Text preview for : SONY HVR-V1J, V1U, V1N, V1E, V1P, V1C SERVICE MANUAL VER 1.5 2009.03 REV-1 (9-852-158-16).pdf part of SONY HVR-V1U SONY HVR-V1J, V1U, V1N, V1E, V1P, V1C
DIGITAL HD VIDEO CAMERA RECORDER.
SERVICE MANUAL VERSION 1.5 2009.03
PART#(9-852-158-16)
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HVR-V1J/V1U/V1N/V1E/V1P/V1C
RMT-831
SERVICE MANUAL
US Model
Ver. 1.5 2009.03 Canadian Model
Revision History AEP Model
E Model
How to use
Chinese Model
Acrobat Reader Japanese Model
Revised-1
Replacement of the previously issued
SERVICE MANUAL 9-852-158-12
with this manual.
N MECHANISM (MDX-N111)
Link
SPECIFICATIONS BLOCK DIAGRAMS REPAIR PARTS LIST
MODEL INFORMATION TABLE FRAME SCHEMATIC DIAGRAMS ADJUSTMENTS
SERVICE NOTE SCHEMATIC DIAGRAMS INSTRUCTION MANUAL
DISASSEMBLY PRINTED WIRING BOARDS
The components identified by Les composants identifiés par une
mark 0 or dotted line with marque 0 sont critiques pour la
mark 0 are critical for safety. sécurité.
Replace only with part num- Ne les remplacer que par une pièce
ber specified. portant le numéro spécifié.
DIGITAL HD VIDEO CAMERA RECORDER
2009C0500-1
HVR-V1J/V1U/V1N/V1E/V1P/V1C © 2009.3
9-852-158-13 Sony EMCS Co. Published by Kohda TEC
These specifications are extracted
from instruction manual of HVR-V1U/V1N.
ENGLISH JAPANESE
SPECIFICATIONS
System Minimum illumination Dimensions (approx.)
Video recording system (HDV) 4 lx (lux) (F 1.6) 145 × 184 × 431 mm
2 rotary heads, Helical scanning system *1 "Exif" is a file format for still images, (5 3/4 × 7 1/4 × 17 in.) (w/h/d)
Video recording system (DVCAM (DV)) established by the JEITA (Japan including the projecting parts
2 rotary heads, Helical scanning system Electronics and Information Technology 145 × 184 × 431 mm
Still image recording system Industries Association). Files in this (5 3/4 × 7 1/4 × 17 in.) (w/h/d)
Exif Ver. 2.2*1 format can have additional information including the projecting parts with
Audio recording system (HDV) such as your camcorder's setting batterypack NP-F570
Rotary heads, MPEG-1 Audio Layer-2, information at the time of recording. Mass (approx.)
Quantization: 16 bits *2 Still image resolution is obtained by the 1.5 kg (3 lb 6 oz) main unit only
Fs48kHz (stereo) unique pixel array of Sony's ClearVid
1.9 kg (4 lb 2 oz) including the NP-
transfer rate: 384 kbps CMOS Sensor and image processing
F570 rechargeable battery pack,
Audio recording system (DVCAM (DV)) system (new Enhanced Imaging
cassette (PHDVM-63DM), and lens
Processor).
Rotary heads, PCM system hood with lens cover, microphone
*3 The focal length figures are actual
Quantization: 12 bits Supplied accessories
figures resulting from wide angle pixel
Fs32kHz (channel 1/2 stereo), AC Adaptor (1)
read out.
Quantization: 16 bits Power cord (1)
Fs48kHz (channel 1/2 stereo) Output connectors Wireless Remote Commander (1)
Video signal A/V connecting cable (1)
AUDIO/VIDEO output
NTSC color, EIA standards Component video cable (1)
10-pin connector
1080/60i specification USB cable (1)
Video signal: 1 Vp-p, 75 (ohms),
Usable cassette Large eyecup (1)
unbalanced
Mini DV cassette with the mark Rechargeable battery pack NP-F570 (1)
Luminance signal: 1 Vp-p, 75
printed or Mini DVCAM cassette with Lens hood with lens cover (1)
(ohms), unbalanced Wind Screen (1)
mark printed
Chrominance signal: 0.286 Vp-p (burst Microphone (1)
Tape speed (HDV)
signal), 75 (ohms), unbalanced CD-ROM "Manuals for Digital HD Video
Approx. 18.812 mm/s
Audio signal: 461 mV (at load Camera Recorder" (1)
Tape speed (DVCAM)
impedance 47 k (kilohms)), Output Operating Guide (1)
Approx. 28.218 mm/s
impedance with less than 2.2 k See page 5-38.
Tape speed (DV SP)
(kilohms) * When using the supplied microphone
Approx. 18.812 mm/s
COMPONENT OUT jack
Recording/playback time (HDV)
63 min (using a PHDVM-63DM
Y: 1 Vp-p, 75 (ohms), unbalanced PB/ AC Adaptor AC-L15A
PR, CB/CR: +/- 350 mV, 75 (ohms), Power requirements
cassette)
unbalanced AC 100 - 240 V, 50/60 Hz
Recording/playback time (DVCAM)
HDMI OUT jack Current consumption
41 min (using a PHDVM-63DM
TypeA (19-pin) 0.35 - 0.18 A
cassette)
Recording/playback time (DV SP) Power consumption
Input/Output connectors 18 W
63 min (using a PHDVM-63DM
cassette) LANC jack Output voltage
Fast forward/rewind time Stereo mini-minijack (Ø 2.5 mm) DC 8.4 V*
Approx. 2 min 40 s (using a PHDVM- INPUT1/INPUT2 jack Operating temperature
63DM cassette and rechargeable XLR3-pin, female, 0 °C to 40 °C (32 °F to 104 °F)
battery pack) -60 dBu: 3k (kilohms) Storage temperature
Approx. 1 min 45 s (using a PHDVM- +4 dBu: 10k (kilohms) -20 °C to + 60 °C (-4 °F to + 140 °F)
63DM cassette and AC Adaptor) (0 dBu=0.775 Vrms) Dimensions (approx.)
Viewfinder USB jack 56 × 31 × 100 mm
Electric viewfinder (color, black and mini-B (2 1/4 × 1 1/4 × 4 in.) (w/h/d)
white) HDV/DV jack excluding the projecting parts
Image device i.LINK interface (IEEE 1394, 4-pin Mass (approx.)
4.5 mm (1/4 type) 3CMOS sensor connector S100) 190 g (6.7 oz) excluding the power cord
Recording Pixels (HDV/DV 16:9 still * See the label on the AC Adaptor for other
recording): LCD screen specifications.
Max. 1.20 Mega (1 440 × 810) pixels *2 Picture Rechargeable batterypack NP-F570
Gross: Approx. 1 120 000 pixels 8.8 cm (3.5 type, aspect ratio 16:9)
Effective (movie, 16:9): Maximum output voltage
Total dot number
DC 8.4 V
1 037 000 pixels 211 200 (960 × 220)
Effective (movie, 4:3): Output voltage
General DC 7.2 V
778 000 pixels
Effective (still, 16:9): Power requirements Capacity
1 037 000 pixels DC 7.2 V (battery pack) 15.8 Wh (2 200 mAh)
Effective (still, 4:3): DC 8.4 V (AC Adaptor) Dimensions (approx.)
778 000 pixels Average power consumption* 38.4 × 20.6 × 70.8 mm
Lens During camera recording using the (1 9/16 × 13/16 × 2 7/8in.) (w/h/d)
Carl Zeiss Vario-Sonnar T viewfinder with normal brightness: Mass (approx.)
20 × (Optical), Approx. 30 × (Digital, HDV recording 6.8 W 100 g (3.5 oz)
when [D.EXTENDER] is set to [ON]) DVCAM (DV) recording 6.6 W Operating temperature
Focal length During camera recording using the 0 °C to 40 °C (32 °F to 104 °F)
f=3.9 - 78 mm (5/32 ~ 3 1/8 in.) LCD with normal brightness: Type
When converted to a 35 mm still HDV recording 6.8 W Lithium ion
camera *3 DVCAM (DV) recording 6.6 W
Design and specifications are subject to change
37.4 - 748 m m (1 1/2 ~ 29 1/2 in.) Operating temperature without notice.
(16:9), 0 °C to + 40 °C (32 °F to 104 °F)
45.7 - 914 m m (1 13/16 ~ 36 in.) (4:3) Storage temperature
F1.6 - 2.8 -20 °C to + 60 °C (-4 °F to + 140 °F)
Filter diameter: 62 mm (2 1/2 in.)
Color temperature
Indoor (3 200 K),
Outdoor (5 800 K)
HVR-V1J/V1U/V1N/V1E/V1P/V1C
--2--
ENGLISH JAPANESE
3 200K 0 +40
5 800K 20 +60
2
HDV 8 lx F1.6 145 184 431
2
DVCAM *1 JEITA
(DV) 145 184 431
1
Exif Ver.2.2* NP-F570
*2 CMOS 1.5kg
HDV MPEG-1 Audio Layer2
16 Fs48kHz 1.9kg NP-F570
384kbps PHDVM-63DM
PCM *3
DVCAM 12 Fs32kHz
(DV) 1/2
16 Fs48kHz AV
1/2 A/V OUT 10
1 Vp-p 75 USB
NTSC EIA
Y 1Vp-p 75
1080/60i
C 0.286Vp-p
DV 75
461mV 47k
DVCAM 2.2 k CD-ROM Manuals for Digital HD
18.812mm/ COMPONE Y 1Vp-p 75
HDV
NT OUT PB/PR. CB/CR 350mV 75
28.218mm/
DVCAM HDMI OUT A 19
18.812mm/
DV SP
63 PHDVM-63DM /
HDV
/ 41 PHDVM-63DM LANC *
DVCAM 2.5
INPUT1/ XLR3
/ 63 PHDVM-63DM
DV SP INPUT2 -60dBu 3k
+4dBu 10k
0dBu=0.775Vrms
2 40 PHDVM-63DM mini-B
USB
AC HDV/DV i.LINK IEEE1394 4
1 45 PHDVM-63DM S100
8.8cm 3.5
4.5mm 1/4 3CMOS 16:9
112 211 200
120 960 220
*2 1440 810 HDV/
DV 16 9
16 9
104 7.2V
4 3 DC 8.4V
78 *
16 9
104 HDV 6.8W
4 3 DVCAM(DV) 6.6W
78
HDV 6.8W
T* DVCAM(DV) 6.6W
20 30
[ON]
f=3.9 78mm
35mm *3
37.4 748mm 16:9
4:3 45.7 914mm
F1.6 2.8
62mm
HVR-V1J/V1U/V1N/V1E/V1P/V1C
--3--
Model information table
Model HVR-V1J HVR-V1U HVR-V1N HVR-V1E HVR-V1P HVR-V1C
Destination J US, CND E AEP E CH
Color system NTSC NTSC NTSC PAL PAL 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
NE : North European model
HVR-V1J/V1U/V1N/V1E/V1P/V1C
--4--
ENGLISH JAPANESE
CAUTION
Danger of explosion if battery is incorrectly replaced.
Replace only with the same or equivalent type.
SAFETY-RELATED COMPONENT WARNING!! ATTENTION AU COMPOSANT AYANT RAPPORT
À LA SÉCURITÉ!
COMPONENTS IDENTIFIED BY MARK 0 OR DOTTED LINE WITH LES COMPOSANTS IDENTIFÉS PAR UNE MARQUE 0 SUR LES
MARK 0 ON THE SCHEMATIC DIAGRAMS AND IN THE PARTS DIAGRAMMES SCHÉMATIQUES ET LA LISTE DES PIÈCES SONT
LIST ARE CRITICAL TO SAFE OPERATION. REPLACE THESE CRITIQUES POUR LA SÉCURITÉ DE FONCTIONNEMENT. NE
COMPONENTS WITH SONY PARTS WHOSE PART NUMBERS REMPLACER CES COMPOSANTS QUE PAR DES PIÈSES SONY
APPEAR AS SHOWN IN THIS MANUAL OR IN SUPPLEMENTS DONT LES NUMÉROS SONT DONNÉS DANS CE MANUEL OU
PUBLISHED BY SONY. DANS LES SUPPÉMENTS PUBLIÉS PAR 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 Unleaded solder
connections. Check the entire board surface for solder splashes Boards requiring use of unleaded solder are printed with the lead-
and bridges. free mark (LF) indicating the solder contains no lead.
2. Check the interboard wiring to ensure that no wires are (Caution: Some printed circuit boards may not come printed with
the lead free mark due to their particular size.)
"pinched" or contact high-wattage resistors.
3. Look for unauthorized replacement parts, particularly
: LEAD FREE MARK
transistors, that were installed during a previous repair. Point
Unleaded solder has the following characteristics.
them out to the customer and recommend their replacement.
· Unleaded solder melts at a temperature about 40°C higher than
4. Look for parts which, through functioning, show obvious signs ordinary solder.
of deterioration. Point them out to the customer and Ordinary soldering irons can be used but the iron tip has to be
recommend their replacement. applied to the solder joint for a slightly longer time.
5. Check the B+ voltage to see it is at the values specified. Soldering irons using a temperature regulator should be set to
6. Flexible Circuit Board Repairing about 350°C.
· Keep the temperature of the soldering iron around 270°C Caution: The printed pattern (copper foil) may peel away if the
during repairing. heated tip is applied for too long, so be careful!
· Do not touch the soldering iron on the same conductor of the · Strong viscosity
Unleaded solder is more viscous (sticky, less prone to flow) than
circuit board (within 3 times).
ordinary solder so use caution not to let solder bridges occur such
· Be careful not to apply force on the conductor when soldering as on IC pins, etc.
or unsoldering. · Usable with ordinary solder
It is best to use only unleaded solder but unleaded solder may
also be added to ordinary solder.
HVR-V1J/V1U/V1N/V1E/V1P/V1C
--5--
ENGLISH JAPANESE
·
·
·
0
·
·
·
· ·
HVR-V1J/V1U/V1N/V1E/V1P/V1C
--6--
TABLE OF CONTENTS
Section Title Page Section Title Page
1. SERVICE NOTE 6. ADJUSTMENTS
1-1. Power Supply During Repairs ········································· 1-1 Before Starting Adjustments ····················································· 6-1
1-2. To Take Out a Cassette when not Eject (Force Eject) ····· 1-1 1-1. Adjusting Items when Replacing Main Parts and
1-3. Setting the "Forced Power On" Mode ····························· 1-1 Boards ·············································································· 6-2
1-4. Using Service Jig ····························································· 1-2 1-2. List of Service Tools ························································ 6-4
1-5. Self-diagnosis Function ··················································· 1-2 6-1. Camera Section Adjustments ··········································· 6-6
1-6. Method of Coping with Shift Lens Error ························ 1-4 1-1. Preparations before Adjustments (CAMERA Section) ··· 6-6
1-2. Initialization of EVR Data ··············································· 6-8
1-3. Camera System Adjustments ········································· 6-31
2. DISASSEMBLY 1-4. Electronic Viewfinder System Adjustments ·················· 6-74
2-1. Disassembly ····································································· 2-2 1-5. LCD System Adjustments ············································· 6-79
2-2. Method of Lens Unit Disassembly ·································· 2-9 6-2. Mechanism Section Adjustments ·································· 6-83
1. Preparations for Check, Adjustment and
Replacement of Mechanism Block ································ 6-83
2. Periodic Inspection and Maintenance ···························· 6-83
3. BLOCK DIAGRAMS 3. Check, Adjustment and Replacement of
3-1. Overall Block Diagram (1/8) ··········································· 3-1 Mechanical Parts ··························································· 6-89
3-2. Overall Block Diagram (2/8) ··········································· 3-2 4. Adjustment ·································································· 6-122
3-3. Overall Block Diagram (3/8) ··········································· 3-3 6-3. Video Section Adjustments ········································· 6-129
3-4. Overall Block Diagram (4/8) ··········································· 3-4 3-1. Preparations Before Adjustments ································ 6-129
3-5. Overall Block Diagram (5/8) ··········································· 3-5 3-2. System Control System Adjustments ·························· 6-131
3-6. Overall Block Diagram (6/8) ··········································· 3-6 3-3. Servo and RF System Adjustments ····························· 6-133
3-7. Overall Block Diagram (7/8) ··········································· 3-7 3-4. Video System Adjustments ·········································· 6-136
3-8. Overall Block Diagram (8/8) ··········································· 3-8 3-5. Audio System Adjustments ········································· 6-141
3-9. Power Block Diagram (1/4) ············································· 3-9 6-4. Service Mode ······························································· 6-146
3-10. Power Block Diagram (2/4) ··········································· 3-10 4-1. Adjustment Remote Commander (RM-95) ················· 6-146
3-11. Power Block Diagram (3/4) ··········································· 3-11 4-2. Adjustment Remote Commander (New Lanc Jig) ······ 6-147
3-12. Power Block Diagram (4/4) ··········································· 3-12 4-3. Data Process ································································ 6-148
4-4. Service Mode ······························································· 6-149
4. PRINTED WIRING BOARDS AND * The camera color reproduction frame is shown on page
SCHEMATIC DIAGRAMS 6-157 to 160.
4-1. Frame Schematic Diagrams ············································· 4-1
4-2. Schematic Diagrams ························································ 4-3
4-3. Printed Wiring Boards ··················································· 4-45
4-4. Mounted Parts Location ················································ 4-67
5. REPAIR PARTS LIST
5-1. Exploded Views ······························································· 5-2
5-2. Electrical Parts List ······················································· 5-17
HVR-V1J/V1U/V1N/V1E/V1P/V1C
--7--
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 (8.4V), 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. TO TAKE OUT A CASSETTE WHEN NOT EJECT (FORCE EJECT)
1 Refer to "2. DISASSEMBLY" to remove the mechanism deck block.
2 Supply +4.5V from the DC power supply to the loading motor and unload with a pressing the cassette compartment.
Loading motor
DC power supply
(+ 4.5Vdc)
1-3. SETTING THE "FORCED POWER ON" MODE
It is possible to turn on power by adjustment remote commander (RM-95 or NEW LANC JIG).
Operate the VTR function using the adjustment remote commander.
1-3-1. Setting the "Forced Camera Power ON" Mode
1) Select page: 0, address: 01, and set data:01.
2) Select page: A, address: 10, set data:01 and press the "PAUSE (Write) " button of the adjustment remote commander.
1-3-2. Setting the "Forced VTR Power ON" Mode
1) Select page: 0, address: 01, and set data:01.
2) Select page: A, address: 10, set data:02 and press the "PAUSE (Write) " button of the adjustment remote commander.
1-3-3. Exiting the "Forced Power ON" Mode
1) Select page: 0, address: 01, and set data:01.
2) Select page: A, address: 10, set data:00 and press the "PAUSE (Write) " button of the adjustment remote commander.
3) Select page: 0, address: 01, and set data: 00.
HVR-V1J/V1U/V1N/V1E/V1P/V1C
1-1
ENGLISH JAPANESE
1-4. USING SERVICE JIG
Connect the CPC-7 jig connector (J-6082-382-A) to the CN1014 on the TT-003 board.
CPC-7
(J-6082-382-A)
16
9
16
TT-003 BOARD
CN1014
(SIDE B)
1
8
1
1-5. SELF-DIAGNOSIS FUNCTION
1-5-1. Self-diagnosis Function 1-5-2. Self-diagnosis Display
When problems occur while the unit is operating, the self-diagnosis When problems occur while the unit is operating, the counter of the
function starts working, and displays on the viewfinder or LCD viewfinder or LCD screen shows a 4-digit display consisting of an
screen what to do. alphabet and numbers, which blinks at 3.2 Hz. This 5-character
Details of the self-diagnosis functions are provided in the Instruction display indicates the "repaired by:", "block" in which the problem
manual. occurred, and "detailed code" of the problem.
Viewfinder or LCD screen
C:31:11
Blinks at 3.2Hz
C 31 11
Repaired by: Block Detailed Code
C : Corrected by customer Indicates the appropriate Refer to "1-5-3. Self-diagnosis Code Table".
H : Corrected by dealer step to be taken.
E : Corrected by service E.g.
engineer 31 ....Reload the tape.
32 ....Turn on power again.
HVR-V1J/V1U/V1N/V1E/V1P/V1C
1-2
ENGLISH JAPANESE
1-5-3. Self-diagnosis Code Table
Self-diagnosis Code
Repaired by:
Block Detailed Symptom/State Correction
Function Code
C 0 4 0 0 Non-standard battery is used. Use the InfoLITHIUM battery.
C 2 1 0 0 Condensation. Remove the cassette, and insert it again after one hour.
C 2 2 0 0 Video head is dirty. Clean with the optional cleaning cassette.
LOAD direction. Loading does not
C 3 1 1 0 Load the tape again, and perform operations from the beginning.
complete within specified time
UNLOAD direction. Loading does not
C 3 1 1 1 Load the tape again, and perform operations from the beginning.
complete within specified time
C 3 1 2 0 T reel side tape slacking when unloading. Load the tape again, and perform operations from the beginning.
C 3 1 2 1 S reel side tape slacking when unloading. Load the tape again, and perform operations from the beginning.
C 3 1 2 2 T reel fault. Load the tape again, and perform operations from the beginning.
C 3 1 2 3 S reel fault. Load the tape again, and perform operations from the beginning.
C 3 1 3 0 FG fault when starting capstan. Load the tape again, and perform operations from the beginning.
C 3 1 3 1 FG fault during normal capstan operations. Load the tape again, and perform operations from the beginning.
C 3 1 4 0 FG fault when starting drum. Load the tape again, and perform operations from the beginning.
C 3 1 4 1 PG fault when starting drum. Load the tape again, and perform operations from the beginning.
C 3 1 4 2 FG fault during normal drum operations. Load the tape again, and perform operations from the beginning.
C 3 1 4 3 PG fault during normal drum operations. Load the tape again, and perform operations from the beginning.
C 3 1 4 4 Phase fault during normal drum operations. Load the tape again, and perform operations from the beginning.
LOAD direction loading motor time- Remove the battery or power cable, connect, and perform
C 3 2 1 0
out. operations from the beginning.
UNLOAD direction loading motor Remove the battery or power cable, connect, and perform
C 3 2 1 1
time-out. operations from the beginning.
T reel side tape slacking when Remove the battery or power cable, connect, and perform
C 3 2 2 0
unloading. operations from the beginning.
S reel side tape slacking when Remove the battery or power cable, connect, and perform
C 3 2 2 1
unloading. operations from the beginning.
Remove the battery or power cable, connect, and perform
C 3 2 2 2 T reel fault. operations from the beginning.
Remove the battery or power cable, connect, and perform
C 3 2 2 3 S reel fault. operations from the beginning.
Remove the battery or power cable, connect, and perform
C 3 2 3 0 FG fault when starting capstan.
operations from the beginning.
FG fault during normal capstan Remove the battery or power cable, connect, and perform
C 3 2 3 1
operations. operations from the beginning.
Remove the battery or power cable, connect, and perform
C 3 2 4 0 FG fault when starting drum.
operations from the beginning.
Remove the battery or power cable, connect, and perform
C 3 2 4 1 PG fault when starting drum.
operations from the beginning.
FG fault during normal drum Remove the battery or power cable, connect, and perform
C 3 2 4 2
operations. operations from the beginning.
PG fault during normal drum Remove the battery or power cable, connect, and perform
C 3 2 4 3
operations. operations from the beginning.
Phase fault during normal drum Remove the battery or power cable, connect, and perform
C 3 2 4 4
operations. operations from the beginning.
Remove the battery or power cable, connect, and perform
operations from the beginning.
Difficult to adjust focus If it does not recover, inspect the focus MR sensor of lens block
C 3 2 6 0
(Cannot initialize focus.) (Pin wl, ea of CN5802 on the YY-003 board).
If not faulty, inspect the focus motor drive circuit
(IC6004 on the YY-003 board).
HVR-V1J/V1U/V1N/V1E/V1P/V1C
1-3
ENGLISH JAPANESE
Self-diagnosis Code
Repaired by:
Block Detailed Symptom/State Correction
Function Code
Inspect the zoom MR sensor of lens block (Pin ed, eg of CN5802
Zoom operations fault on the YY-003 board) when zooming is performed when the zoom
E 6 1 1 0
(Cannot initialize zoom lens.) switch is operated and the zoom motor drive circuit (IC6004 on
the YY-003 board) when zooming is not performed.
Focus lens initializing failure and zoom
E 6 1 1 1 lens initializing failure occur simulta- Check both C: 32: 60 and E: 61: 10 of the self-diagnosis code.
neously.
Steadyshot function does not work well.
Inspect pitch angular velocity sensor (SE8001 on the JJ-004
E 6 2 0 0 (With pitch angular velocity sensor output
board) peripheral circuits.
stopped.)
Steadyshot function does not work well.
Inspect yaw angular velocity sensor (SE8002 on the JJ-004
E 6 2 0 1 (With yaw angular velocity sensor output
board) peripheral circuits.
stopped.)
Refer to [1-6-1. E : 62 : 02 (Abnormality of IC for Steadyshot)
E 6 2 0 2 Abnormality of IC for steadyshot.
Occurred].
IC for steadyshot and micro controller
E 6 2 0 3 Inspect the steadyshot circuit (IC6203 on the YY-003 board).
communication abnormality among.
Refer to [1-6-2. E : 62 : 10 (Shift Lens Initializing Failure)
E 6 2 1 0 Shift lens initializing failure
Occurred].
Refer to [1-6-3. E : 62 : 11 (Shift Lens Overheating (Pitch))
E 6 2 1 1 Shift lens overheating (Pitch)
Occurred].
Refer to [1-6-4. E : 62 : 12 (Shift Lens Overheating (Yaw))
E 6 2 1 2 Shift lens overheating (Yaw)
Occurred].
1-6. METHOD OF COPING WITH SHIFT LENS ERROR
YY-003 BOARD (SIDE A)
about 330 msec
Note: The length of low section will vary a little depending on the
conditions.
Fig. 2
Change in output voltage of R6233
IC6203
R6242 R6244
R6233
Fig. 1
Measurement points on the YY-003 board
HVR-V1J/V1U/V1N/V1E/V1P/V1C
1-4
ENGLISH JAPANESE
1-6-1. E : 62 : 02 [Abnormality of IC for Steadyshot] Occurred
Order Procedure
1 Turn the power OFF.
While measuring with an oscilloscope the output voltage of R6233 in the periphery of IC6203 on the YY-003 board, turn the
2
power ON to check that the output voltage immediately after the power on change as shown in Fig. 2.
If the output voltage change as shown in Fig. 2, replace the lens block (Note). If it does not change as shown in Fig. 2, inspect
3
the camera control circuit (IC4201 of TT-003 board) periphery.
Note: When the lens block was replaced, execute a necessary adjustment items referring to Service Manual, ADJ.
After the adjustment, make sure with the STEADYSHOT turned ON that the steadyshot functions appropriately in the
handheld operation.
1-6-2. E : 62 : 10 [Shift Lens Initializing Failure] Occurred
Connect the adjustment remote commander (RM-95 or NEW LANC JIG) and perform the following process.
Order Page Address Data Procedure
1 0 01 01
2 0 10 07
F
3 04 Read the data value and assume it as D04.
(7F)
F Change the data and check that it has been changed. If no value changes or if value is 00 or FF, inspect
4 04
(7F) the EEPROM (IC4202 of TT-003 board). If value changes, proceed to the order 5.
F
5 04 D04 Press PAUSE (Write) button.
(7F)
F
6 05 Read the data value and assume it as D05.
(7F)
F Change the data and check that it has been changed. If no value changes or if value is 00 or FF, inspect
7 05
(7F) the EEPROM (IC4202 of TT-003 board). If value changes, proceed to the order 8.
F
8 05 D05 Press PAUSE (Write) button.
(7F)
9 0 10 00
10 0 01 00
11 Perform "PSD Sensor Gradient Adjustment". (Note 1)
12 Turn the power OFF and ON again.
13 Check that no error occurs. If an error occurs, replace the lens block (Note 2).
Note 1: Perform adjustment by referring to "PSD Sensor Gradient Adjustment" in Service Manual, ADJ. After the adjustment, be
sure to perform "Optical Axis Adjustment" and "Angular Velocity Sensor Sensitivity Adjustment".
Note 2: When the lens block was replaced, execute a necessary adjustment items referring to Service Manual, ADJ.
After the adjustment, make sure with the STEADYSHOT turned ON that the steadyshot functions appropriately in the
handheld operation.
HVR-V1J/V1U/V1N/V1E/V1P/V1C
1-5
ENGLISH JAPANESE
1-6-3. E : 62 : 11 [Shift Lens Overheating (Pitch)] Occurred
Connect the adjustment remote commander (RM-95 or NEW LANC JIG) and perform the following process.
Order Page Address Data Procedure
1 0 01 01
2 0 10 07
D
3 46 F0 Press PAUSE (Write) button.
(7D)
D
4 48 01 Press PAUSE (Write) button. (Note 1)
(7D)
D
5 48 00 Press PAUSE (Write) button.
(7D)
D
6 46 10 Press PAUSE (Write) button.
(7D)
D
7 48 01 Press PAUSE (Write) button. (Note 1)
(7D)
D
8 48 00 Press PAUSE (Write) button.
(7D)
9 0 10 00
10 0 01 00
Check if the shift lens moves while setting the order 3 to 8. If the shift lens does not move, replace the
11
lens block (Note 2). When the shift lens moved, proceed to the order 12.
While setting the order 3 to 8, measure with an oscilloscope the output voltage of R6242 in the periphery of
12
IC6203 on the YY-003 board to check the output voltage varies.
If the output voltage does not vary, replace the lens block (Note 2). When the output voltage varied,
13
proceed to the order 14.
14 Turn the power OFF.
While measuring with an oscilloscope the output voltage of R6233 in the periphery of IC6203 on the
15
YY-003 board, turn the power ON to check that the output voltage immediately after the power on
change as shown in Fig. 2.
If the output voltage change as shown in Fig. 2, replace the lens block (Note 2). If it does not change as
16
shown in Fig. 2, inspect the camera control circuit (IC4201 of TT-003 board) periphery.
Note 1: Finish this operation within 10 seconds. If it is likely to take more than 10 seconds, set page: D (7D), address: 48, data:
00, and then retry.
Note 2: When the lens block was replaced, execute a necessary adjustment items referring to Service Manual, ADJ.
After the adjustment, make sure with the STEADYSHOT turned ON that the steadyshot functions appropriately in the
handheld operation.
HVR-V1J/V1U/V1N/V1E/V1P/V1C
1-6
ENGLISH JAPANESE
1-6-4. E : 62 : 12 [Shift Lens Overheating (Yaw)] Occurred
Connect the adjustment remote commander (RM-95 or NEW LANC JIG) and perform the following process.
Order Page Address Data Procedure
1 0 01 01
2 0 10 07
D
3 47 F0 Press PAUSE (Write) button.
(7D)
D
4 49 01 Press PAUSE (Write) button. (Note 1)
(7D)
D
5 49 00 Press PAUSE (Write) button.
(7D)
D
6 47 10 Press PAUSE (Write) button.
(7D)
D
7 49 01 Press PAUSE (Write) button. (Note 1)
(7D)
D
8 49 00 Press PAUSE (Write) button.
(7D)
9 0 10 00
10 0 01 00
Check if the shift lens moves while setting the order 3 to 8. If the shift lens does not move, replace the
11
lens block (Note 2). When the shift lens moved, proceed to the order 12.
While setting the order 3 to 8, measure with an oscilloscope the output voltage of R6244 in the periphery of
12
IC6203 on the YY-003 board to check the output voltage varies.
If the output voltage does not vary, replace the lens block (Note 2). When the output voltage varied,
13
proceed to the order 14.
14 Turn the power OFF.
While measuring with an oscilloscope the output voltage of R6233 in the periphery of IC6203 on the
15
YY-003 board, turn the power ON to check that the output voltage immediately after the power on
change as shown in Fig. 2.
If the output voltage change as shown in Fig. 2, replace the lens block (Note 2). If it does not change as
16
shown in Fig. 2, inspect the camera control circuit (IC4201 of TT-003 board) periphery.
Note 1: Finish this operation within 10 seconds. If it is likely to take more than 10 seconds, set page: D (7D), address: 49, data:
00, and then retry.
Note 2: When the lens block was replaced, execute a necessary adjustment items referring to Service Manual, ADJ.
After the adjustment, make sure with the STEADYSHOT turned ON that the steadyshot functions appropriately in the
handheld operation.
HVR-V1J/V1U/V1N/V1E/V1P/V1C
1-7
1. SERVICE NOTE ENGLISH JAPANESE
1
2
+4.5Vdc
HVR-V1J/V1U/V1N/V1E/V1P/V1C
1-8
ENGLISH JAPANESE
CPC-7
(J-6082-382-A)
16
9
16
TT-003 BOARD
CN1014
(SIDE B)
1
8
1
LCD
C:31:11
3.2Hz
C 31 11
C 1-5-3.
H 31
E 32
HVR-V1J/V1U/V1N/V1E/V1P/V1C
1-9
ENGLISH JAPANESE
C 0 4 0 0
C 2 1 0 0
C 2 2 0 0
C 3 1 1 0
C 3 1 1 1
C 3 1 2 0
C 3 1 2 1
C 3 1 2 2
C 3 1 2 3
C 3 1 3 0
C 3 1 3 1
C 3 1 4 0
C 3 1 4 1
C 3 1 4 2
C 3 1 4 3
C 3 1 4 4
C 3 2 1 0
C 3 2 1 1
C 3 2 2 0
C 3 2 2 1
C 3 2 2 2
C 3 2 2 3
C 3 2 3 0
C 3 2 3 1
C 3 2 4 0
C 3 2 4 1
C 3 2 4 2
C 3 2 4 3
C 3 2 4 4
C 3 2 6 0
wl ea
HVR-V1J/V1U/V1N/V1E/V1P/V1C
1-10
ENGLISH JAPANESE
ed eg
YY-003 BOARD (SIDE A)
IC6203
R6242 R6244
R6233
HVR-V1J/V1U/V1N/V1E/V1P/V1C
1-11
ENGLISH JAPANESE
HVR-V1J/V1U/V1N/V1E/V1P/V1C
1-12
ENGLISH JAPANESE
HVR-V1J/V1U/V1N/V1E/V1P/V1C
1-13
ENGLISH JAPANESE
HVR-V1J/V1U/V1N/V1E/V1P/V1C
1-14E
2. DISASSEMBLY
NOTE FOR REPAIR
· Make sure that the flat cable and flexible board are not cracked of bent at the terminal. Cut and remove the part of gilt
Do not insert the cable insufficiently nor crookedly. which comes off at the point.
(Be careful or some
· When remove a connector, don't pull at wire of connector. It is possible that a wire is snapped. pieces of gilt may be left inside)
· When installing a connector, don't press down at wire of connector.
It is possible that a wire is snapped.
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)
Tweezers etc.
HVR-V1J/V1U/V1N/V1E/V1P/V1C
2-1
HELP
2-1. DISASSEMBLY
EXPLODED VIEW HARDWARE LIST
2-1-1. OVERALL SECTION-1
Follow the disassembly in the numerical order given.
1 Handle Section (1-1 to 1-10)
2 Cabinet (L) Section (2-1 to 2-5)
1-9 (#49)
1-8 (#49)
1 Handle Section
2 Cabinet (L) Section
2-1 (#49)
2-2 (#49) 1-1 (#49)
1-7
1-6 1-5
1-10
(Claw)
2-5
2-4 1-4 (Claw)
1-3 (#49)
1-2
2-3 (#49)
(Open the
LCD Panel)
HVR-V1J/V1U/V1N/V1E/V1P/V1C
2-2
2-1-2. OVERALL SECTION-2
Follow the disassembly in the numerical order given. EXPLODED VIEW HARDWARE LIST
1 Cabinet (R) Section (1-1 to 1-16)
2 Mechanism Deck (2-1 to 2-12)
1-9 (#49)
1 Cabinet (R)
1-16
Section