Page 1
SERVICE MANUAL
VIDEO CASSETTE RECORDER
YD01020045
HR-V610EX, HR-V610EY, HR-V610EZ,
HR-V611EX, HR-V611EY, HR-V611EZ,
HR-V612EX, HR-V612EY, HR-V612EZ,
HR-V615EK, HR-V616EK, HR-V617EK,
HR-V715EK
PAL
SAT
SAT
VCR
VCR
REVIEW
REVIEW
(EK models)
HR-V610EX, HR-V610EY, HR-V610EZ, HR-V611EX, HR-V611EY,
HR-V611EZ, HR-V612EX, HR-V612EY, HR-V612EZ, HR-V615EK,
HR-V616EK, HR-V617EK, HR-V715EK [V17D1,V17D1+]
For disassembling and assembling of MECHANISM ASSEMBLY, refer to the SERVICE MANUAL No.86700(MECHANISM ASSEMBLY).
(EX, EY, EZ models)
TABLE OF CONTENTS
1 PRECAUTION. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-3
2 SPECIFIC SERVICE INSTRUCTIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-5
3 DISASSEMBLY . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-8
4 ADJUSTMENT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-10
5 TROUBLESHOOTING . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-14
COPYRIGHT © 2004 Victor Company of Japan, Limited
No.YD010
2004/5
Page 2
SPECIFICATION
HR-V610EX, HR-V610EY, HR-V610EZ,
HR-V611EX, HR-V611EY, HR-V611EZ,
HR-V612EX, HR-V612EY, HR-V612EZ
GENERAL
Power requirement AC 220 V -240 V, 50 Hz/60 Hz
Power consumption
Power on 14 W
Power off 3.2 W
Temperature
Operating 5°C to 40°C
Storage -20°C to 60°C
Operating position Horizontal only
Dimensions (W × H × D) 400 mm × 94 mm × 265 mm 400 mm × 94 mm × 275 mm 400 mm × 94 mm × 270 mm
Weight 3.1 kg
Format VHS PAL standard
Maximum recording time
(SP) 240 min. with E-240 video cassette
(LP) 480 min. with E-240 video cassette
VIDEO/AUDIO
Signal system PAL-type colour signal and CCIR monochrome signal, 625 lines 50 fields
Recording system DA4 (Double Azimuth) head helical scan system
Signal-to-noise ratio 45 dB
Horizontal resolution 250 lines
Frequency range
Normal audio 70 Hz to 10,000 Hz
Hi-Fi audio 20 Hz to 20,000 Hz
Input/Output 21-pin SCART connectors: IN/OUT × 1, IN/DECODER × 1
RCA connectors: AUDIO OUT × 1
TUNER/TIMER
TV channel storage capacity 99 positions (+AUX position)
Tuning system Frequency synthesized tuner
Channel coverage VHF: 47 MHz - 89 MHz/104 MHz - 300MHz/
302 MHz - 470 MHz
UHF: 470 MHz - 862 MHz
Aerial output UHF channels 22 -69 (Adjustable)
Memory backup time Approx. 10 min.
ACCESSORIES
Provided accessories RF cable, Infrared remote control unit, “R6(AA)” battery × 2
Optional accessories Satellite Controller RM-SD1 -
HR-V615EK, HR-V616EK,
HR-V617EK
VHF: 44.5 MHz - 143 MHz/143 MHz - 470 MHz
UHF: 470 MHz - 862 MHz
HR-V715EK
Specifications shown are for SP mode unless otherwise specified.
E.& O.E. Design and specifications subject to change without notice.
1-2 (No.YD010)
Page 3
SECTION 1
r
e
PRECAUTION
1.1 SAFTY PRECAUTIONS
Prior to shipment from the factory, JVC products are strictly inspected to conform with the recognized product safety and electrical codes of the countries in which they are to be
sold.However,in order to maintain such compliance, it is equally
important to implement the following precautions when a set is
being serviced.
1.1.1 Precautions during Servicing
(1) Locations requiring special caution are denoted by labels
and inscriptions on the cabinet, chassis and certain parts of
the product.When performing service, be sure to read and
comply with these and other cautionary notices appearing
in the operation and service manuals.
(2) Parts identified by the symbol and shaded ( ) parts
are critical for safety.
Replace only with specified part numbers.
NOTE :
Parts in this category also include those specified to
comply with X-ray emission standards for products
using cathode ray tubes and those specified for
compliance with various regulations regarding spurious radiation emission.
(3) Fuse replacement caution notice.
Caution for continued protection against fire hazard.
Replace only with same type and rated fuse(s) as specified.
(4) Use specified internal wiring. Note especially:
• Wires covered with PVC tubing
• Double insulated wires
• High voltage leads
(5) Use specified insulating materials for hazardous live parts.
Note especially:
• Insulation Tape
• PVC tubing
•Spacers
• Insulation sheets for transistors
•Barrier
(6) When replacing AC primary side components (transformers,
power cords, noise blocking capacitors, etc.) wrap ends of
wires securely about the terminals before soldering.
Consequently, when servicing these products, replace the
cathode ray tubes and other parts with only the specified
parts. Under no circumstances attempt to modify these circuits.Unauthorized modification can increase the high voltage value and cause X-ray emission from the cathode ray
tube.
(12) Crimp type wire connectorIn such cases as when replacing
the power transformer in sets where the connections between the power cord and power trans former primary lead
wires are performed using crimp type connectors, if replacing the connectors is unavoidable, in order to prevent safety hazards, perform carefully and precisely according to the
following steps.
• Connector part number :E03830-001
• Required tool : Connector crimping tool of the proper
type which will not damage insulated parts.
• Replacement procedure
a) Remove the old connector by cutting the wires at a
point close to the connector.Important : Do not reuse a connector (discard it).
cut close to connector
Fig.1-1-3
b) Strip about 15 mm of the insulation from the ends
of the wires. If the wires are stranded, twist the
strands to avoid frayed conductors.
15 mm
Fig.1-1-4
c) Align the lengths of the wires to be connected. In-
sert the wires fully into the connector.
Metal sleeve
Fig.1-1-1
(7) Observe that wires do not contact heat producing parts
(heatsinks, oxide metal film resistors, fusible resistors, etc.)
(8) Check that replaced wires do not contact sharp edged or
pointed parts.
(9) When a power cord has been replaced, check that 10-15
kg of force in any direction will not loosen it.
Power cord
Fig.1-1-2
(10) Also check areas surrounding repaired locations.
(11) Products using cathode ray tubes (CRTs)In regard to such
products, the cathode ray tubes themselves, the high voltage circuits, and related circuits are specified for compliance with recognized codes pertaining to X-ray emission.
Connector
Fig.1-1-5
d) As shown in Fig.1-1-6, use the crimping tool to crimp
the metal sleeve at the center position. Be sure to
crimp fully to the complete closure of the tool.
1.25
2.0
5.5
Crimping tool
Fig.1-1-6
e) Check the four points noted in Fig.1-1-7.
Not easily pulled free
Wire insulation recessed
more than 4 mm
Crimped at approx. cente
of metal sleev
Conductors extended
Fig.1-1-7
(No.YD010)1-3
Page 4
1.1.2 Safety Check after Servicing
Examine the area surrounding the repaired location for damage
or deterioration. Observe that screws, parts and wires have been
returned to original positions, Afterwards, perform the following
tests and confirm the specified values in order to verify compliance with safety standards.
(1) Insulation resistance test
Confirm the specified insulation resistance or greater between power cord plug prongs and externally exposed
parts of the set (RF terminals, antenna terminals, video and
audio input and output terminals, microphone jacks, earphone jacks, etc.).See table 1 below.
(2) Dielectric strength test
Confirm specified dielectric strength or greater between
power cord plug prongs and exposed accessible parts of
the set (RF terminals, antenna terminals, video and audio
input and output terminals, microphone jacks, earphone
jacks, etc.). See Fig.1-1-11 below.
(3) Clearance distance
When replacing primary circuit components, confirm specified clearance distance (d), (d') between soldered terminals, and between terminals and surrounding metallic
parts. See Fig.1-1-11 below.
d
Chassis
d'
Power cord
primary wire
Fig.1-1-8
(4) Leakage current test
Confirm specified or lower leakage current between earth
ground/power cord plug prongs and externally exposed accessible parts (RF terminals, antenna terminals, video and
audio input and output terminals, microphone jacks, earphone jacks, etc.).
Measuring Method : (Power ON)Insert load Z between
earth ground/power cord plug prongs and externally exposed accessible parts. Use an AC voltmeter to measure
across both terminals of load Z. See Fig.1-1-9 and following Fig.1-1-12.
ab
Externally
exposed
accessible part
Z
V
c
A
Fig.1-1-9
(5) Grounding (Class 1 model only)
Confirm specified or lower grounding impedance between
earth pin in AC inlet and externally exposed accessible
parts (Video in, Video out, Audio in, Audio out or Fixing
screw etc.).Measuring Method:
Connect milli ohm meter between earth pin in AC inlet and
exposed accessible parts. See Fig.1-1-10 and grounding
specifications.
AC inlet
Earth pin
Exposed accessible part
MIlli ohm meter
Grounding Specifications
Region
USA & Canada
Europe & Australia
Grounding Impedance (Z
Z 0.1 ohm
Z 0.5 ohm
)
Fig.1-1-10
AC Line Voltage
100 V
100 to 240 V
110 to 130 V
110 to 130 V
200 to 240 V
Region
Japan
USA & Canada
Europe & Australia
Insulation Resistance (R
R 1 M /500 V DC
1 M R 12 M /500 V DC
R 10 M /500 V DC
)
Dielectric Strength
AC 1 kV 1 minute
AC 1.5 kV 1 minute
AC 1 kV 1 minute
AC 3 kV 1 minute
AC 1.5 kV 1 minute
(
Class
(
Class
Clearance Distance (d), (d'
d, d' 3 mm
d, d' 4 mm
d, d' 3.2 mm
d 4 m m
)
d' 8 m m (Power cord
d' 6 m m (Primary wire
)
Fig.1-1-11
AC Line Voltage
100 V
110 to 130 V
110 to 130 V
220 to 240 V
Region
Japan
USA & Canada
Europe & Australia
Load Z Leakage Current (i)
1
0.15
1.5
2
50
i 1 mA rms
i 0.5 mA rms
i 0.7 mA peak
i 2 mA dc
i 0.7 mA peak
i 2 mA dc
a, b, c
Exposed accessible parts
Exposed accessible parts
Antenna earth terminals
Other terminals
Fig.1-1-12
NOTE :
These tables are unofficial and for reference only. Be sure to confirm the precise values for your particular country and locality.
)
)
)
1-4 (No.YD010)
Page 5
SECTION 2
SPECIFIC SERVICE INSTRUCTIONS
2.1 DIFFERENT TABLE OF FEATURE
The following table indicates main different points between models HR-V610EX, HR-V610EY, HR-V610EZ, HR-V611EX, HR-V611EY,
HR-V611EZ ,HR-V612EX, HR-V612EY, HR-V612EZ, HR-V615EK, HR-V616EK, HR-V617EK, and HR-V715EK.
HR-V610EX, HR-
V610EY, HR-V610EZ
POWER PLUG CEE ←←BS
BODY COLOR PURE SILVER BLACK PURE SILVER ←
ADVANCED JOG DIAL NOT USED ←←←
PAL/MESECAM
VHS
REAR L-2 INPUT SCART IN/DECODER ←←SCART IN
BROADCASTING
STANDARD
STEREO DECODER NICAM/A2 ←←NICAM
RF OUT CH/RF OUT
SYSTEM[INITIAL]
VCR PLUS+ SHOWVIEW DELUXE ←←VIDEOPLUS+ DELUXE
VPS/PDC USED ←←NOT USED
OSD LANGUAGES 13 LANGUAGES ←←ENGLISH
POWER PLUG BS ←←
BODY COLOR BLACK PURE SILVER ←
ADVANCED JOG DIAL NOT USED ← USED
VHS PAL/NTSC PB on
REAR L-2 INPUT SCART IN ←←
BROADCASTING
STANDARD
STEREO DECODER NICAM ←←
RF OUT CH/RF OUT
SYSTEM[INITIAL]
VCR PLUS+ VIDEOPLUS+ DELUXE ←←
VPS/PDC NOT USED ←←
OSD LANGUAGES ENGLISH ←←
(MANUAL)/NTSC PB on
PAL TV with HiFi
B/G, D/K ←← I
22-69CH,
OFF[AUTO]/G,K
HR-V616EK HR-V617EK HR-V715EK
PAL TV with HiFi
I ←←
22-69CH,
OFF[AUTO]/I
HR-V611EX, HR-
V611EY, HR-V611EZ
←←
←←
←←
←←
HR-V612EX, HR-
V612EY, HR-V612EZ
HR-V615EK
PAL/NTSC PB on
PAL TV with HiFi
22-69CH,
OFF[AUTO]/I
NOTE:
Mark ← is same as left.
(No.YD010)1-5
Page 6
2.2 Service position
This unit has been designed so that the Mechanism and Main
board assemblies can be removed together from the chassis assembly. Before diagnosing or servicing the circuit boards, take
out the major parts from the chassis assembly.
2.2.1 How to set the "Service position"
(1) Refer to the disassembly procedure and perform the disas-
sembly of the major parts before removing the Mechanism
assembly.
(2) Remove the screws that fix the Mechanism assembly to
the Chassis assembly. If any other screws are used to fix
the boards, remove them also.
(3) Remove the combined Mechanism and Main board assem-
blies.
(4) If any other major parts are used, remove them also.
(5) Connect the wires and connectors of the major parts that
have been removed in steps (1) to (4). (Refer to Fig. 2-2a.)
(6) Place the combined Mechanism, Main board and other
board assemblies upside down.
(7) Insert the power cord plug into the power outlet and then
proceed with the diagnostics and servicing of the board as-
sembly.
Notes:
• Before inserting the power cord plug into the power out-
let, make sure that none of the electrical parts are able
to short-circuit between the workbench and the board
assembly.
• For the disassembly procedure of the major parts and
details of the precautions to be taken, see "3.1 Removing the major parts".
• If there are wire connections from the Main board and
Mechanism assemblies to the other major parts, be sure
to remove them (including wires connected to the major
parts) first before performing step (2).
• When carrying out diagnosis and repair of the Main
board assembly in the "Service position", be sure to
ground both the Main board and Mechanism assemblies. If they are improperly grounded, there may be
noise on the playback picture or FDP counter display
may move even when the mechanism is kept in an inoperative status.
• In order to diagnose the playback or recording of the cas-
sette tape, set the Mechanism assembly to the required
mode before placing it upside down. If the mechanism
mode is changed (including ejection) while it is in an upside down position the tape inside may be damaged.
• For some models, the mechanism and board assem-
blies are attached by connectors only. When carrying
out a diagnosis or repair of the boards in the "Service
position", make sure that the connectors are not disconnected.
TP4001
TP106
CTL.P
PB.FM
TP2254
C3025
TIMER
CLOCK
A.REC.FM
TP2253
A.PB.FM
TP111
D.FF
Main board
assembly
2.3 Jig RCU mode
This unit uses the following two modes for receiving remote control codes.
(1) User RCU mode:Ordinary mode for use by the user.
(2) Jig RCU mode: Mode for use in production and servicing.
When using the Jig RCU, it is required to set the VCR to the Jig
RCU mode (the mode in which codes from the Jig RCU can be
received). As both of the above two modes are stored in the EEPROM, it is required to set the VCR back to the User RCU mode
each time that an adjustment is made or to check that the necessary operations have been completed.These modes can be set
by the operations described below.
User RCU mode
Jig RCU mode
( : not displayed)
2.3.1 Setting the Jig RCU mode
(1) Unplug the power cord plug from the power outlet.
(2) Press and hold the "REC" and "PAUSE" buttons on the
VCR simultaneously, while plugging the power cord plug
into the power outlet.
When the VCR is set to the Jig RCU mode, the symbols
( " : " ) in the time display of the FDP are turned off.
2.3.2 Setting the User RCU mode
(1) Turn off the power.
(2) Press the "REC" and "PAUSE" buttons of the VCR simulta-
neously. Alternatively, transmit the code "80" from the Jig RCU.
2.4 Mechanism service mode
This model has a unique function to enter the mechanism into every operation mode without loading of any cassette tape. This
function is called the "Mechanism service mode".
2.4.1 How to set the "Mechanism service mode"
(1) Set the VCR to the Jig RCU mode (the mode in which
codes from the Jig RCU can be received).
(2) Transmit the code "E5" from the Jig RCU.
(3) Release the lug of the Cassette holder and then slide the
Cassette holder toward the direction where the Cassette
holder is loaded by manually.
(4) The cassette holder lowers and, when the loading has
completed, the mechanism enters the desired mode.
When the VCR is set to the Mechanism service mode, the
symbols ("Timer") in the FDP (LED) are blinked.
2.4.2 How to exit from the "Mechanism service mode"
(1) Unplug the power cord plug from the power outlet.
Fig.2-2a
1-6 (No.YD010)
Page 7
2.5 Maintenance and inspection
2.5.1 Cleaning
Regular cleaning of the transport system parts is desirable but
practically impossible. So make it a rule to carry out cleaning of
the tape transport system whenever the machine is serviced.
When the video head, tape guide and/or brush get soiled, the
playback picture may appear inferior or at worst disappear, resulting in possible tape damage.
Note:
• Absolutely avoid sweeping the upper drum vertically as
this will cause damage to the video head.
(1) When cleaning the upper drum (especially the video head),
soak a piece of closely woven cloth with alcohol and while
holding the cloth onto the upper drum by the fingers, turn
the upper drum counterclockwise.
(2) To clean the parts of the tape transport system other than
the upper drum, use a piece of closely woven cloth or a cotton swab soaked with alcohol.
(3) After cleaning, make sure that the cleaned parts are com-
pletely dry before using the cassette tape.
A/C head
Video heads
Fig.2-5a
2.5.2 Lubrication
With no need for periodical lubrication, you have only to lubricate
new parts after replacement. If any oil or grease on contact parts
is soiled, wipe it off and newly lubricate the parts.
Note:
• See the "mechanism assembly" diagram of the "parts
list" for the lubricating or greasing spots, and for the
types of oil or grease to be used.
2.5.3 Suggested servicing schedule for main components
The following table indicates the suggested period for such service measures as cleaning, lubrication and replacement. In practice, the indicated periods will vary widely according to
environmental and usage conditions. However, the indicated
components should be inspected when a set is brought for service and the maintenance work performed if necessary. Also
note that rubber parts may deform in time, even if the set is not
used.
System Parts name
Operation hours
1000H 2000H
Drum assembly C,X X
A/C head C,X C,X
Pinch roller arm assembly C C
Tape
transport
Full erase head C C
Tension arm assembly C C
Capstan motor (Shaft) C C
Guide arm assembly C C
Capstan motor X
Capstan brake assembly X
Main brake assembly X
Drive
Belt (Capstan) X X
Loading motor X
Clutch unit X
Worm gear X
Control plate X
Other Rotary encoder X
C : Cleaning
X : Inspection or Replacement if necessary
(No.YD010)1-7
Page 8
SECTION 3
DISASSEMBLY
3.1 Removing the major parts
3.1.1 How to read the procedure table
This table shows the steps for disassembly of the externally furnished parts and board assemblies. Reverse these steps when
re-assembling them.
Step/
Loc No.
[1] Top cover 3-1a
(1) (2) (3) (4) (5)
Part Name
Bracket 2(S1c)
(1) Order of steps in Procedure
When reassembling, perform the step(s) in the reverse order.
These numbers are also used as the identification (loca-
tion) No. of parts Figures.
(2) Part name to be removed or installed.
(3) Fig. No. showing procedure or part location.
(4) Identification of part to be removed, unhooked, unlocked,
released, unplugged, unclamped or unsoldered.
P= Spring, W= Washer, S= Screw, L= Locking tab, SD=
Solder, CN**(WR**)= Remove the wire (WR**) from the
connector (CN**).
Note:
• The bracketed ( ) WR of the connector symbol are
assigned nos. in priority order and do not correspond to those on the spare parts list.
(5) Adjustment information for installation
3.1.2 Disassembly procedure
Step/
Loc No.
[1] Top cover
[2] Front panel assembly
[3] Mechanism assembly
[4]
[5]
Part Name
(Drum assembly)
Main board assembly
Bottom cover
< Note 2a >
• When reattaching the Front panel assembly, make sure that
the door opener of the Side frame (R) is lowered in position prior to the reinstallation.
• When reattaching the Front panel assembly, pay careful attention
to the switch lever of the Front panel assembly not to make it
touch the switch knob of the Main board assembly from the side.
• When reattaching the Front panel assembly, lift the Cassette
door slightly.
Fig.
No.
----------------------------------------
Fig.
No.
3-1d
3-1d
3-1a
3-1d
3-1b
3-1c
3-1d
3-1d
Point Note
4(S1a),(S1b),3(L1a), <Note 1a>
2(SD1a),(P1a),(W1a),
CN1(WR1a),
Point
4(S1a), (S1b)
2(S2a), 6(L2a), 3(L2b) <
CN7001(WR2a)
CN2001(WR3a),
2(S3a)
--------------------------
CN1(WR3b),
(S3c), (S3d), (S3e),
3(S4a),(S4b)
4(L5a),3(L5b),3(L5c)
Note
Note 2a
Note 3a
<
<
Note 3a
<
Note 3b
<
Note 3c
<
Note 3d
>
>
>
>
>
>
Door
opener
Side
frame(R)
Switch
knob
Switch
lever
Fig.3-1a
< Note 3a >
• Be careful not to damage the connector and wire etc. during
connection and disconnection.
• When connecting the flat wire to the connector, be careful with
the flat wire direction.
< Note 3b >
• When reattaching the Mechanism assembly, secure the
screws (S3a to S3b) in the order of a, b.
< Note 3c >
• When reattaching the Mechanism assembly, be sure to align
the phase of the Rotary encoder on the Main board assembly.
• When reattaching the Mechanism assembly, set the "Mechanism assembling mode". [See "MECHANISM ASSEMBLY
SERVICE MANUAL (No. 86700)".]
• When reattaching the Mechanism assembly to the Main board
assembly, take care not to damage the sensors and switch on
the Main board assembly.
< Note 3d >
• When reattaching the Drum assembly, secure the screws (S3c
to S3e) in the order of c, d, e.
Mechanism
assembly
(S3d)
(S3c)
(S3e)
Drum
assembly
<Note 3c>
(S3d)
<NOTE>
Attach the Drum assembly appropriately,
since the installation state of the Drum assembly
influences the FM WAVEFORM LINEARITY
greatly.
(S3c)
(S3e)
HOOK
Fig.3-1b
• When handling the drum assembly alone, hold it by the motor
or shaft. Be careful not to touch other parts, especially the video heads. Also take care not to damage the connectors.
Shaft
Motor
Video heads
1-8 (No.YD010)
Fig.3-1c
Page 9
[3]Machanism assembly
<Note 3c>
NOTE) CONFIRM THE DOOR OPENER IS DOWN.ATTACH THE
F.PANEL AFTER THE CASSETE DOOR IS LIFTED UP.
SAT CTL board assembly
JS3001
<Phase alignment>
.
Accord the position of V gap on R.ENCORDER and PWB silk
.
Accord the position of Boss on R.ENCORDER and PWB silk
[2]Front panel assembly
<Note 2a>
[4]Main board assembly
(L2a)
(L2a)
(L2b)
(L2a)
[3]Drum assembly
(S3a)
(S3c)
<Note 3d>
c
<Note 3d>
(S3e)
<Note 3d>
(S3d)
<Note 3d>
(S1a)
(S3a)
c
d
(S1b)
[1]Top cover
(S1a)
(S4a)
Q3002
g
(S4a)
b
g
(S4b)
d
d'
d'
(S4a)
c
c'
c'
Insert the bushing of POWER CORD
so as not to twist the cord.
CN5001
(L5a)
NOTE
1. Insert direction of FFC WIRE as follows.
right side
electrode side
2. FFC WIRE and DRUM FPC WIRE
should be insert as follows.
OK
90
CN
3. Insert direction of POWER CORD.
US/UC/JPN
WHITE LINE
(L5c)
NEUTRAL
CN5001
back side
supporting side
NG
CN CN
except US/UC/JPN
BLUE
NEUTRAL
CN5001
c
Q3003
b
c'
D3001
JS3001
(S2a)
k
m
m
(S2a)
Bottom chassis
Cassette door
<Note 2a>
BOTTOM SIDE
TOP SIDE
[5]Bottom cover
(L2b)
NOTE) WHEN YOU FIX ANY PWB WITH THE SCREW.
PUT IT ON THE JIGS.
<Note 3a>
CN7003
CN7004
Adv.jog board assembly
NOTE) INSERT FFC WIRE TO THE CONNECTOR BEFORE
ATTACHING TO FRONT PANEL.
Fig.3-1d
(WR2a)
(L5b)
Dress WIRE between L6002 and C7128,
At this time ensure WIRE is laid on the PWB.
(To prevent interferance from WIRE to TU
PACK)
C7128
L6002
CN1601
CN512
CN7102
(L5a)
DRUM
<WR3b>
<Note 3a>
Ensure wire is not slanting after insert.
CN2001
A/C HEAD
<WR3a>
<Note 3a>
CN5001
Bend
CN7001
back side
(No.YD010)1-9
Page 10
SECTION 4
ADJUSTMENT
4.1 Before adjustment
4.1.1 Precaution
• The adjustments of this unit include the mechanism com-
patibility and electrical adjustments. During the performance of this work, be sure to observe the precautions for
each type of adjustment.
• If there is a reference to a signal input method in the signal
column of the adjustment chart, "Ext. S-input" means the
Y/C separated video signal and "Ext. input" means the
composite video signal input.
• Unless otherwise specified, all measuring points and
adjustment parts are located on the Main board.
4.1.2 Required test equipments
• Color (colour) television or monitor
• Oscilloscope: wide-band, dual-trace, triggered delayed sweep
• Signal generator: RF / IF sweep / marker
• Signal generator: stairstep, color (colour) bar [PAL]
• Recording tape
• Digit-key remote controller(provided)
4.1.3 Required adjustment tools
--- : Not used
z
: Used
Mechanism
compatibility
adjustment
Roller driver
z ---
Jig RCU --- z
Back tension cassette gauge z ---
Alignment tape(MHPE) z ---
Alignment tape(MHPE-L) zz
Roller driver
PTU94002
Alignment tape
(SP, stairstep, PAL)
MHPE
Jig RCU
PTU94023B
Alignment tape
(LP, stairstep, PAL)
MHPE-L
Back tension cassette gauge
Electrical
adjustment
PUJ48076-2
4.1.4 Color (colour) bar signal,Color (colour) bar pattern
Colour bar signal [PAL]
White(100%)
White(75%)
0.7 V
1V
0.3 V
Horizontal sync
Yellow
Cyan
Green
Magenta
Red
VU
V(R-Y)
U(B-Y)
Blue
Burst
Colour bar pattern [PAL]
(75%)
Cyan
White
Yellow
0.3 V
V
White
U Black
100%
Green
Magenta
Red
Blue
4.1.5 Switch settings
When adjusting this unit, set the VCR mode and switches
as described below.
• When using the Jig RCU, it is required to set the VCR to the
Jig RCU mode (the mode in which codes from the Jig RCU can
be received). (See "section 2 SPECIFIC SERVICE INSTRUCTIONS".)
Jig RCU
[Data transmitting method]
Depress the " "( 3 ) button
after the data code is set.
CUSTOM CODE
43: A CODE
DATA CODE
INITIAL MODE
Fig.4-1a Jig RCU [PTU94023B]
• Set the switches as shown below unless otherwise specified
on the relevant adjustment chart. The switches that are not listed below can be set as desired.
If the VCR is not equipped with the functions detailed below,
setup is not required.
AUTO PICTURE/VIDEO CALIBRATION/
B.E.S.T./D.S.P.C.
PICTURE CONTROL/SMART PICTURE NORMAL/NATURAL
VIDEO STABILIZER OFF
TBC ON
Digital 3R ON
VIDEO NAVIGATION/TAPE MANAGER OFF
BLUE BACK OFF
OFF
1-10 (No.YD010)
4.1.6 Manual tracking mode (Auto tracking ON/OFF) set-
ting
(1) In order to set to the manual tracking mode during tape
playback, press the "SP/EP(LP)"button on the remote control unit.
• Each press of the button switches the auto tracking ON
or OFF.
• When the manual tracking mode is set, the tracking is
placed at the center position.
(2) Press "channel +/-" to adjust the tracking manually.
Page 11
4.2 Mechanism compatibility adjustment
Notes:
• Although compatibility adjustment is very important, it
is not necessary to perform this as part of the normal
servicing work. It will be required when you have replaced the A/C head, drum assembly or any part of the
tape transport system.
• To prevent damaging the alignment tape in the compat-
ibility adjustment, prepare a cassette tape (for self-recording/playback), perform a test on it by transporting it
and making sure that the tape is not bent by the tape
transport mechanisms such as in the guide rollers.(See
Fig.4-2b.)
4.2.1 Tension pole position
Notes:
• This adjustment must be performed every time the ten-
sion band is replaced.
Signal (A) • Back tension cassette gauge [PUJ48076-2]
Mode (B1)
Adjustment part (F) • Adjust pin [Mechansim assembly]
Specified value (G)
•PB
(B2)
• Eject end
• 25 - 51 gf·cm (2.45 - 5 x 10
-3
Nm)
(1) Play back the back tension cassette gauge (A).
(2) Check that the indicated value on the left side gauge is
within the specified value (G).
(3) If the indicated value is not within the specified value (G),
perform the adjustment in a following procedure.(See
Fig.4-2a.)
a) Remove the top frame, cassette holder and side
frames (L/R) all together. (Refer to the SERVICE
MANUAL No.86700 [MECHANISM ASSEMBLY].)
b) Rotate the loading motor gear to move the control
plate so that the triangular stamping to the left of the
"P"stamping is aligned with the stamping (a) on the
main deck. This positioning is mode (B1).
c) Adjust by turning the adjustment pin so that the tip of
the tension arm is aligned with the stamping (b) on
the main deck.
d) Rotate the reel disk (S) by about one turn clockwise
and make sure that the round hole of the adjustment
pin is located in the "OK" range. If it is outside this
range, restart the adjustment from the beginning.
After completion of the adjustment, rotate the loading gear
motor to return it to the mode (B2) position.
4.2.2 FM waveform linearity
Signal (A1)
Mode (B) • PB
Equipment (C) • Oscilloscope
Measuring point (D) • TP106 (PB. FM)
External trigger (E) • TP111 (D. FF)
Adjustment part (F) • Guide roller [Mechanism assembly]
Specified value (G) • Flat V. PB FM waveform
Adjustment tool (H) • Roller driver [PTU94002]
• Alignment tape(SP, stairstep, PAL) [MHPE]
(A2)
• Alignment tape(LP, stairstep, PAL) [MHPE-L]
(1) Play back the alignment tape (A1).
(2) Apply the external trigger signal to D.FF (E), to observe
the V.PB FM waveform at the measuring point (D).
(3) Set the VCR to the manual tracking mode.
(4) Make sure that there is no significant level drop of the V.PB
FM waveform caused by the tracking operation, with its
generally parallel and linear variation ensured. Perform the
following adjustments when required. (See Fig. 4-2c.)
(5) Reduce the V.PB FM waveform by the tracking operation.
If a drop in level is found on the left side, turn the guide roll-
er of the pole base assembly (supply side) with the roller
driver to make the V.PB FM waveform linear.
If a drop in level is on the right side, likewise turn the guide
roller of the pole base assembly (take-up side) with the
roller driver to make it linear. (See Fig. 4-2c.)
(6) Make sure that the V.PB FM waveform varies in parallel
and linearly with the tracking operation again. When re-
quired, perform fine-adjustment of the guide roller of the
pole base assembly (supply or take-up side).
(7) Unload the cassette tape once, play back the alignment
tape (A1) again and confirm the V.PB FM waveform.
(8) After adjustment, confirm that the tape wrinkling does not
occur at the roller upper or lower limits. (See Fig. 4-2b.)
[Perform adjustment step (9) only for the models equipped
with SP mode and EP (or LP) mode.]
[Perform adjustment step (9) only for the models
equipped with SP mode and EP (or LP) mode.]
(9) Repeat steps (1) to (8) by using the alignment tape (A2).
Improper
(a)
GUIDE ROLLER
Proper
TENSION ARM
Stamping(b)
OK
ADJUST PIN
NG
Fig.4-2a
CONTROL PLATE
Stamping(a)
(b)
GUIDE POLE
Fig.4-2b
(No.YD010)1-11
Page 12
Proper waveform variation
Improper waveform variation
A
C
Up Down
B
D
Roller driver
Guide roller
(supply side)
Fig.4-2c
4.2.3 Height and tilt of the A/C head
Note:
• Set a temporary level of the height of the A/C head in ad-
vance to make the adjustment easier after the A/C head
has been replaced. (Refer to the SERVICE MANUAL
No.86700 [MECHANISM ASSEMBLY].)
Signal (A) • Alignment tape(SP, stairstep, PAL) [MHPE]
Mode (B) • PB
Equipment (C) • Oscilloscope
Measuring point (D1)
External trigger (E) • TP111 (D. FF)
Adjustment part (F) • A/C head [Mechanism assembly]
Specified value (G) • Maximum waveform
• TP106 (PB. FM)
(D2)
• TP4001 (CTL. P)
(1) Play back the alignment tape (A).
(2) Apply the external trigger signal to D.FF (E), to observe the
AUDIO OUT waveform and Control pulse waveform at the
measuring points (D1) and (D2) in the ALT mode.
(3) Set the VCR to the manual tracking mode.
(4) Adjust the AUDIO OUT waveform and Control pulse wave-
form by turning the screws (1), (2) and (3) little by little until
both waveforms reach maximum. The screw (1)
and (3) are for adjustment of tilt and the screw (2) for azi-
muth.
Head base
(2)
(1)
AUDIO OUT
4.2.4 A/C head phase (X-value)
Signal (A1)
Mode (B) • PB
Equipment (C) • Oscilloscope
Measuring point (D) • TP106 (PB. FM)
External trigger (E) • TP111 (D. FF)
Adjustment part (F) • A/C head base [Mechanism assembly]
Specified value (G) • Flat V. PB FM waveform
Adjustment tool (H) • Roller driver [PTU94002]
• Alignment tape(SP, stairstep, PAL) [MHPE]
(A2)
• Alignment tape(LP, stairstep, PAL) [MHPE-L]
(1) Play back the alignment tape (A1).
(2) Apply the external trigger signal to D.FF (E), to observe the
V.PB FM waveform at the measuring point (D).
(3) Set the VCR to the manual tracking mode.
(4) Loosen the screws (4) and (5), then set the Roller driver to
the innermost projected part of the A/C head. (See Fig. 4-
2e.)
(5) Rotate the roller driver so that the A/C head comes closest
to the capstan. From there, move the A/C head back grad-
ually toward the drum until the point where the FM wave-
form is maximized for the second time, and then
tighten the screws (4) and (5) temporarily.
(6) Play an alignment tape (A2) and set to the manual-tracking
mode.
(7) Fine-adjust A/C head base position to maximize the FM
waveform, and then tighten the screws (4) and (5) firmly.
(8) Play alignment tapes (A1) and (A2) and confirm that the FM
waveforms are maximized when the tracking is at the cen-
ter position.
To the drum
Toward the capstan
Toward the drum
A/C head
Screw (5)
Roller driver
Screw (4)
Head base
To the capstan
Fig.4-2e
Alignment tape
[SP, stairstep]
played with the
SP head
Waveform output
X-value adjustment point
Drum side Control head position Capstan side
Alignment tape
[EP(LP), stairstep]
played with the
EP(LP) head
A/C head
(3)
Fig.4-2d
1-12 (No.YD010)
CTL. P
Maximum
Fig.4-2f
Page 13
4.3 Electrical adjustment
Note:
The following adjustment procedures are not only necessary after replacement of consumable mechanical parts
or board assemblies, but are also provided as references
to be referred to when servicing the electrical circuitry.
In case of trouble with the electrical circuitry, always begin a service by identifying the defective points by using
the measuring instruments as described in the following
electrical adjustment procedures. After this, proceed to
the repair, replacement and/or adjustment. If the required
measuring instruments are not available in the field, do
not change the adjustment parts (variable resistor, etc.)
carelessly.
4.3.1 Servo circuit
4.3.1.1 Switching point
Signal (A1)
Mode (B) • PB
Equipment (C) • Oscilloscope
Measuring point (D) • VIDEO OUT terminal (75Ω terminated)
External trigger (E) • TP111 (D. FF)
Adjustment part (F) • Jig RCU: Code “5A”
Specified value (G) • 6.5±0.5H
Adjustment tool (H) • Jig RCU [PTU94023B]
• Stairstep signal
(A2)
• Alignment tape(LP, stairstep, PAL) [MHPE-L]
• TP106 (PB. FM)
(1) Play back the signal (A1) of the alignment tape (A2).
(2) Apply the external trigger signal to D.FF (E) to observe the
VIDEO OUT waveform and V.PB FM waveform at the mea-
suring points (D1) and (D2).
(3) Set the VCR to the manual tracking mode.
(4) Adjust tracking so that the V.PB FM waveform becomes
maximum.
(5) Set the VCR to the Auto adjust mode by transmitting the
code (F) from the Jig RCU. When the VCR enters the stop
mode, the adjustment is completed.
(6) If the VCR enters the eject mode, repeat steps (1) to (5)
again.
(7) Play back the alignment tape (A2) again, confirm that the
switching point is the specified value (G).
Trigger point
Switching point
V.sync
V. rate
Fig.4-3a Switching point
4.3.1.2 Slow tracking preset
Signal (A1)
Mode (B1)
Measuring point (D) • TV-Monitor
Adjustment part (F) • Jig RCU: Code “71”or “72”
Specified value (G) • minimum noise
Adjustment tool (H) • Jig RCU [PTU94023B]
• Ext. input
(A2)
• Color (colour) bar signal [PAL]
• SP
(B2)
•LP
(1) Record the signal (A2) in the mode (B1), and play back
the recorded signal.
(2) Set the VCR to the manual tracking mode.
(3) Set the VCR to the FWD slow (+1/6x) mode.
(4) Transmit the code (F) from the Jig RCU to adjust so that the
noise bar becomes the specified value (G) on the TV
monitor in the slow mode.
(5) Set the VCR to the Stop mode.
(6) Confirm that the noise bar is (G) on the TV monitor in the
slow mode.
(7) Repeat steps (3) to (6) in the REV slow (-1/6x) mode.
(8) Repeat steps (1) to (7) in the mode (B2).
Note:
• For FWD slow (+1/6x) playback, transmit the code “08”
from the Jig RCU to enter the slow playback mode, and
transmit the code “D0”for REV slow (-1/6x) mode.
4.3.2 Syscon circuit [EX, EY, EZ MODELS]
Notes:
• When perform this adjustment, remove the Mechanism
assembly.
4.3.2.1 Timer clock
Signal (A1) • No signal
Mode (B) • EE
Equipment (C) • Frequency counter
Measuring point (D1)
Adjustment part (F) • C3025 (TIMER CLOCK)
Specified value (G) • 1024.008 ± 0.001 Hz
• IC3001 pin 44
(D2)
• IC3001 pin 103
(D3)
• C3054 + and -
(976.5549 ± 0.0010 usec)
(1) Connect the frequency counter to the measuring point
(D1).
(2) Connect the short wire between the short point (D2) and
Vcc (5V).
(3) Short the leads of capacitor (D3) once in order to reset
the microprocessor of the Syscon.
(4) Disconnect the short wire between the short point (D2)
and Vcc then connect it again.
(5) Adjust the Adjustment part (F) so that the output frequency
becomes the specified value (G).
(No.YD010)1-13
Page 14
SECTION 5
TROUBLESHOOTING
5.1 Manually removing the cassette tape
If you cannot remove the cassette tape which is loaded because
of any electrical or mechanical failures, manually remove it by
taking the following steps.
(1) Unplug the power cord plug from the power outlet.
(2) Refer to the disassembly procedure of the VCR and per-
form the disassembly of the major parts before removing
the mechanism assembly. (See Fig. 5-1a)
Fig.5-1a
Tension arm assembly
Pole base assembly
Pinch roller arm assembly
(3) Unload the pole base assembly by manually turning the
gear of the loading motor until the pole base assembly is
hidden behind the cassette lid. In doing so, hold the tape by
the hand to keep the slack away from any grease. (See
Fig.5-1b )
In case of mechanical failures, while keeping the tension arm assembly free from tension, pull out the tape
on the pole base assembly. Take the spring(a) of the
pinch roller arm assembly off the hook, and detach it
from the tape.
(4) Remove the screw (a) of the side frame (L/R).
(5) Hold the slack tape and cassette cover together, lift the
cassette tape, top frame, cassette holder and side frames
(L, R) together from the rear and remove them by dis-engaging the hooks (a) and (b).
Screw(a)
Cassette tape
Hook(a)
Cassette holder
Top frame
Side frame(R)
Screw(a)
Spring(a)
Direction of unloading
Side frame(L)
Hook(b)
Fig.5-1c
(6) Take up the slack of the tape into the cassette. This com-
pletes removal of the cassette tape.
Fig.5-1b
1-14 (No.YD010)
Page 15
5.2 Emergency display function
This unit saves details of the last two emergencies as the EMG
history and allows the status of the VCR and the mechanism of
each emergency to be shown both on the display and as OSD information.
When using the emergency function, it is required to set the VCR
to the Jig RCU mode (the mode in which codes from the Jig RCU
can be received).
Jig RCU
[Data transmitting method]
Depress the " " ( 3 ) button
after the data code is set.
CUSTOM CODE
43: A CODE
DATA CODE
INITIAL MODE
Fig.5-2a Jig RCU [PTU94023B]
5.2.1 Displaying the EMG information
The EMG detail of information can be displayed by transmitting
the code "59" from the Jig RCU.
Note:
• The EMG detail information < 1 >< 2 > show the informa-
tion on the latest EMG.
It becomes " - - : - - : - -" when there is no latest EMG
record.
0: 00
E: **
1E: **
1: *1
2: *2
3: 34
4: *5
5: *6
6: *7
7: *8
8: *9
9: *10
Normal display
EMG content display (Latest) See 5.2.4
EMG content display (Previous) See 5.2.4
EMG detail information <1> See 5.2.5
[Deck operation mode]
EMG detail information <1> See 5.2.5
[Mechanism operation mode]
EMG detail information <1> See 5.2.5
[Mechanism sensor information and Mechanism mode position]
EMG detail information <2> See 5.2.6
[Type of the cassette tape in use <1>]
EMG detail information <2> See 5.2.6
[Winding position of the cassette tape in use]
EMG detail information <2> See 5.2.6
[Type of the cassette tape in use <2> (Winding area)]
EMG detail information <3> See 5.2.7
[Previous deck operation mode]
EMG detail information <3> See 5.2.7
[The deck operation mode of the one before the last]
EMG detail information <3> See 5.2.7
[The deck operation mode of the one prior to one above]
EMG display of 7segment LED display model
Fig.5-2b
0 : 00 : 00
E:** :**
*1 : *2 : 34
*5: *6 : *7
*8: *9 : *10
Normal display (Counter or clock)
EMG content display (E:Latest:Previous) See 5.2.4
[EMG code display mode]
EMG detail information <1> display See 5.2.5
[Deck and other mode display mode]
EMG detail information <2> display See 5.2.6
[Cassette display mode]
EMG detail information <3> display See 5.2.7
[Deck mode history dispaly mode]
EMG display of FDP display model
Fig.5-2c
< Reference > EMG display of FDP display mode
(1) Transmit the code "59" from the Jig RCU.
The FDP shows the EMG content in the form of "E:**:**".
<Example 1> E : 01
Latest EMG
<Example 2> E : - -
No EMG record
(2) Transmit the code "59" from the Jig RCU again.
The FDP shows the EMG detail information < 1 > in the
form of " *1: *2 : 34 ".
*1 : Deck operation mode at the moment of EMG
*2 : Mechanism operation mode at the moment of EMG
3- : Mechanism sensor information at the moment of EMG
-4 : Mechanism mode position at the moment of EMG
(3) Transmit the code "59" from the Jig RCU once again.
The FDP shows the EMG detail information < 2 > in the
form of " *5 : *6 : *7 ".
*5 : Type of the cassette tape in use < 1 > .
*6 : Winding position of the cassette tape in use
*7 : Type of the cassette tape in use < 2 > (Winding area)
(4) Transmit the code "59" from the Jig RCU once again.
The FDP shows the EMG detail information < 3 > in the
form of "*8 : *9 : *10".
*8 : Previous deck operation mode at the moment of EMG
*9 : The deck operation mode of the one before the last at
the moment of EMG
*10: The deck operation mode of the one prior to one
above at the moment of EMG
(5) Transmit the code "59" from the Jig RCU once again to re-
set the display.
5.2.2 Clearing the EMG history
(1) Display the EMG history.
(2) Transmit the code "36" from the Jig RCU.
(3) Reset the EMG display.
(No.YD010)1-15
Page 16
5.2.3 Details of the OSD display in the EMG display mode
During the EMG display, the OSD shows the data on the deck
mode, etc. The details of the display contents are as follows.
Notes:
• The display is variable depending on the part No. of the
System Control microcomputer (IC3001) built into the
VCR. In the following, refer to the figure carrying the
same two characters as the top two characters of the
part number of your IC.
• The sensor information in the OSD display contents is
partially different from the mechanism sensor information in EMG detail information < 1 >.
[For MN* only]
AA BB CC DD EE
FF GG HH I I J J
KK L L MM NN OO
PP QQ RR SS TT
UU VV WW XX YY
AA : Deck operation mode (See EMG detail information < 1 >.)
BB : Mechanism operation mode
(See EMG detail of information < 1 >.)
CC : Mechanism transition flag
DD : Capstan motor control status
EE : Loading motor control status
FF : Sensor information (See sensor information details.)
GG : Capstan motor speed
HH : Key code (JVC code)
I I : Supply reel winding diameter data, higher 8 bits.
JJ : Supply reel winding diameter data, lower 8 bits.
KK : Mechanism sensor information & mechanism mode
position(See EMG detail of information < 1 >.)
LL : Tape speed data, higher 8 bits.
MM : Tape speed data, lower 8 bits.
NN : Cassette tape type < 2 >, higher 8 bits.
(See EMG detail of information < 2 >.)
OO : Cassette tape type < 2 >, lower 8 bits.
(See EMG detail of information < 2 >.)
PP : General data display area
YY : General data display area
*FF:Sensor information details
<Display>
** h
********
Encoder data
(See Mechanism mode sequence.)
Cassette tab present = 1
Cassette tab broken = 0
Cassette absent = 1
Cassette present = 0
Start sensor
End sensor
[For *HD only]
AA BB CC
DD EE FF
GGGG HHHH
I I JJJJ
KKKK LLLL MMMM
ROM No.
AA : Key code (JVC code)
BB : Deck operation mode(See EMG detail information < 1 >.)
CC : Mechanism operation mode (See EMG detail information
< 1 >.)
DD : Sensor information (See sensor information details.)
EE : Capstan motor speed (Search, double speed)
FF : Tracking value
GGGG : Cassette tape type < 2 >, 16 bits.
(See EMG detail information < 2 >.)
HHHH : Supply reel winding diameter data
I I : Capstan motor speed (FF/REW, double speed)
JJJJ : Tape speed data, lower 8 bits.
KKKK : General data display area
LLLL : General data display area
MMMM : General data display area
*DD:Sensor information details
<Display>
** h
********
Encoder data
(See Mechanism mode sequence.)
Remote pause
End sensor
Start sensor
Cassette tab present = 1
Cassette tab broken = 0
[For both MN*/HD*]
Mechanism mode sequence
Mechanism mode - Encoder data
LSA
12345
1110
GND
LSA
LSB
LSC
LSD
No. Position Encoder data
21
Encoder output = Low
or
Trerminal - GND = SHORT
1
EJECT 0 h = 0000
2
EJECT1 1 h = 0001
3
EJECT2 2 h = 0010
4
ULSTOP 3 h = 0011
5
UPPER 4 h = 0100
6
ONSTOP(PLAY) 5 h = 0101
7
FWD/SS 6 h = 0110
8
REV/SS 7 h = 0111
9
OFFSTOP 8 h = 1000
10
FFREW-BRAKE 9 h = 1001
FFREW A h = 1010
11
MIDDLE F h = 1111
12
543
Encoder output = High
or
Trerminal - GND = OPEN
LSD
9876
LSC
LSB
1-16 (No.YD010)
Page 17
5.2.4 EMG content description
Note:
EMG contents "E08/E09" are for the model with Dynamic Drum (DD).
FDP CONTENT CAUSE
E01: Loading EMG
Unloading EMG
E02:
E03: Take Up Reel
Pulse EMG
E04: Drum FG EMG
E05: Cassette Eject
EMG
E06: Capstan FG
EMG
E07: SW Power
Short-Circuit
EMG
E08:
DD Initialized
(Absolute
Position
Sensor) EMG
E09: DD FG EMG
E0A: Supply Reel
Pulse EMG
EU1:
Head clog warning
history
If the mechanism mode does not change to the next mode within 4 seconds after the loading motor starts rotating in the loading direction, while
the mechanism is in the after-loading position (with the tape up against
the pole base), [E:01] is identified and the power is switched OFF.
However, if the tape loading is not completed within 4 seconds after
the loading motor starts rotating in the loading direction, the tape is
simply unloaded and ejected. No EMG data is recorded in this case.
When the mechanism mode cannot be changed to another mode
even when the loading motor has rotated for more than 4 seconds in the unloading direction, [E:02] is identified and the power
is turned off.
When the falling edje of the take-up reel pulse has not been generated for more than 4 seconds in the capstan rotating mode,
[E:03] is identified, the pinch rollers are turned off and stopped,
and the power is turned off. In this case, however, the mechanism should be in position after tape loading. Note that the reel
EMG is not detected during Slow/Frame advance operations.
When the drum FG pulse has not been input for more than 3 seconds in the drum rotating mode, [E:04] is identified, the pinch rollers are turned off and stopped, and the power is turned off.
If the cassette does not reach the eject position within about 0.7
seconds after the cassette housing has started the cassette ejection operation, [E:05] is identified, the drive direction is reversed
to load the tape, the mode is switched to STOP mode with the
pinch roller OFF, and the power is switched OFF.
During the cassette insertion process, the drive direction is reversed
and the cassette is ejected if the tape is not up against the pole
base within about 3 seconds after the start of the cassette pullingin operation. If the cassette does not reach the eject position within
about 0.7 seconds after the drive mode reversal operation, [E:05]
is identified and the power is switched OFF immediately.
When the capstan FG pulse has not been generated for more
than 1 second in the capstan rotating mode, [E:06] is identified,
the pinch rollers are turned off and stopped, and the power is
turned off.However, the capstan EMG is not detected in SLOW/
STILL modes.
Note that, if the part number of the System Control IC begins with
"MN" or "M3", the capstan EMG is not detected even during the
FF/REW operation.
When short-circuiting of the SW power supply with GND has lasted
for 0.5 second or more, [E:07] is identified, all the motors are
stopped and the power is turned off.
When DD tilting does not complete in 4 seconds, [E:08] is identified, the tilt motor is stopped and the power is turned off.
When the DD FG pulse is not generated within 2.5 seconds, [E:09]
is identified, the tilt motor is stopped and the power is turned off.
When the falling edge of the supply reel pulse has not been generated for more than 10 seconds in the capstan rotating mode,
[E:0A] is identified and the cassette is ejected (but the power is
not turned off). In this case, however, the mechanism should be
in the position after tape loading (with the tape up against the pole
base). Also note that the reel EMG is not detected during Slow/
Frame advance operations.
Presupposing the presence of the control pulse output in the PLAY mode, when the value obtained by mixing the two V.FM output channels (without regard
to the A.FM output) has remained below a certain threshold level for more than 10 seconds, [E:U1] is identified and recorded in the emergency history.
During the period in which the head clog is detected, the FDP shows "U:01" and the OSD repeats the "3 seconds of warning display" and the "7 seconds of
noise picture display" alternately.
EMG code : "E:C1" or "E:U1" / FDP : "U:01" / OSD : "Try cleaning tape." or "Use cleaning cassette."
The head clog warning is reset when the above-mentioned threshold has been exceeded for more than 2 seconds or the mode is changed to another mode
than PLAY.
1. The mechanism is locked in the middle of the mode transition during a tape loading operation.
The mechanism overruns during the tape loading operation because the SYSCON cannot recognize
2.
the mechanism mode normally. This problem is due to a cause such as a rotary encoder failure.
3.
Power is not supplied to the loading MDA. (M12V/Vcc/Vref/ICP are disconnected in
the middle.)
1.
The mechanism is locked in the middle of mode transition.
2.
Without an eject signal being sent from the SYSCON, unloading is attempted (i.e. Ejection is attempted while the tape is still inside the mechanism.) because the SYSCON
cannot recognize the mechanism mode normally. This is due to a cause such as a
rotary encoder failure. (Mechanism position: UPPER)
3.
Power is not supplied to the loading MDA. (M12V/Vcc/Vref/ICP are disconnected in the middle.)
1.
The take-up reel pulse is not generated in the FWD transport modes (PLAY/FWD
SEARCH/FF, etc.) because;
1)The idler gear is not meshed with the take-up reel gear because the mechanism mal-
functions for some reason.
The idler gear is meshed with the take-up reel gear, but incapable of winding due to
2)
too large mechanical load (abnormal tension);
3)The reel is rotating normally but an FG pulse is not generated due to the take-up reel
sensor failure.
2.
The supply reel pulse is not generated in the REV transport modes (REV SEARCH/
REW, etc.) because;
1) The idler gear is not meshed with the supply reel gear because the mechanism mal-
functions for some reason.
2) The idler gear is meshed with the supply reel gear, but incapable of winding due to
too large a mechanical load (abnormal tension);
3) The reel rotates normally but the FG pulse is not generated due to a supply reel
sensor failure.
3.
Power(SW5V) is not supplied to the reel sensor on the tape winding side.
1.
The drum could not start or the drum rotation has stopped due to too large a load on
the tape, because;
1) The tape tension is abnormally high;
The tape is damaged or a foreign object (grease, etc.) adheres to the tape.
2)
2.
The drum FG pulse did not reach the System controller CPU because;
1) The signal circuit is disconnected in the middle;
2) The FG pulse generator (hall device) of the drum is faulty.
3.
The drum control voltage (DRUM CTL V) is not supplied to the MDA.
4.
Power (M12V) is not supplied to the drum MDA.
1.
The cassette cannot be ejected due to a failure in the drive mechanism of the housing.
2.
When the housing load increases during ejection, the loading motor is stopped because
of lack of headroom in its drive torque.
Housing load increasing factors: Temperature environment (low temperature, etc.),
mechanism wear or failure.
3.
The sensor/switch for detecting the end of ejection are not functioning normally.
4.
The loading motor drive voltage is lower than specified or power (M12V) is not supplied to the motor (MDA).
5.
When the user attempted to eject a cassette, a foreign object (or perhaps the user's
hand) was caught in the opening of the housing.
1.
The capstan could not start or the capstan rotation has stopped due to too large a load
on the tape, because;
1) The tape tension is abnormally high (mechanical lock);
2) The tape is damaged or a foreign object (grease, etc.) is adhered to the tape (occur-
rence of tape entangling, etc.).
2.
The capstan FG pulse did not reach the System controller CPU because;
1) The signal circuit is disconnected in the middle;
2) The FG pulse generator (MR device) of the capstans is faulty.
3.
The capstan control voltage (CAPSTAN CTL V) is not supplied to the MDA.
4.
Power (M12V, SW5V) are not supplied to the capstan MDA.
1.
The SW 5 V power supply circuit is shorted with GND.
2.
The SW 12 V power supply circuit is shorted with GND.
1. The absolute value sensor is defective. (The soldered parts have separated.)
2. The pull-up resistor at the absolute sensor output is defective. (The soldered parts have separated.)
3. Contact failure or soldering failure of the pins of the connector (board-to-board) to the absolute value
sensor.
The absolute value sensor data is not sent to the System Controller CPU.
4.
1. The FG sensor is defective. (The soldered parts have separated.)
2. The pull-up resistor at the FG sensor output is defective. (The soldered parts have separated.)
3. Contact failure or soldering failure of the pins of the connector (board-to-board) to the FG sensor.
4. The power (5V) to the sensor is not supplied. (Connection failure/soldering failure)
5. The FG pulse is not sent to the System Controller CPU.
The tilt motor is defective. (The soldered parts have separated.)
6.
7. The drive power to the tilt motor is not supplied. (Connection failure/soldering failure)
8. The tilt motor drive MDA - IC is defective.
9. Auto-recovery of the DD tilting cannot take place due to overrun.
1.
The supply reel pulse is not generated in the FWD transport mode (PLAY/FWD
SEARCH/FF, etc.) because;
1) PLAY/FWD or SEARCH/FF is started while the tape in the inserted cassette is cut in
the middle;
2) A mechanical factor caused tape slack inside and outside the supply reel side of the
cassette shell. In this case, the supply reel will not rotate until the tape slack is removed by the FWD transport, so the pulse is not generated until then;
3) The reel is rotating normally but the FG pulse is not generated due to a supply reel
sensor failure.
2.
The take-up reel pulse is not generated in the REV transport mode (REV SEARCH/
REW, etc.).
1) REV SEARCH/REW is started when the tape in the inserted cassette has been cut
in the middle;
2) A mechanical factor caused tape slack inside and outside the take-up reel side of
the cassette shell. In this case, the take up will not rotate until the tape slack is
removed by the REV transport, so the pulse will not be generated until that time;
3) The reel is rotating normally but the FG pulse is not generated due to a take-up reel
sensor failure.
3.
The power (SW 5V) to a reel sensor is not supplied.
(No.YD010)1-17
Page 18
5.2.5 EMG detail information < 1 >
The status (electrical operation mode) of the VCR and the status
(mechanism operation mode/sensor information) of the mechanism in the latest EMG can be confirmed based on the figure in
EMG detail information < 1 > .
[FDP/OSD display] *1 : *2 : 34
*1 : Deck operation mode at the moment of EMG
*2 : Mechanism operation mode at the moment of EMG
3- : Mechanism sensor information at the moment of EMG
-4 : Mechanism mode position at the moment of EMG
Note:
• For EMG detailed information < 1 >, the content of the
code that is shown on the display (or OSD) differs depending on the parts number of the system control microprocessor (IC3001) of the VCR. The system control
microprocessor parts number starts with two letters, refer these to the corresponding table.
*1 : Deck operation mode
[Common table of MN* and HD]
Display
MN* HD*
00 - Mechanism being initialized
01 00 STOP with pinch roller pressure off (or tape present with P.OFF)
02 01 STOP with pinch roller pressure on
03 - POWER OFF as a result of EMG
04 04 PLAY (Normal playback)
0C 0E REC
10 11 Cassette ejected
20 22 FF
21 - Tape fully loaded, START sensor ON, short FF
22 -
24 26 FWD SEARCH (variable speed) including x2-speed
2C 2E INSERT REC
40 43 REW
42 - Cassette identification REV SEARCH before transition to REW
44 47 REV SEARCH (variable speed)
4C 4C AUDIO DUB
6C 6E INSERT REC (VIDEO + AUDIO)
84 84 FWD STILL / SLOW
85 85 REV STILL / SLOW
8C 8F REC PAUSE
8D - Back spacing
8E - Forward spacing (FWD transport mode with BEST function)
AC AF INSERT REC PAUSE
AD - INSERT REC back spacing
CC CD AUDIO DUB PAUSE
CD - AUDIO DUB back spacing
EC EF INSERT REC (VIDEO + AUDIO) PAUSE
ED - INSERT REC (VIDEO + AUDIO) back spacing
Cassette identification FWD SEARCH before transition to FF
(SPx7-speed)
(SPx7-speed)
Deck operation mode
*2 : Mechanism operation mode
[Table of MN*]
Display
00 Command standby (No command to be executed)
01 Immediate Power OFF after EMG occurrence
02 Loading from an intermediate position during mechanism initialization
03 Unloading due to EMG occurrence during mechanism initialization
04 Ejecting cassette (ULSTOP to EJECT)
05 Inserting cassette (EJECT to ULSTOP)
06 Loading tape (ULSTOP to PLAY)
07 Unloading tape (PLAY to ULSTOP)
08 Transition from pinch roller ON to STOP
09 Transition from pinch roller OFF to STOP (PLAY to OFFSTOP)
0A Transition from pinch roller OFF to STOP at power OFF
0B Transition from pinch roller ON to STOP at power ON
0C Transition to PLAY
0D Transition to Search FF
0E Transition to REC
0F Transition to FWD STILL/SLOW
10 Transition to REV STILL/SLOW
11 Transition to Search REV
12 Transition from FF/REW to STOP
13 Transition to FF
14 Transition to REW
15 Tape end detection processing during loading
16 Short FWD/REV at tape sensor ON during unloading
17 Transition to FF/REW brake mode
Mechanism operation mode
[Table of HD*]
Display
00 STOP with pinch roller pressure off
01 STOP with pinch roller pressure on
02 U/L STOP (or tape being loaded)
04 PLAY (Normal playback)
05 PLAY (x1-speed playback using JOG)
0E REC
11 Cassette ejected
22 FF
26 FWD SEARCH (variable speed) including x2-speed
2E INSERT REC
43 REW
47 REV SEARCH
4C AUDIO DUB
6E INSERT REC (VIDEO + AUDIO)
84 FWD STILL/SLOW
85 REV STILL/SLOW
8F REC PAUSE
AF INSERT REC PAUSE
C7 REV SEARCH (x1-speed reverse playback using JOG)
CD AUDIO DUB PAUSE
EF INSERT REC (VIDEO + AUDIO) PAUSE
F0 Mechanism being initialized
F1 POWER OFF as a result of EMG
F2 Cassette being inserted
F3 Cassette being ejected
F4 Transition from STOP with pinch roller pressure on to STOP with pinch
roller pressure off
F5 Transition from STOP with pinch roller pressure on to PLAY
F6 Transition from STOP with pinch roller pressure on to REC
F7 Cassette type detection SEARCH before FF/REW is being executed
F8 Tape being unloaded
F9 Transition from STOP with pinch roller pressure off to STOP with pinch
roller pressure on
FA Transition from STOP with pinch roller pressure off to FF/REW
FB Transition from STOP with pinch roller pressure off to REC.P (T.REC,etc.)
FC Transition from STOP with pinch roller pressure off to cassette type
detection SEARCH
FD Short REV being executed after END sensor on during unloading
FE Tension loosening being executed after tape loading (STOP with pinch
roller pressure on)
FF Tape being unloaded
Mechanism operation mode
1-18 (No.YD010)
Page 19
3- : Mechanism sensor information
[Common table of MN* and HD*]
Display
REC safety SW
0- Tab broken ON ON ON
1- Tab broken ON
2- Tab broken ON
3- Tab broken ON OFF
4- Tab present ON
5- Tab present
6- Tab present OFF
7- Tab present OFF
8- Tab broken ON ON
9- Tab broken ON
A- Tab broken
B- Tab broken OFF
C- Tab present ON
D- Tab present
E- Tab present OFF
F- Tab present OFF
Tab broken = 0 Sensor ON = 0 Sensor ON = 0
Tab present = 1 sensor OFF = 1 Sensor OFF = 1
Mechanism sensor information
Start sensor End sensor
ON
OFF
OFF
OFF
ON
ON
OFF
OFF
ON
OFF
OFF
ON
OFF
ON
OFF
OFF OFF
Mechansim
position sensor
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
OFF
ON
-4 : Mechanism mode position
[Common table of MN* and HD*]
Mechanism
sensor
information
Dis-
play
Deck operation mode
-0 Not established
-1 EJECT EJECT position
-2 EJECT-EJECT1 Intermodal position
-3 EJECT1 EJECT1 position
-4 EJECT1-EJECT2 Intermodal position
-5 EJECT2 EJECT2 position
-6 EJECT2-ULSTOP Intermodal position
Even number
(0, 2, 4, 6, 8,
A, C, E)
-7 ULSTOP ULSTOP position
-8 ULSTOP-UPPER Intermodal position
-9 UPPER Loading (unloading) tape
-A UPPER-ONSTOP Intermodal position
-B ONSTOP PLAY position
-C PLAY-FWD/SS Intermodal position
-D FWD/SS
FWD (FWD Still/Slow) position
-E FWD/SS-REV Intermodal position
-F REV
REV (REV Still/Slow) position
-0 REV-OFFSTOP Intermodal position
-1 OFFSTOP Pinch roller OFF position
Odd number
(1, 3, 5, 7, 9,
B, D, F)
-2
OFFSTOP-FFREWB
Intermodal position
-3 FFREWB FF/REW Brake position
-4 FFREWB-FFREW Intermodal position
-5 FFREW FF/REW position
5.2.6 EMG detail information < 2 >
The type of the cassette tape and the cassette tape winding position can be confirmed based on the figure in EMG detail information < 2 > .
Note:
• EMG detail information < 2 > is the reference informa-
tion stored using the remaining tape detection function
of the cassette tape. As a result, it may not identify cassette correctly when a special cassette tape is used or
when the tape has variable thickness.
*5 : Cassette tape type < 1 >
Display Cassette tape type <1>
00 Cassette type not identified
16
Large reel/small reel (T-0 to T-15/T-130 to T-210) not classified
82 Small reel, thick tape (T-120) identified/thin tape (T-140) identified
84 Large reel (T-0 to T-60) identified
92
Small reel, thick tape (T-130) identified/thin tape (T-160 to T-210) identified
93
Small reel, thick tape/C cassette (T-0 to T-100/C cassette) not classified
C3
Small reel, thick tape/C cassette (T-0 to T-100/C cassette) being classified
D3
Small reel, thick tape/C cassette (T-0 to T-100/C cassette) being classified
E1 C cassette, thick tape (TC-10 to TC-20) identified
E2 Small reel, thick tape (T-0 to T-100) identified
E9 C cassette, thin tape (TC-30 to TC-40) identified
F1
C cassette, thick tape/thin tape (TC-10 to TC-40) not classified
Notes:
• Cassette tape type < 1 > is identified a few times during
mode transition and the identification count is variable
depending on the cassette tape type. If an EMG occurs
in the middle of identification, the cassette tape type
may not be able to be identified.
• If other value than those listed in the above table is dis-
played, the cassette tape type is not identified.
*6 : Cassette tape winding position
The cassette tape winding position at the moment of EMG is displayed by dividing the entire tape (from the beginning to the end)
in 21 sections using a hex number from "00" to "14".
0 : End of winding
14 : Beginning of winding
FF : Tape position not identified
*7 : Cassette tape type < 2 > (Winding area)
Display
00
04 - 08
05 - 06
05 - 0C
06 - 0C
06 - 0C
07 - 08
09 - 0B
0C - 0D
0D - 0F
0E - 10
10 - 12
10 - 13
11 - 14
12 - 14
13 - 14
13 - 14
13 - 14
13 - 14
15 - 16
16 - 17
17 - 18
19 - 1B
Cassette tape type <2>
Cassette type not identified
C cassette, thick tape TC-10
Small reel, thick tape T-20
C cassette, thick tape TC-20P
C cassette, thin tape TC-40
C cassette, thin tape TC-30
Small reel, thick tape T-40
Small reel, thick tape T-60
Small reel, thick tape T-80(DF-160)
Small reel, thick tape T-90(DF-180)
Small reel, thick tape T-100
Small reel, thin tape T-140
Small reel, thick tape T-120(DF-240)
Small reel, thick tape T-130
Small reel, thin tape T-160
Small reel, thin tape T-210(DF-420)
Small reel, thin tape T-180(DF-360)
Small reel, thin tape T-168
Small reel, thick tape DF-300
Large reel T-20
Large reel T-30
Large reel T-40
Large reel T-60
(Reference) Word data
(Beginning) (End)
(0497 - 0506) (0732 - 0858)
(05A9 - 0661)
(0599 - 05FF) (0AA1 - 0C07)
(0623 - 063D) (0C41 - 0CC3)
(0611 - 0638) (0C0C - 0CB2)
(07CC - 08E5)
(09FD - 0B78)
(0C20 - 0DFC)
(0D31 - 0F3E)
(0E43 - 107F)
(10E1 - 120C)
(1073 - 1313)
(1185 - 1429)
(12D3 - 141F)
(1373 - 14C3)
(1357 - 14C0)
(1395 - 14EE)
(13A8 - 14CE)
(1536 - 1618)
(1647 - 175A)
(1759 - 189C)
(1989 - 1B2F)
Note:
• The values of cassette tape type < 2 > in the above table
are typical values with representative cassette tapes.
5.2.7 EMG detail information < 3 >
Three deck operation modes preceding the deck operation mode
in which the EMG occurs may be confirmed based on the figures
in the EMG information detail < 3 >. For the contents of the displayed information, see the table "Deck operation mode" in section "5.2.5 EMG detail information < 1 >".
(No.YD010)1-19
Page 20
Victor Company of Japan, Limited
AV & MULTIMEDIA COMPANY DIGITAL VIDEO STORAGE CATEGORY 12, 3-chome, Moriya-cho, kanagawa-ku, Yokohama, kanagawa-prefecture, 221-8528, Japan
(No.YD010)
Printed in Japan
WPC
Page 21
SCHEMATIC DIAGRAMS
VIDEO CASSETTE RECORDER
4
HR-V610EX, HR-V610EY, HR-V610EZ,
HR-V611EX, HR-V611EY, HR-V611EZ,
HR-V612EX, HR-V612EY, HR-V612EZ,
HR-V615EK, HR-V616EK, HR-V617EK,
HR-V715EK
CD-ROM No.SML200405
PAL
SAT
SAT
VCR
VCR
REVIEW
REVIEW
(EK models)
HR-V610EX, HR-V610EY, HR-V610EZ, HR-V611EX, HR-V611EY,
HR-V611EZ, HR-V612EX, HR-V612EY, HR-V612EZ, HR-V615EK,
HR-V616EK, HR-V617EK, HR-V715EK [V17D1,V17D1+]
For disassembling and assembling of MECHANISM ASSEMBLY, refer to the SERVICE MANUAL No.86700(MECHANISM ASSEMBLY).
(EX, EY, EZ models)
COPYRIGHT © 2004 Victor Company of Japan, Limited.
No.YD010SCH
2004/5
Page 22
Page 23
CHARTS AND DIAGRAMS
NOTES OF SCHEMATIC DIAGRAM
Safety precautions
The Components identified by the symbol are
critical for safety. For continued safety, replace safety
critical components only with manufacturer's recommended parts.
1. Units of components on the schematic diagram
Unless otherwise specified.
1) All resistance values are in ohm. 1/6 W, 1/8 W (refer to
parts list).
Chip resistors are 1/16 W.
K: KΩ (1000Ω), M: MΩ (1000KΩ)
2) All capacitance values are in µF, (P: PF).
3) All inductance values are in µH, (m: mH).
4) All diodes are 1SS133, MA165 or 1N4148M (refer to parts
list).
2. Indications of control voltage
AUX : Active at high.
AUX or AUX(L) : Active at low.
3. Interpreting Connector indications
Note: If the voltages are not indicated on the schematic
diagram, refer to the voltage charts.
123
2.5
(5.0)
1.8
PB and REC modes
(Voltage of PB and REC modes
are the same)
PB mode
REC mode
4. Voltage measurement
1) Regulator (DC/DC CONV) circuits
REC : Colour bar signal.
PB : Alignment tape (Colour bar).
— : Unmeasurable or unnecessary to measure.
2) Indication on schematic diagram
Voltage Indications for REC and PB mode on the schematic diagram are as shown below.
5. Signal path Symbols
The arrows indicate the signal path as follows.
NOTE : The arrow is DVC unique object.
Playback signal path
Playback and recording signal path
Recording signal path
(including E-E signal path)
Capstan servo path
Drum servo path
(Example)
R-Y
Y
Playback R-Y signal path
Recording Y signal path
6. Indication of the parts for adjustments
The parts for the adjustments are surrounded with the circle as
shown below.
7. Indication of the parts not mounted on the circuit board
“OPEN” is indicated by the parts not mounted on the circuit
board.
R216
OPEN
1
2
3
1
2
3
1
2
3
1
4
2
3
Removable connector
Wire soldered directly on board
Non-removable Board connector
Board to Board
Connected pattern on board
The arrows indicate signal path
Note: The Parts Number, value and rated voltage etc. in
the Schematic Diagram are for references only.
When replacing the parts, refer to the Parts List.
Note: For the destination of each signal and further line
connections that are cut off from the diagram,
refer to "BOARD INTERCONNECTIONS"
CIRCUIT BOARD NOTES
1. Foil and Component sides
1) Foil side (B side) :
Parts on the foil side seen from foil face (pattern face)
are indicated.
2) Component side (A side) :
Parts on the component side seen from component face
(parts face) indicated.
2. Parts location guides
Parts location are indicated by guide scale on the circuit board.
Note: For general information in service manual, please
refer to the Service Manual of GENERAL INFORMATION Edition 4 No. 82054D (January 1994).
LOCATION
REF No.
IC101 B C 6 A
IC
Category : IC
Horizontal “A” zone
Vertical “6” zone
B : Foil side
(A : Component side)
C : Chip component
D : Discrete component)
2-1 2-2
Page 24
A
1
2
3
4
5
BCDEFG
VIDEO/N.AUDIO Page 2-5
VPS/PDC SLICER Page 2-7
SYSCON Page 2-9
FMA Page 2-11
SW.REG Page 2-13
TUNER Page 2-15
FRONT Page 2-17
TERMINAL Page 2-19
Page 2-17
Page 2-17
OPEN
OPEN
p10488001a_rev1
BOARD INTERCONNECTIONS
2-3 2-4
Page 25
A
1
2
3
4
5
BCD EFG
R2021
C8
C2
C3
R4
R3
R5
Q2
Q1
C10
L1
C5
C6
C.SYNC
R28
CN1
C7
L5
GND
C26
L2001
C9
Q12
X1
C23
C37
L6
C66
R2003
FMA_CH2
C4
X2
L3
C19
C11
B2
R12
FMA_COM
B5
V.PULSE
FMA_CH1
B7
R31
I2C_DATA
2Fsc
R29
C51
R30
C57
Q9
Q7
R22 R21
C62
C54
C61
L10
Q8
Q10
B8
C58
C59
L7
C60
Q16
C38
NA_PB
Q13
C27
C50
I2C_CLK
GND
SW5V
GND
V_TO_VPS/PDC
C12C13
C71
R2007
C63C64
R2024
R33
SECAM_DET
Q15
EE[L]
Q4
L14
L9
C52
2Fsc
R23
R24
C75
B9
Q17
B10
R39
PB_COLOR
Fsc
FROM_SUB_EMPH
V_TO_OSD
C55
C56
MESECAM_DET
NA_REC
C33
R7
R2006
R2001
R2011
RF_AUDIO
A.MUTE[H]
RF_AUDIO
C18
F.AUDIO[R]
A.IN1[L]
R6
F.AUDIO[R]
B1
C14
A.IN1[L]
B2001
C15
C2004C2003
LINE_OUT[L]
SW12V
R17
CN2001
L15
LINE_OUT[L]
F.AUDIO[L]
EE[L]
CTL3
R2023
R2022
A.IN1[R]
D2001
F.AUDIO[L]
A.IN1[R]
CN2
CTL4
LINE_OUT[R]
TO_SUB_EMPH
CTL3
V_TO_OSD
LINE_OUT[R]
R38
A.IN2[L]
A.IN2[R]
TO TERMINAL
TO FMA
TO TUNER
TO SW.REG
TO FMA
TO DRUM
TO SYSCON
TO SYSCON
OPEN
TO VPS/PDC SLICER
TO SYSCON
OPEN
TO SYSCON
TO TERMINAL
OPEN
A.IN2[L]
A.IN2[R]
B2002
K2003
B4
SB_GAIN
K2004
K2002 C2013
I2C_CLK
I2C_DATA
C22
D.FF
S_DET
IC1
K2001
SP_SHORT[H]
LP/EP_SHORT[H]
C16
C17
C20
C21
R2005
C24
C25
R1
C32
C1
R2
C30
C31
C34
R18
VIDEO_ENV
R14
R11
TU_AUDIO
D4
TP106
TP111
D3
GND
R26
R25
V_TO_VPS/PDC
2Fsc
R2013
R2014
C2006
R2015
C2007
C2008 C2010
C2009
R2016
C2011
R2017
Q2003
R2018
R2019
Q2002
Q2001
C2012
C29
R34
R20
C74
C73
B3
Q2055
N.REC_ST[H]
R37
R2055
C2005
R2056
C2054C2055
C2053
R2054
Q2051
C2052
Q2053
C2051
N.REC[H]
Q2052
CTL[-]
CTL[+]
R2052
Q2054
R2053
T2051
R2060
R2059
R2058
R2057
CN2002
L2
Q11
VHS[H]
REC_COLOR
Y_TO_AV
V_FROM_AV
C2001
C44
C40
C39
C41
C49
C36
SYNC_OUT
TU_VIDEO
Y_TO_SUB
B2004
SEL_REAR1/FRONT
FRONT_V_IN
REAR2_V_IN
Q6
L11
R35
R2009
C2002
R2010
B2003
R2012
R2002
R2004
C46
R2008
C35
C68
C43
C48
C47
C45
Q3
/50
#
#
#
#
#
OPEN
DTC144WUA
#
/6.3
#
#
#
/25
SHORT
/50
2SA1576A/QR/
QAX0576
#
#
#
/25
QAX0575
/50
#
#
OPEN
#
SHORT
#
#
2SC4081/QRS/
2SC4081/QRS/
#
/6.3
2SC4081/QRS/
2SC4081/QRS/
#
QQR0967-001
#
DTC144WUA
#
DTC144WUA
#
#
/50/50
#
/50
#
#
#
2SA1576A/QR/
#
2SA1576A/QR/
#
#
#
#
#
#
#
#
DTC144WUA
#
SHORT
#
#
/25
OPEN
#
#
#
OPEN
SHORT
/50
#
OPEN/6.3
#
#
1SS133
1SS270A
V_TO_OSD
SECAM_PB_COLOR
SECAM_DET
GND
C.SYNC
SW5V
Fsc
CTL2
CTL4
REC_COLOR
PB_FM
#
SECAM[H]
#
OPEN
#
OPEN
OPEN
OPEN
#
JCP8060
OPEN
#
#
#
/50
/6.3
OPEN
#
OPEN
PB.FM
D.FF
OPEN
##
#
/16
/50
/50
DTA144WUA
PDTA144WU
UN511E
RN2309
2SC4081/QRS/
2SD1819A/QRS/
2PC4081/R/
2SC4081/QRS/
2SD1819A/QRS/
2PC4081/R/
/50
#
#
#
#
#
#
DTC144WUA
PDTC144WU
UN521E
RN1309
/50
/25
2SC4081/QRS/
2SD1819A/QRS/
2PC4081/R/
MY
DTC144WUA
PDTC144WU
UN521E
RN1309
2SA1576A/QR/
2SB1218A/QR/
2PA1576/R/
OPEN
P/R
A.E
CTL
2SA1576A/QR/
2SB1218A/QR/
2PA1576/R/
PELN0832
PELN0954
QQR0002-001
FE
SHORT
2SA1576A/QR/#
/50
/50
/6.3
/50
/50
#
2SA1576A/QR/
#
OPEN
#
#
#
/50
###
OPEN
OPEN
CHARA_DATA
OPEN
#
/50
/50
2SA1576A/QR/
#
33k
1
47p
6.8k
47
0.1
0.11k0.1
10
µ
10
2.2
0.1
4p
10
µ
0.01
100
10
10
µ
0.1
1
1k
470
2.2k
2.2k
0.1
2.2k 2.2k
0.01
0.01
47
10
µ
0.1
0.1
0.1
0.01
0.01
0.01
11
1
18k
0.010.01
10k
1.5k
100u
10
µ
15p
1.5k
220
39p
10k
150p
0.1
10
47k
100
5.6k
0.11
0.1
47
680
12u
10k
10k
5.6M
0.1
0.01
0.1
0.01
15k
0.1
3.3
6.2k
0.01
150p
1.5k
330p
47
0.01
10k
27k
10k
1.2k
6.8k
220k
0.012
22
4.7
0.0015
0.001
39k
4.7
18k
4.7k
4.7k
4.7
0.01
15k
1k
0.01
0.01
15k
3.3
4.7
82
0.02210
0.0047
12k
0.082
330p 3.9k
18k
47k
18k
47k
4.7
2.2
0.01
47
0.1
4.7
1
820
5.6k
1
12k
4.7k
0.1
10k
0.01
3.3
0.022
0.47
0.0047
p10457001a_rev1
MAIN(VIDEO/N.AUDIO) SCHEMATIC DIAGRAM
2-5 2-6
Page 26
A
1
2
3
4
5
BCDEFG
R260
R255
GND
L251
2Fsc
I2C_CLK2
R252
C254
R254
C252 C253
R256R257
V_TO_VPS/PDC
R259
R261C251
SW5V
TO SW.REG
TO VIDEO/N.AUDIO
TO SYSCON
R258
R251
I2C_DATA2
SYNC_DET[H]
L252
C256 C255
GND
C259 C258
IC251
C257
L253
/50
/25
OPEN
/6.3
/6.3
LC74793
LC74793JM
/50
VSS1
XTAL_INNCCTRL1
NC
SDA
SCL
SYNC_JDG
HOUT
VSS2
CP_OUT
VCO_IN
VDD1
RST
CDLR
CTRL2
VOUT
SEP_IN
SEP-OUT
SEPC
SYN-IN
VDD2
DAV
VCOR
470
2.7k
10
µ
470
1
µ
10k
4.7 0.056
5.6k10k
4700.01
0
10k
10
µ
0.01 220
220 0.22 1
µ
1µ
p40047001a_rev0
MAIN(VPS/PDC SLICER) SCHEMATIC DIAGRAM
2-7 2-8
Page 27
A
1
2
3
4
5
BCD EFG
!
!
!
IC3001
R4003
C3046
C4004
X3001
CTL5
R3229
C4007
R201
R4005
C4008
Q3901
R205
C3051
R4006
R3026
R3027
R203R202
B3901
KEY1
CN3001
R3060
R3066
R3073
R3217
R3025
R3071
JS3001
R207
Q203
R3082
C3025
C3014
R3077
R3024
C3024
C4006
R3065
R212
L201
R4004
R3080
R4017
C201
C210
C3041
KEY2
C203
D201
C204
S3002
R3221
R3072
L202
L204
DIG6
C3045
C209
B201
R3059
R208C208
Q201
R4007
CTL5
DIG1
RF_AGC
R3062
R3061
R3028
2Fsc
V_TO_OSD
C3055
C3054
R3254
C3052
B3902
C4003
B3903
S_DET
Q3002 Q3003
R3206
R3207
X3002
C3037
R3205
D3001
R3213
R3212
D3002
PC3001PC3002
R3208R3210
R3255
R3214
R3211 R3209
C3036
SB_GAIN
C3004
CN3901
IC3003
S3001
R3069
D3004
D3005
Q3005
C4001
C4002
R3222
C3012
C3013
R3067
C4015
R3225
AL5V
C3011
R3068
IC3002
R3070
CTL1
SW5V
M12V
SW12V
P.CTL[H]
GND
TO SW.REG
TO SW.REG
SW5V
GND
AL5.8V
48V
RC
GND B3002
DIG2
GND
DIG3
DIG4
Y/C_OUT[H]
SP_SHORT[H]
FW7106
LP/EP_SHORT[H]
VIDEO_ENV
CN3007
C.SYNC
TO VIDEO/N.AUDIO
TO CAPSTAN MDA
TO ROTARY ENCODER
SECAM_DET
BT3001
SYNC_DET[H]
MESECAM_DET
DIG5
D_G
C205
D_F
D_E
D.FFCTL[-]
N.REC[H]
JSA
CTL4
D_D
V.PULSE
CTL[+]
P8_CTL1
CTL4
N.REC_ST[H]
A.MUTE[H]
TO VIDEO/N.AUDIO
TO TERMINAL
TO VPS/PDC SLICER
TO TUNER
TO FRONT
D_C
R4021
C4009
R4001
D4001 R4016
C4005
TP4001
R3220
C4010
AFC
C202
D_B
D_A
R3102
I2C_DATA
I2C_CLK
R4020
R3084
R214
Q4001
R3219
CTL3
C3048
C3047
B202
C3050
R3234
D3008
B3001
I2C_CLK2
I2C_DATA2
EE[L]
R3244
TU_MUTE[H]
Q3007
SW1
R3218
SCR[H]
R3245
R3215R3216
P50_I/O
C3056
B3003
D3003
Q3004
R3237
I2C_CLK2
I2C_DATA2
R3232
CH+B
L3001
AL5V
CTL1
R3083
C3073
L3002
C3077
R3058
R3063
R3064
C3074
C3071
R3252
R3253
L205
C213
C211
R210
C216
C207
C212
C3078
P8_CTL2
V_FROM_OSD
C3008
R206
SW2/CH_SW
Q202
RF_VIDEO
C214
C215
B3006
B3005
AV1[H]
C3016
R3033
R3032
L4001
R3031
C4031
R3047
R3048
R204
R3051
R3052
C3033
R3095
R3074
R3041
R3043
R3224
R3090
C3053
R3101
R3049
C3057
R4012
R36
R4010
R4009
R3035
R3034
R3089
R3246
R3094
R3093
R3092
R3091
C3022
R3029
A.ENV/ND[L]
R3085
R3055
ET_REC[H]
R209
C206
R3042
R3038
C3031
C3030
R3248
R3242
R3240
R3037
R3040
CP3002
R3100
R3223
D3007
R3050
R4013
S.CASS[H]
R3030
I2C_CLK
CP4002
R3086
C3021
R3256
AL5V
TO FMA
R3054
C4016
R3235
R3236
C4014
C4011
D4002
R4015
C4012
R3099
R3046
R3096
R211
R3088
I2C_DATA
A.MUTE[H]
H.REC_ST[H]
C3072
C3070
PAL_PB[H]
A.FF
R3053
CP4001
R3098
R3087
R3097
R3039
CP3001
C3076
L203
R3045
B203
X201
R213
CTL( -)
SVss
CTLREF
CTLBIAS
CTLFB
CTLAMPOUT
CTLSMTIN
CFG
SVcc
AVss
OVCC
CVOUT
OVSS
CTL( +)
VIDEO_ENV
AFC
RF_AGC
KEY2
AFCosc
FSCIN
AFCpc
CSYNC/HSYNC
CVIN1
SCR[H]
AFCLPF
CVIN2
VLPF/VSYNC
FSCOUT
START_SENSOR/SECAM_DET
HD6432199***F
HD64F2199F***
OPEN
/16
QAX0445-001
QAX0445-002
SAT_CTL
OPEN
/50
UN521E-X
#
OPEN
OPEN
#
CAP.M_FG
CAP.M_Vcc
Vcc5V
CAP.M_F/R
LM_VCTL
M_GND
S_GND
Vcc12
CAP.M_VCTL
LM_F/R/S
DRUM_PG/FG
DRUM_VCTL
#
OPEN
GND
LSA
LSB
LSC
LSD
#
2SC4081/
QRS/-X
#
#
/6.3
/6.3
#
#
#
1SS133
QSW0602-004
#
#
/6.3
#
OPEN
2SB1218A/QRS/
2SA1576A/QR/
2PA1576/R/
#
DIG7
OPEN
OPEN
OPEN
/25
#
OPEN
#
OPEN PTZ-NV16A
OPEN
QAX0527-001
QAX0528-001
QAX0532-001
QAX0533-001
1/4W
LNB2301L01VI
1SS133
RPI-304RPI-304
OPEN
GND
RESET
FWE
AL5V
SIO
SII
#
AT24C**N-10SC
24LC**AB/SN
X24C**S
BR24C**F
#
QSW0602-004
10EDB20
10EDB20
2SD1819A/QRS/
2SC4081/QRS/
2PC4081/R/
OPEN
/6.3
#
OPEN
OUT
VDDNC
GND
IC-PST3427U-X
#
CONV_CTL[H]
#
OPEN
GND
OPEN
OPEN
/25
SECAM[H]
JSB
OPEN
OPEN
OPEN OPEN
CTL.P
/25
OPEN
#
UN5211
DTC114EUA
PDTC114WU
RN1302
CHARA_DATA
#
OPEN
OPEN
#
ISS133
#
OPEN
#
UN521E
DTC144WUA
PDTC144WU
RN1309
#
#
RD39ES/B3/
MTZJ39C
2SD1819A/QRS/
2SC4081/QRS/
2PC4081/R/
OPEN
CH+A
#
#
SHORT
#
#
#
#
#
/16
#
#
OPEN
OPEN
/25
#
OPEN
#
2SD1819A/QRS/
2SC4081/QRS/
2PC4081/R/
#
QAX0751-001
#
#
D_B
D_C
D_D
D_E
D_F
D_G
AVcc
Vcc
A.ENV/ND( L)
END_SENSOR
LSD
LSB
S.CASS[H]
LSC
REC_SAFETY
TU_FG
SP_FG
LM_FR( LMC1)
SECAM_S.IMPOSE/DIG6
P8_CTL2
KEY1
P.CTL[H]
CAP_REV[H]
D_A
S.DET
JSA
DIG7/SAT_CTL
N
OPEN
OPEN
/16
OPEN
#
#
OPEN
OPEN
OPEN
OPEN#
#
OPEN
OPEN
OPEN
OPEN
#
OPEN
OPEN
OPEN
OPEN
/6.3
OPEN
OPEN
OPEN
#
CP
NMFZ012-1R0X-M
OPEN
SDA
SCLWPVCCA0
A1A2VSS
OPEN
OPEN
OPEN
CP
NMFZ012-1R0X-M
OPEN
OPEN
OPEN
OPEN /50
#
###
OPEN
OPEN
#
CP
OPEN
#
#
CP
OPEN
#
OPEN
OPEN
#
560
22
1M
470
5.6k
1
2.2K
0.1
6.8k
10K
10k
330
10k
0
1k
1k
30p
47
1k
0
12p
47
100
15
µ
560
100
1k
22p
0.01
18p
1000p
680p
10K
0
0
150
µ
0.01
47
330
0
1K
330
330
0.0022
10
18k
12p
180
330k
470k
120120
10k
18k 18k
18p
0.047
0
0.01
10k
47
0.01
4.7k
0.001
10k
4.7
0.056
0.0022
100k
0.022
4.7
0
470k
4.7k
0.01
0.1
10K
33k
4.7k
33k
10k10k
0.1
4.7k
10µ
0
0.01
0.01
0.01
33
15K
10K
5.6u
270p
100 4.7
0.01
0.01
1k
18p
27p
0.047
4.7k
0
33
0
0
470K
0
0
0.047
10k
0
3.3k
0
0.01
2.2k
4.7k
1k
0
4.7k
0
10k
0.047
4.7k
4.7k
0.047
47
4.7k
0
3.3k
0
1k
100p
3.3k
3.3k
100p
0.1
5.6K
1
1k01k
470
0
0
1k
0 0.01
1M
OPEN
Vss
FWE
X2
X1
RES
OSC1( IN)
OSC2( OUT)
Vss
MODE
CH+A/CONV_CTL[H]
ET_REC[H]
VCL
I2C_DATA2
I2C_CLK
I2C_DATA
PROTECT
RC
I2C_CLK2
POWER_DET
P50_OUT/SECAM_S.IMPOSE
SW2/CH_SW
P50_IN/AV_IN[H]
LSA
DIG1
DIG2
DIG3
DIG4
DIG5
C.SYNC
A.FF
D.FF
CAP_CTL_V
DRUM_CTL_V
DFG
Vcc
V.PULSE
Vss
CTL_GAIN
Y/C_OUT[H]/EE[L]
N.REC[H]
R.REC_ST[H]
A.MUTE( H)
R
SECAM[H]/JSB
MESECAM_DET
CH+B
SYNC_DET[H]
PAL_PB[H]
H.REC_ST( H)
LP/EP_SHORT( H)
SW1
SB_GAIN
P8_CTL1
TU_MUTE[H]
SP_SHORT[H]
YCO
p10480001a_rev1
MAIN(SYSCON) SCHEMATIC DIAGRAM
HR-V610E
HR-V611E
HR-V612E
HR-V615EK
HR-V616EK
HR-V617EK
HR-V715EK
HR-V610E
HR-V611E
HR-V612E
HR-V615EK
HR-V616EK
HR-V617EK
HR-V715EK
2-9 2-10
Page 28
A
1
2
3
4
5
BCDEFG
IC2201
C2208
C2257
C2256
C2253
C2252
C2251
C2207
C2206
C2205
C2204
DEMOD[R]
TO TUNER
TO TERMINAL
TO VIDEO/N.AUDIO
TO SYSCON
TO VIDEO/N.AUDIO
TO SW.REG
A.IN2[L]
A.IN2[R]
R2233
C2221
C2220
R2231
R2232
C2218
C2215
R2230
C2214
C2219
D2251
C2226
AL5V
C2227
C2209
NA_PB
R2252
GND
NA_REC
SW5V
SW12V
PAL_PB[H]
C2216 C2217
R2216
L2252
GND
L2251
C2258
H.REC_ST[H]
A.FF
A.MUTE[H]
R2251
Q2255
RF_AUDIO
A.ENV/ND[L]
I2C_CLK
I2C_DATA
C2254C2255
FMA_CH2
FMA_CH1
FMA_COM
TP2254
R2234C2228
C2229
R2215
R2209
R2214
F.AUDIO[R]
LINE_OUT[R]
F.AUDIO[L]
R2201
LINE_OUT[L]
A.IN1[L]
R2203
A.IN1[R]
TP2253
R2205
R2207
R2208R2206R2204R2202
R2253
Q2203
Q2204
R2210
R2217
R2219
R2218
R2213
Q2201
Q2202
R2220
C2230
C2231
R2235
R2237
C2261
Q2253
R2236
R2238
Q2252
DEC_OUT[R]
DEC_OUT[L]
C2222
Q2251
2Fsc
Q2254
VR2251
R2256
R2254
R2222
S.CASS[H]
ET_REC[H]
R2211
R2212
R2257
C2225
C2259
C2262
K2251
K2252
K2253
R2223
C2223
DEMOD[L]
R2226
R2229R2227
R2228
C2232C2233
L2202
GND
C2203
C2202
C2201
C2210
C2211
R2255
L2201
C2213
C2212
B2201
R2225
R2224
C2224
R2239
R2240
AN3651FBP
/25
/25
/6.3
/25
/25#
/25
/25
/16#
1SS133
#
/16
/16
/16 OPEN
#
##
DTC114EUA
#
/6.3
A.REC_FM
#
OPEN
OPEN
#
A.PB.FM
#
##
2SC4081/QRS/
2SC4081/QRS/
#
DTA144WUA
DTC144WUA
/25
#
/25
#
#
#
OPEN
DTC144WUA
#
#
#
DTC144WUA#DTC144WUA
#
DTC114EUA
#
#
#
#
OPEN
#
/50
OPEN
OPEN
OPEN
OPEN
OPENOPEN
SHORT
/50
/50
/25
/16
/6.3
SHORT
OPEN
/6.3
OPEN
OPEN
OPEN
0.015
0.01
0.01
0.01
0.01
0.01
0.015
10
10
33
6.8K
0.022
10
6.8K
47K
10
10
47K
10
22
1
10
10
220
47
1.2k
150µ
10µ
180p
4.7k
470.01
100
180
680
680
47k
47k
47k
47k
6.8k6.8k6.8k6.8k
100
4.7k
4.7k
1.2k
3.3k
4.7k
1k
10
10
680
680
2.7k
2.7k
0.01
2.2K
10k
4.7k
2.7k
2.7k
1
0.33
510
0.047
27k
39k39k
27k
4.7
4.7
10
10
33
27k
47
4.7k
510
0.047
p20292001a_rev1
MAIN(FMA) SCHEMATIC DIAGRAM
2-11 2-12
Page 29
A
1
2
3
4
5
BCD EFG
!
!
!
!
!
!
!
!
!
!
!
!
48V
AL5.8V
R5101
R5104 C5101
D5302
C5204
D5001
SW12V
P.CTL[H]
R5310
R5102
R5313
R5312
GND
TO
VIDEO/N.AUDIO
VPS/PDC SLICER
FMA, TUNER
TERMINAL, FRONT
TO
VIDEO/N.AUDIO
VPS/PDC SLICER
FMA, TUNER
TERMINAL, FRONT
TO
VIDEO/N.AUDIO
FMA, TERMINAL
TO TUNER
TO TUNER
TO SYSCON
R5103
D5303
C5104
D5102
Q5101
C5206
D5301
SW5V
C5001
Q5307
Q5304
C5305
C5301
D5101
D5207
Q5305
D5305
D5203
K5101
K5102
R5112D5105
C5103
R5302
C5303
Q5321
R5306
R5111
Q5301
PC5101
R5332
LF5002
C5006
Q5306
R5107
R5303
R5110
BT2
C5107
R5106
R5333
Q5102
T5001
C5105
Q5303
C5106
D5206
R5109
D5209
D5210
C5203
C5202
R5304
L5202
L5201
C5004
C5002
C5307
B5002
C5308
D5103
R5108
F5001
CN5001
R5319
LF5001
C5207
RF5V
C5102
B5001
VA5003
M12V
D5208
D5204
2W /1k
MTZJ12A
RD12ES/B1
/100
S1WB/A/60-4102
S1WB/A/60-X
S1WB( A) 60F4072X
MTZJ5.6A
RD5.6ES/B1
/50
AU01
1SR153-400
ERA18-04
10ERB40
D
G
S
2SK2632
2SK2129
/10
MTZJ15C
RD15ES/B3/
/250
MY
2SD2144S/UV/
2SD2144S/UV/
/50
MY
/16
AU01
1SR153-400
ERA18-04
10ERB40
AK04
11EQS04
1S4
SBO40
DTA114EUA
UN5111
RN2302
PDTA114EU
MTZJ5.6C
RD5.6ES/B3
AU01Z
10ERB20
QQR0678-001
QQR0621-001
SHORT
1SS133
1SS270A
MY
##
/16
2SD1858/QR/
#
2SC1740S/RS/-T
2SC3199/YG/-T
PS2561L1-1/L/
PC123F2
ON3171/R/
LTV-817M/BC/
PC123FY2
2W
QQR0978-001
QQR0608-001
QQR0609-001
QQR0610-001
/400
DTC114EUA
UN5211
RN1302
PDTC114EU
1/2W
/50
1W
2W
##
2SD2144S/UV/
QQS0186-001
QQS0187-001
/50
MY
2SC5739/QP/
#
/50
RK14
21DQ04
SB240
##
AK04
11EQS04
1S4
SBO40
AU01Z
1SR153-400
1F4G
10ERB20
PG104RS
/10
/16
/250
/250
MY
##
/16
SHORT
/16
1SS133
1SS270A
/250
PELN1204-01-01
QQR0977-001
##
/16
/1k
SHORT
QAF0026-621
##
RK14
21DQ04
SB240
##
AU01Z
10ERB20
MY
220k
68k 0.0047
4.7
10k
220k
820
1k
68k
1
47
0.047
0.27
100
220
1k
100
180
1K
390
68
330
1.2k
220k
0.1
0.39
390
0.018
270p
560
1200
1000
470
33µ
33µ
0.0022
0.033
47
100
1.5k
T2AL
220
100
100p
GROUND POINT FOR
PRIMARY VOLTAGE
GROUND POINT FOR
SECONDARY VOLTAGE
DANGEROUS VOLTAGE
p20316001a_rev0
MAIN(SW.REG) SCHEMATIC DIAGRAM
2-13 2-14
Page 30
A
1
2
3
4
5
BCDEFG
TU6001
TU6001
RF5V
BT2
SW12V
SW5V
GND
RF_VIDEO
R6056
I2C_CLK2
TO SYSCON
I2C_DATA2
CTL1
IC6701
C6701
R6080
AFC
B6511
RF_AGC
R6702
R6701
R6703
C6055
C6702
L6701
Q6701
B6701
R6705
R6050
R6031
C6037
C6053
Q6032
TU_MUTE[H]
C6006
R6706
C6005
D6002
C6705
R6020
R6052
R6051
C6027
C6052
R6021
C6016
C6020
L6702
R6704
C6703
C6704
K6702
GND
K6701
R6707
Q6030
Q6031
C6706
R6030
C6707
C6708
C6709
R6032
X6701
R6719
K6707
C6724
C6021
C6725
C6723
C6722
C6726
R6033
C6721
TU_AUDIO
RF_AUDI
TO VIDEO/N.AUDIO
TO TERMINAL
TO FMA
TO SW.REG
O
R6721
GND
TU_VIDEO
RF_VIDEO
L6501
C6720
DEMOD[R]
R6720C6719
B6702
DEMOD[L]
K6706
C6056
R6716
C6718
R6714
R6712
SW1
R6715 R6713
C6714
C6716
C6013
C6028
C6008
C6007
L6001
C6715
C6717
R6711
C6713
D6701
K6705 R6710
C6712
K6703
K6704 R6709
R6708
C6711
C6710
C6502
C6501
C6038
L6502
L6003 C6012
L6002
SW2/CH_SW
L6050
R6054
C6014
B6510
C6032
B6051
AUDIO_IN
MOD_SDA
MOD_B( RF5V)
MOD_SCL
VIDEO_IN
TU( 30V)
BB( RF5V)
NC
NC
BB( RF5V)
#
RF_AGC
NC
AS
SCL
SDA
NC
MB( SW5V)
TU( 30V)
NC
NC
NC
RF_AGC
NC
AS
SCL
SDA
NC
MB( SW5V)
NC
TU( 30V)
TP
IF_OUT
BB( AL5V)
NC
NC( GND)
CONV_CTL
NC( GND)
#
#
CONV_CTL[H]
I2C_CL
I2C_DA
TP
TP
TP
TP
TP
DVSUP
DVSS
TP
RESETQCAPL_M
AHVSS
AGNDC
NC
NC
NC
SC1_IN_L
SC1_IN_R
VREFTOP
MONO_IN
AVSS
MSP3417D
MSP3417DG3
MSP3417G
MSP3417GQGB8V3X
#
#
#
#
#
SW_1
SW_2
AUDIO_OUT
SIF_OUT
AFT
VIDEO_OUT
SW_1
SW_2
AUDIO_OUT
SIF_OUT
AFT
VIDEO_OUT
#
#
OPEN
OPEN
#
NC
( BT)
AS
SCL
SDA
MB( SW5V)
TU( 30V)
NC
BT
AS
SCL
SDA
NC
MB( SW5V)
NC
TU( 30V)
AFT
MB( SW5V)
NC
NC
AFT
NC( OPEN)
2SC3936/BC
#
#
#
#
/50
#
PDTC114E
RN1302
UN5211
DTC114E
#
#
OPEN
HZ30-2L
#
#
#
OPEN
#
OPEN
#
#
#
#
#
#
#
2SB1218A/RS
PDTC114E
RN1302
UN5211
DTC114E
OPEN
CH
#
CH#CH
#
#
#
#
#
/50
#
OPEN
OPEN
#
OPEN
OPEN
#
#
#
#
/16
#
#
/16
#
#
OPEN
#
OPEN
#
#
##
#
#
#
OPEN
#
OPEN
#
/50
#
/50
#
#
#
1SS133
1SS270A
#
##
OPEN
#
##
#
OPEN
OPEN
#
/25
#
#
SHORT
# OPEN
#
#
#
#
AVSUP
ANA_IN1+
ANA_IN-
TESTEN
XTAL_IN
XTAL_OUTTPD_CTR_OUT1
D_CTR_OUT0
ADR_SEL
STANDBYQ TP
TP
TP
VREF2
DACM_R
DACM_L
VREF1
SC1_OUT_R
SC1_OUT_L
NC
AHVSUP
#
#
CHCH
#
100
0.01
1K
6.8K
3.9K
47
1
µ
270
100
270
10
150
0.001
1k
100
100
1k
3.3
µ
1K
0.01
600
600
0‘
1k
47p8p2p
10k
600
2.2
0.01
0.01
5.6k
1
µ
10
5.6k10
600
47
1k
1k
12k 12k
0.0022
0.0022
2.2
2.2
470K
0.22
600 0
600
600 1K
10K
0.01
10
1K
0.047
p10481001a_rev0
MAN(TUNER) SCHEMATIC DIAGRAM
2-15 2-16
Page 31
A
1
2
3
4
5
BCD EFG
S7015
R7024
R7032
S7003
TPGND
Q7008
TP7001
CTL4
JSA
KEY2
KEY1
RC
GND
D_G
C7011
D_F
D_E
D_D
D_C
Q7002
D_B
Q7003
Q7009
Q7010
D_A
S7013
CTL5
Q7011
R7025
Q7012
DIG6
S7008
CN7005
R7037
R7035 R7036
B7002
R7011
R7008
Q7016
S7018 S7012
R7034
IC7002
R7023
R7001
R7002
R7003
R7004
R7005
R7006
R7007
DIG5
DI7001DI7001
DIG4
DIG3
S7001 S7017
Q7006
S7004
Q7007
S7011
DIG2
DIG1
AL5V
TO SYSCON
R7026
B7001
S7016
R7022R7021
R7020
R7033
S7006S7002
R7031
R7030
Q7004
Q7005
Q7001
S7010 S7014
Q7014
Q7013
D7003
R7015
C7012
C7014
C7013
PLAY
#
OPEN
DTC143TUA
OPEN
CN7001#
JSB
/6.3
#
#
DTC143TUA
DTC143TUA
ST/EJ
DIG7
DTC143TUA
DTC143TUA
OPEN
#
OPEN
OPEN
OPEN
OPEN
#
OPEN
OPEN OPEN
#
GP1UM291QK
#
#
#
#
#
#
#
NC/Da
Db
Dc
De
Dd
Df
Dg
D1
D2
D3
D4
D5
Da/D6
NC/D7
#
OPEN
#
#
#
#
PAUSE
OPEN
OPEN
#
POWER
#
#
#
REC OPEN
DTC143TUA
DTC143TUA
OPEN
OPEN
OPEN
VCC
V.OUT
GND
OPEN
2.7k 1.8k
47
4.7k
330
2.7k2.2k
150
6.8k
1.8k1.2k
10k
2.2k1.2k
10k
1k
CN7004
D7005
D7004
LED1
LED2
AL5V
#
TO MAIN
(FRONT)
CN7005
SLR-342MG-T16
#
SLR-342MG-T16
#
TO LED
CN7004
S7030
R7047
UN7001UN7001UN7001UN7001UN7001UN7001UN7001
#
b5/KEY_OUT
JSA
GND
JSB
CN7003#
#
QSW0905-001
QSW0938-001
QSW0939-001
4.7k
p20314001a_rev0
MAIN(FRONT
), ADV.JOG AND LED
SCHEMATIC DIAGRAMS
2-17 2-18
Page 32
A
1
2
3
4
5
BCDEFG
V_FROM_OSD
C7134
J7102
C7135
R7119
C7136
R7108
R7117
GND
J7104
GND
C7153
L7105
Q7103
C7137
J7103J7103
B7103
REAR2_C_IN
J7103
R7116
R7160
C7170
J7103
J7104
L7108
J7104
Q7104
R7140
J7105
SW5V
R7162
R7161
L7114
L7113
B7109
R7120
R7110
R7123
R7111
R7105
R7107
R7122
C7192 C7120
R7101
R7102
Q7102
R7103
J7101
P50_I/O
TO SYSCON
TO SW.REG
TO S-SUB
OPEN
TO TUNER
TO VIDEO/N.AUDIO
TO VIDEO/N.AUDIO
TO FMA
R7163
C7191
IC7104
C7197
C7157
J7108
C7119
Q7201
R7121
SEL_REAR1/FRONT
IC7105
GND
Y/C_OUT[H]
B7102
C_OUT
R7201
R7153
R7131
R7152
Q7106
D7105
R7127
R7203
D7106
AV1[H]
CN7106
RF_VIDEO
R7167
R7144
R7145
TU_VIDEO
R7134
R7133
CN7102
SCR[H]
P8_CTL1
B7105
C7133
C7128
GND
LINE_OUT[L]
V_FROM_OSD
R7139
R7202
FRONT_V_IN
C7145
TU_VIDEO
R7146
R7147
Q7105
R7148
C7138
REAR2_V_IN
C7201
A.IN1[L]
A.IN1[R]
A.IN2[L]
A.IN2[R]
LINE_OUT[R]
Y_OUT
AL5V
CTL5
D7104
J7104
B7110
R7151
B7112
C7125
B7114
R7135
R7183R7184
Q7107
L7107
C7124
B7113
R7128
R7182
IC7101
B7108
C7123
R7126
R7125
R7113
R7109
C7101
C7102
L7101
B7101
C7103
C7109
C7110
R7132
R7114
L7102
C7164
P8_CTL2
C7165
B7107
F.AUDIO[L]
F.AUDIO[R]
C7106
C7183
C7182
C7171
SW12V
IC7103
Q7101
IC7102
C7159 C7158 C7156
CTL1
CH+B
L7109
C7154
DEC_OUT[R]
DEC_OUT[L]
C7104
C7114
C7195
C7196
C7143
C7155C7144
L7110
D7101 D7102
B7106
C7140
C7129
C7139
R7138
C7112
R7141
L7201
D7103
C7111
C7168
C7169
C7185
C7184
/50
#
A.OUT A.OUT
A.INA.IN A.GND
GND GND GND
GND
V.OUT V.GND R/C G B GND
V.IN V.GND SCRAMBLE
[L]
[L]
[R]
[R]
[H]
AV2/DECODER
#
/50
#
#
/50
#
# #
#
OPEN
#
OPEN
#
2SC4081/QRS/-X
2SD1819A/QRS/-X
2PC4081/R/-X
#
####
#
#
#
#
#####
2SB1218A/QR/-X
2SA1576A/QR/-X
2PA1576/R/-X
#
A.IN[L]
#
A.IN[R]
#
V.IN
#
#
#
#
#
#
#
#
#
#
#
#
#
OPEN
#
UN521E-X
DTC144WUA-X
PDTC144WU-X
RN1309-X
A.OUT A.OUT
A.INA.IN A.GND
GNDBGNDGGNDR/CV.GNDV.OUTGND
GNDV.GNDV.IN FUNC.SWP50
[L]
[L]
[R]
[R]
#
#
OPEN
MM1503
#
#
/50
N
#
#
#
2SC1317
#
#
MM1506
#
#
/1W
#
#
#
#
2PA1576/R/-X
2SA1576A/QR/-X
2SB1218A/QR/-X
#
OPEN
NQL402M-4R7X
#
#
OPEN
#
#
#
#
#
#
/16
#
#
#
DTC144WUA-X
UN521E-X
RN1309-X
PDTC144WU-X
#
/6.3
#
SAT_CTL
OPEN
##
#
#
#
/50
#
#
#
OPENOPEN
2SC4081/QRS/
2SD1819A/QRS/
2PC4081/R/
#
#
/50
#
#
NQL402M-4R7X
#
MM1503
#
#
#
OPEN
OPEN
OPEN
OPEN
#
OPEN
#
OPEN
OPEN
#
#
#
#
#
OPEN
/6.3
#
#
#
#
MM1508
#
2SB1218A/QR/
2SA1576A/QR/
2PA1576/R/
MM1508
#
/50#/50
#
/50
#
CH+A
#
#
#
/6.3
OPEN
OPEN
#
##
#
OPEN OPEN
OPEN
OPEN
#
#
/50
##
OPEN#
#
#
OPEN
OPEN
#
#
#
OPEN#
OPEN#
0.470.47
220
0.47
0.01
220
330
820p
10
µ
1k
330
100
220
220
0‘
220
330
330
0‘
680p
47k
1k
330
75
0.1
0.47
680p
75
10
0
100
0
4.7k
100
4.7k
6.8k
0.01
100
1k
220
0.1
39k
22k
330
0.01
470
75
0.47
470
10
µ
0.47
560k
0.01
75
75
1
µ
680p
0
220
1
µ
680p
680p
470
680p
680p
820p
0.47 0.47 0.47
1
µ
33p
680p
470
33p
68p68p
1
µ
0.01
100
75
82
10
µ
680p
680p
p10458001a_rev1
MAIN(TERMINAL) SCHEMATIC DIAGRAM
2-19 2-20
Page 33
W1
D7103
D7104
C8
W5
CP3002
CP4002
J7101
Q3003
Q3002
J7103
J7102
TP2254
CN1
JS3001
C3046
TP4001
TP106
TP111
TP2253
TU6001
CN2002
PC3002
C6014
CN3001
CN2001
C217
R7109
R7108
C7129
W24
C7106
D7105
R7141
IC7102
IC7103
C7159
C7158
C7156
C7157
C7155
C7143
C7144
R7183
R7184
B7106
B502
B503
B581
B582
R501
R503
R504
R505
R506
R507
R508
R38
R581
R582
R583
R584
R585
R586
R587
R588
R589
R590
R591
R592
R593
R594
R595
R596
R597
R3252
B7108
R7125
R7126
R3253
C502
C507
C509
C510
C513
C514
C515
C516
C519
C521
C523
C525
C529
C530
C531
C532
C534
C536
C537
C582
C583
C584
C585
C586
C587
C588
C589
C590
C592
C593
C594
C595
C596
C598
C3004
C508
C528
C3056
C7123
C501
C503
C504
C517
C518
C520
C522
C524
C527
C535
C597
C599
C506
C511
C3071
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R2018
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C2010
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R6
R20
R23
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R25
R26
R28
R29
R30
R33
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C21
C29
C30
C50
C51
C52
C54
C66
C73
C74
C17
C18
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C20
C22
C23
C24
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C75
C2012
C33
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R5302
R5303
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C202
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R205
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R212
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R2236
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R2234
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C2232
C2233
R2239
R2240
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R2012
R2001
R2002
R2006
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C216
R2202
R2203
R2204
R2205 R2206
R2207
R2213
BT3001
R2217
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C539
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TP7001
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S7006
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R2219
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R2226
R2227
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C2224
C2227
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C2229
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C2254
C2255
C254
C255
C256
C257
C258
C259
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C3022
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C3047
C3048
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C2210
C3072
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C2217
C2218
C2219
C2220
C2222
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C2225
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R12
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C40
C45
C48
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C2004
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C57
C58
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C251
C252
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C3021
C59
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C60
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C49
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C6713
C6714
C6716
C6718
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C6723
C6725
C6726
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C6717
C6719
C6720
C6722
C6724
L6701
L6702
K6701
K6702
K6703
K6704
K6705
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K6707
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C3078
R3207
R4005
C4005
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Q7012
Q7013
Q7014
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R3060
R3061
R3062
R3063
R3065
R7003
R7004
R7005
R7006
R7007
VR2251
C3070
L3002
D7005
R510
R7167
CN7106
L7201
R6716
W23
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R3235
R3236
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B2001
R21
W30
W3
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B7114
B7113
L7107
R260
R261
MAIN CIRCUIT BOARD
<03> MAIN
LPB10189-001D
DANGEROUS VOLTAGE
2-21 2-22
Page 34
REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION REF.NO. LOCATION
COMPONENT PARTS LOCATION GUIDE <MAIN> LPB10189-001D
CAPACITOR
C1 B C 12N
C2 B C 11M
C3 B C 12N
C4 A D 11N
C5 B C 12N
C6 B C 12M
C7 B C 12M
C8 A D 10M
C9 A D 11M
C10 A D 11M
C11 A D 11N
C12 A D 10M
C13 A D 10M
C14 A D 10M
C15 B C 11M
C16 B C 11M
C17 B C 10L
C18 B C 10L
C19 B C 11L
C20 B C 11L
C21 B C 11L
C22 B C 11J
C23 B C 11J
C24 B C 12L
C25 A D 11L
C26 A D 11K
C27 B C 11L
C29 B C 11K
C30 B C 12K
C31 A D 12K
C32 B C 12K
C33 A D 12K
C34 B C 13J
C35 B C 13K
C36 A D 13K
C37 B C 13K
C38 B C 13J
C39 A D 13J
C40 B C 13K
C41 B C 14K
C43 A D 14K
C44 A D 14K
C45 B C 14L
C46 B C 14L
C47 A D 14L
C48 B C 14L
C49 A D 14L
C50 B C 9I
C51 B C 10J
C52 B C 10J
C54 B C 10K
C55 B C 15L
C56 B C 14M
C57 B C 15L
C58 B C 15M
C59 B C 15M
C60 B C 16M
C61 A D 14M
C62 A D 14M
C63 B C 15L
C64 A D 15L
C66 B C 9J
C68 B C 11N
C71 A D 14M
C73 B C 12K
C74 B C 11K
C75 B C 11K
C201 B C 11G
C202 A D 11G
C203 B C 11F
C204 B C 11F
C205 A D 10F
C206 B C 10F
C207 A D 9F
C208 B C 11E
C209 A D 9F
C210 B C 11F
C211 B C 10E
C212 B C 11E
C213 B C 9E
C214 B C 9E
C215 B C 9E
C216 B C 9E
C217 B C 9F
C251 B C 5C
C252 A D 6C
C253 B C 6C
C254 A D 6B
C255 A D 6B
C256 B C 6C
C257 A D 5B
C258 B C 5C
C259 A D 5B
C501 A D 6N
C502 B C 6N
C503 A D 5M
C504 A D 6M
C506 A D 5M
C507 B C 6M
C508 B C 6L
C509 B C 6L
C510 A D 7L
C511 A D 7L
C513 B C 6L
C514 B C 5L
C515 B C 6L
C516 B C 5L
C517 A D 6L
C518 A D 5K
C519 B C 6K
C520 A D 6K
C521 B C 7L
C522 A D 8L
C523 B C 8L
C524 A D 8L
C525 B C 8L
C527 A D 8M
C528 B C 7M
C529 B C 6N
C530 B C 6N
C531 B C 8M
C532 B C 8M
C534 B C 6N
C535 A D 6N
C536 B C 7N
C537 B C 6L
C539 B C 8L
C582 B C 8P
C583 B C 7N
C584 B C 7O
C585 B C 7N
C586 B C 7O
C587 B C 7O
C588 B C 7O
C589 B C 7P
C590 B C 6P
C592 B C 8N
C593 B C 8N
C594 B C 8N
C595 B C 8N
C596 B C 7N
C597 A D 8O
C598 B C 8O
C599 A D 7P
C2001 A D 12N
C2002 A D 11N
C2003 A D 15N
C2004 B C 15N
C2005 A D 15N
C2006 B C 15N
C2007 A D 15O
C2008 A D 14O
C2009 B C 14N
C2010 B C 14N
C2011 A D 14N
C2012 A D 13M
C2013 B C 14N
C2051 B C 9N
C2052 A D 18L
C2053 B C 9N
C2054 B C 9N
C2055 A D 8N
C2201 A D 17M
C2202 A D 17M
C2203 A D 17L
C2204 A D 17M
C2205 A D 16M
C2206 A D 17M
C2207 B C 16M
C2208 B C 15K
C2209 A D 15K
C2210 A D 15K
C2211 A D 15K
C2212 A D 16I
C2213 B C 16J
C2214 A D 18I
C2215 A D 17J
C2216 A D 17J
C2217 B C 17J
C2218 A D 18J
C2219 A D 18J
C2220 A D 17J
C2221 B C 18K
C2222 B C 17I
C2223 B C 16M
C2224 B C 15J
C2225 B C 18L
C2226 B C 18L
C2227 A D 16J
C2228 B C 19J
C2229 B C 18K
C2230 A D 17K
C2231 A D 18K
C2232 B C 15J
C2233 B C 16J
C2251 B C 16M
C2252 B C 16M
C2253 B C 16L
C2254 A D 15L
C2255 B C 16L
C2256 B C 16L
C2257 B C 15K
C2258 B C 15J
C2259 A D 15K
C2261 B C 16L
C2262 B C 16L
C3004 B C 3G
C3008 B C 19J
C3011 A D 4D
C3012 A D 2E
C3013 B C 2E
C3014 A D 12C
C3016 B C 12C
C3021 A D 7C
C3022 B C 7C
C3024 B C 14D
C3025 A D 14D
C3030 A D 15D
C3031 B C 15D
C3033 B C 13F
C3036 B C 14D
C3037 B C 14D
C3041 B C 14D
C3045 B C 19I
C3046 B C 4J
C3047 B C 10E
C3048 B C 11E
C3050 B C 14D
C3051 B C 16F
C3052 A D 15D
C3053 B C 15D
C3054 B C 14C
C3055 B C 14C
C3056 B C 7K
C3057 B C 15D
C3070 B C 19I
C3071 A D 6K
C3072 B C 11D
C3073 A D 15C
C3074 B C 14E
C3076 B C 15F
C3077 B C 12C
C3078 B C 12C
C4001 A D 14F
C4002 B C 11F
C4003 B C 12F
C4004 A D 14F
C4005 B C 13G
C4006 A D 14F
C4007 B C 12F
C4008 A D 13F
C4009 B C 11F
C4010 B C 13G
C4011 B C 13F
C4012 A D 14F
C4014 B C 15F
C4015 B C 12F
C4016 B C 14F
C4031 A D 6K
C5001 A D 2P
C5002 A D 2N
C5004 A D 1J
C5006 A D 2M
C5101 A D 2M
C5102 A D 1K
C5103 B C 3L
C5104 A D 4M
C5105 A D 3L
C5106 A D 3J
C5107 A D 3L
C5202 A D 3G
C5203 A D 2H
C5204 A D 3H
C5206 A D 1F
C5207 A D 3G
C5301 A D 1E
C5303 A D 3G
C5305 A D 4H
C5307 A D 2D
C5308 A D 2D
C6005 A D 21L
C6006 B C 22M
C6007 A D 21M
C6008 B C 22M
C6012 A D 21N
C6013 B C 22P
C6014 B C 22O
C6016 B C 22O
C6020 B C 22N
C6021 B C 22N
C6027 B C 22L
C6028 B C 22L
C6032 B C 21J
C6037 A D 21J
C6038 B C 21J
C6052 B C 22O
C6053 B C 22P
C6055 B C 22O
C6056 B C 22P
C6501 A D 19E
C6502 B C 18F
C6701 B C 21G
C6702 B C 21F
C6703 B C 21G
C6704 B C 21F
C6705 B C 20G
C6706 B C 21E
C6707 B C 21F
C6708 B C 21F
C6709 B C 21F
C6710 B C 20G
C6711 B C 20G
C6712 B C 19F
C6713 B C 19E
C6714 B C 19E
C6715 A D 19E
C6716 B C 20D
C6717 A D 19D
C6718 B C 20D
C6719 A D 20D
C6720 A D 21D
C6721 B C 21D
C6722 A D 21E
C6723 B C 21E
C6724 A D 21E
C6725 B C 21D
C6726 B C 21E
C7011 A D 9A
C7012 B C 9A
C7013 B C 17A
C7014 B C 18A
C7101 B C 13P
C7102 B C 14P
C7103 B C 13P
C7104 B C 14P
C7106 A D 10P
C7109 B C 18P
C7110 B C 18P
C7111 B C 17P
C7112 B C 17P
C7114 A D 19P
C7119 B C 21P
C7120 B C 21P
C7123 B C 10P
C7124 A D 9P
C7125 A D 9P
C7128 A D 19N
C7129 B C 10P
C7133 B C 19M
C7134 A D 20N
C7135 A D 20N
C7136 A D 19M
C7137 B C 18N
C7138 B C 19M
C7139 A D 20M
C7140 B C 19M
C7143 B C 12P
C7144 B C 11P
C7145 B C 12O
C7153 B C 20N
C7154 B C 10O
C7155 B C 10P
C7156 A D 10P
C7157 A D 10O
C7158 A D 11O
C7159 A D 12O
C7164 B C 18A
C7165 B C 19A
C7168 B C 18P
C7169 B C 18P
C7170 B C 13P
C7171 B C 13P
C7182 B C 17P
C7183 B C 18P
C7184 B C 13P
C7185 B C 13P
C7191 B C 20O
C7192 B C 20O
C7195 B C 18A
C7196 B C 20A
C7197 B C 19O
C7201 A D 21C
CONNECTOR
CN1 A D 16M
CN2 A D 22F
CN512 A D 20M
CN2001 A D 9O
CN2002 A D 19L
CN3001 A D 7L
CN3007 A D 22C
CN3901 A D 16B
CN5001 A D 1P
CN7001 A D 1C
CN7004 A D 20C
CN7005 A D 12A
CN7102 A D 22H
CN7106 A D 18O
DIODE
D3 A D 10M
D4 A D 11M
D201 A D 11F
D2001 A D 15N
D2251 A D 15J
D3001 A D 12H
D3002 A D 3D
D3003 A D 3E
D3004 A D 3E
D3005 A D 2E
D3007 A D 16A
D3008 A D 14C
D4001 B C 13F
D4002 B C 14F
D5001 B C 2M
D5101 A D 1M
D5102 A D 2K
D5103 A D 3K
D5105 A D 3K
D5203 A D 2I
D5204 A D 3I
D5206 A D 2H
D5207 A D 2I
D5208 A D 2I
D5209 A D 2H
D5210 A D 3I
D5301 A D 3H
D5302 A D 3G
D5303 A D 4G
D5305 A D 2F
D6002 A D 21L
D6701 A D 19F
D7003 A D 8A
D7004 A D 20C
D7005 A D 19C
D7101 A D 16O
D7102 A D 17O
D7103 A D 9P
D7104 A D 9P
D7105 A D 10P
D7106 A D 18P
DI7001 A D 12A
IC
IC1 B C 13L
IC251 A D 5C
IC501 B C 7M
IC2201 B C 16K
IC3001 B C 12D
IC3002 B C 14D
IC3003 B C 7B
IC6701 B C 20E
IC7002 A D 8A
IC7101 B C 9P
IC7102 B C 10P
IC7103 B C 12O
IC7104 B C 19N
IC7105 B C 19M
COIL
L1 A D 12M
L2 A D 11M
L3 A D 10L
L5 A D 12K
L6 A D 13J
L7 A D 13K
L9 A D 10J
L10 A D 14M
L11 A D 11N
L14 A D 11K
L15 A D 13J
L201 A D 11G
L202 A D 9F
L203 A D 9F
L204 A D 11G
L205 A D 10E
L251 A D 5C
L252 A D 7D
L253 A D 5C
L501 A D 5K
L502 A D 5N
L503 A D 6N
L505 A D 8M
L506 A D 8M
L582 A D 7N
L583 A D 7N
L584 A D 7O
L585 A D 7O
L586 A D 7P
L587 A D 8N
L588 A D 8N
L589 A D 8N
L590 A D 8N
L591 A D 8O
L2001 A D 15N
L2201 A D 16J
L2202 A D 17F
L2251 A D 15L
L2252 A D 15K
L3001 A D 3D
L3002 A D 18F
L4001 A D 6K
L5201 A D 3H
L5202 A D 2G
L6001 A D 21M
L6002 A D 21N
L6003 A D 21N
L6050 A D 21O
L6501 A D 19F
L6502 A D 21L
L6701 A D 21G
L6702 A D 21G
L7101 A D 13P
L7102 A D 17P
L7105 A D 20M
L7107 A D 19N
L7108 A D 19M
L7109 A D 10O
L7110 A D 13O
L7113 A D 20O
L7114 A D 20O
L7201 A D 21B
TRANSISTOR
Q1 B C 11N
Q2 B C 11K
Q3 B C 12K
Q4 B C 14J
Q6 B C 10J
Q7 B C 15M
Q8 B C 15M
Q9 B C 15M
Q10 B C 16M
Q11 B C 9J
Q12 B C 14K
Q13 B C 10J
Q15 B C 11K
Q16 B C 10J
Q17 B C 11K
Q201 B C 11E
Q202 B C 10F
Q203 B C 9E
Q581 B C 7O
Q582 B C 7P
Q583 B C 8O
Q584 B C 8P
Q2001 B C 9M
Q2002 B C 9L
Q2003 B C 9L
Q2051 B C 9N
Q2052 B C 9K
Q2053 B C 9J
Q2054 B C 9K
Q2055 B C 9L
Q2201 B C 17I
Q2202 B C 18I
Q2203 B C 18J
Q2204 B C 18J
Q2251 B C 15I
Q2252 B C 15J
Q2253 B C 15J
Q2254 B C 15J
Q2255 B C 15J
Q3002 A D 5I
Q3003 A D 19I
Q3004 B C 4E
Q3005 B C 2E
Q3007 B C 14C
Q3901 B C 16B
Q4001 B C 13G
Q5101 A D 2L
Q5102 A D 3M
Q5301 A D 4G
Q5303 A D 1F
Q5304 A D 3G
Q5305 B C 3G
Q5306 B C 4G
Q5307 A D 2E
Q5321 A D 1F
Q6030 B C 21K
Q6031 B C 21K
Q6032 B C 21J
Q6701 B C 20G
Q7001 B C 10A
Q7002 B C 10A
Q7003 B C 10A
Q7004 B C 11A
Q7005 B C 11A
Q7006 B C 11A
Q7007 B C 11A
Q7008 B C 11B
Q7009 B C 12B
Q7010 B C 12B
Q7011 B C 13B
Q7012 B C 13B
Q7013 B C 13B
Q7014 B C 14A
Q7016 B C 12B
Q7101 B C 16P
Q7102 B C 16P
Q7103 B C 17O
Q7104 B C 17P
Q7105 B C 17O
Q7106 B C 19N
Q7107 B C 19O
Q7201 A D 21C
RESISTOR
R1 B C 12M
R2 B C 12N
R3 B C 11N
R4 B C 12N
R5 B C 12N
R6 B C 11L
R7 B C 10K
R11 B C 14L
R12 B C 14K
R14 B C 14K
R17 B C 13J
R18 B C 13K
R20 B C 12J
R21 B C 16M
R22 B C 16M
R23 B C 10J
R24 B C 10K
R25 B C 9J
R26 B C 10J
R28 B C 9J
R29 B C 9J
R30 B C 10J
R31 B C 13J
R33 B C 12J
R34 B C 12J
R35 B C 11J
R36 B C 15F
R37 B C 14M
R38 A D 11K
R39 B C 10K
R201 B C 11F
R202 B C 11F
R203 B C 11F
R204 B C 11F
R205 B C 8F
R206 A D 9E
R207 B C 11F
R208 B C 11E
R209 B C 9F
R210 B C 9F
R211 B C 10F
R212 B C 10F
R213 B C 9E
R214 B C 10F
R251 B C 5C
R252 B C 7B
R254 B C 6C
R255 B C 6C
R256 B C 6B
R257 B C 6B
R258 B C 5C
R259 B C 5C
R260 A D 7C
R261 A D 7C
R501 B C 6M
R503 B C 5L
R504 B C 6L
R505 B C 6L
R506 B C 5L
R507 B C 6L
R508 B C 6L
R510 B C 7M
R581 B C 7N
R582 B C 7P
R583 B C 7O
R584 B C 7O
R585 B C 8P
R586 B C 7P
R587 B C 7P
R588 B C 7P
R589 B C 8N
R590 B C 8N
R591 B C 8N
R592 B C 8P
R593 B C 8O
R594 B C 8P
R595 B C 8O
R596 B C 8O
R597 B C 8O
R2001 B C 12N
R2002 B C 12N
R2003 B C 11N
R2004 B C 11N
R2005 A D 12N
R2006 A D 13N
R2007 B C 12N
R2008 B C 13N
R2009 B C 13N
R2010 B C 13N
R2011 A D 13N
R2012 B C 13N
R2013 B C 14N
R2014 B C 14N
R2015 B C 15N
R2016 B C 14N
R2017 B C 14N
R2018 B C 9L
R2019 B C 9L
R2021 B C 15N
R2022 B C 15N
R2023 B C 14M
R2024 A D 13N
R2052 B C 9O
R2053 B C 9O
R2054 B C 9M
R2055 B C 9N
R2056 A D 10N
R2057 B C 9K
R2058 B C 9K
R2059 B C 9K
R2060 B C 9K
R2201 B C 17L
R2202 B C 17L
R2203 B C 17L
R2204 B C 17L
R2205 B C 17L
R2206 B C 17L
R2207 B C 17L
R2208 B C 16L
R2209 B C 18J
R2210 B C 18I
R2211 B C 18I
R2212 B C 18J
R2213 B C 18I
R2214 B C 17J
R2215 A D 17I
R2216 B C 18J
R2217 B C 18J
R2218 B C 18K
R2219 B C 18K
R2220 B C 17I
R2222 B C 16M
R2223 B C 16M
R2224 B C 16J
R2225 B C 15J
R2226 B C 17L
R2227 B C 18L
R2228 B C 17L
R2229 B C 17L
R2230 B C 18K
R2231 B C 17K
R2232 B C 18K
R2233 B C 17L
R2234 B C 18J
R2235 B C 18K
R2236 B C 18K
R2237 B C 18K
R2238 B C 18K
R2239 B C 15I
R2240 B C 15I
R2251 B C 15K
R2252 B C 15K
R2253 B C 15J
R2254 A D 15I
R2255 B C 16J
R2256 B C 15J
R2257 B C 15K
R3024 B C 9E
R3025 B C 9D
R3026 B C 9D
R3027 A D 7E
R3028 B C 11E
R3029 B C 11E
R3030 B C 11E
R3031 B C 10D
R3032 B C 10D
R3033 B C 10D
R3034 B C 10D
R3035 B C 10D
R3037 B C 11D
R3038 B C 11D
R3039 B C 11D
R3040 B C 11D
R3041 B C 11D
R3042 B C 11D
R3043 B C 11C
R3045 B C 11C
R3046 A D 10C
R3047 A D 11C
R3048 A D 11C
R3049 A D 11C
R3050 A D 11C
R3051 A D 11C
R3052 A D 11C
R3053 A D 12C
R3054 B C 11C
R3055 B C 12C
R3058 A D 12C
R3059 B C 13C
R3060 B C 13C
R3061 B C 13C
R3062 B C 13C
R3063 B C 13C
R3064 B C 13C
R3065 B C 13C
R3066 B C 13C
R3067 B C 13C
R3068 B C 14C
R3069 B C 14C
R3070 A D 15B
R3071 B C 15C
R3072 B C 15C
R3073 B C 15C
R3074 B C 15C
R3077 B C 14D
R3080 B C 13D
R3082 B C 15D
R3083 B C 14E
R3084 A D 16D
R3085 B C 15E
R3086 B C 16D
R3087 B C 16E
R3088 B C 15E
R3089 B C 16E
R3090 B C 15E
R3091 B C 16E
R3092 B C 15E
R3093 B C 16E
R3094 B C 15E
R3095 B C 15E
R3096 B C 14E
R3097 B C 14E
R3098 B C 14E
R3099 B C 13E
R3100 B C 14E
R3101 B C 14E
R3102 B C 15F
R3205 B C 12H
R3206 B C 5H
R3207 B C 19I
R3208 B C 16F
R3209 B C 16F
R3210 B C 9F
R3211 B C 9F
R3212 B C 4E
R3213 B C 4D
R3214 B C 8C
R3215 B C 8C
R3216 B C 8C
R3217 B C 8C
R3218 A D 3E
R3219 B C 3E
R3220 B C 4D
R3221 A D 4D
R3222 B C 3E
R3223 B C 7C
R3224 B C 8C
R3225 B C 18C
R3229 B C 13D
R3232 B C 11E
R3234 A D 15B
R3235 B C 18F
R3236 B C 18F
R3237 B C 10D
R3240 A D 6F
R3242 B C 9E
R3244 B C 17E
R3245 B C 8B
R3246 B C 15D
R3248 B C 15D
R3252 B C 7K
R3253 A D 7K
R3254 B C 6J
R3255 A D 8D
R3256 B C 15A
R4001 A D 15F
R4003 B C 12F
R4004 B C 12F
R4005 B C 13F
R4006 B C 12F
R4007 B C 11F
R4009 B C 13F
R4010 B C 14F
R4012 B C 13F
R4013 B C 13F
R4015 B C 14F
R4016 B C 13F
R4017 B C 15F
R4020 A D 15F
R4021 B C 15F
R5101 A D 4M
R5102 A D 4M
R5103 A D 3M
R5104 A D 1L
R5106 A D 2L
R5107 A D 3K
R5108 B C 3L
R5109 A D 3M
R5110 B C 3L
R5111 B C 3K
R5112 B C 3K
R5302 B C 5F
R5303 B C 5F
R5304 A D 2H
R5306 B C 1F
R5310 B C 3H
R5312 B C 4H
R5313 B C 3G
R5319 B C 2D
R5332 A D 2F
R5333 A D 3F
R6020 B C 21N
R6021 B C 21N
R6030 B C 21K
R6031 B C 21K
R6032 B C 22L
R6033 B C 21J
R6050 B C 21O
R6051 B C 21O
R6052 B C 21O
R6054 B C 21P
R6056 B C 21P
R6080 B C 21N
R6701 B C 21G
R6702 B C 21G
R6703 B C 21G
R6704 B C 21G
R6705 B C 20G
R6706 B C 20G
R6707 B C 21F
R6708 B C 19F
R6709 B C 19F
R6710 B C 19F
R6711 A D 19E
R6712 B C 19E
R6713 B C 19D
R6714 B C 20E
R6715 B C 20D
R6716 A D 20D
R6719 B C 20F
R6720 A D 20D
R6721 B C 21D
R7001 B C 12A
R7002 B C 12A
R7003 B C 12A
R7004 B C 13A
R7005 B C 13A
R7006 B C 13A
R7007 B C 13A
R7008 B C 12A
R7011 B C 12A
R7015 B C 8A
R7020 B C 17B
R7021 B C 17A
R7022 B C 17B
R7023 B C 7B
R7024 B C 5B
R7025 B C 2B
R7026 B C 3B
R7030 B C 17B
R7031 B C 17A
R7032 B C 6B
R7033 B C 4B
R7034 B C 16B
R7035 B C 3B
R7036 B C 3A
R7037 B C 3A
R7101 B C 16O
R7102 B C 16P
R7103 A D 17P
R7105 B C 13P
R7107 B C 14P
R7108 B C 11P
R7109 B C 11P
R7110 B C 13P
R7111 B C 13P
R7113 B C 15P
R7114 B C 17Q
R7116 B C 18P
R7117 A D 19P
R7119 B C 18P
R7120 B C 18P
R7121 B C 20P
R7122 B C 20O
R7123 B C 19O
R7125 B C 10P
R7126 B C 9P
R7127 B C 19O
R7128 B C 19O
R7131 B C 19N
R7132 B C 20O
R7133 A D 19O
R7134 B C 19O
R7135 B C 19O
R7138 B C 16P
R7139 A D 18M
R7140 B C 19N
R7141 B C 12P
R7144 B C 17O
R7145 B C 17O
R7146 B C 17O
R7147 B C 17O
R7148 B C 17O
R7151 B C 19P
R7152 B C 19P
R7153 B C 20P
R7160 B C 18B
R7161 B C 20A
R7162 B C 19A
R7163 B C 21B
R7167 B C 18O
R7182 B C 10P
R7183 B C 11P
R7184 B C 12P
R7201 A D 22C
R7202 B C 21C
R7203 B C 22C
OTHER
BT3001 A D 3C
CP3001 A D 4F
CP3002 B C 4F
CP4001 A D 4G
CP4002 B C 4G
F5001 A D 2P
FC5001 A D 2P
FC5002 A D 3P
FW7106 A D 4C
J7101 A D 16P
J7102 A D 12P
J7103 A D 21Q
J7104 A D 20Q
J7105 A D 20A
J7108 A D 19O
JS3001 A D 8G
K2001 B C 14N
K2002 B C 14N
K2003 B C 9O
K2004 B C 9O
K2251 B C 16L
K2252 B C 16L
K2253 B C 15L
K5101 A D 2K
K5102 A D 1N
K6701 B C 21F
K6702 B C 21F
K6703 B C 20F
K6704 B C 20F
K6705 B C 19F
K6706 B C 21D
K6707 B C 22E
LF5001 A D 4P
LF5002 A D 3N
PC3001 A D 15F
PC3002 A D 9F
PC04042 A D 21F
PC5101 A D 4K
S3001 A D 18C
S3002 A D 4E
S7001 A D 22B
S7002 A D 18B
S7003 A D 16B
S7004 A D 7B
S7006 A D 6B
S7008 A D 5B
S7010 A D 4B
S7011 A D 4B
S7012 A D 3B
S7013 A D 2B
S7014 A D 2B
S7015 A D 1B
S7016 A D 17B
S7017 A D 16B
S7018 A D 9B
T2051 A D 9N
T5001 A D 3I
TP106 A D 6P
TP111 A D 5P
TP2253 A D 6P
TP2254 A D 7P
TP4001 A D 6P
TP7001 A D 3A
TPGND A D 4A
TU6001 A D 22P
VA5003 A D 2O
VR2251 A D 20H
X1 A D 14L
X2 A D 14K
X201 A D 9E
X3001 A D 14D
X3002 A D 14D
X6701 A D 21F
<MAIN>
MODE
REC PLAY
PIN NO.
MODE
REC PLAY
PIN NO.
MODE
REC PLAY
PIN NO.
MODE
REC PLAY
PIN NO.
MODE
REC PLAY
PIN NO.
MODE
REC PLAY
PIN NO.
MODE
REC PLAY
PIN NO.
IC1
1 0 0
2 0 0
3 0 0
4 4.4 4.3
5 2.1 2.1
6 2.6 2.5
7 0 2.8
8 1.8 1.2
9 1.8 1.2
10 2.2 2.0
11 2.6 3.0
12 1.7 0.5
13 0 0
14 0 2.3
15 2.8 2.8
16 0 3.7
17 2.8 2.7
18 1.9 1.8
19 2.8 2.8
20 0 0
21 2.8 2.8
22 5.1 5.0
23 2.3 2.3
24 3.0 2.7
25 0 0
26 3.0 2.8
27 1.5 1.5
28 0 0
29 1.9 2.3
30 2.8 2.8
31 0.3 0.3
32 2.3 2.2
33 2.0 2.0
34 2.9 3.0
35 3.0 3.0
36 2.3 2.3
37 3.0 3.0
38 2.1 2.1
39 1.4 0
40 2.0 2.1
41 2.6 0
42 2.0 1.9
43 2.1 2.0
44 0 0
45 3.1 3.1
46 3.2 3.1
47 5.1 5.0
48 0.1 0
49 3.3 3.2
50 5.1 5.0
51 0 2.1
52 0 5.0
53 2.6 2.6
54 0 0
55 2.0 2.0
56 0 0
57 2.2 2.1
58 2.3 2.3
59 5.1 5.0
60 5.1 5.0
61 0 0
62 2.3 2.2
63 2.1 2.1
64 2.8 2.7
65 2.2 2.2
66 2.8 0
67 0 0
68 1.3 0
69 0 0
70 2.7 5.0
71 2.2 2.1
72 0 0.1
73 4.8 4.7
74 4.7 4.7
75 2.8 2.7
76 2.3 2.1
77 2.8 2.8
78 0 0
79 0.6 2.5
80 0 2.6
81 5.0 4.9
82 0 0
83 0 0
84 5.1 5.0
85 2.4 2.3
86 2.5 2.2
87 2.4 2.2
88 0 0
89 0 0
90 0 0
91 0 0
92 5.1 5.0
93 0.2 0.1
94 2.5 2.5
95 2.5 2.5
96 2.5 2.5
97 0 0
98 2.4 0
99 0
100 2.6 2.5
IC2201
1 2.4 2.4
2 0 0
3 2.4 2.4
4 0 0
5 0 0
6 2.5 2.5
7 2.0 2.0
8 0 0
9 0 0
10 0 0
11 0 0
12 2.0 2.0
13 0 0
14 0 0
15 0 0
16 2.5 2.5
17 0.6 0.2
18 0 0
19 2.5 2.5
20 2.6 0.5
21 2.6 0
22 0 0.6
23 0 0
24 2.6 0.6
25 5.1 5.0
26 2.6 0
27 0 2.5
28 4.3 0
29 4.2 1.8
30 3.9 1.7
31 0.9 0
32 0 2.5
33 2.6 2.5
34 0.6 0.3
35 2.5 2.5
36 0 0
37 1.7 1.7
38 0 0
39 0 0
40 5.0 0
41 0 0
42 4.8 4.7
43 4.7 0
44 3.3 3.2
45 0 0
46 4.9 0
47 2.5 2.5
48 2.5 2.5
49 0.4 0.3
50 0.3 0.3
51 0 0
52 0 0
53 4.5 4.5
54 0 0
55 0 0
56 0 0
57 4.5 4.5
58 0 0
59 4.6 4.6
60 0 0
61 2.5 2.5
62 2.4 2.4
63 4.5 4.5
64 4.6 4.5
IC251
1 0 0
2 2.7 2.6
3 5.1 5.1
4 5.1 5.1
5 0 0
6 4.2 4.0
7 4.2 4.2
8 5.1 5.1
9 4.7 4.7
10 0 0
11 3.0 3.0
12 3.0 2.9
13 1.3 1.3
14 0.3 1.3
15 5.1 5.1
16 2.9 2.8
17 2.6 2.5
18 4.7 4.7
19 5.1 5.1
20 5.0 5.0
21 0 0
22 3.6 3.6
23 5.1 5.0
24 5.1 5.1
IC3001
1 0 0
2 2.5 0
3 3.0 2.5
4 1.9 0
5 2.5 2.5
6 0.1 0
7 2.5 2.5
8 2.4 2.4
9 1.5 1.5
10 5.0 4.9
11 1.9 1.8
12 1.9 1.9
13 2.4 2.4
14 0.4 0.4
15 0.9 0.8
16 2.8 2.8
17 0 2.4
18 5.2 5.1
19 2.4 2.4
20 0 0
21 2.5 2.4
22 2.4 2.4
23 0 0
24 4.4 4.7
25 4.0 3.9
26 0 1.2
27 0 0
28 4.9 4.9
29 0.1 0.2
30 4.9 4.9
31 0 4.8
32 4.3 0
33 4.9 4.9
34 0 0
35 0 0
36 4.9 4.9
37 - 4.8
38 4.9 4.9
39 4.9 4.9
40 0 0
41 0.1 0.1
42 - 43 4.3 4.3
44 2.6 2.6
45 0 0
46 3.4 3.4
47 3.4 4.1
48 3.4 2.7
49 1.4 2.0
50 2.1 2.0
51 2.1 2.7
52 0 2.7
53 4.2 0
54 4.8 4.8
55 0 0
56 4.9 4.9
57 0 0
58 4.3 4.3
59 0 0
60 4.1 3.8
61 4.7 4.7
62 4.7 4.7
63 4.3 4.3
64 4.4 4.3
65 4.4 4.3
66 4.3 4.3
67 0 0
68 0 0
69 0 0
70 0 0
71 4.3 4.2
72 4.9 4.9
73 0 0
74 0 0
75 1.5 0
76 0 1.4
77 4.9 0
78 - 2.4
79 0 0
80 2.4 2.4
81 3.2 3.1
82 4.9 4.9
83 4.9 4.8
84 0 0
85 0 3.9
86 5.1 5.1
87 0 0
88 0 0
89 0 0
90 0 4.8
91 0 0
92 4.7 4.7
93 4.8 0
94 0 0
95 4.8 4.8
96 0 0
97 0 0
98 4.8 4.8
99 0 0
100 4.8 0
101 4.9 0
102 4.7 4.7
103 4.8 4.8
104 1.4 1.4
105 2.5 0
106 0 2.5
107 2.6 2.6
108 2.7 0
109 0 0
110 0 0
111 0.3 0.3
112 4.9 4.9
IC3002
1 4.9 4.9
2 4.9 4.9
3 0 0
4 0 0
IC3003
1 0 0
2 0 0
3 0 0
4 0 0
5 4.0 4.2
6 4.2 4.1
7 0 0
8 5.0 4.9
IC6701
1 5.0 5.0
2 1.5 1.5
3 1.5 1.5
4 0 0
5 2.4 2.4
6 2.5 2.4
7 0.2 0.2
8 0 0
9 0 0
10 3.6 3.6
11 3.6 3.6
12 4.1 4.1
13 4.1 3.9
14 2.5 2.5
15 2.5 2.5
16 0 0
17 0.2 0.1
18 0.2 0.1
19 5.0 5.0
20 0 0
21 0.2 0.1
22 4.8 4.8
23 0 0
24 0 0
25 0 0
26 0 0
27 0 0
28 0 0
29 0 0
30 2.4 2.3
31 2.4 0
32 0 0
33 4.7 4.7
34 3.8 3.7
35 0 0
36 2.4 2.3
37 0 0
38 0 0
39 0 0
40 2.3 2.3
41 0 2.3
42 0 0
43 0 0
44 0 0
IC7102
1 0 0
2 2.0 2.0
3 5.0 5.0
4 1.3 1.2
5 0 0
6 1.7 1.7
IC7103
1 4.7 4.6
2 2.0 2.0
3 5.0 5.0
4 1.7 1.7
5 0 0
6 1.4 1.3
Q7
E 0 2.3
C 2.5 2.3
B 0 0
Q8
E 2.5 2.3
C 2.5 2.3
B 0 0
Q9
E 0 0
C 0 0
B 0.8 0.8
Q10
E 0 0
C 0 0
B 0.7 0.7
Q12
E 2.9 2.9
C 0 0
B 2.2 0
Q2001
E -11.7 0
C 0 0
B -18.4 0.7
Q2002
E -11.7 0
C 0 0
B -18.1 0.7
Q2003
E 5.1 5.1
C -18.3 5.0
B 4.8 0
Q2051
E 0 0
C 7.5 0.1
B 0.5 0.1
Q2052
E 10.6 10.6
C 10.4 0.2
B 9.8 10.6
Q2053
E 0 0
C 0 10.5
B 4.9 0
Q2054
E 10.5 0.2
C 10.3 0.2
B 9.7 0.2
Q2055
E 0 0
C 0 0.2
B 4.9 0
Q2201
E 5.0 4.9
C -0.2 -0.1
B 4.9 4.9
Q2202
E 0 0
C 4.9 4.9
B 0 0
Q2203
E 0 0
C 0 0
B -0.1 -0.1
Q2204
E 0 0
C 0 0
B -0.1 0
Q2255
E 0 0
C 0 0
B 4.8 0
Q3003
E 0 0
C 4.7 4.7
B - Q3004
E 0 0
C 0 0
B 0.7 0.7
Q3005
E 5.0 4.9
C 5.6 5.6
B 5.5 5.6
Q4001
E 0 0
C 0 0
B 4.8 4.8
Q5101
D 306.4 307.2
G 3.2 3.2
S 0 0
Q5102
E 0 0
C 3.1 3.1
B 0.3 0.2
Q5301
E 0 0
C 4.4 4.4
B 0.5 0.5
Q5304
E 0 0
C 12.1 0
B 11.2 11.2
Q5305
E 11.2 11.2
C 11.2 11.2
B 0 0
Q5306
E 0 0
C 0 0
B 4.4 4.5
Q5307
E 5.0 5.0
C 5.6 5.6
B 5.6 5.6
Q6030
E 0 0
C 0 0
B 2.2 2.2
Q6031
E 0 0
C 0 0
B 4.8 4.8
Q6032
E 0 0
C 0 0
B 4.8 4.8
Q7001
E 5.0 4.9
C 0.9 0.8
B 4.8 4.8
Q7002
E 5.0 4.9
C 0.9 0.8
B 4.8 4.8
Q7003
E 5.0 4.9
C 0.8 0.7
B 4.8 4.8
Q7004
E 5.0 4.9
C 0.7 0.7
B 4.8 4.8
Q7005
E 5.0 4.9
C 0.8 0.8
B 4.8 4.8
Q7008
E 0.7 0
C 2.8 B 0 3.4
Q7009
E 0.7 0
C 2.8 0.9
B 0 4.1
Q7010
E 0.7 0
C 2.8 1.7
B 0 2.7
Q7011
E 0.7 0
C 2.8 B 0 Q7012
E 0.7 0
C 2.8 1.0
B 0 2.8
Q7013
E 0.7 0
C 2.8 0
B 0 Q7014
E 0 0
C 2.7 B 0.7 2.7
Q7101
E 10.6 10.6
C 0 10.6
B 10.6 9.8
Q7102
E 0 0
C 10.6 0
B 0 4.9
Q7103
E 5.9 10.1
C 10.6 10.6
B 6.3 6.3
Q7104
E 5.9 10.1
C 0 10.6
B 5.8 10.2
Q7105
E 0 0
C 5.8 10.1
B 0 0
Q7106
E 2.7 2.7
C 0 0
B 2.1 2.1
CN2001
1 0 0
2 0 0
3 0 0
4 0 0
5 2.2 2.5
6 2.5 2.5
CN2002
1 0 0
2 0 0
CN3001
1 2.4 2.4
2 12.1 12.2
3 5.1 5.1
4 0 0
5 6.6 6.6
6 0 0
7 0 0
8 12.1 12.2
9 2.7 2.7
10 2.6 2.6
11 1.4 1.4
12 2.6 2.6
JS3001
1 0 0
2 0 0
3 5.0 4.9
4 0 0
5 5.0 4.9
CN5001
1 149.2 149.3
2 150.4 150.4
VOLTAGE CHARTS
2-23 2-24
Page 35
PIN NO.
LABEL IN/OUT FUNCTION
PIN NO.
LABEL IN/OUT FUNCTION
1 SVss - GND
2 CTLREF - CTL REFERENCE VOLTAGE
3 CTL(+) - CTL(+) SIGNAL
4 CTL(-) IN/OUT CTL(-) SIGNAL
5 CTLBIAS - CTL BIAS VOLTAGE
6 CTLFB IN CTL PULSE FEEDBACK
7 CTLAMPOUT OUT CTL PULSE OUTPUT
8 CTLSMTIN IN CTL PULSE INPUT
9 CFG IN CAPSTAN FG PULSE INPUT
10 SVcc - SYSTEM POWER
11 AFCpc OUT
AFC CLOCK(SYNC SEPARATOR FOR OSD/EXTERNAL CIRCUIT FOR AFC)
12 AFCosc OUT
AFC CLOCK(SYNC SEPARATOR FOR OSD/EXTERNAL CIRCUIT FOR AFC)
13 AFCLPF IN
FILTER OUTPUT FOR HORIZONTAL SYNCHRONIZING OF OSD CHARACTER
14 CSYNC/HSYNC IN COMPOSITE SYNC/HORIZONTAL SYNC
15 VLPF/VSYNC - NC
16 CVIN2 IN COMPOSITE VIDEO SIGNAL INPUT(2)
17 CVIN1 IN COMPOSITE VIDEO SIGNAL INPUT(1)
18 OVCC - SYSTEM POWER
19 CVOUT OUT COMPOSITE VIDEO SIGNAL OUTPUT
20 OVss - GND
21 FSCOUT OUT FSC OUTPUT FOR OSD
22 FSCIN IN FSC INPUT FOR OSD
23 AVss - GND FOR ANALOG CIRCUIT
24 AFC IN TUNING CHECK
25 RF_AGC IN
26 VIDEO_ENV IN
AUTO TRACKING DETECT/INPUT THE AVERAGE OF PLAYBACK VIDEO SIGNAL
27 SCR[H] IN SCRAMBLE CONTROL INPUT(SCRABLE:H)
28 KEY2 IN OPERATION CONTROL SIGNAL
29
START_SENSOR/SECAM_DET
IN START SENSOR/SECAM COLOR DETECT(SECAM:H)
30 KEY1 IN OPERATION CONTROL SIGNAL
31 END_SENSOR IN END SENSOR
32 A.ENV/ND(L) IN AUDIO PB FM ENV.INPUT/NON HiFi MODE:L
33 LSD IN MECHANISM MODE DETECT(D)
34 LSC IN MECHANISM MODE DETECT(C)
35 S.DET IN DETECTION OF VIDEO SYNC SIGNAL(DETECED:H)
36 AVcc - SYSTEM POWER FOR ANALOG CIRCUIT
37 SP_FG IN
DETECTION SIGNAL FOR SUPPLY REEL ROTATION/TAPE REMAIN
38 LSB IN MECHANISM MODE DETECT(B)
39 REC_SAFETY IN REC SAFETY SWITCH DETECT(SW ON:L)
40 S.CASS[H] IN DETECTION SIGNAL FOR SVHS CASSETTE(SVHS:H)
41 JSA IN INPUT FOR THE JOG SHUTTLE
42 TU_FG IN
DETECTION SIGNAL FOR TAKE-UP REEL RORATION/TAPE REMAIN
43 SECAM_S.IMPOSE/DIG6 OUT LED DRIVE
44 LM_FR(LMC1) OUT LOADING MOTOR DRIVE
45 P8_CTL2 OUT PARALLEL CONTROLLER FOR CH+ IC (IN/OUT SWITCH)
46 D_A OUT LED DRIVE
47 D_B OUT LED DRIVE
48 D_C OUT LED DRIVE
49 D_D OUT LED DRIVE
50 D_E OUT LED DRIVE
51 D_F OUT LED DRIVE
52 D_G OUT LED DRIVE
53 DIG7/SAT_CTL OUT CONTROL SIGNAL FOR SATELITE RECEIVER/LED DRIVE
54 P.CTL[H] OUT CONTROL SIGNAL FOR SWITCHING POWER SUPPLY
55 CAP_REV[H] OUT CAPSTAN MOTOR REVERSE CONTROL(FWD:L/REV:H)
56 Vcc - SYSTEM POWER
57 Vss - GND
58 DIG5 OUT LED DRIVE
59 12C_CLK2 OUT SERIAL DATA TRANSFER CLOCK FOR MEMORY IC
60 12C_DATA2 IN/OUT SERIAL DATA TRANSFER OUTPUT FOR MEMORY IC
61 12C_CLK OUT SERIAL DATA TRANSFER CLOCK FOR MEMORY IC
62 12C_DATA IN/OUT SERIAL DATA TRASFER OUTPUT FOR MEMORY IC
63 DIG4 OUT LED DRIVE
64 DIG3 OUT LED DRIVE
65 DIG2 OUT LED DRIVE
66 DIG1 OUT LED DRIVE
67 LSA IN MECHANISM MODE DTECT(A)
68
P50_OUT/SECAM_S.IMPOSE
OUT CONTROL SIGNAL FOR TV LINK
69 POWER_DET IN
DETECTION SIGNAL FOR POWER DOWN OF AC POWER SUPPLY
70 P50_IN/AV_IN[H] IN CONTROL SIGNAL FOR TV LINK
71 PROTECT IN DETECTION SIGNAL FOR SW POWER SUPPLY
72 RC IN REMOTE CONTROL DATA INPUT
73 SW2/CH_SW IN TUNER SYSTEM MODE:L/CHANNEL SWITCHING SINGNAL
74 FWE OUT FLASH WRITE ENABLE
75 X2 - TIMER CLOCK(32.768KHz)
76 X1 - TIMER CLOCK(32.768KHz)
77 RES - RESET TERMINAL(RESET ON:L)
78 OSC1(IN) - MAIN SYSTEM CLOCK(10MHz)
79 Vss - GND
80 OSC2(OUT) - MAIN SYSTEM CLOCK(10MHz)
81 VCL - SYSTEM POWER
82 MODE - NC
83 CH+A/CONV_CTL[H] OUT
AV1 OUTPUT SWITCH CONTROL/ R/F CONVERTER ON/OFF CONTROL
84 ET_REC[H] OUT ET REC MODE:H
85 SB_GAIN OUT
VOLTAGE CONTROL SIGNAL FOR VIDEO REQUENCY RESPONSE
86 SYNC_DET[H] IN DETECTION OF VIDEO SIGNAL(DETECTED:H)
87 CH+B OUT AV2 OUTPUT SWITCH CONTROL
88 MESECAM_DET OUT MESECAM:H
89 SECAM[H]/JSB OUT SECAM MODE:H
90 P8_CTL1 OUT PARALLEL CONTROLLER FOR CH+ IC(IN/OUT SWITCH)
91 SP_SHORT[H] OUT MODE SELECT/FLYING ERASE ON:H
92 LP/EP_SHORT(H) OUT MODE SELECT
93 H.REC_ST(H) OUT HiFi AUDIO SOUND RECORDING START
94 A.MUTE(H) OUT AUDIO MUTE CONTROL(MUTE:H)
95 PAL_PB[H] OUT PAL FM(PB ON:H)
96 YCO OUT OSD CHARACTER SIGNAL
97 Y/C_OUT[H]EE[L] OUT Y/C OUTPUT MODE:H/EE MODE:L
98 TU_MUTE[L] OUT TUNER VIDEO CONTROL(MUTE:H)
99 R - NC
100 N.REC_ST[H] OUT NORMAL AUDIO SOUND RECORDING START
101 N.REC[H] OUT NORMAL AUDIO REC MODE CONTROL SIGNAL(REC:H)
102 SW1 OUT TUNER SYSTEM MODE:H
103 CTL_GAIN OUT CONTROL AMP OUT FREQUENCY RESPONSE SWITCHING
104 DFG IN DRUM FG PULSE INPUT
105 D.FF OUT
106 A.FF OUT AUDIO FF OUTPUT
107 DRUM_CTL_V OUT DRUM MOTOR CONTROL
108 CAP_CTL_V OUT CAPSTAN MOTOR CONTROL
109 V.PULSE OUT V.PULSE ADDITION TIMING CONTROL
110 Vss - GND
111 C.SYNC - GND
112 Vcc - SYSTEM POWER
CHANGES IN ATS+ IC OUTPUT AS CAUSED BY CHANGES IN RECEIVER SENSITIVITY
WHEN THE SAME CHANNEL IS RECEIVED MORE THAN ONCE ARE INPUT
ROTATION DETECTION SIGNAL FOR DRUM MOTOR
/TIMING CONTROL SIGNAL FOR REC
CPU PIN FUNCTION
<SYSCON IC3001>
CATHODE 1G, 2G, 3G, 4G, I, J
CATHODE 1F, 2F, 3F, 4F, K6
CATHODE 1E, 2E, 3E, 4E, K1
CATHODE 1D, 2D, 3D, 4D, K4
CATHODE 1C, 2C, 3C, 4C, K5
CATHODE 1B, 2B, 3B, 4B, K2
CATHODE 1A, 2A, 3A, 4A, K3
COMMON ANODE K3, K2, K5, K4, K1, K6, I, J
COMMON ANODE DIGIT 4
COMMON ANODE DIGIT 3
COMMON ANODE DIGIT 2
COMMON ANODE DIGIT 1
12
11
10
9
8
7
6
5
4
3
2
1
No. CONNECTION
E
D
F
G
B
C
DIGIT 1 DIGIT 2ADIGIT 3 DIGIT4
GRID ASSIGNMENT
ANODE CONNECTION
K3
K5
K6
K2
K1
E
F
G
B
C
A
D
E
F
G
B
C
A
D
E
F
G
B
C
A
I
J
K4
FDP GRID ASSIGNMENT AND ANODE CONNECTION
2-25 2-26
Page 36
IC1-21 IC1-26 IC1-29
TP106
PB.FM
REC 1.0Vp-p
0.2V/20µsec/DIV
REC 0.4Vp-p
0.2V/20µsec/DIV
PB 2.0Vp-p
0.5V/20µsec/DIV
PB 0.4Vp-p
0.2V/20µsec/DIV
WF1 WF2 WF 3 WF4
TP111
D.FF
REC/PB 4.0Vp-p
1V/10msec/DIV
WF5 IC1-86
REC 1.2Vp-p
0.2V/20µsec/DIV
WF8
Y
SIGNAL PROCESSOR
)
J7104
TU_VIDEO
TERMINAL
RF_VIDEO
MAIN (VIDEO/N. AUDIO, TERMINAL)03
6
1
6
1
J7103
VIDEO_
MESECAM_DET
ENV
Q7106
BUF
TO
SYSCON
TO
IC1
(
VIDEO & AUDIO
Fsc
I2C_DATA_AV
I2C_CLK_AV
S DET
V.PULSE
V_TO_OSD
SB_GAIN
V_FROM_OSD
SYSCON
TO
D. FF
TO
SYSCON
REAR1
VIDEO IN
REAR
VIDEO OUT
SP CH2
8
7
U.DRUM
CN1
SP CH1
5
6
3
4
1
2
5
6
3
4
1
2
LP/EP_CH2
LP/EP_CH1
8
7
5
6
3
4
1
2
VIDEO
HEAD
FILTER
SW11
GAP
BAND
MAIN EMPHASIS
CARRIER OFFSET
W.C/D.C
-10dB
FM MOD
MAIN
FO/DEV ADJ
DE EMPHASIS
REC
FILTER
PB AGC+APL
REC FBC+ALC
DET
FM AGC
629
TRAP
SUB LPF
DEMO
DLIM
ENVDET
ATT
-10dB
ATT
-10dB
ATT
-6dB
ATT
-4dB
ATT
VIDEO AGC
GCLGCL
GCL
GCL
GCL
HPF
SP2
SP2
SP1
SP1
SP2
SP2
SP1
SP1
VC
DET DET
X-TAL
VCO/OSC
2MLPF
HPF
REC
MUTE
+
LPF
4PHASE
CONV1
MAIN
CONV2
MAIN
CLPF1
CLPF2
REC
KILLER
PB
REC
2fsc
DISCRI
SW
DOWN
CONV
APC
APC
AFC
LCVCO
ACC
DET
APC
CHROMA
ACC DET
CR DET
TANK
MESECAM
DET
VCA
L-DET
4.43PAL
CONT
DELAY
ACC
+
CLOCK DRIVER
MODE
CONTROL
Y-CCD
C-CCD
CCD
LPF
PILOT
ADD
PILOT
ERASE
B.D
CONV
NP
C.K
BPF
ACC
SW
+
C.K
CHROMA
ACC
MIX LEVEL
ADJUST
B.E
3.3k ADD
CH1
HiFi TRAP
REC TRAP
FH HPF
CTL TRAP
P-EQ
SW13
DL
G-EQ
DO DET
LPF
S-DET
ET LPF
EMPH
N.L.
DEH
LPF
YNR
SEP
SYNC
V-AMP
C-SQUELCH
6dBAMP
PG
PG
AGC DET
LCH
SQUE
CLEAR
SYNC
FEED BACK
CLAMP
VIDEO ALC
PC
HP-NC
TRAP-NC
CCD
CONT
KILLER
MPAL CONV.
C
DELAY
SW10
Y-LPF
DELAY
SECAM
+SSEQ
N.L.
DE-EMPH
SQPB EQ
P
R
SW9
P
R
SW8
INT
EXT
SW12
SQPB
SQPB
CH2
P
R
SW16
SW25
SD
SD
SW38
P
R
SW28
P
R
SW27
SW26
P
R*L-SECAM
EXT
INT
0.5Vp-p
R*SDECK
SW22
R*SDECK
35PinGCL
R*SDECK
R*SDECK
SW21
SW24
SW23
DO
DO/REC
R*SDECK
R*SVHS
SW19
SQPB
SQPB
SW20
PR
SW17
SVHS+L-SECAM
SVHS+L-SECAM
SW15
P
R
SW14
SW52
P
R
SW18
R
ATP
SW51
RP
SW31
PR
SW32
P
R
SW33
RP
SW30
SW29
P
R
RP
SW35
L-SECAM
C-ACC : ON
CCD BLOCK
SW36
L-SECAM
SW34
R
P
SW37
SW39
L-SECAM
L-SECAM
SW40
EXT
INT
SQPB
TRAP
TRAP
REC
REC
:ON
:OFF
SW41
SP
SP
SW44
SW45
SW46
SW47
SW48
SW49
SW42
CH2
CH1
CH2
CH1
SW43
B-Y INVERT
COMP
EXT
CCD-
OUT
CLK
DATA
A-MUTE
D.FF
C-ACC:THROUGH
57 PIN
KINSEKI
MSM7470 Series
CH3
CH4
81
82
83
85
86
87
89
90
91
78910111430 25 24
18
12151617192021
23
26272829
42
NOT
USED
31
NOT
USED
32
33
34
38
39
35
36
37
40
41
46
45
43
48
49
51 53 55 57
58 59
75 7664 65 66 67 68 69626163 70 7271 73 74
NOT
USED
77 78
80
TP106
PB. FM
TP111
D. FF
C
C
C
C
C
WF4
WF5
WF6
WF1
WF2
WF3
SYSCON
TO
VPS/PDC
SLICER
TO
J7105
2
1
FRONT
VIDEO IN
Q2
BUF
NOT
USED
NOT
USED
NOT
USED
2Fsc
X1
X2
WITH REAR VIDEO INPUT MODEL
4HEAD
MODEL ONLY
79
A.MUTE
A.MUTE
SYSCON
TO
VIDEO/N.AUDIO BLOCK DIAGRAM
2-27 2-28
Page 37
NOT USED
ONLY USED FOR
HR-V610EX, HR-V610EY, HR-V610EZ,
HR-V611EX, HR-V611EY, HR-V611EZ,
HR-V612EX, HR-V612EY, HR-V612EZ
WF3
WF5
WF6
WF2
WF1
WF7
WF4
R
L
6
5
CN2001
CN2002
Q2051
Q2052-Q2055
T2051
EQ
P
R
PRE AMP
REC ON
REC
VCA
DET
FILTER
FILTER
TRANS
OSC
POWER
SW
30
+
-
2
1
A.MUTE
SP ON
A.MUTE(H)
N.REC(H)
TU_AUDIO
SYSCON
TO
TUNER
TO
A. ERASE
REC/PB
F. ERASE
6
7
A/C HEAD
21
N.REC_ST(H)
624317953
EP(LP)ON
94
95
96
97
98
FULL ERASE HEAD
CN1
(
VIDEO/N.AUDIO SIGNAL PROCESSOR
)
IC1
+
2
1
IC2201
IC6701
61
NORMAL_OUT
62
NORMAL_IN
MONO_IN
ANA_IN1+
2
43
27
26
TV_IN(L)
TV_IN(R)
FMA CH1
AUDIO HEAD
U.DRUM
CN1
9
10
11
12
9
10
11
12
FMA CH2
J7105
8
6
7
5
3
4
10
EXT2_IN(R)
15
13
63
64
53
57
14
9
4
2
8
EXT2_IN(L)
EXT3_IN(L)
EXT3_IN(R)
BS_IN(R)
BS_IN(L)
EXT1_IN(L)
EXT1_IN(R)
DEC_OUT(R)
DEC_OUT(L)
LINE_OUT(R)
LINE_OUT(L)
22
CH1
21
COM
24
CH2
59
RFC_OUT
36
fsc_IN
MUTE_CTL
I2C_CLK
I2C_DATA
43
45
DATA
42
CLK
30
PB_FM_IN
DACM_L
DACM_R
H.REC_ST(H)
PAL_PB(H)
TP2253
A.PB.FM
MAIN(VIDEO/N. AUDIO,FMA, TERMINAL, TUNER
)
FRONT
AUDIO IN(R
)
AUDIO IN(L
)
PRE_OUT
29
7
8
9
3
4
4
3
69 71
X1
R
L
(Q2201 Q2204)
MUTE
CONTROL
1
3
4
A.OUT(L)
A.OUT(R)
A.GND
A.IN(L)
2
3
1
J7101
(AV1 IN/OUT)
AUDIO IN
27
TU6001
ANT IN
ANT OUT
AUDIO OUT
SIF OUT
46
47
6
A.IN(R)
J7102
(AV2 IN/DECODER)
4
A.OUT(L)
A.OUT(R)
A.GND
A.IN(L)
2
3
1
6
A.IN(R)
Q2255
R
L
SW
AMP
Q6701
IC2201-9
PB/REC 33mVp-p
10mV/0.5msec/DIV
REC/PB 0.4Vp-p
0.1V/1msec/DIV
WF1 IC2201-53WF2 IC2201-21
REC 1.2Vp-p
0.5V/20µsec/DIV
WF3
TP2253
A.PB.FM
PB 2.0Vp-p
0.5V/20µsec/DIV
WF4 IC1-6
REC 0.3Vp-p
PB 0.4Vp-p
0.1V/0.5ms/DIV
WF5 IC1-2
REC/PB 28mVp-p
10mV/0.5ms/DIV
WF6 IC1-98
REC 0.5Vp-p
0.1V/0.5ms/DIV
WF7
J7103
REAR OUT
AUDIO(R
)
AUDIO(L
)
4
1
2
R
L
J7104
REAR IN
AUDIO(R
)
AUDIO(L
)
4
1
2
R
L
AUDIO BLOCK DIAGRAM
2-29 2-30
Page 38
START_SENSOR
START
SENSOR
Q3002
29
END_SENSOR
END
SENSOR
Q3003
31
ONLY USED FOR
HR-V610EX, HR-V610EY, HR-V610EZ
HR-V611EX, HR-V611EY, HR-V611EZ
HR-V612EX, HR-V612EY, HR-V612EZ
NOT USED
+5V
(
32kHz
)
CTL(+)
CTL(-)
MAIN(SYSCON, VPS/PDC SLICER
)
REC_SAFETY
CTL_AMP_OUT
TO
D.FF
CN2001
2
1
LSD
CVIN2
VIDEO SECTION(ON SCREEN
)
V TO OSD
V FROM OSD
V. PULSEV. PULSE
VIDEO/N. AUDIO
VIDEO_ENV
C.SYNC
SECAM(H)
VIDEO_ENV
C.SYNC
SECAM(H)
X3001
C3025
TIMER CLOCK
TIMER CLOCK
SWSAFETYRECS3001
SDA
SCL
5
6
(
SYSTEM CONTROL MICRO PROCESSOR
)
IC3001
LSB
LSD
LSC
TP4001
CTL. P
30
M
LSB
LSA
LSC
ENCODER
ROTARY
1
2
CN1
( + )HEADCTL
( - )HEADCTL
CTL
HEADA/C
HEADA/C
VIDEO/N. AUDIO
TO
105
109
16
17
19
D.FF
7
4
3
76
75
X1
X2
X3002
MAIN SYSTEM
CLOCK
(10MHz)
80
78
OSC2(OUT)
OSC1(IN)
I2C_DATA_AV
I2C_CLK_AV
I2C_DATA
I2C_CLK
IC3003
(
SERIAL MEMORY
)
IC251
(VPS/PDC SLICER)
UN7001
94
100
A.MUTE(H
)
N.REC ST(H
)
N.REC(H
)
N.REC(H
)
12C_CLK2
N.REC_ST(H)
A.MUTE(H
)
A.MUTE(H
)
I2C_CLK_AV
I2C_DATA_AV
TO
VIDEO/N. AUDIO
WF6
WF5
WF7
TO
FMA
TO
VPS/PDC_SLICER
TO
TUNER
TO
TERMINAL
CFG
CAP_REV(H)
CAP_CTL_V
LM_FR(LMC1)
DFG
DRUM_CTL_V
9
55
108
44
104
107
39
S.CASS(H)
S.CASS SWS3002
40
62
61
101
60
59
I2C_DATA2
I2C_CLK2
SYNC_DET(H)
86
JSA
41
JSB
JSA
JSB
89
SAT_CTL
53
SAT_CTL
4
6
6
7
8
SYN_IN
SDA
SCL
SYNC_JDG
XTAL_IN
16
2
H.REC_ST(H
)
H.REC_ST(H)
93
PAL_PB(H
)
PAL_PB(H)
95
CVIN1
CVOUT
WF3
WF4
26
89
111
S_DETS_DET
35
38
34
LSA
67
33
JS3001
3
4
2
5
5
6
1
4
9
10
11
12
12
21
12
10
4
11
9
1
DRUM MOTOR
58
57
3in1MDA
CAP MOTOR
55
LOADING MOTOR
M
M
D PG+
D PG-
L1
L2
CAP.M FG
CAP.M F/R
CAP.M VCTL
LM F/R/S
DRUM PG/FG
DRUM CTL
CN3001
WF1
WF2
PHOTO
SENSOR
PHOTO
SENSOR
PC3001
PC3002
37
42
SP FG
TU FG
CN7003
3
1
CN7001
CN7102
2
1
4
CN7106
1
J7108
SAT_CTL
1
3
2
ADV. JOG
9 3
SAT_CTL
49
V_TO_VPS/PDC
2Fsc
TO
VIDEO/N.AUDIO
12C_DATA2
12C_CLK2
12C_DATA2
SYNC_DET(H)
BUF
Q7201
CN3001-1
CAP.M_FG
CN3001-11
DRUM_PG/FG
TP4001
CTL.P
IC3001-3 IC3001-111
REC/PB 4.3Vp-p
1.0V/0.5msec/DIV
REC/PB 4.5Vp-p
1.0V/5msec/DIV
PB 2.2Vp-p
0.5V/5msec/DIV
REC 1.0Vp-p
2.0V/10msec/DIV
REC/PB 5.0Vp-p
2V/20µsec/DIV
WF2WF1 WF3 WF4 WF5
IC3001-17
REC/PB 2.1Vp-p
0.5V/20µsec/DIV
WF6 IC3001-19
REC/PB 2.1Vp-p
0.5V/20µsec/DIV
WF7
SYSTEM CONTROL BLOCK DIAGRAM
2-31 2-32
Page 39
Page 40
Victor Company of Japan, Limited
AV & MULTIMEDIA COMPANY VIDEO DISPLAY CATEGORY 12, 3-chome, Moriya-cho, kanagawa-ku, Yokohama, kanagawa-prefecture, 221-8528, Japan
(No.YD010)
Printed in Japan
WPC
Page 41
PARTS LIST
SAFETY PRECAUTION
Parts identified by the symbol are critical for safety. Replace only with specified part numbers.
BEWARE OF BOGUS PARTS
Parts that do not meet specifications may cause trouble in regard to safety and performance. We recommend that genuine
JVC parts be used.
1. EXPLODED VIEW
1.1 PACKING AND ACCESSORY ASSEMBLY <M1>
The instruction manual to be provided with this product will differ according to the destination.
307
312
306
302
FINAL ASSY<M2>
ADHESIVE TAPE
308
311
316
317
310
319
325
303
302
301
330
FRONT SIDE
SPEC OF BARCODE
(No.YD010)3-1
Page 42
1.2 FINAL ASSEMBLY <M2>
515
505
503
504
502
501
c
515
c
d
503
510
510
510
SAT CTL BOARD ASSY<94>
MAIN BOARD ASSY<03>
533
Q3003
Q3002
533
g
533
d
c
d'
c'
c
b
c'
D3001
JS3001
517
CN5001
516
516
511
g
523
d'
c'
b
k
m
m
501A
h
h
501B
501C
529
h
h
h
h
h
512
NOTE
BOTTOM SIDE
TOP SIDE
NOTE) WHEN YOU FIX ANY PWB WITH THE SCREW.
PUT IT ON THE JIGS.
CN7003
CN7004
530
ADV.JOG BOARD ASSY<39>
NOTE) INSERT FFC WIRE TO THE CONNECTOR BEFORE
ATTACHING TO FRONT PANEL.
530
WR1
530
1. Insert direction of FFC WIRE as follows.
right side
electrode side
2. FFC WIRE and DRUM FPC WIRE
should be insert as follows.
OK
90
CN
back side
supporting side
NG
CN CN
3. Insert direction of POWER CORD.
US/UC/JPN
WHITE LINE
NEUTRAL
except US/UC/JPN
BLUE
NEUTRAL
CN5001
CN5001
3-2(No.YD010)
Page 43
1.3 MECHANISM ASSEMBLY <M4>
112
AA
124
127
128
126
AA
110
AA
118
77
76
134
AA
122
130
140
72
71
AA
73
75
37
17
AA
36
78
121
74
105
88
BB
90
89
21
4
AA
BB
BB
BB
BB
90
89
38
AA
107
AA
Not used
79
137
151
123
125
126
119
111
120
82
107
80
83
81
105
AA
115
AA
117
56
52
26
58
3
86
AA
55
53
91
1
39
113
112
116
114
A/C HEAD
BOARD ASSY <12>
WR2
57
58
42
50
44
49
WR1
85
AA
AA
69
70
PMD0049A-C
Classification Part No. Symbol in drawing
Grease KYODO-SH-JB AA
Oil COSMO-HV56 BB
102
AA
23B
AA
64
65
23
23A
WR3
67
62
59
AA
68
AA
84
61
60
63
66
AA
95
96
93
94
15
22
AA
24
18
19
20
LOADING MOTOR
BOARD ASSY <55>
16
AA
18B
18A
87
AA
AA
46
47
NOTE:The section marked in AA and BB
indicate lubrication and greasing areas.
(No.YD010)3-3
Page 44
MODEL MARK
HR-V610EX
HR-V610EY
HR-V610EZ
A
B
C
HR-V611EX
HR-V611EY
HR-V611EZ
MODEL MARK
D
E
F
MODEL MARK
HR-V612EX
HR-V612EY
HR-V612EZ
G
H
J
2. PARTS LIST
PACKING AND ACCESSORY ASSEMBLY <M1>
Symbol No.
Part No. Part Name Description Local
MODEL MARK
HR-V615EK
HR-V616EK
HR-V617EK
MODEL MARK
K
HR-V715EK N
L
M
Symbol No.
MECHANISM ASSEMBLY <M4>
Part No. Part Name Description Local
301 LP31421-001A PACKING CASE
A,B,C,D,E,F,G,H,J,K,L,M
301 LP31421-003A PACKING CASE N
302 LP31423-001A CUSHION ASSY
303 LP41038-002A POLY BAG
306 RM-SHR001E REMOCON
307 ------------ BATTERY R6 TYPE(x2)
308 QPC02202230P POLY BAG 22cm x 22cm
310 LPT0915-001A INST.BOOK (ENGLISH) A,D,G
310 LPT0915-003A INST.BOOK (FRENCH) A,D,G
310 LPT0915-004A INST.BOOK (DUCH) A,D,G
310 LPT0915-005B INST.BOOK (SPANISH) A,D,G
310 LPT0915-006A INST.BOOK (ITALIAN) A,D,G
310 LPT0915-011A INST.BOOK (PORTUGUESE) A,D,G
310 LPT0915-012A INST.BOOK (GREEK) A,D,G
310 LPT0915-002A INST.BOOK (GERMANY)
310 LPT0915-007A INST.BOOK (DANISH) B,E,H
310 LPT0915-008A INST.BOOK (FINNISH) B,E,H
310 LPT0915-009A INST.BOOK (SWEDISH) B,E,H
310 LPT0915-010A INST.BOOK (NORWEGIAN) B,E,H
310 LPT0915-013A INST.BOOK (CZECH) C,F,J
310 LPT0915-014A INST.BOOK (POLISH) C,F,J
310 LPT0915-015A INST.BOOK (HUNGARIAN) C,F,J
310 LPT0909-001A INST.BOOK (ENGLISH) K,L,M
310 LPT0910-001A INST.BOOK (ENGLISH) N
A,B,D,E,G,H
311 QPC02503530P POLY BAG 25cm x 35cm
312 QAM0503-002 RF CABLE
316 BT-54013-7 WARRANTY CARD
A,B,C,D,E,F,G,H,J
317 BT-54008-6 GUARANTY CARD K,L,M,N
319 LYT0194-001B Q.CARD K,L,M,N
325 LPT0915-016A SHEET(SPAIN) A,D,G
330 LP41078-001A POLY BAG K,L,M,N
FINAL ASSEMBLY <M2>
Symbol No.
501 LP10542-001E FRONT PANEL ASSY A,B,C
501 LP10542-002E FRONT PANEL ASSY D,E,F
501 LP10542-003E FRONT PANEL ASSY G,H,J
501 LP10542-007E FRONT PANEL ASSY K
501 LP10542-008E FRONT PANEL ASSY L
501 LP10542-009E FRONT PANEL ASSY M
501 LP10542-010E FRONT PANEL ASSY N
501A LP21266-002A CASSETTE DOOR D,E,F,L
501A LP21266-001A CASSETTE DOOR
501B PQ46448 TORSION SPRING
501C LP21265-001B WINDOW
501C LP21265-003B WINDOW N
502 LP10013-061C TOP COVER D,E,F,L
502 LP10013-051C TOP COVER
503 QYSDSF3010MA TAP SCREW
503 QYSDSF3010RA TAP SCREW
504 QYSDSF3010MA TAP SCREW
505 PDV2539A DRUM FINAL ASSY
510 QYSPSPD3008ZA SCREW
511 LP10108-001L BOTTOM CHASSIS
512 LP10014-002C BOTTOM COVER
515 QYSDSF4012ZA TAP SCREW
516 QYSPSFG3010ZA TAP SCREW
517 QMP4A10-170 POWER CORD 1.7m BLACK
517 QMP51K0-170-K POWER CORD 1.7m BLACK K,L,M,N
523 QYSDSF3010MA TAP SCREW
529 LP31397-001A KNOB (ADV.JOG) N
530 QYSPSFG2608ZA TAP SCREW
533 DPSF3010ZA SCREW
WR1 QUQ212-0414CG FFC WIRE
Part No. Part Name Description Local
A,B,C,G,H,J,K,M,N
A,B,C,D,E,F,G,H,J,K,L,M
A,B,C,G,H,J,K,M,N
M3 x 10mm SIDE(x4)
M3 x 10mm SIDE(x4)
A,B,C,G,H,J,K,M,N
M3 x 10mm REAR
M3 x 8mm DRUM(x3)
M4 x 12mm MECHANISM(x2)
M3 x 10mm MECHANISM(x2)
A,B,C,D,E,F,G,H,J
M3 x 10mm TERMINAL BOARD
M2.6 x 8mm ADV.JOG(x3)
M3 x 10mm MAIN(x3)
ADV.JOG CN7003-MAIN CN7001
D,E,F,L
1 LP21039-003A MAIN DECK ASSY
3 LP40097-002E GUIDE POLE CAP
4 NAH0004-001 FULL ERASE HEAD
15 LP30958-001B
LOADING GEAR BASE
16 QYTPST2620ZA TAP SCREW M2.6 x 20mm(x2)
17 QYTDST2606ZA TAP SCREW M2.6 x 6mm
18 LP40798-002A
18A LP21040-001A
18B LP40799-002A
19 LP40837-001A
LOADING GEAR(SUPPLY) ASSY
LOADING GEAR(SUPPLY)
LOADING ARM(SUPPLY) ASSY
TORSION SPRING(SUPPLY)
20 LP40903-004A FIXING PLATE
21 LP40806-001D
POLE BASE ASSY(SUPPLY)
22 LP30959-001B LOADING GEAR
23 LP40802-002A
23A LP21041-001D
23B LP40803-002A
24 LP40838-001A
26 LP40808-001E
LOADING GEAR(TAKE UP) ASSY
LOADING GEAR(TAKE UP)
LOADING ARM(TAKE UP) ASSY
TORSION SPRING(TAKE UP)
POLE BASE ASSY(TAKE UP)
36 LP21055-001G TAKE UP LEVER
37 LP40943-001A TENSION SPRING
38 LP40859-001D T-UP HEAD
39 LP30961-001C LID GUIDE
42 LP40810-003A
PINCH ROLLER ARM ASSY
44 LP40840-001D TORSION SPRING
46 LP30963-002A PRESS LEVER
47 PQM30017-24 SLIT WASHER
49 LP40813-001D GUIDE ARM ASSY
50 LP40841-001A TORSION SPRING
52 NAH0005-001 AC HEAD
53 LP30965-003A HEAD BASE
55 LP40842-001D
COMPRESSION SPRING
56 QYTDST2006MA TAP SCREW M2 x 6mm
57 LP41036-002A A/C ADJ.SCREW (x2)
58 QYTDST2606ZA TAP SCREW M2.6 x 6mm(x2)
59 QAR0289-001 LOADING MOTOR
60 QYTPSP3003ZA SCREW M3 x 3mm(x2)
61 LP21056-002J MOTOR BRACKET
62 QYTPST2620ZA TAP SCREW M2.6 x 20mm
63 LP40814-001B WORM BEARING
64 LP21044-001E CONTROL CAM
65 PQM30017-24 SLIT WASHER
66 LP40815-001A WORM GEAR
67 LP40816-001B HELICAL GEAR
68 LP40817-001A CONNECT GEAR
69 LP10400-001N CONTROL PLATE
70 LP40843-001A TORSION SPRING
71 LP40818-002A TENSION ARM ASSY
72 LP40844-001F TENSION SPRING
73 LP21045-001E TENSION ARM BASE
74 LP40821-001A
TENSION BAND ASSY
75 LP30967-001B BAND HOLDER-1
76 LP30968-001C BAND HOLDER-2
77 LP40822-002B ADJUST PIN
78 LP31000-005E
79 LP21046-001C
TENSION ARM LEVER
MAIN BRAKE(TAKE UP)
80 LP40824-001A BAND BRAKE ASSY
81 LP30969-002B BRAKE LEVER
82 LP30003-033C TENSION SPRING
83 LP30003-035C TENSION SPRING
84 LP40825-001B
85 QAR0224-003 CAPSTAN MOTOR
CAPSTAN BRAKE ASSY
86 QYTPSG2606ZA TAP SCREW M2.6 x 6mm(x3)
87 LP30005-010A BELT
CAPSTAN MOTOR
88 LP30970-001A IDLER ARM
89 LP40828-004A IDLER GEAR 1 (x2)
90 LP40829-002A IDLER GEAR 2 (x2)
N
N
91 LP31014-002A WIRE HOLDER
93 LP40934-001B CLUTCH UNIT
94 PQM30017-47 SLIT WASHER
95 LP30973-001A DIRECT GEAR
96 LP40939-001A
COMPRESSION SPRING
102 LP30974-001C CHANGE LEVER
105 LP21049-001A REEL DISK (x2)
107 LP30017-004A SPACER REEL DISK(x2)
3-4(No.YD010)
Page 45
Symbol No.
MODEL MARK
HR-V610EX
HR-V610EY
HR-V610EZ
Part No. Part Name Description Local
A
B
C
HR-V611EX
HR-V611EY
HR-V611EZ
MODEL MARK
Symbol No.
D
E
F
Part No. Part Name Description Local
MODEL MARK
HR-V612EX
HR-V612EY
HR-V612EZ
G
HR-V615EK
H
HR-V616EK
J
HR-V617EK
MODEL MARK
K
L
M
MODEL MARK
HR-V715EK N
110 LP10401-001L SIDE FRAME(L)
111 LP10402-001M SIDE FRAME(R)
112 QYTDST2606ZA TAP SCREW M2.6 x 6mm(x2)
113 LP40917-001D TORSION SPRING
114 LP30976-002A SIDE PLATE
115 LP30977-002E LIMIT PLATE
116 LP40846-001C LIMIT SPRING
117 LP31100-002A DRIVE LEVER
118 LP30978-001B DRIVE ARM(L)
119 LP30979-001S DRIVE ARM(R)
120 LP40847-001B TORSION SPRING
121 LP30980-002A CONNECT PLATE
122 LP10403-001C SIDE HOLDER(L)
123 LP10404-001E SIDE HOLDER(R)
124 LP30983-002A LOCK LEVER(L)
125 LP30984-002A LOCK LEVER(R)
126 LP40924-001D TENSION SPRING (x2)
127 LP40972-001A EARTH SPRING(1)
128 LP40857-001B EARTH SPRING(2)
130 LP30981-003A
CASSETTE HOLDER ASSY
134 LP21051-002C REC SAFETY LEVER
137 LP21052-002A TOP FRAME
140 LP41153-001A EARTH SPRING(3)
151 LP30985-002M DOOR OPENER
WR1 WJT0117-001A E-CARD WIRE DRUM
WR2 WJT0067-001B E-CARD WIRE
WR3 WJS0022-001A E-FL/RB WIRE
A/C HEAD CN2001
LOADING MOTOR
MAIN BOARD ASSEMBLY <03>
Symbol No.
PW1 LPA10189-19A MAIN BOARD ASSY
PW1 LPA10189-15A MAIN BOARD ASSY K,L,M
PW1 LPA10189-16A MAIN BOARD ASSY N
IC1 JCP8060-MSA IC
IC251 LC74793 IC
IC2201 AN3651FBP IC
IC3001 HD6432199RA84F IC(MCU) MASK
IC3001 HD6432199RA85F IC(MCU) MASK K,L,M,N
IC3002 IC-PST3427U-X IC
IC3002 or S-80827CNNB-X IC
IC3003 LPN0785-001E-01 IC(EEPROM)
IC3003 LPN0785-002F-01 IC(EEPROM)
IC3003 LPN0785-003F-03 IC(EEPROM)
IC6701 MSP3417D-X IC
IC6701 or MSP3417DG3-X IC
IC6701 or MSP3417G-X IC
IC6701 or MSP3417GQGB8V3X IC
IC7002 GP1UM291QK IR DETECT UNIT 38kHz
IC7102 MM1508XN-X IC
IC7103 MM1508XN-X IC
Q7 2SC4081/QRS/-X TRANSISTOR
Q7 or 2PC4081/R/-X TRANSISTOR
Q7 or 2SD1819A/QRS/-X TRANSISTOR
Q8 2SC4081/QRS/-X TRANSISTOR
Q8 or 2PC4081/R/-X TRANSISTOR
Q8 or 2SD1819A/QRS/-X TRANSISTOR
Q9 2SC4081/QRS/-X TRANSISTOR
Q9 or 2PC4081/R/-X TRANSISTOR
Q9 or 2SD1819A/QRS/-X TRANSISTOR
Q10 2SC4081/QRS/-X TRANSISTOR
Q10 or 2PC4081/R/-X TRANSISTOR
Q10 or 2SD1819A/QRS/-X TRANSISTOR
Q12 2SA1576A/QR/-X TRANSISTOR
Q12 or 2SB1218A/QR/-X TRANSISTOR
Q12 or 2PA1576/R/-X TRANSISTOR
Q2001 2SC4081/QRS/-X TRANSISTOR
Q2001 or 2SD1819A/QRS/-X TRANSISTOR
Q2001 or 2PC4081/R/-X TRANSISTOR
Q2002 2SC4081/QRS/-X TRANSISTOR
Q2002 or 2SD1819A/QRS/-X TRANSISTOR
Q2002 or 2PC4081/R/-X TRANSISTOR
Part No. Part Name Description Local
*(REFER TO BELOW)
*(REFER TO BELOW)
*(REFER TO BELOW)
A,B,C,D,E,F,G,H,J
A,B,C,D,E,F,G,H,J
A,B,C,D,E,F,G,H,J
K,L,M
N
A,B,C,D,E,F,G,H,J
A,B,C,D,E,F,G,H,J
Q2003 DTA144WUA-X DIGI TRANSISTOR
Q2003 or UN511E-X DIGI TRANSISTOR
Q2003 or RN2309-X DIGI TRANSISTOR
Q2003 or PDTA144WU-X DIGI TRANSISTOR
Q2051 2SC4081/QRS/-X TRANSISTOR
Q2051 or 2SD1819A/QRS/-X TRANSISTOR
Q2051 or 2PC4081/R/-X TRANSISTOR
Q2052 2SA1576A/QR/-X TRANSISTOR
Q2052 or 2SB1218A/QR/-X TRANSISTOR
Q2052 or 2PA1576/R/-X TRANSISTOR
Q2053 DTC144WUA-X DIGI TRANSISTOR
Q2053 or UN521E-X DIGI TRANSISTOR
Q2053 or RN1309-X DIGI TRANSISTOR
Q2053 or PDTC144WU-X DIGI TRANSISTOR
Q2054 2SA1576A/QR/-X TRANSISTOR
Q2054 or 2SB1218A/QR/-X TRANSISTOR
Q2054 or 2PA1576/R/-X TRANSISTOR
Q2055 DTC144WUA-X DIGI TRANSISTOR
Q2055 or UN521E-X DIGI TRANSISTOR
Q2055 or RN1309-X DIGI TRANSISTOR
Q2055 or PDTC144WU-X DIGI TRANSISTOR
Q2201 DTA144WUA-X DIGI TRANSISTOR
Q2201 or PDTA144WU-X DIGI TRANSISTOR
Q2201 or UN511E-X DIGI TRANSISTOR
Q2201 or RN2309-X DIGI TRANSISTOR
Q2202 DTC144WUA-X DIGI TRANSISTOR
Q2202 or PDTC144WU-X DIGI TRANSISTOR
Q2202 or UN521E-X DIGI TRANSISTOR
Q2202 or RN1309-X DIGI TRANSISTOR
Q2203 2SC4081/QRS/-X TRANSISTOR
Q2203 or 2PC4081/R/-X TRANSISTOR
Q2203 or 2SD1819A/QRS/-X TRANSISTOR
Q2204 2SC4081/QRS/-X TRANSISTOR
Q2204 or 2PC4081/R/-X TRANSISTOR
Q2204 or 2SD1819A/QRS/-X TRANSISTOR
Q2255 DTC114EUA-X DIGI TRANSISTOR
Q2255 or PDTC114EU-X DIGI TRANSISTOR
Q2255 or UN5211-X DIGI TRANSISTOR
Q2255 or RN1302-X DIGI TRANSISTOR
Q3003 PTZ-NV16A IC(PHOTO SENSOR)
Q3004 2SD1819A/QRS/-X TRANSISTOR
Q3004 or 2SC4081/QRS/-X TRANSISTOR
Q3004 or 2PC4081/R/-X TRANSISTOR
Q3005 2SD1819A/QRS/-X TRANSISTOR
Q3005 or 2SC4081/QRS/-X TRANSISTOR
Q3005 or 2PC4081/R/-X TRANSISTOR
Q3007 UN521E-X DIGI TRANSISTOR
Q3007 or DTC144WUA-X DIGI TRANSISTOR
Q3007 or PDTC144WU-X DIGI TRANSISTOR
Q3007 or RN1309-X DIGI TRANSISTOR
Q4001 UN5211-X DIGI TRANSISTOR
Q4001 or DTC114EUA-X DIGI TRANSISTOR
Q4001 or PDTC114EU-X DIGI TRANSISTOR
Q4001 or RN1302-X DIGI TRANSISTOR
Q5101 2SK2632-CB14 POWER MOS FET
Q5101 or 2SK2129-LT POWER MOS FET
Q5101 or 2SK2632 POWER MOS FET
Q5101 or 2SK2129 POWER MOS FET
Q5102 2SD2144S/UV/-T TRANSISTOR
Q5301 2SC1740S/RS/-T TRANSISTOR
Q5301 or 2SC3199/YG/-T TRANSISTOR
Q5304 2SD2144S/UV/-T TRANSISTOR
Q5305 DTA114EUA-X DIGI TRANSISTOR
Q5305 or UN5111-X DIGI TRANSISTOR
Q5305 or RN2302-X DIGI TRANSISTOR
Q5305 or PDTA114EU-X DIGI TRANSISTOR
Q5306 DTC114EUA-X DIGI TRANSISTOR
Q5306 or UN5211-X DIGI TRANSISTOR
Q5306 or RN1302-X DIGI TRANSISTOR
Q5306 or PDTC114EU-X DIGI TRANSISTOR
Q5307 2SD2144S/UV/-T TRANSISTOR
Q5321 2SD1858/QR/-T TRANSISTOR
Q6030 2SB1218A/RS/-X TRANSISTOR
Q6031 DTC114EUA-X DIGI TRANSISTOR
Q6031 or UN5211-X DIGI TRANSISTOR
Q6031 or RN1302-X DIGI TRANSISTOR
Q6031 or PDTC114EU-X DIGI TRANSISTOR
Q6032 DTC114EUA-X DIGI TRANSISTOR
A,B,C,D,E,F,G,H,J
A,B,C,D,E,F,G,H,J
A,B,C,D,E,F,G,H,J
A,B,C,D,E,F,G,H,J
*The VCR goes to jig RCU mode after replacing the EEPROM and the VCR does not accept some RCU command.
Therefore please set the VCR to the user RCU mode after replacing the EEPROM.
The method of setting the VCR to the user RCU mode is written on the service manual.
(No.YD010)3-5
Page 46
MODEL MARK
HR-V610EX
HR-V610EY
HR-V610EZ
Symbol No.
A
B
C
HR-V611EX
HR-V611EY
HR-V611EZ
MODEL MARK
MODEL MARK
D
HR-V612EX
E
HR-V612EY
F
HR-V612EZ
G
H
J
HR-V615EK
HR-V616EK
HR-V617EK
MODEL MARK
K
L
M
Part No. Part Name Description Local
MODEL MARK
HR-V715EK N
Symbol No.
Part No. Part Name Description Local
Q6032 or UN5211-X DIGI TRANSISTOR
Q6032 or RN1302-X DIGI TRANSISTOR
Q6032 or PDTC114EU-X DIGI TRANSISTOR
Q7001 DTA143TUA-X DIGI TRANSISTOR
Q7002 DTA143TUA-X DIGI TRANSISTOR
Q7003 DTA143TUA-X DIGI TRANSISTOR
Q7004 DTA143TUA-X DIGI TRANSISTOR
Q7005 DTA143TUA-X DIGI TRANSISTOR
Q7008 DTC143TUA-X DIGI TRANSISTOR
Q7008 or UN5216-X DIGI TRANSISTOR
Q7009 DTC143TUA-X DIGI TRANSISTOR
Q7009 or UN5216-X DIGI TRANSISTOR
Q7010 DTC143TUA-X DIGI TRANSISTOR
Q7010 or UN5216-X DIGI TRANSISTOR
Q7011 DTC143TUA-X DIGI TRANSISTOR
Q7011 or UN5216-X DIGI TRANSISTOR
Q7012 DTC143TUA-X DIGI TRANSISTOR
Q7012 or UN5216-X DIGI TRANSISTOR
Q7013 DTC143TUA-X DIGI TRANSISTOR
Q7013 or UN5216-X DIGI TRANSISTOR
Q7014 DTC143TUA-X DIGI TRANSISTOR
Q7014 or UN5216-X DIGI TRANSISTOR
Q7101 2SB1218A/QR/-X TRANSISTOR
Q7101 or 2SA1576A/QR/-X TRANSISTOR
Q7101 or 2PA1576/R/-X TRANSISTOR
Q7102 DTC144WUA-X DIGI TRANSISTOR
Q7102 or UN521E-X DIGI TRANSISTOR
Q7102 or RN1309-X DIGI TRANSISTOR
Q7102 or PDTC144WU-X DIGI TRANSISTOR
Q7103 2SC4081/QRS/-X TRANSISTOR
Q7103 or 2SD1819A/QRS/-X TRANSISTOR
Q7103 or 2PC4081/R/-X TRANSISTOR
Q7104 2SB1218A/QR/-X TRANSISTOR
Q7104 or 2SA1576A/QR/-X TRANSISTOR
Q7104 or 2PA1576/R/-X TRANSISTOR
Q7105 DTC144WUA-X DIGI TRANSISTOR
Q7105 or UN521E-X DIGI TRANSISTOR
Q7105 or RN1309-X DIGI TRANSISTOR
Q7105 or PDTC144WU-X DIGI TRANSISTOR
Q7106 2SB1218A/QR/-X TRANSISTOR
Q7106 or 2SA1576A/QR/-X TRANSISTOR
Q7106 or 2PA1576/R/-X TRANSISTOR
Q7107 2SC4081/QRS/-X TRANSISTOR
Q7107 or 2SD1819A/QRS/-X TRANSISTOR
Q7107 or 2PC4081/R/-X TRANSISTOR
Q7201 2SC1317/RS/-T TRANSISTOR
D201 1SS133-T2 DIODE
D201 or 1SS270A-T2 SI DIODE
D2001 1SS133-T2 DIODE
D2001 or 1SS270A-T2 SI DIODE
D2251 1SS133-T2 DIODE
D2251 or 1SS270A-T2 SI DIODE
D3001 LNB2301L01VI LED
D3002 1SS133-T2 DIODE
D3002 or 1SS270A-T2 SI DIODE
D3003 RD39ES/B3/-T2 Z DIODE
D3003 or MTZJ39C-T2 Z DIODE
D3004 10EDB20-T2 SI DIODE
D3004 or 1A3G-T2 SI DIODE
D3005 10EDB20-T2 SI DIODE
D3005 or 1A3G-T2 SI DIODE
D3008 1SS133-T2 DIODE
D3008 or 1SS270A-T2 SI DIODE
D5001 S1WB/A/60-4102 BRIDGE DIODE
D5001 or S1WB/A/60-X BRIDGE DIODE
D5001 or S1WB(A)60F4072X BRIDGE DIODE
D5101 AU01-T2 SI DIODE
D5101 or 1SR153-400-T2 FR DIODE
D5101 or ERA18-04-T2 FR DIODE
D5101 or 10ERB40-T2 FR DIODE
D5102 AU01-T2 SI DIODE
D5102 or 1SR153-400-T2 FR DIODE
D5102 or ERA18-04-T2 FR DIODE
D5102 or 10ERB40-T2 FR DIODE
D5103 1SS133-T2 DIODE
D5103 or 1SS270A-T2 SI DIODE
D5105 1SS133-T2 DIODE
A,B,C,D,E,F,G,H,J
A,B,C,D,E,F,G,H,J
A,B,C,D,E,F,G,H,J
D5105 or 1SS270A-T2 SI DIODE
D5203 AU01Z-T2 FR DIODE
D5203 or 10ERB20-T2 FR DIODE
D5203 or 1F4G-T2 FR DIODE
D5204 AU01Z-T2 FR DIODE
D5204 or 10ERB20-T2 FR DIODE
D5204 or 1F4G-T2 FR DIODE
D5207 AK04-T2 SB DIODE
D5207 or 11EQS04-T2 SB DIODE
D5207 or 1S4-T2 SB DIODE
D5207 or SBO40-T2 SB DIODE
D5209 AK04-T2 SB DIODE
D5209 or 11EQS04-T2 SB DIODE
D5209 or 1S4-T2 SB DIODE
D5209 or SBO40-T2 SB DIODE
D5210 AU01Z-T2 FR DIODE
D5210 or 1F4G-T2 FR DIODE
D5210 or 1SR153-400-T2 FR DIODE
D5210 or 10ERB20-T2 FR DIODE
D5210 or PG104RS-T2 FR DIODE
D5301 MTZJ15C-T2 Z DIODE
D5301 or RD15ES/B3/-T2 Z DIODE
D5302 MTZJ11C-T2 Z DIODE
D5302 or RD11ES/B3/-T2 Z DIODE
D5303 MTZJ5.6A-T2 Z DIODE
D5303 or RD5.6ES/B1/-T2 Z DIODE
D5305 MTZJ5.6C-T2 Z DIODE
D5305 or RD5.6ES/B3/-T2 Z DIODE
D6002 HZ30-2L-T2 Z DIODE
D6002 or HZ30-2LTD Z DIODE
D6002 or MTZJ30D-T2 Z DIODE
PC3001 RPI-304J IC(PHOTO SENSOR)
PC3002 RPI-304J IC(PHOTO SENSOR)
PC5101 PC123Y22FZ PHOTO COUPLER
C1 NDC21HJ-151X C CAPACITOR 150pF 50V J
C2 NDC21HJ-470X C CAPACITOR 47pF 50V J
C4 QEKJ1EM-106Z E CAPACITOR 10uF 25V M
C5 NCB21EK-104X C CAPACITOR 0.1uF 25V K
C6 NCB21EK-104X C CAPACITOR 0.1uF 25V K
C7 NCB21EK-104X C CAPACITOR 0.1uF 25V K
C8 QEKJ1HM-105Z E CAPACITOR 1uF 50V M
C9 QEKJ1HM-225Z E CAPACITOR 2.2uF 50V M
C10 QEKJ0JM-476Z E CAPACITOR 47uF 6.3V M
C11 QEPF1HM-105Z E CAPACITOR 1uF 50V M
C12 QEKJ1HM-105Z E CAPACITOR 1uF 50V M
C14 QEKJ1HM-105Z E CAPACITOR 1uF 50V M
C15 NCB21EK-104X C CAPACITOR 0.1uF 25V K
C17 NCB21EK-104X C CAPACITOR 0.1uF 25V K
C19 NCB21EK-104X C CAPACITOR 0.1uF 25V K
C20 NCB21EK-104X C CAPACITOR 0.1uF 25V K
C22 NCB21EK-104X C CAPACITOR 0.1uF 25V K
C24 NCB21EK-104X C CAPACITOR 0.1uF 25V K
C25 QEKJ1HM-335Z E CAPACITOR 3.3uF 50V M
C26 QEKJ1EM-106Z E CAPACITOR 10uF 25V M
C27 NCB21HK-103X C CAPACITOR 0.01uF 50V K
C30 NCB21HK-331X C CAPACITOR 330pF 50V K
C31 QEKJ0JM-476Z E CAPACITOR 47uF 6.3V M
C32 NCB21HK-103X C CAPACITOR 0.01uF 50V K
C33 QEKJ1EM-106Z E CAPACITOR 10uF 25V M
C34 NCB21HK-103X C CAPACITOR 0.01uF 50V K
C35 NCB21HK-103X C CAPACITOR 0.01uF 50V K
C36 QEKJ1HM-105Z E CAPACITOR 1uF 50V M
C37 NDC21HJ-4R0X C CAPACITOR 4pF 50V J
C38 NCB21HK-103X C CAPACITOR 0.01uF 50V K
C39 QEKJ0JM-476Z E CAPACITOR 47uF 6.3V M
C40 NCB21HK-103X C CAPACITOR 0.01uF 50V K
C41 NCB21EK-104X C CAPACITOR 0.1uF 25V K
C43 QEKJ1HM-335Z E CAPACITOR 3.3uF 50V M
C44 QEKJ1HM-225Z E CAPACITOR 2.2uF 50V M
C45 NCB21HK-472X C CAPACITOR 4700pF 50V K
C46 NCB21EK-104X C CAPACITOR 0.1uF 25V K
C47 QEKJ1HM-474Z E CAPACITOR 0.47uF 50V M
C48 NCB21EK-223X C CAPACITOR 0.022uF 25V K
C49 QEKJ1HM-475Z E CAPACITOR 4.7uF 50V M
C55 NDC21HJ-151X C CAPACITOR 150pF 50V J
C56 NCB21EK-104X C CAPACITOR 0.1uF 25V K
3-6(No.YD010)
Page 47
Symbol No.
MODEL MARK
HR-V610EX
HR-V610EY
HR-V610EZ
Part No. Part Name Description Local
A
B
C
HR-V611EX
HR-V611EY
HR-V611EZ
MODEL MARK
Symbol No.
D
E
F
Part No. Part Name Description Local
MODEL MARK
HR-V612EX
HR-V612EY
HR-V612EZ
G
HR-V615EK
H
HR-V616EK
J
HR-V617EK
MODEL MARK
K
L
M
MODEL MARK
HR-V715EK N
C57 NCB21HK-103X C CAPACITOR 0.01uF 50V K
C58 NCB21HK-103X C CAPACITOR 0.01uF 50V K
C59 NCB21HK-103X C CAPACITOR 0.01uF 50V K
C60 NCB21HK-103X C CAPACITOR 0.01uF 50V K
C61 QEKC0JM-476Z E CAPACITOR 47uF 6.3V M
C62 QCBB1HK-103Y C CAPACITOR 0.01uF 50V K
C63 NCB21HK-103X C CAPACITOR 0.01uF 50V K
C64 QCBB1HK-103Y C CAPACITOR 0.01uF 50V K
C71 QEKJ1HM-105Z E CAPACITOR 1uF 50V M
C201 NDC21HJ-220X C CAPACITOR 22pF 50V J
C202 QERF1EM-475Z E CAPACITOR 4.7uF 25V M
C203 NCB21HK-102X C CAPACITOR 1000pF 50V K
C204 NCB21HK-681X C CAPACITOR 680pF 50V K
C205 QEKJ1HM-475Z E CAPACITOR 4.7uF 50V M
C207 QEKJ1HM-475Z E CAPACITOR 4.7uF 50V M
C209 QEKJ0JM-476Z E CAPACITOR 47uF 6.3V M
C210 NCB21HK-103X C CAPACITOR 0.01uF 50V K
C212 NCB21HK-103X C CAPACITOR 0.01uF 50V K
C214 NDC21HJ-150X C CAPACITOR 15pF 50V J
C215 NDC21HJ-270X C CAPACITOR 27pF 50V J
C251 NCB21HK-103X C CAPACITOR 0.01uF 50V K
C252 QEKJ1EM-475Z E CAPACITOR 4.7uF 25V M
C253 NCB21EK-563X C CAPACITOR 0.056uF 25V K
C254 QEKJ1HM-105Z E CAPACITOR 1uF 50V M
C255 QEKJ0JM-227Z E CAPACITOR 220uF 6.3V M
C256 NCB21CK-224X C CAPACITOR 0.22uF 16V K
A,B,C,D,E,F,G,H,J
C256 NCB21HK-103X C CAPACITOR 0.01uF 50V K K,L,M,N
C257 QEKJ1HM-105Z E CAPACITOR 1uF 50V M
C258 NCB21CK-224X C CAPACITOR 0.22uF 16V K
C259 QEKJ0JM-227Z E CAPACITOR 220uF 6.3V M
C2001 QEKJ1HM-475Z E CAPACITOR 4.7uF 50V M
C2002 QEKJ1HM-105Z E CAPACITOR 1uF 50V M
C2003 QEKJ0JM-476Z E CAPACITOR 47uF 6.3V M
C2005 QEKJ1HM-475Z E CAPACITOR 4.7uF 50V M
C2006 NCB21HK-682X C CAPACITOR 6800pF 50V K
C2007 QEKJ1CM-226Z E CAPACITOR 22uF 16V M
C2008 QEKJ1HM-475Z E CAPACITOR 4.7uF 50V M
C2009 NCB21HK-122X C CAPACITOR 1200pF 50V K
C2010 NCB21HK-152X C CAPACITOR 1500pF 50V K
C2011 QEKJ1HM-475Z E CAPACITOR 4.7uF 50V M
C2012 QEKC1HM-475Z E CAPACITOR 4.7uF 50V M
C2051 NCB21HK-331X C CAPACITOR 330pF 50V K
C2052 QFLC1HJ-823Z M CAPACITOR 0.082uF 50V J
C2053 NCB21HK-472X C CAPACITOR 4700pF 50V K
C2054 NCB21EK-223X C CAPACITOR 0.022uF 25V K
C2055 QEKJ1EM-106Z E CAPACITOR 10uF 25V M
C2201 QEKJ1EM-106Z E CAPACITOR 10uF 25V M
C2202 QEKJ1HM-475Z E CAPACITOR 4.7uF 50V M
C2203 QEKJ1HM-475Z E CAPACITOR 4.7uF 50V M
C2204 QEKJ0JM-336Z E CAPACITOR 33uF 6.3V M
C2205 QEKJ1EM-106Z E CAPACITOR 10uF 25V M
C2206 QEKJ1EM-106Z E CAPACITOR 10uF 25V M
C2207 NCB21HK-153X C CAPACITOR 0.015uF 50V K
C2208 NCB21HK-153X C CAPACITOR 0.015uF 50V K
C2209 QERF1CM-106Z E CAPACITOR 10uF 16V M
C2210 QERF1CM-106Z E CAPACITOR 10uF 16V M
C2211 QEKJ0JM-336Z E CAPACITOR 33uF 6.3V M
C2212 QEKJ0JM-476Z E CAPACITOR 47uF 6.3V M
C2214 QEKJ1EM-106Z E CAPACITOR 10uF 25V M
C2215 QEKJ1EM-106Z E CAPACITOR 10uF 25V M
C2216 QEKJ1CM-476Z E CAPACITOR 47uF 16V M
C2218 QEKJ1EM-106Z E CAPACITOR 10uF 25V M
C2219 QEKJ1CM-226Z E CAPACITOR 22uF 16V M
C2220 QEKJ1EM-106Z E CAPACITOR 10uF 25V M
C2221 NCB21EK-223X C CAPACITOR 0.022uF 25V K
C2222 NCB21HK-103X C CAPACITOR 0.01uF 50V K
C2223 NCB21EK-473X C CAPACITOR 0.047uF 25V K
C2224 NCB21EK-473X C CAPACITOR 0.047uF 25V K
C2225 NCB21AK-105X C CAPACITOR 1uF 10V K
C2226 NCB21AK-105X C CAPACITOR 1uF 10V K
A,B,C,D,E,F,G,H,J
A,B,C,D,E,F,G,H,J
C2227 QERF1CM-106Z E CAPACITOR 10uF 16V M
C2230 QEKJ1EM-106Z E CAPACITOR 10uF 25V M
C2231 QEKJ1EM-106Z E CAPACITOR 10uF 25V M
A,B,C,D,E,F,G,H,J
A,B,C,D,E,F,G,H,J
C2251 NCB21HK-103X C CAPACITOR 0.01uF 50V K
C2252 NCB21HK-103X C CAPACITOR 0.01uF 50V K
C2253 NCB21HK-103X C CAPACITOR 0.01uF 50V K
C2254 QEKJ0JM-476Z E CAPACITOR 47uF 6.3V M
C2255 NCB21HK-103X C CAPACITOR 0.01uF 50V K
C2256 NCB21HK-103X C CAPACITOR 0.01uF 50V K
C2257 NCB21HK-103X C CAPACITOR 0.01uF 50V K
C2258 NDC21HJ-181X C CAPACITOR 180pF 50V J
A,B,C,D,E,F,G,H,J
C2259 QEKJ1HM-334Z E CAPACITOR 0.33uF 50V M
C3004 NCB21EK-473X C CAPACITOR 0.047uF 25V K
C3011 QETL0JM-338 E CAPACITOR 3300uF 6.3V M
C3012 QEKJ0JM-476Z E CAPACITOR 47uF 6.3V M
C3013 NCB21HK-103X C CAPACITOR 0.01uF 50V K
C3014 QERF0JM-476Z E CAPACITOR 47uF 6.3V M
C3016 NCB21EK-473X C CAPACITOR 0.047uF 25V K
C3022 NCB21EK-473X C CAPACITOR 0.047uF 25V K
C3024 NDC21HJ-120X C CAPACITOR 12pF 50V J
C3025 QAT3725-300Z TRIM CAPACITOR
30pF TIMER CLOCK
A,B,C,D,E,F,G,H,J
C3030 QEKJ0JM-476Z E CAPACITOR 47uF 6.3V M
C3031 NCB21EK-473X C CAPACITOR 0.047uF 25V K
C3033 NCB21EK-473X C CAPACITOR 0.047uF 25V K
C3036 NDC21HJ-180X C CAPACITOR 18pF 50V J
C3037 NDC21HJ-120X C CAPACITOR 12pF 50V J
C3041 NDC21HJ-180X C CAPACITOR 18pF 50V J K,L,M,N
C3045 NCB21HK-103X C CAPACITOR 0.01uF 50V K
C3050 NCF21EZ-104X C CAPACITOR 0.1uF 25V Z
C3051 NCB21EK-104X C CAPACITOR 0.1uF 25V K
C3052 QEKJ1EM-106Z E CAPACITOR 10uF 25V M
C3054 NCB21HK-222X C CAPACITOR 2200pF 50V K
C3056 NCB21EK-104X C CAPACITOR 0.1uF 25V K
C3057 NCB21HK-103X C CAPACITOR 0.01uF 50V K
C3071 QEKJ1CM-336Z E CAPACITOR 33uF 16V M
C4002 NCB21HK-103X C CAPACITOR 0.01uF 50V K
C4004 QERF1CM-226Z E CAPACITOR 22uF 16V M
C4005 NCB21HK-222X C CAPACITOR 2200pF 50V K
C4006 QERF0JM-476Z E CAPACITOR 47uF 6.3V M
C4008 QEQF1HM-105Z E CAPACITOR 1uF 50V M
C4009 NCB21HK-563X C CAPACITOR 0.056uF 50V K
C4010 NCB21EK-223X C CAPACITOR 0.022uF 25V K
C4011 NCB21EK-104X C CAPACITOR 0.1uF 25V K
C4012 QERF1HM-105Z E CAPACITOR 1uF 50V M
C4014 NDC21HJ-101X C CAPACITOR 100pF 50V J
C4015 NCB21HK-102X C CAPACITOR 1000pF 50V K
C4016 NDC21HJ-101X C CAPACITOR 100pF 50V J
C5001 QFZ9072-473 MM CAPACITOR
C5004 QCZ9071-222 C CAPACITOR
0.047uF AC250V K
2200pF AC400V M
C5006 QEZ0375-686 E CAPACITOR 68uF 400V M
C5101 QCZ0212-472 C CAPACITOR 4700pF 1kV K
C5102 QCZ0339-101Z C CAPACITOR 100pF 1kV K
C5104 QEKJ1HM-105Z E CAPACITOR 1uF 50V M
C5105 QFN31HJ-183Z M CAPACITOR 0.018uF 50V J
C5106 QCBB1HJ-271Y C CAPACITOR 270pF 50V J
C5107 QFV91HJ-104Z MF CAPACITOR 0.1uF 50V J
C5202 QETN1CM-108Z E CAPACITOR 1000uF 16V M
C5203 QEMT1AM-687 E CAPACITOR 680uF 10V M
C5204 QETJ2AM-475Z E CAPACITOR 4.7uF 100V M
C5206 QEKJ1CM-476Z E CAPACITOR 47uF 16V M
C5207 QEKJ1CM-476Z E CAPACITOR 47uF 16V M
C5303 QEKJ1CM-476Z E CAPACITOR 47uF 16V M
C5305 QFVF1HJ-274Z MF CAPACITOR 0.27uF 50V J
C5307 QEKJ1CM-476Z E CAPACITOR 47uF 16V M
C5308 QEKJ1CM-476Z E CAPACITOR 47uF 16V M
C6006 NCB21HK-103X C CAPACITOR 0.01uF 50V K
C6008 NCB21HK-103X C CAPACITOR 0.01uF 50V K
C6013 NCB21HK-103X C CAPACITOR 0.01uF 50V K
C6014 NCB21HK-103X C CAPACITOR 0.01uF 50V K
C6016 NCB21HK-103X C CAPACITOR 0.01uF 50V K
C6032 NCB21EK-473X C CAPACITOR 0.047uF 25V K
C6037 QEKJ1HM-106Z E CAPACITOR 10uF 50V M
C6501 QEKJ1EM-106Z E CAPACITOR 10uF 25V M
C6502 NCB21HK-103X C CAPACITOR 0.01uF 50V K
C6704 NCB21HK-103X C CAPACITOR 0.01uF 50V K
C6707 NDC21HJ-470X C CAPACITOR 47pF 50V J
C6708 NDC21HJ-8R0X C CAPACITOR 8pF 50V J
C6709 NDC21HJ-2R0X C CAPACITOR 2pF 50V J
C6713 NCF21CZ-224X C CAPACITOR 0.22uF 16V Z
C6714 NCB21HK-222X C CAPACITOR 2200pF 50V K
C6715 QEKJ1HM-225Z E CAPACITOR 2.2uF 50V M
C6716 NCB21HK-222X C CAPACITOR 2200pF 50V K
C6717 QEKJ1HM-225Z E CAPACITOR 2.2uF 50V M
C6719 QEKJ1EM-106Z E CAPACITOR 10uF 25V M
C6720 QEKJ1EM-106Z E CAPACITOR 10uF 25V M
C6721 NCB21HK-103X C CAPACITOR 0.01uF 50V K
(No.YD010)3-7
Page 48
MODEL MARK
HR-V610EX
HR-V610EY
HR-V610EZ
Symbol No.
A
B
C
HR-V611EX
HR-V611EY
HR-V611EZ
MODEL MARK
MODEL MARK
D
HR-V612EX
E
HR-V612EY
F
HR-V612EZ
G
H
J
HR-V615EK
HR-V616EK
HR-V617EK
MODEL MARK
K
L
M
Part No. Part Name Description Local
MODEL MARK
HR-V715EK N
Symbol No.
Part No. Part Name Description Local
C6723 NCB21HK-103X C CAPACITOR 0.01uF 50V K
C7011 QEKJ0JM-476Z E CAPACITOR 47uF 6.3V M
C7103 NCB21HK-681X C CAPACITOR 680pF 50V K
C7104 NCB21HK-681X C CAPACITOR 680pF 50V K
C7106 QETJ0JM-477Z E CAPACITOR 470uF 6.3V M
C7114 QETN0JM-477Z E CAPACITOR 470uF 6.3V M
C7119 NCB21HK-681X C CAPACITOR 680pF 50V K
C7120 NCB21HK-681X C CAPACITOR 680pF 50V K
C7128 QEKJ0JM-107Z E CAPACITOR 100uF 6.3V M
C7129 NCB21HK-103X C CAPACITOR 0.01uF 50V K
C7133 NCB21HK-103X C CAPACITOR 0.01uF 50V K
C7143 NDC21HJ-330X C CAPACITOR 33pF 50V J
C7144 NDC21HJ-680X C CAPACITOR 68pF 50V J
C7145 NCB21EK-104X C CAPACITOR 0.1uF 25V K
C7155 NDC21HJ-680X C CAPACITOR 68pF 50V J
C7156 QEKJ1HM-474Z E CAPACITOR 0.47uF 50V M
C7157 QEPF1HM-474Z E CAPACITOR 0.47uF 50V M
C7158 QEKJ1HM-474Z E CAPACITOR 0.47uF 50V M
C7159 QEKJ1HM-474Z E CAPACITOR 0.47uF 50V M
C7168 NCB21HK-681X C CAPACITOR 680pF 50V K
C7169 NCB21HK-681X C CAPACITOR 680pF 50V K
C7170 NCB21HK-821X C CAPACITOR 820pF 50V K
C7171 NCB21HK-821X C CAPACITOR 820pF 50V K
C7182 NCB21HK-681X C CAPACITOR 680pF 50V K
C7183 NCB21HK-681X C CAPACITOR 680pF 50V K
C7197 NCB21HK-103X C CAPACITOR 0.01uF 50V K
C7201 QETN0JM-477Z E CAPACITOR 470uF 6.3V M
R1 NRSA02J-622X MG RESISTOR 6.2kΩ 1/10W J
R2 NRSA02J-152X MG RESISTOR 1.5kΩ 1/10W J
R3 NRSA02J-472X MG RESISTOR 4.7kΩ 1/10W J
R11 NRSA02J-273X MG RESISTOR 27kΩ 1/10W J
R12 NRSA02J-102X MG RESISTOR 1kΩ 1/10W J
R21 NRSA02J-222X MG RESISTOR 2.2kΩ 1/10W J
R22 NRSA02J-222X MG RESISTOR 2.2kΩ 1/10W J
R31 NRSA02J-471X MG RESISTOR 470Ω 1/10W J
R36 NRSA02J-472X MG RESISTOR 4.7kΩ 1/10W J
R37 NRSA02J-153X MG RESISTOR 15kΩ 1/10W J
R201 NRSA02J-471X MG RESISTOR 470Ω 1/10W J
R202 NRSA02J-103X MG RESISTOR 10kΩ 1/10W J
R203 NRSA02J-103X MG RESISTOR 10kΩ 1/10W J
R204 NRSA02J-474X MG RESISTOR 470kΩ 1/10W J
R205 NRSA02J-222X MG RESISTOR 2.2kΩ 1/10W J
R208 NRSA02J-0R0X MG RESISTOR 0Ω 1/10W J
R210 NRSA02J-101X MG RESISTOR 100Ω 1/10W J
R213 NRSA02J-105X MG RESISTOR 1MΩ 1/10W J
R214 NRSA02J-474X MG RESISTOR 470kΩ 1/10W J
R251 NRSA02J-103X MG RESISTOR 10kΩ 1/10W J
R252 NRSA02J-471X MG RESISTOR 470Ω 1/10W J
Ω
R254 NRSA02J-103X MG RESISTOR 10k
1/10W J
R255 NRSA02J-272X MG RESISTOR 2.7kΩ 1/10W J
R256 NRSA02J-562X MG RESISTOR 5.6k
R258 NRSA02J-0R0X MG RESISTOR 0
Ω
1/10W J
Ω
1/10W J
R259 NRSA02J-103X MG RESISTOR 10kΩ 1/10W J
R260 QRE141J-471Y C RESISTOR 470
R261 QRE141J-471Y C RESISTOR 470
Ω
1/4W J
Ω
1/4W J
R2003 NRSA02J-101X MG RESISTOR 100Ω 1/10W J
R2005 QRE141J-153Y C RESISTOR 15k
Ω
1/4W J
R2007 NRSA02J-183X MG RESISTOR 18kΩ 1/10W J
Ω
R2008 NRSA02J-103X MG RESISTOR 10k
R2010 NRSA02J-123X MG RESISTOR 12k
1/10W J
Ω
1/10W J
R2013 NRSA02J-123X MG RESISTOR 12kΩ 1/10W J
Ω
R2014 NRSA02J-394X MG RESISTOR 390k
R2015 NRSA02J-301X MG RESISTOR 300
1/10W J
Ω
1/10W J
R2016 NRSA02J-393X MG RESISTOR 39kΩ 1/10W J
Ω
R2017 NRSA02J-183X MG RESISTOR 18k
R2018 NRSA02J-472X MG RESISTOR 4.7k
R2019 NRSA02J-472X MG RESISTOR 4.7k
R2021 NRSA02J-333X MG RESISTOR 33k
1/10W J
Ω
1/10W J
Ω
1/10W J
Ω
1/10W J
R2022 NRSA02J-103X MG RESISTOR 10kΩ 1/10W J
Ω
R2023 NRSA02J-103X MG RESISTOR 10k
R2024 QRE141J-103Y C RESISTOR 10k
1/10W J
Ω
1/4W J
R2053 NRSA02J-472X MG RESISTOR 4.7kΩ 1/10W J
Ω
R2054 NRSA02J-123X MG RESISTOR 12k
R2055 NRSA02J-3R3X MG RESISTOR 3.3
1/10W J
Ω
1/10W J
R2056 QRE141J-820Y C RESISTOR 82Ω 1/4W J
Ω
R2057 NRSA02J-473X MG RESISTOR 47k
R2058 NRSA02J-183X MG RESISTOR 18k
1/10W J
Ω
1/10W J
A,B,C,D,E,F,G,H,J
A,B,C,D,E,F,G,H,J
A,B,C,D,E,F,G,H,J
A,B,C,D,E,F,G,H,J
A,B,C,D,E,F,G,H,J
A,B,C,D,E,F,G,H,J
A,B,C,D,E,F,G,H,J
A,B,C,D,E,F,G,H,J
A,B,C,D,E,F,G,H,J
A,B,C,D,E,F,G,H,J
A,B,C,D,E,F,G,H,J
A,B,C,D,E,F,G,H,J
R2059 NRSA02J-473X MG RESISTOR 47kΩ 1/10W J
R2060 NRSA02J-183X MG RESISTOR 18kΩ 1/10W J
R2201 NRSA02J-473X MG RESISTOR 47kΩ 1/10W J
R2202 NRSA02J-682X MG RESISTOR 6.8kΩ 1/10W J
R2205 NRSA02J-473X MG RESISTOR 47kΩ 1/10W J
Ω
R2206 NRSA02J-682X MG RESISTOR 6.8k
R2209 NRSA02J-681X MG RESISTOR 680
1/10W J
Ω
1/10W J
R2210 NRSA02J-472X MG RESISTOR 4.7kΩ 1/10W J
R2211 NRSA02J-272X MG RESISTOR 2.7kΩ 1/10W J
R2212 NRSA02J-272X MG RESISTOR 2.7kΩ 1/10W J
R2213 NRSA02J-472X MG RESISTOR 4.7kΩ 1/10W J
R2214 NRSA02J-681X MG RESISTOR 680Ω 1/10W J
R2215 QRE141J-181Y C RESISTOR 180Ω 1/4W J
R2216 NRSA02J-122X MG RESISTOR 1.2kΩ 1/10W J
R2217 NRSA02J-472X MG RESISTOR 4.7kΩ 1/10W J
R2218 NRSA02J-332X MG RESISTOR 3.3kΩ 1/10W J
R2219 NRSA02J-122X MG RESISTOR 1.2kΩ 1/10W J
R2220 NRSA02J-102X MG RESISTOR 1kΩ 1/10W J
R2222 NRSA02J-472X MG RESISTOR 4.7kΩ 1/10W J
R2223 NRSA02J-511X MG RESISTOR 510Ω 1/10W J
Ω
R2224 NRSA02J-511X MG RESISTOR 510
R2225 NRSA02J-472X MG RESISTOR 4.7k
1/10W J
Ω
1/10W J
R2226 NRSA02J-273X MG RESISTOR 27kΩ 1/10W J
R2227 NRSA02J-393X MG RESISTOR 39kΩ 1/10W J
R2228 NRSA02J-273X MG RESISTOR 27kΩ 1/10W J
R2229 NRSA02J-393X MG RESISTOR 39kΩ 1/10W J
R2230 NRSA02J-473X MG RESISTOR 47kΩ 1/10W J
R2231 NRSA02J-682X MG RESISTOR 6.8kΩ 1/10W J
R2232 NRSA02J-473X MG RESISTOR 47kΩ 1/10W J
R2233 NRSA02J-682X MG RESISTOR 6.8kΩ 1/10W J
R2234 NRSA02J-101X MG RESISTOR 100Ω 1/10W J
R2235 NRSA02J-681X MG RESISTOR 680Ω 1/10W J
R2236 NRSA02J-272X MG RESISTOR 2.7kΩ 1/10W J
R2237 NRSA02J-681X MG RESISTOR 680Ω 1/10W J
R2238 NRSA02J-272X MG RESISTOR 2.7kΩ 1/10W J
A,B,C,D,E,F,G,H,J
A,B,C,D,E,F,G,H,J
A,B,C,D,E,F,G,H,J
A,B,C,D,E,F,G,H,J
R2251 NRSA02J-472X MG RESISTOR 4.7kΩ 1/10W J
R2252 NRSA02J-221X MG RESISTOR 220Ω 1/10W J
R2253 NRSA02J-101X MG RESISTOR 100Ω 1/10W J
R2255 NRSA02J-273X MG RESISTOR 27kΩ 1/10W J
R3024 NRSA02J-0R0X MG RESISTOR 0Ω 1/10W J
R3025 NRSA02J-0R0X MG RESISTOR 0Ω 1/10W J
R3027 QRE141J-682Y C RESISTOR 6.8kΩ 1/4W J
R3033 NRSA02J-472X MG RESISTOR 4.7kΩ 1/10W J
R3034 NRSA02J-472X MG RESISTOR 4.7kΩ 1/10W J
R3035 NRSA02J-0R0X MG RESISTOR 0Ω 1/10W J
R3038 NRSA02J-472X MG RESISTOR 4.7kΩ 1/10W J
R3039 NRSA02J-0R0X MG RESISTOR 0Ω 1/10W J
R3041 NRSA02J-0R0X MG RESISTOR 0Ω 1/10W J N
R3054 NRSA02J-102X MG RESISTOR 1kΩ 1/10W J
Ω
R3059 NRSA02J-331X MG RESISTOR 330
1/10W J
R3060 NRSA02J-331X MG RESISTOR 330Ω 1/10W J
R3061 NRSA02J-331X MG RESISTOR 330
R3062 NRSA02J-331X MG RESISTOR 330
Ω
1/10W J
Ω
1/10W J
R3063 NRSA02J-0R0X MG RESISTOR 0Ω 1/10W J
R3064 NRSA02J-0R0X MG RESISTOR 0
R3065 NRSA02J-0R0X MG RESISTOR 0
Ω
1/10W J
Ω
1/10W J
R3066 NRSA02J-0R0X MG RESISTOR 0Ω 1/10W J
R3067 NRSA02J-472X MG RESISTOR 4.7k
Ω
1/10W J
R3069 NRSA02J-0R0X MG RESISTOR 0Ω 1/10W J
Ω
R3072 NRSA02J-0R0X MG RESISTOR 0
R3073 NRSA02J-0R0X MG RESISTOR 0
1/10W J
Ω
1/10W J
R3074 NRSA02J-103X MG RESISTOR 10kΩ 1/10W J
Ω
R3077 NRSA02J-102X MG RESISTOR 1k
R3080 NRSA02J-101X MG RESISTOR 100
1/10W J
Ω
1/10W J
R3082 NRSA02J-102X MG RESISTOR 1kΩ 1/10W J
Ω
1/10W J
R3083 NRSA02J-102X MG RESISTOR 1k
A,B,C,D,E,F,G,H,J
R3085 NRSA02J-472X MG RESISTOR 4.7kΩ 1/10W J
Ω
1/10W J
R3087 NRSA02J-102X MG RESISTOR 1k
A,B,C,D,E,F,G,H,J
R3089 NRSA02J-0R0X MG RESISTOR 0Ω 1/10W J N
R3098 NRSA02J-0R0X MG RESISTOR 0Ω 1/10W J
Ω
R3102 NRSA02J-0R0X MG RESISTOR 0
R3205 NRSA02J-181X MG RESISTOR 180
1/10W J
Ω
1/10W J
R3207 NRSA02J-183X MG RESISTOR 18kΩ 1/10W J
Ω
R3208 NRSA02J-121X MG RESISTOR 120
R3209 NRSA02J-183X MG RESISTOR 18k
1/10W J
Ω
1/10W J
R3210 NRSA02J-121X MG RESISTOR 120Ω 1/10W J
Ω
R3211 NRSA02J-183X MG RESISTOR 18k
R3212 NRSA02J-474X MG RESISTOR 470k
1/10W J
Ω
1/10W J
3-8(No.YD010)
Page 49
Symbol No.
MODEL MARK
HR-V610EX
HR-V610EY
HR-V610EZ
Part No. Part Name Description Local
A
B
C
HR-V611EX
HR-V611EY
HR-V611EZ
MODEL MARK
Symbol No.
D
E
F
Part No. Part Name Description Local
MODEL MARK
HR-V612EX
HR-V612EY
HR-V612EZ
G
HR-V615EK
H
HR-V616EK
J
HR-V617EK
MODEL MARK
K
L
M
MODEL MARK
HR-V715EK N
R3213 NRSA02J-334X MG RESISTOR 330kΩ 1/10W J
R3214 NRSA02J-103X MG RESISTOR 10kΩ 1/10W J
R3215 NRSA02J-103X MG RESISTOR 10kΩ 1/10W J
R3216 NRSA02J-103X MG RESISTOR 10kΩ 1/10W J
R3217 NRSA02J-103X MG RESISTOR 10kΩ 1/10W J
Ω
R3218 QRE141J-472Y C RESISTOR 4.7k
R3219 NRSA02J-472X MG RESISTOR 4.7k
1/4W J
Ω
1/10W J
R3220 NRSA02J-104X MG RESISTOR 100kΩ 1/10W J
R3222 NRSA02J-103X MG RESISTOR 10kΩ 1/10W J
R3223 NRSA02J-332X MG RESISTOR 3.3kΩ 1/10W J
R3224 NRSA02J-332X MG RESISTOR 3.3kΩ 1/10W J
R3225 NRSA02J-103X MG RESISTOR 10kΩ 1/10W J
R3229 NRSA02J-105X MG RESISTOR 1MΩ 1/10W J
R3232 NRSA02J-472X MG RESISTOR 4.7kΩ 1/10W J
R3234 QRE141J-103Y C RESISTOR 10kΩ 1/4W J
R3235 NRSA02J-332X MG RESISTOR 3.3kΩ 1/10W J
R3236 NRSA02J-332X MG RESISTOR 3.3kΩ 1/10W J
R3244 NRSA02J-333X MG RESISTOR 33kΩ 1/10W J N
R3245 NRSA02J-333X MG RESISTOR 33kΩ 1/10W J N
R3246 NRSA02J-103X MG RESISTOR 10kΩ 1/10W J
Ω
R3248 NRSA02J-472X MG RESISTOR 4.7k
R3253 QRE141J-103Y C RESISTOR 10k
1/10W J
Ω
1/4W J
R4003 NRSA02J-561X MG RESISTOR 560Ω 1/10W J
R4004 NRSA02J-561X MG RESISTOR 560Ω 1/10W J
R4005 NRSA02J-562X MG RESISTOR 5.6kΩ 1/10W J
R4007 NRSA02J-102X MG RESISTOR 1kΩ 1/10W J
R4009 NRSA02J-102X MG RESISTOR 1kΩ 1/10W J
R4012 NRSA02J-222X MG RESISTOR 2.2kΩ 1/10W J
R4015 NRSA02J-562X MG RESISTOR 5.6kΩ 1/10W J
R4017 NRSA02J-102X MG RESISTOR 1kΩ 1/10W J
R5101 QRE141J-224Y C RESISTOR 220kΩ 1/4W J
R5102 QRE141J-224Y C RESISTOR 220kΩ 1/4W J
R5103 QRE141J-683Y C RESISTOR 68kΩ 1/4W J
R5104 QRG02GJ-683 OMF RESISTOR 68kΩ 2W J
R5106 QRT01DJ-R39X MF RESISTOR 0.39Ω 1W J
R5107 QRE121J-331Y C RESISTOR 330Ω 1/2W J
R5108 NRSA02J-152X MG RESISTOR 1.5kΩ 1/10W J
R5109 QRE141J-561Y C RESISTOR 560Ω 1/4W J
R5110 NRSA02J-224X MG RESISTOR 220kΩ 1/10W J
R5111 NRSA02J-102X MG RESISTOR 1kΩ 1/10W J
R5112 NRSA02J-221X MG RESISTOR 220Ω 1/10W J
R5302 NRSA02J-102X MG RESISTOR 1kΩ 1/10W J
R5303 NRSA02J-122X MG RESISTOR 1.2kΩ 1/10W J
R5304 QRE141J-471Y C RESISTOR 470Ω 1/4W J
R5306 NRSA02J-181X MG RESISTOR 180Ω 1/10W J
R5310 NRSA02J-103X MG RESISTOR 10kΩ 1/10W J
R5312 NRSA02J-102X MG RESISTOR 1kΩ 1/10W J
R5313 NRSA02J-821X MG RESISTOR 820Ω 1/10W J
R5319 NRSA02J-221X MG RESISTOR 220Ω 1/10W J
Ω
R5332 QRL02DJ-391X OMF RESISTOR 390
2W J
R6020 NRSA02J-102X MG RESISTOR 1kΩ 1/10W J
R6021 NRSA02J-102X MG RESISTOR 1k
R6030 NRSA02J-102X MG RESISTOR 1k
Ω
1/10W J
Ω
1/10W J
R6031 NRSA02J-271X MG RESISTOR 270Ω 1/10W J
R6032 NRSA02J-472X MG RESISTOR 4.7k
R6033 NRSA02J-182X MG RESISTOR 1.8k
Ω
1/10W J
Ω
1/10W J
R6050 NRSA02J-101X MG RESISTOR 100Ω 1/10W J
R6051 NRSA02J-101X MG RESISTOR 100
Ω
1/10W J
R6052 NRSA02J-101X MG RESISTOR 100Ω 1/10W J
Ω
R6056 NRSA02J-101X MG RESISTOR 100
R6080 NRSA02J-102X MG RESISTOR 1k
1/10W J
Ω
1/10W J
R6707 NRSA02J-0R0X MG RESISTOR 0Ω 1/10W J
Ω
R6708 NRSA02J-103X MG RESISTOR 10k
R6709 NRSA02J-102X MG RESISTOR 1k
1/10W J
Ω
1/10W J
R6710 NRSA02J-0R0X MG RESISTOR 0Ω 1/10W J
Ω
R6711 QRE141J-104Y C RESISTOR 100k
R6712 NRSA02J-102X MG RESISTOR 1k
R6713 NRSA02J-123X MG RESISTOR 12k
R6714 NRSA02J-102X MG RESISTOR 1k
1/4W J
Ω
1/10W J
Ω
1/10W J
Ω
1/10W J
R6715 NRSA02J-123X MG RESISTOR 12kΩ 1/10W J
Ω
R6716 QRE141J-470Y C RESISTOR 47
R6719 NRSA02J-103X MG RESISTOR 10k
1/4W J
Ω
1/10W J
R6720 QRE141J-562Y C RESISTOR 5.6kΩ 1/4W J
Ω
R6721 NRSA02J-562X MG RESISTOR 5.6k
R7002 NRSA02J-331X MG RESISTOR 330
1/10W J
Ω
1/10W J
R7003 NRSA02J-331X MG RESISTOR 330Ω 1/10W J
Ω
R7004 NRSA02J-331X MG RESISTOR 330
R7005 NRSA02J-331X MG RESISTOR 330
1/10W J
Ω
1/10W J
R7006 NRSA02J-331X MG RESISTOR 330Ω 1/10W J
R7007 NRSA02J-331X MG RESISTOR 330Ω 1/10W J
R7008 NRSA02J-331X MG RESISTOR 330Ω 1/10W J
R7015 NRSA02J-102X MG RESISTOR 1kΩ 1/10W J
R7020 NRSA02J-103X MG RESISTOR 10kΩ 1/10W J
Ω
R7021 NRSA02J-122X MG RESISTOR 1.2k
R7022 NRSA02J-182X MG RESISTOR 1.8k
1/10W J
Ω
1/10W J
R7023 NRSA02J-222X MG RESISTOR 2.2kΩ 1/10W J
R7024 NRSA02J-272X MG RESISTOR 2.7kΩ 1/10W J
R7025 NRSA02J-472X MG RESISTOR 4.7kΩ 1/10W J
R7026 NRSA02J-682X MG RESISTOR 6.8kΩ 1/10W J
R7030 NRSA02J-103X MG RESISTOR 10kΩ 1/10W J
R7031 NRSA02J-122X MG RESISTOR 1.2kΩ 1/10W J
R7032 NRSA02J-182X MG RESISTOR 1.8kΩ 1/10W J
R7033 NRSA02J-222X MG RESISTOR 2.2kΩ 1/10W J
R7034 NRSA02J-272X MG RESISTOR 2.7kΩ 1/10W J N
R7101 NRSA02J-473X MG RESISTOR 47kΩ 1/10W J
R7102 NRSA02J-102X MG RESISTOR 1kΩ 1/10W J
R7103 QRE141J-331Y C RESISTOR 330Ω 1/4W J
R7105 NRSA02J-331X MG RESISTOR 330Ω 1/10W J
Ω
R7107 NRSA02J-331X MG RESISTOR 330
R7108 NRSA02J-750X MG RESISTOR 75
1/10W J
Ω
1/10W J
A,B,C,D,E,F,G,H,J
R7109 NRSA02J-750X MG RESISTOR 75Ω 1/10W J
R7110 NRSA02J-221X MG RESISTOR 220Ω 1/10W J
R7111 NRSA02J-221X MG RESISTOR 220Ω 1/10W J
A,B,C,D,E,F,G,H,J
A,B,C,D,E,F,G,H,J
R7113 NRSA02J-750X MG RESISTOR 75Ω 1/10W J
R7114 NRSA02J-221X MG RESISTOR 220Ω 1/10W J
R7116 NRSA02J-221X MG RESISTOR 220Ω 1/10W J
R7117 QRE141J-750Y C RESISTOR 75Ω 1/4W J
R7119 NRSA02J-221X MG RESISTOR 220Ω 1/10W J
R7120 NRSA02J-221X MG RESISTOR 220Ω 1/10W J
R7127 NQL402M-4R7X COIL 0.37Ω 4.7uH M
R7128 NQL402M-4R7X COIL 0.37Ω 4.7uH M
R7131 NRSA02J-101X MG RESISTOR 100Ω 1/10W J
R7132 NRSA02J-0R0X MG RESISTOR 0Ω 1/10W J
R7133 QRE141J-471Y C RESISTOR 470Ω 1/4W J
A,B,C,D,E,F,G,H,J
R7133 QRE141J-331Y C RESISTOR 330Ω 1/4W J K,L,M,N
R7134 NRSA02J-471X MG RESISTOR 470Ω 1/10W J
A,B,C,D,E,F,G,H,J
R7134 NRSA02J-0R0X MG RESISTOR 0Ω 1/10W J K,L,M,N
R7135 NRSA02J-471X MG RESISTOR 470Ω 1/10W J
A,B,C,D,E,F,G,H,J
R7144 NRSA02J-472X MG RESISTOR 4.7kΩ 1/10W J
R7145 NRSA02J-682X MG RESISTOR 6.8kΩ 1/10W J
R7146 NRSA02J-393X MG RESISTOR 39kΩ 1/10W J
R7147 NRSA02J-223X MG RESISTOR 22kΩ 1/10W J
R7148 NRSA02J-331X MG RESISTOR 330Ω 1/10W J
R7182 NRSA02J-564X MG RESISTOR 560kΩ 1/10W J
A,B,C,D,E,F,G,H,J
R7201 QRE123J-100X C RESISTOR 10Ω 1/2W J
R7202 NRSA02J-221X MG RESISTOR 220Ω 1/10W J
R7203 NRSA02J-472X MG RESISTOR 4.7kΩ 1/10W J
Ω
L3 QQL29BJ-100Z P COIL 0.40
L5 QQL29BJ-100Z P COIL 0.40
L6 QQL29BJ-100Z P COIL 0.40
10uH J
Ω
10uH J
Ω
10uH J
L7 QQR0967-001 CHOKE COIL
L10 QQL29BJ-100Z P COIL 0.40
L201 QQL071J-150Y COIL 1.65
Ω
10uH J
Ω
15uH J
L204 QQL071J-151Y COIL 14.50Ω 150uH J
L251 QQL231J-100Y COIL 2.50
Ω
10uH J
L252 QQL231J-100Y COIL 2.50Ω 10uH J
Ω
L253 QQL231J-1R0Y COIL 0.80
L2251 QQL29BJ-100Z P COIL 0.40
L2252 QQL29BJ-151Z P COIL 4.80Ω 150uH J
1uH J
Ω
10uH J
A,B,C,D,E,F,G,H,J
L3001 QQL231J-100Y COIL 2.50Ω 10uH J
L4001 QQL231J-1R0Y COIL 0.80
Ω
1uH J
L5201 PELN1184 CHOKE COIL
L5202 PELN1184 CHOKE COIL
L6001 QQL29BK-1R0Z P COIL 0.14Ω 1uH K
Ω
L6002 QQL29BK-1R0Z P COIL 0.14
L6501 QQL29BK-1R0Z P COIL 0.14
1uH K
Ω
1uH K
L7101 QQL231J-1R0Y COIL 0.80Ω 1uH J
Ω
L7102 QQL231J-1R0Y COIL 0.80
L7107 QQL29BJ-100Z P COIL 0.40
L7108 QQL29BJ-100Z P COIL 0.40Ω 10uH J
L7110 QQL231J-1R0Y COIL 0.80Ω 1uH J
1uH J
Ω
10uH J K,L,M,N
A,B,C,D,E,F,G,H,J
A,B,C,D,E,F,G,H,J
L7113 QQL231J-1R0Y COIL 0.80Ω 1uH J
L7114 QQL231J-1R0Y COIL 0.80Ω 1uH J
Ω
L7201 QQL071J-100Y COIL 1.40
10uH J
T2051 PELN0832 OSC TRANS
(No.YD010)3-9
Page 50
MODEL MARK
HR-V610EX
HR-V610EY
HR-V610EZ
Symbol No.
T5001 QQS0265-001 SW TRANSF
Part No. Part Name Description Local
A
B
C
HR-V611EX
HR-V611EY
HR-V611EZ
MODEL MARK
D
E
F
MODEL MARK
HR-V612EX
HR-V612EY
HR-V612EZ
G
H
J
HR-V615EK
HR-V616EK
HR-V617EK
MODEL MARK
B1 NRSA02J-0R0X MG RESISTOR 0Ω 1/10W J
B201 NRSA02J-0R0X MG RESISTOR 0Ω 1/10W J
B2003 NRSA02J-0R0X MG RESISTOR 0Ω 1/10W J
Ω
B3003 NRSA02J-0R0X MG RESISTOR 0
B6051 NRSA02J-0R0X MG RESISTOR 0
1/10W J
Ω
1/10W J
B6701 NRSA02J-0R0X MG RESISTOR 0Ω 1/10W J
B7102 NRSA02J-0R0X MG RESISTOR 0Ω 1/10W J
B7108 NRSA02J-0R0X MG RESISTOR 0Ω 1/10W J
B7109 NRSA02J-0R0X MG RESISTOR 0Ω 1/10W J
B7113 NRSA02J-0R0X MG RESISTOR 0Ω 1/10W J
B7114 NRSA02J-0R0X MG RESISTOR 0Ω 1/10W J K,L,M,N
CN1 QGF1201C2-09 CONNECTOR FFC/FPC (1-9)
CN2001 QGF1207C1-06 CONNECTOR FFC/FPC (1-6)
CN2002 QGB2532J1-02 CONNECTOR B-B (1-2)
CN3001 QGB2032M4-12 CONNECTOR B-B (1-12)
CN5001 QGA7901C3-02 CONNECTOR W-B (1-2)
CN7001 QGF1207C1-04 CONNECTOR FFC/FPC (1-4) N
CP3002 NMFZ012-1R0X-M FUSE 1A 50V
CP4002 NMFZ012-1R0X-M FUSE 1A 50V
DI7001 LTG-Y2K16M-02J LED
F5001 QMF51E2-2R0-J1 FUSE 2A AC250V
FC5001 QNG0006-001Z FUSE CLIP
FC5002 QNG0006-001Z FUSE CLIP
HS1 LP40090-001A HEAT SINK
J7101 PEMC1104 RGB21PIN SOCKET L-1
J7102 PEMC1104 RGB21PIN SOCKET L-2
J7103 QNN0292-003 PIN JACK REAR OUT
JS3001 QSW0954-003 ROTARY ENCODER
K5101 QQR0678-001Z FERRITE BEADS
K6701 NQR0200-003X FERRITE BEADS
K6702 NQR0200-003X FERRITE BEADS
K6703 NQR0200-003X FERRITE BEADS
K6704 NQR0200-003X FERRITE BEADS
K6705 NQR0200-003X FERRITE BEADS
K6706 NQR0200-003X FERRITE BEADS
LF5002 QQR0978-001 LINE FILTER
OT1 PQ21623-2-5 EARTH PLATE(RF)
OT2 QYSDST3006ZA TAP SCREW
M3 x 6mm Q5101
S3001 QSW0602-004 PUSH SWITCH REC.SAFETY
S7002 QSW1061-001Z TACT SWITCH POWER
S7003 QSW1061-001Z TACT SWITCH PRS7004 QSW1061-001Z TACT SWITCH REW
S7006 QSW1061-001Z TACT SWITCH FWD
S7010 QSW1061-001Z TACT SWITCH REC
S7011 QSW1061-001Z TACT SWITCH PAUSE
S7013 QSW1061-001Z TACT SWITCH STOP/EJECT
S7015 QSW1061-001Z TACT SWITCH PLAY
S7017 QSW1061-001Z TACT SWITCH PR+
SD1 LP21105-002A SHIELD CASE
TB1 LP20317-010B
TERMINAL BOARD(PAL)
TU6001 QAU0261-002 TUNER
W1 NRSA02J-0R0X MG RESISTOR 0Ω 1/10W J
W2 NRSA02J-0R0X MG RESISTOR 0
W4 NRSA02J-0R0X MG RESISTOR 0
Ω
1/10W J
Ω
1/10W J
W5 NRSA02J-0R0X MG RESISTOR 0Ω 1/10W J
W6 NRSA02J-0R0X MG RESISTOR 0
Ω
1/10W J
W7 NRSA02J-0R0X MG RESISTOR 0Ω 1/10W J
Ω
W8 NRSA02J-0R0X MG RESISTOR 0
W9 NRSA02J-0R0X MG RESISTOR 0
1/10W J
Ω
1/10W J
W10 NRSA02J-0R0X MG RESISTOR 0Ω 1/10W J K,L,M,N
Ω
W11 NRSA02J-0R0X MG RESISTOR 0
W13 NRSA02J-0R0X MG RESISTOR 0
W14 NRSA02J-0R0X MG RESISTOR 0Ω 1/10W J
1/10W J
Ω
1/10W J
A,B,C,D,E,F,G,H,J
W15 NRSA02J-0R0X MG RESISTOR 0Ω 1/10W J K,L,M,N
W17 NRSA02J-0R0X MG RESISTOR 0
W19 NRSA02J-0R0X MG RESISTOR 0
W20 NRSA02J-0R0X MG RESISTOR 0
Ω
1/10W J
Ω
1/10W J
Ω
1/10W J
W21 NRSA02J-0R0X MG RESISTOR 0Ω 1/10W J
Ω
W23 NRSA02J-0R0X MG RESISTOR 0
W24 NRSA02J-0R0X MG RESISTOR 0
1/10W J
Ω
1/10W J
W25 NRSA02J-0R0X MG RESISTOR 0Ω 1/10W J
Ω
W26 NRSA02J-0R0X MG RESISTOR 0
W27 NRSA02J-0R0X MG RESISTOR 0
1/10W J
Ω
1/10W J
W28 NRSA02J-0R0X MG RESISTOR 0Ω 1/10W J
Ω
W29 NRSA02J-0R0X MG RESISTOR 0
W30 NRSA02J-0R0X MG RESISTOR 0
1/10W J
Ω
1/10W J
MODEL MARK
K
HR-V715EK N
L
M
Symbol No.
Part No. Part Name Description Local
W32 NRSA02J-0R0X MG RESISTOR 0Ω 1/10W J
X1 QAX0740-001 CRYSTAL 4.433619MHz
X201 QAX0751-001 CRYSTAL 17.734476MHz
X3001 QAX0445-001 CRYSTAL 32.768kHz
X3002 QAX0527-001 CRYSTAL 10.000000MHz
X6701 QAX0443-001 CRYSTAL 18.432MHz
A/C HEAD BOARD ASSEMBLY <12>
Symbol No.
PW1 LPA10158-01A1 A/C HEAD BOARD ASSY
Part No. Part Name Description Local
ADV.JOG BOARD ASSEMBLY <39>
Symbol No.
PW1 LPA10191-03A
R7047 QRE141J-472Y C RESISTOR 4.7kΩ 1/4W J N
CN7004 QGF1209F1-04 CONNECTOR FFC/FPC (1-4) N
S7030 QSW1061-001Z TACT SWITCH 24H EXPRESS N
UN7001 QSW0938-001 ROTARY ENCODER N
Part No. Part Name Description Local
ADV.JOG BOARD ASSY
LOADING MOTOR BOARD ASSEMBLY <55>
Symbol No.
PW1 LPA10158-01A2
Part No. Part Name Description Local
LOADING MOTOR BOARD ASSY
SAT CTL BOARD ASSEMBLY <94>
Symbol No.
PW1 LPA10189-01A4
R7167 NRSA02J-0R0X MG RESISTOR 0Ω 1/10W J
CN7106 QUM022-18A4A4 PARA RIBON WIRE
J7108 PU60612 MINI JACK SAT CTL
Part No. Part Name Description Local
SAT CTL BOARD ASSY
N
3-10(No.YD010)
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