit3 bit2 bit1 bit0

remote or or or or
commander bit7 bit6 bit5 bit4

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