Sony TRINITRON KV-30HS510 Service Manual

HISTORY INFORMATION FOR THE FOLLOWING MANUAL:

SERVICE MANUAL

MODEL NAME REMOTE COMMANDER DESTINATION CHASSIS NO.

KV-30HS510
KV-30HS510
KV-30HS510

RM-Y191 US SCC-S66N-A
RM-Y191 CANADA SCC-S70M-A
RM-Y191 HAWAII SCC-S69E-A

DA-4

CHASSIS

ORIGINAL MANUAL ISSUE DATE: 8/2003

:UPDATED ITEM

☛

REVISION DATE REVISION TYPE SUBJECT

8/2003 No revisions or updates are applicable at this time.
3/2004 Removed landing settings information from 2-1. Beam Landing instructions (Don’t apply to this model.)
Replaced page 12 with page 12.
Added complete Service Data List, Replaced pages 25-27 with pages 25-A through 25-FF.
(Note: Removed page 26)
Replaced page 27 with page 27.
12/2004 Corrected D Board Schematic Page 2. Replaced page 33 with page 33.
Corrected ID Map Table for KV-30HS510 Replaced page 27 with page 27.

TRINITRON® COLOR TELEVISION

9-965-952-03

Self Diagnosis

Supported model

SERVICE MANUAL

MODEL NAME REMOTE COMMANDER DESTINATION CHASSIS NO.

KV-30HS510
KV-30HS510
KV-30HS510

RM-Y191 US SCC-S66N-A
RM-Y191 CANADA SCC-S70M-A
RM-Y191 HAWAII SCC-S69E-A

DA-4

CHASSIS

9-965-952-03

KV-30HS510 RM-Y191

TRINITRON® COLOR TELEVISION

KV-30HS510

TABLE OF CONTENTS

SECTION TITLE PAGE SECTION TITLE PAGE

Specifi cations ................................................................................. 4

Warnings and Cautions.................................................................. 5

Safety Check-Out........................................................................... 6

Self-Diagnostic Function................................................................. 7

SECTION 1: DISASSEMBLY............................................................... 10

1-1. Rear Cover Removal............................................................ 10

1-2. Chassis Assembly Removal................................................. 10

1-3. Service Position ...................................................................10

1-4. Picture Tube Removal...........................................................11

Anode Cap Removal Procedure............................................11

SECTION 2: SET-UP ADJUSTMENTS................................................ 12

2-1. Beam Landing...................................................................... 12

2-2. V-PIN and V-CEN Adjustment..............................................13

2-3. Convergence........................................................................ 13

2-3.1. Vertical and Horizontal Static Convergence ............ 13

2-3.2. Operation of BMC (Hexapole) Magnet .................... 14

2-3.3. TLH Plate Adjustment.............................................. 14

2-3.4. Screen-Corner Convergence................................... 14

2-4. Focus Adjustment................................................................. 15

2-4.1. Dynamic Focus/Dynamic Quadra-Pole Data........... 15

2-5. Screen (G2).......................................................................... 16

2-6. Picture Quality Adjustments ................................................. 17

2-6.1. Video Input - Sub Contrast Adjustment.................... 17

2-6.2. Video Input - Sub Hue/Sub Color Adjustment.......... 17

2-6.3. RF Input - Two Picture Sub Contrast Adjustment.... 17

2-6.4. RF Input - Sub Hue/Sub Color Adjustment.............. 18

2-7. White Balance (CRT) and Sub Bright Adjustment................ 18

2-7.1. Color Offset Adjustment Procedure......................... 19

2-8. H Raster Center Adjustment ................................................ 19

2-9. Picture Distortion Adjustments ............................................. 19

2-9.1. NTSC (DRC) Full Mode Adjustment........................ 19

2-9.2. 1080i HD Mode Adjustment..................................... 20

2-9.3. Twin Mode/Favorite/Index/Normal Mode Geometry

Confi rmation............................................................ 20

SECTION 3: SAFETY RELATED ADJUSTMENTS............................. 21

3-1. Preparation Before Confi rmation.......................................... 21

3-1.1 Hold-Down Operation Confi rmation......................... 21

3-2. B+ Max Confi rmation ........................................................... 21

3-3. HV Service Flowchart........................................................... 22

4-3. Remote Adjustment Buttons and Indicators......................... 24

4-4. Service Data Lists ................................................................ 25

4-5. ID Map Tables...................................................................... 27

SECTION 5: DIAGRAMS..................................................................... 28

5-1. Circuit Boards Location........................................................ 28

5-2. Printed Wiring Boards and

Schematic Diagrams Information......................................... 28

5-3. Block Diagrams..................................................................... 29

5-4. Schematics and Supporting Information .............................. 32

D Board Schematic Diagram (1 of 2)................................... 32

D Board Schematic Diagram (2 of 2)................................... 33

M Board Schematic Diagram (1 of 4)................................... 37

M Board Schematic Diagram (2 of 4)................................... 38

M Board Schematic Diagram (3 of 4)................................... 39

M Board Schematic Diagram (4 of 4)................................... 40

U Board Schematic Diagram................................................ 42

BM1C Board Schematic Diagram (1 of 2)............................ 44

BM1C Board Schematic Diagram (2 of 2)............................ 45

HM Board Schematic Diagram............................................. 47

UD Board Schematic Diagram............................................. 49

A Board Schematic Diagram (1 of 2).................................... 51

A Board Schematic Diagram (2 of 2).................................... 52

B Board Schematic Diagram (1 of 5) ................................... 55

B Board Schematic Diagram (2 of 5) ................................... 56

B Board Schematic Diagram (3 of 5) ................................... 57

B Board Schematic Diagram (4 of 5) ................................... 58

B Board Schematic Diagram (5 of 5) ................................... 59

HB Board Schematic Diagram............................................. 62

HC Board Schematic Diagram............................................. 64

CX Board Schematic Diagram............................................. 66

WX Board Schematic Diagram ............................................ 68

5-5. Semiconductors (1 of 2)....................................................... 72

Semiconductors (2 of 2)....................................................... 73

SECTION 6: EXPLODED VIEWS........................................................ 74

6-1. Chassis ................................................................................ 74

6-2. Picture Tube......................................................................... 75

6-3. Beznet.................................................................................. 76

SECTION 7: ELECTRICAL PARTS LIST........................................... 77

SECTION 4: CIRCUIT ADJUSTMENTS.............................................. 23

4-1. Setting Service Adjustment Mode........................................ 23

4-1.1. Service Adjustment Mode In.................................... 23

4-1.2. Service Adjustment Mode Memory.......................... 23

4-1.3. Reading the Memory ............................................... 23

4-1.4. Adjusting the Picture................................................ 23

4-1.5. Resetting the Data................................................... 23

4-1.6. Resetting the MID NVM Data .................................. 23

4-1.7. Resetting the System NVM Data............................. 23

4-1.8. Copy Function.......................................................... 23

4-2. Memory Write Confi rmation Method .................................... 24

— 3 —

SPECIFICATIONS

KV-30HS510

Power Requirements 120V, 60Hz
Number of Inputs/Outputs

S Video
Y,P

Audio Out

DVI-HDTV

Control-S (In/Out) YES

Speaker Output (W)

Power Consumption (W)

In Use (Max) 280W

In Standby 1W

Dimensions (W x H x D)

Mass

1)

Video

, P

B

Audio

2)

3)

R

4)

5)

6)

4
3
2
7
1
1

7.5W x 2

15W Subwoofer

mm 898 x 576 x 564 mm

in

35

3/8

x 22

3/4

kg 76 kg

lbs 167 lbs 9 oz

x 22

1/4

1) 1 Vp-p 75 ohms unbalanced, sync negative

2) Y: 1 Vp-p 75 ohms unbalanced, sync negative

in

C: 0.286 Vp-p (Burst signal), 75 ohms

3) Y: 1.0 Vp-p, 75 ohms unbalanced, sync negative;
PB: 0.7 Vp-p, 75 ohms
PR: 0.7 Vp-p, 75 ohms

4) 500 mVrms (100% modulation), Impedance: 47 kilohms

5) More than 408 mVrms at the maximum volume setting (variable)
More than 408 mVrms (fi x); Impedance (output): 2 kilohms

6) 3.3V T.M.D.S., 50 ohms
The DVI-HDTV input terminal is complieant with the EIA-861
standard and is not intended for use with personal computers.

KV-30HS510

Television system

American TV standard, NTSC

Channel coverage

VHF: 2-13/ UHF: 14-69/ CATV: 1-125

Picture tube

FD Trinitron® tube

Visible screen size

30-inch picture measured diagonally

Actual screen size

32-inch measured diagonally

TruSurround

TruSurround is a trademark of SRS Labs, Inc. SRS and the SRS
symbol are registered trademarks of SRS Labs, Inc. in the United
States and in select foreign countries. SRS and TruSurround are
incorporated under license from SRS Labs, Inc. and are protected
under United States Patent Nos. 4,748,669 and 4,841,572 with
numerous additional issued and pending foreign patents. Pur­chase of this product does not convey the right to sell recordings
made with the TruSurround technology.

by SRS

™

®

Antenna

75 ohm external terminal for VHF/UHF

Supplied Accessories

Remote Commander RM-RM-Y191
Two Size AA (R6) Batteries

Optional Accessories

AV Cable: VMC-810/820/830 HG
Audio Cable: RKC-515HG
Component Video Cable: VMC-10/30 HG

TV Stand: SU-30HS1

Memory Stick Media: 8MB (MSA-8A); 16MB (MSA-16A);

32MB (MSA-32A); 64MB (MSA-64A); 128MB (MSA-128A)

SRS (SOUND RETRIEVAL SYSTEM)

The SRS (SOUND RETRIEVAL SYSTEM) is manufactured
by Sony Corporation under license from SRS Labs, Inc. It is
covered by U.S. Patent No. 4,748,669. Other U.S. and foreign
patents pending.

The word ‘SRS’ and the SRS symbol are registered trade­marks of SRS Labs, Inc. BBE and BBE symbol are trademarks of
BBE Sound, Inc. and are licensed by BBE Sound, Inc. under U.S.
Patent No. 4,638,258 and 4,482,866.

Design and specifi cations are subject to change without notice.

— 4 —

WARNINGS AND CAUTIONS

CAUTION

Short circuit the anode of the picture tube and the anode cap to the metal chassis, CRT shield, or carbon painted on the CRT, after
removing the anode.

WARNING!!

An isolation transformer should be used during any service to avoid possible shock hazard, because of live chassis. The chassis of
this receiver is directly connected to the ac power line.

! SAFETY-RELATED COMPONENT WARNING!!

KV-30HS510

Components identifi ed by shading and ! mark on the schematic diagrams, exploded views, and in the parts list are critical for safe
operation. Replace these components with Sony parts whose part numbers appear as shown in this manual or in supplements
published by Sony. Circuit adjustments that are critical for safe operation are identifi ed in this manual. Follow these procedures
whenever critical components are replaced or improper operation is suspected.

ATTENTION!!

Apres avoir deconnecte le cap de l’anode, court-circuiter l’anode du tube cathodique et celui de l’anode du cap au chassis metallique
de l’appareil, ou la couche de carbone peinte sur le tube cathodique ou au blindage du tube cathodique.

Afi n d’eviter tout risque d’electrocution provenant d’un chássis sous tension, un transformateur d’isolement doit etre utilisé lors de tout
dépannage. Le chássis de ce récepteur est directement raccordé à l’alimentation du secteur.

! ATTENTION AUX COMPOSANTS RELATIFS A LA SECURITE!!

Les composants identifi es par une trame et par une marque ! sur les schemas de principe, les vues explosees et les listes de pieces
sont d’une importance critique pour la securite du fonctionnement. Ne les remplacer que par des composants Sony dont le numero
de piece est indique dans le present manuel ou dans des supplements publies par Sony. Les reglages de circuit dont l’importance
est critique pour la securite du fonctionnement sont identifi es dans le present manuel. Suivre ces procedures lors de chaque
remplacement de composants critiques, ou lorsqu’un mauvais fonctionnement suspecte.

— 5 —

SAFETY CHECK-OUT

g

KV-30HS510

After correcting the original service problem, perform the following
safety checks before releasing the set to the customer:

1. Check the area of your repair for unsoldered or poorly soldered
connections. Check the entire board surface for solder splashes and
bridges.

2. Check the interboard wiring to ensure that no wires are “pinched” or
touching high-wattage resistors.

3. Check that all control knobs, shields, covers, ground straps, and
mounting hardware have been replaced. Be absolutely certain that
you have replaced all the insulators.

4. Look for unauthorized replacement parts, particularly transistors,
that were installed during a previous repair. Point them out to the
customer and recommend their replacement.

5. Look for parts which, though functioning, show obvious signs of
deterioration. Point them out to the customer and recommend their
replacement.

6. Check the line cords for cracks and abrasion. Recommend the
replacement of any such line cord to the customer.

7. Check the B+ and HV to see if they are specifi ed values. Make sure
your instruments are accurate; be suspicious of your HV meter if
sets always have low HV.

8. Check the antenna terminals, metal trim, “metallized” knobs, screws,
and all other exposed metal parts for AC leakage. Check leakage as
described below.

Leakage Test

The AC leakage from any exposed metal part to earth ground and from
all exposed metal parts to any exposed metal part having a return to
chassis, must not exceed 0.5 mA (500 microamperes). Leakage current
can be measured by any one of three methods.

1. A commercial leakage tester, such as the Simpson 229 or RCA
WT-540A. Follow the manufacturers’ instructions to use these
instructions.

2. A battery-operated AC milliampmeter. The Data Precision 245 digital
multimeter is suitable for this job.

3. Measuring the voltage drop across a resistor by means of a VOM
or battery-operated AC voltmeter. The “limit” indication is 0.75 V,
so analog meters must have an accurate low voltage scale. The
Simpson’s 250 and Sanwa SH-63TRD are examples of passive
VOMs that are suitable. Nearly all battery-operated digital multimeters
that have a 2 VAC range are suitable (see Figure A).

How to Find a Good Earth Ground

A cold-water pipe is a guaranteed earth ground; the cover-plate retaining
screw on most AC outlet boxes is also at earth ground. If the retaining
screw is to be used as your earth ground, verify that it is at ground by
measuring the resistance between it and a cold-water pipe with an
ohmmeter. The reading should be zero ohms.

If a cold-water pipe is not accessible, connect a 60- to 100-watt trouble­light (not a neon lamp) between the hot side of the receptacle and the
retaining screw. Try both slots, if necessary, to locate the hot side on the
line; the lamp should light at normal brilliance if the screw is at ground
potential (see Figure B).

To Exposed Metal
Parts on Set

0.15 µF

Figure A. Using an AC voltmeter to check AC leakage. Figure B. Checking for earth ground.

kΩ

1.5

Earth Ground

AC V oltmeter
(0.75 V)

— 6 —

AC Outlet Box

Ohmmeter

Cold-water Pipe

KV-30HS510

SELF-DIAGNOSTIC FUNCTION

Self Diagnosis

Supported model

The units in this manual contain a self-diagnostic function. If an error occurs, the STANDBY/TIMER LED will automatically begin to fl ash. The number
of times the LED fl ashes translates to a probable source of the problem. A defi nition of the STANDBY/TIMER LED fl ash indicators is listed in the
instruction manual for the user’s knowledge and reference. If an error symptom cannot be reproduced, the Remote Commander can be used to review
the failure occurrence data stored in memory to reveal past problems and how often these problems occur.

Diagnostic Test Indicators

When an error occurs, the STANDBY/TIMER LED will fl ash a set number of times to indicate the possible cause of the problem. If there is more than
one error, the LED will identify the fi rst of the problem areas.

Results for all of the following diagnostic items are displayed on screen. If the screen displays a “0”, an error has occurred.

No. of times

Diagnostic Item

Power does not turn on Does not light _______

+B Overcurrent (OCP)* 2 times 2: 0 or 2:1

Low +B Overvoltage (OVP) 3 times 3:0 or 3:1
Vertical Deflection Stopped 4 times 4:0 or 4:1

White Balance Failure
(not balanced)

LOW +B OCP/OVP
(overcurrent/overvoltage)***

Horizontal Deflection
Stopped

STANDBY /

TIMER lamp

flashes

5 times 5:0 or 5:1

6 times 6:0 or 6:1

7 times 7:0 or 7:1

Display

Result

Probable Cause Location Detected Symptoms

• Power cord is not plugged in.

• Fuse is burned out (F501). (A Board)

• H.OUT (Q5030) is shorted. (D Board)

• +B PWM (Q5003) is shorted.

(D Board)

• IC6505 is faulty. (D Board) • Has entered standby mode.

• 15V is not supplied. (D Board)

• IC5004 is faulty. (D Board)

• Video OUT (IC9001-IC9003) is faulty.

(CX Board)

• CRT drive (IC2801) is faulty. (B Board)

• G2 is improperly adjusted.**

• +5 line is overloaded. (A, B, M Boards)

• +5 line is shorted. (A, B, M Boards)

• IC504 is faulty. (A Board)

• Power does not come on.

• No power is supplied to the TV.

• AC Power supply is faulty.

• Power does not come on.

• Load on power line shorted.

• Has entered standby mode after

Horizontal raster.

• Vertical deflection puls e is stopped.

• Power line is shorted or power

supply is stopped.

• No raster is generated.

• CRT cathode current detection

reference pulse output is small.

• No picture

• No picture

* If a +B overcurrent is detected, stoppage of the vertic al deflecti on is detec ted simultaneously. The symptom that is diagnosed first by the

microcontroller is displayed on the screen.
** Refer to Screen (G2) in Section 2-5 of this manual.
*** If STANDBY/STEREO LED flashes six (6) times, unplug the unit and wait 10 seconds before performing the adjustment.

Display of Standby/Timer LED Flash Count

Diagnostic items Flash count

+B Overcurrent 2 times
Low +B Overvoltage 3 times
Vert. Deflection Stopped 4 times
White Balance Failure 5 times
Low +B OCP/OVP 6 times
Horiz. Deflection Stopped 7 times

Lamp ON 0.3 sec.
Lamp OFF 0.3 sec.

Stopping the Standby/Timer LED Flash

Turn off the power switch on the TV main unit or unplug the power cord from the outlet to stop the STANDBY/TIMER LAMP from fl ashing.

Lamp OFF 3 sec.

Standby/Timer LED

* One fl ash count is not used for
self-diagnostic.

— 7 —

KV-30HS510

Self-Diagnostic Screen Display

For errors with symptoms such as “power sometimes shuts off” or “screen sometimes goes out” that cannot be confi rmed, it is possible to bring up past
occurrences of failure on the screen for confi rmation.

To Bring Up Screen Test

In standby mode, press buttons on the Remote Commander sequentially, in rapid succession, as shown below:

DISPLAY

Channel 5 Sound volume - Power ON.

SELF DIAGNOSIS
2: +B OCP 0

3: +B OVP 0
4: VSTOP 0
5: AKB 1
6: LOWB 0
7: H-STOP 0

Numeral “0”

means that no fault was detected.

Numeral “1”

means a fault was detected one
time only.

101: WDT 24

Handling of Self-Diagnostic Screen Display

Since the diagnostic results displayed on the screen are not automatically cleared, always check the self-diagnostic screen during repairs. When you
have completed the repairs, clear the result display to “0”.
Unless the result display is cleared to “0”, the self-diagnostic function will not be able to detect subsequent faults after completion of the repairs.

Clearing the Result Display

To clear the result display to “0”, press buttons on the Remote Commander sequentially when the diagnostic screen is displayed, as shown below:

8

ENTERChannel

Quitting the Self-Diagnostic Screen

To quit the entire self-diagnostic screen, turn off the power switch on the Remote Commander or the main unit.

Self-Diagnostic Circuit

STBY-LED

IC2300

MAIN MICRO

STR

48

STBY-LED

44

OCP

45

OVP

43

LOW B ERR

AC RLY

CLKO

29

DATO

30

69

Q6527

Q6530

Q6532

A

IC504

M

5V UNREG 7V

IO

O

IC2801

Y/C JUNGLE

SCL

26

25

SDA

RY6501

P_SW(-)

21

34

1K-PROT2

+B OVP

D6537

D6505

HV PROT

D5007

M

AKB

58

CRT

35

VPROT

HPROT

VDY-

34

R5104 R5105

R5125

UNREG 11V

Q5018

D

B

IC5007

2

14

PH6501

1

4

2

3

+B +B

5V

D

IC6505

+B

R5013

2

1

3

Q6522

D

Q5004

+B OCP

D5005

— 8 —

KV-30HS510

+B overcurrent (OCP)

Occurs when excessive current fl ows through R5013. The increase in voltage across R5013 causes the output of Q5004 to go high, and this high
signal goes to the micro.

+B overvoltage (OVP)

IC6505 detects +B OVP condition and turns on Q6522. This sends a high signal to the micro and also shuts down the AC relay.

V-STOP

Occurs when an absence of the vertical defl ection pulse is detected by pin 24 of IC2801 (B Board). Power supply will shut down when waveform
interval exceeds 2 seconds.

White Balance Failure

If the RGB levels* do not balance within 2 seconds after the power is turned on, this error will be detected by IC2801. TV will stay on, but there will be
no picture.

*(Refers to the RGB levels of the AKB detection Ref pulse that detects 1K).

Low B OCP/OVP

Occurs when set 5V is out.

Horizontal Defl ection Stopped

Occurs when either:

1) a +B overcurrent is detected (IC5007), or

2) overheating is detected (Thermistor TH5002).

— 9 —

1-1. REAR COVER REMOVAL

3 Screws
+BVTP 4 x 16

KV-30HS510

SECTION 1: DISASSEMBLY

4 Screws
+BVTP 4 x 16

Rear Cover

6 Screws
+BVTP 4 x 16

1-2. CHASSIS ASSEMBLY REMOVAL

1

Lift lever up on the right and left sides of the chassis

bracket and gently pull the chassis assembly away from
the bezel.

Pull up and rotate both the A and D Boards in order to

2

service the unit.

1-3. SERVICE POSITION

1

CAUTION! - Heat sink on IC5004 is -15V. Care must be

taken not to allow heat sink to touch any other components.

2

Lift lever up on the right and left sides of the chassis bracket

and gently pull the chassis assembly away from the bezel.

Pull up and rotate both the A and D Boards in order to

3

service the unit.

— 10 —

1-4. PICTURE TUBE REMOVAL

WARNING: BEFORE REMOVING THE ANODE CAP
High voltage remains in the CRT even after the power is disconnected. To avoid electric shock,
discharge CRT before attempting to remove the anode cap. Short between anode and CRT
coated earth ground strap.

KV-30HS510

Coated

Earth

Ground

Strap

8

1

9

11

1. Discharge the anode of the CRT and remove the
anode cap.

2. Unplug all interconnecting leads from the defl ection
yoke, neck assembly, degaussing coils and CRT

7

3

grounding strap.

3. Remove the Speaker Assemblies.

6

4. Remove the CX Board from the CRT.

4

5. Remove the chassis assembly.

6. Loosen the neck assembly fi xing screw and remove.

7. Loosen the defl ection yoke fi xing screw and remove.

2

8. Place the set with the CRT face down on a cushion
and remove the degaussing coil holders.

9. Remove the degaussing coils.

10

10. Remove the CRT grounding strap and spring tension
devices.

11. Unscrew the four CRT fi xing screws [located on each

5

CRT corner] and remove the CRT [Take care not to
handle the CRT by the neck].

ANODE CAP REMOVAL PROCEDURE

WARNING: High voltage remains in the CRT even after the power is disconnected. To avoid electric shock, discharge CRT before attempting to
remove the anode cap. After removing the anode cap, short circuit to either the metal chassis, CRT shield, or carbon painted on the CRT.

NOTE: After removing the anode cap, short circuit the anode of the picture tube and the anode cap to either the metal chassis, CRT shield or carbon
painted on the CRT.

REMOVAL PROCEDURES

a

Turn up one side of the rubber cap in
the direction indicated by arrow a .

b

Use your thumb to pull the rubber
cap fi rmly in the direction indicated
by arrow b .

HOW TO HANDLE AN ANODE CAP

1. Do not use sharp objects which may cause damage to the surface of the anode
cap.

2. To avoid damaging the anode cap, do not squeeze the rubber covering too
hard. A material fi tting called a shatter-hook terminal is built into the rubber.

3. Do not force turn the foot of the rubber cover. This may cause the shatter-hook
terminal to protrude and damage the rubber.

Anode Button

When one side of the rubber cap separates from
the anode button, the anode cap can be removed
by turning the rubber cap and pulling it in the
direction of arrow c .

c

— 11 —

SECTION 2: SET-UP ADJUSTMENTS

KV-30HS510

The following adjustments should be made when a complete
realignment is required or a new picture tube is installed.

These adjustments should be performed with rated power supply
voltage unless otherwise noted.

The controls and switch should be set as follows unless otherwise
noted:

VIDEO MODE: STANDARD (RESET)

2-1. BEAM LANDING

Preparation:

• Use cross hatch signal to rough adjust focus, G2 and then input a

white pattern signal.

• Face the picture tube in an East or West direction to reduce the

infl uence of geomagnetism.

• Confi rm data in service mode to match with CRT screen size.

• CXA2170D-4

• CXA8070 (Should be set to default)

• VCEN, VPIN, HTPZ, PPHA, VANG, LANG, VBOW, LBOW
(Should be set to default value).

• Set all user compensations to their default settings.

Perform the adjustments in order as follows:

1. Beam Landing

2. Convergence

3. Focus

4. Screen (G2)

5. White Balance

Test Equipment Required:

1. Color Bar Pattern Generator

2. Degausser

3. DC Power Supply

4. Digital Multimeter

4. Move the defl ection yoke backwards, (See Figure 1) and adjust with
the purity control so that green is in the center and red and blue are
even on both sides.

Blue Red

Green

5. Move the defl ection yoke forward, and adjust so that the entire screen
becomes green.

NOTE: Do not use the hand degausser; it magnetizes the CRT .

1. Input white pattern from pattern generator. Set the PICTURE control
to maximum, and the BRIGHTNESS control to standard.

2. Loosen the defl ection yoke mounting screw, and set the purity
control to the center as shown below:

Purity Control

3. Input a green pattern from the pattern generator.

Figure 1

6. Switch over the raster signal to red and blue and confi rm the
condition.

7. When the position of the defl ection yoke is determined, tighten it with
the defl ection yoke mounting screw.

— 12 —

KV-30HS510

8. Set corner landing adjustments.
To get optimal landing, adjust LT, LB, RT, and RB with Service Data -/+

70.

NOTE: If landing adjustment exceeds the limit, as a last resort you can

adjust it by using the disk magnets.

Purity control

corrects this area

Disk magnets
or rotatable disk
magnets correct

these areas (a-d)

b

d

cd

Deflection yoke positioning

corrects these areas

ba

a

c

3. Horizontal lines should be straight from left to right. Check landing for
side effect.

2-3. CONVERGENCE

Preparation:

• Set the CONTRAST and BRIGHTNESS control to standard (reset).

• Input a cross hatch pattern signal.

2-3.1. VERTICAL AND HORIZONTAL STATIC

CONVERGENCE

1. Disconnect the dynamic convergence before adjusting static
convergence (CN903), except for minor touch-up.

2. Adjust H.STAT convergence, RV9001, to converge red, green, and
blue dots in the center of the screen.

3. Connect dynamic convergence back.

4. Adjust V. STAT magnet to converge red, green and blue dots in the
center of the screen.

Center dot

R
G
B

2-2. V-PIN AND V -CEN ADJUSTMENT

Preparation:

• Input a cross hatch pattern signal.

• Set Video Mode to: Standard (Reset)

• For all 4X3 CRT, VPIN data has separate register for full and V­compress. Adjust both modes if needed.

1. Adjust service mode CXA2170D-1 05 V-CEN so that the top pin and
bottom pin are symmetrical from top to bottom.

2. Adjust service mode CXA2170D-1 06 V-PIN so that the top pin and
bottom pin are symmetrical from top to bottom.

RV9001

R G B

H-STAT

V.STAT magnet

5. Tilt the V.STAT magnet and adjust static convergence to open or close
the V.STAT magnet.

1

B
G

R

B
G

R

— 13 —

KV-30HS510

2-3.2. OPERATION OF BMC (HEXAPOLE)

MAGNET

The respective dot positions result from moving each magnet interact.
Perform the following adjustments while tracking.

1. Use the BMC tabs to adjust the red, green and blue dots so that
they line up at the center of the screen (move the dots in a horizontal
direction).

HMC Correction HMC Correction

A>B

A=B

R

B

GB

R

AB

RGB

AB

C=D

R

G

B

A=B

VMC Correction

C<D

R

C

G

D

B

A<B

R

AB

RGB

AB

C=D

GB

R

G

B

VMC Correction

C<D

C

G

D

2-3.3. TLH PLATE ADJUSTMENT

Preparation:

• Input a cross hatch pattern signal.

• Adjust unbalanced horizontal convergence of red and blue dots by
adjusting the TLH Plate on the defl ection yoke.

TLV

WX Board

TLH Plate

RV9001

B R

(R)(B)

Adjust XCV core to balance X axis.

2. Adjust the vertical red and blue convergence with V.TILT (TLV VR).

Note: Perform adjustments while tracking Item 1.

R B

(B)(R)

XCV

TLH+

TLH-

1.

2-3.4. SCREEN-CORNER CONVERGENCE

Preparation:

• Input a cross hatch pattern signal.

1. Affi x a permalloy assembly corresponding to the misconverged areas.

a

a

a-d: screen-corner

misconvergence
c

b

d

c

b

d

— 14 —

2-4. FOCUS ADJUSTMENT

Confi rm neck assembly Z axis position

1. Input a dot signal.

2. Set Video Mode to STANDARD.

3. Input a HD monoscope signal.

4. Confi rm center focus with focus VR.

KV-30HS510

NECK ASSEMBL Y

FOCUS

Screen (G2)

DOT SHAPE:

NOTE: Changing neck assembly position will affect corner convergence.

NOTE: Just position is the adjustment

position from the center location
indicated.

NOTE: The Neck Assembly tilt
can effect dot shape.

2-4.1. DYNAMIC FOCUS/DYNAMIC QUADRA-POLE DATA

Normally, no adjustments are necessary for these systems. If for some reason the data is lost, use the initial data.

— 15 —

2-5. SCREEN (G2)

1. Input composite white fi eld into Video 1.

2. Set to service mode and adjust as follows:

(Fig 1) Operation Procedure Standards Notes
CXA2170P-2 PICO 1 0

KV-30HS510

1) In Full mode, apply changes in
Fig 1

2) Mount G2 adjustment jig.

170 +/- 5 (Vdc)

30HS510

Adjust Cathode voltage if the
standard is not met. Standard
varies by CRT size.

3) Adjust G2 by Flyback
Transformer (T8001).

4)Return data changes in 1) to
original condition.

— 16 —

KV-30HS510

NO. Name Control Function Avg. Data

01 RGBS R ON 7

2170P-2

NO. Name Control Function

05 SCLO SUB-COLOR
06 SHUO SUB-HUE

2170P-4

NO. Name Control Function Avg. Data

01 RGBS R ON 4

2170P-2

NO. Name Control Function

02 SCON SUB-CONT

2103-1

2-6. PICTURE QUALITY ADJUSTMENTS

Preparation:

• Set PRO MODE (Reset).

1. Input signal (480i Composite):

• Color Bar Video 75 IRE (White) 75% modulation 7.5% Set-up.

• Color Bar RF 75 IRE (White) 75% modulation 7.5% Set-up.

2-6.1. VIDEO INPUT - SUB CONTRAST

ADJUSTMENT

Preparation:

• Input a Color Bar signal to VIDEO 1 (75 IRE 75%).

• Set picture mode: Single (PRO MODE Reset).

• Picture: Max

1. Set to Service Mode and adjust as follows:

2170P-2

NO. Name Control Function Avg. Data

01 RGBS R ON 4

2. Connect oscilloscope to Pin 1 of CN9001 (R.DRV) on the C Board.

3. Adjust contrast according to the service mode item: SPIO.

2170-P4

NO. Name Control Function

04 SPIO SUB-CONT

2-6.2. VIDEO INPUT - SUB HUE/SUB COLOR

ADJUSTMENT

Preparation:

• Input a Color Bar signal to VIDEO 1 (75 IRE 75%).

• Set picture mode: Single (PRO MODE Reset).

• Picture: Max

1. Set to Service Mode and adjust as follows:

2. Connect an oscilloscope to Pin 5 of CN9001 (B. DRV) on the C Board.

3. Adjust color according to Service Mode for SCLO.

4. Adjust color according to Service Mode for SHUO.

VB4

VB3VB2VB1

white

VR1

VR2

VR

(KV-30HS510) = 1.67 ± 0.05 Vpp

4. Write data from Step 3 above, into memory.

black

GND

COLOR: VB1 < VB4 (=20 ± 40 mV)

HUE: VB2 <

7. Write data into memory.

VB3 (=20 ± 40 mV)

2-6.3. RF INPUT - TWO PICTURE SUB

CONTRAST ADJUSTMENT

Preparation:

• Input a Color Bar signal to RF (75 IRE 75%).

• Set picture mode: P&P (PRO MODE).

• Picture: Max

1. Set to Service Mode and adjust as follows:

2. Connect an oscilloscope to Pin 1 of CN9001 (R. DRV) on the C Board.

3. Adjust MAIN (left) side contrast according to service mode for SCON.

— 17 —

KV-30HS510

NO. Name Control Function

03 SCOL SUB COLOR
04 SHUE SUB HUE

2103-2

4. Adjust SUB (right) side contrast according to Service Mode for SCON.

2103-2

NO. Name Control Function

02 SCON SUB-CONT

6. Adjust SUB (right) side color according to Service Mode for SHUE.

white

VR1

black

VR2

VR

(KV-30HS510) = 1.67 ± 0.05 Vpp

5. Write data from Steps 3 - 4 above, into memory.

6. Set Service Mode

2-6.4. RF INPUT - SUB HUE/SUB COLOR

GND

7. Write data into memory.

2-7. WHITE BALANCE (CRT) AND SUB

ADJUSTMENT

Preparation:

• Input a Color Bar signal to RF (75 IRE 75%).

• Set picture mode: P&P (PRO MODE Reset).

• Picture: Max

Preparation

• Input an all white 480I (15.734 KHz) signal into the VIDEO 1 input

VB4

VB3VB2VB1

COLOR: VB1 < VB4 (=20 ± 40 mV)

HUE: VB2 <

VB3 (=20 ± 40 mV)

BRIGHT ADJUSTMENT

terminal to perform the White Balance (highlight, cut-off) adjustments.
The parameters to adjust are in the CXA2170P in Service Mode.

1. Set to Service Mode and adjust as follows:

2170P-2

NO. Name Control Function Avg. Data

01 RGBS R ON 7

2. Connect an oscilloscope to pin 5 of CN9001 (B. DRV) on the C Board.

3. Adjust MAIN (left) side color according to Service Mode for SCOL.

4. Adjust MAIN (left) side color according to Service Mode for SHUE.

2103-1

NO. Name Control Function

03 SCOL SUB COLOR
04 SHUE SUB HUE

5. Adjust SUB (right) side color according to Service Mode for SCOL.

32RVE

— 18 —

KV-30HS510

2-7.1. COLOR OFFSET ADJUSTMENT

PROCEDURE

Preparation:

• Input an all white (30 IRE) signal to the specifi ed input.

• Adjust the white balance using the specifi ed registers.

VIDEO 1

CXA2103-1

NO. Name Control Function

20 CBO1 CB OFFSET
21 CRO1 CR OFFSET

VIDEO 5

CXA2103-1

NO. Name Control Function

20 CBO1 CB OFFSET
21 CRO1 CR OFFSET

VIDEO7-DVI

CXA2103-1

NO. Name Control Function

22 CBO2 CB01 (FROM VIDEO 5) - 5
23 CRO2 CR01 (FROM VIDEO 5) -4

2-8. H RASTER CENTER ADJUSTMENT

Preparation:

• Input a monoscope signal.

• Set to NTSC (DRC) mode.

5. Restore aging, HSIZ and HBLK to original condition.

Raster Edge Equal:

RASTER
EDGES

RASTER

2-9. PICTURE DISTORTION ADJUSTMENTS

2-9.1. NTSC (DRC) FULL MODE

ADJUSTMENT

1. Face the picture tube in an east-west direction. (For best condition.)

2. Complete V-PIN and V-CEN adjustments fi rst (A2170-D1 06 V-PIN,
A2170-D1 05 V-CEN).

3. Input a monoscope and crosshatch signal. Adjust the picture
distortion with the following service parameters to balance the best
condition for these two signals.

NOTE: Make sure that the picture size is within specs. Vertical size is

11.8 ± 0.1 sq. and horizontal size is 15.8 ± 0.1 sq.

4. Write data into memory before changing modes.

CXA2170D-1

Item 0. VPOS (V-POSITION)

1. Set to Service Mode and adjust as follows:

CXA2150P-2

NO. Name Control Function Avg. Data

06 AGNG AGING 1, AGING 2 2

CXA2150D-2

NO. Name Control Function Avg. Data

02 HSIZ Horiz Size 45

CXA2150D-3

NO. Name Control Function Avg. Data

00 HBLK Blanking Enable 0

2. Reduce HSIZ to see sides of raster.

3. Adjust H-Center with CXA2170D-2.

4. Adjust to the best screen position with H-CENT and write data.

Item 1. VSIZ (V-SIZE)

Item 3. VLIN (V-LINE)

Item 4. VSCO (VS-COR)

Item 9. HTPZ (H-TRAPEZOID)

— 19 —

KV-30HS510

A

2150-D2 01 HPOS

CXA2170D-2

Item 1. HPOS (H-POSITION)

Item 2. HSIZ (H-SIZE)

Item 5. PIN (PIN AMP)

Item 7. UCP (UP COR PIN COR)

Item 8. LCP (LOW CO PIN COR)

Item 14. PPHA (PIN PHASE)

Item 15. VANG (AFC-ANGLE)

Item 16. LANG (L-ANGLE)

2-9.2. 1080I HD MODE ADJUSTMENT

1. Input a 1080i cross-hatch signal and an HD monoscope signal that
contains overscan markers.

2. Adjust the raster position per Section 2-8., only if this procedure was
not performed for full mode.

3. Adjust the geometry similar to Full DRC mode. Vertical size is 11.7
± 0.1 sq. and horizontal size is 15.6 ± 0.1 sq., if monoscope signal is
available. Otherwise, set the Vertical size to 91.0 ± 0.6% scan and
Horizontal size as 91.0 ± 0.6% scan.

4. Use the following register to adjust the horizontal parameter:

NOTE: If necessary, touch up the geometry using the data register

listed above for Full mode. Check NTSC full mode for side
effect and balance.

5. Write the data into memory before changing modes.

2-9.3. TWIN MODE/FAVORITE/INDEX/

NORMAL MODE GEOMETRY
CONFIRMATION

TWIN mode and FAVORITE mode use the FULL mode adjustment data.
The key point for TWIN mode adjustment is the blue border appearance.
The left border on the left picture should not be visible when the left
picture is selected. Similarly, the right border on the right picture should
not be visible when the right picture is selected. Balance the HPOS or
HSIZ data for FULL and TWIN mode.

For INDEX mode, however, no clipping of the picture edge should be
visible for the small sampled pictures on the right side. Adjust HSIZ/
HPOS to balance FULL and INDEX mode for this. Avoid displaying the
edge of the raster in FULL or FAVORITE mode.

Item 17. VBOW (AFC-BOW)

Item 18. LBOW (L-BOW)

— 20 —

SECTION 3: SAFETY RELATED ADJUSTMENTS

3-1. PREPARATION BEFORE

CONFIRMATION

KV-30HS510

3-2. B+ MAX CONFIRMATION

Standard.............................................................................135.3 ± 1 VAC

Check Condition:
AC input voltage: 120 (± 2) VAC
Note: If using a stabilized power supply, make sure that the distortion

factor is 3% or less.

Setting Mode: ............................................................................Full mode

Signal Input: ............................................................Cross-hatch of NTSC

Initial Setting:.....................................................Standard Reset condition

Confi rm Point:............................Across CN5509 PIN 9 for B+ of D Board

3-1.1 HOLD-DOWN OPERATION

CONFIRMATION

1. Using an external DC power supply, apply 5.3 ± 0.5 Vdc between

Pin 2 of CN507 (jig connector) and ground (Pin 8); confi rm set goes

to hold-down (main power relay click).

2. Remove the external DC power supply.

Standard 135.3 ± 1 VAC
Check Condition:

AC input voltage: 120 (± 2) VAC
Note: If using a stabilized power supply, make sure that the distortion

factor is 3% or less.

Setting Mode: ............................................................................Full mode

Signal Input: ............................................................Cross-hatch of NTSC

Initial Setting:.....................................................Standard Reset condition

Confi rm Point:............................Across CN5509 PIN 9 for B+ of D Board

— 21 —

3-3. HV SERVICE FLOWCHART

KV-30HS510 HV SERVICE FLOW CHART

Start

KV-30HS510

Is D board

replaced?

Yes

Confirm +B, and check Hold down on D board with black video with the
following steps:

1. Confirm +B across C6544 to make sure it is 135.3+1Vdc

2. Apply 5.3+0.5Vdc at pin 2 of CN6544 then confirm set holds down.

No No

If all adjustments are finished, then cap and seal

RV8002 with epoxy (or verify RV8002 is capped

and sealed) to prevent any possible misadjustment

Is FBT/Strike/

Spare mark part

changed?

Yes

Is HV correct?

(30.4+0.2kV)

Yes

by unauth orized service.

No

1. Replace RV8002 with the correct part

2. Adjust RV8002 to 30.40+0.2kV at video
cut off (black video) after 10-15 min
warm up.

Finished with HV

service!

— 22 —

SECTION 4: CIRCUIT ADJUSTMENTS

ELECTRICAL ADJUSTMENTS BY REMOTE COMMANDER

Use the Remote Commander (RM-Y191) to perform the circuit adjustments in this section.
Test Equipment Required: 1. Pattern generator 2. Frequency counter 3. Digital multimeter 4. Audio oscillator

KV-30HS510

4-1. SETTING SERVICE ADJUSTMENT MODE

1. Standby mode (Power off).

2. Press the following buttons on the remote commander within a
second of each other:

DISPLAY

Channel 5 Sound Volume + Power

4-1.1. SERVICE ADJUSTMENT MODE IN

Item
order

0

TV

Item
data

7

SERVICE

Mode

Disp.
(Item)

VP
HSIZ

3. The CRT displays the item being adjusted.

4. Press 1 or 2 on the Remote Commander to select the item.

5. Press

3

or 6 on the Remote Commander to change the data.

6. Press MUTING then ENTER to write into memory.

4-1.2. SERVICE ADJUSTMENT MODE

MEMORY

Item
order

0

TV

Disp.
(Item)

Item
data

7

SERVICE

Item
order

Item
data

MUTING

ENTER

Green

Red

Disp.
(Item)

VP
HSIZ

7. Press then on the Remote Commander to initialize.

4-1.3. READING THE MEMORY

1. Enter into Service Mode.

2. Press

3. Press

0

on the Remote Commander.

ENTER

to read memory.

4-1.4. ADJUSTING THE PICTURE

1. Enter into Service Mode

2. Press

3. Press

4. Press

5. Press

2

or 5 on the remote to select the device item.

1

or 4 on the remote to select an item.
or 6 on the remote to change the data.

3

ENTER

MUTING

then

to write into memory.

4-1.5. RESETTING THE DATA

Note: Be careful when using the remote! It will clear and re-initialize

ALL NVM data including defl ection adjustment data if not reset
properly as follows:

4-1.6. RESETTING THE MID NVM DATA

1. Enter into Service Mode.
7

2. Press

, then

JUMP

, and then press

ENTER

on the remote.

4-1.7. RESETTING THE SYSTEM NVM DATA

1. Enter into Service Mode.

2. Press 7, then 9, and then press

ENTER

on the remote.

4-1.8. COPY FUNCTION

How to use copy function for DA4 Chassis:

• After writing your adjusted data into NVM

ENTER

then

1

then

, copy can be made by changing copy data from

MUTING, ENTER

again.

MUTING

WARNING: DO NOT copy data before writing your corrected data in

NVM. If data is copied before writing corrected data, old
data will be copied.

• CPY1: DF/DQP DATA (CXA2170D-4 Item 6)

• CPY2: CONVERGENCE DATA (D-CONV Item 13)

0

to

VP
HSIZ

7

TV

WRITE

0

8. DO NOT turn off set until SERVICE appears.

— 23 —

4-2. MEMORY WRITE CONFIRMATION

METHOD

1. After adjustment, pull out the plug from the AC outlet, then replace
the plug in the AC outlet again.

2. Turn the power switch ON and set to Service Mode.

3. Call the adjusted items again to confi rm they were adjusted.

4-3. REMOTE ADJUSTMENT BUTTONS AND

INDICATORS

KV-30HS510

MUTING

(Enter into
memory)

Disp. (Item up)

(Device Item Up)

Disp.
(Item Down)

1

2

4

8

(Initialize)

VOLUME (+)

(Service Mode)

POWER

(Service Mode)

3
Item
(Data Up)

6
Item

(Data Down)

5

(Device Item

Down)

ENTER

(Enter into
Memory)

0

(Remove from
Memory)

DISPLAY

(Service Mode)

RM-Y191

— 24 —

— 25-A —

KV-30HS510

4-4. SERVICE DATA LISTS

Category Name No. Item Name

Range Initial Data

VERSION 0 VER

0,1 0

1 DMY1

0-255 0

3D_COMB 0 NRMD 0-3 0

1 CLKS

0-3 1

2 NSDS

0-3 0

3 MSS

0-3 0

4 KILS

0-3 1

5 FRZE

0, 1 0

6 EXCS

0-3 1

7 CDL

0-7 4

NRMD(0) NRMD(1) NRMD(2) NRMD(3)

8 DYCO

0-15 2 2 2 2

9 DYGA

0-15 10 10 10 10

10 DCCO

0-15 5 5 5 5

11 DCGA

0-15 5 5 5 5

12 WSC

0-2 1

13 WSS

0, 1 0

Vivid Standard Movie Pro

14 VAPG

0-7 4 2 2 0

15 VAPI

0-31 4 4 4 0

16 TEST

0, 1 0

Vivid Standard Movie Pro TWIN

RF CV/YC RF CV/YC RF CV/YC RF CV/YC Any

17 YPFT

0-3 3 3 3 3 3 3 3 3 3

18 YPFG

0-15 9 5 7 5 5 6 5 5 6

19 SEDC

0, 1 0

20 SEDY

0, 1 1

21 YHCO

0-3 1

22 YHCG

0, 1 0

23 SYSP

0-3 0

24 TES2

0-7 0

— 25-B —

KV-30HS510

Category Name No. Item Name

Range Initial Data

2103_1

480i Others

0 YLEV

0-62 34 20

1 CLEV

0-63 40 17

RF CV/YC

2 SCON

0-15 9 9

3 SCOL

0-15 2 2

4 SHUE

0-15 11 5

5 YDLY

0-3 0 0

RF CV

V5

Y

C

6 SHAP

0-15 9 8 4 8

7 SHF0

0-3 0 0 3 0

8 PREO

0-3 3 3 3 3

9 BPF0

0-3 3

10 BPFQ

0-3 0

RF CV/YC

11 BPSW

0, 1 1 0

12 TRAP

0, 1 0

13 LPF

0, 1 1

RF CV/YC Others

14 AFCG

0, 1 1 0 0

15 CDMD

0-3 3 3 3

16 SSMD

0-3 0 0 0

RF CV/YC

V5/V6 DVI

17 HMSK

0, 1 0 1 1 0

18 HALI

0, 1 0

RF CV/YC

V

5/V6 DVI

19 PPHA

0-15 7 7 7 0

RF V5/V6

20 CBO1

0-63 34 36

21 CRO1

0-63 32 38

22 CBO2

0-63 32

23 CRO2

0-63 32

Single BLK(0) BLK(1) BLK(2) BLK(3)

24 ATPD

0-3 0 1 1 2 1

25 DCTR

0-3 0 2 1 3 2

— 25-C —

KV-30HS510

Category Name No. Item Name

Range InitialData

2103_2

DRC VDO

0 YLEV

0-63 41 35

1 CLEV

0-63 31 42

RF CV/YC

2 SCON

0-15 9 9

3 SCOL

0-15 2 2

4 SHUE

0-15 11 5

5 YDLY

0-3 0 0

6 SHAP

0-15 6 8

7 SHF0

0-3 0 0

8 PREO

0-3 3 3

9 BPF0

0-3 3

10 BPFQ

0-3 0

RF CV/YC

11 BPSW

0, 1 1 0

12 TRAP

0, 1 0

DRC

VDO

13 LPF

0, 1 1 0

RF CV/YC

14 AFCG

0, 1 1 0

15 CDMD

0-3 3 3

16 SSMD

0-3 0 0

17 HMSK

0, 1 0 1

18 HALI

0, 1 0

RF CV/YC

19 PPHA

0-15 7 7

20 CBO1

0-63 34

21 CRO1

0-63 32

— 25-D —

KV-30HS510

Category Name No. Item Name

Range Initial Data

2170P_1

CV/YC 480i VDO MS PT

0 YOSW

0, 1

10000

1 TCOF

0, 1 0

DVI DVI

DRC DRC

V5/V6 V5/V6 V5/V6 480p 720p PT

CV/YC 480i 480p 720p 1080i VGA 1080i 1080i MS

2 YOF

0-15 0 15 7 7 7 7 7 7 7

3 CBOF

0-63 31 31 31 31 31 31 31 31 31

4 CROF

0-63 31 31 31 31 31 31 31 31 31

5 SBRT

0-63 31

6 RDRV

0-63 32

7 GDRV

0-63 35

8 BDRV

0-63 34

9 RCUT

0-63 32

10 GCUT

0-63 35

11 BCUT

0-63 18

WARM COOL

12 WBSW

0, 1 1

13 SBOF

0-15 7 7

14 RDOF

0-63 31 31

15 GDOF

0-63 34 31

16 BDOF

0-63 45 34

17 RCOF

0-63 31 31

18 GCOF

0-63 37 31

19 BCOF

0-63 63 34

20 DCOL

0-3 1

— 25-E —

KV-30HS510

Category Name No. Item Name

Range Initial Data

2170P_2 0 PICO

0, 1 1

1 RGBS

0-7 7

2 BLKB

0-3 3

3 RGBL

0-3 2

4 YLMT

0-3 3

5 AGNG

0-3 0

6 AKBO

0, 1 0

Othe

r

PT

7 CLPP

0-3 3 3

8 CLPG

0, 1 0 0

9 CLPS

0, 1 0 0

10 PPAD

0-7 3 3

11 SYNP

0, 1 0 0

12 HVBT

0, 1 0

— 25-F —

KV-30HS510

Category Name No. Item Name

Range Initial Data

2170P_3

Comp Comp Comp Comp DVI DVI DVI DVI DVI MS MS

RF CV/YC 480i 480p 1080i 720p 480i 480p VGA 1080i 720p Menu Single Twin

0 SYSM

0-3 1 1 11331113333 2

1 VMLV

0-15 7

2 VMCR

0-3 1 0 00000000000 3

3 VMLM

0-3 3 3 33333333333 3

4 VMF0

0-3 1 1 11001110000 0

5 VMDL

0-15 5 5 5 5 13 13 5 5 5 13 13 13 13 10

6 SHOF

0-3 2 2 21112101111 2

7 SHF0

0,1 1 1 1111111111 11

8 PROV

0-3 0 3 20332003333 3

9 F1LV

0-3 1 0 10011010100 0

10 LTLV

0-3 2 3 33333333333 3

11 LTMD

0,1 1 1 1010101101 11

12 CTLV

0-3 0 0 00330003333 0

13 UBOF

0-7 0 0 01110101111 1

14 UCOF

0-7 2 2 22222222200 2

15 UHOF

0-3 0 0 00000000000 0

16 MIDE

0-63 7 11 15 19 23 27 31 35 44 39 43 48 52 56

Comp Comp Comp Comp DVI DVI DVI DVI DVI MS MS

RF CV/YC 480i 480p 1080i 720p 480i 480p VGA 1080i 720p Menu Single Twin

0 SYSM

0-3 1 1 11331113333 2

1 VMLV

0-15 7

2 VMCR

0-3 1 0 00000000000 3

3 VMLM

0-3 3 3 33333333333 3

4 VMF0

0-3 1 1 11001110000 0

5 VMDL

0-15 5 5 5 5 13 13 5 5 5 13 13 13 13 10

6 SHOF

0-3 3 3 20112001111 2

7 SHF0

0,1 1 1 1111111111 11

8 PROV

0-3 0 3 20332003333 3

9 F1LV

0-3 0 0 11001110000 0

10 LTLV

0-3 2 2 23332333333 3

11 LTMD

0,1 1 1 1111111111 11

12 CTLV

0-3 0 0 00330003333 0

13 UBOF

0-7 2 2 20222002222 1

14 UCOF

0-7 1 1 22122221200 0

15 UHOF

0-3 0 0 00000000000 0

16 MIDE

0-63510141822263034443842475155

Standard Mode ViVid Mode