Nokia 447ZiPlus Service Manual

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ZB1730

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When re---ordering manuals, please quote the model name and part number.

Nokia Display Products Oy P. O . B o x 1 4 FIN---24101 Salo, Finland

17” Colour Monitor 447ZiPlus

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447R

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TABLE OF CONTENTS

PAGE

1. Precautions and notices------------------------------------------2

2. Specification----------------------------------------------------------4

3. Control Location and Functions---------------------------------5

4. Disassembly instructions----------------------------------------- 7

5. General Connections & applications---------------------------9

6. Electronic Circuit Description------------------------------------10

7. Adjustment----------------------------------------------------------- 21

8. Troubleshooting follow Chart------------------------------------ 27

9. Block Diagram-------------------------------------------------------34

11. Circuit Diagram-----------------------------------------------------35

10. PCB Layout----------------------------------------------------------37

12. Mechanical Disassembly-----------------------------------------39

13. Mechanical Parts List---------------------------------------------40

14. Electrical Parts List------------------------------------------------41

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1. PRECAUTIONS AND NOTICES

1-1 SAFETY PRECAUTIONS

1) Observe all cautions and safety related notes located inside the display cabinet and on the display

chassis.

2) Operation of these displays with the cabinet removed involves a safety hazard from electric shock.

Work on the display should not be attempted by anyone who is not thoroughly familiar with

precautions necessary when working on high voltage equipment.

3) Do not install remove or handle the picture tube in any manner unless shatter-proof goggles are

worn. People not so equipped should be kept away while handing picture tube. Keep picture tube

away from the body while handing.

4) The picture tube is constructed to limit X-RADIATION to 0.5MR/HR.at 300 mA anode current. For

continued protection, use the recommended replacement tube only, and adjust the voltages so that

the designated maximum rating at the anode will not be exceeded.

5) Before returning a serviced display to the customer a thorough safety test must be performed to

verify that the display is safe to operate without danger or shock. Always perform an AC leakage

current check on the exposed metallic parts of the cabinet. Proceed as follows.

Connect the monitor power lead to the mains supply, via an isolation transformer, and switch on, Using the test circuit shown in Fig1-1 measure the AC leakage current between each pole (L and N) of the supply and all accessible metal parts. The earth leakage current must not exceed 3.5mA

(Fig 1-1)

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1-2 product safety notice

Many electrical and mechanical parts in this chassis provide special visual safety protection. The protection afforded by them cannot necessarily be obtained by using replacement components rated for higher voltage. wattage. etc.. Before replacing any of these components. read the parts list in this manual carefully. The use of substitute replacement parts which do not have the same safety characteristics as specified in the parts list may create shock, fire. X-RAY radiation or other hazards.

1-3 service notes

1) When replacing parts or circuit boards. wrap the wires around terminals before soldering.

2) When replacing a high wattage resistor (more than 1/2W) on a circuit board keep the resistor about 10mm (1/2 in ) away from circuit board.

3) Keep wires away from high voltage or high temperature components.

4) Keep wires in their original position so as to reduce interference.

Specifically for the cancellation wires of the TCO electric field emissions reduction purpose. This black cancellation wire is taken and connected from the maim chassis connector P500 through a wire clip which fixed on the heat sink of flyback transformer. Then get this wire underneath the round rotation coil, soldering on the left-hand side of the copper pad which fitted around the red circle of the anode connection on the tube back. Also, care must be taken for the I

C wires from P903A(on the main Board) to P904(on the CDT drive Board). This white color and red color wires combined flat wire are used for I

C communication. It should be fixed on the left side and rear side of FBT heat-sink by clip wires in order to keep away from the Deflection wires. High Voltage wire (red) and two focus wires (red and white) from FBT, because I

C are very easy to pick up noise from those wires and caused wrong color or wrong

contrast.

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Time Table For Sync. Signal

Mode No. 1 2 3 4 Unit Resolution 720 x 400 640 x 480 640 x 480 800 x 600 Horizontal Frequency 31.468 31.469 43.269 37.879 KHz (A)Horizontal 31.774 31.778 23.11 26.4 usec (B ) Horizontal Pulse 3.813 3.813 1.556 3.2 usec (C ) Horizontal Back Porch 1.907 1.907 2.222 2.2 usec (D) Horizontal Active Area 25.423 25.422 17.778 20 usec (E) Horizontal Front Porch 0.325 0.636 1.554 1 usec (F) H. Sync. Polarity - - - +

Vertical Frequency 70 59.94 85.008 60.317 Hz (O) Vertical Period 14.286 16.683 11.764 16.570 msec (P) Vertical Pulse Width 0.063 0.064 0.069 0.106 msec (Q) Vertical Back Porch 1.143 1.049 0.578 0.607 msec (R )Vertical Active Area 12.698 15.253 11.093 15.840 msec (S) Vertical Front Porch 0.382 0.317 0.024 0.026 msec (T) V. Sync. Polarity + - - + (U) Interlaced No No No No

Mode No. 5 6 7 8 Unit Resolution 800 x 600 832 x 624 1024 x 768 1024 x 768 Horizontal Frequency 53.674 49.725 48.363 68.677 KHz (A)Horizontal 18.631 20.113 20.677 14.561 usec (B) Horizontal Pulse Width 1,138 1.117 2.092 1.016 usec (C) Horizontal Back Porch 2.702 3.911 2.462 2.201 usec (D) Horizontal Active Area 14.222 14.522 15.754 10.836 usec (E) Horizontal Front Porch 0.569 0.558 0.561 0.508 usec (F) H. Sync. Polarity + - - +

Vertical Frequency 85.061 74.5 60.024 84.989 Hz (O) Vertical Period 11.756 13.416 16.660 11.765 Msec (P) Vertical Pulse Width 0.056 0.060 0.124 0.044 Msec (Q) Vertical Back Porch 0.503 0.784 0.600 0.524 Msec (R ) Vertical Active Area 11.199 12.551 15.880 11.183 Msec (S) Vertical Front Porch 0.019 0.021 0.062 0.014 Msec (T) V. Sync. Polarity + - - + (U) Interlaced No No No No No

Mode No. 9 10 Unit Resolution 1152 x 864 1280 x 1024 Horizontal Frequency 67.5 69.095 KHz (A)Horizontal 14.815 14.473 usec (B) Horizontal Pulse Width 1.185 1.160 usec ( C) Horizontal Back Porch 2.370 2.219 usec (D) Horizontal Active Area 10.667 10.758 usec (E) Horizontal Front Porch 0.593 0.33 usec (F) H. Sync. Polarity + +

Vertical Frequency 75 65 Hz (O) Vertical Period 13.333 15.385 msec (P) Vertical Pulse Width 0.044 0.043 msec (Q) Vertical Back Porch 0.474 0.567 msec (R ) Vertical Active Area 12.8 14.82 msec (S) Vertical Front Porch 0.015 0.041 msec (T) V. Sync. Polarity + + (U) Interlaced No No

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3. Control Location and Functions

FRONT

Down/Brightness Key

Select Key

Up/contrast key

Power LED Power Switch

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Controls on front panel Function

1. Power LED

This indicator will light when the power cord is properly connected and the power switch is ON.

The state of the LED is dependent on the Power State of the monitor. When the LED is green, the

monitor is in the normal state. When it is yellow or amber, it indicates a power saving state.

2. Power Switch

Press to power on the monitor; press again to power off.

We recommend to power your system on first, then the monitor.

3. Select

Press MENU key to reveal the OSD menu which include the sub-menu of the arrow headed item in the

lower half part of the OSD window.

The arrow headed item can be selected by pressing either of + key or - key to move the yellow shadow

bar to the function item which to be selected.

When the yellow shadow bar move to the function of submenu, press the select key, OSD will address

to the adjustment of that certain function, by pressing and hold down either of the + key to increase or –

key to decrease the function setting.

4. +/- Key

Other than above functions, + key can also be direct access for the contrast adjustment, whereas – key

is direct access for the brightness adjustment.

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4. Disassembly Instructions

Disassembly Instructions

1. Face Down The Monitor (Fig 4-1).

2. Back Cover Removal

a) Use small flat bladed screwdriver suitably protected against cabinet damage insert into the four

respective crevices Fig 4-2 ”A” where located on the crevices lateral side of the unit in the seam of

the back & front cover, hold and push the clip down to ease the snap – on lock.

b) Remove the back cover.

c) Unplug the DY connector, AC connector, Degaussing coil connector and the CRT grounding

connector from

the FBT shield.

d) Discharge the remaining static electricity by shorting CRT anode to ground. Then remove the FBT

anode connector (Fig.4-3).

e) Remove the PC main board form sliders of the

front cover (Fig.4-4).

3. PCB Assembly Remove

Caution : When servicing or replacing the CRT Disconnect the Anode and Discharge the Anode

shield completely. As high voltage (26kV) may remain on the Anode for an extended time

after power off.

Fig 4-1

Fig 4-2

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Fig.4-3

Fig.4-4

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5. General Connection & Applications

Procedure for installing and using this model of ultra Super-VGA color display.

1. Set up the display at the desired operation location , on top of or beside your personal computer. Plug the

power cord into the monitor and then connect the other end of the power cord into an AC outlet. The

three-wire power cord is provided as a Safety Precautions to ensure proper electrical grounding

2. Signal cable 15 pin D sub connector pin assignment: Pin assignment Description

1Red

2 Green

3Blue

4 Ground

5 Ground

6 Red Ground

7 Green Ground

8 Blue Ground

9 NOT Connected

10 Ground

11 ID O(tie to LG)

12 SDA

13 H.Sync

14 V.Sync

15 SCL

3. First turn the PC power switch ON. Then apply power to the display by pressing the power ON/OFF

switch to power on monitor. The power indicator light will illuminate. Allow about thirty seconds for the

display tube to warm up , data will be displayed on screen.

4. Adjust the BRIGHTNESS and CONTRAST controls for the best readability. Adjust the H.Width and

H.Position control as necessary for proper horizontal display.

5. V. Height can be adjusted to give you a proportional vertical display.

NOTE :1. If your extended VGA color display requires service. Refer to the control and adjustment

information in this publication and verify that all controls and adjustment of the display are

properly set.

2. If your display does require service it must be returned with the power cord.

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6. ELECTRONIC CIRCUIT DESCRIPTION

6-1. Switching Mode Power Supply (SMPS)

The switching mode power supply for this monitor is a full range type.

Universal power input of ac 100V … 240V is compatible.

The AC input is supplied through the slow blow fuse F801, the first line filter T802, the second line filter

T803 to the rectifier D811 …D814.

The rectified DC voltage is about 125V … 335V and is fed to the switching transformer T801 via R808.

Prior to start, small current flows to C866A via R849, R850, Q850.I862 is to operate immediately

when the voltage across C866A reaches 16V. At the same time, Q868 is on, the rectified current

flows through the primary winding of T801 and the energy is stored in it.

When Q868 is off, the energy is transferred to the secondary winding, the auxiliary winding is close -

coupled and in phase with the secondary winding, it will provide a holding voltage on C866A and fed to

pin 7 of I862 via R831 , D831,D870 I862 will keep working provided that voltage across C866A is over

10V.

The oscillating frequency of the switching mode power supply is around 30KHz, which is determined by

the timing components R861, C863.

Capacitor C863 is charged to 2.8V via the 5V reference voltage on pin8 of I862 and discharge to 1.2V,

during the discharge time interval, the oscillator generates a series of blanking pulses which cause the

output at pin6 of I862 to go low.

The fly-back pulse from T440 is buffered by R864 and differentiated by C864, R863. A sharp pulse is thus

obtained to force C863 to discharge, so that the oscillating frequency is synchronized and kept in phase

with that of horizontal frequency to avoid interference on the display screen.

Should the voltage vary due to the charge of input AC or output loading, the auxiliary winding will reflect

these variation to pin2 of I862 via D831, R831, R835. The voltage at pin2 of I862 is compared with the

internal 2.5V reference voltage to produce an error voltage which is limited to 1V by internal zener diode.

The comparator output is then compared with the voltage at pin3 of I862 which is supplied from the

voltage detected across R867, while Q868 is on. Q868 is off only when the voltage drop across R867 has

reached that of the error voltage, or1 V p-p maximum.

The error voltage controls the duty cycle of the pulse width modulator to regulate the output

voltage.

If over-load or short circuit occurs at the secondary, the voltage across R867 reaches 1 V p-p rapidly,

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thereby blocking the power output, the voltage at pin7 of I862 then decrease to below 10V, I862 is forced off.

However, in order to allow auto-recovery from power saving off state, the SMPS circuit is designed as an

unlatched type, the DC current flows via R849 Q850, R850 to charge C866A again, when the voltage across

C866A has reached 16V, I862 is turned on again. Once the peak voltage across R867 is over 1Vp-p, I862

will be forced off again.

Consequently, when short circuit or overload occurred, I862 is turned on and off repeatedly, and the power

will not be switched off, Q868 and R808 may be over stressed and fail.

6-2 Power Management Circuit

There are three modes of indicator in this power LED described as below, the first mode, “green-

indicator “ indicates the normal state; “yellow-indicator“ indicates the stand-by and the suspend

state. The third mode, “ amber-indicator “ indicates the power saving off state. Both H. sync and V.

sync are off.

I501

MODE

#40

#39

#31 #29 D862

LED

NORMAL 1111 GREEN

STAND BY 1001 YELLOW

SUSPEND 0101 YELLOW

OFF 0000 AMBER

When the display signal enters the “suspend “ state of power saving, which is V. sync off, the voltage at

pin31 of I501 is low, Q821 is OFF, and Q820 is OFF too. this will shut down the oscillation of the horizontal

and vertical deflection , the power saving is then achieved.

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When the display signal enters the “ off ” state of power saving which both H. sync and V. sync off,

the voltage at pin31& pin 29 of I501 are low, then Q820 is off and Q822 is off too, there is no 8V &

14V Voltage for the circuit.

The overall power dissipation is significantly reduced to less than 5 watts.

To recover from off state to normal state is automatic since the recoved H. sync and V. sync will

trigger I501 via Q550 &Q556, The voltage on pin 29 & 31 will go to high again and turn on Q822,

Q820 via Q823, Q821

Heater voltage

The heater element in the CRT is supplied with 6.3+0.3V during normal operation of the monitor and

5.0+0.5v during suspend mode. To achieve the goal, Q851, D871 and associate circuit are introduced

when at normal state, a Horizontal pulse is fed to D871 via P807, Q851 is on, the feedback voltage on pin

2 of I862 is normal, the output voltage of the secondary side of T801 is normal the heater voltage is 6.3V +

0.3V.

Horizontal output is shut down by making Q820 off during suspend state. There is no Horizontal pulse

then Q851 is OFF. The feedback voltage is higher than the normal state. this will force the output voltage

of the secondary side of T801 drop down. With the right value of R800, R832, R833, the heater voltage

will be 5.0+0.5V

6-3. Automatic and Manual Degaussing Circuit

When power switch getting started, MCU #38 will send out a "high" signal to turn on Q801. Simultaneously

a current flows from B

(14V) via R807 and SR801 to make the relay on, the posistor R806 and the

degaussing coil L901 constitutes an automatic degaussing circuit to demagnetize the shadow mask and

the internal shield of the CRT in order to protect the display screen from color impurity.

The resistance value of the posistor is as low as 14 ohm during power off.

Immediately after the display turned on, a large AC current flows through the resistor into the degaussing

coil for demagnetization.

AT the same time, the resistor value of the posistor increase rapidly due to

the rise of its temperature, the degaussing current thus decreases to less than 100mAp-p in a few

seconds so that the display screen settles quickly, when the degaussing function is finished.

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To manually degauss, it can be operated by selecting " " from the OSD

Menu and pressing MENU select key , it is similar to auto-degaussing.

MCU will be signaling a "high" level to Q801 , hence the manual degaussing is activated.

OSD lock / unlock function

When the degauss icon “ “ is pressing more then 10 seconds, the OSD menu will be forced to enter

OSD lock mode and will not allow function setting.

When OSD is at lock mode, selecting “ “icon from OSD and then press it more than 10 seconds

again, the lock mode will be forced to release and back to the normal.

6-4. Micro-Control Circuit

The monitor uses an advanced CPU (I501) to control the H. center; V. center V. height , pincushion,

trapezoid and so on by I

C BUS.

The horizontal sync and vertical sync are buffered by Q550, Q556 and fed to pin39, pin40 of I501, the

output sync signals are fed to pin1, and pin2 of deflection processor I401 via pin33, pin32 of I501.

With the H. size control signal, the PWM control signal is derived from pin2 of I501 which is fed into a

integration circuit R503, C503 and pull-up resistor R502 and amplifier Q502 to give a DC control voltage

on the collector of Q502.

The CPU is reset when the power cable is re-plug in. The components R506, D506 and C506 on pin4 of

I501 ensure correct start.

The +5V voltage is fed into I501 via pin5, a 8MHz resonator is connected on pin7, pin8 of I501 to generate

the CPU clock for the software execution. There are four input keypads S00 to S04. When a key is

pressed, the corresponding input port will be shorted.

The linearity control signal of horizontal circuit are derived from pin16, pin17, pin20, and pin22 which are

fed to Q402; Q404; Q480 for CS correction and Q489 for linearity C correction.

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The table below describes the relationship between CS logic and horizontal frequency.

hf <33khz 34 to 39 khz 40 to 44 khz 45 to 51khz 52 to 61 khz Hf > 62 khz

Cs0

(Linearity S

correction)

L H L H L H

Cs1

(Linearity S

correction)

L H L L H H

Cs2

(Linearity S

correction)

L L H H H H

Cs3

(Linearity C

correction)

H H L L L L

There is a low power override pin on pin30 of I501 this pin is pulled-up to 12V by R984, R986 on drive board

PWB-0170 and connected to pin5 of the signal cable. When the signal cable is disconnected from the

computer, this pin is high and the Self-test pattern will work as described below

When you disconnect the signal cable from the PC, and power on the monitor, the display will produce a

moving square self-test pattern. The self-test function is useful to confirm the monitor is working correctly.

When the signal cable is connected to the unpowered computer, this pin is low and the power saving circuit

will be operated, the CPU will generate a power saving signal on pin29 & pin31 of I501

The monitor is design to have the DDC 1/2b functions, communication between |the monitor and computer

for DDC is via pins24, 25 of I501 which are defined as SDA, SCL signals. The computer will read out the

EDID data from the EEPROM I502 via I

C data lines. The EDID data is written into the EEPROM in the

factory during production.

The memory size for EDID data is 128 bytes shared from EEPROM I502 which has 8K bytes memory size.

6-5. How to enter into the factory setting:

The monitor includes 10 sets of factory preset timings although only some of the timings are fine-tuned by

auto alignment during production.

Switch off the monitor, push and hold down the "select" key and power on again, wait 1.0 second then

release the "select" key, the monitor should now be in the factory setting mode. (OSD in blue

background) ,

All adjustment data will be stored automatically , then power on again , the monitor will revert to normal

operating state.

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6-6. Deflection Processor

I401 TDA9111 is an SGS monolithic integrated circuit assembled in a 32 pins shrunk dual in line plastic

package.

I401 controls all the function related to the horizontal and vertical deflection in a multi-sync monitor.

As can be seen in the block diagram, I401 includes the following function:

 Auto-sync and auto-processing for positive or negative H. /V. sync polarities on pin 1-2.

 East/West pincushion signal processing on pin 24.

 B

control, on pin14-17, 28.

 H.PLL lock/unlock identification on pin 8 and safety blanking output on pin12.

 X-ray protection is on pin 25.

I401 combined with I330 (TDA8172)which is a vertical booster to drive the vertical deflection yoke.

6-7. Pin -Out Description for SGS TDA9109 (I401)

PinNo Name Function

1 H-SYNC TTL Horizontal Sync Input

2 V-SYNC TTL Vertical Sync Input

3 HLOCKOUT First PLL Lock/Unlock Output (0V unlock -5V locked)

4 PLL2C Second PLL Loop Filter

5 Co Horizontal Oscillator Capacitor

6 Ro Horizontal Oscillator Resistor

7 PLL1-F First PLL Loop Filter

8 HLOCK-CAP First PLL Lock /Unlock Time Constant Capacitor

9 HFOCUSCAP Horizontal Dynamic Focus Oscillator Capacitor

10 FOCUSOUT Mixed Horizontal and Vertical Dynamic Focus Output

If this Pin is Ground, the H. and V. Output are Inhibited.

11 H-GND Horizontal Section Ground

12 H-FLY Horizontal Fly-back Input ( Positive Polarity )

13 H-REF Horizontal Section Reference Voltage ,8V

14 COMP B+ Error Amplifier Output for Frequency Compensation & Gain Setting

15 REGIN Regulation Input of B+ Control Loop

16 I-SENSE Sensing of External B+ Switching MOSFET Q440 Source Current

17 B+GND Ground(related to B+ reference adjustment)

18 BREATH DC Breathing Input Control

19 V-GND Vertical Selection Signal Ground

20 VAGC-CAP Memory Capacitor for Vertical AUTO-GAIN Control Loop in Vertical

Ramp Generator

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21 VREF Vertical Section Reference Voltage (to be filtered)

22 V-CAP Vertical Saw-tooth Generator Capacitor

23 V-OUT Vertical Ramp Output ( With frequency independent amplitude and S or

C Corrections if any) It is mixed with vertical position reference voltage

output and vertical moiré)

24 E/W-OUT East/West Pincushion Correction Parabola Output

25 X-RAY X-RAY Protection Input(With Internal Latch Function

26 H-OUT Horizontal Drive Output (Collector of internal Transistor )

27 GND General Ground (reference to Vcc)

28 B+ OUT B+ PWM Regulator Output

29 Vcc Supply Voltage( 12V )

30 SCL I2C Clock Input

31 SDL I2C Data Input

32 5V Supply Voltage (5V)

6-8. Vertical Deflection Circuit

The power amplifier driving the vertical yoke assembly is a DC design-based on power amplifier I330

TDA8172.

The vertical deflection coil is connected to pin5 of I330 via P440. The saw-tooth signal is derived from

pin23 of I401 and fed to pin1 of I330 via R330 / C330. The DC bias voltage is derived from pin21 of I401

and fed to pin7 of I330 via derived R347 / R348 to optimize the vertical position. R335 /C336 is to

stabilize the power amplifier output.

There are two supply voltage for I330, -9V is applied at pin4 via R334, +14V DC voltage is applied at

pin2 and pin6 via D344 for the output stage during the retrace time. The supply voltage for the output

stage during the retrace time is derived from the fly-back generator output on pin3 of I330 and applied

through C343 to pin6 of I330.

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6-9. Horizontal Deflection Circuit

Q429 is switched by the horizontal drive signal from pin26 of I401 via level-shift components R424,

C427, and D428. This produces a sufficient voltage to drive T430, Snubber network R429, C429

compensates for leakage inductance in T430 and shapes the base drive waveform.

The drive signal is fed to Q433 via D431, R431. When Q433 is at the “ off “ state, the changes stored

on the base and collector of Q433 will discharge via D431.By this way, switching loss will be reduced.

The drive signal controls Q433 to switch on and off, so that saw-tooth waveform current through the

horizontal deflection coil is obtained.

The positive horizontal fly-back pulse signal taken from pin6 of T440 feedback to pin 12 of I401 via

R405, R408. This fly-back signal not only provides proper timing reference for horizontal drive output

but also supply necessary blanking for video output.

The basic deflection circuit comprises switching transistor Q433; transformer T440; damper diode

D435; tuning capacitors C434/C435; S correction capacitors C405/C472/C477 and linear coil

L483/L454. The frequency table is for CS function as shown on page 13.

6-10. Horizontal Width Control

The monitor uses a diode modulation circuit. For the control of width, it is achieved by changing

the base voltage of Q467. The control voltage (0V …5V) is derived from pin2 of CPU I501 via

Q502, any change of DC voltage on the base of Q470 will vary the DC resistance between the

collector and emitter of Q470. Low DC resistance on Q470 will cause large width control current

flows into Q470 via L471 and then the horizontal width is increased.

6-11. Pincushion Control

Pincushion control signal is derived from pin24 of I401. This pincushion control signal is AC coupled

to the base of Q467 via C464 and divider R463/R464. Also this same pincushion control signal will

be amplified by Q466 and coupled via C404A to the collector of Q468,Q467,Q468 act as differential

amplifier. Output at base of Q470 modulation current flow in parabola shape, thus side pincushion is

corrected.

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6-12. Video Circuit

There are three the ICs applied for the video circuit.

I901 is a three channel pre-amplifier IC; I903 is OSD display IC.

I904 is for video output amplifier IC.

The analog R. G. B. video input signal are supplied through the cable, which is terminated at P901, these

input signal are approximately 0.7Vp-p in amplitude.

R901/R931/R961 give a resistance of 75 ohm for impedance match. The R, G, B video signal are AC

coupled via C901/C931/C961 then fed into the video pre-amplifier I901 at pin11, pin6 and pin2

respectively.

After being pre-amplified, the R, G, B video signals are output from pin35, pin32, and pin29 of I901

respectively. The amplitude of the signal at theses output are about 3 … 4 V p-p. Those video signals are

connected the I904 at pin 11, 8, 9 respectively.

The I904 is video output amplifier to amplify the mixed R, G, and B signal. They

offer about 40 V p-p

signals output in amplitude to drive the cathodes of CRT.

L912, L942, L972, are the peaking coils, for the compensation of high frequency response.

The contrast adjustment is controlled by SCL and SDA which fed into the pin20, 21 of the I901 through

the internal D/A converter to control the subcontract and the main contrast, so that we can have different

output in amplitude on pin35 (R), pin32 (G), pin29 (B).

The beam currents limit circuit that is composed of D941 and its peripheral components automatically

responds to the dynamic or static variation of beam current of the CRT. The ABL voltage is fed into pin15

of the I901. If this voltage is lower enough, it will activate the limitation to the internal main contrast to

prevent the picture from being too bright.

The DC brightness bias voltage derived from R902, R903 is applied to pin30 of I901 to give a constant DC

bias for the video pre-amplifier outputs.

The cathode cut-off setting voltage required for white balance is obtained from pin23(R), pin25 (G), pin26

(B) respectively. These output magnitude control the degree of transistor conducting (Q903, Q933, Q963)

individually so that the DC bias of the cathode are then varied to optimize the color temperature of back

ground.

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6-13. Brightness Control Circuit

The -157V is obtained from the FBT # PIN7 negative fly-back pulse via rectifier D489, through R484,

R482, D357 to supply Grid 1 of CDT(G1). This G1 voltage is normally set up at -70V.

The brightness control of the monitor is achieved by changing the G1 voltage via Q495, Q497. The control

voltage is derived from the pin26 of I501. The variation of the DC voltage on the base of Q495 via R492

will change the G1 voltage via R498, thus picture brightness change.

6-14. Spot Killer Circuit

The spot killer circuit is included in order to prevent from damaging CRT while power off monitor.

During the power on due to the voltage drop on R351, D348 from -157V, the #B, #E of the Q348 is

reverse biased. So Q348 remains non-conducting, whereas when powered off, the negative polarity of the

C349 will drop drastically to around –225V, this change will lead to the Q348 conducting, therefore draw

the G1 voltage down to much more minus voltage to cut off the beam current.

6-15. Blanking Circuit

The vertical blanking pulse is produced from pin5 of I330 via R337, C337, R339, R340, and D338. It is

also combined with horizontal blanking signal via C342. Both of the signals are fed to the amplifier Q341,

Q353. The output-blanking signal is then fed to G1 via C355.

6-16. Horizontal Position (Raster) Circuit

The adjustable horizontal raster centering is achieved by using the circuit of D485, D486, R485 by select

jumper on P402 in either a DC+CS AC current element or a DC-CS’AC current element. The positive or

negative magnitude of this AC current compare with the central zero level can decide the picture scanning

inclines to left or right side, via flow in or flow out of the L485 into the yoke assembly. The background

raster should be centralized with respect to the edge of the bezel by proper jumper selection on p402

Page 22

6-17. HV. B+ Control Circuit

The B+ control circuit generates the supply voltage for the horizontal scanning circuit. This supply voltage

is approximately proportion to the H frequency in order to keep the scanning amplitude constant when the

horizontal frequency changes. The circuit is a step-up converter and it uses the current mode regulation

principle.

The feedback signal is derived from pin 6 of T440 via R453, C453 and R452 to the error amplifier on pin

15 of I401. The value of R325 is chosen to get a suitable gain for the error amplifier. A saw-tooth

waveform related to the output current of Q440 as a I-sense is fed to pin16 of I401 via R442, R440 and

C326.

Both of the feedback and saw-tooth I-sense waveform are fed to a comparator in I401 to generate a PWM

(Pulse Width Modulation) control signal output at pin28 of I401.

A square waveform control output on pin28 of I401 is then fed to Q440 via buffer Q438, Q439. Q440 is

designed as a step-up voltage converter and the DC voltage (56V) is fed to the Drain of Q440 via L440.

The energy is stored in L440 when Q440 is on; the energy is released when Q440 is off. D442, C444

Rectifier and filter gives a DC voltage from 69…165V depend on Horiz. Freq. 30…70KHz. The step-up

converter supplies DC voltage (69V … 165V) to pin9 of T440. The snub circuit C441, R441, R444 and

C442 is for the noise transaction.

Fail-Safe Protection

The fail-safe shut down protection is activated when anode voltage exceeds certain radiation safety limit.

The fail-safe control voltage is derived from pin9 of T440 via R449/ R450 and D449 and pin 6 of T440 via

D453, R447, D446, then applied to the pin 25 of I401, the input at pin25 of I401 is a DC voltage with

typical shut down voltage of about 8V. I401 will block the H-drive output and H&V blanking output when

pin25 is over 8V. The protection can be reset and return to normal operation either by power off and on or

by I

Rotation

The control signal on pin 3 of I501 is to adjust the display tilt. When you press " + "key, the voltage on

base of Q203 rises and causes current Ic of Q202 increased. By virtue of current flow, rotation coil makes

the display a bit tilt. The display will tilt anti-clockwise when " - " press.

Page 23

7. ADJUSTMENT

T440

R471

R833

R321

CRT DRIVE BOARD (Component side view)

PWB-0170

MAIN BOARD (Component side view) PWB—0169

R833: B+ Adjust R321: Hv Adjust R471: ABL Adjust

Display LED’s

SCREEN

FOCUS1

FOCUS2

Page 24

7-1. B+ Output Voltage Adjustment

a) Apply a VGA signal (53.6KHz) with cross hatch pattern to the unit.

b) Turn the brightness control and contrast control to the maximum.

c) B+ adj. (R833) for the voltage across C806 to be 56V +2V, -0.5V.

d) Verify the voltage on the table

Voltage Spec.

+6.3V 6.1V ± 0.3V

+14V 15V ±2V

+75V 80V ±6V

+55V 56.2V + 2V, -0.5V

+12V +12V ±0.5V

+5V 5.1V ± 0.1V

-9V - 9.5V ± 1V

+8V +8.3V ±0.5V

7-2. High Voltage Adjustment /Sub-Bright Adjustment

a) Apply a VGA signal (53.6KHz) with crosshatch pattern.

b) Set Contrast to maximum.

c) Adjust the Brightness or G2 VR on T440 until the raster just disappears.

d) Adjust HV. ADJ R321 for the high voltage to be 26kV ±0.2 kV.

e) Set the contrast and the brightness to the MAX.

7-3. H. Raster Center Adjustment

a) Apply a 69 kHz signal with crosshatch pattern.

b) Select the jumper on P402 to center the raster position, the background raster should

be centralized with respect to the edge of the bezel by proper insertion the P402.

Page 25

7-4. Auto Sizing Adjustment

To enter into the factory setting mode, operate according the following procedure.

Switch off the monitor first, then push and hold down the "SELECT" control key to power on again,

wait 1.0 second to release the " SELECT " key.The monitor is now in the factory setting mode, all the

data of adjustment will be set at the factory setting automatically.

a) Ensure completion of the HV. Adjustment before starting the preset adjustment.

b) Setup the timing table in your pattern generator.

c) Adjust the trapezoid and pincushion control to the optimized position for each mode.

d) Adjust the H. Center, H. Width, V. Center and V. Height to the optimized position for each mode

according to the specification.

e) Finally, switch off and on again, the monitor will revert to its normal state.

7-5. White Balance Adjustment

A. 9300K

§ Background White Balance

1. Apply a 53.6K Hz/85Hz (800 x 600) no video pattern.

2. CONTRAST : MAX, BRIGHTNESS : 190

3. R.G.B. Bias initially set at center, adjust screen VR (bottom of FBT) until background

brightness at 3.6 to 4.2 Cd/mm2

4. Adjust R and B to have the colour coordinates to x=0.283±.0.010,y=0.298(±0.010),

Y=4.2 Cd/mm2 approx.(reference only)

§ Video Gain /White Balance

1. CONTRAST : MAX, BRIGHTNESS set at 1.0 Cd/mm2

2. Apply a 50 x 50mm solid block green pattern.

3. Close R.B. signal adjust Green gain to 31Ft/L

4. Apply a 50 x 50mm solid block white pattern.

5. Adjust R and B to get the colour coordinates as to x=0.283±0.015,y=0.298±0.015,

Y ~135Cd/mm2

B. 6500K

§ Background White Balance

1. Apply a 53.6kHz/85Hz (800 x 600) no video pattern.

2. CONTRAST : MAX, BRIGHTNESS : 190

3. R.G.B. Bias initially set at center adjust screen VR bottom of FBT until background brightness at 3.6 to

4.2 Cd/mm2

4. Adjust R and B to have the colour coordinates as to x=0.313±.0.015,y=0.329(±0.015),

Page 26

Y=4.2 Cd/mm2 approx (reference only).

5. Do not adjust the G2, must remain as it was.

§ Video Gain & White Balance

1. CONTRAST : MAX, BRIGHTNESS set at 1.0 Cd/mm2

2. Apply a 50 x 50mm solid block green pattern.

3. Close R.B. signal adjust Green gain to 31Ft/L

4. Apply a 50 x 50mm solid block white pattern.

5. Adjust R and B to get the colour coordinates as to x=0.313±0.015, y=0.329 ±0.015.

Y~135Cd/mm2

C. 7000K

§ Background White Balance

1. Apply a 53.6K Hz/85Hz (800 x 600) no video pattern.

2. CONTRAST : MAX, BRIGHTNESS : 190

3. R.G.B. Bias initially set at center adjust screen VR bottom of FBT unfill background brightness at 3.6

to 4.2 Cd/mm2

4. Adjust R and B to have the colour coordinates as to x=0.305±0.015,y=0.322(±0.015),

Y=4.2 Cd/mm2 approx. (reference only)

5. Do not adjust the G2 any longer, must remain as it was.

§ Video Gain & White Balance

1. CONTRAST : MAX, BRIGHTNESS : 150

2. Apply a 50 x 50mm solid block green pattern.

3. Close R.B. signal adjust Green gain to 31Ft/L

4. Apply a 50 x 50mm solid block white pattern.

5. Adjust R and B to get the colour coordinates as to x=0.305±0.015, y=0.322±0.015.

Y~135Cd/mm2

Page 27

7-5.1. GEOMETRIC ADJUST

a. Press the MENU key to reveal the OSM, then using either the+key or -key to choose the geometric

adjustment.( SHAPE as shown on OSD ) b. Selecting the item which needs to be adjusted in the submenu disposed on the lower part of the OSM c. Press the MENU key again, the OSM will address to exhibit the adjustment bar. d. Press either+key or-key to change the magnitude of the setting until the optimized picture is obtained.

ICON NAME FUNCTION

Horizontal position To adjust the horizontal position of the display

Horizontal size To adjust the width of the display

Vertical position To adjust the vertical position of the display

Vertical size To adjust the height of the display

Pincushion To adjust any tapering or bowing of the

sides.

Trapezoid To adjust the top and bottom of the image to the same

size

Rotation To adjust the display tilt

To enable the OSD

menu to be moved horizontally.

Side Pin Balance To straighten the left or right side of the image. (Only at preset OSD menu)

Parallelogram To square the image.

Degauss To degauss the display

Monitor Defaults To recall the original factory display settings or save

otherwise.

Exit Menu To remove the OSD menu

Language Changes the language display on OSM as require

Page 28

7-6. Focus Adjust

a) Apply a 69 kHz signal with cross-hatch pattern.

b) Adjust FOCUS adjust on T440 to get the best overall focus.

7-7. Convergence Adjustment

Note 1: For a unit with new ITC, adjustment for convergence may not be necessary.

2: Prior to the convergence alignment the another adjustment procedures must be completed.

a) Apply a VGA signal with full-white pattern to the unit.

b) Turn brightness control to center detects.

c) Use a photometer to set the screen center brightness up to 20 FL by adjusting the contrast

control.

d) Apply a VGA signal with crosshatch pattern to the unit.

e) Loosen the convergence magnet ring with a screwdriver.

f) Converge the red and blue lines at the center of screen by rotation the two tabs of the 4 poles

static convergence magnet.

g) Tighten the convergence magnet lock ring with a screwdriver.

Page 29

8. TROUBLESHOOTING FLOW CHART

(1) Power Start NG

Power start NG

Is the

voltage at

C815 normal

(125-340V)

Does R808

open?

Is the

start-up

voltage at

C831(16V)

Is the

voltage of

R867 normal

(>1Vpp)?

F801

open ?

Check power socket copper and

plug & D811…D814, R805

Check Q868,I862,D831,R867

Check R849, R848, D870, C831,

D831, R831,Q850

Q820,Q821,Q822, Q823 and their input control lo

Check secondary side circuit. D802~D807 or any short circuit on B+ output,R867 resistance

Yes

NoNoN

Replace

F801

Page 30

Are the

waveforms at

pin 2,6,11 of I901 Normal

No Video(raster appear)

Are the

voltages at pin

15 of I901

normal ?

Are the

waveforms at

pin 35,32,29 of

I901 normal ?

The voltage at pin

17 of I901 normal ?

Are the

waveforms at cathode R/G/B of CRT normal

Check signal cable, C901, C931, C961

Check ABL line from PCB

Check D941

I901 is defective

CRT is defective.

Check video circuit voltages on Pin 1,3,5 of I904. Check 12V lines Check 75V lines.

Yes

NoNoNoNoN

(2) No Video (raster appear)

Page 31

(3) No Raster appear

Is the

voltage at O/P

of D442 normal

(69…165V)?

the H.V.

correct

Does raster

light up with

SCREEN control

turned clockwise

Is the

voltage at

heater normal

(6.3V) ?

Is the

waveform at

Pin 1 of T430

normal ?

Is the

waveforms at

Pin 26 of I401

normal ?

Is the

voltage at

cathode of

D453 normal ?

Are

Q433,

D434 OK ?

Is the

high voltage

protection CKT

active ?

No raster appear

Check B+ converter CKTQ440, Q438,

439, D442

Open L440, Input 31KHz signal apply 80V DC on Pin 9 of T440

Replace the

defective

Reset SCREEN control.

Check brightness circuit Q495, Q497, R482 Check spot killer Ckt Q348, D348 Check FBT, CRT

Check R930, P902

Check I401

Check Q429, D428, C427, R424 +14V to Q429 –9V to Q429

Check D446, D449 R447, R445, C434, C435, C451, P440, L483

Check T440, P440, T430, CRT

NoNoN

NoN

Yes

Page 32

Is the

waveform at Pin

2/6/11 of I901

normal

Is the

waveform at Pin

29/32/35 of I901

normal

Is the

waveform at

cathode R/G/B of

CRT normal

R/G/B is Missing

Check signal cable. C901/C931/C961

I901 is defective

Check video circuit

Waveform at pin

1/3/5 of I904 Check 12V lines Check 79V lines

CRT is defective

(4) R/G/B is Missing

NoNoN

Yes

Is the

waveform at

Pin 32 of I501

normal ?

Is the

waveform at

Pin 40 of I501

normal ?

Loss of vertical synchronization

Check

I401,C328

Check Q556 C328

Check I501

NoN

Yes

(5) Loss of Vertical Synchronization

Page 33

Is the

waveform at

Pin 33 of I401

normal ?

Is the

waveform at

Pin 39 of I501

normal

Loss of horizontal

synchronization

Check I401

C414, R409,

C468

Check Q550, C550, R551,C551

Check I501

NoN

Yes

(6) Loss of Horizontal Synchronization

Page 34

(7) No Vertical Scanning (One Horizontal Line)

Is the

waveform at

Pin 5 of I330

normal ?

Are the

voltages at Pin

2 of I330 14V

Pin 4 of I330

-9V ?

Is the

voltage at Pin 7 of

I330 normal

(1.8V) ?

Is the

waveform at

Pin 23 of I401

normal

Is the voltage

at Pin 21 of

I401 normal

voltage at Pin

22 of I401

normal

No vertical scanning

Deflection yoke is defective.

R334 is defective.

Check R347, R348

I330 is defective.

Check C302, C338,

R347, R348

I401 is defective

NoNoN

Yes

Check C328

Page 35

(8) MICRO CONTROL FUNCTION ABNORMAL

Is the

control function

working ?

Is the sync signal on Pin 39/40 normal

MICRO CONTROL

ABNORMAL

Check Q550, Q556

Check 5V on Pin 5 of I501 Check X510, D506, C506

PWB-0171 key control board

NoN

Yes

H. SIZE ABNORMAL

Is H.size

control function

working

Is voltage at

the base of

Q467 normal

Check Q502, I501

Check Q467, Q468, Q470, C471, L471

Check

Q408, Q408A, Q502

(9)HORIZONTAL WIDTH CONTROL ABNORMAL

Yes

Page 36

Q348 SPOT KILLER

Q495/Q497 BRIGHTNESS

Q353/Q341 BLANKING

I330

Vert. Output

Vert.

D. Y.

Hor.

D.Y.

I902

VIDEO

PRE

AMP

Q429/T430

Drive

Q433/D434

Hor. Out

put

Q467/Q468

Width Adj.

Q470/L471

Diode

Mod.

L483 L454 Q405 Q401 Q403 Q407 Q423 CS Ctrl

T440

F.B.T.

D485

D486

RASTER

CENTER

D446/D449 X-RAY PROTECTION

R321 HV. ADJ.

Q438,Q439,Q440 L440,D442 PWM B+ CONTROL

I502 EEPROM

I501

MCU CONTROL

SELF TEST

TRAPEZOID

H/V CENTER

HV/SIZE

CS CONTROL

TILT CONTROL

Q550

Q556

SYNC

BUFFER

T802/T803 D811…D814 EMI Filter, Rectifier.

Q840 Power LED

862

I811 7805

I810 7812

T802 T803 D811…D814 T801 I862 Q868,D831 R831 R833 R808

D807 D802 D805 D806

D803/ D804

SMPS

SCL/SDA DDC

S516 KEY CONTROL

12V

H OUT

X RAY OUT

Focus 1, 2

Anode

G2G1

I903

R Video out

G Video out

B Video out

-9V

15V

79V

56V

PULSE FROM FBT P807

V OUT

I401

H&V OSC

PWB - 0169

R930

6.3V

PWB-0170

Heater

V901 CRT

90V… 264V AC

Q822 Q823

Q820 Q821

POWER

SAVING

Contrast

Adjust

Brightness Adjust

E/W OUT

E/W Q466

I904

OSD

9.BLOCK DIAGRAM

Page 37

10. CIRCUIT DIAGRAM

Page 38

Page 39

11. PCB LAYOUT

Page 40

Page 41

Page 42

13. MECHANICAL PARTS LIST

ITEM

DESCRIPTION PART NO. QTY

M01 FRONT BEZEL 5642276700 1

M02 BACK BEZEL 5642276600 1

M03 SWIVEL BALL 5641407800 1

M04 BASE 5641407900 1

M05 CONTROL BUTTOM 5642837000 1

M06 HEAT SINK Q801 5646405000 2

M07 FBT SHIELD PLANE 5646435504 1

M08 HEAT SINK 5646428903 1

M09 HEAT SINK (AL) 5646405201 1

M10 HEAT SINK 5646405205 1

M11 DRVER CARD SHIELD-PLATE 5646246301 1

M12 AL SHIELD PLANE 5646438200 1

M13 LED WASHERS 5642024800 1

M14 COVER FOR CRT DRIVE SHIELD 5646246900 1

M15 METAL FRAME FOR CHASSIS 5648109000 1

M16 SHIELD FOR METAL CHASSIS 5646247300 1

M17 BRACKET METAL (L) 5648704600 1

M18 BRACKET METAL (R) 5648704601 1

M19 CLAMP SIGNAL CABLE (STEEL) 5648002600 1

M20 FBT FIXED 5648726300 1

M21 COPPER FOIL-CRT T= 0.5mm 5648006100 1

M22 DECORATING PLATE 5642414500 1

M23 PCB SPACER SUPPORT (LSD-9A) 5642670401 3

M24 FOOT PAD 5642024400 6

M25 CABLE SADDLE 5642665700 3

M26 LOGO (NOKIA) 5642414100 1

M27 SPONGE 5642018213 1

L01 HIGH VOLTAGE WARNING LABEL 5635572006 1

L02 S/N LABEL 5635580701 1

L03 BAR CODE BLANKNESS LABEL 5635562900 1

L04 MODEL LABEL 5635582900 1

L05 BAR CODE 5635582700 1

L06 TCO99 LABEL 5635582100 1

S01 SCREW, TS PHB+CWM5.0X22 7190561002 4

S02 SCREW PZP M4.0X14 7134251982 2

S03 SCREW PZP M4.0X10 7134251482 7

S04 SCREW PZS M3.0X10 7134161452 7

S05 SCREW BRB M3.0X10 7033161452 3

S06 SCREW BTBW M3.0X8 7000305012 20

S07 SCREW BTBW M3.0X6 7000305082 1

Page 43

14. ELECTRICAL PARTS LIST

WARNING: Replacement parts that have special characteristics important to safety should be replaced

only with types identical to those in the original circuit or specified in the parts list.

Before replacing any of these components, read carefully the product safety precautions.

Do not degrade the safety of the display through improper servicing

ABBREVIATIONS:

RESISTOR CAPACITOR

PART NAME & DESCRIPTION PART NAME & DESCRIPTION

TYPE ALLOWANCE TYPE ALLOWANCE

CF Carbon Fil

F ±1% CE Ceramic F ±1%

CC Carbon Composition G ±2% EL Electrolytic G ±2%

MOF Metal Oxide Fil

J ±5% PO Polyeste

J±5%

FU Fusible K ±10% TA Tantalu

K ±10%

MF Metal Fil

M ±20% PP Polypropylene M ±20%

VR Variable Resisto

ME Metalized P ±100%–0%

CR Cement Resisto

BL Barrier Laye

Z ±80%–20%

ASSEMBLY PCB-MAIN (PWB-0169)

CKT NO. Part no. Description

acitor

C301 5213347091 EL 16V 47UF M

C302 5236310491 BL 50V 0.1UF Z

C304 5236310491 BL 50V 0.1UF Z

C305 5231310291 CE 50V 1000PF K

C308 5242215191 CE 50V 150PF J

C310 5236310491 BL 50V 0.1UF Z

C311 5242215191 CE 50V 150PF J

C313 5242215191 CE 50V 150PF J

C314 5231356291 CE 50V 5600PF K

C323 5275122491 ME 63V 0.22UF J

C323B 5213310191 EL 16V 100UF M

C324 5213610091 EL 50V 10UF M

C325 5213310191 EL 16V 100UF M

C326 5231322291 CE 50V 2200PF K

C326A 5231347291 CE 50V 4700PF K

C327 5275147491 ME 63V 0.47UF J

C327A 5213310191 EL 16V 100UF M

C328 5275133491 ME 63V 0.33UF J

CKT NO. Part no. Description

C330 5222424291 PO 100V 2400PF J

C331 5222412291 PO 100V 1200PF J

C334 5213310212 EL 16V 1000UF M

C336 5277127401 ME 100V 0.27UF J

C337 5275122491 ME 63V 0.22UF J

C338 5275110491 ME 63V 0.1UF J

C342 5232327191 CE 500V 270PF K

C343 5213522112 EL 35V 220UF M

C349 5214422991 EL 250V 2.2UF M

C355 5272110901 ME 250V 0.1UF J

C356 5272110301 ME 250V 10000PF J

C357 5214122991 EL 100V 2.2UF M

C401 5275115391 ME 63V 15000PF J

C402 5231347291 CE 50V 4700PF K

C403 5231347291 CE 50V 4700PF K

C404A 5210502591 EL 16V 47UF M

C405 5223412401 PO 250V 0.12UF J

C406 5213333191 EL 16V 330UF M

C407 5236310491 BL 50V 0.1UF Z

Page 44

CKT NO. Part no. Description

C408 5210502191 EL 50V 2.2UF M

C408A 5232333191 CE 500V 330PF K

C409 5231322291 CE 50V 2200PF K

C409A 5213422091 EL 25V 22UF M

C410 5231310291 CE 50V 1000PF K

C411 5213622991 EL 50V 2.2UF M

C412 5213647991 EL 50V 4.7UF M

C413 5213647991 EL 50V 4.7UF M

C414 5213601091 EL 50V 1UF M

C415 5231347291 CE 50V 4700PFK

C416 5242212191 CE 50V 120PF J

C417 5231368291 CE 50V 6800PF K

C421 5213347091 EL 16V 47UF M

C422 5231347291 CE 50V 4700PF K

C423 5213610191 EL 50V 100UF M

C424 5231347291 CE 50V 4700PF K

C427 5213622991 EL 50V 2.2UF M

C429 5231347291 EL 50V 4700PF M

C430 5213610091 EL 50V 10UF M

C434 5223753202 PO 1600V 5300PF J

C435 5223675201 PO 630V 7500PF J

C441 5232322191 CE 500V 220PF K

C442 5233327191 CE 1KV 270PF K

C443 5213410091 EL 50V 10UF M

C444 5206433012 EL 250V 33UF M

C444A 5206433012 EL 250V 33UF M

C444C 5036200701

ADHESIVE,HOLT

MELT

C451 5214401091 EL 250V 1UF M

C453 5213633991 EL 50V 3.3UF M

C454 5232347191 CE 500V 470PF K

C462 5236310491 BL 50V 0.1UF Z

C463 5221148301 PO 50V 68000PF J

C464 5213633991 EL 50V 3.3UF M

C468 5247082191 CE 50V 820PF J

C470 5232356191 CE 500V 560PF K

C471 5270207301 ME 100V 2.2UF J

CKT NO. Part no. Description

C472 5270364401 ME 250V 0.64UF J

C477 5270208001 ME 400V 0.27UF J

C478 5231347291 CE 50V 4700PF K

C482 5270207401 ME 400V 0.22UF J

C485 5223633201 PO 630V 3300PF J

C489 5214410012 EL 250V 10UF M

C489A 5232318191 CE 500V 180PF K

C490 5275133391 ME 63V 33000PF J

C492 5213622991 EL 50V 2.2UF M

C500 5236310491 BL 50V 0.1UF Z

C501 5236310491 BL 50V 0.1UF Z

C502 5236310491 BL 50V 0.1UF Z

C503 5213647991 EL 50V 4.7UF M

C504 5236310491 BL 50V 0.1UF Z

C505 5213614991 EL 50V 4.7UF M

C506 5213614991 EL 50V 4.7UF M

C508 5213247191 EL 10V 470UF M

C509 5236310491 BL 50V 0.1UF Z

C511 5242210091 CE 50V 10PF

C512 5242210091 CE 50V 10PF

C513 5213447091 EL 25V 47UF M

C550 5231333191 CE 50V 330PF K

C551 5231310291 CE 50V 1000PFK

C560 5233310291 CE 1KV 1000PF K

C580 5231322291 CE 50V 2200PF K

C581 5213622091 EL 50V 22UF M

C582 5214422991 EL 250V 2.2UF M

C586 5272118301 ME 250V 18000UF J

C587 5272133301 ME 250V 33000PF J

C800 5213447091 EL 25V 47UF M

C800A 5230105401 CE 400V 2200PF M

C800B 5230105401 CE 400V 2200PF M

C801 5214147012 EL 100 47UF M

C801A 5214422991 EL 250V 2.2UF M

C801B 5232310301 CE 500V 10000PF K

C802 5233327191 CE 1KV 270PF K

C803 5214110112 EL 100V 100UF M

Page 45

CKT NO. Part no. Description

C804 5233327191 CE 1KV 270PF K

C805 5213547112 EL 35V 470UF M

C805A 5232310301 CE 500V 10000PF K

C806 5216122112 EL 100V 220UF M

C807 5215447112 EL 25V 470UF M

C807A 5232310301 CE 500V 10000PF K

C808A 5232310301 CE 500V 10000PF K

C808 5215447112 EL 25V 470UF M

C809 5233333191 CE 1KV 330PF K

C809A 5213310212 EL 16V 1000UF M

C809B 5233333191 CE 1KV 330PF K

C811 5236310491 BL 50V 0.1UF Z

C811A 5232327191 CE 500V 270PF K

C812A 5233318191 1KV 180PF K

C813 5233318191 1KV 180PF K

C814 5233333191 CE 1KV 330PF K

C815 5210313400 EL 400V 220UF M

C816 5233310301 CE 1KV 10000PF K

C817 5213322091 EL 16V 220UF M

C819 5236310491 BL 50V 0.1UF Z

C822 5230105401 CE 400V 2200PF M

C823 5230105401 CE 400V 2200PF M

CKT NO. Part no. Description

C825 5230105501 CE 400V 4700PF M

C826 5230105501 CE 400V 4700PF M

C827 5213310191 EL 16V 100UF M

C829 5213310191 EL 16V 47UF M

C830 5270106301 ME 250V 0.47UF M

C831 5213633991 EL 50V 3.3UF M

C832B 5230105401 CE 400V 2200PF M

C834 5232322291 CE 50V 2200PF K

C838 5233310291 CE 1KV 1000PF K

C840 5213633991 EL 50V 3.3UF M

C862 5247047191 CE 50V 470PF J

C863 5231322291 CE 50V 2200PF K

C864 5275122391 ME 63V 22000PF J

C866A 5213547091 EL 35V 47UF M

C870 5213410212 EL 25V 1000UF M

C871 5232310301 CE 500V 10000PF K

C872 5213310191 EL 16V 100UF M

C873 5236310491 BL 50V 0.1UF Z

C874A 5213447091 EL 25V 47UF M

C876 5213347091 EL 16V 47UF M

Page 46

CKT NO. Part no. Description

SEMICONDUTOR

DIODE

D310(RA) 6613003032 DIODE SWITCHING 1N4148

D310(RB) 6613003037 DIODE SWITCHING 1N4148

D311(RA) 6613003032 DIODE SWITCHING 1N4148

D311(RB) 6613003037 DIODE SWITCHING 1N4148

D338(RA) 6613003032 DIODE SWITCHING 1N4148

D338(RB) 6613003037 DIODE SWITCHING 1N4148

D344(RA) 6611007240 DIODE 1N4002RL

D344(RB) 6611007244 DIODE 1N4002

D348(RA) 6611007240 DIODE 1N4002RL

D348(RB) 6611007244 DIODE 1N4002

D357(RA) 6611007240 DIODE 1N4002RL

D357(RB) 6611007244 DIODE 1N4002

D401(RA) 6615005833 DIODE ZENER RD12E-B3-T1

D401(RB) 6615025836 DIODE ZENER HZ12A2-TD

D401(RC) 6615020835 DIODE ZENER TZX12B

D401(RD) 6615018435 DIODE ZENER TZX12C 11.9…12.4V

D402(RA) 6615005833 DIODE ZENER RD12E-B3-T1

D402(RB) 6615025836 DIODE ZENER HZ12A2-TD

D402(RC) 6615020835 DIODE ZENER TZX12B

D402(RD) 6615018435 DIODE ZENER TZX12C 11.9…12.4V

D423 6613003032 DIODE SWITCHING 1N4148-TD

D428 6613003032 DIODE SWITCHING 1N4148-TD

D431(RA) 6611000341 DIODE RECTIFIER FRRD 1N4935-G23

D431(RB) 6613002244 DIODE SWITCHING RGP10D-G23

D431(RC) 6611035644 DIODE SWITCHING RGP10D

D431(RD) 6611026341 DIODE SWITCHING FR104AT

D431(RE) 6611035941 DIODE SWITCHING PG102R

D432 6615007834 DIODE ZENER HZ5C1-TD 4.9-5.1

D433(RA) 6615005833 DIODE ZENER RD12E-B3-T1

D433(RB) 6615025836 DIODE ZENER HZ12A2-TD

D433(RC) 6615020835 DIODE ZENER TZX12B

D433(RD) 6615018435 DIODE ZENER TZX12C 11.9…12.4V

D434(RA) 6611018801 DIODE RECTIFIER DMV56

D434(RB) 6611018652 DIODE RECTIFIER FMZ-2FUR-LP664 1500V 5A

D435 6611013303 DIODE RECTIFIER 5TUZ47C

D439 6613003032 DIODE SWITCHING 1N4148-TD

D442(RA) 6611027704 DIODE RECTIFIER UFRRD 3GU41

Page 47

CKT NO. Part no. Description

D442(RB) 6611027251 DIODE RECTIFIER RG4 LF-L1

D442A 5061105400 CORE BEAD BRH5X4X1.5

D446 6615007834 DIODE ZENER HZ5C1-TD 4.9…5.1

D449(RA) 6615013831 DIODE ZENER HZ33-2-TD 32.2…33.6V

D449(RB) 6615004534 DIODE ZENER TZX33B

D453(RA) 6611000341 DIODE RECTIFIER FRRD 1N4935-G23

D453(RB) 6613002244 DIODE SWITCHING RGP10D-G23

D453(RC) 6611035644 DIODE SWITCHING RGP10D

D453(RD) 6611026341 DIODE SWITCHING FR104AT

D453(RE) 6611035941 DIODE SWITCHING PG102R

D478(RA) 6615005833 DIODE ZENER RD12E-B3-T1

D478(RB) 6615025836 DIODE ZENER HZ12A2-TD

D478(RC) 6615020835 DIODE ZENER TZX12B

D478(RD) 6615018435 DIODE ZENER TZX12C 11.9…12.4V

D485 6613004934 DIODE SWITCHING 1SS133

D486 6613004934 DIODE SWITCHING 1SS133

D489 6611012849 DIODE RECTIFIER RGP10M 1000V 1A

D494 6613003032 DIODE SWITCHING 1N4148-TD

D506 6613003032 DIODE SWITCHING 1N4148-TD

D511 6613003032 DIODE SWITCHING 1N4148-TD

D527 6613003032 DIODE SWITCHING 1N4148-TD

D528 6613003032 DIODE SWITCHING 1N4148-TD

D530 6613003032 DIODE SWITCHING 1N4148-TD

D531 6613003032 DIODE SWITCHING 1N4148-TD

D580(RA) 6611012849 DIODE RECTIFIER RGP10M 1000V 1A TSC

D580(RB) 6611012841 DIODE SWITCHING RGP10D-G23 GIT

D590 6613003032 DIODE SWITCHING 1N4148-TD

D591 6613003032 DIODE SWITCHING 1N4148-TD

D801 6613003032 DIODE SWITCHING 1N4148-TD

D802 6611012835 DIODE RECTIFIER UFRRD 1NU41-TP3

D803(RA) 6611029302 DIODE RECTIFIER RL4A

D803(RB) 6611029306 DIODE RECTIFIER SM-3AP6

D803(RC) 6611029307 DIODE RECTIFIER ER306

D803A 5061105400 CORE BEAD BRH5X4X1.5

D804 6611015706 DIODE RECTIFIER SF30GG 400V 3A

D804A 5061105400 CORE BEAD BRH5X4X1.5

D805(RA) 6611027704 DIODE RECTIFIER UFRRD 3GU41

Page 48

CKT NO. Part no. Description

D805(RB) 6611027251 DIODE RECTIFIER RG4 LF-L1

D805A 5061105400 CORE BEAD BRH5X4X1.5

D806 6611032640 DIODE RECTIFIER FRRD BYV26D 800V 1.5A

D807(RA) 6611018200 DIODE RECTIFIER 30DF2

D807(RB) 6611018542 DIODE RECTIFIER FR303

D807(RC) 6611015244 DIODE RECTIFIER UF5402G

D808 6611032640 DIODE RECTIFIER FRRD BYV26D 800V 1.5A

D811 6611029554 DIODE RECTIFIER 1N5406-M FORMED

D812 6611029554 DIODE RECTIFIER 1N5406-M FORMED

D813 6611029554 DIODE RECTIFIER 1N5406-M FORMED

D816 6611029554 DIODE RECTIFIER 1N5406-M FORMED

D827(RA) 6611070541 DIODE RECTIFIER 1N5817

D827(RB) 6611015831 DIODE RECTIFIER SB020-G3

D827(RC) 6611015832 DIODE RECTIFIER 1N5817

D829(RA) 6611070541 DIODE RECTIFIER 1N5817

D829(RB) 6611015831 DIODE RECTIFIER SB020-G3

D829(RC) 6611015832 DIODE RECTIFIER 1N5817

D831(RA) 6611000341 DIODE RECTIFIER 1N4935-G23

D831(RB) 6613002244 DIODE RECTIFIER RGP10D-G23

D831(RC) 6611035644 DIODE SWITCHING RGP10D

D831(RD) 6613026341 DIODE RECTIFIER FR104AT

D831(RE) 6613035941 DIODE RECTIFIER RG102R

D832(RA) 6615023730 DIODE ZENER HZ15-3-TD

D832(RB) 6615023734 DIODE ZENER TZX15C

D840 6613003032 DIODE SWITCHING 1N4148-TD

D848(RA) 6615013831 DIODE ZENER HZ33-2-TD 32.2…33.6V

D848(RB) 6615004534 DIODE ZENER TZX33B

D870 6611007240 DIODE RECTIFIER 1N4002RL

D871 6613003032 DIODE SWITCHING 1N4148-TD

PS:DIODE 1N4148 RA(6613003032) RB(6613003037) RC(6613003048) RD(6613003036)

I330(RA) 6644076003 IC LINER TDA9302H 7PIN

I330(RB) 6644076000 IC LINER TDA8172 7PIN

I401 6644076303 IC LINER DEFLECTION H/V TDA9111S DIP-32

I501(RA) 6647008203 IC,LSI MCU MASK TYPE NT6862 DIP-40 32K

I501(RB) 6647008202 IC,LSI MCU OTP TYPE NT68P62 DIP-40 32K

I501A 5056324010 IC SOCKET 40P(DOUBLE TOUCH)

Page 49

CKT NO. Part no. Description

I502(RA) 6647051822 IC MEMORY EEPROM 8K MICROCHIP 24LC08B/P DIP-8

I502(RB) 6647051823 IC MEMORY CMOS EEPROM AT24C08 –10PC DIP-8

I502(RC) 6647051824 IC MEMORY CMOS EEPROM 24WC08P DIP-8

I502(RD) 6647051825 IC MEMORY CMOS EEPROM KS24C081C DIP-8

I810(RA) 6640002705 IC VOLTAGE REGULATOR L7812CV +12V 1.5A

I810(RB) 6640002000 IC VOLTAGE REGULATOR AN7812 +12V 2A

I810(RC) 6640002006 IC VOLTAGE REGULATOR H7812BE +12V TO-220

I810(RD) 6640002003 IC VOLTAGE REGULATOR KIA7812PI +12V 1A TO-220IS

I811(RA) 6640000808 IC VOLTAGE REGULATOR TA78L05S +5V Io=100mA TO-92

I811(RB) 6640000809 IC VOLTAGE REGULATOR KIA78S05P-AT +5V 150mA TO-92

I811(RC) 6640000806 IC VOLTAGE REGULATOR MC78L05ACP

I811(RD) 6640000810 IC VOLTAGE REGULATOR L78L05CZ-AP

I811(RE) 6640000811 IC VOLTAGE REGULATOR KA78L05AZTA TO -92

I862(RA) 6644063102 IC LINEAR UC3842AN2 DIP-8

I862(RB) 6644063110 IC LINEAR UC3842P DIP-8

I862(RC) 6644063111 IC LINEAR UC3842BN DIP-8

TRANSIST0R

Q201(RA) 6621015332 TRANSISTOR NPN HF 2SC1815Y

Q201(RB) 6621015335 TRANSISTOR NPN HF H945P

Q202 6623003050 TRANSISTOR PNP HF 2SA1015Y

Q203(RA) 6621015332 TRANSISTOR NPN HF 2SC1815Y

Q203(RB) 6621015335 TRANSISTOR NPN HF H945P

Q341 6621026430 TRANSISTOR NPN HF BF422

Q348 6621026430 TRANSISTOR NPN HF BF422

Q353 6621026430 TRANSISTOR NPN HF BF422

Q356 6624012330 TRANSISTOR PNP HF BF423 TO-92

Q400(RA)BB 6621015332 TRANSISTOR NPN HF 2SC1815Y

Q400(RB)BB 6621015335 TRANSISTOR NPN HF H945P

Q401(RA) 6626003900 TRANSISTOR FET MOS 2SK2160

Q401(RB) 6626004000 TRANSISTOR FET MOS N-CH 2SK2161

Q401(RC) 6626006500 TRANSISTOR FET MOS FS10KM-5

Q402 6621026430 TRANSISTOR NPN HF BF422

Q403 6626002301 TRANSISTOR FET MOS N-CH FS20KMA-4A

Q404 6621026430 TRANSISTOR NPN HF BF422

Q405(RA) 6626003900 TRANSISTOR FET MOS 2SK2160

Q405(RB) 6626004000 TRANSISTOR FET MOS N-CH 2SK2161

Q405(RC) 6626006500 TRANSISTOR FET MOS FS10KM-5

Q407(RA) 6626003900 TRANSISTOR FET MOS 2SK2160

Page 50

CKT NO. Part no. Description

Q407(RB) 6626004000 TRANSISTOR FET MOS N-CH 2SK2161

Q408(RA) 6621015332 TRANSISTOR NPN HF 2SC1815Y

Q408(RB) 6621015335 TRANSISTOR NPN HF H945P

Q408A(RA) 6621015332 TRANSISTOR NPN HF 2SC1815Y

Q408A(RB) 6621015335 TRANSISTOR NPN HF H945P

Q409(RA) 6621015332 TRANSISTOR NPN HF 2SC1815Y

Q409(RB) 6621015335 TRANSISTOR NPN HF H945P

Q423(RA) 6626003900 TRANSISTOR FET MOS 2SK2160

Q423(RB) 6626004000 TRANSISTOR FET MOS N-CH 2SK2161

Q423(RC) 6626006500 TRANSISTOR FET MOS FS10KM-5

Q429(RA) 6622013330 TRANSISTOR NPN LF 2SD667C-TZ

Q429(RB) 6622013331 TRANSISTOR NPN LF 2SD667AC

Q433(RA) 6621006212 TRANSISTOR NPN HF BU4522AX

Q433(RB) 6621006207 TRANSISTOR NPN HF 2SC5129

Q438(RA) 6621015332 TRANSISTOR NPN HF 2SC1815Y

Q438(RB) 6621015335 TRANSISTOR NPN HF H945P

Q439 6623002050 TRANSISTOR PNP HF 2SA1015Y

Q440(RA) 6626000700 TRANSISTOR FET MOS IRF730FI

Q440(RB) 6626000701 TRANSISTOR FET MOS 2SK2679 400V 5.5A

Q466(RA) 6621015332 TRANSISTOR NPN HF 2SC1815Y

Q466(RB) 6621015335 TRANSISTOR NPN HF H945P

Q467 6623002050 TRANSISTOR PNP HF 2SA1015Y

Q468 6623002050 TRANSISTOR PNP HF 2SA1015Y

Q470(RA) 6622018600 TRANSISTOR NPN LF TIP122

Q470(RB) 6622010603 TRANSISTOR NPN LF TIP122

Q480 6621026430 TRANSISTOR NPN HF BF422

Q489 6621026430 TRANSISTOR NPN HF BF422

Q495(RA) 6621015332 TRANSISTOR NPN HF 2SC1815Y

Q495(RB) 6621015335 TRANSISTOR NPN HF H945P

Q497 6624012330 TRANSISTOR PNP HF BF423 TO-92

Q501(RA) 6621015332 TRANSISTOR NPN HF 2SC1815Y

Q501(RB) 6621015335 TRANSISTOR NPN HF H945P

Q502(RA) 6621015332 TRANSISTOR NPN HF 2SC1815Y

Q502(RB) 6621015335 TRANSISTOR NPN HF H945P

Q550(RA) 6621015332 TRANSISTOR NPN HF 2SC1815Y

Q550(RB) 6621015335 TRANSISTOR NPN HF H945P

Q556(RA) 6621015332 TRANSISTOR NPN HF 2SC1815Y

Q556(RB) 6621015335 TRANSISTOR NPN HF H945P

Q580 6621026130 TRANSISTOR NPN HF BF420

Page 51

CKT NO. Part no. Description

Q581(RA) 6621015332 TRANSISTOR NPN HF 2SC1815Y

Q581(RB) 6621015335 TRANSISTOR NPN HF H945P

Q801(RA) 6621015332 TRANSISTOR NPN HF 2SC1815Y

Q801(RB) 6621015335 TRANSISTOR NPN HF H945P

Q820(RA) 6623006330 TRANSISTOR PNP HF 2SA966Y

Q820(RB) 6623007230 TRANSISTOR PNP HF 2SA1020Y

Q821(RA) 6621015332 TRANSISTOR NPN HF 2SC1815Y

Q821(RB) 6621015335 TRANSISTOR NPN HF H945P

Q822(RA) 6623002834 TRANSISTOR PNP HF KTA1271Y

Q822(RB) 6623002801 TRANSISTOR PNP HF 2SA950Y

Q823(RA) 6621015332 TRANSISTOR NPN HF 2SC1815Y

Q823(RB) 6621015335 TRANSISTOR NPN HF H945P

Q828 6623002050 TRANSISTOR PNP HF 2SA1015Y

Q850 6621026130 TRANSISTOR NPN HF BF420

Q851(RA) 6621015332 TRANSISTOR NPN HF 2SC1815Y

Q851(RB) 6621015335 TRANSISTOR NPN HF H945P

Q868(RA) 6625000500 TRANSISTOR FET MOS 2SK1118 600V 6A

Q868(RB) 6626008901 TRANSISTOR FET MOS FL7KM-12A

Q868(RC) 6626005102 TRANSISTOR FET MOS 2SK2628

COIL

L436 5062124407 COIL CHOKE UL TUBE CHK-244G

L440 5062226204 COIL HOR. CHOKE TCH-262D 190UH

L454 5062128702 COIL CHOKE CHK-287B 43UHK 0.5X33.5TS

L471 5062226203 COIL HOR.CHOKE TCH-262C 120UH 2.5A 14X15

L483 5062229101 COIL HOR. LINEARITY TLH-291A

L485 5062227100 COIL HOR. CHOKE TCH-271 7MH 0.3A

L505 6119210605 JUMP WIRE

L801 5062202300 COIL HOR. CHOKE TLN-2026

L802 5062202300 COIL HOR. CHOKE TLN-2026

B801 5062118309 CORE,BEAD TEEM2011 3.5X4.5X0.8

B802 5062122949 CORE,BEAD RH03506ST-B

B803 5062122949 CORE,BEAD RH03506ST-B

B804 5062122949 CORE,BEAD RH03506ST-B

B805 5062122949 CORE,BEAD RH03506ST-B

B806 5062122971 CORE,BEAD RH035078ST-B

Page 52

RESISTOR

CKT NO Part no. Description

R201 5142110095 R CF 1/6W 10 J

R202 5142110095 R CF 1/6W 10 J

R203 5142143295 R CF 1/6W 4K3 J

R204 5142124195 R CF 1/6W 240 J

R205 5142110395 R CF 1/6W 10K J

R206 5142115395 R CF 1/6W 15K J

R303 5142130495 R CF 1/6W 300K J

R319(AB) 5142120495 R CF 1/6W 200K J

R319(BB) 5142120495 R CF 1.6W 200K J

R320 5142133295 R CF 1/6W 3K3 J

R321 5162162120 VR F5X5 B 20K M

R323 5142151495 R CF 1/6W 510K J

R324 5142168495 R CF 1/6W 680K J

R325 5142139495 R CF 1/6W 390K J

R325A 5142147295 R CF 1/6W 4K7 J

R326A 5142115295 R CF 1/6W 1K5 J

R330 5142812395 R CF 1/4W 12K J

R331 5142111395 R CF 1/6W 11K J

R332 5130418903 R MOF 2W 1.8 J

R333 5142451190 R CF 1//2W 510 J

R334 5130350803 R MOF 1W 0.5 J

R335 5142415990 R CF 1/2W 1.5 J

R337 5142833195 R CF 1/4W 330 J

R339 5142120295 R CF 1/6W 2K J

R340 5142151295 R CF 1/6W 5K1 J

R347 5142139295 R CF 1/6W 3K9 J

R348 5142815395 R CF 1/4W 15K J

R348A 5142833395 R CF 1/4W 33K J

R349 5142110595 R CF 1/6W 1M J

R350 5130322903 R MOF 1W 2.2 J

R351 5142810395 R CF 1/4W 10K J

R353 5142822295 R CF 1/4W 2K2 J

R357 5142810595 R CF 1/4W 1M J

R400 5142822295 R CF 1/4W 2K2 J

R401 5142110395 R CF 1/6W 10K J

R402 5142820495 R CF 1/4W 200K J

R403 5142147395 R CF 1/6W 47K J

CKT NO Part no. Description

R404 5142120295 R CF 1/6W 2K J

R405 5142815395 R CF 1/4W 15K J

R406 5142110295 R CF 1/6W 1K J

R407(AC) 5142124395 R CF 1/6W 24K J

R407(BC) 5142116395 R CF 1/6W 16K J

R407A 5142175295 R CF 1/6W 7K5 J

R408 5142110295 R CF 1/6W 1K J

R409 5142156295 R CF 1/6W 5K6 J

R409A 5142110295 R CF 1/6W 1K J

R410 5142810295 R CFR 1/4W 1K J

R411 5142110195 R CF 1/6W 100 J

R412 5142810295 R CF 1/4W 1K J

R413 5142110495 R CF 1/6W 100K J

R414 5142820495 R CF 1/4W 200K J

R415 5142110495 R CF 1/6W 100K J

R416 5142110295 R CF 1/6W 1K J

R418 5142810295 R CF 1/4W 1K J

R419 5142110495 R CF 1/6W 100K J

R420 5142810395 R CF 1/4W 10K J

R421 5142124395 R CF 1/6W 24K J

R422 5142822595 R CF 1/4W 2M2 J

R423 5142847395 R CF 1/4W 47K J

R424 5142410090 R CF 1/2W 10 J

R425 5142143295 R CF 1/6W 4K3 J

R426 5142847495 R CF 1/4W 470K J

R427 5142110295 R CF 1/6W 1K J

R428 5142110295 R CF 1/6W 1K J

R429 5130475103 R MOF 2W 750 J

R430 5130433003 R MOF 2W 33 J

R431 5136000100 R MOF 5W 1 K

R432 5142410190 R CF 1/2W 100 J

R433 5142810495 R CF 1/4W 100K J

R434 5142115295 R CF 1/6W 1K5 J

R435 5142810295 R CF 1/4W 1K J

R436 5130533903 R MOF 3W 3.3 J

R437 5142810295 R CF 1/4W 1K J

R438 5142127195 R CF 1/6W 270 J

Page 53

CKT NO Part no. Description

R439 5142810395 R CF 1/4W 10K J

R440 5142810295 R CF 1/4W 1K J

R441 5130482103 R MOF 2W 820 J

R442 5130450803 R MOF 2W 0.5 J

R443 5142810295 R CF 1/4W 1K J

R444 5130522103 R MOF 3W 220 J

R445 5142124395 R CF 1/6W 24K J

R446 5142110295 R CF 1/6W 1K J

R447 5142836395 R CF 1/4W 36K J

R448 5142110395 R CF 1/6W 10K J

R449 5142810495 R CF 1/4W 100K J

R450 5142127395 R CF 1/6W 27K J

R451 5142110295 R CF 1/6W 1K J

R452 5142110295 R CF 1/6W 1K J

R453 5142810495 R CF 1/4W 100K J

R454 5130447103 R MOF 2W 470 J

R455 5142110395 R CF 1/6W 10K J

R456 5142110095 R CF 1/6W 10 J

R459 5142120395 R CF 1/6W 20K J

R462 5142133195 R CF 1/6W 330 J

R462A 5142110395 R CF 1/6W 10K J

R463 5142133295 R CF 1/6W 3K3 J

R463A 5142110295 R CF 1/6W 1K J

R464 5142113395 R CF 1/6W 13K J

R465 5142818395 R CF 1/4W 18K J

R466A 5142127295 R CF 1/6W 2K7 J

R467 5142882195 R CF 1/4W 820 J

R468 5142110295 R CF 1/6W 1K J

R469 5142168295 R CF 1/6W 6K8 J

R470 5142110395 R CF 1/6W 10K J

R471 5162162120 VR F5X5 B 20K M

R472 5142810295 R CF 1/4W 1K J

R479 5142110495 R CF 1/6W 100K J

R480 5142820495 R CF 1/4W 200K J

R481 5142810295 R CF 1/4W 1K J

R482 5142175395 R CF 1/6W 75K J

R483 5130447103 R MOF 2W 470 J

R484 5142847395 R CF 1/4W 47K J

CKT NO Part no. Description

R485 5130210007 R MOF 1/2W 10 J

R486 5142115495 R CF 1/6W 150K J

R489 5130322903 R MOF 1W 2.2 J

R491 5142810395 R CF 1/4W 10K J

R492 5142822395 R CF 1/4W 22K J

R493 5142127395 R CF 1/6W 27K J

R494 5142130295 R CF 1/6W 3K J

R495 5142118295 R CF 1/6W 1K8 J

R496 5142110295 R CF 1/6W 1K J

R497 5142124295 R CF 1/6W 2K4 J

R498 5142847395 R CF 1/4W 47K J

R499 5142810295 R CF 1/4W 1K J

R500 5142156295 R CF 1/6W 5K6 J

R500A 5142130295 R CF 1/6W 3K J

R501 5142156295 R CF 1/6W 5K6 J

R502 5142110295 R CF 1/6W 1K J

R503 5142810395 R CF 1/4W 10K J

R503A 5142812295 R CF 1/4W 1K2 J

R504 5142110395 R CF 1/6W 10K J

R505 5142810395 R CF 1/4W 10K J

R506 5142110395 R CF 1/6W 10K J

R506A 5142110495 R CF 1/6W 100K J

R507 5142156195 R CF 1/6W 560 J

R508 5142847395 R CF 1/4W 47K J

R509 5142847395 R CF 1/4W 47K J

R510 5142110395 R CF 1/6W 10K J

5115

14211

0395

R CF 1

/6W 10K J

R512 5142110395 R CF 1/6W 10K J

R513 5142810295 R CF 1/4W 1K J

R514 5142836495 R CF 1/4W 360K J

R515A 5142110195 R CF 1/6W 100 J

R516A 5142110195 R CF 1/6W 100 J

R520 5142110495 R CF 1/6W 100K J

R524 5142810495 R CF 1/4W 100K J

R525 5142110395 R CF 1/6W 10K J

R526 5142856295 R CF 1/4W 5K6 J

R527 5142110195 R CF 1/6W 100 J

R528 5142110195 R CF 1/6W 100 J

Page 54

CKT NO Part no. Description

R529 5142110395 R CF 1/6W 10 K J

R530 5142110295 R CF 1/6W 1K J

R531 5142868395 R CF 1/4W 68K J

R543 5142110395 R CF 1/6W 10K J

R544 5142110295 R CF 1/6W 1K J

R550 5142110295 R CF 1/6W 1K J

R551 5142156295 R CF 1/6W 5K6 J

R552 5142110295 R CF 1/6W 1K J

R557 5142110295 R CF 1/6W 1K J

R558 5142110295 R CF 1/6W 1K J

R563 5142110395 R CF 1/6W 10K J

R565 5142110395 R CF 1/6W 10K J

R567 5130505003 R MOF 3W 15 J

R580 5142862295 R CF 1/4W 6K2 J

R581 5142882195 R 1/4W 820 J

R582 5142824295 R CF 1/4W 2K4 J

R583 5142822495 R CF 1/4W 220K J

R584 5142810395 R CF 1/4W 10K J

R585 5142820395 R CF 1/4W 20K J

R586 5142433490 R CF 1/2W 330K J

R587 5142433490 R CF 1/2W 330K J

R800 5142812395 R CF 1/4W 12K J

R801 5130547103 R MOF 3W 470 J

R801A 5130547103 R MOF 3W 470 J

R802 5142447390 R CF 1/2W 47K J

R803 5142810395 R CF 1/4W 10K J

R804 5142447390 R CF 1/2W 47K J

R805(RA) 5101114200 R THERMISTOR 10D

R805(RB) 5101108400

THERMISTOR SURGE PROTECTORS 10 3A

R806(RA) 5101110200 POSISTOR 14 M 270V

R806(RB) 5101110201 POSISTOR 14 M AC270V

R807 5142810095 R CF 1/4W 10 J

R808 5130322803 R MOF 1W 0.22 J

R809 5130518303 R MOF 3W 18K J

R810 5142882495 R CF 1/4W 820K J

R820 5142130295 R CF 1/6W 3K J

R821 5142410290 R CF 1/2W 1K J

CKT NO Part no. Description

R822 5142843295 R CF 1/4W 4K3 J

R824 5142130395 R CF 1/6W 30K J

R826 5142810395 R CF 1/4W 10K J

R829 5142136195 R CF 1/6W 360 J

R830 5142168195 R CF 1/6W 680 J

R831 5130212007 R MOF 1/2W 12 J

R831A 5142468190 R CF 1/2W 680 J

R832 5142868295 R CF 1/4W 6K8 J

R832A 5142856295 R CF 1/4W 5K6 J

R833 5162161020 VR F5X5 B 1K M

R834 5142810295 R CF 1/4W 1K J

R835 5142847395 R CF 1/4W 47K J

R836 5130527303 R MOF 3W 27K J

R848 5142439490 R CF 1/2W 390K

R849 5142420490 R CF 1/2W 200K J

R850 5142818395 R CF 1/4W 18K J

R861 5142830395 R CF 1/4W 30K J

R862 5142168495 R CF 1/6W 680K J

R863 5142822095 R CF 1/4W 22 J

R864 5142882095 R CF 1/4W 82 J

R865 5142827095 R CF 1/4W 27 J

R867 5130318803 R MOF 1W 0.18 J

R868 5142810395 R CF 1/4W 10K J

R871 5142122395 R CF 1/6W 22K J

Page 55

CKT NO Part no. Description

RELAY

SR801 5054613402 RELAY OSA-SS-212DM5

TRANSFORMER

T430 5062420300 TRANSFORMER HOR. DRIVE TLN-203

T440(AA) 5062628620 TRANSFORMER FLYBACK COLOR TFB-286T

T440(BA) 5062628612 TRANSFORMER FLYBACK COLOR (LIEN CHANG)TFB-280L

T500 5062420000 TRANSFORMER DYNAMIC FOCUS TDF-200

T801 5061369800 POWER TRANSFORMER , SWITCHING TPW-698

T802 5061111700 FILTER EMI TRANSFORMER TLF-117 20MH MIN

T803 5061111100 FILTER EMI TRANSFORMER TLF-111,2.5MH MIN

F801 5054431539 FUSE 250V/3.15A

U401 5053101690 PCB,MAIN BOARD PWB-0169 340X245

V901Z 5036200701 ADHESIVE HOLT MELT

X510(RA) 6699003504 CERAMIC RESONATOR CST8.00MTW(TCR-1056)

X510(RB) 6699643001 CERAMIC RESONATOR MURATACSTS0800MG03

Z501(RA) 5202200591 SPARK GAP AG15PC 152 FB-K2M 1KV 1PF

Z501(RB) 5202200502 SPARK GAP P=5mm 1KV 1PF

Z501(RC) 5202200501 SPARK GAP SG05G 1KV 1PF

Page 56

ASSEMBLY PCB-CRT DRIVE (PWB-0170)

CAPACITOR

CKT NO Part no. Description

Part no. Descri

C900 5242210191 C CE 50V 100PF J

C900A 5242210191 C CE 50V 100PF J

C901 5213601091 C EL 50V 1UF M

C902 5236310491 C BL 50V 0.1UF Z

C903 5216301091 C EL 200V 1UF M

C904 5242210191 C CE 50V 100PF J

C905 5214122991 C EL 100V 2.2UFM

C907 5214122091 C EL 100V 22UF M

C907B 5232347291 C CE 500V 4700PF K

C908 5231310391 C CE 50V 10000PF K

C909 5242210191 C CE 50V 100PF J

C910 5242210191 C CE 50V 100PF J

C911 5213410191 C EL 25V 100UF M

C911A 5233310291 C CE 1KV 1000PF K

C912 5242210191 C CE 50V 100PF J

C913 5213647891 C EL 50V 0.47UF M

C914 5233310291 C CE 1KV 1000PF K

C916 5232315291 C CE 500V 1500PF K

C917 5210502191 C EL 50V 2.2UF M

C919A 5231310391 C CE 50V 10000PF K

C923 5236310491 C BL 50V 0.1UF Z

C925 5213410191 C EL 25V 100UF M

C925A 5236310491 C BL 50V 0.1UF Z

C926 5233310301 C CE 1KV 10000PF K

C926A 5233547201 C CE 1KV 4700PF M

C926B 5233318191 C CE 1KV 180PF K

CKT NO Part no. Description

C928 5242210191 C CE 50V 100PF J

C930B 5242210191 C CE 50V 100PF J

C931 5213601091 C EL 50V 1UF M

C932523631049

50V 0.1U

F Z

C933

521630109

EL 1

00V 1U

F M

C933A 5232333191 C CE 500V 330PF K

C934 5213333191 C EL 16V 330UF M

C934A523331029

C C

E 1KV 1

000

PF K

C934B523331029

C C

E 1KV 1

000

PF K

C935

214122991

EL 1

00V 2.2U

F M

C936

523631049

50V 0.1U

F Z

C939 5242210191 C CE 50V 100PF J

C947 5214147012 C EL 100V 47UF M

C953 5213333191 C EL 16V 330UF M

C957 5213410191 C EL 25V 100UF M

C958 5213410191 C EL 25V 100UF M

C961 5213601091 C EL 50V 1UF M

C963 5216301091 C EL 200V 1UF M

C965 5214122991 C EL 100V 2.2UF M

C969 5242210191 C CE 50V 100PF J

C970 5231310391 C CE 50V 10000PF K

C972 5236310491 C BL 50V 0.1UF Z

C973 5213410191 C EL 25V 100UF M

C978 5213410191 C EL 25V 100UF M

C979 5236310491 C BL 50V 0.1UF Z

C983 5213410191 C EL 25V 100UF M

Page 57

CKT NO Part no. Description

DIODE

D901 6613003032 DIODE SWITCHING 1N4148-TD

D902 6613003032 DIODE SWITCHING 1N4148-TD

D903 6613004934 DIODE SWITCHING 1SS133

D904 6613004934 DIODE SWITCHING 1SS133

D913 6613003032 DIODE SWITCHING 1N4148-TD

D914 6613003032 DIODE SWITCHING 1N4148-TD

D922 6615007834 DIODE ZENER HZ501-TD 4.9…5.1

D923 6613003032 DIODE SWITCHING 1N4148-TD

D931 6613003032 DIODE SWITCHING 1N4148-TD

D932 6613003032 DIODE SWITCHING 1N4148-TD

D933 6613004934 DIODE SWITCHING 1SS133

D934 6613004934 DIODE SWITCHING 1SS133

D941 6613003032 DIODE SWITCHING 1N4148-TD

D943 6613003032 DIODE SWITCHING 1N4148-TD

D944 6613003032 DIODE SWITCHING 1N4148-TD

D961 6613003032 DIODE SWITCHING 1N4148-TD

D962 6613003032 DIODE SWITCHING 1N4148-TD

D963 6613004934 DIODE SWITCHING 1SS133

D964 6613004934 DIODE SWITCHING 1SS133

D973 6613003032 DIODE SWITCHING 1N4148-TD

D974 6613003032 DIODE SWITCHING 1N4148-TD

PS: DIODE 1N4148 RA(6613003032) RB(6613003037) RC(6613003048) RD(6613003036)

I901 6644076905 IC LINEAR VIDEO PER.AMP. M52743BSP SDIIP-36

I903 6645008809 IC DIGITAL O.S.D. MTV021N-026 DIP-16

I904 6644009603 IC LINEAR VIDEO AMP LM2407T 11PIN

I904A(RA) 8096413900 SILICON GREASE SG841 (-54JC204J)

I904A(RB) 8035013221 SILICON GREASE YG6260

Page 58

CKT NO Part no. Description

TRANSISTOR

Q903 6621026430 TRANSISTOR NPN HF BF422

Q933 6621026430 TRANSISTOR NPN HF BF422

Q963 6621026430 TRANSISTOR NPN HF BF422

Q985(RA) 6621015332 TRANSISTOR NPN HF 2SC1815Y

Q985(RB) 6621015335 TRANSISTOR NPN HF H945P

Q987(RA) 6621015332 TRANSISTOR NPN HF 2SC1815Y

Q987(RB) 6621015335 TRANSISTOR NPN HF H945P

Q988 6621015332 TRANSISTOR NPN HF 2SC1815Y

COIL

L912 5064456845 COIL PEAKING TRF-8568M 0.56UH M

L942 5064456845 COIL PEAKING TRF-8568M 0.56UH M

L972 5064456845 COIL PEAKING TRF-8568M 0.56UH M

L980 5062202300 COIL HOR CHOKE TLN-2026

L981 5062119801 COIL CHOKE EMI CHK-198

Page 59

RESISTOR

CKT NO Part no. Description

R901 5142175095 R CF 1/6W 75 J

R902 5142118395 R CF 1/6W 18K J

R903 5142118295 R CF /16W 1K8 J

R904 5142818195 R CF 1/4W 180 J

R905 5142812495 R CF 1/4W 120K J

R906 5142810295 R CF 1/4W 1K J

R907 5142815195 R CF 1/4W 150 J

R908 5142843095 R CF 1/4W 43 J

R909 5142810395 R CF 1/4W 10K J

R911 5142120295 R CF 1/6W 2K J

R913 5142868095 R CF 1/4W 68 J

R914 5142420190 R CF 1/2W 200 J

R915 5142168395 R CF 1/6W 68K J

R916 5142812595 R CF 1/4W 1M2 J

R917 5142815395 R CF 1/4W 15K J

R919 5142110395 R CF 1/6W 10K J

R920 5142151195 R CF 1/6W 510 J

R921 5142415190 R CF 1/2W 150 J

R923 5142110195 R CF 1/6W 100 J

R924 5142847195 R CF 1/4W 470 J

R925 5142147195 R CF 1/6W 470 J

R927 5142120295 R CF 1/6W 2K J

R928 5142151095 R CF 1/6W 51 J

R929 5142110195 R CF 1/6W 100 J

R930 5130568903 R MOF 3W 6.8 J

R931 5142175095 R CF 1/6W 75 J

R934 5142815195 R CF 1/4W 150 J

R935 5142812495 R CF 1/4W 120K J

R936 5142810295 R CF 1/4W 1K J

R938 5142443090 R CF 1/2W 43 J

R939 5142810395 R CF 1/4W 10K J

R940 5142810095 R CF 1/4W 10 J

R941 5142120295 R CF 1/6W 2K J

R943 5142868095 R CF 1/4W 68 J

CKT NO Part no. Description

R946 5142812595 R CF 1/4W 1M2 J

R947 5142815395 R CF 1/4W 15K J

R948 5142110195 R CF 1/6W 100 J

R949 5142110195 R CF 1/6W 100 J

R950 5142868495 R CF 1/4W 680K J

R952 5142410590 R CF 1/2W 1M J

R952A 5130333003 R NIF 1W 33 J

R954 5142847195 R CF 1/4W 470 J

R955 5142147195 R CF 1/6W 470 J

R961 5142175095 R CF 1/6W 75 J

R964 5142818195 R CF 1/4W 180 J

R965 5142812495 R CF 1/4W 120K J

R966 5142810295 R CF 1/4W 1K J

R968 5142843095 R CF 1/4W 43 J

R969 5142810395 R CF 1/4W 10K J

R970 5142156295 R CF 1/6W 5K6 J

R971 5142120295 R CF 1/6W 2K J

R973 5142868095 R CF 1/4W 68 J

R974 5142156295 R CF 1/6W 5K6 J

R976 5142812595 R CF 1/4W 1M2 J

R976A 5142130395 R CF 1/6W 30K J

R977 5142815395 R CF 1/4W 15K J

R978 5142110395 R CF 1/6W 10K J

R981 5142110395 R CF 1/6W 10K J

R982 5142110295 R CF 1/6W 1K J

R983 5142810195 R CF 1/4W 100 J

R984 5142830395 R CF 1/4W 30K J

R986 5142124395 R CF 1/6W 24K J

R987 5142120195 R CF 1/6W 200 J

R988 5142120195 R CF 1/6W 200 J

R991 5142139495 R CF 1/6W 390K J

Page 60

CKT NO. Part no. Description

OTHER

U901 5053101700 PCB PWB-0170

V901(RA) 5051255900 CCRT/DY M41AGE93X46 CVM(U) 17-TCO

V901(RB) 5051255901 CCRT/DY M41AGE93X46 CJM(U) +JNY-7701

V901A 5056306720 CRT SOCKET B10-304 22.5mm 9P

Z901 5202202491 SPARK GAP MITSUBISHI DC300V 1PF DSP-301N-C04F

Z914(RA) 5202201991 SPARK GAP MITSUBISHI DC200V 1PF DSP-201N-C04F

Z914(RB) 5202201301 SPARK GAP MITSUBISHI DC200V 1PF GD412-200V-M

Z944(RA) 5202201991 SPARK GAP MITSUBISHI DC200V 1PF DSP-201N-C04F

Z944(RB) 5202201301 SPARK GAP MITSUBISHI DC200V 1PF GD412-200V-M

Z952(RA) 5202200591 SPARK GAP AG15PC 152 FB-K2M 1KV 1PF

Z952(RB) 5202200502 SPARK GAP 1KV 1PF

Z952(RC) 5202200501 SPARK GAP SG05G 1KV 1PF

Z953(RA) 5202201991 SPARK GAP MITSUBISHI DC200V 1PF DSP-201N-C04F

Z953(RB) 5202201301 SPARK GAP MITSUBISHI DC200V 1PF GD412-200V-M

Z953(RA) 5202201991 SPARK GAP MITSUBISHI DC200V 1PF DSP-201N-C04F

Z953(RB) 5202201301 SPARK GAP MITSUBISHI DC200V 1PF GD412-200V-M

B930 5062118309 CORT , BEAD TEM2011 3.5X4.5X0.8

B981 5062122949 CORE , BEAD RH03506ST-B

B984 5062118309 CORE , BEAD TEM2011 3.5X4.5X0.8

B985 5062118309 CORE , BEAD TEM2011 3.5X4.5X0.8

ASSEMBLY PWB-0171

D862 6618018400 DIODE LED CSL-F500YG2MT YELLOW/GREEN 5mm

D862M 5642024800 LED WASHERS(TO-05A)

R616 5142110395 R CF 1/6W 10K J

R517 5142110395 R CF 1/6W 10K J

R518 5142110395 R CF 1/6W 10K J

R519 5142110395 R CF 1/6W 10K J

R840 5142139195 R CF 1/6W 390 J

R841 5142122195 R CF 1/6W 220 J

S501 5054512951 SWITCH,TACT SPST SKHHAM2520-TT DC12V 50mA F=160GF H=5mm

S502 5054512951 SWITCH,TACT SPST SKHHAM2520-TT DC12V 50mA F=160GF H=5mm

S503 5054512951 SWITCH,TACT SPST SKHHAM2520-TT DC12V 50mA F=160GF H=5mm

S504 5054512951 SWITCH,TACT SPST SKHHAM2520-TT DC12V 50mA F=160GF H=5mm

U171 5053101710 PCB PWB-0171

Page 61

1 (1)

Nokia Display Products Oy Customer Service February 2000

AFTER SALES CONCEPT CONCERNING NOKIA MODELS:

449Z151/159 – 449ZA.

449Z051/059 – 510C 4472051/059 – 447ZiPlus

Dear Service Partner,

The regarded models are outsourced products designed and manufactured by TATUNG

according to Nokia’s

specification.

It has been agreed between Nokia and Tatung to comply with the After Sales concept described below.

1. Invoicing:

Tatung UK Service will receive Nokia TPMs Invoice – at Nokia rate specifically agreed for this product – direct from Nokia TPM. Invoice is to be for Repair and Return (one way transport) only

Tatung UK Service will later instruct TPMs where to send their invoice.

Buffer Stock and Costs for Customer Swap Out is Nokia responsibility and will be invoiced to Nokia directly.

2. Reporting: TPM will advise maintenance activities regarding these products using Nokia’s standard report format but on separate worksheet!

Report to be sent to Tatung UK Service on regular monthly basis with the invoice. A copy of the report to be sent to Nokia as well. State: PROD_CODE 449Z151 (Europe), 449Z159 (US) PROD_CODE 449Z051 (Europe), 449Z051 (US)

PROD_CODE 4472051 (Europe), 4472059 (US)

3. Practical matters:

- Tatung UK Service provides Nokia TPMs with Specific Components direct from Tatung UK Service at no

charge. Tatung UK Service will later instruct TPMs how to re-order spare parts occasionally.

- In case of need of Specific Technical Support (repair clues etc.) TPM should contact Technical Support Team

at Nokia, Finland.

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

For any further consultation regarding the After Sales issue of the a.m. products, please contact:

At Nokia: Your After Sales contacts of respective NDP Sales Company / Office

At Tatung UK Service: Mr. John Satchwell (johns@tatung.co.uk

)

Mr. Adrian Morris (adrianm@tatung.co.uk

)

tel.: ++ 44 1952 280401, fax: ++ 44 1952 292096

Page 62

TATUNG EUROSERVICE

Nokia Visual Display Monitor

Model 449Z151/159 – 449ZA

Model 449Z051 – 510C

Model 447ZiPlus - 4472051

Technical Support

Service Manual Supply

This is via Henning Gronroos in Salo.

Service Information Technical Updates

This is via Henning Gronroos in Salo after consultation with Tatung Service.

Technical Help for Repairs

This is via Henning Gronroos who has direct access to Tatung UK Technical Department.

Spares Supply

Standard Components

These are supplied by the TPM and are not supplied free of charge by Tatung. These are identified as costing less than US1.00 and available in the market.

Specific Components These are supplied, on a consignment basis, free of charge by Tatung. These are identified as costing more than US$1.00, or are unique to the Tatung product.

Consignment Spares

These will be supplied direct to the TPM based on anticipated repairs, which are based on the market share per country, as advised to Telford by Salo from time to time. {See Page 4 for current information}

Replenishment Spares

These will be supplied automatically on a monthly basis according to the usage that TPM tells us in TPM monthly report. If TPM needs some more frequently then TPM simply needs to contact Tatung Service at Telford {see Contacts on Page 3}.

CRTs

These are regarded as a Specific Component and must be replaced if faulty. We may require faulty CRTs to be returned to Tatung Service at Telford - we will advise TPM if that is necessary from time to time.

Main PCBs

These are not available as a spare part. If TPM wishes to replace a Main PCB the TPM must advise the reason to Tatung Service Technical Department who will, if it is justified, authorise the despatch of a Main PCB.

Page 63

Service Level

Customer Interface

Provided by the TPM on behalf of Nokia and therefore Nokia receive TPM Invoice.

Call Scheduling

Provided by the TPM on behalf of Nokia and therefore Nokia receive TPM Invoice.

On Site Swap Out

Provided by {or organised by} TPM on behalf of Nokia and therefore Nokia receive TPM Invoice.

Product Repair

Provided by TPM on behalf of Tatung and therefore Tatung Service receive TPM Invoice.

Return to Customer after repair

Provided by TPM on behalf of Tatung and therefore Tatung Service receive TPM Invoice.

Repair Standard

Europe

000 – 030 days As New in all respects 031 – 365 days Near New

{As New plastics but re-use packaging}

and 3rd Years Like for Like

{Plastics cleaned as much as possible and re-use packaging}

United States

000 – 030 As New in all respects 031 – 090 Near New

{As New plastics but re-use packaging}

091 – 365 Like for Like

{Plastics cleaned as far as possible and re-use packaging}

2nd and 3rd Years Like for Like

{Plastics cleaned as far as possible and re-use packaging}

Repair Level

Electronic Specification

As per manufactured as identified in the Service Manual.

Alignment / Adjustments

As per manufactured as identified in the Service Manual.

Front of Screen Performance

As per manufactured as identified in the Service Manual.

Engineering Level

As per Engineering Change Notes issued from Tatung Service via Henning Gronroos in Salo.

Turn Around Time

5 Working Days

Page 64

Invoicing and Reporting to Tatung

Service to be Invoiced

Repair and Return Transport

Amount to be Invoiced ***

That already advised by Salo, in US Dollars, less $10 because TPM does not have to buy spares and charge back.

Date of Invoice

Last working day of the month

Invoice to

Tatung (UK) Ltd., Stafford Park 10, Telford, TF3 3AB. England

Send to

John Satchwell, Tatung European Service, PO Box 230 Telford, TF3 3WF. England

Tatung Payment Terms

At end of month following month of Invoice {nett monthly}.

Monthly Report

Use standard Nokia format ensuring that the following data is included : TPM Job Number, Model and Serial Number, Date into and out of Workshop, Fault Code, Circuit Reference of any parts used {Standard and Specific}, Tatung Part Numbers for any Specific Components used {this to be totalled for the month by Part Number – to facilitate

automatic replenishment}.

*** Nokia and Tatung are working together on a Warranty Adder project such that if Nokia TPMs are unable to Invoice at Tatung Current Market prices then Nokia will consider using Tatung TPMs {project time-table as on Page 4}.

Tatung Service Contacts

Spares Orders

{other than Auto-Replen}

Main PCB Issues

{Tech Authority} Telephone : +44 1952 280401 Telephone : +44 1952 280400 Telefax : +44 1952 292096 Telefax : +44 1952 292096 Adrian Morris adrianm@tatung.co.uk Andy Fearnal andyf@tatung.co.uk Joan Thompson joant@tatung.co.uk Paul Guest paul.guest@tatung.co.uk Nick Roberts nickr@tatung.co.uk

Escalation

{Supervisor}

Escalation

{Manager}

John Satchwell johns@tatung.co.uk Gerry Lawson gerryl@tatung.co.uk

Administrative Matters Technical Help {Salo only}

As per Spares Orders As per Main PCB Issues

Invoicing Queries E.C.N. Queries {Salo Only}

As per Spares Orders As per Main PCB Issues

‘Where The Buck Stops’

Paul F Goldring Lynne Coombes

General Manager – EMEA Service Secretary to General Manger – EMEA Service Direct Line : +44 1952 280308 Direct Line : +44 1952 280310 e-mail : paulg@tatung.co.uk e-mail : tservice@tatung.co.uk

Nokia Market Share

Page 65

as used by Tatung to calculate Consignment Spares per TPM as at 27/08/99 : Advised TPM Austria 1% Belgium 7% I.M.D. of Saintes-Tubize Czech 3% Agora Plus of Brno Denmark 2% I.C.L. of Ballerup Finland 8% Powermill of Helsinki France 7% S.I.L. of Roissey Germany 12% M+S of Frankfurt Greece 6% Elnet of Athens Hungary 1% Reflex of Budapest Israel 0% Amtal-Ran of Haifa Italy 12% Prima Ricerca of Como Netherlands 1% S.I.L. of Haarlem Norway 2% ABB of Slependen & IBAS of Kongvinger Poland 1% Computer Service of Warsaw Portugal 4% F.E.P. of ????? Russia 10% C.P.S. of Moscow & Lanck of St. Petersburg Slovenia 2% Acord 92 of Ljubljana Spain 4% F.E.P. of ???? Sweden 7% Teli Service of Upplands Vasby Switzerland 1% Cos of Baden-Daettwil Turkey 0% ????????????? Ukraine 0% ????????????? United Kingdom 1% Eurographics of Romsey United States 8% Trillium of Raleigh

Warranty Adder Project Time Table

Phase 1 Before August 31

1999 Germany, Italy, Belgium, France

Phase 2 Before December 31

1999 Sweden, Greece, Finland, Spain, USA

Phase 3 Before May 31

2000 Russia, U.K., and all others

Page 66

TATUNG EUROSERVICE

Nokia Visual Display Monitor

Model 449Z151/159 – 449ZA

Model 449Z051/059 - 510C

Model 4472051 - 447ZiPlus

Spares Supply

Standard Components

These are supplied by the TPM and are not supplied free of charge by Tatung. These are identified as costing less than US1.00 and available in the market. Specific Components These are supplied, on a consignment basis, free of charge by Tatung. These are identified as costing more than US$1.00, or are unique to the Tatung product.

Consignment Spares

Replenishment Spares

CRTs

Main PCBs

Spares Orders

{other than Auto-Replen}

Main PCB Issues

Escalation

{Supervisor}

Escalation

{Manager}

John Satchwell johns@tatung.co.uk Gerry Lawson gerryl@tatung.co.uk

Administrative Matters Technical Help {Salo only}

As per Spares Orders As per Main PCB Issues

Invoicing Queries E.C.N. Queries {Salo Only}

As per Spares Orders As per Main PCB Issues

‘Where The Buck Stops’

Paul F Goldring Lynne Coombes

General Manager – EMEA Service Secretary to General Manger – EMEA Service Direct Line : +44 1952 280308 Direct Line : +44 1952 280310 e-mail : paulg@tatung.co.uk e-mail : tservice@tatung.co.uk

Nokia 447ZiPlus Service Manual

Specifications and Main Features

Frequently Asked Questions

User Manual