Operating position: Horizontal only
Dimensions (WxHxD) : 435 mm x 124 mm x 391 mm
Weight: 6.9 kg
Input/Output: 21-pin SCART connectors :
VHS DECK VIDEO/AUDIO
Signal system: PAL-type colour signal and CCIR monochrome
Recording system: DA4 (Double Azimuth) head helical scan system
Format: S-VHS/VHS PAL standard
Signal-to-noise ratio: 45 dB
Horizontal resolution
No. 82837
Frequency range: 70 Hz to 10,000 Hz (Normal audio)
Maximum recording time
HR-DVS2EU/EA
TV
VHS
DV
CABLE/SAT
– –:– –
LCD PROG
1
AUDIO
TV/VCR
2
123
3
456
DAILY/QTDN.
VPS/PDC
WEEKLY/HEBDO
4
789
4
0000
AUX
MENU
0
ENTER/ENTREE
OK
1
PROG
30
SEC
3
2
START
STOP
DATE
PR
DEBUT
FIN
EXPRESS
P
V
R
T
+
T
+
V
V
–
T
–
T
R
V
P
(The specifications shown pertain specifically to the model HR-DVS2EU)
50 Hz/60 Hz
Power on: 33 W
Power off: 7.9 W
Operating: 5°C to 40°C
Storage: –20°C to 60°C
IN/OUT x 1, IN/DECODER x 1
RCA connectors:
VIDEO IN x 1, AUDIO IN x 1, AUDIO OUT x 1
S-Video connectors:
IN x 1, OUT x 1
DV connector: IN/OUT x 1
(4-pin, IEEE1394 conformity, digital input/output)
signal, 625 lines
50 fields
(SP/LP): 250 lines (VHS)
400 lines (S-VHS)
(EP): 220 lines (VHS)
350 lines (S-VHS)
20 Hz to 20,000 Hz (Hi-Fi audio)
(SP): 240 min. with E-240 video cassette
(LP): 480 min. with E-240 video cassette
(EP): 720 min. with E-240 video cassette
ENTREE/SORTIE DV
DV IN/OUT
VHSDV
A.DUBINSERT
DUB
COPIE
PR
DVVHS
DV DECK VIDEO/AUDIO
Signal system: PAL-type colour signal, 625 lines
Recording system: Digital Component Recording
Format: DV format (SD mode)
Cassette: Mini DV Cassette
Maximum recording time
DV MAIN BOARD ASSEMBLY <50> ............................................................... 5-26
LOADING MOTOR BOARD ASSEMBLY <55> ............................................... 5-32
JOG BOARD ASSEMBLY <85> ....................................................................... 5-32
4-5
4-37
4-53
Important Safety 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.
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 com-
ply 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:
1) Wires covered with PVC tubing
2) Double insulated wires
3) High voltage leads
5. Use specified insulating materials for hazardous live parts. Note
especially:
1) Insulation Tape3) Spacers5) Barrier
2) PVC tubing4) Insulation sheets for transistors
6. When replacing AC primary side components (transformers, power
cords, noise blocking capacitors, etc.) wrap ends of wires securely
about the terminals before soldering.
12. Crimp type wire connector
In such cases as when replacing the power transformer in sets
where the connections between the power cord and power transformer 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.
1) Connector part number : E03830-001
2) Required tool : Connector crimping tool of the proper type which
will not damage insulated parts.
3) Replacement procedure
(1) 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.3
(2) 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
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.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.
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.
Fig.4
(3) Align the lengths of the wires to be connected. Insert the
wires fully into the connector.
Metal sleeve
Connector
Fig.5
(4) As shown in Fig.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
.2
5
2
.0
5
.5
Fig.6
(5) Check the four points noted in Fig.7.
Not easily pulled free
Wire insulation recessed
more than 4 mm
Fig.7
Crimping tool
Crimped at approx. center
of metal sleeve
Conductors extended
I
S40888-01
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 table 1 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 table 1
below.
Fig. 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 figure 9 and following
table 2.
Externally
exposed
accessible part
Fig. 9
Z
V
ab
A
c
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 figure 10 and grounding specifications.
Fig. 10
Table 1 Specifications for each region
Table 2 Leakage current specifications for each region
Note: These tables are unofficial and for reference only. Be sure to confirm the precise values for your particular country and locality.
II
S40888-01
SECTION 1
DISASSEMBLY
1.1 HOW TO REMOVE THE MAJOR PARTS
1.1.1 Introduction
This set is a double-deck video recorder integrating a Mini DV
deck and a VHS deck. Its internal structure is divided into three
sections that include the power supply, VHS and DV sections.
Therefore, the removal of major parts will also be described
under three separate sections as listed below.
1. COMMON section
2. VHS section
3. DV section
< TOP VIEW >
1. COMMON section
3. DV section
2. VHS section
Fig. 1-1-1
1.2 HOW TO READ THE DISASSEMBLY AND ASSEMBLY
Step/
Loc No.
1
Top cover, Bracket COM1
Front panel
2
assembly
Fig. No.
4(S1), 3(S2), 2(L1), (L2)
2(S3)
COM2 8(L3),
CN7507(WR1),
CN3011(WR2)
PointNotePart name
—
<Note
1,2,3,4>
§§ §§ §
(1)(2)(3)(4)(5)
(1) Order of steps in Procedure
When reassembling, perform the step(s) in the reverse order.
These numbers are also used as the identification (location) 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,
CN**(WR**)= Remove the wire (WR**) from the connector
(CN**).
Note:
• The bracketed ( ) WR of the connector symbol are as-
signed nos. in priority order and do not correspond to
those on the spare parts list.
(5) Adjustment information for installation
1.3 DISCONNECTION OF CONNECTORS (WIRES)
FPC
CONNECTOR
FPC
CONNECTOR
Fig. 1-3-1Fig. 1-3-2
FPC
CONNECTOR
FPC
CONNECTOR
Fig. 1-3-3Fig. 1-3-4
FPC
CONNECTOR
Fig. 1-3-5
1.4 SCREWS USED CABINET COMPONENTS AND
BOARD ASSEMBLIES
Table 1-4-1 below shows the symbols, shapes, colors and
part numbers of screw that are used in the cabinet components and board assemblies and are appearing in the disassembling/reassembling diagrams in this manual.
When screwing them again in reassembling, be sure to use
them correctly referring to the following table.
Notes:
• Screw that are asterisked (marked with*) in the shape col-
umn are fixed with screw lock agent. If such the screw is
once removed, never use it again.
• The Screw symbols are assigned nos. in priority order and
do not correspond to those on the spare parts list.
This flowchart shows the disassembly procedure for the exterior parts and electrical parts.
Basically, reverse this procedure when assembling them.
1Top cover, Bracket
<Note 5>
When removing the SW REG board assembly or Regulator board assembly, unhook the several spacers connecting it with pliers from the top side.
<Note 6>
Perform the work by leaving fan motor attached to the rear
cover except when replacing the fan motor.
When attaching the rear cover, please be careful with the
wiring.
LED/SW board assembly,
Eject SW board assembly,
Jack board assembly,
Jog board assembly
SW REG board
4
assembly
Regulator board
5
assembly
COM3 10(S4)
6(S4), Knob(Jog),
Knob(Shuttle),
COM4 2(S5), 2(L4), (L5)
CN5301(WR3),
COM5 3(L6),
CN5322(WR4),
CN5321(WR5),
<Note 1,
5>
<Note 1,
5>
CN5325(WR6),
CN5324(WR7),
CN5323(WR8)
6
COM6 4(S2), 6(S6),
Fan motor
<NOTE 6>Rear cover
<Note 1>
When attaching the FPC, be sure to connect it in the correct orientation.
<Note 2>
When attaching the front panel assy, make sure that the
door openers of both decks (DV, VHS) are in the down
position.
<Note 3>
When attaching the front panel assy, be careful not to damage the DV terminals.
<Note 4>
When attaching the FPC take care that it is not caught.
Pass the DV-side FPC between the base (2) and DV Main
board assy.
Pass the two VHS-side FPCs below the base (1).
(S3)
6
(S2)
9
Bracket
1
5
(S2)
(S1)
7
(S2)
4
(S1)
3
Top cover
(L2)
8
(S3)
1
1
(S1)
(L1)
2
(S1)
—
—
Fig. COM1
<Note 4>
FPC
<Note 2>
DV SIDE
Base (2)
<Note 3>
DV Main board
assembly
(L3)
(L3)
Base (1)
(L3)
CN3011
<Note 4>
WR2
WR1
(L3)
CN7507
<Note 1>
Supporting
tape side
<Note 2>
VHS SIDE
2
Fig. COM2
1-2
<Note 6>
Fan Motor
6
28
(S2)
29
(S2)
33
(S6)
32
(S6)
35
(S6)
34
(S6)
36
(S6)
37
(S6)
30
(S2)
31
(S2)
22
5
CN5325
CN5324
WR8
WR5
Foil side
<Note 1>
WR4
Foil side
<Note 1>
WR6
WR7
CN5321
CN5322
(L6)
Spacer
<Note 5>
(L6)
Spacer
<Note 5>
CN5323
(S4)
21
(S4)
(S4)
2
Knob (Jog)
Knob (Shuttle)
3
Eject SW
board assembly
Jack board
assembly
11
(S4)
10
(S4)
Jog board assembly
LED/SW board
assembly
Display board
assembly
9
(S4)
20
(S4)
23
(S4)23(S4)
25
(S4)
24
16
(S4)
15
(S4)
14
(S4)
17
(S4)
(S4)
18
(S4)
13
(S4)
12
(L5)
26
(S5)
Fig. COM3
27
(S5)
Fig. COM5
WR3
Supporting
tape side
<Note 1>
4
CN5301
Spacer
<Note 5>
(L4)
Fig. COM4
Fig. COM6
1-3
HOW TO REMOVE THE MAJOR PARTS <VHS section>
1.6
1.6.1 Disassembly flow chart
This flowchart shows the disassembly procedure for the exterior parts and electrical parts.
Basically, reverse this procedure when assembling them.
However, it is required to remove the common section parts
as far as 1 “Top cover Bracket” and 2 “Front panel assembly” in advance. (See section 1.5.)
1Drum assembly
2Mechanism assembly
3Main board assembly / 4 Base (1)
4Base (1)
Procedures for Lowering the Cassette holder assembly
As the mechanism of this unit is integrated with the Housing
assembly, the holder must be lowered and the two screws unscrewed when removing the Mechanism assembly.
When attaching or removing the FPC, take care not to disconnect any of the wires.
<Note 2>
When attaching the FPC, be sure to connect it in the correct orientation.
<Note 3>
When attaching wires, connect them in the correct orientation.
Fig. 3
Turn the loading motor pulley in the direction as indicated by
Fig.2. As both A and B levers are lodged twice, push the
levers in the direction as indicated by Fig.3 to release them.
When pushing the levers, do it in the order of A , B , B , A .
When the holder has been lowered, turn the pulley until the
cassette holder is securely in place without allowing any up/
down movement.
Procedures for Lowering the Cassette holder assembly
Note: When installing the Drum assembly, secure the
screws (S7) in the order of a , b , c .
Roller arm
assy
Inertia plate
(L1)
(P1)
(L2)
(S7)
1
a
2
(S7)
WR9
Foil side
c
<Note 2>
CON1
3
(S7)
b
WR10
Foil side
<Note 1,2>
1
Cleaner assy
<Note 4>
• When it is required to remove the screws (S8) retaining the
Mechanism assembly, please refer to the “Procedures for
Lowering the Cassette holder assembly”(See on page 1-5).
• When removing the Mechanism assembly only, unhook the
two spacers connecting it with the Main board assembly with
pliers from the back side of the Main board assembly first,
and then remove the Mechanism assembly.
• When reattaching the Mechanism assembly to the Main
board assembly, take care not to damage the sensors on
the Main board assembly (D3001: LED, Q3002: Start sensor, Q3003: End sensor, S3002: S cassette switch).
1-4
Not use
CN1
Fig. V1
Note: When installing the Mechanism assembly, secure
the screws (S8) in the order of a , b .
6
5
(S8)
<Note 4>
Mechanism assy
Spacer
(S9)
(L3)
Spacer
<Note 4>
4
(S8)
<Note 4>
S3002
S cassette switch
<Note 4>
WR11
Foil side
<Note 2>
(S10)
(L4)
Spacer
<Note 4>
7
2
15
(S3)
WR5
Foil side
<Note 2>
14
(S3)
3
WR4
Foil side
<Note 2>
CN3014
WR12
Foil side
<Note 2>
16
(S5)
WR13
9
(S6)
CN2601
CN703
8
(S6)
(S6)
CN5321
WR14
Foil side
<Note 2>
CN5322
10
(S6)
11
12
(S6)
13
(S6)
Fig. V3
<Note 4>
Fig. V2
17
(S3)
18
(S5)
19
(S5)
4
20
(S5)
Fig. V4
1-5
HOW TO REMOVE THE MAJOR PARTS <DV section>
1.7
1.7.1 Disassembly flow chart
This flowchart shows the disassembly procedure for the exterior parts and electrical parts.
Basically, reverse this procedure when assembling them.
However, it is required to remove the common section parts
as far as 1 “Top cover, Bracket” and 2 “Front panel assembly” in advance. (See section 1.5.)
With due regard to operational considerations, remove the
parts located on the base (2) (i.e. Mechanism assembly,
P/R MDA board assembly etc.) together before removing
the major parts.
<Note 2>
Take care not to scratch or damage the drum assembly
by the cleaner assembly when performing work.
<Note 3>
Take care not to damage the board assembly when detaching parts.
<Note 4>
When attaching the FPC, be sure to connect it in the correct orientation.
1
(S5)
WR17
CN1501
(L1)
2
(S5)
(L2)
2
3
(S5)
Base(2)
WR16
(S11)
CN5506
CN5502
Fig. D1
5
Fig. D2
4
(S5)
CN5501
1
<Note 1>
WR7
WR17
6
(S11)
(L2)
WR18
CN5507
1-6
Earth
6
20
(S5)
WR13
CN3501
CN3701
CN1001
CN1002
WR12
<Note 3>
Foil side
<Note 4>
Supporting
tape side
<Note 3>
WR14
WR8
17
(S5)
19
(S5)
18
(S5)
plate
(
S12
7
)
(
S11
9
(S5)
8
)
10
(S5)
CN5505
CN5502
CN5001
5
15
(
S13
3
14
(
)
S13
16
)
(
S13
)
11
(S4)
WR20
WR19
WR23
Fig. D3
12
(S4)
CN5503
WR21
13
(S4)
CN5504
WR22
<Note 2>
Fig. D5
(L3)
Fig. D4
4
Fig. D6
1-7
1.8 SERVICE POSITIONS
The servicing locations for use in troubleshooting or servicing of the set are provided separately for the VHS and DV.
I SERVICE POSITIONS <VHS SIDE>
II SERVICE POSITIONS <DV SIDE>
1.8.1 Service position <VHS SIDE>
<Removal>
(1) Remove the top cover and bracket.
(2) Remove the front panel assembly.
(3) Remove the MAIN board assembly together with the
mechanism assembly.
Fig. No.
(Page)
(1)
Top cover,
COM192 + 1
Bracket(1-3)(No.1-9)(L1,2)
(2) Front
panel
COM2082
(1-3)(L3)(CN7507/—
assembly
(3) Main
board
V2, V31305
(1-6)(No.4-16)(CN5321/
assembly
(etc.)
ScrewHook, etc. ConnectorNote
0—
CN3011)
CN5322/
CN3014/—
CN703/
CN2601)
< Installation >
(1) Stand up the bottom chassis assembly so that the DV/
Regulator side is in the lower position.
(2) Connect the PATCH CORD to the three FPCs then con-
nect CN3014, CN7508 and CN7509.
(3) By connecting a total of two FPCs and wires (CN703/
CN2601), carry out the installation so that the Main board
assembly comes in the upper position.
Point: • Take care that the FPCs and wires are not
subjected to stress in this positioning.
(4) Connect the PATCH CORDS to the two FPCs of the front
panel assembly, then connect the CORDS to the
CN7507/CN3011.
For the PATCH CORD is required, see Table 1-8-3.
Table 1-8-1
PATCH CORD
PTU94017B
Main board assembly
CN7507
1
CN7508
6
7
CN2601
D
3
C
4
CN5322
5
CN5321
CN3501
CN7509
CN3011
CN703
CN3014
A
B
2
E
CN3701
1-8
Front panel assembly
Fig. 1-8-1 Service position <VHS side>
CN1002
1.8.2 Service position <DV SIDE>
<Removal>
(1) Remove the top cover and bracket.
(2) Remove the front panel assembly.
(3) Remove the mechanism assembly (DV side) together
with the base (2).
(4) Remove the DV Main board assembly.
Note:
Place an insulation sheet on the mechanism assembly
•
(VHS side), then remove the DV Main board assembly
and place it on the insulation sheet.
When removing the DV Main board assembly, only remove a connector CN1002 out of four.
Take care not to damage the parts during operating.
(1)
Top cover,
Fig. No.
(Page)
COM192 + 10—
ScrewHook, etc. ConnectorNote
Bracket(1-3)(No.1-9)(L1,2)
(2) Front
panel
assembly
(3)
MechanismD1404
COM2082
(1-3)(L3)(CN7507/—
CN3011)
(DV SIDE)/(1-7)(No.1-4)(CN1502/
BASE (2)CN5002/—
CN5506/
CN5501)
(4) DV Main
board
D6401
(1-8)(No.17-20)(CN1002)
Note
assembly
Table 1-8-2
< Installation >
For the PATCH CORDS, see Table 1-8-3.
The patch cords that are indicated in Table 1-8-3 are in one
package.
(1) Connect a PATCH CORD to the FPC, and connect the
end to the connector CN1002.
(2) Connect PATCH CORDS to the three connectors/FPCs
(CN5506/CN5002/CN1502).
(3) Place the mechanism assembly (DV side) on the origi-
nal position and connect the four wires/FPCs/connectors
(CN5501/CN5506/CN5002/CN1502).
(4) Connect PATCH CORDS to the two FPCs of the FRONT
PANEL ASSEMBLY, and connect the ends to the
CN7507 and CN3011.
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”.
1.9.1 How to set the "MECHANISM SERVICE MODE"
(1) Disconnect VCR from AC.
(2) Connect TPGND and TP7001 (TEST) on the Display
board assembly with a jump wire.
(3) Connect VCR to AC.
(4) Press the POWER button.
(5) With lock levers A B on the left and right of the Cassette
holder assembly pulled toward the front, slide the holder
in the same direction as the cassette insertion direction.
(For the positions of lock levers A B , refer to the “Procedures for Lowering the Cassette holder assembly” on
page 1-5 of 1.6 HOW TO REMOVE THE MAJOR PARTS
<VHS section>
(6) The cassette holder lowers and, when the loading has
completed, the mechanism enters the desired mode.
Swithing regulator
board assembly
DV Main
board assembly
Fan
board assembly
P/R MDA
board assembly
DV mechanism
Regulator
Main board assembly
TP GND
Terminal board assembly
S-Sub
board assembly
VR701
DV AG C
TP701
On screen
D AGC
board assembly
TP106
PB FM
VHS mechanism
CN3011CN7507
Supporting
tape side
3D Digital
/2M board
assembly
VR401
D/A
LEVEL ADJ
Demodulator
board
assembly
TP2253
A.PB FM
TP4001
CTL.P
TP111
D.FF
1-10
TP7001
TEST
TPGND
LED SW
board assembly
PATCH COAD
PTU94022-18
QUQ112-1840CG
Display board assembly
<Front panel assembly>
Fig. 1-9-1
Jack board assembly
Jog board
assembly
Eject SW board assembly
PATCH COAD
PTU94022-16
QUQ112-1640CG
1.10CONNECTION
Treat the wire so as not to come to
DV cassette housing when attaching
the Front panel assembly.
Absorb the looseness
of the 13 ,
14
wires in
the Main part.
Fix the wire by
Style pin surely.
Foil side
Supporting
tape side
Supporting
tape side
Supporting
tape side
Supporting
tape side
Supporting
tape side
Make a
crease.
Make a
crease.
Make a crease.
A
C
CN5325
CN5321 CN5322
CN5301
(Lower)
CN5201
CN703
CN7506
CN512
CN7508
CN2601
CN3001
CN2001
CN1
CN1
CON1
CN7509
CN3014
6
3
14
16
17
4
9
5
8
7
12
13
24
11
18
22
20
19
23
15
12
21
10
Foil side
Foil side
Foil side
Foil side
Foil side
Foil side
Foil side
Foil side
Foil side
Foil side
A/C HEAD
DRUM
Treat the wire
according to the
figure not to
overlap in TP.
Make a crease.
Supporting
tape side
B
Should be confirmed that wire
not touch to IC of the Stator
board assembly.
After attach the Mechanism assembly,
treat the wire according to the figure.
The
21 , 22
wires
should be treat under the
P/R MDA board assembly.
CN1502
CN3501
CN1101
CN3701
CN1001
CN5505
CN5503
CN5504
CN5507
CN5506
CN5501
CN5502
CN5001
CN5002
CN2001
CN5323
(Middle)
CN5324
(Upper)
CN3011CN7507
CN1501
CN1002
CN1
CN3014
CN3011
CN7507
B
DRUM
Main board
assembly
Main board
assembly
Main board
assembly
Chassis
Absorb the looseness of
the wire in the B part.
Treat the front wires
according to the figure.
Treat the wire
through the hole.
DETALE "B"
DETALE "A"DETALE "C"
Base(1)
[CAUTION]
Insert the FPC wires as shown below.
Foil sideSupperting tape side side
TOP VIEW
Fig. 1-10-1 Top view
1-11
Fig.
No.
Symbol
Connection
Pin No.
Connected point←→ Connected point
Type
(FPC/
WIRE)
1WR1MAINCN7507←→JACKCN700216FPC
2WR2MAINCN3011←→DISPLAYCN700118FPC
3WR3REGULATORCN5301←→SW REGCN520119FPC
4WR4REGULATORCN5322←→MAINCN750813FPC
5WR5REGULATORCN5321←→MAINCN750915FPC
6WR6REGULATORCN5325←→FAN MOTOR–2WIRE
7WR7REGULATORCN5324←→PRE/REC MDACN55015WIRE
8WR8REGULATORCN5323←→DV MAINCN100110WIRE
9WR9DRUM MOTORCON1←→MAINCN30015FPC
10WR10MAINCN1←→UPPER DRUM–13FPC
11WR11A/C HEADCN1←→MAINCN20017FPC
12WR12MAINCN3014←→DV MAINCN10026FPC
13WR13MAINCN703←→DV MAINCN35016WIRE
14WR14MAINCN2601←→DV MAINCN37018FPC
15WR15DV MAINCN1502←→SENSOR–15FPC
16WR16PRE/REC MDACN5002←→DV MAINCN200126FPC
17WR17PRE/REC MDACN5506←→DV MAINCN150120FPC
18WR18PRE/REC MDACN5507←→DV HOUSING MOTOR–4WIRE
19WR19PRE/REC MDACN5502←→DV LOADING MOTOR–2WIRE
20WR20PRE/REC MDACN5505←→DV ENCODER–4WIRE
21WR21PRE/REC MDACN5503←→DV DRUM MOTOR–11FPC
22WR22PRE/REC MDACN5504←→DV CAPSTAN MOTOR–18FPC
23WR23PRE/REC MDACN5001←→DV VIDEO HEAD–10FPC
24–MAINCN7506←→S-SUBCN51214FPC
––DV MAINCN1101←→Jig CONN. CABLE–26–
Table 1-10-1 Connection
1-12
1.11EMERGENCY DISPLAY FUNCTION
Example 1 E : 01 :
03
Previous emergency
Latest emergency
No emergency record
Example 2E : –– :
––
This unit has a function for storing the history of the past two
emergencies (EMG) and displaying them on each FDP. With
the status of the VCR and mechanism at the moment an emergency occurred can also be confirmed.
FDP display switching
[DV]
FDP display – : –– : –– Normal display
: **Emergency content display
E :
**
E :
**
[VHS]
FDP display
Notes:
•
The emergency detail display
on the latest emergency.
It becomes “ – – : – – : – –” when there is no latest emergency record.
•
When using the Jig RCU, set its custom code to match
the custom code of the VCR.
Jig RCU
[Data transmitting method]
Depress the “ ” ( 3 ) button
after the data code is set.
0 : 00 : 00
E: **:
1: *2 : 34
*
5: *6 :
*
CUSTOM CODE
43: A CODE
53: B CODE
DATA CODE
Fig. 1-11-1 Jig RCU [PTU94023B]
(E:Latest:Previous)
: **Emergency content display
(E:Latest:Previous)
Normal display
Emergency content display
**
(E:Latest:Previous)
Emergency detail display
Emergency detail display
7
*
1 2
show the information
INITIAL MODE
1
2
1.11.1 Displaying the emergency information
(1) Transmit the code “59” from the Jig RCU.
The FDP shows the emergency content in the form of
“E:
:**”.
**
Note:
[DV]
For the emergency content, see “1.11.3 Emergency content description”.
[VHS]
For the emergency content, see “1.11.3 Emergency content description”.
(2) Transmit the code “59” from the Jig RCU again.
The FDP shows the emergency detail information 1 in the
form of “
*
*
3 – : Mechanism sensor information at the moment of
– 4 : Mechanism mode position at the moment of emer-
Note:
•
For the emergency detail information
Emergency detail information
(3) Transmit the code “59” from the Jig RCU once again.
The FDP shows the emergency detail information 2 in the
form of “
*
*
*
Note:
•
For the emergency detail information 2 , see “1.11.5 Emergency detail information
1 : *2 : 34”.
*
1 : Deck operation mode at the moment of emergency
2 : Mechanism operation mode at the moment of emer-
gency
emergency
gency
1
, see “1.11.4
1
”.
5 : *6 :
*
5 : Type of the cassette tape in use 1 .
7 ”.
*
6 : Winding position of the cassette tape in use
7 : Type of the cassette tape in use 2 (Winding area)
2
”.
(4) Transmit the code “59” from the Jig RCU once again to re-
set the display.
1.11.2 Clearing the emergency history
(1) Display the emergency history.
(2) Transmit the code “36” from the Jig RCU.
(3) Reset the emergency display.
(Y292-03e)
1-13
1.11.3 Emergency content description
Note:
Emergency contents “E08/E09” are for the model with Dynamic Drum (DD).
FDPCONTENTCAUSE
E01: Loading EMG
E02:
Unloading EMG
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
EC1 or EU1:
Head clog warning
When the mechanism mode cannot be changed to another mode even when the loading motor has rotated
for more than 4 seconds in the loading direction, [E:01]
is identified and the power is turned off.
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 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. However, the reel EMG is
not detected in STILL/SLOW modes.
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.
When the eject operation does not complete in 3 seconds after the start, [E:05] is identified, the pinch rollers
are turned off and stopped, and the power is turned off.
When the cassette insertion operation does not complete
in 3 seconds after the start, the cassette is ejected. In
addition, when the operation does not complete within
3 seconds after the start, [E:05] is also identified and the
power is turned 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 STILL/SLOW/FF/REW modes.
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 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). However, note that the reel EMG
is not detected in the SLOW/STILL mode.
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:C1] or [E:U1]
is identified and recorded in the emergency history. During the period in which a head clog is detected, the FDP and OSD repeat the
“3-second warning display” and “7-second 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 mode transition.
2
The mechanism is locked at the loading end due to the encoder position
reading error during mode transition.
3
Power is not supplied to the loading MDA.
1
The mechanism is locked in the middle of mode transition.
2
The mechanism is locked at the unloading end due to the encoder position reading error during mode transition.
3
Power is not supplied to the loading MDA.
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;
2)
The idler gear is meshed with the take-up reel gear, but incapable of wind-
ing due to too large mechanical load (abnormal tension);
3) The take-up reel sensor does not output the FG pulse.
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.
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 supply reel sensor does not output the FG pulse.
3
Power is not supplied to the reel sensors.
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;
2)
The tape is damaged or a foreign object (grease, etc.) adheres to the tape.
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 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 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 (occurrence 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 is 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.
4
The absolute value sensor data is not sent to the System Controller CPU.
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 to the sensor is not supplied. (Connection failure/soldering failure)
5 The FG pulse is not sent to the System Controller CPU.
6
The tilt motor is defective. (The soldered parts have separated.)
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 FG pulse output from the supply reel sensor is absent.
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 supply reel 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 FG pulse output from the take-up reel sensor is absent.
3
The power to a reel sensor is not supplied.
1-14
Table 1-11-1
1.11.4 Emergency 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 emergency can be confirmed based on
the figure in EMG detail information 1 .
[FDP display]
1 : *2 : 34
*
1 : Deck operation mode at the moment of emergency
*
2 :
Mechanism operation mode at the moment of emergency
*
3 –
: Mechanism sensor information at the moment of emergency
– 4 :
Mechanism mode position at the moment of emergency
Note:
In the Deck operation mode/Mechanism operation mode/
•
Mechanism mode position, the contents of the code that
is shown on the FDP differs depending on the parts
number of the System Control microprocessor (IC3001)
of the VCR.
For the microprocessor parts number that starts with the
two letters “MN”, refer to the Table of MN and for parts
number with “HD”, refer to the Table of HD.
2: Mechanism Operation Mode
*
[Table of MN]
Display
00Command standby (Status without executing command)
02POWER OFF by EMG occurrence
04Moving to the adjacent position in the LOAD direction
06Moving to the adjacent position in the UNLOAD direction
08Cassette ejection being executed
0ACassette insertion being executed
0C Tape being loaded
0ETape being unloaded
10Mode transition to STOP with pinch roller compression ON
12Mode transition to STOP with pinch roller compression OFF
14Mode transition to STOP with pinch roller compression OFF as a result
of POWER OFF
16Mode transition to STOP with pinch roller compression ON as a result of
POWER ON
18Mode transition to PLAY
1AMode transition to FWD SEARCH
1C Mode transition to REC
1EMode transition to FWD STILL/SLOW
20Mode transition to REV STILL/SLOW
22Mode transition to REV SEARCH
24Mode transition from FF/REW to STOP
26Mode transition to FF
28Mode transition to REW
2A4 sec. of REV as a result of END sensor going ON during loading
2C Short FF/REV as a result of tape sensor going ON during unloading
2EMechanism position being corrected due to overrun
80Mechanism in initial position (Dummy command)
Mechanism Operation Mode
1: Deck Operation Mode
*
[Table of MN]
Display
00Mechanism being initialized
01STOP with pinch roller pressure off (or tape present with P.OFF)
02STOP with pinch roller pressure on
03POWER OFF as a result of EMG
04PLAY
0CREC
10Cassette ejected
20FF
21Tape fully loaded, START sensor ON, short FF
22
Cassette identification FWD SEARCH before transition to FF (SP x7-speed)
24FWD SEARCH (variable speed) including x2-speed
2CINSERT REC
40REW
42
Cassette identification REV SEARCH before transition to REW (SP x7-speed)
44REV SEARCH (variable speed)
4CAUDIO DUB
6CINSERT REC (VIDEO + AUDIO)
84FWD STILL/SLOW
85REV STILL/SLOW
8CREC PAUSE
8DBack spacing
8EForward spacing (FWD transport mode with BEST function)
AC INSERT REC PAUSE
AD INSERT REC Back spacing
CC AUDIO DUB PAUSE
CD AUDIO DUB Back spacing
EC INSERT REC (VIDEO + AUDIO) PAUSE
ED INSERT REC (VIDEO + AUDIO) Back spacing
Deck Operation Mode
[Table of HD]
Display
00STOP with pinch roller pressure off (or tape present with P.OFF)
01STOP with pinch roller pressure on
04PLAY
0EREC
11Cassette ejected
22FF
26FWD SEARCH (variable speed) including x2-speed
2EINSERT REC
43REW
47REV SEARCH (variable speed)
4CAUDIO DUB
6EINSERT REC (VIDEO+AUDIO)
84FWD STILL/SLOW
85REV STILL/SLOW
8FREC PAUSE
AFINSERT REC PAUSE
CD AUDIO DUB PAUSE
EFINSERT REC (VIDEO+AUDIO) PAUSE
Deck Operation Mode
[Table of HD]
Display
00STOP with pinch roller pressure off
01STOP with pinch roller pressure on
02U/L STOP (or tape being loaded)
04PLAY
05PLAY (x1-speed playback using JOG)
0EREC
11Cassette ejected
22FF
26FWD SEARCH (variable speed) including x2-speed
2EINSERT REC
43REW
47REV SEARCH
4C AUDIO DUB
6EINSERT REC (VIDEO + AUDIO)
84FWD STILL/SLOW
85REV STILL/SLOW
8FREC PAUSE
AF INSERT REC PAUSE
C7 REV SEARCH (x1-speed reverse playback using JOG)
CD AUDIO DUB PAUSE
EF INSERT REC (VIDEO + AUDIO) PAUSE
F0Mechanism being initialized
F1POWER OFF as a result of EMG
F2Cassette being inserted
F3Cassette being ejected
F4Transition from STOP with pinch roller pressure on to STOP with pinch
roller pressure off
F5Transition from STOP with pinch roller pressure on to PLAY
F6Transition from STOP with pinch roller pressure on to REC
F7Cassette type detection SEARCH before FF/REW is being executed
F8Tape being unloaded
F9Transition 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
FBTransition 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 de-
tection SEARCH
FD Short REV being executed after END sensor on during unloading
FE Tension loosening being executed after tape loading (STOP with pinch
-3U/L STOP position
Tape being loaded/unloaded (When the pole base is located on the front
-4
side of the position just beside the drum)
-5Tape being loaded/unloaded (When the pole base is located on the rear
side of the position just beside the drum)
-6Pole base compressed position
-7FF/REW position
-8Between FF/REW and STOP with pinch roller compression ON
-9STOP with pinch roller compression OFF
-A Between STOP with pinch roller compression OFF and REV
-B REV (REV STILL/SLOW) position
-C Between REV and FWD
-D FWD (FWD STILL/SLOW) position
-E Between FWD and PLAY
-FPLAY position
Mechanism Mode Position
[Table of HD]
Display
–0EJECT position
–1U/L STOP position
–2Tape being loaded/unloaded (When the pole base is located on the rear
side of the position just beside the drum)
–3FF/REW position
–4STOP with pinch roller pressure off
–5REV (REV STILL/SLOW) position
–6FWD (FWD STILL/SLOW) position, PLAY position
–7Intermediate position during transition between other mechanism modes
Mechanism Mode Position
Note:
As the display is always “–7” at any intermediate position
•
between mechanism modes, the position of transitory
EMG may sometimes not be locatable.
1-16
1.11.5 Emergency 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 .
[FDP display]
5 : *6 :
*
*
*
*
Note:
•
EMG detail information2 is the reference information
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)
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
*
DisplayCassette Tape Type 1
00Cassette type not identified
16
Large reel/small reel (T-0 to T-15/T-130 to T-210) not classified
82Small reel, thick tape (T-120) identified/thin tape (T-140) identified
84Large 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
E1C cassette, thick tape (TC-10 to TC-20) identified
E2Small reel, thick tape (T-0 to T-100) identified
E9C cassette, thin tape (TC-30 to TC-40) identified
C cassette, thick tape/thin tape (TC-10 to TC-40) not classified
F1
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 displayed,
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 22 sections using a hex number from “00” to “15”.
“00” : End of winding
“15” : Beginning of winding
“FF” : Tape position not identified
C cassette, thick tapeTC-20P
Small reel, thick tapeT-20
C cassette, thin tapeTC-30
C cassette, thin tapeTC-40
Small reel, thick tapeT-40
Small reel, thick tapeT-60
Small reel, thick tapeT-80/DF-160
Small reel, thick tapeT-80/DF-180
Small reel, thick tapeT-100
Small reel, thick tapeT-120/DF-240
Small reel, thin tapeT-140
Small reel, thick tapeT-130
Small reel, thin tapeT-160
Small reel, thin tapeT-168
Small reel, thick tapeDF-300
Small reel, thin tapeT-180/DF-380
Small reel, thin tapeT-210/DF-420
Large reelT-5
Large reelT-10
Large reelT-20
Large reelT-30
Large reelT-40
Large reelT-60
0A - 0B
0D - 0F
19 - 1D
1D - 21
1E - 1F
2D - 2F
Note:
•
The values of cassette tape type 2 in the above table are
typical values with representative cassette tapes.
SECTION 2
MECHANISM ADJUSTMENT (VHS)
2.1 BEFORE STARTING REPAIR AND ADJUSTMENT
2.1.1 Precautions
(1) Unplug the power cable of the main unit before using your
soldering iron.
(2) Take care not to cause any damage to the conductor
wires when plugging and unplugging the connectors.
(3) Do not randomly handle the parts without identifying
where the trouble is.
(4) Exercise enough care not to damage the lugs, etc. dur-
ing the repair work.
(5) When installing the front panel assembly, be sure to hook
the lug on the back side of the cassette door to the door
opener of the cassette holder. If this operation is neglected it will not be possible to remove the cassette when
ejecting because the housing door cannot be opened.
2.1.2 Checking for Proper Mechanical Operations
Enter the mechanism service mode when you want to operate the mechanism when no cassette is loaded. (See 1.5
MECHANISM SERVICE MODE.)
Loading motor
Pole base assembly
2.1.3 Manually Removing the Cassette Tape
1. In case of electrical failures
If you cannot remove the cassette tape which is loaded because of any electrical failure, manually remove it by taking
the following steps.
(1) Unplug the power cable and remove the top cover,
bracket and front panel assembly. (See 1.3 DISASSEMBLY/ASSEMBLY METHOD.)
(2) Unload the cassette by manually turning the loading mo-
tor of the mechanism assembly toward the front. In doing so, hold the tape by the hand to keep the slack away
from any grease. (See Fig.2-1-3a.)
(3) Bring the pole base assembly (supply or take-up side) to
a pause when it reaches the position where it is hidden
behind the cassette tape.
(4) Move the top guide toward the drum while holding down
the lug A of the bracket retaining the top guide. Likewise hold part B down and remove the top guide.
Section C of the top guide is then brought under the
cassette lid. Then remove the top guide by pressing the
whole cassette tape down. (See Fig.2-1-3b.)
(5) Remove the cassette tape by holding both the slackened
tape and the cassette lid.
(6) Take up the slack of the tape into the cassette. This com-
pletes removal of the cassette tape.
Fig. 2-1-3a
C
A
B
Press
Fig. 2-1-3b
2-1
2. In case of mechanical failure
If you cannot remove the cassette tape which is loaded because of any mechanical failure, manually remove it by taking the following steps.
(1) Unplug the power cable and remove the top cover, front
panel assembly and others so that the mechanism assembly is visible. (See 1.3 DISASSEMBLY/ASSEMBLY
METHOD.)
(2) While keeping the tension arm assembly of the mecha-
nism assembly free from tension, pull the tape on the pole
base assembly (supply or take-up side) out of the guide
roller. (See Fig.2-1-3c.)
(3) Take the spring of the pinch roller arm assembly off the
hook of the press lever assembly, and detach it from the
tape. (See Fig.2-1-3d.)
(4) In the same way as in the electrical failure instructions in
2.1.3-1(4), remove the top guide.
(5) Raise the cassette tape cover. By keeping it in that posi-
tion, draw out the cassette tape case from the cassette
holder and take out the tape.
(6) By hanging the pinch roller arm assembly spring back
on the hook, take up the slack of the tape into the cassette.
Pole base assembly (take-up side)
2.1.4 Jigs and Tools Required for Adjustment
Roller driver
PTU94002
Back tension cassette gauge
PUJ48076-2
Alignment tape
(SP, stairstep, PAL)
MHPE
A/C head positioning tool
PTU94010
Jig RCU
PTU94023B
Alignment tape
(LP, stairstep, PAL)
MHPE-L
Torque gauge
PUJ48075-2
Pole base assembly
(supply side)
Tension arm assembly
Fig. 2-1-3c
Take the spring
off the hook, and
detach it from the
tape.
Guide pole guard
2-2
Pinch roller arm assembly
Press lever assembly
Fig. 2-1-3d
2.1.5 Maintenance and Inspection
1. Location of major mechanical parts
In this chapter, the two mechanism speeds are described by comparing the speeds of the standard type and the high-speed
FF/REW type.
It is possible to distinguish between these two types of mechanism by the diameters of their capstan pulleys.
The capstan pulley diameter for the standard type is approx. 32 mm.
The capstan pulley diameter for the high-speed FF/REW type is approx. 43 mm.
For information on the different parts used in the two mechanism types, please refer to the “Replacement of major parts”.
UV catcher2 (supply and take-up side)
Stator assembly
T2
Full erase head
T26
Pole base assembly
T25
(supply side)
Tension arm
T24
assembly
Adjust pin
T23
Tension brake
T22
assembly
T1
T3
Drum assembly
T5T7
T6
Head base
Audio control head
Loading motor
Guide pole guard
T8
Pinch roller arm
T9
assembly
Lid guide
T10
Press lever
T11
assembly
Guide arm
T12
assembly
Reel disk
T13
(take-up side)
Sub brake assembly
T14
(take-up side)
Belt
B22
(loading motor)
B21
Control cam
B20
B19
Cassette gear
B18
Worm gear
Brake lever
Rec safety lever
B1
Reel disk
T20
(supply side)
Main brake assembly
(supply side)
Idler lever
T17T19T21
Idler arm assembly
T16T18
Pole base assembly (take-up side)
Fig. 2-1-5a Mechanism assembly top side
Capstan motor
Belt (capstan)
B2
Capstan brake assembly
B3B5
Loading arm gear (take-up side)
B4
Loading arm gear (supply side)
Main brake assembly
T15
(take-up side)
Plate
B6
(supply side)
Control
B7
bracket1
Control plate
B8
Tension arm
B9
bearing
Link lever
B17
Rotary encoder guide
B16
Rotary encoder
B15
B14
Direct gear
B13
Change lever assembly
B12
B10
Clutch unit
Take-up head
Fig. 2-1-5b Mechanism assembly bottom side
Take-up lever
B11
2-3
Guide railRoller cam assembly
L2L1
Fig. 2-1-5c Mechanism assembly left side
R1
Opener guide
Door
R2
opener
Drive gear
R3
Cassette housing bracket
R4
R5
Limit gear
Loading motor
Worm gear
Belt (loading motor)
Fig. 2-1-5d Mechanism assembly right side
2. 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.
(1) When cleaning the upper drum (especially the video
head), soak a piece of closely woven cloth or Kimu-wipe
with alcohol and while holding the cloth onto the upper
drum by the fingers, turn the upper drum
counterclockwise.
Note:
• Absolutely avoid sweeping the upper drum vertically
as this will cause damage to the video head.
(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 video tape.
3. 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.
4. 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.
SystemParts Name
Upper drum assembly
A/C head
Lower drum assembly
Pinch roller arm assembly
Full erase head
Tension arm assembly
Tape transport
Capstan motor (Shaft)
Guide arm assembly
Capstan motor
Capstan brake assembly
Main brake assembly
Belt (Capstan)
Belt (Loading motor)
Loading motor
Clutch unit
Worm gear
Control plate
Brush
Tension brake assembly
OtherDrive
Rotary encoder
: Cleaning
¤
: Inspection or Replacement if necessary
R
Operation Hours
~1000H~2000H
¤RR
¤R¤R
¤¤R
¤¤
¤¤
¤¤
¤¤
¤¤
R
R
R
RR
R
R
R
R
R
¤R¤R
RR
R
Table 2-1-5a
5. Disassembling procedure table
The following table indicates the order in which parts are removed for replacement. To replace parts, remove them in
the order of 1 to 18 as shown in the table. To install them,
reverse the removal sequence.
The symbols and numbers preceding the individual part
names represent the numbers in the “Location of major mechanical parts” table. Also, the “T”, “B”, and “T/B” on the right
of each part name shows that the particular part is removed
from the front, from the back, and from both sides of the
mechanism, respectively.
• The parts with marked (
nisms (standard type or high-speed FF/REW type).
1 : Uses the standard type mechanism only.
*
2 : Uses the high-speed FF/REW type mechanism only.
*
) have different types of mecha-
*
T1
Drive arm
Pinch roller arm assembly
Guide arm assembly
Press lever assembly
UV catcher2
Rotary encoder
1
2
1
1
1
12
12
1 2 3 4 5
12
3 4
1 2 3 4
1 2 3 4 5
1 2 3 4 5 6
1 2 3 4 5 6 7
1 2 3 4 5 6
1 2 3 4 5 6
1 2 3 4 5 6
1 2 3 4 5 6
9 10 1112 13 14
9 10 1112 13 14 15
9 10 1112 13 14 15
9 10 1112 13 14 15 16
9 10 1112 13 14 15 16 17
9 10 1112 13 14 15 16 17
9 10 1112 13 14 15 16 17 18
Clutch unit
Change lever assembly
Direct gear
Clutch gear
Link lever
2
3
3
4
1
1
Worm gear
Control bracket1
Control plate
5
6
7
Loading arm gear (supply side)
Loading arm gear (take-up side)
Take-up lever
Sub brake assembly (take-up side)
Main brake assembly (take-up side)
Reel disk (take-up side)
Tension brake assembly
Tension arm assembly
8
7
7
9
9
9
)
1
*
(
Idler lever
Brake lever
2-5
g
2.2 REPLACEMENT OF MAJOR PARTS
2.2.1 Before Starting Disassembling (Phase matching
between mechanical parts)
The mechanism of this unit is closely linked with the rotary
encoder and system controller circuits.
Since the system controller detects the status of mechanical operation in response to phases of the rotary encoder
(internal switch positions), the mechanism may not operate
properly unless such parts as the rotary encoder, control
plate, loading arm gear, control cam, cassette gear, limit gear,
relay gear and drive gear are installed in their correct positions.
Especially, this model is not provided with any cassette housing assembly, so that cassette loading and unloading must
be accomplished by operation of the cassette holder assembly. The latter is in turn driven by such parts as the drive
gear, relay gear and limit gear. Exercise enough care, therefore, to have the phases of all this gear matching one another. (For information on phase matching of the mechanism,
see the instructions on how to install individual parts.)
This unit is provided with a mechanism assembly mode. It is
therefore necessary to enter this mode for assembling and
disassembling procedures.
This mode is usually not in use, manually set it when it is
required.
2.2.3 Cassette Holder Assembly
1. How to remove
(1) Remove the guide rail and roller cam assembly. (See
Fig.2-2-3a.)
(3 lugs on the guide rail and one lug on the roller cam
assembly)
Guide rail
Lugs
Roller cam
assembly
Lug
Lug
Fig. 2-2-3a
(2) Remove the two slit washers and remove the cassette
housing bracket. (See Fig.2-2-3b.)
(3) Remove the opener guide, spring(A), door opener, relay
gear and limit gear. (See Fig.2-2-3b.)
2.2.2 How to Set the Mechanism Assembling Mode
Remove the mechanism assembly and place it bottom side
up. (See SECTION 1 DISASSEMBLY.) Turn the worm gear
toward the front so that the guide hole of the control cam is
brought into alignment with the hole at the mechanism assembly chassis. This position renders the mechanism assembling mode operational. Make sure that the control plate is
located in alignment with the mark E. (See Fig.2-2-2a.)
Worm gear
Chassis hole
Guide hole
Control cam
Limit gear
Spring(A)
Opener guide
Relay gear
Door opener
Cassette housing bracket
Slit washers
Fig. 2-2-3b
(4) While swinging the lock levers (R) and (L) of the cassette
holder assembly toward the front, slide the cassette
holder assembly until its legs come to where the guide
rail and the roller cam assembly have been removed (so
that the drive arm is upright). (See Fig.2-2-3c.)
Lock lever (L)
Cassette holder assembly
Drive arm
(Upright)
2-6
Control plate
Fig. 2-2-2a
Mark E
Le
Fig. 2-2-3c
Legs
While holding the left side of the cassette holder, lift the
A
B
C
Cassette holder assembly
Drive arm
Lock lever (R)
Cassette holder assembly
(5)
cassette holder assembly so that the three legs on the
left side are all released. Then pull the legs A and B
on the right side out of the rail and also pull up the leg C .
(See Fig.2-2-3d and Fig.2-2-3e.)
(6) Draw out the drive gear, and remove the drive arm.
Cassette holder assembly
Fig. 2-2-3d
Cassette holder assembly
A
2. How to install (Phase matching)
A
(1) Insert the section
of the drive arm into the section B
of the main deck.
(2) Insert the section 1 of the drive gear into the round hole,
and the section 2 into the square hole on the drive arm.
(See Fig.2-2-3f.)
(3) Hold the drive arm upright and fit the leg C on the right
side of the cassette holder assembly into the groove. (See
Fig.2-2-3g.)
(4) While swinging the lock lever (R) of the cassette holder
assembly toward the front, put the legs A and B into
the rail. (See Fig.2-2-3g.)
(5) Drop the three legs on the left side of the cassette holder
assembly into the groove at one time. (See Fig.2-2-3h.)
(6) Slide the whole cassette holder assembly toward the front
to bring it to the eject end position.
(7) Install the limit gear so that the notch on the outer cir-
cumference of the limit gear is brought into alignment with
the guide hole on the main deck. (See Fig.2-2-3i.)
(8) Install so that the notch on the periphery of the relay gear
is aligned with the notch of the main deck and that hole
A of the relay gear is aligned with the hole A of the limit
gear and that hole B of the relay gear is aligned with the
hole B of the drive gear. (See Fig.2-2-3i.)
(9) Install the door opener, opener guide, spring(A) and cas-
sette housing bracket and fasten the two slit washers.
Fig. 2-2-3e
Main deck right side
Drive arm
Hole
B
C
Drive arm
Fig. 2-2-3g
Hole
Drive gear
1
2
A
B
Fig. 2-2-3h
Fig. 2-2-3f
2-7
Relay gear
B
Guide holeNotchesNotch
2.2.6 Audio Control Head
1. How to remove
(1) Remove the two screws (A) and remove the audio con-
trol head together with the head base.
(2) When replacing only the audio control head, remove the
three screws (B) while controlling the compression spring.
Head base
B
AA
Drive gearLimit gear
Fig. 2-2-3i
2.2.4 Pinch Roller Arm Assembly
1. How to remove
(1) Remove the spring from the hook of the press lever as-
sembly.
(2) Remove the slit washer and remove the pinch roller seat
2. (See Fig.2-2-4a.)
(3) Remove the pinch roller arm assembly by pulling it up.
Slit washer
Pinch roller seat2
Spring
Pinch roller arm
Press lever assembly
Pinch roller arm assembly
assembly
Fig. 2-2-4a
2.2.5 Guide Arm Assembly and Press Lever Assembly
1. How to remove
(1) Remove the spring and expand the lug of the lid guide in
the arrow-indicated direction. Then remove the guide arm
assembly by pulling it up.
(2) Remove the press lever assembly by pulling it up. (See
Fig.2-2-5a.)
Screws(A)
Audio control head
Fig. 2-2-6a
Screws(B)
Audio control head
Compression
Audio control head
board assembly
Head base
springs
Fig. 2-2-6b
2. How to install
(1) To make the post-installation adjustment easier, set the
temporary level as indicated in Fig.2-2-6c. Also make sure
that the screw center (centre) is brought into alignment
with the center (centre) position of the slot.
A/C head
12.4 mm
Head base
Screw
2-8
Tension
spring
LugLid guide
Fig. 2-2-5a
Press lever
assembly
Guide arm
assembly
Head base
Audio control head
Fig. 2-2-6c
2.2.7 Loading Motor
1. How to remove
(1) Remove the belt wound around the worm gear.
(2) Open the two lugs of the motor guide and remove the
loading motor, loading motor board assembly and motor
guide altogether by pulling them up.
(3) When replacing the loading motor board assembly, take
care with the orientation of the loading motor. (Install so
that the loading motor label faces upward.)
(4) When the motor pulley has been replaced, choose the
fitting dimension as indicated in Fig.2-2-7a.
Loading motor board assembly
Loading motor
Lugs
Motor guide
6.5 ± 0.2 mm
LABEL
Motor pulley
Worm gear
Belt
Fig. 2-2-7a
2.2.8 Capstan Motor
1. How to remove
(1) Remove the belt (capstan) on the mechanism assembly
back side.
(2) Remove the three screws (A) and remove the capstan
motor.
Screws(A)
Screw(A)
Capstan motor
Belt
Fig. 2-2-8a
Spacer
Spacer
2. How to install (Centering the mounting position)
When the capstan motor has once been removed and then
reinstalled out of the initial correct position in the rotational
direction, the capstan motor current may be unstable during
operation in high or low temperatures. This may result in
greater Wow & Flutter and occasionally in power breakdown
because of current over - load. Install the capstan motor while
following the procedure given below.
(The capstan motor is centrally located when the unit is
shipped from the factory.)
(1) Provisionally tighten the three screws (A) securing the
capstan motor.
(2) Install the mechanism assembly to which the capstan
motor is provisionally fastened on the bottom chassis
which incorporates the Main board assembly. (No need
to tighten the screws for mounting the mechanism.)
Make sure that all the connectors for the mechanism assembly and the Main board assembly are correctly installed as indicated in Fig. 2-2-8b.
(3) Making sure that the connector for the capstan motor is
correctly mounted, and securely tighten the three screws
(A).
Note:
• When the capstan motor has been replaced with a new
one, perform recording in the EP(or LP) mode for at
least 2 minutes at normal temperatures immediately before starting the FF/REW or SEARCH operations (Aging).
2.2.9 Pole Base Assembly (supply or take-up side)
1. How to remove
(1) Remove the UV catcher 2 on the removal side by loos-
ening the screw (A).
(2) Remove the pole base assembly on the supply side from
the mechanism assembly by loosening the screw (B) on
the mechanism assembly back side and sliding the pole
base assembly toward the UV catcher 2.
(3) As for the pole base assembly on the take-up side, turn
the pulley of the loading motor to lower the cassette
holder because the screw (B) is hidden under the control plate. (See the “Procedures for Lowering the Cassette
holder assembly” of 1.3 DISASSEMBLY/ASSEMBLY
METHOD.) Further turn the motor pulley to move the cassette holder until the screw (B) is no longer under the control plate (in the half-loading position). Then remove it as
done for the supply side by removing the screw (B).
Note:
• After reinstalling the Pole base assembly and the UV
catcher2, be sure to perform compatibility adjustment.
Fig. 2-2-8b
Connector for
the capstan motor
Screw(A)
UV catcher2
Screw(A)
UV catcher2
Screw(B)
Fig. 2-2-9a
2-9
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