Sony HDR SR1, HDR SR1E Service Manual

HDR-SR1/SR1E

RMT-835

SERVICE MANUAL

Ver 1.0 2006.09

Revision History

Revision History

How to use

How to use

Acrobat Reader

Acrobat Reader

Photo: HDR-SR1

Link

Link

SPECIFICATIONS

DISASSEMBLY

LEVEL 2

US Model

Canadian Model

AEP Model

UK Model

E Model

Australian Model

Hong Kong Model

Chinese Model

Korea Model

Tourist Model

Japanese Model

SCHEMATIC DIAGRAMS

MODEL INFORMATION TABLE

SERVICE NOTE

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

BLOCK DIAGRAMS

FRAME SCHEMATIC DIAGRAM

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

PRINTED WIRING BOARDS

REPAIR PARTS LIST

HDR-SR1/SR1E_L2

DIGITAL HD VIDEO CAMERA RECORDER

2006I0500-1

Sony EMCS Co.

Published by Kohda TEC9-852-148-31

© 2006.9

These specifications are extracted from
instruction manual of HDR-SR1.

SPECIFICATIONS

ENGLISH JAPANESE

ENGLISH JAPANESE

System

Video compression format

AVCHD (HD)/MPEG2 (SD)/JPEG
(Still images)

Audio compression format

Dolby Digital 2/5.1ch
Dolby Digital 5.1 Creator

Video signal

NTSC color, EIA standards
1080/60i specification

Hard disk

30 GB
When measuring madia capacity, 1 GB
equals 1 billion bytes, a portion of
which is used for data management.

Recording format

Movie (HD): AVCHD 1080/60i
Movie (SD): MPEG2-PS
Still image: Exif

*1

Ver.2.2

Recording/playback time (HD)

AVC HD 15M (XP): Approx. 240 min
AVC HD 9M (HQ): Approx. 420 min
AVC HD 7M (SP): Approx. 510 min
AVC HD 5M (LP): Approx. 660 min

Recording/playback time (SD)

SD 9M (HQ): Approx. 440 min
SD 6M (SP): Approx. 650 min
SD 3M (LP): Approx. 1 250 min

Recordable images/cuts

Movie (HD): 3 999
Movie (SD): 9 999
Still image: 9 999

Viewfinder

Electric viewfinder (color)

Image device

5.9 mm (1/3 type) CMOS sensor
Recording pixels (still image, 4:3):
Max. 4.0 mega (2 304 × 1 728) pixels*
Gross: Approx. 2 100 000 pixels
Effective (movie, 16:9):
1430000 pixels
Effective (movie, 4:3):
1080000 pixels

Effective (still image, 16:9):
1490000 pixels
Effective (still image, 4:3):
1990000 pixels

Lens

Carl Zeiss Vario-Sonnar T
10 × (Optical), 20 ×, 80 × (Digital)

Focal length

f=5.1 ~ 51 mm (7/32 ~ 2 1/8 in.)
When converted to a 35 mm still
camera
For movies *

3

: 41.3 ~ 485 mm (1 11/16
~ 19 1/8 in.) (16:9), 50.5 ~ 594 mm (2 ~
23 1/2 in.) (4:3)
For still images: 37 ~ 370 mm (1 1/2 ~
14 5/8 in.) (4:3), 40.4 ~ 404 mm (1 5/8
~ 16 in.) (16:9)
F1.8 ~ 2.9
Filter diameter: 30 mm (1 3/16 in.)

Color temperature

[AUTO], [ONE PUSH],
[INDOOR] (3 200 K),
[OUTDOOR] (5 800 K)

HDR-SR1/SR1E_L2

Minimum illumination

5 1x (lux) (F 1.8)
0 lx (lux) (during NightShot function)

*1“Exif” is a file format for still images,

established by the JEITA (Japan
Electronics and Inform ation Technology
Industries Association). Files in this
format can have additional information
such as your camcorder’s setting
information at the time of recording.

2

The unique pixel array of Sony’s

*

ClearVid CMOS Sensor and image
processing system (new Enhanced
Imaging Processor) allows for still
image resolution equivalent to twice that
of the image sensor’s effective pixel
count.

3

*

The focal length figures are actual
figures resulting from wide angle pixel
read-out.

Input/Output connectors

Audio/Video output

10-pin connector
Video signal: 1 Vp-p, 75 Ω (ohms),
unbalanced
Luminance signal: 1 Vp-p, 75 Ω
(ohms), unbalanced
Chrominance signal: 0.286 Vp-p, 75 Ω
(ohms), unbalanced
Audio signal: 327 mV (at load
impedance 47 kΩ (kilohms)), Output
impedance with less than 2.2 kΩ
(kilohms)

COMPONENT OUT jack

Y: 1 Vp-p, 75Ω (ohms), unbalanced

B/PR

, CB/CR: +/- 350 mVp-p

P

HDMI OUT jack

2

Type A (19-pin)

Headphone jack

Stereo minijack (Ø 3.5 mm)

USB jack

mini-B

MIC input jack

Stereo minijack (Ø 3.5 mm)

REMOTE jack

Stereo mini-minijack (Ø 2.5 mm)

LCD screen

Image

8.8 cm (3.5 type, aspect ratio 16:9)

Total dot number

211 200 (960 × 220)

General

Power requirements

DC 7.2 V (battery pack)
DC 8.4 V (AC Adaptor)

Average power consumption

During camera recording using the
viewfinder with normal brightness:

4.8 W
During camera recording using the
LCD with normal brightness:

4.9 W

Operating temperature

0 °C to + 40 °C (32 °F to 104 °F)

Storage temperature

Dimensions (approx.)

78 × 84 × 165 mm
(3 1/8 × 3 3/8 × 6 1/2 in.) (w/h/d)
including the projecting parts
78 × 84 × 165 mm
(3 1/8 × 3 3/8 × 6 1/2 in.) (w/h/d)
including the projecting parts, and the
NP-FM50 rechargeable battery pack
attached

Mass (approx.)

640 g (1 lb 6 oz) main unit only
720 g (1 lb 9 oz) including the NP­FM50 rechargeable battery pack

Supplied accessories

AC Adaptor (1)
Mains lead (1)
Component video cable (1)
A/V connecting cable (1)
USB cable (1)
Wireless Remote Commander (1)

Rechargeable battery pack NP-FM50 (1)
CD-ROM “Handycam Application

Software” (1)
Read This First (1)

Operating Guide (1)
See page 5-34.

AC Adaptor AC-L15A

Power requirements

AC 100 - 240 V, 50/60 Hz

Current consumption

0.35 - 0.18 A

Power consumption

18 W

Output voltage

DC 8.4 V*

Operating temperature

0 °C to + 40 °C (32 °F to 104 °F)

Storage temperature

-20 °C to + 60 °C (-4 °F to + 140 °F)

Dimensions (approx.)

56 × 31 × 100 mm (2 1/4 × 1 1/4 × 4 in.)
(w/h/d) excluding the projecting parts

Mass (approx.)

190 g (6.7 oz) excluding the power cord

* See the label on the AC Adaptor for other

specifications.

Rechargeable battery pack (NP-FM50)

Maximum output voltage

DC 8.4 V

Output voltage

DC 7.2 V

Capacity

8.5 Wh (1 180 mAh)

Dimensions (approx.)

38.2 × 20.5 × 55.6 mm
(1 9/16 × 13/16 × 2 1/4 in.) (w/h/d)

Mass (approx.)

76 g (2.7 oz)

Operating temperature

0 °C to + 40 °C (32 °F to 104 °F)

Type

Lithium ion

Design and specifications are subject to change
without notice.

-20 °C to + 60 °C (-4 °F to + 140 °F)

— 2 —

概略仕様

ENGLISH JAPANESE

ENGLISH JAPANESE

システム

映像圧縮方式

音声圧縮方式

映像信号

ハードディス
ク

動画記録方式 動画

静止画記録方
式

録画/再生時
間（

HD

AVCHD (HD)/MPEG2 (SD)/

（静止画）

JPEG
Dolby Digital2/5.1ch

ドルビーデジタル
ター搭載

カラー、

NTSC

方式

1080/60i
30 GB

容量は、

1GBを10

算した場合の数値です。また管理
用ファイルなどを含むため、実際
使用できる容量は若干減少する
場合があります。

HD: AVCHD 1080/60i

動画

SD: MPEG2-PS

Exif Ver.2.2*

AVC HD 15M（XP）: 約240

）

AVC HD 9M（HQ）: 約420

1

クリエー

5.1

標準方式

EIA

億バイトで計

AVC HD 7M（SP）: 約510
AVC HD 5M（LP）: 約660

再生時

録画
間（

/

SD

SD 9M（HQ）: 約440

）

SD 6M（SP）: 約650
SD 3M（LP）: 約1 250

）：

撮影可能枚数

カット数

/

ファインダー 電子ファインダー：カラー

撮像素子

ズームレンズ カール

色温度切り換え［オート］、［ワンプッシュ］、

動画（

HD

動画（
静止画：

5.9mm（1/3

記録画像数：静止画時最大
画素相当
時）
総画素数：約
動画時有効画素数（
ド）：約
動画時有効画素数（
約
静止画時有効画素数（
ド）：約
静止画時有効画素数（
ド）：約

T
10

ル）
フィルター径30mm

F1.8〜2.9
f=5.1
35mm

動画撮影時

41.3〜485 mm（16:9

（

4:3

静止画撮影時：

40.4〜404

（

4:3

［屋内］（
［屋外］（

3 999

）：

SD

9 999

9 999

2

（

*

万画素

143

万画素

108

万画素

149

万画素

199

ツァイス バリオゾナー

倍（光学）、20倍、80倍（デジタ

〜

51 mm

カメラ換算では

*

モードでは

モードでは37〜

3 200 K
5 800 K

分

分

分

個
個

枚

型）

CMOS

センサー

2 304×1 728

万画素

210

16：9

モード）：

4：3

16：9

4：3

3

：

モード）

50.5〜594 mm

ｍｍ（

16:9

）、
）

モード）

370 mm

400

モー

モー

分

分
分
分

）（

モー

最低被写体照
度

1

*

（社）電子情報技術産業協会（

された、撮影情報などの付帯情報を追加する
ことができる静止画用のファイルフォーマッ
ト。

2

*

ソニー独自のクリアビッド
画素配列と画像処理システム新エンハンスド
イメージングプロセッサーにより、有効画素
に対して
います。

3

*

広角画素読み出しによる実動作値

出力端子

入

/

A/V OUT

端子

COMPO­NENT OUT

端子

HDMI OUT

端子

ヘッドホン端子ステレオミニジャック

端子

USB

入力端子 ステレオミニジャック

MIC

万

4:3

REMOTE

（ルクス）（

11 lx

（ルクス）（

0 lx

倍の静止画記録サイズを実現して

2

ピン特殊コネクター

10

映像：

1 Vp-p、75

出力 

Y

出力 

C

衡
音声：

327 mV（47 k

力インピーダンス

映像：コンポーネントビデ

D1/D3

オ端子

Y：1 Vp-p、75

タイプ

A（19

（

ø 3.5 mm

mini-B

（

ø 3.5 mm

端子ステレオミニミニジャック

（

ø 2.5 mm

液晶画面

画面サイズ

総ドット数

8.8 cm（3.5

）

16:9

211 200

×縦

横

960

電源部、その他

電源電圧 バッテリー端子入力

消費電力 ファインダー使用時、明るさ標

動作温度

）

保存温度 −

外形寸法

）

端子入力

DC

準：

4.8 W

液晶画面使用時、明るさ標準：

4.9 W

℃〜

0

+40

℃〜

20

78×84×165 mm

（突起部を含む）
（幅×高さ×奥行き）

78×84×165 mm

（突起部を含む、付属バッテリー

NP-FM50

（幅×高さ×奥行き）

）

F1.8

NightShot

）にて制定

JEITA

センサーの

CMOS

Ω不平衡

1 Vp-p、75

0.286 Vp-p、75

Ω不平衡

Ω負荷時）、出

2.2 k

Ω不平衡

ピン）

）

）

）

型、アスペクト比

ドット

220

7.2 V

8.4 V

℃

℃

+60

装着状態）

時）

Ω不平

Ω以下

本体質量 約

撮影時総質量 約

付属品

（本体のみ）

640 g

（バッテリー

720 g

含む。）

アダプター（1）

AC

電源コード（

D

端子コンポーネント

ビデオケーブル（

AV

接続ケーブル（1）

USB

ケーブル（1）
ワイヤレスリモコン（
リチャージャブルバッテリー

NP-FM50（1

パック

1

）

1

NP-FM50

）

1

）  

）

CD-ROM「Handycam

）

℃

」（1）

1

）

（最大突起

Application Software

はじめにお読みください（
取扱説明書（
保証書（

アダプター 

AC

電源

消費電力

定格出力

動作温度

保存温度 −

外形寸法 約

質量 約

その他の仕様についてはACアダプターのラ

*

ベルをご覧ください。

AC 100〜240 V、50/60 Hz
18 W

DC 8.4 V *

℃〜

0

20

56×31×100 mm

部をのぞく）（幅×高さ×奥行き）

190 g

1

1

）

AC-L15A

℃

+40

℃〜

+60

（本体のみ）

リチャージャブルバッテリーパック

NP-FM50

最大電圧

公称電圧

容量

最大外形寸法 約

質量 約

使用温度

使用電池

本機の仕様および外観は、改良のため予告なく変
更することがありますが、ご了承ください。

ドルビーラボラトリーズからの実施権に基づ

•

き製造されています。

DC 8.4 V

DC 7.2 V

8.5 Wh（1 180 mAh

38.2×20.5×55.6 mm

（幅×高さ×奥行き）

76 g

℃〜

+40

℃

0
Li-ion

）

HDR-SR1/SR1E_L2

— 3 —

Model information table

Model HDR-SR1 HDR-SR1E

Destination US, CND, E, KR, JE, J AEP, UK, E, AUS, HK, CH, JE

Color system NTSC PAL

•Abbreviation
AR : Argentine model
AUS: Australian model
BR : Brazilian model
CH : Chinese model
CND : Canadian model
EE : East European model
HK : Hong Kong model
J: Japanese model
JE : Tourist model
KR : Korea model
MX : Mexican model
NE : North European model

HDR-SR1/SR1E_L2

— 4 —

ENGLISH JAPANESE

ENGLISH JAPANESE

Danger of explosion if battery is incorrectly replaced.

CAUTION

Replace only with the same or equivalent type.

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 PAR UNE MARQUE 0 SUR LES
DIAGRAMMES SCHÉMATIQUES 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 flow) 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.

HDR-SR1/SR1E_L2

— 5 —

ENGLISH JAPANESE

ENGLISH JAPANESE

電池の交換は，正しく行わないと破裂する恐れがあり

注意

ます。電池を交換する場合には必ず同じ型名の電池
又は同等品と交換してください。

サービス，点検時には次のことにご注意下さい。

1. 注意事項をお守りください。

サービスのとき特に注意を要する個所については，
キャビネット，シャーシ，部品などにラベルや捺印で
注意事項を表示しています。これらの注意書き及び取
扱説明書等の注意事項を必ずお守り下さい。

2. 指定部品のご使用を

セットの部品は難燃性や耐電圧など安全上の特性を
持ったものとなっています。従って交換部品は，使用
されていたものと同じ特性の部品を使用して下さい。
特に回路図，部品表に0印で指定されている安全上重要
な部品は必ず指定のものをご使用下さい。

3. 部品の取付けや配線の引きまわしはもとどおりに

安全上，チューブやテープなどの絶縁材料を使用した
り，プリント基板から浮かして取付けた部品がありま
す。また内部配線は引きまわしやクランパによって発
熱部品や高圧部品に接近しないよう配慮されています
ので，これらは必ずもとどおりにして下さい。

4. サービス後は安全点検を

サービスのために取外したネジ，部品，配線がもとど
おりになっているか，またサービスした個所の周辺を
劣化させてしまったところがないかなどを点検し，安
全性が確保されていることを確認して下さい。

5. チップ部品交換時の注意

• 取外した部品は再使用しないで下さい。

• タンタルコンデンサのマイナス側は熱に弱いため交

換時は注意して下さい。

6. フレキシブルプリント基板の取扱いについて

• コテ先温度を270℃前後にして行なって下さい。

• 同一パターンに何度もコテ先を当てないで下さい。

（３回以内）

• パターンに力が加わらないよう注意して下さい。

7. 無鉛半田について

無鉛半田を使用している基板には，無鉛（LeadFree）を
意味するレッドフリーマークがプリントされています。
（注意：基板サイズによっては，無鉛半田を使用して

いてもレッドフリーマークがプリントされて
いないものがあります）

：レッドフリーマーク

無鉛半田には，以下の特性があります。

• 融点が従来の半田よりも約40℃高い。
従来の半田こてをそのまま使用することは可能です
が，少し長めにこてを当てる必要があります。
温度調節機能のついた半田こてを使用する場合，約
350℃に設定して下さい。
注意： 半田こてを長く当てすぎると，基板のパター

ン（銅箔）がはがれてしまうことがあります
ので，注意して下さい。

• 粘性が強い
従来の半田よりも粘性が強いため，IC端子などが半田
ブリッジしないように注意して下さい。

• 従来の半田と混ぜて使用可能
無鉛半田には無鉛半田を追加するのが最適ですが，
従来の半田を追加しても構いません。

HDR-SR1/SR1E_L2

— 6 —

TABLE OF CONTENTS

Section Title Page

1. SERVICE NOTE

1-1. Power Supply During Repairs ·········································1-1
1-2. Using Service Jig ·····························································1-1
1-3. Self-diagnosis Function ···················································1-2

2. DISASSEMBLY

2-1. Disassembly····································································· 2-2

3. BLOCK DIAGRAMS

3-1. Overall Block Diagram (1/5) ··········································· 3-1
3-2. Overall Block Diagram (2/5) ··········································· 3-2
3-3. Overall Block Diagram (3/5) ··········································· 3-3
3-4. Overall Block Diagram (4/5) ··········································· 3-4
3-5. Overall Block Diagram (5/5) ··········································· 3-5
3-6. Power Block Diagram (1/4)·············································3-6
3-7. Power Block Diagram (2/4)·············································3-7
3-8. Power Block Diagram (3/4)·············································3-8
3-9. Power Block Diagram (4/4)·············································3-9

4. PRINTED WIRING BOARDS AND
SCHEMATIC DIAGRAMS

4-1. Frame Schematic Diagrams············································· 4-1
4-2. Schematic Diagrams ························································ 4-3
4-3. Printed Wiring Boards ··················································· 4-41
4-4. Mounted Parts Location ················································ 4-61

5. REPAIR PARTS LIST

5-1. Exploded Views ······························································· 5-2
5-2. Electrical Parts List ·······················································5-14

HDR-SR1/SR1E_L2

— 7 —

ENGLISH JAPANESE

)

1. SERVICE NOTE

ENGLISH JAPANESE

1-1. POWER SUPPLY DURING REPAIRS

In this unit, about 10 seconds after power is supplied to the battery terminal using the regulated power supply (8.4 V), the power is shut off so
that the unit cannot operate.
These following method is available to prevent this.

Method:

Use the AC power adaptor (AC-L15A).

1-2. USING SERVICE JIG

1. Connect the extension cable (J-6082-352-A) between CN4006 on the MD-133 board and CN1005 on the VC-456 board.

2. Connect the extension cable (10P, 0.5 mm) (Note) between CN4015 on the MD-133 board and CN1012 on the VC-456 board.

Note: Cut off the extension cable (18P) (J-6082-393-1) to make the extension cable of 10 pins.

MD-133 board (side A)

CN4015

CN4006

Extension cable (10P)

(Note)

Extension cable (100P

(J-6082-352-A)

CN1005

CN1012

VC-456 board (side B)

HDR-SR1/SR1E_L2

1-1

1-3. SELF-DIAGNOSIS FUNCTION

ENGLISH JAPANESE

ENGLISH JAPANESE

1-3-1. Self-diagnosis Function

When problems occur while the unit is operating, the self-diagnosis
function starts working, and displays on the viewfinder or LCD
screen what to do.
Details of the self-diagnosis functions are provided in the Instruction
manual.

Viewfinder or LCD screen

C : 3 1 : 1 1

Blinks at 3.2 Hz

1 1

Refer to “1-3-3. Self-diagnosis Code Table”.

Repaired by:

C : Corrected by customer
H : Corrected by dealer
E : Corrected by service

engineer

3 1C

Block

Indicates the appropriate
step to be taken.
E.g.

31 ....Reload the tape.

32 ....Turn on power again.

1-3-2. Self-diagnosis Display

When problems occur while the unit is operating, the counter of the
viewfinder or LCD screen shows a 4-digit display consisting of an
alphabet and numbers, which blinks at 3.2 Hz. This 5-character
display indicates the “repaired by:”, “block” in which the problem
occurred, and “detailed code” of the problem.

Detailed Code

HDR-SR1/SR1E_L2

1-2

1-3-3. Self-diagnosis Code Table

Self-diagnosis Code

ENGLISH JAPANESE

ENGLISH JAPANESE

Function

Repaired by:

C

C

C

C

E
E

E

E

E

E

E

E

Block

04

13

13

32

20
31

61

61

62

62

91

94

Detailed

Code

00

01

02

60

00
00

10

11

00

01

01

00

Symptom/State

Non-standard battery is used.
“Memory Stick Duo” is unformatted.

“Memory Stick Duo” is broken.

Disk access error

Difficult to adjust focus
(Cannot initialize focus)

EEPROM data are rewritten.
Drive fault

Zoom operations fault
(Cannot initialize zoom lens.)

The abnormalities in initialization of
the focus lens and the abnormalities in
initialization of the zoom lens occurred
simultaneously.

Handshake correction function does not
work well. (With PITCH angular
velocity sensor output stopped.)

Handshake correction function does not
work well. (With YAW angular velocity
sensor output stopped.)

Abnormality when flash is being charged.
Fault of writing to or erasing the

flashmemory

Correction

Use the InfoLITHIUM battery.
Format the “Memory Stick Duo”.

Insert a new “Memory Stick Duo”.
Remove the power source. Reconnect it again and operate your

camcorder again.
Retry turn the power on by the power switch. If it does not

recover, check the focus MR sensor of lens block (pin ql, wa of
CN5201 on the LD-226 board). If it is OK, check the focus
motor drive IC (IC5204 on the LD-226 board).

Make EEPROM data correct value.
Inspect or replacement of the hard disk drive.
Inspect the lens block zoom MR sensor (pin qh, qk of CN5201

on the LD-226 board) when zooming is performed when the
zoom lever is operated, and the zoom motor drive circuit
(IC5204 on the LD-226 board) when zooming is not performed.

Check both C: 32: 60 and E: 61: 10 of the self-diagnosis code.

Inspect PITCH angular velocity sensors (SE6801 on the CM-074
board) peripheral circuits.

Inspect YAW angular velocity sensors (SE6802 on the CM-074
board) peripheral circuits.

Checking of flash unit or replacement of flash unit.

Inspect the flash memory (IC1601 on the VC-456 board).

HDR-SR1/SR1E_L2

1-3

ENGLISH JAPANESE

1. SERVICE NOTE

ENGLISH JAPANESE

1-1. 修理時の電源供給について

本機では，安定化電源（8.4Vdc）からバッテリ端子に電源を供給した場合，約10秒後にシャットオフし，動作しなくなります。
これを避けるため，下記の方法を用いてください。

方法：

DC入力端子を使用する。（ACアダプタ（AC-L15A）を使用する。）

1-2. 使用サービス治具

1.延長ケーブル（J-6082-352-A）をMD-133基板CN4006とVC-456基板CN1005の間に接続します。

2.延長ケーブル（10P，0.5mm）（注）をMD-133基板CN4015とVC-456基板CN1012の間に接続します。
注： 延長ケーブル（18P）（J-6082-393-1）を切り落として10ピンの延長ケーブルを作成してください。

MD-133基板(A面側)

CN4015

CN4006

延長ケーブル(10P)

(注)

延長ケーブル(100P)

(J-6082-352-A)

CN1005

CN1012

VC-456基板(B面側)

HDR-SR1/SR1E_L2

1-4

1-3. 自己診断機能

1-3-1.自己診断機能について

本機の動作に不具合が生じたとき，自己診断機能が働き，
ビューファインダまたはLCD 画面に，どう処置したらよい
か判断できる表示を行います。自己診断機能については取扱
説明書にも掲載されています。

ビューファインダまたはLCD画面

C : 3 1 : 1 1

3.2Hz点滅

ENGLISH JAPANESE

ENGLISH JAPANESE

1-3-2.自己診断表示

本機の動作に不具合が生じたとき，ビューファインダまたは
LCD画面のカウンタ表示部分がアルファベットと数字の4桁
表示になり，3.2Hzで点滅します。この5文字の表示によっ
て対応者分類および不具合の生じたブロックの分類，不具合
の詳細コードを示します。

対応者分類

C ：お客さま自身で対応
H ：販売店で対応
E ：サービスエンジニア

で対応

3 1C

ブロック分類

対応方法の違いにより分類
例 31･･･テープを入れ直す
32･･･電源を入れ直す

1 1

詳細コード

「1-3-3.自己診断コード表」

を参照

HDR-SR1/SR1E_L2

1-5

1-3-3.自己診断コード表

自己診断コード

対
応
者

C

C

C

C

E

E

E

E

E

E

E

E

ブロック

機能

04

13

13

32

20

31

61

61

62

62

91

94

詳細

コード

00

01

02

60

00

00

10

11

00

01

01

00

症状／状態

標準以外のバッテリを使用している
フォーマットしていない“メモリー

ステックデュオ”を入れた
“メモリーステックデュオ”が壊
れている

ディスクアクセスエラー
フォーカスが合いにくい

（フォーカスの初期化ができない）

EEPROMが書き換えられている
ドライブ不良
ズーム動作の異常（ズームレンズの

初期化ができない）

フォーカス，ズーム異常

手振れ補正が効きにくい（PITCH
角速度センサ出力張り付き）

手振れ補正が効きにくい（YAW角
速度センサ出力張り付き）

フラッシュの充電異常
フラッシュメモリの書込み/消去動

作不良

ENGLISH JAPANESE

ENGLISH JAPANESE

対応／方法

インフォリチウムバッテリを使用する。
“メモリーステックデュオ”をフォーマットする。

新しい“メモリーステックデュオ”に交換する。

電源を外し，再度入れ直してから操作する。
操作スイッチの電源を入れ直す。

復帰しない場合，レンズブロックのフォーカスMRセンサ
（LD-226基板CN5201ql，waピン）を点検する。異常な
ければフォーカスモータ駆動回路（LD-226基板IC5204）
を点検する。

EEPROMのデータを元の値に戻す
ハードディスクドライブを点検または交換する。
ズームレバーを操作したときにズーム動作をすれば，レン

ズブロックのズームMRセンサ（LD-226基板CN5201
qh，qkピン）を点検する。ズーム動作をしなければズーム
モータ駆動回路（LD-226基板IC5204）を点検する。

自己診断コードC：32：60とE：61：10の両方を点検す
る。

PITCH角速度センサ（CM-074基板SE6801）周辺回路を
点検する。

YAW角速度センサ（CM-074基板SE6802）周辺回路を点
検する。

フラッシュユニットの点検または交換をする。

フラッシュメモリ（VC-456基板IC1601）を点検する。

HDR-SR1/SR1E_L2

1-6E

NOTE FOR REPAIR

2. DISASSEMBLY

• 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.

• When remove a connector, don’t pull at wire of connector. It is possible that a wire is snapped.

• When installing a connector, don’t press down at wire of connector.
It is possible that a wire is snapped.

Cut and remove the part of gilt
which comes off at the point.
(Be careful or some
pieces of gilt may be left inside)

DISCHARGING OF THE FP-477 FLEXIBLE BOARD’S CHARGING CAPACITOR
(C001)

The charging capacitor (C001) of the FP-477 flexible board is
charged up to the maximum 330 V potential.
There is a danger of electric shock by this high voltage when the
capacitor 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

Note: High-voltage cautions

Discharging the Capacitor

Short-circuit between the two points
with the short jig about 10 seconds.

FP-477 Flexible
Board

Wrap insulating tape.

R:1 kΩ/1 W
(Part code: 1-215-869-11)

NOTE FOR DISCONNECTING THE HARNESS (COAXIAL CABLE)

When disconnecting the harness (coaxial cable), do not pull the
harness part but pull off the connector body with tweezers etc.

Harness (coaxial cable)

Tw eezers etc.

C001

HDR-SR1/SR1E_L2

2-1

HELP

EXPLODED VIEW

HELP

2-1. DISASSEMBLY

2-1-1. OVERALL SECTION-1

Follow the disassembly in the numerical order given.

1 HDD (1-1 to 1-8)
2 FP-431 Flexible Board (2-1 to 2-2)

1-6

1-5

1-1

(Unfasten the belt. )

1-4

1-7

1 HDD

1-8

2-1

2 FP-431

Flexible Board

HARDWARE LIST

2-2

1-2

(#2)

1-3

HDR-SR1/SR1E_L2

2-2

2-1-2. OVERALL SECTION-2

EXPLODED VIEW

Follow the disassembly in the numerical order given.

1 Cabinet (R) Section (1-1 to 1-14)
2 BT Block Section (2-1 to 2-14)
3 EVF Block (3-1 to 3-3)

3-2 (Lift the EVF Block)

3 EVF Block

3-3 (#14)

HARDWARE LIST

Note: High-voltage cautions

Discharging the Capacitor

Short-circuit between the two points
with the short jig about 10 seconds.

FP-477 Flexible
Board

3-1

2-10

2-14

2-2

2-3

2-13 (#12)

2-6

2-9

(Claw)

R:1 kΩ/1 W

C001

(Part code: 1-215-869-11)

2-11 (#2)

2 BT Block

Section

2-12 (#14)

2-8 (#14)

2-7

2-5

(#25)

2-4

1-4

HDR-SR1/SR1E_L2

2-1

1-14

1-12 (#2)

1-3 (Turn of the LCD Panel)

1-13

1-10 (#2)

1-2 (#2)

1-11 (#12)

1-1 (Open the LCD Panel)
1-9 (Close the LCD Panel)

2-3

1-5 (#1)

1-6 (#2)

1-7

(Open the Jack Cover)

1-8 (#2)

1 Cabinet (R)

Section

2-1-3. OVERALL SECTION-3

EXPLODED VIEW

Follow the disassembly in the numerical order given.

1 IR Block (1-1 to 1-2)
2 Front Cabinet Section (2-1 to 2-8)
3 Cabinet (T) Block (3-1 to 3-4)

HARDWARE LIST

2 Front Cabinet

Section

2-6
(Open the Shoe Cover)

3 Cabinet (T)

Block

3-3 (#2)

3-2 (#2)

2-3

2-7 (#2)

3-4

(Slide the Cabinet (T)
Block)

3-1
(#2)

2-1

Refer to page 2-1 “Note
for disconnecting the
harness (coaxial cable)”.

2-2

1-1

2-8

1 IR Block

1-2 (#14)

2-4 (#12)

2-5 (#14)

HDR-SR1/SR1E_L2

2-4

2-1-4. LENS BLOCK

EXPLODED VIEW

Follow the disassembly in the numerical order given.

1 MIC Jack Block (1-1 to 1-4)
2 Lens Cabinet Block (2-1 to 2-5)
3 Stroboscope Block (3-1 to 3-3)

1 MIC Jack Block

1-3 (Open the MIC Jack Cover)

3 Stroboscope

Block

HARDWARE LIST

2-2 (#8)

3-1 (#8)

3-2 (#8)

1-4 (#12)

3-3 (Claw)

1-2

2-3 (Claw)

HELP

2-1

2-5 (#12)

2-4

1-1

HELP

2 Lens Cabinet

Block

HDR-SR1/SR1E_L2

2-5

2-1-5. CABINET (R) SECTION

EXPLODED VIEW

Follow the disassembly in the numerical order given.

1 LCD Panel Block (1-1 to 1-3)
2 CK-164 Board (2-1 to 2-8)
3 Loud Speaker (3-1 to 3-6)

2 CK-164 Board

2-8 (#12)

2-7

1-1

HELP

2-4

HELP

3-3

HARDWARE LIST

3-4 (#8)

3-5

3 Loud Speaker

3-6

2-6

1-2

2-2 (#12)

2-3

3-2

(Claw)

3-1 (#12)

2-5

(Claw)

2-1 (#2)

1 LCD Panel

Block

1-3 (#12)

HDR-SR1/SR1E_L2

2-6

2-1-6. LCD PANEL BLOCK

EXPLODED VIEW

Follow the disassembly in the numerical order given.

1 Hinge Block (1-1 to 1-11)
2 PD-291 Board (2-1 to 2-6)
3 LCD (3-1 to 3-5)

1-1 (#2)

HARDWARE LIST

1-2 (Claw)

1 Hinge Block

1-9

3-1 (#12)

1-5

HELP

1-8 (Claw)

1-11

1-10 (#2)

1-7 (Claw)

1-4

1-3 (Claw)

3-5

3 LCD

1-6

HDR-SR1/SR1E_L2

PD-291

2-5 (#12)

2-1

2-3

2-2

3-2 (#12)

2-6 (Claw)

2 PD-291 Board

2-4

3-4

3-3

2-7

EXPLODED VIEW

2-1-7. CABINET (L) SECTION-1

Follow the disassembly in the numerical order given.

1 FP-473 Flexible Board (1-1 to 1-5)
2 VC-456 Board (2-1 to 2-4)
3 MD-133 Board (3-1 to 3-5)

3-5 (Claw)

HARDWARE LIST

3-3

MD-133

1-1 (#2)

3-1 (#14)

2 VC-456 Board

3-2

2-4

2-2

VC-456

2-3 (#43)

3-4 (#43)

2-1

3 MD-133

Board

1-2

1-4 (#3)

1 FP-473

Flexible

1-5

Board

1-3

HDR-SR1/SR1E_L2

2-8

2-1-8. CABINET (L) SECTION-2

EXPLODED VIEW

1 FP-523 

Flexible Board

1-3

1-4 (#14)

1-1 (#12)

1-6

1-7 (#12)

1-9

1-8

1-10

(#3)

1-11

2 Switch Block

Assy

2-3 (Boss)

2-4 (Boss)

2-5

2-7

2-1 (#12)

2-2

(#14)

2-6 (Boss)

1-2 (#12)

1-5

(#12)

Follow the disassembly in the numerical order given.

1 FP-523 Flexible Board (1-1 to 1-11)
2 Switch Block Assy (2-1 to 2-7)

HARDWARE LIST

HDR-SR1/SR1E_L2

2-9E

HELP

Sheet attachment positions and procedures of processing the flexible boards/harnesses are shown.

CK-164 Board

Loud Speaker

Hook

FP-470 Flexible Board

Position of the Cabinet (R) Flexible Tape

Claw

Claw

FP-469 Flexible Board

Harness arrangement

HDR-SR1/SR1E_L2

FP-463 Flexible Board

Hinge Ground Frame (Lower)

HELP

1 Fold dotted line parts of the FP-463 flexible board

as shown in figure.

Valley
fold

Mountain
fold

Hinge assy

2 Pass FP-463 and FP-478 flexible boards

through the FPC clamp.

3 Install the FPC clamp in the hinge assy.

FPC clamp

FPC clamp

FP-463

FP-478

Stick it together in the adhesive tape
while bending the FP-463 flexible board.

Mountain
fold

Valley
fold

Adhesive tape

Adhesive tape

Adhesive tape

Adhesive tape

THE METHOD OF ATTACHMENT OF FP-463 FLEXIBLE BOARD

HDR-SR1/SR1E_L2

HELP

4 Roll the FP-463 flexible board 1.5 times,

in the direction of arrow

A.

A

1.5 times

5 Put the FP-463 flexible board on

the hinge assy by the adhesive sheet
according to the position of the boss.

Boss

Adhesive sheet

HDR-SR1/SR1E_L2

HELP

Link

Link

3. BLOCK DIAGRAMS

OVERALL BLOCK DIAGRAM (1/5)

OVERALL BLOCK DIAGRAM (2/5)

OVERALL BLOCK DIAGRAM (3/5)

OVERALL BLOCK DIAGRAM (4/5)

OVERALL BLOCK DIAGRAM (5/5)

POWER BLOCK DIAGRAM (1/4)

POWER BLOCK DIAGRAM (2/4)

POWER BLOCK DIAGRAM (3/4)

POWER BLOCK DIAGRAM (4/4)

HDR-SR1/SR1E_L2

3. BLOCK DIAGRAMS

3-1. OVERALL BLOCK DIAGRAM (1/5)

LENS BLOCK

IRIS

(SHUTTER)

IRIS

METER

M

H

ND FILTER

METER

M

H

FOCUS MOTOR

M

FOCUS MR

SENSOR

ZOOM MOTOR

M

ZOOM MR

SENSOR

NF MOTOR

M

LENS TEMP

SENSOR

MOTOR UNIT
(LENS BARRIER)

M9002

LENS COVER

MOTOR

05

HDR-SR1/SR1E_L2

M

IC001

LENS COVER
OPEN/CLOSE

SENSOR

I_DRIVE±

I_BIAS±

I_HALL±

ND_DRIVE±

ND_BIAS±

ND_HALL±

FOCUS±

F_MR_A,

F_MR_B

ZOOM_A,
ZOOM_B,

ZOOM_XA,

ZOOM_XB

Z_MR_A,

Z_MR_B

NF_DRIVE±

TEMP_OUT

2
3

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

CM-074 BOARD VC-456 BOARD (1/5)

CN6501 CN1201

25 – 2821 – 2417 – 201 – 3 4, 5

30

11

AMP

6

3, 1

6, 3, 1

20

16

17

CN5105

K12
L12

J11, K11, H12

J12
H11

C9
A4

A10
D10

K9, L9, M9, J9

L8, M8

C6, B6

(1/3)

AHS_TGVD,

AHS_TGHD

AHS_SO,

AHS_SCK,

AHS_XCS0

PITCH_AD

7

YAW_AD

8

VST_C_RESET

9

FP-464 FLEXIBLE
BOARD (1/3)

13
25

28 – 2624 – 2232, 31

29
30

34

33

35

18, 17

15
16

25 – 2821 – 2417 – 201 – 3 4, 5

30

11

7

8

9

CN1009
(1/3)

PNDCK

33

EXT_CAM_VD

21

18 – 2022 – 2414, 1528, 29

XCS_IC_5204

17

XIC_5204_RST

16

IRIS_HALL_AD

12

ND_HALL_AD

13

EN1, DIRA1, DIRB1

NF_EN, NF_SW

LENS_TEMP_AD

11

LENS_COVER_DIR_PWM, LENS_COVER_DRV_ONCOVER_DRIVE±

LENS_COVER_CLOSECOVER_CLOSE

31

LENS_COVER_OPENCOVER_OPEN

30

DRVOUT1_RB1, DCOUT1_RB1,
DRVOUT4_GG1, DCOUT4_GG1

DRVOUT2_RB2, DCOUT2_RB2,
DRVOUT5_GG2, DCOUT5_GG2

DRVOUT3_RB3, DCOUT3_RB3,
DRVOUT6_GG3, DCOUT6_GG3

PITCH_AD

YAW_AD

VST_C_RESET

CAM_SO, CAM_SI, CAM_SCK

IC6001

CMOS

IMAGER

SE6801

PITCH

SENSOR

SE6802

YAW

SENSOR

LD-226 BOARD (1/3)

CN5201

7, 1

2, 43, 514, 8

IC5201

FOCUS MOTOR

29, 28

21, 19

24 – 27

18, 16

30 – 33

23

CN5101

8, 1 11, 912, 10

3
4

NOISE FILTER

IC5202

ZOOM MOTOR

NOISE FILTER

(1/2)

(1/2)

7, 8, 42, 41

9, 10, 40, 39

11, 12, 38, 37

23

27

17, 16

19, 18, 15

IC5203

DRVOUT1_RB1, DCOUT1_RB1,
DRVOUT4_GG1, DCOUT4_GG1

DRVOUT2_RB2, DCOUT2_RB2,
DRVOUT5_GG2, DCOUT5_GG2

DRVOUT3_RB3, DCOUT3_RB3,
DRVOUT6_GG3, DCOUT6_GG3

CHCK

XSYS_RST_BO

AHS_TGVD_BO,

AHS_TGHD_BO

AHS_SO_BO,

AHS_SCK_BO,

AHS_XCS0_BO

10

IC5204

H1, J1

C6, A5C5, B6K2, L2

DRIVE

ND FILTER

DRIVE

A11, A9C10, B11E12, E10

21 F3

21

FOCUS MOTOR

DRIVE

B1, C4

F1, K6L6, L7

ZOOM MOTOR

DRIVE

NF MOTOR

DRIVE

IC5301

LENS COVER

F3, F2

MOTOR DRIVE

2

5, 7

2, 5, 7

6

PITCH/YAW

(1/2)

IRIS

(2/2)

IC6541

BUFFER

IC6540

BUFFER

IC6801

SENSOR

CHCK

XSYS_RST

PITCH_AD
YAW_AD
VST_C_RESET

AHS_SO, AHS_SCK, AHS_XCS0

XSYS_RST

CAM_VD_HS

3-1

J10, J9, K10, K9

E10, E9, F10, F9A10, A9, B10, B9

K5

IC1201

CDS,

D6

A/D CONVERTER

(1/17)

D7

IC1301
CLOCK

GENERATOR

(2/17)

D7
A7

Y11, AB11, AB10

C22
B14

P22
P23
T2

P20

IC1401

CAMERA CONTROL

(3/17)

N22, N20

R22

AB18, AC18

D5
B5

H3, H4

J2 – J4, K2 – K4,

F3 – F5, G3 – G5,

G1, G2, H1, H2

D2, E1, E2, F1, F2,

B1, B2, C1, C2, D1,

E4, E5

A3 – A5, B3 – B5,

C3 – C5, D3 – D5,

H5

F6, G6

ADC_SO, ADC_SCK, ADC_XCS0

F7, E6, E7

X1301

80.9191MHz: NTSC

62.3700MHz: PAL

15

J1
K1

M4, N1, N2, N4, P1,

P2, V2, V4, W1, W2,

F2
F4

B8

AC6

C1

D1

F1

XCS_IC_1302_BUS
IC_1302_BUS_CLK

D24A00_CAM – D31A07_CAM,

W4, Y1, Y2, AA2

DXXA08_CAM – DXXA13_CAM

K20, K22

AB7, Y7, AB6

X1401
20MHz

EEP_SI, EEP_SO, EEP_SCK

AB14, AC14, AB13

AD0_0 – AD0_13

AD1_0 – AD1_13

AD2_0 – AD2_13

CLPOB

ADC_TGVD, ADC_TGHD

AHS_TGVD, AHS_TGHD

A_2.8V

CHCK

PNDCK

EN1, DIRA1, DIRB1

EXT_CAM_VD

CAM_VD_HS

XSYS_RST

TG_FLD

XCS_EEP

1

128K EEPROM

2, 5, 6

K21

U1
AC11

AC7
AA6

T4

AB4

L21D13
AA3
AC5

IC1402

(3/17)

AC14 – AC17

AB12 – AB16,

Y13, AA13 – AA16,

AC18 – AC21

AB17 – AB21,

Y17, AA17 – AA20,

Y21 – Y23,

W21 – W23,

AA21 – AA23

U22, U23, V21 – V23,

M22, K23

G23, J22, H21

IC1302

L22, J23

CAMERA

SIGNAL

PROCESSOR

H23, K22, J21G22, E23, F21

(2/17)

Y8, Y10, Y12,

AC8, AC9, AC13

AA7 – AA9, AA11,

AA12, AB8 – AB10,

E2, E1,

C3 – C1

D3 – D1,

H1,

F3 – F1

G4 – G1,

H2 – H4

R1

A3

STL_XCS0

A10

A11 – A15, B12,

C15, D12, D13, D15

B13, B15, C12, C13,

A16 – A21,

C18, C20, D17

B17 – B22, C17,

F23
H22

VIN_Y0 – VIN_Y7

VIN_C0 – VIN_C7

VIN_HD, VIN_VD, VIN_FLD

EXT_CAM_CLK

EXT_CAM_VD

IC1501

128M SDRAM

(4/17)

G7, G8

1

2

3

A8, B9, B8, C9,
C8, D9, D8, E9,
E1, D2, D1, C2,

C1, B2, B1, A2

OVERALL (5/5)

(PAGE 3-5)

OVERALL (5/5)

(PAGE 3-5)

OVERALL (5/5)

(PAGE 3-5)

XCS_IC_1401

HI_SO, HI_SI, XHI_SCK

H7, H8, J8, J7,
J3, J2, H3, H2,

H1, G3, H9, G2,

F2

G9

STL_CLK

STL_ADDR0 – STL_ADDR11, STL_BS0, STL_BS1

STL_DATA/CCD_IN0 – STL_DATA/CCD_IN13,

STL_DATA14, STL_DATA15

STROBE_ON

EXT_STROBE_ON

MF_A, MF_B

XSYS_RST

SYS_V

C15, D15

B15, B16, B17,

D16, C16, A15,

D17, C17

A19, C18, C19,

B19, D19, D18,

C20, D20, A17

A20
B20

IC1601

(1/5)

CPU

BASE BAND

SIGNAL

PROCESSOR

(5/17)
(6/17)

A8
C7

G10 – G14,

J11, J15, K10

H10 – H14, J10,

C11 – C14, D11 – D14

A11 – A14, B11 – B14,

SYS_V

D25

G17

K17, H17, J17

A : VIDEO SIGNAL