| |
` 2-1 Drive Description on SMPS 2-2 Operation Explanation of Driving Circuit 2-3 Logic-Main Board 2-4 Scaler Board
` [PDP Mod ule Pic ture ] Y buffer "Upper"
SMPS X- MAIN
Y- MAIN
Lo g ic - Main
Y buffer "Lo wer"
E- buffer
F- buffer
COF x 7
G- buffer
Ö ` [ ¢ ¢¢ ¢ ! It is the supplier to provide voltage and current to work the drive voltage and panel in each board.
[.V "# $ It makes the drive wave form by switching FETs to Timing Controlle coming from logic-board and supplies X electrode of panel with the drive wave form via connector.
[.v "# $ It makes the drive wave form by switching FETs to Timing Controller coming from the logic-board and provides Y electrode of panel with the drive wave form via Scan Driver IC on Y buffer board in order.
[ %"
"# $
It process image signal and performs buffering of the logic-main board (to create XY drive signal and output) and the address driver output signal. Then it supplies the output signal to the address driver IC(COF Module).
Ö [. %" &$''%! It delivers the data signal and control signal to the COF.
[.v&$ &' ! It is the board to impress the scan waveform on the Y board and consist of 2 boards (upper board and lower board). 8 Y-buffers are fixed at the scan driver (STV7617 of STC corp. 64 or 65 Output).
[. # r It has functions to remove noise(low frequency) coming from AC LINE and prevent surge. It gives serious effects on the safety regulations (EMC, EMI) according to AC filter.
[. ! It impress the Va pulse to the address electrode in the address section and forms the address discharge by electric potential difference with scanning pulse to be dismissed by the Y electrode. It is made in the form of COF and one COF consists of 4 Data Drive IC (STV7610A 6 Output), otherwise single scan is made of 7 COF.
¢$&&$ r
r
r
( ¢ A1
A2
A3
A4
A5
A6
A7
ú Y1 X Y2 X
q
ú
Y4 8 0 X
Re fe r e n c e - A1 ,A2 , , , : Add r e s s Ele c tr od e - Y1 ,Y2 , , , : S c an & S us ta in Ele c tr od e - X : Com m o n & S us ta in Ele c tr od e
$¢¢ $"#
" '
¢&¢"# $"#
¢
` ¢&" " % $¢¢ ¢!
·
°
° ° ° °
°
°
°
°
°
° °
°
$ ¢$&&$ ¢!
scan line
SF1 1 2 .. ...
SF2
SF3
SF4
SF5
SF6
SF7
SF8 sub-field address
1T 2T 4T 8T 16T
32T
64T
128T
sustain
480
1TV field (time) Reset Period
D X Y1 Y2 Yn
Address Period
Sustain Period
` ¢ )
scan line
SF1 1 2 .. ...
SF2
SF3
SF4
SF5
SF6
SF7
SF8 sub-field address
1T 2T 4T 8T 16T
32T
64T
480
1TV field (time)
128T
sustain
[Whole Bloc k Diagra m] Y- Ma in B'd
X- Ma in B'd
Dis p la y
Lo g ic B'd
Da ta DRAM
Drive r
PDP Panel
Ro w Drive r
852 X 4 80 Pixe ls
Timing Inp ut Da ta
Da ta Co ntro lle r
Drive r Timing
Pro c e s s o r
Co ntro lle r
S can Timing
853 X 3 X 480 Ce lls
X- Puls e Ge ne ra to r
Y- Puls e Ge ne ra to r Co lumn Drive r
Clo c k : Clo c k : 27MHz
Clo c k :
20MHz
60MHz
40MHz
Po we r B'd
Po we r S up p ly
LVDS Ana lo g B'd
Dig ita l B'd
Mic o m
Ima g e Enha nc e r
De inte rla c e r
Aud io Pro c e s s o r
Ima g e S c a le rr
Vid e o De c o d e r
Vid e o S /W
AD Co nve rte rr
TMDS Re c e ive rr
Co mb Filte r
Tune r
AC Po we r S o urc e 220V
` ¢ ) [ K ]
CN805 (10 P)
CN805 (10 P)
S MPS CN806) CN812 (5P) CN802 CN803 (10 P) (11 P)
Y- Ma in
LA03 (31 P) CN201
CN201
CN401
CN806)
EF1
CN111 CN601
Digital
CN802
CN804 (9P)
CN801 (10 P)
CN804 (9P)
X- Ma in
CN803 (10 P)
Log ic
CN101
CN402
CN403
FE1 FG1
GF1
CN101 CN102 CN103
CN801
CN101
AC Inle t
Ana log
"# #"%&$"# [ S c a le r Dgita l Ī Log ic (CN601) ]
[ S c a le r : Ana log Ī Dgita l ] CN101(Co ntro l)
CN102(Vid e o /S ync )
CN103(Vid e o /S ync )
NO
PIN Name
NO
PIN Name
1
GND
16 Tx CLK Out+ / Rx CLK In+
2
GND
17
GND
NO
PIN Name
NO
PIN Name
NO
PIN Name
1
GND
1
ANAL_YCOMB
1
ANAL_YCOMB
3
Tx Out0- / Rx In0-
18
GND
2
S CL1
2
GND
2
GND
4
Tx Out0+ / Rx In0+
19
Tx Out0- / Rx In0-
3
S DA1
3
ANAL_CCOMB
3
ANAL_CCOMB
5
GND
20
Tx Out0- / Rx In0-
4
GND
4
GND
4
GND
6
GND
21
GND
5
S AFT
5
ANAL_Y2
5
ANAL_Y2
7
Tx Out1- / Rx In1-
22
GND
6
GND
6
GND
6
GND
8
Tx Out1+ / Rx In1+
23
GND
9
GND
24
GND
7
MUTE
7
ANAL_PB2
7
ANAL_PB2
10
GND
25
RES ET_MN
8
GND
8
GND
8
GND
11
Tx Out2- / Rx In2-
26
GND
9
MAFT
9
ANAL_PR2
9
ANAL_PR2
12
Tx Out2+ / Rx In2+
27
IIC S CL2
10
GND
10
GND
10
GND
13
GND
28
GND
11
ANAL_CVBS
11
ANAL_H
11
ANAL_H
14
GND
29
IIC S DA2
12
GND
12
ANAL_V
12
ANAL_V
15 Tx CLK Out- / Rx CLK In- 30
GND
31
GND
"# #"%&$"# [ S MPS Ī X,Y- Ma in / Buffe r ]
[ S MPS Ī Ana log / Digital / Log ic ] CN801(An a lo g Tu)
CN802(Dig ita l Tu)
NO
Po we r
NO
Po we r
NO
Po we r
NO
Po we r
NO
Po we r
NO
Po we r
1
GND
1
THEM_D
1
D3 3V
1
D5V
1
D5V
1
Va
2
A33V
2
S TD_5V
2
D3 3V
2
VG
2
VG
2
Va
3
GND
3
GND
3
GND
3
GND
3
GND
3
NC
4
GND
4
PS _ON
4
GND
4
GND
4
Vs c a n
4
GND
5
AMP12V
5
NC
5
D5V
5
VE
5
GND
5
GND
6
AMP12V
6
GND
6
GND
6
GND
6
Vs e t
7
GND
7
GND
7
IC2
7
GND
7
GND
8
D12V
8
D3 3V
8
IC2
8
VS
8
GND
9
GND
9
D3 3V
9
PS _ON
9
VS
9
VS
10
D6V
10
GND
10
GND
10
VS
11
D6V
[ FAN B+:For VMB] CN807/ 811(FAN) NO
Po we r
1
12V
2
GND
5
Fa n_D
CN803(Lo g ic )
CN804(X- Ma in)
CN805(Y- Ma in)
CN806/ 812(Buffe r)
`
* ¢ ¢ [ S MPS Blo c k Dia g ra m] HOT AC input
Vs (+ 8 5V)
COLD
3 8 5Vd c b u s
DC/DC Converter
Vs et (+ 9 5V)
DC/DC Con ve r te r
Ve (+ 11 0 V)
90 Vú2 6 4V EMI
Bo o s t PFC
Vs _S witc hing
S tag e
S tag e
FILT ER
Retur n
NOIS E FILTER
PWM c o ntrol S tag e
DC/DC Con ve r te r
Va_S witc hing
Vs c an (+ 78 V)
Va(+ 7 9 V)
S tag e
Retur n
Aux ilia ry PWM c o ntrol
Vcc
S tag e
S tag e VT (+ 3 3V 0 03 A) 1 2V(+ 12 V 0 7A) S tand_By
5V
A1 2 V(+ 1 2V) V_dig ital V_analo g
PS - ON/Relay S ignal
Cho ppe r REG
D5 V (+ 5V)) Retur n
S witc hing S tag e MAG- AMP
D3 3 V (+ 3 3 V)
Reg
Vg (+ 15 V)
Vs Log ic _ON Ac tive_High
1 2 V Amp(+ 12 v) A6 V(+ 6V) PWM c o ntrol
COLD
HOT
S tag e
D6 V(+ 6V)
COLD
¢ ¢ 1. Overview SMPS used in PDP 42" developed into the compact-sized with high efficiency. The asymmetrical half bridge and the flyback converter are applied into all output. To comply with the harmonic restrictions, it takes the power factor improvementcircuit, which converts AC into the high DC and uses as the input of another converter controller.
2. Input controller SMPS works in whole section of AC 0~264V. It is possible to start in the AC 0 and can restart with new input voltage, even in interruption of electric power. STD_5V comes out when AC is impressed
3. Output Controller Given SMPS have 15 output voltages. The following shows the specification of output voltage and output current in case of their successive drive.
¢ ¢ Name
Vo ltag e
Curre n t(Max ) Us ing in P DP Driving
VS
+ 75V ~ 1 00V
4 5A
S us tain Vo ltag e
VA
+ 65V ~ 8 0V
0 6A
Addres s Vo ltag e
Name
Vo ltag e
Curre n t(Max ) Us ing in P DP Driving
A12V
+ 1 2V
0 3A
D6V
+ 6V
0 1A
A6V
+ 6V
0 1A
D5V
+ 5V
1 0A
+ 3 3V
4 5A
VS CAN
+ 65V ~ 1 00V
0 1A
VS ET
+ 80V ~ 1 00V
0 1A
D3 3V
VE
+ 100V ~ 120V
0 1A
12VAMP + 1 2V
1 7A
VG
+ 15V
1 5A
VT
+ 3 3V
0 003A
D12V
+ 12V
0 1A
S T D_5V
+ 5V
0 6A
Driving Vo ltag e o f F e t
IC Driving Vo ltag e o f Lo g ic
Amp Vo ltag e o f Audio
S tandby fo r Re mo te Co ntro l
3-1. Overvoltage protection It has circuit to maintain normal voltage, additionally with circuit for sensing overvoltage, so it means any overvoltage does not give impacts on other output controller. SMPS prevents overvoltage in the latch mode. VS(85V) works protection function more than 100V, over 4V for VA(75V), over 8.2V for D6V, over 4.7V for D3.3V
¢ ¢ 3-2. Short circuit and overvoltage protection It forms definition that in the short circuit of output controller the output impedance is lower than 300mohm. If the VS output have a short circuit in case of given SMPS, SMPS stops its working. Even in the case of short circuit between main output and STD_5V, SMPS does not break down. When the short circuit is removed, it restarts.
4. Detail Description AC-DC Converter It converts AC into DC by using the power factor improvementcircuit. This converter was designated to control the high frequency noise, with the function to improve the power factor. This part becomes input controller of another constant-voltage.
[ P F C Drive F ET (S P W4 7 N6 0) Dra in P u ls e ]
[ P F C Drive F ET (S P W4 7 N6 0) Ga te P u ls e ]
¢ ¢ A Auxiliary Power It is the part to supply power of mycom for remote control. When the power is on, it will work, which means that MICOM is on standby. This output part is stand_by voltage. When the power-on signal from remote control impress, it works main power panel of SMPS via stand_by voltage.
´ Configuration of VS output Major part of PDF SMPS outputs 85V 5A. It takes asymmetrical half bridge converter and connects 2 converters with 85V output in parallel, which increases efficiency than one 85V converter, on the other hand, decreases its size.
[ Dr i vi ng FET(2SK2372) Dr ai n Pul s e&Cur r ent wave
]
[ Driving FET (2 S K2 3 72 ) Ga te P uls e ]
¢ ¢ - PWM Part It uses PWM part of ML4824, but there are some points to take cautions. As this part is synchronized with the PFC part, PWM wave in the current mode drive is induced via the current sensor resistance or current transformer, and shows the current flowing in the output controller.
â DC-DC Converter Input of VSCAN, VSET and VE belongs to the VS part
[ VS ET Puls e ]
[ VE Puls e ]
[ Vs c an Puls e ]
¢ ¢ ù Output (VA,Multi Outputs) Pulse
[ Va Ma in P uls e ]
[ Multi Outputs Ma in P uls e ]
¢ ¢ Po we r ON Che c k c o rd c o nne c tio n OK
NG
Chec k the IC2,D2 8
S TB_5V
OK
Chec k the IC1,Q1 ,Q2
PFC
OK
OK
PFC
NG
Chec k the IC35
NG PFC
Chec k the IC7
¢ ¢
NG
VS
Che c k the Q6 ,Q8
OK
Vs c an VE,Vs e t
Che c k the IC16 , IC17 , IC18
OK
Che c k the Othe r boa rd ( Ima ge Board or Drive r Board ) or Ca ble
2-2. Operation Explanation of Driving Circuit ` Overview of Driver Circuit 1) Definition of Driver Circuit The driver circuit division drives the panel with the proper wave form (high voltage pulse) to develop image on the outside terminal division (X electrode group, Y electrode group, Address electrode). High voltage switching pulse is made by MOSFET combination.
2) Working Principle of Driver Circuit To develop image on the PDP, the voltage should be impressed into the X, Y and ADDRESS electrodes (which are component of each pictorial element) under the proper conditions. The driver wave form which is currently applied to is ADS (Address & Display Separate Driving method to work by dividing address and constant-current section ) Based on this method, the discharge to be done in the pictorial element of PDP can be divided into 3 types as follows.
' A + ( * ( * ( ( ( * ! It is the discharge produced by difference between the positive electric potential of address electrode (normally, Va impressed voltage of 70~75V +Positive Wall charge) and negative electric potential of Y electrode (GND level impression+ Negative Wall charge).
* ' + " ( * * ( " (, (! It is the Self Sustaining Discharge made by combining the electric potential of coherent pulse, normally 160-170Volt, which alternates the X electrode with Y electrode in the sustain section, with the wall voltage according to the pictorial element condition changed by if the former discharge exists or not. That is to say, it works according to
( ( ( ,
!
If the wall voltage formerly exists in the pictorial element(i.e., the pictorial element is on), the discharge makes forms again because the voltage higher than one of the discharging starting time is impressed by combination of the wall voltage and of the next impressed constant-current. While if the wall voltage does not exist in the pictorial element (i.e., the pictorial element is off), the discharge does not form because the voltage could not reach to the level of the discharging starting time, only with constant-current.
* ' + * ( * ' ( ( ( ! - ( * ( * ( * ( * ( $( .* (
The purpose of intialization (Erasing) discharge is to make wall voltage within the the whole of Pixels. In other words, the erasing discharge must make difference between wall voltages uniform depending on whether or not the sustain discharge exists in the previous state. Namely it must remove the wall voltage formed by the sustain discharge and supply ions or elements by causing discharge for removing the wall voltage. In the other words, To remove the wall voltage, limit the time when polarity of the wall voltage is reversely charged by causing discharge or prevent polarity form being reversely charged by supplying appropriate quantity of ions or elements through forming weak discharge Ölow voltage of erasing]. There are two types of the weak discharge Ölow voltage]as known so far. 1) Log Waveform adopted by the F-company 2) Weak erasing discharge by the Ramp Waveform largely adopted by Matsushita company, etc. Outside applied voltage is adjusted depending on difference of wall voltage within Pixel, since discharge is formed when the sumof the existing wall voltage remained and the voltage on a rising waveform exceed the driving beginning voltage, by slowly applying the rising slope of the erased waveform for these two methods. In addition, weak discharge is formed since the strength of applied voltage is small.
* 3) Essential factors for driving board operation - Supplied from power board and the optimum value may somewhat differ from the below cases.
' Vs
85V
- Sustain
' Vset 60V ~ 70V
- Y Rising Ramp
' Ve
- Ve bias
110V
' Vscan 70V ~ 80V - Scan bias ' Vdd 3.3V
- Logic signal buffer IC
' Vcc 15V
- FET Gate drive IC
' Logic Signal Supplied from logic board Gate signal of each FET
* .* ( ¢ ( Y ris ing
Y s us tain
Ra mp
P uls e Y falling Ra mp
Y s c an P uls e X s us tain P uls e
Addre s s P uls e
A1, 2 X Y1, 2
Addr es s (=Dat a) El ect r ode
Vs
85V
Ve
110V
Common & Sus t ai n El ect r ode
Vs et
95V
Va
79V
Scan & Sus t ai n El ect r ode
Vs can
85V
' Y Rising Ramp Pulse Outside voltage of about 3 0V~400V is applied to the Y electrode in the Y Rising Ramp zone, and weak discharge begins if respective gap voltage equals to the discharge beginning voltage. Negative Wall charges accumulate on the Y electrode and the Positive Wall charges on the X electrode in the whole while weak discharge is maintained.
' Y Falling Ramp Pulse Most of Negative Wall charges accumulated on the Y electrode by the X bias of about 200V are used to remove Positive Wall charges in the Y Falling Ramp zone, and most of Positive charges accumulated on the (0V) Rising Ramp zone toward the address electrode are maintained, having distribution of wall charges beneficial for the subsequent address discharge.
' Y Scan Pulse Y scan pulse is called as injection pulse, and selects the Y electrode one by one (Line-at-a-time). In this case, Vscan is called as Scan bias. For the electrode line with the Vscan voltage applied, voltage of about 70 Volt (Vscan) is applied, and voltage of 0 Volt(GN0) is applied. However, since Negative Wall charges accumulate on the Y electrode by the application of Ramp pulse and Positive Wall charges accumulate on the address electrode, voltage of more than the discharge beginning voltage is applied to the cell where address pulse(70V~75V) is allotted and thus address discharge occurs. Address time of the PDP is very long since both scan pulse and data pulse must be applied in line at a time.
' 1st Sustain Pulse The Sustain Pulse always begins from the Y electrode, it is because Positive Wall charges are formed on the Y electrode if address discharge occurs. The wall charges formed by the address discharge are less than those for the sustain discharge, and thus the strength of the initial discharge is weak. Sustain discharge usually become stable after 5~6 times of discharge depending on structure of electrode and environment. Therefore, the initial long sustain pulse is intended to form the initial discharge stable and form the wall charges much as possible as.
* 1. Y buffer - To check whether there is failure of the Y Main, firstly check normal operation of the Y buffer. - After separating both the Y Main and the Y buffer connector, - Check forward voltage drop of 0.4V ~ 0.5V by diode check between OUTL and OUTH. - In addition, resistance between both ends is also more than several kȍ.
OUT L
OUT H
OUTL OUTH
OUTL
OUTH
* 2. Y Main - After connecting both the Y Main and the Y buffer, check that output of one of OUT1~8 of the Y buffer is done as follows in application of power OUT1
OUT2
OUT3 OUT4 OUT6
OUT5
Ę You mus t check 1EA of Scan pul s e i s out put
* 3. X Main - Check output of the TPOUT on the X board is done as follows in application of power
TPOUT
2-3. Operation Explanation of Logic Board [ Lo g ic Blo c k Dia g ra m] Vs St art Si gnal
I mage Si gnal
LA03 IIC (SCL, SDA)
X2000
CN803 Vs s t art U2004 27MHz LVDS SW2001 I mage Si gnal 8 bi t pe r DATA R G B 1 bi t pe r H, V SYNC
FPGA
Y CONTROL Y CONTROL CN201 28BV256K U2001
FRONT_XY U2005
60MHz 64M
28 636MHz X2002 OSC
SDRAM U2014
CY2305 U2003
EP20K400EBC652- 1
IIC VCC(3 3V) GND
Logi c Power 3 3V, 5V
64M CY2305 U2002
SDRAM U2013
X CONTROL X CONTROL
EPC2 U2011
EPC2 U2007
EPC2 U2006
RESET SPS10- MEM ASI C MEMORY CONTROLLER U2000
8 bi t per DATA R G B 1 bi t per H, V SYNC 1 bi t per DATA_EN, TSC, POL, SEN, SDA, SCLK _nRESET
CLK_XY(20MHz), SV_SYNC nRESET
CN101
Ci r cui t
40MHz X2001
I I C(SCL, SDA) CN2002 CN401
e-buff er
ADRV101~106 ADRV201~206 ADRV301~306 CLK, BLK, POL, STB
ADRV401~406 CLK, BLK, POL, STB
CN402
f-buff er
ADRV501~506 ADRV601~606 ADRV701~706 CLK, BLK, POL, STB
CN403
g-buff er
#( (
A
LOGIC BOARD ù
M O D E L
OP T ION S /W
REMARKS
S T AT US â
´
ON
Ex te rnal : 2,4 On
OFF
Inte rnal : 3 On
4 2" S D 1 2 3 4
I t em
No
LVDS connect or
Expl anat i on Connect or for recei vi ng RGB, H, V, DATAEN, DCLK encoded i n t he LVDS from i mage board
A
LED for operat i on check
LED t o s how t hat Sync, cl ock i s nor mal l y i nput i nt o t he l ogi c board
´ â
I 2C connect or 256K
Connect or connect i ng t he Key Scan Board t hat checks and adj us t s 256K dat a Eeprom t o s ave ʇ t abl e, APC t abl e, dri vi ng wavef orm t i mi ng and ot her opt i on, et c
ù
Y connect or
Connect or t o out put cont r ol s i gnal of t he Y dri vi ng board
X connect or
Connect or t o out put cont r ol s i gnal of t he X dri vi ng board
CN401(E- addres s buf fer connect or)
Connect or t o out put addres s dat a, cont r ol s i gnal t o t he E-buf fer board
CN402(F- addres s buf fer connect or) CN403(G- addres s buf fer] connect or)
Cnnec t or t o out put addres s dat a, cont r ol s i gnal t o t he F-buf fer board Connect or t o out put addres s dat a, cont r ol s i gnal t o t he G-buf fer board
Power connect or
Connect or t o recei ve power 95V] t o t he l ogi c board
Power fus e OPTI ON S/ W
Fus e at t ac hed t o power [5V] t o t he l ogi c board I nner / Out er cut -off S/ W
Logic board is composed of a logic main board that generates and outputs the address driver output signal and the XY driving signal by processing image signal, and a buffer board that buffers the address driver output signal and delivers it to the address driver IC (COF Module).
Logi c Board
Funct i on - Pr oces s es I mage s i gnal (W/L, er r or di s per s i on, APC)
Logi c Mai n
- Out put s i mage s i gnal as addr es s dr i ver cont r ol s i gnal , dat a s i gnal buf fer boar d - Out put s t he XY dr i vi ng boar d cont r ol s i gnal
E Buf fer boar d
Buf fer Boar d
F Buf fer boadr
G Buf fer boar d
- Del i ver s dat a s i gnal and cont r ol s i gnal t o t he r i ght / r i ght COF - Del i ver s dat a s i gnal and cont r ol s i gnal t o t he mi ddl e/ l ower COF - Del i ver s dat a s i gnal and cont r ol s i gnal t o t he Ri ght / Lower COF
Remar ks
/
¢"( ! DIGIT AL BOARD I C & SI GNAL BLOCK DI AGRAM
ANALOG Si gnal
CRYSTAL
CLOCK Si gnal
DI GI TAL Si gnal
TO LOGI C
FROM SMPS
DS90C385 Z86129 M 2 7 V 1 6 0
K4S643232E SNI
VPC3230
FLI 2200
CVBS
K4S643232E 20 25M K4S641632E
Y/ C
K4S643232E
K4S643232E
M27V160 ASI 500
K4S643232E
14 3181M
Y/ Pb/ Pr/ H/ V
SDA6000
AD9883 FROM CONTROL PCB
6M
VPC3230
BA7657
20 25M
Si I 161A 74HC4052
DVI L/ R
S- VHS Y/ C R/ G/ B/ H/ V
RS- 232
DVI
DVI SOUND
D- SUB
D- SUB L/ R
D- SUB Sound
S- VI DEO
DVI , D- SUB L/ R S- VHS L/ R
S- VI DEO/ VI DEO Sound
¢"( ! ANALOG BOARD I C & SI GNAL BLOCK DI AGRAM CN8 01
CRYSTAL
ANALOG SI GNAL
DI GI TAL SI GNAL
CLOCK SI GNAL
FROM SMPS
18 432M
Y/ C CN1 01
UPD64083
20M
SUB WOOPER CVBS
CVBS
DVI , D- SUB L/ R
MSP3451
L/ R S- VHS L/ R
Y/ Pb/ Pr/ H/ V CN1 02
CXA2151 4M
S- CVBS TEA6425
M- CVBS
Y/ Pb/ Pr TA1101
BA7657
TUNER 2
TUNER 1
CN1 03 VI DEO- CVBS
VODEO
Y/ Pb/ Pr 1
COMPONENT1
Y/ Pb/ Pr 2
COMPONENT1 SOUND
COMPONENT2
COMPONENT2 SOUND
SOUND OUTPUT
RF I NPUT
Sub-woof er Out put
1. UPD 64083 (COMB FILTER) I TEM
TV/ Vi deo/ S- Vi de o/ Component 1, 2(SD)
Component 1, 2(HD)
PC
DVI
VAPGAI N
4
4
4
4
VAPI NV
16
16
16
16
YPFP
3
3
3
3
YPFG
9
9
9
9
2. VPC 3230(M) Main VCD I TEM
TV/ Vi deo/ S- Vi de o/ Component 1, 2(SD)
Component 1, 2(HD)
PC
DVI
CONTRAST
43
43
43
43
BRI GHTNESS
47
47
47
47
PEAKI NG
5
5
5
5
CORI NG
0
0
0
0
LUMA DELAY
255
255
255
255
HPLL SPEED
1
1
1
1
YUV CONTRAST
29
29
29
29
YUV BRI GHTNESS
68
68
68
68
YUV SATCB
42
42
42
42
YUV SATCR
42
42
42
42
YUV TI NT
3
3
3
3
SATURATI ON
2000
2000
2000
2000
TI NT
32
32
32
32
3. VPC 3230(S) SUB VCD I TEM
TV/ Vi deo/ S-Vi deo/ Component 1, 2(SD)
Component 1, 2(HD)
PC
DVI
PI P CONTRAST
43
43
43
43
PI P BRI GHTNESS
47
47
47
47
YUV CONTRAST
29
29
29
29
YUV BRI GHTNESS
68
68
68
68
LUMA DELAY
255
255
255
255
H POSI TI ON
0
0
0
0
V POSI TI ON
0
0
0
0
4. FLI 2200 (De-Interlacer) I TEM
TV/ Vi deo/ S-Vi deo/ Component 1, 2(SD)
Component 1, 2(HD)
PC
DVI
Y CLAMP
64
64
64
64
C CLAMP
512
512
512
512
Y DELAY
4
4
4
4
C DELAY
11
11
11
11
MOTI ON DETECT
48
48
48
48
0 ¢"011 ¢ $ "# 2 ¢! I TEM
TV/ Vi deo/ S- Vi de o/ Component 1, 2(SD)
Component 1, 2(HD)
R CONTRAST
32
G CONTRAST B CONTRAST
32
R BRI GHTNESS
0
G BRI GHTNESS B BRI GHTNESS
0
TEXT ALPHA
1
TEXT THRESHOLD FI LTER ML
7
FI LTER MR
0
FI LTER FR FI LTER MC
16
FI LTER UC
0
FI LTER LC FI LTER YPASS
0
R GAMMA
32
G GAMMA B GAMMA
32
H POSI TI ON
0
V POSI TI ON H SI ZE
0
V SI ZE
0
OVERSCAN B OVERSCAN G
63
OVERSCAN R
63
32
0
0
0
0
32
0
63
PC
DVI
3 ¢"011 È ¢ $ "! I TEM
TV/ Vi deo/ S-Vi deo/ Component 1, 2(SD)
Component 1, 2(HD)
PI P R CONT
32
PI P G CONT
32
PI P B CONT
32
PI P R BRI GHT
0
PI P G BRI GHT
0
PI P B BRI GHT
0
PI P FI LTER LC
0
PI P FI LTER ML
0
PI P FI LTER MR
0
PI P FI LTER UC
0
PC
DVI
) V`0`4 ## &V! I TEM
TV/ Vi deo/ S- Vi de o/ Component 1, 2(SD)
Component 1, 2(HD)
PC
DVI
GAI N-SEL CR GAI N CB GAI N Y GAI N
1 7 7 7
1 7 7 7
1 7 7 7
1 7 7 7
5 #" ! I TEM
TV/ Vi deo/ S- Vi de o/ Component 1, 2(SD)
Component 1, 2(HD)
BRI GHT OFFSET
0
CONTRA OFFSET
0
NR SCALE MAX
52
NR SCALE MI N
18
DE GAI N COR
3
DE GAI N CLI P
60
CE UPPER
240
CE CUTOFF
64
CE GAI N
48
WTE Y THRE
230
R CTL
2
SYNC MODE
1
PATT SEL
0
RED CONPENSA
616
BLUE CONPENSA
616
WTE GAI N
58
RAST VSI ZE
1023
RAST HSI ZE
895
SHARP OFFSET
0
PC
DVI
6 6))7 *! I TEM
TV/ Vi deo/ S- Vi de o/ Component 1, 2(SD)
Component 1, 2(HD)
PC
DVI
R GAI N G GAI N
142 142
142 142
142 142
142 142
B GAI N R, CR OFFSET
142 60
142 60
142 54
142 60
G, Y OFFSET B, CB OFFSET Aut o Col or
48 64
48 64
54 54
48 64
`1 *! I TEM
TV/ Vi deo/ S- Vi de o/ Component 1, 2(SD)
Component 1, 2(HD)
PC
DVI
R DRI VE G DRI VE
140 130
140 130
140 130
140 130
B DRI VE R CUTOFF
120 0
120 0
120 0
120 0
G CUTOFF
0
0
0
0
B CUTOFF GAMMA GTS SET ERD MODE
0
0
0
0
1 0 2
RANDOM NOI SE
0
DI FF FI LTER APC APC SET APC VALUE
1 1 0 127
ACTI VE VPOS ACTI VE HPOS VSYNC POS
12 19 3
HSYNC POS VSYNC WIDTH HSYNC WIDTH
32 2 12
`` %¢" + %"2¢ $ I TEM
TV/ Vi deo/ S- Vi de o/ Component 1, 2(SD)
Component 1, 2(HD)
LOG PATTERN
0
LOG HI GH LEVEL
255
LOG LOWLEVEL
0
ASI COLORBAR
0
PC
DVI
` I TEM
TV/ Vi deo/ S- Vi de o/ Component 1, 2(SD)
Component 1, 2(HD)
PC
DVI
Remar k
PI X SHI FT
0
0 : OFF
1 : ON
SHI FT TEST
0
0 : mi nut e
1 : s econd
PI X NUMBER
2
Number of s hi ft ed Li nes hori zont al l y
SHI FT LI NE
1
Number of s hi ft ed Li nes vert i cal l y
SHI FT TI ME COUNTRY
4 0
Ti me fi xed at SHI FT TEST
TEMP PROTECT
0
SNI DEMO
0
0 : OFF
SNI THROUGH
0
0 : NOT THROUGH
VI DEO MUTE
10
I RC AFN
0
0 : for cus t omer
LANGUAGE
0
0 : Engl i s h
CUSTOMER
0
0 : CE
TUNER
0
0: 1 TUNER
0 : domes t i c
1 : USA 2 : Japan
1: ON 1 : THROUGH
Uni t : 100ms ec 1 : for mi l i t ar y
1 : Fr ench 1 : VMB 1: 2 TUNER
2 : Spani s h
¢ .* ( 8 8! " ¢ + ) " ¢ + )
ANALOG BOARD I C103(TEA6425D) PI N6(VI DEO-CVBS)
ANALOG BOARD CN102 PI N10(3D_C_OUT)
ANALOG BOARD CN102 PI N12(3D_Y_OUT)
DI GI TAL BOARD I C101(VPC3230D- C5) PI N57(VPC_VSYNC)
¢ .* ( 8 8! " ¢ + )
DI GI TAL BOARD I C101(VPC3230D-C5) PI N56(VPC_HSYNC)
DI GI TAL BOARD I C104(FLI 2200) PI N91(FLI _VSYNC)
i
DI GI TAL BOARD I C101(VPC3230D-C5) PI N28(VPC_CLK)
DI GI TAL BOARD I C104(FLI 2200) PI N92(FLI _HSYNC)
¢ .* ( 8 8! " ¢ + )
DI GI TAL BOARD I C104(FLI 2200) PI N90(FLI _DE)
DI GI TAL BOARD I C104(FLI 2200) PI N117(FLI _CLK)
DI GI TAL BOARD RW507(ASI 500 OUTPUT) PI N2(MN_I N_V)
DI GI TAL BOARD RW507(ASI 500 OUTPUT) PI N1(MN_I N_H)
¢ .* ( 8 8! " ¢ + )
DI GI TAL BOARD RW507(ASI 500 OUTPUT) PI N4(MN_I N_CLK)
DI GI TAL BOARD I C601(SNI OUTPUT) PI N9(OUT_VSYNC)
DI GI TAL BOARD I C601(SNI OUTPUT) PI N10(OUT_HSYNC)
DI GI TAL BOARD I C601(SNI OUTPUT) PI N8(OUT_DE)
¢ .* ( 8 8! " ¢ + )
DI GI TAL BOARD I C601(SNI OUTPUT) PI N12(OUT_CLK)
ANALOG BOARD I C101(CXA2151 OUTPUT) PI N26(COMP_PB)
ANALOG BOARD I C101(CXA2151 OUTPUT) PI N27(COMP_Y)
ANALOG BOARD I C101(CXA2151 OUTPUT) PI N25(COMP_PR)
¢ .* ( 8 8! " ¢ + )
ANALOG BOARD I C101(CXA2151 OUTPUT) PI N23(COMP_V)
ANALOG BOARD I C101(CXA2151 OUTPUT) PI N22(COMP_H)
DI GI TAL BOARD I C705(AD9883 OUTPUT) PI N64(ASI _SUB_V)
DI GI TAL BOARD I C705(AD9883 OUTPUT) PI N66(ASI _SUB_H)
¢ .* ( 8 8! " ¢ + )
DI GI TAL BOARD I C705(AD9883 OUTPUT) PI N65(ASI _SUB_SOG)
DI GI TAL BOARD I C705(AD9883 OUTPUT) PI N67(ASI _SUB_CLK)
DI GI TAL BOARD I C702(SI I 169CT OUTPUT) PI N47(DVI _VSYNC)
DI GI TAL BOARD I C702(SI I 169CT OUTPUT) PI N48(DVI _HSYNC)
¢ .* ( 8 8! " ¢ + )
DI GI TAL BOARD I C702(SI I 169CT OUTPUT) PI N46(DVI _DE)
DI GI TAL BOARD I C702(SI I 169CT OUTPUT) PI N44(DVI _CLK)
¢
¢ Tur n on t he s et
Connect
Pr ot ect i on or LED Nor mal
Remove al l Connect or s
LED pr obl ems
NO
OK
OK
X- Mai n
Connect
OK
Y- Mai n
Connect Addres s
OK
Che ck t he pr ot ect i on
Change
NO
NO
SMPS
or vol t age s
Change X- Mai n
NO
Change Y- Mai n
ot her Boards
Buf fer
f r om SMPS(except AV) and
Che ck
NO
Change Addres s Buf fer
OK
Che ck PS_ON( 0V: SMPS CN802 pi n4) &
OK
NO LED Che ck s t and_by 5V(SMPS CN802 pi n2) Remove
Che ck Vol t age s NO
on t he SMPS (Vs , Va, Ve, Vs et
Connect or s f r om
NO
X, Y-Mai n, Addr es s vol t age s on SMPS agai n
OK
Remove al l Connect or s
Al mos t No
NO
on t he SMPS? OK
NO Vol t age s
Yes
Change Di gi t al
NO Onl y Vs or Va cannot be meas ur e d Che ck VS_ON(3V)
SMPS
Che ck t he damaged
OK
f r om SMPS and Che ck t he vol t age s on AV Boards
Change
compone nt s on
Key-Pad
Vol t age s
Buf fer s and Che ck t he
)
Che ck t he
NO
CN803(SMPS pi n2)
Change SMPS
Change Logi c
Change t he damaged Board
X, Y-Mai n & Addres s Board
NO Damaged Compone nt s Che ck t he Fus es on X, Y-Mai n Boards (F4003, F5003)
Change t he NO
damaged Board
OK
I can s ee s ome Vi deo
Change
ex) TV, Vi de o or et c I nput s our ce
Anal og
Che ck whe t her
Change Y- Mai n
al ways No Vi deo
Change X- Mai n NO
NO
about al l AV i nput s
Change NO, can' t s ee any Vi deo
Di gi t al
Che ck t he NO
LVDS cabl e
Change NO
Logi c
( # |
C
_
C! "
"
"
|# C !
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