- 8 - 1. Application Object These instructions are applied to all of the PDP monitor, MP- 00MB. 2. Notes (1) Because this is not a hot chassis, it is not necessary to use an isolation transformer. However, the use of isolation transformer will help protect test instrument. (2) Adjustment must be done in the correct order. (3) The adjustment must be performed in the circumstance of 25±5°C of temperature and 65±10% of relative humidity if there is no specific designation. (4) The input voltage of the receiver must keep 220/230V, 50/60Hz in adjusting. (5) The receiver must be operated for about 15 minutes prior to the adjustment. 1. After receiving 100% white pattern, the receiver must be operate prior to adjustment.(Or white condition in HEAT- RUN mode) 2. Enter into HEAT-RUN mode - Select the HEAT-RUN OFF by pressing ADJ button on Remote Control for adjustment. - Press the VOL + button in HEAT-RUN OFF. (OSD display HEAT-RUN WHITE and screen display 100% full WHITE PATTERN) 3. Set is activated HEAT-RUN without SET TOP BOX or signal generator in this mode. [ Single color pattern of HEAT-RUN mode uses to check PANEL.(RED/BLUE/GREEN) [Caution] If you turn on a still screen more than 20 minutes, a afterinage may be occur in the black level part of the screen. 3. POWER PCB Assy Voltage Adjustment 3-1. Test Equipment D.M.M 1EA 3-2. Connection Diagram for Measuring Refer to Fig 1. 3-3. Adjustment Method (1) Va Adjusment(Address Voltage Adjusment) 1. Connect pin 1 of P806 or P811 to (+) jack of D.M.M. 2. After turning the VR803(Va Adj), voltage of D.M.M adjustment as same as Va voltage which on label of panel right/bottom.(Deviation : ±0.5V) (2) Vs Adjustment 1. Connect pin 9 of P803 to (+) jack of D.M.M. 2. After turning the VR804(Vs Adj), voltage of D.M.M adjust as same as Vs voltage which indicated on label of panel right/bottom.(Deviation : ±0.5V) (3) VSC Adjustment 1.Connect pin 4 of P802 to (+) jack of D.M.M. 2. After turning the VR806(VSC Adj), voltage of D.M.M adjust as same as Vs voltage which indicated on label of panel right/bottom.(Deviation : ±0.5V) (4) VSETUP Adjustment 1. Connect pin 1 of P802 to (+) jack of D.M.M. 2. After turning the VR805(VSETUP Adj),voltage of D.M.M adjust as same as Vs voltage which indicated on label of panel right/bottom.(Deviation : ±0.5V) 4. Adjustment of RGB Cut-off and White Balance 4-1. Required Equipment Color analyzer(CA-100 or same production) 4-2. Connection Diagram of Equipment for Measuring ADJUSTMENT INSTRUCTIONS VSETUP VR806 VR805 VR804 DMM VSC VA VSC CTL VA CTL P814 VR803 GND VSETUP CTL VS CTL VS <Fig 1> Connection Diagram of Power Adjustment for Measuring Refer to Typical Voltage Va Vs Vsc Vsetup 70V 182V 75V 225V Address Voltage Sustain Voltage Scan Voltage Setuo Voltage COLOR ANALYZER TYPE; CA-100 Window Pattern CVBS Signal Input High Light 120±5cd/m2 Low Light 6±1cd/m2 PDP MONITOR MSPG-2100 or MSTG-5200 <Fig 2> Connection Diagram of Automatic Adjustment
This document is posted to help you gain knowledge. Please leave a comment to let me know what you think about it! Share it to your friends and learn new things together.
Transcript
- 8 -
1. Application ObjectThese instructions are applied to all of the PDP monitor, MP-00MB.
2. Notes(1) Because this is not a hot chassis, it is not necessary to use
an isolation transformer. However, the use of isolationtransformer will help protect test instrument.
(2) Adjustment must be done in the correct order.(3) The adjustment must be performed in the circumstance of
25±5°C of temperature and 65±10% of relative humidity ifthere is no specific designation.
(4) The input voltage of the receiver must keep 220/230V,50/60Hz in adjusting.
(5) The receiver must be operated for about 15 minutes priorto the adjustment.
1. After receiving 100% white pattern, the receiver must beoperate prior to adjustment.(Or white condition in HEAT-RUN mode)
2. Enter into HEAT-RUN mode - Select the HEAT-RUN OFF by pressing ADJ button on
Remote Control for adjustment.- Press the VOL + button in HEAT-RUN OFF.
(OSD display HEAT-RUN WHITE and screen display100% full WHITE PATTERN)
3. Set is activated HEAT-RUN without SET TOP BOX orsignal generator in this mode.
[ Single color pattern of HEAT-RUN mode uses to checkPANEL.(RED/BLUE/GREEN)
[Caution] If you turn on a still screen more than 20 minutes, aafterinage may be occur in the black level part of thescreen.
3. POWER PCB Assy Voltage Adjustment
3-1. Test EquipmentD.M.M 1EA
3-2. Connection Diagram for MeasuringRefer to Fig 1.
3-3. Adjustment Method
(1) Va Adjusment(Address Voltage Adjusment)1. Connect pin 1 of P806 or P811 to (+) jack of D.M.M.2. After turning the VR803(Va Adj), voltage of D.M.M
adjustment as same as Va voltage which on label of panelright/bottom.(Deviation : ±0.5V)
(2) Vs Adjustment1. Connect pin 9 of P803 to (+) jack of D.M.M.2. After turning the VR804(Vs Adj), voltage of D.M.M adjust as
same as Vs voltage which indicated on label of panelright/bottom.(Deviation : ±0.5V)
(3) VSC Adjustment1.Connect pin 4 of P802 to (+) jack of D.M.M.2. After turning the VR806(VSC Adj), voltage of D.M.M adjust
as same as Vs voltage which indicated on label of panelright/bottom.(Deviation : ±0.5V)
(4) VSETUP Adjustment1. Connect pin 1 of P802 to (+) jack of D.M.M.2. After turning the VR805(VSETUP Adj),voltage of D.M.M
adjust as same as Vs voltage which indicated on label ofpanel right/bottom.(Deviation : ±0.5V)
4. Adjustment of RGB Cut-off andWhite Balance
4-1. Required EquipmentColor analyzer(CA-100 or same production)
4-2. Connection Diagram of Equipment forMeasuring
ADJUSTMENT INSTRUCTIONS
VSETUP
VR806
VR805
VR804DMM
VSC
VA VSC CTL
VA CTL
P814
VR803
GND
VSETUP CTL
VS CTL
VS
<Fig 1> Connection Diagram of Power Adjustment for Measuring
Refer to Typical Voltage
Va
Vs
Vsc
Vsetup
70V
182V
75V
225V
Address Voltage
Sustain Voltage
Scan Voltage
Setuo Voltage
COLORANALYZER
TYPE; CA-100
Window Pattern
CVBS Signal InputHigh Light
120±5cd/m2
Low Light6±1cd/m2
PDP MONITOR
MSPG-2100 orMSTG-5200
<Fig 2> Connection Diagram of Automatic Adjustment
- 9 -
4-3. Adjustment of RGB CUT OFF(1) Select A/C SRT (cut-off automatic adjustment ) by
pressing SVC button on Remote Control for adjustment.(2) Press the VOL + or VOL - button.(3) It displayed all of the black on the screen and then
adjustment is started.(4) If adjustment is finished, exit from adjustment mode by
pressing A/V button.
4-4. Adjustment of White Balance• White Balance should be done after RGB cut-off become
adjustment.• Operate the Zero-calibration of the CA—100, then stick
sensor to PDP module surface when you adjust.
(1) Select WHITE PATTERN of HEAT RUN mode by pressingSVC button on Remote Control for adjustment thenoperate HEAT RUN more than 15 minute.
(2) Supply window Signal in pattern generater.
[ When adjustment is operated manually, perate process (3)to (6) regular sequence, when adjustment is operatedautomatically perate process (1)~(2).
(3) To adjust Low Light, stick sensor to pattern(Dark), selectthe R cut/B cuby pressing SVC button on Remote Controlfor adjustment and adjust it until color coordinationbecomes X=0.280±0.003, Y=0.310±0.003 and colortemperature becomes 8.800cK ± 500cK by pressing VOL+,- button. (G-cut fixation)
(4) To adjust High Light, stick sensor to pattern(White).Select the R Gain/G Gain(adjustment 6) by pressing SVCbutton on Remote Control for adjustment and adjust RGain/G Gain until color coordination becomesX=0.280±0.003, Y=0.310±0.003 and color temperaturebecomes 8.800cK ± 500cK.(B-Gain fixation)
(5) Confirm the result of the High Light adjustment.If the deviation of High Light occur, operate the adjustmentof Low Light and High Light again.
(6) Exit adjustment mode using AV button.
5. Color T emperature of STB White Balance Adjustment
5-1. Required EquipmentColor Analyzer(CA-110, CA-100 or same production)
5-2. Connection diagram of equipment formeasuring
(1) To adjust the deviation of the STB signal output.(2) Use regular PDP Monitor(JIG).
5-3. Adjustment Method• Connect the STB to regular PDP Monitor.• Operate the zero-calibration of the CA-100, then stick
sensor to surface of PDP module when you adjust.
(1) Select ITE PATTERN of HEAT RUN mode by pressingSVC button on Remote Control for adjustment, thenoperate HEAT RUN more than 15 minute.(Operate the HEAT RUN to adjust the STB at first, then ifOFF hour don’t keep more than 3 minutes, operate nextadjustment of the STB without HEAT RUN.)
(2) Supply window Signal to TD-710 in pattern generator.
[ When adjustment is operated manually, perate process (3)to (7) regular sequence, when adjustment is operatedautomatically perate process (1) to (2).
(3) Select STB CXA2101 by pressing SVC,ADJUST button onRemote Control for adjustment.
(4) To adjust Low Light, stick sensor to 9th pattern(Dark).Select the B Cut/R Cut, then adjust the B Cut/R Cut untilcolor coordination becomes X=0.280±0.003,Y=0.310±0.003 and color temperature becomes 8.800cK ±500cK by pressing VOL+, - button. (Adjust in B Cut 10±1,R Cut 6±1)
(5) To adjust High Light, stick sensor to 2th pattern(White).Select the R Gain/G Gain, then adjust the R Gain/G Gainuntil color coordination becomes X=0.280±0.003,Y=0.310±0.003 and color temperature becomes 8.800cK±500cK. (B-Gain fixation)
(6) Confirm the result of the High Light adjustment.If the deviation of High Light occur, operate the adjustmentof Low Light and High Light again.(Expectation average adjustment data : B-Cut & R-Cut=6±2, R-Gain/G-Gain=25±3)
(7) Exit adjustment mode using A/V button.
6. Adjustment of VIF-VCO COIL
6-1. Preparation for Adjustment(1) Connect the equipment for measuring as below.(2) Setting equipment for measuring.
RF Signal generator
COLORANALYZER
TYPE; CA-100
CVBS Signal Input
PDP MONITOR
RT-BA10(STB)
Window Pattern
MSPG-2100 or MSTG-5200
High Light145±5cd/m2
Low Light6±1cd/m2
<Fig 3> Connection Diagram of STB Automatic Adjustment
ADJ.Point
X106
VR101
System
B/G,D/K/I,SECAM-L
SECAM-L’
Frequency
38.9
34.25
Modulation
OFF
OFF
Level
80dBuV
80dBuV
* If any model don t have SECAM-L/L System, you should notoperate adjustment of VR101.* Output of Power Supply = DC 5V* Oscilloscope range = set 0.5V/div., 5msec/Div.(using scope)
6-2. Adjustment 38.9MHz IF(B/G, D/K, I, L, M)(1) Input the signal of the signal generater(38.9MHz) to
TP105(IC102 pin 7) through 0.01uF(103) capacitor.(2) S1 : OFF, S2 : IN, S3 : OFF(3) Adjust voltage of the TP103 to 2.5 0.1V by adjusting
X106.
6-3 Adjustment L VCO(AdjustmentSECAM-L ) --> Only SECAM L model
(1) After changing the signal of the signal generater to34.25MHz, input the signal to TP102(IC102 pin 11) through0.01uF(103) capacitor.
(2) S1 : on, S2 : off, S3 : ON(3) Adjust voltage of the TP103 to 2.5 0.1V by adjusting
VR101.
7. Adjustment AGC
7-1 Preparation for Adjustment(1) Connect the signal of PAL-B/G 05ch. to Antenna jack.(2) Connect Multi meter to point(J150) of AGC adjustment.
7-2 AdjustmentAdjustment the voltage of Multi meter to 2.3 0.1V bychanging VR102.
8. OPTION TABLE
8-1 Funtion of Line Service(1) • Enter to SVC mode by using SVC button on the remote
control.•To enter to the SVC mode,press the “OK” button on RT-BA10 local key ond “OK” button on the remote controlsimultaneously.
• In MT-BA10 only,press the “INPUT” button and “OK” buttonon remote control to enter to SVC mode.
(2) Select the item by using the Quick View(Yellow) button.(3) After adjusting,restore adjusted item in EEPROM by using
“OK” button and use the CYAN button to cancel theadjusted condition.
(4) Select the program directly and input the data of option byusing the number button.
(5) Line SVC-0(Hitrun&W/B Adj.mode)=> VSC EEPROM• H/T RUN:OFF,WHITE,RED,GREEN,BLUE,OFF• A/C SRT:Auto Cutoff• R/G/B Fine 16,R/G/B Gain 3,R/G/B Cutoff 100
(6) Line SVC-1(Phase&Position Adj.mode)=> VSC EEPROM• Phase 15,H-Pos 32,V-Pos 32,Auto Position
(7) VSC CXA2101 Adj.mode)=> VSC EEPROM
(8) STB CXA2101 Adj.mode)=> STB EEPROM
(9) SOUND Adj.mode => VSC EEPROM
(10) Option 1 Adj.mode => VSC EEPROM• Select it directly by using Teletext Size button.
- 10 -
IC102TDA4474
TP103
ST-BY 5V:P001
24 7
13
15
1
0.01uFTP105
X106(VCO)
5V
Power-Supply
V Multimeter or Oscilloscope
TP110
38.9MHz34.25MHz
(B/G,D/K,I,L)(SECAM-L')
100 ohm
S1
5V
4.7 Kohm
S3
Q122
VR122
R144
16
TP112(IF VCC)
S2
TP111
100 ohm
11 TP102
VR102(AGC)
(STB MAIN)
BC 7
RC 7
RG 10
GG 10
BG 10
SUB-CON 3
SUB-BRI 54
SUB-COL 0
SUB-HUE 14
SUB-SHP 3
CTI 0
RYR 6
GYR 10
RYB 9
GYB 5
GMM 5
BLK 15
PRE 1
DCT 1
DPI 2
VTC 2
HWI 2
DCO 1
HDT 0
SFO 1
BC 7
RC 7
RG 31
GG 31
BG 31
SUB-CON 3
SUB-BRI 54
SUB-COL 0
SUB-HUE 7
SUB-SHP 0
CTI 0
RYR 6
GYR 10
RYB 9
GYB 5
GMM 0
BLK 15
PRE 1
DCT 0
DPI 0
VTC 2
HWI 2
DCO 0
HDT 0
SFO 1
CON 25
BRI 31
COL 31
HUE 31
SHP 31
FP
NP
SP
SC VOL
STB VOL
14
80
25
83
118
System
Aus/China
ACMS
TOP
A2MONO
TXT LAN
Language
2
0
1
0
0
6
6
0:BG/I/DK 1:BG/I/DK/L 2:BG/I/DK/M
0:CCIR BG/OIRT DK
1:Australia BB/China DK
0:
1:Channel Name Labeling
0:TOP=>SIMPLE
1:TOP
0:Sound treatment normally
1:Don’t recognize the Stereo(NICAM
treatment normally) => A part of AFRICA
0:E only,1:EU5,2:NON,3:China,4:Arabic
5:Parsi,6:All
(10) Option 2 Adj.mode • Select it directly by using Teletext Hold button.
8-2 OSD LANGUAGE( Select a one among Option in SVC Mode-Language item.)
8-3 TXT LANGUAGE( Select a one among Option in SVC Mode-TXT LAN item.)
- 11 -
Turbo
I/II save
Woofer
PIP Still
Vol Curve
PIP
0
1
0
0
1
0
0:NORMAL Search
1:Turbo Search not use
0:EU
1:NON EU
0:Without Woofer
1:With Woofer
0:Without PIP still
1:With PIP still
0:EU Curve
1:Non EU Curve
0:Without PIP
1:With PIP
0
1
2
3
4
5
6
E Only(English)
EU5(Enlish,German,French,Italian,Spanish)
NON 12
CHINA(English,Chinese)
ARAB(English,French,Arabic,Urdu)
PARSI(English,Parsi)
ALL(Enlish,Norwegian,Czech,German,Danish,Ru
ssian,French,Finish,Chinese,Italian,Portuguess,
Arabic,Spanish,Rumanian,Urdu,Dutch,Polish,
Persian,Swedish,Hungarian)
6
38
40
55
70
128
English,French,SWedish,Czech,German,
Spanish,Italian
Polish,French,SWedish,Czech,German,Spanish,
Italian,English
English(US),French,SWedish,Czech,German,
Spanish,Italian,English(TPU3050 US)
English,French,SWedish,Turkish,German,
Spanish,Italian,English(TPU3050 Turkish)
English(US),Slovakian,Hungarian,Serbian,
Albanian,Polish,Turkish,Rumanian
Polish,Cylrillic,Estonia,Estonia,Estonia,Estonia,
Estonia,Estonia(TPU3051)
128
129
129
130
130
131
131
132
English,French,French,French,French,French,
French,Arabic(TPU3052)
Polish,Cylrillic,SWedish,Czech,Estonia,Estonia,
Estonia,Estonia(TPU3051)
Hebrew,Hebrew,Hebrew,Hebrew,Hebrew,
Hebrew,Hebrew,Arabic(TPU3052)
English,French,SWedish,Turkish,German,
Spanish,Italian,Greek(TPU3051)
English,French,French,Turkish,French,French,
French,Italian(TPU3052)
English,Turkish,Turkish,Turkish,German,Turkish,
Turkish,Greek(TPU3051)
French,French,French,Turkish,French,French,
French,Italian(TPU3052)
English,French,French,French,French,French,
Arabic(TPU3052)
- 20 -
REPLACEMENT PARTS LIST(MONITOR)
LOCA. NO PART NO DESCRIPTION
D401
D402
D601
D602
D603
D604
D605
D606
LD001
LED002
LED003
IC006
IC007
Q001
Q001
Q002
Q002
Q020
Q021
Q102
Q103
Q104
Q105
Q106
Q107
Q108
Q109
Q110
Q111
Q201
Q202
Q301
Q302
Q303
Q601
Q603
C001
C002
C003
C008
C011
C016
C022
C026
C038
C045
C105
C107
C109
0DD226239AA
0DD226239AA
0DD226239AA
0DD184009AA
0DD184009AA
0DD184009AA
0DD184009AA
0DD184009AA
0DL200000CA
0DL112100AA
0DL112100AA
0TR830009BA
0TR830009BA
0TR319809AA
0TR387500AA
0TR319809AA
0TR387500AA
0TR387500AA
0TR387500AA
0TR387500AA
0TR387500AA
0TR387500AA
0TR387500AA
0TR387500AA
0TR387500AA
0TR387500AA
0TR387500AA
0TR387500AA
0TR387500AA
0TR150400BA
0TR150400BA
0TR150400BA
0TR150400BA
0TR150400BA
0TR150400BA
0TR150400BA
0CN1040K949
0CE476DD618
0CE108BF618
0CE108BF618
0CE108BF618
0CE108BF618
0CE107DF618
0CE107DF618
0CE107DF618
0CE107DF618
0CE107DF618
0CE107DF618
0CE476DF618
DIODE,SWITCHING CHIP KDS226 SOT-23
DIODE,SWITCHING CHIP KDS226 SOT-23
DIODE,SWITCHING CHIP KDS226 SOT-23
DIODE,SWITCHING KDS184S CHIP 85V 300MA KEC TP
DIODE,SWITCHING KDS184S CHIP 85V 300MA KEC TP
DIODE,SWITCHING KDS184S CHIP 85V 300MA KEC TP
DIODE,SWITCHING KDS184S CHIP 85V 300MA KEC TP
DIODE,SWITCHING KDS184S CHIP 85V 300MA KEC TP
LED,SAM5670(DL-2LRG) BK Y-GREEN -
LED,SR3411(DL-11S2RN1) BK RED -
LED,SR3411(DL-11S2RN1) BK RED -
TR,BSS83 TP PHILIPS NON N-CHANNEL
TR,BSS83 TP PHILIPS NON N-CHANNEL
TR,KTC3198-TP-Y (KTC1815)KEC
TR,CHIP 2SC3875S(ALY) KEC
TR,KTC3198-TP-Y (KTC1815)KEC
TR,CHIP 2SC3875S(ALY) KEC
TR,CHIP 2SC3875S(ALY) KEC
TR,CHIP 2SC3875S(ALY) KEC
TR,CHIP 2SC3875S(ALY) KEC
TR,CHIP 2SC3875S(ALY) KEC
TR,CHIP 2SC3875S(ALY) KEC
TR,CHIP 2SC3875S(ALY) KEC
TR,CHIP 2SC3875S(ALY) KEC
TR,CHIP 2SC3875S(ALY) KEC
TR,CHIP 2SC3875S(ALY) KEC
TR,CHIP 2SC3875S(ALY) KEC
TR,CHIP 2SC3875S(ALY) KEC
TR,CHIP 2SC3875S(ALY) KEC
TR,CHIP 2SA1504S(ASY) KEC
TR,CHIP 2SA1504S(ASY) KEC
TR,CHIP 2SA1504S(ASY) KEC
TR,CHIP 2SA1504S(ASY) KEC
TR,CHIP 2SA1504S(ASY) KEC
TR,CHIP 2SA1504S(ASY) KEC
TR,CHIP 2SA1504S(ASY) KEC
0.1M 50V Z F TA52
47UF STD 10V 20% FL TP 5
1000UF KME 16V M FL TP5
1000UF KME 16V M FL TP5
1000UF KME 16V M FL TP5
1000UF KME 16V M FL TP5
100UF STD 16V M FL TP5
100UF STD 16V M FL TP5
100UF STD 16V M FL TP5
100UF STD 16V M FL TP5
100UF STD 16V M FL TP5
100UF STD 16V M FL TP5
47UF STD 16V M FL TP5
LOCA. NO PART NO DESCRIPTION
IC001
IC002
IC003
IC004
IC005
IC101
IC102
IC201
IC202
IC203
IC204
IC301
IC302
IC303
IC304
IC401
IC402
IC403
IC404
IC406
IC407
IC501
IC502
IC503
IC504
IC601
IC602
IC604
D002
D003
D004
D005
D006
D009
D010
D011
D012
D013
D101
D102
D103
D104
D105
D106
D107
D201
D202
D301
D302
0IZZVA0025A
0IAL241600B
0IFA753307A
0IFA754207A
0IFA754207A
0IPH827150A
0IKE780500D
0ISH323422A
0ISH323422A
0IIT323000D
0ISM941000A
0ISH092100A
0ISH323422A
0ISO210100B
0ITI808300B
0IMR882840B
0IEB121616A
0IEB121616A
0ISH323422A
0ISH323422A
0ICTMMO002A
0IPH745410A
0IPH745410A
0IPH745410A
0IPH745410A
0ISH092100A
0ISO202200A
0ISA722200A
0DD226239AA
0DD226239AA
0DD226239AA
0DD226239AA
0DD226239AA
0DD226239AA
0DD226239AA
0DD226239AA
0DD226239AA
0DD226239AA
0DD226239AA
0DD226239AA
0DD226239AA
0DD226239AA
0DD226239AA
0DD226239AA
0DD226239AA
0DD226239AA
0DD226239AA
0DD226239AA
0DD226239AA
IC,CXP750010 64 BK MT-40PA10 VSC
IC,AT24C16-10PC 8D EEPROM 16K
IC,KA75330ZTA(KA7533ZTA) 3P,TO-92
IC,KA75420ZTA(KA7542ZTA) 3P,TO-92
IC,KA75420ZTA(KA7542ZTA) 3P,TO-92
IC,P82B715T 8SOP R/TP IIC EXTENDE
IC,KIA7805P(KIA78005AP),KEC
IC,PQ3RF23 4P(TO-220) 3.3V REGUL
IC,PQ3RF23 4P(TO-220) 3.3V REGUL
IC,VPC3230D QA B4 80P QFP TRAY SO
IC,SDA9410 100QFP BK SCAN CONVERT
IC,PQ09RF21 4P 9V S/W REGULATOR
IC,PQ3RF23 4P(TO-220) 3.3V REGUL
IC,CXA2101AQ 80P,QFP BK VIDEO SIG
IC,THS8083 100QFP BK ADC IC PD-40
IC,MX88L284-V 208QFP BK SCALE MF0
IC,M12L16161A-7T 50P TSOP ST 16M(
IC,M12L16161A-7T 50P TSOP ST 16M(
IC,PQ3RF23 4P(TO-220) 3.3V REGUL
IC,PQ3RF23 4P(TO-220) 3.3V REGUL
IC,SC786106DWR2 MOTOROLA 16P SOIC
IC,74F541 20P SOT BK BUFFER MXIC
IC,74F541 20P SOT BK BUFFER MXIC
IC,74F541 20P SOT BK BUFFER MXIC
IC,74F541 20P SOT BK BUFFER MXIC
IC,PQ09RF21 4P 9V S/W REGULATOR
IC,CXA2022S 30P SDIP ST TONE CONT
IC,LA7222 (1280 AUDIO)
DIODE,SWITCHING CHIP KDS226 SOT-23
DIODE,SWITCHING CHIP KDS226 SOT-23
DIODE,SWITCHING CHIP KDS226 SOT-23
DIODE,SWITCHING CHIP KDS226 SOT-23
DIODE,SWITCHING CHIP KDS226 SOT-23
DIODE,SWITCHING CHIP KDS226 SOT-23
DIODE,SWITCHING CHIP KDS226 SOT-23
DIODE,SWITCHING CHIP KDS226 SOT-23
DIODE,SWITCHING CHIP KDS226 SOT-23
DIODE,SWITCHING CHIP KDS226 SOT-23
DIODE,SWITCHING CHIP KDS226 SOT-23
DIODE,SWITCHING CHIP KDS226 SOT-23
DIODE,SWITCHING CHIP KDS226 SOT-23
DIODE,SWITCHING CHIP KDS226 SOT-23
DIODE,SWITCHING CHIP KDS226 SOT-23
DIODE,SWITCHING CHIP KDS226 SOT-23
DIODE,SWITCHING CHIP KDS226 SOT-23
DIODE,SWITCHING CHIP KDS226 SOT-23
DIODE,SWITCHING CHIP KDS226 SOT-23
DIODE,SWITCHING CHIP KDS226 SOT-23
DIODE,SWITCHING CHIP KDS226 SOT-23
IC
TRANSISTOR
DIODE
CAPACITOR
- 21 -
LOCA. NO PART NO DESCRIPTION
C111
C112
C115
C118
C124
C201
C203
C206
C207
C212
C225
C229
C231
C233
C235
C238
C240
C241
C242
C243
C244
C245
C279
C306
C318
C325
C326
C330
C338
C340
C343
C347
C349
C351
C353
C355
C357
C360
C401
C412
C414
C415
C418
C420
C424
C433
C445
C453
C457
C470
C502
C601
0CE476DF618
0CE476DF618
0CE476DF618
0CE476DF618
0CQ3331N509
0CE107DF618
0CE107DF618
0CE107DF618
0CE107DF618
0CK224DF56A
0CE107DF618
0CE476DF618
0CE107DF618
0CE107DF618
0CE476DF618
0CE107DF618
0CE107DF618
0CE107DF618
0CE107DF618
0CE107DF618
0CE107DF618
0CE107DF618
0CE476DF618
0CE476DF618
0CE105DK618
0CE107DF618
0CE477DF618
0CE476DF618
0CE106DF618
0CE106DF618
0CE476DF618
0CE107DF618
0CE107DF618
0CE477DD618
0CE106SF6DC
0CE106SF6DC
0CE107DF618
0CE107DF618
0CE107DF618
0CE476DF618
0CE107DF618
0CE107DF618
0CE477DD618
0CE107DF618
0CE107DF618
0CE107DF618
0CE107DF618
0CE107DF618
0CE477DD618
0CE107DF618
0CE107DF618
0CE106DF618
47UF STD 16V M FL TP5
47UF STD 16V M FL TP5
47UF STD 16V M FL TP5
47UF STD 16V M FL TP5
0.033U 100V K POLY TP
100UF STD 16V M FL TP5
100UF STD 16V M FL TP5
100UF STD 16V M FL TP5
100UF STD 16V M FL TP5
220000PF 2012 16V 10% R/TP X7R
100UF STD 16V M FL TP5
47UF STD 16V M FL TP5
100UF STD 16V M FL TP5
100UF STD 16V M FL TP5
47UF STD 16V M FL TP5
100UF STD 16V M FL TP5
100UF STD 16V M FL TP5
100UF STD 16V M FL TP5
100UF STD 16V M FL TP5
100UF STD 16V M FL TP5
100UF STD 16V M FL TP5
100UF STD 16V M FL TP5
47UF STD 16V M FL TP5
47UF STD 16V M FL TP5
1UF STD 50V M FL TP5
100UF STD 16V M FL TP5
470UF STD 16V 20% FL TP 5
47UF STD 16V M FL TP5
10UF STD 16V M FL TP5
10UF STD 16V M FL TP5
47UF STD 16V M FL TP5
100UF STD 16V M FL TP5
100UF STD 16V M FL TP5
470UF STD 10V M FL TP5
10UF MVG 16V 20% R/TP(SMD) SMD
10UF MVG 16V 20% R/TP(SMD) SMD
100UF STD 16V M FL TP5
100UF STD 16V M FL TP5
100UF STD 16V M FL TP5
47UF STD 16V M FL TP5
100UF STD 16V M FL TP5
100UF STD 16V M FL TP5
470UF STD 10V M FL TP5
100UF STD 16V M FL TP5
100UF STD 16V M FL TP5
100UF STD 16V M FL TP5
100UF STD 16V M FL TP5
100UF STD 16V M FL TP5
470UF STD 10V M FL TP5
100UF STD 16V M FL TP5
100UF STD 16V M FL TP5
10UF STD 16V M FL TP5
LOCA. NO PART NO DESCRIPTION
C602
C603
C604
C605
C606
C607
C608
C609
C610
C611
C612
C613
C614
C615
C616
C617
C618
C619
C620
C621
C622
C623
C624
C625
C626
C630
C631
C634
C635
C641
C643
C644
C645
C646
C647
C650
C651
C653
C654
C655
C656
C659
C660
C660
C663
C664
C665
JP1
P101
P102
0CE106DF618
0CE104DK618
0CQ4721N519
0CE475DK618
0CE475DK618
0CE475DK618
0CE475DK618
0CE475DK618
0CE106DF618
0CQ4721N519
0CE106DF618
0CE104DK618
0CE475DK618
0CE104DK618
0CQ2231N509
0CQ4721N519
0CQ8221N519
0CE106DF618
0CE475DK618
0CQ8221N519
0CQ1041N509
0CE476DK618
0CQ4721N519
0CE104DK618
0CE107DF618
0CE108BF618
0CE106DK618
0CE107DF618
181-007T
0CE106DK618
0CE477DK618
0CE477DK618
0CE106DF618
0CE106DF618
0CE476DK618
0CE106DF618
0CE106DF618
0CE477DK618
0CE477DK618
0CE477DK618
0CE477DK618
181-120K
0CE107DF618
181-120K
0CE107BH618
0CE107BH618
0CE107BH618
6612VLH002A
380-389N
380-389P
10UF STD 16V M FL TP5
0.1000UF STD 50V M FL TP5
0.0047U 100V K POLY NI TP
4.7UF STD 50V 20% FL TP 5
4.7UF STD 50V 20% FL TP 5
4.7UF STD 50V 20% FL TP 5
4.7UF STD 50V 20% FL TP 5
4.7UF STD 50V 20% FL TP 5
10UF STD 16V M FL TP5
0.0047U 100V K POLY NI TP
10UF STD 16V M FL TP5
0.1000UF STD 50V M FL TP5
4.7UF STD 50V 20% FL TP 5
0.1000UF STD 50V M FL TP5
0.022U 100V K POLY TP
0.0047U 100V K POLY NI TP
0.0082U 100V K POLY NI TP
10UF STD 16V M FL TP5
4.7UF STD 50V 20% FL TP 5
0.0082U 100V K POLY NI TP
0.1U 100V K POLY TP
47UF STD 50V M FL TP5
0.0047U 100V K POLY NI TP
0.1000UF STD 50V M FL TP5
100UF STD 16V M FL TP5
1000UF KME 16V M FL TP5
10UF STD 50V M FL TP5
100UF STD 16V M FL TP5
MPE ECQ-V1H105JL3(TR), 50V 1.0
10UF STD 50V M FL TP5
470UF STD 50V 20% FL TP 5
470UF STD 50V 20% FL TP 5
10UF STD 16V M FL TP5
10UF STD 16V M FL TP5
47UF STD 50V M FL TP5
10UF STD 16V M FL TP5
10UF STD 16V M FL TP5
470UF STD 50V 20% FL TP 5
470UF STD 50V 20% FL TP 5
470UF STD 50V 20% FL TP 5
470UF STD 50V 20% FL TP 5
2200PF 4KV M E FMTW LEAD 4.5
100UF STD 16V M FL TP5
2200PF 4KV M E FMTW LEAD 4.5
100UF KME 25V M FL TP5
100UF KME 25V M FL TP5
100UF KME 25V M FL TP5
JACK,RCA,SP026B 4P RD/BK/BK/R
JACK,RCA,S-456S-N A/V 3P RD-W
JACK,RCA,S-456S-P A/V 3P GR-B
For Capacitor & Resistors,the charactors at 2nd and 3rddigit in the P/No. means asfollows;