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Service Manual
17-inch LCD Monitor f1723/FP7317/L1702/ vf17/FP17

Service Manual Versions and Revision
N o. 1. 2. Ve rs ion 1.0 2.0 R e le as e D ate Feb. 20, 2003 April 8, 2003 R e vis ion Original release

Update

Copyright
Copyright 2003 LiteOn Technology 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. f1723 / FP7317 / L1702 / vf17 / FP17 Service Manual.

Trademarks
LiteOn is a registered trademark of LiteOn Technology Corp. All other trademarks are the property of their respective owners.

f1723 / FP7317 / L1702 / vf17 / FP17 1) Circuit Description
1. Audio circuit ------------------------------------------------------------------------------------------------------------------- 3 1.1 Audio input ----------------------------------------------------------------------------------------------------------------- 3 1.2 Audio output --------------------------------------------------------------------------------------------------------------- 3 2. 3. 4. 5. 6. 7. Power supply ------------------------------------------------------------------------------------------------------------------- 3 Video input circuit ------------------------------------------------------------------------------------------------------------- 3 Definition converter LSI peripheral circuit --------------------------------------------------------------------------------- 3 System reset, LED control circuit -------------------------------------------------------------------------------------------- 3 E2PROM ------------------------------------------------------------------------------------------------------------------------- 4 Controller circuit --------------------------------------------------------------------------------------------------------------- 4 7.1 Dection of POWER switch status --------------------------------------------------------------------------------------- 4 7.2 Display mode identification ---------------------------------------------------------------------------------------------- 4 7.3 User control ---------------------------------------------------------------------------------------------------------------- 6 7.4 Control of identification converter LSI --------------------------------------------------------------------------------- 7 7.5 I2C bus control ------------------------------------------------------------------------------------------------------------- 7 7.6 Power ON sequence ------------------------------------------------------------------------------------------------------ 8 7.7 Power OFF sequence ----------------------------------------------------------------------------------------------------- 9 7.8 List of CPU assignments ----------------------------------------------------------------------------------------------- 10 8 Power Board Operation Therory ---------------------------------------------------------------------------------------------- 11 9 Inverter Circuit ------------------------------------------------------------------------------------------------------------------- 12

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f1723 / FP7317 / L1702 / vf17 / FP17

2) Trouble Shooting
1. 2. 3. 4. 5. 6. 7. No display of screen (Screen is black, color of LED is amber) -------------------------------------------------------- 13 Nothing displays on screen (Screen is black, color of LED is green) ------------------------------------------------ 14 Checking the back light unit ----------------------------------------------------------------------------------------------- 16 Abnormal screen ------------------------------------------------------------------------------------------------------------- 17 No OSM display ------------------------------------------------------------------------------------------------------------- 18 Abnormal plug and play operation --------------------------------------------------------------------------------------- 19 Checking the interface circuit of sync signal ---------------------------------------------------------------------------- 20 7.1 Checking the control circuit of horizontal sync pulse ------------------------------------------------------------- 20 7.2 Checking the control circuit of vertical sync pulse ---------------------------------------------------------------- 20 8. 9. Checking the resolution change IC movement -------------------------------------------------------------------------- 21 Checking the DC/DC converter circuit ----------------------------------------------------------------------------------- 22

10. Power board ------------------------------------------------------------------------------------------------------------------ 23

3) Recommended Parts List
Recommended Parts List --------------------------------------------------------------------------------------------------- 24

Page 2

f1723 / FP7317 / L1702 / vf17 / FP17 1) Circuit Description 1. Audio circuit (Circuit diagrams Main PWB 5/5) (Optional)
1.1 Audio input The audio signal input received from the audio input terminal (P305) is applied to the amplifier I309 of 1 and 9 through the low-pass filter consisting of R361, R360, C370, C371, C361 and C363. In this audio circuit, controls of Volume, and mute are conducted. The audio signal controlled by a VR determines the attenuation of output of the amplifiers. 1.2 Audio output The audio signal is output from the jack output terminal (P306) to the internal speaker system.

2. Interface board and panel power supply (Circuit daigrams MAIN PWB 2/5)
2.1 2.2 2.3 P301 connector A 5V power supply for LCD module, CPU, and logic is generated from the P301 connector. I301-pin 1 :4-terminal regulator A 3.3V power supply for Scaler IC I304, is generated from the 5V source. I301-pin 1:5-terminal regulator A 2.5V power supply for Scaler IC I304 is generated from the 5V source. Q302, Q303 ON/OFF control for LCD Module ON/OFF control is performed for power ON/OFF and also for the power saving sequence.

3. Video input circuit (Circuit diagram MAIN PWB 3/5)
The analog video signal input entered from P302, the AC-coupled video signal is used to clamp the black level at 0V).

4. Definition converter LSI peripheral circuit (Circuit diagram MAIN PWB 4/5)
I304 gm2121 is the definition converter LSI. The analog R, G, B signal input entered from the video input circuit is converted into the digital data of video signal through the incorporated A/D converter. Based on this conversion, this device performs interpolation during pixel extension. The source voltage for this device is 3.3V, 2.5V and the system clock frequency is 14.318 MHz. The withstand voltage level for the input signal voltage of I304 is 3.3V and 5V.

5. System reset, LED control circuit (Circuit diagram MAIN PWB 4/5, 2/5)
5.1 5.2 System reset System reset is performed by detecting the rising and falling of the 5V source voltage at I305. LED control circuit Green / amber is lit with the control signal of the LED GREEN and LED AMBER signal pin 34, 33 from I304

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f1723 / FP7317 / L1702 / vf17 / FP17

6. E2PROM (Circuit diagram MAIN PWB 4/5)
Data transfer between I307 (24LC16) and Scaller IC I304 is effected through the IIC bus SCL (pin 37) and SDA (pin 36) of I304. The data to be transferred to each device are stored in I307.
l l l

I304 control data. OSD related setting data. Other control data for service menu.

7. Controller circuit (Circuit diagram MAIN PWB 4/5)
Scaller IC I304 functions as the Controller. The source voltage for the device are 3.3V and 2.5V and the system clock frequency is 14.318MHz. 7.1 Detection of POWER switch status The CPU identifies the ON status of the two power supplies. The identification is made when the power supply is turned off. For example, if the power supply is turned off with the POWER switch, the POWER switch must be turned on when activating the power supply again. If the power supply is turned off by pulling out the power cord, then this power supply can be turned on by connecting the power cord, without pressing the POWER switch. 7.2 Display mode identification (1) Display mode identification
l l

7.2.1 Functions The display mode of input signal is identified based on Table 1. When the mode has been identified through the measurement of horizontal and vertical frequencies, the total number of lines is determined with a formula of " Horizontal frequency / Vertical frequency = Total number of lines. "Final identification can be made by examining the coincidence of the obtained figure with the number of lines for the mode identified from the frequency. The boundary number of lines in each mode is shown in Table 2.
l

When the detected frequency if the sync signal has changed, the total number of lines should be counted even though it is an identified frequency in the same mode.

(2) Power save mode. The power save mode is assumed when the horizontal / vertical signals are as specified below.
l l l l

If there is no horizontal sync signal input. If there is no vertical sync signal input. If the horizontal sync signal is outside the measuring range of gm2121. If the vertical sync signal is outside the measuring range of gm2121.

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f1723 / FP7317 / L1702 / vf17 / FP17
Table 1

Mode

Resolution

H-freq (KHz)

Band Width (MHz) 25.175 31.5 31.5 28.322 40 50 49.5 57.283 65 75 78.75 100 105.6 108 135

Polarity H + + + + + + V + + + + + + +

1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. 15.

VGA 640 x 480 60Hz VESA 640 X 480 72Hz VESA 640 X 480 75Hz VGA 720 x 400 70Hz VESA 800 x 600 60Hz VESA 800 x 600 72Hz VESA 800 x 600 75Hz MAC 832 x 624 75Hz VESA 1024 x 768 60Hz VESA 1024 x 768 70Hz VESA 1024 x 768 75Hz MAC 1152 x 870 75Hz SUN 1152 x 90 76Hz SXGA 1280 x 1024 60Hz SXGA 1280 x 1024 75Hz

31.47 37.86 37.5 31.47 37.88 48.08 46.88 49.72 48.36 56.48 60.02 68.68 71.71 64 80

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f1723 / FP7317 / L1702 / vf17 / FP17
Table 2 the number of the lines, Vsync distinction Indication resolution 640 x 480 The number of the distinction lines 487 < LINE < 607 Distinction Vsync fV < 63 Hz 63 Hz < fV < 68 68 Hz < fV < 74 74 Hz < fV < 78 fV < 58 Hz 58 Hz < fV < 63 63 Hz < fV < 73 73 Hz < fV < 78 fV < 63 Hz 68 Hz < fV < 73 73 Hz < fV < 78

Hz Hz Hz Hz Hz Hz

800 x 600

607 < LINE < 777

832 x 624 1024 x 768

640 < LINE 768 < LINE < 870

Hz Hz

1152 x 864 1280 x 960 1280 x 1024

870 < LINE < 1031 960 < LINE < 1027 1027 < LINE

7.3

User Control

7.3.1 Related ports and pin of I304

Port GPIO3 GPIO7 GPIO6 GPIO21

Pin No. I304, 26 I304, 32 I304, 29 I304, 16

I/O I I I I

Signal name MENU MINUS PLUS POWER

Function EXIT/ENTER switch input switch input switch input soft power switch input

Remarks Auto-Adj.

7.3.2 Functions Control is effected for the push-switches to be used when the user changes the parameters, in order to modify the respective setting values. Whether the switch has been pressed is identified with the switch input level that is turned "L". Each switch input port is pulled up at outside of ASIC Each parameter is stored in the EEPROM, the contents of which are updated as required. .

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f1723 / FP7317 / L1702 / vf17 / FP17
7.4 Control of definition converter LSI Major function of I304 are as follows: (1) Expansion of the display screen. (2) Timing control for various signal types. (3) Power-supply sequence (LCD panel). 7.5 I2C bus control The following functional controls are effected by I2C. (1) Control of EEPROM I307 for parameter setting. (2) Control of audio preamplifier. 7.5.1 I2C-controlled functions

7.4.1 Functions

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f1723 / FP7317 / L1702 / vf17 / FP17
7.6 Power ON sequence When the POWER switch is pressed, the POWER signal is turned "L". When this "L" potential is detected, the CPU begins to establish the respective power supplies according to the sequence shown below.

Panel_V C C Panel_D A T A

B ackl ight

A Panel-AU Panel-HD Panel-LG

B

0 ms min 20~50 ms 0.01~50 ms

250 ms min 500 ms min 200 ms min

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f1723 / FP7317 / L1702 / vf17 / FP17
7.7 Power OFF sequence When the POWER switch is pressed while the power supply is ON, the POWER signal is turned "L". When this "L" potential is detected, the CPU begins to turn off the respective power supplies according to the sequence shown below.

Panel_V C C Panel A TA _D B ackli ght

C Panel-AU Panel-HD Panel-LG

D

0 ms min 0~50 ms 0.01~50 ms

0 ms min 100 ms min 200 ms min

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f1723 / FP7317 / L1702 / vf17 / FP17
7.8 List of GPIO Pin Assignments of the I304
Port GPIO1 GPIO21 GPIO4 GPIO5 GPIO13 GPIO12 GPIO9 GPIO10 GPIO7 GPIO0 GPIO11 GPIO18 GPIO19 GPIO26 PBIAS PPWR Pin No. Signal Name 24 16 27 28 37 36 33 34 32 23 35 12 11 29 41 40 MUTE KEY_POWER UART_DI UART_DO NVRAM_SCL NVRAM_SDA LED_AMBER LED_GRN KEY_MINUS BKLT-ADJ WRn A16 A17 KEY_PLUS BKLT_EN PANEL_EN Initial Setting Function H H H H H H L H H H H H Audio Mute Enable ON/OFF Monitor Power UART interface data IN UART interface data OUT NVRAM_SCL NVRAM_SDA LED_AMBER Enable LED_GRN Enable KEY_LEFT Enable Backlight Brightness Control Flash Rom Write Enable Address Input Address Input KEY_RIGHT Backlight_Enable Panel_Vcc Enable Remark

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f1723 / FP7317 / L1702 / vf17 / FP17 8. Power Board Operation Therory
8.1 Line filter consists of C801, T801, C802, C803, C804, C837, C838. It eliminates high frequency interference to meet EMI's requirement. 8.2 Rec & Filter Bridge diode D801 converts AC source into pulsed DC. This pulsed DC is smoothed and filtered by C805. R802 is an NTC ( negative thermal coefficient ) resistor, used to reduce inrush current to be within safe range. 8.3 Power transformer : T802 converts energy for square wave from power source C805 to secondary side to generate +12V and +22.5V. 8.4 Output : The square wave from T802 is rectified by D809, D810, then filtered by C817, C822 to generate +22.5V and +12V respectively. 8.5 Driver : Q803 drive T802 from PWM control of I801 for power converted. 8.6 FB : Negative feedback CKT consists of photo coupler I802 and adjustable regulator I803. It can maintain output voltages +22.5V and +12V at a stable level. 8.7 PWM : 8.7.1 8.7.2 Start : When power is turned on. C807 is charged a 15 volt and a starting current above 40uA to pin 7 of I801. I801 starts to oscillate and outputs a pulse train through pin 6 to drive Q803. OPP : When Q803 turns on, C805 supplies a linearly increasing triangle current through the primary inductance of T802 to the driver Q803, once the peak value of this current multiplied by R811 exceeds1 volt, pulse train will be turn off immediately to protect Q803, T802 from being burned out. 8.7.3 Regulation : If output voltage +22.5V goes up, the R terminal of I803 gets more bias, accordingly photo transistor and photo diode flows more current. The voltage of pin 2 goes up too, making the pulse width of pin 6 to become narrower. So the output voltage +22.5V will be pulled down to a stable value. 8.7.4 OVP : If +22.5V goes up too much, the induced voltage on pin 4 of T802 becomes large also. Suppose that it is over 18 volts, ZD801 conducts, pin 3 of I801 is pulled up over 1 volt. The pulse train at pin 6 goes down to zero, shutting Q803 off immediately. 8.7.5 SCP : If output terminal is short to ground, photo transistor does not conduct, hence Q806 does not conduct either. Then oscillation of I801 is stop, shutting Q803 off immediately.

HPD-K17AA Power Board Block Diagram

Line Filter

Rec. & Filter

Power Transformer

Outpur Rec. & Filter

PWM

Driver

FB

Page 11

f1723 / FP7317 / L1702 / vf17 / FP17 9. Inverter Circuit
This unit operates on an output voltage of 15V from power source. 9.1 9.2 9.3 Regulator: Q101 get a +5VDC for I101 power supply. UVP: Q106 turns off when the Vin is under 10V. Then pin 3 of I101 is pulled low and inverter off immediately. That is the under voltage protection. Control IC: I101 (OZ960S) 9.3.1 Enable : When pin 3 of I101 is over 1.5V, I101 works. If it is under 1.5V, I101 turns off. 9.3.2 OSC: When I101 enabled, R108/C115 (pin 17/pin18 of I101) determine the operating frequency. 9.3.3 SST: C104 (pin 4 of I101) provides soft start function. 9.3.4 Ignition: R109 (pin 8 of I101) provides higher operating frequency for more striking voltage until regulation of feedback of lamp current. C103 (pin 1 of I101) determine the striking time. 9.3.5 Dimming control: The divided voltage of R106/R105/R104 control the duty pulse of burst-mode to drive Q105 and perform a wide dimming control for the CCFL. The burst-mode frequency is determined by C116. 9.3.6 Regulation: Pin 9/pin 10 of I101 provide regulation of the CCFL current from feedback. The non-inverting reference (pin 10 of I101) is at 1.25V nominal. 9.3.7 Protection: Open-lamp protection in the ignition period is provided through both pin1 and pin 2 of I101. Removal of the CCFL during normal operation will trigger Q107 to turns on and shuts off the inverter. This is latch function. 9.3.8 Output drivers: The configuration prevents any shoot-through issue associated with bridge-type power conversion applications. Adjusting the overlap conduction between I102 P-MOSFET and I103 N-MOSFET, I102 NMOSFET and I103 P-MOSFET, the CCFL current regulation is achieved, same as I104 and I105. 9.4 9.5 9.6 Full-bridge swit ching/Transformer: I102/I103/C123/I104/I105/C137/T101/T102 compose full-bridge swit ching to convert DC into AC for driver the CCFL. Detection: C128/C129/C130/C131/C132/C133 detect the output voltage and ensure a rated voltage by pin2 of I101/ Q108/Q109 ensure not a open-lamp. Feedback: D116/D117/D122/D123/D109/R120/R121/D108 sense the lamp current for negative feedback and regulation.

Inverter Board Block Diagram

VCC

Regulator VDD Control IC : OZ960 ON / OFF U.V.P. Enable OSC SST Brightness control Dimming control Output driver Protection Ignition Regulation Feed back Detection

Full-bridge switching

Transformer

Lamp

Page 12

f1723 / FP7317 / L1702 / vf17 / FP17 2) Trouble Shooting 1. No display of screen (Screen is black, color of LED is amber)
Does OSM display when you push MENU button. When a signal isn't being inputted, it is indicated with "VIDEO INPUT". It is indicated Yes with "OUT OF RANGE" at the time of the frequency that it can't be distinguished.

No

Preceed "Nothing displays on screen"section.

Check if the sync signal from Computer is output and if the video cable is connected normally.

OK

NG

Input the sync signal of computer, or change the cable.

Proceed "Checking the resolution change IC movement" section.

Page 13

f1723 / FP7317 / L1702 / vf17 / FP17 2. Nothing displays on screen (Screen is black, color of LED is green)

Is backlight lit?

NG OK

Refer "Checking the backlight unit" section

Does computer output RGB video signals?

OK

NG

1) Change pattern of video signal output on the host. 2) Reconnect the video cable. 3) Change the video cable.

Check OSM menu is displayed on screen when you push the "MENU" key.

OK

NG

Check if the signal cable is connected between the MAIN PWB and LCD module.

Failure Point NG Proceed "Abnormal screen" section. OK The Cable is disconnected.

Next Page

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f1723 / FP7317 / L1702 / vf17 / FP17

Continue

Check the 3.3 V power are supplied on I301, pin 4.

NG

Check if the voltage on I301 pin 1 that is high level DC at 5V. Failure point

OK

OK

NG

1) Printed wire broke between P301 pin 7, 8 and and I301. 2) Check power board.

Failure point I301 Failure

Failure point 1) The cable broke between P303 and LCD module. 2) LCD module failure.

Page 15

f1723 / FP7317 / L1702 / vf17 / FP17 3. Checking the back light unit
Is +22.5V supplied to inverter PWB?

OK

NG

Failure point 1) Inverter cable disconnection. 2) Power board failure.

Check the BKLT_EN signal of the rectangle input P301 pin 2 at TTL high level

NG

Is a "H" level being output in the TTL level from I304 pin 41 Or, is BKLT_EN signal of the rectangle being output? NG Failure point Printed wire broke between I304 pin 41 and R387.

OK

Check the PWM signal of the input from I304 pin 23 is a PWM signal.

Failure point OK NG 1) Printed wire broke between I304 pin 23 and R301. 2) I304 failure.

Failure point 1) Inverter cable disconnection. 2) Inverter of LCD module failure.

Page 16

f1723 / FP7317 / L1702 / vf17 / FP17 4. Abnormal screen

Check the R, G, B video signal from computer input on D-Sub R, G, B connector. Failure point OK NG 1) No R, G and B video signal output from host computer. Check computer 2) Video signal cable disconnection.

Check the R, G, B input signals on I304 pin 135, 131, 127 respectively that their level is 0.7Vp-p maximum. Failure point NG OK In the case of the Red signal. (A Green and Blue signal is the same path, too.) 1) Printed wire broke between D-Sub(R) and I304 pin 135. 2) R323 short. 3) C317 open. 4) R321 open.

Check the horizontal sync pulse input to I304 pin 101 at TTL level. Failure point OK NG 1) Printed wire broke between I304 pin 101 and P302 pin 8. 2) I304 failure

Check the vertical sync pulse input to I304 pin 100 at TTL level. Failure point OK NG 1) Printed wire broke between I304 pin 100 and P302 pin 9. 2) I304 failure

Process "Checking the resolution change IC movement" section.

Page 17

f1723 / FP7317 / L1702 / vf17 / FP17 5. No OSM display

Check the input TTL level whether was changed when pressed function keys.

Failure point 1) Printed wire broke between P308 pin 5 and I304 pin 29. 2) Printed wire broke between P308 pin 6 and I304 pin 32. 3) Printed wire broke between P308 pin 7 and I304 pin 22. 4) Printed wire broke between P308 pin 8 and I304 pin 26. 5) Printed wire broke between P308 pin 4 and I304 pin 16. 6) FB325, FB326, FB327, FB328. FB329 open 7) RN302, RN301, short/open. 8) I304 failure.

OK

NG

Proceed "Checking the resolution change IC movement" section.

Page 18

f1723 / FP7317 / L1702 / vf17 / FP17 6. Abnormal plug and play operation

Confirm the output of serial data on I303 pin 6 synchronize SCLK at TTL level. Failure point I304 failure.

NG OK

Failure point 1) The host machine isn't communicating in DDC2 mode. 2) The video cable may have failed or may not to have connections for DDC. 3) Between I303 pin 6 and P302 pin 12 may have failed. 4) R310, R385 open. 5) Cable failure.

Page 19

f1723 / FP7317 / L1702 / vf17 / FP17 7. Checking the interface circuit of sync signal
7.1 Checking the control circuit of horizontal sync pulse

Check the horizontal sync signal on I304 pin 101 TTL level. Failure point NG OK 1) Video cable may have failed. 2) Printed wire broke between P302 pin 8 and I304 pin 101 3) FB303, R305 open 4) R306, C303 short

Process "Checking the resolution change IC movement" section.

7.2 Checking the control circuit of vertical sync pulse

Check the vertical sync signal on I304 pin 100 TTL level.

NG OK

Failure point 1) Video cable may have failed. 2) Printed wire broke between P302 pin 9 and I304 pin 100 3) FB302, R303 open 4) R307, C304 short

Process "Checking the resolution change IC movement" section.

Page 20

f1723 / FP7317 / L1702 / vf17 / FP17 8. Checking the resolution change IC movement
Is there +3.3V supply on I304 pin 124,136,132,128, 113, 108, 104, 106, 110, 115, 14, 30, 90, 143, 157.

OK

NG

Proceed "Checking the DC/DC converter circuit" section.

Is there +2.5V supply on I304 pin 119, 117, 20, 43, 79, 98, 138.

NG OK

Proceed "Checking the DC/DC converter circuit" section.

Is 14.318MHz clock input to I304 pin 102 and pin 103 at TTL level? NG Is 14.318MHz clock output from X301 pin 1 at TTL level? OK NG Failure point X301 failure Failure point Print wire broke between X301 pin 1 and I304 pin 102. Failure point I304 failure

OK

Page 21

f1723 / FP7317 / L1702 / vf17 / FP17 9. Checking the DC/DC converter circuit
Check if the 5V is output from P301 pin 7, 8.

OK

NG

Printed wire broke between P301 pin 7, 8 and I301 pin 1.

Check the output of 3.3V line voltage from I301 pin 4. OK NG Failure point I301 failure Failure point Printed wire broke between I301 pin 4 and IC 304 power supply pin.

Page 22

f1723 / FP7317 / L1702 / vf17 / FP17 10. Power Board
Check output voltage +22.5V, +12V is right or not. Yes It is not power board problem.

No

Check power switch is turn on or not. No

Yes

Turn switch on.

Check power cord (P801), signal cable (P302), P802, P803, CN102, CN103 is connected right or not. No Yes Check C805 is about DC140V-330V or not. Yes No Check F801, D801, P801 and repair them. Connect it right

Check C807 is over 10V or not. No Check R805, R803, I801 and repair them.

Yes

Check pin 6 of I801 have same pulse or not. No Check peripheral co,of I801 and repair them.

Yes

Check pin 1 of T802 have same pulse or not. Yes No Check Q803, R813, R814, D806, R812 and repair them.

Check peak voltage of R811 triangle pulse is up to 1 volt or not. Yes No Check D804, R807 and repair them.

Check D809, D810,C816, C821, T802 have same short circuit, or the output +22.5V, 12.5V is over load. No Yes Repair them.

Check feedback circuit around I802, I803 and the other components and repair them.

Page 23

f1723 / FP7317 / L1702 / vf17 / FP17

1. Recommended Parts List
Note: 1. 2. 3. The components identified by " only the same parts specified. " mark are critical for X-ray safety. Replace these with

The components identified by " * " mark are critical parts. 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. Please checkyou have spart parts need, please check BOM to get the last release part number and related information. Location V170 I307 I303 I309 I308 I304 I301 X301 I801 T101 T102 L802 I804 I102~I105 Part Number 6814700100 6841700900 6814701300 6448016508 6448018208 6442015400 6444010438 6444012806 6442033908 6449006400 6442032800 6442022030 6131020600 6111156136 6442035900 6444011300 Description Panel-AU-M170EN05 Panel-HD-HT12E12-200 Panel-LG-LM170E01-A5K2 IC 24LC16B/SN 8P SOP IC 24LC02B 8PIN SOP MICROCHIP IC-LINEAR TDA1517/N3-9PIN SIL9MPF-PHILIPS IC CMOS SST395SF020A-70-4C-NH-32PIN IC CMOS GM2121 208PIN IC LINEAR FAN1537PA 5PIN X'TAL 14.318MHZ AT-49 IC 0Z960 IC SG3842 XFMER TPW-1097 COIL CHOKE 15uH IC MP1410EP IC CMOS-A09600

No. 1 * 2 3 4 * 5 6 * 7 8 9 10 11 12 13

Page 24

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