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DAEWOO
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S14F8T1
Service manual & schematics
116 pgs3.35 Mb0
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DAEWOO DVT14F6DA, DVT14F6FA, DVT14F6HA, DVT14F6LA, DVT14F6PA Service manual & schematics

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TABLE OF CONTENTS
1. SPECIFICATIONS.................. ........ ........ ........ ....... ................................ ........ ........ ....... ....................... 1
2. SAFETY INSTRUCTION................. ........ ........ ....... ................................ ........ ........ ....... ........ ............... 3
3. BLOCK DIAGRAM.......................... ........ ........ ............................... ........ ........ ........ ....... ....................... 4
4. ALIGNMENT INSTRUCTIONS...................................... ........ ........ ........ ........ ............................... . ...... 7
5. SERVICE REMOCON DIAGRAM........................................................................................................ 11
7. CIRCUIT DESCRIPTION....................................................... ........ ........ ........ ........ .............................. 40
8. VOLTAGE CHARTS.............................................. ........ ........ ........ ........ ............................... ............... 48
9. PRINTED CIRCUIT BOARDS.............................................................................................................. 52
10. TROUBLE SHOOTING CHARTS...................................................................................................... 54
11. ELECTRICAL PARTS LIST............................................................................................................... 69
12. THE DIFFERENT PARTS FOR SIZE ................................................................................................ 101
13. THE DIFERENT PARTS FOR SYSTEM...................................... ........ ........ ........ .............................. 1 03
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1. SPECIFICATION S

1-1. TV PART
TV STANDARD PAL B/G (F. FA MODEL), PAL BIG SECAM -L(L. LA MODEL)
PAL I (P.PA MODEL) PAL/SECAM B/G D/K (D. DA MO DEL)
SCREE N SIZE 14" : 34cm (A34JLL90X)
20" : 48cm (A48JLL90X)
21” : 51cm (A51EAL55X01) MAIN VO LTAG E 230V AC 50Hz, 110~250V AC 50Hz(DA MOD EL) POWER
CONSUMPTION
SOUN D O U TP UT 1.5 Watts ( at 60% mod. , 10% THD ) SPEAKER 3 Watts 16 Ohm ANTENNA
IMPEDANCE TUNING SYSTEM FS ( FREQUENCY SYNTHESIS ) TUNING RECEPTIO N
CHANNEL UNIT
MEMORY CHANNEL 70 PROGRAMS AUX. TERMINAL RCA TYPE AV INPUT JACK
REMOTE CONTROLLER
TELETEXT 8page mem ory TOP and FLO F
STAND BY MODE : BELOW 3 Watts
OPE RATION MO D E : 14" = 68 Watts
20" = 7 8 Wa t ts
21” = 8 8 Wa tts
75 Ohm unbalanced input
VHF-L : E2 - S7
VHF-H : S8 - S36
UH F : S37 - E6 9
HEADPHO NE JACK ( 3.5mm
R-35 w ith 2 "AA " type batteries
- West option : Germ an/Deutch/Flem ish,French,Italian,
Spanish/Portuguese,Swedish/Finnish/Danish,C zech/Slovak
-East option : Polish,Czech/Slovak,Rumanian,Hungarian,Servocroat
Ge rm a n/De u tch/Flemish ,Fren ch ,Italian
-Turkish option : Turkish,English,German/Deutch/Flemish,French,
Italian,Spanish/Portuguese,Swedish/Finnish/Danish
-Cyrillic option : Russian,Lettish/Lithuanian,Estonian,Ukranian,
Czech/Slovak,Servocroat,English
)
OTHER FEATURE ON SCREEN DISPLAY,SLEEP TIMER,ON/OFF TIMER
AU TO TU N ING
CHILD LOCK
TELETEXT
PICTURE TYPE SELECTION
2-TUNER,TV/AV WEIGH T 14” : 13.8kg(set)
20” : 23.6kg(set)
21” : 26.2kg(set)
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1-2. VCR PART
GENER AL temperature
format standard tape width 12.65 mm tape speed SP : 23.39m m /sec
max. r e co r din g time w i th fu llsiz e c as se tte
AUDIO recording system longitudinal track
input -3.8dBm(500mVrms), more than 47Kohms, unbalanced. output -3.8dBm(500mVrms),less than 1Kohm, unbalanced frequency range 100Hz to 8KHz signal to noise ratio 40dB(more than)
VIDEO signal system PAL/S E C AM colour and CCIR m ono chrome signals,
recording system R otary 2-head herical scan with a slant double azim uth
5
~ 35(operating)
-20
~ 60 (storage temperature)
LP : 11.70mm/sec SP : 240min. with E-240 video cassette
LP : 480min. with E-240 video cassette
625lines/50fields.
combination video head. input 1Vp-p, 75 ohms, unbalanced output 1Vp-p, 75 ohms, unbalanced signal to noise ratio 45dB with NETTETE IMAGE control at center position. horizontal resolution 240 lines with NETTETE IMAGE control at center position
* Design and specifications can be subjected to change without notice.
CHANNEL COVERAGE
SYSTEM PAL,SECAM-B/G
PAL-I/I PAL,SECM-B/G ,DK HYPER BAND
CHANNEL VHF ch 2 - 12
UHF ch 21 - 69 CATV ch X,Y,Z,S1-S41
PAL,SECM-B/G HYPER BAND
VHF ch 2 - 12 UHF ch 21 - 69 CATV ch X,Y,Z,S1-S41
PAL-I OAK-B/H
UHF ch21 -69 VHF LOW ch 1A- 5
VHF HIGH ch 5A-N11 UHF ch 21 - 69
IN/OUTPUT JACK TYPE
MODEL EUROPE MIDDLE EAST,ASIA,CIS AUSTRALIA JACK TYPE SCART TPYE & RCA TYPE RCA TYPE
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2. SAFETY INSTRUCTION

WARNING
BEFORE SERVICING THIS CHASSIS, READ THE “X-RAY RADIATION PRECAUTION”, “SAFETY PRECAUTION” AND “PRODUCT SAFETY NOTI CE” BELOW.
2-1. X-RAY RADIATION PRECAUTION
1. Excessive high voltage can produce potentially hazardous X-RAY RAD IATION.To avoid such hazards, the high voltage must not exceed the specified limit. The nom inal value of the high voltage of this receiver is 22-23kv(14”), 25-26kv(20”, 21”) at max beam current. The high voltage must not, under any circum stances, exceed 27.5kv (14", 20”), 29.0kv(21”). Each tim e a receiver requires servicing, the high voltage should be checked. It is recomm ended the reading of the high voltage recorded as a part of the service records. it is im portant to use an accurate and reliable high voltage meter.
2. The only source of X-RAY R adiation in this TV receiver is the picture tube. For continuous RAD IATION protection, the replacem ent tube must be exactly the same type tube as specified in the parts list.
2-2. SAFETY PRECAUTION
1. Potentials of high voltage are present when this receiver is operating. Operation of the receiver outside the cabinet or with the back cover removed involves a shock hazard from the receiver.
1) Servicing should not be attempted by anyone who is not thoroughly familiar with the precautions
necessary when working on highvoltage equipm ent.
2) Always discharge the picture tube to avoid the shock hazard before removing the anode cap.
3) Discharge the high potential of the picture tube before handling the tube. The picture tube is highly
evacuated and if broken, glass fragm ents will b e v io le n tly e x p e lle d .
2. If any Fuse in this TV receiver is blown, replace it with the FUSE specified in the Replacement Parts List.
3. W hen replacing a high wattage resistor(oxide m etal film resistor) in circuit board, keep the re sistor 10mm away from circuit board.
4. Keep wires away from high voltage or high temperature components.
5. This receiver must operate under AC 260 volts, 50Hz/60Hz. (AC 100~250 volts, 50/60Hz)NEV ER connect to DC supply or any other power or frequency.
2-3. PRODUCT SAFETY NOTICE
Many electrical and mechanical parts in this chassis have special safety-related characteristics. These characteristics are often passed unnoticed by a visual inspection and the X-RAY RA DIATION protection afforded by them cannot necessarily be obtained by using replacem ent components rated for higher voltage, wattage, etc. Replacement parts which have these special safety characteristics are identified in this manual and its supplements, electrical components having such features are identified by designated symbol on the parts list. B efore replacing any of these components, read the parts list in this manual carefully. The use of substitute replacem ent parts which do not have the same safety characteristics as specified in the parts list may created X -RAY Radiation.
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3. BLOCK DIAGRAM

3-1. Audio Signal Flow
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3-2. Video Signal Flow
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3-3. TV and monitor power switching
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4. ALIG NMENT INSTRUC TIONS

4-1. MAIN TUNER AFT
1. STAN DARD B/G
1) Set a signal generator with
- RF FRE Q UE N C Y = 38.9 MH z
- RF OUTP UT LEVE L = 80
2) Connect the signal generator RF output to TP1 ( TUNER IF OU TP UT )
There must be no signal input to the TU N ER .
3) Press the "VCO" KEY and w ait until the TV screen display "AFT OK"
4-2. SUB TUNER AFT
1. STAN DARD B/G
1) Set a signal generator with
- RF FRE Q UE N C Y = 38.9 MH z
- RF OUTP UT LEVE L = 80
2) Connect the signal generator RF output to TP2 ( TUNER IF OU TP UT )
3) Connect the DC voltage meter to TP3.
4) Adjust L201 ( AFT CO IL ) for 2.2V
5 dBuV
5 dBuV
0.1V.
4-3. MAIN TUNER AGC
1) Set a P attern Generator with RF level 60 2 dBuV, 210.25 M Hz.
2) Connect a O SC ILLOSC O PE P R O BE to P101 ( TUNER AG C INPU T ).
3) Adjust AGC U P /DOWN K EY the voltage drop about 1.8V D C over below it's m aximum voltage.
4-4. SUB TUNER AGC
1) Set a P attern Generator with RF level 60 2 dBuV, 210.25 M Hz.
2) Connect a O SC ILLOSC O PE P R O BE to P101 ( TUNER AG C INPU T ).
3) Press the "SUB AG C" KE Y and m onitoring the SUB TUN E R P ICTUR E .
4) Adjust R202 ( SUB AG C VR ) the voltage drop about 1.8V D C over below it's m axim um voltage.
4-5. SCREEN
1) Apply a CO LO R B AR PATTERN SIGNA L.
2) Press the "SCREE N " KEY .
3) Connect a O SC ILLOSC O PE P R O BE to P906 ( CRT CATHO D E R ,G,B )
4) Adjust the screen volume on FB T such that the highest black level voltage 130
5Vdc .
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4-6. WHITE BALANCE
1) Apply a CO LO R B AR PATTERN SIGNA L.
2) Adjust the R,G,B UP/DOW N K EY of the other color w hich did not appear on the screen to obtain W H ITE.
4-7. FOCUS
1) Apply a RE TM A PATTERN S IGNAL.
2) Adjust the FOCU S V O LUME on FBT to obtain optimal resolution.
4-8. GEOMETRY
1. S-CORREC TION
1) Apply a CROSSHATCH PATTERN SIGNAL.
2) Adjust the S -COR R U P /DOWN K EY obtain
the same distance betw een horizontal lines.
2. VERTICAL SLOPE
1) Apply a RE TM A PATTERN S IGNAL.
2) Pressing the V -SLOP E +/- KEY,the
lower half of the screen is blanked.
2) Adjust the border line of blanked picture
coincident with the center marks of the pattern using the V -SLOPE + /- KEY.
3. VERTICAL CENTER
1) Apply a RE TM A PATTERN S IGNAL.
2) Adjust the center line of pattern coincident
with the mechanical center m arks of the CRT using the V-CEN TE R +/- KE Y.
4. VERTICAL SIZE
The V-CENTE R adjustment has to be
done in advance.
1) Apply a RE TM A PATTERN S IGNAL.
2) Adjust the upperside of the pattern coincident
with the mechanical center m arks of the CRT using the V-SIZE +/- KE Y.
5. HORIZONTAL CENTER
1) Apply a RE TM A PATTERN S IGNAL.
2) Adjust picture centering with H-CEN TE R +/- KE Y.
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4-9. ADJUSTMENT
1. X-POSITION AND P2,P3 ADJUSTMENT
1) Adjust point : X-POSITION
C h e c k in g p o in t : o sc illo s c ope ch1 = H /SW (PY04 #6) o sc illo s c ope ch2 = PB ENVE (PY04 #4) Triggering : CH1 M easuring E quipment : oscilloscope, path jig M ode : PLAYBACK,ATK OFF Test tape : DP -2 (6KH z)
CONNECTION METHODE
Adjustment Procedure
PY04
4
6
P601
3 2 1
ADJUST JIG
CH2 CH1
CH1
GND
OSCILLOSCOPE 1
OSCILLOSCOPE 2
1) Connect the PATH JIG to PY04 after Test tape PLAYBA C K
2) Pressing the "ATK OFF" KEY.
3) Insert the DP -2 TAPE . ( Auto playback)
3) Adjust the waveform of PB EN V E to maximum(figure1) using X -position V R.
4) Adjust IN /OUT PU T G U IDE until the exact waveform appear as bellow figure2.
max. (figure 1) (figure 2)
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2. AUTO PG ADJUSTMENT
1) After adjustm ent of 9-1. Press the " RE C." button.
2) Eject the Test tape.
3. AZIMUTH ADJUSTMENT
1) Adjust point : AZIM U TH S CR E W
Checking point : SOUND OUTPUT (P601) M easuring E quipment : oscilloscope or audio level m eter. M ode : PLAYBACK Test tape : DP -2 (6KH z)
Adjustment Procedure
1) Connect the measuring equipment to the AUD IO O U TP UT (P601) terminal.
2) After test tape playback, adjust the output level maximally by varing the azim uth screw.
( 6K
-3.8m +1m/-3m )
3) Fix the azim uth screw with locking paint.
If EEPRO M ( I703 ) has been changed :
- Option data has to be changed and
- all alignment function has to be readjusted.
SECAM-L AFT
1. MAIN TUNER AFT
1.1 STANDARD SECAM-L
1) Set a signal generator with
- RF FREQUENCY = 34.5 MHz
- RF O U T P U T L E VEL = 8 0
5 dBuV
2) Connect the signal generator RF output to TP1 ( TUNE R IF OU TPU T )
There must be no signal input to the TU N ER .
3) Press the "VCO -L" K EY and wait until the TV screen display "AFT-L OK"
2. SUB TUNER AFT
2.1 STANDARD SECAM-L
1) Select the P R. of received SE CA M -L
2) Set a signal generator with
- RF FREQUENCY = 34.2 MHz
- RF O U T P U T L E VEL = 8 0
5 dBuV
3) Connect the signal generator RF output to TP2 ( TUNE R IF OU TPU T )
4) Connect the DC voltage meter to TP3.
5) Adjust R240 ( AFT VR ) for 2.2V
0.1V.
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5. SERVICE REMOCON DIAGRAM

5-1. HOW TO CHECK TV SECTION WITHOUT VCR DECK
IF YOU WANT TO CHECK TV SECTION WITHOUT DECK MECHANISM, THEN PLEASE PERFORM IN THIS ORDER.
1. PULL OUT THE POWER CORD.
2. REMOVE THE VCR DECK MECHANISM.
3. SUPPLY THE MAIN POWER. (MAIN SW ON)
4. WAIT FOR ABOUT 10 SECONDS. (YO U CAN SEE THE LIGHT OF POWER LED IF THE TV IS NORM AL)
5. TURN ON THE TV USING THE REMOCON.(YOU CAN SEE THE OSD ‘EMERGENCY’)
6. CHECK THE TV SECTION.
5-2. REMOCON
5th 4th
3rd 2nd
1st
RGB
+
1
S-CORR
-
456
V-CEN
+
7
H-CEN
REC ATK OFF SUB AGC
-
+
AGC
-
AFT
AFT-L
SCREEN
+++
---
3
2
+++
V-SIZE V-SLOP
---
8
9
0
LANGUAGE
To Enter The " SERVICE MODE " Press blue, yellow, green, red power buttons in regular sequency within five seconds using USER REMOCON aft er s etin g TV/VC R off.
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5-3. REFER TO GENE RA L ADJUST ME NT
1. S-CORR +/- ( S-CORRECTION )
Press this button to adjust the same distance betwe en h orizontal lines on screen of crosshatch pattern.
2. H-CENTER +/- ( HORIZONTAL CENTER )
Press this button to adjust picture centering with H-center on screen of RETM A pattern.
3. V-CENTER +/- ( VERTICAL CENTER )
Press this button to adjust the center line of the pattern coincident w ith the mechanical center m arks of the CRT on screen of RET M A pattern.
4. V-SIZE +/- ( VERTICAL SIZE )
Press this button to adjust the upperside of the pattern coincident with the mechanical center marks of the CRT on screen of RE TM A pattern.
5. V-SLOPE +/- ( VERTICAL SLOPE )
Press this button to adjust the border line of blanked picture coincident w ith the center m arks of the pattern.
6. R,G,B +/- ( WHITE BALANCE )
The screen is becom e WH ITE adjusted R,G,B level by this button.
7. ATK OFF ( Auto tracking off )
Press this button to adjust X-PATH adjustment. FRO NT panel's LED s are lighted up if you press this button. ( without TAPE )
8. SUB AGC
Press this button to adjust SU B TUN ER AGC Adjustm ent. Press once : picture is displayed colour pattern. Press tw ice : picture is displayed black/white pattern.
9. REC
Press this pattern to adjust AUTO P G Adjustment.
10. LANGUAG E
Press this button to adjust LANG UA G E SELEC TION.
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11. SCREEN
Press this button to adjust the screen volum e on FB T.
12. AGC +/-
Press this button to adjust M AIN TUNE R AG C.
13. AFT
Press this button to adjust VCO.
14. AFT-L
Press this button to adjust VCO -L. ( only use the SECAM -L model. )
15. POWER
Press this button to turn your TV/VCR on or off.
If you forget your " child lock secret N o. " 1 . En te r t h e " SERVIC E MO DE. " ¢ †
2. POW ER OFF/ON
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6. IC DESCRIPTION

6-1. SDA5255 ( Micro controller & T eletext Decoder )
1. General de scri pti on
The TDA 5255 contains a slicer for V PS and T TX, an accelerating acquisition hardware module, a display generator for "LEVEL1"TTX data and a 8bit u-controller running at 333nsec cycle time. The controller with dedicated hardw are guarantees flexibility, does most of the internal processing of TTX acquisition, transfers data to/from the external memory interface and receives/transmits data via IIC and UA RT user interfaces. The Slicer combined with dedicated hardware stores TTX data in a VB I 1Kbyte buffer. The u-controller firmw are does the total acquisition task (hamm ing and parity checks, page search and evaluation of header control bits) once per field.
2. Feature
Acquisition :
- feature selection via special function register
- simultaneous reception of TTX and VPS
- Fixed framing code for TTX and VPS
- Programm able framing code window for TTX
- Acquisition during VBI
- Direct access to VBI RAM buffer
- Acquisition of packets x26,x27,8/30 (firm ware)
- Assistance of all relevant checks (firmw are)
- 1-bit framing-code error torelance (switchable)
Display
- Feature selectable via special function register
- 50/60Hz display
- Level 1 serial attribute display pages
- blanking and contrast reduction output
- 8 direct addressable display pages
- 12 x 10 character m atrix
- 96 character R O M (standard 90 character set)
- 143 national option characters for 11 languages
- 288 characters for x26 display
- 64 block mosaic graphic characters
- 32 free addressable characters for OS D in expanded character RO M +32 inside OS D box
- double height (TOP/BOT TOM )
- conceal/reveal
- transparent foreground/background inside/outside of a box
- cursor (colour changes from foreground to background colour)
- flash (flash ra te 1 s)
- programmable horizontal and vertical sync delay
- hardware assisted fast display page erase
- full screen background colour in outer screen
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Synchronization
display synchronization to sandcastle or horizontal sync and vertical sync with start/stop oscilla tor o r disp lay synchronization to HS/VS with external clock independent clock systems for acquisition, display and controller.
Controlle
r
- 8bit configuration
in ternal clock
- 18
- 0.33
instruction cycle
- eight 16bit data pointer registers (DPTR)
- two 16bit tim ers
- watchdog tim er
- se rial interfa c e (U AR T )
- 1Kbyte on chip extended RAM (access via MO VX)
- 8Kbyte on chip ACQ buffer RAM (access via MO VX)
- 6channel 8bit PWM unit
- 2channel 14bit PWM unit
- 4multiplexed AD C inputs with 8bit resolution
- one 8bit I/O port with open drain output and optional IIC emulation
- two 8bit multifunctional I/Oports
- one 4bit port working as digital or analog inputs
- one 2bit I/O port with optional address latch enable function
P-SDIP 52 package
5V supply voltage
3. BLOCK DIAGRAM
WATCHDOG
PWM
C500 CPU
ADC
ROM 32KB
TTX VPS SLICER
EXTENDED RAM 1KBYTE
ACK
DISPLAY TIMING
CHAR.ROM 448*12*10
DUAL PORT INTERFACE
VBI BUFFER 1KB
DISPLAY GEN.
DUAL PORT INTERFACE
DISPLAY PAGE 8KB
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4. Pin description
PIN NAME SYMBOL DESCRIPTION
1 P3.1 SYS SECAM -L OUT for switching M AINSAW filter L9461
- SECAM-L' : H
- SECAM-L : L
2 P0.7/OP EN D RA IN SYS SECAM -L OU T for switching SUB SAW filter L9461
- SECAM-L' : H
- SECAM-L : L 3 P0 .6/OPEN DRAIN SDA SE RIAL DATA IN/OUT fo r I IC 4 P0.5/OPEN DRAIN SCL SERIAL CLOCK for IIC 5 P 0 .4 /OPE N D R AIN O P T IO N TVCR : L , MVP : H 6 P0 .3/OPEN DRAIN O PT ION B G : L, SE CAM : H 7 P0.2/OPEN DRAIN TUN-CLK TUNER CLOCK 8 P0.1/OP EN DRAIN TUN-DATA TUNER DATA 9 P0.0/OPEN DRAIN OPTION 2HD :L, 4HD:H
10 VSS VSS GROUND 11 VCC VCC POWER SUPPLY 12 X-TAL1 OSC IN input to inverting osc. amplifer 13 X-TAL2 OSC OUT output to inverting osc. amplifer 14 P4 .0 /A L E 15 RESET RST RESET IN(ACTIVE LOW ) 16 P1.7/14BIT PWM CANAL+ CANAL CH RECORD : H 17 P1.7/14BIT PWM 4-STATE TV/AV,AM/FM 18 P1.7/14BIT PWM 2-STATE TV-AM/FM 19 P1.7 /14BIT PWM S / SW SLOW S W IDEN T IN f or Au toma ti c
switching between TV/AV mode
- H : AV/RGB MO DE
- L : TV MO DE
20 P1.7/14BIT PWM MU TE SPK MUTE : H 21 P1.7/14BIT PW M GND GND 22 P1.7/14BIT PW M F/SW FAST SW IDENT IN for stopping OSD
display in RGB mode
- H : TV /A V MODE
- L : RGB MODE
23 P1.7/14BIT PW M OPTION 2 TUN ER : L, 1 TUNE R : H 24 VSSA VSSA Analog GND for slicer 25 FIL3 FIL3 P LL LO O P Filter I/O for Phase Shifting. 26 FIL2 FIL2 P LL LO O P Filter I/O for TTX Slicing. 27 FIL1 FIL1 P LL LOOP Filter I/O for VPS Slicing.
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PIN NAME SYMBOL DESCRIPTION
28 VCC A VCCA Analog Supply for Slicer 29 IREF IREF R eference current for slicer P LLs 30 CVBS CVBS CVBS INPUT
31 P2.3/8bit ADC AFT2 AFT INPUT for SUB TUNER 32 P2.3/8bit ADC AGC AGC INPUT for ATS SORTING 33 P2.3/8bit ADC KEY1 KEY MATRIX INPUT 34 P2.3/8bit ADC KEY2 KEY MATRIX INPUT 35 VSS VSS GROUND 36 P3 .3 /I N T 1 IR IN PU T RE MOCO N IR IN PUT 37 VDD VDD POW ER SUPPLY 38 LCIN OS C IN C LOC K IN for OSD 39 LCOUT OSC OUT CLOCK OUT for OSD 40 P3.7/TXT/I/O S/S DATA SYSCON SE RIAL DATA INPUT 41 P3.7/RXD S/S CLK SYSCO N SE RIAL CLOCK 42 P3.4T1 P.DET P OWER DETECTOR : L 43 P3.4T0 MO N ON L TV MONITOR ON : L 44 P3.2INT0 S/S DATA SYSCON SE R IAL DATA OUTPUT 45 HS/SC H/SYNC H SYNC IN (Active H) 46 P4.7/VS V/SYNC V SYNC IN (Active H) 47 R R RED OUT 48 G G GREEN OUT 49 B B BLUE OUT 50 BLANK BL BLANKING OUT 51 CO R COR CONTRAST REDUCTION OUT 52 P3.0 EVEN/ODD EVEN /ODD OUT for non-interacing in TTX mode
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6-2. CAT24C08P (EEPROM)
1. Typical feature
IIC BUS co mp a tib le Low pow er CM O S technology 16Byte page write buffer Self timed w rite cycle with auto clear 100,000 program/erase cycles 100 year data retention Optional high endurance device available
2. Descripti on
The CAT24C08P is a 8Kbit serial CM OS EEPRO M internally organized as 1024x8bits. The CAT24C08P features a 16byte page write buffer.
3. Block Diag ram
EXTERNAL
VCC
VGG
START/S TOP
SDA
TEST
SEL AO A1 A2
➪ ➪ ➪
LOGIC
CONTROL LOGIC
STATE COU NTERS SLAVE ADDRESS COMPARATIRS
4. Pin Descri ption
PIN SYMBOL DESCRIPTION
1-3 A0,A1,A2 Device address input
D OUT AKC
WORD ADDRESS BUFFER
XDEC
SENSE AMPS SHIFT REGISTERS
COLUM N DECODERS
64
HIGH VOLTAGE/ TIMING CONTROL
EEPROM 64X128
DATA IN STORAGE
4 VS S Ground 5 S DA Serial data/address 6 S CL Serial clock 7 TEST Connect to VSS 8 VCC +5V POWER SU PPLY
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6-3. TDA8374A( Single chip TV Processor for Negative modulation IF )
1. General D escription
The TDA 8374A is IIC B US controlled single chip TV processors which are intended to be applied in PAL/NTSC television receiver. TDA 8374N3 : With positive and negative m odulation
A pplie d i n PAL /SECA M/NTSC T V.
2. Feature
IF
- Vision IF amplifier with high sensitivity and good figures for differential phase and again.
- PLL demodulator with high linearity offering the possibility for (single standard) intercarrier stereo audio application.
- Alignment PLL via IIC
VIDEO
- Integrated luminance delay line
- Integrated chroma trap and bandpass filters (auto calibrated)
- Asymm etrical peaking circuit in the luminance channel.
- Black stretching of non standard CVBS or luminance signals.
COLOUR
- SECA M interface for application w ith SEC AM add-on TDA8395.
RGB
- RGB control (brightness,contrast,saturation.
- Black current stabilization and white point adjustment.
INPUT/OUTPUT
- Flexible video source select with CVBS input for the internal signal and tw o external video inputs (one switchable for CVBS or Y/C)
- The output signal of the video source select is externally available(also as CVBS when Y/C input is used.)
- External audio input
- Linear RGB input with fast blanking.
SYNCHRONIZATION AND DEFLECTION
- Horizontal synchronization with two control loops and alignment free horizontal oscillator.
- Slow start and slow stop of the horizontal drive output to enable low stress start-up and switch-off from the line circuit at nominal line supply voltage.
- Vertical count dow n circuit for stable behavior with provisions for non standard signals.
- Vertical geometry control
- Vertical drive optim ized for DC coupled vertical output stages.
CONTROL
- Full IIC B US control, as w ell for customer controls as for factory alignment.
- All automatic controls have an option for forced mode.
POWER CONSUMPTION
- Low pow er consum ption (900m W at 8.0Volts).
PACKAGING
- SD IL-56 ( Shrinked Dual In Line, 56pins )
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3. Block Diagram
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4. Pin Descri ption
NO NAME DESCRIPTION
1 SOUND IF INPUT SIF I NPUT 2 EXT AUDIO IN PUT EXTERNAL AUDIO INPUT 34VCO R EF FILTER The IF VCO tuned circuit is applied to these pin.
Its resonance frequency must be two tim es the if-frequency and in between a range of 64-120Mhz. This range is suitable for the if standards as 33.4,38.9,45.75 and 58.75 MHz. The VCO freq. can be adjusted by IIC bus so a fixed coil can be used.
5 PLL LOO P FILTER The PLL loopfilter is a first order filter with R=390 ohm and C=100nF in series to
ground. The loopfilter bandwidth is 60KHz and is optimal for both fast catching and sufficient video suppression for optim al sound performance. Sound performance can theoretically be improved by adding a small capacitor(approx.0-4.7nF) between pin 5 and ground. This however must be evaluated further because the normal video signal response should not be effected.
6 IF VIDEO OU TP U T Although the video output impedance is low it is recommended to avoid
high frequency current in the output due to for instance sound trap filters. This can be achieved by means of an emitter follower at the video output
with a 1
resistor in series with the base. 7 BUS INP UT : SCL s e r ia l cl o ck lin e 8 BUS INPUT : SDA serial data line 9 BANDGAP
DECOUPLING
10 CHROMA INPUT
11 Y/CVBS INPUT The Y S-VHS signal of 1Vpp (inclu sive sync amplitude) is AC coupled to pin11. 12 37MAIN
POSITIVE SUPPLY
The bandgap circuit provides a very stable and temperature ijdependent reference voltage. This reference voltage(6.7V)ensures optimal performance of the TDA8374 and is used in almost all functional circuit blocks.
The supplied C S-VHS input burst amplitude should be nominally 300 (assumed is a colour bar signa! with 75% saturation and with chroma/burst ratio of
2.2/1).
The C S-VHS input is internally clamped to 4V via 50 The external AC coupling capacitor with 50* forms a high pass filter. A recommended coupling capacitor is 1 nF ; the high pass filter cut off frequency is then approxim ately 3kHz.
The TDA8374A has a main supply pin 12 and a hprizontal supply pin 37. Both pins have to be supplied simultaneously. Notice that the IC has not been designed to use this pin 37as start pin. (pin 37 supplies the horizontal oscillator, PHI-1 and PHI-2) (pin 12 sup plies the rest of the circuits in th IC) The nominal supply voltage is 8V. W ith min/m ax values of 7.2-8.8V. Also in stand-by condition th IC m ust be supplied with 8V.
.
pp.
21
Page 24
NO NAME DESCRIPTION
A Voltage detection circuit is connected to both pins.
- pin12 if V12 < 6.8V than a power on reset, POR. is generated. The Hout output is disabled immediate.
- pin37 if V37 < 5.8V than the horizontal output is disabled imm ediate.
13 17INT CVBS INPU T EXT
CVBS INPUT
It is recom mended that the CVBS1 int and CVBS2 ext input amplitudes are 1Vpp (inclusive sync amplitude).
This, because the noise detector switches the (i.e. auto
1 mode w hen FO A ,FOB=0,0) when noise level exceeds 100mVrms
1 loop to slow mode
(i.e. at S/N of 20dB) 14 G R O U N D All internal circuits are connected to this ground pin 14. 15 AU D IO O U TP UT The output signal is volume controlled and is active for both internal and external
audio signals.
The nominal gain is +12dB and -68dB,which gives a total control range of 80dB. 16 DECOUPLING
FILTER TUNING
Voltage variations at pin 16, which can be due to external leakage current or
crosstalk from interference sources, should be less than 50mV to ensure that tun-
ing of filters/delay cells remains correct. 18 BLACK CURRENT
IN P U T
19
BLUE OUTPUT
20
GREEN OUTPUT
21
RED OUTPUT
For correct operation of the loop CURRENT information is supplied to the black
current input pin.
The RGB output are supplied to the video output stages from pins 21, 20,
and19 respectively.
For nominal signals (i.e. CVBS/S-VHS,-(R-Y),-(B-Y),TTX inputs) and for nominal
control settings, then the RGB output signal amplitudes is typically 2V
BLACK-WHITE. 22 V-GUARD INPUT
/BEAM CURRENT LIMITER
The beam current limiting function is realized by reducing the contrast (and finally
the brightness) when the beam current reaches too high level.
The circuit falls apart in two functions:
- Average beam current limiting(ABL):reacting on the average content of the picture
- Peak white limiting (W PL):reacting on high local peaks in the R GB signal.
23
RED INPUT GREEN
24
INPUT BLUE INPUT
25 26 RGB INSERTION
SWIT C H IN PU T
The RIN,GIN,BIN signals(nominal signal am plitude of 700mV)
AC coupled to pin 23,24 and25 respectively.
Clamping action occurs during burstkey period.
The table below a survey is given of the three modes which can be selected with a
voltage on R G B insertion switch input pin ;
Vpin26 IIC function Selected RGB signal
0.9V - 3V IE1 =0 RGB(I NTE RNA L)
IE 1 =1 Rin,Gin , Bin
(fa st ins e r t ion o n p in 23 ,24 ,25 )
>4V IE1=X OS D can be ins erted a t the RG B ou t pins. 27 LU MINAN CE INPUT An nominal input signal amplitude of 1V black-white MUST be DC coupled.
50PF;clamping action occurs during burstkey period. 28 LUMINANCE
OUTPUT
The luminance output signal is approximately 1V black-white w ith typical
output impedance of 250 ohm.
22
Page 25
NO NAME DESCRIPTION
29 30R-Y OUTPUT
B-Y OUTPUT
The maximum output impedance of pins 29,and 30 is 500
PAL/N TSC signals are identified. When SEC AM is identified by the
when
SECAM add-on and no PAL/NTSC is already identified by the ASM,
then the A SM sets the -(R-Y)/-(B-Y) output switch open (via DEMSW).
This enables the -(R-Y)/-(B-Y) outputs of the TDA8395 to be directly
connected to pins 29 and 30 respectively. 3132B-Y INPUT
R-Y INPUT
The -(B-Y), -(R-Y) output signals (supplied from baseband delay line) are
AC coupled, via a coupling capacitor of 10nF or greater, to the -(B-Y)/
- (R-Y) inputs; both inputs are clam ped during burstkey period.
33 SE CAM REF OUTP UT The SECA M reference output is directly connected to pin 1 of the TDA8395 for
SECAM decoding;it also can be used as a reference for comb. filter application. 34 35X-TAL 3.58
X-TAL 4.43
To ensure correct operation of both:
- colour processing internal circuits,
- sync calibration internal circuits,
it is only allowed to have 3.6MHz X-tals on pin34: both 4.4MHz, 3.6MHz
X-tals are allowed on pin 35.
If pin35 is not used:then it is left open in application(also XA, XB=0,1). 36 LO OP F ILTE R BUR ST
PHASE DETECTOR
One of the important aspects of the PLL is the loop filter connected to pin 36;
it influences the dynamic perform ance of the loop. 38 CVBS OUTPUT The output amplitude is 1Vpp (transfer gain ratio between CVBS 1int or
CVBS2ext or CVBS3ext/Y S-VHS and CVBS out is 1).
The maximum output impedance is 250ߟ. 39 BLACK PEAK HOLD
CAPACITOR
For the correct working of the black stretcher an external time constant should be
added at the black peak hold capacitor input. 40 H O R OUTP UT This open collector output is meant to drive the horizontal output stage.
The output is active low,i.e. the line transistor should conduct during
the low period of the output. 41 SANDCASTLE OUTPUT
/FLYBACK INPUT
Pin 41 is a combined input/output pin.
The pin provides a three level sandcastle pulse.
Both burstkey pulse and vertical blanking pulse are always available, the line
blanking pulse is only present when the external flyback pulse is fed to this pin.
The line flyback pulse, fed to this pin is used for two functions
- input signal for the PH I-2 loop
- RGB line blanking.
(without flyback pulse blanking occurs only during the burstkey pulse)
To ensure correct working of the delay line and SECAM add-on,
the output should not be loaded with more than :
- Sandcastle input delay line TDA 4665
- Sandcastle input SECAM add-on TDA 8395
42 PH I-2 FILTE R/ The loop filter is a first order filter.
FLASH PR O DE CT This pin requiresa capacitor(C) only.
A flash protection becomes active when this pin is forced>6V.
The horizontal drive is switched-off immediately.
Once the voltage is <6V the horizontal drive is switched-on again via the slow start
prodecure.
23
Page 26
NO NAME DESCRIPTION
43 P HI-1 FILT ER The loop filter connected to pin 43 is suitable for various signal conditions
as strong/weak and VCR signal.
This is achieved by switching of the loopfilter time constant by changing
the PHI-1 output current.
Via IIC bus FOA/B,different time constants can be chosen,including an
automatic mode which gives optimal performance under varing conditions. 44 G R O U ND To this pin are connected the IC-substrate and horizontal output. 45 EAST-WEST DRIVE not used. 46 47VERT. DRIVE+
VERT DRIVE-
The vertical drive has a current output.The output is balanced which ensures a
good common mode behavior with temperature and makes the
output signal less sensitive for disturbances. 48 49IF INPU T The PLL freq. range is 32-60M Hz w ith corresponding VCO freq. 64-120MHz.
The IF input impedance is 2
in parallel w ith 3pF and matches the required load for comm only used saw filters. A DC coupling is allow ed, so no series capacitors between saw filter and IF input are necessary.
50 EHT/OVERVOLTAGE
not used
PROTECT IN PUT
51 VERTTICAL SAW-
TOOTH CAPACITOR
This pin requires a capacitor to ground of 100nF +/-5%. The optim al sawtooth amplitude is 3.5V and is determined by the external capacitor and charge current. The sawtooth bottom-level is 2V.
52 REFERENCE CUR-
RENT INPUT
53 AGC DECOUPLING
CAPACITOR
This pin requires a resistor to ground.
The optimal reference current is 100 The AGC capacitor value is 2.2
.which is determined by this resistor.
and has been defined for an optimal
compromise between AGC speed and tilt for all AGC m odes(+/-modulation)
54 TU NER AGC OU TPUT This output is used to control(reduce) the tuner gain for strong RF signals.
The tuner AGC is an open collector output which is acting as a variable current source to ground.
55 A UD IO D E EM P H AS IS Only a capacitor has to be connected to this pin that defines the deemphasis time
constant. The signal is internally connected through to the Audio switch. The capacitor can be calculated as follows.
56 SOUND DECO UPLING
This pin requires a capacitor of 10
connected to ground.
The pin acts as a low pass filter needed for the DC feedback loop.
24
Page 27
6-4. TDA4665 ( BASEBAND DELA Y LINE )
1. Feature
Two comb.filters,using the switched-capacitor technique, for one line delay time. Adjustment free application. No crosstalk between SEC AM colour carriers. Handles negative or positive colour-difference input signals. Claamping of AC -coupled input signals ( (R-Y) and (B-Y)). VC O w ithout external components. 3M Hz internal clock signal derived from a 6M H z VC O , line-locked by the sandcastle pulse (64uS line) Sam ple-and-hold circuits and low pass filters to suppress the 3MHz clock signal. Addition of delayed and non-delayed output signals. Output buffer am plifiers. Com b. filtering functions for NTSC colour-difference signals to suppress cross-colour.
2. General D escription
The TDA 4661 is an integrated baseband delay line circuit w ith one line delay. It is suitable for decoders with colour-difference signal outputs (R -Y) and (B-Y).
3. Block Diag ram
4. Pin Descri ption
SYMBOL PIN DESCRIPTION SY MBO L PIN DESCRIPTION
Vp
nc 2 not connected GND 1 10 ground for digital part(0V ) GND2 3 ground for digital part(0V) Vo(R-Y) 11 (R-Y) output signal i.c. 4 internally connected Vo(B-Y) 12 (B-Y) output signal SAND 5 sandcastle pulse input nc 13 not connected nc 6 not connected Vi(B-Y) 14 (B-Y) input signal i.c 7 internally connected nc 1 5 not connected i.c 8 internally connected Vi(R-Y) 16 (R-Y) input signal
1 +5V supply voltage for digital part Vp©¸ 9 +5V supply voltage for analog part
25
Page 28
6-5. TDA8395 ( SECAM DECODER )
1. Feature
Fully integrated filters. Alignm ent free. For use with baseband delay.
2. Description
The TDA8395 is a self-calibrating, fully integrated SECA M decoder.The IC should preferably be used in conjunction with the PAL/NTSC decoder TDA8362 and with the switch capacitor baseband delay circuit TDA 4665. The IC incorporates HF and LF filters, a demodulator and an identification circuit (lum inance is not processed in this IC) A highly stable reference frequency is required for calibration and a two-level sandcastle pulse for blanking and burst gating.
3. Block Diag ram
CVBS
ref
CLOCHE
78362
BANDGAP T UNING TUNING
16
ACC
INTERFA C E
115
/IDENT
f
ref
CLOCHE
FILTER
CONTROL
SAND
220 nF100 nF
ref
PLL
PLL
IDENT-
IFICATION
GND
p
V
TDA8395
DE-
EMPHASIS
OUTPUT
STAGE
TEST
(R-Y)
9
10
(B -Y)
4. Pin Descri ption
SYMBOL PIN DESCRIPTION SYM BOL PIN DESCRIPTION
Fref/ident 1 reference freq. input/ident input. -(R-Y) 9 -(R-Y) output TEST 2 test output -(B-Y) 10 -(B-Y) output Vp 3 positive supply voltage nc 11 not connected nc 4 not connected nc 12 not connected nc 5 not connected nc 13 not connected GND 6 ground nc 14 not connected CLOCH 7 Cloch reference filter SAND 15 sandcastle pulse input PLLref 8 PLLreference CV BS 16 video(chrominance)input
26
Page 29
6-6. TDA6106Q ( VIDEO OUTPUT AMPLIFIER )
1. Feature
B la c k -c u rr e n t m ea s u reme n t o u tp u t fo r a u to mat ic bla c k c ur re n t s t a b iliz a tio n (A B S) Single supply voltage of 200V Internal protection against positive appearing CRT flash-over discharge Protection against ES D Internal 2.5V reference circuit Controllable switch-off behavior
2. Description
The TDA6106Q is a monolithic video output amplifier (5M Hz bandwidth) in a SIL 9MP package, using high-voltage DMO S technology, and is intended to drive the cathode of C RT directly. To obtain maximum performance, the amplifier should be used with black-current control.
3. Block Diag ram
Pin 6
TDA6 1O6Q
Vdd
Vdd
MIRROR 1
in out
Pin 3
vin
Vbias
DIFF.STAGE
out out out out
1X
+
MIRROR 3
4. Pin Descri ption
SYMBOL PIN DESCRIPTION
nc 1 nc nc 2 nc Vin 3 inverting input GND 4 ground,substrate I om 5 black-current measurement output Vdd 6 supply voltage high nc 7 nc Voc 8 cathode output Vof 9 feedback/transient output
Pin 9 Vof
MIRROR 2
out
1X
Vdd
Pin5 Ion
in
Pin 8 Voc
CURRENT SOURCE
gnd
Pin 4 Gnd
in
27
Page 30
6-7. TDA8356 ( DC-coupled vertical deflection circuit )
1. Feature
High efficient fully DC-coupled vertical output bridge circuit. Vertical fly-back switch Guard circuit Protection against : 0short circuit of the output pins (7 and 4) Tem perature (thermal) protection High EMC imm unity because of common m ode inputs
2. Description
The TDA 8356 is power circuit for use in 90 and 110 colour deflection system s for field frequencies of 50 to 120Hz. The circuit provides a DC driven vertical deflection output circuit, operating as a high efficient class G system.
3. Block Diag ram
4. Pin Descri ption
SYMBOL PIN DESCRIPTION
Idrive(pos) 1 input power stage (positive) : include Ii(sb) signal bias Idrive(neg) 2 input pow er stage (negative) : include Ii(sb) signal bias Vp 3 operating supply voltage Vo(b) 4 output voltage B GND 5 ground Vfb 6 input flyback supply voltage Vo(a) 7 output voltage A Vo(guard) 8 guard output voltage Vi(fb) 9 input feedback voltage
28
Page 31
6-8. TDA7056 ( 3W MONO BTL AUDIO PUTPUT AMPLIFIER )
1. Feature
No sw itch-on/off clicks Good overall stability Short circuit proof
2. Description
The TDA 7056 is a mono output am plifier contained in a 9 pin m edium power package. The device is designed for battery fed portable mono recorders,radios and television.
3. Block Diag ram
Positive
supply
Input
n.c.
Signal
ground
4. Pin Descri ption
SYMBOL PIN DESCRIPTION
nc 1 nc Vp 2 positive supply voltage input(+) 3 input signal signal GND 4 signal ground nc 5 nc output(+) 6 output(+) power GND 7 power ground output(-) 8 output(-) nc 9 nc
2
3
5 4
6
8
719
Power
ground
n.c.
n.c.
Output(+)
Output(-)
29
Page 32
6-9. STR-S5707 ( Hybrid IC for a Switching Regulator )
1. Feature
Sm all SIP isolated package : Resin sealed type (transfer m old) Lo power discipation at a lighter load M any protection function function : - Pulse-by-pulse over current protection
- Over-voltage protection with a latch
- Thermal protection with a latch
These protection functions are incorporated and can be latched with an external signal.
2. Description
The STR-S5707 is a Hybrid IC with a built in power transistor and a separate excitation control IC, designed for converter type switching m ode pow er supply applications. The IC is a capable of quasi-resonant mode and requires small number of external component.
3. Block Diag ram
4. Pin Descri ption
SYMBOL PIN DESCRIPTION
C 1 collector of power TR GND 2 ground(Emitter of power TR) B 3 Base of power TR SINK 4 Base current (IS) input OCP 5 over current sensing signal input INH 6 input for synchronizing OFF time and latch
circuit operation SENS 7 constant voltage control signal input DRIVE 8 output(-)Base drive current (ID) output VIN 9 supply voltage for control circuit
30
Page 33
Electrical Charact eristi cs of Contr ol Part (Ta=25 °C)
Description Terminal Symbol Rating Unit
MIN TY P MAX
On-state voltage 9-2 Vin(on) 7.6 8 8.4 V Off-state voltage 9-2 V in(off) 4.6 4.9 5.2 V Operating circuit current 9-2 Iin(on) 15 - 28 Stand-by circuit current 9-2 Iin(off) - - 200 On-time - Ton 33 - 41 O ff- ti me - Toff 45 - 55 OCP terminal T hreshold voltage 6-2 Vocp -1.12 -1 -0.88 V INH terminal Threshold voltage 1 8-2 Vinh1 0.65 0.75 0.85 V INH terminal Threshold voltage 2 8-2 Vinh2 - 1.4 2.0 V INH terminal Threshold voltage 3 8-2 Vlatch 3.2 5.1 5.8 V OVP operating voltage 9-2 Vin(ovp) 9.2 - 10.7 V Latch circuit sustaining current 9-2 Ih - - 500 Latch circuit cancellation voltage 9-2 Vin(latch off) 2.5 3.1 - V MIC thermal shutdown starting temp. - Tj(tsd) 125 150 ­Fixed reference voltage 7-2 Vs
Temperature coefficient of reference voltage 7-2 - - +2.5 -
32.0
0.3
Electrical Charact eristics of power transi ent part (Trl) (Ta=25°C)
V

Description Terminal Symbol Rating Unit
MIN TY P MAX
Collector Saturation Voltage 1-2 Vce(sat) - - 0.4 V Collector Cutoff Current 1-2 ICEX - - 100 Base-Em itter Saturation Voltage 3-2 VBE(sat) - - 1.5 V DC Current Gain - hFE 29 - 61 ­Thermal Resistance - j-F - - 1.3 Switching Time 1-2 ts - - 15
1-2 tf - - 0.5
31
Page 34
6-10. TOP-210 ( Three-terminal off-line PWM Switch )
1. Feature
The TOP 210 is intended for 100/110/230 VAC off-line power supply applications in the 0 to 8W ( 0 to 5W universal ) range. Controlled M OS FET turn-on. Integrated PW M Ccontroller and 700V MOS FET in industry standard eight pin DIP package. Only one external capacitor needed for compensation, bypass and start-up/auto-restart functions. Auto-restart and cycle by cycle current limiting functions handle both prim ary and secondary.faults. On-chip thermal shutdow n with hysteresis protects the entire system against overload.
2. Description
The TOP 210 is stand-by power supply for GR EE N or ENE R GY EF FICIENT PR O D UC TS .
3. Block Diagram
4. Pin Description
SYMBOL PIN DESCRIPTION
SOUR CE 1 Internally connected to output MOSFET source NC 2 nc NC 3 nc CONTR OL 4 Error amplifier and feedback current input pin DRAIN 5 Output MOSFET drain connection NC 6 nc NC 7 nc SOUR C E 8 Output MOS FE T source connection for high voltage return
32
Page 35
6-11. LA71511MQ ( QIP-80E ) : A/V 1-CHIP
Application : PAL VHS VTR audio and video signal Processor
1. Feature
Applicable to m ulti system : PA L-GBI, MESE CA M ,4.43NTS C ,NAP-GBI Built-in NA P circuit to convert NT SC to PAL Normal audio signal processing circuit (self-alignment for record bias) Built-in SECAM discrimination circuit (MESEC AM ) Built-in record and playback FM -EQ function (IIC bus control) Y/C seperation using built-in com b filter Built-in switching circuit for 3 video/audio inputs Serial control by IIC bus C o mp lete a d jus tme n t free Crosstalk reduction by CCD IC for exclusive use (colour com b filter is unnecessary) Operating supply voltage : 4.8V - 5.2V
33
Page 36
2. PIN DESCRIPTION
PIN NO. PIN NAME STANDARD DC VOLT PIN NO. PIN NAME STANDARD DC VOLT
1 A.REC.OUT 2.3V 41 Y CCD DRIVE 2 A-GND 0V 42 Y CCD DRIVE 3 A.AUTO BIAS IN 2.3V 43 NT SC H OU T
2FSC OUT 4 A .EQ-S W2 2 .3 V 44 P B AP C 2 RE C : 0 V P B : 1 .7 V 5 A.AUTO BIAS C REC: CONTRO L VOLT
PB : 5V 6 A.AUTO BIAS B REC : 0.7V, PB : 0V 46 PB C O UT RE C : 3.9V, P B : 2.45V 7 A.EQ-IN 2.3V 47 C-VCC 5V 8 A .EQ-N F B 2 .3 V 48 C CCD DR IV E2 R EC : 2 .4 V, P B : 2 .4 V 9 A.EQ-SW1 2.3V 49 SLD FIL REC: 3.8V, PB : 3.8V
10 A.EQ-OUT 2.3V 50 C CC D D RIVE1 R EC: 2.4V, PB : 2.4V 11 A.LIN E PB IN 51 AFC /APC FIL. R EC: 3.8V, PB : 3.8V 12 AGC -TC1
carrier leak bal. 13 ACC FILTER REC : 1.9V, P B : 1.9V 53 PA STOP TRSW 0V 14 REC-C-OUT REC: 2.7V, PB : 0V 54 REC APC FIL. R EC: 2.1V 15 PB YFM /CIN REC : 0V, PB : 3.2V 55 VX01/X01 IN VXO: 3.9V, X0 : 3.8V 16 EQ-FILT ER REC : 2.6V, PB : 2.7V 56 V X01/X01 OUT V XO: 2.5V, X0 : 2.3V 17 PB EQ OU T RE C: 5V, PB : 2.4V 57 C G N D 0V 18 REC Y FM OUT REC 2.2V 58 VXO 2/X02 OU T1
19 REC H OUT REC: 4V
20 PB YFM IN REC ,PB : 3V 60 VXO 2/XO2 IN VX O:3.9V 3.58N T:O V
21 TRICK H O UT TR ICK MO DE 4.2V 61 KILL-FILTER CO LOUR :1.9V KIL:3.1V 22 AGC -TC2 REC : 1.6V PB : 1.5V 62 ACK/SLD OUT 23 PB E-PEAKING REC: 0V PB : 1.4V 63 SERIAL CLK IN 24 MAIN EM PH F. RE C: 2.1V PB : 1.8V 64 S. DATA IN 25 REC-Y REC: 2.2V 65 SEC AM DE T/
MAIN EMP OUT PB : 2.2V 26 CLAM P IN REC :2.8V PB : 2.8V 66 C-ROT PU L-IN 27 Y-GND 0V 67 H/SW P UL-IN 28 VIDEO IN1 SYNC TIP:1.5V PB:0V 68 SECAM DET
29 FB CLAM P F IL. REC : 2.75V PB : 2.7V 69 S EC AM DE T ADJ 2.5V 30 VIDEO IN2 SYNC TIP:1.5V PB:0V 31 REG REC : 4V PB : 4V 70 A .MUTE O N /OFF 0V 32 VIDEO IN3 S YN C TIP:1.5V PB:0V 71 A.LINE IN1 2.3V 33 QV,QH-INSERT
CHAR.-INSERT
34 VPS O UT S YN C TIP:1.5V P B:0V 74 A.VREF FIL. 2.3V 35 VIDEO AG C IN REC: 3.1V, PB : 4.2V 75 A.LINE IN3 2.3V 36 Y-VCC 5V 76 A-VCC 5V 37 SYNC - O U T 77 A .L INE O UT 2.3V 38 VIDEO OU T 78 A.ALC DET IN 2.3V 39 VCA F ILT ER REC : 2.9V, PB : 2.9V 79 A . REC IN 2.3V 40 VCA IN(CLAMP) REC: 2.8V, PB : 2.8V 80 A.H SW OUT REC:5V, PB : 0V
REC: 2.3V PB : 2.3V
REC PAUSE: 2V
THROUGH : 0-0.8V CHARACTER : 1-2.2V Q H IN : 2 .5 -3.2 V Q V IN : 3 .8 - VCC
45 PB C IN 1.75V
52 C CCD IN REC: 3.25V
or PB H OUT
59 VXO 2/X02 OUT2 VXO: 2.7V 3.58N T:0V
S-DET OUT
LPF
72 A.ALC DET 0V
73 A .L INE IN 2 2.3 V
N T S C MO D E : 3 .2 V EX.NTSC MODE : OV
PB : 3.25V
VXO :2 .5 V X 0 :2 .3 V PB HO UT : 3.4V
XO: 2.4V 3.58N T:0V
XO : 3.8V 3.58NT:0V
PIN65'H'=4V PIN65'L'=2V
34
Page 37
6-12. LA70001 ( HEAD AMP IC )
1. Feature
AG C circuit is built-in this IC ( no record current adjustment is required ) Playback envelope detector circuit is built-in this IC for the purpose of auto-tracking. Operating supply voltage : 4.8V - 5.5V
2. Pin Description
PIN NO. PIN NAME STANDARD DC
VOLTAGE
1NC 13VCC 5V 2 NC 14 REC CURRENT
3 HA (EP/SP) 1.5V THRESHOLD 15 REC.AGC FIL. PB : 0V REC: 1.6V 4 SW 30 1.0V THR ES H O LD 16 L IN PB : 2.1V REC: 4.1V 5 H-SYNC 1.5V THRESHOLD 17 REC SP OUT PB : 2.1V REC: 4.1V 6 ENVELOPE
DET OUT 7 PB OU T P B : 1.7V REC: 2.1V 19 H IN PB : 0V REC: 4.1V 8GND 20GND 0V 9 REC Y IN PB : 4.0V REC: 3.7V 21 N C
10 REC C IN PB : 4.0V REC : 3.7V 22 NC 11 REC/MUTE/PB 23 NC 12 REC CU RRENT
ADJ.2
PB : REC : 0V 18 PB FILTER PB : 0V RE C: 2.5V
PB : 2.5V REC: 2.5V 24 NC
PIN NO. PIN NAME STANDARD DC
VOLTAGE
PB : 5.0V REC: 4.5V
ADJ. 1
3. Block Diag ram
H-CH
L-CH
35
Page 38
6-13. LC89977M ( CCD DELAY LINE IC )
1. Feature
Built-in com b filter function for colour noise reduction Built-in 1H delay line for lum inance signal 3fsc (13.3M Hz) clock is generated by PLL circuit and is synchronized with fsc(4.43MHz) clock input. Com b filter for chrominance noise reduction Available system : PAL,GBI,4.43NTSC The output phase of luminance signal is the sam e phase of input signal Package : MFP-14S
2. Functions
2CC D shift registers. ( for chrominance signal, and for luminance signal ) Timing generator and clock driver for CCD. Delay time selective circuit. Signal adder unit on CC D shift register. Auto-bias circuit. Sync tip clamp circuit for luminance signal. Center bias circuit for chrominance signal. Sam ple and hold circuit and output Amp. 3fsc clock generator w ith P LL circuit. 3fsc clock output circuit. High voltage generator for CCD Reset Drain(RD).
3. Block Diag ram
36
Page 39
SYSCON PORT ( IN01 )
NO. NAME PORT I/O ASSIGNMENT ACTIVE CN
1 KEY0 2 PATH ADJ. P77/AN7 I U SE FOR PAT H ADJUST. A/D PATH JIG 3 P.G DELAY 4 DRUM SEL. P75/AN5 I A/D
SP LP A/D INPUT RN08 PAL 2HD(SP) 57/75 1.85~2.5 6. 2K PAL 2HD(S/LP) 40/40 40 /40 1.25~1.85 4.3K SECAM 2HD(LP) 40/40 40/40 1.25~1.85 4.3K PAL 4HD 45/50 30/30 2.5~ 3. 1 12K SECAM 4HD 49/49 20/20 1.25~1.85 22K
5 POWER FAIL P74/AN4 I WHEN POWER IS DISCONNECTED THIS
L PORT DETECTS POWER FAILURE AND THEN GOES INTO POWER COMPENSATIO N MODE.
6 END SENSOR P73/AN3 I TAPE END SENSOR DATA INPUT. L END SENSOR 7 START SENSOR P72/AN2 I TAPE START SENSOR DATA INPUT. A/D START SENS. 8A. ENV.
9 V. ENVE. P70/AN0 I DC ENVE DATA INPUT A/D VIDEO 10 SLOW BREAK 11 12 13 QV SYNC P64/RTP9 O OUT THIS SIGNAL DURING TRICK MODE PULSE/L VIDEO 14 I.R INPUT P63/RTP8 I REMOCON DATA INPUT P I.R RECEIVER 15 C. RO TARY P 6 2/
EXORout
O 2HD : SW PULSE
4HD :EXCLUSIVE or OUTPUT OF HEAD
PVIDEO
AMP SW & SW PULSE.
16 H.AMP SW P61/
EXORout
O TO SELECT SP HEAD OR LP HEAD.
SP HEAD : L , LP HEAD : H
PVIDEO
2HEAD : H 4HEAD :
SP L L/H LP H L/H
17 COMPARATOR P60/EXORin I COMPARE SP ENVE WITH SP ENVE
PALY CUE/REV
PVIDEO
SP : L, LP : H 18 V. HEAD SW P57/RTP7 O TO SELECT R/L CHANNEL (VIDEO HEAD) P VIDEO 19 A. HEAD SW 20 TRICK (H) 21 CAP F/R P54/RTP4 O CAPSTAN MOTOR FORWARD (L)
REVERSE (H)
L/H DECK
(CAPSTAN) 22 REC (H) 23 CAP I LIM O THIS PORT IS USUALLY OPEN BUT
OUT -PUTS THE CAPSTAN STOP STATE
LDECK
(CAPSTAN)
OF FRAME ADVANCE 24 LP (H) 25 SLP (H) 26 REC SAFETY I REC SAFETY TAB IS DETECTED L STATE SO
THAT RECORDING IS INHIBITED.
L REC SAFETY
SW
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NO. NAME PORT I/O ASSIGNMENT ACTIVE CN
27 SYNC DET (L) 28 PB (L) 29 TAPE DOWN L P44 I TAPE INSERTED : L L 30
31 32 33
CAM D CAM C CAM B CAM A
P43 P42 P41 P40
CAM DATA INPUT
* MODE SWITCHING TABLE
CAM A CAM B CAM C CAM D MODE
L H H H EJECT L H L H STAND BY HHLHREV HHLLSTOP HHHLPLAY HLLLSLOW H L H H BRAKE H L H L FF/REW HHHHCAM OFF
L DECK
(CAM)
34 35NUB
GND
NUA
36 CLK SEL CLOCK SEL I AFTER RESET, A SYSTEM CLOCK IS
L/H SELECTED DEPENDING UP ON CUR RENT STATE : IF L : 32.768KHz H : 16MHz IS SELECTED.
37 VCC VCC 5V 38 Xin Xin 16MHz OS C IN 39 Xout Xout 16MHz OS C OU T 40 VSS GND 41 Xcin P141/Xcin I 32.768KHz OSC IN 42 Xcout P140/Xcout O 32.768K Hz OSC OUT 43 RESET L RESET L I RESET INPUT L 44 45L MOTOR ON
P32 P31 O L/H L/M O TOR IC
L MOTOR F/R
LM F LM R OUTPUT
LOA DING MO TOR H L FORWA RD
REV DRIVING L H REVERSE
LOADING MOTOR H H BRAKE
FOR DRIVING L L
46 P30 47 P21 48 P20 49 P17 50 AV MUTE H P16 O H 51 GND P15 52 REC LED P14 O LED DRIVING H LED 53 POWER LED P13 O LED DRIVING H LED 54 ST BY LED P12 O LED D RIVING H LED 55 POW E R ON H P11 O VCR POW ER ON : H H PO W ER PART 56 AUDIO MUTE P10 O AUDIO MUTE H OUTPUT H 57 SECAM (H) P07 I SECAM MODE INPUT H SECAM IC 58 MESECAM (H) P06 I MESECAM D ETECT INPUT H Y/C IC 59 VIDEO DATA P05 O VIDEO SECAM SERIAL D ATA OUTPUT SERIAL Y/C,SECAM IC 60 VIDEO CLOCK P04 O VIDEO SECAM SERIAL CLOCK OUTPUT SERIAL Y/C,SECAM IC
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NO. NAME PORT I/O ASSIGNMENT ACTIVE CN
61 SECAM CON H P03 SECAM CONTROL : SECAM : "H" H SECAM IC 62 MESECAM H P02 63 HEAD SEL. P01 O HEAD SELECTION 2HD : L
H/L 4HD : H
64 RESET H P00 O RESET PULSE OUT H TIMER 65 P107/Sout1 66 P106/Sin1 67 P105/Sclk1 68 SYS D. OUT P104/Sout0 O SYSCON SERIAL DATA OUTPUT PULSE TIMEER 69 SYS DATA IN P103/Sin0 I SYSCON SERIAL DATA INPUT PULSE TIMEER 70 P102/Sclk0B 71 SYS CLK IN P101/Sclk0a I SYSCON SERIAL CLOCK INPUT PULSE TIMEER 72 P100/T 1 73 P97/T5 74 PAL H P96/T4 O PLAYBACK PAL MODE : H H PREAMP 75 P95/INT0 76 P94/PWM2 77 CAP PWM P93/PWM1 O DRUM MOTOR CONTROL PWM OUTPUT. PULSE DECK(DRUM) 78 DRUM PWM P92/PWM0 O CAP. MOTOR CONTROL PWM OUTPUT. PULSE DECK(CAP) 79 P91/RL S 80 HIGH SPEED
CONTROL
P90/RLT O CTL NOISE ERASE FF/REW : L
PLAY,CUE,REV,SLOW : H
H/L SYSCON
81 S REEL P86/INT2 I SUPPLY REEL PULSE INPUT PULSE DECK(REEL) 82 T REEL P8 5/INT1 I TAKE-UP REEL PULSE INPUT PULSE DEC K(REEL) 83 P84/PG 84 C.SYNC P83/CON I COMPOSITE SYNC DATA INPUT PULSE 85 CAP PG CPFGin I CAPSTAN PG INPUT PULSE DECK(CAP) 86 DRUM PG DRPG/in I DRUM PG INPUT PULSE DECK(DRUM) 87 DRUM FG DRFGin I DRUM FG INPUT PULSE DECK(DRUM) 88 AMP GND AMP Vs s 89 AMP REF OUT AMPVref out O CTL AMP REFERENCE VOLTAGE OUT. H 90 AMP REF IN AMPVrefin I CTL AMP REFERENCE VOLTAGE IN. H 91 CTL(-) CTL(-) I CTL PULSE (-) INPUT PULSE DECK 92 CTL(+) CTL(+) I CTL PULSE (+) INPUT PULSE DECK 93 CTL SW C TL SWout O CTL SW PULSE OUT PU LSE 94 CTL AMP CTLAMPin I CTL SW PULSE IN PULSE 95 CTL AMP CON. AMPC O CTL AMP GAIN CONTROL 96 CTL GND CTLVSS 97 CTL AMP OUT CTL AMPout O CTL AMP PULSE OUTPUT PULSE TEST JIG 98 AMPVCC AMPVCC I 5V 99 VCC AVCC I 5V
100 PB1/AN9
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7. CIRCUI T DESCRI PTION

7-1. VISION IF amplifier,afc,video demodulator
The IF signal from the tuner is fed through a SAW filter to the differential IF input (pin 48 and 49). The first IF stage consists of 3AC-coupled amplifiers with a total gain control range of over 66dB. The reference carrier for the video dem odulator is obtained by a PLL carrier regenerator(eliminating notch filter com promises,as in reference tuned circuits for passive carrier regeneration). O n ly a n o sc illat o r coil is needed(pin3,4) that can be aligned via IIC bus to the double IF frequency. The AFC information is derived from the VCO control voltage of the IF-PLL and can be read via IIC bus. Bit AFB toggles w hen the picture carrier is exactly at the desired IF frequency (=half the aligned IF -PLL frequency). AFA is active in a window around this point. For fast search-tuning applications this w indow can be increased by a factor3 (AFW bit).
7-2. TUNER AGC
The automatic gain control(AGC ) circuit operates on top sync level at negative modulated signals or on peak white level at positive modulation, selected by MO D bit. The tuner AG C is controlled via pin 54. The tener AGC take over point (TOP ) can be set over a wide range :0.8mVrms - 80m Vrms IF input signal amplitude. The tuner AG C output m ay have to operate above V cc of TDA8374. Therefore pin54 is an open collector output, that can operate from 0.3up to Vcc+1V(at> 2m A sink current)
Source sele ct switch TDA8374 input switch can select one of the follow ing sources; pin 13 front-end : CVBS1int pin 1 7 : C V B S 2e xt pin 11,1 0 : S-V H S Y,C Selected signal is available at the CV BS output pin38, in case of Y/C input Y+C are added. It drive teletext and the TDA8395 SECA M add-on. For S-VHS applications, the Y,C input can be selected, independent of the CVB S source switch. TDA8374 Y,C inputs are selected,w hile the source switch outputs CV BS Iint or CVB S 2ext on CV BSout.
7-3. Horizontal synchronization and protection
The sync. seperator adapts its slicing level in the m iddle between top-sync and black level of the CVBS signal. The seperated sync. pulses are fed to the first phase detector and to the coincidence detector.
The T he coin ciden ce detec t or detec ts whet her the horizonta l lin e os cillator is sy nchroniz ed to the inco mmi ng v ideo. The line oscillator is a VCO -type, running at twice the line frequency. It is ca lib r a te d w ith th e X - ta l o sc illa t o r frequency of the colour decoder and has a m aximum deviation of 2% of the nominal frequency, so no alignment is needed. Calibration is done at start up(the TDA8374 must first know what colour X-tals are connected,bit XA,XB) after synchronization loss (-1 coincidence detector "Sync Locked" bit SL).
-1 loop gain is determined by the components at pin 43 (C+RC ).
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The second phase detector -2 locks the phase of the horizontal drive pulses at output pin 40 to the horizontal flyback pulse at input pin 41. This compensates for the storage tim e of the horizontal deflection transistor.
The The horizontal phase can be given a static off set via IIC bus (HSH "horizontal shift). A dynam ic correction is possible by current feedback into the To protect the horizontal deflection transistor, the horizontal drive is switched off immediately when a pow er failure ("Pow er-On R eset "bit PO R ) is detected.
The power failure may have corrupted the contents of the internal data registers, so the TDA8374 should be started up again.
The TDA 8374 has a separate supply input (pin 37) that only used as a clean supply voltage for the horizontal oscillator circuits.
-2 loop filter (C) is externally connected to pin 42.
-2 loop filter capacitor.
7-4. Vertical Synchronization
The vertical sawtooth generator drives the vertical output. It uses an external capacitor at pin51 and a current reference resistor at pin 52. The TD A 837 4 vertical drive has differe ntial current outputs for DC-coupled vertical outp ut stage, like the TDA835 6. At TDA8356 input pins1 and pin2 this current is converted into a drive voltage via a resistor.
7-5. Geometry processing
W ith the TDA8374 is possible to im plement automatic geometry alignment, because all parameters are adjusted via the IIC bus. The deflection processor of the TDA8374 offers the following five controls;
- Horizontal shift
- Vertical slope
- Vertical amplitude
- Vertical s-co rrec tion
- Ve r tic a l sh if t
7-6. Colour decoder
The colour decoder contains an alignment-free X-tal oscilla to r, a dual killer and difference demodulators. Together w ith the TDA8395 S EC A M add-on a multi standard PAL/SEC AM/NTSC decoder can be built with automatic reconition. W hich standard can be decoded depends on the external X-tal used. Two X-tal pins (34 and 36) are present so normally no external switching is required. The IC must be told w hich X-tals are connected (bit XA and XB). This is important, because the X-tal frequency of the colour decoder is also used to calibrate many internal circuit. The burst phase detector locks the X-tal oscilla to r with th e c h r o m a b u rs t s ignal. The phase detector operates during the burst key period only, to prevent disturbance of the PLL by the chroma signal. Two gain modes provide:
- G ood catching range when the PLL is not locked.
- Low ripple voltage and good noise imm unity once the PLL has locked.
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The killer circuit switches off the R-Y and B-Y demodulators at very low input signal conditions (chroma burst am plitude). A hysteresis prevents on/off switching at low,noisy signals.
Colour standa rd pin34 pin35 XA XB
PAL4.43/SECAM+NTSC 4.43 none 4.43 1 0 PAL4.43/SECAM+NTSC-M 3.58 4.43 1 1
7-7. Integrated video filters
The TDA 8374 has alignment-free internal luminance delay, chroma bandpass and chroma trap. They are im plemented as gyrator circuits tuned by tracking to the frequency of the chroma X-tal oscillator. The chroma trap in the Y signal path is by-passed when Y/C input is selected (S-VHS). For SECA M an extra luminance delay is build-in, for correct delay of the luminance signal.
RG B output and black current stabilization The colour difference signals (R-Y, B-Y)are matrixed with the luminance signal(Y) to obtain the RGBout output signals (pins 19, 20, 21). In the TDA8374 the matrix type automatically adapts to the decoded standard (NTSC, PAL). Linear amplifiers are used to interface external RGB in signals (pins 23, 24, 25) from the SCART connector. These signals overrule the internal RG B signals when the data insertion pin 26(FBI) is switched to a level between 1.0V and 3.0V. The contrast and brightness control a nd the pea k white limiter operate on both internal and e xternal RG B signals. R,G,B each have there own, independent gain control to compensate for the difference in phosphor efficiencie s of the picture tube : so called "white point" adjustm ent. The nominal am plitude is about 2V black to white, at nominal input signals and control settings.
TDA8374 has a black current stabilization l oo p , t h at au toma t ic a l ly adjus t t he b lack lev el to the c ut- o ff voltage of the picture tubes three gun cathodes. Since no current is following when the voltage the cathode is equal to the cut-off voltage of the tube, the loop stabilizes at a very small gun current. This "black current" of the three guns is measured internally and compared with a reference current, to adjust the black level of RG Bout. The black level loop is active during 4lines at the and of the vertical blanking.
In the first line the leakage current is measured (max.acceptable 100
).
In the next three lines the black levels of the three guns are adjuster.
The nom inal value of the "black current" is 10
. The ratio of the "black current" for the 3guns tracks automatically with the white point adjustment, so the back-ground colour is the sam e as the adjusted w hite point.
At switch-on of the TV receiver the black current stabilization circuit is not yet active and RG Bout are blanked. Before the first measurem ent pulses appear, 0.5sec delay ensures that the deflection is active, so the pulses will not be visible on the screen.
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D u ri n g th e me a s ur in g lin e s R GB o u t w ill s upply 4V pulses to the video output stages.
The TDA8374 waits until the black current feedback input (pin18) exceeds 200 the picture tube warm-up. Then the black current stabiliza tio n c irc u it is a c tiv e . After a waiting tim e of about 1.0sec, the blanking of R GBout is released.
, which indicates that
7-8. Tuning
The AFC information of the TDA8374 is not available as an analogue voltage. Automatic following (= frequency tracking, AFC ) can be done via the IIC bus by software. The TDA 8374 AFC w indow is typically 80kHz wide. This value is m ade higher than the 62.5kHz tuning step, to prevent an autom atic following loop from continuously adapting the tuning frequency. W ith this AFC window ( 40kHz) the m aximum tuning error is less than 62.5kHz. For high speed search-tunung-algorithms,the AFC window can be widened to 240kHz via bit AFW.
7-9. TDA8395 SECAM DECODER
The TDA8395 is an alignment-free SECAM colour decoder, including a cloche filter, demodulator and line identification circuit.
The cloche filter is a gyrator-capacitor type. Its frequency is calibrated in the vertical retrace period. The calibration reference(pin1) is obtained from the TDA8374 colour X-tal oscillator.(pin33). Pin 7 is a decoupling for the cloche reference. The voltage change at this pin due to leakage currents should be lower than 10mV, during field scan, resulting in a capacitor if minimal 100nF. Pin 8 is the reference capacitor for the PLL. The voltage variation during field scan at this pin should be lower than 2m V, resulting in a capacitor of 220nF. The sandcastle input (pin15) is connected to TDA8374 pin41 and is used for generation of the blanking periods and provides clock information for the identification circuit. The CVBS source select output (TDA8374 pin38) supplies SECA M chrom a to pin 16 of the TDA8395. This is demodulated by a PLL demodulator, that uses the reference frequency at pin 1 and a bandgap reference to obtain the desired demodulation characteristic. If the digital line identification in the TDA 8395 detects SEC AM , pin1 will sin k a c u rre n t o f 150ßÀ out of TDA8374 SE CAM ref pin33. W hen the TDA8374 has not detected PAL or NTSC , will re s pond by increasing the voltage at pin33 from
1.5V to 5V. Now the TDA8374 colour difference outputs pin30 and 29 are m ade high-ohmic and the TDA8395 output pin 9 and 10 are switched on. T h e s e ou tp u t s w ill b e d is connected and high-ohm ic when no SE CA M is detected for tw o frame periods, the decoder will b e ini tia lized bef o re tr y ing again.
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7-10. Base band delay line TDA4665
TDA4665 is an integrated double baseband delay line of 64. It couples to the TDA8374 and TDA 8395 without any switches or alignments. The TDA4665 consist of tw o main blocks :
- Tw o delay lines of 64
- Internal clock generation of 3MHz, line locked to the sandcastle pulse. The TDA 4665 operates according to the mode demanded by the colour transmission standard :
- For PAL it operates as geom etric adder to satisfy the PAL demodulation requirements
- In NTSC m ode it reduces cross colour interference (comb-filtering).
- For S EC AM it repeats the colour difference signal on consecutive horizontal scan lines. A sandcastle pulse is connected to pin 5. The top pulse voltage (should not exceed 5V) can be directly coupled to the 5V sandcastle output of the TDA8374. The R-Y and B -Y colour difference signals (from TD A8374 pins 30 and 29) are AC-coupled and clamped by the input stages at pins 16 and 14. A n in te rn a l 6 MH z cu r re n t c o n tro lle d o s c illa to r is line lo c k e d via a P L L to th e s andcastle pulse at pin 11 and 12. This clock drives the delay lines to obtain the required 64ß¡. Sam ple and hold low pass filters supress the clock signal. The original and the delayed signals are added, buffered and fed to the output pins 11 and 12. These are AC-coupled to the R-Y and B-Y colour difference input pins 32 and 31 of TDA8374. The TDA4665 needs a 5Vsupply voltage on pin 1 for the digital part and on pin 9 for the analogue part.
in switched capacitor technique
7-11. TDA8356 Vertical deflection.
The TDA8356 is a vertical deflection circuit. It can be used in 90° C deflection systems with frame frequencies from 50 up to 120Hz. W ith its bridge configuration the deflection output can be DC coupled with few external components. Only a supply voltage for the scan and a second supply for the flyback are needed. The TDA 8356 can drive max. 2A. The vertical drive currents of TDA8374 pins 47 and 46 are connected to input pins 1, 2 of the TDA8356. The currents are converted into a voltage by a resistor between pins 1 and 2. Pin 2 is on a fixed D C level (internal bias voltage) and on pin 1 the drive voltage can be measured (typical 1.8Vp-p). The drive voltage is amplified by 'A' and fed to tw o amplifiers 'B' and 'C ', one is inverting and the other is a non inverting amplifier. The outputs(pins 4 and 7) are connected to the series connection of the vertical deflection coil and feedback resistor. The voltage across feedback resistor is fed via pin9 to correction amplifier'D',to obtain. a deflection current which is proportional to the drive voltage. The supply voltage for the TDA8356 is 16V at pin 3. The flyback generator has a separate supply voltage of 45V on pin 6. The guard pulse is useful to synchronize O SD .
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7-12. Horizontal deflection
The circuit contains H drive, line output transformer. The H drive pulses from the TDA8374 are am plified in the horizontal drive circuit, to get sufficient base drive current for the high voltage switching transistor Q402.
During the horizontal scan period (=52 through the primary winding of the FBT to ground. After this tim e Q 402 is switched-off and the energy stored in the FBT during the scan period w ill b e transformed to the flyback capacitor C 406, C416. This energy transfer will ta k e p la c e in a c o s in e s h ap e b e c a u s e th e p rima ry o f th e F B T and C406, 416 from a resonant circuit. The time the energy is transfered from FBT to C406,416 and back to the FBT, is called the flyback time
and will take p lace i n about 12 The flyback peak voltage is about 8 times the scan voltage. In series with the horizontal deflection coil there is a (damped) linearity corrector coil. During the scan there is some loss in the resistance of the deflection coil. In the first part of a line the linearity corrector stores some energy in a perm anent magnet until it is saturated. This improves the linearity of the horizontal scan speed. The required S-correction for the picture tube can be adjusted with the value of C415. The beam current limiting information is derived from the foot of the H .V winding of the FB T. This is connected via resistor to +8V. As the beam current increase, the voltage on line beam current decreases. Beam current is damped by a integration filter before it is fedback to TDA 8374 pin 22. The TDA8374 will d e c re a s e th e c o n tra s t( and eventually the brightness)to limit the average beam current.
.
) Q402 will conduct, and a sawtooth current flows from +123V
7-13. Video amplifiers
Three TDA 6106Q integrated video amplifiers drive cathode of the picture tube directly. They are protected against CRT flashover discharges and ESD (electro static discharge). The three video amplifiers, have a beam current output I black, used by the TDA8374 black current loop to control the black level on the cathodes. The outputs can be connected together because the black current loop sequentially controls the black level for each cathode. The am plification of the TD A6106Q is set by the resistors between pin 3 and 9 and between pin 3 (negative-input) and the TDA8374 output. There are no alignment any more on the CPT panel, because of the automatic black current stabilization and because the white point adjustment can be done in the TDA 8374 via IIC bus.
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7-14. Power supply STR-S5707
1. Vin term inal, start-up circuit
A start-up circuit is to start and stop a operation of a control IC by detecting a voltage appearing at a Vin terminal (pin 9).
At start up of a power supply, when a voltage at the Vin terminal reaches to 8V (typical) by charging up C817 by the function of a start-up resistor, R804, a control circuit starts operating by the function of the start-up circuit. After the control circuit starts its operation, pow er source is obtained by smoothing voltage appearing at winding of pin 6,7 of T801.
2. Oscillator,F/B terminal voltage (pin 7) A oscillator generates pulse signals which turns a power transistor on and off by making use of charge and
discharge of C1 and C2 incorporated in the Hybrid IC. Constant voltage control of a switch-mode power supply is performed by changing both on-time and off-tim e except when the load is light (ex. rem ote control stand-by mode of TVs). The on-time is controlled by changing a current charged by C1, which is as the result of that the detection winding of pin 5-7 of T801, which detects a change of voltage in a secondary side, connected to the sensing terminal (pin 7). has the current in accordance with an output signal from an output voltage detection circuit (a n e rr o r a m p lif ie r) bu ilt in . As an AC input voltage to the power supply gats the higher and a load current the smaller, the current flowing to the SENS term inal gets the larger, and the on-time gets the shorter.
3. Function of INH terminal (pin 6), control of off-tim e
Signal to the IN H terminal is used as inputs to COM P.1 and CO M P.2 inside of the control IC.
A threshold voltage of CO M P.1,V TH 1 is set at 0.75V(Ta=25 alm ost 0V (the power transistor is in OFF m ode) when a voltage at the INH terminal reaches the VTH 1. A threshold voltage of CO MP.2, VTH2, is set at 1.5V (Ta=25 W hen the IN H term inal voltage reaches VTH2, an output from C OM P.2 reverses (the power TR is in on mode).
) and an input signal to a drive circuit becomes
).
Quasi-resonant operation
By inputting the voltage of winding of pin 6-7 of T801 which is synchronized with the energy discharge time of a secondary winding to the INH terminal through D810 and R808 , quasi-resonant operation can be achieved. W hen the power transistor turns off and a voltage higher than VTH 2 is applied to the INH terminal, C3 immediately discharges and then starts charging again. Even after the discharge of energy of a secondary winding is com pleted, VINH does not imm ediately increases. when it gets low er than VTH1, the transistor turns on.
4. Drive circuit
The STR-S5707 applies the proportional drive system in order to minim ize turn-on and saturation loss, and storage tim e.
5. OC P function
Over-current protection is performed pulse by pulse by directly detecting collector current of the power transistor. detecting voltage is set to -1V below a reference point of GND (ground).
6. Latch circuit w hich sustains an output from the oscillator low and stops operation of the power supply when
over-voltage protection (OVP ) circuit and therm al shutdown (TSD) circuit are in operation. As the sustaining current of the latch circuit is 500
maximum w hen Vin term inal voltage is 4V,
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the power supply circuit sustains the off state as long as current of 500 m inim um flows to Vin terminal from a start up resistor. In order to prevent a malfunction to be caused by a noise and so on, delay tim e is provided by C1 incorporated in the IC and, therefore, the latch circuit operates when the OV P or TSD circuit is in operation, or an external signal input is provided for about 10
or longer. In addition, even after the latch circuit start operating, the constant voltage regulator circuit is in operation and the circuit current is at high level. As a result, Vin terminal voltage rapidly decreases. W hen Vin term inal voltage becomes lower than the shutdown voltage, VIN(OFF) (4.9V typical), it starts increasing as the circuit current is below 500
. W hen it reaches the O N -state voltage, VIN(ON) (8V typical), Vin terminal voltage starts decreasing because the circuit current increases again. W hen the latch circuit is on, Vin terminal voltage increases and decreases within the range from 4.9V typical to 8V typical and is prevented from abnormally rising. Calibration of the latch is done by decreasing Vin terminal voltage below 3.3V. The power supply can be restarted after disconnecting an AC input to the power supply once.
7. Thermal shutdown circuit
It is a circuit to trigger the latch circuit w hen the frame temperature of the IC exceeds 150
(typ i ca l). Although the temperature is actually sensed at the control chip, it works against overheating of the power transistor as the power transistor and the control IC are mounted on the same lead fram e.
8. Over-voltage protection circuit It is a circuit to trigger the latch circuit when Vin terminal voltage exceeds 11V (typical). Althrough it basically functions as protections as protection of Vin terminal against over-voltage, since Vin terminal is usually supplied from the drive winding of the transformer and the voltage is propor ational to the output voltage, it also functions against the over-voltage of secondary output which causes when the control circuit opens or in some other events.
7-15. Stand-by Mode TOP210
This IC(TOP210) is used for low-power concumption w hen receiver is operating in stand-by m ode.
1. DR AIN PIN (pin5) Output M O SF ET drain connection. Provides internal bias current during start-up operation via an internal switched high voltage current source. Internal current sense point.
2. CO NT RO L PIN (pin4) Error amplifier and feedback current input pin for duty cycle control. Internal bias current during normal operation. It is also used as the supply bypass and auto-restart/compensation capacitor connection point.
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8. VOLTAGE CHARTS

1. TDA9800 ( I201 ) : B/G.
PIN N O . VOLT. PIN NO. VO LT
1 3.33 11 2.60 2 3.33123.24 3 0.68 13 2.0 4 0.21 14 2.0 5 1.825 15 2.37 6 2.60162.75 7 2.5 17 2.75
84.9180 9 2.185 19 3.24
10 1.334 20 5.0
TDA9802 ( I201 ) : SECAM -L
PIN NO. VOLT. PIN NO. VO LT.
1 3.33 11 2.60 2 3.33123.24 3 0.68 13 2.0 4 0.21 14 2.0 5 1.825 15 2.37 6 2.60162.75 7 2.5 17 2.75 80180 9 2.185 19 3.24
10 1.334 20 5.0
2. TDA8374AN3 ( I501 )
PIN NO. VOLT. PIN NO. VOLT. PIN NO. VOLT. PIN NO. VOLT.
1 0 15 3.12 29 1.69 8 43 3.822 2 3.725 16 3.61 30 1.705 44 0 3 3.53 17 3.674 31 3.83 45 0.98 4 3.53 185.525323.825462.237 5 2.71 19 3.159 33 1.548 47 2.247 6 3.035 20 3.477 34 2.571 48 4.189 7 4.674 21 2.949 35 2.571 49 4.19 8 4 .71 4 22 1.892 36 4.874 50 1.6
9 6.51 233.374377.952513.722 10 3.91 24 3.360 38 3.242 52 3.828 11 3.312 25 3.36 39 6.055 53 3.744 12 7.842 26 0.152 40 3.452 54 3.006 13 3.69 27 2.406 41 0.707 55 2.947 14 0 28 2.404 42 4.538 56 4.21
3. TDA4665 ( I502 )
PIN NO. VOLT. PIN NO. VOLT.
1 4.862 9 4.858 20100 3 0 11 2.938 4 0 12 2.94
50.7130
60.56141.2
72.2415 0 8 0 16 1.2
4. TDA8395 ( I503 )
PIN NO. VOLT. PIN NO. VOLT .
1 1.546 9 1.7 2 1.12 10 1.7 3 7.782 11 0 40120 50130 60140 7 3.267 15 0.7 8 4.19 16 3.2 56
4. TC4053 ( I504 )
PIN NO. VOLT. PIN NO. VOLT. PIN NO. VOLT. PIN NO. VOLT.
10.28552.8259 0 13 0
22.7856 0 10 0 14 0
3 3.066 7 0 11 0 15 2.786
42.8448 0 12 0 165.88
48
Page 51
5. TDA7056 ( I601 )
6. 24C08P ( I703 )
7. BA6209 ( IN03 )
PIN NO. VOLT.
10
213.8 30 40 50
66.9 70
86.9 90
PIN NO. VO LT.
10 20 30 40
55.26
65.1 70
85.1
8. STV8225 ( IL01 )
PIN NO. VOLT. PIN NO. V O LT.
14.386.4
23.994.3 3 0 10 0.6
43.1111.9 5 4.3 12 8.3 6 4.5 13 4.3 7 4.3 14 4.3
9. TA1238N ( IY03 )
PIN NO. REC PB
100
20.50.5 3 0 .8 4 0.84
46.16.1 500 600 7 12.3 12.5 8 12.3 12.5 9 0 .8 6 0.86
10 0.5 0.5
STV8225 ( IL02 )
PIN NO. VOLT. PIN NO. V O LT.
14.686.4
24.793.1 30100
40114.3 5 3.1 12 8.7 6 4.3 13 4.3 7 4.3 14 4.35
10. LA70001 ( IY04 )
PIN NO. REC PB
1 2.48 2.49 2 2.72 2.40 3 2.97 2.97 4 4.10 4.12 5 5.05 5.05 6 4.68 4.68 7 4.75 4.75 8 0.00 0.00 9 0.56 0.56
10 0.00 0.00 11 3.27 3.27 12 1.84 1.89 13 3.44 3.45 14 0.00 0.00 15 1.90 1.90 16 3.24 3.24 17 5.03 5.03 18 2.55 2.65 19 1.74 1.74 20 0.00 0.00 21 2.63 2.63 22 2.61 2.63 23 3.45 1.86 24 2.57 2.57
PIN NO. REC PB
1 2.03 2.04 2 0.32 0.34 3 0.00 0.00 4 1.11 1.10 5 0.29 0.28 6 0.92 3.54 7 0.00 1.73 8 0.00 0.00
9 3.48 0.31 10 3.47 0.30 11 4.22 0.08 12 2.53 2.54 13 0.00 5.04 14 4.10 5.04 15 1.56 0.00 16 3.96 2.03 17 3.91 2.03 18 2.52 0.01 19 3.95 2.03 20 0.00 0.00 21 1.10 0.73 22 1.10 0.73 23 2.54 0.01 24 1.10 0.73
49
Page 52
11. LA71511MQ
PIN NOREC PB PIN NOREC PB PIN NOREC PB PIN NOREC PB
1 2 .4 4 2.40 21 0.3 5 0.3 9 4 1 0.0 0.0 6 6 1 2 .0 5 2.0 2 2 0 .0 1 0.00 22 1.5 6 2.2 5 4 2 2 .0 0 1.9 7 6 2 0.2 1 0.2 6 3 2 .4 4 2.41 23 0.0 2 1.8 0 4 3 0 .4 8 0.4 7 6 3 4.4 8 4.4 8 4 1 .0 3 0.05 24 2.4 1 1.8 2 4 4 1 .8 3 1.8 4 6 4 4.7 5 4.7 5 5 1 .3 5 5.51 25 2.1 5 2.0 8 4 5 1 .9 6 1.9 5 6 5 0.3 1 0.3 1 6 0 .8 6 0.02 26 3.0 8 3.0 3 4 6 0 .0 3 2.7 0 6 6 0.0 0 0.4 0 7 2 .4 2 2.39 27 0.0 0 0.0 6 4 7 5 .0 9 5.0 7 6 7 0.0 4 0.0 4 8 2 .4 6 2.40 28 1.8 0 0.2 8 4 8 2 .8 5 2.8 4 6 8 0.0 6 0.6 1 9 2 .3 7 2.37 29 1.9 0 2.1 6 4 9 4 .4 2 4.2 4 6 9 5.0 9 5.0 8
10 2.37 2.37 30 2.11 0.00 50 2.92 2.91 70 0.02 0.00
11 3.07 2.38 31 4.08 4.08 51 4.23 4.25 71 2.39 2.38 12 2.32 2.31 32 1.80 0.28 52 3.22 3.20 72 0.01 0.01 13 1.71 2.08 33 0.58 0.58 53 0.00 0.04 73 2.39 2.38 14 2.95 0.31 34 2.17 0.00 54 2.15 2.09 74 2.41 2.41 15 0.00 3.25 35 3.14 3.16 55 5.15 5.13 75 2.39 2.38 16 2.56 2.59 36 5.09 5.06 56 5.15 5.13 76 5.15 5.14 17 3.32 1.64 37 0.59 0.59 57 0.01 0.00 77 2.49 2.48 18 2.11 1.56 38 1.70 1.78 58 0.19 3.54 78 0.00 0.00 19 4.30 0.08 39 3.19 3.18 59 2.46 2.09 79 2.40 2.38 20 3.14 3.05 40 3.01 3.00 60 4.07 4.03 80 5.14 0.15
12. LC89977M ( IY02 )
PIN NO. REC PB
1 2.60 2.60 2 5.04 5.05 3 2.59 2.59 4 0.00 0.01 5 2.54 2.53 6 0.00 0.00 7 1.75 1.73 8 9.18 9.18
9 2.17 2.18 10 0.83 0.83 11 0.04 0.04 12 0.42 0.42 13 1.97 1.97 14 0.00 0.01
13. MN-1 280R ( I702 )
PIN NO VOLT
10
25.2
35.2
14. KIA7042P ( IN02)
PIN NO VOLT
15.2 20
35.2
50
Page 53
Page 54
Page 55
Page 56

10. TROUBLE SHOOTIN G CHARTS

10-1. NO RASTER
CHECK MAIN B+ ( 123V LINE )
NG.
I806 6Vout ?
Q803 BASE = H ?
NG.
SW08,P803 SOLDER ?
TOP210 PIN VOLT ?
D825~D828,F801,R803 ?
NG.
XN01,XN02,X701 OSC ?
RN46,47,48'S PULSE ? IN01,I701 RESET = H ?
NG.
DECK SEPER ATION
OK
DECK EXCHANGE
NG
CHECK I801 #9 VOLT
I801 #7, #1 VOLT
CHECK R817,D801~D804
EXCHANGE I801
OK
PA805 VCR H = H ?
OK
PA406 MON. ON = H ?
NG.
I701 EXCHANGE
NG
CHECK T801 SECONDARY VOLTAGE 8.5V,14V,13.5V ?
5V VCC VOLT ?
PATTERN SHORT ?
IN01,I701 EXCHANGE ?
CHECK D811 ~ D815 CHECK I802,804,805
OK
OK
CHECK HEAT VOLTAGE,
16.5V, 45V, 190V LINE
NG
CHECK H DRIVE PULSE
AT PIN3 OF PA406
NG
CHECK H.VCC AT
PIN 37 OF I501
X501,X502 OSC OK ?
OK
OK
CHECK Q401,Q402,T401,C418
R401,R402,R407,R409
I301,D301,D302
OK
CHECK DATA,CLOCK AT
PIN 7,8 OF I501.
CHECK PULSE AT PIN 6,13,38
OF I501.
OK
CHECK PULSE R,G,B,FB AT
PIN 18,19,20,21 OF I501
OK
CHECK CONNNECTOR PA904
P401,PA408
OK
10-2. NO OSD DISPLAY
NG NG
CHECK V SYNC
OF P405.
NG NG NG
CHECK I301 AND
ADJACENT CIRCUIT.
CHECK H,V SYNC SIGNAL
AT PIN 45,46 OF I701
CHECK H SYNC
(SC) OF PA405
CHECK D501
CHECK CONNECTOR
(PA406) AND PATTERN
OK
CHECK OSD OSC
PULSE.
OK
CHECK L,C or I701 CHECK 23,24,25,26
PULSE AND VOLT
NG
CHECK BRIGHT,CONTRAST
CONTROL = MINIMUM ?
54
Page 57
10-3. NO PICTURE(RASTER OK)
CHECK VIDEO SIGNAL
AT PIN6 OF I501 (TDA8374)
NG
CHECK DATA,CLOCK AT
PIN7,8 OF I501 ( TDA8374 )
OK
CHECK SIGNAL AT PIN48,
49 OF I501 ( TDA8374 )
OK
CHECK TUNER VCC, DATA
CLOCK,MODULE RF(ANT01)
10-4. NO COLOUR
NG
CHECK I701 AND ADJACE-
NT PATTERN.
CHECK R-Y,B-Y SIGNAL
AT PIN 31,32 OF I501.
(TDA8374)
OK
CHECK VIDEO SIGNAL AT
PIN13 OF I501 ( TDA8374 ).
NG
CHECK QC504,
QC512
29, 30, 31, 32 OF I501
NG
CHECK I502,
I503 AND VCC
AT PIN 18,19,20,21
OK
CHECK R-Y, B-Y
IN/OUT AT PIN
OK
CHECK SIGNAL
OF I501
OK
CHECK R,G,B SIGNAL
AT PIN 19,20,2 1 OF I501
OK OKNG
CHECK / REPLACE I901, I902
I903 ( CRT BOARD )
CHECK / REPLACE
I501 ( TDA8374 )
55
CHECK / REPLACE
I502 ( TDA4665 )
NG
CHECK R-Y, B-Y SIGNAL
AT PIN 29,30 OF I501
NG
CHECK X501,X502
CC523,CC524,CC534
CC503,RC543
NG
CHECK / REPLACE
I503 ( TDA8395 )
( SECAM )
NG
CHECK SIGNAL AT
PIN38 OF I501.
Page 58
10-5. NO SOUND
CHECK AUDIO SIGNAL
AT PIN 15 OF I501
(TDA8374)
NG
CHECK VOLUME CONTROL
VOLTAGE ?
CHECK SIGNAL AT PIN 1
OF I501
NG
CHECK QC505,Z501,Z502
OK
CHECK SIGNAL AT PIN 55
OF I501.
10-6. NO EXTERNAL A V
SCART JACK INPUT
CHECK SIGNAL AT
PIN 23,24,25 OF I501.
CHECK V OLTAGE AT PIN
OK
I701 20 PIN = H ? IN01 56 PIN = H ?
CHECK QCY17,QC601 AND
ADJACENT CIRCUIT
OK
2,3 OF I601
NG
SPEAKER ?
SPEAKER CONNECTOR ?
RCA JACK INPUT
CHECK SIGNAL AT
PIN 11 OF I501.
CHECK SWITCHING
VOLTAGE ABOUT 2.2V
AT PIN 26 OF I501.
NG
CHECK QC511 AND
ADJACENT CIRCUIT.
CHECK / REPLACE
I501.
CHECK SCART JACK
AND PATTERN.
CHECK I701 AND
ADJACENT CIRCUIT.
OK
OK
NG
OK
CHECK AT PIN 19 OF
I701 = H ?
OK
CHECK / REPLACE
I501.
NGOK
CHECK SCART JACK
AND PATTERN.
56
Page 59
10-7. SERVO-SYSCON CIRCUIT
A.
PLAYBACK PICTURE
IS NOT GOOD.
NOISE APPEARS ALTHOUGH
ADJUSTING TRACKING.
OK
IS CTL PULSE OUTPUT AT
P1N 92 OF IN01.
OK
IS CTL PULSE INPUT
AT P1N 91 OF IN01.
OK
THE VOLTAGE OF PIN 2 OF
IN01 NOT CHANGING ?
OK
CHECK IN01
ADJUST TRACKING
NG
NG NG
NOISE APPEARS ALTHOUGH
CHANGE CASSETTE TAPE.
CTL HEAD HEIGHT IS
NORMAL AND THERE IS
NOT DUST ?
NG
NG
CHECK QCN05, CCN52 ,
CCN15, RCN35, CN59,
CN34, CN35.
CHECK CN01,RCN01
OK
OK
CHECK AND RE-ADJUST
THE PATH OF DECK.
ADJUST THE HEAD HEIGHT
AND REMOVE DUST ?
CHECK CONNECTOR PAY03
B.
PLAYBACK PICTURE
IS NOT GOOD.
NOISE APPEARS ON THE SCREEN O N THE WHOLE
OK
ARE SW PULSE AND HA SW
APPLIED TO PREAMP
CIRCUIT
OK
IS ENVE. WAFEFORM
SUPPLIED TO PIN4 OF PY04
OK
CHECK VIDEO CIRCUIT.
NG NG
NG NG
NG
NOISE APPEARS ON THE
SCREEN AT THE BOTTOM.
IS SW PULSE SUPPLIED
FROM PIN 18 OF IN01.
CHECK CONNECTOR,
HEAD-AMP AND HEAD DUST
OK
OK
NG
CHECK FLOW A.
ADJUST THE PG IN
SVC MODE
CHECK CONNECTOR PY04.
CHECK DRUM P.G INPUT.
CHECK PATTERN.
CHANGE DRUM ASS'Y
57
Page 60
C.
AUTO-STOP DURING
PLAYBACK.
D.
IS REEL PULSE APPLIED TO
PIN 81 AND 82 OF IN01 ?
OK
IS DRUM F.G APPLIED TO
PIN 87 OF IN01 ?
OK
CHECK IN01.
DRUM MOTOR
LOADING STOP.
IS MOTOR 12V SUPPLIED
IN03 7,8 PIN 12V ?
OK
S 6.2V SUPPLIED TO
PIN 4 OF IN03
NG
NG
NG
NG
CHECK REEL SENSOR.
CHECK CONNECTOR AND
DRUM F.G CIRCUITS.
CHECK POWER
MODULE
CHECK DN05
OK
CHANGE IN03
OK
CHECK CONNECTOR
AND MOTOR
NG
CHECK PAN01 AND
LOADING MOTOR
58
Page 61
E.
CAPSTAN MOTOR
LOADING STOP.
F.
IS MOTOR VCC SUPPLIED ?
OK
IS THE INPUT OF PIN 6 OF
PN03 2.5V ~ 3.5V ?
OK
IS PIN 4 OF PN03 2.5V ?
OK
DOES PIN 77 OF IN01
SUPPLY CAPSTAN PWM.
OK
CHECK CONNECTOR
AND MOTOR.
DRUM MOTOR AND CAPSTAN
MOTOR ROTATE AT REGULAR
SPEED. ( IN REC MODE )
NG
NG
NG
NG
CHECK POWER MODULE.
CHECK CIRCUIT OF RN12,
RN33, RN44
CHECK RCN31, RCN32
CHECK IN01, RCN10, RCN11
G.
IS C.SYNC APPLIED TO PIN
84 OF IN01.
OK
CHECK MOTOR.
EMERGENCY MODE WHEN
PLUGGING (POWER CORD)
IS EVER 5V APPLIED ?
OK
DOES XN02 OSCILLATOR ?
OK
IS CAM SW DATA CORRECT ?
OK
CHECK IN03
OK
CHECK IN01
NG
NG
NG
NG
CHECK C.SYNC OF VIDEO
IC AND PATTERN.
CHECK POWER MODULE
CHECK IN01 AND XN02
RECHECK CONNECTOR
AND CAM SW CONTACT.
59
Page 62
H.
CASSETTE IS NOT INSERTE
OK
IS MOTOR VCC SUPPLIED ?
( AT PIN 7 OF PA805 )
OK
CAM DATA IS CHANGED
WHEN CST IN ?
OK
IS 5V APPLIED TO PIN 5 OF
IN03 WHEN CST IN ?
NG
NG
NG
CHECK POWER MODULE ?
CHECK CONNECTOR
NG
CHECK DECK PART.
IS 5V SUPPLIED AT
PIN 45 OF IN01 ?
OK OK
CHECK IN01 CHECK PATTERNCHECK IN03
10-8. VCR AUDIO CIRCUIT(NORMAL)
A. TROUBL E SHOO TING OF P B MODE
NO SOUND IN THE PLAYBACK MODE
IS THE OUTPUT AT PIN 77
OF IY01 ?
OK OK
CHECK A/V SELECT CIRCUIT
NG NG
IS 5V APPLIED TO PIN 76 OF
IY01 AND IS 5.8V APPLIED
TO PIN 2 OF TY01 ?
IS LESS THAN 0.2V AT PIN
80 OF IY01 ?
IS COLLECTOR OF QCY10
OK OK
GND ?
NG
CHECK POWER CIRCUIT
NG
IS CLOCK AND DATA AP PLIED
TO PIN 63,64 OF IY01?
CHECK SYSCON
NG
CHECK QCY09,QCY10,
NG
QCY12
OK
CHECK PATTERN AND
AC HEAD.
60
Page 63
B. TROUBL E SHOO TING OF RE C MODE .
NO SOUND IN THE
PLAYBACK MODE
AFTER RECORDING
IS SIGNAL INPUT INTO
PIN 71,73 OF IY01.
OK
IS 5V APPLIED TO PIN 76
OF IY01 AND IS ABOUT 5.7V
APPLIED TO PIN 2 OF TY01
OK
IS THE VOLTAGE ABOVE 4V
AT PIN 80 OF IY01 ?
OK
IS SIGNAL INPUT INTO PIN
79 OF IY01 ?
OK
DOES PIN 6 OF TY01
OSCILLATE ?
NG
NG
NG
NG
NG
CHECK A/V SELECT
CIRCUIT.
CHECK SYSCON.
IS CLOCK AND DATA APPL­ IED TO PIN 63,64 OF IY01 ?
CHECK RCY37, RCY38,
CCY27.
OK
IS THE VOLTAGE FROM 0.7V
TO 3.0V AT PIN 5 OF IY01 ?
NG
NG
NG
CHECK SYSCON.
CHECK IY01.
NG
AC SIGNAL IS PUT ON THE
DC VOLTAGE AT PIN 5 OF
IY01.
OK
CHECK AC HEAD.
IS THE VOLTAGE FROM 0.7V
TO 0.8V AT PIN 6 OF IY01 ?
OK
AC SIGNAL PUT ON 70KHz
AT BASE OF QY04.
OK OK
CLEAN HEAD. CHECK RY21, RY22, TY01, CCY47.
OK OK
61
OK
NG
NG
IS THE VOLTAGE HIGHER THAN
3.0V AT COLLECTOR OF QCY06 ?
CHECK IY01.CHECK QCY06CHECK IY01.
NG
Page 64
10-9. VCR VIDEO CIRCUIT
A. TROUBLE SHOOTING OF PREAMP IN THE PLAYBACK MODE.
IS THE SIGNAL FROM HEADS
FED TO PIN1 AND PIN3 (LP MODE)
OR PIN 5 AND PIN 7 (SP MODE) OF
PAY01.
OK
IS ON/OFF 5V FROM PIN 76 OF
IY01 SUPPLIED TO PIN 13 OF IY04
AT 5VOLTS ?
OK
IS REC (H) FROM PIN 19 OF
IY01 SUPPLIED TO PIN 11 OF
IY04 AT ZERO VOLTS ?
OK
IS H.AMP SW FROM PIN 16 OF
IN01 SUPPLIED TO PIN 3 OF
IY04 ?
NG
NG
NG
NG
IY04 : LA70001
CHECK DRUM AND
DECK MECHANISM.
CHECK ON/OFF 5V
CHECK REC (H)
CHECK H.AMP SW
OK
IS VIDEO SW FROM PIN 18 OF
IN01 SUPPLIED TO PIN 4 OF
IY04 ?
OK
IS TRICK(H) FROM PIN 21 OF IY01 SUPPLIED TO DN07 AT
ZERO VOLT ?‘
OK
IS THE SIGNAL FROM PIN1 AND
PIN3 (LP MODE) OR PIN5 AND
PIN7 (SP MODE) OF PAY01 FED
OK
IS THE SIGNAL FROM PIN7 OF
IY04 FED TO C354 ?
OK
CHECK VIDEO CIRCUIT
NG
NG
NG
NG
CHECK VIDEO SW
CHECK TRICK (H)
CHANGE IY04
CHECK PB EQ
REC(H) : "HIGH" IN THE RECORD MODE "LOW" IN THE EE AND PB MODE H.A SW : "HIG H" IN THE LP MODE "LOW" IN THE S P MODE TRICK(H) : "HIGH" IN THE TRICK PLAY
62
Page 65
B. TROUBLE SHOOTING OF PREAMP IN THE RECORD MODE.
IY04 : LA70001
IS THE Y-FM SIGNAL FROM PIN
18 OF IY01 FED TO PIN9 OF IY04 ?
OK
IS THE DOWN CONVERTED COLOUR
SIGNAL FROM PIN 14 OF IY01 FED
TO PIN 10 OF IY04 ?
OK
IS ON/OFF 5V SUPPLIED TO PIN
13 OF IY04 AT 5 VOLTS ?
OK
IS REC(H) SUPPLIED TO PIN 11 OF
IY04 AT 5 VOLTS ?
OK
IS TRICK (H) SUPPLIED TO PIN 1
OF IY04 AT ZERO VOLTS ?
OK
IS THE SIGNAL FROM PIN9 AND PIN
10 FED TO PIN 22 (SP MODE) AND
PIN17 (LP MODE) OF IY04 ?
NG
NG
NG
NG
NG
NG
CHECK RY48, CCY05
AND PCB PATTERN.
CHECK CCY04 AND
PCB PATTERN.
CHECK ON/OFF 5V
CHECK REC (H)
CHECK TRICK (H)
CHECK IY04.
OK
CHANGE DRUM
63
Page 66
C. TROU BLE SHO O TING OF LUMI NA NCE SI GNA L IN T HE RE COR D MO DE.
IS THE VIDEO SIGNAL FROM PIN
24 OF IY01 ?
OK
IS ON/OFF 5V SUPPLIED TO PIN 36
AND PIN 47 OF IY01 AT 5 VOLTS ?
OK
IS THE LUMINANCE SIGNAL FROM
PIN 25 OF IY01 FED TO PIN 26 OF
IY01 ?
OK
IS THE LUMINANCE SIGNAL FROM
PIN 26 OF IY01 FED TO PIN 18 OF
IY01 ?
NG
NG
NG
NG
CHECK PCB PATTERN
AND ADJACENT CIRCUIT.
CHECK ON/OFF 5V
CHECK QCY03, RCY02, RCY39, CCY46, CCY70.
IS TRICK (H) SUPPLIED TO
ANODE OF DN07 AT 0 VOLT ?
OK
CHECK IY01 CHECK TRICK (H)
NG
OK
IS THE MODULATING LUMINANCE
SIGNAL FROM PIN 18 OF IY01 FED
TO PIN 9 OF IY04 ?IY01 ?
OK
TO PREAMP CIRCUIT
NG
CHECK RY48, CCY05
64
Page 67
D.TROUBL E SH OO TIN G OF PAL COLO UR I N THE REC ORD MODE.
IS THE VIDEO SIGNAL FROM PIN
35 OF IY01 ?
OK
IS ON/OFF 5V SUPPLIED TO PIN 36
AND PIN 47 OF IY01 AT 5 VOLTS ?
OK
IS THE DOWN-CONVERTED COLOUR
SIGNAL OBTAINED FROM PIN 14 OF
IY01 ?
OK
IS THE DOWN-CONVERTED COLOUR
SIGNAL FROM PIN 14 OF IY01 FED
TO PIN 7 OF IY04 THROUGH BUFFER
QCY08, QCY11 ?
OK
TO PREAMP CIRCUIT.
NG
NG
NG
NG
CHECK PCB PATTERN AND
ADJACENT CIRCUIT.
CHECK ON/OFF 5V
CHECK IY01.
CHECK QCY08, QCY11
AND ADJACENT CIRCUIT.
E.TROUBLE SHOOTING OF SECAM COLOUR IN THE RECORD MODE.
IS THE VIDEO SIGNAL FROM PIN
35 OF IY01 ?
OK
IS ON/OFF 5V SUPPLIED TO PIN 5
AND PIN 17 OF IY03 AT 5 VOLTS ?
OK
IS THE SI GN AL FROM PIN 24 OF
IY03 FED TO PIN 12 OF IY03 AND
12dB AMP CIRCUIT ?
OK
IS THE SIGNAL FROM COLLECTOR
OF QCL07 FED TO PIN 10 OF IY04 ?
OK
TO PREAMP
CIRCUIT.
NG
NG
NG
NG
CHECK PCB PATTERN AND
ADJACENT CIRCUIT.
CHECK ON/OFF 5V
CHECK IY03 AND 12dB AMP
CIRCUIT.
CHECK QCL05, QCL07, CCL17,
RCL12
65
Page 68
F. TROUBLE SHOOTING OF LUMINANCE IN THE PLAYBACK MODE.
IS Y-FM SIGNAL FROM PIN 7 OF
IY04 FED TO PIN 15 OF IY01 ?
OK
IS ON/OFF 5V SUPPLIED TO PIN 36
AND PIN 47 OF IY01 AT 5 VOLTS ?
OK
IS THE LUMINANCE SIGNAL FROM
PIN 15 OF IY01 FED TO PIN 25 OF
OK
IS THE LUMINANCE SIGNAL FROM
PIN 25 OF IY01 FED TO PIN 26 OF
OK
IS THE LUMINANCE SIGNAL FROM
PIN 26 OF IY01 FED TO PIN 38 OF
NG
NG
NG
NG
NG
CHECK PREAMP CIRCUIT
CHECK ON/OFF 5V
CHECK QCY07, LY08, LY06,
CCY93, CCY42, CCY92, RCY52.
CHECK QCY03, RCY53, RCY39,
CCY70, CCY46, RCY02.
CHANGE IY01
OK
TO TV PART.
66
Page 69
G. TROUBLE SHOOTING OF PAL COLOUR IN THE PLAYBACK MODE.
IS THE SIGNAL FROM PIN 7 OF
IY04 FED TO PIN 15 OF IY01 ?
OK
IS THE PAL COLOUR SIGNAL FROM
PIN 7 OF IY04 FED TO PIN 15 OF
IY01 THROUGH AMP CIRCUIT ?
OK
IS ON/OFF 5V SUPPLIED TO PIN 36
AND PIN 47 OF IY01 AT 5 VOLTS ?
OK
IS THE PAL COLOUR SIGNAL FROM
PIN 15 OF IY01 FED TO PIN 48 AND
PIN 50 OF IY01 ?
OK
IS THE SIGNAL FROM PIN 48 AND
PIN 50 OF IY01 FED TO PIN 3 AND
PIN 1 OF IY02 R ESPECTIVELY ?
NG
NG
NG
NG
NG
CHECK PREAMP CIRCUIT
CHECK AMP CIRCUIT
THE AMP CIRCUIT CONSIST OF QCY08, QCY11 AND ADJACENT CIRCUIT.
CHECK ON/OFF 5V
CHECK IY01
CHECK IY01
OK
IS THE SIGNAL OBTAINED FROM
PIN 13 OF IY02 ?
OK
IS THE COLOUR SIGNAL FROM PIN
13 OF IY02 FED T O PIN 45 AND
THROUGH PIN 52 AND 46 OF IY01 ?
OK
IS COLOUR ROTARY SUPPLY TO
PIN 66 OF IY01 ?
OK
TO TV PART.
NG
NG
NG
CHECK IY01
CHECK IY01, QCY01,
RCY08, CY18.
CHECK COLOUR ROTARY
67
Page 70
H. TROU BLE SHOO TING OF S EC AM COL OU R IN THE PL AY BAC K MODE .
IS THE SIGNAL FROM PIN 7 OF
IY04 FED TO PIN 15 OF IY01 ?
OK
IS THE SIGNAL FROM PIN 7 OF
IY04 FED TO PIN 21 OF IY01 THROUGH
PB AMP AND 1.1MHz BPF ?
OK
IS ON/OFF 5V SUPPLIED TO PIN 5
AND PIN 17 OF IY 01 ?
OK
IS SECAM COLOUR SIGNAL FROM
PIN 21 FED TO PIN 12 OF IY01
THROUGH
PIN 14 AND 12dB AMP CIRCUIT ?
OK
IS C.SYNC ( COMPOSITIVE SYNC )
SUPPLIED TO PIN 9 OF IY03 ?
NG
NG
NG
NG
NG
CHECK PREAMP CIRCUIT
CHECK PB AMP CIRCUIT
AND IY03
THE AMP CIRCUIT CONSIST OF QCY08, QCY11 AND ADJACENT CIRCUIT.
CHECK ON/OFF 5V
CHECK 12dB AMP CIRCUIT.
THE 12dB AMP CIRCUIT CONSIST OF
QCL07,RCL33,RCL34,RCL36,CCL35
CHECK C.SYNC
OK
IS THE SIGNAL FROM PIN 12 FED
TO PIN 15 OF IY03 ?
OK
IS THE SIGNAL FROM PIN 15 OF
IY03 FED TO PIN 46 OF IY01 ?
OK
TO TV PART.
NG
NG
CHECK IY03.
CHECK CCL17,QCL05,RCL12
AND SECAM (H)
68
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11. ELECTRICAL PA RTS LIST

WARNING
COMPO NENTS MARKED W ITH THIS SYMBOL M UST ONLY BE REPLACED BY A COMPO NENT HAVING IDENTICAL PHYSICAL CHARACTERISTICS.
LOC PART CODE PART N AME PART TYPE REMARK
ZZ110 M821 ZZ120 M211 M541 M781 M782 ZZ130 M641 M801 M811 M822 ZZ131 L901 ZZ140 M191 M191A M192 M192A M211A M211C M481 M481A M491 M491A M561 M601A M601B M622 V901 V01 V02 V03 V04 V05
PTACPW A531 4858213800 PTBCSHA570 4852149321 4855415800 4857817610 4857817611 PTPKCPA531 6520010100 4858035800 4858182200 4858215700 48519A4610 58G0000084 PTCACAA531 4851927300 7128301011 4851926400 4856719800 7122401612 97P4602700 4854845801 4856715600 4854930001 7128301011 4855613600 4856013300 4856013301 4856215402 PTRTPWA531 58D1000046 48A96R004­ 4850PM001­ 2TG00020-­ 2224050033
ACCESSORY AS BAG INSTRUCTION COVER BACK AS COVER BACK SPEC PLATE CLOTH BLACK CLOTH BLACK PACK IN G AS STAPLE PIN BO X C AR TO N PAD BA G PE CRT GROUND AS COIL DEGAUSSING C AB I NET AS DECO SENSOR AS SCREW TAPPING D OOR F/L AS SP R ING SCREW TAPPING CLAMP CORD BUTTON POWER SP R ING BUTTON SCREW TAPPING M ARK BR AND SCREW CRT FIXING AS SCREW CRT FIXING AS WASHER RUBBER CR T AS CO IL DY RUBBER WEDG E MA G N E T CP TAPE GLASS BOND SILICON
DV T-1 4F 6L A L.D.P.E T0.05X250X400 D VT -14 F6 PA H IPS BK 150ART P/E FILM (C/TV) FELT T0 .7 L= 3 00 FELT T0 .7 L= 2 00 DV T-1 4F 6L A 18M/M J D O SW-3 EPS 14F6 1000X950 1401H-1015-1P DC-1450 DV T-1 4F 6L A 5526100+7817901 T2S WA S 3X 10 M FZ N 2817701+7823301 SWPB 0.3 5 T2S TRS 4X16 MFZN BK NYLON 66 BLK 5280N ABS BK SWPA ABS BK T2S WA S 3X 10 M FZ N COPPER T0.4 30X 80 BK 30X 1 40 YL C R DV T-1 4F 6L A OD Y -M 1 401 HM R 28 SR (|0X 54) NY-225 (MINI N ECK ) 20MMX 30 M RTV 2 52
!
69
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LOC PART CODE PART N AME PART TYPE REMARK
V901 ZZ200 M201 ZZ202 PA601 SP601 ZZ290 ANT01 D101 D102 D108 DL01 DL02 DN01 DN01A DQ01 DQ02 DQ03 HP601 I201 I501 I502 I503 I504 I505 I601 I601 I601A I601B I702 I703 IL01 IL02 IN02 IN03 IQ 0 1 IY03 IY04 JA01
48A96414P1 PTFMSJA531 4852064301 PTSPPWA531 4850703S03 4858312410 PTMPMSA531 4850M03110 D1S2186--­ D1S2186--­ DBB909A--­ D1S2186--­ D1S2186--­ DS15312H-­ 97P2339600 DKLY114L-­ DKLG114L-­ DKLR114L-­ 4859102430 1TDA9802-­ 1TDA8374N 3 1TDA4665V4 1TDA8395-­ 1TC4053BP­ 1KA7808--­ PTB2SW8900 1TDA7056-­ 4857018900 7174300811 1MN1280R-­ 1CAT24C08P 1STV8225-­ 1STV8225-­ 1K1A7042P­ 1BA6209--­ 1TFMW5380­ 1TA1238N-­ 1LA70001-­ 4859104940
CRT BARE MASK FRONT AS MASK FRONT SPEAKER AS CO N N AS SPEAKER PCB MAIN MANU AL AS MO D U L E R F DIO DE DIO DE DIO DE DIO DE DIO DE LED IR HO LDE R I R LED LED LED JACK EARPHON E IC IC VIDEO PRO CESSO R IC DE LAY IC IC IC RE G U L ATOR HEAT SINK ASS`Y IC HE AT S I NK IC SCREW TAPPTITE IC IC IC SIF IC SIF IC SWITC H IC IC PR EAMP IC SE CAM.L IC PR EAMP JACK PHON O
A34 JLL 90 X D VT - 14 F 6L A HIPS BK D VT - 14 F 6L A YH025-03+YST025+ULW=200 SP- 77 A04 D VT - 14 F 6L A PH-RF-9701A 1S2186 1S2186 BB909A 1S2186 1S2186 SI531 2-H ABS KLY 114-L (YELLOW ) KLG-114L KLR114L YSC-1538 TDA9802 TDA8374/N3 TDA4665/V4 TDA8395 TC4053BP KA7808 1TDA7056-- + 7174300811 TDA7056 A1050P-H24 T1.6 TT2 RND 3X 8 MFZ N MN 1280R CAT24 C0 8 P STV8225 STV8225 KI A7042 P BA6209 TFMW5380 TA1238N LA70001 (2HD) YSC0 2P-4100 - 13A
!
70
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LOC PART CODE PART N AME PART TYPE REMARK
JS01 L101 L102 L103 L201 L604 M193 M194 M194A M194B M194C M231 M351 M391 M681 M682 M721 M721A M721B M722 M723 M724 M724A M725A M791 PA405 PA406 PA408 PA803 PA805 PA N 0 1 PAY 0 1 PAY 0 2 PAY 0 3 PN02 PN03 R580 SF01 SF02
4859200401 58C9780027 58E0000S37 58C9780027 58B0000S88 58C6R8J067 4851930200 4851931601 7122401612 7121301212 7128301212 97P2316600 4853530800 4853948400 4856812001 4856814600 4857242900 7122401612 7128301212 4851923500 4857242000 4857243300 7174300811 7128301011 4857913304 4850705S02 4850705S03 4850707S12 4850703S20 4850710V04 4850707V04 4859245710 4850702V07 4850706V10 4859278120 4859278220 RF-2Y100J­ 5PG1966M-­ 5PL9461M--
SO C K ET RGB CO IL CHOKE CO IL A FT CO IL CHOKE CO IL P IF CO IL CHOKE DE C K A S FRAME MAIN PCB AS SCREW TAPPING SCREW TAPPING SCREW TAPPING HOLDER AC CORD HO LDE R LE D BR K T EA R T H TIE C AB L E CLAMP WIRE S HIEL D T OP SCREW TAPPING SCREW TAPPING SHIELD CASE AS SH IEL D P LAT E SHIELD CASE SCREW TAPPTITE SCREW TAPPING RUBBER CUSHION CO N N AS CO N N AS CO N N AS CO N N AS CO N N AS CO N N AS CONN HOUSING CO N N AS CO N N AS CO N N WA FER CO N N WA FER R FU S IB LE FILTER S AW FILTER S AW
SR-21A1 (AN G LE TYPE) TRF-1201B (0.97 UH ) TRF-A0 01 TRF-1201B (0.97 UH ) TRF-7780 A ( ST I CK) TRF-1015 C (6.8 UH J) DRP-7203(2HD,SP/LP) 3816000+7817620+7817640 T2S TRS 4X16 MFZN BK T2S PAN 3X12 MF ZN BK T2S WAS 3X12 MFZN BK NYL O N 66 U L/CS A FR H IPS B K C5212P-1/2M T0.15 N YL ON6 6 DA1 00 NYL O N 66 SECC-O T0. 8 T2S TRS 4X16 MFZN BK T2S WAS 3X12 MFZN BK D VN-14 F7JA SPTH-C T0 .3 ET T0. 3 TT2 RND 3X 8 MFZ N T2S WA S 3X 10 MFZ N FR RUBBER SPONGE YH025-05+YST025+ULW=200 YH025-05+YST025+ULW=300 YH025-07+YST025+UAW=400 YH025-03+YST025+ULW=400 YH025-10+YBNH250+ULW=200 60-8283-3078-45+ULW=200 00-8370-041-000-800 BI C-02 H- 2 0T +US W= 1 00 60-8283-3068-45+UAW=150 TKC -G 0 6P -A1 TKC -G 1 0P -A1 1/2W 10 O HM J G1966M L 9461-M
71
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LOC PART CODE PART N AME PART TYPE REMARK
SF03 SF04 SN01 SN02 SN03 SN03A SN04 SN04A SW01 SW06 SW07 SW08 TY01 U101 U101A U102 U102A X701 Z203 Z205 ZZ200 CC101 CC102 CC103 CC104 CC105 CC108 CC109 CC110 C C111 CC112 CC113 CC114 CC115 CC116 CC117 CC118 CC119 CC201
5PG1966M-­ 5PL9461M-­ 1SG239S--­ 1SG239S--­ TST5811--­ 97P2338200 TST5811--­ 97P2338200 5SN0101Z20 5S50202002 5S50202002 5S40202013 5800000032 4859717030 4859005350 4859717030 4859005450 5XE18R000E 5PMKT40M A ­ 5PMKT40M A ­ PTMPJ2A531 HCQK220JCA HCFK104ZC A HCFK103ZC A HCFK104ZC A HCFK104ZC A HCBK102K CA HCQK101JCA HCFK103ZC A HCFK103ZC A HCFK103ZC A HCFK103ZC A HCQK102JCA HCFK103ZC A HCQK101JCA HCFK103ZC A HCQK221JCA HCQK221JCA HCBK333K CA
FILTER S AW FILTER S AW IC SE NSOR IC SE NSOR TR PH O TO HO L DE R TR TR PH O TO HO L DE R TR SW D E TE C T SW TAC T SW TAC T SW P U S H CO IL O S C TUNER VARACTOR JACK PHONE PLUG A S TUNER VARACTOR JACK PHONE PLUG A S CRYSTAL QUARTZ FI LTE R CERA FI LTE R CERA PCB CHIP MOUN T B AS C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA
G1966M L 9461-M SG-239S SG-239S ST- 5811 ( D- RAN K) ABS ST- 5811 ( D- RAN K) ABS JDS1105-6X JTM-11 08B 2C -2P JTM-11 08B 2C -2P SPUJ19XSM011(KPJ 2S1B) DE0 -0 06 TELE9-084A PLUG+CA B LE1365 AW G 24=150D TELE9-084A PLUG+CA B LE1365 AW G 24=250D HC-49/U 18.000MHZ 30PPM MKT40MA100P MKT40MA100P D VT - 14 F 6L A 50V CH 22PF J 2012 50V Y5V 0.1MF Z 2012 50V Y5V 0.01MF Z 2012 50V Y5V 0.1MF Z 2012 50V Y5V 0.1MF Z 2012 50V X7R 1000PF K 2012 50V CH 100PF J 2012 50V Y5V 0.01MF Z 2012 50V Y5V 0.01MF Z 2012 50V Y5V 0.01MF Z 2012 50V Y5V 0.01MF Z 2012 50V CH 1000PF J 2012 50V Y5V 0.01MF Z 2012 50V CH 100PF J 2012 50V Y5V 0.01MF Z 2012 50V CH 220PF J 2012 50V CH 220PF J 2012 50V X7R 0.033MF K 2012
72
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LOC PART CODE PART N AME PART TYPE REMARK
CC202 CC203 CC204 CC205 CC206 CC207 CC208 CC209 CC211 CC212 CC213 CC214 CC215 CC217 CC218 CC220 CC221 CC222 CC223 CC224 CC225 CC228 CC235 CC236 CC503 CC504 CC505 CC506 CC507 CC508 CC509 CC510 CC511 CC512 CC513 CC515 CC516 CC517 CC518
HCBK223K CA HCQK220JCA HCQK220JCA HCQK820JCA HCFK104ZC A HCFK104ZC A HCFK103ZC A HCBH224K C A HCQK820JCA HCFK104ZC A HCBK102K CA HCQK390JCA HCQK220JCA HCBK102K CA HCBK102K CA HCBK472K CA HCFK104ZC A HCFK104ZC A HCBK333K CA HCFK103ZC A HCFK104ZC A HCTAF229MB HCQK221JCA HCQK221JCA HCTAJ478MB HCFK104ZC A HCTAJ478MB HCFK104ZC A HCFK104ZC A HCFK104ZC A HCFK104ZC A HCFK103ZC A HCFK104ZC A HCFK103ZC A HCFK103ZC A HCBK102K CA HCBK102K CA HCBK102K CA HCBK102K CA
C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP TANTAL C CHIP CERA C CHIP CERA C CHIP TANTAL C CHIP CERA C CHIP TANTAL C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA
50V X7R 0.022MF K 2012 50V CH 22PF J 2012 50V CH 22PF J 2012 50V CH 82PF J 2012 50V Y5V 0.1MF Z 2012 50V Y5V 0.1MF Z 2012 50V Y5V 0.01MF Z 2012 25V X7R 0.22MF K 2012 50V CH 82PF J 2012 50V Y5V 0.1MF Z 2012 50V X7R 1000PF K 2012 50V CH 39PF J 2012 50V CH 22PF J 2012 50V X7R 1000PF K 2012 50V X7R 1000PF K 2012 50V X7R 4700PF K 2012 50V Y5V 0.1MF Z 2012 50V Y5V 0.1MF Z 2012 50V X7R 0.033MF K 2012 50V Y5V 0.01MF Z 2012 50V Y5V 0.1MF Z 2012 16V 2.2MF M 3216 50V CH 220PF J 2012 50V CH 220PF J 2012 35V 0.47MF M 3216 50V Y5V 0.1MF Z 2012 35V 0.47MF M 3216 50V Y5V 0.1MF Z 2012 50V Y5V 0.1MF Z 2012 50V Y5V 0.1MF Z 2012 50V Y5V 0.1MF Z 2012 50V Y5V 0.01MF Z 2012 50V Y5V 0.1MF Z 2012 50V Y5V 0.01MF Z 2012 50V Y5V 0.01MF Z 2012 50V X7R 1000PF K 2012 50V X7R 1000PF K 2012 50V X7R 1000PF K 2012 50V X7R 1000PF K 2012
73
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LOC PART CODE PART N AME PART TYPE REMARK
CC519 CC520 CC521 CC522 CC523 CC524 CC525 CC526 CC527 CC528 CC529 CC531 CC532 CC533 CC534 CC535 CC536 CC537 CC538 CC539 CC540 CC541 CC542 CC544 CC549 CC550 CC551 CC552 CC554 CC561 CC568 CC569 CC572 CC573 CC574 CC575 CC576 CC601 CC602
HCBK102K CA HCBK102K CA HCBK102K CA HCBK102K CA HCQK130JCA HCQK130JCA HCBK181KEA HCBK181KEA HCBK181KEA HCBK181KEA HCBK223K CA HCQK151JCA HCQK680JCA HCBK392K CA HCBK472K CA HCBK472K CA HCBK332K CA HCQK560JCA HCBK223K CA HCQK221JCA HCTBF100M B HCBK223K CA HCTAJ478MB HCQK100DCA HCFK104ZC A HCFK104ZC A HCFK104ZC A HCTAF229MB HCTAF229MB HCTAF229MB HCTAF229MB HCTAH109MB HCTAJ478MB HCFK103ZC A HCBK102K CA HCTAF229MB HCBK473K CA HCFK103ZC A HCFK103ZC A
C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C C HI P TA NTAL C CHIP CERA C C HI P TA NTAL C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C C HI P TA NTAL C C HI P TA NTAL C C HI P TA NTAL C C HI P TA NTAL C C HI P TA NTAL C C HI P TA NTAL C CHIP CERA C CHIP CERA C C HI P TA NTAL C CHIP CERA C CHIP CERA C CHIP CERA
50V X7R 1000PF K 2012 50V X7R 1000PF K 2012 50V X7R 1000PF K 2012 50V X7R 1000PF K 2012 50V CH 13PF J 2012 50V CH 13PF J 2012 50V X7R 180PF K 3216 50V X7R 180PF K 3216 50V X7R 180PF K 3216 50V X7R 180PF K 3216 50V X7R 0.022MF K 2012 50V CH 150PF J 2012 50V CH 68PF J 2012 50V X7R 3900PF K 2012 50V X7R 4700PF K 2012 50V X7R 4700PF K 2012 50V X7R 3300PF K 2012 50V CH 56PF J 2012 50V X7R 0.022MF K 2012 50V CH 220PF J 2012 16V 10MF M 3528 50V X7R 0.022MF K 2012 35V 0.47MF M 3216 50V CH 10PF D 2012 50V Y5V 0.1MF Z 2012 50V Y5V 0.1MF Z 2012 50V Y5V 0.1MF Z 2012 16V 2.2MF M 3216 16V 2.2MF M 3216 16V 2.2MF M 3216 16V 2.2MF M 3216 25V 1MF M 3216 35V 0.47MF M 3216 50V Y5V 0.01MF Z 2012 50V X7R 1000PF K 2012 16V 2.2MF M 3216 50V X7R 0.047MF K 2012 50V Y5V 0.01MF Z 2012 50V Y5V 0.01MF Z 2012
74
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LOC PART CODE PART N AME PART TYPE REMARK
CC603 CC604 CC605 CC606 CC607 CC608 CC612 CC701 CC702 CC703 CC704 CC705 CC706 CC707 CC708 CC709 CC710 CC712 CC713 CC714 CC715 CC716 CC717 CC718 CC720 CC721 CC725 CC727 CC728 CC729 CCL01 CCL02 CCL03 CCL04 CCL05 CCL06 CCL08 CCL10 CCL12
HCFK103ZC A HCFK103ZC A HCQK101JCA HCQK101JCA HCBK102K CA HCBK102K CA HCFK103ZC A HCFK103ZC A HCBK333K CA HCBK333K CA HCBK472K CA HCBH224K C A HCFK103ZC A HCQK150JCA HCQK180JCA HCFK103ZC A HCQK160JCA HCQK390JCA HCFK103ZC A HCQK330JCA HCFK103ZC A HCQK221JCA HCBH224K C A HCTAJ478MB HCFK104ZC A HCFK104ZC A HCFK103ZC A HCFK103ZC A HCFK103ZC A HCTAH109MB HCQK220JCA HCQK150JCA HCFK103ZC A HCFK103ZC A HCFK104ZC A HCFK104ZC A HCFK103ZC A HCQK101JCA HCBK333K CA
C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C C HI P TA NTAL C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C C HI P TA NTAL C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA
50V Y5V 0.01MF Z 2012 50V Y5V 0.01MF Z 2012 50V CH 100PF J 2012 50V CH 100PF J 2012 50V X7R 1000PF K 2012 50V X7R 1000PF K 2012 50V Y5V 0.01MF Z 2012 50V Y5V 0.01MF Z 2012 50V X7R 0.033MF K 2012 50V X7R 0.033MF K 2012 50V X7R 4700PF K 2012 25V X7R 0.22MF K 2012 50V Y5V 0.01MF Z 2012 50V CH 15PF J 2012 50V CH 18PF J 2012 50V Y5V 0.01MF Z 2012 50V CH 16PF J 2012 50V CH 39PF J 2012 50V Y5V 0.01MF Z 2012 50V CH 33PF J 2012 50V Y5V 0.01MF Z 2012 50V CH 220PF J 2012 25V X7R 0.22MF K 2012 35V 0.47MF M 3216 50V Y5V 0.1MF Z 2012 50V Y5V 0.1MF Z 2012 50V Y5V 0.01MF Z 2012 50V Y5V 0.01MF Z 2012 50V Y5V 0.01MF Z 2012 25V 1MF M 3216 50V CH 22PF J 2012 50V CH 15PF J 2012 50V Y5V 0.01MF Z 2012 50V Y5V 0.01MF Z 2012 50V Y5V 0.1MF Z 2012 50V Y5V 0.1MF Z 2012 50V Y5V 0.01MF Z 2012 50V CH 100PF J 2012 50V X7R 0.033MF K 2012
75
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LOC PART CODE PART N AME PART TYPE REMARK
CCL14 CCL15 CCL16 CCL17 CCL18 CCL19 CCL20 CCL21 CCL26 CCL27 CCL30 CCL31 CCL33 CCL34 CCL35 CCL36 CCN02 CCN07 CCN08 CCN09 CCN10 CCN11 CCN12 CCN14 CCN15 CCN17 CCN20 CCN21 CCN29 CCN31 CCN37 CCN44 CCN45 CCN48 CCN49 CCN50 CCN52 CCN57 CCN58
HCBK473K CA HCFK103ZC A HCQK820JCA HCFK103ZC A HCBK473K CA HCFK103ZC A HCTBH 479M B HCTAF229MB HCTAH109MB HCTAH109MB HCTBH 479M B HCQK101JCA HRFT000-CA HCFK103ZC A HCFK103ZC A HCTBF100M B HCFK104ZC A HCFK103ZC A HCBK102K CA HCFK103ZC A HCFK103ZC A HCBK102K CA HCBK102K CA HCFK103ZC A HCBK332K CA HCFK104ZC A HCFK103ZC A HCBK223K CA HCBK223K CA HCFK104ZC A HCTAH109MB HCFK104ZC A HCFK104ZC A HCFK104ZC A HCFK103ZC A HCFK104ZC A HCFK103ZC A HCTBF100M B HCTAH109MB
C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP TANTAL C CHIP TANTAL C CHIP TANTAL C CHIP TANTAL C CHIP TANTAL C CHIP CERA R C HI P C CHIP CERA C CHIP CERA C CHIP TANTAL C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP TANTAL C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP TANTAL C CHIP TANTAL
50V X7R 0.047MF K 2012 50V Y5V 0.01MF Z 2012 50V CH 82PF J 2012 50V Y5V 0.01MF Z 2012 50V X7R 0.047MF K 2012 50V Y5V 0.01MF Z 2012 25V 4.7MF M 3528 16V 2.2MF M 3216 25V 1MF M 3216 25V 1MF M 3216 25V 4.7MF M 3528 50V CH 100PF J 2012 1/10 0 OHM 2012 50V Y5V 0.01MF Z 2012 50V Y5V 0.01MF Z 2012 16V 10MF M 3528 50V Y5V 0.1MF Z 2012 50V Y5V 0.01MF Z 2012 50V X7R 1000PF K 2012 50V Y5V 0.01MF Z 2012 50V Y5V 0.01MF Z 2012 50V X7R 1000PF K 2012 50V X7R 1000PF K 2012 50V Y5V 0.01MF Z 2012 50V X7R 3300PF K 2012 50V Y5V 0.1MF Z 2012 50V Y5V 0.01MF Z 2012 50V X7R 0.022MF K 2012 50V X7R 0.022MF K 2012 50V Y5V 0.1MF Z 2012 25V 1MF M 3216 50V Y5V 0.1MF Z 2012 50V Y5V 0.1MF Z 2012 50V Y5V 0.1MF Z 2012 50V Y5V 0.01MF Z 2012 50V Y5V 0.1MF Z 2012 50V Y5V 0.01MF Z 2012 16V 10MF M 3528 25V 1MF M 3216
76
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LOC PART CODE PART N AME PART TYPE REMARK
CCN60 CCQ01 CCY01 CCY02 CCY03 CCY04 CCY05 CCY06 CCY07 CCY08 CCY09 CCY10 CCY11 CCY14 CCY15 CCY16 CCY19 CCY20 CCY21 CCY22 CCY23 CCY24 CCY25 CCY26 CCY27 CCY28 CCY29 CCY30 CCY31 CCY32 CCY33 CCY34 CCY35 CCY36 CCY37 CCY38 CCY39 CCY40 CCY42
HCQK100DCA HCFK103ZC A HCFK103ZC A HCFK103ZC A HCFK103ZC A HCFK103ZC A HCBK223K CA HCFK104ZC A HCFK103ZC A HCFK103ZC A HCFK104ZC A HCFK103ZC A HCFK103ZC A HCFK103ZC A HCFK103ZC A HCFK103ZC A HCFK104ZC A HCFK103ZC A HCFK103ZC A HCFK104ZC A HCFK104ZC A HCFK104ZC A HCQK101JCA HCFK104ZC A HCFK104ZC A HCFK104ZC A HCFK104ZC A HCFK104ZC A HCFK104ZC A HCBK153K CA HCQK101JCA HCFK103ZC A HCBK473K CA HCBK473K CA HCBK102K CA HCBK472K CA HCQK220JCA HCBK122K CA HCQK270JCA
C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA
50V CH 10PF D 2012 50V Y5V 0.01MF Z 2012 50V Y5V 0.01MF Z 2012 50V Y5V 0.01MF Z 2012 50V Y5V 0.01MF Z 2012 50V Y5V 0.01MF Z 2012 50V X7R 0.022MF K 2012 50V Y5V 0.1MF Z 2012 50V Y5V 0.01MF Z 2012 50V Y5V 0.01MF Z 2012 50V Y5V 0.1MF Z 2012 50V Y5V 0.01MF Z 2012 50V Y5V 0.01MF Z 2012 50V Y5V 0.01MF Z 2012 50V Y5V 0.01MF Z 2012 50V Y5V 0.01MF Z 2012 50V Y5V 0.1MF Z 2012 50V Y5V 0.01MF Z 2012 50V Y5V 0.01MF Z 2012 50V Y5V 0.1MF Z 2012 50V Y5V 0.1MF Z 2012 50V Y5V 0.1MF Z 2012 50V CH 100PF J 2012 50V Y5V 0.1MF Z 2012 50V Y5V 0.1MF Z 2012 50V Y5V 0.1MF Z 2012 50V Y5V 0.1MF Z 2012 50V Y5V 0.1MF Z 2012 50V Y5V 0.1MF Z 2012 50V X7R 0.015MF K 2012 50V CH 100PF J 2012 50V Y5V 0.01MF Z 2012 50V X7R 0.047MF K 2012 50V X7R 0.047MF K 2012 50V X7R 1000PF K 2012 50V X7R 4700PF K 2012 50V CH 22PF J 2012 50V X7R 1200PF K 2012 50V CH 27PF J 2012
77
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LOC PART CODE PART N AME PART TYPE REMARK
CCY43 CCY44 CCY46 CCY47 CCY48 CCY50 CCY52 CCY53 CCY55 CCY56 CCY59 CCY60 CCY62 CCY63 CCY64 CCY65 CCY66 CCY67 CCY68 CCY69 CCY70 CCY71 CCY74 CCY75 CCY76 CCY77 CCY79 CCY84 CCY91 CCY92 CCY93 CCY94 CCY96 CCY97 CCY98 CCY99 IY01 IY02 QC101
HCFK104ZC A HCFK103ZC A HCQK201JCA HCBK333K CA HCQK391JCA HCBK223K CA HCQK101JCA HCBK152K CA HCFK103ZC A HCTBF100M B HCBK473K CA HCTAH109MB HCTAH109MB HCTBH 479M B HCTAH109MB HCTAH109MB HCTAH109MB HCTAH109MB HCTBF100M B HCTAJ108MB HCTAH109MB HCTAH109MB HCTBF100M B HCTBF100M B HCTBF100M B HCTBF100M B HCTAH109MB HCFK103ZC A HCFK104ZC A HCQK330JCA HCQK270JCA HCQK680JCA HCFK103ZC A HCFK103ZC A HCBK102K CA HCFK103ZC A 1LA71511MQ 1LC89977MM TKTC3881-B
C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP TANTAL C CHIP CERA C CHIP TANTAL C CHIP TANTAL C CHIP TANTAL C CHIP TANTAL C CHIP TANTAL C CHIP TANTAL C CHIP TANTAL C CHIP TANTAL C CHIP TANTAL C CHIP TANTAL C CHIP TANTAL C CHIP TANTAL C CHIP TANTAL C CHIP TANTAL C CHIP TANTAL C CHIP TANTAL C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA C CHIP CERA IC CHIP SIG NALPRO C IC CHIP DEL AY L I NE TR C HIP
50V Y5V 0.1MF Z 2012 50V Y5V 0.01MF Z 2012 50V CH 200PF J 2012 50V X7R 0.033MF K 2012 50V CH 390PF J 2012 50V X7R 0.022MF K 2012 50V CH 100PF J 2012 50V X7R 1500PF K 2012 50V Y5V 0.01MF Z 2012 16V 10MF M 3528 50V X7R 0.047MF K 2012 25V 1MF M 3216 25V 1MF M 3216 25V 4.7MF M 3528 25V 1MF M 3216 25V 1MF M 3216 25V 1MF M 3216 25V 1MF M 3216 16V 10MF M 3528 35V 0.1MF M 3216 25V 1MF M 3216 25V 1MF M 3216 16V 10MF M 3528 16V 10MF M 3528 16V 10MF M 3528 16V 10MF M 3528 25V 1MF M 3216 50V Y5V 0.01MF Z 2012 50V Y5V 0.1MF Z 2012 50V CH 33PF J 2012 50V CH 27PF J 2012 50V CH 68PF J 2012 50V Y5V 0.01MF Z 2012 50V Y5V 0.01MF Z 2012 50V X7R 1000PF K 2012 50V Y5V 0.01MF Z 2012 LA71511M LC89977M KTC3881
78
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LOC PART CODE PART N AME PART TYPE REMARK
QC102 QC103 QC201 QC202 QC203 QC204 QC205 QC501 QC502 QC503 QC504 QC505 QC506 QC510 QC511 QC512 QC601 QC701 QC702 QC703 QC704 QC705 QC706 QCL01 QCL02 QCL03 QCL05 QCL06 QCL07 QCN02 QCN03 QCN04 QCN05 QCY01 QCY02 QCY03 QCY06 QCY07 QCY08
T2SA812T2B TKTC3881-B TKTC3881-B T2SC1623T2 T2SC1623T2 T2SC1623T2 T2SC1623T2 T2SC1623T2 T2SC1623T2 T2SC1623T2 T2SC1623T2 T2SC1623T2 T2SC1623T2 T2SA812T2B T2SA812T2B T2SA812T2B T2SC1623T2 T2SC1623T2 T2SC1623T2 T2SC1623T2 T2SC1623T2 T2SC1623T2 T2SC1623T2 TKTC3881-B T2SC1623T2 T2SC1623T2 T2SC1623T2 T2SC1623T2 T2SC1623T2 T2SC1623T2 T2SC1623T2 T2SC1623T2 T2SC1623T2 T2SC1623T2 T2SA812T2B T2SC1623T2 T2SC1623T2 T2SC1623T2 T2SC1623T2
TR C HIP TR C HIP TR C HIP TR C HIP TR C HIP TR C HIP TR C HIP TR C HIP TR C HIP TR C HIP TR C HIP TR C HIP TR C HIP TR C HIP TR C HIP TR C HIP TR C HIP TR C HIP TR C HIP TR C HIP TR C HIP TR C HIP TR C HIP TR C HIP TR C HIP TR C HIP TR C HIP TR C HIP TR C HIP TR C HIP TR C HIP TR C HIP TR C HIP TR C HIP TR C HIP TR C HIP TR C HIP TR C HIP TR C HIP
2SA812-T2B KTC3881 KTC3881 2SC1623-L6/T2B 2SC1623-L6/T2B 2SC1623-L6/T2B 2SC1623-L6/T2B 2SC1623-L6/T2B 2SC1623-L6/T2B 2SC1623-L6/T2B 2SC1623-L6/T2B 2SC1623-L6/T2B 2SC1623-L6/T2B 2SA812-T2B 2SA812-T2B 2SA812-T2B 2SC1623-L6/T2B 2SC1623-L6/T2B 2SC1623-L6/T2B 2SC1623-L6/T2B 2SC1623-L6/T2B 2SC1623-L6/T2B 2SC1623-L6/T2B KTC3881 2SC1623-L6/T2B 2SC1623-L6/T2B 2SC1623-L6/T2B 2SC1623-L6/T2B 2SC1623-L6/T2B 2SC1623-L6/T2B 2SC1623-L6/T2B 2SC1623-L6/T2B 2SC1623-L6/T2B 2SC1623-L6/T2B 2SA812-T2B 2SC1623-L6/T2B 2SC1623-L6/T2B 2SC1623-L6/T2B 2SC1623-L6/T2B
79
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LOC PART CODE PART N AME PART TYPE REMARK
QCY09 QCY10 QCY11 QCY12 QCY13 QCY14 QCY15 QCY16 QCY17 QCY18 RC103 RC105 RC106 RC107 RC108 RC109 RC110 R C111 RC112 RC113 RC114 RC115 RC116 RC201 RC204 RC205 RC207 RC208 RC209 RC210 RC211 RC213 RC214 RC215 RC216 RC217 RC221 RC224 RC225
T2SA812T2B T2SC1623T2 T2SC1623T2 T2SC1623T2 T2SA812T2B T2SC1623T2 T2SC1623T2 T2SC1623T2 T2SC1623T2 T2SC1623T2 HRFT333JCA HRFT472JCA HRFT470JCA HRFT122JCA HRFT472JCA HRFT101JCA HRFT122JCA HRFT470JCA HRFT122JCA HRFT472JCA HRFT101JCA HRFT511JCA HRFT221JCA HRFT182JCA HRFT302JCA HRFT271JCA HRFT223JCA HRFT223JCA HRFT104JCA HRFT153JCA HRFT222JCA HRFT103JCA HRFT103JCA HRFT103JCA HRFT683JCA HRFT101JCA HRFT333JCA HRFT561JCA HRFT103JCA
TR C HIP TR C HIP TR C HIP TR C HIP TR C HIP TR C HIP TR C HIP TR C HIP TR C HIP TR C HIP R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P
2SA812-T2B 2SC1623-L6/T2B 2SC1623-L6/T2B 2SC1623-L6/T2B 2SA812-T2B 2SC1623-L6/T2B 2SC1623-L6/T2B 2SC1623-L6/T2B 2SC1623-L6/T2B 2SC1623-L6/T2B 1/10 33K OHM J 2012 1/10 4.7K OHM J 2012 1/10 47 OHM J 2012 1/10 1.2K OHM J 2012 1/10 4.7K OHM J 2012 1/10 100 OHM J 2012 1/10 1.2K OHM J 2012 1/10 47 OHM J 2012 1/10 1.2K OHM J 2012 1/10 4.7K OHM J 2012 1/10 100 OHM J 2012 1/10 510 OHM J 2012 1/10 220 OHM J 2012 1/10 1.8K OHM J 2012 1/10 3K OHM J 2012 1/10 270 OHM J 2012 1/10 22K OHM J 2012 1/10 22K OHM J 2012 1/10 100K OHM J 2012 1/10 15K OHM J 2012 1/10 2.2K OHM J 2012 1/10 10K OHM J 2012 1/10 10K OHM J 2012 1/10 10K OHM J 2012 1/10 68K OHM J 2012 1/10 100 OHM J 2012 1/10 33K OHM J 2012 1/10 560 OHM J 2012 1/10 10K OHM J 2012
80
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LOC PART CODE PART N AME PART TYPE REMARK
RC226 RC228 RC229 RC230 RC231 RC233 RC234 RC235 RC236 RC237 RC239 RC501 RC503 RC507 RC509 RC510 RC511 RC512 RC513 RC514 RC515 RC518 RC519 RC520 RC521 RC522 RC523 RC526 RC527 RC528 RC530 RC531 RC532 RC533 RC534 RC536 RC538 RC539 RC541
HRFT752JCA HRFT223JCA HRFT331JCA HRFT152JCA HRFT102JCA HRFT102JCA HRFT470JCA HRFT561JCA HRFT471JCA HRFT751JCA HRFT242JCA HRFT333JCA HRFT223JCA HRFT683JCA HRFT391JCA HRFT750JCA HRFT750JCA HRFT750JCA HRFT750JCA HRFT750JCA HRFT560JCA HRFT101JCA HRFT000-CA HRFT101JCA HRFT101JCA HRFT101JCA HRFT151JCA HRFT102JCA HRFT102JCA HRFT102JCA HRFT102JCA HRFT152JCA HRFT102JCA HRFT102JCA HRFT102JCA HRFT103JCA HRFT103JCA HRFT103JCA HRFT103JCA
R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P
1/10 7.5K OH M J 2012 1/10 22K OHM J 2012 1/10 330 OHM J 2012 1/10 1.5K OHM J 2012 1/10 1K OHM J 2012 1/10 1K OHM J 2012 1/10 47 OHM J 2012 1/10 560 OHM J 2012 1/10 470 OHM J 2012 1/10 750 OHM J 2012 1/10 2.4K OHM J 2012 1/10 33K OHM J 2012 1/10 22K OHM J 2012 1/10 68K OHM J 2012 1/10 390 OHM J 2012 1/10 75 OHM J 2012 1/10 75 OHM J 2012 1/10 75 OHM J 2012 1/10 75 OHM J 2012 1/10 75 OHM J 2012 1/10 56 OHM J 2012 1/10 100 OHM J 2012 1/10 0 OHM 2012 1/10 100 OHM J 2012 1/10 100 OHM J 2012 1/10 100 OHM J 2012 1/10 150 OHM J 2012 1/10 1K OHM J 2012 1/10 1K OHM J 2012 1/10 1K OHM J 2012 1/10 1K OHM J 2012 1/10 1.5K OHM J 2012 1/10 1K OHM J 2012 1/10 1K OHM J 2012 1/10 1K OHM J 2012 1/10 10K OHM J 2012 1/10 10K OHM J 2012 1/10 10K OHM J 2012 1/10 10K OHM J 2012
81
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LOC PART CODE PART N AME PART TYPE REMARK
RC542 RC543 RC544 RC545 RC546 RC547 RC548 RC552 RC553 RC554 RC556 RC557 RC558 RC559 RC560 RC561 RC562 RC565 RC566 RC567 RC568 RC569 RC570 RC574 RC575 RC577 RC581 RC582 RC601 RC702 RC703 RC704 RC705 RC706 RC707 RC711 RC712 RC715 RC717
HRFT103JCA HRFT513JCA HRFT103JCA HRFT153JCA HRFT153JCA HRFT473JCA HRFT153JCA HRFT123JCA HRFT122JCA HRFT333JCA HRFT331JCA HRFT391JCA HRFT182JCA HRFT472JCA HRFT393JCA HRFT303JCA HRFT471JCA HRFT561JCA HRFT561JCA HRFT562JCA HRFT681JCA HRFT270JCA HRFT203JCA HRFT181JCA HRFT183JCA HRFT470JCA HRFT242JCA HRFT000-CA HRFT102JCA HRFT103JCA HRFT103JCA HRFT103JCA HRFT472JCA HRFT332JCA HRFT332JCA HRFT221JCA HRFT221JCA HRFT474JCA HRFT103JCA
R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP
1/10 10K OHM J 2012 1/10 51K OHM J 2012 1/10 10K OHM J 2012 1/10 15K OHM J 2012 1/10 15K OHM J 2012 1/10 47K OHM J 2012 1/10 15K OHM J 2012 1/10 12K OHM J 2012 1/10 1.2K OHM J 2012 1/10 33K OHM J 2012 1/10 330 OHM J 2012 1/10 390 OHM J 2012 1/10 1.8K OHM J 2012 1/10 4.7K OHM J 2012 1/10 39K OHM J 2012 1/10 30K OHM J 2012 1/10 470 OHM J 2012 1/10 560 OHM J 2012 1/10 560 OHM J 2012 1/10 5.6K OHM J 2012 1/10 680 OHM J 2012 1/10 27 OHM J 2012 1/10 20K OHM J 2012 1/10 180 OHM J 2012 1/10 18K OHM J 2012 1/10 47 OHM J 2012 1/10 2.4K OHM J 2012 1/10 0 OHM 2012 1/10 1K OHM J 2012 1/10 10K OHM J 2012 1/10 10K OHM J 2012 1/10 10K OHM J 2012 1/10 4.7K OHM J 2012 1/10 3.3K OHM J 2012 1/10 3.3K OHM J 2012 1/10 220 OHM J 2012 1/10 220 OHM J 2012 1/10 470K OHM J 2012 1/10 10K OHM J 2012
82
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LOC PART CODE PART N AME PART TYPE REMARK
RC718 RC719 RC722 RC723 RC724 RC725 RC726 RC727 RC729 RC731 RC732 RC733 RC734 RC735 RC736 RC739 RC740 RC774 RC775 RC776 RC777 RC778 RC780 RCJ01 RCJ02 RCJ03 RCJ04 RCJ08 RCJ09 RCJ10 RCJ11 RCJ12 RCJ13 RCJ14 RCJ15 RCJ16 RCJ17 RCJ18 RCJ19
HRFT101JCA HRFT101JCA HRFT102JCA HRFT122JCA HRFT122JCA HRFT122JCA HRFT243JCA HRFT472JCA HRFT473JCA HRFT103JCA HRFT103JCA HRFT103JCA HRFT682JCA HRFT682JCA HRFT822JCA HRFT472JCA HRFT103JCA HRFT243JCA HRFT472JCA HRFT472JCA HRFT472JCA HRFT472JCA HRFT473JCA HRFT000-CA HRFT000-CA HRFT000-CA HRFT000-CA HRFT000-CA HRFT000-CA HRFT000-CA HRFT000-CA HRFT000-CA HRFT000-CA HRFT000-CA HRFT000-CA HRFT000-CA HRFT000-CA HRFT000-CA HRFT000-CA
R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P
1/10 100 OHM J 2012 1/10 100 OHM J 2012 1/10 1K OHM J 2012 1/10 1.2K OHM J 2012 1/10 1.2K OHM J 2012 1/10 1.2K OHM J 2012 1/10 24K OHM J 2012 1/10 4.7K OHM J 2012 1/10 47K OHM J 2012 1/10 10K OHM J 2012 1/10 10K OHM J 2012 1/10 10K OHM J 2012 1/10 6.8K OHM J 2012 1/10 6.8K OHM J 2012 1/10 8.2K OHM J 2012 1/10 4.7K OHM J 2012 1/10 10K OHM J 2012 1/10 24K OHM J 2012 1/10 4.7K OHM J 2012 1/10 4.7K OHM J 2012 1/10 4.7K OHM J 2012 1/10 4.7K OHM J 2012 1/10 47K OHM J 2012 1/10 0 OHM 2012 1/10 0 OHM 2012 1/10 0 OHM 2012 1/10 0 OHM 2012 1/10 0 OHM 2012 1/10 0 OHM 2012 1/10 0 OHM 2012 1/10 0 OHM 2012 1/10 0 OHM 2012 1/10 0 OHM 2012 1/10 0 OHM 2012 1/10 0 OHM 2012 1/10 0 OHM 2012 1/10 0 OHM 2012 1/10 0 OHM 2012 1/10 0 OHM 2012
83
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LOC PART CODE PART N AME PART TYPE REMARK
RCJ20 RCJ21 RCJ22 RCJ23 RCJ24 RCJ25 RCJ27 RCJ28 RCJ29 RCJ30 RCJ32 RCJ33 RCJ35 RCJ36 RCJ37 RCJ38 RCJ39 RCJ40 RCL02 RCL03 RCL07 RCL12 RCL13 RCL14 RCL15 RCL16 RCL17 RCL18 RCL30 RCL31 RCL32 RCL33 RCL34 RCL36 RCN01 RCN07 RCN09 RCN10 RCN11
HRFT000-CA HRFT000-CA HRFT000-CA HRFT000-CA HRFT000-CA HRFT000-CA HRFT000-CA HRFT000-CA HRFT000-CA HRFT000-CA HRFT000-CA HRFT000-CA HRFT000-CA HRFT000-CA HRFT000-CA HRFT000-CA HRFT000-CA HRFT000-CA HRFT683JCA HRFT222JCA HRFT333JCA HRFT103JCA HRFT103JCA HRFT103JCA HRFT103JCA HRFT101JCA HRFT751JCA HRFT153JCA HRFT102JCA HRFT333JCA HRFT123JCA HRFT202JCA HRFT561JCA HRFT102JCA HRFT474JCA HRFT103JCA HRFT103JCA HRFT103JCA HRFT103JCA
R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P
1/10 0 OHM 2012 1/10 0 OHM 2012 1/10 0 OHM 2012 1/10 0 OHM 2012 1/10 0 OHM 2012 1/10 0 OHM 2012 1/10 0 OHM 2012 1/10 0 OHM 2012 1/10 0 OHM 2012 1/10 0 OHM 2012 1/10 0 OHM 2012 1/10 0 OHM 2012 1/10 0 OHM 2012 1/10 0 OHM 2012 1/10 0 OHM 2012 1/10 0 OHM 2012 1/10 0 OHM 2012 1/10 0 OHM 2012 1/10 68K OHM J 2012 1/10 2.2K OHM J 2012 1/10 33K OHM J 2012 1/10 10K OHM J 2012 1/10 10K OHM J 2012 1/10 10K OHM J 2012 1/10 10K OHM J 2012 1/10 100 OHM J 2012 1/10 750 OHM J 2012 1/10 15K OHM J 2012 1/10 1K OHM J 2012 1/10 33K OHM J 2012 1/10 12K OHM J 2012 1/10 2K OHM J 2012 1/10 560 OHM J 2012 1/10 1K OHM J 2012 1/10 470K OHM J 2012 1/10 10K OHM J 2012 1/10 10K OHM J 2012 1/10 10K OHM J 2012 1/10 10K OHM J 2012
84
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LOC PART CODE PART N AME PART TYPE REMARK
RCN20 RCN23 RCN24 RCN27 RCN31 RCN32 RCN34 RCN40 RCN41 RCN45 RCN51 RCN52 RCN60 RCN61 RCN62 RCQ04 RCQ05 RCQ06 RCQ07 RCQ09 RCQ10 RCQ11 RCQ13 RCQ14 RCY01 RCY02 RCY04 RCY07 RCY08 RCY09 RCY10 RCY11 RCY13 RCY15 RCY16 RCY17 RCY18 RCY19 RCY20
HRFT103JCA HRFT154JCA HRFT154JCA HRFT105JCA HRFT182JCA HRFT182JCA HRFT333JCA HRFT104JCA HRFT106JCA HRFT302JCA HRFT511FCA HRFT472JCA HRFT103JCA HRFT223JCA HRFT103JCA HRFT102JCA HRFT102JCA HRFT161JCA HRFT161JCA HRFT221JCA HRFT221JCA HRFT202JCA HRFT361JCA HRFT511FCA HRFT152JCA HRFT152JCA HRFT102JCA HRFT102JCA HRFT102JCA HRFT123JCA HRFT102JCA HRFT823JCA HRFT152JCA HRFT471JCA HRFT822JCA HRFT822JCA HRFT103JCA HRFT202JCA HRFT202JCA
R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P
1/10 10K OHM J 2012 1/10 150K OHM J 2012 1/10 150K OHM J 2012 1/10 1M OH M J 2012 1/10 1.8K OHM J 2012 1/10 1.8K OHM J 2012 1/10 33K OHM J 2012 1/10 100K OHM J 2012 1/10 10M OHM J 2012 1/10 3K OHM J 2012 1/10 510 OHM F 2012 1/10 4.7K OHM J 2012 1/10 10K OHM J 2012 1/10 22K OHM J 2012 1/10 10K OHM J 2012 1/10 1K OHM J 2012 1/10 1K OHM J 2012 1/10 160 OHM J 2012 1/10 160 OHM J 2012 1/10 220 OHM J 2012 1/10 220 OHM J 2012 1/10 2K OHM J 2012 1/10 360 OHM J 2012 1/10 510 OHM F 2012 1/10 1.5K OHM J 2012 1/10 1.5K OHM J 2012 1/10 1K OHM J 2012 1/10 1K OHM J 2012 1/10 1K OHM J 2012 1/10 12K OHM J 2012 1/10 1K OHM J 2012 1/10 82K OHM J 2012 1/10 1.5K OHM J 2012 1/10 470 OHM J 2012 1/10 8.2K OHM J 2012 1/10 8.2K OHM J 2012 1/10 10K OHM J 2012 1/10 2K OHM J 2012 1/10 2K OHM J 2012
85
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LOC PART CODE PART N AME PART TYPE REMARK
RCY23 RCY24 RCY25 RCY26 RCY29 RCY30 RCY32 RCY33 RCY34 RCY35 RCY36 RCY37 RCY38 RCY39 RCY40 RCY41 RCY42 RCY43 RCY44 RCY45 RCY48 RCY50 RCY51 RCY52 RCY53 RCY55 RCY56 RCY57 RCY59 RCY60 RCY61 RCY66 RCY67 RCY68 RCY69 RCY70 RCY71 RCY72 RCY74
HRFT132JCA HRFT124JCA HRFT392JCA HRFT223JCA HRFT303JCA HRFT561JCA HRFT103JCA HRFT333JCA HRFT432JCA HRFT152JCA HRFT202JCA HRFT822JCA HRFT511JCA HRFT472JCA HRFT183JCA HRFT225JCA HRFT561JCA HRFT562JCA HRFT201JCA HRFT391JCA HRFT331JCA HRFT334JCA HRFT302JCA HRFT132JCA HRFT122JCA HRFT103JCA HRFT512JCA HRFT103JCA HRFT470JCA HRFT221JCA HRFT271JCA HRFT302JCA HRFT101JCA HRFT681JCA HRFT122JCA HRFT104JCA HRFT104JCA HRFT103JCA HRFT154JCA
R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP R CH IP
1/10 1.3K OHM J 2012 1/10 120K OHM J 2012 1/10 3.9K OHM J 2012 1/10 22K OHM J 2012 1/10 30K OHM J 2012 1/10 560 OHM J 2012 1/10 10K OHM J 2012 1/10 33K OHM J 2012 1/10 4.3K OHM J 2012 1/10 1.5K OHM J 2012 1/10 2K OHM J 2012 1/10 8.2K OHM J 2012 1/10 510 OHM J 2012 1/10 4.7K OHM J 2012 1/10 18K OHM J 2012 1/10 2.2M OHM J 2012 1/10 560 OHM J 2012 1/10 5.6K OHM J 2012 1/10 200 OHM J 2012 1/10 390 OHM J 2012 1/10 330 OHM J 2012 1/10 330K OHM J 2012 1/10 3K OHM J 2012 1/10 1.3K OHM J 2012 1/10 1.2K OHM J 2012 1/10 10K OHM J 2012 1/10 5.1K OHM J 2012 1/10 10K OHM J 2012 1/10 47 OHM J 2012 1/10 220 OHM J 2012 1/10 270 OHM J 2012 1/10 3K OHM J 2012 1/10 100 OHM J 2012 1/10 680 OHM J 2012 1/10 1.2K OHM J 2012 1/10 100K OHM J 2012 1/10 100K OHM J 2012 1/10 10K OHM J 2012 1/10 150K OHM J 2012
86
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LOC PART CODE PART N AME PART TYPE REMARK
RCY75 RCY77 RCY78 RCY79 RCY80 RCY81 XNC01 ZZ200 C230 C237 C566 C567 C610 ZZ200 P101 P601 PY04 R121 R738 RN53 ZZ200 C107 C225 C226 C227 C229 C231 C232 C233 C234 C543 C545 C546 C547 C548 C553 C555 C556 C557
HRFT154JCA HRFT223JCA HRFT273JCA HRFT104JCA HRFT104JCA HRFT103JCA HXA32R768C PTMPJ0A531 CEXF1C471V CEXF1E331V CEXF1C102V CEXF1C102V CEXF1E471C PTMPJBA531 485923162S 485923162S 485923202S RS02Z200JS RS02Z270JS RS02Z399JS PTMPJRA531 CEXF1E470V CEXF1H220V CEXF1E470V CEXF1H109V CEXF1E470V CEXF1H479V CEXF1H479V CEXF1E101V CEXF1E101V CEXF1H229V CM XM 2A 104J CM XM 2A 104J CM XM 2A 473J CM XM 2A 104J CEXF1H100V CMXB1H224J CEXF1E470V CEXF1E470V
R C HI P R C HI P R C HI P R C HI P R C HI P R C HI P CRYSTAL CHIP QUARTZ PCB MAIN (RHU) AS C EL E CT R O C EL E CT R O C EL E CT R O C EL E CT R O C EL E CT R O PCB MAIN M-10 AS CO N N WA FER CO N N WA FER CO N N WA FER R M-OXIDE F ILM R M-OXIDE F ILM R M-OXIDE F ILM PCB MAIN RADIAL AS C EL E CT R O C EL E CT R O C EL E CT R O C EL E CT R O C EL E CT R O C EL E CT R O C EL E CT R O C EL E CT R O C EL E CT R O C EL E CT R O C M YL A R C M YL A R C M YL A R C M YL A R C EL E CT R O C M YL A R C EL E CT R O C EL E CT R O
1/10 150K OHM J 2012 1/10 22K OHM J 2012 1/10 27K OHM J 2012 1/10 100K OHM J 2012 1/10 100K OHM J 2012 1/10 10K OHM J 2012
32.768KHZ 20PPM 8038 D VT - 14 F 6L A 16V RS S 470M F (10X12.5)TP 25V RS S 330M F (10X12.5)TP 16V RS S 1000M F (10X20) TP 16V RS S 1000M F (10X20) TP 25V RU S 470M F (10X16) TP D VT - 14 F 6L A YW025-03 (STICK) YW025-03 (STICK) YW025-07 (STICK) 2W 2 0 OHM J SMAL L 2W 2 7 OHM J SMAL L 2W 3.9 OH M J SM A LL D VT - 14 F 6L A 25V RS S 47M F (5X11) TP 50V RS S 22M F (5X11) TP 25V RS S 47M F (5X11) TP 50V RS S 1M F (5X11) T P 25V RS S 47M F (5X11) TP 50V RS S 4.7MF (5X11) TP 50V RS S 4.7MF (5X11) TP 25V RS S 100M F (6.3X11) TP 25V RS S 100M F (6.3X11) TP 50V RS S 2.2MF (5X11) TP 100V 0.1MF J (TP) 100V 0.1MF J (TP) 100V 0.047MF J (TP) 100V 0.1MF J (TP) 50V RS S 10M F (5X11) TP 50V EU 0.22MF J (T P) 25V RS S 47M F (5X11) TP 25V RS S 47M F (5X11) TP
87
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LOC PART CODE PART N AME PART TYPE REMARK
C558 C559 C560 C562 C564 C565 C570 C571 C591 C609 C611 C719 C720 C721 C722 C723 C724 CL22 CL23 CL28 CL30 CN23 CN24 CN25 CN26 CN27 CN30 CN31 CN34 CN35 CN36 CN46 CN47 CN56 CQ02 CQ03 CY49 CY57 CY58
CEXF1E470V CEXF1E470V CEXF1E470V CEXF1E470V CEXF1E101V CEXF1E101V CEXF1E101V CEXF1H478V CEXF1E101V CEXF1E470V CEXF1E470V CEXF1C470A CEXF1A471V CEXF1C101A CEXF1A471V CEXF1C101A CEXF1E221V CEXF1C470A CEXF1C470A CEXD1H 229F CEXD1H 229F CXCH1H 180J CXCH1H 180J CXCH1H 220J CXCH1H 220J CEXF1C470A CEXF1C470A CEXF1C470A CEXF1A471V CEXF1C470A CEXF1C470A CEXF1E221V CEXF1C101A CEXF1C470A CEXF1H100V CEXF1E101V CM XM 2A 223J CEXF1H478A CEXF1H478A
C E LE CTRO C E LE CTRO C E LE CTRO C E LE CTRO C E LE CTRO C E LE CTRO C E LE CTRO C E LE CTRO C E LE CTRO C E LE CTRO C E LE CTRO C E LE CTRO C E LE CTRO C E LE CTRO C E LE CTRO C E LE CTRO C E LE CTRO C E LE CTRO C E LE CTRO C E LE CTRO C E LE CTRO C CE R A C CE R A C CE R A C CE R A C E LE CTRO C E LE CTRO C E LE CTRO C E LE CTRO C E LE CTRO C E LE CTRO C E LE CTRO C E LE CTRO C E LE CTRO C E LE CTRO C E LE CTRO C MY LA R C E LE CTRO C E LE CTRO
25V RS S 47M F (5X11) TP 25V RS S 47M F (5X11) TP 25V RS S 47M F (5X11) TP 25V RS S 47M F (5X11) TP 25V RS S 100M F (6.3X11) TP 25V RS S 100M F (6.3X11) TP 25V RS S 100M F (6.3X11) TP 50V RS S 0.47MF (5X11) TP 25V RS S 100M F (6.3X11) TP 25V RS S 47M F (5X11) TP 25V RS S 47M F (5X11) TP 16V RS M 47M F (5X7) TP 10V RS S 470M F 8X 11.5 16V RS M 100M F (6.3X7) TP 10V RS S 470M F 8X 11.5 16V RS M 100M F (6.3X7) TP 25V RS S 220M F (8X11.5) TP 16V RS M 47M F (5X7) TP 16V RS M 47M F (5X7) TP 50V RN D 2.2MF (5X11) TP 50V RN D 2.2MF (5X11) TP 50V CH 18PF J (TAPPING) 50V CH 18PF J (TAPPING) 50V CH 22PF J (TAPPING) 50V CH 22PF J (TAPPING) 16V RS M 47M F (5X7) TP 16V RS M 47M F (5X7) TP 16V RS M 47M F (5X7) TP 10V RS S 470M F 8X 11.5 16V RS M 47M F (5X7) TP 16V RS M 47M F (5X7) TP 25V RS S 220M F (8X11.5) TP 16V RS M 100M F (6.3X7) TP 16V RS M 47M F (5X7) TP 50V RS S 10M F (5X11) TP 25V RS S 100M F (6.3X11) TP 100V 0.022MF J TP 50V RSM 0.4 7MF (4X 7) 50V RSM 0.4 7MF (4X 7)
88
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LOC PART CODE PART N AME PART TYPE REMARK
CY61 CY72 CY73 CY78 CY80 CY81 CY82 CY83 CY85 CY86 CY88 CY90 LY12 QQ01 QQ02 QQ03 QY04 R202 R240 SW02 SW03 SW04 SW05 SW09 SW10 X501 X502 XL01 XN02 XY02 Z204 Z206 Z502 Z504 ZZ200 A001 C501 C502 CL07
CEXF1H109A CEXF1C470A CEXF1C470A CEXF1C220A CEXF1C470A CEXF1C470A CEXF1C470A CEXF1C470A CEXF1H220V CEXF1C470A CEXF1C220A CEXF1C470A 5CPX103J-­ TKRC102M -­ TKRC102M -­ TKRC102M -­ TKTC3202Y­ RV4121203­ RV5426103P 5S50101090 5S50101090 5S50101090 5S50101090 5S50101090 5S50101Z90 5XEX3R579C 5XEX4R436C 5XJX4R286C 5XJX16R00E 5XJX4R433B 5PXFSH5R5M 5PXPS5R5MB 5PXFSH5R5M 5PXPS5R5MB PTMPJAA531 4859801593 CBZF1H104Z CBZF1H104Z CCZF1E103Z
C E LE CTRO C E LE CTRO C E LE CTRO C E LE CTRO C E LE CTRO C E LE CTRO C E LE CTRO C E LE CTRO C E LE CTRO C E LE CTRO C E LE CTRO C E LE CTRO COIL PEAKING TR TR TR TR R SEMI FIXED R SEMI FIXED S W TA CT S W TA CT S W TA CT S W TA CT S W TA CT S W TA CT CRYSTAL QUARTZ CRYSTAL QUARTZ CRYSTAL QUARTZ CRYSTAL QUARTZ CRYSTAL QUARTZ FILTER C ER A FILTER C ER A FILTER C ER A FILTER C ER A PCB MAIN AXIAL AS P CB MAIN C CE R A A XIA L C CE R A A XIA L C CE R A
50V RSM 1MF (4X7) TP 16V RS M 47M F (5X7) TP 16V RS M 47M F (5X7) TP 16V RSM 22 MF ( 5X 7) 16V RS M 47M F (5X7) TP 16V RS M 47M F (5X7) TP 16V RS M 47M F (5X7) TP 16V RS M 47M F (5X7) TP 50V RS S 22M F (5X11) TP 16V RS M 47M F (5X7) TP 16V RSM 22 MF ( 5X 7) 16V RS M 47M F (5X7) TP 10MH 5 MM J RADIAL KRC 102-M (TAP PING) KRC 102-M (TAP PING) KRC 102-M (TAP PING) KTC3202Y (TP) N VZ 6T H1 2 0K OHM RH0638C 10K OHM B SKHV17910A SKHV17910A SKHV17910A SKHV17910A SKHV17910A SKHV10910A HC-49U 3.579545M (TP) HC-49U 4.433619M 20PP TA HC-49S 4.286000M 20PPM TP HC-49S 16.00000M 30PPM TP HC-49S 4.433619M 15PPM TP SFSH5.5MC B-TF21 (TP) TPS 5.5MB -TF 2 1 (TP ) SFSH5.5MC B-TF21 (TP) TPS 5.5MB -TF 2 1 (TP ) D VT - 14 F 6L A 330X246 D1B 50V F 0.1 MF Z 50V F 0.1 MF Z 25V F 0.01MF Z (AXIAL)
89
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LOC PART CODE PART N AME PART TYPE REMARK
CL13 CN01 CN03 CN04 CN05 CN06 CN13 CN18 CN19 CN33 CN51 CN53 CN54 CN55 CN59 CY07 CY12 CY13 CY17 CY18 CY87 CY95 D103 D104 D106 D109 D110 D 111 D112 D501 D502 D503 D504 D507 D508 D509 D510 D511 D512
CCZF1E103Z CCZF1E103Z CCZF1E103Z CCZF1E103Z CCZF1E103Z CCZF1E103Z CCZF1E103Z CCZF1E103Z CCZF1E103Z CBZF1H104Z CCZB1H 101K CCZB1H 101K CCZB1H 101K CCZB1H 101K CCZF1E223Z CCZF1E103Z CCZF1E103Z CCZF1E103Z CCZF1E223Z CCZF1E103Z CBZF1H104Z CBZR1C 562M 85801065GY 85801065GY D1N4003--­ DUZ5R1B M -­ DUZ5R1B M -­ DUZ5R1B M -­ DUZ9R1B M -­ DUZ5R1B M -­ D1N4148--­ DUZ5R1B M -­ D1N4148--­ D1N4148--­ DUZ6R2B M -­ DUZ6R2B M -­ DUZ6R2B M -­ DUZ6R2B M -­ DUZ6R2B M --
C C ERA C C ERA C C ERA C C ERA C C ERA C C ERA C C ERA C C ERA C C ERA C CERA AXIAL C CERA AXIAL C CERA AXIAL C CERA AXIAL C CERA AXIAL C CERA AXIAL C C ERA C C ERA C C ERA C CERA AXIAL C C ERA C CERA AXIAL C CERA AXIAL WIRE COPPER WIRE COPPER DIO DE DIODE ZENER DIODE ZENER DIODE ZENER DIODE ZENER DIODE ZENER DIO DE DIODE ZENER DIO DE DIO DE DIODE ZENER DIODE ZENER DIODE ZENER DIODE ZENER DIODE ZENER
25V F 0.01MF Z (AXIAL) 25V F 0.01MF Z (AXIAL) 25V F 0.01MF Z (AXIAL) 25V F 0.01MF Z (AXIAL) 25V F 0.01MF Z (AXIAL) 25V F 0.01MF Z (AXIAL) 25V F 0.01MF Z (AXIAL) 25V F 0.01MF Z (AXIAL) 25V F 0.01MF Z (AXIAL) 50V F 0.1 MF Z 50V B 100PF K 50V B 100PF K 50V B 100PF K 50V B 100PF K 25V F 0.022MF Z 25V F 0.01MF Z (AXIAL) 25V F 0.01MF Z (AXIAL) 25V F 0.01MF Z (AXIAL) 25V F 0.022MF Z 25V F 0.01MF Z (AXIAL) 50V F 0.1 MF Z 16V Y5R 5600PF M AWG 22 1/0.65 TIN C O ATING AWG 22 1/0.65 TIN C O ATING 1N4003 (TAPPING) U Z-5.1 BM U Z-5.1 BM U Z-5.1 BM UZ-9 .1B M 9.1V U Z-5.1 BM 1N4148 (TAPPING) U Z-5.1 BM 1N4148 (TAPPING) 1N4148 (TAPPING) UZ-6 .2B M 6.2V UZ-6 .2B M 6.2V UZ-6 .2B M 6.2V UZ-6 .2B M 6.2V UZ-6 .2B M 6.2V
90
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LOC PART CODE PART N AME PART TYPE REMARK
D513 D514 D515 D516 D517 D701 D702 D703 D704 D705 D706 D707 D709 DA01 DA02 DA03 DN02 DN03 DN05 DN07 DN08 DQ04 DQ05 DQ06 DQ07 DY01 DY02 DY03 DY04 DY05 DY06 DY07 L202 L203 L501 L502 L503 L504 L505
DUZ6R2B M -­ DUZ6R2B M -­ DUZ6R2B M -­ DUZ6R2B M -­ D1N4148--­ D1N4148--­ D1N4148--­ D1N4148--­ D1N4148--­ D1N4003--­ D1N4148--­ DUZ9R1B M -­ D1N4148--­ DUZ6R2B M -­ D1N4148--­ DM TZ6R2B-­ D1N4003--­ D1N4003--­ DUZ6R2B M -­ D1N4148--­ D1N4148--­ DUZ6R2B M -­ DUZ6R2B M -­ DUZ6R2B M -­ D1N4148--­ D1N4148--­ D1N4148--­ D1N4148--­ D1N4148--­ D1N4148--­ D1N4148--­ D1N4148--­ 5CPZ150K02 5CPZ220K02 5CPZ100K04 5CPZ100K04 5CPZ100K04 5CPZ100K02 5CPZ829K02
DIO DE Z E NE R DIO DE Z E NE R DIO DE Z E NE R DIO DE Z E NE R DIO DE DIO DE DIO DE DIO DE DIO DE DIO DE DIO DE DIO DE Z E NE R DIO DE DIO DE Z E NE R DIO DE DIO DE Z E NE R DIO DE DIO DE DIO DE Z E NE R DIO DE DIO DE DIO DE Z E NE R DIO DE Z E NE R DIO DE Z E NE R DIO DE DIO DE DIO DE DIO DE DIO DE DIO DE DIO DE DIO DE COIL PEAKING COIL PEAKING COIL PEAKING COIL PEAKING COIL PEAKING COIL PEAKING COIL PEAKING
UZ-6 .2B M 6.2V UZ-6 .2B M 6.2V UZ-6 .2B M 6.2V UZ-6 .2B M 6.2V 1N4148 (TAPPING) 1N4148 (TAPPING) 1N4148 (TAPPING) 1N4148 (TAPPING) 1N4148 (TAPPING) 1N4003 (TAPPING) 1N4148 (TAPPING) UZ-9 .1B M 9.1V 1N4148 (TAPPING) UZ-6 .2B M 6.2V 1N4148 (TAPPING) MTZ 6.2-B (TAPPING) 1N4003 (TAPPING) 1N4003 (TAPPING) UZ-6 .2B M 6.2V 1N4148 (TAPPING) 1N4148 (TAPPING) UZ-6 .2B M 6.2V UZ-6 .2B M 6.2V UZ-6 .2B M 6.2V 1N4148 (TAPPING) 1N4148 (TAPPING) 1N4148 (TAPPING) 1N4148 (TAPPING) 1N4148 (TAPPING) 1N4148 (TAPPING) 1N4148 (TAPPING) 1N4148 (TAPPING) 15UH K (AXIAL 3.5MM) 22UH K (AXIAL 3.5MM) 10UH 10.5MM K (LAL04TB) 10UH 10.5MM K (LAL04TB) 10UH 10.5MM K (LAL04TB) 10UH K (AXIAL 3.5MM)
8.2UH K (AXIAL 3.5MM)
91
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LOC PART CODE PART N AME PART TYPE REMARK
L506 L601 L602 L603 L702 L703 LA01 LL03 LY 0 1 LY 0 2 LY 0 3 LY 0 4 LY 0 5 LY 0 6 LY 0 7 LY 0 8 LY 1 0 LY 11 LY 1 3 R101 R102 R112 R122 R203 R218 R219 R227 R504 R505 R506 R508 R516 R517 R525 R529 R540 R549 R550 R551
5CPZ569K02 5CPZ100K04 5MC0000100 5MC0000100 5CPZ101K04 5CPZ689K02 5CPZ100K04 5CPZ101K04 5CPZ101K04 5CPZ101K04 5CPZ101K04 5CPZ101K04 5CPZ101K04 5CPZ560K02 5CPZ121K02 5CPZ150K02 5CPZ101K04 5CPZ270K02 5CPZ221K02 RD-2Z159J­ RD-AZ822J­ RD-AZ122J­ RD-AZ221J­ RD-AZ104J­ RD-AZ223J­ RD-AZ822J­ RD-AZ470J­ RD-4Z109J­ RD-4Z100J­ RD-4Z109J­ RD-4Z271J­ RD-AZ102J­ RD-AZ101J­ RD-AZ102J­ RD-AZ102J­ RD-AZ103J­ RD-AZ221J­ RD-AZ221J­ 85801065GY
COIL PEAKING COIL PEAKING COIL BEAD COIL BEAD COIL PEAKING COIL PEAKING COIL PEAKING COIL PEAKING COIL PEAKING COIL PEAKING COIL PEAKING COIL PEAKING COIL PEAKING COIL PEAKING COIL PEAKING COIL PEAKING COIL PEAKING COIL PEAKING COIL PEAKING R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M WIRE COPPER
5.6UH K (AXIAL 3.5MM) 10UH 10.5MM K (LAL04TB) BI-3857 BI-3857 100UH K (AXIAL 10.5MM)
6.8UH K (AXIAL 3.5MM) 10UH 10.5MM K (LAL04TB) 100UH K (AXIAL 10.5MM) 100UH K (AXIAL 10.5MM) 100UH K (AXIAL 10.5MM) 100UH K (AXIAL 10.5MM) 100UH K (AXIAL 10.5MM) 100UH K (AXIAL 10.5MM) 56UH K (AXIAL 3.5MM) 120UH K (AXIAL 3.5MM) 15UH K (AXIAL 3.5MM) 100UH K (AXIAL 10.5MM) 27UH K (AXIAL 3.5MM) 220UH 3.5MM K (LAL02TB) 1/2 1.5 O H M J 1/6 8.2K O H M J 1/6 1.2K O H M J 1/ 6 22 0 OHM J 1/ 6 10 0 K OHM J 1/6 22K O HM J 1/6 8.2K O H M J 1/6 47 O H M J 1/ 4 1 OH M J 1/4 10 O H M J 1/ 4 1 OH M J 1/ 4 27 0 OHM J 1/ 6 1K OHM J 1/ 6 10 0 OHM J 1/ 6 1K OHM J 1/ 6 1K OHM J 1/6 10K O HM J 1/ 6 22 0 OHM J 1/ 6 22 0 OHM J AWG 22 1/0.65 TIN C O ATING
92
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LOC PART CODE PART N AME PART TYPE REMARK
R563 R572 R573 R576 R601 R602 R701 R708 R709 R710 R713 R720 R721 R728 R737 RA01 RL01 RL10 RL11 RN04 RN05 RN06 RN08 RN12 RN13 RN14 RN15 RN19 RN20 RN21 RN22 RN25 RN26 RN29 RN33 RN35 RN36 RN38 RN39
RD-AZ473J­ RD-AZ822J­ RD-AZ103J­ RD-AZ122J­ RD-4Z221J­ RD-4Z221J­ RD-4Z100J­ RD-AZ121J­ RD-AZ121J­ RD-AZ121J­ RD-AZ101J­ RD-AZ101J­ RD-AZ101J­ RD-AZ472J­ RD-AZ823J­ RD-AZ222J­ RD-AZ223J­ RD-AZ102J­ RD-AZ102J­ RD-AZ221J­ RD-AZ221J­ RD-AZ223J­ RD-AZ432J­ RD-AZ103J­ RD-AZ103J­ RD-AZ103J­ RD-AZ103J­ RD-AZ103J­ RD-AZ472J­ RD-AZ301J­ RD-AZ301J­ RD-AZ273J­ RD-AZ273J­ RD-AZ182J­ RD-AZ153J­ RD-AZ221J­ RD-AZ221J­ RD-AZ101J­ RD-AZ101J-
R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M
1/6 47K O HM J 1/6 8.2K O H M J 1/6 10K O HM J 1/6 1.2K O H M J 1/ 4 22 0 OHM J 1/ 4 22 0 OHM J 1/4 10 O H M J 1/ 6 12 0 OHM J 1/ 6 12 0 OHM J 1/ 6 12 0 OHM J 1/ 6 10 0 OHM J 1/ 6 10 0 OHM J 1/ 6 10 0 OHM J 1/6 4.7K O H M J 1/6 82K O HM J 1/6 2.2K O H M J 1/6 22K O HM J 1/ 6 1K OHM J 1/ 6 1K OHM J 1/ 6 22 0 OHM J 1/ 6 22 0 OHM J 1/6 22K O HM J 1/6 4.3K O H M J 1/6 10K O HM J 1/6 10K O HM J 1/6 10K O HM J 1/6 10K O HM J 1/6 10K O HM J 1/6 4.7K O H M J 1/ 6 30 0 OHM J 1/ 6 30 0 OHM J 1/6 27K O HM J 1/6 27K O HM J 1/6 1.8K O H M J 1/6 15K O HM J 1/ 6 22 0 OHM J 1/ 6 22 0 OHM J 1/ 6 10 0 OHM J 1/ 6 10 0 OHM J
93
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LOC PART CODE PART N AME PART TYPE REMARK
RN43 RN44 RN46 RN47 RN48 RN56 RN57 RN58 RN59 RN63 RQ01 RQ02 RQ03 RQ12 RQ15 RY05 RY06 RY12 RY21 RY22 RY27 RY28 RY31 RY46 RY47 RY48 RY54 RY58 RY60 RY73 RY76 ZZ300 C415 C416 C801 C808 C819 D811 D812
RD-AZ332J­ RD-AZ332J­ RD-AZ102J­ RD-AZ102J­ RD-AZ102J­ RD-AZ472J­ RD-AZ472J­ RD-AZ472J­ RD-AZ472J­ RD-AZ472J­ RD-AZ561J­ RD-AZ561J­ RD-AZ561J­ RD-AZ112J­ RD-AZ221J­ RD-AZ102J­ RD-AZ102J­ RD-AZ182J­ RD-AZ229J­ RD-AZ229J­ RD-AZ513J­ RD-AZ333J­ RD-AZ513J­ RD-AZ391J­ RD-AZ561J­ RD-AZ820J­ RD-AZ122J­ RD-AZ151J­ RD-AZ472J­ RD-AZ103J­ RD-AZ332J­ PTPWMSA531 CMYE2D474J CM YH 3C752J CL1JB3474K CH1FFF472M CEYN2G181P DBYW95C--­ DBYW95C---
R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M R C ARB ON FIL M PCB POWER MAN UAL AS C M YL A R C M YL A R C LINE ACROSS C C ERA AC C EL E CT R O DIO DE DIO DE
1/ 6 3.3 K OHM J 1/6 3.3K O H M J 1/ 6 1K OHM J 1/ 6 1K OHM J 1/ 6 1K OHM J 1/6 4.7K O H M J 1/6 4.7K O H M J 1/6 4.7K O H M J 1/6 4.7K O H M J 1/6 4.7K O H M J 1/ 6 56 0 OHM J 1/ 6 56 0 OHM J 1/ 6 56 0 OHM J 1/6 1.1K O H M J 1/ 6 22 0 OHM J 1/ 6 1K OHM J 1/ 6 1K OHM J 1/6 1.8K O H M J 1/6 2.2 O H M J 1/6 2.2 O H M J 1/6 51K O HM J 1/6 33K O HM J 1/6 51K O HM J 1/ 6 39 0 OHM J 1/ 6 56 0 OHM J 1/6 82 O H M J 1/6 1.2K O H M J 1/ 6 15 0 OHM J 1/6 4.7K O H M J 1/6 10K O HM J 1/6 3.3K O H M J D VT - 14 F 6L A 200V PU 0.47MF J
1.6KV BU P 7500PF J AC250V 0.47MF U /C/SNDF/SV AC400V 4700PF F D E 7150F 400V LHS 180M F (25X35) BYW95C (TAPPING) BYW95C (TAPPING)
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LOC PART CODE PART N AME PART TYPE REMARK
D815 D819 F801 I301 I301 I301A I301B I801 I801A I801B I802 I802 I802A I802B I804 I804B I805 I805B I806 I807 I901 I902 I903 L404 L801 P401 P805 P906 PA904 PWC1 A000 Q402 Q402A Q402B R801 R803 RLY1 RLY2
DBYW95C--­ 1UPC574J-­ 5FSCB4022R PTA2SW4617 1TDA8356-­ 4857024617 7174301011 1STRS5707­ 4857024602 7174301011 PTB2SW7301 1K1A7812P1 4857027301 7174301011 1K1A7812P1 7174301011 1K1A7806P1 7174301011 1K1A7806P1 1T0P210--­ 1TDA6106Q ­ 1TDA6106Q ­ 1TDA6106Q ­ 58H0000018 5PLF24A1-­ 4859240020 4859235320 4859249120 4850703S19 4859903110 4859903511 T2SD2499-­ 4857024510 7174301011 DEC180M 290 RX10T339J­ 5SC0202334 5SC0101003
DIO DE IC FUSE CER A HEAT SINK ASS`Y IC VE RT ICAL HE AT SIN K SCREW TAPPTITE IC PO WE R HE AT SIN K SCREW TAPPTITE HEAT SINK ASS`Y IC RE GULATOR HE AT SIN K SCREW TAPPTITE IC RE GULATOR SCREW TAPPTITE IC RE GULATOR SCREW TAPPTITE IC RE GULATOR IC STAN D BY IC AMP IC AMP IC AMP CO IL H-LINEA RITY FI LTE R L I NE CO NN WAF ER CO NN WAF ER CO NN WAF ER CO NN AS CORD POW ER AS CO R D PO WE R TR HE AT SIN K SCREW TAPPTITE P OSIST OR R CE M E N T S W RE L AY S W RE L AY
BYW95C (TAPPING) UPC574J SEM KO F4A H 4A 250V M F51 1TDA8356-- + 7174301011 TDA8356 AL E X TT2 RND 3X 10 MFZN STR -S 57 07 AL E X (2160 AS ) TT2 RND 3X 10 MFZN 1K1A7812P1 + 7174301011 KI A7812 PI AL 6063S-T5 TT2 RND 3X 10 MFZN KI A7812 PI TT2 RND 3X 10 MFZN KI A7806 PI TT2 RND 3X 10 MFZN KI A7806 PI TOP2 1 0 TDA6106Q TDA6106Q TDA6106Q L- 1 25 (12 5UH ) LF-2 4A1 YFW50 0- 05 YW0 2 5-10 YF254-05 YH025-03+YST025+ULW=300 CW 4232+BL102NG +T UB E=2500 CW4232 H03VV H2-F=2250 2SD2499 AL E X TT2 RND 3X 10 MFZN ECPCC180M290 10W 3.3 OHM J T RIPOD DJ5D2-0(M)-0.25W DG 12 D1 -0(M )-II 1C -1P
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95
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LOC PART CODE PART N AME PART TYPE REMARK
SCT01 T401 T402 T801 T802 ZZ200 C307 C308 C406 C409 C410 C413 C810 C816 C817 C818 C820 C822 C823 C825 C827 C828 C832 C833 C835 C911 C913 ZZ200 P405 P406 P801A P801B P802A P802B P803 P901 P904 P905 R306
4859303030 50D0000022 50H0000177 50M4042A2J 50MST22A3J PTPWJ0A531 CEXF2C470V CEXF1E471V CCXB3D 471K CEXF2C330V CEXF2C339V CEXF2E330V CCXB3D 681K CEXF2A100V CEXF1E221C CEXF1E331V CEXF2C101V CEXF1C471V CEXF2G 220V CEXF1C102V CEXF1E471V CEXF1E471V CEXF1C471V CEXF1C102V CM XE 2J222J CCXB3D 102K CEXF1C331V PTPWJBA531 485923182S 485923182S 4857417500 4857417500 4857417500 4857417500 485923162S 485923202S 485923162S 4857417500 RS02Z271JS
SO C K ET CR T TRANS DRIVE FBT TRANS SMP S TRANS SMP S PCB POWER ODD SHAPE C EL E CT R O C EL E CT R O C C ERA C EL E CT R O C EL E CT R O C EL E CT R O C C ERA C EL E CT R O C EL E CT R O C EL E CT R O C EL E CT R O C EL E CT R O C EL E CT R O C EL E CT R O C EL E CT R O C EL E CT R O C EL E CT R O C EL E CT R O C M YL A R C C ERA C EL E CT R O PCB POWER M-10 AS CO N N WA FER CO N N WA FER TER M PIN TER M PIN TER M PIN TER M PIN CO N N WA FER CO N N WA FER CO N N WA FER TER M PIN R M-OXIDE F ILM
IS MM03 S H D-15 D HST1142.5057 TSM-4042A2 ST-2 2A 3 D VT - 14 F 6L A 160V RSS 47M F (13X25) TP 25V RS S 470M F (10X16) TP 2KV B 470P F K (TAPPING) 160V RSS 33M F (13X20) TP 160V RSS 3.3MF (8X16) TP 250V RSS 33M F (13X25) TP 2KV B 680P F K (TAPPING) 100V RSS 10M F (6.3X11) TP 25V RU S 220M F (8X11.5) TP 25V RS S 330M F (10X12.5)TP 160V RSS 100M F (16X25) TP 16V RS S 470M F (10X12.5)TP 400V RSS 22M F (16X25) TP 16V RS S 1000M F (10X20) TP 25V RS S 470M F (10X16) TP 25V RS S 470M F (10X16) TP 16V RS S 470M F (10X12.5)TP 16V RS S 1000M F (10X20) TP PL 63 0V 220 0P F J 2KV B 1000P F K (TAPPING) 16V RS S 330M F (8X11.5) TP D VT - 14 F 6L A YW025-05 (STICK) YW025-05 (STICK) DA-IB0214(D2.3/DY PIN) DA-IB0214(D2.3/DY PIN) DA-IB0214(D2.3/DY PIN) DA-IB0214(D2.3/DY PIN) YW025-03 (STICK) YW025-07 (STICK) YW025-03 (STICK) DA-IB0214(D2.3/DY PIN) 2W 270 OHM J SMA LL
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LOC PART CODE PART N AME PART TYPE REMARK
R401 R402 R403 R407 R409 R419 R420 R804 R805 R816 R817 R823 R830 WP01 ZZ200 C302 C305 C306 C310 C401 C402 C403 C404 C407 C418 C803 C804 C813 C824 C826 C829 C830 C840 C841 C842 C904 C905 C907 C908
RS02Z912JS RS02Z912JS RS02Z912JS RS02Z512JS RS02Z512JS RS01Z129J­ RS01Z102J­ RS02Z473JS RS02Z562JS RS02Z470JS RF02Z338J­ RS02Z562JS RS02Z109JS 4857417500 PTPWJRA531 CCXB1H 102K CCXB2H 471K CCXB2H 102K CM XM 2A 104J CCXB2H 472K CCXB2H 221K CCXB2H 472K CCXB2H 102K CXSL2H470J CM XM 2A 104J CCXF3A472Z CCXF3A472Z CCXF1H 103Z CEXF1H470V CEXF1E101V CEXF1E101C CEXF1E221V CEXF1E470V CCXF3A472Z CCXF3A472Z CM XL2E104K CM XL2E104K CCXB1H 561K CCXB1H 561K
R M-OXIDE F ILM R M-OXIDE F ILM R M-OXIDE F ILM R M-OXIDE F ILM R M-OXIDE F ILM R M-OXIDE F ILM R M-OXIDE F ILM R M-OXIDE F ILM R M-OXIDE F ILM R M-OXIDE F ILM R FU S IB LE R M-OXIDE F ILM R M-OXD I E FIL M TER M PIN PCB POWER RADIAL AS C C ERA C C ERA C C ERA C M YL A R C C ERA C C ERA C C ERA C C ERA C C ERA C M YL A R C C ERA C C ERA C C ERA C EL E CT R O C EL E CT R O C EL E CT R O C EL E CT R O C EL E CT R O C C ERA C C ERA C M YL A R C M YL A R C C ERA C C ERA
2W 9.1K O HM J S M ALL 2W 9.1K O HM J S M ALL 2W 9.1K O HM J S M ALL 2W 5.1K O HM J S M ALL 2W 5.1K O HM J S M ALL 1W 1.2 OHM J (TA PPING) 1W 1K O HM J (TAPPING) 2W 4 7 K OHM J S MA LL 2W 5.6K O HM J S M ALL 2W 4 7 OHM J SMAL L 2W 0.33 OHM J (TAPPING) 2W 5.6K O HM J S M ALL 2W 1 OHM J SMA LL DA-IB0214(D2.3/DY PIN) D VT - 14 F 6L A 50V B 1000PF K (TAPPING) 500V B 470PF K (TAPPING) 500V B 1000PF K (TAPPIN G ) 100V 0.1MF J (TP) 500V B 4700PF K (TAPPIN G ) 500V B 220PF K (TAPPING) 500V B 4700PF K (TAPPIN G ) 500V B 1000PF K (TAPPIN G ) 500V SL 47PF J (TAPPING) 100V 0.1MF J (TP) 1KV F 4700PF Z (T) 1KV F 4700PF Z (T) 50V F 0.01MF Z (TAPPING ) 50V RS S 47M F (6.3X11) TP 25V RS S 100M F (6.3X11) TP 25V RU S 100M F (6.3X11) TP 25V RS S 220M F (8X11.5) TP 25V RS S 47M F (5X11) TP 1KV F 4700PF Z (T) 1KV F 4700PF Z (T) 250V M EU 0.1MF K 250V M EU 0.1MF K 50V B 560PF K (TAPPING) 50V B 560PF K (TAPPING)
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LOC PART CODE PART N AME PART TYPE REMARK
C909 C910 F801A F801B L403 Q301 Q401 Q403 Q803 Q901 ZZ200 A001 C301 C309 C807 C836 C837 C838 C846 D301 D302 D401 D402 D403 D404 D405 D406 D801 D802 D803 D804 D807 D808 D809 D810 D813 D814 D822 D823
CCXB1H 561K CCXF1H 473Z 4857415001 4857415001 58C0000096 TKTC3198Y­ TKTC3207-­ TKTC3202Y­ TKTC3202Y­ TKTA1266Y­ PTPWJAA531 4859810711 CCZB1H 102K CCZF1E103Z CCZB1H 102K CBZF1H104Z CBZF1H104Z CBZF1H104Z CCZF1E103Z D1N4937--­ D1N4937--­ D1N4937--­ D1N4937--­ D1N4148--­ D1N4937--­ D1N4148--­ D1N4148--­ D1S1888--­ D1S1888--­ D1S1888--­ D1S1888--­ D1N4937--­ D1N4937--­ DBYV95C--­ D1N4937--­ DBYV95C--­ DBYV95C--­ DRU1P----­ D1N4148---
C CE R A C CE R A CLI P F USE CLI P F USE CO IL C H O K E TR TR TR TR TR PCB POWER AXIAL AS PC B PO WE R C CE R A A XIA L C CE R A C CE R A A XIA L C CE R A A XIA L C CE R A A XIA L C CE R A A XIA L C CE R A DIO DE DIO DE DIO DE DIO DE DIO DE DIO DE DIO DE DIO DE DIO DE DIO DE DIO DE DIO DE DIO DE DIO DE DIO DE DIO DE DIO DE DIO DE DIO DE DIO DE
50V B 560PF K (TAPPING) 50V F 0.047MF Z (TAPPING) PFC5000-0702 PFC5000-0702 610G0233(470K) KTC3198Y KTC3207 (TP) KTC3202Y (TP) KTC3202Y (TP) KTA1266Y (TP) D VT - 14 F 6L A 330X123(330X246/2)D1B 50V B 1000PF K 25V F 0.01MF Z (AXIAL) 50V B 1000PF K 50V F 0.1 MF Z 50V F 0.1 MF Z 50V F 0.1 MF Z 25V F 0.01MF Z (AXIAL) 1N4937 (TAPPING) 1N4937 (TAPPING) 1N4937 (TAPPING) 1N4937 (TAPPING) 1N4148 (TAPPING) 1N4937 (TAPPING) 1N4148 (TAPPING) 1N4148 (TAPPING) 1S1888 (TAPPING) 1S1888 (TAPPING) 1S1888 (TAPPING) 1S1888 (TAPPING) 1N4937 (TAPPING) 1N4937 (TAPPING) BYV95C (TAPPING) 1N4937 (TAPPING) BYV95C (TAPPING) BYV95C (TAPPING) RU 1P (TAPPING) 1N4148 (TAPPING)
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