Telefunken TV-CR210-A Service Manual

SERVICE MANUAL

Sec. 1: Main Section

I Specifications
I Preparation for Servicing
I Adjustment Procedures
I Schematic Diagrams
I CBA’s

Sec. 2: Deck Mechanism Section

I Standard Maintenance
I Alignment for Mechanism
I Disassembly/Assembly of Mechanism
I Alignment Procedures of Mechanism

Sec. 3: Exploded views
and Parts List Section

I Exploded views
I Parts List

VIDEO CASSETTE RECORDER

TVCR210(B)

TVCR610(B)

PAL

MAIN SECTION

VIDEO CASSETTE RECORDER

TVCR210(B)/TVCR610(B)

Sec. 1: Main Section

I Specifications
I Preparation for Servicing
I Adjustment Procedures
I Schematic Diagrams
I CBA’s

TABLE OF CONTENTS

Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-1-1

Important Safety Precautions. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-2-1

Standard Notes for Servicing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-3-1

Preparation for Servicing . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-4-1

Cabinet Disassembly Instructions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-5-1

Electrical Adjustment Instructions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-6-1

Block Diagrams . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-7-1

Function Indicator Symbols . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-7-13

Schematic Diagrams / CBA’s and Test Points . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-8-1

Waveforms . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-9-1

Wiring Diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-10-1

IC Pin Function Descriptions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-11-1

Lead Identifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-12-1

SPECIFICATIONS

Description Unit Minimum Nominal Maximum Remark

1. Video

1-1. Video Output (PB) Vp-p 0.8 1.0 1.2 FL6A

1-2. Video Output (R/P) Vp-p 0.8 1.0 1.2

1-3. Video S/N Y (R/P) dB 40 45

1-4. Video Color S/N AM (R/P) dB 37 41 SP Mode

1-5. Video Color S/N PM (R/P) dB 30 36 SP Mode

1-6. Resolution (PB) Line 230 245 SP Mode

2. Servo

2-1. Jitter Low µsec 0.07 0.12 SP Mode

2-2. Wow & Flutter % 0.3 0.5 SP Mode

3. Normal Audio

3-1. Output (PB) dBV -9 -6 -3 SP Mode

3-2. Output (R/P) dBV -9 -6 -1.5 SP Mode

3-3. S/N (R/P) dB 36 41 SP Mode

3-4. Distortion (R/P) % 1.0 4.0 SP Mode

3-5. Freq. resp (R/P) at 200Hz dB -7 -4 SP Mode

(-20dB ref. 1kHz) at 6kHz dB -10 -4 SP Mode

SP Mode,

W/O Burst

4. Tuner

4-1. Video output Vp-p 0.8 1.0 1.2 E-E Mode

4-2. Video S/N dB 39 42 E-E Mode

4-3. Audio output dB -10 -6 -2 E-E Mode

4-4. Audio S/N dB 40 46 E-E Mode

5. Hi-Fi Audio [ TVCR610(B) ]

5-1. Output dBV -12 -8 -4 SP Mode

5-2. Dynamic Range dB 70 85 SP Mode

5-3. Freq. resp (6dB B.W) Hz 20 ~ 20K SP Mode

Note: Nominal specs represent the design specs. All units should be able to approximate these – some will exceed
and some may drop slightly below these specs. Limit specs represent the absolute worst condition that still might
be considered acceptable; In no case should a unit fail to meet limit specs.

1-1-1 HE2E0SP

IMPORTANT SAFETY PRECAUTIONS

Product Safety Notice

Some electrical and mechanical parts have special
safety-related characteristics which are often not evi­dent from visual inspection, nor can the protection they
give necessarily be obtained by replacing them with
components rated for higher voltage, wattage, etc.
Parts that have special safety characteristics are iden­tified by a ! on schematics and in parts lists. Use of a
substitute replacement that does not have the same
safety characteristics as the recommended replace­ment part might create shock, fire, and/or other haz­ards. The Product’s Safety is under review
continuously and new instructions are issued when­ever appropriate. Prior to shipment from the factory,
our products are carefully inspected to confirm 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

A. Parts identified by the ! symbol are critical for

safety. Replace only with part number specified.

B. In addition to safety, other parts and assemblies

are specified for conformance with regulations
applying to spurious radiation. These must also be
replaced only with specified replacements.
Examples: RF converters, RF cables, noise block­ing capacitors, and noise blocking filters, etc.

C. Use specified internal wiring. Note especially:

1)Wires covered with PVC tubing

2)Double insulated wires

3)High voltage leads

D. Use specified insulating materials for hazardous

live parts. Note especially:

1)Insulation tape

2)PVC tubing

3)Spacers

4)Insulators for transistors

E. When replacing AC primary side components

(transformers, power cord, etc.), wrap ends of
wires securely about the terminals before solder­ing.

F. Observe that the wires do not contact heat produc-

ing parts (heatsinks, oxide metal film resistors, fus­ible resistors, etc.).

G. Check that replaced wires do not contact sharp

edges or pointed parts.

H. When a power cord has been replaced, check that

5 - 6 kg of force in any direction will not loosen it.

I. Also check areas surrounding repaired locations.

J. Be careful that foreign objects (screws, solder

droplets, etc.) do not remain inside the set.

K. Crimp type wire connector

The power transformer uses crimp type connectors
which connect the power cord and the primary side
of the transformer. When replacing the transformer,
follow these steps carefully and precisely to prevent
shock hazards.
Replacement procedure

1)Remove the old connector by cutting the wires at a
point close to the connector.

Important: Do not re-use a connector. (Discard it.)

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.

3)Align the lengths of the wires to be connected.
Insert the wires fully into the connector.

4)Use a crimping tool to crimp the metal sleeve at its
center. Be sure to crimp fully to the complete clo­sure of the tool.

L. When connecting or disconnecting the internal

connectors, first, disconnect the AC plug from the
AC outlet.

1-2-1 H8740SFP

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 their original posi­tions. Afterwards, do the following tests and confirm
the specified values to verify compliance with safety
standards.

1. Clearance Distance

When replacing primary circuit components, confirm
specified clearance distance (d) and (d’) between sol­dered terminals, and between terminals and surround­ing metallic parts. (See Fig. 1)

Table 1 : Ratings for selected area

AC Line Voltage Clearance Distance (d) (d’)

230 - 240 V

Note: This table is unofficial and for reference only.

Be sure to confirm the precise values.

≥ 3mm(d)

≥ 6 mm(d’)

2. Leakage Current Test

Confirm the specified (or lower) leakage current
between B (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.) is lower than or equal to the specified value in the
table below.

Measuring Method (Power ON) :

Insert load Z between B (earth ground, power cord
plug prongs) and exposed accessible parts. Use an
AC voltmeter to measure across the terminals of load
Z. See Fig. 2 and the following table.

Chassis or Secondary Conductor

Primary Circuit Terminals

dd'

Exposed Accessible Part

Z

One side of

B

Power Cord Plug Prongs

AC Voltmeter
(High Impedance)

Fig. 1

Fig. 2

Table 2: Leakage current ratings for selected areas

AC Line Voltage Load Z Leakage Current (i)

2kΩ RES.

Connected in

parallel

230 - 240 V

50kΩ RES.

Connected in

parallel

Note: This table is unofficial and for reference only. Be sure to confirm the precise values.

i≤0.7mA AC Peak

i≤2mA DC

i≤0.7mA AC Peak

i≤2mA DC

1-2-2 H8740SFP

One side of power cord plug

prongs (B) to:

RF or

Antenna terminals

A/V Input, Output

STANDARD NOTES FOR SERVICING

Circuit Board Indications

a. The output pin of the 3 pin Regulator ICs is indi-

cated as shown.

Top View

Out

b. For other ICs, pin 1 and every fifth pin are indicated

as shown.

Pin 1

c. The 1st pin of every male connector is indicated as

shown.

Input

In

Bottom View

5

10

Pin 1

Instructions for Connectors

1. When you connect or disconnect the FFC (Flexible
Foil Connector) cable, be sure to first disconnect
the AC cord.

2. FFC (Flexible Foil Connector) cable should be
inserted parallel into the connector, not at an angle.

FFC Cable

Pb Free Solder (PbF)

When soldering, be sure to use the Pb free solder.

How to Remove / Install Flat Pack-IC

1. Removal

With Hot-Air Flat Pack-IC Desoldering Machine:.

(1) Prepare the hot-air flat pack-IC desoldering

machine, then apply hot air to the Flat Pack-IC
(about 5 to 6 seconds). (Fig. S-1-1)

Fig. S-1-1

(2) Remove the flat pack-IC with tweezers while apply-

ing the hot air.

(3) Bottom of the flat pack-IC is fixed with glue to the

CBA; when removing entire flat pack-IC, first apply
soldering iron to center of the flat pack-IC and heat
up. Then remove (glue will be melted). (Fig. S-1-6)

(4) Release the flat pack-IC from the CBA using twee-

zers. (Fig. S-1-6)

Caution:

1. The Flat Pack-IC shape may differ by models. Use
an appropriate hot-air flat pack-IC desoldering
machine, whose shape matches that of the Flat
Pack-IC.

2. Do not supply hot air to the chip parts around the
flat pack-IC for over 6 seconds because damage to
the chip parts may occur. Put masking tape around
the flat pack-IC to protect other parts from damage.
(Fig. S-1-2)

Connector

CBA

* Be careful to avoid a short circuit.

1-3-1 NOTE_1

3. The flat pack-IC on the CBA is affixed with glue, so
be careful not to break or damage the foil of each
pin or the solder lands under the IC when removing
it.

Hot-air
Flat Pack-IC
Desoldering

CBA

Masking
Tape

Tweezers

Machine

Flat Pack-IC

Fig. S-1-2

With Soldering Iron:

(1) Using desoldering braid, remove the solder from all

pins of the flat pack-IC. When you use solder flux
which is applied to all pins of the flat pack-IC, you
can remove it easily. (Fig. S-1-3)

Flat Pack-IC

Desoldering Braid

(3) Bottom of the flat pack-IC is fixed with glue to the

CBA; when removing entire flat pack-IC, first apply
soldering iron to center of the flat pack-IC and heat
up. Then remove (glue will be melted). (Fig. S-1-6)

(4) Release the flat pack-IC from the CBA using twee-

zers. (Fig. S-1-6)

With Iron Wire:

(1) Using desoldering braid, remove the solder from all

pins of the flat pack-IC. When you use solder flux
which is applied to all pins of the flat pack-IC, you
can remove it easily. (Fig. S-1-3)

(2) Affix the wire to a workbench or solid mounting

point, as shown in Fig. S-1-5.

(3) While heating the pins using a fine tip soldering

iron or hot air blower, pull up the wire as the solder
melts so as to lift the IC leads from the CBA contact
pads as shown in Fig. S-1-5

(4) Bottom of the flat pack-IC is fixed with glue to the

CBA; when removing entire flat pack-IC, first apply
soldering iron to center of the flat pack-IC and heat
up. Then remove (glue will be melted). (Fig. S-1-6)

(5) Release the flat pack-IC from the CBA using twee-

zers. (Fig. S-1-6)

Note:

When using a soldering iron, care must be taken
to ensure that the flat pack-IC is not being held by
glue. When the flat pack-IC is removed from the
CBA, handle it gently because it may be damaged
if force is applied.

Soldering Iron

Fig. S-1-3

(2) Lift each lead of the flat pack-IC upward one by

one, using a sharp pin or wire to which solder will
not adhere (iron wire). When heating the pins, use
a fine tip soldering iron or a hot air desoldering
machine. (Fig. S-1-4)

Sharp
Pin

Fine Tip
Soldering Iron

Fig. S-1-4

Hot Air Blower

or

Iron Wire

Soldering Iron

To Solid
Mounting Point

Fig. S-1-5

1-3-2 NOTE_1

Instructions for Handling
Semi-conductors

CBA

Tweezers

Fine Tip
Soldering Iron

Flat Pack-IC

Fig. S-1-6

2. Installation

(1) Using desoldering braid, remove the solder from

the foil of each pin of the flat pack-IC on the CBA so
you can install a replacement flat pack-IC more
easily.

(2) The “ I ” mark on the flat pack-IC indicates pin 1.

(See Fig. S-1-7.) Be sure this mark matches the 1
on the PCB when positioning for installation. Then
presolder the four corners of the flat pack-IC. (See
Fig. S-1-8.)

(3) Solder all pins of the flat pack-IC. Be sure that none

of the pins have solder bridges.

Electrostatic breakdown of the semi-conductors may
occur due to a potential difference caused by electro­static charge during unpacking or repair work.

1. Ground for Human Body

Be sure to wear a grounding band (1MΩ) that is prop­erly grounded to remove any static electricity that may
be charged on the body.

2. Ground for Workbench

Be sure to place a conductive sheet or copper plate
with proper grounding (1MΩ) on the workbench or
other surface, where the semi-conductors are to be
placed. Because the static electricity charge on cloth­ing will not escape through the body grounding band,
be careful to avoid contacting semi-conductors with
your clothing.

< Incorrect >

Example :

Pin 1 of the Flat Pack-IC
is indicated by a " " mark.

Presolder

CBA

Fig. S-1-7

Flat Pack-IC

Fig. S-1-8

CBA

< Correct >

Grounding Band

1MΩ

CBA

1MΩ

Conductive Sheet or
Copper Plate

1-3-3 NOTE_1

PREPARATION FOR SERVICING

How to Enter the Service Mode

About Optical Sensors

Caution:

An optical sensor system is used for the Tape Start
and End Sensors on this equipment. Carefully read
and follow the instructions below. Otherwise the unit
may operate erratically.

What to do for preparation

Insert a tape into the Deck Mechanism Assembly and
press the PLAY button. The tape will be loaded into
the Deck Mechanism Assembly. Make sure the power
is on, connect TP507 (SENSOR INHIBITION) to GND.
This will stop the function of Tape Start Sensor, Tape
End Sensor and Reel Sensors. (If these TPs are con­nected before plugging in the unit, the function of the
sensors will stay valid.) See Fig. 1.

Note: Because the Tape End Sensors are inactive, do
not run a tape all the way to the start or the end of the
tape to avoid tape damage.

Q505

Q504

TP507

S-INH

Fig. 1

1-4-1 HE470PFS

CABINET DISASSEMBLY INSTRUCTIONS

1. Disassembly Flowchart

This flowchart indicates the disassembly steps to gain
access to item(s) to be serviced. When reassembling,
follow the steps in reverse order. Bend, route, and
dress the cables as they were originally.

[1] Top Case

[2] Front Assembly

[3] VCR Chassis Unit

[4] Jack CBA

[5] Deck Assembly

[6] Main CBA

[7] Cylinder Shield

[8] Jack Board [ TVCR610(B) ]

2. Disassembly Method

REMOVAL

ID/

LOC

.No.

[1] Top Case 1 7(S-1) -

PA RT

REMOVE/*UNHOOK/

Fig.

UNLOCK/RELEASE/

No.

UNPLUG/DESOLDER

Note

(1): Identification (location) No. of parts in the figures
(2): Name of the part
(3): Figure Number for reference
(4): Identification of parts to be removed, unhooked,

unlocked, released, unplugged, unclamped, or
desoldered.
P=Spring, L=Locking Tab, S=Screw,
CN=Connector
*=Unhook, Unlock, Release, Unplug, or Desolder
e.g. 2(S-2) = two Screws (S-2),
2(L-2) = two Locking Tabs (L-2)

(5): Refer to “Reference Notes.”

Reference Notes

CAUTION: Locking Tabs (L-1) and (L-2) are fragile.
Be careful not to break them.

1. Remove Screws (S-2), Screws (S-3) and Screw (S-

4). Then, slowly lift the VCR Chassis Unit (Deck
Assembly, Jack CBA and Main CBA) up.

2. When reassembling, solder wire jumpers as shown
in Fig. 5.

3. Before installing the Deck Assembly, be sure to
place the pin of LD-SW on Main CBA as shown in
Fig. 6. Then, install the Deck Assembly while align­ing the hole of Cam Gear with the pin of LD-SW,
the shaft of Cam Gear with the hole of LD-SW as
shown in Fig. 6.

(S-1)

(S-1)

[2] Front Assembly 2 *3(L-1),*4(L-2) -

5(S-2), (S-4)

VCR Chassis

[3]

Unit

[4] Jack CBA 4 Desolder, (S-5) -

[5] Deck Assembly 5,6 2(S-6), Desolder 2,3

[6] Main CBA 5 *(L-3) --- [ TVCR610(B) ] -

[7] Cylinder Shield 5 2(S-7) -

Jack Board

[8]

[ TVCR610(B) ]

↓

(1)

↓

(2)

3-1,

2(S-3) --- [ TVCR210(B) ],

3-2

3(S-3) --- [ TVCR610(B) ],
(S-4)

5 ---------- -

↓

(3)

↓

(4)

(5)

1

[1] Top Case

(S-1)

↓

Fig. 1

1-5-1 HE2E0DC

(L-2)

(S-5)

[4] Jack CBA

Desolder

[2] Front
Assembly

(L-2)

[ TVCR610(B) ]

(S-2)

(S-2)

(S-3)

(S-3)

[3]VCR
Chassis
Unit

(S-2)

(S-4)

(S-3)

(S-2)

(L-1)

[ TVCR210(B) ]

(S-2)

[3]VCR
Chassis Unit

(S-3)

Fig. 2

(S-2)

(S-2)

(S-4)

(S-3)

(S-2)

Fig. 3-2

Fig. 3-1

Fig. 4

1-5-2 HE2E0DC

[7] Cylinder Shield

FE Head

[ TVCR610(B) ]

Cylinder Assembly

(S-7)

AC Head
Assembly

Pin

SW507
LD-SW

[6] Main CBA

[8] Jack Board

(L-3)

From
FE Head

From
Cylinder
Assembly

(S-6)

TOP VIEW

From
AC Head
Assembly

[5] Deck Assembly

[6] Main CBA

(S-6)

From
Capstan Motor
Assembly

Lead with
blue stripe

[5] Deck Assembly

Shaft

Hole

LD-SW

Cam Gear

Hole

Pin

[6] Main CBA

Fig. 6

Printing

Lead with
blue stripe

Lead connections of Deck Assembly and Main CBA

Lead with
blue stripe

Desolder
from bottom

side

Fig. 5

1-5-3 HE2E0DC

ELECTRICAL ADJUSTMENT INSTRUCTIONS

General Note: "CBA" is an abbreviation for
"Circuit Board Assembly."

NOTE:

1.Electrical adjustments are required after replacing
circuit components and certain mechanical parts.
It is important to do these adjustments only after
all repairs and replacements have been com­pleted. Also, do not attempt these adjustments
unless the proper equipment is available.

2.To perform these alignment / confirmation proce­dures, make sure that the tracking control is set in
the center position: Press either "L5??" or "K" button
on the remote control unit first, then the "PLAY"
button (Front Panel only).

Test Equipment Required

1.Oscilloscope: Dual-trace with 10:1 probe,
V-Range: 0.001~50V/Div.,
F-Range: DC~AC-20MHz

2.Alignment Tape (FL6A)

Head Switching Position Adjustment

Purpose:

To determine the Head Switching point during
playback.

Symptom of Misadjustment:

May cause Head Switching noise or vertical jitter
in the picture.

Test point Adj.Point Mode Input

J23(V-OUT)

TP502(RF-SW)

GND

Tape

FL6A Oscilloscope

Connections of Measurement Equipment

Main CBA

VR501

(Switching Point)

(MAIN CBA)

Measurement

Equipment

J23

GND

TP502

PLAY

(SP)

6.5H±1H

(416.0µs±60µs)

Oscilloscope

-----

Spec.

CH1 CH2
Trig. (+)

Figure 1

EXT. Syncronize Trigger Point

CH1

CH2

Reference Notes:
Playback the Alignment tape and adjust VR501 so that
the V-sync front edge of the CH1 video output wave­form is at the 6.5H(416.0µs) delayed position from the
rising edge of the CH2 head switching pulse wave­form.

1.0H

6.5H

Switching Pulse

0.5H
V-Sync

1-6-1 HE240EA

Servo/System Control Block Diagram

Comparison Chart of
Models & Marks

Model Mark

TVCR210(B)
TVCR610(B)

Q504

ST-S

SENSOR CBA

Q505

END-S

SENSOR CBA

(DECK ASSEMBLY)

AC HEAD ASSEMBLY

CONTROL
HEAD

CYLINDER ASSEMBLY CAPSTAN MOTOR

PG
SENSOR

DRUM
MOTOR

M

LOADING
MOTOR

A
B

CL287

5 5CTL(+)
6 6CTL(-)

M

MAIN CBA

CL504

CAPSTAN
MOTOR

END-S

M

SW507
LD-SW

Q503

T-REEL

AL+5V

PS503TP505

BLOCK DIAGRAMS

S-REEL

CL502

12 P-ON+15V
11

AL+12V(2)

10 GND

D-PFG

9

D-CONT

8

LM-FWD/REV

7

GND

6

C-CONT

5

C-F/R

4

C-FG

3

P-ON+5V

2

AL+12V/+20.5V

1

D502
S-LED

TIMER+5V

VR501
SW-POINT

FROM/TO
POWER
SUPPLY
BLOCK

AL+5V

AL+5V

RS501

Q501

RESET

TP507
SENS-INH

KEY
SWITCH

AL+5V

SW506

REC-SAFETY

P-ON+15V
AL+12V

P-ON+5V
AL+12V/+20.5V

C-POW-SW
P-ON-H
P-DOWN-L

REMOTE
SENSOR

SW508

RESET

KEY
SWITCH

IC501

(SERVO/SYSTEM CONTROL)

REMOCON-IN

14

LD-SW9

95

CTL(+)
CTL(-)

94
10

ST-S

4

END-S
T-REEL

80

S-REEL79

RESET

34

KEY- 1

7

KEY- 2

8

PG-DELAY

2

REC-SAF-SW

31

D-PG

90

D-CONT77
LM-

81

FWD/REV

C-CONT

76

C-F/R

78

C-FG

87

C-POW-SW

66

P-ON-H

67

P-DOWN-L

86

FUNCTION-LED

TAPE IN-LED

TIMER-LED

REC-LED 26

A

AUDIO-SW-1
AUDIO-SW-2

A-MUTE-H

B

Hi-Fi-H-SW

LINE-MUTE

IIC-BUS SDA

IIC-BUS SCL

D-V SYNC

B

H-A-COMP

A-MODE

D-REC-H

RF-SW

C-ROTA

H-A-SW

V-ENV

C-SYNC

23

24

25

29
30

83

19
32
28

72
71
33
18
15
13

16

17

58

+5V

Q562

Q563

Q564

Q565

6

D561 STANDBY

D562 FUNCTION

D563 TAPE IN

D564 TIMER

D565 REC

TU701(TUNER UNIT)

SDA

3

SDA

12

SCL

5

SCL

11

IC503 (MEMORY)

SDA

5

SCL

6

AUDIO-SW-1
AUDIO-SW-2

IIC-BUS SDA

IIC-BUS SCL

A-MUTE-H

IIC-BUS SDA

IIC-BUS SCL

Hi-Fi-H-SW

A-MODE

LINE-MUTE

IIC-BUS SDA

IIC-BUS SCL

D-REC-H

RF-SW

C-ROTA

D-V SYNC

H-A-SW

H-A-COMP

V-ENV

C-SYNC

TO
AUDIO BLOCK

FROM/TO
Hi-Fi AUDIO
BLOCK

FROM/TO
VIDEO BLOCK

1-7-1 1-7-2 HE2E0BLS

Video Block Diagram

MAIN CBA

IC501 (OSD)

FROM
SERVO/SYSTEM
CONTROL BLOCK

IIC-BUS SDA
IIC-BUS SCL

REC-VIDEO SIGNAL PB-VIDEO SIGNAL MODE: SP/REC

Comparison Chart of
Models & Marks

Model Mark

TVCR210(B)
TVCR610(B)

A
B

V-OUT1

V-IN1

SERVO/SYSTEM
CONTROL BLOCK

JACK CBA

JK101

Q101

19
20

BUFFER

TU701

B

CL101

VIDEO

TU-VIDEO

JK756
V-IN-F

1

V-OUT1
V-IN1

3 3

V-IN1TO
TU-VIDEO

6

24

CL151

1

Q351

BUFFER

WF1

J23
V-OUT

OSD

52

CHARACTER
MIX

IC301

(Y/C SIGNAL PROCESS)

48
50
52

54
56

61
63

TUNER

PB/EE

TUNER

IN1

PB/EE

MUTE

IN1

IN2

FRT

IN2

FRT

MUTE

50

BYPASS

65

Y. DELAY

DECORDER

LUMINANCE
SIGNAL
PROCESS

AGC

CHARA.
INS.

CCD 1H DELAY

1/2

CHROMINANCE
SIGNAL
PROCESS

FBC

Y/C
MIX

PR

AGC VXO

69684643

SERIAL

7978

R

Y

+

C

R P R P

P

REC FM
AGC

SP

SP

HEAD
AMP

EP

EP
HEAD
AMP

D-REC-H

C-ROTA/RF-SW

D-V-SYNC

V-ENV

C-SYNC

B

H-A-SW

H-A-COMP

96
95
93
94

90
89
88
87

80

70
62
84
67

71
83

V-COM

V-COM

WF1

TP502

RF-SW

CL253

V(R)-1

V(L)-1

V(L)-2

V(R)-2

D-REC-H

RF-SW

C-ROTA

D-V-SYNC

V-ENV

C-SYNC

H-A-SW

H-A-COMP

(DECK ASSEMBLY)

CYLINDER ASSEMBLY

1
2
3
4
5
6

FROM/TO SERVO/SYSTEM
CONTROL BLOCK

VIDEO (R)-1
HEAD

VIDEO (L)-1
HEAD

VIDEO (L)-2
HEAD

VIDEO (R)-2
HEAD

V-OUT2

V-IN2

19
20

JK102

Q102

BUFFER

CL102

1

V-OUT2
V-IN2 3

3

CL152

1

58 59

4.433619MHz

2928

X301

21

TP301

C-PB

WF2

1-7-3 1-7-4 HE2E0BLV

Audio Block Diagram ( A )

PB-AUDIO SIGNAL REC-AUDIO SIGNAL Mode : SP/REC

JACK CBA

JK101

A-IN1
A-IN1
A-OUT1
A-OUT1

A-IN2
A-IN2
A-OUT2
A-OUT2

2
6
1
3

JK102

2
6
1
3

Comparison Chart of
Models & Marks

Model Mark

TVCR210(B)
TVCR610(B)

A
B

CL101

CL102

8
6

8
6

A-IN1
A-OUT1

A-IN2
A-OUT2

CL151

8
6

CL152

8
6

TU701(TUNER UNIT)

AUDIO

TU-AUDIO

21

MAIN CBA

2

IC151 (SWITCHING)

IC301 (AUDIO SIGNAL PROCESS)

TUNER

13

IN1

15

IN2

17

PB-ON
5
6

EQ
AMP

Q151

BUFFER

Q152

BUFFER

98

INV

13

PB/EE
PB/EE

3

R

ATT

PB/EE
IN2

TUNER
PB/EE
IN1
IN1

SW

CTL

ALC
DET

ALC

P

1
5
2
4

12
14
15
11

10

9

LINE
AMP

AUDIO-SW-1
AUDIO-SW-2

MUTE

TO SERVO/SYSTEM
CONTROL BLOCK

12

11

(DECK ASSEMBLY)

ACE HEAD ASSEMBLY

AUDIO
HEAD

AUDIO
ERASE
HEAD

FE HEAD

FULL
ERASE
HEAD

CL287
A-PB/REC 4
A-COM 3
AE-H 1
AE-H/FE-H 2

SP/LP-ON

CL504
4 A-PB/REC
3 A-COM
1 AE-H
2 AE-H/FE-H

CL501
2 FE-H
1 FE-H-GND

Q401

Q402

BIAS
OSC

Q405
(PB=ON)

+5V

Q406

Q403

(SWITCHING)



1
2

+5V

AUTO
BIAS

7

REC-ON

3

100

REC
AMP

AUDIO HD-SW
CONTROL

16

SERIAL

DECODER

68 69

71

A-MUTE-H
IIC-BUS SDA
IIC-BUS SCL

TO SERVO/SYSTEM
CONTROL BLOCK

1-7-5 1-7-6 HE2E0BLA

Audio Block Diagram ( B )

MAIN CBA

Comparison Chart of
Models & Marks

Model Mark

TVCR210(B)
TVCR610(B)

PB-AUDIO SIGNAL REC-AUDIO SIGNAL Mode : SP/REC

A
B

TO Hi-Fi
AUDIO BLOCK

(DECK ASSEMBLY)

ACE HEAD ASSEMBLY

AUDIO
HEAD

AUDIO
ERASE
HEAD

N-A-PB
N-A-REC

CL287
A-PB/REC 4
A-COM 3
AE-H 1
AE-H/FE-H 2

CL504
4 A-PB/REC
3 A-COM
1 AE-H
2 AE-H/FE-H

Q401

Q402

BIAS
OSC

+5V

Q406

IC301

(AUDIO SIGNAL PROCESS) 1513 17

TUNER IN2

INV

R

98

ATT

P

REC
AMP

5
6

1
2

PB-ON

EQ
AMP

SP/LP-ON

AUTO
BIAS

7

3

100

IN1

ALC
DET

ALC

LINE
AMP

REC-ON

MUTE

12

11

FULL
ERASE
HEAD

FE HEAD

SERIAL

DECODER

68 69

71

A-MUTE-H
IIC-BUS SDA
IIC-BUS SCL

TO SERVO/SYSTEM
CONTROL BLOCK

CL501
2 FE-H
1 FE-H-GND

Q405
(PB=ON)

Q403

SWITCHING
D-REC-OFF

+5V

AUDIO HD-SW
CONTROL

16

1-7-7 1-7-8 HE4F4BLA

Hi-Fi Audio Block Diagram ( B )

REC-AUDIO SIGNALPB-AUDIO SIGNAL Mode : SP/REC

JACK CBA

A-IN1(R)
A-IN1(L)
A-OUT1(R)
A-OUT1(L)

A-IN2(R)
A-IN2(L)
A-OUT2(R)
A-OUT2(L)

JK101

2
6
1
3

JK102

2
6
1
3

CL101

10

6

12

CL102

9

6

11

Comparison Chart of
Models & Marks

Model Mark

TVCR210(B)
TVCR610(B)

A
B

A-IN1(R)
A-IN1(L) 8

8

A-OUT1(R)
A-OUT1(L) 12

A-IN2(R)
A-IN2(L) 8

8

A-OUT2(R)
A-OUT2(L) 11

10

6

9

6

CL151

CL152

67
65

(Hi-Fi AUDIO SIGNAL PROCESS)

IC451

SW

SW

ALC

ALC

ALC

MAIN CBA

CN701 CN1

4

TU-AUDIO(R)
TU-AUDIO(L)

5

4
5

AFV CBA

IF SIGNAL
PROCESS

OUTPUT
SELECT

CN1

SIF

CN701

22

MUTE-ON

VCO MUTE

MUTE-ON

73
74

72

76
77
75

CL509

2

A-OUT1(L)

1

A-OUT1(R)

JK751

SUB JACK CBA

TU701

22

SIF

2

AUDIO

A-OUT
(L)

A-OUT
(R)

JK758
A-IN(R)-F

JK757
A-IN(L)-F

TO AUDIO BLOCK

N-A-REC
N-A-PB

52
56
54
50
60

10

78
80

62

70

61 71

47

R-CH
INSEL

2
6

L-CH

8
4

INSEL

+

48

14

15

ALC

R-CH
PNR

L-CH
PNR

P

R

R

P

SW
NOISE

LIM DEV

LIM DEV

SW
NOISE

DO
DET

R-CH
BPF

NOISE
DET

HOLD
PULSE

L-CH
BPF

COMP

VCO

LPF

MIX V/I

LPF

VCO

COMP

LIM

ENV
DET

34 33

LOGIC

LINE-MUTE

R

L

37
38

Q451

21
53

39

24

26

27

IIC-BUS SDA
IIC-BUS SCL

A-MODE

LINE-MUTE

Hi-Fi-H-SW

CL253

Hi-Fi-A(R) 9
Hi-Fi-COM 8
Hi-Fi-A(L) 7

FROM/TO SYSTEM
CONTROL BLOCK

CYLINDER
ASSEMBLY

Hi-Fi
AUDIO
(R) HEAD

Hi-Fi
AUDIO
(L) HEAD

1-7-9 1-7-10

HE4F4BLH

Power Supply Block Diagram

Comparison Chart of
Models & Marks

Model Mark

TVCR210(B)
TVCR610(B)

AC001

A
B

NOTE :
The voltage for parts in hot circuit is measured using
hot GND as a common terminal.

HOT CIRCUIT. BE CAREFUL.

F001
T1.6A L 250V

L003

LINE
FILTER

D001 - D004

BRIDGE
RECTIFIER

CAUTION

FOR CONTINUED PROTECTION AGAINST FIRE HAZARD,
REPLACE ONLY WITH THE SAME TYPE T1.6AL/250V FUSE.

T001

Q051

2

4

Q001

12

Q052

13

Q057

14

Q058

15

CAUTION !

Fixed voltage (or Auto voltage selectable ) power supply circuit is used in this unit.
If Main Fuse (F001) is blown, check to see that all components in the power supply
circuit are not defective before you connect the AC plug to the AC power supply.
Otherwise it may cause some components in the power supply circuit to fail.

MAIN CBA

P-ON+15V
P-ON+32V
P-ON-H

Q053

B

Q055

Q054

AL+12V/+20.5V
AL+9V
AL+12V
C-POW-SW
AL+5V
TIMER+5V
P-ON+5V
AL-5V
P-DOWN-L
P-OFF-H

HOT

Q003

Q002

7

6

IC001

ERROR
VOLTAGE DET

4

Q004

(VOLTAGE DETECTION)

1

23

REG

16

11

17

18

Q059

A

Q056

COLD

HE2E0BLP1-7-11 1-7-12

FUNCTION INDICATOR SYMBOLS

Note:

The following symbols will appear on the indicator panel to indicate the current mode or operation of the VCR.
On-screen modes will also be momentarily displayed on the tv screen when you press the operation buttons.

Display panel

[ TVCR210(B) ]

TAPE IN TIMER RECFUNCTIONSTANDBY

" H "= LED Light on, " L "= LED Light off

Led Mode Indicator Active

STANDBY Power on = " H "

Power off = " L "

FUNCTION VCR mode = " H "

TV mode = " L "

TAPE IN

1. When reel and capstan mechanism is
not functioning correctly

2. When tape loading mechanism is not
functioning correctly

3. When cassette loading mechanism is
not functioning correctly

4. When the drum is not working properly

TIMER Timer stand by = " H "

REC REC mode = " H "

Cassette in = " H "
Cassette out = " L "
Cassette in

Cassette in

Cassette in

Cassette in

One touch recording = " H "
Timer recording = " H "
General mode = " L "

REC pause
General mode = " L "

Blinks at 0.8Hz interval

Blinks at 1.6Hz interval

Blinks at 3.2Hz interval

Blinks at 6.4Hz interval

Blinks at 0.8Hz interval

1-7-13 HE2E0FIS

[ TVCR610(B) ]

LED MODE INDICATOR ACTIVE

" H "= LED Light on, " L "= LED Light off

CASSETTE "IN"
CASSETTE "OUT"

CLOCK " 88:88 ON

POWER ON " PWR." ON

REC " REC " ON

REC PAUSE " REC " Blinks at 0.8Hz interval

T- R E C , O T R

When reel and capstan mechanism is not
functioning correctly

When tape loading mechanism is not func­tioning correctly

When cassette loading mechanism is not
functioning correctly

When the drum is not working properly

P-ON Power safety detection

" "
" "

" "

" "
" 1 "

" "
" 2 "

" "
" 3 "

" "
" 4 "

" "
" 5 "

ON
OFF

ON
(T-REC OFF,T-REC incomplete
Blinks at 0.8Hz interval)

Blinks at 0.8Hz interval

Blinks at 0.8Hz interval

Blinks at 0.8Hz interval

Blinks at 0.8Hz interval

Blinks at 0.8Hz interval

S-INH condition All modes Blinks at 0.8Hz interval

1-7-14 HE2E0FIS

SCHEMATIC DIAGRAMS / CBA’S AND TEST POINTS

Standard Notes

WARNING

Many electrical and mechanical parts in this chassis
have special characteristics. These characteristics
often pass unnoticed and the protection afforded by
them cannot necessarily be obtained by using replace­ment components rated for higher voltage, wattage,
etc. Replacement parts that have these special safety
characteristics are identified in this manual and its
supplements; electrical components having such fea­tures are identified by the mark " ! " in the schematic
diagram and the parts list. Before replacing any of
these components, read the parts list in this manual
carefully. The use of substitute replacement parts that
do not have the same safety characteristics as speci­fied in the parts list may create shock, fire, or other
hazards.

Capacitor Temperature Markings

Mark

Capacity

change rate

Standard

temperature

Temperature

range

Notes:

1. Do not use the part number shown on these draw­ings for ordering. The correct part number is shown
in the parts list, and may be slightly different or
amended since these drawings were prepared.

2. All resistance values are indicated in ohms

3

(K=10

3. Resistor wattages are 1/4W or 1/6W unless other­wise specified.

4. All capacitance values are indicated in µF
(P=10

5. All voltages are DC voltages unless otherwise
specified.

6. Electrical parts such as capacitors, connectors,
diodes, IC’s, transistors, resistors, switches, and
fuses are identified by four digits. The first two dig­its are not shown for each component. In each
block of the diagram, there is a note such as shown
below to indicate these abbreviated two digits.

, M=106).

-6

µF).

(B)

(F) +30 - 80% 20°C -25~+85°C

(SR)

(Z) +30 - 80% 20°C -10~+70°C

Capacitors and transistors are represented by the following symbols.

±10%

±15%

20°C -25~+85°C

20°C -25~+85°C

CBA Symbols

(Top View) (Bottom View)

+

Electrolytic Capacitor

(Bottom View)

Transistor or Digital Transistor

E C B

(Top View)

(Top View)

Schematic Diagram Symbols

Digital Transistor

E C B

(Top View)

E C B

NPN Transistor

NPN Digital Transistor

PNP Transistor

E C B

(Top View)

PNP Digital
Transistor

E C B

1-8-1 SCPA1

LIST OF CAUTION, NOTES, AND SYMBOLS USED IN THE SCHEMATIC DIAGRAMS ON THE FOLLOWING
PAG ES :

1. CAUTION:
FOR CONTINUED PROTECTION AGAINST FIRE HAZARD, REPLACE ONLY WITH THE SAME TYPE FUSE.

2. CAUTION:
Fixed Voltage (or Auto voltage selectable) power supply circuit is used in this unit.
If Main Fuse (F001) is blown, first check to see that all components in the power supply circuit are not defective
before you connect the AC plug to the AC power supply. Otherwise it may cause some components in the power
supply circuit to fail.

3. Note:

(1) Do not use the part number shown on the drawings for ordering. The correct part number is shown in the parts

list, and may be slightly different or amended since the drawings were prepared.

(2) To maintain original function and reliability of repaired units, use only original replacement parts which are

listed with their part numbers in the parts list section of the service manual.

4. Wire Connectors

(1) Prefix symbol "CN" means "connector" (can disconnect and reconnect).
(2) Prefix symbol "CL" means "wire-solder holes of the PCB" (wire is soldered directly).

5. Mode: SP/REC

6. Voltage indications for PLAY and REC modes on the schematics are as shown below:

Unit: Volts

The same voltage for
both PLAY & REC modes

7. How to read converged lines

1-D3

Distinction Area

Line Number

(1 to 3 digits)

Examples:

1. "1-D3" means that line number "1" goes to area "D3".

2. "1-B1" means that line number "1" goes to area "B1".

8. Test Point Information

: Indicates a test point with a jumper wire across a hole in the PCB.

: Used to indicate a test point with a component lead on foil side.

5.0

231

5.0

PLAY mode
REC mode

(2.5)

Indicates that the voltage
is not consistent here.

3

AREA D3

2

1

AREA B1

1-D3

ABCD

1-B1

: Used to indicate a test point with no test pin.

: Used to indicate a test point with a test pin.

1-8-2 SCRK05

Main 1/6 Schematic Diagram

Model

MODEL MARK

TVCR210(B) A
TVCR610(B) B

Comparison Chart of

s and Marks

1-8-3

1-8-4

HE2E0SCM1