Parker KVP2425C05 User manual
PARKER COLOR TV
KVP2425C05
CONTENTS
Safety instruction………………………………………………………………………1
General instruction……………………………………………………………………….1
Alignment instruction……………………………………………………………………2
Alignment flow ..……………………………………………………………………..2
Alignment method…………………………………………………………………..3
BLOCK DIAGRAM………………………………………………………………………...8
MAIN IC………………………………………………………………………………..9
Electrical partslist………………………………………………………………13
Exploded view…………………….……………………………………………….51
Schematicdiagram………………………………………………………………….60
1
1 safety instruction
1.1 X-RAY radiation precaution
1.1.1 Excessive voltage will cause harmful X-ray. To avoid this radiation hazard, the high voltage should
fall within the limitation. The appliance works at AC 120V, 60Hz. The high voltage of zero beam current
should be within 29.0kV on condition that the main power (B+) voltage is AC135V. And it should not
exceed 30kV in any condition.
* Keep the main power voltage at 135V when checking the high voltage.
1.1.2 The primary source of X-RAY RADIATION is the CRT. The CRT of this TV set have gotten the
approval of safety authentication inspection. The replacement CRT should be exactly the same type and
specification CRT which has gotten a similar safety approval, and check the high voltage according to
the HIGH VOLTAGE CHECK procedure.
1.2 safety precaution
a. Since the power supply circuit of this receiver is directly connected to the AC power line, an isolation
transformer is necessary during dynamic service to avoid possible shock hazard.
b.Always discharge the graphite layer conductor when moving the CRT.
c. Disconnect the power cord before replacing parts.
d. When replacing high-power resistor, keep the resistor 10 mm away from the circuit board.
1.3 Component safety precaution
Many electrical and mechanical parts in the chassis have special safety-related characteristics. These
characteristics are often passed unnoticed by a visual inspection. Replacement parts which have these
special safety characteristics are identified in this manual and its supplement electrical components
having such features are shaded or marked by on the schematic diagram and the parts list. Before
replacing any of these components, read the parts list in this manual carefully. The use of substitute
replacement parts which do not have the same characteristic as specified in the parts list may create
shock, fire, X-RAY RADIATION or other hazards.
2.General instruction
2.1 Copy the standard model data to let EEPROM of the chassis have those data before placing it on the
unit, do “factory adjustment” if necessary. If use a blank EEPROM directly, you should preset IIC data
and then do other common adjustment. Refer to TABLE1 to preset EEPROM.
2.2 the adjustment should be done under following circumstances without additional instruction
a) Alternating current 120V/60Hz
b) Preheat at least 30 min
2.3The unit has auto degaussing circuit, the auto degaussing process can be finished within 1s when the
main power. only when turn on the unit at least 30min after last time turn off TV does the auto
degaussing circuit work.
2.4 If the CRT with magnetism affects color purity and convergence, when the auto degaussing
eraser. if the color purity and convergence are still not very good, then corresponding adjustment
should be done. Refer to picture tube adjustment method for adjustment.
3Alignment instruction
Note: This service manual is only for professional service personnel’s reference. Before
servicing the unit, please read the following items carefully.
2
3.1 Debugging item
a)adjust mode instruction
b)B+ voltage adjustment
c)RFAGC voltage adjustment
d)focus adjustment
e)Screen-grid voltage white balance, sub brightness adjustment
f)filed scan center, line , amplitude adjustment
g)H-scan center adjustment
3.2 Alignment flow
3.3 Enter/exit factory adjustment method
Use remote control, press “MENU” button, then press 6483,”M”will appear on screen to show that you
have entered the factory adjustment method, press “STANDBY” to exit it.
3.4 Select adjustment item and adjust data
After entering factory adjustment mode, press 1-4 number buttons to select menu1- menu4; To enter into
MENU0~MENU5, press “CHILD LOCK” button and then the number button (5~0) to enter into relative
menus. Press “P+” and “P-” to select and “V+” and “V-”to adjust.
4 Alignment method
4.1 B+ voltage adjustment
a) connect B+ point with a digital voltmeter to measure the negative pole of VD524
b) receive PHILIPS test pattern signal and set the picture to standard.
c) Adjust VR501 to let the value of B+ voltage be 135 V ±0.5 V (yongxin super pure flat)
4.2 AGC adjustment
a) receive VHF-H band,60 dB RF signal.
b) Select factory menu2 of “AGC”.
c) Press “V+”,”V-”to let voltage value of tuner pin AGC be 3.8 V ±0.1 V(DC).(if the selected tuner
is changed, then the voltage of AGC should be measured again: receive VHF-H band and 60
dB RF signal, adjust AGC-TOP to let the picture just without noisy, then the voltage of tuner
AGC is the required value for adjustment.)
d) exit factory menu
4.3 Normal temperature aging
a) do not receive signals.
Fig-1 alignment flow
N
ormal
temperature aging
+B adjustment Focus adjustment
White balance
adjustment
Picture adjustment
AGC adjustment
3
b) under ”M” condition, set the accelerator to an appropriate point for aging.
4.4 Accelerator adjustment
a) do not receive signals;
b) select “SC” of factory menu3 to let the field scanning stop working.
c) adjust acceleration potentiometer to let bright lines just appears on screen.
d) exit SC menu.
4.5 High voltage check
Note: the main power voltage (B+=135 V)can affect the high voltage directly, so be sure to let the B+
power voltage accurate. Under any state, the high voltage should not exceed 30 kV.
a) connect an accurate high voltage meter between the second anode cap of picture tube and
ground.
b) turn on TV and receive testing card signal.
c) set picture to standard, the high voltage should be 27 kV±1 kV.
d) the high voltage should not exceed 30KV with minimum brightness and contrast.
4.6 Focus adjustment
a) receive PHILIPS signal
b) adjust focus electrode potentiometer on FBT to optimize B area focus of screen.
4.7 White balance adjustment (color temperature 12000°K±8MPCD,X=0.270±0.008,Y=0.283±0.008)
a) receive full white signal
b) select factory menu3
c) on the basis of blue, adjustment RD,GD of M3, let to white balance coincide with standard.
4.8 Filed scanning adjustment (fig-2)
a) receive PAL of PHILIPS test pattern signal.
b) select factory menu1
c) adjust V-SLOPE menu to let the horizontal center line of test pattern above blanking.
d) select V-SHIFT menu and adjust to let the vertical center of picture coincide with
vertical center of picture tube.
e) Select V-SIZE menu and adjust to let the vertical reproduction ratio of picture acceptable.
f)Adjust V.SC to optimise the vertical S correction of picture.
g) Receive NTSC PHILIPS test pattern and readjust the above items.
Fig-2 field scan adjustment
4.9 Horizontal scanning adjustment (Fig-3)
a) Receive PAL PHILIPS signal
b) Select factory menu1
c) Select H.SHIFT menu and adjust to let the scanning horizontal center coincide with mechanical
center of picture tube
d) Exit M3 menu
e) Adjust VR433 to let horizontal reproduction ration of picture acceptable
f) Adjust VR432 to minimize left-right edge pincushion distortion of picture
Horizontal line
Under part banking
4
g) Adjust VR431 to minimize trapezoidal distortion
h) Exit factory menu
4.10 Sub-brightness adjustment
a) Receive PAL-D/K PHILIPS signal
b) Select “SB” of factory menu3
c) Adjust “SB” to let things between the sixth and seventh grey scale clear
4.11 OSD adjustment
a) Receive PAL-D/K PHILIPS signal
b) Select OSD H and OSD V of factory menu4. Adjust OSD H and OSD V to let OSD at a specified
place.
c) Exit factory menu
4.12 Degaussing
a) The unit has and auto degaussing circuit, the degaussing circuit works several seconds after turning
on TV
b) If you want to move TV or change the direction, turn off TV and ten minutes later the degaussing
circuit will work
c) For better degaussing effect, you can use magnetic eraser
d) Move the magnetic eraser clockwise before your TV, when it is 2m away from your TV, turn off the
magnetic eraser. If the effect is still not very good, you can adjust “color purity” and “convergence”
4.13 Color purity correction
a) Turn on your TV
b) At least 15 minutes later, use anti-magnetized coil for degaussing
c) Obtain maximum brightness and contrast
d) Select factory menu3 and adjust to let R and B be zero, then let only green raster appear on the
screen at the moment
e) Loosen screws of deflection yoke frame to let vertical green belt appear on screen only
f) Move the rubber wedge
g) Rotate along neck of picture tube and slide color-purity magnets until the green belt at the middle of
screen and is vertical at the same time
h) Slowly move the deflection yoke backward of forward until the whole green raster appears on screen,
tighten the screws of the deflection yoke
i) Check the color purity of red raster and blue raster
j) Adjust white balance again to obtain white raster
4.14 Convergence correction
4.14.1 Central convergence correction
a) Turn on your TV
a
Fig-3 line scan adjustment
5
b) At least 15 minutes later, receive square test pattern signal
c) Adjust brightness and contrast to get the best picture
d) Adjust the angle of two tetrode magnetic rings to let the red vertical line coincide with the blue
vertical line at middle of screen
e) Keep the angle unchanged, move the two tetrode magnetic rings at the same time to let the red and
blue horizontal lines coincide at middle of screen
f) Adjust two hexode magnetic rings to let the green line coincide with the mixed line of red and blue.
Adjust the angle between them will affect the vertical line, move them together will affect the
horizontal line.
g) Repeat d), e), f) and observe the movement of red, green and blue.
4.14.2Ambient convergence correction
a) Turn on your TV
b) At least 15 minutes later, loosen the screws of the deflection yoke
c) Fixate the rubber wedge temporarily under the deflection yoke
d) Move the deflection yoke upward or downward to get best convergence, push the rubber wedge into
space between picture tube and deflection yoke to fixate the deflection yoke temporarily
e) Place the rubber wedge whose overlay paper has been removed at the bottom space
f) Move the deflection yoke left and right to get best convergence
g) Keep the condition unchanged, place another rubber wedge whose overlay paper has been
removed also at the upper space at the same time
h) Remove the interim rubber wedge, adhere it to picture tube and deflection yoke
i) After placing three rubber wedges, check all the convergence again
j) Stick three transparent viscous belts to the rubber wedge
Chart 1 I2C TDA (NOM)8377-B-6NA E2PROM pre-set data
I2C standard UOC for export bus control adjustment item default setting
MI Items Variable Preset
M0 SUBCON 56(sub-contrast)
SUBCOL 56(sub-chroma)
SUBSHP 48(sub-acutance)
SUBTINT 31(sub-hue)
M1 V.SLOPE 34(field center adjustment)
V.SHIFT 27(field point adjustment)
V.SIZE 36(field amplitude adjustment)
V.SC 32(field line )
HSHIFT 32(line point adjustment)
PROGRAMA.NO 2(channel)
M2 AGCTAKEOVER 24(AGC adjustment)
SHIPPING 0(leave factory set)
M3 BT 75(adjust white balance of brightness)
6
CT 75(adjust white balance of brightness contrast)
SC OFF
RB 32(red cut off level adjustment)
GB 32(green cut off level adjustment)
RD 32(red cut off level adjustment)
GD 32(green cut off level adjustment)
BD 32(blue cut off level adjustment)
SB 40(sub brightness adjustment)
M4 OSD.V.POSITION 10(OSD position)
OSD.H.POSITION 5(OSD H-position)
BTSC-MODE MONO(STEORO,SAP )
BTSC-ST 13
BTSC-SP 12
BTSC-L1 1
BTSC-A1 15
BTSC-A2 0
BTSC-TC 0
BTSC-STS
0
BTSC-ADJ
MI Items Variable Preset
M5 MODE STANADARD(standard, soft, floweriness)
BRIGHT 75
CONTRAST 75
COLOR 50
SCBRIGHT 20
YDELAYTV 12
YDELAYAV 12
M6 OSO 1(field over-scan switch)
AGCSPEED 1(AGC of speed)
FFI 0(IF PLL SPEED)
FMWS 1(frequency range of sound OFF=225KHZ,ON=450KHZ)
RP0 0(pre-shock and over-shock scale)
NTSCMATRIX USA
VOLPIN 0(1:push-pull output; 0: OC gate output.)
SOFT CLIP 3(white level limit)
PEAK WHITE 15(peak white limit)
CORING 0(coring noise reduction)
M7 AV2 1
SVHS 1
YUV 1
7
VOLADJPOING 1(volume value have:1,25,50,75)
VOLVALUE 20(volume curve value:20,60,75,90)
M8 CATHOOELEVEL 7(cathode level)
UOCVOLUME 0(0:PWM terminal control; 1:UOC sound amplitude control of
inside)
FMATT 45(UOC sound output of amplitude) BTSC : 38
COMBFILTRE 0(N comb filter)
HEADPHONE 0(earphone function selection)
VM OPTION 0(VM function selection)
FRANCE 1 French
SPANISH 1 Spaish
POTUGUES 1 Portuguese
M9 NOM8377-B-6NA
STARTON 2(turn on)
STARTTIME 8(turn on time)
IF OFFSET 32(IF compensate)
TUNER OPTION 0(BXATB011F---X/ BXATB108F---K) 1 (BXATB017F---K) 2(XXX)
8
Block diagram
TUNER SAW IF IN Y IN
RF AGC V IN
U IN
CVBSINT
CHROMA
IFVO OUT
CVBS/Y IN
SDA
SCL
AUDIO OUT IK
RGB OUT
V OUT H OUT
S
TRAP
Vo
V2i
V1i
Y
C
r
C
b
ARi2
ARi1
A
L
i2
ALi1
S-VHS
24C08
POWER
UNIT
135V
24V
16V
8V
5V
3.3V
CRT PCB
V IN
TDA8177
V OUT
H IN
H OUT
H OUT
DY
200V
+15V
-15V
S
CREEN
F
OCU
S
TDA8377
Vi1
OUT1-
OUT1+
Vi2
OUT2-
OUT2+
AN7522
CRT
A
L
o
ARo
C
Y
4052
BU4052
audio
audio
audio
video
video
bus
video
video
video
N801
9
MAIN IC 8377:
ICs functional description
UOC TDA8377
SYMBOL PIN DESCRIPTION
STAND BY output. 1 In STAND BY mode, high level (Power OFF).
For Power ON this pin will be reduced to low.
SCL 2 I2C-bus clock line
SDA 3 I2C-bus data line
TUNING 4 tuning Voltage (Vt) PWM output
P3.0/NTSC SW 5 Port 3.0 or NTSC output/SCART SW input, Forced NTSC selection,
Low-level output, otherwise High output.
KEY 6 Control keys input *3
10
VOL 7 Sound Volume control PWM output
MUTE 8 Sound mute output
VSSC/P 9 Digit ground for µ-controller core and periphery
BAND1 10 Tuner Band selection output
BAND2 11 Tuner Band selection output
VSSA 12 Analog ground of teletext decoder and digital ground of TV-processor
SECPLL 13 SECAM PLL decoupling
VP2 14 2nd supply voltage TV-processor(+8V)
DECDIG 15 decoupling digital supply of TV-processor
PH2LF 16 Phase-2 filter
PH1LF 17 Phase-1 filter
GND3 18 Ground 3 for TV-processor
DECBG 19 Band gap decoupling
AVL/EWD 20 Automatic volume leveling /EAST-WEST drive output
VDRB 21 Vertical drive B output
VDRA 22 Vertical drive A output
IFIN1 23 IF input 1
IFIN2 24 IF input 2
IREF 25 Reference current input
VSC 26 Vertical sawtooth capacitor
TUNER AGC 27 Tuner AGC output
AUDEEM/SIFIN1 *1 28 Audio deemphasis or SIF input
DECSDEM/SIFIN2 29 decoupling sound demodulator or SIF input 2
GND2 30 ground 2 for TV processor
SNDPLL/SIFAGC *1 31 narrow band PLL filter or AGC sound IF
AVL/SNDIF/REF0/
AMOUT *1 32 Automatic Volume Levelling / sound IF input / subcarrier reference output
/ audio
deemphasis
HOUT 33 horizontal output
FBISO 34 flyback input/sandcastle output
AUDEXT/QSSO/
AMOUT *1 35 external audio output / QSS intercarrier out
EHTO 36 EHT/overvoltage protection input
PLL IF 37 IF-PLL loop filter
IFVO/SVO 38 IF video output / selected CVBS output
VP1 39 supply voltage TV processor
CVBS INT 40 internal CVBS input
GND1 41 ground for TV processor
CVBS/Y 42 CVBS/Y input
CHROMA 43 C input
AUDOUT/AMOUT
*1 44 audio output /AM audio output (volume controlled)
INSSW2 45 2nd RGB / YUV insertion input
11
R2/VIN 46 2nd R input / V (R-Y) input / PR input
G2/YIN 47 2nd G input / Y input
B2/UIN 48 2nd B input / U (B-Y) input / PB input
BCLIN 49 beam current limiter input
BLKIN 50 black current input / V-guard input
RO 51 Red output
GO 52 Green output
BO 53 Blue output
VDDA 54 analog supply of Closed Caption decoder and digital supply of
TV-processor (3.3 V)
VPE 55 OTP Programming Voltage
VDDC 56 digital supply to core (3.3 V)
OSCGND 57 oscillator ground supply
XTALIN 58 crystal oscillator input
XTALOUT 59 crystal oscillator output
RESET 60 reset
VDDP 61 digital supply to periphery (+3.3 V)
P1.0/INT1 62 TV/AV (AV1) / AV2 /S-VHS mode Output.
P1.1/T0 63 TV/AV (AV1) /AV2 /S-VHS mode Output.
P1.2/INT0 64 Remote control signal input.
AN7522 Function : audio output
Symbol PIN Function Symbol PIN Function
Vcc 1 Power supply GND 7 ground
Out 1 (+) 2 Ch 1 output (+) In 2 8 Ch 2 input
GND(out 1) 3 Ch 1Ground VOL 9 Volume Control
Out 1 (-) 4 Ch 1 output (-) Out 2 (-) 10 Ch 2 output (-)
Standby 5 Mute input GND(out 2) 11 Ch 2 Ground
In 1 6 Ch 1 input Out 2 (+) 12 Ch 2 output (+)
TDA8177 Function : vertical output
Symbol PIN Function Symbol PIN Function
INV IN 1 Input V OUT 5 Vertical output
VCC1 2 Power VCC2 6 Output power supply
PUMP UP 3 Pump up power NON INV IN 7 Negative feedback
GND 4 Ground
12
Test point Waveforms
IC voltages
TDA8377
PIN 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
V 2.8 3.8 3.6 3.3 3.5 3.5 0.1 0.1 0 5.4 0.1 0 2.3 8 5 3
PIN 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32
V 4 0 4 0.9 0.7 0.8 1.9 1.9 3.9 3.8 1.6 3.2 3.4 0 2.4 0.1
PIN 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48
V 0.6 0.5 3.7 1.7 2.4 3.1 8 3.8 0 3.4 1.5 3.6 2.3 2.6 2.6 2.6
PIN 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64
V 2.3 7.2 2.7 2.7 2.7 3.5 0 3.5 0.1 1.7 1.8 0 3.5 0.1 0.1 5
TDA8177
PIN 1 2 3 4 5 6 7
V 0.7 15 -12 -15 0.3 15.9 -0.07
AN 7522
PIN 1 2 3 4 5 6 7 8 9 10 11 12
V 12 7 0 7 3.3 1.4 0 1.4 0 7 0 7
V451 C
5Vpp
0.9Vpp
1000Vpp
H H
1Vpp
V H H
CRTKB
CRTKGCRTKR
95Vpp
95Vpp
95Vpp
H H H
T511PIN7
300Vpp22Vpp
H H
V451 B
2.7Vpp
TDA8377
2.5Vpp
2.5Vpp
3.8Vpp
H H
H
TDA8377 TDA8377 PIN51
TDA8377 TDA8377 PIN34
0.8Vpp
V
TDA8377 TDA8377 TDA8377
1.2Vpp
2.6Vpp
H H
TDA8377
TDA8377
WARNING: BEFORE SERVICING THIS CHASSIS, READ THE "X-RAY RADIATION PRECAUTION
"SAFETY PRECAUTION" AND "COMPONENTS SAFETY NOTICE" ON PAGE 1 OF THIS MANUAL.
CAUTION: 1. The shaded areas makes in the schematic diagram and the parts list designate
componentswhich have special characteristics important for safety and should be replaced
only with type identical tothose in the original circuit or specified in the parts list. Before
replacing any of these components,read carefully the COMPONENTS SAFETY NOTICE
on page 1.
2. Do not degrade the safety of the receiver through improper servicing.
ELECTRICAL PARTS LIST FOR MAIN BOARD
TK2426
MAINBOARD
FUSE
569-18101-00U 51S5A/125V!
POLYESTER CAPACITOR
462-00333-K02 CL11-100V-0.033uF-K C403
462-00333-K02 CL11-100V-0.033uF-K C510
462-00333-K02 CL11-100V-0.033uF-K C544
462-00347-K02 CL11-100V-0.047uF-K C427
462-00410-K02 CL11-100V-0.1uF-K C460
462-00256-H02 CL11-100V-5600PF-J C154
462-00256-H02 CL11-100V-5600PF-J C158
CERAMIC CAPACITOR
459-2210K-002 CK45-B1H102KYR C308
459-2210K-002 CK45-B1H102KYR C311
459-2210K-002 CK45-B1H102KYR C401
459-2210K-002 CK45-B1H102KYR C402
459-2210K-002 CK45-B1H102KYR C721
459-2210K-002 CK45-B1H102KYR C861
459-5210K-002 CK45-B2H102KYR C452
459-5239K-002 CK45-B2H392KYR C451
459-2310R-002 CK45-F1H103ZYR C162
459-2310R-002 CK45-F1H103ZYR C302
459-2310R-002 CK45-F1H103ZYR C309
459-2310R-002 CK45-F1H103ZYR C313
459-2310R-002 CK45-F1H103ZYR C332
459-2310R-002 CK45-F1H103ZYR C362
459-2310R-002 CK45-F1H103ZYR C399
459-2310R-002 CK45-F1H103ZYR C475
459-2310R-002 CK45-F1H103ZYR C535
459-2310R-002 CK45-F1H103ZYR C703A
459-2310R-002 CK45-F1H103ZYR C723
459-2310R-002 CK45-F1H103ZYR C744
459-2310R-002 CK45-F1H103ZYR C752
1
459-2310R-002 CK45-F1H103ZYR C756
459-2156K-00 CT1-06-2B4-63V-561K C381
459-2222K-002 CT1-08-2B4-63V-222K C335
459-2310R-00 CT1-08-2F4-63V-103Z C472
459-2182K-002 RPU05B821K-H46CA C323
459-5122K-002 RQC05B221K-6H46UA C405
ELECTROLYTIC CAPACITOR
464-6C710-M02 CD110-10V-100uF-M C548
464-6D710-M02 CD110-16V-100uF-M C361
464-6D710-M02 CD110-16V-100uF-M C536
464-6D710-M02 CD110-16V-100uF-M C743
464-6D610-M02 CD110-16V-10uF-M C163A
464-6D610-M02 CD110-16V-10uF-M C172
464-6D610-M02 CD110-16V-10uF-M C301
464-6D610-M02 CD110-16V-10uF-M C307
464-6D610-M02 CD110-16V-10uF-M C322
464-6D610-M02 CD110-16V-10uF-M C363
464-6D610-M02 CD110-16V-10uF-M C364
464-6D610-M02 CD110-16V-10uF-M C367
464-6D610-M02 CD110-16V-10uF-M C751
464-6D610-M02 CD110-16V-10uF-M C807
464-6D610-M02 CD110-16V-10uF-M C871
464-6D622-M02 CD110-16V-22uF-M C745
464-6D747-M02 CD110-16V-470uF-M C525
464-6D747-M02 CD110-16V-470uF-M C532
464-6D747-M0 CD110-16V-470uF-M C801
464-6D647-M02 CD110-16V-47uF-M C116
464-6D647-M02 CD110-16V-47uF-M C121
464-6D647-M02 CD110-16V-47uF-M C123
464-6D647-M02 CD110-16V-47uF-M C171
464-6D647-M02 CD110-16V-47uF-M C333
464-6D647-M02 CD110-16V-47uF-M C352
464-6D647-M02 CD110-16V-47uF-M C561
464-6D647-M02 CD110-16V-47uF-M C723A
464-6D647-M02 CD110-16V-47uF-M C804
464-6D647-M02 CD110-16V-47uF-M C806
464-6D647-M02 CD110-16V-47uF-M C811
464-6D647-M02 CD110-16V-47uF-M C823
464-60447-M02 CD110-50V-0.47uF-M C372
464-60447-M02 CD110-50V-0.47uF-M C374
464-60510-M02 CD110-50V-1uF-M C153
464-60510-M02 CD110-50V-1uF-M C157
464-60510-M02 CD110-50V-1uF-M C163
464-60510-M02 CD110-50V-1uF-M C337
464-60510-M02 CD110-50V-1uF-M C813
2
464-60510-M02 CD110-50V-1uF-M C815
464-60510-M02 CD110-50V-1uF-M C825
464-60510-M0 CD110-50V-1uF-M C827
464-60510-M02 CD110-50V-1uF-M C841
464-60510-M02 CD110-50V-1uF-M C862
464-60522-M0 CD110-50V-2.2uF-M C339
464-60522-M02 CD110-50V-2.2uF-M C755
464-60622-M02 CD110-50V-22uF-M C703
464-60547-M02 CD110-50V-4.7uF-M C325
464-60547-M0 CD110-50V-4.7uF-M C340
464-60547-M02 CD110-50V-4.7uF-M C464
464-60547-M02 CD110-50V-4.7uF-M C481
464-60647-M02 CD110-50V-47uF-M C462
464-60647-M02 CD110-50V-47uF-M C517
464-62610-M0 CD288-160V-10uF-M C458
DIODE
340-00001-003 1N4148 VD171
340-00001-003 1N4148 VD431
340-00001-003 1N4148 VD461
340-00001-003 1N4148 VD462
340-00001-003 1N4148 VD491
340-00001-003 1N4148 VD511
340-00001-003 1N4148 VD544
340-00001-003 1N4148 VD561
340-00001-003 1N4148 VD562
340-00001-003 1N4148 VD734
340-00001-003 1N4148 VD911
340-00001-003 1N4148 VD921
340-00001-003 1N4148 VD931
METAL RESISTOR
467-2D218-G0 1/4W-1.8K-G R403
467-2D218-G0 1/4W-1.8K-G R405
PEAKING COIL
471-2010K-003 SPT0305-100K-5 L331
471-2010K-003 SPT0305-100K-5 L361
471-2010K-003 SPT0305-100K-5 L751
471-2010K-003 SPT0305-100K-5 L752
471-2010K-003 SPT0305-100K-5 L753
471-2A39K-00 SPT0305-3R9K-5K L351
471-2001K-00 SPT0305-1R0K-5 L302
CARBON RESISTOR
467-1E210-H03 1/2W-1K-J R453
467-1E433-H0 1/2W-330K-J R942
467-1C212-H03 1/6W-1.2K-J R305
467-1C212-H03 1/6W-1.2K-J R560
3
467-1C215-H03 1/6W-1.5K-J R732
467-1C410-H03 1/6W-100K-J R429
467-1C410-H03 1/6W-100K-J R483
467-1C410-H03 1/6W-100K-J R802A
467-1C410-H03 1/6W-100K-J R803A
467-1C110-H03 1/6W-100Ω-J R301A
467-1C110-H03 1/6W-100Ω-J R302A
467-1C110-H03 1/6W-100Ω-J R363
467-1C110-H03 1/6W-100Ω-J R365
467-1C110-H03 1/6W-100Ω-J R366
467-1C110-H03 1/6W-100Ω-J R381
467-1C110-H03 1/6W-100Ω-J R382
467-1C110-H03 1/6W-100Ω-J R383
467-1C110-H03 1/6W-100Ω-J R401
467-1C110-H03 1/6W-100Ω-J R402
467-1C110-H03 1/6W-100Ω-J R452
467-1C110-H03 1/6W-100Ω-J R723
467-1C110-H03 1/6W-100Ω-J R723A
467-1C110-H03 1/6W-100Ω-J R724
467-1C110-H03 1/6W-100Ω-J R724A
467-1C110-H03 1/6W-100Ω-J R743
467-1C110-H03 1/6W-100Ω-J R861
467-1C110-H03 1/6W-100Ω-J R862
467-1C310-H03 1/6W-10K-J R126
467-1C310-H03 1/6W-10K-J R127
467-1C310-H03 1/6W-10K-J R163
467-1C310-H03 1/6W-10K-J R427
467-1C310-H03 1/6W-10K-J R461
467-1C310-H03 1/6W-10K-J R543
467-1C310-H03 1/6W-10K-J R548
467-1C310-H03 1/6W-10K-J R551
467-1C310-H03 1/6W-10K-J R704
467-1C310-H03 1/6W-10K-J R709
467-1C310-H03 1/6W-10K-J R816A
467-1C310-H03 1/6W-10K-J R818A
467-1C310-H03 1/6W-10K-J R825A
467-1C310-H03 1/6W-10K-J R827A
467-1C310-H03 1/6W-10K-J R851A
467-1C310-H03 1/6W-10K-J R852A
467-1C310-H03 1/6W-10K-J R912
467-1C310-H03 1/6W-10K-J R922
467-1C310-H03 1/6W-10K-J R932
467-1C010-H03 1/6W-10Ω-J R312
467-1C010-H03 1/6W-10Ω-J R871
467-1C312-H03 1/6W-12K-J R425
4
467-1C415-H03 1/6W-150K-J R318
467-1C115-H03 1/6W-150Ω-J R815A
467-1C115-H03 1/6W-150Ω-J R848
467-1C115-H03 1/6W-150Ω-J R852
467-1C315-H03 1/6W-15K-J R331
467-1C315-H03 1/6W-15K-J R453A
467-1C315-H03 1/6W-15K-J R491
467-1C118-H03 1/6W-180Ω-J R353
467-1C210-H03 1/6W-1K-J R128
467-1C210-H03 1/6W-1K-J R129
467-1C210-H03 1/6W-1K-J R369
467-1C210-H03 1/6W-1K-J R380
467-1C210-H03 1/6W-1K-J R460
467-1C210-H03 1/6W-1K-J R464
467-1C210-H03 1/6W-1K-J R481
467-1C210-H03 1/6W-1K-J R531
467-1C210-H03 1/6W-1K-J R541
467-1C210-H03 1/6W-1K-J R544
467-1C210-H03 1/6W-1K-J R734
467-1C210-H03 1/6W-1K-J R802
467-1C210-H03 1/6W-1K-J R803
467-1C210-H03 1/6W-1K-J R804
467-1C210-H03 1/6W-1K-J R816
467-1C210-H03 1/6W-1K-J R818
467-1C210-H03 1/6W-1K-J R825
467-1C210-H03 1/6W-1K-J R827
467-1C222-H03 1/6W-2.2K-J R351
467-1C222-H03 1/6W-2.2K-J R371
467-1C222-H03 1/6W-2.2K-J R451
467-1C222-H03 1/6W-2.2K-J R540
467-1C222-H03 1/6W-2.2K-J R807
467-1C224-H03 1/6W-2.4K-J R515
467-1C227-H03 1/6W-2.7K-J R512
467-1C122-H03 1/6W-220Ω-J R311
467-1C122-H03 1/6W-220Ω-J R442
467-1C122-H03 1/6W-220Ω-J R917
467-1C122-H03 1/6W-220Ω-J R927
467-1C122-H03 1/6W-220Ω-J R937
467-1C322-H03 1/6W-22K-J R162
467-1C322-H03 1/6W-22K-J R384
467-1C322-H03 1/6W-22K-J R422
467-1C322-H03 1/6W-22K-J R455
467-1C322-H03 1/6W-22K-J R482
467-1C022-H03 1/6W-22Ω-J R914
467-1C022-H03 1/6W-22Ω-J R924
5
467-1C022-H03 1/6W-22Ω-J R934
467-1C427-H03 1/6W-270K-J R174
467-1C327-H03 1/6W-27K-J R484
467-1C327-H03 1/6W-27K-J R487
467-1C233-H03 1/6W-3.3K-J R702
467-1C233-H03 1/6W-3.3K-J R721
467-1C233-H03 1/6W-3.3K-J R722
467-1C233-H03 1/6W-3.3K-J R728
467-1C233-H03 1/6W-3.3K-J R735
467-1C233-H03 1/6W-3.3K-J R736
467-1C233-H03 1/6W-3.3K-J R737
467-1C233-H03 1/6W-3.3K-J R741
467-1C233-H03 1/6W-3.3K-J R742
467-1C239-H03 1/6W-3.9K-J R321
467-1C130-H03 1/6W-300Ω-J R913
467-1C130-H03 1/6W-300Ω-J R923
467-1C130-H03 1/6W-300Ω-J R933
467-1C133-H03 1/6W-330Ω-J R805
467-1C133-H03 1/6W-330Ω-J R916
467-1C133-H03 1/6W-330Ω-J R926
467-1C133-H03 1/6W-330Ω-J R936
467-1C333-H03 1/6W-33K-J R171
467-1C333-H03 1/6W-33K-J R175
467-1C333-H03 1/6W-33K-J R317
467-1C333-H03 1/6W-33K-J R385
467-1C333-H03 1/6W-33K-J R431
467-1C333-H03 1/6W-33K-J R434
467-1C033-H03 1/6W-33Ω-J R806
467-1C139-H03 1/6W-390Ω-J R322
467-1C247-H03 1/6W-4.7K-J R131
467-1C247-H03 1/6W-4.7K-J R133
467-1C247-H03 1/6W-4.7K-J R154
467-1C247-H03 1/6W-4.7K-J R158
467-1C247-H03 1/6W-4.7K-J R306
467-1C247-H03 1/6W-4.7K-J R462
467-1C247-H03 1/6W-4.7K-J R733
467-1C147-H03 1/6W-470Ω-J R308
467-1C347-H03 1/6W-47K-J R172
467-1C347-H03 1/6W-47K-J R732A
467-1C347-H03 1/6W-47K-J R745
467-1C047-H03 1/6W-47Ω-J R368
467-1C047-H03 1/6W-47Ω-J R708
467-1C047-H03 1/6W-47Ω-J R911
467-1C047-H03 1/6W-47Ω-J R921
467-1C047-H03 1/6W-47Ω-J R931
6
Table of contents
Other Parker TV manuals
