SAMSUNG DP15HS7T Service Manual

COLOR MONITOR

DP15HS/HT
DP17LS/LT

Manual

SERVICE

COLOR MONITOR CONTENTS

EXIT

EXIT

MENU

1. Precautions

2. Product Specifications

3. Disassembly & Reassembly

4. Alignment & Adjustments

5. Troubleshooting

6. Exploded View & Parts List

7. Electrical Parts List

8. Block Diagram

9. Wiring Diagram

10. Schematic Diagrams

Samsung Electronics Co., Ltd. May 1999
Printed in Korea
Code No.: BH68-00129A

Copyright

© 1999 by Samsung Electronics Co., Ltd.

All rights reserved.

This manual may not, in whole or in part, be
copied, photocopied, reproduced, translated, or
converted to any electronic or machine readable
form without prior written permission of
Samsung Electronics Co., Ltd.

DP15H*/DP17L* Service Manual
First edition May 1999.

Printed in Korea.

Trademarks

Samsung is a registered trademark and
DP15H*/DP17L* and MacMaster Cable Adapter
are trademarks of Samsung Electronics Co., Ltd.

Macintosh, Centris, Quadra, Duo Dock, and
Power Macintosh are trademarks of Apple
Computer, Inc.

All other trademarks are the property of their
respective owners.

ii DP15H*/DP17L*

WARNINGS

1. For continued safety, do not attempt to modify the
circuit board.

2. Disconnect the AC power before servicing.

3. When the chassis is operating, semiconductor
heatsinks are potential shock hazards.

1-1-1 Servicing the High Voltage VR

and CRT :

WARNING: A high voltage VR replaced in the wrong

direction may cause excessive X-ray
emissions.

Caution:

When replacing the high voltage
adjustment VR, it must be fixed by a
soldering iron after it is properly set.

1. When servicing the high voltage system, remove
the static charge by connecting a 10 kohm resistor
in series with an insulated wire (such as a test
probe) between the chassis and the anode lead.

2. If the HV VR requires adjustment, (a) Replace the
VR and adjust the high voltage to the specification.
(b) Use a soldering iron to melt the adjustment cap
on the HV VR to prevent any movement.

3. When troubleshooting a monitor with excessively
HV, avoid being unnecessarily close to the monitor.
Do not operate the monitor for longer than is
necessary to locate the cause of excessive voltage.

4. High voltage should always be kept at the rated
value, no higher. Only when high voltage is
excessive are X-rays capable of penetrating the shell
of the CRT, including the lead in glass material.
Operation at high voltages may also cause failure of
the CRT or high voltage circuitry.

5. When the HV regulator is operating properly, there
is no possibility of an X-ray problem. Make sure the
HV does not exceed its specified value and that it is
regulating correctly.

6. The CRT is especially designed to prohibit
X-ray emissions. To ensure continued X-ray
protection, replace the CRT only with one that is
the same or equivalent type as the original.

7. Handle the CRT only when wearing shatterproof
goggles and after completely discharging the high
voltage anode.

8. Do not lift the CRT by the neck.

1-1-2 Fire and Shock Hazard :

Before returning the monitor to the user, perform the
following safety checks:

1. Inspect each lead dress to make certain that the
leads are not pinched or that hardware is not
lodged between the chassis and other metal parts in
the monitor.

2. Inspect all protective devices such as nonmetallic
control knobs, insulating materials, cabinet backs,
adjustment and compartment covers or shields,
isolation resistor-capacitor networks, mechanical
insulators, etc.

3. Leakage Current Hot Check (Figure 1-1):

WARNING: Do not use an isolation transformer during

this test.

Use a leakage current tester or a metering system
that complies with American National Standards
Institute (

ANSI C101.1, Leakage Current for

Appliances), and Underwriters Laboratories (UL
Publication UL1410, 59.7).

4. With the unit completely reassembled, plug the AC
line cord directly into a 120V AC outlet. With the
unitÕs AC switch first in the ON position and then
OFF, measure the current between a known earth
ground (metal water pipe, conduit, etc.) and all
exposed metal parts, including: metal cabinets,
screwheads and control shafts. The current
measured should not exceed 0.5 milliamp. Reverse
the power-plug prongs in the AC outlet and repeat
the test.

Figure 1-1. Leakage Current Test Circuit

1-1-4 Product Safety Notices

Some electrical and mechanical parts have special
safety-related characteristics which are often not
evident from visual inspection. The protection they give
may not be obtained by replacing them with
components rated for higher voltage, wattage, etc. Parts
that have special safety characteristics are identified by

on schematics and parts lists. A substitute
replacement that does not have the same safety
characteristics as the recommended replacement part
might create shock, fire and / or other hazards. Product
safety is under review continuously and new
instructions are issued whenever appropriate.

Components identified by on schematics and parts
lists must be sealed by a soldering iron after
replacement and adjustment.

DP15H*/DP17L* 1-1

1 Precautions

1-1 Safety Precautions

!

DEVICE
UNDER
TEST

TEST ALL

EXPOSED METAL

SURFACES

(READING SHOULD

NOT BE ABOVE 0.5mA)

LEAKAGE
CURRENT

TESTER

2-WIRE CORD

ALSO TEST WITH

PLUG REVERSED
(USING AC ADAPTER
PLUG AS REQUIRED)

EARTH

GROUND

1. Servicing precautions are printed on the cabinet,
and should be followed closely.

2. Always unplug the unitÕs AC power cord from the
AC power source before attempting to: (a) remove
or reinstall any component or assembly, (b)
disconnect PCB plugs or connectors, (c) connect all
test components in parallel with an electrolytic
capacitor.

3. Some components are raised above the printed
circuit board for safety. An insulation tube or tape
is sometimes used. The internal wiring is
sometimes clamped to prevent contact with
thermally hot components. Reinstall all such
elements to their original position.

4. After servicing, always check that the screws,
components and wiring have been correctly
reinstalled. Make sure that the area around the
serviced part has not been damaged.

1. Immediately before handling any semiconductor
components or assemblies, drain the electrostatic
charge from your body by touching a known earth
ground. Alternatively, wear a discharging wrist­strap device. To avoid a shock hazard, be sure to
remove the wrist strap before applying power to
the monitor.

2. After removing an ESD-equipped assembly, place it
on a conductive surface such as aluminum foil to
prevent accumulation of an electrostatic charge.

3. Do not use freon-propelled chemicals. These can
generate electrical charges sufficient to damage
ESDs.

4. Use only a grounded-tip soldering iron to solder or
desolder ESDs.

5. Use only an anti-static solder removal device. Some
solder removal devices not classified as Òanti-staticÓ
can generate electrical charges sufficient to damage
ESDs.

5. Check the insulation between the blades of the AC
plug and accessible conductive parts (examples:
metal panels, input terminals and earphone jacks).

6. Insulation Checking Procedure: Disconnect the
power cord from the AC source and turn the power
switch ON. Connect an insulation resistance meter
(500 V) to the blades of the AC plug.

The insulation resistance between each blade of the
AC plug and accessible conductive parts (see
above) should be greater than 1 megohm.

7. Never defeat any of the +B voltage interlocks. Do
not apply AC power to the unit (or any of its
assemblies) unless all solid-state heat sinks are
correctly installed.

8. Always connect a test instrumentÕs ground lead to
the instrument chassis ground before connecting the
positive lead; always remove the instrumentÕs
ground lead last.

6. Do not remove a replacement ESD from its
protective package until you are ready to install it.
Most replacement ESDs are packaged with leads
that are electrically shorted together by conductive
foam, aluminum foil or other conductive materials.

7. Immediately before removing the protective
material from the leads of a replacement ESD,
touch the protective material to the chassis or
circuit assembly into which the device will be
installed.

Caution: Be sure no power is applied to the

chassis or circuit and observe all
other safety precautions.

8. Minimize body motions when handling
unpackaged replacement ESDs. Motions such as
brushing clothes together, or lifting your foot from
a carpeted floor can generate enough static
electricity to damage an ESD.

9. Indicates ESDs on the Schematic Diagram in
this manual.

1 Precautions

1-2 DP15H*/DP17L*

1-3 Electrostatically Sensitive Devices (ESD) Precautions

Some semiconductor (solid state) devices can be easily damaged by static electricity. Such components are commonly
called Electrostatically Sensitive Devices (ESD). Examples of typical ESD devices are integrated circuits and some field­effect transistors. The following techniques will reduce the incidence of component damage caused by static electricity.

1-2 Servicing Precautions

WARNING1: First read the “Safety Precautions” section of this manual. If unforeseen circumstances

create conflict between the servicing precautions and safety precautions, always
follow the safety precautions.

WARNING2: A high voltage VR replaced in the wrong direction may cause excessive X-ray

emissions.

WARNING3: An electrolytic capacitor installed with the wrong polarity might explode.

DP15H*/DP17L* 2-1

2 Product Specifications

2-1 Specifications

Picture Tube: 15-Inch (38 cm): 13.8-inch (35 cm) viewable, 17-Inch (43 cm): 16-inch (40.6 cm) viewable,

Full-square flat-face tube, 90˚ Deflection, Semi- tint, Non-glare, Invar shadow mask,
Anti-static silica coating, 0.28 mm Dot pitch

Scanning Frequency Horizontal : 30 kHz to 70 kHz (Automatic)

Vertical : 50 Hz to 160 Hz (Automatic)
Display Colors Unlimited colors
Maximum Resolution Horizontal : 1280 Dots Vertical : 1024 Lines
Input Video Signal Analog, 0.7 Vp-p positive at 75 Ω, internally terminated
Input Sync Signal Separate Sync: TTL level positive/negative
Maximum Pixel Clock rate 110 MHz

Active Display 15” ; Horizontal : 267 mm ± 4 mm, Vertical : 200.5 mm ± 4 mm

17” ; Horizontal : 306 mm ± 4 mm (4:3 ratio), Vertical : 230.5 mm ± 4 mm
Input Voltage AC 90 to 264 Volts, 60 Hz or 50 Hz ± 3 Hz
Power Consumption 80 Watt (max) : 15”, 90 Watt (max) : 17”
Dimensions Unit ; 15” : 14.25 x 15.11 x 15.11 Inches (362 x 384 x 384 mm)

(W x D x H) 17” : 16.22 x 16.54 x 16.36 Inches (412 x 420 x 415.5 mm)

Carton ; 15” : 17.87 x 19.57 x 17.52 Inches (454 x 497 x 445 mm)

17” : 21.02 x 21.73 x 18.39 Inches (534 x 552 x 467 mm)

Weight 15” : 26.5 lbs (12.0 kg) / 31.5 lbs (14.3 kg)
(Net/Gross) 17” : 33.1 lbs (15.0 kg) / 38.6 lbs (17.5 kg)

Environmental Considerations Operating Temperature : 32°F to 104°F (0°C to 40°C)

Humidity : 10 % to 80 %

Storage Temperature : -4°F to 113°F (-20°C to 45°C)

Humidity : 5 % to 95 %

• Above models comply with SWEDAC (MPR II) recommendations for reduced electromagnetic fields.

• Designs and specifications are subject to change without prior notice.

Item Description

2 Product Specifications

2-2 DP15H*/DP17L*

2-2 Pin Assignments

5

15

Figure 2-1. Male Type Figure 2-2. Male Type

Sync
Type

Pin No.

Macintosh

Separate

1
2
3
4
5
6
7
8

9
10
11
12
13
14
15

Red
Green
Blue
N-C
DDC Return
GND-R
GND-G
GND-B
N-C
GND-Sync/Self-raster
N-C
DDC Data
H-Sync
V-Sync
DDC Clock

GND-R
Red
H/V Sync
Sense 0
Green
GND-G
Sense 1
Reserved
Blue
Sense 2
GND
V-Sync
GND-B
GND
H-Sync

2 Product Specifications

DP15H*/DP17L* 2-3

QRS

P

O

Video

Sync

Sync

Horizontal

Vertical

CDE

P

O

B

A

Video

Sync

Sync

Separate Sync

2-3 Timing Chart

This section of the service manual describes the timing that the computer industry recognizes as standard
for computer-generated video signals.

C D

A

O

E

B

P

Video

Sync

Sync

Video

Q R S

A : Line time total B : Horizontal sync width O : Frame time total P : Vertical sync width
C : Back porch D : Active time Q : Back porch R : Active time
E : Front porch S : Front porch

fH (kHz)
A µsec
B µsec
C µsec
D µsec
E µsec
fV (Hz)
O msec
P msec
Q msec
R msec
S msec
Clock

Frequency
(MHz)

Polarity
H.Sync

V.Sync
Remark

IBM VESA

800/85 Hz
800 x 600

1024/75 Hz
1024 x 768

1024/85 Hz
1024 x 768

VGA3/60 Hz

640 x 480

VGA2/70 Hz

720 x 400

31.469

31.777

3.813

1.907

25.422

0.636

70.087

14.268

0.064

1.080

12.711

0.413

28.322

Negative

Positive

Separate

31.469

31.778

3.813

1.907

25.422

0.636

59.940

16.683

0.064

1.048

15.253

0.318

25.175

Negative
Negative
Separate

37.500

26.667

2.032

3.810

20.317

0.508

75.000

13.333

0.080

0.427

12.800

0.027

31.500

Negative
Negative
Separate

43.269

23.111

1.556

2.222

17.778

1.556

85.008

11.764

0.671

0.578

11.093

0.023

49.500

Negative
Negative
Separate

46.875

21.333

1.616

3.232

16.162

0.323

75.000

13.333

0.064

0.448

12.800

0.021

36.000

Positive
Positive

Separate

53.674

18.631

1.138

2.702

14.222

0.569

85.061

11.756

0.056

0.503

11.179

0.019

56.250

Positive
Positive

Separate

60.023

16.660

1.219

2.235

13.003

0.203

75.029

13.328

0.050

0.466

12.795

0.017

78.750

Positive
Positive

Separate

68.677

14.561

1.016

2.201

10.836

0.508

84.997

11.765

0.044

0.524

11.183

0.015

94.500

Positive
Positive

Separate

800/75 Hz
800 x 600

640/75 Hz
640 x 480

640/85 Hz
640 x 480

Table 2-1. Timing Chart

Mode

Timing

2 Product Specifications

2-4 DP15H*/DP17L*

Memo

4-1-1 Before Making Adjustments

4-1-1 (a) ORIENTATION

When servicing, always face the monitor to the
east.

4-1-1 (b) MAGNETIC FIELDS

Whenever possible, use magnetic field isolation
equipment such as a Helmholtz field to surround
the monitor. If a Helmholtz field is not available,
frequently degauss the unit under test.

Caution: Other electrical equipment may cause

external magnetic fields which may
interfere with monitor performance.

Use an external degaussing coil to limit magnetic
build up on the monitor. If an external degaussing
coil is not available, use the internal degaussing
circuit. However, do not use the internal
degaussing circuit more than once per 30 minutes.

4-1-1 (c) WARM-UP TIME

The monitor must be on for 30 minutes before
starting alignment. Warm-up time is especially
critical in color temperature and white balance
adjustments.

4-1-1 (d) SIGNAL

Analog, 0.7 Vp-p positive at 75 ohm, internal
termination
Sync: Separate
(TTL level negative/positive)

4-1-1 (e) SCANNING FREQUENCY

Horizontal: 30 kHz to 70 kHz (Automatic)
Vertical: 50 Hz to 160 Hz (Automatic)

Unless otherwise specified, adjust at the
17Ó: 1024 x 768 mode (68 kHz/85 Hz),
15Ó: 800 x 600 mode (54 kHz/85 Hz) signals.

Refer to Table 2-1 on page 2-3.

.4-1-2 Required Equipment

The following equipment may be necessary for
adjustment procedures:

4-1-2 (a) DISPLAY CONTROL ADJUSTMENT

1. Non-metallic (Ð) screwdriver:

1.5, 2.5, 3 mm

2. Non-metallic (+) screwdriver:

1.5, 2.5, 3 mm

3. Digital Multimeter (DMM), or
Digital Voltmeter

4. Signal generator, or
DM200 software

5. Software: Softjig or DM200

6. Interface Board Ver. 2.0 Code No.
BH81-90001K

7. Parallel communications cable (25-pin to
25-pin); Code No. BH81-90001H

8. Signal cable (15-pin to 15-pin cable with
additional 3-pin connector); Code No.
BH81-90001J

9. 5 V DC adapter, not supplied

10. Personal computer

Note: Softjig AssÕy (includes items 6, 7 and 9)

Code No. BH81-90001L

4-1-2 (b) COLOR ADJUSTMENTS

1. All equipment listed in 4-1-2 (a), above

2. Color analyzer, or any luminance
measurement equipment

DP15H*/DP17L* 4-1

4 Alignment and Adjustments

This section of the service manual explains how to make permanent adjustments to the monitor. Directions
are given for adjustments using the monitor Interface Board Ver. 2.0 and software (Softjig).

4-1 Adjustment Conditions

Caution: Changes made without the Softjig are saved only to the user mode settings. As such, the

settings are not permanently stored and may be inadvertently deleted by the user.

4-1-3 Connecting the SoftJig

Connect the monitor to the signal generator and/
or PC as illustrated in Figures 4-1 and 4-2.

Note: The signal cable connector which includes

the 3-wire cable must connect to the
monitor. If you use Setup 2 (PC only, no
signal generator) you can only make
adjustments to the signal timing available
on that computer system. To make
corrections to all factory timings requires
the use of an additional signal generator.

4 Alignment and Adjustments

4-2 DP15H*/DP17L*

MONITOR

INTERFACE
BOARD VER. 2.0

PC

SIGNAL
GENERATOR

3-WIRE
CABLE

SIGNAL CABLE

5V DC
ADAPTOR

PARALLEL CABLE

Figure 4-1. Setup 1, With Signal Generator

MONITOR

INTERFACE
BOARD VER. 2.0

PC

3-WIRE CABLE

SIGNAL CABLE

PARALLEL CABLE

D-SUB
CONNECTOR

5V DC
ADAPTOR

Figure 4-2. Setup 2, Without Signal Generator

4-2-1 HIGH VOLTAGE ADJUSTMENT

Signal: 1024 x 768 (68 kHz/85 Hz) (17Ó)

800 x 600 (54 kHz/85 Hz) (15Ó)
Display image: DonÕt care
Contrast: Minimum
Brightness: Minimum
Limit: 26.5 kV ± 0.2 kV (17Ó)

25 kV ± 0.2 kV (15Ó)
exception) 26.0 kV ± 0.2 kV for 17Ó SDD CRT that

the DY type is DMX-1791AT

Measure the hight voltage level at the anode cap.
High voltage should be within the limit as above.
If the high voltage needs adjustment use the
following procedure.

PROCEDURE

1. Turn the power off and disconnect the AC line

cord from the power source.

2. Turn the power on after connecting high

voltage Probe.

3. Using the jig, adjust the high voltage to the

specification.

* High Voltage Adjustment PROCEDURE using Softjig

① Select matching model name in ÒModelÓ field.
➁ Select Ò @7: Zero BeamÓ in menu after

selecting ÒExtra 1Ó

➂ Adjust high voltage using control bar after

selecting ÒHV MINÓ

➃ Turn the power off/on after adjustment

finished.

➄ Check the high voltage has been fixed with

adjusted value after reselecting Ò@7: Zero BeamÓ.

4-2-2 SCREEN VOLTAGE ADJUSTMENT

CONDITIONS

Signal: 1024 x 768 (68 kHz/85 Hz) (17Ó)

800 x 600 (54 kHz/85 Hz) (15Ó)
Display image: DonÕt care
Contrast: Minimum
Brightness: Minimum
Limit: 26.5 kV ± 0.2 kV (17Ó)

25 kV ± 0.2 kV (15Ó)
Screen Voltage adjustment procedure using softjig

is all the same as 4-2-1 but selecting ÒG2 CONTÓ
on the contrary to ÒHV MINÓ.

Table 4-1

4-2-3 CENTER RASTER

Adjust SW401 so that the back raster comes to the
center when you apply each basic mode for 15Ó
and 17Ó.

4-2-4 Centering

Centering means to position the center point of
the display in the middle of the display area.
Horizontal size and position and vertical size and
position control the centering of the display.

Adjust the horizontal size and vertical size to their
optimal settings: 306 mm (H) x 230 mm (V) for
17Ó, 267 mm (H) x 200 mm (V) for 15Ó.

Adjust the horizontal position and vertical
position to ² 4.0 mm of the center point of the
screen.

|A-B| ² 4.0 mm. |C-D| ² 4.0 mm.

Figure 4-3. Centering

* In Softjig window, ÒGeometryÓ has to be

selected for GD adjustment.

4-2-4 (a) HORIZONTAL SIZE ADJUSTMENT
CONDITIONS

Scanning frequency: 68 kHz/85 Hz (17Ó)

54 kHz/85 Hz (15Ó)
Display image: Crosshatch pattern
Brightness: Maximum
Contrast: Maximum

4 Alignment and Adjustments

DP15H*/DP17L* 4-3

4-2 Display Control Adjustments

C

A

DISPLAY AREA

EDGE OF BEZEL

B

D

17”

15”

CRT type Screen Voltage

M41QAR361X11*(*)
M41QAQ261X11*(*)
M41LFQ903X28(L), etc

M41EHN325X160/3F**U
M41EHN323X160/3F**U
M41LLJ507XX43*(F5), (F5W3)
M41LLH507XX43*(F5)

M36QAM351X11*(*)
M36LGE128X2**(*)

M36KUK35X02(*/LP), etc

480V

±

10V

500V

±

10V

630V

±

10V

560V

±

10V

600V

±

10V

520V

±

10V

Use control bar after selecting ÒH-SIZEÓ in left
menu to adjust the horizontal size of the display
pattern to 306 mm (17Ó) and 267 mm (15Ó).
(Tolerance: ± 3 mm.)

If ÒH-SIZEÓ is not enough to adjust it, select
ÒSIZE B+Ó by turns.

4-2-4 (b) VERTICAL SIZE ADJUSTMENT
CONDITIONS

Scanning frequency: 68 kHz/85 Hz (17Ó)

54 kHz/85 Hz (15Ó)
Display image: Crosshatch pattern
Brightness: Maximum
Contrast: Maximum

Use control bar after selecting ÒV-SIZEÓ in left
menu to adjust the vertical size of the display
pattern to 230 mm (17Ó) and 200 mm (15Ó).
(Tolerance: ± 3 mm.)

4-2-4 (c) HORIZONTAL POSITION ADJUSTMENT
CONDITIONS

Scanning frequency: 68 kHz/85 Hz (17Ó)

54 kHz/85 Hz (15Ó)

Display image: Crosshatch pattern

Use control bar after selecting ÒH-POSITIONÓ in
left menu to center the horizontal image on the
raster.

4-2-4 (d) VERTICAL POSITION ADJUSTMENT
CONDITIONS

Scanning frequency: 68 kHz/85 Hz (17Ó)

54 kHz/85 Hz (15Ó)

Display image: Crosshatch pattern

Use control bar after selecting ÒV-POSITIONÓ in
left menu to center the vertical image on the
raster.

4-2-5 Linearity

Linearity affects the symmetry of images as they
appear on the screen. Unless each row or column
of blocks in a crosshatch pattern is of equal size,
or within the tolerances shown in Tables 4-2 and
4-3, an image appears distorted, elongated or
squashed.

Table 4-2. Standard Modes Linearity: 640x480/75Hz,

800x600/85Hz and 1024x768/85Hz

Table 4-3. Other Modes Linearity: VGA, SVGA, XGA,

MAC, etc.

4-2-5 (a) HORIZONTAL LINEARITY ADJUSTMENT
CONDITIONS

Scanning frequency: 68 kHz/85 Hz (17Ó)

54 kHz/85 Hz (15Ó)
Display image: Crosshatch pattern
Brightness: Maximum
Contrast: Maximum

To adjust the Horizontal Linearity, refer to Tables
4-2 and 4-3 for the tolerance range.

Increase or decrease H_LIN to optimize the
image.

4-2-5 (b) VERTICAL LINEARITY ADJUSTMENT
CONDITIONS

Scanning frequency: 68 kHz/85 Hz (17Ó)

54 kHz/85 Hz (15Ó)
Display image: Crosshatch pattern
Brightness: Maximum
Contrast: Maximum

To adjust the Vertical Linearity, refer to Tables 4-2
and 4-3 for the tolerance range.

Use control bar after selecting ÒV-LINEARITY
BALÓ in left menu to optimize the image.

4 Alignment and Adjustments

4-4 DP15H*/DP17L*

Figure 4-5. Pinbalance

4 : 3

5 : 4

Horizontal: 17.8~20.5
Vertical : 17.8~20.5

Horizontal: 16.7~19.2
Vertical : 17.8~20.5

Supported Timing Mode

Each block (10 %)

Difference between

adjacent blocks (5 %)

Horizontal: Less than 0.96 mm
Vertical : Less than 0.96 mm

Horizontal: Less than 0.90 mm
Vertical : Less than 0.96 mm

4 : 3

5 : 4

Horizontal: 18.2~20.1
Vertical : 18.2~20.1

Horizontal: 17.1~18.9
Vertical : 18.2~20.1

Standard Modes Linearity

Each block (10 %)

Difference between

adjacent blocks (4 %)

Horizontal: Less than 0.77 mm
Vertical : Less than 0.77 mm

Horizontal: Less than 0.72 mm
Vertical : Less than 0.77 mm

4-2-6 Trapezoid Adjustment

CONDITIONS

Scanning frequency: 68 kHz/85 Hz (17Ó)

54 kHz/85 Hz (15Ó)
Display image: Crosshatch pattern
Brightness: Maximum
Contrast: Maximum

Use control bar after selecting ÒTRAPEZOIDÓ in
left menu to make the image area rectangular.

Figure 4-4. Trapezoid

4-2-7 Pinbalance Adjustment

CONDITIONS

Scanning frequency: 68 kHz/85 Hz (17Ó)

54 kHz/85 Hz (15Ó)
Display image: Crosshatch pattern
Brightness: Maximum
Contrast: Maximum

Figure 4-5. Pinbalance

Use control bar after selecting ÒPINBALANCEÓ in
left menu to optimize the image.

4-2-8 Parallelogram Adjustment

CONDITIONS

Scanning Frequency: 68 kHz/85 Hz (17Ó)

54 kHz/85 Hz (15Ó)
Display image: Crosshatch pattern
Brightness: Maximum
Contrast: Maximum

Use control bar after selecting ÒPARALLELÓ in
left menu to make the image area rectangular.

Figure 4-6. Parallelogram

4-2-9 Side Pincushion Adjustment

CONDITIONS

Scanning frequency: 68 kHz/85 Hz (17Ó)

54 kHz/85 Hz (15Ó)

Display image: Crosshatch pattern

Use control bar after selecting ÒPINCUSHIONÓ in
left menu to straighten the sides of the image area.

4-2-10 Tilt Adjustment

CONDITIONS

Scanning Frequency: 68 kHz/85 Hz (17Ó)

54 kHz/85 Hz (15Ó)
Display image: Crosshatch pattern
Brightness: Maximum
Contrast: Maximum

Use control bar after selecting ÒROTATIONÓ in
left menu to correct the tilt of the display.

4-2-11 Degauss

No adjustments are available for the degaussing
circuit. The degaussing circuit can effectively
function only once per 30 minutes.

4-2-12 To Delete the User Mode Data

To delete the adjustment data from the user
modes, click Ò@4: USER DELETEÓ in right ment.

4-2-13 Save the Data

To save the adjustment data for a mode, press
Ò@3: ALL MODE SAVEÓ in right ment.

4 Alignment and Adjustments

DP15H*/DP17L* 4-5

| A - B | < 4 mm

A

4 mm

B

B

A

D1 D2 D1

| C1 |, | C2 | ≤ 2.0 mm, | D1 |, | D2 | ≤ 2.0 mm.

Figure 4-7. Pincushion

C2

C1

D1 D2

CAUTION:Check below condition before color

adjustment
Video signal : Analog 0.7 Vp-p (at 75 Ω)
Sync : TTL level (H, V seperate signal)

* Select ÒColorÓ in Softjig menu for color adjustment.

4-3-1 Color Coordinates (Temperature)

Color temperature is a measurement of the
radiant energy transmitted by a color. For
computer monitors, the color temperature refers
to the radiant energy transmitted by white. Color
coordinates are the X and Y coordinates on the
chromaticity diagram of wavelengths for the
visible spectrum.

CONDITIONS

Measurement instrument: Color analyzer
Scanning frequency: 68 kHz/85 Hz (17Ó)

54 kHz/85 Hz (15Ó)

Display image: White flat field at

center of display area

Luminance: Maximum

PROCEDURE

Use the directions in sections 4-3-2 through 4-3-3
to adjust the color coordinates for:
9300K to x = 0.283 ± 0.02, y = 0.298 ± 0.02
6500K to x = 0.313 ± 0.02, y = 0.329 ± 0.02

4-3-2 Color Adjustments for 9300K

4-3-2 (a) BACK RASTER COLOR ADJUSTMENT
CONDITIONS

Scanning frequency: 68 kHz/85 Hz (17Ó)

54 kHz/85 Hz (15Ó)
Display image: Back raster pattern
Brightness: Maximum
Contrast: Maximum

1. Select Ò@1: CHANNEL 1Ó in right menu to

control the color for 9300K.

2. Adjust the luminance of the back raster to

between 0.5 to 0.7 ft-L using contron bar after
selecting ÒGREEN CUTOFFÓ in the menu.

3. Use control bar after selecting ÒBLUE

CUTOFFÓ in left menu to set the ÒyÓ
coordinate to 0.298 ± 0.02.

4. Use control bar after selecting ÒRED

CUTOFFÓ in left menu to 0.283 ± 0.02.

* If color values would not be matched desirable

values, repeat sequence 3 and 4 after readjusting
ÒGREEN CUTOFFÓ control a little different.

4-3-2 (b) WHITE BALANCE ADJUSTMENT
CONDITIONS

Scanning frequency: 68 kHz/85 Hz (17Ó)

54 kHz/85 Hz (15Ó)
Display image: White box pattern
Brightness: 0.06ft-L at Back Raster

Pattern Display
Contrast: Maximum

Figure 4-8. White Box Pattern

1. Use control bar after selecting ÒRED GAINÓ,

ÒGREEN GAINÓ and ÒBLUE GAINÓ to adjust
the luminance to 45 ft-L (15Ó) and 46 ft-L
(17Ó) with the color coordinates ranged for
9300K to x = 0.283 ± 0.02, y = 0.298 ± 0.02.

exception) 17Ó SDD CRT type-named
(*/S-2) : 42ft-L.

4-3-2 (c) ABL ADJUSTMENT
CONDITIONS

Scanning frequency: 68 kHz/85 Hz (17Ó)

54 kHz/85 Hz (15Ó)
Display image: Full white pattern
Brightness: Maximum
Contrast: Maximum

Figure 4-9. Full White Pattern

1. Check the ABL. If it is not within the

specifications, use the ABL controls to adjust
it. (15Ó: 33 ± 1 ft-L, 17Ó: 36 ± 1 ft-L )

2. Select Ò@4: COLOR SAVEÓ to save the data.

3. Select Ò@6: ALL COLOR SAVEÓ to save the

CH2.

4 Alignment and Adjustments

4-6 DP15H*/DP17L*

4-3 Color Adjustments

1/3H-1/2H

1/3V-1/2V

FRONT BEZEL OPENING
BACK RASTER

WHITE WINDOW

FRONT BEZEL OPENING
BACK RASTER

WHITE WINDOW

4-3-2 (d) WHITE BALANCE ADJUSTMENT VERIFICATION
CONDITIONS

Scanning frequency: 68 kHz/85 Hz (17Ó)

54 kHz/85 Hz (15Ó)

Display image: Back raster pattern

Full White Pattern

X-Y Coordinates: x = 0.283 ± 0.02,

y = 0.298 ± 0.02
ABL Luminance Refer to 4-3-2(c)
Brightness: Maximum
Contrast: 5 ft-L, 24 ft-L

1. Check whether the color coordinates of the

back raster satisfy the above spec.
If they do not, return to 4-3-2 (a) and readjust

all settings.

2. Display a full white pattern.

3. Select ÒGeometryÓ in softjig menu.

4. Select Ò@7: 5-ft Ò in right menu.

5. Check whether the white coordinates of the

video meet the above coordinates spec.

6. Select Ò@8: 24-ft Ò in right menu.

7. Check whether the white coordinates of the

video satisfies the above spec.
If they do not, return to 4-3-2 (a) and readjust

all settings.

Select ÒColorÓ and click Ò@2: CHANNEL 2Ó
for color ajdustment for 6500K
Repeat the sequence of 9300K adjustment.
The luminance values the same as 9300K, but
the color coordinated of back raster and white
box are : x = 0.313

± 0.02 y = 0.329 ± 0.02

4-3-3 Luminance Uniformity Check

Luminance is considered uniform only if the ratio
of lowest to highest brightness areas on the screen
is not less than 7.5:10.

CONDITIONS

Scanning frequency: 68 kHz/85 Hz (17Ó)

54 kHz/85 Hz (15Ó)

(1024 x 768)
Display image: White flat field
Brightness: Cut off point at 24 ft-L
Contrast: Maximum

PROCEDURE

Measure luminance at nine points on the display
screen (see figure below).

4-3-4 Focus Adjustment

CONDITIONS

Scanning frequency: 68 kHz/85 Hz (17Ó)

54 kHz/85 Hz (15Ó)

(1024 x 768)
Display image: ÒHÓ character pattern
Brightness: Cut off point
Contrast: Maximum

PROCEDURE

1. Adjust the Focus VR on the FBT to display the

sharpest image possible.

2. Use Locktite to seal the Focus VR in position.

4-3-5 Color Purity Adjustment

Color purity is the absence of undesired color.
Conspicuous mislanding (unexpected color in a
uniform field) within the display area shall not be
visible at a distance of 50 cm from the CRT
surface.

CONDITIONS

Orientation: Monitor facing east
Scanning frequency: 68 kHz/85 Hz (17Ó)

54 kHz/85 Hz (15Ó)
Display image: White flat field
Luminance: Cut off point at the center

of the display area

Note: Color purity adjustments should only be

attempted by qualified personnel.

4 Alignment and Adjustments

DP15H*/DP17L* 4-7

Figure 4-10. Luminance Uniformity Check Locations

PROCEDURE

For trained and experienced service technicians
only.

Use the following procedure to correct minor
color purity problems:

1. Make sure the display is not affected by
external magnetic fields.

2. Very carefully break the glue seal between the
2-pole purity convergence magnets (PCM), the
band and the spacer (see Figures 4-12).

3. Make sure the spacing between the PCM
assembly and the CRT stem is 29 mm ± 1 mm.

4. Display a green pattern over the entire display
area.

5. Adjust the purity magnet rings on the PCM
assembly to display a pure green pattern.
(Optimum setting: x = 0.295 ± 0.015,
y = 0.594 ± 0.015)

6. Repeat steps 4 and 5 using a red pattern and
then again, using a blue pattern.

Table 4-4. Color Purity Tolerances

(For 9300K color adjustment: x = 0.283 ± 0.02, y = 0.298 ± 0.02)

7. When you have the PCMs properly adjusted,
carefully glue them together to prevent their
movement during shipping.

4 Alignment and Adjustments

4-8 DP15H*/DP17L*

Red: x = 0.640 ± 0.015 y = 0.323 ± 0.015
Green: x = 0.295 ± 0.015 y = 0.594 ± 0.015
Blue: x = 0.142 ± 0.015 y = 0.066 ±0.015

DP15H*/DP17L* 5-1

5 Troubleshooting

5-1 Parts Level Troubleshooting

Notes: 1. If a picture does not appear, fully rotate the brightness and contrast controls clockwise and reinspect.

2. Check the following circuits.

• No raster appears: Power circuit, Horizontal output circuit.

• High voltage develops but no raster appears: Video output circuits.

• High voltage does not develop: Horizontal output circuits.

5-1-1 No Power Supply

Chirping noise exists?

Check and replace IC601.

Check and replace D601, FH1

Done.

No

Yes

Repeating start?

Check and replace D606.

No

Yes

IC601 Pin 1 waveform is right?

Check and replace D614, IC601,

Q602, ZD601.

Yes

No

C622 Voltage is 13 V ± 0.5V?

Check and replace IC201, IC301,

IC401, Q402, Q404.

Yes

No

Normal operation

Replace Main board.

Yes

Verify voltages.

Yes

No

WAVEFORMS

1

1

100 V (IC601, #1)

CH1 P-P = 100 V CH1 RMS = 350.2 V

5 Troubleshooting

5-2 DP15H*/DP17L*

5-1-2 DPMS Failure

Make No H/V sync (power off

mode)

Check signal source

H/V sync video level.

LED blinks

Check IC201 Pin 40.

Yes

No

+12 V line off

Check IC201 Pin 5.

Yes

No

IC602 Pin 4

voltage exists?

Check IC201 Pin 6.

Check and replace IC602.

No

Yes

IC601 Pin 1 output

voltage exists?

Refer to 5-1-1 No Power Supply.

Done

Yes

No

WAVEFORMS

2

2

100V (IC601, #1)

CH1 P-P = 100V CH1 RMS = 325.8 V

5 Troubleshooting

DP15H*/DP17L* 5-3

5-1-3 H_Deflection Failure

Does Horizontal paluse signal

appear at at Pin 8 of IC401?

Check IC401.

Yes

No

Does 110 Vp-p signal appear

at Collector of Q403?

Check Q443.

No

No

Check Q402, Q404, T401.

WAVEFORMS

4

3

2.00 V (IC401, #6)

CH1 P-P = 2.00V CH1 RMS = 5.868V

4

1.00V (IC401, #8)

CH1 P-P = 1.00V CH1 RMS = 1.298V

5

20.0 V (Q403, Collector)

CH1 P-P = 20.0 V CH1 RMS = 46.80V

Does PWM output signal appear

at Pin 6 (H_out) of IC401?

Check IC401.

Check 12 V line.

Yes

No

Does DC 12V appear at

Pin 10 of IC401?

Yes

No

3

7-1-4 S Correction Failure

S1~S3 signals are right at each

frequency block?

Check S1 ~ S3 signal.

Check and replace Q404, Q409, Q410,

Q414, Q415, Q416

Yes

Check and replace IC201.

No

5

5 Troubleshooting

5-4 DP15H*/DP17L*

5-1-5 H_Lin. Failure

IC201 Pin 21 voltage varies with

different H_Lin. DAC values?

IC603 Pin 9 voltage varies with

different H_Lin. DAC values?

Check +12 V, –10 V line.

Check some parts around IC603.

Check Q412, Q413, T402.

Yes

Yes

No

Replace IC201.

No

5-1-6 Invariable H_Size

IC401 Pin 6 voltage varies with

different B_Out DAC values?

Q402 Gate output duty varies with

different B_Out DAC values?

Check some parts around Q402,

IC401 Pin 3 ~ 6.

Yes

No

Check and replace IC401.

No

5-1-7 Abnormal H_Size

IC401 Pin 11 output duty

varies with different B+ offset

DAC values?

Q408 Collector waveform is

right?

Check and replace Q405, Q406, Q407,

Q408.

Check some parts around D409, L401.

Yes

Yes

No

Check and replace IC201.

No

WAVEFORMS

6

6

200 V (Q408, Collector)

CH1 P-P = 200V CH1 RMS = 387.2V

5 Troubleshooting

DP15H*/DP17L* 5-5

5-1-8 Side Pin or Trap Failure

IC401 Pin 11 output exists?

Yes

Check and replace IC401.

Refer to 5-1-7

Abnormal H_Size

.

5-1-9 Para. or Pin Balance Failure

IC401 Pin 11 output varies with

different DAC values?

No

Replace IC401.

No

WAVEFORMS

7

7

1.00 V (IC401, #11)

CH1 P-P = 1.00V CH1 RMS = 3.008 V

5-1-10 Tilt Failure

IC201 Pin 20 output duty varies

with different DAC values?

IC603 Pin 13 output varies with

different DAC values?

Check and replace IC603.

Check and replace Q301, Q302.

Yes

Yes

No

Check and replace IC201.

No

Check tilt connector connection

Refer to 5-1-7

Abnormal H_Size

.

Yes