Medion B1997PNST, MD 1998LE Service Manual

R

Service Manual

19-inch Color Monitor
B1997PNST (MD 1998LE)

Service Manual Versions and Revision

No. Vers ion Release Date Revision

1. 1.0 Nov. 21, 2000 Original release

Copyright

Copyright 2000 LiteOn T echnology Corp.
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 LiteOn
Technology Corp.

MD 1998LE (B1997PNST) Service Manual.

Printed in T aiwan.

T rademarks

LiteOn is a registered trademark of LiteOn
T echnology Corp.

All other trademarks are the property of their
respective owners.

MD 1998LE (B1997PNST)

Table of Contents

1. Precautions.........................................................................................................2

2. Product Specifications .......................................................................................5

3. Operation Theory................................................................................................9

4. Alignments and Adjustments ........................................................................... 14

5. Troubleshooting............................................................................................... 18

6. Recommended Spare Parts List....................................................................... 22

7. Block Diagram ................................................................................................ 24

8. Exploded Diagrams.................................................................................. Inserted

9. PCB Diagrams .........................................................................................Inserted

10. Schematic Diagrams ................................................................................ Inserted

Page 1

MD 1998LE (B1997PNST)

1 Precautions

Please follow these safety and servicing precautions to prevent damage and to protect against potential
hazards such as electrical shock and X-rays.

1-1 Safety Precautions

1-1-1 Warnings

1. For safety purpose, do not attempt to modify
the circuit board, and always disconnect the AC
power before performing servicing on the
monitor.

2. Operation of the monitor outside its cabinet or
with the cover removed involves the risk of
shock hazard. Repair work on the monitor
should only be attempted by service personnel
who are thoroughly familiar with all necessary
safety precautions and procedures for working
on high voltage equipment.

3. Do not lift the CRT by the neck. After
completely discharging the high voltage anode,
handle the CR T only when wearing shatterproof
goggles. Try to keep the CRT away from the
body during handling.

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. Operation at high voltages
may also cause failure of the CRT or high
voltage circuitry.

nonmetallic control knobs, insulating materials,
cabinet backs, adjustment and compartment
covers or shields, isolation resistor-capacitor
networks, mechanical insulators, etc.

3. AC Leakage Current Check
Always perform the AC Leakage Current

Check on the exposed metal parts, including
metal cabinets, screwheads and control shafts,
as follows:

a) Plug the AC line cord directly into a rated

AC outlet. Do not use an isolation
transformer during the check.

b) Use an AC voltmeter with at least 5000

ohms per volt sensitivity as follows:
Connect a 1500 ohms, 10 watt resistor

paralleled by a 0.15uF AC capacitor in series
with all exposed metal cabinet parts and a
known earth ground, such as electrical
conduct or electrical ground connected to
earth ground, as shown in the Figure 1-1.
Measure the AC voltage across the
combination of resistor and capacitor.

Figure 1-1. Set Up For AC Leakage Current Check

5. The CRT is especially constructed to limit X­ray emission to 0.5mR/HR at 300 microamperes
anode current. To ensure continued X-ray
protection, replace the CRT with only the same
or equivalent type as the original, and adjust the
anode’s voltage to the designated maximum
rating, never to exceed.

1-1-2 Safety Checks

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

1. Inspect to make certain that each lead dress is
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

To kno w n

earth ground

0.15ufd

1500 ohm 10 watt

To ex posed m e tal

cabinet part

c) Reverse the AC plug at the AC outlet and

repeat the steps for AC voltage
measurements for each exposed metal part.

d) Voltage reading must not exceed 0.3 volts

RMS, equivalent to 0.2 milliampere AC. Any
value exceeding this limit ill constitute a
potential shock hazard and must be
corrected immediately.

PrecautionsPage 2

MD 1998LE (B1997PNST)

1-1-3 Product Safety Notices

Many electrical and mechanical parts in this chassis have special safety-related characteristics which are
often not evident from visual inspection, the protection afforded by them may not be obtained by replacing
them with components rated for higher voltage, wattage, etc. Before replacing any of these components,
consult the Recommended Spare Parts List given at the end of this manual. Any of the replacements that do
not provide the same safety characteristics may result in shock, fire, X-ray emission or other hazards.

1-2 Servicing Precautions

Warning: An electrolytic capacitor installed with the wrong polarity might explode.
Caution: Before performing servicing covered by this service manual, read and follow the Safety Precautions

section of this manual.

Note: If unforeseen conflict between the following servicing precautions and any of the safety

precautions, always follow the safety precautions

1. Follow closely the servicing precautions printed on the monitor cabinet and chassis.

2. Always unplug the AC power cord from the AC power source before removing or installing any component

or assembly, disconnecting PCB plugs or connectors and connecting a test component in parallel with a
capacitor.

3. When replacing parts or circuit boards, clamp the lead wires around the component before soldering.

4. When replacing a high wattage resistor (>0.5W metal oxide film resistor) in the circuit board, keep the

resistor about 1 cm (1/2 inch) away from the circuit board.

5. Keep wires away from the high voltage or high temperature components.

6. Keep wires in their original positions so as to minimize interference.

7. Always connect a test instrument’s ground lead to the instrument chassis ground before connecting the

positive lead; always remove the instrument’s ground lead last.

After putting the rear cover back and make sure the monitor is working properly, the Hi-Pot &
Ground Continuity tests MUST BE performed before the monitor is returned to user.

1-3 Hi-Pot Test

1. Test Equipment

Puncture test model PM5530 ADT or KIKUSU TOS-8750 voltage tester or equivalent approved equipment.

Note : The test equipment must be calibrated in regular period.

2. Test Setup

a) Apply voltage : DC 2100 VDC
b) Test duration : 3 seconds
c) Cutoff current should be set to 3 mA

3. Test Procedure

a) Unplug power cord from AC source.
b) Put the power switch of the monitor in the “ON” position.
c) Leave signal cable unconnected.

Precautions

Page 3

d) Plug monitor power cord to the Hi Pot tester terminals.
e) Turn on tester and watch the indicator or beeper.
f) If the indicator lamp lighten, or beeper beeps, the test fails.

1-4 Ground Continuity Test

1. Test Equipment
AC low ohm tester TOS-6100 or equivalent approved equipment.

Note :The test equipment must be calibrated in regular period.

2. Test Setup
a) Test duration : 3 seconds
b) Set current limit at 25 A
c) The grounding resistance must be less than 0.1 ohm.

3. Test Procedure
a) Plug the monitor power cord to the tester terminals.

MD 1998LE (B1997PNST)

b) Make sure all connections are well-contacted.
c) Turn on monitor power and tester power.
d) Press “Test” button.
e) If green light shows up, means test OK.

If red light shows up, means test fails.

f) If the Tester has a digital display, the resistance value must not exceed 0.1 ohm.

Note :Be sure not to touch the metal portion of the signal cable head during testing.

PrecautionsPage 4

MD 1998LE (B1997PNST)

2 Product Specifications

2-1 Specifications

Picture Tube 19-inch (18- inch Visual image area), 95 degrees deflection, dot type black

matrix, medium short persistence phosphor, dark bulb,direct etch, Flat square
screen with Invar Mask,

0.26 mm dot pitch

Sc a nning Fr eq uenc y

Maximum Resolution 1600 dots (H) x 1200 lines (V) @75 Hz refresh rate

Disp la y Are a

Display Characters 80 char. x 60 rows on a 10 x 10 matrix

Disp la y Co lor s Ana log
Input

Sync hroniza tin Signa ls Se pa rat e S ync: hor izonta l/ver tic al, TTL, po sit ive or negat ive

Synchronization

Fr e que ncie s

Signal Connectors 15-pin, D- shell connector

Video Signa ls Analog : 0.7 Vp-p, RGB positive

Power Input

Misconvergence Center Area : <

VGA, Super VGA, 1024x768@60/70/75/85/100 Hz, 1280x960@85 Hz

1280x1024@60/75/85 Hz, 1600x1200@60/75 Hz

360 mm (H) x 270 mm (V) typical

Unlimite d C olo rs

Horizontal : 30 to 98 kHz
Vertical : 50 to 120 Hz

150 Watts maximum (PHILIPS CRT) AC rated voltage, 90VAC to 264VAC

0.2 mm; Corner Area : < 0.35 mm

Use r Co ntr ols

Service Controls PWB1498 : power voltage adjust (VR801), high voltage adjust (VR102),

Preset Modes 13 (see Table 2-2. Timing Chart)

Enviro nmenta l

Considerations

Power On/Off, Contrast, Brightness, Horizontal Size, Horizontal Position,
Vertical Size, Vertical Position, Pincushion, Trapezoid, Rotation, Unbalance,
Parallelogram, Degauss, Top Corner, Bottom Corner, Recall,
V. Moir e, H. Moir e

F1/F2/G2 (FBT)

o

Operation temperature : 10

Humidity : 20% to 80% ambient
Storage temperature : -40oC to 65oC ambient
Storage Humidity : 10% to 90% (non- condensing)

Altitude : up to3000m above sea le vel

C to 35oC ambient

Note: Above specifications are subject to change without prior notice.

Product Specifications

Page 5

2-2 Signal Cable Pin Connections

Table 2-1. Signal Cable Pin Assignment

Pin Signal Pin Signal

1 Red video 9 +5V (from PC)
2 Green video 10 Ground
3 Blue video 11 Ground

4 Gr o und 12 S DA

MD 1998LE (B1997PNST)

5*
6 Re d ground 14 V-Sync
7 Gr een ground 15 SCL
8 Bl ue gr ound

Note: This pin is used for selftest detection. Connect this pin to ground at the PC end.

NC

13 H-Sync

Product SpecificationsPage 6

MD 1998LE (B1997PNST)

2-3 Timing Chart

This section describes the timings that the computer industry recognizes as standard for computer-generated
video signals.

T able 2-2. Timing Chart

Mode 12345678910111213

H. Dot s

V. D o t s

H-f req (kHz )

Sync
Polarity

A pe rio d us

B Bl king us

C Sy nc us

D B.P. us

E Active us

F F. P. us

V-freq (Hz)

Sync
Polarity

O Period ms

P Blking ms

640 7 20 640 800 1152 800 1 024 1024 1280 1280 1024 1600 1280

480 400 480 600 864 600 768 768 1024 1024 768 1200 960

31.47 37.93 43.27 46.8 67.5 53.67 60.03 68.67 80 91.146 80 93.75 85.938

---++++++++++

31.78 26.366 23.11 21.33 14.815 18.631 16.66 14.561 12.504 10.971 12.376 10.667 11.636

6.356 6.085 5.33 5.172 4.148 4.409 3.657 3.725 3.022 2.844 3.624 2.765 3.017

3.81 2.028 1.556 1.616 1.185 1.138 1.219 1.016 1.067 1.016 1.231 0.948 1.077

1.907 3.042 2.22 3.232 2.37 2.702 2.235 2.201 1.837 1.422 2.12 1.501 1.508

25.42 20.282 17.78 16.16 10.667 14.222 13 10.836 9.481 8.127 8.752 7.901 8.62

0.636 1.014 1.556 0.323 0.593 0.569 0.203 0.508 0.119 0.406 0.273 0.316 0.431

59.94 85.04 85 75 75 85 75.03 84.99 75 85 100 75 85

-+-++++++++++

16.68 11.759 11.76 13.33 13.333 11.756 13.33 11.765 13.329 11.761 9.988 13.333 11.764

1.43 1.213 0.67 0.533 0.533 0.578 0.533 0.582 0.525 0.527 0.483 0.533 0.593

Q Sync ms

R B.P. us

S Active us

T F.P. us

0.064 0.079 0.069 0.064 0.044 0.056 0.05 0.044 0.038 0.033 0.074 0.032 0.035

1.02 1.107 0.578 0.448 0.474 0.503 0.466 0.524 0.475 0.483 0.397 0.491 0.547

15.25 10.546 11.09 12.8 12.8 11.179 12.8 11.183 12.804 11.235 9.505 12.8 11.171

0.35 0.026 0.023 0.021 0.015 0.019 0.017 0.015 0.013 0.011 0.013 0.011 0.012

Horizontal

C

E

Video

D

Sync

A

B

F

H.Parameters:

A: Period B: Blanking Time
C: Sync Width D: Back Porch
E : Active Time F: Front Porch

Seperate Sync

Ver tic a l

V.Parameters:

G: Period H:Blanking Time
I: Sync Width J : Back Porch
K: Active Time L: Front Porch

K

Video

J

Sync

I

G

H

L

Product Specifications

Page 7

MD 1998LE (B1997PNST)

2-4 Display Power Management Signal (DPMS)

Note: These power-saving states exceed the Environmental Protection Agency (EPA) Energy Star

requirements and the Video Electronics Standard Association (VESA) for Display Power
Management Signal (DPMS) .

T able 2-3. Display Power Management Signal (DPMS)

State LED Color H-Sync V-Sync Power

Co nsumpt io n

ON Gre en Pulse Puls e Normal

STANDBY Yellow No Pul se Pulse <15 w atts

SUSPEND Yellow Pulse No Pulse <15 watts

OFF Amber No Pulse No Pulse <8 watts

2-5 TCO V ersion

The monitor meets the energy saving, electric and magnetic field requirements. Also it is compliant with
TCO 99 labelling scheme.

2-5-1TCO 99 Version

TCO 99 will append the color temperature specification.

Product SpecificationsPage 8

MD 1998LE (B1997PNST)

3 Operation Theory

This is an I2C-bus fully digital controlled multi-sync color monitor, compliant with VESA DDC1/2B and
DPMS standards. Besides, it also meets TCO95 and MPRII requirements. It provides user friendly OSM
(On-Screen display Menu) controls, and offers the following main features.

3-1 Main Features

1. Simplified chassis design with minimum components.

2. Fully digital controlled via 8-bit microcontroller NT6861AU.

3. Auto switching to off mode under “OUT OF RANGE” (Fh < 29KHz or Fh > 99KHz).

4. Reliable chassis design through various internal circuit protections.

5. Universal full range AC input and low power consumption.

6. Five-country OSM language available for easy user controls.

7. Adjustable OSM display time and position.

8. T welve preset modes up to 1600 x 1200 75Hz (Fh =93.75KHz).

3-2 Microcontrol Section

1. The microcontroller provides I2C bus (pin 27 & 28) for geometric controls via I401 TDA4856 and video
controls via I501 M52743. The geometric controls include H-size, H-position, V-size, V-position, Pincushion,
Pin-balance, Trapezoid, Corner , Parallelogram, H-focus, V-focus, H-moire and V-moire. The video controls
cover Contrast, Brightness, R/G/B gain and cutoff control alignments. Through 8-bit PWM’ s (pin 1, 2, 3,
32, 36, 40) it provides factory controls for G1, NS-trapezoid, H-linearity, ABL, user control for Rotation
and one F/V for H-frequency driver compensation . T wo I/O’s (pin 27, 28) are provided for I2C bus used
for I502 MTV021N-21 on-screen display.

2. In addition, the microcontroller offers Auto Mode detection via Hsync (pin 41) and Vsync (pin 42) inputs.
According to Auto Mode detection, VESA DPMS power saving (pin 29, 30) will limit the output power
under 15W for Standby or Suspend mode, under 8W for OFF mode. VESA DPMS mode indication is
done via I/O pin 17 & 18 to drive LED display on the front cover. Normal mode displays green LED,
Standby or Suspend modes displays Yellow LED while OFF mode displays Amber LED.

3. Auto factory alignment (A TE) and VESA DDC2B communication are through DDC I2C bus (pin 27, 28),
I704 24LC211 is dedicated for DDC EDID E2PROM. In order to get optimal H-linearity performance for
the full range frequency (31KHz - 98KHz), 4-channel CS are used at pin 20, 21, 22, 23, 24. F1, F2, UP
and DOWN function keys’ scanning are through 2 ADCs on pin 14 & 15. Q701 and Q702 delay circuits
are used for power-on reset at pin 4. In order to avoid I2C interference during H-size, H-position, V-size,
V-position, Contrast and Brightness alignments, the HUNLK from I401 TDA4856 is applied from Q703
inverter to IRQ at pin 16.

4. There are 12 factory preset modes and 8 user modes available. Related information data of those modes
are stored at 2 EEPROM’s (I702, I703) 24LC04.

3-3 Deflection Section

1. I2C -- autosync deflection controller is TDA4856.

2. The TDA4856 is a high performance and efficient solution for autosync monitors. All functions are

Operation Theory Page 9

MD 1998LE (B1997PNST)

controllable by I2C bus. SDA and SCL signals coming from microprocessor feed to pin 19 and pin 18 to
control all functions.

3-3-1Horizontal Section

1. The oscillator is driven by the currents in R424 and R423. The minimum oscillator frequency is determined
by R424 and the maximum frequency is determined by R423.

2. Horizontal sync goes into pin 15 through R314. And horizontal flyback pulse goes into pin 1 through C455,
C437, R404, C458, R40E and bypass filter C401 from Vcp of Q424 collector for AFC loop.

3-3-2 Horizontal O/P Section

1. Horizontal driver (pin8) signal is sent to Q402 via R496, C451.

2. Signal from Q427 direct drive T403, through R493 (shunt with R4A4, R40F, R40G) and L405 to horizontal
output transistor Q424.

3-3-3 Vertical Section

1. V ertical sync signal from micro controller is connected to pin 14 through R313.

2. The free running frequency is determined by R319 and C312.

3-3-4Vertical O/P section

1. The differential output currents from pin 13 of Vout1 and pin 12 of Vout2 can be directly coupled to the
vertical deflection booster pin 1 and pin 2 of TDA8351.

2. The TDA8351 has two output stages which are current driven in opposite phase and operate in combination
with the deflection coil in a full bridge configuration.

3-3-5 E-W/T rapezoid and H. Size Controls

1. The B+ driver for step down circuit is from pin 6, it provides 20~80% duty cycle outputs according
to H-frequency.

2. The E/W / Trapezoid and H-size controls are through B+ modulation at I401 TDA4856. The EW output
signal is from pin 11, it’s not tracking with H-frequency.

3-3-6 X-Ray Protection

1. To avoid X-ray hazard, a DC voltage generated at pin 3 of FBT and rectified by D108, C121 is divided by
R126, R129 and C402 filter go into pin 2 of TDA4856.

2. If this voltage is higher than 6.39 V , then TDA4856 will be activated to float HUNLOCK (pin 17), H. DRV
( pin 8), B DR V (pin 6), VOUT1 (pin 12), VOUT2 (pin 13). After that all deflection circuit stop working.

3-3-7G1, Blanking and Brightness

1. The vertical blanking signal comes in two ways. One is from pin 8 of I301 (TDA8351), the other is from
HUNLK (pin 17 of I401). These two positive vertical pulses through Q42A, Q42C, Q42E amplified and
converted into negative pulse and sent to G1 for vertical blanking.

Page 10 Operation Theory

MD 1998LE (B1997PNST)

2. In protection mode or out-of-range situation, HUNLock will send 5 V pulse to saturate Q706, then pin 8

of I902 will be low state and open Q509, so G1 will go down to -140V. During the mode change, Mute
acts as same as HUNLock’s.

3. The brightness is controlled by CPU, pin 27 and pin 28 comes into pin 20 and pin 21 of I501, DC level can

be changed by I
brighter raster, low voltage gets lower brightness.

2

C bus from 0~5V of D/A output at pin 23 of I501, high voltage causes high current to get

3-4 Power Supply Section

3-4-1 AC Rectifier

The circuit can accept 90 V to 264 V AC input through D801 bridge diode and C810 filtering to get DC 126
V~364 V for power conversion in T805.

3-4-2 Line Filter

It consists of L801, L802, P801A, C803, C804, C805, C806, C807, C871, C80A, C80C, C80E, T801 and
T802 and meets EMI regulation.

3-4-3 PF C

It consists of T804, Q814, D807, I804 and other auxiliary components. It is similiar to Booster circuit. The
working voltage is provided by D815, C821, R825, C819 and ZD810, but it is not working in Stand-by,
Suspend and Off modes. The output voltage C810 is 180 V~380V DC and generated through input
voltage C816 step up. The maximum voltage is decided by R826 and R827, while the minimum voltage is
decided by C817. In the meanwhile, it will get a similiar to input voltage waveform of input current to
acquire a good PF value.

3-4-4 Power LED Status

1. The LED has 3 leads common cathode with green and amber color for different power saving states. It

is controlled by CPU.

2. Normal : Green light

Amber LED is off because CPU pin 17 is high and pin 18 is low, only green LED is turned on.

3. Standby / Suspend : Y ellow light

CPU pin 17 and pin 18 are low, then green and amber LED are turned on. That is yellow.

4. Off Mode : Amber light

CPU pin 18 is high and pin 17 is low, then green is off and amber is on.

3-4-5 Auto Degaussing

When SMPS works, the 6.6 V power source is applied to Q801 and CPU let Q801 turn on a few seconds,
then drive the armature of RL801 to perform the degaussing function.

3-4-6 PWM Control

1. Start Up

The I802 gets power from C874, C841, R834, ZD807, D802, C859, R806 and pin 7 voltage reaches 9 V
for starting up. The I802 starts oscillation at 20 kHz, sawtooth on pin 4 and pin 6 output to drive Q802/
T805. Once Q802 switches on, D812, C840 set up an 17 V to keep I802 working through D828 auxiliary

Operation Theory Page 11

MD 1998LE (B1997PNST)

voltage.

2. Regulation
The DC O/P voltage is proportional to the auxiliary voltage, so I802 pin 2 senses the feedback voltage

from the divider R895, R888, R868, R897 and VR801 to compare with the built-in 2.5 volts reference
voltage for error amplifier operation. Finally pin 6 can modulate the different duty cycle by VR801 setting
to achieve regulation purpose.

3-4-7 Synchronization

1. Normal Mode
The sync pulse from FBT (31 kHz~93.75 kHz) via R820, C833, D806, R818 and C832 to pin 4 of I802 to

keep I802 synchronized with horizontal sync input frequency.

2. Power Saving Modes: Standby/Suspend
Because there is no pulse from FBT, so the free-run frequency is decided by R817 and C832 and the

SMPS works at 20 kHz.

3. Override
The horizontal free run frequency is about 62 kHz under override condition, SMPS is synchronized to this

frequency.

3-4-8 O.V.P.

If the auxiliary voltage is higher than zener voltage ZD806 (22 volts) and makes pin 3 of I802 higher than
1 V, pin 6 duty cycle is limited to have the OVP activated.

3-4-9 O.P.P.

The excess current of T805 through R819 can develop enough voltage on pin 3 then limit the power delivered
because the pin 6 duty cycle is limited too.

3-5 HV Supply

1. HV (High Voltage) start up is triggered by H-pls at pin 4 via R107. I103 3843 provides the PWM output
control (pin 6) to drive the step up B+ supplier Q103 via D105 and C108.

2. The time constant is dependent on the H-DRIVER through R140 via inverter I101 and buffer Q106 /Q107
to drive Q104.

3. I401 pin 32 provides the H+V composite signals to drive the two-stage dynamic focus amplifier. Output
of vertical amplitude is around 150 Vpp, while output of horizontal amplitude is around 670 Vpp.

Vertical dynamic focus

Page 12 Operation Theory

MD 1998LE (B1997PNST)

Horizontal dynamic focus

3-6 Video Amplifier Section

1. RGB signal inputs are terminated by R501, R531 and R561 then pass through the coupling capacitors

C502, C532 and C562 to I501 M52743BSP preamplifier.

2. The amplifier RGB signals (0~3 Vpp) are adjusted by I

pin 16 of TDA4856 to set up equal clamp level.

3. The video output stages is I901 LM2402, the output resistors R904, R934 and R964 are 47 ohm, R913,

R943 and R973 are 56 ohm for arcing protection and the power dissipation is minimized.

4. The RGB cathodes cut off are adjusted by D/A output pins 24, 25, 26 of I501.

2

C bus, pin 19 is for clamp pulse which comes from

Operation Theory Page 13

MD 1998LE (B1997PNST)

4 Alignments and Adjustments

This section of the service manual explains how to make permanent adjustments to the monitor settings.

4-1 General Adjustments

4-1-1Adjustment Conditions

a) Power Supply

Apply AC 115 V or 220 V

b) Warm-up T ime

The monitor must be powered on for 15 minutes before starting any alignment, but requires 30 minutes of
warm-up time for convergence adjustment.

c) Signal Input

1. Video: RGB Analog, 0.7 Vp-p, positive

2. Synchronization: Horizontal and vertical TTL signal, separate, positive or negative

3. All adjustments should be made using a signal of FH = 93.75 kHz, FV = 75 Hz, unless otherwise

defined.

4-1-2 Equipment Required

The following equipments are necessary for adjustment procedures:

1. Volt-ohm-A meter (Sanwa FD-750C or equivalent)

2. 30 kV high voltage probe (HP34111A)

3. Oscilloscope (TEK2235 or equivalent)

4. Minolta Color Analyzer II

5. Signal generator (IBM PC with proper display cards or Chroma 2250 or equivalent)

6. Screwdriver

4-1-3Switching Power Supply and Regulator Adjustment

a. The regulated B+ control has been preset in the factory and needs no adjustment. However, if any repair

is made on the power supply section, the following readjustment procedures are recommended:

1. Allow the monitor to warm-up for about 15 minutes.

2. Apply (1600 x 1200 @ 93.75Khz / 75 Hz) / crosshatch pattern to the monitor.

3. Connect a DC voltage meter to D820, Heat Sink and adjust VR801 for 17.5 ± 0.1 V.

4. If a fuse is broken during adjustment, remember to replace it with the exact same type of fuse.

b. If necessary, follow the following procedure to enter the factory preset mode:

1. At power off mode, turn S701 SW to alignment position close to CRT side.

2.Press both

3.Turn on the power again to return back to normal mode (user mode).

4.After finishing the manual alignment, S701 SW has to be returned back to its normal stage (close to
FBT side). Otherwise the DDC can not be read.

key and key simultaneously then power on to enter the factory preset mode.

Page 14 Alignments and Adjustments

MD 1998LE (B1997PNST)

4-2 Alignment Procedures

4-2-1 High V oltage Adjustment

CONDITION

Display image : Crosshatch pattern

PROCEDURE

Connect DC meter to TP001 and adjust VR102 to obtain a DC voltage of -152 ± 1V DC .

4-2-2 Screen and White Balance Adjustment

CONDITION

Switch S701 to factory mode, then press “
power “On”.

Warm up 30 minutes
Mode : 93 KHz / 1600 x 1200
Display image : No video

PROCEDURE

1-a Set Brightness to maximum, G1 at “70” OSD-step, and G2=625 V, Contrast to maximum.

Select “preset color” then choose “9300°K”
1-b Adjust Green cut-off around “70” OSD-step.
1-c Adjust G1 and R/B cut-off to get 0.8+0.15 / -0.1 FL of raster light output.
1-d Confirm x=283±5, y=297±5.

CONDITION

Display image : 50 mm x 50 mm white block pattern

PROCEDURE

2-a Set Brightness to mid-level.
2-b Adjust Contrast to maximum.

” and ” ” buttons simultaneously when switching the

2-c R/B signal off and adjust green gain to get Y=25 ± 0.2 FL.
2-d R/B signal on, adjust R/B gain to get x=283±5, y=297±5.

CONDITION

Display image : Full white pattern

PROCEDURE

3-a Set Brightness and Contrast to maximum.
3-b Adjust “ABL” to 32±1 FL.
4-a Repeat all the procedure in 4-2-2 section until the best white balance is obtained, then power off.
4-b After screen and white balance adjustments, S701 must be switched to Normal mode.

Alignments and Adjustments

Page 15

MD 1998LE (B1997PNST)

4-2-3 Focus Adjustment

CONDITION

Display image : “e” character pattern

PROCEDURE

1. Set Brightness and Contrast used for a normal display.

2. Adjust the static focus control on the high voltage resistor block to obtain the best focus over the entire
display area.

4-2-4 Static Convergence Adjustments

Static convergence involves alignment of the red, blue and green lines in the center area of the display.
Note : The monitor requires 30 minutes of warm-up time for convergence adjustment.

CONDITION

Display image : Crosshatch pattern
W arm-up Time : 30 minutes

PROCEDURE

1. Set Brightness and Contrast to display a well-defined pattern.

2. Ensure the convergence magnet rings are correctly positioned on the CRT.

Figure 4-1. Convergence Magnets on the CRT

1

11

+

P

8 7 6 5 4 3 2

10

1) Setup Bolt 2) Bow Magnet 3) Band 4) 2-Pole Magnet

5) Spacer 7) Spacer

9) Holder

6) 4-Pole Magnet

9

11) Tabs10) Band

3. Rotate the individual rings of 4-pole convergence magnets by changing the spacing between the 2 tabs to
converge the vertical red and blue lines at the center of the screen.

CRT

FRONT

8) 6-Pole Magnet

4. Rotate the pair of rings of 4-pole convergence magnets by maintaining spacing between the 2 tabs to
converge the horizontal red and blue lines at the center of the screen.

5. Rotate the individual rings of 6-pole convergence magnets by changing the spacing between the 2 tabs to
converge the vertical red, blue and green lines.

6. Rotate the pair of rings of 6-pole convergence magnets by maintaining spacing between the 2 tabs to
converge the horizontal red, blue and green lines.

7. Repeat the steps from 3~6 until the best convergence is obtained.

Page 16 Alignments and Adjustments

Figure 4-2. 4-pole and 6-pole Magnets Movement

Bl u e Re d

MD 1998LE (B1997PNST)

Red/
Bl u e Gre en

Blue
Red

4-pole magnets
movem e nt

Red/
Blue

Green

6-pole magnets
movem e nt

Note : The 4-pole magnets and the 6-pole magnets interact, making dot movement complex.

4-2-5Degaussing

Degaussing is required when poor color impurity appears on the screen. This monitor uses an automatic
degaussing circuit that is activated when the power is on. The manual degaussing will be fully functional after
the monitor has been in operation for 20 minutes through OSM degaussing function.

The degaussing effect is confined to the picture tube since the coils are mounted at the back of the tube.
Should any part of the chassis or cabinet becomes magnetized, it is necessary to degauss the affected area
with a external degaussing coil.

4-2-6External Degaussing

1. Apply line voltage to the degaussing coil and move it in a rotary motion over the front, sides, and top of the

monitor. The coil should be kept away from the rear of the monitor to avoid damaging the magnetic neck
components.

2. Slowly rotate and move the coil away from the monitor to about 6 feet beyond the point where no effect

on the CRT will be noticeable.

For proper degaussing, it is essential that the field be gradually reduced by moving the coil slowly away from
the monitor. The degaussing coil must never be shut off or disconnected while near the monitor, as this would
introduce a strong field instead of canceling the effect of the stray fields.

Alignments and Adjustments

Page 17

5 T r oubleshooting

5-1 No Raster

MD 1998LE (B1997PNST)

No Raster

Measure

H voltage of B+

at T402 on

PWB-MAIN

Check
I401, Q424,
Q416, D409

No

Check

D801

No

Check AC I/P on

T805

Yes

Check

I802, R894, R867, Q802,

D820, D819, D822, D826,

D824, D827,D831,

ZD802, ZD803

0 V

Short Circuit

at load?

Yes

Check DC B+

line, F801

I103, I102

Yes

T101 pin 2 HV

B+

48 V

Normal

(40 V, 31.5 kHz)

Check voltage

of cathode,

heater, Grid

1, Grid 2, etc.

Yes

Video

0 VHIGH

Q103, Q104,

R8A3, I103

High

(50 V or more)

Check

I401, ZD401,

Q416, Q424

Page 18 T roubleshooting

5-2 Function Key Abnormal

Function Key Abnormal

MD 1998LE (B1997PNST)

Check 5V from

I810 regulator?

Yes

Power

ON/OFF again and

check X701, oscillator

OK?

Yes

Check

I701 uC OK?

Yes

No

No

No

Repair power

supply

Replace X701

Replace I701

T roubleshooting

Check LED LD701 OK?

Yes

END

No

Replace

Q701 or Q702

Page 19

5-3 Vertical Scan (Raster is one horizontal line)

Vertical Scan Abnormal

Check voltage of

pin 3 at I301

(about 17.3 V)

Yes

No

MD 1998LE (B1997PNST)

Replace I301.

Check

pin 4 or pin 7 waveform

at I301

Normal

Check R307 short ?

Still no vertical scan

Check or replace CRT

Abnormal

Check pin 12 & pin

13 waveform at

I401

OK

Replace I301

Yes

Replace R307

Page 20 T roubleshooting

5-4 R.G.B. Video Amplifier Abnormal

RGB Video AMP Abnormal

MD 1998LE (B1997PNST)

Check

the waveform at the I501

pin 29, pin 32, pin 35

Yes

Check

the waveform at the

I901 pin 3, 5, 1

Yes

Video signal present at the

pin of the CRT R.G.B.

Cathode

Yes

No

No

(pin17, pin36)

Check B+ pin 10, 6

Check B+

Yes

Yes

Check the

waveform at pin

2, 6, 11, 19, 27

Check I901

Yes

Check I501

Defective cut-off circuit

(DC restore)

T roubleshooting

Page 21

MD 1998LE (B1997PNST)

6 Recommended Parts List

Note:1 . The components identified by “ “ mark are critical for X-ray safety. Replace these with

exactly the same parts specified.

2 . There is only OTP IC at the model beginning (FPR stage or before). When it put in mass

production and there must be Mask coming out. If you have spart parts need, please use BOM
to get the last release part number and related information.

No. Location Part Number De s cription

1 C810 6312647122 ALU uF 470 400V F 105C 30x45

2 D801 6417001100 DIO DE BRIDGE FBI4K7M1 4A/800V

3

4 D820 D826 6412000520 DIODE RL4A 3A/600V

5 D822 6412022207 DIODE SF20- 02G 2A/200V

6 F801 6851504051 FUSE TIME LAG H-BRK 19181-4A

7 I301 6442011210 IC TDA8351/N6 9P SIL PHILIPS

8 I401 6442025200 IC TDA4856 32P SDIP (PHILIPS)

9 I501 6442024210 IC M52743BSP 36P SDIP MITSUBISHI

10 I701 6448014500 IC NT68P61AU 42P PDIP OTP N OVAT

11 I703 6448007930 IC KS24C 04 (SAMSUNG)

12 I802 6442006720 IC KA3843B 8P PDIP

13 I901 6442025000 IC LM2402 11P TO-220 NS

D819 D824
D831 D827

6412010807 DIODE BYM26C 2.3A/600V

14 L405 6111169130 C OIL CHOKE 1.65 uH DR6X8

15 L404 6881001505 BEAD CORE W5 RH3.5x6x1.0T

16 Q 104 6426006300 FET N-CHNL SSH7N90A FAIRCHILD

17 Q 416 6427000900 FET P-CHNL SFS9634 FAIRCHILD

18 Q 402 6421000325 TR NPN 2SC1815- Y(TPE2) TO SHIBA

19 Q 103 6426006300 TR N-CHNL IRFS634A FAIRC HILD

20 Q424 6421005200 TR NPN 2SC5515 (PANASONIC)

Page 22 Recommended Spare Parts List

MD 1998LE (B1997PNST)

No. Location Part Numbe r Des cription

21 Q 802 6426002201 FET N- C HNL SSH 10N 80A

22 I501 6442024210 IC 52743BSP 36P MITSUBISHI

23 R415 6212147254 CF KO HM 4.7 1/4W J T26 MINI

24 ZD401 6414150004

25 R803 6203459017 POSISTOR 4.5 DGC3D4R5Q27C 3PIN

26 R802 6201100052 THERMISTOR 10 OHM 8A P=7.5 TKS

27 R822 6221222852 MOF OHM 0.22 2W J HOR

28 T402 6119003205 C OIL LIN EAR DYN AMIC TLN- 1032E

29 T40A 6139000300 XFRMER H-C ENT 5mH THC - 1003

30 T801 T802 6138003100 LINE FILTER

31 T805 6131051820 XFRMER PWR TPW1069 ER42/15 LSE

32 X701 6449000700 C RYSTAL HC49/U 8MHZ 50PPM 7pF

33 I804 6442030500 IC MC33260 8P MOTOROLA

34 D807 6412000520 DIODE RL4A/600V 50ns SANKEN

35 Q814 6426005410 FET N- CHNL IRFS840A 4.6A/500V

HZ15- 2 ZNR 15V/0.5

W

36 R823 6231039852 WW 0.39ohm 5WJ HOR

Recommended Spare Parts List

Page 23

7 Block Diagram

S

MD 1998LE (B1997PNST)

R

R

19"

CRT

DC RESTORE

G

B

I901

AMPLIFIER

LM2402 CRT

R-OSD

I501

M52743BSP

VIDEO PRE-

G

B

H

F2
F1
G2
G1

B-OSD

G-OSD

AMP

SDA

V

CONTROL

BRIGHTNESS

FB

SCL

VIDEO

BOARD

SOPT KILLER

BLANKING / MUTING

VBLK

VFLB

I502 OSD

SCL

SDA

HFLB

ABL

UP

Q103

I103

REGULATOR

DEFLECTION HV

Q416

STEP

BDRV

SDA

RASTER

T101

TRANS

FLYBACK

CS CRT

H-LIN &

DOWN

I401

TDA 4856

DEFLECTION

CONTROLLER

SCLVH

CENTER

-136V

Q104

H-PLS

I103

PWM

H-PLS

H

OUTPUT

H

HOUT

FOCUS

DRIVER

CONTROL

HOT

Q424

H- H+

DRIVER

880Vp-p

VDEF

D.Y

V+

I301

FOCUS

DYNAMIC

AMPLIFIER

V-

VERT.

BOOST

TDA8351

5V

82V

6.1V

200V

35.5V

17.6V

T805

TRANS

POWER SUPPLY

POWER

I802

PWM

CONTROL

6.7V

P501

DIODE

BRIDGE

S702

KEY

SCAN

LD701

MAIN BOARD

MICRO CONTROLLER

LED

INDICATION

I701

NT6861AU

H

V

DDC-SCL

P502B

DDC-SDA

I702

I704

I703

2

DDC

PROM
E

PROM

2

E

DEG CKT

LINE

FILTER

PFC

CKT

Page 24 Block Diagram

R

LITE-ON TECHNOLOGY CORP.
5 F, No. 16, Sec. 4, Nanking E. Road, Taipei, Taiwan
T el: 886-2-25706999 Fax: 886-2-25706888
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