NEC Multisync Plus JC-1501VMA Service Manual

NEe

COLOR MONITOR MULTISVNC r

MODEL

JC-1501VMA

SERVICE

MANUAL

Better

Better

Service

Reputation

Better

PARTS

Profit

NO.

599910258

A. Electrical Description

Picture

Tube

Input Signal

Display Colors

14

Visual inches diagonal

90

degree deflection,

Dot

type black matrix

Non·long persistence phosphor, Dark bulb, Direct
etch

Video : TTL

ANALOG

:

Sync. : Separate

Horizontal
Vertical sync. Positive/Negative

: Composite

Positive/Negative

: Composite

sync.
or
Positive)

TTL Input :
Analog Input : Unlimited colors

0.31

mm

Trio

dot pitch

Level

Positive

0.7

or 1.0Vp·pn50 Positive

sync.

TTL level

sync.

Positive/Negative

sync.

TTL

level

sync.

on

Negative

colors

Green Video

(Video

0.7Vp-p

O.3Vp-p

sync.

0.43Vp·p Negative (Video 1.0Vp·p

8116164

SPECIFICATIONS

Synchronization

Resolution

Video Band Width 55MHz
Maximum Display Horizontal :

Area
Misconvergence
Power

Positive)

Power
Dimensions 360
Weight
Environmental Operating Temperature

Consideration Humidity 30% to 80%

NOTE: The above specifications are subject to change

21.BKH

to

Horizontal :
Vertical : 56Hz to 80Hz (Automatically), Non·

Horizontal : 960 dots
Vertical :

Vertical:

less
Supply
Consumption 120W

AC

120V

1Bkg

Storage Temperature -

interlace

720

on

BNC,

260
195mm

than 0.6mm

/60Hz

(W)

x 372 (H) x

Humidity 10% to 90%

45kHz (Automatically)

lines

30MHz on D·Sub

mm

(Active

by

signal timing)

410

(D)

mm

O°C

to

200C

without notice for further improvement.

display area

+400C

to

+600C

is

changed

NEe

TOKYO,

Corporation

JAPAN

B.

Mechanical Description

1. Cabinet Molded plastic cabinet with attachable

2.

Dimensions

3. Weight 18

Dimensions

(See

below diagrams)

36Q(W)

kg

x:

372(~)

x 410(D) mm

tilt

swivel

base.

Tilt

II

Swivel

.

I I

230mm

I.

360mm

Range

Ell

J

N

'"

'"

E
E

E
E

~;

L

I.

5'

10'

I

235mm

410mm

I

I

i

,

I

f

.1

4. Controls

5.

Input

Signal

Terminal:

BRIGHTNESS CONTROL
CONTRAST CONTROL
HORIZONTAL POSITION CONTROL
HORIZONTAL SIZE CONTROL
VERTICAL POSITION CONTROL
VERTICAL SIZE CONTROL
POWER

9

(SEE
BNC

(SEE

SWITCH

PIN

D-SUB

PAGE 2

CONNECTOR (FEMALE)

PAGE 3

CONNECTOR (FEMALE)

FOR

PIN ASSIGNMENTS)

FOR

CONNECTION ASSIGNMENTS)

-1-

INPUT SWITCH

TEXT

SWITCH

TEXT

COLOR SWITCH
TTL/ANALOG
BNC

INPUT VOLTAGE SWITCH
COLOR SWITCH
MANUAL

SWITCH

SWITCH

PIN

ASSIGNMENTS AND SIGNAL LEVELS

MANUAL SWITCH OFF

D-SUB Type 9-P

@@@®CD

®®0®

TTL

PIN

~

No.

1

2 GROUND SECONDARY RED
3 RED

4 GREEN PRIMARY GREEN

5 BLUE PRIMARY BLUE MODE CONTROL

6

7

8

9

16

GROUND GROUND

INTENSITY SECONDARY GREEN
NO-CONNECTION
H.

SYNC. H. SYNC. BLUE GROUND BLUE GROUND

v.

SYNC.

EGA COMPATIBLE

COLORS

64 COLORS

PRIMARY RED

SECONDARY BLUE GREEN GROUND GREEN GROUND

V.

SYNC.

PGC COMPATIBLE VGAlMCGA COMPATIBLE

eRED eRED
eGREEN
eBLUE
COMPOSITE SYNC.

RED GROUND RED GROUND

GROUND GROUND

MANUAL SWITCH ON

TTL

PIN

~

No.

1 GROUND

2

3 RED

4 GREEN

5 BLUE

6

7

8

9

8 COLORS

-

I

-

I

-

16

COLORS 64 COLORS

SECONDARY

RED

PRIMARY

RED

PRIMARY

GREEN

PRIMARY

BLUE

INTENSITY

H. SYNC.

V.

SYNC.

SECONDARY

GREEN

SECONDARY

BLUE

SEPARATE

SYNC.

H. SYNC.

V.

SYNC.

COMPOSITE

eGREEN

ANALOG

eGREEN
eBLUE
H. SYNC.
V.

SYNC.

ANALOG

SYNC. ON

SYNC. GREEN

eRED

eBLUE

HN

SYNC.

I

I

@HNSYNC.

ON GREEN

I

-

GROUND

-

-2-

BNC

•

i

R

•

G(/SYNC.)

i

8

CONNECTOR SYNC.

R
G
B

CS

•

HN

ON

* RED

SYNC.

* BLUE

GREEN

ON

-

GREEN

" " means GROUND or NON-CONNECTION

"H"
"V"

"H/V"

means HORIZONTAL
means VERTICAL
means COMPOSITE SYNC.

SIGNAL LEVEL

All signal leveles, except for those listed below, are TTL.

"."

"@"

"*"

"

."

means
means
means
means

O.7Vp-p
O.7Vp-p
O.7Vp-p
O.7Vp-p

O.43Vp-p

(VIDEO)
(VIDEO),
or 1.0Vp-p (VIDEO)
(VIDEO),

(SYNC.)

O.3Vp-p

O.3Vp-p

(SYNC.)

(SYNCJ or 1.0Vp-p (VIDEO),

COMPOSITE

*RED

*GREEN

* BLUE

HN

SYNC.

SYNC.

-3-

TIMING CHARTS

SEPARATE SYNC.

I

HORIZONTAL

rcJ.

U

I..B

-I

..

I

VERTICAL

I" a .. I

..

U

P

I

___

-----=----

1

..

..

COMPOSITE

____

HORIZONTAL l"c.I.. D

ld

SYNC.

~I

B

____

..

~A

VIDEO

D

A

VIDEO

R

u----

__

~j

0

I

.I

~_~

Sync. Polarity: Positive/Negative

..

E"

I

r--

VERTICAL

COMPOSITE

HORIZONTAL

VERTICAL

---,L..

__________

t---...

SYNC. &

VIDEO

D

A

.....J1

-viDEO

- -

lL..

____

a I R I s

-----~

o

(SYNC. ON GREEN)

.1.,

:

•

..

Sync. Polarity: Positive/Negative

Sync. Polarity: Negative

_

-I

J

-4-

PRESET TIMING

fH
A,.,s
Bits

itS

C

o its

E,.,s 0

fv

OmS

mS

P

Q

mS

R mS

mS

S

REMARKS

EGA

COMPATIBLE COMPATIBLE LINES

22kHz

45.5 31.77 22.287

4.9 3.77 1.07

1.6 1.89 3.2
39

60Hz

16.68 14.27

0.6 0.064

0.08
16

0

SEPARATE SEPARATE

SYNC. SYNC.

1.88

11.126 12.716 15.246

1.2

H. SYNC.

Positive

V.

SYNC.

Negative

VGAlMCGA

31.5kHz

25.17

0.94 0.89

70Hz

14.27 16.68 16.85

0.064 0.064 0.089

1.08 1.02

0.41

SEPARATE SEPARATE
SYNC. SYNC. SYNC.

H.

SYNC. H. SYNC.

Negative Negative

V.

SYNC.

Positive

60Hz

0.35 0.022

V.

SYNC.

Negative

SYNC

. (Sync. on Green)

COMPOSITE

COMPOSITE

720

45kHz

17.127

60Hz

0.691

16.048

or

& VIDEO

IBM

PC,

PC/XT,

PC/AT,

Personal System/2, MCGA, VGA, EGA and PGC are

trademark of International Business Machines Corporation.
MultiSync is a registered trademark of NEC Home Electronics (U.S.A.) Inc.

-5-

GENERAL

MultiSync PLUS The Intelligent Monitor, from
nitor that automatically adjusts to graphics board scanning frequencies from

21.8

kHz to 45 kHz. MultiSync PLUS gives IBM

tem/2 and

used with any of the IBM graphics adapters (the MCGA, VGA, EGA or PGC).

MultiSync PLUS can also
to provide IBM users with the widest range of color monitor compatibility and
capability available in the market place.

PC

compatibles users crisp text and vivid color graphics displays when

be

used with other IBM compatible graphics adapters

NEC,

PC,

is

a high resolution color mo-

PC/XT,

PC/AT,

Personal Sys-

FEATURES

• MultiSync PLUS automatically scans all frequencies between
45kHz.

PC,

• MultiSync PLUS is compatible with the IBM

• MultiSync PLUS is compatible with the IBM Professional Graphic Controller,
the IBM Enhanced Graphics Adapter, the IBM Video Graphics Array, the IBM
Multi Color Graphics Array and other IBM compatible graphics adapters.

• MultiSync PLUS's wide compatibility makes it possible to upgrade boards or
software without purchasing a new monitor.

• MultiSync PLUS has a maximum horizontal resolution of 960 dots and a maxi­mum vertical resolution of 720 lines for superior clarity of display.

• MultiSync PLUS offers both TTL and ANALOG signal inputs, and in the ANA­LOG

mode can display an unlimited palette of colors depending on the graph-

ics board and software being used.

• MultiSync PLUS features a TEXT SWITCH (TTL mode only) with a choice of
three colors (green, amber and paper white) displaying word processing, spread
sheets, databases or other software in crisp alphanumeric text
black background.

• MultiSync PLUS has a

15

inch diagonal display and a large

PC/XT,

PC/AT

14

21.8

kHz and

and look-alikes.

on

a dark-bulb

inch viewing area.

-6-

ADJUSTING THE MULTISYNC PLUS CONTROLS

Before connecting the MultiSync PLUS with the IBM personal computers

or

com­patibles and the IBM graphics adapters, take time to familiarize yourself with the
switches and controls that give the MultiSync PLUS all its capabilities. Chapters
1 and 2 outline the control and switches of the MultiSync PLUS. Page

11

shows
you how to connect the MultiSync PLUS with your IBM personal computer and graph­ics adapter.

1.

ADJUSTING THE

REAR

CONTROLS

TILl

ANALOG SWITCH

, BNC INPUT

VOLTAGE

SWITCH

COLOR SWITCH

MANUAL SWITCH

TTL ALOG

SIGNAL INPUT

CS

1.0

,

i

R

..... I ......

8

16

,

GI/SYNCI

64

,

B

~--~------======~====~~,

BNC CONNECTOR INPUT (ANALOG)

o SUB 9 PIN TYPE

(TIUANALOG)

-7-

o MANUAL SWITCH

This switch selects either the IBM mode when OFF or the manual mode when

OFF,

ON. When this switch is
mode and adjusts itself to the scanning frequency, resolution and color require­ments of the IBM compatible graphics adapter being used.
When this switch is ON, the user must manually select the number of colors
(8/16/64) needed by the graphics adapter being used with the COLOR SWITCH

No.8

(see
ing used for information on how many colors the adapter can display.

below). Refer to instructions accompanying the graphics adapter be-

MultiSync PLUS automatically works

8 COLOR SWITCH

The three color configurations (8/16/64 colors) necessary when using non-IBM
compatible graphics adapters can be set using the color switch as shown below.

Refer to instructions accompanying the graphics adapter being used for infor-

mation on how many colors the adapter can display.

in

the IBM

COLOR MODE

COLOR

SWITCH

8 colors 8

16

colors

64 colors 64

16

NOTE

This switch should
adapter being used. Refer to instructions accompanying the graphics adapter
for information

be

set correctly

on

the input signal and refer to No

in

relation to the input signal of the graphics

.•

below.

8 TTL/ANALOG SWITCH

Used to select
adapter.
ter being used is ANALOG or TTL prior to connecting the adapter with your the

MultiSync PLUS. Refer to instructions accompanying the graphics adapter for

information

It

o BNC INPUT

Used
ics adapter. Refer to instructions accompanying the graphics adapter for infor­mation on the input video voltage.

to

select

an

input video

is important to determine whether the input signal of the graphics adap-

on

the input signal.

VOLTAGE

an

input video

signal-either

SWITCH

voltage-either

TTL or

1.0Vp-p

ANALOG-of

or O.7Vp-p-of the graph-

the graphics

-8-

2. ADJUSTING THE FRONT CONTROLS

CONTRAST .CONTROL

• BRIGHTNESS CONTROL
POWER SWITCH

POWER INDICATOR

• HORIZONTAL POSITION
CONTROL

CD

VERTICAL POSITION CONTROL

~

HORIZONTAL SIZE CONTROL

8)

VERTICAL SIZE CONTROL

.,

POWER SWITCH

Used

to

turn power ON or

OFF.

When the power is

TEXT COLOR SWITCH

ON

o BRIGHT CONTROL

Used to adjust the picture brightness of the screen .

• CONTRAST CONTROL

Adjusts the display to the contrast preferred by the

INPUT SWITCH

TEXT SWITCH

the power indicator is lit.

user.

-9-

f!)

V.

SIZE CONTROL

Adjust this knob for the
wise for a larger display; turn it counterclockwise for a smaller display.

o

V.

POSITION CONTROL

Adjust this knob for the proper vertical position of the display.
wise for a higher display position; turn it counterclockwise for a lower display

pOSition.

4D

H. SIZE CONTROL

Adjust this knob for the proper horizontal size of the display.

4D

H. POSITION CONTROL

Adjust this knob for the proper horizontal position of the display. Turn the knob
clockwise to reposition display to the right; turn it counterclockwise to reposition
to the left.

48

TEXT SWITCH

This switch controls the text mode of the MultiSync PLUS.
When it is ON, the text will appear

SWITCH (See

being used.
When it is
played.

No.

OFF,

the color of the software program being used will again be dis-

prop.er

4t

below), regardless of the colors of the software program

vertical size of the display.

in

the color displayed by the TEXT COLOR

Turn

the knob clock-

Turn

the knob clock-

NOTE

The text switch works only

in

• TEXT COLOR SWITCH

Use this switch to select the text

is

TEXT SWITCH

48

INPUT SWITCH

Use this switch to select input

ON.

connector-either

the TTL mode .

color-green,

-10-

amber, or

D-Sub or

paperwhite-when

BNC.

the

CONNECTING THE MULTISVNC PLUS

1.

WITH

To

connect the MultiSync PLUS with your computer or graphics adapter, refer

to

the diagram below.

YOUR

COMPUTER

OR

GRAPHICS ADAPTER

Check input signal level

1.0Vp-p

BNC

Select BNC

O.7Vp-p

Check input terminal pin assignment

9-pin D-Sub

Select D-sub

Check

videQ

signal level

ANALOG Video

TTL Video

See APPENDIX A

See APPENDIX A

Corinect the power cord
cable between the MultiSync PLUS and your computer or
graphics adapter

Turn

on ttie MultiSync PLUS POWER

Turn

to

the MultiSync PLUS

on

the power to computer

and

SWITCH

signal

-11-

See rear controls

8 COLOR SWITCH

See front controls

..

INPUT SWITCH

2. WITH EGA, PGC

OR

COMPATIBLE ADAPTER

Using IBM
Enhanced Graphics Adapter (EGA) or the IBM Professional Graphics Controller
(PGC) or compatible adapter.

PC,

PC/XT,

PC/AT

or compatible computer equipped with the IBM

1 Make sure the power to the MultiSync PLUS and the computer is off.

2 Make sure the INPUT switch on the front of MultiSync PLUS is at "O-sub".

3 Make sure the

at appropriate position.

EGA or
EGA compatible
[TTL INPUT]

nUANALOG

TTL

ANALOG

IIIIIIII

...

switch and the MANUAL switch

BNC

INPUT

VOLTAGE

1.0.0.7

COLOR

,.......JI~

8

16

-

on

the rear are

MANUAL

OFF.

64

ON

•

PGC or
PGC compatible
[ANALOG INPUT]

TTL ANALOG

IlJIIII]

..

BNC

INPUT

1.0.0.7

VOLTAGE

COLOR

,.......JI~

8 16

-

64

OFF.

MANUAL

ON

•

4 Connect the power cord and the signal cable

to

the MultiSync PLUS

I Use the signal cable with "9-pin O-sub to 9-pin O-sub".

MultiSync

PWS

Computer

EGA,
compatible
adapter

PGC

/

)Pin

Power Cord

O-sub 9-pin O-sub

Signal Cable

or

-12-

3. WITH PERSONAL SYSTEM/2

Using IBM Personal System/2 with Multi Color Graphics Array (MCGA) or Video
Graphics Array

(VGA)

or compatible system.

OR

COMPATIBLE SYSTEM

1 Make sure the power to the MultiSync PLUS and the computer is off.
2 Make sure the INPUT switch on the front of the MultiSync PLUS is

at

"O-Sub".

3 Make sure the TTUANALOG switch and MAN UAL switch on the rear are

appropriate position.

MCGA or VGA

or compatible

[ANALOG INPUT]

4 Connect the power cord and the singnal cable to the MultiSync PLUS.

Use the SIGNAL CABLE with "9-pin O-sub to 15-pin Mini O-sub"

MultiSync

PWS

TTL

ANALOG

IIIlIIll

..

BNC

INPUT

1.000.7

VOLTAGE

COLOR
_

..........

8

I

16

'--0

OFFDON

64

Computer

PS/2

or
Compatible
System

MANUAL

..........

.......

at

Power cord

~

(~~~~~~15'-Pin

Signal cable

-13-

Mini

D~

4.WITH A HIGH RESOLUTION GRAPHICS ADAPTER

Using a high resolution graphics adapter or a high resolution graphics system
(ex.

960 x 720 resolution)

1 Make sure the power to the MultiSync PLUS and the computer is off.
2 Make sure the INPUT switch
3 Make sure the BNC INPUT

position for the maximum video output voltage from your adapter.

to peak, 0.7:0.7V peak to peak)

on

the front of the MultiSync PLUS is at "BNC".

VOLTAGE

switch

on

the rear is at appropriate

(1.0:1V

4 Connect the power cord and the signal cable to the MultiSync PLUS.

Use the optional signal cable or the signal cable supplied your adapter.

MultiSync

PLUS

computer

High Resolution
Graphics Adapter

peak

Power Cord

Signal Cable

5 The red BNC cable should be connected to the BNC connector "R".

The green BNC cable should be connected
The blue BNC cable should be connected to the BNC connector "B".
The black BNC cable should be connected

For the optional signal cable, please contact your authorized NEC

Home Electronics dealer.

-14-

to

the BNC connetor "G (/SYNC)".

to

the BNC connector "CS".

BACK COVER REMOVAL

DISASSEMBLY

Remove

two

back cover mounting screws (A) and (B) then take

(A)

off

back cover.

(B)

CASE

Remove

SHIELDING (TOP) REMOVAL

two

case,

shielding (TOP) mounting screws

(C)

(C)

and

(0)

then take

off

case

shielding (TOP).

(0)

-15-

BOARD LAYOUT

B5

PART LOCATIONS

BOARDS

B1
B2
B3 DEF
B4 CRT
B5

SW.

REG.

PWB

VIDEO

INTERFACE

PWB
PWB
PWB

ASSY
ASSY

ASSY

ASSY

PWB

ASSY

PWE-168
PWE-179
PWE-173
PWE-l77
PWE-176

-16-

L

ADJUSTMENT CONTROLS

A

B
C

0 V.

E

F V. BIAS (VR402) U
G
H

I

J
K

L
M
N

0

V.HOLD(VR401)

SUB

V.
V. SUB

SIDE·PIN (VR470)

V. LIN
V. LIN

CI
+6V
SUB

R.
G.
B.
R.

HEIGHT
HEIGHT

SI;2:E

LIMITER

(S)
(C)

VOLTAGE

ADJ (VR509)

BIAS (VR907)
SUB BRIGHT (VR904)
SUB BRIGHT (VR905)

SUB BRIGHT (VR906)

BIAS (VR901)

M

(1) (VR440)
(2) (VR441) R

(VR443)

(VR404)

(VR403)

L1MITE-R

N

(VR653)

o

-17-

p

Q

p

Q

S SUB. CONT (VR704)
T

V

w

X

y

Z

AA

BB

CC

G.

BIAS (VR902)

B.

BIAS (VR903)

G.

GAIN

(VR702)

B.

GAIN (VR703)

R.

GAIN

(VR70l)

SCREEN

FOCUS
SUB H. CENTER
SUB

H. CENTER

SUB

H. CENTER 1

H.

HOLD 2 (27KHz) (VR502)

H.

HOLD 1 (42KHz)

H.

SIZE CONTROL (VR510)

2(27-35KHz)(VR504)

3(20-27KHz)(VR505)

(42KHz-)(VR503)

(VR50l)

AD,""USTMENT

rn

VR651

a5V

ADJ

CONTROLS

LAYOUT

VR652~

REF V

PWE-168 SW.

REG

PWB

ASSV

VR653
V Limiter

[J

'--s-a-o--'1

TIL/ANALOG O.7V/1.0V

PWE-176

[Q]

-=='-=--_---J

INTERFACE

-18-

II

em.

sa04

PWB

"

[lIJ

sa03

8/16/64

ASSV

I I

[Q]

I

Sa02

PRESET/MANUAL

VR6 VR5 VR4 VR3

IH.POSI)

IV.POSI)

IH.SIZE)

IV.

SIZE)

@]@]@]@]

TEXT

I

S4

COLOR

aD

I I

S3

TEXT

[QJ

S2

BUC/D-SUB

I I rnl I

[Q]

VR1

BRIGHT

[Q]

VR2
CaNT.

VR401

O

V.HOLD

VR440

O

V.SUB
VR441

O

V.SUB

OVR443

o

TP404

VR470

O

SIDE-PIN
VR402

O

V.BIAS

VR404

O

V.LlN(S)

o

VR403
V.LlN(C)

HEIGHT(1)
HEIGHT(2)

DIC443

TP402

PWE-173C

CONTROL

TP401

m::Q]

PW8

ASSY

PWE-1738
CONTROL

VR502
H.HOLD20

TP501

TP502

o

L506

H.LlNEARITY

PW8

00

VR505

SUB

H.CENTRE3

ASSY

V

D

R501

H.HOLOl

OVR503

~~E~REl

0

OVR504

SUB

H.CENTRE2

D

CT1

CT2

CT3

VR510
H.SIZE

VR509

+6V

VR508

ADJ H.V.ADJ

®oO

TP50~

PWE-173A

©

TP2002C

o 0

VR2002

H.V.PROTECTOR2

OOVR2001

~2~

L509
WIDTH COIL

@

TP2003A

DEF

-19-

PWB

TP2002A

0

H.V.PROTECTOR1

ASSY

VR904

D

R.SUB.BT
VR905

O

G.SUB.BT
VR906

O

B.SUB.BT

VR901

O

R.BIAS
VR902

O

G.BIAS

VR903

OB·OS

TP901

TP902

o

PWE-177A

CRT

PWB

DVR907

SUB.BIAS

ASSY

r

VR704
SUB

VR701

R.GAIN

VR702D
G.GAIN

VR703D

B.GAIN

CONT.

D

0

PWE-179

VIDEO

-20-

PWB

ASSY

ALIGNMENT

PROCEDURE

Adjustment conditions and Precautions

1.

1. Power supply voltage:

2. Warm

3.

sw.

REG.

1-1. +Bl (VR651) +S5V LINE

1-2.+BH

1-3.

Note:.

up

time
The display must be
This

is

especially critical
Signals
Video: Analog 0.7 Vp-p,

analog sync.
video:. 0.7 Vp-p
synchronizing:

Synchronizing: TTL level negative/positive

Scanning Frequency: H 21.S

Unless otherwise specified, adjust
Unless otherwise specified,
Unless otherwise specified, adjust

UNIT

Adjust VR651

(VR652) High Voltage control

This control

Do

not

+B

L1M

Remove C-connector.
Adjust

Do

not

is
attempt
(VR653)

VR653

operate

AC

120V,

60

on

for

at

least

in

color

temperature

75U,

positive

on

green

0.3

Vp-p

separate/composite

kHz'"

V

to

be S5 VDC

permanently sealed

to

readjust.

V.limit

to

be

122

the

SW.

50

Hz

at

input

at

at

(K1

- Gnd Voltage)

(C1

- Gnd Voltage)

VDC.

Reg.

unit

Hz

20

minutes before starting alignments.

and white balance adjustments.

45

kHz

'"

SO

Hz

z

signal (44.S kHz).

D-sub 9 Pin.

separate sync.

at

factory.

itself

without

any load.

2. Main Adjustments

2·')

Settings

of

the

Controls

VR2

Contrast: Max.
VR1 Brightness: Position where
VR3 V. size: Center
VR4

H.

size:.

VR5

V.

posi.: Center

VR6 H. posi.: Center

VR50S H.V. ADJ: Position where
SW3 TEXT:
SW2

BNC
SWS02 MANUAL:
SWS01

ANALOG/TTL: ANALOG

Center

OFF

- D-sub: D-sub
OFF

the

back rasters are latent.

the

high-voltage

-21-

protector

does

not

operate.

2-2)

Adjustment

Adjust

connect the

CRT

CT1: DOES
CT2: Moves the horizontal
CT3: Moves the horizontal screen position about 12mm.

the

screen.

of

Raster Centering

Screen

V R and Brightness V R

"CT"

connector

not

move the horizontal screen position.

to

* By changing the orientation in which the connector

tion

of

the

screen

can

be

2-3)

Adjustment
Pincushion

HOLD,

(H.
(1) H.

a)
b) During reception

c)

(2) H. WIDTH

Perform centering
to

(3) H.

Visually check H.

L506 unless absolutely necessary.

(4) SIDE PINCUSHION

Use
ION
line.

confirmation

(5) H. POSITION (Centering adjustment

a)

b) During

c) During

During the signal

of

Horizontal Oscillation, Hozitontal Width, Horizontal Linearity, and Side

H.

WIDTH,

HOLD

Create a short-circuit between TP501 and TP502.

a signal screen.

During reception

a single screen.

260mm.

LINEARITY

VR470

is

set

to

Because

During

s screen

screen

screen

to

to

to

H.

LINEARITY,

of

Signal 2 (42

of

Signal 3 (27 kHz),

of

H. SIZE

(Signal 1 crosshatch pattern)

LINEARITY,

so

that

the

optimum

its

optimum

each

of

the

four

is

required.

input

of

Signal 1 (44.8

center.

input

of

Signal 4 (31.5

center.

input

of

Signal 5 (21.85 kHz),

center.

input

of

steps a), b), and

so

that

the position

screen

changed

(VR4),

value, the right and

settings above

that

position about 5mm.

from

side

and SIDE PINCUSHION)

kHz)'

use

use

then

use

the

use

L506

SIDE PINCUSHION

of

rasters)

kHz),

use

kHz),

use

c)

the back rasters

enables the back rasters

to

side.

H.

HOLD

H.

HOLD 2 VR502

SUB H. SIZE (VR510)

to

adjust

left

edges

will

affect the other three settings, repeated

SUB. H. CENTER 1

SUB. H. CENTE R 2

use

SUB.

H.

above, make

are

faintly

is

inserted, the displacement direc-

1 VR501

it

if

necessary. Avoid rotating

is

obtained. When SIDE PINCUSH·

of

the

screen

CENTER 3

sure

that

illuminated, then

to

be

centered

to

adjust the image

to

adjust the image

to

adjust H. WIDTH

each

form

VR503

VR504

VR505

the

screen

a straight

to

adjust the

to

adjust the

to

adjust the

is

centered.

on

the

into

into

-22-

2-4) Adjustment

(V.

LINEARITY,

(1) V.

During reception
(V. LIN (S))

(A)

(B) Top/Center/Bottom Adjustment

(C)

(D) Compensation

(E) Confirmation

(2)

V.
Set
a)

b) Receive Signals 2, 4, and 9, then check

c) Set the

d)

*When receiving Signal 8,

(3)

V.

Receive Signal 1, then
The measurement
nected

Set V. POSITION

Set V. SIZE

of

Vertical Linearity, Vertical Height, and Vertical Bias

V.

SIZE,

LINEARITY

of

fully

to

the right.
Top/Bottom
Adjust

a)

If

corrected (but
b) Adjust V R403
Confirmation
a)

Repeat steps

b) Receive Signal 7 (31.5 kHz,

8%.

If

the linearity

top

For

bottom

For

For center elongation: Rotate V R404 slightly

Based

SIZE

the

Receive

screen.

Receive Signal 6 (60 Hz,
Receive Signal 4, and check
Receive Signal 7, and check

Receive Signal 8, and check

BIAS

Adjustment

VR403

the center

on the reception

MANUAL

to

(V.

LIN

is

do

so

a)

and

is

not

elongation: Rotate

elongation: Rotate

switch (SW802)

Signal 1 (60 Hz), then

MANUAL

point

the

yellow

(VR5)

(VR3)

to

and

V.

BIAS)

the crosshatch pattern

(C)l

so

that

the

elongated, rotate

not

rotate

it

fully

that

the

top

and

bottom

b)

of

(B)

until

70

Hz, 350 lines).

within

8%,

receive Signal 1.

VR403

nated, then perform (B)

VR403

nated, then perform (B) and (C).

corrected, then perform b) and c)

of

Signals 1 and 7, check

to

ON, and perform centering

use

VR440

switch

to

OFF.

480

lines), then

that

it

that

it

that

it

be

sure

to

set

use

VR402

is

lead

wire

to

the center position.

(V. BIAS)

the

VDY

3 terminal

of

the

deflection yoke).

the position where the screen

of

top

and

VR404

the linearity

is
is
is

V.

slightly

to

the

point
linearity

slightly

slightly

to

that

use

161

mm ± 5mm.
170mm ± 5mm.
180mm ± 5mm.

MODE

to

adjust Signal 1

Signal 1 (44.8 kHz,

bottom

to

and

to

adjust Signal 1

V R441

of

linearity

to

the

where

top

is

equal.

is

approximately

and

check

the right

(C).

the

to

the

that

the back rasters

to

LOW.

the deflection yoke (the terminal con-

until

left

until

left

of

(B).

the linearity

to

adjust Signal 6

to

is

centered.

60

Hz),

use

is

equal.

left

until

the elongation

elongation occurs).

6%.

that

the linearity

top

elongation

top

elongation

until

center elongation

is

within

8%.

of

VR3

(V. SIZE).

to

190mm.

are

practically

to

175mm.

13.5V ± O.2V.

is

filling

VR404

within

is

elimi-

is

elimi-

the

is

is

-23-

2-5) Adjustment

NOTE:

(1)

Default Settings
VR701 ­VR704
VR901 ­V R904 - V R906
VR907
Screen

(2) Video Contrast Adjustment

2-1)

a)

b)

c)

of

Video Amplitude and White Balance

Before performing this adjustment, make
VIDEO

GAIN

Receive the
within
is
Rotate the Contrast V R

Rotate the Brightness V R
Adjust
on
value

signal: Analog 0.7 Vp-p

of

VR703

VR903

VR

VR

Adjustment: Signal 10 (All-white signal)

the

desirable.)

VR701,

the

VIDEO

of

each

the Adjustment VRs

GAIN

VR

SUB

CaNT

BIAS

VR

SUB

BRIGHT
BIASVR

SUB

window

range

terminal

pattern

where the

fully

fully

VR702, and

PWB

are

each

and

perform readjustment

VR

VR

of

Signal 10.

ABL

to

the right.

to

the left.

VR703

set

circuit

so

that

to

40 Vp-p.

sure

that

(A

video

is

not

the

ROUT, G OUT,

Do

not

the

VIDEO

Fully

left

Fully

right

Fully

left

Fully

right

Fully

right

Fully

left

range

applied despite maximum Contrast

After
if

necessary.

include the clamp pulse.

signal

of

1/3

and B

adjustment,

is

as

follows:

- 1/2 H x

OUT

terminals

confirm

the Vp-p

1/2V

CaNT

VR

2-2) SUB

a)

Rotate the Contrast

Rotate the Brightness

b) Adjust

ment,
Vp-p.

If

the

R,

G, B OUT

Cutoff

(3)

Rotate the Contrast V R

a)

Perform the

b) Turn the Screen Control clockwise gradually and

horizontal color appears
Use

c)

Turn the
bright

VR704

confirm

R, B OUT

Adjustment (All-black signal)

(1) Create a short-circuit between TP901 and TP902.

(2) Create a short-circuit between TP401 and TP402.

this color

as

Adjustment

VR

fully

VR

fully

so

that G OUT

that

both R

is

not

within

is

within

10 Vp-p

fu

lIy

to

two

steps below in the (1)

faintly.

as

the reference color

Bias

Controls

the reference color.

for

a color other than the reference color clockwise

to

to

OUT

the

to.5

Vp-p.

the left.

the left.

the left.

on the

and B

limits

-+

for

Vp-p

VIDEO

mentioned above, adjust

(2) sequence.

the

OUT

cutoff

PWB

becomes 10 Vp-p.

are

within

set

to

the position

adjustment.

the

range

of

10 Vp-p t 0.5

finely

VR704

at

After

adjust-

so

the

which a single

until

it

is

as

-24-

d) Sequentially cancel the short-circuit created between TP401 and TP402 and between

TP901 and TP902.

NOTE: The darker the environment where

white

tracking

dark a place

(4) Adjustment

a)

Receive Signal 1 (44.8.kHz) H gray

b) Rotate the Contrast V R

Rotate the Brightness

c)

Use
illuminated.
After

d) Rotate the Contrast

Rotate the Brightness VR

e)

Receive all-black signals.

f)

Rotate

of

SUB. BR

the SUB.

this step, do

VR904

can

as

possible.

IGHT

VR

BRIGHT

not

VR

and

VR906

be

achieved later.

VR

fully

to

fully

VR (VR905)

change the setting

fully

to

fully

to

adjust the back rasters

the right.

to

the left.

the left.

to

the right.

cutoff

Be.

scale

(16 gradations).

to

adjust the

of

adjustment

sure

VR905.

to

perform

5/16th

until

is

performed, the better

cutoff

adjustment in

grade

so

that

they

are

all white.

it

is

faintly

as

(5) Fine Adjustment

Color temperature: Center

Hue: A slightly bluish white.

a)

Receive Signal 1 (44.8 kHz) H gray

be

in the

b) Rotate the Contrast V R

Rotate the Brightness V R
Check
not

satisfactory, perform fine adjustment

VR906).

NOTE: Do

c)

Rotate the Contrast

Rotate the Brightness
Check
not

satisfactory, perform fine adjustment

NOTE: Do

If

the back rasters and the

form

NOTE: Do

(6) Focus Adjustment:

[All-white

a)

Rotate the Contrast V R

Rotate the Brightness

b)

If

the focus

(VR907)

N.OTE:

of

White Balance

range

where the

that

the

white

not

change

that

the white balance

not

change the setting

fine adjustment

not

Use

signals

or

is

markedly weak and

fully

to

After

turning

the

following:

All-white
Brightness
Contrast
Confirm

X = 0.310

y=

ABL

circuit

fully

to

the left.

fully

tothe

balance

VR

VR

ofthe

change the setting

Signal

those

with

VR

the

left

signals

VR:

VR:

that

the entire screen

is

the

setting

fully

to

the right.

to

the position where no back rasters appear.

is

white

SUB.

1

four

dots missing]

fu

lIy

to

the right.

to

an

appropriate position

and perform readjustment

VR907

fully

of

Signal 1 (44.8 kHz)
Rotated
Rotated

0.325

scale

(16 gradations). (the

is

not

applied.)

right.

satisfactory at

of

of

VR905

satisfactory at

of

the

of

VR702

balance at

BRIGHT

of

if

fully
fully

VRs

VR905

the moire

to

the

left

to

the

to

the right

is

free

window

each

gradation.

the SUB.

(GSUB.

(G

each

(G SUB. BRIGHT).

from

BRIGHT).

each

gradation.

GAIN

VRs (VR701 and

GAIN).

gradation

(VR904

..

effect

appears, rotate the SUB BIAS

of

(31.

and performing readjustment,

are

being received.

left

(MIN)

(MAX)
any distortion.

If

BRIGHT

If

are

not

and

VR906).

(4), and (5).

the

white

VRs

the

white

satisfactory, per-

pattern should

balance

(VR904

VR703).

and

balance

VR

confirm

is

is

-25-

(7) Purity Adjustment

1)

Be

sure

that

the

2) Ensure
stem

display

that

the

is

29

mm±1 mm. (See below diagram)

is

not

being exposed

spacing between

3) Produce a complete, red pattern
assembly
a manner

between

4) Check

minor adjustments

to

obtain a complete field

that

they

advance

the

two

tabs, which should be approximately

the

complete blue and compiete green patterns

if

needed.

in

an opposite direction

Purity, Convergence Magnet Assembly (PCM)

to

any external magnetic fields.

the

Purity, Convergence Magnet, (PCM)' assembly and

on

the

display. Adjust

of

the

color red. This

Purity

4'pole

6-pole

29'±1

Magnets

magnets
magnets

mm

but

180
to

the

Purity magnet rings

is

done by moving

at

the

same

0

•

observe

(Red

(Green

their

to

to

Blue Convergence)

the

time

to

obtain

respective color purity. Make

Magenta Convergence)

on

two

the

the

CRT

the

PCM

tabs

in

such

same angle

B/RG . .

---i--I-....L--

to

Magenta Convergence

(White)

B----i

R---r-i--y--

Red

to

Blue Convergence

(Magenta)

B R

~

I

Perform
the

angle

Perform
rota

tion

the

between

the

adjustment

of

the

adjustment

the

two

tabs.

by

opening

tabs.

by

synchronous

Green

(8) Convergence Adjustment

1) Produce a magenta crosshatch

the

2) Adjust
Also adjust

focus for

the

the

brightness

3) Vertical red and blue lines are converged by varying

on

the

PCM

magnets

assembly. (See above diagrams)

4) Horizontal red and blue lines are converged by varying
them

between

constant.

5) Produce a white crosshatch pattern

on

the

display.

best overall focus on

to

the

desired condition.

on

the

display.

the

display.

the

angle between

the

6) Vertical green and magenta lines are converged by varying
6-pole magnets.

7) Horizontal green and magenta lines are converged by varying
angle between

them

constant.

I Perform

the

I Perform

I

rotation

angle

B/R

the

between

G

the
of

adjustment

I

adjustment

the

the

two

tabs together, keeping

the

angle between

the

two

tabs together, keeping

two

two

the

tabs.

tabs

the

by

opening

tabs.

by

synchronous

of

two

tabs

the

the

4-pole

angle

of

the

the

-26-

TIMING

OF

REFERENCE SIGNALS

I")

......

I

CD

0

1

2
3

4

5

P

7

8

9

10

11

12

13

14

® ®

CLOCK

H FREQ

V FREQ

CH

Nht

Nht

Nhsp 6

Vpw-Hpw

Nadj 8

Nvt 9

Nvd 10

Nvsp

Nvsadj

INT

OUT

LVG-1600

DOT CLOCK
FREQUENCY

HORIZONTAL
FREQUENCY

VERTICAL
FREQUENCY

CHARACTOR
CELL

11

12

13

14

SIZE

4

5

7

0

1

Sync

N~GA

POS

Hsync

HlVsync

@

0

1

2

3

4 CHR

5

6

7

8

9

10
11

12
13

Sync
OFF

Sync

ON

TTL

ANA

RZ

NRZ

®

MHz

KHz

Hz

DOT

CHR
CHR /

V (LASTER)

H(CHR)

H

(LASTER)

LINE
LINE

LINE

H

(LASTER)

DATA DATA

Signal 1 44.5 kHz

9. 2

3

4.

4

5

9.

/

/

/

/

/

/

/

/

/
/

/

/

/

/

/ F

/

/ F

/

/ / /

/

/ / /

F

0 1 0 1 1

6

8 6

3 5 0

H

7

0 0
F

1
F

F

1 0 1

V

4

0 0 0

/ /

F

F

0

F

9

F

V

9

2 5

9 6

H

6

0 0

4

8

8 0

8 0

0 1

0 0

Signal

2

4. 4

3

4

2.

0 0 0

8

O.

0 0 0

/ /
/ /
/ /
/ /
/ /

H
1

F

F
F

V

/ / / /

/

/
/ /
/ /

/ /

/

F

F

F

F

/ /

/ / /

0

1

42

4

0

2

1

kHz

0

V
0

8 2

6

7 3

H
0

0 3

5

5 5

5

0 0

0 0

1

F

F

F

9

4

3

8

5

1

TIMING

OF REFERENCE

SIGNALS

co

'"

LVG-1600

CD

0

1

2

3

4

5

6

I

7

8

9

10

11

12

13

14

®

CLOCK

H FREQ

V FREQ

CH

Nht

Nht

Nhsp

Vpw-Hpw

Nadj

Nvt

Nvd 10

Nvsp

Nvsadj 12

INT

OUT

DOT

FREQUENCY

HORIZONTAL

FREQUENCY

VERTICAL

FREQUENCY

CHARACTOR
CELL

®

CLOCK

SIZE

4

5

6

7

8

9

11

13

14

0

1

Sync
NEGA

POS

Hsync

HIVsync

®

0

1

2

3

4 CHR

5 CHR

6 CHR

7

8

9

10

11

12

13

Sync
OFF

Sync

ON

TTL

ANA

RZ

NRZ

@

MHz

KHz 2

Hz 7

DOT

V

(LASTER)

H(CHR)

H

(LASTER)

LINE

LINE

LINE

H

(LASTER)

2

/

/

/

/

/
/
/

/

/
/
/

F

DATA

Signal 3

2.

7.

5.

I

/

/
/
/
/ / /

/

/
/
/ / /
/

0 1 1

27 kHz

1 4 0 F 2 8. 6

0 0

0 0 0
H

1 0

F

F 6

F 6
V

0

F 4 0

F 3 2

F

/ /

0

V

0

8

H

5

1 0 1
0

3 7 F

0

0

1 1

F 3 1.

7

F

9

/ /

2

/ /

4

/

7

/ /

1

/ /

0

/ / / /

/ /

/ /

8

/ / /

0

/ / /

F 1

Signal 4

O.

/

DATA

ps-n

MODE2-

1

0

4 7 4

0 9
H

0
F 1

F

F

V

F 4

F 4 0

0

9

2

/

/

0

5 F

V

1

0

8

8

H

0 9

4 1

0 3

0

1 1

F

F

0

1

0

3

2

4

0

TIMING

OF REFERENCE

SIGNALS

N

c.c

LVG-1600

CD

0

1

2

3

4

5

6

I

7

8

9

10

11

12

®

CLOCK

H FREQ

V

FREQ

CH

Nht

Nht

Nhsp 6

Vpw-Hpw

Nadj

Nvt

Nvd

Nvsp

Nvsadj

@

DOT

CLOCK

FREQUENCY
HORIZONTAL

FREQUENCY
VERTICAL

FREQUENCY
CHARACTOR

CELL

SIZE

4

5

7

8

9

10

11

12

@

0

1

2 Hz

3

4

5

6

7

8

9

10

11

12

MHz

KHz

DOT

CHR

CHR

CHR

V

(LASTER)

H(CHR)

(LASTER)

LINE

LINE

LINE

(LASTER)

@

H

H

1 6. 3 7 0 F 2 5.

2

5

/ /

/

/

/ /
/ /
/ / /
/ /
/
/

/

DATA DATA

Signal 5

2.

9.

/
/

/

/
/ / /

EGA

0 0

9

H
0 1 0

F 0 9 3

F

F
V

1 1 0 1

F

F 0 3 5

F

3
3 F

5

V

8

8 0

0

0

8

H

3

0 6

/

3

0

0 3 5

0

Signal 6

F 3

5

0

/

/ /

/ /

0

/

0

/ /

/ / / /

6

/ /
/ /

/ /

1

/ /

4 3

1.

4

9.

9

H

/

F 1

F

F

/

V

F 5 2

F 4

F 4

/

PS-ll

MODE 17

0
3 F

7

4

8 F

V

8

1
0

8

8 3

H

2

0

0

/

F

0

1

0

2

5

8

9

1

13

14

INT

OUT

13

14

0

1

Sync
NEGA

POS

Hsync

HNsync

13

Sync
OFF

Sync

ON

TTL

ANA

RZ

NRZ

/

F 1

/ / /

0 0 0 1

0 0

/ /

F

0 0

/

/

1

0 0

1

0

TIMING

OF

REFERENCE SIGNALS

C.:>

<:>

LVG-1600

CD

0

1

2

3

4

5

6

® ®

CLOCK

H FREQ

V FREQ

CH

Nht

Nht

Nhsp

DOT CLOCK
FREQUENCY

HORIZONTAL
FREQUENCY

VERTICAL
FREQUENCY

CHARACTOR
CELL SIZE

4

5

6

®

0 MHz 2

1

2

3

4

5 CHR

6 CHR

I

7

8

9

10
11

12

13

14

Vpw-Hpw

Nadj

Nvt

Nvd

Nvsp

Nvsadj

INT

OUT

7

8

9

10
11
12

13

14

Sync

0

NEGA OFF

1

POS

Hsync

HNsync

7

8

9
10 LINE
11

12
13

Sync

Sync

ON

TTL

ANA

RZ

NRZ

®

KHz

Hz

DOT

CHR

V (LASTER)

H(CHR)

H

(LASTER)

LINE

LINE

H

(LASTER)

3

7

/
/
/

/

/

/

/
/
/
/
/

F

DATA DATA

Signal

7

PS-JI
MODE 15

4 3 0 F 2

5.

1.

4 7 3 F 3

0 9

O.

H

/

0
F 1

/

F 8 0

/

F

/

V

/

0

/ /

/

F 4 4

/

F

/

F

/
/ / /

/ / /

0 0

0

8

2

F

5
V

1 0

0

8

H

1

0 9

5

0

1

3

2

3 5

4

3

1

0

0 0

1 1 F 1 1 0

Signal 8

5.

O.

9.

/ /
/ /

/

/
/ /

/ /

/ /

/
/ /

/

I

/ /

/ / /

I

/

I

PGA400

1 1 0

4 7 3

9 8 7

H

8

1

F

F

0 8

F

0 8

V

2

0

/

F 0 5
F 0
F 0

/

/

V

1

0 3

H

1
0 8

4
4 4

0

0 0

1

F

F

F

0

0
0

4

0

0

1

1

TIMING

OF REFERENCE SIGNALS

CD

0

1

2
3

4

5

6

7

8
9

10
11

12 Nvsadj

® ®

CLOCK

H FREQ

V FREQ

CH

Nht

Nht

Nhsp 6

Vpw-Hpw

Nadj 8

Nvt 9

Nvd

Nvsp

LVG-1600

DOT CLOCK
FREQUENCY

HORIZONTAL
FREQUENCY

VERTICAL
FREQUENCY

CHARACTOR
CELL SIZE

@

0

1

2 Hz

3 DOT

4

5

7 7

10 10 LINE

11

12

4 CHR

5

6 CHR

8

9 LINE

11

12

@

MHz

KHz

CHR

V (LASTER)

H(CHR)

H

(LASTER)

LINE

H

(LASTER)

DATA DATA

Signal 9 350 Lines Signal 10

50 Hz

2

3

5

/
/ /
/ /
/
/ /
/

/ /

/
/

/ /

4

5.

1.

4 7 3

0 3

O.

H

/

0

F 1 0 1
F

F 8

/

V
0

/

/

F

F 3

/

F 4 8

/

/

3 0

8

2

/

/

F

F 4 4.

7 F

V

0

1 0 0

0

8

3

H

2

1 0

9

0

2

6

6

9.

3

9.

5

/ /

/

/
/ /
/ /
/ /

/ / / /

/

/

/

/

/ /

3

0

/

/ / /

44.8kHz

WINDOW

2 6

8
3

H

F
F 3 2

F
V

F 8

F 2 7

F 5 3

0 F

6 9 F

0 F

5

V

7

1

2 5

6
H

4

0
0 0

0

9

9

6

4

4

13

14

INT

OUT

13

14

Sync

0

NEGA OFF

1

POS

Hsync

H/Vsync

13

Sync

Sync

ON

TTL

ANA

RZ

NRZ

/

F

/

/

1 0 0

0

0

/

1

/ / / /

1

F 0

1

0 0

1 1

0

TIMING

OF REFERENCE SIGNALS

LVG-1600

CD

a

1

2
3

4

5

6 Nhsp

7 Vpw-Hpw 7

8 Nadj

9 Nvt

10
11

12 Nvsadj 12

13

14

® ®

CLOCK

H FREQ

V FREQ

CH

Nht

Nht

Nvd

Nvsp

INT

OUT

DOT CLOCK
FREQUENCY

HORIZONTAL
FREQUENCY

VERTICAL
FREQUENCY

CHARACTOR
CELL

SIZE

4 4 CHR

5

6 6 CHR

8

9 9 LINE

10
11

13

14

Sync

a

NEGA OFF

1

POS

Hsync

HlVsync

@

a

1 KHz

2

3 DOT

5

7

8

10
11

12
13

Sync
Sync

ON

TTL

ANA

RZ

NRZ

®

MHz

Hz

CHR

v (LASTER)

H(CHR)

H

(LASTER)

LINE
LINE

H

(LASTER)

Signal

5. 1 1

2

3

O.

5

9.

/

/

1

/

/

/

/ /

/

/

/

/

/ /

/ /

/ /

/

/ /

/ / /

F 1

DATA DATA

Signal

PGA480

11

a F

4 7

9

H

a

F 1

F a
F a

v

a

/ /

F a 5 a
F a

F

1

3 F 2

7

8

V

8

1

a 3

8

8 a

H

2

1

a 8

4

4

a

a 1

/

a a

/

a 1 1

F

a

a

4

8

8

12 60 Hz, 40 kHz

1

6.

3

2.

a

5 9.

/ /

/ /

/
/

/ /

9

H

a

F 9 3
F

/

F 8

/

V
1 1

/ / / /
/ /

/ /

/ /

F

F

F

/ / /

/

/

/ /

F

a a 0,

7

a

5

8

1

/

a F

3

3
V

1

8

H

a

3 6
3
3

a

a

1

F

F

a

a
a
a

6

5

5

3

a

a

CD

Indication

address

® Abbreviation

@ Description

@ Contents

@

Unit

add. Description

Total dots

0

Horizontal Frequency

1

Vertical Frequency

2

Character cell SIZE

3

4

Total number
5 Number
6 Horizontal synchronization position
7 Vertical/horizontal pulse

Total raster adjustment

8

Total number

9

Number

10
11

Vertical synchronization position

12

Vertical indication position correction

13 Interlace select

14

Output

of

characters, horizontal 255 characters

of

indication characters, horizontal

width

of

characters, vertical

of

indication characters, vertical

condition setting

Description

of

each

address

Condition

Or

05.000 - 40.000 MHz, 5­Reference data, 5-digit
Reference data, 5-digit

(V

or
3-digit
3-digit

less,

direction).

01

to

less,

to

15 chr.

3-digit

(H direction) x

to

16

02

each

2-digit

Nht

or

less,

Nht

or

less,

V: 1

to

16

H/H:1

31

Hor

less
127 rows
Nvt
Nvt

0-

N

vsp

00: non-interlace 02: .interlace
01: interlace

or

or

less

or

less

16 H (Synchronization position moves in the

+ Nvsadj)

6-digit

32

3-digit

+ video

form

of

Likewise, when significant data

is

a single digit, do

not

forget

to

enter

O.

-33-

DATA FORMAT FOR USING Quantum 801C

TIMING PARAMETERS:

Real

Time Parameters

Dot

Rate

Horizontal Rate

Vertical

Non-Real Time Parameters

Dots/Character

Total Characters

Displayed Characters
Drive Delay
Drive Width

Rate

Horizontal

Vertical

Li nes/Character
Total Lines
Displayed Rows Lines
Drive Delay (Rows)

Drive Width (Lines)
Step Width

OPTION PARAMETERS

Signal

Gating
Composit Sync.
Vertical Step
Horizontal Drive
Vertical Drive

OP

1.-0=off

OP

2.-0=off
OP3.-O=off
OP

4.-0=off

MHz
kHz
Hz

1=on
1=on
1=on
1=on

Signal No. Description

1.

2.

3.

4.

5.

6.

7.

8.

9.

10.

H: 44.85 kHz
H: 42.00 kHz
H: 27.00 kHz
H: 31.47 kHz
H: 22.00 kHz
H: 31.47 kHz
H: 31.47 kHz
H: 30.48 kHz (400 Lines)
H: 31.47 kHz
H: 44.85 kHz

V:

V:
V:

V:
WINDOW PATTERN

70

60

70

50

Hz

(400 Lines)

Hz

(480 Lines)

Hz

(350 Lines)

Hz

(350 Lines)

Signal

Polarity
Composite Sync.
Vertical Step
Horizontal Drive
Vertical Drive
Video

Interlace Mode

Video Mode
Duty

Cycle

Character Clocking Mode

Horizontal Skew
Vertical Skew
Cursor

OP

5.-0=non-inverted 1=inverted

OP

6.-0=non-inverted 1 =inverted

OP

7.-0=non-inverted 1 =inverted

OP

8.-0=non-inverted 1 =inverted

OP

13.-0=non-inverted/positive
1 =inverted/positive

2=non-i nverted/negative
3=i nverted/negative

OP

9.-0=non-interlace

1 =interlaced sync

3=interlaced sync & video

OP

10.-0=monochrome 1 =color

OP

11.-0=50%

o

or

1=100%

OP

12.-0=single-phase

2=dual-phase

OP

14.-skew

OP

15.-skew

OP

16.-0:off

1=100%

,

(OP

right 0-3 dots

down 0-9 lines

only

12.2)

(OP

12.0)

1 =fast
2=slow
3=on coutinuous

blink

blink

-34-

TEST

SIGNALS

FOR

USING

Quantum

BOle

SIGNAL No.

Real Time Parameters

Dot Rate (MHz) 31.216

Horizontal Rate (kHz)

Vertical Rate (Hz)

Non-Real Time Parameters

H:

Dots/Character

Total Characters

Displayed Characters
Drive Delay
Drive Width

V:

Li

nes/Character
Total Lines
Displayed Rows

. Drive Delay (Rows)

Drive Width (Lines)
Step Width

Signal Gating

Composite Sync. OP
Vertical Step

Horizontal Drive OP 3.-

Vertical Drive

Signal Polarity

Composite Sync. OP
Vertical Step
Horizontal Drive OP
Vertical Drive'
Video

Interlace Mode
Video Mode
Duty Cycle
Character Clocking Mode

Horizontal Skew
Vertical Skew
Cursor

1.-

2.-

OP

OP 4.-

5.-

OP 6.-

7.-

OP 8.-

13.-

OP

9.-

OP
OP

10.-

11.-

OP

12.-

OP
9P

14.-

15.-

OP

16.-

OP

1

44.851 42.000

59.33

6

116 70

89
94

5

15

756

48 55
48

4

-

1

a

1
1

1

-

1
1

a
a

1

a

a

- -

-

-

2

29.400

80.00

10

55
62 67

525

55

-

1

a

1 1
1

1

-

1
1

a
a

1

a
a

-

-

3 4

22.136 25.432

. 26.995

74.99 70.10 60.11

10
82
64 80

3
9

2 8

11

360 449

32
37

- -

1

a

1

1

-

1
1

a
a

1

a
a

-

-

-

5

16.368

31.475

8

101

83

12 10

9 10 10

40
41

2 13

22.000

93

80
80

366

35
35

-

1

0

1
1

1

-

1

a
a
a

1

a
a

-

-

-

.'

1

a

1
1

1

-

a

1

a
a

1

a
a

-

-

-

8

SIGNAL No.

Real Time Parameters

Dot Rate (MHz)
Horizontal Rate (kHz)

Vertical Rate (Hz)

Non-Real Time Parameters'

H: Dots/Character 8

Total Characters

Displayed Characters

Drive Delay 83 83 80

Drive Width 12

Li

nes/Character

V:

Total Lines

Displayed Rows
Drive Delay (Rows)
Drive Width (Lines)
Step

Width

Signal Gating

Composite Sync.
Vertical

Horizontal Drive
Vertical Drive

Signal Polarity

Composite Sync. OP
Vertical

Horizontal Drive
Vertical Drive
Video

Interlace Mode
Video Mode
Duty

Cycle OP 11.-

Character Clocking Mode
Horizontal Skew
Vertical Skew
Cursor

Step

Step

1.-

OP

2.-

OP

3.-

OP

4.-

OP

5.-

6.-

OP

7.-

OP

8.-

OP
OP 13.-

9.-

OP
OP 10.-

OP 12.-
OP 14.-
OP 15.-
OP 16.-

6

25.432 25.432

31.475 31.475

59.95

101

80 80

10 10 10

525

48
49 39

2 2

- -

1

0

1
1

1

-

1
1
0
0
1
0
0

-

-

-

7

70.10

8 8

101

12

449 508

35

1
0
1
1

1

-

0 0
1
0
0

1
0
0

-

-

-

8

25.112

30.475

59.99

103

80 80

14 12

40
44

2

-

1

0

1
1

1

-

0
0
0

1
0
0

-

-

-

9 10 10'

25.432

31.475

50.04

8

101

83

10

629

36
48

2

31.216

44.851

59.33

6

116

30
64

5
9

756

27
53

4

-

1

0

1
1

1

-

0

1
0
0

1
0
0

- -

- -

-

1

0

1
1

1

-

1

1
0
0

1
0

0

-

TROUBLE

A. No Raster

Check

85V

Line

25V

Line on the DEF

SHOOTING

(Measure the voltages by

PWB

PWE-173A

Kland

K2)

NG

OK

Check HV.

operation power

NG

OK

Check 12V Line

NG

OK

Check

ifthe

CRT

Heater lit?

NG

OK

noise

( Judge peculiar

(

SW

ON, or static electricity.

Measure,
on the CRT

Check

HC connector disconnected

the voltage by

PWB

6V

Line

NG

OK

of

PWE-l77A

(Measure the voltage by

on the CRT

HV

generated

HCl

)

PWB

Check Switching Regulator

unit

(See

item

at)

CD

Check Switching Regulator

unit

(See

® Check H.OSC/DEF/HV

(See

circuit

IC503.R579 Failure

HC2.)

PWE-l77A

IC504.R573 Failure

0)

item

item

0)

E)

Check

Screen

Voltage on the CRT

NG

OK

Check the Clamp
Pulse

NG

OK

(

Continue)

(Measure the voltage

(Measure the pulse by N4 on )

the INTERFACE

by

PWB

Y )

PWE-l77A through 300V

PWB

PWE-176

Normally,

Screen

Voltage

to

900V

T504, R940, C914 Failure

IC80S, TR859 and their

ambient circuit Failure

is

about

-37-

(Continue)

Check blanking
Pulse

NG

OK

Turn

the

volume

Back raster appear?

to

OK

screen

the

NG

right

Measure

(

INTERFACE

Vertical
bar appear?

the

or

pulse by

PWB

PWE-176

Horizontal

sa

on

the)

Check blanking
circuit (See item

D)

IC701

and
circuit Failure.
130V Line Failure

ambient

NG

CD

Horizontal bar:
H.OSC!DEF!HV
circiut (See item

® Vertical bar:

(See item

E)
G)

CRT

Failure

-38-

B. Abnormal Video on CRT Screen

Check

R/G/B

Video output

Measure

(

by R904(R), R905(G)
on

R/G/B video output ) Normally, R/G/B video output

CRT

PWB

OK

NG

Check

130VLine

NG

Measure

(

by

PWE-173A

the vOltage)

E1

on

DEF

TR516

circuit Failure

OK

Check
Voltage

........

____

Screen

-,-

____

Measure

(

by Y on CRT

.......

PWE-177

Normally, the
voltage
300V-900V

NG

the vOltage)

A

is

about through

C914, R940, SG905
and

Too dark or Too bright

and

R906 (B)

PWE-177A except at

PWB

and

ambient

PWB

voltages

Check

'--_---.

OK

screen

Check

output

T504 Failure

are

about 40Vp-p

ABL

working

85V

Line by

__

---'

NG

IC701

voltage

Measure

(

PWE-173A

Measure
Vp-p by 29 PIN(R), 25 PIN(G),

(

and
VIDEO

Normally, the outputs

approx. 2.7 Vp-p at contrast

volume

the

X1

21

vblt~ge

on DEF

~------------~

A/G/B

PIN(B)

PWB

is

max.

PWB

• Switching Regulator
unit

Failure

(See

item

• D520 Failure

output

of

PWE-179

IC701

)

0)

on

are

1

OK

Check

brightness

Voltage

'-------.----~

NG

OK

C Conttnue

Measure

(

by BT2
PWE-177

Normally, the voltage
is
max.

around

the voltage )

on

CRT

11

.2V at the

TR904,
TR907

Failure.

HC1

disconnected

PWB

connecter

A

CD

®

® IC503, R579 Failure.

TR905,TR906

and

T908

OK

Video

output

circuit Failure

NG

t

Check

contrast

voltage

NG

OK

IC701

and

ambient circuit

Measure

(

by NT2 on INTERFACE
PWB

Normally contrast voltage
approx. 11.5V at contrast
volume

the voltage )

PWE-176

is

max.

CD

IC802, TR810
TR816, TR811
D811, D819
D820

TR820-TR822
and ambient
circuit Failure

®

ABL

circuit

Failure

is

-39-

(

Continue)

Check the clamp
pulse

NG

OK

CRT Failure

(Measure the pulse Vp-p by N4 )

on the INTERFACE

PWB

PWE-176

• IC808, TR859 and
ambient circuit

Failure

• TR716 Failure

-40-

C.

Abnormal

Check

R/G/B
output voltage
of

IC701

NG

OK.---------------------------------------.-----------------~

White

Balance

Measure

(

on
Normally. the voltage

the output Vp-p by N6. N8 and

the INTERFACE

PWB

PWE-176. ,

is

approx.1.0Vp-p.

N10)

TTL

ANALOG

Check

R/G/B video
output voltage

NG

OK

TR901-TR903
TR905-TR907
and

ambient circuit

Failure

Measure

(

output
on

Normally. 40Vp-p except
at

the video

Vp-p by

the VIDEO

ABL

working.

R1.

PWB

signal

G1.
PWE-179

B1

1

IC802

TR814-TR822
TR804"'TR806
and

their

ambient circuit

Failure

•

IC701

and

ambient
circuit Failure
TR701-TR715

•
0701-0706

ambient circuit

Failure

TR801-TR803

Failure (BNC INPUT)
TR804-TR806

Failure (O:Sub INPUT)

and

-41-

D. No Blanking works

Check blanking
pulse

NG

OK

TR721 , TR722
TR713-TR715

and

ambient circuit

Failure

(Measure the blanking pulse by

on the INTERFACE

H

PWB

PWE-176

I R529 Failure I

S8

)

H/V

Failure

0449

CD

TR443-TR445

®

and ambient

circuit Failure

@

1C442,
TR446-TR448
and ambient
circuit Failure

@

TR490 Failure

V

Failure

IC443

TR490, TR493

CD

Failure

® IC802 Failure

@

0888

-42-

E.

H.OSC/DEF/HV Circuit Fault No

Check

HV

for

operation

Protector

NG

OK

The

HV

(

audible noize during operation

protector circuitry

Raster
Abnormal Picture
Abnormal Picture

makes

an)

Size

Disconnect C

Check the
Horizontal

Synchronizing
with H. SYNC?

OSC

NG

OK~

-

Measure

(

on the DEF

SW

Check

(See

HV

Feed

HB1, HB2 disconnected. )

(

TR517,

HV

Protector circuit Failure

D508,D509,R548,R550,D2001

(

D2002,
TR2002 Failure

at TR502 BASE )

PWB

REG

item

UNIT

0)

Back

circuit Failure

TR5l8,

ZD200l,

D523 Failure

ZD2002, TR2001

PWE-173A

Free
No

Pulse

Running or

)

(

continue)

IC501

Failure

or

H

F/V

converter

associated circuit

Failure

(See

item

F)

and

output

H

D501, D503, D504, F501,

(

:lD502, IC502, TR504, TR507
TR508, TR509 Failure

No Blanking works

H. Drive circuit Failure

(R520,

circuit Failure

(See

item D)

TR501-TR503

Failure)

R529)

-48-

(

Continue)

IC501, IC505 Failure

H. Output circuit Failure

(0501,0503,0504,

Z0502,
TR508, TR509 Failure

H

F/V

Check

IC502, TR504, TR507

converter circuit Failure

(See

item

F)

SW.

item

REG.

0)

(See

F501, R529)

UNIT

"-

HV

output

circuit Failure

(TR513,

Failure

HV Drive circuit Failure
(TR510,

Failure

0514, T504 (FBT))

TR511, TR512, R542)

-44-

F.

H/V

F-V

converter and associated circuit

Check H. SYNC
on

the DEF
PWE-173A
Point

OK

Check 2 pin
IC505 voltage

OK

Check the IC505
output

PWB

S4

NG

of

NG

(Un'table

Lack
HV.

Normally, the 2 pin
is

IC505

pkMe

of

linearity improvement

protector

approx.

24V

(Measure

PWE-173A

20K 27K

I I I

10

11

12

14

15

16

)

on

the DEF PWB)

--------~---------

I

I

Check sync circuit
on the INTERFACE
PWE-176

R593 Failure

35K

----------_.

I
I

-------------

I
I

-----------_

--fH(

42K

I I

-----

I

I

------

--

PWB

..

50K

..

Hz)

High

Low

High

Low
High

Low
High

Low
High

Low
High

Low

NG

OK

Check 17, 18 pin

IC505 voltage

NG

OK

H F/V

is

OK

of

(When 17 pin = 7.7V at

18 pin

= 7.9V

at

-45-

IC505 Failure

27K)
42K

rC505 Failure

Check V. sync
on

the DEF
PWE-173A Lack
PQintS3

PWB

(un"'bl'

Lack
Abnormal V

No picture

pk"",

of

linearity improvement .

of

East-West

pincushion

Size

1

OK

Check 2

1C401

voltage

OK

Check the

1C401

output

NG

pi n of

NG

Normany, the 2 pin
is

approx.

(Measure on the DEF PWB)

PWE-173A

24V

IC401

50 56

I I

1

3

4

5

Check sync circuit
on the INTERFACE
PWE-176

R423 Failure

67

I J

I I

I

--

-

-.-

-

I

----------

-----.-----

PWB

-fV(Hz)

75

---

I

I

---

..

80

High
Low

High
Low

High
Low

High
Low

OK

Check 8 pin

1C401

OK

V

F/V

is

NG

of

NG

OK

-46-

IC401 Failure

IC401

Failure

G.

Unstable Picture

Horizontal

Check H. sync

'------r----'

NG

.-----------------~

OK Failure

• Check H
(See

• IC501, IC551 Failure

Vertical

Check

F/V

item F)

V.

sync

Measure

(

INTERFACE

converter

(Measure by

INTERFACE

by

S4

on

PWB

S3

on the )

PWB

the )

PWE·176

IC806, IC807, TR856

TR858,TR860

PWE·176

NG

OK

Check V. MODE

Pulse

DC

Check LINE
MODE

Pulse

DC

IC401

Failure

1C401,

IC501, IC806

IC808, TR861 , TR862

Failure

IC808,TR862,TR865

Failure

C870, IC809 Failure

-47-

H.

Abnormal Picture

Size

1. Horizontal

Readjust
by

VR510

OG

H.

Check
and Associated circuit

(See item F)

WI

DTH

H.

WIDTH

NG

F IV converter

I\.

(VR510

PWE-173A

S-correction circuit

is

on

the

(See item

DEF PWB)

J)

TR508
circuit Failure

and Associated

Deflection Yoke,

HV.

Feedback circuit

HV.

NOT CORRECT

Failure

SW,

REG, UNIT Failure

(See item

0)

T504

(FBT)

-48-

2. Vertical

Check

L..-

__

HEIGHT·

24V

Line

--..-

__

---J

Measure

(

on the DEF

by 7 pin

PWB

of

IC402 )

PWE-173A

Low

OK

t-'-'--'-----'-'--'----------------"i.

Check 12V Li

Low

OK

ne

Measure

(

on the DEF

V.SIZE
Circuit

V.SIZE
Correction
Circuit

by

20 pin

PWB

Limitter

of

IC501 )

PWE-173A

SW,

REG,

(See

IC501, ZD401,

C401

UNIT

item

Failure

0)

R401

IC442, IC443

Failure

TR440, TR441 , TR449

IC440,IC441
LINE

MODE Circuit

V.MODE Circuit

Failure

V DEF
Circuit

Readjust

-49-

1C401,

IC501,
DY, C410

Failure

HEIGHT

V
V

R3

See

procedure

IC402

VR440, VR441
AI ignment

V-MODE

(

F,llu,"

• Too

small

of the PGA

• Vibrating

oondltlon

V.HEIGHT

V.

HEIGHT

at 4

00

LINE

MODEl

LINE

"-

MODE

IC8D8, IC441

TR863~TR865

Failure

(Failure condition

small

or

· Too

• Vibrating

too

V.

HEIGHT

big

V.

HE

IGHT)

TR875-TR877
C87D,IC8D9

Failure

-50-

I.

Centering

Horizontal

a)

BACK

RASTER CENTERIN'G

Readjust back

raster centering

NG

b)

PICTURE CENTERING

Readjust sub H

Centering

( Adjust

OEF

by

PWB

CT

connector on

PWE-173A

the)

See Alignment procedure

See Alignment procedure )

(

R503-VR505

V

on the OEF

PWB

PWE-173A

I C504, TR522,

"

0513,0517,0518,
R573, R577, R592

Failure

Z0504

C537

NG

Check H FlY converter
and
associated circuit

NG

OK..-----------------.....

IC501, IC552

Failure

-51-

H F/V converter and
associated circuit

Failure
(See

item

F)

VERTICAL

Check Vertical
centering circuit

J. Side pincushion distortion correction Failure

TR491, TR492, R495, R496
0490, 0491,

U connector

Failure

0492

Readjust VR470

NG

All V frequency?

Yes

No

1C470

Failure

K.

Poor focus

Readjust Focus

(AdjUst by VR470

PWE-173A

on

the OEF PWB)

TR470"-TR475,

R484,

R485.0470,

Failure

Z0470

0471

NG

T504 (FBT) Failure

-52-

L.

Impurity

Disconector Degaussing coil

connector

PWE·168

Power

produce VIDEO on CRT

Connect Degaussing Coil
Connector manually and
Confirm Degaussing Effect.
then

SW

on

CRT

on

on and

screen

SW,

REG,

Please wait

PWB

5-10

minutes

to

get effect

of

TH601

Nb

Effect

Effect, But
not

enough

Make sure
is

distant from any strong

magnetic field

that

OK

the

monitor

No

magnetic field

interference

TH601, Degaussing coil

Degaussing coil

Failure

Readjust

Purity magnet

CRT, DY, Purity magnet

Failure

connector

-53-

M. Abnormal

Text

mode operation

Check CONTROL
and

INTERFACE

PWB

PWB

--------------....-t

--------------..\

N. Abnormal Color at TTL MODE

CONTROL
Text switch

Text color switch

Failure

INTERFACE
IC801, IC803, IC805, TR811

TR824, TR831 Failure

PWB

S3

PWB

(PWE-173C)

S4

(PWE-176)

Check INTERFACE

PWE-176

PWB

Does

not

not

operate

work

16/64 colors automatically

at EGA mode

CONTRAST control
Does

Others

IC806, TR862

Failure

TR813-TR816
TR820-TR822

Failure

Manual switch S802

8/16/64 COLOR Switch

IC802, TR817, TR823

TR819 Failure

S803

-54-

O. Switching Regulator Unit

Kl

~+85V

K2~+24V

Cl ~ Refer

to

Table 1

Check

1

if

each

i

No

output

anywhere

output

No regular

I

appears

)

output

I

at

Cl

I

l

No

output

at

K2

only

I

Turn the power switch
Disconnect
resister
and

K3-K2. (Figure 1) Next turn the power on

check

Check that

Check that

Check

Kl,

so

that rated current

that

85V

Yes

No

F601

Yes

No TR602, C615

R601

Yes

No

that

R604

off

and

wait 1

&-30

K2, K3, K4 and Insert the dammy

appears

is

off

is

off

is

off

is

added between K3-K 1

at

Kl.

I

J

I

seconds.

and

Al,

C601,C602,D601,C605,C628

IC601, IC602, R624, R632, D606

CR601, ZD603

A2

*1

*2

Failure

Failure I

Yes

No Failure

Turn the power switch on
that about
of

R609.

D602, R615, R614, R630,
D603, TR601, CR602

5V

appears

Yes

No C653 Failure

Failure

and

at both

1C601

check
ends

PC601, ZD601, D653, D654, ZD651
C610, C611, TR601, TR651

PC601,D651,D652,C651,C652
C654, IC601, TR602, TR651, T601

-55-

I

C1

*1

=;

OV

I

No

Yes

Turn the power switch. OFF,
wait 5

seconds
C1, C2,
Next turn the power
Check

that
appears

No

Turn the power switch
and Check that about 7V
appears

C3.

about 120V

at

C1.

Yes

at both

then disconnect

ON

and

ON

ends

of

R620

PC602,
TR652, TR653 Failure

I

C660, D663, TR652

I

D658,D659,ZD652

Failure or A3 I

Yes

No

PC602,

ZD602, D606, D604, R624

R632, R623,C615,C616

C617 Failure

CR603, rC602, TR602

-56-

C657,C658,C662,AD602,
CR603, D658, D659, AD652, IC602

Failure

TR602

*2

L652, D652

T601

9 pin

etc.

An

Trouble excluding Switching Regulator

Table

1.

C1

Open

output

voltage

(See

next

page)

Fig.

With no

1.

Rated load current at

K1

K2

K3

Horizontal Frequency [kHz]

22

31

45 GB-II

input

signal, about

K1

and

K2 terminal

R2

45V

EGA

VGA

should

R1

appears

at

C1.

+85V

+24V

C1

voltage

50V

±3V

70V ±

114V ±

O.03A-O.2A

R1

(2.83kn-425n)

O.8A-1.5A

R2

(30n-16n)

[V]

4V

5V

K4

Attention) Do

protector.

not

power on

SW,

REG,

unit

itself

without

-57-

the load at K1, K2, or

it

may misoperate

P.

H/V

Linearity not

l Horizontal I

improved

J 45KHz

I I

.~

42KHz ~ 35KHz I

~

35KHz

.

I 27KHz

J

45KHz

t 35KHz

~

42KHz I

~

27KHz I

~

20KHz :

~

35KHz L

~

20KHz :

IC505, TR523, TR526, TR525

TR527, TR519, TR520, TR524

IC505, TR523, TR526, TR525

TR527, TR519, TR520, TR524

IC505, TR525, TR527, TR519

TR520, TR524

IC505, TR519, TR520, TR524

IC505, TR519, TR520, TR524

I

TR525, TR527, TR536, RL502

IC505, TR536, RL502, TR519
TR520, TR524, TR525, TR527
D515 Failure

Failure

Failure

Failure

Failure

Failure

~

I 45KHz

20K

TR524

TR525

TR526

Vertical

I I

""'-----------....:-.-------..1..

27KHz I

27K

I

35K

-58-

IC505, TR523, TR526, TR525
TR527, TR519, TR520, TR524

42K

IC401, IC403 Failure

Failure

45K

I

fH(HZ)

REPLACEMENT PARTS LIST

Note: The components identified by & make are critical

for

safety. Replace only with Parts Number Specified.

~CRT

IC8(9
IC4C3
IC47C
1C8C3
IC801
lC808

Ie8C6
lC804
1(443
lC5C4
lC5C3

lC8e2

.&.1

nC1

~Ie5Ci

'&'IC6C1

IC505
I C401

IC402
I C44Z.

'&'TR2COZ

TR442
TR447
TR471
TR5C1
TR515
TR5,7
TR718
TR8G1
TR8C4
TR810.
TR821

TR825
TR8S1

TR857

TR862

STI'!BOL

IC44C
IC551

IC805

IC502

~IC602

IC!!07

TR440
TR444
TR449
TR473
TR510
TR519
TR531
TR72G
TRI!02
TR805
TR!!12

TRI!22
TR831
TR852

1&858

TR87C

IC441

IC

552

***

TR441
TR445
TR470
TR474
TR514
TR523
TR536
TR721
TR8C3
TR806
TR820
TR824
TR832
TR856
TR859
TR871

I

PARTS

***

CRT & TUNER

33015011!

***

37011054
37051036

37051C1!1 IC
37051096
37051179

37052011
37052179

370562C7
37056219

37056220
37056233

37056245

37056295
37056352
37056405

37056406
37056415
371011?7

TRANSISTORS

350D7217

NO

I DESCRIPTION

***

CRT

M3hJVL23XX(6408)

IC S

***

IC

UPC33.9C

"OS UPD4066BC <ESD) 6

SN74LS32N
SN74LS367AN

IC

SN74LS123N

IC

SN74LS136N

IC

SN74LSC7N 2

It

IC UPC358

STR2005

IC

STR2012

IC

FCD-016M I 1

IC

Ie

"51387P
LA7851

IC

STK7408HE 2

Ie

Ie

56405

IC

56406
LA7835

It

UPC-393C

IC

(COMP)

(0

R)

(BUF

(!'!ONO
(EX-OR)

***

TR,2SC945-T

Q

f)

I"LT)

.1

1

1
1
1

1
2

1
1

1
1

1
1

1
2

51

SY1'!BOL

TR872
TR493
TR715
U815

TR818
TR8S3

~TR2001

TR4.48
TR502
TR717
TR811

TR492
TR901
TR71C
TR5C9

~TR601

~TR651

~TR504

~TR513

~TR524
~CR602

~CR601

TR507
T.R491
TR508
TR475

TR522
TR!!C9
TR7C1
TR9CS

TR7C4

TIn

07

TR823
T.R833
TR863
TR866
TR878
TR8C8

TR5C3

'&'TR602
.&.TR652

.&.TR525

ltCR603

***

TR904
TR713
TR716
TR816

TR819
TR443

TR472
TRS11
TR719
TR813

TR902 TR903
TR711

TR517

TR702
H906

TR705
TR708

TR854
TR834
TR864
TR875
TR!!79
TR876

TR512

TR9C8
TR714
TR8.14
TR817
TR860

TR446
TR490
TR520
TR722

TR712

TR653
TR518

TR703
TR9C7

TR706
TR709

TR874
TR861
TR865
TR877

TR516

~TR526

I

PARTS

TRANSISTORS

3S0H5017

3S0H5017
350H5018
350K3517

350K4412
35005217
35006804
35025212
35047216

35053C11
35053012
35055312
35063412
35065416

35065417
35065912
35083400
35084417
35084700

35086004
35087700

35160500
351605C1

35160613
35121000

351218CC
35595010
35595014

NO

I DESCRIPTION

***

TR,2SC3811-TA

TR,2SC3811-TA
TR,2SC3811-TA

TR

2SA733/2SA733A-T

TR,2SA952
TR,2SA1C18
TR,2SA1538-.RA
TR,2se5461S46A
TR,2SC945

TR,2SC1941
TR,2SC1941
TR

2SC2001
TR,2S0401A
TR,2SD882

TR,2S0882
TR,2SD471
TR,2SC2408/2SC24C8A
TR,2SC1473
TR,2SC3688

TR,2SC3953-RA
TR

2SC361!5
TR,AN1A411-T
TR,AA1A411-T

TR,DTC123YS-T
TR,2SK43tl

TR,2SK754
THYRISTOR
TRIAC AC1tlD6"

Q

Q

R

L t

Q 3

0 3

L

P

K

L

L
L

P 1

Q

L 1

Q

D

03P4"-L

12

12

Q

14

11

1

1
2

3

3:
1
1

1
3

3
1

6
1

3

2
3

3
2
1

a>

o

SYMBOL

D492
D499C

D515
D802
0808

D811
0814
0817
D820
D823
D826

D832

0871

&'06C6
,&.0658

.&P662

0702
07C5

D441
D444

0447

D451
0499A

D499D
D504
0519
0522
0803
D8C6
D8C9
D812
0815
0818
D821
0824
0827
D830
D851

0860
D872

D884
D887
DC;01

&'D603
&'0654

&,0661

0701
0704
D707
0440
0443
0446
0449
D471 D490

0499F
0521
D805

I

0829
D853 D854

0856
D874 D875

D880 0881
D883
0886

&'D605

D903

&,Z06C2

D653
D659
D663
0703
D706

D442
D445
D448
D470
D491

D499B
0499E
0506
0520
D801
D804
0807
0810
D813

D816
D819
D822
0825
D828
0831
D852
D855
0861
D873
D876
D882
D885
D889
OC;02

I

PARTS

***

360K1009

3601<1027

3601<1027

360K1I:32
3601<3098

NO

I DESCRIPTION

DIODES

***

OICDE,SI.1S2473

DIODE

DIODE

DIODE
DIODE

1SS132

1SS132

1SS82-TA

RD12E8(3)-T4

I

OTY

16

84

84

4
1

I

ZD5C4
Z08C3
0888

04C1

.&.,D508

D513
D51e

'&'D514 3611<7259 CGJ-1

D5C5
&0602
'&'D607
.&.0657

&'D651

&,0501
.&.065L

.&.0601

0599

'&'02001 '&'02002
'&'TH6C1

.&.P C 601

T503

T501

T505
'&'T601

&'T602
'&'T504

'&'T506
'&'T502

SYMBOL

D5C2

.&.D5C9

0516
0523

D511

&D6C4

Lt,P

C 60 2

D503

&'D510

D517

0512

***

I

PARTS

**

3601<3660
36001027
361K7160

361K7~05

36107304

36107515

NO,I
DIODES

*

3601<3647

36107114
36107303

36107305

36108072
36108090
36801023
38005011

38112026
38200214

TRANSFORMERS

45804002
45804004
46305101
46308103
46308104

4710H35
47502053
47710003

DESCRIPTION

***

DIODE
DIODE
DIODE
RECTIFIER,SI.TVR-06G

RECTIFIER,SI.ERB44-Q6V1

RECTIFIER,SI.

DIODE

DIODE

DIODE

RECTIFIER,SI.
O,NETWORK
DIODE
OIOOE,LIGHT-E SEL1320G
VARISTER,V01220

THERMISTER,POSITIVE 1
PHOTO

R06.8ESB(2)-T4
RD9.1ESB(3)-T4
1SS132

RU1P
EUC2
CTG-G3CR
RU2B

CTU-G30R

D5LCA20

D5SB~tG

COUPLER

G23

11

***

TRANS,H.ORIVE
TRANS
TRUiS,CONVERTER
TRANS,SWITCHING

TRANS,SWITCHING 1

FLY

BACI<

SIDE

TRANS,H.OUTPUT

TRANSFORMER

TRA~S,PINCUSHION

1
1
1

1
3

2

1
1
1

1
1
1
1
2

2

1

1
1
1

1
1
1

&'ZD653
&, Z D2

001

651

D4C1

&,Z
4:,z

ZD47C ZD601

&,

Z D
Z

ZD5C1

'&'ZD603

ZD4C2
Z05C2
ZDB51

02002
D 6 5 2

ZD

701

3601<3132,
360K3143
3601<3149
3601<3151
3601<3160

3601<3161
3601<3162

3601<3188
3601<3403

3601<3635

DlODE,ZENER
DIODE,R08.2JSB(1)-T4

DIODE
DIODE
DICDE

DIODE
DIODE,RD2.7EB(1)-T4
DIODE
DIODE

DI~DE

RE3.0E8(2)-T4

RD1CEE(2)-T4
RD6.8EB(2)-T4
RD8.2EB(2)-T4

RD12E8(2)-T4
RD3.9EB(2)-T4

RD5.1JSB(1)-T4

RD5.1ESB(2)-T4

1
2

,

3
1

1

1
1
1
1

VR5
VR3
VR1
VR5CS
VR7C4

VR44C
VRse1
VR7C3

VR4
VR2

VR441
VR701

***

vR6

VR443
VR702

VARIAELE

41011273
41011275

41023l:03

41061511
41071HO

41071161

RESISTORS

R,VARIABLE
R.VARIABLE
R

..

VARIABLE
R,VARIABLE
R,VARIABLE

R,VARIABLE

***

B201<-V(M) 1
B20K-V
101<
B4.7K
B3.31<

B4.7K

00

12W

3

,

1
1

7

SYMBOL

***

VR4C2
VR4C4

VR47C
VR4C1
VR5C3

VR504

VR5C5

VR5C2
VR4C3
VR9C1
VR9C4

VR902 VR903

VR905

VR906

VR907

~VR651

~VR652

~VR2C01~VR2002

~VR653

~

VR5C8
VR510

I

PAP.TS

VARIABLE

410711t5
41071167
41071169
41071171

41071173
41085C08
41085013

41085014

41087C58
41505005

41505006
41505007
41505009
41505208

NO

I DESCRIPTION

RESISTORS ***

R,V~RIABLE

R,V~RIABLE

R,V~RIABLE

R,VARIABLE
R,VARIABLE

R,VARIABLE

R,V~RIABLE

R,VARIABLE B200K
R,VARIABLE

R,VARIABLE
R,VARIABLE
R,VARIABLE
R,VARIABLE
R,VARIABLE

822K
B471<
B100K
82201<

B470K
B5K
8100K

B5K

B2K
B3K
BSK
B20K
BSCK

SYMBOL

I

PARTS

NO

I DESCRIPTION

*** COILS g FILTERS ***

(SF47H1RO)

1

2
1

L508

~L601

61022C81
61062C43
61062C57

COIL
L1tiE FILTER 1

FILTER GL-2030F 1

L1fo.E

1

3

~L515

1
1
6

1

L504

~L651

~L652

L507

~L602

L653

L510

L7C8

L512

1

L514

1

2

1
1
1

L9C4
LC7C1
LC7C5

LC7C3

C2

L '.9

LC706
LC704

LC903

LC7C7
LC9C1

61064C06
61099(11
61C99(14
61099(19
61099(27

61315103

61605008
61605C32
61606024
61606027

61606028

COIL,FIL

COIL,CHOKE
COIL
COIL,CHOKE
FILTER

COILC60T)
FERRITE
FERRITE
NOISE

·NOISE
NOISE

TER

330K1.8

CHOKE

8EADS

BEADS
FILTER
FILTER

FILTER

5CUH

33UH

101KR66 1

3.5*5*1.3

2A222111
1H223X 5

3
1
2
3

1

1
1
1
3

SW4

~SW8C2

~SW804

,,:hSW8C3

~SW8C1

~SW2

~SW3

SW1
RL5C1
RL5C2

LC7C2

~L509

~L506

~L502

L511

~L505

L802
L801
L5C1
L503
L901

L704

L701

L513
L9C2

L7C5
L702

***

***

L903

L7C6
L7C3

RELAYS g SWITCHES

65161021
65161022

t5161C23

65161C24
65163002

65360006
65602551
65660004

CO

ILS g F IL

39099015
60908056
60918104
60919607
60999C04
49801006

610E1714
610F6C14
610F7C10
610F7C19
610F7504

610F7505
610F7551

SWITCH,SLIDE
SWITCH,SLIDE

SWITCH,SLlDE
SWITCH,SLlDE
SWITCH,SLIDE

SWITCH,PUSH
RELAY

RELAY

TERS

FILTER
COIL
COIL,H.LIN
COIL
COIL,CHCKE

INDUCTOR,DU~~Y(610UH)

COIL,FILTER
COIL,F IL
COIL,FILTER 2.7UH 2
COIL,FILTER
COIL,FIL

COIL,FIL
COIL,FILTER 0.82UH

***

BUTTON

-**

ZJSC-2R2-101

5.6UH 1

TER

5.6UH

PR68/"AHS)

lER
lER P1RCfiAHS)

1

1
1

1

1
1

1
1

:3
:3

:3

pwe

1
2

1

1
2

1

***

84J99AC1
84J99C01
84J99D01
84J99J01

84J99K01

ASSYS

SW.REG.FWB
VIDEO

DEF

pwe

CRT

pwe

INTERFACE

***

PWB

ASSY
ASSY

ASSY

ASSY

PWB

ASSY

1
1
1
1
1

1

***

ELECTRICAL

HS4C2e

It

SG9C1

1

~F601
~F501

SG9C4

~

S6902 SG903

S6905

IS802
IS7C1

PARTS

31700909
31709202
31709203
31709503
32990C47

66653C17
66699011
66706001
70032026

70056355
70102147
70102152

70810709

&

MISCELL~NFOVS

FAN

(DC24V)

SHEET

,INSULATOR
INSULATOR
SHEET

,INS(;LATOR
ARRESTER

FUSE

125V

FUSE

SSfR-63CIIIA-FOC5

Sp~RK

GAP

SG/CRT

D-SUB
IC
IC

LINE

SOCKET
SOCKET
SOCKET

CCRD

PAPTS

(150*37,TR85)

4A-UC
t.2KV

SOCKET

'iP
241'
3CP

:3P,L=1.8

~**

1

1

1
3
3

1
1
2
1

1
1
1
1

SYMBOL

I

PARTS

r~o

I DESCRIPTION

SYMBOL

I

PARTS

NO

I DESCRIPTION

***

&'FH6C1

CN-CE
CN-CT3

.&,

R5B6
R499E &'R612 &'R626

.1:.

R671

.1:.

R602

L!:..

R663

ELECTRICAL

(foi-C

11

***

&'R6C8

*** KNoes

PARTS

71205037

CN-CT

~

73721(03

***

PR

&'R619

APPEARANCE

245147<;2
25307251
25307271
25402441
254C5971

25407261

25515492

25451871
25451881

lNTED & PACKING

24806961
24813191

25812832

25812842

25812852
25814151

78045671
78119472

25764502

***

401(6641
401C6657

401

& MISCELlPNFOUS

HOLDER,FUSE

COhNECTOR

PARTS

COIL SPRING
CABINET,
oeINET,BACK

REVOLVING
REVOLVING

LID,COfiiTROl

REAR PANEL

&

PUSH

BUTTO,.S

PUSH
KNOB,CONTROl 2

I"ATERIAlS

BAE,POLYETHYLENEC270*370)

BAG.POLYETHYLENE
F ILL E R
FIlLER(R),CARTON

CARTON
FILLER T

SERVICE

INSTRUCTION

NAME

RESISTORS

R,CARBO,.
R,CARBON

73

R.CARBON

C66

PAPTS

PIN

2P

***

FRONT

STAND
STANDCB)

BunOh

(L)

, ( A R

BOX

.CARTON

CONTRACT(1501~~A)

PLATE,

***

47H

220

1.CK

T

ASSY

***

***

TO

N 1

BOOK

INSTRUCTION

1/4101

5%

5%

1/4W

5%

1/4W

***

RESISTORS

2

I,

1
1
1
1

1
1

1

1

1

1

1

1
1
1

1
4

4

R609

R495C R611

&,

R662

&,

R666 4C1C66E3

&'R656
&R633

6 R655

&,

R636

6 R631
6R657

R 4 6

.1:.

R568
6R605
.1:.R61E

6R6C3

R416

R541

R742

R477

.1:.

R567
R745
R812
R815
R83<;
R844 R871
R8BS
R8<;S

.1:.RicC2

R46C
R47C
R532
R8A5
R8C2 R8C5
RSC4E
Rl!09E

R852

R919

6R2001.1:.R2007

R445 R 5

R8CS RE70 R884

R92(

RI,FE

R475

R531

R891,

R62C

&'R661

&'Rt64

6R672

C;

J

&'R

5 64

RI,19

.1:.R566

R743

R4
R591
R810
R813
R835 R836

1181,0
RB93
R2004

RH3 RH9
R4E1 R5E5
R746
R8P6

R8C4
RSC9

RS91 R892

R453
R502

.1:.R5t3

R91,1

c;z

C1

E

t:

R658

R627

R519
R741
11903

R51,0
R737

11811

RE14
R81,3

R872
R895

RI,O

r;

R8AI.
R8C1

R8C6
R8C4R
R8C9R

R420
REC2

R459

R5CI,

R885

401 C6675
4C1

(6677

401C6679
401C66E5

ltC1

(6tH

4C1C6t(;1
401 C6697

4C1C67C5
401C6723

401C6757
401H5653
I,C1H5721
401H5737
401H5739
401K5675

L,(

11(56<;1

4C1K56<;7

401K5699

4C1

K57C5

R,CARBON
R,CARBON
R,CARBON
R,ORBON
R,CARBON

R,CARBON

R~CAR80N

'R,

C

AReO,.

R,(ARBON
R,CARBON
R,CARBON

R,CARBOfii
R,CARBON
R.CARBON
R.CARBON

R,CARBOh

II,CARBO,.

R.CARBO,.

R,CARBO"

R,CARBO"

1.2K

1.5K

1.

!!K

2.7K

3.3K

3.9K
S.6K
1CK

22K
120K

3.31'1
150H

1COK
I,70K
560K

1.2K

5.6K

1CK

12K

22K

5%

5%

5%
5%
5%

5%
5%

5%

5%

5%
5%

5%

5%

5%

5%

5%
5%

5%
5%

5%

1/41i
1/4W
1/4W

1/4W

1/1,101

1/410i
1/41i

1/411

1/4

1/4W

1/4w
1/2w

1/2101
1/2W

1/2101
1/6101

1/6W

1/6101

1/6'ri

1/6W

3
3
1
1
2

1
1

2

W

25

2E

1C

11

1

1
1
1

c;

2

2

1

SYMBOL

I

PARTS

NO

I DESCRIPTION

SYMBOL

I

PARTS

NO

I DESCRIPTION

***

R402

R851

R405

R451

R471

&'R522

R536
R5e9
R8B1
R8e4

RBB9
Lt R 2 0 C 3
LtR20C5

LtR5 F

LtR495

&,R630
LtR614
LtR623
6 R731
LtR734
&R579

6 R546
6 R601
6 R534

R728

6R573

R545
R5A3
R5A2
R484
R406

RB16

R401
R407 4C3721C5
R525

6R667
6R616

6R607

R581
R496
R423

R418 LtR5B9 401K5715

R449
R469E
R5e2

LtR

526 R530
R547
ReA7
R8E2

I<B86

R860

LtR 2 CO

f

&R632

6R732
6R735

R729 RBO

11592

R518

R450
R46<;(

LtR521

R554

R8119
RBB3

R8e7

6

LtR733

6R136

401K5121

40101185
40107197

40175117
40175133

40175143 R CIIRBON
40175181
40175183
40177137

40178111
40216026

40299105
402991C8
40318273
40371115

40371119
40371125
40371133
40371147
40371159

40371161

403.71165 R,METAl
40372113

40372137

40312141
40372147
40372151
40372157
40372159

RES.ISTORS

R,CARBON

R,CARBON

R,CARBON

R,CARBON

R,CARBON
R,CARBON

R,CARBON
R,CARBCN
R,CARBON

R,CARBON
R,WIRE

R,WIRE

R,~IRE

R,METAl

R,~ETAl

R,METAl

R,METAl

R,METlll

R,METAl

R,~ETAL

R,METAl

R,METAl
R,METAl

R,METAl

R.,~ETAl

R,METAl
R,METAl 120H
R,METAl
R,METAl 270H

***

68H

6.8H
240H

56K

100K

3.3K
1CK

4.7H
22H

56H

2.2K

2.7K
33H

4.7H

1.0K

3.9H

5.6H
10H
22H
82H
270H

330H
47CH

1.5H

3.3H
33H

47H
82H

220H

5%

1/6W

5%

1/6W

5%

1/6W

5%

1/6W

5%

11411

5%

1/411

5%

1/4W 2

5%

1/410 1

51 1/4W 1

5%

1/411

5%

1/2W

5%

5~

5%

510

5%

7~

5%

7W

5%

111

5% 1 II

5%

111

5%

111

5%

111

5%

1~

111

5%

5%

HI

211

5%
5%

211

211

5%
5%

211

5%

21/

5%

2W

5%

2w

5%

2W

26

***

4

2
1

1

1

6

1

1
1
1
3
1

1

1,

1

2

1
1

1
1
1
1

1
1

1
1

2

LtR634

6R652

LhR654
6R665
&'R617

LhR613 4C373131 R,"ETAL
6R622
6R625

6R6

LhR660

&R6511

&R615

LhR604

6
6

6

R52C

6

6R

C909
C52C
C9C6
C917
C545
C56:3
C721

C914
&,C565
&,C626

LhC528

C513
LhC6C3

C4FF

LhC663

LhC612
6C623

C5H

e12!!

R485

5 3

R529
R527
R55C

593

6R629

6R670
&11624

L!:,.R517
6R548
6R551
6R542

C910
C907
C546
C722
C915

6c 6 C4

LhC618

LtC

625

Lhe535

C729

LhR549

***CAPACITORS

C911

CC;C

8
C547
C72:

6c

6C

6

6C

6:2

2

C727

RESISTORS

40372161
403722(3
40372205
403722C9

40372217

4C373133
40373149

40313151

403731S~

40373197
403732C3
40373337
40399031

40405109
40405117

40405137

408010~1

420C9563

420C9565
420C9561

42065CO.1
'201J575
'2019175

4203J553
4203J554
4203J557
4203J571

42053(67
42099C69
42099C82
42099(85

421'0213

***

R,IIIETAl

R,~ETAl

R,METAL
R,HTAl
R,,"ETAl

R,~ETAl

R,METAl
R,METAl
R,METAl

R,

..
R,METAl
R,"ETAL
R ,"ETAL

R,METAl
R,IIIETAl

R,METAl
R,FUSE

C,CERA~IC

C,CERA~IC

CiCERAMIC
C,CERAI'IIC
C,CERAII'IIC
C,CERAI'IC

C,CERAIilIC
C,

CER
C,CERAI'IIC
C,CERAMIC

C

.CERAMIC

C,CERAJilIC

C,CE RA'''!C

C ,C
e,CERAI'IC

ETAl

A

ERA

1COH

•••

1'1

I C

''II

8.2K

C

33CH
18K

22K
33K
68K

18H
22H
100H
220H

10K
18K
C.47H

2.2K

2.2H

4.7H

33H

5DDV
5COV
50CV

5Cv
5COV
2KV

SOOV
5COV
5COV
SCOV

4COV
50V
2l<V
2KV

SCV

5%

5%
5%
5%
5%

3w

5%
5%

3W
5%
5%
5%

5%

3101

5%

3101

5%

5%

5%

5%
5%
5%

0.22UF

O.01UF

150PF
180PF
330PF
4700PF

0.01UF

1500PF

56CPF

1COOPF

2W

211
211
2W
211

3W

311

311

311

2W

1/411

1/4111
1/411
1/41/

0.001UF
1500PF
22CCPF

0.C1UF

22(CPF

1

1
1

1

2
1

1

1

1
1

1

2

2
1

2

5
2

1

:3

1

.4

4

:3
:2

1
1
1
1

..

1
1
5

~

C44C
C49'7,11

C854
C571

C544
C44:3

C912

SYMBOL

C444

C471

I

PARTS

***

421(0217
421C0221
421C0225

421C0701

421052C1
421J9CC1

NO

I DESCRIPTION

CA

PAC

IToR S

C.CERA"IC
C,CERAMIC
C,CERAMIC

C,CERA!'IC

C,CERAIHC

C

.CERAPUC

***

scv
50V

~OV

50V
50V

50V

2200PF

4700PF

0.01UF

100UF

0.01UF

0.1

U F

I

QTY

1

1

1

1

1

4

I

C901
(51l:

Ltc

515
&,C522
Ltc 5 2

C51S

&'C530

SYMBOL

(9C2

&'C515~

'7

I

PARTS

**

*

C903 42840C'77 C,FILM

NO

CAPACITORS

42840173
42842502

42842503
42843503
42899C10
42899C27

I DESCRIPTION

C,FILM

(

FILM
C, F ILM
C.FILI'! 200V
C,METAL
C,METAL

***

25CV

0.22UF

4COV

0.1UF

1l:COV

1600V

3000PF
2400PF

1UF

FIL"

25CV

FIll" 400V

0.22UF
C.3

6U

3
1

2

1

1

1

F

1

C543

(501
(50S

C858

(71S
(891

C409

C50'7

CSC7
C506

(564

C51C
C503
C402 C416
C4C4 C418

C8(:,

(859

C860

C905

.1.C552

C541

.1.C60S .1.C614

.1.C656

.1.C607

.1.C659

(445
C442

(40(:
.1.C6C1 .1.C6C2
.1.C655

.1.C613
.1.C666

.1.(531

&,C532

(502

C719
C892

(446
C441 C572

.1.C(:

19

C72(
(893

.1.C627

.1.C661

423A1C33
423A1C55
423A1101
423112C27

423112(35

423A2C41

423A2104
423J8102
427A7C05
427A7C06

427F4CC1
427F4C02
427F4C06
427F4C15

427F4C2S
427F4C51

427F4C54

427F4(S5
427F4C75
427045(:7

42760011

42760Cl:9
4276D073

42760(75
42799099

4282C(13
4282CC17
4282C(25
42824325
42839(21

42839C22
42839303

428393C8

(,CERAMIC
C,(ERAP'II(
C,(ERA,.IC
C,CERA,.IC
C,CERAMIC

C.CERAMIC
C,CERA"IC
C,CERAMIC
C,FILM HOV
C,FIL,.

C,FILM
C,FILM
C,FILM
C,FILM
C,FILM

C,FILM
C,FILM
C,FILI"
C,FILM
C,FILM

C,FILM
C,FILM
C,FILM
C,FILM
C,"YLAR 400V

C,ELEC
C,METAL

C,,.ETAL

C,FILM

C,~ETAl

C,,.ETAl
C,FILM

(,FILM

50V
50V
5CV

50V
50V

SOV
SOV
SOV

1 C C V

50V
SOY
SCY
50V
SOV

50V
50V
50V
5CV
2COV

5CV
50V
50V
50V

SCV

FlU!!

FILl"

25CV

FIl~

FILM

4COV
4CCV

33PF

270PF

470PF

18PF

39PF
68PF

22CPF

560PF

0.0(22UF
C.

0 C 2 7 U

F'

10

CO

P F 1
1200PF
2700PF

0.015UF
o .1U F

1000PF
1800PF
2200PF

0.1UF

0.022UF

l:8COPF

0.033UF

0.068UF

0.1UF

0.033UF

C.1UF

SOV

C.2U 1
1UF

SOV

0.1UF

25CV

o.o~aUF

25CV

G.1UF 4

0.15UF
O.33UF 1

1

2

1

1
3

3
1
1
1
1

,

1

2

2
1

1
1

1
1

1

2

1
1
1

2

3
3
1

1

C4C3 C856

C415

C50S

C47C

.1.c 2 0 C 1

C7C7 e7C8

Ltc 5 2 4

C525

Ltc 5 5 S

(726

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•

No. 2080

SER

6.3K8803

Printed in

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