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RY INFORMATION FOR THE FOLLOWING MAN 





SERVICE MANUAL RA-6A cuassis 





MODEL NAME REMOTE COMMANDER DESTINATION CHASSIS NO. 


KP-46WT510 RM-Y909 US/CND SCC-M10DA 





ORIGINAL MANUAL ISSUE DATE: 6/2003 


(@ : UPDATED ITEM 





REVISION DATE SUBJECT 
6/2003 No revisions or updates are applicable at this time. 
6/30/2003 Updated G (Pg. 58) and D (Pg. 77) Schematics, 


Added critical symbol to G Board on Exploded View section 6-3. Chassis (Pg. 90) 
Updated critical components on Parts Lists (Pgs. 92-135) 

8/25/2003 Updated Table of Contents (Pg. 3) 
Corrected Diagrams for H2, H1, and H4 Board Removal (Pg. 11) 
Replaced 2-11. Service Data Lists with 2-11. Adjustable Service Data Lists 
(Replace Pgs. 19-37 with Pgs. 19-29) 
Corrected procedures for 2-12. Registration Adjustment (Replace Pg. 38 with Pg. 30) 
Corrected procedures for 2-13-2. Copying All Registration Data to Other Modes and 
2-14. Auto Registration Offsets (Replace Pg. 42 with Pg. 34) 
Corrected Error Codes 54 & 55, 2-15. Auto Registration Error Codes (Replace Pg. 43 with Pg. 35) 
Added 2-16. Auto Registration Diagnostics (Replace Pg. 44 with Pg. 36) 
Corrected 3-D-Comb # from 5-3. Block Diagram (Replace Pg. 51 with Pg. 43) 
Deleted C308 Block Diagram from 5-5. IC Block Diagrams (Replace Pg. 84 with Pg. 76) 
Corrected semiconductors 5-6. Semiconductors (Replace Pg. 88 with Pg. 80) 
Corrected Grille piece on cover exploded view diagrams (Replace Pg. 89 with Pg. 81) 


11/11/2003 Replaced data relating to CR, CG and CB Boards. 
Affects Pages 46-48 (Schematics), 83 (Exploded View), 84-87 (Parts List). 
11/16/2004 Removed Note from section 2-12-1. Setup For Adjustment. Note is intended for use by the factory during 


production, and should not be performed by service technicians.(Pg. 30) 
Updated A Board, Complete PN, Added A Board, Mounted PN, 
Added New CRT’s, D Board, introduced new S/N range. Affects S/N's 8,000,001 to 8,700,000 


(Pg. 82 & 83) 
11/17/2004 Added new D Board PN to Electircal Parts List Affects S/N's 8,000,001 to 8,700,000 
(Pg. 120 & 124) 
8/19/2005 Updated serial number range for D Boards and CRTs (Pg. 82, 83, and 120) 


COLOR REAR VIDEO PROJECTION 


Self Diagnosis 
Supported mode! | 


SERVICE MANUAL RA-6A cuassis 


MODEL NAME REMOTE COMMANDER DESTINATION CHASSIS NO. 


KP-46WT510 RM-Y909 US/CND SCC-M10DA 

















iad 





KP-46WT510 RM-Y909 


COLOR REAR VIDEO PROJECTION 


KP-46WT510 


ABLE OF CONTENTS 






SECTION TITLE PAGE 
Specifications 4 
Warnings and Cautions 5 
Safety Check-Out .. 6 


Self-Diagnostic Function. 


SECTION 1: DISASSEMBLY. 
1-1. Rear Board Removal 
1-2. Chassis Assembly Removal 
1-3. Service Position .. 

4. H2 Board Removal. 

‘5. H1 Board Removal. 

6. H4 Board Removal. 

-7. Mirror Cover Removal 

8. 

9. 

1 

1 

1 





















. Beznet Assembly Removal 
|. SR Board Removal ..... 


UD Board Removal 
1-13.Picture Tube Removal 
1-14. High-Voltage Cable Installation and Removal 


SECTION 2: SET-UP ADJUSTMENTS.. 
2-1. Screen Voltage Adjustment (Coarse Adjustment 
2-2. Screen (G2) Adjustment (Fine Adjustment).. 
2-3. Deflection Yoke Tilt Adjustment. 
2-4. Focus Lens Adjustment... 
2-5. Focus VR Adjustment. 

















2-6. 2-Pole Magnet and Centering Magnet Adjustment 17 
2-7. Centering Magnet Adjustment 17 
2-8. 4-Pole Magnet Adjustment 17 
2-9. Blue Defocus Adjustment 17 


2-10.Electrical Adjustments by Remote Commander.. 
2-11. Adjustable Service Data Lists 
2-12. Registration Adjustment..... 
2-13.PJE Adjustment (Sub Deflection Adjustment) 
2-14. Auto Registration Offsets ... 
2-15.Auto Registration Error Code: 
2-16.Auto Registration Diagnostics.............. 


SECTION 3: SAFETY-RELATED ADJUSTMENTS. 
D BOARD... 
3-1. HV Regulation Circuit Check and Adjustment 
3-2. HV Hold Down Circuit Operation Check and Adjustment .... 37 
GBOARD.. a 
3-3. +B Max Voltage Confirmation 
3-4. +B OVP Confirmation: 









SECTION 4: CIRCUIT ADJUSTMENTS 
4-1. Blue Offset Adjustment... 
4-2. P & P Sub Contrast Adjustment (Video) (SCON) 
4-3. P & P Sub Contrast Adjustment (RF) (SCON) 
4-4. P & P Sub-Hue and Sub-Color Adjustment 
(Video) (SHUE, SCOL) .. 
4-5. P & P Sub-Hue and Sub-Color Adjustment 
(RF) (SHUE, SCOL).... 

















SECTION TITLE 


SECTION 5: DIAGRAMS.. 
5-1. Circuit Boards Locatior 
5-2. Printed Wiring Boards and 

Schematic Diagrams Informatio! 
5-3. Block Diagrams... 
5-4. Schematics and Supporting Information .. 
CR Board Schematic Diagram .. 
CB Board Schematic Diagram .. 
CG Board Schematic Diagram .. 
V Board Schematic Diagram . 
G Board Schematic Diagram . 
UD Board Schematic Diagram . 
A Board Schematic Diagram (1 of 3). 
A Board Schematic Diagram (2 of 3) 
A Board Schematic Diagram (3 of 3). 
AD Board Schematic Diagram .. 
U Board Schematic Diagram . 
B Board Schematic Diagram (1 of 2) 
B Board Schematic Diagram (2 of 2) 
D Board Schematic Diagram... 
SR Board Schematic Diagram .. 
H2 Board Schematic Diagram 
H1 Board Schematic Diagram 
H4 Board Schematic Diagram 
5-5. IC Block Diagrams 
A Board .. 
B Board .. 
CR Boarc 
CG Board... 
CB Board. 
U Board. 
5-6. Semiconductors 




































SECTION 6: EXPLODED VIEWS... 
6-1. Cover. 
6-2. Chassis .. 
6-3. Picture Tube .. 


SECTION 7: ELECTRICAL PARTS LIST.. 


SPECIFICATIONS 


Power Requirements 120V AC, 60Hz 


Power Consumption (W) 
In Use (Max) 
In Standby 


230W 
Under 1 W 


DVI-HDTV 
1 terminal, 3.3V T.M.D.S., 50 ohms 


Inputs/Outputs 


The DVI-HDTV input terminal is compliant with the EIA-861 stand- 


ard and is not intended for use with personal computers. 


Video (IN) 
4 total (1 on front panel) 
1Vp-p, 750hms unbalanced, sync negative 


S Video (IN) 
3 total (1 on front panel) 

Y: 1Vp-p, 750hms unbalanced, sync negative 
C:0.286Vp-p (Burst signal), 75ohms 


Audio (IN) 
6 total (1 on front panel) 
500 mVrms (100% modulation) 
Impedance:47 kilo ohms 


KP-46WT510 





Audio (VAR/RIX) 
1 total 

500 mVrms at the maximum volume setting (Variable) 
500 mVrms (Fixed) 

Impedance (Output):1 kilo ohm 


TV Out 
1 total 

Video: 1 Vp-p 75 ohms unbalanced, Sync negative 
Audio: 500 m Vrms (100% modulation) 

Impedance (output): 1 kilo ohms 


Control S (IN/OUT) 
1 total 
Minijacks 


Component Video Input 
2(Y, Pp, Pr) 

Y: 1.0 Vp-p, 75 ohms unbalanced, sync negative 
Pg: 0.7 Vp-p, 75 ohms; 

PR: 0.7 Vp-p, 75 ohms 


RF Inputs 
2 total 


Converter 
1 total 





KP-46WT510 





‘Speaker Output (W) 


20W x2 





Dimensions (WxHxD) 











mm | 1086 x 1017 x 609 mm 
in] 42°x 40 x 24 in 
Mass kg 61.3kg 
Ibs 135 Ibs 








Projection System 
3 picture tubes, 3 lenses, horizontal in-line system 


Picture Tube 
7-inch high-brightness monochrome tubes (6.3 raster size) 


with optical coupling and liquid cooling system. 


Projection Lenses 
High performance, large diameter hybrid lens F1.1 


Antenna 
75 ohm external terminal for VHF/UHF 


Television System 
NTSC, American TV Standard 


Channel Coverage 
VHF: 2-13/ UHF: 14-69/ CATV: 1-125, 


Design and specifications are subject to change without notice. 


Screen Size (measured diagonally) 
46 inches 


Supplied Accessories 
Remote Control RM-Y909 
Batteries (2) size AA (R6) 


Optional Accessories 
AN Cable (VMC-810/820/830 HG) 
Audio Cable (RKC-515HG) 
Component Video Cable (VMC-10/30 HG) 
Control S Cable (RK-G69HG) 
AV Receiver (STR-V555ES or equivalent) 
TV Stand SU-46WT5S. 


KP-46WT510 


WARNINGS AND CAUTIONS 


CAUTION 





Short circuit the anode of the picture tube and the anode cap to the metal chassis, CRT shield, or carbon painted on the CRT, after 
removing the anode. 


WARNING!! 


An isolation transformer should be used during any service to avoid possible shock hazard, because of live chassis. The chassis of 
this receiver is directly connected to the ac power line. 


JN SAFETY-RELATED COMPONENT WARNING!! 


Components identified by shading and /\ mark on the schematic diagrams, exploded views, and in the parts list are critical for safe 
operation. Replace these components with Sony parts whose part numbers appear as shown in this manual or in supplements 
published by Sony. Circuit adjustments that are critical for safe operation are identified in this manual. Follow these procedures 
whenever critical components are replaced or improper operation is suspected. 


ATTENTION!! 


Apres avoir deconnecte le cap de l'anode, court-circuiter I'anode du tube cathodique et celui de l'anode du cap au chassis metallique 
de l'appareil, ou la couche de carbone peinte sur le tube cathodique ou au blindage du tube cathodique. 


Afin d’eviter tout risque d’electrocution provenant d'un chassis sous tension, un transformateur d'isolement doit etre utilisé lors de tout 
dépannage. Le chassis de ce récepteur est directement raccordé a |'alimentation du secteur. 


JN ATTENTION AUX COMPOSANTS RELATIFS A LA SECURITE!! 


Les composants identifies par une trame et par une marque /\ sur les schemas de principe, les vues explosees et les listes de pieces 
sont d'une importance critique pour la securite du fonctionnement. Ne les remplacer que par des composants Sony dont le numero 

de piece est indique dans le present manuel ou dans des supplements publies par Sony. Les reglages de circuit dont l'importance 

est critique pour la securite du fonctionnement sont identifies dans le present manuel. Suivre ces procedures lors de chaque 
remplacement de composants critiques, ou lorsqu’un mauvais fonctionnement suspecte. 


SAFETY CHEC 


After correcting the original service problem, perform the following 
safety checks before releasing the set to the customer: 


1. Check the area of your repair for unsoldered or poorly soldered 
connections. Check the entire board surface for solder splashes and 
bridges. 


2. Check the interboard wiring to ensure that no wires are “pinched” or 
touching high-wattage resistors. 


3. Check that all control knobs, shields, covers, ground straps, and 
mounting hardware have been replaced. Be absolutely certain that 
you have replaced all the insulators. 


4. Look for unauthorized replacement parts, particularly transistors, 
that were installed during a previous repair. Point them out to the 
customer and recommend their replacement. 


5. Look for parts which, though functioning, show obvious signs of 
deterioration. Point them out to the customer and recommend their 
replacement. 


6. Check the line cords for cracks and abrasion. Recommend the 
replacement of any such line cord to the customer. 


7. Check the B+ and HV to see if they are specified values. Make sure 
your instruments are accurate; be suspicious of your HV meter if 
sets always have low HV. 


8. Check the antenna terminals, metal trim, “metallized” knobs, screws, 
and all other exposed metal parts for AC leakage. Check leakage as 
described below. 


KP-46WT510 





Leakage Test 

The AC leakage from any exposed metal part to earth ground and from 
all exposed metal parts to any exposed metal part having a return to 
chassis, must not exceed 0.5 mA (500 microamperes). Leakage current 
can be measured by any one of three methods. 


1. Acommercial leakage tester, such as the Simpson 229 or RCA 
WT-540A. Follow the manufacturers’ instructions to use these 
instructions. 


ro 


. Abattery-operated AC milliammeter. The Data Precision 245 digital 
multimeter is suitable for this job. 


ro) 


. Measuring the voltage drop across a resistor by means of a VOM 
or battery-operated AC voltmeter. The “limit” indication is 0.75 V, 
so analog meters must have an accurate low voltage scale. The 
Simpson's 250 and Sanwa SH-63TRD are examples of passive 
VOMs that are suitable. Nearly all battery-operated digital multimeters 
that have a 2 VAC range are suitable (see Figure A). 


How to Find a Good Earth Ground 

Acold-water pipe is a guaranteed earth ground; the cover-plate retaining 
screw on most AC outlet boxes is also at earth ground. If the retaining 
screw is to be used as your earth ground, verify that it is at ground by 
measuring the resistance between it and a cold-water pipe with an 
ohmmeter. The reading should be zero ohms. 


If a cold-water pipe is not accessible, connect a 60- to 100-watt trouble- 
light (not a neon lamp) between the hot side of the receptacle and the 
retaining screw. Try both slots, if necessary, to locate the hot side on the 
line; the lamp should light at normal brilliance if the screw is at ground 
potential (see Figure B). 





To Exposed Metal 
Parts on Set 





o_ AC Voltmeter 
O15 WF 1.5kQ Z| (0.75) 

















= Earth Ground 





Figure A. Using an AC voltmeter to check AC leakage. 





Trouble Light 
IN. Ohmmeter 


rok, 


Cold-water Pipe 





5 = AC Outlet Box 















































Figure B. Checking for earth ground. 


KP-46WT510 


The units in this manual contain a self-diagnostic function. If an error occurs, the STANDBY/TIMER LED will automatically begin to flash. The number 
of times the LED flashes translates to a probable source of the problem. A definition of the STANDBY/TIMER LED flash indicators is listed in the 
instruction manual for the user's knowledge and reference. If an error symptom cannot be reproduced, the Remote Commander can be used to review 
the failure occurrence data stored in memory to reveal past problems and how often these problems occur. 


SEL 





IAGNOSTIC FU 





Diagnostic Test Indicators 
When an error occurs, the STANDBY/TIMER LED will flash a set number of times to indicate the possible cause of the problem. If there is more than 
one error, the LED will identify the first of the problem areas. 


Results for all of the following diagnostic items are displayed on screen. If the screen displays a “O", no error has occurred. 



































No. of times 
Diagnostic Item SUTEEE Probable Cause Location Detected Symptoms 
lamp flashes 
Power does not turn on Does not light |» Power cord is not plugged in. * Power does not come on. 
* Fuse is burned out (F6001). (G Board) | * No power is supplied to the TV. 
* AC Power supply is faulty. 
+B overcurrent (OCP)* 2 times * H.OUT (Q8024) is shorted. (D Board) | « Power does not come on. 
* +B PWM (Q8035, Q8038) is shorted. | © Load on power line shorted. 
(D Board) 
+B overvoltage (OVP) 3 times * IC501 is faulty. (G Board) * Has entered standby mode. 
* 1C5002 is faulty. (G Board) 
Vertical deflection stopped 4 times + #15V is not supplied. (D Board) * Has entered standby state after 
* 18003 is faulty. (A Board) horizontal raster. 
* Vertical deflection pulse is 
stopped 
* Power line is shorted, or 
power supply is stopped. 
White Balance Failure 5 times * Video OUT (IC7101, 17201, IC7301) | * No raster is generated. 
(Not Balanced) is faulty. (CR, CG, CB Boards) * CRT Cathode current detection 
* CRT drive (IC309) is faulty. (A Board) reference pulse output is small. 
* Screen (G2) is improperly adjusted. ** 
Low B OCP/OVP 6 times « +5 line is overloaded. (A, B Boards) * No picture 
(OvercurrenvOvervoltage) *** * +5 line is shorted. (A, B Boards) 
Horizontal deflection stopped 7 times * 08035, 08038 is shorted. (D Board) 
High-voltage error 8 times * T8005 is faulty. (D Board) 
Audio error 9 times + 19V line is shorted. (A, B Boards) * No sound 
* 1C708 is faulty. (A Board) 
* PS701 or PS702 is opened. 
(A Board) 

















Ifa +B overcurrent is detected, stoppage of the vertical deflection is detected simultaneously. The symptom that is diagnosed 
first by the microcontroller is displayed on the screen. 

Refer to Screen (G2) Adjustments in Section 2-2 of this manual 

If TIMER or STAND BY indicator blinks six (6) times, unplug the unit and wait 10 minutes before performing the adjustment. 


KP-46WT510 


Display of Standby/Timer LED Flash Count 


* One blink is not used for self-diagnosis. 
< FRONT PANEL > 





ROWER: * EXAMPLE 
Oo <Diagnosis ltems> <Number of Blinks> 
TMER'STAND BY mm mu mH mu 
STEREO «+B overcurrent 2 times 
° 


¢ +B overvoltage 3 times JU Uff 
Vertical deflection stop 4 times JUUU___Uuuut___Iu 


Lamp ON :0.3 seconds + 4— 


: _2)i. Lamp OFF: 
Lamp OFF : 0.3 seconds Pra 




















TIMER/STAND BY indicator 


Release of TIMER STAND BY indicator blinking 
The TIMER/STANDBY indicator blinking display is released by turning OFF the power switch on the TV main unit or removing the plug from the power. 


Self-Diagnosis Screen Displays 

In cases of malfunctions where it is not possible to determine the symptom such as when the power goes off occasionally or when the screen 
disappears occasionally, there is a screen display on whether the malfunction occurred or not in the past (and whether the detection circuit operated or 
not) in order to allow confirmation. 


Screen Display Method 
Quickly press the remote command button in the following order from the standby state. 


[Display] —> Channel 5] —» Sound Volume*E] —» Power ON 





SELF DIAGNOSIS “Note that this differs from entering the service mode (sound volume [-]) 
2:4B OCP N/A a 
3:4B OVP N/A Numeral "0" means that no fault 
4:VSTOP o0-——T~ was detected. 
5: AKB 1 
10: WDT 24) ~ Numeral "1" means a fault was detected 
; ‘one time or more 











Self-Diagnosis Screen Display 

The results display is not automatically cleared. In case of repairs and after repairs, check the self-diagnosis screen and be sure to return the results 
display to “0”. 

If the results display is not returned to “ 0 " it will not be possible to judge a new malfunction after completing repairs. 


Method of Clearing Results Display 


1. Power off (Set to the standby mode.) 





2. [Display] —» Channel [5] —» Sound Volume E] —-+» Power ON (Service Mode) 











3. Channel [8] ——» [ENTER] (Test reset = Factory preset condition) 


Method of Ending Self Diagnosis Screen 
When ending the self-diagnosis screen completely, turn the power switch OFF on the remote commander or the main unit. 


KP-46WT510 


Self-Diagnosis Function Operation 


ocP. Low B and +B line detect DET SHORT, and shut-down POWER ON RELAY. 
Reset by turning power on/off. In case of +B is loaded approx. 1.5A or more, microcomputer detects it via IC5005. 

ovP In case of +B becomes approx. 150V or more, POWER ON RELAY shuts down and microcomputer detects it via IC5005. 
Reset by turning power on/off just the same as OCP. 

LowB Occurs when set +5V is out 

V Stop _ In the case of the V Drive disappearing, Q8001 detects it and shuts-down the POWER ON RELAY. The microcomputer detects it and 
causes the LED to blink. 

AKB IK detection. Makes LED blink when microcomputer doesn't detect IK, returns of IC309 (CXA2150AQ) 20 seconds or more. 

H Stop Incase H DRIVE disappears, Q378 detects it and shuts-down POWER ON RELAY. 
Microcomputer receives H Stop data from Q378 and makes the LED blink. 

HV Stop In case HV becomes 33kV or more, IC8006 detects it and shuts-down POWER ON RELAY. 
The microcomputer makes the LED blink. 

Audio _ In case of DC component overlaps the output of Audio Amp., the microcomputer detects it and shuts-down POWER ON RELAY. 
The microcomputer makes the LED blink. 

Self-Diagnosis Block Diagram Ds101 


TIMER/STANDBY (&) ¥ 


AW 
4 R765 



































































































































































5, AKB 
IC309 
O~2150AQ 6 HSTOP 
LE 
YICJ UNG OE 
HPULSE eG 
e D HV Detector 
bance Av 
ie C8003 
IC70B YV Drive 
EEPROM | — Geom, i} 
V Puse Detector 
@ 5. AKB 
1C708 
C.Board 
DC Detect 
OvP DETECT 
O¢P DETECT 
8. HVSTOP 











KP-46WT510 


SECTION 1: DISASSEMBLY 








1-1. REAR BOARD REMOVAL 1-2. CHASSIS ASSEMBLY REMOVAL 







Three screws, 
dome washer 
HEX tap 4 x 20 












Rear board 


@) Chassis assy 


@) Nine Screws, dome washer 
HEX tap 4 x 20 


1-3. SERVICE POSITION @ Disconnect CN17, 18, and 19 
on the A board. 
From V board CN9001. 
(The extension cable is not 
supplied because of the 


“Aboard countermeasure for radiation.) 
CN17, 18, and 19 


® Covers 

Remove covers from chassis assembly 

with pliers when checking printed circuit boards. 
After checking, turn the covers over 

and re-secure them with the screws. 


Chassis assembly Screws 
(+BVTP 3x12) 


—10= 


KP-46WT510 


1-4. H2 BOARD REMOVAL 






(iF ourfiscrews, 


domefiwasher 
HEXfitapfidfixti2| ‘@yiSixfiscrevs 
tofiremove fifi(+BVTPfi4x12 
speakerfigrille iH2fiboard 
iFirmlyfipull 

si ale Button, fimultt 
forwardfitofi 
release. 


1-5. H1 BOARD REMOVAL 


OhiBackettl gy iltotécrews 
©fiButton fipwer JS fifi(+BVTPfi4x1 2) 


gna Ae <1-—_@IH 1 fiboard 
- ef} 

ae Sai 
fifi(+BVTPFI3x12 


iScrav 
fifi(+BVTPfi4x1 2) 








1-6. H4 BOARD REMOVAL 





@ One screws 
(+BVTP 4x12) uf H4 board 
@ Two Screws 
(+BVTP 3x12) 


Door, front terminal 


ef 


KP-46WT510 


1-7. MIRROR COVER REMOVAL 1-8. BEZNET ASSEMBLY REMOVAL 
Twenty three screws, ® Screws, 
dome washer HEX tap 4x20 





@)Mirror cover 





dome washer HEX tap 4x20 
1-9. SR BOARD REMOVAL 1-10.AD BOARD AND B BOARD REMOVAL 
Sensor @SR board 
bracket (B) ® Bibeaid 








‘Two screws 
(+BVTP 4x12) 


« #—(1)Four screws 
en (+BVTP 4x12) 


aN, ® L screen holder 





(Two screws Main bracket 
(+BVTP 4x12) 


=e 


KP-46WT510 


1-11.G BOARD REMOVAL 


@cClaws @Bracket G 


®@ Four screws, 
(+BVTP 3x12) 





1-12. TERMINAL BOARD, A BOARD, D BOARD, U BOARD, AND UD BOARD REMOVAL 


® Two screws 
(+BVTP 3x12) 









© Screws © Uboard 
(#BVTP 3x12) 


©Six screws @A board 


(+BVTP 3x12) 2 
KS 





Five screws 
(+BVTP 3x12) 


3 | @ Two screws 
e | (+BVTP 4x20 dome vasher) 


Main bracket 


ee 


KP-46WT510 


1-13.PICTURE TUBE REMOVAL 


CAUTION Removing the arrow-marked 
screws is strictly prohibited. 
If removed, it may cause liquid spill. 









eng Four screws, 
Picture tube dome washer HEX tap 4x20 
4 Lens 
(@ Four screws, Four screws 
dome washer (+BVTP 4x12) 


| (2) Picture tube 


[= Deflection yoke 

@)V board 

@ (8) Two screws 

R (+BVTP 3x12) 


S eo Four screws, 
dome washer HEX tap 4x20 


1-14.HIGH-VOLTAGE CABLE INSTALLATION AND REMOVAL 
(1) Removal (2) Installation 
@ Rubber cap 
HV cable 


Hook 


t HV cable 
t turn 90° ry 


Gutter 


=a 


SECTION 2: SET-UP A STMENTS 


2-1. SCREEN VOLTAGE ADJUSTMENT 
(COARSE ADJUSTMENT) 


1. Receive the Monoscope signal. 
2. Set BRIGHTNESS to 50% and PICTURE to minimum. 


3. Turn the red VR on the focus block all the way to the left and then 
gradually turn it to the right until the retrace line is barely visible. 


4. Gradually turn the contro! to the left until the retrace line disappears. 














FOCUS Block 


2-2. SCREEN (G2) ADJUSTMENT (FINE 
ADJUSTMENT) 


If the jig described below is available, it is recommended that the G2 
Fine Mode Adjustment be performed to set the screen controls to their 
optimal condition. If desired, you can build the jig illustrated below, 
using 3-watt resistors. Please note that if the proper voltage is not 
obtained with the listed resistor's values, then increase or decrease one 
of the values in the resistor network to obtain the correct voltage. 


1. Select VIDEO-1 mode no signal applied (the screen must be black). 

2. Connect the G2 JIG. 

3. SW on JIG. 

4. Connect an oscilloscope to the TP7101(KR), TP7202(KG) and 
TP7301(KB) of CR board, CG board, and CB board. 

5. Adjust red, green, and blue screen voltage to 177.5+/-0.5V with 
screen VR on the focus block. 









































Wie kK 
G2uIG t 
sw 
TO CG BOARD 3.3k { 39k 5.6k 68k 

TP7202 GND 
(210V) 

All resistors are 3W type 

177.5V +/- 0.5V pedestal level 

GND 








KP-46WT510 





2-3. DEFLECTION YOKE TILT ADJUSTMENT 


. Connect the color bar generator monoscope pattern to Video 1 input. 


po 


. Cover the red and blue CRT lenses with lens caps to allow only green 
to show (or use the method shown in the note below for turning off 
the CRTs individually without using lens caps). 

. Loosen the CRT's deflection yoke set screw and align the tilt of the 
deflection yoke so that the horizontal bars at the center of the 
monoscope pattern are horizontal. 

4. After aligning the deflection yoke fasten it securely to the 
funnel-shaped portion (neck) of the CRT. 

The tilt of the deflection yoke is aligned in the mode. 

. Cover the green and blue CRT lenses with lens caps to allow only 
green to show (or use the method shown in the note below for turning 
off the CRTs individually without using lens caps), then repeat steps 3 
and 4 for the red CRT. 

Cover the green and red CRT lenses with lens caps to allow only 
green to show (or use the method shown in the note below for turning 
off the CRTs individually without using lens caps), then repeat steps 3 
and 4 for the blue CRT. 

Note: If lens caps are unavailable, you can cut off the unnecessary color 

beams by controlling the service mode 2150P-2 1 RGBS. 


o 


a 


4-pole magnet 
Deflection yoke 

















2-pole magnet 


— 
Centering magnet, 
Anode cap 












































— 5 


2-4. FOCUS LENS ADJUSTMENT 


In this adjustment, use the remote commander while in service 
mode. For details on the usage of the service mode and the remote 
commander, please refer to section 

2-10. ELECTRICAL ADJUSTMENTS BY REMOTE COMMANDER. 


1. Loosen the lens screw. 


2. Cover the red and blue CRT lenses with lens caps to allow only green 
to show (or use the method shown in the note below for turning off 
the CRTs individually without using lens caps). 

3. Turn the green lens to adjust to the optimum focus point with the 
crosshatch signal. 

4. Tighten the lens screw. 

5. Cover the green and blue CRT lenses with the lens caps to allow only 
red to show (or use the method shown in the note below for turning 
off the CRTs individually without using lens caps). 

. Turn the red lens to adjust to the optimum focus point with the 

crosshatch signal. 

Tighten the lens screw. 


. Cover the green and red CRT lenses with the lens caps to allow only 
blue to show (or use the method shown in the note below for turning 
off the CRTs individually without using lens caps). 


. Turn the blue lens to adjust to the optimum focus point with the 
crosshatch signal. 

10. Tighten the lens screw. 

11.After adjusting the items: 

2-5. FOCUS VR ADJUSTMENT, 

2-6. 2-POLE MAGNET ADJUSTMENT, 

2-8. 4-POLE MAGNET ADJUSTMENT, 

Reconfirm the optimum focus point and adjust again if necessary. 


a 


2 N 


© 


* Every time 6 is pressed, the test signal changes to: 
“crosshatch+video signal” — “crosshatch+borderline (black)" > 
“crosshatch (black)" — “dots (black)” + off 





















































Test Signal 


Note: If lens caps are unavailable, you can cut off the unnecessary color 
beams by controlling the service mode 2150P-2 1 RGBS. 





KP-46WT510 


2-5. FOCUS VR ADJUSTMENT 


po 


o 


a 


2 


I 


2 


. Set generator to crosshatch. 
. Cover the red and blue CRT lenses with lens caps to allow only green 


to show (or use the method shown in the note below for turning off 
the CRTs individually without using lens caps). 


. Turn the green focus VR on the focus block to adjust to the optimum 


focus point with the crosshatch signal. 


. Cover the green and blue picture lenses with lens caps to allow only 


red to show (or use the method shown in the note below for turning 
off the CRTs individually without using lens caps). 


. Turn the red focus VR on the focus block to adjust to the optimum 


focus point with the crosshatch signal. 


. Cover the green and red picture lenses with lens caps to allow only 


blue to show (or use the method shown in the note below for turning 
off the CRTs individually without using lens caps). 


. Turn the blue focus VR on the focus block to adjust to the optimum 


focus point with the crosshatch signal. 


. After adjusting the items: 


2-4. FOCUS LENS ADJUSTMENT, 

2-6. 2-POLE MAGNET AND CENTERING ADJUSTMENT, 

2-8. 4-POLE MAGNET ADJUSTMENT, 

Reconfirm the optimum focus point and adjust again if necessary. 


Note: If lens caps are unavailable, you can cut off the unnecessary color 
beams by controlling the service mode 2150P-2 1 RGBS. 


Scanning line visible. 
ve 





> 

















A 
Minimize both A and B. 




















Center of crosshatch 


ee 


2-6. 2-POLE MAGNET AND CENTERING 
MAGNET ADJUSTMENT 


1. Set the picture mode to PRO and picture to MAX. 

2. Either select the PJED Test Pattern dot hatch signal or apply an 
external dot signal. 

3. Cover the red and blue CRT lenses with lens caps to allow only green 
to show (or use the method shown in the note below for turning off 
the CRTs individually without using lens caps). 

4. Turn the focus VR on the focus block to the left (counter clockwise) 
and set it to overfocus to enlarge the spot. 

5. Adjust the CRT's 2-pole magnet so that the small bright spot is in the 
center. 

6. Align the focus VR on the focus block and set it for the best focus. 

7. Apply a Monoscope signal to the set. 

8. Adjust the H-CENTERING and V-CENTERING roughly by the 
centering magnets. 

9. Check 2-pole magnet adjustment. If necessary repeat steps 1-6. 

10.Repeat steps 1 through 9 for the red CRT covering the green and 
blue CRT lenses with lens caps to allow only red to show (or use the 
method shown in the note below for turning off the CRTs individually 
without using lens caps) and adjust the red focus control on the focus 
block. 

11.Repeat steps 1 through 9 for the blue CRT covering the red and 
green CRT lenses with lens caps to allow only blue to show (or 
use the method shown in the note below for turning off the CRTs 
individually without using lens caps) and adjust the blue focus control 
on the focus block. 


Os 


Note: If lens caps are unavailable, you can cut off the unnecessary color 
beams by controlling the service mode 2150P-2 1 RGBS. 


2-7. CENTERING MAGNET ADJUSTMENT 


Not required - Combined with 2-6 2-Pole And Centering Magnet 
Adjustment. 





KP-46WT510 


2-8. 4-POLE MAGNET ADJUSTMENT 


. Set the picture mode to PRO and picture to MAX. 

. Receive the Dot signal. 

. Cover the red and blue CRT lenses with lens caps to allow only green 
to show (or use the method shown in the note below for turning off 
the CRTs individually without using lens caps). 

4. Turn the (green) focus VR on the focus block to the right (clockwise) 
and set it to under-focus to reduce the spot. 

. Adjust the 4-pole magnet so that the small spot in the center of the 
screen becomes round for green and red. 


. Adjust the blue spot to an oval shape X:Y=1:1.2 


ens 


a 


2 


Note: If lens caps are unavailable, you can cut off the unnecessary color 
beams by controlling the service mode 2150P-2 1 RGBS. 


Use the center dot 


(Blue) 
(Green, Red) 





2-9. BLUE DEFOCUS ADJUSTMENT 


1. Setup: Apply a Dot Hatch Signal and set the mode to Pro Mode. 
Change the color temperature to Cool in the user's menu. 

2. Cover the red and green CRT lenses with lens caps to allow only blue 
to show (or use the method shown in the note below for turning off 
the CRTs individually without using lens caps). 

4. Turn the blue focus VR on the focus block to the right (clockwise) to 
make the round dot oval. 


re 


Blue 
D102 =1:1.2 


a 


. Check the flare with a high luminance signal to make sure the flare is 
minimal while the bright spot is located in the center, If not, readjust 
the 2 and 4-pole magnets. 


6. Check for uniformity on a 100% IRE to an all white signal. 


Note: If lens caps are unavailable, you can cut off the unnecessary color 
beams by controlling the service mode 2150P-2 1 RGBS. 


—17— 


2-10.ELECTRICAL ADJUSTMENTS BY 
REMOTE COMMANDER 


All of the circuit adjustments can be made by using the remote 
commander (RM-Y909). 


NOTE : The following test equipment is required: 
1. Pattern Generator (with component outputs) 
2. Frequency counter 

3. Digital multimeter 

4. Audio oscillator 


2-10-1.METHOD OF ENTERING THE SERVICE 
ADJUSTMENT MODE 

SERVICE MODE PROCEDURE 

1. TV must be in Standby mode. (Power off) 


2. Press “DISPLAY”, “5”, “VOL +", then “POWER’ on the remote 
commander. 


(Press each button within 1 second of pressing the previous button.) 






































SERVICE MODE ADJUSTMENT 
tem NO] [Data] 
(Cat = - 
ateoo—Fap-coMB 0 0° SERVICE 
_NRMD TV 
[Adjustment Item] WSL : XXX 











F/ A FLAG : XXXXXXXX 
CBA FLAG : XXXXXXXX 











. The screen displays the item being adjusted within that category. 

. Press 1 or 4 on the remote commander to select the adjustment item. 

. Press 3 or 6 on the remote commander to change the data. 

. Press 2 or 5 on the remote commander to select the adjustment 
category. 


Every time you press 2 (Category up), service mode changes in the 
order shown below: 


OanRw 














3D-COMB iso Mp3 
1 
2103-1 2150D-3 ue 
2103-2 2151 osp 
1 1 
2150P-1 AP SNNR 
1 u ' 
2150P-2 TRUS iD-1 
2150P-3 _ cc 
2150P-4 MIDI PIE 
1 
2150D-1 Mp2’ op 
i ' ‘ 
| ID 








7. If you want to go back to the most recently saved value, press “0” 
then “ENTER" to read the memory. 





KP-46WT510 


8. Press “MUTING" then “ENTER” to write the new adjustment data into 
memory. 
9. When you want to exit the service mode, turn the power off. 


Note: Press “8” then “ENTER” on the remote commander to restore the 
factory settings for user controls and channel memories (this will also 
turn set off and then on to exit the service mode). 


2-10-2.MEMORY WRITE CONFIRMATION 
METHOD 


1. After adjustment, turn the power off with the remote commander. 
2. Turn the power ON and set to service mode. 


3. Cycle through the adjusted items again and confirm that the 
adjustments were saved. 


2-10-3.ADJUSTING BUTTONS AND 
INDICATOR 


Note: When the PJE mode (which displays an internally generated 
signal) is activated, several buttons on the remote commander will have 
different functions than the ones listed below. Therefore, when in the 
PJE mode, refer to section 2-12-3 for button functions. 





MUTING 






Category up 
Adjustment 


item up 2) 
Adjustment Data Down 
item down ADF 
) (9) 
Category a Gite 
down a 


=< 


RM-Y909 


== 


2-11.ADJUSTABLE SERVICE DATA LISTS 


Only the Adjustable registers are shown in the initial data list. 


Acomplete set of the Initial data, Fixed and Adjustable, can be downloaded at: http://www-ec.sdp.sel.sony.com/padics/Model Data List.htm 


Initial data is also available in an Excel format. 























































































































































































































































¥ 
¢ aE 
carecony |p _|rem _loescmerion oNoION a1 2 | |: 
lczt0s.1 [2 [scon [Sub contrast RF (Cae CaN MS 
Wvides 24 PoP 45 | + foo: a, 1: us, 2: Europe) 
fs _[Scou [Sub calor E * 
Wide : 
4 |SHUE [Sub hue RF + 
Wvides 44 ; 
20 |cBor [ob offset Adjustment PSP Lek DRG VideoT-a 
PAP Left NHDRC Videos 6 4001 P 
a1 GROF [Gr feet Austment PSP Leh MDRG Videot-4 ; 
PAP Left MHDRC Videos 64801 P 
ic2103_2 2 [SCON [Sub contrast RE + 
Wvideota 
a JscoL [Sub ener RF ; 
Widest : 
ly [Save [Subhue E * 
ides 
0 |oBor [Gb Ofeet Adamant PAP Right SDRG REWNdeoT4 Q ; 
P&P Right SDRC Videos.6,7 400) [a2 0” oa | + 
aa OROF [Gr Ofset Austment PSP Right SDRG RFVideot-4 Q ; 
PAP Right SDRC Videos67 400) [st 0 Joa | + 
lezts0P_1 ¢__[SBRT_[Sub Bright Common Tr ae + 
5 [RDRV_[R output drive Common at__0 63 +_|ower bytey 
7 [BORV |B output erive Gomer sto [es | _+ upper byte) 
8 |RCUT_|R output cutoff [Common 34 0 63 + 
fg [acuT |B output cut Coons Ca ee Cn 
fezisop_4 |o_—|vpos [Vertical postion(v_DRV signal DO bias) [common pro _fes_| + 
a lvsiz__|V_SIZE:Vertical size(V_DRV signal gain) |Common 50 0 63 + 
2__|vszo_|V_SIZE OFFSET 140801 123 0 63 + 
jezisop.2 [2 |usiz _[H_SWZEHorzontalaze wide Zoom s___9___.}63_|+ 
FuliNermatiZoom ss 0 Jes | + 
fp [sun [MP_PARA_DOHonzontal S conection [wie 2 lo 0.15. 
FuliNermatiZoom Cir ie CE 
on fo [nPOS [OSD herent postion Common hao 255 | + 
[POF ~ [Horizontal postin for Favorte meds Joammon 20 255 | + 
cc fo _ |HPRM [Horizontal position of CCD(Main) Common lag 0 255 | + 
1__|HPRS [Horizontal position of CCD(Sub) [Common [49 o 255 + [A6: 1130-1110 











—19— 


KP-46WT510 


KP-46WT510 


ADJUSTABLE SERVICE DATA LISTS 
















































































































































































3 
e $2 
g x [52 
carecory _|#_|rrem_| DESCRIPTION CONDITION e121 irt 
PoE 29 [ROGH_|Green Horizontal Sensor 0 Ratio Offset (common) 0 [126 [27 | 
30 [RORH [Red Horizontal Sensor 0 Ratio Offset (common) 0 | a8 [27 | 
31 [ROBH_ [Blue Horizontal Sensor 0 Ratio Offset __[(¢ommon) 0 | a8 [a7 | 
32 [R1GH [Green Horizontal Sensor 1 Ratio Orfset (common) o [126 [zr | 
Isa. [RiRH [Red Horizontal Sensor 1 Ratio Offset (common) 0 | ae [a7 | 
a4 [R1BH [Blue Horizontal Sensor 1 Ratio Offset (common) o | ae [a7 | 
Iss [Rx1GV__|Green Vertical Sensor 1 Ratio Offset (common) 0 | a8 [ar | 
36 [RiRV_|Red Vertical Sensor 1 Ratio Offset (common) 0 | a8 [a7 | 
37 [R1BV_[Blue Vertical Sensor t Ratio Ofset (common) 0 | a8 [a7 | 
Ise [R2GH [Green Horizontal Sensor 2 Ratio Offset (common) o | 126 [27 | 
39 [RaRH [Red Horizontal Sensor 2 Ratio Offset (common) 0 | 8 [a7 | 
40 [R2BH [Blue Horizontal Sensor 2 Ratio Offset (common) 0 | ae [a7 | 
141 [R2GV_|Green Vertical Sensor 2 Ratio Offset (common) 0 | ae [a7 | 
142 [RaRV_|Red Vertical Sensor 2 Ratio Offset (common) 0 | a8 [a7 | 
143. [R2BV_ [Blue Vertical Sensor 2 Ratio Oset (common) 0 | ae [a7 | 
144 [RaGH_|Green Horizontal Sensor 3 Ratio Offset (common) o [126 [127 | 
145. [R3RH_|Red Horizontal Sensor 3 Ratio Offset (common) 0 _| -128 | 127 | - |(upper byte) 
146 [R3BH _ [Blue Horizontal Sensor 3 Ratio Offset (common) 0 | 128 | 127 | -_|(lower byte) 
147 |PTRH_|Red Horiz Top Pattern Position Offset (common) 0 | 128 | 7] - 
148 |PTBH [Blue Horiz Top Pattern Position Offset |(common) 0 128 | 127 - 
49. [PLRH [Red Horiz Left Patter Position Offset (common) | 128 [a7 | - 
50 [PLBH [Blue Hori Left Patter Postion Offset (common) o | 126 [zr | - 
51_[PLRV [Red Vertical Let Patter Position Offset (common) o_| 128 | 127 | - 
[52 [PLBV [Blue Vertical Left Patter Position offset (common) a 
J53_|PRRH_|Red Horiz Right Pattern Position Offset o 3 
[54_|PRBH [Blue Horiz Right Pattem Pos Offset 0 5 
[55 [PRGH [Green Vertical Right Pattem Pos Offset (common) ca 
[56 _PRRV_|Red Vertical Right Pattern Pos Offset o : 
57 [PREV [Blue Vertical Right Pater Pos Offset 0 7 
f5@_[PEGH [Green Horiz Bottom Patter Pos Offset (common) oer" 
59 [PERH [Red Horiz Bottom Pattom Pos Offset o = 
60 [PBB [Bue Horiz Bottom Pattern Pos Offset o : 








—20— 


ADJUSTABLE SERVICE DATA LISTS 











z 
2 Bs 
& 25 
Elz] |?? 
CATEGORY _|# [ITEM _|DESCRIPTION CONDITION g|é 5-5 
[Auto Regi. Error code 
ie Pas ERE: ss (common) o | o Jess) + 
les |VuP [Sensor 0 Green Vertical Pattern Position 
(common) a 
[Sensor 1 Green Vertical Pattern Position 
ia hee (common) 505] 0 | 2047} + 
[Sensor 3 Green Vertical Pattern Position 
ee ow. (common) 71} o | 2047} + 
[Sensor 1 Green Horizontal Pattern Position 
pe ALE (common) ss | 0 | 4005] + 
[Sensor 0 Green Horizontal Pattern Position 
jl ke (common) 636 | 0 | 4095} + 
[Sensor 2 Green Horizontal Pattern Position 
sh ek (common) 1217] 0 | 4095] + 
[72__|TEST [Auto Regi. Test tem (common) 
[73_|SFTF__|Fast motion of burn prevention switch (common) 
[74__|SFTE [CRT burn prevention enable (common) o ofvi[+ 
[75_|ACTL [Account timer counter lower byte (common) 70 | 25 | + 
[76 [ACTH [Account timer counter upper byte (common) oo | as | + 
[77_JATTN [Auto Regi attenuation select (common) o olfs3f- 










































































—21— 


KP-46WT510 


ADJUSTABLE SERVICE DATA LISTS 








z 
2 Bs 
& 25 
El2|s|?? 
ICATEGORY TEM _|DESCRIPTION CONDITION g|é Yer 
RH Gent 
ina CENT, Full / Normal 35 | 512] 511] - 
|Zoom / V.Comp 35 | 512] 511] - 
JWideZoom 35 | 512] 511] - 
080i Ful 35 | 512] 511] - 
RV Gent 
Full / Normal 20 | -st2| 5] - 
lZoom / V.Comp 20 | s12| s] - 
|WideZoom 20 | -s12| 51] - 
080i Ful 20 | -st12| su] - 
GH Cent 
Full / Normal 35 | 512] 511] - 
loom / V.Comp 35 | 512] 511] - 
|WideZoom 35 | 512] 511] - 
080i Fu 35 | 512] 51] - 
GV Gent 
Full / Normal 20 | -st12| si] - 


















































|Z0om / V.comp 


|WideZoom 


10801 Full 








20 | -812 





20 | -812 





20 | -812 











su] - 


su] - 


su] - 














—22— 


KP-46WT510 


ADJUSTABLE SERVICE DATA LISTS 








z 
2 Bs 
& 25 
Elz2|s |?? 
ICATEGORY TEM _|DESCRIPTION CONDITION $|é Yer, 
BH Gent 
ina Full / Normal 35 | 512] 511] - 
loom / V.Comp 35 | 512] 511] - 
|WideZoom 35 | 512] 511] - 
080i Fu 35 | 512] 511] - 
BV Cent 
Full / Normal 20 | -s12| su] - 
lZoom / V.Comp 20 | -s12| su] - 
|WideZoom 20 | -s12| su] - 
080i Ful 20 | -s12| su] - 
RH Skew 
ew: Full / Normal o | siz] sn] - 
loom / V.Comp o | siz] sn] - 
|WideZoom o | 12] on] - 
080i Fu o | 12] sn] - 
RV Skew 
Full / Normal o | siz] sn] - 
loom / V.Comp o | 12] sn] - 
|WideZoom o | 12] sn] - 
080i Ful o | 12] sn] - 
GH Skew 
Full / Normal o | 12] on] - 






























































|Z0om / V.comp 


|WideZoom 


10801 Full 























su] - 


su] - 


su] - 














pe. oe 


KP-46WT510 


KP-46WT510 


ADJUSTABLE SERVICE DATA LISTS 
































z 
e Bs 
b 25 
e|z||?? 
category _|#__|irEm_|DESCRIPTION CONDITION ele is iit 
GV Skew 
PJE Full / Normal 0 512 | 511 - 
lZoom / V.comp o | siz] sa] - 
lwidezoom o | siz] sn] - 
080i Fut o | siz] sa] - 
BH Skew 
Full Normal o | siz] sn] - 
lZoom / V.comp o | siz] sn] - 
lwidezoom o | siz] sn] - 
080i Fut o | siz] sn] - 
BV Skew 
Full Normal o | siz] sn] - 


























lzoom / V.comp o | siz] sn] - 
lwidezoom o | siz] sn] - 

080i Full o | siz] sn] - 

Sizer SERS: |Full / Normal -100| -512 | 511 - 
lzoom / V.comp -100] 512] sit] - 

lwidezoom -100] 512] sit] - 

080i Fut -100] 512] sit] - 

RV Se8 |Full / Normal -75 | -512 | 511 - 





|Z0om / V.comp 75 | 512 | st] - 





|WideZoom 75 | 512 | st] - 





10801 Full 75 | 512 | sit] - 






































—24— 


KP-46WT510 


ADJUSTABLE SERVICE DATA LISTS 
























































z 
2 Bs 
& 25 
Elz2|x |?? 
CATEGORY _|# [ITEM _|DESCRIPTION CONDITION g|é er 
GH Size 
ina Full / Normal 100] 612 | 511] - 
|Zoom / V.Comp 100] 612 | 511] - 
JWideZoom 100] 612 | 511] - 
080i Ful 100] -612 | 511 | - 
GV Size 
Full / Normal 75 | 512 | 511] - 
lZoom / V.Comp 15 | 512 | st] - 
|WideZoom -15 | 512 | st] - 
080i Ful 75 | 512 | st] - 
BHSize 
Full / Normal 100] -612 | 511 | - 
lZoom / V.Comp 100] -612 | 511 | - 
|WideZoom 100] -612 | 511] - 
080i Ful 100] -612 | 511 | - 
BV Sze 
Full / Normal 75 | 512 | st] - 
lZoom / V.Comp -15 | 512 | sit] - 
|WideZoom 15 | 512 | sit] - 
080i Ful -15| 512 | 511] - 
RALin 
a Full / Normal 425 | -si2| si] - 





|Zoom / V.Comp 425} 512 | 511] - 





|WideZoom 425 | 512] 511] - 





10801 Full 425 | 512 | 511] - 






































—25— 


KP-46WT510 


ADJUSTABLE SERVICE DATA LISTS 
























































z 
2 Bs 
& 25 
Elz] |?? 
IcATEGORY _|# [ITEM _|DESCRIPTION CONDITION $|é er 
RV Lin 
ina Full / Normal o | 12] sn] - 
|Zoom / V.Comp o | siz] sn] - 
JWideZoom o | siz] sn] - 
080i Ful o | 12] sn] - 
GHLin 
Full / Normal o | 12] sn] - 
lZoom / V.Comp o | 12] on] - 
|WideZoom o | 12] sn] - 
080i Ful o | siz] sn] - 
Vin 
Full / Normal o | 12] sn] - 
loom / V.Comp o | 12] sn] - 
|WideZoom o | 12} sn] - 
080i Fu o | 12] sn] - 
BHLn 
Full / Normal -425| 612] 511 | - 
loom / V.Comp -425| 812 | 511 | - 
|WideZoom -425| 812] 511 | - 
080i Ful -425| 612 | 511 | - 
BVLin 
Full / Normal o | siz] sn] - 





|Z0om / V.comp o | 512] 511] - 





|WideZoom o | s12] 5] - 





10801 Full o | s12] 51] - 






































—26— 


KP-46WT510 


ADJUSTABLE SERVICE DATA LISTS 
























































3 
e 53 
e| 2] |2? 

CATEGORY _|# _|ITEM_|DESCRIPTION CONDITION $|é Yer 

Pa KEY JRvkey Ful / Normal rao] siz] ot] - 

Izoom / V.comp 120] si | ot | - 

lWwidezoom sao] si | st | - 

+080 Full 120] si | ot] - 

GV Key Ful / Normal o | sz] sn] - 
!zoom / V.comp o | siz] sn] - 

lwidezoom o | si] sa] - 

+080 Ful o | sz] sn] - 

BV Key Ful / Normal -120| -si2 | str] - 
Izoom / V.comp -120| -s12 | sti] - 

lwidezoom -120| -si2 | 511] - 

+0801 Ful -120| -si2 | 511] - 

PIN RHP in Ful / Normal o | si] sn] - 
Izoom / V.comp o | siz] sn] - 

lwidezoom o | siz] sn] - 

+080 Full o | siz] sn] - 

RVPin Ful / Normal 350 | siz] 511] - 





|Z0om / V.comp 360 | 512 | 511] - 





|WideZoom 360 | 512 | 511] - 





10801 Full 360 | 512 | 511] - 






































—27— 


KP-46WT510 


ADJUSTABLE SERVICE DATA LISTS 
























































z 
2 Bs 
& 25 
Elz2|s |?? 
CATEGORY _|# _|ITEM_|DESCRIPTION CONDITION $|é Yer 
ina GHPin Full / Normal o | 12] sn] - 
loom / V.Comp o | siz] sn] - 
|WideZoom o | siz] on] - 
080i Fu o | siz] sn] - 
GvPin Full / Normal 4o0 | -s12| 511] - 
lZoom / V.Comp 400} -s12| 511] - 
|WideZoom 4o0 | -s12| 511] - 
080i Ful 4o0 | -s12| 511] - 
BHPin 
Full / Normal o | 12] sn] - 
loom / V.Comp o | 12] sn] - 
|WideZoom o | 12] sn] - 
080i Fu o | 12] sn] - 
BV Pin 
Full / Normal aso] 12] 511] - 
loom / V.Comp a0 | -s12 | 511] - 
|WideZoom a0] 12] 511] - 
080i Ful 30] 12] 511] - 
RHMLin 
een Full / Normal o | 12] sn] - 





|Z0om / V.comp o | 512] 51] - 





|WideZoom -150| 512 | 511] - 





10801 Full o | s12] 5] - 






































i269 


KP-46WT510 


ADJUSTABLE SERVICE DATA LISTS 
























































3 
e 53 
e| 2] |2? 

CATEGORY _|# _|ITEM_|DESCRIPTION CONDITION $|é er 

pve enme Ful / Normal o | sz] sn] - 

lzoom / V.comp o | siz] sa] - 

lWidezoom o | si] sn] - 

+080 Ful o | si] sn] - 

BH Muin Full / Normal o | si] sn] - 
Izoom / V.comp o | siz] sa] - 

lwidezoom 150] 812 | ot | - 

+080 Ful o | si] sa] - 

IMSIZ JR H Middle Size Ful / Normal o | siz] sn] - 
Izoom / V.comp o | siz] sa] - 

lwidezoom -100| 512 | sti] - 

+0801 Ful o | sz] sa] - 

JG H Middle Size Ful / Normal o | si] sn] - 
Izoom / V.comp o | siz] sn] - 

lwidezoom -200| -si2 | sti] - 

+080 Full o | si] sn] - 

BH Middle size Ful / Normal o | si] sn] - 





|Z0om / V.comp o | 512] 51] - 





|WideZoom too] 512 | 511} - 





10801 Full o | 512] 5] - 






































—29— 


2-11-1.ID MAP TABLE 


KP-46WT510 
2-12-1.SET-UP FOR ADJUSTMENT 


















































2-12.REGISTRATION ADJUSTMENT 


“ADJUSTING FLOW 


Turn on the power and wait for 10 minutes. 

















Set to the NTSC Full mode 











(Check the deflection yokes, the centering magnets, 
2-pole/4-pole magnets 














Set to the service mode. 











MAIN DEFLECTION ADJUSTMENT (Green) 











[Green coarse adjustment 


Green fine adjustment 





Red coarse adjustment 














SUB 
> | DEFLECTION 
- ADJUSTMENT 
Change the Red fine adjustment 
display mode 








Blue coarse adjustment 












Blue fine adjustment 





copy* 
*When the 
NTSC Full mode 
adjustment has finished, 
copy its data to No 


the next Memorize the FLASH FOCUS offset data 


display mode th 





‘Another display mode? 




















first time only 
and be sure to 
adjust in the order given. 





MARKING 
Reg.No & Name FUNCTION + At the 4 sides of the screen, use a tape measure to locate 

Oo {IDO Selection of OSD languages & color systems 89 the middle. 

1 ID1 Selection of composite & s-video inputs 127 

2 {|Ib2 Selection of audio-related controls 239 

3 {ID3 Selection of basic system settings 98 

4 _|ID4 Selection of basic system settings 203 

5 IDS Selection of advanced system settings 177 

6 |ID6 Selection of sub picture related settings 54 

7 ‘|ID7 Selection of some reserved settings 24 x: middle 
DATA SETTING 


1. Set NTSC Full mode. 
2. Enter the service mode, and select “PJE”. 


2-12-2.MAIN DEFLECTION ADJUSTMENT 


NOTE: Before this adjustment, refer to section 2-11 for PJE input data 
items #78-85. 


1. Cover the red and blue CRT lenses with lens caps to allow only 
green to show (or use the method shown in the note below for 
turning off the CRTs individually without using lens caps). 


2. Enter the monoscope signal and set to NTSC Full mode. 
3. Enter the service mode, and select “2150D-1". 


4. Adjust “O VPOS" and “1 VSIZ" so that the picture is displayed in the 
center of the screen. 


5. Adjust “2VSZO" for 1080i vertical size adjustment. 


0 VPOS 








ILO} 


OI-LO}-Lo 


6. Select “2150D-2” and adjust “2 H-Size” so that the picture size is 
within the specification. 





1V-Size 









































SPEC Overscan Spec. = 9% 
Input Signal H SIZE V SIZE 
Monoscope 15.6+0.2sq. | 11.5+0.2 sq. 

2H-Size 





SO) IS ke 


7. Copy the data of the NTSC Full mode to the other display mode and, 
if necessary, adjust in the other mode. 























—30— 


2-12-3.OPERATION METHOD FOR 
PROJECTOR ENGINE MODE 


MUTING 





Category up 
Adjustment 
item up 






‘Color Select GRN 
to BLU to RED 
Adjustment Internal Test signal 


item down = Mode Select 
Category J ~ (Course Adjustment 
down 5 Fine Adjustment) 
Initialize data ENTER 

(Not stored) 













MENU 
Data Up/ 
Down 


VOLUME +’ 





RM-Y909 


1. FUNCTION OF KEYS ON COMMANDER 
® Changes adjustment item. (Item # moves up) 
Marker moves clockwise from center to outside. 
(In Fine Adjustment mode) 
® Changes adjustment item. (Item # moves down) 


Marker moves counter clockwise from outside to center. 
(In Fine Adjustment mode) 
® Changes adjustment category. 


(Category # moves up) 
© Changes adjustment category. 
(Category # moves down) 
Joystick Changes data value. (Up or down) 


Marker moves clockwise from center 
(up, down, right, and then left) to outside. 
(In Fine Adjustment mode) 

® Changes adjustment color. 
GRN BLU >RED 

© Displays or changes internal test signals. 
crosshatch + external signal > 
crosshatch + borderline > 
crosshatch only > 
dot only > off 

(9) Switches adjustment mode. 
Coarse adjustment model > 
Fine adjustment mode 





KP-46WT510 


Press Switches marker moving method. 
Joystick (In Fine Adjustment mode) 
Joystick a ~ 4 > keys >1 and 4 buttons 


Commander Function 

Buttons Mode Description 
0+ENTER READ Reads data to NVM. 

MUTING+ENTER| WRITE | Writes data from NVM. 


7+ ENTER PJE Service data initialization. 
INITIAL | Not stored. 
(Be sure not to use usually) 





























2. OPERATION METHOD FOR COARSE ADJUSTMENT 
1. Enter the service mode and select “PJE". 
2. Press the “1” or “4” button on the remote commander to select the 
item, and then use the joystick to change the data. 


Item No. Data 
| 
I 
PJE 00 00 
FDIS 


. Joystick 


Adjustment Item > direction:Data up 
~ 4direction:Data down 














3. Select “GRN CENT”. When BLU or RED is displayed, press the “3” 
button on the remote commander to change the adjustment color 
in the order of GRN BLU RED. 

4. In GRN, BLU, or RED mode, move the joystick * or ¥ to change 
the data in vertical direction, or 4 or > to change the data ina 
horizontal direction. 





Color Data (H) Data (V) 
_——4 
GRN 000 000 
CENT 
a 4: Data (H) up 
» : Data (H) down 
Adjustment Item « : Data (V) up 
y : Data (V) down 











5. Before returning to the service mode, press the “MUTING” + 
“ENTER" buttons on the remote commander to write the data. 
(You must complete step 5 to write the data. If you omit step 5 the 
set data is returned to the data prior to the adjustment.) 


3. OPERATION METHOD FOR FINE ADJUSTMENT 
1. Enter the service mode and select “PJE”. 


2. Select FDIS and set the data to “01” so that the data at each 
position can be displayed in fine adjustment mode. 


== 


3. Press the “9” button on the remote commander and fine 
adjustment mode will be active where a green marker appears in 
the center of the screen. (In the case of GRN mode) 

4. Press down on the joystick, and the marker color will be alternately 
switched between green (GRN mode) and white. 

5. Press the “1” or “4" button on the remote commander, or use the 
joystick to move the marker to the position to be adjusted, where 
fine adjustment can be made. 


When the marker color is white: 
(in this case, fine adjustment is disabled) 














Use the joystick to move the marker up, down, left, or right. 


* When the marker color is green: 
(GRN mode) 

















® _: Moves the marker clockwise from the center to the outside. 


® : Moves the marker counter clockwise from the outside 
to the center. 


Fine adjustment can be made on the basis of a marker position 


using the joystick to move “ ¥ {or 


Move joystick * direction Move joystick > direction 


n 


Co 
ina! \ 
waly! 
me 


T 
CROSSHATCH 















































CROSSHATCH 


6. Press the “9” button on the remote commander to return to coarse 
adjustment mode. 





KP-46WT510 


2-13.PJE ADJUSTMENT (SUB DEFLECTION 
































ADJUSTMENT) 
Adjustment type 

Adjustment item G R B 

HNV* H/NV* HN* 
CENT o/O Oo/O o/O 
SKEW o/O o/O o/O 
SIZE O/O O/O O/O 
LIN Oo/O o/O o/O 
KEY -/O -/O —/0 
PIN Oo/O O/O O/O 
MLIN O/— O/— O/— 
MSIZ O/— O/— O/- 

















*H=Horizontal V=Vertical O=Yes —=No 


Note: If the value is over the limit value, adjust these in the fine 
adjustment mode. 
Coarse Data Limit Value: 




















CENT H 35 + 170V 
CENT V 20 + 170V 
SIZE H -75 MAX 
BLUE H LIN -425 MIN 
RED H LIN 425 MAX 








2-13-1.ADJUSTMENT FOR NTSC FULL MODE 
+ The adjustment should be done in the numerical order given. 


1) GREEN ADJUSTMENT 


1. Cover the red and blue CRT lenses with lens caps to allow only green 
to show (or use the method shown in the note below for turning off 
the CRTs individually without using lens caps). 

Note: If lens caps are unavailable, you can cut off the unnecessary color 

beams by controlling the service mode 2150P-2 1 RGBS. 


2. Enter the monoscope signal to set. 

3. Select the PJE mode. 

4. Press the “6” button on the remote commander to display the internal 
test signal (crosshatch). 

5. Select “GRN CENT”, and adjust so that the pictures coincide in the 
center of screen. 

GRN CENT (Horizontally/Vertically) 










































































Push the joystick Push the joystick 
to> tod 
: ~ ae t 
— ae a 
walees 
Push the joystick Push the joystick 
toa tov 


igo a 


7. Select “GRN SKEW’, and correct the tilt of horizontal lines and 
vertical lines. 


GRN SKEW (Horizontally/Vertically) 


Push the joystick Push the joystick 
to» tod 



























































Push the joystick Push the joystick 
to= tow 


8. Select “GRN SIZE", and adjust so that each distance from center to 
left end and to right end is equal. Adjust so that each distance from 
center to top and to bottom is equal. 


GRN SIZE (Horizontally/Vertically) 


Push the joystick Push the joystick 
to to4 




































































Push the joystick Push the joystick 
tom tow 


9. Select “GRN LIN", and adjust so that each space at the right end and 
at the left end of screen is equal. Adjust so that each space at the top 
and at the bottom of screen is equal. 


GRN LIN (Horizontally/Vertically) 


Push the joystick Push the joystick 
to> to4 






























































Push the joystick Push the joystick 
tom tow 





KP-46WT510 


10.Select “GRN MSIZ", and correct the space intervals for the horizontal 
section so the screen is equal. 


GRN MSIZ (Horizontally) 
























































Push the joystick Push the joystick 
to> tod 


11.Select “GRN MLIN”, and correct the sizes of the horizontal line so the 
center of the screen is symmetrical left and right. 


GRN MLIN (Horizontally) 
























































Push the joystick Push the joystick 
to> tod 


Note: The SIZE and LIN, MSIZ and MLIN adjustments 
affect each other. If necessary, adjust these mutually. 
12.Select “GRN PIN", and adjust so that right and left vertical lines on 
the screen become straight. Adjust so that upper and lower horizontal 
lines on the screen become straight. 


GRN PIN (Horizontally/Vertically) 






















































































Push the joystick Push the joystick 
to> tod 
: TT tt ; 
— The. “ 7 
Push the joystick Push the joystick 
tom tov 


13.Select “GRN KEY”, and adjust so that upper and lower horizontal 
lines on the screen become parallel. 


GRN KEY (Vertically) 












































Push the joystick Push the joystick 
toa tow 


Note: The VPIN and KEY adjustments affect each other. 
If necessary, adjust these mutually. 
14. Press the “9” button on the remote commander to enter fine 
adjustment mode. 


—33 = 


15.Make the fine adjustment so that horizontal lines and vertical lines 
become straight. 


16. Press the “9" button on the remote commander to return to coarse 
adjustment mode. 


2) RED ADJUSTMENT 


1. Cover the blue CRT lens with a lens caps to allow only the green and 
red to show (or use the method shown in the note below for turning off 
the CRTs individually without using lens caps). 


2. Press the “3” button on the remote commander to select RED mode. 
3. Adjust the following items so that red lines overlap with green lines. 

. RED CENT (horizontally/vertically) 

. RED SKEW (horizontally/vertically) 

. RED SIZE (horizontally/vertically) 

. RED LIN (horizontally/vertically) 

. RED MSIZ (horizontally) 

. RED MLIN (horizontally) 

. RED PIN (horizontally/vertically) 

. RED KEY (vertically) 


4. Press the “9” button on the remote commander to enter fine 
adjustment mode. 


5. Make the fine adjustment so that horizontal lines and vertical lines 
overlap with green lines. 


6. Press the “9” button on the remote commander to return to coarse 
adjustment mode. 


Note: If lens caps are unavailable, you can cut off the unnecessary color 
beams by controlling the service mode 2150P-2 1 RGBS. 


3) BLUE ADJUSTMENT 


1. Remove the lens cap from the blue picture lens to display all colors. 
2. Press the “3” button on the remote commander to select BLU mode. 
3. Adjust the following items so that blue lines overlap with green and red 
lines. 
2 BLU CENT (horizontally/vertically) 
. BLU SKEW (horizontally/vertically) 
‘ BLU SIZE (horizontally/vertically) 
: BLU LIN (horizontally/vertically) 
+ BLU MSIZ (horizontally) 
. BLU MLIN (horizontally) 
. BLU PIN (horizontally/vertically) 
s BLU KEY (vertically) 
4. Press the “9” button on the remote commander to enter fine 
adjustment mode. 
5. Make the fine adjustment so that horizontal lines and vertical lines 
overlap with green and red lines. 
6. Press the “9” button on the remote commander to return ‘to coarse 
adjustment mode. 


4) REGISTRATION DATA WRITING 


1. After completing each adjustment of green, blue, and red for the NTSC 
Full mode press the “MUTING"+ “ENTER” buttons on the remote 
commander to write the registration data to the NVM. 





KP-46WT510 


2-13-2.COPYING ALL REGISTRATION DATA 
TO OTHER MODES 


1. Make sure that the adjustment for NTSC Full mode are complete 
and the data have already been written. 


2. Select the PJE mode. 


3. Select Copy and set the data to “01”, and press the 
“MUTING"+“ENTER’ buttons on the remote commander. 


4. The data from the NTSC Full mode is copied to all other modes. 

















Full 
Screen 
mode 
7 Copy Registration Data 
a ~~ 
“ ‘e 
Zoom HD 
Screen (1080i Full 
mode Screen mode) 

















5. Check in the other modes and adjust as demands. 
Be sure to write data in each mode. 


2-14.AUTO REGISTRATION OFFSETS 


IMPORTANT 
This adjustment must be performed after registration adjustment 
or after readjustment for any reason! 


Once registration in all modes is satisfactory: 


1. Darken the room environment near the set. 

2. Select input of RF (with a signal) or Videot - Video4 (with a signal), 
and enter Full Mode. 
WARNING: DO NOT USE 1080i SIGNAL! 

3. Enter service mode and select the PJE group. 


4. Press the “MUTING" + “ENTER” buttons on the remote commander 
to write the data for Full mode. 


Important: 
You must complete step 4 even if registration looks OK in Full mode 
and there were not any adjustments made. 

5. To automatically store the offset values, press the “FLASH FOCUS” 
button on the front panel of the set. 
(The offset value is now stored) 


It FLASH FOCUS successfully calibrates, it displays 
“CALIBRATION OK.” 
If FLASH FOCUS does not successfully calibrate, 
an error message is displayed. (Refer to section 2-15) 

6. Exit the service mode. 

7. If the calibration was successful, press the “FLASH FOCUS" button 
out of service mode. 


8. Confirm registration is OK in all modes. 


a) a 


KP-46WT510 


2-15.AUTO REGISTRATION ERROR CODES 


If an error code is displayed after the set has been correctly adjusted, check the following items: position, tilt and sizing. If any of these adjustments 
are off, even slightly, the auto-registration pattern will not hit the four sensors properly. This occurs when the internal generator patterns are being 
flashed on the screen for the sensors to read. Therefore, auto registration (called auto convergence) cannot operate properly, causing an error code to 


be displayed. In order for this function to operate properly correct position, tilt, and size must be adjusted properly. 































































































ERROR CODE LIST 
ERROR 
CODE DESCRIPTION NOTE 
00 [No Error 
10 [Sensor 0 low output (Check sensor 0, connection/wiring, circuit, and pattern position 
(are patterns hitting sensor?) adjust 66 VUP, 70 HMID if necessary. 
11 [Sensor 1 low output Check sensor 1, connection/wiring, circuit, and pattern position 
(are patterns hitting sensor?) adjust 69 HLE, 67 VMID if necessary. 
12 [Sensor 2 low output Check sensor 2, connection/wiring, circuit, and pattern position 
(are patterns hitting sensor?) adjust 71 HRIV, 67 VMID if necessary. 
13 [Sensor 3 low output Check sensor 3, connection/wiring, circuit, and pattern position 
(are patterns hitting sensor?) adjust 68 VLOW, 70 HMID if necessary. 
20 _ [Sensor 0 high output (Check sensor 0 and circuit. 
21 __ [Sensor 1 high output (Check sensor 1 and circuit. 
22 _ [Sensor 2 high output (Check sensor 2 and circuit. 
23 _ [Sensor 3 high output (Check sensor 3 and circuit. 
30 _ |V CENT or SKEW adjustment loop overflow __ [Check 67 VMID data and check registration condition. 
31 __ |H CENT or SKEW adjustment loop overflow __|Check 70 HMID data and check registration condition. 
32 __ |HLINor SIZE adjustment loop overflow Check 69 HLE and 71 HRIV data and check registration condition. 
40__ |V CENT regi data overfiow Check 67 VMID data and confirm V CENT data (all modes) is not near 511. 
41__ |H CENT regi data overflow (Check 70 HMID data and confirm H CENT data (all modes) is not near 511. 
42 |V SKEW regi data overflow (Check 67 VMID data and confirm V SKEW data (all modes) is not near 511. 
43 |H SKEW regi data overflow Check 70 HMID data and confirm H SKEW data (all modes) is not near 511. 
44__ |HLIN regi data overflow (Check 69 HLE and 71 HRIV data and confirm H CENT data (all modes) 
is not near 511. 
45 |H SIZE regi data overflow (Check 69 HLE and 71 HRIV data and confirm H CENT data (all modes) 
is not near 511. 
50 |V CENT regi data overdrow (Check 67 VMID data and confirm V CENT data (all modes) is not near -512. 
51 |H CENT regi data overdrow (Check 70 HMID data and confirm H CENT data (all modes) is not near -512. 
52 |V SKEW regi data overdrow Check 67 VMID data and confirm V SKEW data (all modes) is not near -512. 
53 |H SKEW regi data overdrow Check 70 HMID data and confirm H SKEW data (all modes) is not near -512. 
54 [H LIN regi data overdrow (Check 69 HLE and 71 HRIV data and confirm H LIN data (all modes) 
is not near -512. 
55 |H SIZE regi data overdrow Check 69 HLE and 71 HRIV data and confirm H SIZE data (all modes) 
is not near -512. 
60 __ |CENT/SKEW calibration loop overflow (Check 70 HMID and 67 VMID data and check registration condition. 
61 __ |SIZEILIN calibration loop overflow (Check 69 HLE, 71 HRIV, 66 VUP, and 68 VLOW data and 
[check registration condition. 
70 _ |V CENT/SKEW ratio limit Check sensors 1 and 2, connection/wiring, circuit, increase 65 RTLM. 
71__ [H CENT/SKEW ratio limit (Check sensors 0 and 3, connection/wiring, circuit, increase 65 RTLM. 
73__ |HSIZEILin ratio limit Check sensors 1 and 2, connection/wiring, circuit, increase 65 RTLM. 
80 _|SIZE Limit Error (Check that horizontal SIZE data is not near 64 SZLM. 














— 35 — 





KP-46WT510 




































































































































































SENSOR POSITIONS . ERROR CODE SCREEN DISPLAY In service mode, the error will be displayed 
Error codes in normal (customer) mode are not in text format. 
displayed. You must enter PJE service mode to 

0 see the error code. 0 
ERROR B 
LO LEVEL S3 
PJE 61 213 60 
1 FRONT OF SCREEN 2 ERR pr 1 2 
Color: 
0 = Green 
3 1=Red 
2=Blue_| fEtror Code: 3 
0: UPPER SENSOR (See Error List) 
1: LEFT SENSOR 
IGHT SENSOR 
3: LOWER SENSOR 











(Blue Sensor 3 Low Output) 


2-16.AUTO REGISTRATION DIAGNOSTICS 


The TEST service item (PJE #72) can be used to determine if a sensor or sensor amplifier is working properly. It can also be used to check pattern 
positions. 



























































133 
Color: 0=Green, 1=Red, 2=Blue, 3=All 
CS/ZL: O=None, 1=Cent/Skew, 2=siZe/Lin, 3=Both 
Display/Loop: 0=Display, 1:Loop 
DISPLAY/ 
LOOP cs/ZL COLOR | ACTION 

(0) i) 0 Normal calibration (no diagnostics). 

(0) x xX Performs one adjustment cycle, then 
displays average peak voltages for the 
specified CS/ZL and Color. 

(0) 3 3 Does nothing (can't display more than one 
CS/ZL or Color at a time.) 

1 xX x Adjusts specified CS/ZL and Color 
until a key is pressed. Useful for 
measuring signals with oscilloscope. 

SO} 

SO: 2.04 $1: 1.86 

$2: 1.98 $3: 2.23 
iS1 S2 





























S3 














Sensor 0 peak voltage = 2.04 V, etc. 


—36— 


SECTION 3: SAFET 


D BOARD 


3-1. HV REGULATION CIRCUIT CHECK AND 
ADJUSTMENT 
When replacing the following components marked with a Ld on the 


schematic diagram always check the HV regulation, and if necessary 
re-adjust. 





Part Replaced (Ld) Adjustment (P4) 





ABOARD: 

C8079, C8083, C8090, 
8129, 

D8013, D8038, D8043, 
D8051, 

1C8006, 

Q8021, 

R8055, R8099, R8102, 
R128, R8129, 
R8131, R8139, R8140, 
R8142, R8153, R8163, 
R8223, R8230, 

78004 (LOT), T8005 (FBT), 
HV Block, D Board 


HV REGULATOR 
VR8001 














OPERATION CHECK 
1. Receive the all white signal. 
2. Set PIC MAX/BRT CENT. 


3. Confirm that the voltage between CN8015 @ PIN and GND is less 
than 7.80VDC. 


HV REGULATION ADJUSTMENT 

. Connect a HV static voltmeter to the unconnected plug of the 
high-voltage block. 

. Power on the set. 

. Receive the all white signal. 

. Set PIC MAX/BRT CENT. 

. Confirm that the static voltmeter reading is 31.0 + 0.4V. 
If not, adjust with VR8001 to the specified value. 

6. After adjustment, put the VR cover on VR8001 (as shown below) and 

apply sufficient amount of epoxy resin around VR8001. 


apwp 


Remove the cap from 
the unused terminal and 
‘connect a static voltmeter 
there. 








epoxy resin 


Wy 





VR8001 








KP-46WT510 





3-2. HV HOLD DOWN CIRCUIT OPERATION 
CHECK AND ADJUSTMENT 


When replacing the following components marked with a Ld on the 
schematic diagram always check the hold-down voltage and re-adjust 
when necessary. 





Part Replaced (ld) Adjustment (¥4) 





ABOARD: 

C8054, C8086, C8088, 
©8100, C8104, C8118, 
C8123, C8124, C8094 
D8019, D8020, D8022, 
D8028, D8036, 
FB8001, 

Ic8008, 

Q8035, Q8043, 
R8035, R8043, R8159, 
R8166, R8171, 
R8196, R8201, 

78004 (LOT), T8005 (FBT), 
HV Block, D Board 


HV HOLD DOWN 
VR8002 














OPERATION CHECK 

1. Receive the dot signal. 

2. Set PIC MIN/BRT MIN. 

3. Confirm that the voltage between cathode of D8038 (JW171) and 
GND is more than 23.0V DC. 

4. Using an external DC Power supply, apply the voltage shown below 
between cathode of D8038 (JW171) on “D” and GND, then confirm 
that the HV-Prot circuit works. (Raster disappears) 

Apply DC voltage: Less than 29.05V DC. 


HV HOLD-DOWN ADJUSTMENT 

1. Connect a HV static voltmeter to the unconnected plug of the 
high-voltage block. 

2. Power on the set. 

3. Connect an external 10k VR at CN8015 and adjust this VR so that 
the high voltage is 34.50kV. 

4. Adjust VR8002 to the point that the HV-Prot circuit works (Raster 
disappears) at 34.50 + 0.50kV reading on the static voltmeter. 

5. After adjustment, put the VR cover on VR8002 and apply sufficient 
amount of epoxy resin around VR8002 as the same manner for 
VR8001. 


—37 = 


G BOARD 
3-3. +B MAX VOLTAGE CONFIRMATION 


The following adjustments should always be performed when replacing 
1C501, R5032. 
1. Supply 130VAC to variable autotransformer. 


2. Receive dot signal pattern and set the PICTURE and BRIGHTNESS 
settings to their minimum. 


3. Confirm the voltage of TP +B 135V is less than 137.0Vdc. 
4. If step 3 is not satisfied, replace C501 and repeat steps 1-3. 


3-4. +B OVP CONFIRMATION 


. Add to low voltage power supply between to TP5001 and ground. 
. Supply 120VAC to variable autotransformer. 
. Power on the Set and receive dot signal pattern. 
. Set the PICTURE and BRIGHTNESS settings. 
. Check the OVP is activated. 
Operate :less than 2.50V 


aRwno 


— 38‘ — 





KP-46WT510 


SECTION 4: CIRCUIT 


4-1. BLUE OFFSET ADJUSTMENT 


1. Receive the all black (1080i, component) signal with VIDEO 5 input, 
and set PICTURE to maximum. 

2. Connect an oscilloscope between CN5 @ pin (B) on the (A board) 
and ground. 

3. Set in the service mode and select the category “2150D-2". 

4. Adjust “SLIN" so that the waveform level is 2.20 + 0.05Vpp. 

5. After completing the adjustments, write the data into memory by 
pressing “MUTING” > “ENTER" on the remote commander. 

6. Receive the RF signal and change the wide screen mode to “Wide 
Zoom”. Copy the same data to “SLIN”. 


Reference Pulse 


\ 








2.20 £0.05 Vp-p 





4-2. P & P SUB CONTRAST ADJUSTMENT 
(VIDEO) (SCON) 
. Receive the signal. 


TV terminal (sub) 
VIDEO terminal (main) 


Color-bar (white-75%, 7.5% setup) 
: Color-bar (white-75%, 7.5% setup) 


2. VIDEO MODE :Pro 
PICTURE Maximum 
COLOR : Minimum 
2150P-2 1 RGBS 22 
3. Set to P & P mode, and set to service mode. 
4. Connect an oscilloscope between the check point and ground. 
Check points CN5 pin © 
ABoard CN5 pin © 


a 


. Select “2103-1-02" (Main scon), and adjust so that the waveform level 
of Vwe is 1.55 + 0.04Vp-p. 

. Select “2103-2-02" (Sub scon), and adjust so that the waveform level 
of Vweis 1.55 + 0.04Vp-p. 

. After completing the adjustments, write the data into memory by 
pressing “MUTING" > “ENTER” on the remote commander. 


a 


N 








si 
a7 


Black et 

















KP-46WT510 





4-3. P & PSUB CONTRAST ADJUSTMENT 
(RF) (SCON) 
1. Receive the signal. 


TV terminal (sub) 
VIDEO terminal (main) 


: Color-bar (white-75%, 7.5% setup) 
: Color-bar (white-75%, 7.5% setup) 


2. VIDEO MODE :Pro 
PICTURE : Maximum 
COLOR : Minimum 
2150P-2 1 RGBS. 22 
3. Set to P & P mode, and set to service mode. 
4. Connect an oscilloscope between the check point and ground. 
Check points :CN5@ 
ABoard :CN5 © 
5. Select “2103-1-02" (Main scon), and adjust so that the waveform level 


of Vwa is 1.55 + 0.04Vp-p. 
. Select “2103-2-02" (Sub scon), and adjust so that the waveform level 
of Vwais 1.55 + 0.04Vp-p. 


. After completing the adjustments, write the data into memory by 
pressing “MUTING” > “ENTER" on the remote commander. 


2 


“ 








wie 
LL . 


4-4, P & P SUB-HUE AND SUB-COLOR 
ADJUSTMENT (VIDEO) (SHUE, SCOL) 
1. Receive the signal. 


TV terminal (sub) 
VIDEO terminal (main) 

















: Color-bar (white-75%, 7.5% setup) 
: Color-bar (white-75%, 7.5% setup) 


2. VIDEO MODE : Pro 
PICTURE : Maximum 
COLOR : Center 
2150P-2 1 RGBS. bard 


3. Set to P & P mode, and set to service mode. 

4. Connect an oscilloscope between pin @ of CNS (A board) connector 
and ground. 

. Select “2103-1-03 SCOL, -04 SHUE” (Main), and adjust them to have 
VB1 < VB4 and VB2 < VB3 in the waveform levels. 

. Select “2103-2-03 SCOL, -04 SHUE" (Sub), and adjust them to have 
VB1 < VB4 and VB2 < VB3 in the waveform levels. 

. After completing the adjustments, write the data into memory by 
pressing “MUTING" > “ENTER" on the remote commander. 


a 


2 


I 





























7 ‘| VBI VB2 VBS VBA 











ee 


4-5. P & P SUB-HUE AND SUB-COLOR 
ADJUSTMENT (RF) (SHUE, SCOL) 


. Receive the signal. 


TV terminal (main) Color-bar (white-75%, 7.5% setup) 

VIDEO terminal (sub) : Color-bar (white-75%, 7.5% setup) 
2. VIDEO MODE :Pro 

PICTURE Maximum 

COLOR : Center 

2150P-2 1 RGBS 22 


3. Set to P & P mode, and set to service mode. 

4. Connect an oscilloscope between pin @ of CNS (A board) connector 
and ground. 

5. Select “2103-1-03 SCOL, -04 SHUE” (Main), and adjust them to have 
VB1 < VB4 and VB2 < VB3 in the waveform levels. 

6. Select “2103-2-03 SCOL, -04 SHUE” (Sub), and adjust them to have 
VB1 < VB4 and VB2 < VB3 in the waveform levels. 

7. After completing the adjustments, write the data into memory by 
pressing “MUTING” > “ENTER” on the remote commander. 



































7 vet ve2_ VES VB 














A 





KP-46WT510 


KP-46WT510 


SECTION 5: DIAGRAMS 


5-1. CIRCUIT BOARDS LOCATION wee: B+ ne 


mmm: B-line. (Actual measured value may be different). 


=>: signal path. (RF) 


Circled numbers are waveform references. 





The components identified by B4 in this basic schematic diagram have 
been carefully factory-selected for each set in order to satisfy regulations 
regarding X-ray radiation. Should replacement be necessary, replace 
only with the value originally used. 


When replacing components identified by Lal, make the necessary 
adjustments as indicated. If the results do not meet the specified value, 
change the component identified by B4 and repeat the adjustment until 
the specified value is achieved. 


(Refer to adjustments in Sections 3-1 and 3-2.) 


When replacing the parts listed in the table below, it is important to 
perform the related adjustments. 





Part Replaced (a) Adjustment (b4) 





ABOARD: HV REGULATOR 
C8079, C8083, C8090, VR8001 

C8129, 

D8013, D8038, D8043, 
D8051, 

5-2. PRINTED WIRING BOARDS AND 1C8006, 


8021, 
SCHEMATIC DIAGRAMS INFORMATION R8055. R809, RB102, 


All capacitors are in uF unless otherwise noted. pF : pF 50WV or less R8128, R8129, 


are not indicated except for electrolytics and tantalums. R8131, R8139, R8140, 
R8142, R8153, R8163, 


R8223, R8230, 














All electrolytics are in 50V unless otherwise specified. 








All resistors are in ohms. K=1000, M=1000k T8004 (LOT), T8005 (FBT), 
Indication of resistance, which does not have one for rating electrical HV Block, D Board 
power, is as follows: Pitch : 5mm 3 
Rating electrical power : '/,W ABOARD: HV HOLD DOWN 
C8054, C8086, C8088, vRs002 
/,W in resistance, '/,, W and '/,W in chip resistance. C8100, C8104, C8118. 
~€-: nonflammable resistor. C8123, C8124, C8094 
H+ : fusible resistor. 08019, D8020, D8022, 
Asi D8028, D8036, 
internal component. FB8001, 

(=): panel designation and adjustment for repair. C8008, 
_L : earth ground Q8035, Q8043, 

3 i R8035, R8043, R8159, 
rh : earth-chassis R8166. RB171, 
All variable and adjustable resistors have characteristic curve B, unless R8196, R8201, 
otherwise noted. 78004 (LOT), T8005 (FBT), 
Readings are taken with a NTSC color-bar signal input. HV Block, D Board 


Readings are taken with a 10M digital multimeter. 














Voltages are DC with respect to ground unless otherwise noted. 
Voltage variations may be noted due to normal production tolerances. 
All voltages are in V. 

S : Measurement impossibility. 


AS 


KP-46WT510 


REFERENCE INFORMATION 


RESISTOR :RN = METALFILM 
iC SOLID Terminal name of semiconductors in silk screen 

















































































































Anode TT Anode 





Diode = a" 
NOTE: The components identified by shading and Z\ mark are critical for safety. Anode Anode 


Replace only with part number specified. 





Common 











NONFLAMMABLE CARBON ; Cee ae 
NONFLAMMABLE FUSIBLE printed circuit (* ) 
NONFLAMMABLE WIREWOUND Davies —PanTed syrnbot| —Temminar rae Tea 
NONFLAMMABLE METAL OXIDE | rans Collector 
NONFLAMMABLE CEMENT Base Ll Emiter ay 
ADJUSTMENT RESISTOR @) ree Coleen mH IS 
— Base Emitter 
MICRO INDUCTOR - 
) vue Cathode so ry 
TANTALUM Tor é 
athode 
STYROL O) vioae 
POLYPROPYLENE Anodelll (cy & 
MYLAR Cathode x 
METALIZED POLYESTER ©} powe = | anode WNC) 
METALIZED POLYPROPYLENE Common 
Gd TEMPERATURE = nes oes, if 
HIGH RIPPLE ®) vieae = ‘ = ; samnarl 
node Cathode 
Canton 
Die ; 
gperity 


@| © 





ee Cathodel! Cathode 
The symbol =H indicates a fast operating fuse and is displayed on the component Soar poo, 
side of the board, Replace only with fuse of the same rating as marked. Diode = = 


Cathode Cathode 


‘Anode fl Cathode 
Diode ‘Anode |] Anode 
Cathode ll Anode 





NOTE: Les composants identifies per un trame et une marque Z\ sont critiques 









































©|@/|@|e 
































pour la securite. Ne les remplacer que par une piece portant le numero specitie. Tinie Dann 2° 
rai 
(Fen cate 
Le symbole =H indique une fusible a action rapide. Doit etre remplace par une Ewe ace 
fusible de meme yaleur, comme maque. He Drain Sg 
Transistor Source 
@®| cen I nl eg 
Emitter 
Transistor l Ope gstest: 
@] ensisor | a Eo 
mA 
Transistor — * oe dose 
Transistor — — BO OER 
age 
Transistor | 10 on 


Transistor 





Transistor — 


HOS) 
I 
































@| reensisor | eof) 
— | Bisrte semiconductor 
(Chip semiconductors that are not actually used are included.) ag 


—42— 


5-3. BLOCK DIAGRAMS 
BLOCK DIAGRAM (1 OF 3) 









































































































































































































































































































































































































































































































































































































BOARD 
























































































































































=A 























[main] 480i 
j i (RF, V1-4) | 
: ' f 
: H | i: 
MAIN i i | 48 1c303 i 
TUNER xT ar] g vev ta [88 vas ‘AMP >| 46y CXA2103 i 103303 
Tu2 ee our oe ycT-MAIN H CXD2095Q INPUT SIGNAL 4801 ONLY 
1 | Gn i {| cxn203-4 i DRC. 
cona001 | ico a 1_plog ca ae P48 SCON, SCOL, SHUE i 
H al! lc V (ADJUST RF, VIDEO, & OVD) H Ye81T caer YP, Pq8BIT 
i “or 7 | | i 174-181 164-171 122-154 
H 7) i i 
SUB cai, |63 i Ic6 Y Py Pa Y Py Pe Y Pa Px H 
TUNER aT ip) su : PD64083 33,3435 37,38,39 _-22,23,24 i 
Tut i | ev i 3D-COMB y ay % : 
i / MAIN : [B] BOARD 
H i [main] 4801 H 
i | 1c2004 : (RF, V1-6) tH i 
_| | cxaz0e9q i ‘ H 
AV SWITCH i BUF / 
U| BOARD S FL Pit cvn : A| BOARD v [main] 480i (RF, V1-6), i 
suBcV H [sub] @ main=1080i/480P |} 6-13 17-24 
our 1c2007 i qe8. — ‘ Yes G-6IT 
xp2073 | | oP : 
2D-COMB | | 1305 y 15 {} H l63v 
SUB H SN74LV4053_ Ps 4 BUF if a 150 P, 
H Bur | [ BUF Pa. ‘cna208 | 34 1¢3304 
4 i Yuv sw 14 care Pa 
9 i¢ a 7 your H Lenin. vbaasten P, C22 | TLC5733A, 
ovm SUB i 25,12 9,10,11 Peat SBILAD 
N i i 
YIN i x : 
ou 5g FL 4.cour H i Vv 
d i [main] 1080/480P (v5.6) | | [main] 480P/1080i 
rhe : {alr} 601 = Bur | 103090ping [sub] 480i (RF, V1-4) H (P&P/Freeze) (V5.6) 41-11 
bah s H (v5.6) DVD = L512 = st} [sub] 480i (RF, V1-4) VParaer: 
ow i 113.13, {| ensz0s 7+, 
s i arr | 
! By y27| |) iP. cte 215 — 1¢3408 
ovin i ¢ aT plz, 26,4) fea” a) @ Far LY b/210P, CXD9509 
cw i [sub] 4601 tp, #25 / a 208e, MILD. 
[sub] 480i H (RF, V1-4) / 
ae (RF, V1-4) H H YP, Pa BIT 
v4 (C60 evn : 22,23,24 : ae 
suB Y | i YP, P. i 
OUT. | 1 Lis 1 
5 | __t aT P46 i 
5 oF wa YN AE ae Ics06 
-N2001} (ADJUST RF & VIDEO) CXA2171 i 
suB Cc i COMP. i 
in cn 1c301 i 41-14 
a5 oUF {cao} aT Plas cxani03 SWITCH : P4887 
8 i H [main] 1€3410 
36 ocout 1C2002 i YersuB i 1080i full CXD2309Q 
M52055FP aoe H 8BIT DIA 
YP,Pp SWITCH Paper 7 Pa / Heirs 
\ P, C16 | Py i 
v.PLP. ry 16y v3 me cle A piss : 44,46,42 
‘) BIR | late, PS H * TT i 
| 8 Pa 6 : 41 p, : 
Y, Pa: Pr 1y : p42, H 
14, i zs Toso" _ : 
oP, : A| BOARD ee ee i 1C704 pin 52 FL 
BOARD | * i 480P. (V5.6) i tee 
| Le : i Perk) 
u 2 H i 
[main] Wf 7 Select Pins i H v v 
Ltes1e : i 
480i (DVD) / 1080i / 480P 12 feriaa i USER VIDEO ADJUSTMENTS i 16,118 2,7,12 7149 
i ‘ 64R rea08 20 H ay vt Select Pins Y Py Py 
? 7 <+—___/63e CXA2150 P21 cnaoa | LAT Be. 103414 M52055FP 
: 1c7004 i ¢ 628 VIDEO DRIVER = 22 eel ler, YP,Pp SWITCH 
: M7030 i fe Me 
: Differential DVI DECODER i : 
H Signal Line y10 H 
H siceatecaae 58,59 datao p13 | LF H 
t 8 CN7002 | 
: 52,53 batat 246 yo | 
H 46,47 dataz . Pek 


KP-46WT510 















































































































































































































































































































































KP-46WT510 


































































































































































































































































































































































































































































































BLOCK DIAGRAM (2 OF 3) [— ] r | 
vans cvs010 vie) | ie | owns 
: a j j 3 [wR 1) wy stock 
7 | RET V.DEF 3 yy | To “lisse umn 
vaio $M) : ! i my a 
au a TT 3 | 5 a 
aad q +5 0 
[oH RET | if 3c nd t 
j 3 BOD 
FT ovgott | . @ alle wh 6 {wis) cH7304 
a H 1 {oH o0r 5 |e i ates 
aut . H wun 2 Tcaoo7 y . 
Ht 1 8008 
‘A BOARD * MIXD GD IP >! . 
ie aaE Da AIK OvT AO ! | 
von j j [ee] = | cv8023 
W : T [wor ae UOP RL) | aL 
"Teun 7 j | net 7 [OT OOF 
cuaon2 _— REG/PROT ang if se 
W T TW OT | ” ii : 
3 [RV RET j FER a Lt w———_}- 
l t | | cotta (8036, 8037 » 31g @ I 
iF 8 T | RA OUT 7 sats 7 : ane | 
7 RURET p> Move | 
Pri a : | | | [iki 
Vows) Ta TLV OE sats : 
WoRV(=) [5 1 ae a | l 
[ * 
+ CH8008, . ij | 
TI per ———— | oe 
COTWRET 
HOFFER t | 
2 . ™ We = = WY Fac ck 
Aa T | DEF 7 1 
WRT i +f 
cup018 i. u 
ve00s | Ga-STOP Tani 
ee uy | in { | 
40 worn Hy 
> 1 ya 
vanes [ I | 
@ T}+-———, en —-— - —- —.- —- 
u { Ta001 | 
ie a DFT 
ee £0 
wt 2 Talk $ 8014, 8015. ! 
cwa0o4 + an i ef aN | 
bY Te (uti © © | 
— OF 6 we FFER | 
nce [2 {> by | 
vat? ES Lee | 
cat 1018013 
-8v-——f._ | -v_]» 
na) ee 
BUFFER a wy ar 
WoW [10 Ce aos, so ir a a a 
+887 Pe 135 9 | 35v 
Tage } 
@ 
Hy 4 > WOOT | 
Amo +5 9 sic ® tate | 
@ ale J | 
WORE | _____y ®—,—_ 
073, 83 q ® 
| 
WAP 
F G 09031, 8101 
ma 
PIN) |] 














KP-46WT510 


BLOCK DIAGRAM (3 OF 3) 

































































































































































































































































































































































































































































ar ar T6001 
a PIT | 
| as 05003 
a caste 
1¢6003 ie rn 
cn600s : 
INE 603 
shit we) ton Fue if mt aw o—- Ago 
GOHz KW) [2 aU) 6002" i TAT ‘480 yg (Kyag——] es] silane 
] RELAY RELAY Y Ws —+ +O) Ip ae 
T RY6003 = ‘ : | 
| aad ] “i apy sas PE way Con we “) ® Shy) 
: PH6002 uf VG (LX82——"1_gg005_ 7 ss wu 7 
‘ y mo me q ai y.5018 ‘A BOARD 
yz HN FB wie ; i | me as i 
! ocr ) > BIE. abort dh @® + 
| com » ; +11V + +1 [tv ? 
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maw es ih O em DSB _cvs004 
: pt tiv) 
| a os02s ¥ 
06006 wah 
: I 1¢ > SUH i Sa 
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| wo) | et Ls 
| j, Bs 5006 Boson 
T6004 4 
| Tenet ao Tha] 
| Ds017 id ; - 
. > of + Ov 
| om &® stand Woes. D 
j ++ @ > STBY SY : 
| 1€5005 A BOARD 
ia STBY_5V 7 
| RELAY DRIVE | ma) 
i T 5003, 5004 wait 
| wh fel 
| G (POWER SUPPLY) i | 





—45— 


KP-46WT510 























ON 


PJ nce 


hy 











sony. 























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~~ 














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5-4. SCHEMATICS AND SUPPORTING INFORMATION 


‘® CR BOARD SCHEMATIC DIAGRAM 



























































CONDUCTOR SIDE 4“ 


[R CRT DRIVE] 








=14— 





i 
Ld 


1 





CR BOARD TRANSISTOR LIST 


Q7101 
Q7102 
Q7103 





























VOLT 
15h 


6 ND 





"H-AB02-B10-APAGER 


PIN 








1C7101 
VOLT 


ts —e 
Ha8| HE 





CR BOARD IC VOLTAGE LIST 
PIN 



































84.5 Vp-p (H) 











2.0 Vp-p (H) 


Wy | UU 








CR BOARD WAVEFORMS 


@ CB BOARD SCHEMATIC DIAGRAM 


1 








CB BOARD WAVEFORMS 


























gin/nle x SIOES*S # 









































ae 

























































































O 


TM) 


$ Vp-p 


H 








W1302-811 RRA 





CB BOARD IC VOLTAGE LIST 


~*~ 


iC B [B CRT DRIVE] 


COMPONENT SIDE 




















e B [B CRT DRIVE] 


CONDUCTOR SIDE 








CB BOARD TRANSISTOR LIST 









































KP-46WT510 

















ay: 






































SEE SRR 


Yyy 








Yy 











MMMM ISS 














NS 





























12.0 i 





144s 











1¢7301 B c E 
PIN | VOLT] PIN | VOLT a7301[ 14 oa Td 
1 ui f gud q7302[ 11 oi ue 
a UB) 3 Nit Q7303 | 24 1 1g 
qT A WW iF) 
t ti i Wt G D s 
§ Ls i iid q7304 [11 tht tl 
ft 7 











=A7— 










































































‘© CG BOARD SCHEMATIC DIAGRAM 


~ 


























CG 















































| 
pitiel 























# 
Joe 



































fa mal) pal 


























CG BOARD WAVEFORMS 


© © 
al bal 





W-1302-B12-ARAGCE 


CG BOARD IC VOLTAGE LIST 





1€7201 





PIN | VOLT | PIN | VOLT 





f { GND 












~ 


[G CRT DRIVE] 
COMPONENT SIDE 


CG [G CRT DRIVE] 


CONDUCTOR SIDE 


CG BOARD TRANSISTOR LIST 

















2.0 Vp-p (H) 


101.5 Vp-p (H) 




















B c E 
Q7201 ne GND La 
Q7202 13 12.0 Lb 
G D Ss 
Q7203 Le 12.0 UR) 









































== 


KP-46WT510 

























































































1 | 2 | 3 4 J 
A © \N\ NS re \ i 
ENR: tt etalk 
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VA ane 
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V BOARD SCHEMATIC DIAGRAM V 
VELOCITY MOD] 
1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | COMPONENT SIDE 
ee eee ee 1 2 3 4 5 
A | y U U SSS ISK 
ig ! odi-dk@ T'1C*) 
4 rr . - “ . 
. g re alee 
[aor 
ee B 
4 ; 7a RET 
[wre 
c * a | 
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i) 
D sett 
ea ' 
E a = 4 Pe ! 
VELOCITY MOD] 
| 2 = 2 4 “ . Z 3 —— CONDUCTOR SIDE 
1 2 | 3 | 4 | 5 
A 
V BOARD TRANSISTOR LIST B 
B c E 
qso02[ 33 | 119 | 27 
qs003[ 33 | 66 | 27 J 
qs004[ 66 | 7.2 | GND 
qs005[ 9.0 | 120 | 84 
qs006[ 7.2 | GND | 78 c 
qs007[ 84 | 120 | 78 














9008 1.4 68.0 0.8 
qg9009 | 134.3 68.0 134.9 


All voltages are in V. 























— 49 — 


KP-46WT510 


G BOARD SCHEMATIC DIAGRAM 


G BOARD IC VOLTAGE LIST 


11 12 13 14 15 16 17 18 19 20 21 22 


10 













































































Kk pel = A es 
alelc[e}elelel= =|efel—felZIE/Z]ele] = 
Sey de Pr der le TF IEIElEle |= 
=} = 
8 7 
Sz _ ‘ef : 
zl lnfe |e feet dele {ElElP tere 2] e]e le 
b b b 

Sl fctetetchelslclelelel@l2|ale 
sl$}=|-Jel-}-}]$|-]- fede |S }o]ele 

8 8 8 

8 8 8 

=z =z “2 |_ 

ayy yyy ayy a = 

BI. a b b i 
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Slt y lelsyeyyrye i a) 9 a a 
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g 8 8 

“|Z “Zz =“2\_ 
ayy yy 7-0 ae ee eee ee Dee eee De a iad 



















































































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0 
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G BOARD TRANSISTOR LIST 
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—50— 


KP-46WT510 





G [POWER SUPPLY] G [POWER SUPPLY] 


COMPONENT SIDE CONDUCTOR SIDE 








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—51— 


UD BOARD SCHEMATIC DIAGRAM 


Due to the complexity of this board, performing component level field repairs is not recommended. 
If service is required, complete board replacement is the preferred repair method. 
Data is provided for reference only. 





















































































































































































































































































































































































































































































































































































































































il | 2 | 3 | 4 | 5 | 6 l 7 | 8 9 | 10 | 11 | 12 | 13 l 14 | 15 16 | ii? | 18 l 19 l 20 
cH7001 
A DVI MOLEX COMM 
le] | ea eel | el eee Ch ea 
T = = = = ~ < ™ = ~ Bis lesle sissies isaleisisinis) 7 7 = — = > 7 = o * > 
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1 1 , af 1 
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ABOARD SCHEMATIC DIAGRAM (1 OF 3) 


—54— 


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—55— 




























































































































































































































































































































































































































































































A BOARD SCHEMATIC DIAGRAM (2 OF 3) 


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A BOARD SCHEMATIC DIAGRAM (3 OF 3) 









































































































































































































































































































































































































































































































































































































































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—56— 


KP-46WT510 
















































































































































































































































































































































































































































































































































































A BOARD IC VOLTAGE LIST A BOARD TRANSISTOR LIST 
Ici au on 1 34 1c12 1C302 1C303 bb 1 44 u 4s 1c704 1c711 B Cc & 
PIN VOLT No 1 PIN | VOLT] PIN VOLT} PIN | VOLT 2 tt it Qi Q334 im) 640 18 
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—57— 








[TUNER, 3D COMB, AREG, CRT DRIVE, YCT, SYSTEM CONTROL, AUDIO OUTPUT] 


COMPONENT SIDE 
2 3 



































































































































































































































A BOARD LOCATOR LIST 


KP-46WT510 






















































































































































































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10 u 12 DIODE TRANSISTOR TRANSISTOR 
Di Et Qi H8 Q703 F8 
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D318 C2 Q7 DAT [ a7i5 F-8 
D3i9 D2 Qn Et Q7i6 F-9 
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D710 F-9 Q302 F-7 Q723_ | B-10 
D711 E8 Q303 F-7 Q725 | B11 
D712 E8 Q305 F-6 
D713 D8 Q307 D-4 
D718 BO Q308 B6 
D725 | A-10 | Q310 D-5 
D726 | Ato [ Q3i1 D5 
D729 | B10 [ Q3i2 D6 
Q313 D-4 
C1 AS Q320 D-5 
1C2 BS Q324 D-4 
1C3 CA Q325 F-4 
Ica G9 Q326 F-4 
1C5 A2 Q327 G3 
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IC7 A2 Q329 F-4 
1c8 D-3 Q330 G3 
Ico DA Q332 G4 
S ‘ IC10 B-2 Q333 G4 
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—58— 



































KP-46WT510 


[TUNER, 3D COMB, AREG, CRT DRIVE, YCT, SYSTEM CONTROL, AUDIO OUTPUT] 

























































































































































































































































































































































































































































CONDUCTOR SIDE A BOARD LOCATOR LIST 
1 | 2 | 3 | 4 | 5 | 6 7 | 8 | 9 DIODE TRANSISTOR 
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Bs) (ade i ASE, 
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LL 
= z Zi Z [GHA 
aE UB G ye CO 


SG 














—59— 


KP-46WT510 


Due to the complexity of this board, performing component level field repairs is not recommended. 


If service is required, complete board replacement is the preferred repair method. 


Data is provided for reference only. 


AD BOARD SCHEMATIC DIAGRAM 



















































































































































































































































































































































AD 
DIGITAL REGI 


PJED CPU 


PJE DRIVE 


Zl 


'9-965-946-01<RAG>AD 





—60— 


} 














a2 als ale 
























































































































































































































































= 
s 2 
= a 
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[DIGITAL REGI, PJED CPU, PJE DRIVE] 























COMPONENT SIDE 
: | 2 | | 
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A D [DIGITAL REGI, PJED CPU, PJE DRIVE] 


CONDUCTOR SIDE 


3 





ACW 












































































































































—61— 


KP-46WT510 


KP-46WT510 












































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































U BOARD SCHEMATIC DIAGRAM 


7" 
=|-feleleleJel-}elelelele}e}etetelefel_ fal-feleleleleleleleleletetelelelelele 
= lle te lt || | Ef le} | fe} |e} |-[st£-lelel- |= al<|=|-|=|E]-|e|e|Fle 
3 
8 
mn leslie |. ||} ]F lz a Pe oe 
se x 
Ww Fer] Pe fee Pd ra en (eo lof sles lee|es| =|_|oJe pe Poa TFT) Pe cd ac fac FS Pb ad ay Pl ar cl a) OU Ved ba al By Pll 
oy ei a | i a sa Sv Wl a Pa a] Way Pf S|s|2|2|S|E|2|=|=|2 |S |= |S E/ZIE/2|S/S1E 16 ° = elem oo eed Dee el Dee el ed De : | des 
g 3|> 2 2 e 
EF |a n 
a |Si, 6 |.|-|-|-|-|-|-l-!-I-!-|-|-|-|-]-]-]-|-|~|-|-|-|-|- 
oF ely ele} re FEE FEE Esler FFF Ft terets terse = arr Er Fr rE re re re Re rr er re fe tele 
Oo ira 
[=n P=3 DD mer rep sye pede fete pepe de def pepe fe Pas per rr pr der rr ye |e] EE an 
3 |g 8 8 PS alalslelelsielalelalelelelslelcialslelelsiale 
oO |S 3} 3) ° BlS/S/S/S/S/S/S [SSS SSS KA NAlAlalalalala 
mo |~l2/_ |_| fff f_Il-]-f-}-]-]-]-/F lz} EIT IEP |-l-}-lel-]elefFlSP I-Ie}. o | (sisisisisisisisisisisislsislsis/sisisisisisisis 
a —|—|]—-]—-]-|-]—-— a —}J—|—-|]—|]-—J-|-— a NININININININININININININININININININ INI NINN A 
> 5 | |S/s]s/6/s/S/s/S/s/S/S/S/S/S/S/S/s/S/s|/S/s/sisjs 
N 
get8 is IS. \s lu S| jem) > = elle Sele lel® 
bi Ue tlufclelalE Ela eizlale Ei elalclelaleelelelg PREG are pl ialedecate 
ae ele] = LI Big] fei) | |? el 3 BE Z| 5] jes] 5] § 
= = GAPE lslglaislsls/alalal sisisialsialeia 5 TE iz ~ as zs = - 
it ip tiittiiit. Ca 7 
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tg da dg a 
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saav Ea | 
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PP PPPOE commis | se 
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osm 
But 7 
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= i 
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on 
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—62— 


KP-46WT510 





J [AV SWITCH, TERMINAL BLOCK, AUDIO PROCESSOR] 
COMPONENT SIDE 


1 | 2 | 3 | 4 | 5 | 6 | vA | 8 | 9 











== 


KP-46WT510 





J [AV SWITCH, TERMINAL BLOCK, AUDIO PROCESSOR] 
CONDUCTOR SIDE 
1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 











=—4— 


B BOARD SCHEMATIC DIAGRAM (1 OF 2) 


Due to the complexity of this board, performing component level field repairs is not recommended. 
If service is required, complete board replacement is the preferred repair method. 
Data is provided for reference only. 









































































































































































































































































1 | 2 | 3 | 4 | 5 | 6 [7 | 8 | 9 io | 1 | 12, | 13 | 144 | 15 16 | 17 | 18 | 19 20 a | 22 | 23 | 24 | 
_ 7 - _ = 7 = -. 2 7 7 7 7 - x _ 2 2 . - ; 2 _ = S _ - : 7 : 
A Le I 
gaggle = ae 
; 2. sigagl@® gee) 
| ADP Hee nee 
Fa z 
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1 
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= ea oe 
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F Meg , THEEPEES? SE EPEEPE PS ES SSR GEER ESSERE SEER SEE ER ERR SEES? a | a 
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B BOARD WAVEFORMS 


KP-46WT510 





























1.1 Vp-p(H) 1.4. Vp-p(H) 
jy ~ 
~ 
1.2 Vp-p (H) 1.5 Vp-p(H) 






















































































































































































































































































B (1/2) 
AD-DRC 











—65— 


9-965-946-01<RAG>B P1 


KP-46WT510 


Due to the complexity of this board, performing component level field repairs is not recommended. 


If service is required, complete board replacement is the preferred repair method. 


Data is provided for reference only. 


B BOARD SCHEMATIC DIAGRAM (2 OF 2) 




























































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































—66— 





oO 
N = = = at 2 = - = wa _ = _ ie x = Be im i _ ze _ 7 = = | 
7 tnd 5 
gze2e2 eae § s 
ji iG : j : 3 1 
‘if ‘if Pere ii 3 
N q444 ' Ss a ss ba 
1" Pa 3 
“yo wo, Bigs | Biyereeet ae F: 
2) | | 2B if z po J ce {EH 
4 5 fel i gal 
i PES at t 1: | 338 3 1 
2 q gees BeUeNEnen i , Nw 8 
x SIDI OODOOOOOOVOOOOOOOOOOOHOOOOONO 3 4 N x 
SEER ERP ee Tare kiss ee eres eke LEER RERRTERE Re ||, = BRg \ a 
2 | =] 
! Et | N = 7 
| | — ae s 
5 & zt DOWOOOG 
z i) E A perenne Jig faa} | 
° le) 5 
ql | + ® = : sad sei]? l 
2 8 re $ 8 ts 8 an | 
tS s ; H 
J ieee bd dat | 
1 Legend s]_=| || [3 ee 
a i 
i) i 
3 3 : 
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a 
i, id eal | 
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=| Wey 
33-2 goad | 
a = a4 
| es rows i ae a 
fraps ee hl sa. | if ! 
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ad KHOOe “ ie gets H536 
| Hon id nee | 
aul i - H gang Le Ee | es w a eared OQ & 
& | Bond] 623 re] : i. | ¥ ms bg ‘ = 
| | ns pele ee Bl, Lia j 
r J,| PS Bape = BPSE ESSE x a TERS 
: i ee sae | [8H 8 eons 808 # | 
5 gad 13 gal 2 bay 
! a uy i 1 
| . MUNONRUE i i ie 
€ OBE POE DOODOOOSOOE DETEeOoooE POOOOGOE | 
= li PP REQLEEEREFETPEEEEREEER PEREEE 
' w L wares ies 8 wo 1 
= 2 ~ mm = 
ba = on 7 
=| w Some mae 1 255 gaat fu | 
i gl eS weed Beet Foe \ 
a z a= soni = I 
= w §) mes rome = 
z &) wt pet se | 
amie id = a he 
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= res 3 5 : | 
és = a Es A 
bas (a cata _Oa wisi | Bad z " 1 
al a soul _ a 
Dat = Py = | 
= - mm wt 7 
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' Cres, =e BR ° 
al |= @ 9 - 
= pens {ames ausme 
: = z = 
en < mae 
; = ums ie met | (gad ' 
wa sisste uno (5 
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me | id fica a BE a ee bic ! 
Bi) Fe 4 pales 
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ra Beg . a Bee Be3s i OMOOOWWE 
Chai oe gad Z tame 88 7EE a [pea O82 88 1 
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3 208 pond | 
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re 
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1 Be 3838 : 
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8 
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A - =2 
< T~T| mo T o Jf wi x J oe [= _ > I =v Tf = T = TT = FT ° o 





[AD-DRC, MID-XA} 
COMPONENT SIDE 


1 


2 


3 


| 6 | 


12 





























1-680-881-21 





















































































































































@. Pesleehs s 














































































































—67— 
































KP-46WT510 


B [AD-DRC, MID-XA] 


























CONDUCTOR SIDE 
1 | 2 | 3 | 4 | 6 | 7 | 8 9 | 10 | W | 12 
fa 
A 
cle 
B : 
Tal ty & 
_ i kc Eig. im 
UNS 53 
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Eve . 





— 68 — 





KP-46WT510 


KP-46WT510 









































D BOARD WAVEFORMS 






































= = S E = 
2 g 2 2 2 
& = : 2 
a a 
> > s $ 2 
n 5 & = 8 
8 = © = = 
= = = r= = 
2 2 = = = 
a ; a 
= = a ie a 
— 2 > 
i= > 
4 o 
8 s 3 e nN 
8 8 — 3 











D BOARD IC VOLTAGE LIST 



































24 


23 





















































= 
aqjajaqja|ja a a a = 
B =| |F b = wm ZIZIZ/Z/Z/S/S/Z/ E/E] 5/22] s/Zz/ 2/8] 2 
xfs ]s]2ia[2faulela] PalSiaySlej=) alololS} fain ia|x|O/Slalols} ¢ G]G/G]G]G]*|F]G] P/O] 1G] S/G]S]o] § 
SIS IS|SIR | ]o3] =] 25] |S] 3] $]55]5]0]9/5]9]B]u[Q]s\]si 115] S]S]o]o4] § 3 
S ° ° 3 3 
8 8 8 z |S a}e|e}2}S]=|2]2]'3/2|Slsi|/el2]ai| 2 
3 , Re) ed el pod ed a ed z 
elz|afolsfele|n|o/|2]|- sol |Z |Z] —|oufoo]efio]co]n foo] 3 lal SiS1s/s/6/ 9] +15] =/<]G/2]S/ oH] 
B 5 5 9]'2| =] 2] eo] 2]a]sfalaln|+t]o]a]o]a|a 
Siajol—| JalclojolSlojol|a} falslelelSlele/-le}_ lals|glelelel=|=|le 9) S19]S]d|d]e5] 5] ose] 05] ai] o3] 03] 3] 5] 5] 03 
BJO? |] 05] oD] S] 8] F1G/S]9]/S]P/n/O[S]5 +1] S/S] 27 leg OQ O/H lao/n In [2/03 
8 8 3 alels|elalol—lalelnlalelalelsl-le 
8 8 8 Q18]8/8/2/3/5/9/8/5/3/s/S/S/s/518 
wo]o}n]o|= |Z 09 |< fio] =e | 12] —laileo]+}ofo|n|ola k | |8/3|2|3|/3/3/2|2/3/5|/3/3|3|3|2|m|a 
cad ha bee a a QO | |S/6/6/S/S/S/S/S/S/S/S/S/S/S/S/5/5 
a 
e clo eb eb oc alo 2 = [=| Q) a 
oD ale] Jalale It {loo} [SISIS/S} [S/S] S}a}/D]a]a}a]O]0|o]o]o/2]— wi TIZIS/SIs[ Qf 2IT[SIRlofVlZz/V MZ wlio 
IS MS] cg] O]H]2 |S | 1S] 2] | oo 1D] 11H] up| S/N |S |B | 09 | 03] 03] B05 Je3] 05 ]e3] B/N i} SSH] FT] FO] pe] spaiqnallayr im |G Ged Fee] 
i} ie (ik =} i} 
8 8 8 2 ajalye|e ° a bead fed 
alo 2}O]la]o ° | 
x |io|ofn]oo]2]z % Llz Syz)_ é o|o/o|-|xlo}= Q jofslels|2|/2]s|sialals|alelsiZziale s\s 
Sfefe/e jel” |Z] —|ouloo]+ n|"|2 ol" |Z con }oo] > ]2]m No] = Z lle |e IF ISISIS]SN/N/8/ 8/9 |= ]5] 942 8/8 
a 
B B © 
AIS] ofOlBS]alelQpelsil-|GlololololSj=] [alSlealolS|sl=|=/Sle]SlalGle F Jalzlole]z]=]elele}ele|glalel<|=sle ole 
=|2|5|=|2/8 |S] F]9]8]o]8]S]8]S]S]S]/S/8]S]y]O18|+/2/8] a] 9]S|8 S/N d/o 2 [Alslo]=]o]o|oleis|/alsfaijee [ays paey 
= \ \ Y MISloy \ Y \ \ == 
8 8 < 
Qliz Liz O | {sis/S/s/S/S/S/S/SlElzl2/e/2/Sla RIS 
= + R]ola/S/TIN]O]s /wojolm|ao = t]o]o]n]ola}O/mIN]2 ao SIS|S/S/S/S/S/S/SIS/G/S/SIS/G/a 3/9 
= = B| S| | B| eB) oo| 2) | S| S| | S| | | | 3/3 
o | (Fsls/sjsjslsjsisisisisjsjsjajs felfe) 
























































All voltages are in V. 













































































22 


21 


20 


19 


18 


nt 







































































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fac 








17 


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16 
ial 


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15 


14 





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pF gh 


























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13 


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5 

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peng cide 


— vel, 














































































































cal 
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'97965-946-02<RAG>D 





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HV DRIVE 
OWER SUPPLY 
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AST 





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12 



























































11 





























10 














—69 — 

















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{42220 



























































































































































































































































































































































































































































n + 
q 
n 
q 
bee 
ss > Be 5 
at = > Be B) 
2 “> s 
HE Hye 
ag i 
af pes 
A Hit poke 
iH i be 
we | alt ee 
jars |e re 
i BE 
Pere 
a. 
et # if cd = 
Le an i 
beg |e ree ii 
[oie fee ie ai 
| ist +n} SEB 2E 
Fe ln i 
1 tO a I “i ze 
Ea Ea — eg 
aS | a ob ie 
ko iy 
a Be 
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GoM ver 
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0) 
ea 
io) 
aD 
WP 
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ca 
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eo Acazacnas) 











































































































var 
aa 
= 
ey 
wo 
a 
oo 
av 
oo 
wv 
mp 
= 
“AAT (LOC, 


















































PEWCE-W 























D BOARD SCHEMATIC DIAGRAM 











[HV DRIVE, POWER SUPPLY, H DRIVE] 
COMPONENT SIDE 
1 | 2 | 3 | 4 














Ey eae 

















a 
4 








NOOO: 
Or 
@! 






































aa 
































































































































































































































bij ; 








ag Goce Zagy 








quill 










































OY COG 
i 

































































KP-46WT510 


KP-46WT510 








[HV DRIVE, POWER SUPPLY, H DRIVE] 







































































































































































































































































CONDUCTOR SIDE D BOARD LOCATOR LIST 
1 | 2 | 3 | 4 | 5 | 6 | 7 8 | 9 | 10 | "1 | 12 DIODE ic 
TWO TIN TIN ’ Ds00t_| D-10 | Ica001 | cB 
SUE ‘ D002 | D-10 | Ics002 | c-4 
A SS ps003 | D-10 | 1c8003 | E-10 
ps004 | E10 | Icso04 | ES 
D8005 | _H-6 | Ic8005 |__F-8 
_ Ds006 | H6 | Ic8006 | _B2 
Ds007_| D-10 | Ic8007 |__B-3 
ps00s | 8-3 | Ic8o0s |__C-2 
B Ds009 | _c-1 | IC8009 8 
Ds010 | E-11 | Ic8012 | __H-7 
Dsoit_| E11 TRANSISTOR 
=I peo12 | E11 | 98001 | D-10 
D8013 | _B-2 | as002 | __H6 
Ds014 | B-3 | as003 |__H-6 
c DB015 | A-2 | 08004 | _E9 
ps016 | B-3 | Qs005 | C-1 
Deora | c-2 | a8007 | Fv 
7 ps0z0 | c-2 | as008 | G6 
Ds021 F-9 | _a8009 | G5 
a pe0z2 | c-2 | asoi0 | G6 
D8023_| B-3 | soit F-6 
ps024 | G7 | aso | G6 
| D8025 | A2 | as015 | G6 
p8026 | G-11 | asote | E8 
D8027_|_F-8 | as019 | E8 
E ps0z8 | D-3 | as020 | D8 
ps0z9 | 4 | goat B-t 
ps030 | 4 | as022 | B-+4 
= 8031 D-2 | 08023 | _H-11 
Ds0s2_| _H-7 | as024 | G10 
D8033_| _G7_| 08027 |__F-8 
F ps03s4 | 2 | as028 | A2 
ps0ss | E-2 | as029 | B63 
pDs0s6 | c-3 | Q8030 | F-11 
4 pe0s7 | G4 | asost | F-1t 
D8038 2 qs032_ [| C-1 
D8039 | G4 | 08035 |__D-3 
G D8043_| _B-1 Qs036_|__D-1 
De045 | 1-8 | Q8037 | D-1 
ps046_| D-8 | as038 | D-1 
4 ps047_| Fit | 08039 | H6 
Qsi01 | G11 
H 
} 








—71i— 


KP-46WT510 
SR BOARD SCHEMATIC DIAGRAM 


1 


























—_——_ - > amet 
tr 
at 

ae saic0 

| a 

ae x Poe 

@ Ly E 
wisi [re Rn 
SR sensor 





3-965 -946-O1<RAGDSR 


SR [SENSOR] [SENSOR] 


COMPONENT SIDE CONDUCTOR SIDE 
| l | 2 | d | 2 | 





















































H2 BOARD SCHEMATIC DIAGRAM 
1 | 2 | 3 l 4 | 5 | 6 l 7 








:SeRTCRO 
To m-cxsi01 





Al pee 
STERED-LED 
POWER 
0 
sy 5 




















ann 
e 
wr 
each 


B To 4:19 








[STEREO-LED 
KEY 
POWER 

ol cD 

‘STBY SV 





Fe 
+E 
i 
ab 
a 
Pers 

5 

BP 


ai 
































'9-965-946-O1<RAG HZ 


== 


KP-46WT510 


[FUNCTION KEYS] 


COMPONENT SIDE 

















[FUNCTION KEYS] 


CONDUCTOR SIDE 











H1 BOARD SCHEMATIC DIAGRAM 


KP-46WT510 






























































1 | 2 | 3 | 
4 
wn, 7 snalithn 
Al pzamn 7 | oe ot! 
STEREO-LED 3 
for is a 
SJ bars os 
1 iE 1 
= HB 
BY ssc sey 
pam 
‘SIRCS z a = W ' 
=~ on 2B H12% 
5 Hey o< 














H 1 [POWER SWITCH] 


COMPONENT SIDE 
































fas A 



































[POWER SWITCH] 
CONDUCTOR SIDE 


























TROT 











—14— 


KP-46WT510 
H4 BOARD SCHEMATIC DIAGRAM 



















































































1 | 2. | 3 | 4 | 5 
ts eer 
wt =} 2 [3 
| FS zi ! 
B) eH ni 2 13 
yi RP ais : 
| ft aet F fs | 
Cc ‘ - - - ; Ha 











H 4 [VIDEO 2 INPUT] 


COMPONENT SIDE 
1 2 3 4 


ror IO 














DPEALPK 


Seg? has 


DEFESRISEESIo 


[VIDEO 2 INPUT] 









































CONDUCTOR SIDE 
1 | 2 | 3 | 4 
SONY 
Alla” LER : y J 
eh Py VA j 
ald HHTHAEHHH HHS IHHE | 
ey Le wiaiel sivivivg y 





ial 




















= 75 


5-5. IC BLOCK DIAGRAMS 
A BOARD 


1C305, 307 SN74LV4053ANSR 






































































































































Nout 
vop Az oz w ov 1x op 
" Oa OO4 
48) O-O-—O-O +32 
_ TG 
a@)—> [LOGIC LEVEL] __.[einany To i { 
Y/ [CONVERSION | 10F2 ‘ 
DECODERS 
Witt 7 
+[_ INHIBIT 
TG 
4g —~[LOGIC LEVEL BINARY TO ! r— 
BOY [CONVERSION] 1OF2 4 
DECODERS Te 
WITH 
+[_ INHIBIT 
TG 
© (g)—-JLOGIC LEVEL BINARY TO l r—t 
of [CONVERSION] 10F2 7 
DECODERS TG 
WITH 
dy _[toaic ever] J 
INH ©)—*| CONVERSION! INFIBIT 
8) {7} 
vss VEE 
1€305, TDA7265 
+VS 
(3) 





MUTE / ST-B(5) 


L+IN@. 


GND() 





(4) LOUT 
Lae oe 
a) an 


a as ROUT 














<4) 
@) 


zp 
a 
bie 
< 
a 


— 76 = 



































































































































































































































































































































B BOARD 
1€3305, 3404 TLC2932IPWR 
Losic veo PFO LOGIC 
VDD SELECT OUT FINA FINE OUT GND 
O—O—O—_D—H—O—Z 
TOWER 
ea PED 
3—_13_13_1)_09_©—_© 
VCO BIAS VCO VCO VCO PFO NC 
yoo (N GND INHIBIT INHIBIT 
1C3413 SN74LV4053ANSR 
iwour 
voo 42 1x on 
DO-—-O-B-8 
Te 
a@—-[OSISLEVEL|_—-enanyto T 
CONVERSION] ei 
DECODERS 7 
WITH j 
INHIBIT 
Ta 
2 @o-—-(LOsICLEVEL||__eivanyTo TL gy 
CONVERSION! red 3 ommon | OUTIN 
DECODERS 7a 
WITH ‘ 
INIT 
Te 
o@—-foactever||_fanaavto Edy 
) CONVERSION! Nore D Common 
DECODERS 7a 
[LOGIC LEVEL] WITH 
INH © —CoNVERSION INHIBIT J 
(8) O 
vss VEE 
1C3414 M52055P 
CONTROL 
not INPUT 28 Vee INPUT2 INPUT 2A, anos 
© @ © o ® 0) 
oo 
INPUT 1A (18) i —() ineur sa 
4 
L 
| 
eet 
q L 
H + 
input 18 (}— | L__(8) Input 3a 
2 3 a § 6 7 
CONTROL OUTPUT Noo ouTeuT2.—souTPUT3 CONTROL 
INPUT { INPUT 3 


—77— 


KP-46WT510 


CR BOARD 
1€7101 TDA6120Q 































































































































































































































































































































tN vob 
6) £0, 
MIRROR CASCODE | 
in 4* out 
1x ag 
IN 
t—| 1x 43 
vec © >I 
_ 0.7 pF a 
MIRROR 1k 
in_™ out out 1x out 4x ) 
"CURRENT 
INPUT 
VIN; @4 CASCODE 
JTS mA 
{)—® &® (8) 
RC-  RC+ —VIN+ GND 
CG BOARD 
1€7201 TDA6120Q \IN vob 
© 40, 
ne. @) MIRROR CASCODE | 
ne. @ in 4* out 
Pots 
vec 6), r] ai “ 
. 0.7 pF 
MIRROR {I 
in 1 out out 1x out 4x L 
"CURRENT 
INPUT 
Vie @) + CASCODE | 
JTS ma 
O—®—_¢ ® 
RC-  RC+ —VIN+ GND 
CB BOARD 
1C7301 TDA6120Q 1IN vob 
® (0. 
MIRROR CASCODE | 
in 4% out 
my @ 
rz 43 
vec (6) fa ie ve 
@ 0.7 pF KT] 
MIRROR 1k 
in_1* out out 1x — out 4x ) 
ra 
"CURRENT 
INPUT 
VIN- OH + CASCODE 
JTS ma 
A [ tT ‘ 
—) @ 8) 
RC-  RC+ —VIN+ GND 


—7 


c= 


KP-46WT510 


KP-46WT510 


U BOARD 
1C2004 CXA2069Q 



























































wv 
vi 
ve 
v3 
v4 
vs 
ve 
court 
wyoute 
¥3 
v4 
TRAP2 
courte 
ot (5 3 (41) vouts 
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7) COUTS 
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Lva 
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Lva 
\ ROUT2 
Lvs ( 
Lve (a8 Lours 
RIV (40) RouTS 
RVI 
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RVS ( 
RVa 
RVs 
RV6 























70 


5-6. SEMICONDUCTORS 


1SS83TD 
21DP05 
D1NL40-TR2 
DINS4 
D2L20U 

ELIZ 
GPO8DPKG23 
RD10ES-B2 
RD15ES-B2 
RD18ES-B2 
RD20ES-B2 
RD5.6ES-B2 
RGP02-17EL-6433 
UF4005PKG23 


CATHODE 
‘ANODE 

18S133T-77 

30DF4N-FC5: 


ERC04-06SE 
ERC91-02 


CATHODE 
“anove 
188226 
2 
S35 
’ 
<—S 


1S355TE-17 
DTZ-10B 
DTZ-TT11-6.8B 
UDZS-TE-17-7.5B 
UDZ-TE-17-10B 
UDZS-TE-17-18B 
UDZS-TE-17-22B 
UDZS-TE-17-24B 
UDZS-TE-17-3.9B 
UDZS-TE-17-33B 
UDZS-TE-17-4.7B 
UDZS-TE-17-5.1B 
UDZS-TE-17-5.6B 
UDZS-TE-17-6.2B 
UDZS-TE-17-9.1B 


CATHODE 


D1NL20U-TR 





CATHODE 


"ANODE 





3 





CATHODE 
ANODE 
SLR-325VCT31 


aNobE | CATHODE 


BAO33T 
NJM7812FA 
TA7812S 


: 


BAOST 


a 
Ce 


BA9759F-E2 
PECETETUE ( 
TRE 


18pin SOP 














CD0031AM 
AARAAAGHEE (i 
PELE 


48pin SOP 








CM0017AF 








b 
TOP VIEW 


120pin QFP- 


CXA2151Q 
CXD20130-T6 





a 
TOP VIEW 


CXD2073Q-T4 


TOP VIEW 


32pin QFP 


NJM2750 
PCM56P-L 
SN74LV4053ANSR: 





16pin SOP 





CXA1726AM 
NJM2180M 


PT TEPECTITE (i 
ELE 


30pin SOP 

















CXA2069Q 
CXP85840A-039Q 
CXP86448-635Q 
CX2150AQ 





“yop view 


DM-58 














TTT 


MARKING SIDE ViEW 


vpn 
Vit one ch) 


14pin DIP 


LA78045 





M24C08-MN6T 
M24C32-WMN6T 
NJM2068V 
NJM2904M 
UPC4558G2 


AABAAAABAA 











Pa 5 


8pin SOP 


M306V2ME-175FP- 
UPD64083GF-3BA 





Top view 


MSM514265C-60JNS 
2 


40pin SOP 


NJM2395AF05 
PQO9RF21 


S 


1 
4 


NJM2903M 
UPC393C 


8pin DIP 


NJM7905FA 


y 





i 
3g 


NJW1148 


Oil 


Trop view 


48pin QFP 


PQ1CG2032FZ 





PST9143NL 
PST9145NL 


Jt 


ef 
Spin CHIP 


STK392-560, 


MARKING SIDE VIEW 


—80— 


TC7WO8FU(TE12R) 


(10 


8pin CHIP 
TDA6120Q / N2/S2 





TDA7265 





TLC2933IPWR 


14pin SOP 





UPC1093J-1-T 


=) 


2SA1358-Y 
2SA3421-Y 


E 
cB 


2SA1037AK-T14 
2SA1226-T1E3E. 
28C1623-L516 

2SD601A-QRS-T 
DTC114EKA-T1¢ 
DTC144EKA-T1¢ 


~ 
2SA2005 
28C5511 








2SC2688-LK 
LETTER SIDE 


2SC4634LS-CB11 


y 








ody 


2SK2036(TE85L) 


IRFIB7N50A 





KP-46WT510 


SECTION 6: EXPLODED VIEWS 


* Items marked with an asterisk are not stocked since 
they are seldom required for routine service. Expect 
some delay when ordering these components. 


Components not identified by a part number or 
description are not stocked because they are seldom 
required for routine service. 


The component parts of an assembly are indicated by the 
reference numbers in the far right column of the parts list 
and within the dotted lines of the diagram. 


NOTE: Les composants identifies per un trame et une marque A\ sont critiques pour 
la securite. Ne les remplacer que par une piece portant le numero specifie. 


NOTE: The components identified by shading and A\ mark are critical for safety. 
Replace only with part number specified. 


6-1. COVER 


© 7-685-661-14 
w 7-685-648-79 










SCREW +BVTP 4X12 TYPE2 IT-3 
SCREW +BVTP 3X12 TYPE2IT-3 




















KP-46WT510 





=—st— 


REF.NO. PART NO. DESCRIPTION ASSEMBLY INCLUDES REF.NO. PART NO. DESCRIPTION ASSEMBLY INCLUDES 
1 X4041-069-2  BEZNET (46) ASSY (2) 16 X-4041-809-1 CABINET ASSY, BOTTOM (46) (17-18) 
2 3-704-179-01 EMBLEM (NO), SONY 7 4-084-920-01 FOOT 
3 4-090-943-11 SCREEN (46\\), CONTRAST 18 4-084-982-21 CATCH (S) 
4 4-090-944-11 PLATE (46WL), DIFFUSION 19 A-1405-147-A 2 BOARD, MOUNTED 
5 4-090-945-11 PLATE (46WF), DIFFUSION 2 4-082-284-01 BUTTON, MULTI 
2 A-1405-148-A Ht BOARD, MOUNTED 
6 4-084-568-31 HOLDER, SCREEN 
7 A-1400-759-A SR BOARD, MOUNTED 2 4-082-283-01 BUTTON, POWER 
8 4.084-568-21 HOLDER, SCREEN 23 4-083-733-01 GUIDE (HWW), LED 
9 4-091-245-01 HOLDER (461), MIRROR 2 A-1405-149-A 4 BOARD, MOUNTED 
10 4-081-501-01 HOLDER, MIRROR % X-4041-068-2  GRILLEASSY, SPEAKER (46) (25-29) 
% 4-090-952-02 DOOR, TERMINAL 
tt 4-091-246-01 HOLDER (46R), MIRROR 
12 4-090-957-01 MIRROR (46) 2 4-042-192-01 CATCHER, PUSH 
8 4-081-063-01  SCREW,DOME WASHER HEX TAP 4x20 2 3-703-035-11 SHAFT, LID 
14 4-090-956-03 COVER (46), MIRROR 29 4-045-250-01 DAMPER 
15 4-090-950-01 BOARD, REAR 30 4-082-201-03 LABEL, CONTROL 
3t 4-092-070-11 _ PANELASSY, FRONT 
32 4-090-954-01 DOOR, CONTROL 





NOTE: The components identified by shading and AX mark are critical for: ‘safety. 


Replace only with part number specified. 


KP-46WT510 


NOTE: Les composants identifies per un trame et une marque Z\ sont critiques pour 
la securite. Ne les remplacer que par une piece portant le numero specifie. 





6-2. CHASSIS 












@ 7-685-648-79 
m 7-685-661-14 
‘we 4-635-966-01 


SCREW *BVIP SX12 TYPEDIT-S 
SCREW #BVIP_ 4X12 TYPE2IT-3 
SCREW (HEX) 



















REF.NO. — PARTNO. DESCRIPTION ASSEMBLY INCLUDES REF.NO. PART NO. DESCRIPTION ASSEMBLY INCLUDES 
51 4-081-063-01 ‘SCREW,DOME WASHER HEX TAP 4X20 67 3-710-578-01 COVER, VOLUME, 6 MOLD 
52 4-544-893-21 SPEAKER (10CM) A ‘A-1302-180-A  D BOARD, COMPLETE 
A 8 1-223-925-34 RESISTOR ASSY (HIGH-VOLTAGE) The high voltage leads associated with the FBT on the D board are 
oe 4 ‘A-1302-586-A ABOARD, COMPLETE (64, 62, 64, & 65) not included and must be ordered separately. (See 70-71) 
@& 4 ‘A-1405-136-A ABOARD, MOUNTED (SERIAL # 8,700,001 AND UP and # 9,700,001 AND UP) 
55 8-598-594-10 TUNER, FSS BTF-FA421 we A's ‘A-1302-708-A  D BOARD, COMPLETE 
56 8-598-593-20 TUNER, FSS BTF-WA421 The high voltage leads associated with the FBT on the D board are 
* 4-557-056-31 CABLE, P-P not included and must be ordered separately. (See 70-71) 
* 8 1-556-945-21 CABLE, P-P (SERIAL # 8,000,001 TO 8,099,999 and # 9,000,001 TO 9,099,999) 
A 4-711-787-13 ‘SWITCH, RF ANTENNA A 6 1-453-285-51 FBT ASSY, NX-4006//X4P4 (70-71) 
60 4-069-675-01 CAP, TERMINAL BOARD At 1-779-095-51 LEAD ASSY, HIGH-VOLTAGE 
61 4-089-438-02 BOARD, TERMINAL An 1-900-260-40 CONNECTOR ASSY, MV 
* 62 ‘A-1300-324-A UD BOARD, COMPLETE An 1-790-001-22 CORD, AC POWER (WITH CONNECTOR 
63 4-089-194-01 LABEL, TERMINAL AB ‘A-1302-383-A  G BOARD, COMPLETE 
* 64 ‘A-1302-179-A AD BOARD, COMPLETE 74 1-500-021-11 CLAMP, SLEEVE FERRITE 
* 65 ‘A-1302-209-A — B BOARD, COMPLETE 5 1-500-082-11 CLAMP, SLEEVE FERRITE 
* 66 ‘A-1302-178-A  UBOARD, COMPLETE 76 1-469-241-11 CORE, FERRITE (RFC-8 BK) 
7 1-500-603-11 CLAMP, FERRITE 


—82— 


NOTE: The components identified by shading and AX mark are critical for: ‘safety. 


Replace only with part number specified. 


KP-46WT510 


NOTE: Les composants identifies per un trame et une marque Z\ sont critiques pour 
la securite. Ne les remplacer que par une piece portant le numero specifie. 





6-3. PICTURE TUBE 











© 7-685-648-79 
w 7-685-663-71 






SCREW +BVTP 3X12 TYPE2IT-3 
SCREW +BVTP 4X16 TYPE2IT-3 




















REF. NO. PART NO. DESCRIPTION ASSEMBLY INCLUDES REF. NO. PART NO. DESCRIPTION ASSEMBLY INCLUDES 
* 401 A-1302-183-A CB BOARD, COMPLETE 408 4.083-754-01 LENS (DELTA250) 
* 102 A1302-184A CG BOARD, COMPLETE (@A\ 109 ——_A-4604-483-A COUPLER (6) ASSY, CRT 
* 103 A41302-182A - CRBOARD, COMPLETE (SERIAL # 8,700,001 AND UP and # 9,700,004 AND UP) 
* 104 1405-1464 BOARD, MOUNTED AX 109 © -8-736-182.05 CRT O7MRC21(G) 
AX 105 1-451-537-13 DEFLECTION YOKE (SERIAL # 8,000,004 TO 8,099,999 and # 9,000,001 TO 9,099,999) 
(SERIAL # 8,700,001 AND UP and # 9,700,001 AND UP) (@ A 110 ——_A-4604-506-A COUPLER (8) ASSY, CRT 
@® A 105 1-451-536-41 DEFLECTION YOKE (SERIAL # 8,700,001 AND UP and # 9,700,004 AND UP) 
(SERIAL # 8,000,004 TO 8,099,999 and # 9,000,001 TO 9,099,999) A 110 8-735-183-05 CRT O7MRC21(B) 
AX 106 ——1-451-535-12 _COILASSY, VM (SERIAL # 8,000,004 TO 8,099,999 and # 9,000,001 TO 9,099,999) 
(SERIAL # 8,700,001 AND UP and # 9,700,004 AND UP) 11 4-092-690-01 SHADE (R) 
@®A\ 106 1-452-790-33-- NECKASSEMBLY 12 -4.092-69-01 SHADE (G) 
(SERIAL # 8,000,004 TO 8,099,999 and # 9,000,001 TO 9,099,999) 113 -4-093-242-01 SHADE (B) 
AX 107 ——_A-1604-504-A COUPLER (R) ASSY, CRT 114 = 4.373-137-01 CAP (Z), RUBBER 
(SERIAL # 8,700,001 AND UP and # 9,700,001 AND UP) A 15 8-598-955-32  BLOCK ASSY, HV HVB-1031 
@eA\ 107 ~—_8-735-184-05 CRT OTMRC21(R) 
(SERIAL # 8,000,004 TO 8,099,999 and # 9,000,001 TO 9,099,999) 





—83— 


NOTE: The components identified by shading 
and A\ markare critical for safety. Replace only 
with part number specified. 


NOTE: Les composants identifies per un trame et 
une marque A\ sont critiques pour la securite. 
Ne les remplacer que par une piece portant le 
numero specitie. 





SECTION 





The components in this manual identified by the following 
symbol: Ba indicate parts that have been carefully factory- 
selected to satisfy regulations regarding X-ray radiation for 
each set. 


Should replacement be required for one of these 
components, replace only with the value originally used. 





* Items marked with an asterisk are not stocked since they 
are seldom required for routine service. Expect some delay 
when ordering these components. 


REF.NO. PART NO. DESCRIPTION VALUES REF.NO. PART NO. 
Ic 
Ic7i01 _8-759-680-01 
® ‘A-1302-810-A CR BOARD, COMPLETE SiNbER VIBE 
4-382-854-11 SCREW (M3Xt0), P, SW (+) —_Aar 
o 7-651-000-50  GREASE,SILICON (G-746) 2006 UW7104—1-216-864-11 
CAPACITOR COIL 
C7i01 —1-164-156-11  CERAMIC CHIP O.1pF 25y L7101—1-469-555-21 
C7102 —1-101-003-00 CERAMIC 0.0047yF 50V L7i02 —1-414-855.31 
C7103 1-104-570-11 CERAMIC O.001pF 10% 2kV L7103—1-414-855-31 
C7104 = 1-107-662-11 -ELECT 22uF 20% —350V 
C7105 = 1-162-918-11 CERAMIC CHIP 18F = 5% © 50V TRANSISTOR 
C7106 = 1-126-768-11 = ELECT 2200NF 20% 16V Q7i01 — 8-729-424-02 
C7107 —*1-161-830-00 CERAMIC 0.0047uF 500V Q7102 —-8-729-422-27 
C7108 ~—-1-101-003-00 «CERAMIC 0.0047yF 50V Q7103 —-8-729-048-50 
C7109 1-164-156-11 CERAMIC CHIP O.1pF 25y 
C7110 1-164-156-11 CERAMIC CHIP O.AUF 25V RESISTOR 
é seer pa cie R701 1-260-132-11 
pal 1-126-933-11 as i 20% “ Rnoe  t2e8tstt 
pl 1-164-156-11 ey 0.1y nt o ANOS t-2tea93-tt 
la 1-162-966-11 bye I es 10% - RMOd  t-2te-g96-tt 
717 1-164-096-11 0.01 50 RMS t219-743-11 
CONNECTOR R706 1-216-825-11 
*  CN7102 —1-564-509-11 PLUG, CONNECTOR 6P R7107 —1-260-133-11 
*  CN7103  1-564-510-11 PLUG, CONNECTOR 7P R7108 —1-218-692-11 
CN7104 1-785-879-11 CONNECTOR, ONE TOUCH R709 1-216-B15-11 
CN7105 —1-695-915-11 TAB (CONTACT) R70 1-218-703-11 
CN7107 —1-695-915-11 TAB (CONTACT) 
Rit 1-218-710-11 
AX CN7108 —1-251-182-11  SOCKET, CRT RIN2 —1-218-746-11 
R713 1-218-746-11 
DIODE Rd 1-215-925-11 
R76 1-216-827-11 
D7101 8719-40450 DIODE MATI1-TX 
D702 © -8-719-901-83 DIODE 18883 R78 1-216-823-11 
D703 -8-719-901-83 DIODE 18883 R79 1-260-320-11 
R720. 1-218-710-11 





4 


PARTS LIST 


KP-46WT510 


RESISTORS 

+ All resistors are in ohms 

+ F:nonflammable 

+ Al variable and adjustable resistors 
have characteristic curve B, unless 
otherwise noted. 








When ordering parts by reference 
number, please include the board name. 











DESCRIPTION VALUES 

Ic TDA61200/N2/S1 
SHORT CHIP 

INDUCTOR 10yH 

INDUCTOR ApH 

INDUCTOR ApH 

TRANSISTOR 2SB709A-QRS-TX 
TRANSISTOR 2SD601A-0 
TRANSISTOR 28K3018-T106 
CARBON 560K = 5% = 1/2W 
METAL CHIP 220 5% = 10W 
METAL CHIP 11K 0.50% 1/10W 
METAL CHIP 1.5K 0.50% 1/10W 
METAL 100 5% © 1/2W 
METAL CHIP 22K 5% = 1/0W 
CARBON 680K = 5% = 1/2W 
METAL CHIP 1K 0.50% 1/10W 
METAL CHIP 330 5% = INOW 
METAL CHIP 3K 0.50% 1/10W 
METAL CHIP 5.6K 0.50% 1/10W 
METAL CHIP 180K 0.50% 1/10W 
METAL CHIP 180K 0.50% 1/10W 
METAL OXIDE 22K 5% = 3W 
METAL CHIP 33K 5% = 10W 
METAL CHIP 15K = 5% = 10W 
CARBON 220 5% = 1/2W 
METAL CHIP 5.6K 0.50% 1/10W 


NOTE: The components identified by shading 
and A\ mark are critical for safety. Replace only 


with part number specified. 


KP-46WT510 


NOTE: Les composants identifies per un trame et une 
marque Z\ sont critiques pour la securite. Ne les 
Templacer que par une piece portant le numero specifie. 




















REF.NO. PART NO. DESCRIPTION VALUES REFNO. PART NO. DESCRIPTION VALUES 
R7121 1-249-425-11 CARBON 47K 5% © 1/4W 07303 8-719-901-83 DIODE 18S83 
R7122 1-260-087-11 CARBON 100 5% © 1/2W 07304 8-719-901-83 DIODE 18883 
R7123 1-260-328-11 CARBON 1K 5% © 1/2W 
Ic 
SPARK GAP 1C7301 8-759-680-01 Ic TDAG120Q/N2/S1 
SG7101 —1-519-422-11 GAP, SPARK 
$G7102 —1-517-729-31 GAP, SPARK JUMPER WIRE 
SG71031-519-421-11 GAP, DISCHARGE iWiae see: Sear ae 
JW73041-216-864-11. - SHORT CHIP 
CB JW7305 —1-216-864-11 SHORT CHIP 
. A-1302-811-A CB BOARD, COMPLETE 
4-382-854-11 SCREW (M3X10), P. SW (+) col 
7-651-000-50  GREASE,SILICON (G-746) 2006 L7301—1-489-555-21 INDUCTOR 10uH 
7302 1-414-855-31 INDUCTOR ‘tyH 
CAPACITOR 17303 —-1-414-855-31 INDUCTOR 1yH 
C7301 1-162-970-11 CERAMIC CHIP O.01yF 10% © 25V 
C7302 ««1-162-919-11 —CERAMICCHIP. «= (22pF_ «5th SOV TRANSISTOR 
C7303 —1-162-919-11 CERAMIC CHIP 22F 5% SOV Q7301 -8-729-424-02 TRANSISTOR 2SB709A-ORS-TX 
C7304 1-101-003-00 CERAMIC 0.0047 )F 50V Q7302 -8-729-424-02 TRANSISTOR 2SB709A-ORS-TX 
C7305 1-104-570-11 CERAMIC O.00IF 10%  2KV Q7303 —-8-729-422-27 TRANSISTOR 28D601A-Q 
7304 8-729-048-50 TRANSISTOR 28K3018-T106 
C7306 1-126-768-11 ELECT 2200NF 20% 16V 
C7307 ‘1-164-156-11 CERAMIC CHIP O.1UF 25V RESISTOR 
C7308 1-107-662-11 ELECT 22uF 20% © 350V 
C7309 1-101-003-00 CERAMIC 0.0047uF 50V R7301—1-249-393-11 CARBON 10 5% 1/4W 
C7310 1-164-156-11 CERAMIC CHIP. OAUF OV R7302 1-216-822-11 METAL CHIP 1.2K 5% = 1H0W 
R7303 1-216-813-11 METAL CHIP 220 5% = 10W 
C7311 1-164-156-11 CERAMIC CHIP O.ApF 25 R7304—1-260-132-11 CARBON 560K 5% = 1/2 
C7312«1-126-933-11 ELECT 100uF 20% 16V 7305 1-216-801-11 METAL CHIP 22 5% INOW 
C7313 1-164-156-11 CERAMIC CHIP OF 25V 
C7314 1-164-156-11 CERAMIC CHIP O.tuF 25V R7306 1-218-696-11 METAL CHIP 1.5K 0.50% 1/10W 
C7315 1-161-830-00 CERAMIC 0.0047 yF 500V R7307—1-219-743-11 METAL 100 5% 12W 
R7308 1-216-809-11 METAL CHIP 100 5% = 10W 
C7317 1-162-966-11 CERAMIC CHIP 0.0022uF 10%  50V R7309(1-216-864-11 SHORT CHIP 
C7320 1-164-096-11 CERAMIC O.01pF 50V R7310 1-218-710-11 METAL CHIP 5.6K 0.50% 1/10W 
CONNECTOR R73tt 1-218-692-11 METAL CHIP 1K 0.50% 1/10W 
R7312 1-260-133-11 CARBON 680K 5% = 1/2W 
*  GN7302_—1-564-508-11  PLUG, CONNECTOR = 6P R733 1-216-818-11 — METAL CHIP 560 5% «= «INOW 
*  CN73031-564-510-11 PLUG, CONNECTOR = 7P R7314 —1-218-680-11 METAL CHIP 330 0.50% 1M0W 
*  GN73041-564-510-11 PLUG, CONNECTOR = 7P R735 1-218-690-11 METAL CHIP 820 0.50% 1/0W 
CN73051-785-879-11 CONNECTOR, ONE TOUCH 
CN73071-695-915-11_TAB (CONTACT) R7316 —1-218-693-11 METAL CHIP 11K 0.50% 10W 
R317 1-218-696-11_—- METAL CHIP 15K 0.50% 10W 
CN7308 _1-695-915-11___TAB (CONTACT) R731 = 1-218-704-11 METAL CHIP 33K 0.50% 1/10W 
AX CN73091-254-182-11 SOCKET, CRT R7319 —1-216-825-11 —- METAL CHIP 22K 5% OW 
R7320 1-218-752-11 METAL CHIP 330K 0.50% 1/10W 
DIODE 
D7a01 8719-40450 DIODE MAItt-TX R732 1-218-746-11 — METAL CHIP 180K 0.50% 1/10W 
D732 a-719-40450 DIODE MAItH-TX R732 1-215-925-11 — METAL OXIDE 2K 5% aW 


a 


NOTE: The components identified by shading 


and A\ mark are critical for safety. Replace only 


with part number specified. 


NOTE: Les composants identifies per un trame et une 
marque Z\ sont critiques pour la securite. Ne les 


remplacer que par une piece portant le numero specifie. 








KP-46WT510 


CG 











REFNO. _PARTNO. DESCRIPTION VALUES REFNO, _PARTNO. DESCRIPTION VALUES 
R73231-216-827-11  METALCHIP 33K «5% = INOW Ic 
R735 1-216-823-41  METALCHIP 15K 5% = HOW 
7326 1-260-320-11 CARBON 220 5% 12 i TDAST20QN2IST 
R7328 —1-249-425-11 CARBON 47K 5% 14 
7329 1-260087-11 CARBON 100 «5% = 1/2W AUMPER WIRE 
R7330 —1-260-328-11 CARBON 1K 5% 1/2 W72141-216-864-11 SHORT CHIP 
SPARK GAP co 
SG73011-519-422-11 GAP, SPARK 17201 —1-469-885-21 _INDUCTOR 10,H 
$G73021-517-72931 GAP, SPARK 17202 1-414-855-31 INDUCTOR thH 
$G73031-519-421-11 GAP, DISCHARGE 17203 1-414-855-31 INDUCTOR ‘iH 
cs CG TRANSISTOR 
* ‘A-1302-812-A CG BOARD, COMPLETE 7201 8729-42402 ~—-TRANSISTOR 2SB709A-QRS-TX 
4-382-854-11 SCREW (M3X10), P, SW (+) 7202 — 8-729-422-27-~—sTRANSISTOR 2SD601A-Q 
i 7-651-000-50  GREASE,SILICON (G-746) 2006 7203 -8-729-048-50 TRANSISTOR 28K3018-T106, 
CAPACITOR RESISTOR 
C7201 1-164-156-11 CERAMIC CHIP O.1pF 25V R7201 1-216-813-11 METAL CHIP 220 5% = 1/10W 
7202 1-101-003-00 CERAMIC 0.0047pF 50V R7202——1-218-693-11 METAL CHIP 1.1K 0.50% 1/10W 
C7203 1-104-570-11 CERAMIC O.001UF 10%  2KV R7203 1-218-696-11 METAL CHIP 1.5K 0.50% 1/10W 
C7204 1-107-662-11 ELECT 22QUF 20% = 350V R7204 = 1-260-132-11 CARBON 560K 5% = 1/2W 
C7205 1-162-920-11 CERAMIC CHIP 21pF = 5% = OV. R7205 ——*1-216-825-11 METAL CHIP 22K 5% = 1/10W 
C7206 = 1-101-003-00 CERAMIC 0.0047uF 50V R72061-219-743-11 — METAL 100 5% = 1/2 
7207 1-126-768-11 ELECT 2200HF 20%  16V R7207——1-218-690-11 METAL CHIP 820 0.50% 1/0W 
C7208 =—1-164-156-11 CERAMIC CHIP Our 25V 7208 —_1-260-133-11 CARBON 680K 5% = 1/2W 
7209 1-164-156-11 CERAMIC CHIP O.1pF 25V R7209—1-216-815-11 METAL CHIP 330 5% = 10W 
C7210 1-126-933-11 ELECT 100UF 20% + 16V R7210 1-218-700-11 METAL CHIP 22K 0.50% 1/10W 
C7211 1-164-156-11 CERAMIC CHIP OAUF 25V R721 1-218-708-11 METAL CHIP 47K 050% 10W 
C7212 1-161-830-00 CERAMIC 0.0047,F 500V R7212 ——1-218-742-11 METAL CHIP 120K 0.50% 1/10W 
C7214 1-162-966-1 CERAMIC CHIP 0.0022uF 10% 50V R7213—1-218-742-11 — METAL CHIP 120K 0.50% 10W 
C7217 1-164-096-11 CERAMIC 0.01uF 50V R7214—1-215-925-11 METAL OXIDE 22K 5% = OW 
R725 1-216-827-11  METALCHIP 33K 5% = 1OW 
CONNECTOR 
R7216 —1-216-823-11 — METALCHIP 15K 5% = INOW 
* — N7202 —1-564-509-11 PLUG, CONNECTOR 6P R729 1-260-32011 CARBON 20 «5% © 12W 
* GN7203 1-564510-1 PLUG, CONNEGTOR 7P 7220 1-218-710-11 METAL CHIP 56K — 0.50% 1/0W 
*GNT204 1-564-510-11 PLUG, CONNECTOR 7P R721 1-249-42511 CARBON 47K 5% 114 
CN7205 1-785-879-11 CONNECTOR, ONE TOUCH R722 1-260-087-11 CARBON 05% aw 
CN7206  1-695-915-1 TAB (CONTACT) 
R7223  1-260-328-11 CARBON 1K 5% 1/2 
CN7208 1-695-915-11 TAB (CONTACT) 
AX CN7209.1-251-182-11 SOCKET, CRT SPARK GAP 
DIODE $G7201 1-519-422-11 GAP. SPARK 
$G7202 1-517-729-31 GAP. SPARK 
Dragt 871940650 DIODE MAHL-TX $G7203 1519-42-11 GAP, DISCHARGE 
07202 © -8719-901-83 DIODE 18883 
07203 «= «8719-901-83 DIODE 18883 


=—/§6— 


KP-46WT510 


V 
































REFNO. _PARTNO. DESCRIPTION VALUES REFNO. _PARTNO. DESCRIPTION VALUES 
09007 8729-12028 TRANSISTOR 280 1623-L5L6 
V 09008 —-8-729-045-04 TRANSISTOR. 2805511 
09009 -8-729-045-05 TRANSISTOR 2A2005 
* ‘A-1405-146-A_V BOARD, MOUNTED 
4-382-854-11 SCREW (M3X10), P, SW (+) RESISTOR 
: 7-651-000-50  GREASE,SILICON (G-746) 2006 
R902 1-216-805-11 METAL CHIP 47 5% — 1/10W 
CAPACITOR 9004 1-216-820-11 — METALCHIP 820 5% «= 1OW 
a 9005 1-216-829-11 —- METALCHIP 47K 5% = 10W 
(9002 1-104-999-11 MYLAR O1NF = 5% © 2000 R9006 = 1-216-829-11 METAL CHIP 47K = 5% = 1/10W 
9003 1-125-891-11 CERAMIC CHIP O47uF 10% 10V R9007 1-216-809-11 METAL CHIP 100 5%  — 110W 
C9006 1-126-935-11 ELECT 470uF 20% + 16V 
C9007 1-126-933-11 ELECT N00uF 20% + 16V P9008 = 1-216-803-11 METAL CHIP 33 5% INOW 
C9008 = 1-126-935-11 — ELECT 470uF 20% © 16V 9009 1-216-809-11 METAL CHIP 100 5% INOW 
R9010 © 1-216-813-11 — METAL CHIP 220 5% = 1OW 
C9009 1-126-933-11 ELECT 100UF 20% += 16V R9011 4-216-864-11 SHORT CHIP 
C9010 = 1-107-667-11 ELECT 2.2uF 20% — 400V R012 1-216-823-11 METAL CHIP 15K 5% = 1/10W 
C9011 = 1-107-364-11 MYLAR O.01UF 10%  200V 
C9012 1-107-364-11 MYLAR O.01uF 10% | 200V P9013 1-216-805-11 METAL CHIP 47 5% INOW 
C9013 1-162-964-11 CERAMIC CHIP 0.001uF 10% 50V R9014 4-216-805-11 METAL CHIP 47 5% OW 
RO015 —1-216-833-11 - METAL CHIP 10K = 5% += INOW 
C9014 1-162-964-11 CERAMIC CHIP O.001uF 10% 50V R9016. 1-249-414-11 CARBON 560 5% 1/4W 
C9015 1-126-935-11 ELECT 410uF = 20% = 16V RO017 —1-249-435-11 CARBON 33K 5% = 1/4W 
C9017 1-104-999-11 MYLAR OANF 5% = 200V 
C9018 = 1-107-638-11 ELECT SouF 20% = 160V P9018 1-249-435-11 CARBON 33K 5% 1/4 
C9019 1-126-935-11 ELECT 470UF 20% © 16V P9019 1-249-414-11 CARBON 560 5% 114 
9020 1-216-799-11 METAL CHIP 15 5% 1/10W 
CONNECTOR 9021 = 1-216-799-11 METAL CHIP 15 5% — 1/0W 
*CNgoo1 1-564508-11 PLUG, CONNECTOR 6p Pe SEER SEN Bo eg SH 
CN9002 1-770-723-11 CONNECTOR, BOARD TO BOARD 8P Aa. Adel « SehRGON Doe, Case ei 
TiODE 9024 1-249-405-11 CARBON 100 5% = 14W 
ees 9025 © 1-249-385-11  CARBON 22 5% 1/4 
D901 «8-719-988-61 -DIODE 188355TE-17 9027 1-249-385-11 CARBON 22 5% 1/4 
9002 8-719-988-61 DIODE 188355TE-17 9028 (1-249-405-11 CARBON 100 5% = 114W 
9003 «8-719-988-61 DIODE 18S355TE-17 
09004 ~—-8-719-988-61 DIODE 1SS355TE-17 R9029 1-215-913-11 METAL OXIDE 220 5%  3W 
9005 «8-719-510-02 DIODE DINS4 9030 © 1-249-377-11 CARBON 047 5% 14 
9031 1-249-385-11 CARBON 22 5% 1/4 
9006 = -8-719-110-56 DIODE RD22ESBI 9082 (1-249-385-11 CARBON 22 5% 1/4 
09007 «8-719-110-56 DIODE RD22ESBI 9033 «1-249-436-11 CARBON 39K 5% 14 
COIL 9034 (1-249-436-11 CARBON 39K 5% 14 
L901 1-412-525-31 INDUCTOR 10H 
TRANSISTOR 
09002 -8-729-120-28 TRANSISTOR 280 1623-L5L6 
09003 8729-12028 TRANSISTOR 2801623-L5L6 
09004 8-729-026-49 TRANSISTOR 2SA1037AK-T146-R 
09005 8729-12028 TRANSISTOR. 280 1623-L5L6 
09006 —-8-729-026-49 TRANSISTOR. 2SA1037AK-T146-R 





=—87—= 


KP-46WT510 





























NOTE: The components identified by shading NOTE: Les composants identifies per un trame et une G 
and Z\ mark are critical for safety. Replace only marque Z\ sont critiques pour la securite. Ne les 
with part number specified. remplacer que par une piece portant le numero specifie. 
REFNO. PART NO. DESCRIPTION VALUES REFNO. PART NO. DESCRIPTION VALUES 
C5053 1-126967-11 ELECT AF 20% 50V 
G C5054 = 1-126955-11 ELECT AT00)F 20% 35 
C5085 1-126990-11 ELECT 100yF 20% 16V 
nN A1902-389-AG BOARD, COMPLETE C6001 1-126967-11 ELECT AIF 20% 80V 
' 4.374-846-01 COVER, CAPACITOR, CAP TYPE coon 1-104-666-11 ELECT 220UF 20% 25V 
4.982-854-11 SCREW (MBX10),P, SW (4) 
: 7-851-000-50 _GREASE.SILICON (6-748) 2006 600 = 1-126967-11 ELECT AIF 20% 50V 
coos 1-117-22641 MYLAR 22uF 10% 450V 
CAPACITOR AX cavi2 1-11989451 CERAMIC 22000F 20% 250V 
AX Ca0i3 —1-119-894-51 CERAMIC 22000F 20% 250V 
C5001 1-164-645-11CERAMIC 10009 10% 500V | A ania ioe7OBt MYLAR ie aes ea 
5002 1-164-645-11 CERAMIC 10009F 10%  500V 
C5006: Oe EGS ELECT OOF 20% 25V c60's © 1-461-96491 CERAMIC 0.0047uF 250V 
C5007 1-164-645-11CERAMIC 10009F 10%  500V faviges Seagiauasis’  CERALEE sire atl 
COUN THREAT SCERAMEC YOO0pF 10% 500V C6017 -1-162-96411 CERAMICCHIP »=—=«.O0TuF 10% | 50V 
C6018 1-162974-11 CERAMICCHP = (OOtUF 50 
5009 1126950-11 ELECT 2200)F 20% 35 feig Aoki. “LECT joie: ce atl 
C5010 1126950-11 ELECT 2200)F 20% 35 
Cott 1-164-645-11 CERAMIC 10009F 10%  500V east Sige. Caner ee cas a 
C5012 1-164-645-11 CERAMIC 0009F 10%  500V bl RRL? EST hee ove Tat 
CSG? a oATOTSEA) | ELST AMOUR’ <2. 16V: 6022 © 1-161-964-91 CERAMIC O00emur = 250V 
C6023 1-161-964-91 CERAMIC aoos7uF 250 
C5016 = 1-126-942-61 —ELECT 1000uF 20% 25V Cogs diac AL DOR Se 00 
C5017 1126-94261 ELECT 1000uF 20% 25V 
C5018 1126952-11 ELECT 1000uF 20% 38V diate LL adie Se. ca 
C5019 1126952-11 ELECT 1000uF 20% 38V fais ibe? CHER? ie So 
CORO ORD - GELECT SOME 20 TENN 6031 1-197-750-1 ELECT 1500,F 20%  250V 
Ree eee sacs Shae ey couse 1137-750-11 ELECT 150QuF 20% 250 
b e coos 1-125-968-91 CERAMIC 680pF 10% KV 
022 1-126947-11 ELECT AIF 20% 35V 
CSet MCSE, SELES Sy be 2M, e042 1-125-969.91 CERAMIC €80pF 10% 1KV 
CNB i ce TREE BE) ae. ee Oe AX C6043 1-104-706-11 MYLAR O.20uF 20%  250V 
Cp AE TSN SELES ANE 20 BBN. C6046} 1-126.968-11 ELECT 100F 20% 50V 
C6047 1-165-954-11 FILM S6000pF 3% — S00V 
5027 1126951-11 ELECT ATOF 20% 35V 
5028 1126951-11 ELECT 4T0IF 20% 35 couniccion 
029 1-107-638-11 —ELECT AIF 20% 160V ae 
C5080 1-126947-11 ELECT AIF 20% 35V *CNS001 —1-564-508-11 PLUG, CONNECTOR 5p 
C5031 1-126-768-11 ELECT 2200)F 20% 16V * CNS0021-564-507-11 PLUG, CONNECTOR ap 
* (N50. 1-564-510-11 PLUG, CONNECTOR 7P 
5088 1-126947-11 ELECT AIF 20% 35V * N50 1-766-177-11 PIN, CONNECTOR (PC BOARD) 9 
5039 1126947-11 ELECT AIF 20% 35V CNS005 —1-695-915-11 TAB (CONTACT) 
504) = 1-107-826-11 CERAMICCHIP. OIF 10% 16V 
C508 1126-767-11 ELECT 1000uF 20%  16V CNS008  1-695-915-11 TAB (CONTACT) 
5042 1126960-11 ELECT ATUF 20% 50V CNS007 —1-695-915-11 TAB (CONTACT) 
AN CN600S —1-580-843-11 PIN, CONNECTOR (POWER) 
C5043 1-126995-11 ELECT AT0IF 20% 16V 
C5047 1-162-970-11 CERAMICCHIP «OU 10% 25 DIODE 
5049 1-162-970-11 CERAMICCHIP = OOIUF 10% 25 
Cane SLbeeeiai:, sEECK oar ery ps0ot 871908967 DIODE UDZSTE-17208 
C5051 1-126-961-11 —ELECT 2OuF 20% 50V Donne 71806088 DIODE DESESEF 
ps003 «871906089 DIODE DASBSE-F 
D504 871908045. DIODE SIDFANFCS 





KP-46WT510 

















NOTE: The components identified by shading NOTE: Les composants identifies per un trame et une G 
and Z\ mark are critical for safety. Replace only marque Z\ sont critiques pour la securite. Ne les 
with part number specified. remplacer que par une piece portant le numero specifie. 
REFNO. PART NO. DESCRIPTION VALUES REFNO. PART NO. DESCRIPTION VALUES 
05005 8-719-08945 ‘DIODE SIDFAN-FCS FERRITE BEAD 
5006 8-719-052-37 DIODE F10P04Q 
5007 8-719-986-61 —_DIODE 1SS355TE-17 EBSD Se te ose aT ws REDRITE O45qH 
peoe” 28710 eNaS DIODE DD FB5002 1-410-39641 FERRITE 45H 
sgt: LETS’ DDE Pee FB50031-410-39641 FERRITE .45ulH 
FB5004 —-1-410-396-41 FERRITE 0.45uH 
5010 8-719-200-31 DIODE 210005 FB5005 —-1-410-396-41 FERRITE 0.45H 
5011 8-719-988-61 DIODE 1SS355TE-17 
D512 8.719-056-93 DIODE UDZ-TE17-188 FRDOIG: “Talosoe-#1) FERRITE 45H 
5013 8-719-069-56 DIODE UDZSTE-176.28 EBGDO peal. REBATE ed 
5014 8-719-986-61 —_DIODE 1$S355TE-17 EGOS” lel ae.» SHORT CUP 
FB6005 —1-216-295-91 SHORT CHIP 
DS015 —8-719-988-61 DIODE 1SS355TE-17 FERN SACI ZIT -<SHOHT CO 
D5016 8-719-083-44 DIODE FSQ05A04 
05017 8719-07325 DIODE SiVBAZ0 TERE IEA “oa ce 
D518 8719-05684 DIODE UDZ-TE-17-7.58 Rees J PANO ear FENN ‘AnH 
5019 8-719-986-61 DIODE 18S355TE-17 FSO THerel A FRAT ‘HH 
FB6015 —-1-410-397-21 FERRITE 14H 
5020 8-719-988-61 DIODE 1SS355TE-17 Pepe (aiosarel.  “FEBRITE ‘AH 
5021 8-719-988-61 DIODE 1SS355TE-17 
5022 8-719-988-61 DIODE 1SS355TE-17 FUSE HOLDER 
05023 8719-98861 DIODE 1SS355TE17 A\ FHOO1 —1-533-223-11 FUSE HOLDER 0A ov 
D5024 8719-98861 DIODE 1SS355STE17 AX FHe002 — 1-533-223-11 FUSE HOLDER 0A ov 
5025 8-719-988-61 DIODE 1SS355TE-17 eg 
5026 8-719-988-61 DIODE 1SS355TE-17 
05027 —-8-719-060-54 DIODE UDZSTE-175.18 AX Ics01 8-74901213 IC DM-58 
D5031 —-8-719-988-61 DIODE 18S355TE-17 Ic5002 8759-03-93 IC UPC393C 
05033. «—«8-719-988-61 DIODE 18S355TE-17 105003 8759-70184 IC NUM7S05FA 
15004 8-759-640-19 Ic PQ1CG2032FZ 
5034 «8719-08360 DIODE UDZSTE-174.7B AN 1C5005 8-759-19831 IC UPC1093J-1-T 
6001 8-719-988-61 DIODE 1SS355TE-17 
De002 8-719-948-45 DIODE ERA22-08 15006 8-759-471-81 Ic PQOSRD11 
6003 «8719-07063 DIODE PDZ10B-115 "C6003 875967030 IC MCz3001D 
6004 8-719-988-61 DIODE 1SS355TE-17 
CHIP CONDUCTOR 
6005 8-719-988-61 DIODE 1SS355TE-17 JR5002 —1-216-864-11 SHORT CHIP 
6006 8719-06370 DIODE DINLZOU ARsMCa. 1 iRaaESI ~~ SHORT CHIP 
6007 8-719-022-99 DIODE D6SBE0L 
6009 8-719-083-60 DIODE UDZSTE-174.7B COIL 
6011 8-719-988-61 DIODE 1SS355TE-17 a 
5001 1-412-523-41 INDUCTOR 6.8uH 
D6012 6-500-158-01 DIODE 10ERA60-TA2B5, 5002 1-412-523-41 INDUCTOR 6.8uH 
6019 8-719-083-60 DIODE UDZSTE-174.7B 5003 1-412-529-11 INDUCTOR 22H 
6023 8-719-068-00 DIODE ERC04-06SE 5004 1-412-531-31 INDUCTOR 33yH_ 
6024 8-719-068-00 DIODE ERC04-06SE 5005 1-412-527-11 INDUCTOR 15H 
06030 8-719-063-70 DIODE D1NL20U 
5006 1-412-533-21 INDUCTOR 47H 
FUSE 5007 1-412-533-21 INDUCTOR 47H 
A\ Fe001 —1-576-193-11 —_-FUSE 63A 125V He eae Neh 2H 
5009 1-412-529-11 INDUCTOR 22uH 





—89— 


KP-46WT510 




















NOTE: The components identified by shading NOTE: Les composants identifies per un trame et une. 
and Z\ mark are critical for safety. Replace only marque Z\ sont critiques pour la securite. Ne les 
with part number specified. remplacer que par une piece portant le numero specifie. 
REF.NO. PART NO. DESCRIPTION VALUES REFNO. PART NO. DESCRIPTION VALUES 
15010 1-412-521-31 INDUCTOR 47H R5019 1-216-857-11 METAL CHIP 1M 5% ow 
L501 1-412-521-31 INDUCTOR 47H R5020 1-216-821-11 METAL CHIP 1K 5% = 110W 
5012 1-406-663-21 INDUCTOR 47H R5021 1-216-821-11 METAL CHIP 1K 5% ow 
15013 1-412-525-31 INDUCTOR 10uH AX R522 1-218-708-11 METAL CHIP 47K 0.50% 1/10W 
5014 1-406-663-21 INDUCTOR 47UH AX R5023 1-218-750-11 METAL CHIP 270K 0.50% 1/10W 
5015 1-424-862-11 INDUCTOR 33yH R5024 1-218-682-11 METAL CHIP 390 0.50% 1/10W 
5016 1-406-663-21 INDUCTOR 47H R5025 1-218-697-11 METAL CHIP 1.6K 0.50% 1/10W 
5017 1-412-537-31 INDUCTOR 100pH R5026 1-216-833-11 METAL CHIP 10K 5% ow 
AN e001 1-497-479-11 TRANSFORMER, LINE FILTER 5027 == 1-216821-11—-METALCHIP 1K «5% 1OW 
AN (6002 1-497-479-11 TRANSFORMER, LINE FILTER 5028 1-216821-11 —-METALCHIP 1K 5% 10W 
L6003 1-424-862-11 INDUCTOR 33yH 
R5029 1-216-837-11 METAL CHIP 22K 5% ow 
PHOTO COUPLER 5030 1-216897-11 —-METALCHIP 2K 5% HOW 
R5032 1-249-415-11 CARBON 680 5% = 1/4W 
AN PH6001 8-749-924.35 —-PHOTOCOUPLER —_ONSI7I-A Regal? Stes?) CMEALCIE Wie ashe AIOW 
AN PH6002 8-749-924.35  PHOTOCOUPLER —_ON3I7I-A pease: <THE ETA CH ho. Bee SHOW 
ICLINK A5098 = 1-216819-11 —-METALCHIP 680 5% HOW 
AX PS5001 4-539-59731 ICLINK 5A OV R5037 —1-216-821-11 METAL CHIP 1K 5% = 1/0W 
-533-597-. R5038 1-216-821-11 METAL CHIP 1K 5% = 110W 
AX P5002 —_1-533-597-31 IC LINK 5A 90V 
R5039 1-216-864-11 SHORT CHIP 
TRANSISTOR R504) 1-216833-11 —- METAL CHIP 10K = «5% = HOW 
5001 8-729-050-50 TRANSISTOR 28D1782K-T146-R R5041 1-215-866-11 METAL OXIDE 330 5% iW 
5002 8-729-120-28 TRANSISTOR 28C1623-L5L6 R5042 1-216-833-11 METAL CHIP 10K 5% OW 
5003 8-729-026-49 TRANSISTOR 2SA1037AK-T146-R R5043 1-216-821-11 METAL CHIP 1K 5% 110W 
5004 8-729-120-28 TRANSISTOR 28C1623-L5L6 R5044. 1-216-821-11 METAL CHIP 1K 5% 0W 
5005 8-729-027-23 TRANSISTOR DTA114EKA-1146 R5045, 1-216-832-11 METAL CHIP 8.2K 5% 110W 
5006 8-729-901-87 TRANSISTOR 28C2411K-CQ R5047 1-216-833-11 METAL CHIP 10K 5% 10W 
5007 8-729-026-49 TRANSISTOR 2SA1037AK-T146-R 5048. 1-216-833-11 METAL CHIP 10K 5% OW 
26005 §:729-052-32 TRANSISTOR IRFIB7NGOALF31 Reo. t-240-251-11 CEMENTED 685% OW 
6008 | 8:729-052-32 _TRANSISTOR IRFIB7NGOALF31 R603 1-260:308-11 CARBON Kk 5% TOW 
R6004 1-216-829-11 METAL CHIP 47K 5% ow 
RESISTOR 
P5005 1-218-867-11 METAL CHIP 68K 0.50% 1H0W EOD, FEU ASO Lf METAL OXIDE: Sa one 
R5006 4-216-833-11 METAL CHIP 10K 5% OW R6007 1-216-823-11 METAL CHIP 1.5K 5% = 110W 
R5007 4-249-377-11 CARBON 047 5% 1/4. R6008 1-216-845-11 METAL CHIP 100K 5% ow 
R010 1-247-903-0 CARBON iy vay | AN ROOTS 1-29-7641 CARBON 22M 10% 1/2WN 
R501 4-216-818-11 METAL CHIP 560 5% — 10W R6036 1-218-715-11 METAL CHIP 9.1K 0.50% 1/10W 
P5012 1-216-361-00 METAL OXIDE 02 | 5% W REISE eS ABEOD" | “METAL so ke NM 
R513 1-216-833-11 METAL CHIP 1K 5% tow PES Leis: "MEAL Ske, te ae 
R514 1-216-829-11 — METAL CHIP 47K 5% HOW BOOS)», RIESE Ny * “METAL CHIE Shiny Se eI 
ROIS —1-218-706-11—-METALCHIP 47K 050% 1/0W ~ TAS ABT 00 ane vile ST ak 
RSOI6 —1-216-893-11  METAL CHIP 10K 5% = 1HOW OORT 216-8081 TO) 2 SO noes ANG 
5017 4-216-829-11 METAL CHIP 47K 5%  1/0W R6042 1-218-719-11 METAL CHIP 13K 0.50% Ha 
5018 4-216-821-11 METAL CHIP 1K 5% OW R6045 1-218-675-11 METAL CHIP 200 0.50% 1/10W 
R6046 1-216-813-11 METAL CHIP 220 5% ow 
R6047 1-216-813-11 METAL CHIP 220 5% ow 





—90— 


KP-46WT510 











NOTE: The components identified by shading NOTE: Les composants identifies per un trame et une. 
and Z\ mark are critical for safety. Replace only marque Z\ sont critiques pour la securite. Ne les 
with part number specified. remplacer que par une piece portant le numero specifie. 
REF.NO. PART NO. DESCRIPTION VALUES REFNO. PART NO. DESCRIPTION VALUES 
R6050 —1-249-417-11 CARBON 1K 5% 1/4 C7013 1-162-970-11 CERAMIC CHIP O.01NF 10% 25V 
R6054 —1-249-993-11 -CARBON 10 5% 1/4 C7014 1-162-970-11 CERAMIC CHIP O.01NF 10% 25V 
R6056 —1-260-131-11 CARBON 470K 5% 1/2W C7015 1-162-970-11 CERAMIC CHIP O.01NF 10% 25V 
R6057 —1-260-131-11 CARBON 470K 5% 1/2W C7016 1-162-970-11 CERAMIC CHIP O.01NF 10% —25V 
R605B —1-249-393-11 -CARBON 10 5% 1/4 C7017 1-164-156-11 CERAMIC CHIP O.ApF av 
R6062 —1-216-833-11 METAL CHIP 10K 5% HOW C7018 1-162-923-11 CERAMIC CHIP 41pF = 5% = 5OV 
R6063 —1-216-833-11 METAL CHIP 10K 5% HOW C7019 1-162-923-11 CERAMIC CHIP 41pF = 5% = 5OV 
R6064 —1-202-933-61 -FUSIBLE of 10% 1/2 C7020 © 1-162-923-11 CERAMIC CHIP 41pF = «5% = 5OV 
R6076 —1-243-979-71 METAL OXIDE of 5% OW Croat —1-124-779-00 ELECT CHIP 10uF = 20% + 16V 
R6080 —1-243-979-71 METAL OXIDE O15 OW C7022 1-115-416-41 —CERAMIC CHIP O.001pF 5% © 25V 
R6081 —1-249-993-11 --CARBON 10 5% 1/4 C7023 1-162-927-11 CERAMIC CHIP 100pF 5% © 50V 
C7024 = 1-124-779-00 ELECT CHIP 10nF 20% + 16V 
RELAY C7025 1-164-156-11 CERAMIC CHIP OF Vv 
A C7026 = 1-124-779-00 ELECT CHIP 10uF 20% + 16V 
BES ATE AR ORC LONER) C7027 = 1-164-15641 -CERAMICCHIP =F 25V 
AX RY6003 —_1-755-395-11 RELAY (AC POWER) 
C7028 1-164-156-11 CERAMIC CHIP O.AF av 
TRANSPORMEY C7029 «1-164-15641  CERAMICCHIP =A 25V 
A\ T6001 —_1-497-436-11 CONVERTER TRANSFORMER (PIT) C7030 1-162-927-11 CERAMIC CHIP 100pF 5% = SOV 
T6004 1-495-675-11 TRANSFORMER, STANDBY C7031 1-162-927-11 CERAMIC CHIP 100pF 5% = 5OV 
C7032 1-162-927-11 CERAMIC CHIP 100pF 5% = 50V 
THERMISTOR 
7033 1-124-779-00 ELECT CHIP 10nF 20% + 16V 
TH6002 — 1-804-475-21 — POSISTOR C7034. ‘1-164-156-11 CERAMIC CHIP O.AyF 25V 
C7035 1-164-156-11. CERAMIC CHIP OAR av 
VARISTOR C7036 =—1-164-156-11 CERAMIC CHIP OAUF 2V 
vps001 1-801-073:31 —_VARISTOR ERZVt4D471 OD EGE Cece ih ay 
C7038 1-164-156-11 CERAMIC CHIP O.ApF av 
C7039 1-126-395-11 ELECT CHIP 22uF 20% 16V 





Due to the complexity of this board, performing component level field C7040 1162821-11 CERAMIC CHIP 33pF 5% SV 





repairs is not recommended. If service is required, complete board C7041 1-164-156-11 CERAMIC CHIP O.1pF 2V 
replacement is the preferred repair method. C7042 1-164-156-11 CERAMIC CHIP tyr Vv 
Data is provided for reference only. 
C7043. (1-164-156-11 CERAMIC CHIP OLE 25V 
‘ ‘A-1300-324-A UD BOARD, COMPLETE C7044 1-164-156-11 CERAMIC CHIP O.1pF 25V 
C7045 1-164-156-11 CERAMIC CHIP OALF 25V 
CAPACITOR C7048 1-164-156-11 CERAMIC CHIP OAUF 25V 
C7047 1-164-156-11 CERAMIC CHIP OLE 25V 
C7001 1-126-395-11 ELECT CHIP. 2QUF 20% = 16V 
C7002 1-162-917-11 CERAMIC CHIP 15pF 5% = 50V 
C7048. 1-164-156-11 CERAMIC CHIP OALF 25V 
ca ems cowucoe ine wm 2) | caw ten woe te 
7006 ‘12477900 ELECT CHIP SE 20% 16V GIO TIGEIBE Ut CERAMIC CH ae ay 
ee mM _. C7051 =—1-164-156-11 CERAMIC CHIP O.1UF 25V 
C7052 1-164-156-11 CERAMIC CHIP OALF 25V 
C7007 1-162-917-11 CERAMIC CHIP 15pF 5% = 50V , 
7008 1-162-970-11 CERAMIC CHIP O.0INF 10% 25V 
C7053. (1-164-156-11 CERAMIC CHIP OALF 25V 
cue ew cowcoe tne 2 |e finan Reon 
— | ee FECT GHP ae ne ia C7057 —-1-162-921-11 CERAMIC CHIP 33pF = 5% = 5OV 
ean up a ° C7058 =—1-164-156-11 CERAMIC CHIP OAUF 25V 


—91— 


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REF.NO. PART NO. DESCRIPTION VALUES REFNO. PART NO. DESCRIPTION VALUES 
C7059 1-164-156-11 CERAMIC CHIP O.ApF 25V 17006 8-759-641-86 Ic BR24C16F-E2 
C7060 1-164-156-11 CERAMIC CHIP O.ApF 25V 17007 6-702-170-01 Ic PACDNO06S 
C7061 1-164-156-11 CERAMIC CHIP O.pF 25V 17008 6-702-170-01 Ic PACDNO06S 
C7062 1-164-156-11 CERAMIC CHIP OApF 25V 17009 6-702-170-01 Ic PACDNO06S 
C7064 1-126-395-11 ELECT CHIP 2QuF 20% © 16V 
COIL 
C7065 1-162-970-11 CERAMIC CHIP O.01UF 10% © 25V 
C7068. © -1-162-970-11 —-CERAMICCHIP. «=I 10% | 25V La ERED | INDUCTOR OH 
C7067 —*1-162-970-11 «CERAMIC CHIP. «=Ss(.OILF 10% | 25V Loe. TROSE IT | “INDUCTOR 1H 
C7068 1-162-970-11 CERAMIC CHIP O.01UF 10% © 25V 
C7069 «1-162-970-11 —-CERAMICCHIP.«=—=s(.OILF 10% © 25V RESISTOR 
R7003 1-216-821-11 METAL CHIP 1K 5% = 10W 
C7070 (1-164-156-11 CERAMIC CHIP O.1pF 25V R7004 —1-218-852-11 METAL CHIP 1.6K 0.50% 10W 
C7071 1-164-156-11 CERAMIC CHIP O.1pF 25V R707 1-216-821-11 —- METAL CHIP 1K 5% — 1/0W 
C7078 (1-164-156-11 CERAMIC CHIP O.1pF 25V R7012 —1-216-821-11 — METAL CHIP 1K 5% — 1/0W 
C7079—_1-164-156-11 CERAMIC CHIP O.1pF 25V R7013—1-216-821-11 METAL CHIP 1K 5% — 1/0W 
C7080 1-164-156-11 CERAMIC CHIP OApF 25V 
R7014 1-216-821-11 METAL CHIP 1K 5% = 10W 
CONNECTOR 7015 1-216-833-11 - METAL CHIP 10K 5% = 10W 
CN7001 1-816-228-21 CONNECTOR, DVI R7016 1-216-833-11 METAL CHIP 10K 5% = 10W 
CN7002 1-564-526-11 PLUG, CONNECTOR 11P R7020 1-216-833-11 METAL CHIP 10K 5% = 10W 
CN7004 1-564-519-11 PLUG, CONNECTOR 4P R7021 1-216-833-11 METAL CHIP 10K 5% = 10W 
DIODE R7023 1-216-833-11 METAL CHIP 10K 5% = 10W 
ai R7024 1-216-833-11 METAL CHIP 10K 5% = 10W 
07001 8-719-914-43 DIODE DAN202K R7025 1-216-833-11 METAL CHIP 10K 5% = 10W 
07002 8-719-069-55 DIODE UDZSTE-175.6B R7026 1-216-833-11 METAL CHIP 10K 5% = 10W 
07003 8-719-069-55 DIODE UDZSTE-175.6B R7029 1-218-692-11 METAL CHIP 1K 0.50% 1/10W 
07004 8-719-069-55 DIODE UDZSTE-175.6B 
07006 8-719-069-55 DIODE UDZSTE-175.6B R7030 1-216-864-11 SHORT CHIP 
R7032 1-218-676-11 METAL CHIP 220 0.50% 1/10W 
FERRITE BEAD R7034 1-218-676-11 METAL CHIP 220 0.50% 1/10W 
R7036 1-218-704-11 METAL CHIP 3.3K 0.50% 1/10W 
FE POON Sealer), = FERRITE ou R737 1-218-676-11 METAL CHIP 220 0.50% 1/10W 
FB7002 —1-414-760-21 FERRITE OuH 
FETOOS LA VATOO Dy FERRITE ou RTO 1-216893-11 METAL CHIP 1K 5% tow 
RETO « Sisifvenel,*, ERIE Ou R73 1-216-829-11 METAL CHIP 47K 5% HOW 
R7044 1-216-829-11 METAL CHIP 47K 5% = 10W 
FILTER RTS 1-216-893-11 METAL CHIP 1K 5% = 1/OW 
FL7001 —1-400-087-21 FILTER, EMI REMOVAL (SMD) R7047—1-216-833-11— METAL CHIP 10K 5% = NOW 
FL7002 _1-284-560-21 FILTER, LOW PASS. 
FL7003.—1-234-559-21 FILTER, LOW PASS. R7051—1-216-864-11 — SHORT CHIP 
FL7004 1-234-889-21 _FILTER, LOW PASS. 7053 1-216-833-11  METALCHIP 10K 5% = 1/10W 
R7054 1-216-833-11 METAL CHIP 10K 5% = 10W 
Ic R7056 1-216-833-11 METAL CHIP 10K 5% = 10W 
= R7057 1-216-864-11 SHORT CHIP 
17001 8-759-640-39 Ic BR24C02F-WE2 
17002 8-749-015-18 IC PQOTVZ012zP R7058—1-216-833-11 - METAL CHIP 10K 5% = 1MOW 
17003 8-749-015-18 IC PQO7VZ012ZP 7059 1-216-864-11. - SHORT CHIP 
'C7004 6-702-080-01 IC GM7030-H R7060 —1-216-833-11 — METAL CHIP 10K 5% = 1MOW 
107005 6-802-346-01 IC $172631K4N1/NNLTR R761 1-216-833-11 METAL CHIP 10K 5% = 1MOW 
R7062 1-216-864-11 SHORT CHIP 





—92— 


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REF.NO. PART NO. DESCRIPTION VALUES REF.NO. PART NO. DESCRIPTION VALUES 
R7065 = 1-216-833-1  METALCHIP 10K 5% = 1MOW 63 1-164-156-11 CERAMIC CHIP OWE 25 
R7066 —1-218-694-11 METAL CHIP 12K 0.50% 1/0W C4 1-164-156-11 CERAMIC CHIP OWE 25V 
R767 1-216-833-11 METAL CHIP 10K = 5% = 1MOW C5 1-164-156-11 CERAMIC CHIP OME 25 
R7068 = 1-216-801-11  METALCHIP 2 5% INOW C6 1-164-156-11 CERAMIC CHIP OWE 25V 
R7069 = 1-216-801-11  METALCHIP 2 5% INOW C7 1-126-933-11 ELECT 100pF 20% + 16V 
R7O71 —1-216-803-11 METAL CHIP 3 5% INOW C8 1-164-156-11 CERAMIC CHIP OME 25V 
R7072 —1-216-803-11  METALCHIP 38 5% INOW ca 1-115-416-11 CERAMIC CHIP O.00IUF 5% © 25V 
R7075 —1-218-676-11 METAL CHIP 220 0.50% 1M0W C10 1-162-974-11 CERAMIC CHIP O.01F 50V 
R7080 © 1-218-704-11 —- METAL CHIP 33K 0.50% 1M0W cit 1-126-933-11 ELECT 100pF 20% + 16V 
R708? 1-218-680-11 METAL CHIP 330 0.50% 1M0W C12 1-126-933-11 ELECT 100pF 20% + 16V 
R7096 —1-216-833-11 METAL CHIP 10K = 5% = 1M0W C13 1-164-739-11 CERAMIC CHIP 560pF 5% © 50V 
R7097 —1-216-809-11 METAL CHIP 100 5% = INOW ci4 1-165-176-11 CERAMIC CHIP O.047UF 10%  16V 
R7098 = 1-216-809-11 METAL CHIP 100 5% = INOW C15 1-164-392-11 CERAMIC CHIP 390pF 5% = 50 
R7099—1-216-809-11 METAL CHIP 100 5% = INOW C16 1-162-927-11 CERAMIC CHIP 100pF 5% © 50V 
R701 1-216-864-11 SHORT CHIP ci7 1-115-414-11 CERAMIC CHIP 8200F 5% = OV 
R106 1-216-833-11 METAL CHIP 10K = 5% = 1OW C18 1-162-919-11 CERAMIC CHIP 20F 5% = 5OV 
R708 —1-216-805-11 METAL CHIP 47 5% INOW cig 1-162-919-11 CERAMIC CHIP 20F 5% = 5OV 
R7109 —1-216-805-11 METAL CHIP 47 5% INOW c20 1-164-156-11 CERAMIC CHIP OME 25V 
R7iit —1-216-864-11 SHORT CHIP cat 1-164-156-11 CERAMIC CHIP OWE 25 
R712 1-216-864-11 SHORT CHIP 22 1-164-156-11 CERAMIC CHIP OWE 25V 
R713 1-216-864-11 SHORT CHIP 23 1-162-974-11 CERAMIC CHIP O.01F 50V 
R714 1-218-700-11. METAL CHIP 22K — 0.50% 1M0W C24 1-126-947-11 ELECT 4UF 20% © 35 
R715 1-218-700-11. METAL CHIP 22K 0.50% 1M0W 025 1-126-947-11 ELECT 41UF 20% © 35 
R7i16 —1-218-700-11. METAL CHIP 22K 0.50% 1M0W 26 1-164-156-11 CERAMIC CHIP OWE 25V 
R7iI7 —1-218-668-11 METAL CHIP 100 0.50% 1/0W c27 1-126-947-11 ELECT 41UF 20% © 35V 
R79 1-218-668-11 METAL CHIP 100 0.50% 1/0W C28 1-162-974-11 CERAMIC CHIP O.01UF 50V 
R721 1-216-864-11 SHORT CHIP c29 1-164-156-11 CERAMIC CHIP OWE 25 
R723. 1-218-704-11 METAL CHIP 33K 0.50% 1M0W 30 1-164-156-11 CERAMIC CHIP OLE 25 
R7i24 —1-218-680-11 METAL CHIP 330 0.50% 1M0W C31 1-164-156-11 CERAMIC CHIP OLE 25V 
R725 1-218-700-11. —- METAL CHIP 22K — 0.50% 1M0W 32 1-126-964-11 ELECT 10uF = 20% © 50V 
R726 1-216-864-11 SHORT CHIP C34 1-162-974-11 CERAMIC CHIP O.01UF 50V 
C35 1-126-947-11 ELECT 41NF 20% © 35 
CRYSTAL C36 1-164-156-11 CERAMIC CHIP OME 25V 
c37 1-162-974-11 CERAMIC CHIP O.01F 50V 
X7001 1-795-568-21 VIBRATOR, CRYSTAL 38 1196-9911 ELECT Se 20% 18 

X7002_1-795-567-21. VIBRATOR, CRYSTAL 

39 1-164-156-11 CERAMIC CHIP OLE 25 
C40 1-162-974-11 CERAMIC CHIP O.01UF 50V 
; cat 1-164-156-11 CERAMIC CHIP OLE 25 
AASM2 TTA -8 BOARD; COMPLETE C42 1-126:994-11 ELECT 220KF 20% 16V 
cABARTOR C43 1-164-156-11 CERAMIC CHIP OALF 25 
C1 1-126-933-11 ELECT 100uF 20% += 16V C44 1-126-947-11 ELECT 4IyF 20% = 35V 
C2 1-104-665-11 ELECT 100UF 20% © 25V C45, 1-162-979-11 CERAMIC CHIP 0.0027F 10% 50V 
C46 1-162-974-11 CERAMIC CHIP O.01UF 50V 
ca7 1-162-979-11 CERAMIC CHIP 0.0027uF 10%  50V 


—93 — 





KP-46WT510 


Al 





REF.NO. PART NO. DESCRIPTION VALUES REF.NO. PART NO. DESCRIPTION VALUES 

Cag 1-164-156-11 CERAMIC CHIP O.1yF 25 C102 1-107-826-11 CERAMIC CHIP O.1,F 10%  16V 
C51 1-126-947-11 ELECT 47yF 20% © 35V C103 1-126-964-11 ELECT 10uF 20% 50V 
C52 1-162-974-11 CERAMIC CHIP 0.01pF 50V C104 1-164-156-11 CERAMIC CHIP O.1pF 25 
C53 1-164-156-11 CERAMIC CHIP O.1UF 25V C105 1-164-156-11 CERAMIC CHIP O.1UF 25V 
C54 1-162-979-11 CERAMIC CHIP 0.0027yF 10% 50V C106 1-126-933-11 ELECT 100UF 20% += 16V 
C55 1-162-979-11 CERAMIC CHIP 0.0027uF 10% 50V C107 1-107-826-11 CERAMIC CHIP O.1UF 10%  16V 
C56 1-164-156-11 CERAMIC CHIP O.1UF 25V C108 1-162-917-11 CERAMIC CHIP 15pF 5%  50V 
C57 1-164-156-11 CERAMIC CHIP O.1pF 25 C109 1-162-917-11 CERAMIC CHIP 15pF 5%  50V 
C59 1-164-156-11 CERAMIC CHIP O.1UF 25 Cito 1-164-156-11 CERAMIC CHIP O.1UF 25 
C60 1-164-156-11 CERAMIC CHIP O.1yF 25 Cit 1-164-156-11 CERAMIC CHIP O.1uF 25V 
C61 1-164-156-11 CERAMIC CHIP O.1uF 25 C2 1-164-156-11 CERAMIC CHIP O.1yF 25V 
C62 1-126-947-11 ELECT 47UF 20% © 35V C13 1-164-156-11 CERAMIC CHIP O.1UF 25 
C63 1-126-935-11 ELECT 470F = 20% = 16V CHS 1-162-917-11 CERAMIC CHIP 15pF 5%  50V 
C65 1-164-156-11 CERAMIC CHIP O.1UF 25V Cité 1-162-917-11 CERAMIC CHIP 15pF 5% 50V 
C66 1-164-156-11 CERAMIC CHIP O.1uF 25 Cit9 1-126-933-11 ELECT 100UF 20% += 16V 
C67 1-164-156-11 CERAMIC CHIP O.1UF 25 C120 1-126-933-11 ELECT 100UF 20% += 16V 
C68 1-164-156-11 CERAMIC CHIP O.1UF 25V C123 1-162-966-11 CERAMIC CHIP 0.0022uF 10% 50V 
C69 1-164-156-11 CERAMIC CHIP O.1,F 25 C124 1-164-346-11 CERAMIC CHIP IF 16V 
c70 1-164-156-11 CERAMIC CHIP O.1UF 25V C125 1-164-156-11 CERAMIC CHIP O.1uF 25 
C73 1-164-156-11 CERAMIC CHIP O.1uF 25 C128 1-162-960-11 CERAMIC CHIP 220pF = 10% + 50V 
C74 1-126-964-11 ELECT 10uF 20% 50V C129 1-165-176-11 CERAMIC CHIP 0.047uF 10%  16V 
C75 1-164-156-11 CERAMIC CHIP O.1yF 25V C130 1-162-970-11 CERAMIC CHIP O.01NF 10% © 25V 
C76 1-162-966-11 CERAMIC CHIP 0.0022uF 10% 50V C131 1-126-961-11 ELECT 22uF 20% = 50V 
ci? 1-164-156-11 CERAMIC CHIP O.1UF 25V C132 1-126-935-11 ELECT 470UF 20% = 16V 
C78 1-104-665-11 ELECT 100UF 20% = 25V C133 1-126-964-11 ELECT 10uF 20% 50V 
c79 1-126-933-11 ELECT 100UF 20% += 16V C134 1-164-156-11 CERAMIC CHIP O.1UF 25V 
C80 1-126-967-11 ELECT 47uF 20% 50V C135 1-126-964-11 ELECT 10uF 20% 50V 
C81 1-104-665-11 ELECT 100UF 20% =. 25V C136 1-164-156-11 CERAMIC CHIP O.1UF 25 
82 1-164-156-11 CERAMIC CHIP O.1UF 25V C137 1-126-964-11 ELECT 10uF 20% 50V 
C83 1-164-156-11 CERAMIC CHIP O.1uF 25 C138 1-126-964-11 ELECT 10uF 20% 50V 
C84 1-126-933-11 ELECT 100UF 20% +=: 16V C139 1-126-964-11 ELECT 10uF 20% 50V 
C86 1-162-970-11 CERAMIC CHIP O.01NF 10% © 25V C140 1-126-933-11 ELECT 100UF =. 20%» 16V 
87 1-126-960-11 ELECT 1pF 20% 50V C141 1-126-933-11 ELECT 100UF = 20%» 16V 
C88 1-126-933-11 ELECT 100UF = 20% += 16V C142 1-164-156-11 CERAMIC CHIP O.1UF 25V 
C90 1-126-964-11 ELECT 10uF 20% 50V C143, 1-164-156-11 CERAMIC CHIP O.1uF 25V 
C92 1-164-156-11 CERAMIC CHIP O.1UF 25V C144 1-126-964-11 ELECT 10uF 20% 50V 
C93 1-126-964-11 ELECT 10uF 20% 50V C145 1-162-970-11 CERAMIC CHIP O.01NF 10% 25V 
Cod 1-164-346-11 CERAMIC CHIP 1yF 16V C148 1-104-665-11 ELECT 100UF 20% =. 25V 
C95 1-162-970-11 CERAMIC CHIP O.01NF 10% © 25V C149 1-126-933-11 ELECT 100UF 20% = 16V 
C96 1-164-156-11 CERAMIC CHIP O.1,F 25V C150 1-164-156-11 CERAMIC CHIP O.1UF 25 
C97 1-164-315-11 CERAMIC CHIP 470pF 5% = SOV C151 1-164-156-11 CERAMIC CHIP O.1UF 25 
C98 1-126-960-11 ELECT IF 20% 50V C301 1-162-970-11 CERAMIC CHIP O.01NF 10% © 25V 
C99 1-165-176-11 CERAMIC CHIP 0.047uF 10%  16V C302 1-125-837-91 CERAMIC CHIP IF 10% 6.3V 
C101 1-162-960-11 CERAMIC CHIP 220pF = 10% += 50V C303 1-107-826-11 CERAMIC CHIP O.1UF 10%  16V 





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REF.NO. PART NO. DESCRIPTION VALUES REF.NO. PART NO. DESCRIPTION VALUES 

C304 1-164-315-11 CERAMIC CHIP 470pF «5% = SOV C349 1-125-891-11 CERAMIC CHIP O47UF 10% 10V 
C305 1-162-917-11 CERAMIC CHIP 15pF 5%  50V C350 1-126-935-11 ELECT 470UF 20% = 16V 
C306 1-107-826-11 CERAMIC CHIP O.1UF 10%  16V C351 1-164-156-11 CERAMIC CHIP O.1UF 25V 
C307 1-164-156-11 CERAMIC CHIP O.1UF 25 0352 1-125-891-11 CERAMIC CHIP O.47UF 10% 10V 
C308 1-125-891-11 CERAMIC CHIP O.47UF 10% 10V C353 1-107-826-11 CERAMIC CHIP O.1UF 10%  16V 
C309 1-126-933-11 ELECT 100UF 20% += 16V C354 1-126-963-11 ELECT 47UF 20% = 50V 
C310 1-126-964-11 ELECT 10uF 20% 50V C355 1-107-826-11 CERAMIC CHIP O.1UF 10%  16V 
311 1-126-933-11 ELECT 100UF =. 20% += 16V C356 1-107-826-11 CERAMIC CHIP O.1UF 10%  16V 
C312 1-164-156-11 CERAMIC CHIP O.1UF 25V C357 1-162-970-11 CERAMIC CHIP O.01NF 10% 25V 
0313 1-164-156-11 CERAMIC CHIP O.1yF 25V C358 1-162-917-11 CERAMIC CHIP 15pF 5%  50V 
0314 1-107-826-11 CERAMIC CHIP O.1,F 10%  16V C359 1-125-891-11 CERAMIC CHIP O47UF 10% 10V 
C315 1-107-826-11 CERAMIC CHIP O.1,F 10%  16V C360 1-162-917-11 CERAMIC CHIP 15pF 5%  50V 
C316 1-162-964-11 CERAMIC CHIP 0.001uF 10% 50V C361 1-125-891-11 CERAMIC CHIP O.47UF 10% 10V 
C317 1-107-826-11 CERAMIC CHIP O.1uF 10%  16V C362 1-164-156-11 CERAMIC CHIP O.1UF 25 
C318 1-164-156-11 CERAMIC CHIP O.1uF 25 C363 1-126-933-11 ELECT 100UF 20% += 16V 
C319 1-125-891-11 CERAMIC CHIP O.47UF 10% 10V C364 1-126-933-11 ELECT 100UF 20% += 16V 
C320 1-126-963-11 ELECT 47UF 20% © 50V C365 1-126-933-11 ELECT 100UF =. 20% += 16V 
0321 1-164-156-11 CERAMIC CHIP O.1UF 25 C366 1-125-891-11 CERAMIC CHIP O47UF 10% 10V 
0322 1-126-933-11 ELECT 100UF 20% += 16V C367 1-125-837-91 CERAMIC CHIP 1yF 10% 6.3V 
C323 1-164-156-11 CERAMIC CHIP O.1UF 25 C368 1-107-826-11 CERAMIC CHIP O.1uF 10%  16V 
0325 1-107-826-11 CERAMIC CHIP O.1UF 10%  16V C369 1-126-933-11 ELECT 100UF 20% += 16V 
C326 1-164-315-11 CERAMIC CHIP 470pF = 5% = 50V 0370 1-126-933-11 ELECT 100UF 20% = 16V 
C327 1-162-917-11 CERAMIC CHIP 15pF 5% —50V C371 1-126-933-11 ELECT 100UF 20% = 16V 
C328 1-107-826-11 CERAMIC CHIP O.1UF 10%  16V 0372 1-126-933-11 ELECT 100UF =. 20% = 16V 
C329 1-125-891-11 CERAMIC CHIP O.47UF 10% 10V 0373 1-164-156-11 CERAMIC CHIP O.1yF 25 
C330 1-162-970-11 CERAMIC CHIP O.01NF 10% 25V 0374 1-126-933-11 ELECT 100UF = 20% += 16V 
C331 1-164-156-11 CERAMIC CHIP O.1UF 25V 0375 1-164-156-11 CERAMIC CHIP O.1uF 25V 
C332 1-126-964-11 ELECT 10uF 20% 50V C376 1-125-891-11 CERAMIC CHIP O.47UF 10% 10V 
C333 1-125-891-11 CERAMIC CHIP O47UF 10% 10V 0377 1-164-156-11 CERAMIC CHIP O.1UF 25 
C334 1-125-891-11 CERAMIC CHIP O.47uF 10% 10V 0378 1-164-156-11 CERAMIC CHIP O.1uF 25 
C335 1-126-933-11 ELECT 100UF 20% = 16V 0379 1-164-156-11 CERAMIC CHIP O.1yF 25 
C336 1-125-891-11 CERAMIC CHIP O47UF 10% 10V C380 1-162-964-11 CERAMIC CHIP 0.001uF 10% 50V 
0337 1-107-826-11 CERAMIC CHIP O.1uF 10%  16V C381 1-107-826-11 CERAMIC CHIP O.1yF 10%  16V 
C338 1-126-963-11 ELECT 47UF 20% — 50V C382 1-125-891-11 CERAMIC CHIP O.47UF 10% 10V 
C339 1-107-826-11 CERAMIC CHIP O.1UF 10%  16V C383 1-125-891-11 CERAMIC CHIP O.47UF 10% 10V 
C340 1-107-826-11 CERAMIC CHIP O.1UF 10%  16V C384 1-164-156-11 CERAMIC CHIP O.1UF 25 
C341 1-162-968-11 CERAMIC CHIP 0.0047UF 10% 50V C385 1-162-968-11 CERAMIC CHIP 0.0047UF 10% 50V 
0342 1-162-970-11 CERAMIC CHIP O.01NF 10% 25V C386 1-164-156-11 CERAMIC CHIP O.1yF 25 
0343 1-126-963-11 ELECT 47UF 20% = 50V C387 1-126-964-11 ELECT 10uF 20% 50V 
0344 1-107-826-11 CERAMIC CHIP O.1uF 10%  16V C388 1-125-891-11 CERAMIC CHIP O47UF 10% 10V 
C345 1-107-826-11 CERAMIC CHIP O.1uF 10% 16V C389 1-125-891-11 CERAMIC CHIP O47UF 10% 10V 
C346 1-125-891-11 CERAMIC CHIP O47UF 10% —10V C390 1-126-964-11 ELECT 10uF 20% 50V 
0347 1-164-156-11 CERAMIC CHIP O.1UF 25 C391 1-164-156-11 CERAMIC CHIP O.1yF 25V 
C348 1-164-156-11 CERAMIC CHIP O.1UF 25 C392 1-125-891-11 CERAMIC CHIP O.47UF 10% 10V 





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REF.NO. PART NO. DESCRIPTION VALUES REF.NO. PART NO. DESCRIPTION VALUES 

C393 1-125-891-11 CERAMIC CHIP O.47UF 10% 10V C468 1-125-891-11 CERAMIC CHIP O47UF 10% 10V 
C394 1-126-933-11 ELECT 100UF 20% += 16V C470 1-162-970-11 CERAMIC CHIP O.01NF 10% © 25V 
C395 1-125-891-11 CERAMIC CHIP O.47UF 10% 10V C472 1-125-891-11 CERAMIC CHIP O47UF 10% 10V 
C396 1-125-891-11 CERAMIC CHIP O47UF 10% 10V C476 1-164-156-11 CERAMIC CHIP O.1UF 25V 
C397 1-125-891-11 CERAMIC CHIP O.47UF 10% 10V ca77 1-127-760-11 CERAMIC CHIP 47uF 10% 6.3V 
C398 1-164-156-11 CERAMIC CHIP O.1uF 25 C478 1-216-864-11 SHORT CHIP 

C399 1-162-917-11 CERAMIC CHIP 15pF 5% = 50V C479 1-162-923-11 CERAMIC CHIP 4TpF 5%  50V 
C400 1-126-933-11 ELECT 100UF 20% += 16V 480 1-107-826-11 CERAMIC CHIP O.1pF 10%  16V 
Ca01 1-162-917-11 CERAMIC CHIP 15pF 5%  50V C481 1-107-826-11 CERAMIC CHIP O.1UF 10%  16V 
C402 1-164-156-11 CERAMIC CHIP O.1UF 25V C482 1-107-826-11 CERAMIC CHIP O.1uF 10%  16V 
C404 1-164-156-11 CERAMIC CHIP O.1pF 25 C483 1-162-968-11 CERAMIC CHIP 0.0047UF 10% 50V 
C405 1-164-156-11 CERAMIC CHIP O.1UF 25V C484 1-164-156-11 CERAMIC CHIP O.1uF 25V 
C406 1-127-760-11 CERAMIC CHIP 47uF 10% 6.3V C485 1-125-891-11 CERAMIC CHIP O.47UF 10% 10V 
C407 1-127-760-11 CERAMIC CHIP 47UF 10% 6.3V C486 1-115-467-11 CERAMIC CHIP 0.22F 10% 10V 
C408 1-127-760-11 CERAMIC CHIP 47uF 10% 6.3V C487 1-107-826-11 CERAMIC CHIP O.1UF 10%  16V 
C410 1-126-934-11 ELECT 220uF = 20% = 16V C488 1-126-933-11 ELECT 100UF 20% += 16V 
CA13, 1-164-156-11 CERAMIC CHIP O.1UF 25 C489 1-125-891-11 CERAMIC CHIP O.47UF 10% 10V 
C414 1-162-970-11 CERAMIC CHIP O.01NF 10% 25V C490 1-164-156-11 CERAMIC CHIP O.1yF 25 
CH15 1-125-837-91 CERAMIC CHIP IF 10% 6.3V C494 1-126-933-11 ELECT 100UF =. 20% = 16V 
C416 1-164-156-11 CERAMIC CHIP O.1UF 25 C495 1-164-156-11 CERAMIC CHIP O.1UF 25 
CH7 1-126-933-11 ELECT 100UF = 20% += 16V cag7 1-126-933-11 ELECT 100UF 20% += 16V 
C418 1-107-826-11 CERAMIC CHIP O.1pF 10%  16V C498 1-107-826-11 CERAMIC CHIP O.1UF 10%  16V 
C422 1-164-156-11 CERAMIC CHIP O.1UF 25V C500 1-164-816-11 CERAMIC CHIP 220pF 2.00% S50V 
C423 1-164-156-11 CERAMIC CHIP O.1UF 25 C501 1-162-974-11 CERAMIC CHIP 0.01pF 50V 
C426 1-164-156-11 CERAMIC CHIP O.1UF 25 C502 1-164-816-11 CERAMIC CHIP 220pF 2.00% 50V 
C427 1-125-891-11 CERAMIC CHIP O47UF 10% 10V C503 1-164-816-11 CERAMIC CHIP 220pF 2.00% 50V 
C431 1-107-826-11 CERAMIC CHIP O.1UF 10%  16V C504 1-115-416-11 CERAMIC CHIP 0.001UF 5%  25V 
C435 1-126-933-11 ELECT 100UF 20% += 16V C505 1-162-964-11 CERAMIC CHIP 0.001uF 10% 50V 
C438 1-126-933-11 ELECT 100UF 20% += 16V C506 1-164-816-11 CERAMIC CHIP 220pF 2.00% S50V 
C439 1-164-156-11 CERAMIC CHIP O.1uF 25V C507 1-162-966-11 CERAMIC CHIP 0.0022uF 10% 50V 
C440 1-164-156-11 CERAMIC CHIP O.1yF 25 C701 1-164-156-11 CERAMIC CHIP O.1UF 25V 
C442. 1-135-834-91 CERAMIC CHIP 2.2E+06pF 6.3V C702 1-126-964-11 ELECT 10uF 20% 50V 
C443, 1-126-933-11 ELECT 100UF = 20% += 16V C703 1-164-156-11 CERAMIC CHIP O.1yF 25V 
C4a4 1-110-563-11 CERAMIC CHIP 0.068uF 10%  16V C704 1-126-947-11 ELECT 47UF 20% © 35V 
cadg 1-125-837-91 CERAMIC CHIP 1pF 10% 6.3V C705 1-164-156-11 CERAMIC CHIP O.1UF 25V 
C455 1-130-495-00 MYLAR O.1uF 5% = 50V C706 1-164-156-11 CERAMIC CHIP O.1uF 25 
C457 1-107-826-11 CERAMIC CHIP O.1UF 10%  16V c707 1-164-156-11 CERAMIC CHIP O.1UF 25V 
C458 1-136-244-11 FILM O.1uF 2.00% 50V C708 1-104-665-11 ELECT 100UF 20% =. 25V 
C460 1-107-826-11 CERAMIC CHIP O.1UF 10%  16V C709 1-162-920-11 CERAMIC CHIP 27pF 5%  50V 
C461 1-107-826-11 CERAMIC CHIP O.1uF 10%  16V c710 1-162-919-11 CERAMIC CHIP 22pF 5%  50V 
C463 1-107-826-11 CERAMIC CHIP O.1UF 10% 16V C713 1-162-917-11 CERAMIC CHIP 15pF 5% 50V 
C464 1-107-826-11 CERAMIC CHIP O.1UF 10%  16V c7i4 1-162-917-11 CERAMIC CHIP 15pF 5% 50V 
C466 1-162-923-11 CERAMIC CHIP 47pF 5% © 50V C719 1-162-964-11 CERAMIC CHIP 0.001uF 10% 50V 
C467 1-107-826-11 CERAMIC CHIP O.1UF 10%  16V C722 1-107-826-11 CERAMIC CHIP O.1UF 10%  16V 





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REFNO. PART NO. DESCRIPTION VALUES REFNO. PART NO. DESCRIPTION VALUES 
C78 1-126983-11 ELECT 10QuF 20% tev C798 = «1-165-908-11 «CERAMICCHIP «= tu 10% 10V 
C73) —«1-162-915-11 —CERAMICCHIP.=—=—«10pF 0.509 S0V C799 —1-164-156-11 CERAMICCHIP, «OA 25 
C731 1-162-927-11 CERAMICCHIP»=—=«100F 5% 50V a0) —«1-162.970-11 CERAMICCHIP.»=—=LOIUF 10% 25 
C732 —«1-162-927-11 CERAMICCHIP«=—=—«100F 5% 50V Cai «1-107-826-11 CERAMICCHIP. «OA 10% t6V 
C783 T-415416-41 CERAMICCHIP «OUI 5% © 25V cece 1-126-935-11 ELECT STF 20% 16V 
C79 1126960-11 ELECT ATF 20% 50V caus 1-126.993-11 ELECT 10uF 20% t6V 
C74) 1-126-963-11—ELECT ATF 20% 50V ca04 =—«1-165-908-11 CERAMICCHIP, = tu 10% 10V 
C7 = 1-126.963-11 —ELECT ATF 20% 50V Ce05§=—«1-165-908-11 «CERAMICCHIP. = tu 10% 10V 
C744 1-126-935-11 —ELECT STF 20% 16V Ca08—«1-165-908-11 «CERAMICCHIP. «= tu 10% 10V 
C745 1-464-456-11  CERAMICCHIP, =O. 25 ceo? 1-126.993-11 —ELECT 10QuF 20% t6V 
74s 1-126-947-11 ELECT SF 20% 35V ces —1-165-908-11 CERAMICCHIP, «= tu 10% t0V 
C77 1-126.947-11 —ELECT SNF 20% 35V cen) 1-164-156-t1 CERAMICCHIP, «=O. 25 
C79 1-126-947-11—ELECT SF 20% 35V ceo 1-126.47-11 ELECT SF 20% 35V 
C7 = 1-126-043-11 —ELECT 2200, 20% © 25V Cet —1-107-826-11 CERAMICCHIP. «OA 10% t6V 
C752 1-126-043-11—ELECT 2200, 20% 25V 
CONNECTOR 
C755 1-126-047-11 ELECT AF 20% 35V : 
oa dialogs’ UNTAR bie "GNI -ETTB6Q211 CONNECTOR, BOARD TO BOARD 10? 
Ge. AWAAGAE. URLECT ene mee * GN2 —-TB€821 CONNECTOR, BOARD TO BOARD. 108 
casi S1eeteoe. cL hoe ow "CNS -ETTB6Q211 CONNECTOR, BOARD TO BOARD 10? 
C762 1-404-665-11 —ELECT 100KF 20% © 25V CME PSE SIDA PLUG, CONNECTOR ud 
CNS —-1-573-979-22 CONNECTOR, BOARD TOBOARD = t1P. 
C73. 1-136-153-00 FILM OOF 5% 50V . 
Cael” “Lida AR bie oe a "CNS -H79892211 CONNECTOR, ON RECEPTACLE) 64 
trek “aabeaetd. KL Nie oa wv CN? 1-864-508-11 PLUG, CONNECTOR 5p 
c7e7——1-136-287-11—FILM 0047F 5% tov | , CNB. 1-695-915-11. TAB (CONTACT) 
cle ~ syaapaee oo” wad bie Se aw CNa = 1-564-508-11 PLUG, CONNECTOR ep 
*  CNIO —1-564-5t1-11 PLUG, CONNECTOR ep 
cr 1-130-495-00MYLAR OF 5% 50V 
Cae ieee CERAME GPS. (OOD4R Its 20 CNtt —1-573-298-21 CONNECTOR, BOARD TOBOARD «20 
CH > -Ganeaas CFL oouine su ny |, ONI2 187328621 CONNECTOR, BOARD TO BOARD 20P 
Cag Sch tRon o> AL prea "GNIS 178892211 CONNECTOR, ONRECEPTAGLE) ——64P 
Gra imide AW var eae CNI4 —1-779-892-11 CONNECTOR, BOARDTOBOARD 10 
CNIS 1-695-915-11 _TAB (CONTACT) 
C78) 1-104865-11 ELECT 10QuF 20% 25V : 
c7ed = 1-197-367-11 —-MYLAR 0.0033,F 5%  50V Be SOUR 5 LNG: CONNECTOR F 
C78 1137-367-11 MYLAR 0.0083uF 5%  50V 4 es aoe SUE UL, 2G, COMELTOR = 
Gane, Cnet “LAL SOG ar * GNIB—HSB4508-11 PLUG, CONNECTOR 5p 
tae sf aetee ib “FI ONE ee BW CNIg —1564-508-11 PLUG, CONNECTOR 5p 
CNet 1-695-915-11 TAB (CONTACT) 
C78 1-137-965-11MYLAR OO01SUF 5%  50V 
C790 1-197-365-11 — MYLAR OLO01SUF 5%  50V soe. (Pees 7 UB CONE) 
Grate oSiaaeike ne) FIM te ae aN * GN 155480711 PLUG, CONNECTOR ap 
pe ae oe ime CaN * GNak —ASBK5{0-1T PLUG, CONNECTOR 7P 
C793 «—«1-128-994.91 CERAMICCHIP.«=—3Q)F 20% © 10V GN7O1  1-564507-11 PLUG, CONNECTOR a 
*CN7O2 —1-564-509-11 PLUG, CONNECTOR P 
C794 = 1-165-908-11 CERAMICCHIP «tu 10% t0V . 
C795 ~=—«*1-165-908-11 —«CERAMICCHIP—stUF 10% 10V 2 SENT STSRESIETIS « RLUG: CONNECTOR e 
C796 ©—-1-165-908-11  CERAMICCHIP «= thE =10% | 10V a fT roe UL” ELUG, CONNECTOR oP 
C797 ~—«*1-165-908-11 —«CERAMICCHIP.=—stUF = 10% 10V GATOS: ESPERO PLUG, CONNECTOR w 
* CN705 —1-564-507-11 PLUG, CONNECTOR ap 


KP-46WT510 


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REF.NO. PART NO. DESCRIPTION VALUES REFNO. PART NO. DESCRIPTION VALUES 
DIODE FILTER 

Di 8-71940450 DIODE MAttH-TX FL4 —*1-289-848-21—_FILTER, LOW PASS 

D5 «8719-08887 DIODE UDZS-TE17-338 FL5 ——«1-289-848-21—_-~FILTER, LOW PASS 

D7 —-8-719-069-55 DIODE UDZSTE-175.68 FL6 —*1-289-848-21 —_~FILTER, LOW PASS 

D307 —«8:719-978-33 ——DIODE DIZ-TTH-68B FL? —*1-289-848-21—_—~FILTER, LOW PASS 

0312 8-719-069-55 DIODE UDZSTE-175.6B 

Ic 

0317 8-719-404-50 DIODE MAtH1-TX 

ps8 «= 8719-404-50 DIODE MAttt-TX es eee a UEC 

ps9 = 8719-404-50 DIODE MAttt-TX 1 SETS * IC PQosRDAt 

psi «8 719-404-50 DIODE MAtHt-TX Has 2 SELENE: spgelee 

Tai “se riegeeo’? ./IODE Maiti (C4 8 759-569.92 IG NuM2370U09-TE2 
IC5 8-759-100-96 Ic UPC4558G2 

D702 8-719-404-50 DIODE MAt1-TX 

D703. —«8-719088-57 DIODE UDZSTE-173.68 neg eg; pee 

D704 =—8.719-082-05 DIODE MAMAt42WKTI Ire SETI SIC ie ate 

D705 «871908387 DIODE UDZS-TE17-338 ac Ee Oe vec 

D706 = 8719-08387 DIODE UDZS-TE17-398 Ka: abe OER, -alC plete 
Ict0 8-759-100-96 Ic UPC4558G2 

D708 8-719-404-50 DIODE MAt1-TX 

D709 «= 8.719-404-50 DIODE MAttt-TX IOUT TRONS 2G ve CinaGe 

D7i0 8719-08205 DIODE MHMAt42WKTI {Gir 28700-89801" oe BooanD zt 

D7 8719-08205 DIODE MAMAt42WKTI imme chcgselell DECREE 

D72 8719-08205 DIODE MAMAt42WKTI II” = SLO “Ne erro a 
1C301 8-752-102-21 Ic CXA2103AQ 

0713 8-719-082-05 DIODE M1MA142WKT1 

Ta” e7Iedbay~ ADIGDE Waitt 10302 8-752.916-40 IC CXP85B40A-0390 

O75 8 719-404-50 DIODE MAttt-TX Ian ereene el CMPIOBAO 

D716 8-719-404-50 DIODE MAMI1-1X 10304 8-752-916-40 Ic CXP85840A-039Q 

Gilee e7ienes . LODDE waitin C305 8-759-595.97 IC SN7ALV4053ANSR 
1306 8-752-103-44 Ic CXA2171Q 

0719 8-719-404-50 DIODE MAt1-TX 

aie BTS? <c DIODE FRCGL DD (C307 8-759-595.97 IC SNTALVAO5ANSR 

D721 8719-92067 DIODE ERCII-02 IO ETO C CMEISONO 

D723 «8.719085 DIODE UDZS-TE17-208 pelts Soe, AG ESTs IN 

D724 = «8719-08385. ‘DIODE UDZ8-TE17.208 IST 2g ON OT «He enna) 
1312 8-759-082-58 Ic TC7WO8FU 

0725 8-719-083-85 DIODE UDZS-TE17-22B 

D726 8-71908-85 DIODE UDZS-TE17-208 PD eee 5 7c ESIIeN 

ise? Garenesy ZDIODE ead 702 6-700449-01 IG M24C04-NINGT(A) 
1703 8-759-575-72 Ic M24C08-WMN6T 

FERRITE BEAD 10704 6-803-474-01 Ic M306V2ME-212FP 

\c707 8-759-100-96 Ic UPC4558G2 

FB2 1-414-445-11 FERRITE OH 

FB3 1-414-445-11 FERRITE OuH 1708 8-759-190-89 Ic TDA7265 

FB4 1-414-445-11 FERRITE OH (e711 6-704-236-01 Ic NUW1148 

FBS —«1-216:295-91 SHORT CHIP. 

FBG 1-414-445-11 FERRITE oye CHIP CONDUCTOR 
JR2—1-216-864-11 SHORT CHIP 





—98 — 


NOTE: The components identified by shading 
mark are critical for safety. Replace only 
with part number specified. 


and 


NOTE: Les composants identifies per un trame et une, 
marque Z\ sont critiques pour la securite. Ne les 
remplacer que par une piece portant le numero specifie. 


KP-46WT510 











—99 — 


REF.NO. PART NO. DESCRIPTION VALUES REFNO. PART NO. DESCRIPTION VALUES 
cou, TRANSISTOR 
u 1-412948<11 INDUCTOR 56H Qt ——-8729-424-02 TRANSISTOR 2SB709A-RS.TX 
B 1-469-555-21 INDUCTOR ‘0, 2 8 729-424-02 TRANSISTOR 2SB709A-ORS.TK 
13 1-469-555-21 INDUCTOR 10uH Q3 8-729-422-27 TRANSISTOR 2SD601A-Q 
uu 1-469-555-21 INDUCTOR ‘0H 4 8 729-424-02 TRANSISTOR 2SB709A-ORS.TX 
5 1-469-555-21 INDUCTOR 10uH 5 8-729-422-27 TRANSISTOR 2SD601A-Q 
Lé 1-469-555-21 INDUCTOR 10uH Q6 8-729-422-27 TRANSISTOR 2SD601A-Q 
u 1-414-856-11 INDUCTOR ‘0, Q7 ——-8.729-424-02 TRANSISTOR 2SB709A-ORS.TX 
LB 1-414-856-11 INDUCTOR ‘0, 08 «8 729-404-02 TRANSISTOR 2SB7094-ORS.TK 
Lg 1-414-856-11 INDUCTOR 10uH Qt 8-729-422-27 TRANSISTOR 28D601A-Q 
410 1-412-537-31 INDUCTOR 100pH Qi2 8-729-424-02 TRANSISTOR 2SB709A-QRS-TX 
Lit 1-414856-t1 INDUCTOR ‘0, Q13 —8729-404-02 TRANSISTOR 2SB709A-RS.TX 
12 1-414-856-11 INDUCTOR 10uH Qt4 8-729-422-27, TRANSISTOR 2SD601A-Q 
L138 1-414-856-11 INDUCTOR ‘0, Qi5 «8 729-404-02 TRANSISTOR 2SB709A-ORS.TX 
L301 —1-469-555-21 _INDUCTOR ‘0, Qi6 8 729-404-02 TRANSISTOR 2SB709A-ORS.TX 
1302 1-469-555-21 INDUCTOR 10uH Qi7 8-729-422-27 TRANSISTOR 2SD601A-Q 
1303 1-469-555-21 INDUCTOR 10uH Qi8 8-729-422-27 TRANSISTOR 2SD601A-Q 
L304 1-469-555-21 INDUCTOR 10uH Qig 8-729-422-27 TRANSISTOR 28D601A-Q 
1305 1-469-555-21 INDUCTOR 10uH Q20 8-729-422-27 TRANSISTOR 2SD601A-Q 
L306 1-414-193-41 INDUCTOR 220uH Q21 8-729-424-02 TRANSISTOR 2SB709A-QRS-TX 
L307 1-469-555-21 INDUCTOR 10uH Q22 8-729-422-27 TRANSISTOR 2SD601A-Q 
L308 1-414-856-11 INDUCTOR 10uH Q23 8-729-422-27 TRANSISTOR 2SD601A-Q 
L309 1-469-555-21 INDUCTOR 10uH Q24 8-729-422-27 TRANSISTOR 28D601A-Q 
L310 1-469-555-21 INDUCTOR 10uH Q25 8-729-422-27 TRANSISTOR 2SD601A-Q 
L311 1-469-555-21 INDUCTOR 10uH Q26 8-729-422-27 TRANSISTOR 28D601A-Q 
L312 1-469-555-21 INDUCTOR 10uH Q27 8-729-422-27 TRANSISTOR 2SD601A-Q 
L313, 1-414856-11 INDUCTOR ‘0, 28 8 729-424-02 TRANSISTOR 2SB709A-ORS.TX 
L315 1-469-555-21 INDUCTOR 10uH Q30 1-801-806-11 TRANSISTOR DTC144EKA 
L316 1-414-856-11 INDUCTOR 10uH Q301 8-729-422-27, TRANSISTOR 2SD601A-Q 
L317 1-414-856-11 INDUCTOR 10uH Q304 8-729-422-27 TRANSISTOR 2SD601A-Q 
L318 1-469-555-21 INDUCTOR 10uH Q306 8-729-422-27 TRANSISTOR 2SD601A-Q 
1321 1-414-856-11 INDUCTOR 10uH Q307 8-729-422-27 TRANSISTOR 2SD601A-Q 
L701 1-414-179-21 INDUCTOR 2.2uH 308 8-729-424-02 TRANSISTOR 2SB709A-QRS-TX 
L702 1-412-911-11 FERRITE OuH 309 8-729-422-27 TRANSISTOR 2SD601A-Q 
Q310 8-729-422-27 TRANSISTOR 2SD601A-Q 
Ie LINK Q3it 8729-42227 TRANSISTOR 2SD601A-0 
in el TREAD COLA S80! 312 8-720-424-02 —-TRANSISTOR 28B709A-QRS-TX 
in Be RD “BEL GEN Bat 0313 8-729-422-27 TRANSISTOR 2SD601A-0 
ik He: RTE [GUL OER uh 0314 —-8-729-422-27—TRANSISTOR 2SD601A-0 
ik it rascal Lei Ay at 0315 8-729-422-27—‘TRANSISTOR 2SD601A-0 
Se ea cho 0316 «8-729-422-27-—‘TRANSISTOR 2SD601A-0 
Q317 8-729-422-27 TRANSISTOR 2SD601A-Q 
Q318 8-729-422-27 TRANSISTOR 2SD601A-Q 


KP-46WT510 


Al 








REF.NO. PART NO. DESCRIPTION VALUES REFNO. PART NO. DESCRIPTION VALUES 

Q319 8-729-422-27 TRANSISTOR 2SD601A-Q Q367 8-729-122-63 TRANSISTOR 2SA1226-E4 

320 8-729-422-27 TRANSISTOR 28D601A-Q 368 8-729-422-27 TRANSISTOR 28D601A-0 

321 8729-422-27 TRANSISTOR 2SD601A-0 369 «1-801-806-11 —-TRANSISTOR DTCIA4EKA 

Q322 8-729-422-27 TRANSISTOR 28D601A-Q 373 8-729-422-27 TRANSISTOR 2SD601A-Q 

323 8-729-422-27 TRANSISTOR 28D601A-Q 374 8-729-422-27 TRANSISTOR 28D601A-0 

324 8-729-422-27 TRANSISTOR 2SD601A-Q Q378 8-729-422-27 TRANSISTOR 28D601A-0 

325 8 729-424-02 TRANSISTOR 2SB709A-ORS.TX 373 «8 729-424-02 TRANSISTOR 2SB709A-ORS.TX 
326 © 8729-424-02 TRANSISTOR 2SB709A-ORS.TX 380 8 729-422-27 TRANSISTOR 2SD601A-.0 

327 «8 729-424-02 TRANSISTOR 2SB709A-ORS.TX 381 8729-422-27 TRANSISTOR 2SD601A-.0 

328 8 729-424-02 TRANSISTOR 2SB709A-ORS.TX 501 8729-02649 TRANSISTOR 2SA1037AK-T146-R 
329 © 8729-424-02 TRANSISTOR 2SB709A-ORS.TX 502 1-801-806-t1 —-TRANSISTOR DTCIA4EKA 

330 8 729-424-02 TRANSISTOR 2SB709A-ORS.TX Q701 8 729-422-27 TRANSISTOR 2SD601.0 

331 8 729-424-02 TRANSISTOR 2SB709A-ORS.TX 702 8 729-424-02 TRANSISTOR 2SB709A-ORS-TX 
332 8 729-404-02 TRANSISTOR 2SB709A-ORS.TX 703 8 729-402-27 TRANSISTOR 2SD6014.0 

333 © 8729-424-02 TRANSISTOR 2SB709A-ORS.TX Q704 8 729-424-02 TRANSISTOR 2SB709A-ORS.TX 
334 8 729-424-02 TRANSISTOR 2SB709A-RS.TX 705 8 729-402-27 ‘TRANSISTOR 2601.0 

0335 8729-422-27 TRANSISTOR 2SD801A-0 708 8 729-424-02 TRANSISTOR 2SB709A-ORS.TX 
0336 8 729-422-27 TRANSISTOR 2SD801A.0 Q707 ——‘1-801-806-t1-—-TRANSISTOR DTCI44EKA 

Q337 8-729-422-27 TRANSISTOR 28D601A-Q Q708 8-729-422-27 TRANSISTOR 2SD601A-Q 

338 8-729-422-27 TRANSISTOR 28D601A-Q Q709 8-729-422-27 TRANSISTOR 28D601A-Q 

339 8-729-422-27 TRANSISTOR 28D601A-Q Q710 8-729-422-27 TRANSISTOR 28D601A-Q 

0340 8 729-422-27 TRANSISTOR 2SD6014-.0 Q7i2 8 729-424-02 TRANSISTOR 2SB709A-ORS.TX 
342 8729-422-27 TRANSISTOR 2SD601A-0 Q713 8 729-424-02 TRANSISTOR 2SB709A-ORS.TX 
343 8-729-122-63 TRANSISTOR 2SA1226-E4 Q7i4 8-729-027-38 TRANSISTOR DTA144EKA-T146 

344 8 729-424-02 TRANSISTOR 2SB709A-ORS.TX Q715 8 729-422-27 TRANSISTOR 2SD601A-0 

345 8 729-424-02 TRANSISTOR 2SB709A-ORS.TX Q7ié 8 729-402-27 ‘TRANSISTOR 2601.0 

346 8-729-422-27 TRANSISTOR 2SD601A-Q Qni7 8-729-422-27 TRANSISTOR 2SD601A-Q 

347 8-729-122-63 TRANSISTOR 2SA1226-E4 Q7i8 8-729-422-27 TRANSISTOR 28D601A-Q 

348 8 729-424-02 TRANSISTOR 2SB709A-ORS.TX Q719 8 729-424-02 TRANSISTOR 2SB709A-ORS.TX 
349 8729-422-27 TRANSISTOR 2SD601A.0 Q72i 8 729-424-02 TRANSISTOR 2SB709A-ORS.TX 
350 8-729-422-27 TRANSISTOR 28D601A-Q Q722 8-729-422-27 TRANSISTOR 28D601A-Q 

Q351 8-729-122-63 TRANSISTOR 2SA1226-E4 Q723 8-729-422-27 TRANSISTOR 28D601A-Q 

352 8729-422-27 TRANSISTOR 2SD6014.0 725 8 729-424-02 TRANSISTOR 2SB709A-ORS.TX 
353 8729-424-02 TRANSISTOR 2SB709A-ORS.TX 

354 8 729-424-02 TRANSISTOR 2SB709A-ORS.TX RESISTOR 

0355 —8-729-422-27 TRANSISTOR 28D601A-0 7 eiede 1)” SMETALOXIDE I= 8a oN 
0356 8-729-424-02 ‘TRANSISTOR 28B709A-QRS-TX Ra Jee B Ell) + METALCH a ane 10M 
0357 «8-729-424-02 ‘TRANSISTOR 28B709A-QRS-TX Re Heresies). | “METALCHP my 8% INOW 
0358 -8-729-424-02 —-TRANSISTOR 28B709A-QRS-TX ie Peleaielts |) METALCHIE 8% INOW 
0359 8-729-422-27 TRANSISTOR 28D601A-0 i PAGAL IL, F< METALCHE 8% INOW 
360 8-729-424-02 ‘TRANSISTOR 288709A-QRS-TX Re Pes ie A, “METALCHE 8% INOW 
0361 —-8-729-422-27 TRANSISTOR 28D601A-0 7 reeset: “METALCHE i 5% TOW 
0362 8-729-422-27—_‘TRANSISTOR 2D601A-0 Be {ele SIe IL 1 =METAL CHIE 8% INOW 
0363 8-729-422-07 TRANSISTOR 2S8D601A-0 RQ 1-216-813-11 METAL CHIP 220 5% = 10W 





— 100 — 


KP-46WT510 


Al 





REF.NO. PART NO. DESCRIPTION VALUES REF.NO. PART NO. DESCRIPTION VALUES 

Rio 1-216-829-11 METAL CHIP 47K 5% = 1/0W R70 1-216-845-11 METAL CHIP 100K 5% = 1/0W 
Rit 1-218-720-11 METAL CHIP 15K 0.50% 1/10W R71 1-216-813-11 METAL CHIP 220 5% = TOW 
Ri2 1-218-722-11 METAL CHIP 18K 0.50% 1/10W R72 1-216-821-11 METAL CHIP 1K 5% = 1/0W 
R13 1-218-740-11 METAL CHIP 100K 0.50% 1/10W R73 1-218-686-11 METAL CHIP 560 0.50% 1/10W 
Rid 1-216-845-11 METAL CHIP 100K 5% = 10W R74 1-218-684-11 METAL CHIP 470 0.50% 1/10W 
Ri6 1-218-702-11 METAL CHIP 27K 0.50% 1/10W R75 1-216-829-11 METAL CHIP 47K 5% = 1/0W 
Ri? 1-218-706-11 METAL CHIP 3.9K 0.50% 1/10W R76 1-216-818-11 METAL CHIP 560 5% = 1/0W 
R18 1-218-714-11 METAL CHIP 8.2K 0.50% 1/10W R77 1-216-821-11 METAL CHIP 1K 5% = 10W 
R19 1-216-816-11 METAL CHIP 390 5% = 10W R78 1-218-680-11 METAL CHIP 330 0.50% 1/10W 
R20 1-216-827-11 METAL CHIP 3.3K 5% = 1/0W R79 1-216-818-11 METAL CHIP 560 5% = 1/0W 
R21 1-216-839-11 METAL CHIP 33K 5% = 10W R80 1-218-684-11 METAL CHIP 470 0.50% 1/10W 
R22 1-216-813-11 METAL CHIP 220 5% = 1/0W R81 1-216-825-11 METAL CHIP 22K 5% = 1/0W 
R23 1-216-864-11 SHORT CHIP R82 1-216-821-11 METAL CHIP 1K 5% = 10W 
R27 1-218-707-11 METAL CHIP 43K 0.50% 1/10W R85 1-216-830-11 METAL CHIP 5.6K 5% = 1/0W 
R30 1-216-809-11 METAL CHIP 100 5% = 1/0W R87 1-216-833-11 METAL CHIP 10K 5% = 1/0W 
R31 1-216-809-11 METAL CHIP 100 5% = 1/0W R88 1-216-830-11 METAL CHIP 5.6K 5% = TOW 
R33 1-216-809-11 METAL CHIP 100 5% = 1/0W REQ 1-216-813-11 METAL CHIP 220 5% = 10W 
R37 1-216-853-11 METAL CHIP 470K 5% = 10W R90 1-216-864-11 SHORT CHIP 

R39 1-216-855-11 METAL CHIP 680K 5% = 1/0W R91 1-216-864-11 SHORT CHIP 

Rd2 1-216-855-11 METAL CHIP 680K 5% = 10W Ro2 1-216-830-11 METAL CHIP 5.6K 5% = 1/0W 
Rd3 1-216-853-11 METAL CHIP 470K 5% = 1/0W R93 1-216-830-11 METAL CHIP 5.6K 5% = 1/0W 
Rad 1-249-377-11 CARBON 0.47 5% = 1/4W ROS 1-216-818-11 METAL CHIP 560 5% = 10W 
R46 1-216-822-11 METAL CHIP 1.2K 5% = 1/0W RO6 1-216-818-11 METAL CHIP 560 5% = 1/0W 
R48 1-216-809-11 METAL CHIP 100 5% = 1/0W R99 1-216-825-11 METAL CHIP 22K 5% = 1/0W 
Rag 1-216-829-11 METAL CHIP 47K 5% = 1/0W R100 1-216-833-11 METAL CHIP 10K 5% = 10W 
R50 1-216-809-11 METAL CHIP 100 5% = 1/0W R102 1-216-821-11 METAL CHIP 1K 5% = 1/0W 
R51 1-216-833-11 METAL CHIP 10K 5% = 1/0W R103 1-216-825-11 METAL CHIP 22K 5% = 1/0W 
R52 1-216-833-11 METAL CHIP 10K 5% = 10W R104 1-216-821-11 METAL CHIP 1K 5% = 10W 
R53 1-216-817-11 METAL CHIP 470 5% = 1/0W R105 1-216-821-11 METAL CHIP 1K 5% = 1/0W 
RO4 1-216-817-11 METAL CHIP 470 5% = 10W R106 1-216-809-11 METAL CHIP 100 5% = 1/0W 
R55 1-216-822-11 METAL CHIP 1.2K 5% = 1/0W R107 1-216-833-11 METAL CHIP 10K 5% = 10W 
R56 1-216-805-11 METAL CHIP 47 5% = 1/0W R108 1-216-822-11 METAL CHIP 1.2K 5% = 10W 
R57 1-216-805-11 METAL CHIP 47 5% = TOW R109 1-216-816-11 METAL CHIP 390 5% = 10W 
R59 1-216-821-11 METAL CHIP 1K 5% = 1/0W R110 1-216-809-11 METAL CHIP 100 5% = 1/0W 
R60 1-216-833-11 METAL CHIP 10K 5% = 1/0W Ritt 1-216-809-11 METAL CHIP 100 5% = 10W 
R61 1-216-825-11 METAL CHIP 22K 5% = TOW Ri12 1-216-857-11 METAL CHIP 1M 5% = 1/0W 
R62 1-216-821-11 METAL CHIP 1K 5% = 10W R113 1-216-845-11 METAL CHIP 100K 5% = 1/0W 
R63 1-216-809-11 METAL CHIP 100 5% = 1/0W Rit4 1-216-809-11 METAL CHIP 100 5% = 10W 
R64 1-216-837-11 METAL CHIP 22K 5% = 1/10W R115 1-216-820-11 METAL CHIP 820 5% = 10W 
R65 1-216-833-11 METAL CHIP 10K 5% = 1/0W Ri16 1-216-825-11 METAL CHIP 2.2K 5% = 1/0W 
R66 1-216-849-11 METAL CHIP 220K 5% = 1/0W Rit7 1-216-821-11 METAL CHIP 1K 5% = 10W 
R67 1-216-841-11 METAL CHIP 47K 5% = 1/0W R118 1-216-820-11 METAL CHIP 820 5% = 10W 
R68 1-216-839-11 METAL CHIP 33K 5% = 10W Ri19 1-216-825-11 METAL CHIP 2.2K 5% = 1/0W 
R69 1-216-857-11 METAL CHIP 1M 5% = 1/0W R120 1-216-834-11 METAL CHIP 12K 5% = TOW 





KP-46WT510 


Al 





REF.NO. PART NO. DESCRIPTION VALUES REF.NO. PART NO. DESCRIPTION VALUES 

R121 1-216-839-11 METAL CHIP 33K 5% = 1/0W R319 1-216-864-11 SHORT CHIP 

R122 1-216-822-11 METAL CHIP 1.2K 5% = 1/0W R320 1-216-833-11 METAL CHIP 10K 5% = 10W 
R123 1-216-833-11 METAL CHIP 10K 5% = 10W R321 1-216-821-11 METAL CHIP 1K 5% = 10W 
R124 1-216-834-11 METAL CHIP 12K 5% = 1/0W R322 1-216-809-11 METAL CHIP 100 5% © 1/0W 
R125 1-216-839-11 METAL CHIP 33K 5% = 1/0W R323 1-216-809-11 METAL CHIP 100 5% = 10W 
R126 1-216-825-11 METAL CHIP 22K 5% = 10W R324 1-216-809-11 METAL CHIP 100 5% = 10W 
R127 1-216-839-11 METAL CHIP 33K 5% = 10W R325 1-216-835-11 METAL CHIP 15K 5% = 1/0W 
R128 1-216-821-11 METAL CHIP 1K 5% = 10W R326 1-216-864-11 SHORT CHIP 

R129 1-216-805-11 METAL CHIP 47 5% = 10W R327 1-216-817-11 METAL CHIP 470 5% 10W 
R130 1-216-821-11 METAL CHIP 1K 5% = 10W R329 1-216-829-11 METAL CHIP 47K 5% 10W 
R131 1-216-837-11 METAL CHIP 22K 5% = 10W R330 1-216-828-11 METAL CHIP 3.9K 5% = 10W 
R133 1-218-686-11 METAL CHIP 560 0.50% 1/10W R331 1-216-833-11 METAL CHIP 10K 5% == 10W 
R134 1-218-683-11 METAL CHIP 430 0.50% 1/10W R332 1-218-700-11 METAL CHIP 22K 0.50% 1/10W 
R135 1-216-809-11 METAL CHIP 100 5% = 1/0W R333 1-216-809-11 METAL CHIP 100 5% = 1/0W 
R136 1-216-821-11 METAL CHIP 1K 5% = 10W R334 1-216-809-11 METAL CHIP 100 5% = 10W 
R137 1-216-833-11 METAL CHIP 10K 5% = 1/0W R335 1-216-829-11 METAL CHIP 47K 5% = 1/0W 
R138 1-216-833-11 METAL CHIP 10K 5% = 10W R336 1-216-809-11 METAL CHIP 100 5% = 10W 
R139 1-216-841-11 METAL CHIP 47K 5% = 1/0W R337 1-216-823-11 METAL CHIP 1.5K 5% = TOW 
R140 1-216-833-11 METAL CHIP 10K 5% = 1/0W R338 1-216-823-11 METAL CHIP 1.5K 5% = 10W 
R141 1-216-809-11 METAL CHIP 100 5% = 1/0W R339 1-216-809-11 METAL CHIP 100 5% = 1/0W 
R142 1-216-843-11 METAL CHIP 68K 5% = 1/0W R340 1-216-828-11 METAL CHIP 3.9K 5% = 1/0W 
R143 1-216-829-11 METAL CHIP 47K 5% = 1/0W R341 1-218-706-11 METAL CHIP 3.9K 0.50% 1/10W 
R144 1-216-843-11 METAL CHIP 68K 5% = 10W R342 1-216-841-11 METAL CHIP 47K 5% = 10W 
R145 1-216-829-11 METAL CHIP 47K 5% = 1/0W R343, 1-216-809-11 METAL CHIP 100 5% = 10W 
R146 1-216-845-11 METAL CHIP 100K 5% = 1/0W R344 1-216-809-11 METAL CHIP 100 5% = 10W 
R147 1-216-833-11 METAL CHIP 10K 5% = 1/0W R345 1-218-696-11 METAL CHIP 1.5K 0.50% 1/10W 
R148 1-216-397-11 METAL OXIDE 47 5% = =3W R346 1-218-696-11 METAL CHIP 1.5K 0.50% 1/10W 
R151 1-216-833-11 METAL CHIP 10K 5% = 10W R347 1-216-817-11 METAL CHIP 470 5% = 10W 
R152 1-216-833-11 METAL CHIP 10K 5% = 1/0W R348 1-216-841-11 METAL CHIP 47K 5% = 10W 
R153 1-216-833-11 METAL CHIP 10K 5% = 1/0W R349 1-216-813-11 METAL CHIP 220 5% = 10W 
R154 1-216-830-11 METAL CHIP 5.6K 5% = 10W R350 1-216-809-11 METAL CHIP 100 5% = 1/0W 
R155 1-216-864-11 SHORT CHIP R351 1-216-813-11 METAL CHIP 220 5% = 10W 
R301 1-216-809-11 METAL CHIP 100 5% = 10W R352 1-216-813-11 METAL CHIP 220 5% = 1/0W 
R302 1-216-805-11 METAL CHIP 47 5% = 1/0W R353 1-216-809-11 METAL CHIP 100 5% = 1/0W 
R303 1-216-833-11 METAL CHIP 10K 5% = 1/0W R354 1-216-829-11 METAL CHIP 47K 5% = 10W 
R304 1-216-833-11 METAL CHIP 10K 5% = 10W R355 1-216-809-11 METAL CHIP 100 5% = TOW 
R305 1-216-835-11 METAL CHIP 15K 5% = 1/0W R356 1-216-841-11 METAL CHIP 47K 5% = 10W 
R308 1-216-821-11 METAL CHIP 1K 5% = 1/0W R357 1-216-837-11 METAL CHIP 22K 5% = 1/0W 
R309 1-216-813-11 METAL CHIP 220 5% = 1/0W R358 1-216-837-11 METAL CHIP 22K 5% = 1/0W 
R310 1-216-857-11 METAL CHIP 1M 5% = 1/0W R359 1-216-837-11 METAL CHIP 22K 5% = 1/0W 
R311 1-216-840-11 METAL CHIP 39K 5% = 1/0W R360 1-216-837-11 METAL CHIP 22K 5% = 1/0W 
R313 1-216-833-11 METAL CHIP 10K 5% = 1/0W R361 1-216-837-11 METAL CHIP 22K 5% = 10W 
R314 1-216-833-11 METAL CHIP 10K 5% = 10W R362 1-216-837-11 METAL CHIP 22K 5% = 10W 
R318 1-216-833-11 METAL CHIP 10K 5% = 1/0W R363 1-216-809-11 METAL CHIP 100 5% = 10W 





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REF.NO. PART NO. DESCRIPTION VALUES REF.NO. PART NO. DESCRIPTION VALUES 

R364 1-216-809-11 METAL CHIP 100 5% = 10W R408 1-216-821-11 METAL CHIP 1K 5% = 1/0W 
R365 1-216-809-11 METAL CHIP 100 5% = 1/0W R409 1-216-821-11 METAL CHIP 1K 5% = 1/0W 
R366 1-216-841-11 METAL CHIP 47K 5% = 1/0W RA10 1-218-673-11 METAL CHIP 160 0.50% 1/10W 
R367 1-216-821-11 METAL CHIP 1K 5% = 1/0W Ratt 1-218-673-11 METAL CHIP 160 0.50% 1/10W 
R368 1-216-821-11 METAL CHIP 1K 5% = 10W Ra12 1-216-813-11 METAL CHIP 220 5% = 10W 
R369 1-216-821-11 METAL CHIP 1K 5% = 10W RA13, 1-218-668-11 METAL CHIP 100 0.50% 1/10W 
R370 1-216-825-11 METAL CHIP 2.2K 5% = 1/0W Rat4 1-218-668-11 METAL CHIP 100 0.50% 1/10W 
R371 1-216-825-11 METAL CHIP 22K 5% = 1/0W RA15 1-218-668-11 METAL CHIP 100 0.50% 1/10W 
R372 1-216-825-11 METAL CHIP 22K 5% = 1/0W R16 1-216-857-11 METAL CHIP 1M 5% = 1/0W 
R373 1-216-809-11 METAL CHIP 100 5% = 10W RAI7 1-216-809-11 METAL CHIP 100 5% = 10W 
R374 1-216-815-11 METAL CHIP 330 5% = 10W RA18 1-216-809-11 METAL CHIP 100 5% = 10W 
R375 1-216-815-11 METAL CHIP 330 5% = 10W R19 1-218-702-11 METAL CHIP 27K 0.50% 1/10W 
R376 1-216-815-11 METAL CHIP 330 5% = 10W R420 1-218-698-11 METAL CHIP 1.8K 0.50% 1/10W 
R377 1-216-837-11 METAL CHIP 22K 5% = 1/0W Rd21 1-216-809-11 METAL CHIP 100 5% = 1/0W 
R378 1-216-837-11 METAL CHIP 22K 5% = 10W R422 1-216-809-11 METAL CHIP 100 5% = 1/0W 
R379 1-216-837-11 METAL CHIP 22K 5% = 1/0W R423 1-216-809-11 METAL CHIP 100 5% = 1/0W 
R380 1-216-837-11 METAL CHIP 22K 5% = 1/0W R424 1-218-674-11 METAL CHIP 180 0.50% 1/10W 
R381 1-216-837-11 METAL CHIP 22K 5% = 10W R425 1-218-674-11 METAL CHIP 180 0.50% 1/10W 
R382 1-216-837-11 METAL CHIP 22K 5% = 1/0W R426 1-218-674-11 METAL CHIP 180 0.50% 1/10W 
R383 1-216-809-11 METAL CHIP 100 5% = 10W Rd27 1-218-673-11 METAL CHIP 160 0.50% 1/10W 
R384 1-216-809-11 METAL CHIP 100 5% = 10W R428 1-216-864-11 SHORT CHIP 

R385 1-216-821-11 METAL CHIP 1K 5% = 1/0W R429 1-216-850-11 METAL CHIP 270K 5% = 10W 
R386 1-216-809-11 METAL CHIP 100 5% = 10W Rd31 1-216-809-11 METAL CHIP 100 5% = 10W 
R387 1-216-845-11 METAL CHIP 100K 5% = 1/0W R432 1-216-817-11 METAL CHIP 470 5% = 10W 
R388 1-216-837-11 METAL CHIP 22K 5% = 1/0W R433 1-216-817-11 METAL CHIP 470 5% = 10W 
R389 1-216-809-11 METAL CHIP 100 5% = 10W R434 1-216-809-11 METAL CHIP 100 5% = 1/0W 
R390 1-216-809-11 METAL CHIP 100 5% = 1/0W R435 1-216-817-11 METAL CHIP 470 5% = 1/0W 
R391 1-216-809-11 METAL CHIP 100 5% = 1/0W R436 1-216-809-11 METAL CHIP 100 5% = 10W 
R392 1-216-809-11 METAL CHIP 100 5% = 1/0W R437 1-216-809-11 METAL CHIP 100 5% = 10W 
R393 1-216-809-11 METAL CHIP 100 5% = 10W R438 1-216-809-11 METAL CHIP 100 5% = 1/0W 
R394 1-216-809-11 METAL CHIP 100 5% = 1/0W R439 1-216-817-11 METAL CHIP 470 5% = 10W 
R395 1-216-821-11 METAL CHIP 1K 5% = 1/0W R440 1-216-813-11 METAL CHIP 220 5% = 10W 
R396 1-216-821-11 METAL CHIP 1K 5% = 1/0W Raat 1-216-813-11 METAL CHIP 220 5% = 1/0W 
R397 1-216-821-11 METAL CHIP 1K 5% = 1/0W Rad 1-216-813-11 METAL CHIP 220 5% = 1/0W 
R398 1-216-845-11 METAL CHIP 100K 5% = 1/0W Rad3, 1-216-809-11 METAL CHIP 100 5% = 10W 
R399 1-216-833-11 METAL CHIP 10K 5% = 10W Radd 1-216-809-11 METAL CHIP 100 5% = 10W 
R400 1-216-845-11 METAL CHIP 100K 5% = 1/0W Rad5, 1-216-809-11 METAL CHIP 100 5% = 10W 
Rd01 1-216-845-11 METAL CHIP 100K 5% = 1/0W Rade 1-216-809-11 METAL CHIP 100 5% = 1/0W 
R402 1-216-845-11 METAL CHIP 100K 5% = 1/0W R448, 1-216-809-11 METAL CHIP 100 5% = 10W 
R403 1-216-845-11 METAL CHIP 100K 5% = 10W Radg 1-216-809-11 METAL CHIP 100 5% = 1/0W 
R404 1-216-845-11 METAL CHIP 100K 5% = 1/0W R450 1-216-814-11 METAL CHIP 270 5% = 10W 
R405 1-216-845-11 METAL CHIP 100K 5% = 1/0W Rd51 1-216-814-11 METAL CHIP 270 5% = 10W 
R406 1-216-864-11 SHORT CHIP R452 1-216-814-11 METAL CHIP 270 5% = 1/0W 
Rd07 1-216-833-11 METAL CHIP 10K 5% = 1/0W Rd56 1-216-825-11 METAL CHIP 22K 5% = 1/0W 





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REF.NO. PART NO. DESCRIPTION VALUES REF.NO. PART NO. DESCRIPTION VALUES 

R457 1-216-825-11 METAL CHIP 22K 5% = TOW R540 1-216-809-11 METAL CHIP 100 5% = 1/0W 
R458 1-216-825-11 METAL CHIP 22K 5% = 10W R541 1-218-867-11 METAL CHIP 6.8K 0.50% 1/10W 
R459 1-216-815-11 METAL CHIP 330 5% = TOW R542 1-216-809-11 METAL CHIP 100 5% = 1/0W 
Rd60 1-216-815-11 METAL CHIP 330 5% = 1/0W R543 1-216-826-11 METAL CHIP 27K 5% = 1/0W 
Rd61 1-216-815-11 METAL CHIP 330 5% = 1/0W R544 1-216-827-11 METAL CHIP 3.3K 5% = 10W 
Rd63 1-218-716-11 METAL CHIP 10K 0.50% 1/10W R550 1-216-863-11 METAL CHIP 3.3M 5% = 10W 
Rd66 1-216-841-11 METAL CHIP 47K 5% = 1/0W R551 1-216-833-11 METAL CHIP 10K 5% = 1/0W 
Rd67 1-216-841-11 METAL CHIP 47K 5% = 1/0W R552 1-216-809-11 METAL CHIP 100 5% = 10W 
Ra71 1-216-821-11 METAL CHIP 1K 5% = 1/0W R553 1-216-834-11 METAL CHIP 12K 5% = 10W 
R472 1-216-829-11 METAL CHIP 47K 5% = 10W R554 1-216-809-11 METAL CHIP 100 5% == 10W 
Rd73 1-216-809-11 METAL CHIP 100 5% = 1/0W R556 1-216-808-11 METAL CHIP 82 5% = 1/0W 
RA74 1-216-833-11 METAL CHIP 10K 5% = 1/0W R557 1-216-808-11 METAL CHIP 82 5% = TOW 
Rd76 1-216-808-11 METAL CHIP 82 5% = 1/0W R558 1-216-808-11 METAL CHIP 82 5% = 1/0W 
R477 1-216-829-11 METAL CHIP 47K 5% = 1/0W R559 1-216-817-11 METAL CHIP 470 5% = 1/0W 
R480 1-216-829-11 METAL CHIP 47K 5% = 1/0W R561 1-216-829-11 METAL CHIP 47K 5% = 10W 
R481 1-216-821-11 METAL CHIP 1K 5% = 10W R562 1-216-817-11 METAL CHIP 470 5% = 10W 
R482 1-216-839-11 METAL CHIP 33K 5% = 1/0W R563 1-216-853-11 METAL CHIP 470K 5% = 1/0W 
R483 1-216-829-11 METAL CHIP 47K 5% = 1/0W R566 1-216-829-11 METAL CHIP 47K 5% = 10W 
R4g4 1-216-809-11 METAL CHIP 100 5% = 1/0W R567 1-218-708-11 METAL CHIP 47K 0.50% 1/10W 
R489 1-216-829-11 METAL CHIP 47K 5% = 10W R568 1-216-809-11 METAL CHIP 100 5% = 1/0W 
R490 1-216-808-11 METAL CHIP 82 5% = 1/0W R569 1-216-809-11 METAL CHIP 100 5% = 1/0W 
R493 1-216-829-11 METAL CHIP 47K 5% = 1/0W R570 1-218-716-11 METAL CHIP 10K 0.50% 1/10W 
Rdg5 1-216-829-11 METAL CHIP 47K 5% = 10W S71 1-216-864-11 SHORT CHIP 

R96 1-216-809-11 METAL CHIP 100 5% = 1/0W R572 1-216-835-11 METAL CHIP 15K 5% = 10W 
R501 1-216-808-11 METAL CHIP 82 5% = 10W R574 1-216-833-11 METAL CHIP 10K 5% = 1/0W 
R502 1-216-825-11 METAL CHIP 22K 5% = 10W R575 1-216-833-11 METAL CHIP 10K 5% = 1/0W 
R503 1-216-833-11 METAL CHIP 10K 5% = 1/0W R576 1-216-829-11 METAL CHIP 47K 5% = 1/0W 
R504 1-216-829-11 METAL CHIP 47K 5% = 1/0W R577 1-216-829-11 METAL CHIP 47K 5% = 10W 
R505 1-216-821-11 METAL CHIP 1K 5% = 1/0W R593 1-216-829-11 METAL CHIP 47K 5% = 10W 
R506 1-216-837-11 METAL CHIP 22K 5% = 1/0W R594 1-216-833-11 METAL CHIP 10K 5% = 10W 
R507 1-216-825-11 METAL CHIP 22K 5% = 1/0W R596 1-216-841-11 METAL CHIP 47K 5% = 10W 
R508 1-216-825-11 METAL CHIP 22K 5% = 1/0W R597 1-216-821-11 METAL CHIP 1K 5% = 10W 
R509 1-216-837-11 METAL CHIP 22K 5% = 10W R598 1-216-833-11 METAL CHIP 10K 5% = 10W 
R510 1-216-825-11 METAL CHIP 2.2K 5% = 1/0W R599 1-216-829-11 METAL CHIP 47K 5% = 1/0W 
R512 1-216-864-11 SHORT CHIP R602 1-216-837-11 METAL CHIP 22K 5% = 10W 
R513 1-216-826-11 METAL CHIP 27K 5% = 1/0W R603 1-216-833-11 METAL CHIP 10K 5% = 10W 
R515 1-216-809-11 METAL CHIP 100 5% = 1/0W R604 1-216-833-11 METAL CHIP 10K 5% = 1/0W 
R516 1-216-809-11 METAL CHIP 100 5% = 1/0W R605 1-216-833-11 METAL CHIP 10K 5% = 1/0W 
R517 1-216-809-11 METAL CHIP 100 5% = 1/0W R606 1-216-833-11 METAL CHIP 10K 5% = 10W 
R518 1-216-829-11 METAL CHIP 47K 5% = 1/0W R607 1-216-833-11 METAL CHIP 10K 5% = 1/0W 
R519 1-216-821-11 METAL CHIP 1K 5% = 1/0W R608 1-216-833-11 METAL CHIP 10K 5% = 1/0W 
R521 1-216-833-11 METAL CHIP 10K 5% = 10W R609 1-216-809-11 METAL CHIP 100 5% = 10W 
R527 1-216-864-11 SHORT CHIP R613 1-216-833-11 METAL CHIP 10K 5% = 1/0W 
R538 1-216-809-11 METAL CHIP 100 5% = 1/0W R616 1-216-833-11 METAL CHIP 10K 5% = 10W 





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REF.NO. PART NO. DESCRIPTION VALUES REF.NO. PART NO. DESCRIPTION VALUES 

R617 1-216-809-11 METAL CHIP 100 5% = 1/0W R744 1-216-821-11 METAL CHIP 1K 5% = 1/0W 
R618 1-216-809-11 METAL CHIP 100 5% = 1/0W R745 1-216-841-11 METAL CHIP 47K 5% = 10W 
R619 1-216-821-11 METAL CHIP 1K 5% = 10W R747 1-216-809-11 METAL CHIP 100 5% = 1/0W 
R620 1-216-801-11 METAL CHIP 22 5% = 1/0W R748 1-216-833-11 METAL CHIP 10K 5% = 10W 
R621 1-216-801-11 METAL CHIP 22 5% = 1/0W R749 1-216-849-11 METAL CHIP 220K 5% = 10W 
R622 1-216-801-11 METAL CHIP 22 5% = 1/0W R750 1-216-825-11 METAL CHIP 2.2K 5% = 1/0W 
R624 1-216-809-11 METAL CHIP 100 5% = 10W R751 1-216-821-11 METAL CHIP 1K 5% = 10W 
R628 1-249-377-11 CARBON 0.47 5% = 1/4W R752 1-216-821-11 METAL CHIP 1K 5% = 10W 
R701 1-216-817-11 METAL CHIP 470 5% = 1/0W R753 1-216-809-11 METAL CHIP 100 5% = 10W 
R702 1-216-841-11 METAL CHIP 47K 5% = 1/0W R754 1-216-809-11 METAL CHIP 100 5% = 1/0W 
R703 1-216-821-11 METAL CHIP 1K 5% = 1/0W R755 1-216-809-11 METAL CHIP 100 5% = 1/0W 
R705 1-216-809-11 METAL CHIP 100 5% = 10W R756 1-216-809-11 METAL CHIP 100 5% = 10W 
R706 1-216-809-11 METAL CHIP 100 5% = 1/0W R758 1-216-809-11 METAL CHIP 100 5% = 1/0W 
R707 1-216-809-11 METAL CHIP 100 5% = 1/0W R759 1-216-821-11 METAL CHIP 1K 5% = 1/0W 
R708 1-216-809-11 METAL CHIP 100 5% = 1/0W R760 1-216-849-11 METAL CHIP 220K 5% = 1/0W 
R709 1-216-817-11 METAL CHIP 470 5% = 10W R761 1-216-849-11 METAL CHIP 220K 5% = 1/0W 
R710 1-216-813-11 METAL CHIP 220 5% = 10W R762 1-216-845-11 METAL CHIP 100K 5% = 1/0W 
R711 1-216-833-11 METAL CHIP 10K 5% = 10W R763 1-216-815-11 METAL CHIP 330 5% = 10W 
R712 1-216-813-11 METAL CHIP 220 5% = 1/0W R764 1-216-821-11 METAL CHIP 1K 5% = 10W 
R713 1-216-825-11 METAL CHIP 22K 5% = 1/0W R765 1-216-815-11 METAL CHIP 330 5% = 1/0W 
R714 1-216-809-11 METAL CHIP 100 5% = 1/0W R766 1-216-821-11 METAL CHIP 1K 5% = 1/0W 
R715 1-216-809-11 METAL CHIP 100 5% = 1/0W R767 1-216-833-11 METAL CHIP 10K 5% = TOW 
R716 1-216-821-11 METAL CHIP 1K 5% = 1/0W R768 1-216-809-11 METAL CHIP 100 5% = 1/0W 
R717 1-216-827-11 METAL CHIP 3.3K 5% = 10W R769 1-216-809-11 METAL CHIP 100 5% = 1/0W 
R718 1-216-827-11 METAL CHIP 3.3K 5% = 1/0W R770 1-216-845-11 METAL CHIP 100K 5% = TOW 
R719 1-216-813-11 METAL CHIP 220 5% = TOW R771 1-216-809-11 METAL CHIP 100 5% = 1/0W 
R720 1-216-809-11 METAL CHIP 100 5% = 1/0W R772 1-216-821-11 METAL CHIP 1K 5% = 1/0W 
R721 1-216-823-11 METAL CHIP 1.5K 5% = 1/0W R773 1-216-809-11 METAL CHIP 100 5% = 10W 
R722 1-216-825-11 METAL CHIP 2.2K 5% = 1/0W R774 1-216-809-11 METAL CHIP 100 5% = TOW 
R723 1-216-825-11 METAL CHIP 22K 5% = 10W R775 1-216-821-11 METAL CHIP 1K 5% = 1/0W 
R724 1-216-825-11 METAL CHIP 22K 5% = 1/0W R777 1-216-821-11 METAL CHIP 1K 5% = 1/0W 
R725 1-216-809-11 METAL CHIP 100 5% = 1/0W R778 1-216-809-11 METAL CHIP 100 5% = 1/0W 
R727 1-216-825-11 METAL CHIP 22K 5% = 1/0W R779 1-216-809-11 METAL CHIP 100 5% = 10W 
R728 1-216-864-11 SHORT CHIP R781 1-216-823-11 METAL CHIP 1.5K 5% = 1/0W 
R730 1-216-809-11 METAL CHIP 100 5% = 1/0W R782 1-216-809-11 METAL CHIP 100 5% = 1/0W 
R732 1-216-809-11 METAL CHIP 100 5% = 1/0W R783 1-216-809-11 METAL CHIP 100 5% = 10W 
R733 1-216-821-11 METAL CHIP 1K 5% = 1/0W R784 1-216-809-11 METAL CHIP 100 5% = 1/0W 
R735 1-216-833-11 METAL CHIP 10K 5% = 1/0W R785 1-216-821-11 METAL CHIP 1K 5% = 1/0W 
R736 1-216-813-11 METAL CHIP 220 5% = 1/0W R786 1-216-821-11 METAL CHIP 1K 5% = 1/0W 
R737 1-216-833-11 METAL CHIP 10K 5% = 1/0W R787 1-216-833-11 METAL CHIP 10K 5% = 1/0W 
R738 1-218-708-11 METAL CHIP 47K 0.50% 1/10W R788 1-216-845-11 METAL CHIP 100K 5% = 1/0W 
R740 1-216-809-11 METAL CHIP 100 5% = 1/0W R790 1-216-837-11 METAL CHIP 22K 5% = 10W 
R742 1-216-821-11 METAL CHIP 1K 5% = 1/0W R796 1-216-821-11 METAL CHIP 1K 5% = 1/0W 
R743 1-216-809-11 METAL CHIP 100 5% = 10W R797 1-216-829-11 METAL CHIP 47K 5% = TOW 





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[A] [AD] 




















REF.NO. PART NO. DESCRIPTION VALUES REF.NO. PART NO. DESCRIPTION VALUES 
R803 1-216-833-11  METALCHIP 10K = 5% = INOW R878 1-216-821-11 METAL CHIP 1K 5% = HOW 
R804 1-216-837-11  METALCHIP 2K 5% = INOW R879 —41-216-821-11 METAL CHIP 1K 5% = HOW 
R806 = 1-216-829-11 METAL CHIP 47K 5% = 1MOW R885 1-216-833-11 METAL CHIP 10K 5% = HOW 
R807 1-216-829-11 METAL CHIP 47K 5% =~ 1MOW R886 1-216-833-1 METAL CHIP 10K 5% = HOW 
R810 1-216-833-11 METAL CHIP 10K 5% = HOW R887 1-216-821-11 METAL CHIP 1K 5% = HOW 
R813 —1-216-845-11 METAL CHIP 100K 5% = 10W R889 1-216-807-11 METAL CHIP 68 5% {HOW 
R817 ——1-216-845-11  METALCHIP 100K = 5% = 1M0W R890 1-216-807-11 METAL CHIP 68 5% {HOW 
R818 1-216-833-11 METAL CHIP 10K 5% = HOW R891 1-216-807-11 METAL CHIP 68 5% HOW 
R823 (1-216-835-11  METALCHIP 15K = 5% = 1MOW R897 = 1-216-821-11 —- METAL CHIP 1K 5% = HOW 
R828 1-216-817-11 METAL CHIP 470 5% = OW R899 1-216-821-11 METAL CHIP 1K 5% = HOW 
R829 1-216-864-11 SHORT CHIP TUNER 
R830 1-216-809-11 METAL CHIP 100 5% = HOW 
Res! 1-216-899-11 METAL CHIP 33K 5% TH0W TUL? BOR SEND: | (TUNER, FSSBIE-TAAZ! 
Re32 —1-216817-11  METALCHIP a 5% HOW TUR © ESURSEEDS. TUNER ESS BIE WA 
R833 1-216-830-11 METAL CHIP 33K 5% = 1MOW 
VARISTOR 
R834 1-216-805-11 METAL CHIP 47 5% (HOW v1 1-804-499-21 VARISTOR, CHIP (1608) 
R835 —1-216-837-11  METALCHIP 2K 5% OW vbe 1-804-499-21 VARISTOR, CHIP (1608) 
R36 1-216-864-11 — SHORT CHIP vps 1-804-499-21  VARISTOR, CHIP (1608) 
R837—1-216-829-11 METAL CHIP 47K 5% = 1MOW vp4 1-804-499-21 VARISTOR, CHIP (1608) 
R838 1-216-809-11 METAL CHIP 100 5% = HOW 
CRYSTAL 
R839 «1-216-864-11 SHORT CHIP 
R840 1-216-841-11  METALCHIP 41K «5% = 1MOW xi 1-767-882-21 VIBRATOR, CRYSTAL 
R841 1-216-830-11 METAL CHIP 33K 5% = 1MOW X301 1-567-505-11 OSCILLATOR, CRYSTAL 
Re421-216-818-11 - METALCHIP 560 5% «© 10W X302_1-767-179-31_ VIBRATOR, CERAMIC 
R44 1-216-864-11 SHORT CHIP X303 —-1-567-505-1 OSCILLATOR, CRYSTAL 
X3041-767-179-31 VIBRATOR, CERAMIC 
R845 1-216-818-11 METAL CHIP 560 5% = 1H0W 
Reds 1-218-871-11 — METALCHIP 10K 0.50% 1/10W X3051-781-282-11_VIBRATOR, CERAMIC 
R847 1-218-870-11. —- METAL CHIP 91K 0.50% 1M0W X307_1-760-895-21 VIBRATOR, CERAMIC 
R848 1-216-836-11  METALCHIP 18K = 5% = 1OW x701 1-795-572-11_ VIBRATOR, CRYSTAL 
R849 1-216-836-11 METAL CHIP 18K 5% = 1HOW A D 
R851 1-216-833-11 METAL CHIP 10K 5% = HOW 
R853 41-218-871-11 METAL CHIP 10K 0.50% 1/10W ; ‘ : : 
Re54 1-216-838-11 METAL CHIP 27K 5% HOW Due to the complexity of this board, performing component level field 
R855 4-216-864-11 SHORT CHIP repairs is not recommended. If service is required, complete board 
replacement is the preferred repair method. 
R857 1-216-838-11 METAL CHIP 2K = 5% «= 1OW Data is provided for reference only. 
R860 1-249-389-11 CARBON 47 5% 1I4W . A-1302-179-A AD BOARD, COMPLETE 
R861 1-249-989-11 -CARBON 475% AW 
R862 1-216-839-11 METAL CHIP 33K 5% = 10W CAPACITOR 
R863. —«1-216-841-11  METALCHIP 41K 5% = 1MOW 
R864 = 1-216-829-11 METAL CHIP 47K 5% —1/10W Ci601 1-126-933-11ELECT VOOuF 20% © 16V 
C1602 1-126-933-11 — ELECT 100uF 20% + 16V 
R867 1-216-829-11 METAL CHIP 47K 5% — 1H0W GIGS, MELT CERAMECHIBS = Our iad 
R869 1-216-83411 —- METALCHIP 12K 5% «HOW C104” GES CERAMIC CHIE” SF au 
R670 = 1-216-841-11 —- METALCHIP 47K 5% = AHOW SIO TRAIT CERAMIC CHIP lpr ay 
R871 1-216-809-11 METAL CHIP 100 5% = HOW 





— 106 — 


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REF.NO. PART NO. DESCRIPTION VALUES REF.NO. PART NO. DESCRIPTION VALUES 

C1606 1-164-156-11 CERAMIC CHIP O.1yF 25 C1661 1-164-156-11 CERAMIC CHIP O.1yF 25 
C1607 1-126-933-11 ELECT 100UF = 20% += 16V C1663 1-126-933-11 ELECT 100UF =. 20% += 16V 
C1608 1-164-156-11 CERAMIC CHIP O.1,F 25 C1664 1-126-933-11 ELECT 100UF 20% += 16V 
C1609 1-162-966-11 CERAMIC CHIP 0.0022uF 10% 50V C1665 1-126-933-11 ELECT 100UF 20% += 16V 
C1610 1-162-962-11 CERAMIC CHIP 470pF = 10% = 50V C1666 1-162-927-11 CERAMIC CHIP 100pF 5% © 50V 
Ct611 1-164-156-11 CERAMIC CHIP O.1,F 25 C1668 1-162-927-11 CERAMIC CHIP 100pF 5% © 50V 
C1612 1-164-156-11 CERAMIC CHIP O.1UF 25V C1669 1-162-910-11 CERAMIC CHIP 5pF 0.25pF 50V 
C1613 1-164-156-11 CERAMIC CHIP O.1,F 25V C1670 1-164-156-11 CERAMIC CHIP O.1uF 25 
C1614 1-164-156-11 CERAMIC CHIP O.1UF 25V C1671 1-164-156-11 CERAMIC CHIP O.1uF 25 
C1615 1-164-156-11 CERAMIC CHIP O.1uF 25V C1672 1-164-156-11 CERAMIC CHIP O.1pF 25V 
C1616 1-164-156-11 CERAMIC CHIP O.1UF 25 C1673 1-162-910-11 CERAMIC CHIP 5pF 0.25pF 50V 
C1617 1-164-156-11 CERAMIC CHIP O.1UF 25 C1674 1-164-315-11 CERAMIC CHIP 470pF «5% = SOV 
C1618 1-126-933-11 ELECT 100UF 20% += 16V C1675 1-164-315-11 CERAMIC CHIP 470pF = 5% = SOV 
C1619 1-164-156-11 CERAMIC CHIP O.1UF 25V C1676 1-163-137-00 CERAMIC CHIP 680pF = 5% = SOV 
C1621 1-164-156-11 CERAMIC CHIP O.1UF 25V C1677 1-126-933-11 ELECT 100UF 20% += 16V 
C1625 1-164-156-11 CERAMIC CHIP O.1uF 25V C1678 1-163-137-00 CERAMIC CHIP 680pF = 5% «= SOV 
C1626 1-164-156-11 CERAMIC CHIP O.1UF 25V C1680 1-164-156-11 CERAMIC CHIP O.1UF 25 
C1627 1-164-156-11 CERAMIC CHIP O.1UF 25 C1681 1-164-156-11 CERAMIC CHIP O.1uF 25V 
C1628 1-164-156-11 CERAMIC CHIP O.1yF 25 C1682 1-164-156-11 CERAMIC CHIP O.1UF 25V 
C1629 1-164-156-11 CERAMIC CHIP O.1yF 25V C1683, 1-164-156-11 CERAMIC CHIP O.1uF 25 
C1630 1-164-156-11 CERAMIC CHIP O.1uF 25 C1684 1-164-156-11 CERAMIC CHIP O.1UF 25V 
C1631 1-126-933-11 ELECT 100UF =. 20% = 16V C1685 1-164-156-11 CERAMIC CHIP O.1UF 25 
C1632 1-164-156-11 CERAMIC CHIP O.1UF 25V C1688 1-164-156-11 CERAMIC CHIP O.1pF 25 
C1633 1-164-156-11 CERAMIC CHIP O.1UF 25V C1690 1-162-927-11 CERAMIC CHIP 100pF 5% = -50V 
C1634 1-126-963-11 ELECT 47UF 20% 50V C1691 1-126-933-11 ELECT 100UF 20% += 16V 
C1635 1-162-923-11 CERAMIC CHIP 47pF 5% 50V C1692 1-126-933-11 ELECT 100UF 20% = 16V 
C1636 1-107-826-11 CERAMIC CHIP O.1UF 10%  16V C1693 1-126-933-11 ELECT 100UF =. 20% = 16V 
C1637 1-162-919-11 CERAMIC CHIP 22pF 5% 50V C1694 1-162-927-11 CERAMIC CHIP 100pF 5% —50V 
C1638 1-162-919-11 CERAMIC CHIP 22pF 5%  50V C1695 1-162-910-11 CERAMIC CHIP 5pF 0.25pF 50V 
C1639 1-126-933-11 ELECT 100UF 20% = 16V C1696 1-162-910-11 CERAMIC CHIP 5pF 0.25pF 50V 
C1640 1-126-933-11 ELECT 100UF 20% += 16V C1697 1-164-156-11 CERAMIC CHIP O.1yF 25 
C1641 1-164-156-11 CERAMIC CHIP O.1UF 25V C1698 1-164-156-11 CERAMIC CHIP O.1UF 25V 
C1643 1-164-156-11 CERAMIC CHIP O.1UF 25V C1699 1-164-156-11 CERAMIC CHIP O.1yF 25V 
C1644 1-164-156-11 CERAMIC CHIP O.1uF 25V C1700 1-164-156-11 CERAMIC CHIP O.1UF 25V 
C1645 1-164-315-11 CERAMIC CHIP 470pF = 5% = 50V C1701 1-162-968-11 CERAMIC CHIP 0.0047F 10% 50V 
C1646 1-164-315-11 CERAMIC CHIP 470pF = 5% = 50V C1704 1-126-933-11 ELECT 100UF 20% = 16V 
C1647 1-163-137-00 CERAMIC CHIP 680pF = 5% «= 50V C1707 1-164-315-11 CERAMIC CHIP 470pF 5% = SOV 
C1649 1-163-137-00 CERAMIC CHIP 680pF = 5% = SOV C1708 1-163-137-00 CERAMIC CHIP 680pF = 5% = 50V 
C1651 1-164-156-11 CERAMIC CHIP O.1UF 25V C1709 1-164-315-11 CERAMIC CHIP 470pF 5% = SOV 
C1652 1-164-156-11 CERAMIC CHIP O.1UF 25V ct711 1-163-137-00 CERAMIC CHIP 680pF = 5% «= SOV 
C1656 1-164-156-11 CERAMIC CHIP O.1UF 25 Ci712 1-164-156-11 CERAMIC CHIP O.1,F 25 
C1657 1-164-156-11 CERAMIC CHIP O.1UF 25V ci714 1-164-156-11 CERAMIC CHIP O.1UF 25 
C1658 1-164-156-11 CERAMIC CHIP O.1UF 25 Ci715 1-164-156-11 CERAMIC CHIP O.1pF 25V 
C1659 1-164-156-11 CERAMIC CHIP O.1UF 25 Ci717 1-162-927-11 CERAMIC CHIP 100pF 5% —50V 





— 107 — 


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REFNO. PART NO. DESCRIPTION VALUES REFNO. PART NO. DESCRIPTION VALUES 
CI8 = 1-164-156-11 CERAMICCHIP. Iu 25 c 
C1720 © 1-4162-910-11 CERAMICCHIP. «== «BpF_——O.25pF SOV 
Ct72t —1-162-927-11 CERAMICCHIP.»=—=—«100F 5% SOV ICON Aten ae te lean 
C1722 1-162-910-1 CERAMICCHIP. «= pF —_O.25pF 50V TORS eran «KG Le heieetalee 
C1730 1-126916-11 ELECT 1000KF 20% 63V TLOO9» 9 FERRE: 1 IC sastentles 
Ict60s 8759-52-91 IC PSTOL4SNL 
CI731—1-162-970-11 —CERAMICCHIP. «LOI 10% 25V teres -8-752-99382 IC CXP85460-6470 
C1732 1-4162-970-11 CERAMICCHIP, «OOF 10% | 25V 
C1733. 1-162970-1 CERAMICCHIP. == O.O1uF 10% 25V el tag te MEA WMNET 
C1734 1-162-970-11 CERAMICCHIP.«=—OLOIUF 10% 25 IGE ere” COOnSTAM 
Ieteo 8759-89008 IC Nuwo068V-TE2 
Icte10  8:759-89008 IC Nuw2068V-TE2 
SONNECTOR Ictett 8759-89008 IC NuM2068V-TE2 
CN1601 1-873-301-22 _CONNECTOR, BOARD TO BOARD 20P Icte12 8759-89008 IC Nuw2068V-TE2 
C1602 1-673-301-22 _CONNECTOR, BOARD TO BOARD 20P 
con 
DIODE 
L102 1-468-655-21.INDUCTOR 10,4 
1601 8:719-988-61 DIODE 1$9355TE-17 
1603 8:719-988-61 DIODE 1$9355TE-17 TRANSISTOR 
D164 © 8:719-069-54 DIODE UDZSTE-175.18 
nic. nL. ODIGBE inate eis 1603 8:729-120-28 TRANSISTOR 28016231516 
nici caaieaal DIODE ference Qt604 —§:729-120-28 TRANSISTOR 28016231516 
1606 8729-12028 TRANSISTOR 28016231516 
Gigyi awh “ORE ee 1607 8729-12028 TRANSISTOR 28016231516 
Dies 8:719-988-61 —_—DIODE 1$9355TE-17 
Dies 8-719-986-61 DIODE 1$S355TE-17 RESISTOR 
01693 «8-719-988-61  DIODE 1SS355TE-17 Ri600 —1-216-833-11 METAL CHIP 10K 5% = 1MOW 
Rigo 1-216841-11—-METALCHIP 47k 5% 10 
FERRITE BEAD 1602 1-216-833-11 METAL CHIP 10K 5% = 1M0W 
seins Raedenie =RERGITE it Rigo. 1-216821-11 —-METALCHIP 1K «5% 1OW 
Feige LLG, CEERRITE sat igo4 —1-216890-11-METALCHIP 1K «5% 1/0W 
FB1603 1-414-445-11 FERRITE Ou 
piso “LAdGaT — TERRITE bit 1605 1-216821-11 —-METALCHIP 1K 5% 1OW 
Haig la Galea «tERaITE ail 160s 1-216821-11 —-METALCHIP 1K 5% 1/0W 
Ri6o7 —1-216821-11—-METALCHIP 1K «5% 10W 
paige UE. “EERO bik igo8 —1-216-809-11-METALCHIP 100 «5% = 1/OW 
PBiggr 4AULueAI.  EERAITE oul igo) 1-216-809-11 -METALCHIP 100 «5% = 1/0W 
FB1608§ 1-414-445-11 FERRITE Ou 
Pegi: Adie” CcRERRITE ii Rigtt —1-216825-11 -METALCHIP 22K 5% tw 
Faia: “ACA RERRITE oi Rig14 —1-216825-11 -METALCHIP 22K 5% tw 
RiGIS §—1-216821-11 —-METALCHIP 1K «5% 1/OW 
Fights. aliuleai. (ceRane ‘it Rig18 —1-216809-11 -METALCHIP 100 «5% = 1/0W 
FBIeI2 1-414-445-11 FERRITE Oy Aptos = Ele RO I, «SHORT CHE 
FBIIS«1-414-445-11 FERRITE Oy 
Posi <44CH ~RERAITE ia Rie20 —1-216-809-11 -METALCHIP 100 «5% = 1/0W 
Paige ATRL? FERRITE ai Rig2 —1-216821-11 —-METALCHIP 1K «5% 10W 
Rie22—1-216890-11 —-METALCHIP 3K 5% 10W 
Eaiciee APs EERO si Rie23.—1-216821-11 —-METALCHIP 1K «5% OW 
rpisit ’ iaidaieat -RERRITE Sil i625 1-216821-11 —-METALCHIP 1K «5% 1OW 
Rie27 —1-216821-11—-METALCHIP 1K «5% tow 
ies 1-216-809-11 -METALCHIP 100 «5% = 1/0W 





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REFNO. PART NO. DESCRIPTION VALUES REFNO. PART NO. DESCRIPTION VALUES 
1635 1-216-809-11 METAL CHIP 100 5% = 10W 1686 1-216-809-11 METAL CHIP 100 5% © 1H0W 
1636 1-216-833-11 METAL CHIP 10K 5% = HOW R1687 —1-216-817-11 METAL CHIP 470 «5% = 1/0W 
R1637 —1-216-821-11 METAL CHIP 1K 5% = HOW 1690 1-218-724-11 METAL CHIP 22K 0.50% 1/107 
R168 1-216-813-11 METAL CHIP 220 «5% = 1/0W RI691 —1-218-724-11 METAL CHIP 22K 0.50% 1/100 
R1639 © 1-216-809-11 METAL CHIP 100 5% == 10W R1692 — 1-218-724-11  METAL CHIP 22K 0.50% 1/100 
RI641 —1-216-825-11 METAL CHIP 22K 5% = 1/0W R1693 —1-218-724-11  METAL CHIP 22K 0.50% 1/107 
R1642 —1-216-821-11 METAL CHIP 1K 5% HOW R1694 = 1-218-716-11 METAL CHIP 10K 0.50% 1/10W 
R1643 —1-216-821-11 METAL CHIP 1K 5% = 1H0W R1695 —1-218-716-11  METAL CHIP 10K 0.50% 1/0W 
R1644 = 1-216-825-11 METAL CHIP 22K 5% =~ 1/0W R1696 = 1-218-716-11  METAL CHIP 10K 0.50% 1/0W 
R1645 —1-216-815-11 METAL CHIP 330 «5% = 1/10W R1697 —1-218-716-11 METAL CHIP 10K 0.50% 1/0 
R1646 — 1-216-825-11 METAL CHIP 22K 5% = 1/0W R1698 © 1-218-700-11 METAL CHIP 22K — 0.50% 1/100 
RI647 —1-216-833-11 - METAL CHIP 10K 5% = HOW R1699 —1-218-700-11 METAL CHIP 22K 0.50% 1/10 
R1648 © 1-216-809-11 METAL CHIP 100 5% == HOW R1700 —1-218-700-11 METAL CHIP 22K 0.50% 1/100 
R1649 —1-216-809-11 METAL CHIP 100 5% == 10W RI701 —1-218-700-11 METAL CHIP 22K — 0.50% 1/10" 
R1650 1-216-815-11 METAL CHIP 330 «5% = 1/0W R1702 —1-218-724-11 METAL CHIP 22K 0.50% 1/107 
RI651 —1-216-815-11 METAL CHIP 330 «5% = 1/0W RI703—1-218-724-11 METAL CHIP 22K 0.50% 1/107 
R1652 —1-216-821-11 METAL CHIP 1K 5% = AHO RI704 —1-218-724-11 METAL CHIP 22K 0.50% 1/100 
R1653 —1-216-817-11 METAL CHIP 470 «5% = 10W RI705.—1-218-716-11 - METAL CHIP 10K 0.50% 1/0W 
R1654 —1-216-829-11 METAL CHIP 47K 5% —1/0W RI706 —1-218-724-11 METAL CHIP 22K 0.50% 1/107 
R1655 —1-218-700-11 METAL CHIP 22K 0.80% 1/10 RI707 —1-218-716-11 - METAL CHIP 10K — 0.50% 1/10W 
1656 — 1-218-692-11  METAL CHIP 1K 0.50% 1/10W RI708 = 1-218-716-11 - METAL CHIP 10K 0.50% 1110W 
R1657 —1-216-821-11 METAL CHIP 1K 5% = AH0W RI709 —1-218-716-11  METAL CHIP 10K 0.50% 1/0W 
R1658 = 1-216-837-11 METAL CHIP 2K 5% =~ 1/0W RI7M = 1-216-893-11 - METAL CHIP 10K 5% = HOW 
R1659 —1-216-837-11  METAL CHIP 22K 5% = 1/0W RI712 —1-216-833-11 METAL CHIP 10K 5% = HOW 
1660 —1-216-821-11 METAL CHIP 1K 5% = HOW RI713 —1-216-833-11  METAL CHIP 10K 5% = HOW 
RIT14 —1-216-893-11 - METAL CHIP 10K 5% = HOW 
1662 —1-216-823-11 METAL CHIP 15K 5% = HOW 
1665 1-218-700-11 METAL CHIP 22K 0.50% 1/10" RESISTOR BRIDGE 
1666 —1-218-700-11 METAL CHIP 22K — 0.50% 1/10 
Rt6s7 —1-218-700-11 METAL CHIP 22K 0.50% 1H0W PBS. ees Te): °_ RES. CHIE NETMOR: 100 
Riess = 1-218-700-11 METAL CHIP 22K 0.50% 110 BBGDE,  Ueseorell? 1 RES, CHIP NETWORK: 100 
RB1605 —1-283-576-11 RES, CHIPNETWORK 100 
1669 —1-218-724-11 METAL CHIP 22K 0.50% 1/10 
RIT 1-218-724-11 METAL CHIP 2K 0.50% 1/10 CRYSTAL 
Rig7i 1218-72411 METAL CHIP 22K 0.50% 1/10W X1601 _1-795-789-21 PIEZOELECTRIC OSCILLATOR 
RI672 —1-218-724-11 METAL CHIP 22K 0.50% 1/10 
RI673—1-218-716-11  METAL CHIP 10K 0.50% 10W U 
R1674 1-218-716-11 METAL CHIP 10K 0.50% 1/10W * ‘A-1302-178-A U BOARD, COMPLETE 
RI675 «= 1-218-716-11  METAL CHIP 10K 0.50% 1/10W 
R1676 1-216-821-11 METAL CHIP 1K 5% = 110W CAPACITOR 
1680 1-216-864-11 SHORT CHIP 
Rigs! 1-218-71611 METAL CHIP tok 080% tow C2001 1-169-021-91  CERAMICCHIP = O.01uF 10% 50V/ 
C2002 © 1-169-021-91  CERAMICCHIP = O.01uF 10% © 50V) 
R1682—1-218-70011 —-METALCHIP 22K 0.50% 1I10W COS ME LEST ANGE <2 25 
R1683—1-218-70011 —-METALCHIP 22K 0.50% 1I0W CO TESST BEE 20yF 20% aN 
R164 = 1-218-700-11 METAL CHIP 22K 0.50% 1I10W CONS MORAY CERAMIC CHIP UDR 10h AY 
1685 1-218-700-11 METAL CHIP 22K 0.50% 1/10 





KP-46WT510 


U 

















REFNO. PART NO. DESCRIPTION VALUES REFNO. PART NO. DESCRIPTION VALUES 
C2006 1-107-826-11 CERAMIC CHIP O.ApF 10%  16V C2077 1-126-933-11 ELECT 100WF © 20% © 16V 
C2007 1-126-964-11 ELECT 10uF 20% © 50V C2078 1-126-933-11 ELECT 100WF © 20% © 16V 
C2008 1-126-964-11 ELECT 10uF 20% © 50V C2079 1-126-933-11 ELECT 100WF = 20% += 16V 
C2012 1-126-964-11 ELECT 10uF 20% © 50V C2080 1-126-933-11 ELECT 100HF = 20% © 16V 
C2013 1-126-964-11 ELECT 10uF 20% © 50V 2081 1-107-826-11 CERAMIC CHIP O.ApF 10%  16V 
C2014 1-126-960-11 ELECT uF 20% © 50V C2083 1-126-933-11 ELECT 100WF = 20% = 16V 
C2015 1-126-960-11 ELECT uF 20% © 50V C2084 1-126-933-11 ELECT 100WF = 20% = 16V 
C2016 1-126-964-11 ELECT 10uF 20% © 50V 2085 1-162-917-11 CERAMIC CHIP 15pF 5%  50V 
C2017 1-126-964-11 ELECT 10uF 20% © 50V C2087 1-164-160-11 CERAMIC CHIP 20pF 5%  50V 
C2018 1-126-960-11 ELECT pF 20% = 50V C2088 1-126-964-11 ELECT 10uF 20% © 50V 
C2019 1-126-964-11 ELECT 10uF 20% = 50V C2089 1-126-964-11 ELECT 10uF 20% © 50V 
¢2020 1-126-964-11 ELECT 10uF 20% © 50V ¢2090 1-164-227-11 CERAMIC CHIP 0.022UF 10%  25V 
C2021 1-126-960-11 ELECT uF 20% = 50V C2091 1-107-826-11 CERAMIC CHIP OpF 10%  16V 
2022 1-126-960-11 ELECT uF 20% © 50V 2092 1-107-826-11 CERAMIC CHIP OApF 10%  16V 
C2023 1-126-964-11 ELECT 10uF 20% © 50V C2094 1-162-964-11 CERAMIC CHIP O.001UF 10% 50V 
C2024 1-126-964-11 ELECT 10uF 20% © 50V 

C2096 1-162-917-11 CERAMIC CHIP 15pF 5%  50V 
2025 1-126-960-11 ELECT uF 20% © 50V C2097 1-162-917-11 CERAMIC CHIP 15pF 5%  50V 
C2026 1-126-960-11 ELECT 1yF 20% © 50V C2098 1-107-826-11 CERAMIC CHIP O.ApF 10%  16V 
C2028 1-126-933-11 ELECT 100WF © 20% © 16V C2099 1-107-826-11 CERAMIC CHIP OApF 10%  16V 
2032 1-126-964-11 ELECT 10uF 20% = 50V C2101 1-126-964-11 ELECT 10uF 20% © 50V 
C2033 1-126-960-11 ELECT uF 20% = 50V 

C2102 1-107-826-11 CERAMIC CHIP OpF 10%  16V 
C2036 1-162-970-11 CERAMIC CHIP O.01~F 10% © 25V C2103 1-107-826-11 CERAMIC CHIP O.ApF 10%  16V 
C2037 1-165-176-11 CERAMIC CHIP 0.047UF 10%  16V C2104 1-126-964-11 ELECT 10uF 20% © 50V 
C2038 1-164-816-11 CERAMIC CHIP 220pF — 2.00% 50V C2105 1-126-964-11 ELECT 10uF 20% = 50V 
C2040 1-126-933-11 ELECT 100WF = 20% += 16V C2106 1-136-165-00 FILM O.pF 5%  50V 
C2043 1-162-970-11 CERAMIC CHIP O.01yF 10% © 25V 

C2107 1-136-165-00 FILM O.ApF 5% © 50V 
C2044 1-126-933-11 ELECT 100WF = 20% = 16V Cattt 1-126-964-11 ELECT 10uF 20% © 50V 
C2045 1-162-970-11 CERAMIC CHIP O.01UF 10% = 25V C2112 1-107-826-11 CERAMIC CHIP O.ApF 10%  16V 
C2046 1-125-891-11 CERAMIC CHIP 0.47uF 10% = 10V C2113 1-107-826-11 CERAMIC CHIP O.ApF 10%  16V 
C2048 1-125-891-11 CERAMIC CHIP 0.47uF 10% 10 C2114 1-107-826-11 CERAMIC CHIP O.ApF 10%  16V 
C2050 1-125-891-11 CERAMIC CHIP O47uF 10% 10V 

C2122 1-126-964-11 ELECT 10uF 20% — 50V 
C2052 1-162-970-11 CERAMIC CHIP O.01yF 10% © 25V C2127 1-162-970-11 CERAMIC CHIP O.01UF 10% © 25V 
C2055 1-126-964-11 ELECT 10uF 20% = 50V C2128 1-126-964-11 ELECT 10uF 20% © 50V 
C2056 1-125-891-11 CERAMIC CHIP O.47uF 10% —10V 
C2060 1-126-933-11 ELECT 100WF © 20% + 16V CONNECTOR 
C2061 1-126-964-11 ELECT 10uF 20% © 50V 

* CN2001 1-798-923-11 CONNECTOR, DIN(PLUG) —64P 

C2062 —1-107-826-11 CERAMICCHIP. «OA 10% t6V ©, BENE es Tesetsabett, = PLUG CONNECTOR up 
C2064 1-126-964-11 ELECT 10uF 20% © 50V 
2069 —«1-162-970-11 CERAMIC CHIP. «=I 10% © 25V BIGDE 
C2070 1-126-964-11 ELECT 10uF 20% —50V 02001 «=—-8-719-110-17 DIODE RDI0ESB2 
c2o7t—1-126-933-11 ELECT 100uF 20% tev D002 »«7i9-410-17 DIODE RDIOESB2 

02003 8:719-110-17 DIODE RDI0ESB2 
2072 41-126-933-11 ELECT 100uF 20% tev D204 e719-110-17 DIODE RDIOESB2 
C2075. ~—41-162-970-11 CERAMIC CHIP O.01uF 10% © 25V 2008 a719-110-17 DIODE RDIOESB2 
C2076 1-126-933-11 ELECT 100WF © 20% += 16V 





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REFNO. PART NO. DESCRIPTION VALUES REFNO. PART NO. DESCRIPTION VALUES 
2008 «871941047 DIODE ROIOESB2 i204 8752-08004 IC cxA20690 
02007 «8719-10-47 DIODE ROIOESB2 ic2007 8752-39469 IC xD20730-T4 
2008 «871941017 DIODE ROIOESB2 
2009 «871941047 DIODE ROIOESB2 Jack 
D210 «8719410417 DIODE ROIOESB2 
J2001—573-967-12 BLOCK, (S) TERMINAL 
Det 8-719-110-17 DIODE ROIOESB2 HONE | ETAL ACK 
D212 8-719-110-17 DIODE RDIOESB2 M00: a TIBET ACK 
Tiss? CRIBS DIODE ADiOESED 2004 1-750-51721 JACK BLOCK, PIN 3 
02014 «871941047 DIODE ROIOESB2 FED at SITIES (SACK BLOCK EN 
D215 «871941047 DIODE ROIOESB2 
W208 —1-815-015-11 JACK BLOCK, PIN 
ase aieaietne tone icon J2007 1750-51621 JACK BLOCK, PIN 2 
Taait.» Janie. DIODE acer W208 1-750-51721 JACK BLOCK, PIN 3 
Taoist carieAGAr” «DIODE Aioeee J2009 1750-51621 JACK BLOCK, PIN 2 
D219 «871941047 DIODE ROIOESB2 
e020 8719410417 DIODE ROIOESB2 colt 
2001 1-469559-21 INDUCTOR aH 
Deoet «8719410417 DIODE ROIOESB2 Love 1-46955521 INDUCTOR 1H 
e022 «871941047 DIODE ROIOESB2 
2023871941047 DIODE ROIOESB2 TRANSISTOR 
Dene §=— «871941017 DIODE ROIOESB2 
paves a7igeto7 DIODE RDIOESB2 2001 8729-422-27 TRANSISTOR 2sD601A.0 
2002 8 729-424-02 TRANSISTOR 2SB709A-ORS.TX 
paves e7iedto47 DIODE RDIOESB2 02003 8729-424-02 TRANSISTOR 2SB709A-ORS.TX 
paver a7igetot7 DIODE RDIOESB2 2004 8 729-422-27 TRANSISTOR 2SD6014.0 
paves a7igedtod7 ‘DIODE RDIOESB2 2005 8 729-422-27 TRANSISTOR 2SD6014.0 
2030 «871941047 DIODE ROIOESB2 
paws! e7ieedto47 DIODE RDIOESB2 2006 8729-422-27 TRANSISTOR 2601.0 
02007 8729-422-27 TRANSISTOR 2SD8014.0 
paws e71edto7 DIODE RDIOESB2 02008 8 729-422-27 TRANSISTOR 2SD6014-0 
pass 871999123 DIODE 1881991.77 2009 8 729-402-27 TRANSISTOR 2SD6014.0 
pass 871999123 DIODE 1881991.77 2010 8729-422-27 TRANSISTOR 2SD801A.0 
2035871941017 DIODE ROIOESB2 
paige a7igedtod7? DIODE RDIOESB2 2012 8729-424-02 TRANSISTOR 2SB709A-ORS.TX 
pam a7igedto47 DIODE RDIOESB2 2013 8729-422-27 TRANSISTOR 2SD60140 
2015 8729-422-27 TRANSISTOR 2SD801A.0 
FERRITE BEAD 2016 © 8729-422-27 TRANSISTOR 2SD801A.0 
2017 8729-422-27 TRANSISTOR 2SD601A-0 
FB2001  1-414-760-21 FERRITE OV 
FB2002  1-414-445-11 FERRITE OuH 2020 8-729-422-27 TRANSISTOR 2SD601A-Q 
2021 8 729-424-02 TRANSISTOR 2SB709A-ORS.TX 
FILTER Q2022 —-8-729-422-27 ~—sTRANSISTOR 2SD601A-Q 
Aoi eA CRETER TOW FASS 2024 8 729-422-27 TRANSISTOR 2SD601A.0 
ADHEE oR baa. ~CHLTER LON PARE 02025 8729-422-27 TRANSISTOR 2SD6014-0 
FL2003 1-239-848-21 _FILTER, LOWPASS 
02026 © 8729-424-02 TRANSISTOR 2SB709A-ORS.TX 
i 02027 8729-424-02 TRANSISTOR 2SB709A-ORS.TX 
7 2028 8729-424-02 TRANSISTOR 2SB709A-ORS.TX 
ic200t6701-105-01 IC NUM2750N-TE2 02029 8729-422-27 TRANSISTOR 2SD801A.0 
i202 8 759-443-11 IC NUM2269N4-TE1 
12008 8759-10096 IC UPc4ss8G2 


—111— 


KP-46WT510 

















REFNO. PART NO. DESCRIPTION VALUES REFNO. PART NO. DESCRIPTION VALUES 
RESISTOR R2044 1-216-853-11 METAL CHIP 470K 5% = 10W 
R2045 1-216-853-11 METAL CHIP 470K 5% = 10W 
R2001 1-218-665-11 METAL CHIP iy 0.50% 1/10W 2046 1-216-818+11 METAL CHIP 560 5%  tM0W 
R2002 1-216-853-11 METAL CHIP 470K 5% = 10W 2047 1-216-809-11 METAL CHIP 100 5% — tM0W 
R2003 1-218-665-11 METAL CHIP 75 0.50% 1/10W 2048 1-216-829-11 METAL CHIP 4qK 5% — t0W 
R2004 1-218-665-11 METAL CHIP 5 0.50% 1/10W 
R2005 1-218-665-11 METAL CHIP 75 0.50% 1/10W 2049 1-216-809-11 METAL CHIP 400 5% — t0W 
R2050 1-216-829-11 METAL CHIP 47K 5% = 10W 
R2006 1-216-853-11 METAL CHIP 470K 5% = 10W R2051 1-216-809-11 METAL CHIP 400 5% — tM0W 
R2007 1-216-853-11 METAL CHIP 470K 5% = 10W 2052 1-216-817-11 METAL CHIP 470 5% — M0W 
R2008 1-218-665-11 METAL CHIP ri} 0.50% 1/10W 2053 1-216-817-11 METAL CHIP 470 5%  t0W 
R2009 1-218-665-11 METAL CHIP ky 0.50% 1/10W 
R2010 1-218-665-11 METAL CHIP 75 0.50% 1/10W 2054 1-216-809-11 METAL CHIP 400 5%  t0W 
R2055 1-216-821-11 METAL CHIP 1K 5% = 10W 
R2011 1-216-853-11 METAL CHIP 470K 5% = 10W 2056 1-216-821-11 METAL CHIP 1K 5% — t0W 
R2012 1-216-853-11 METAL CHIP 470K 5% = 10W 2057 1-216-809-11 METAL CHIP 400 5%  tM0W 
PANS ee Sae IL) METALCHIE AIK, Stes, SION P0058 1-218-716-11 METAL CHIP 10K 050% 1/0 
R2014 1-216-853-11 METAL CHIP 470K 5% = 10W 
R2015 1-216-853-11 METAL CHIP 470K 5% = 10W 2059 1-216-817-11 METAL CHIP 470 5% — 10W 
R2060 1-216-817-11 METAL CHIP 470 5% = 10W 
R2016 1-216-853-11 METAL CHIP 470K 5% = 10W R2061 1-216-817-11 METAL CHIP 470 5% — t0W 
R2017 1-218-665-11 METAL CHIP iy 0.50% 1/10W 2062 1-216-817-11 METAL CHIP 470 5% — t0W 
R2018 1-216-853-11 METAL CHIP 470K 5% = 10W 2063 1-216-809-11 METAL CHIP 400 5% — 10W 
R2019 1-216-853-11 METAL CHIP 470K 5% = 10W 
R2020 1-218-665-11 METAL CHIP iy 0.50% 1/10W 2064 1-216-809-11 METAL CHIP 400 5%  t0W 
R2065 1-216-825-11 METAL CHIP 2.2K 5% = 10W 
R2021 1-218-665-11 METAL CHIP ky 0.50% 1/10W 2066 1-216-829-11 METAL CHIP 47K 5% — t0W 
R2022 1-218-665-11 METAL CHIP rk} 0.50% 1/10W 2067 1-216-809-11 METAL CHIP 100 5% — t0W 
R2023 1-216-853-11 METAL CHIP 470K 5% = 10W 2068 1216-82511 METAL CHIP 2.0K 5% — tM0W 
R2024 1-216-853-11 METAL CHIP 470K 5% = 10W 
R2025 1-218-665-11 METAL CHIP i) 0.50% 1/10W 2069 1-216-825+11 METAL CHIP 2.0K 5%  10W 
R2070 1-216-825-11 METAL CHIP 2.2K 5% = 10W 
R2026 1-218-665-11 METAL CHIP 75 0.50% 1/10W R2071 1-216-809-11 METAL CHIP 400 5%  t0W 
R2027 1-218-665-11 METAL CHIP ky 0.50% 1/10W 2072 1-216-829-11 METAL CHIP 47K 5%  t0W 
R2028 1-218-716-11 METAL CHIP 10K 0.50% 1/10W R2073 1-216-809-11 METAL CHIP 400 5% — t0W 
R2029 1-218-716-11 METAL CHIP 10K 0.50% 1/10W 
RAMBO “ZIG SUS NL >, METALCHIE 100: “5%. INOW ROOT = 1-216-809-11 —- METAL CHIP 100 5% tow 
R2075 1-216-809-11 METAL CHIP 100 5% = 10W 
R2031 1-216-841-11 METAL CHIP 47K 5% = 10W R207 1-216-809-11 METAL CHIP 400 5% — t0W 
R2032 1-216-845-11 METAL CHIP 100K 5% = 10W 2078 1-216-864-11 SHORT CHIP 
RASA CIES IL METALCHIE Se ots AIM R008) 1-216-809-11 METAL CHIP 100 5% AoW 
R2035 1-216-809-11 METAL CHIP 100 5% = 10W 
Pap, Gel aell, =METAL CHI: WO: SB NON Ro08t —1-216-809-11 METAL CHIP 100 5% tow 
R2082 1-216-829-11 METAL CHIP 47K 5% = 10W 
R2037 1-216-809-11 METAL CHIP 100 5% = 10W 2083 1-216-864-11 SHORT CHIP 
R2038 1-216-809-11 METAL CHIP 100 5% = 10W 2084 1-216-809-11 METAL CHIP 400 5% — t0W 
R2039 1-216-833-11 METAL CHIP 10K 5% = 10W 2085 1-216-821-11 METAL CHIP 1K 5%  10W 
R2040 1-216-857-11 METAL CHIP 1M 5% = 10W 
PEN HEUER. METAL a Ro0gs = 1-216-829-11 - METAL CHIP 47K 5% HOW 
R2087 1-216-809-11 METAL CHIP 100 5% = 10W 
R2042 1-216-825-11 METAL CHIP 2.2K 5% = 10W 2088 1-216-864-11 SHORT CHIP 
a el ls le AOD Shee Ses 08 0089 © 1-216-809-11 METAL CHIP 100 5% tow 





—112— 


KP-46WT510 








U 





[BI 











REF.NO. PART NO. DESCRIPTION VALUES REF.NO. PART NO. DESCRIPTION VALUES 
R2090 1-216-821-11 METAL CHIP 1K 5% = 1/0W R2159 1-216-832-11 METAL CHIP 8.2K 5% = 1/0W 
R2092 1-216-829-11 METAL CHIP 47K 5% = 1/0W R2164 1-218-710-11 METAL CHIP 5.6K 0.50% 1/10W 
R2094 1-216-864-11 SHORT CHIP R2166 1-216-818-11 METAL CHIP 560 5% = 1/0W 
R2096 1-216-809-11 METAL CHIP 100 5% = 1/0W R2169 1-216-842-11 METAL CHIP 56K 5% = 1/0W 
R2097 1-216-809-11 METAL CHIP 100 5% = 1/0W R2173 1-216-818-11 METAL CHIP 560 5% = 10W 
R2098 1-216-825-11 METAL CHIP 2.2K 5% = 10W R2174 1-218-686-11 METAL CHIP 560 0.50% 1/10W 
R2099 1-216-809-11 METAL CHIP 100 5% = 10W R2175 1-216-817-11 METAL CHIP 470 5% = 1/10W 
R2100 1-216-825-11 METAL CHIP 22K 5% = 1/0W R2176 1-216-825-11 METAL CHIP 2.2K 5% = 1/0W 
R2103 1-216-809-11 METAL CHIP 100 5% = 1/0W R2177 1-216-809-11 METAL CHIP 100 5% = 10W 
R2104 1-216-809-11 METAL CHIP 100 5% = 1/0W R2178 1-218-676-11 METAL CHIP 220 0.50% 1/10W 
R2105 1-216-809-11 METAL CHIP 100 5% = 1/0W R2182 1-216-864-11 SHORT CHIP 
R2107 1-216-807-11 METAL CHIP 68 5% = 1/0W R2183 1-216-813-11 METAL CHIP 220 5% = 10W 
R2108 1-216-841-11 METAL CHIP 47K 5% = 1/0W R2184 1-218-704-11 METAL CHIP 3.3K 0.50% 1/10W 
R2109 1-216-809-11 METAL CHIP 100 5% = 1/0W R2185 1-218-684-11 METAL CHIP 470 0.50% 1/10W 
R2110 1-216-809-11 METAL CHIP 100 5% = 1/0W R2186 1-218-688-11 METAL CHIP 680 0.50% 1/10W 
Ratt 1-216-825-11 METAL CHIP 22K 5% = 10W R2187 1-216-864-11 SHORT CHIP 
R2113 1-216-821-11 METAL CHIP 1K 5% = 1/0W R2193 1-216-809-11 METAL CHIP 100 5% = 1/0W 
R2tt4 1-216-845-11 METAL CHIP 100K 5% = 10W R2194 1-216-817-11 METAL CHIP 470 5% = 1/0W 
R2115 1-216-845-11 METAL CHIP 100K 5% = 1/0W R2195 1-216-817-11 METAL CHIP 470 5% = 10W 
R2116 1-216-832-11 METAL CHIP 8.2K 5% = 1/0W R2196 1-216-817-11 METAL CHIP 470 5% = 1/0W 
R2118 1-216-821-11 METAL CHIP 1K 5% = TOW R2197 1-216-817-11 METAL CHIP 470 5% = 1/0W 
R2t21 1-216-809-11 METAL CHIP 100 5% = 1/0W R2198 1-216-853-11 METAL CHIP 470K 5% OW 
R2122 1-216-821-11 METAL CHIP 1K 5% = 10W R2199 1-216-853-11 METAL CHIP 470K 5% OW 
R2123 1-218-684-11 METAL CHIP 470 0.50% 1/10W 
R2124 1-216-821-11 METAL CHIP 1K 5% = 1/0W 
R2125 —1-218-702-11 METAL CHIP 27K 0.50% 1/0W Due to the complexity of this board, performing component level field 
R2130 4-216-805-11 METAL CHIP 47 5% — 110W repairs is not recommended. If service is required, complete board 
Rot31 —1-216825-11 -METALCHIP 22K 5% —1MOW replacement is the preferred repair method. 
RO1g —1-216-880-1 — METAL CHIP 10K 5% OW atalls provided for referonce only. 
R2133 1-218-674-11 METAL CHIP 180 0.50% 1/10W ‘A-1302-209-A_B BOARD, COMPLETE 
R2136—1-216-816-11 METAL CHIP 390 5% OW ae capeen Seige lca (eTis ONE 
R2137 1-218-700-11 METAL CHIP 22K 0.50% 1/10W 
R2138 1-216-809-11 METAL CHIP 100 5% = 1/0W CAPACITOR 
R2142 1-216-815-11 METAL CHIP 330 5% = 1/0W 
R2147 1-216-814-11 METAL CHIP 270 5% = 1/0W C3001 1-128-453-21 ELECT CHIP 47UF 20% © 6.3V 
C3002 1-128-453-21 ELECT CHIP 47UF 20% 6.3V 
R2148 1-218-710-11 METAL CHIP 5.6K 0.50% 1/10W C3003 1-128-453-21 ELECT CHIP 47UF 20% 6.3V 
R2149 1-216-817-11 METAL CHIP 470 5% = 1/0W C3035 1-162-970-11 CERAMIC CHIP O.01NF 10% © 25V 
R2150 1-216-821-11 METAL CHIP 1K 5% = 1/0W C3044 1-164-156-11 CERAMIC CHIP O.1UF 25 
R2151 1-218-698-11 METAL CHIP 1.8K 0.50% 1/10W 
R2152 1-218-694-11 METAL CHIP 1.2K 0.50% 1/10W C3089 1-162-970-11 CERAMIC CHIP O.01NF 10% 25V 
C3090 1-126-204-11 ELECT CHIP 47uF 20%  16V 
R2153 1-216-821-11 METAL CHIP 1K 5% = 10W C3096 1-162-970-11 CERAMIC CHIP O.01NF 10% © 25V 
R2155 1-216-837-11 METAL CHIP 22K 5% = 1/0W C3101 1-162-925-11 CERAMIC CHIP 68pF 5%  50V 
R2156 1-216-841-11 METAL CHIP 47K 5% = 10W C3102 1-162-925-11 CERAMIC CHIP 68pF 5%  50V 
R2157 1-216-825-11 METAL CHIP 22K 5% = 1/0W 





KP-46WT510 








REF.NO. PART NO. DESCRIPTION VALUES REF.NO. PART NO. DESCRIPTION VALUES 

C3301 1-164-156-11 CERAMIC CHIP O.1yF 25V C3347 1-164-156-11 CERAMIC CHIP O.1uF 25 
C3302 1-164-156-11 CERAMIC CHIP O.1,F 25V C3348 1-164-156-11 CERAMIC CHIP O.1uF 25V 
C3303 1-126-206-11 ELECT CHIP 100UF = 20% += 6.3 C3349 1-164-156-11 CERAMIC CHIP O.1uF 25 
C3304 1-164-156-11 CERAMIC CHIP O.1yF 25V C3350 1-164-156-11 CERAMIC CHIP O.1UF 25 
C3305 1-164-156-11 CERAMIC CHIP O.1,F 25 C3351 1-164-156-11 CERAMIC CHIP O.1yF 25 
C3306 1-126-204-11 ELECT CHIP 47yF 20%  16V C3352 1-124-779-00 ELECT CHIP 10uF 20%  16V 
C3307 1-164-156-11 CERAMIC CHIP O.1UF 25 (3353 1-126-204-11 ELECT CHIP 47uF 20%  16V 
C3308 1-164-156-11 CERAMIC CHIP O.1uF 25 C3354 1-164-156-11 CERAMIC CHIP O.1yF 25V 
C3309 1-126-206-11 ELECT CHIP 100UF = 20% += 6.3 (3355 1-164-156-11 CERAMIC CHIP O.1UF 25 
C3310 1-164-156-11 CERAMIC CHIP O.1UF 25 C3356 1-126-204-11 ELECT CHIP 47UF 20%  16V 
C3311 1-164-156-11 CERAMIC CHIP O.1uF 25V C3357 1-164-156-11 CERAMIC CHIP O.1pF 25V 
C3312 1-126-206-11 ELECT CHIP 100UF = 20%» 6.3 C3358 1-164-156-11 CERAMIC CHIP O.1UF 25V 
C3313 1-164-156-11 CERAMIC CHIP O.1yF 25 C3359 1-126-204-11 ELECT CHIP 47UF 20%  16V 
03314 1-164-156-11 CERAMIC CHIP O.1UF 25V C3360 1-164-156-11 CERAMIC CHIP O.1UF 25V 
C3315 1-164-156-11 CERAMIC CHIP O.1UF 25 C3361 1-162-970-11 CERAMIC CHIP O.01NF 10% 25V 
C3316 1-164-156-11 CERAMIC CHIP O.1pF 25 C3362 1-127-760-11 CERAMIC CHIP 47uF 10% 6.3V 
C3317 1-164-156-11 CERAMIC CHIP O.1UF 25V C3363 1-126-204-11 ELECT CHIP 47uF 20%  16V 
C3318 1-164-156-11 CERAMIC CHIP O.1,F 25V C3364 1-164-156-11 CERAMIC CHIP O.1yF 25 
C3319 1-164-156-11 CERAMIC CHIP O.1UF 25V C3365 1-164-156-11 CERAMIC CHIP O.1UF 25 
C3320 1-164-156-11 CERAMIC CHIP O.1yF 25V C3366 1-164-156-11 CERAMIC CHIP O.1uF 25V 
C3321 1-164-156-11 CERAMIC CHIP O.1UF 25 C3367 1-164-156-11 CERAMIC CHIP O.1F 25V 
C3322 1-126-204-11 ELECT CHIP 47uF 20%  16V C3368 1-164-156-11 CERAMIC CHIP O.1UF 25 
C3323 1-124-779-00 ELECT CHIP 10uF 20%  16V C3369 1-164-156-11 CERAMIC CHIP O.1uF 25V 
C3324 1-164-156-11 CERAMIC CHIP O.1UF 25V C3370 1-164-156-11 CERAMIC CHIP O.1UF 25 
C3325 1-164-156-11 CERAMIC CHIP O.1uF 25 03371 1-164-156-11 CERAMIC CHIP O.1UF 25V 
C3326 1-164-156-11 CERAMIC CHIP O.1yF 25 C3372 1-164-156-11 CERAMIC CHIP O.1yF 25V 
C3327 1-164-156-11 CERAMIC CHIP O.1uF 25 03373 1-162-915-11 CERAMIC CHIP 10pF 0.50pF 50V 
C3328 1-124-779-00 ELECT CHIP 10uF 20%  16V 03374 1-164-156-11 CERAMIC CHIP O.1uF 25 
C3329 1-107-826-11 CERAMIC CHIP O.1UF 10% 16V C3375 1-127-760-11 CERAMIC CHIP 47UF 10% 6.3V 
C3331 1-126-204-11 ELECT CHIP 47UF 20%  16V C3376 1-164-156-11 CERAMIC CHIP O.1yF 25V 
C3332 1-124-779-00 ELECT CHIP 10uF 20%  16V C3377 1-162-970-11 CERAMIC CHIP O.01NF 10% © 25V 
C3333 1-164-156-11 CERAMIC CHIP O.1UF 25V C3378 1-126-204-11 ELECT CHIP 47yF 20%  16V 
C3334 1-107-826-11 CERAMIC CHIP O.1yF 10%  16V C3379 1-164-156-11 CERAMIC CHIP O.1yF 25V 
C3335 1-164-156-11 CERAMIC CHIP O.1UF 25V C3401 1-164-156-11 CERAMIC CHIP O.1yF 25 
C3336 1-124-779-00 ELECT CHIP 10uF 20%  16V C3402 1-124-779-00 ELECT CHIP 10uF 20%  16V 
C3337 1-107-826-11 CERAMIC CHIP O.1,F 10% 16V C3403 1-164-156-11 CERAMIC CHIP O.1yF 25 
C3338 1-164-156-11 CERAMIC CHIP O.1UF 25V C3404 1-126-206-11 ELECT CHIP 100UF = 20% ~=— 6.3 
C3339 1-164-156-11 CERAMIC CHIP O.1UF 25V C3405 1-126-206-11 ELECT CHIP 100UF = 20% += 6.3 
C3340 1-164-156-11 CERAMIC CHIP O.1UF 25V C3406 1-107-826-11 CERAMIC CHIP O.1UF 10%  16V 
C3341 1-164-156-11 CERAMIC CHIP O.1pF 25 C3407 1-107-826-11 CERAMIC CHIP O.1yF 10%  16V 
C3343 1-164-156-11 CERAMIC CHIP O.1uF 25V C3408 1-126-206-11 ELECT CHIP 100UF = 20% += 6.38 
03344 1-164-156-11 CERAMIC CHIP O.1yF 25V C3409 1-164-156-11 CERAMIC CHIP O.1UF 25V 
C3345 1-126-204-11 ELECT CHIP 47yF 20%  16V C3410 1-164-156-11 CERAMIC CHIP O.1pF 25V 
C3346 1-164-156-11 CERAMIC CHIP O.1UF 25V C3411 1-164-156-11 CERAMIC CHIP O.1UF 25V 





—114— 


KP-46WT510 








REF.NO. PART NO. DESCRIPTION VALUES REFNO. PART NO. DESCRIPTION VALUES 
C3412 1-164-156-11 CERAMIC CHIP O.tF av C3458 1-164-156-11 CERAMIC CHIP O.AF av 
C3413. 1-164-156-11 CERAMIC CHIP O.ApF av 3460 1-162-923-11 CERAMIC CHIP 4IpF = 5% = BOV 
C3414 1-164-156-11 CERAMIC CHIP OF av 3462 1-164-156-11 CERAMIC CHIP O.AF av 
C3415 1-124-779-00 ELECT CHIP 10KF 20% + 16V C3463 1-164-156-11 CERAMIC CHIP O.ANF av 
C3416 1-164-156-11 CERAMIC CHIP O.AF av C3464 1-164-156-11 CERAMIC CHIP O.AF av 
C3417 1-164-156-11 CERAMIC CHIP Our av C3465 1-164-156-11 CERAMIC CHIP O.AF av 
C3418 1-107-826-11 CERAMIC CHIP OAuF 10% = 16V C3466 1-164-156-11 CERAMIC CHIP O.AUF av 
C3419 1-164-156-11 CERAMIC CHIP OF ov C3467 1-164-156-11. CERAMIC CHIP O.AF av 
3420 1-124-779-00 ELECT CHIP 10uF 20% + 16V C3468 1-126-206-11 ELECT CHIP 100uF 20% + 6.3V 
C3421 1-164-156-11 CERAMIC CHIP OF av C3469 1-164-156-11 CERAMIC CHIP O.AUF av 
63422 1-164-156-11 CERAMIC CHIP OF av C3470 1-126-206-11 © ELECT CHIP 100uF 20% + 6.3V 
63423. 1-162-970-11 CERAMIC CHIP O.01NF 10% © 25V C3473. 1-164-156-11 CERAMIC CHIP OF av 
C3424 1-164-156-11 CERAMIC CHIP OF av C3474 1-124-779-00 ELECT CHIP 10uF 20% = 16V 
63425 1-125-891-11 CERAMIC CHIP OATHF 10% —10V C3475 1-164-156-11 CERAMIC CHIP O.ANF av 
C3426 1-164-156-11 CERAMIC CHIP OF av 63476 1-124-779-00 ELECT CHIP 10KF 20% + 16V 
3428 1-107-826-11 CERAMIC CHIP OApF 10% = 16V C3477 1-164-156-11 CERAMIC CHIP O.ApF av 
3429 1-124-779-00 ELECT CHIP 10uF 20% + 16V C3478 1-126-204-11 ELECT CHIP 4TUF 20% 16V 
3430 1-164-156-11 CERAMIC CHIP O.AF av C3479 1-124-779-00 ELECT CHIP 10uF 20% + 16V 
C3431 1-126-204-11 ELECT CHIP 4TUF 20% 16V 3480 1-164-156-11 CERAMIC CHIP OUP av 
3432 1-164-156-11 CERAMIC CHIP OF av C3481 1-117-681-11 ELECT CHIP 100uF 20% + 16V 
63433. 1-162-970-11 CERAMIC CHIP O.01NF 10% —25V 3482 1-117-681-11 ELECT CHIP 100uF 20% 16V 
C3434 1-126-204-11 ELECT CHIP 4TuF 20% 16V 3483. 1-117-681-11 ELECT CHIP 100uF 20% + 16V 
C3435 1-164-156-11 CERAMIC CHIP O.tF av C3484 1-125-837-91 CERAMIC CHIP tuF = 10% = 6.3V 
63436 1-107-826-11 CERAMIC CHIP OAuF 10% 16V 3485 1-164-156-11 CERAMIC CHIP OF av 
63437 1-126-204-11 ELECT CHIP 4TuF 20% 16V 3486 1-164-156-11 CERAMIC CHIP O.AF av 
63438 1-164-156-11 CERAMIC CHIP OF av C3487 1-164-156-11 CERAMIC CHIP OF av 
3439 1-164-156-11 CERAMIC CHIP O.AUF av 3488 1-124-779-00 ELECT CHIP 10KF 20% + 16V 
C3440 1-162-916-11 CERAMIC CHIP 1epF 5% = 50V C3489 1-164-156-11 CERAMIC CHIP O.ApF av 
C3d41 —1-162-916-11 CERAMIC CHIP 1apF 5% = 50V 3490 1-124-779-00 ELECT CHIP 10WF 20% + 16V 
C3442 1-124-779-00 ELECT CHIP 10KF 20% = 16V C34g11-126-204-11 ELECT CHIP 4TUF 20% = 16V 
C3443 1-162-970-11 CERAMIC CHIP O.01NF 10% © 25V C3492 1-164-156-11 CERAMIC CHIP O.ApF av 
C3444 1-164-156-11 CERAMIC CHIP O.AF av 3493 1-126-204-11 ELECT CHIP 4TuF 20% 16V 
C3445 1-126-204-11 ELECT CHIP 4TuF 20% 16V C3494 1-164-156-11 CERAMIC CHIP O.AF av 
C3446 1-107-826-11 CERAMIC CHIP OAuF 10% = 16V 3495 1-124-779-00 ELECT CHIP 10KF 20% + 16V 
C3447 1-164-156-11 CERAMIC CHIP O.AF av C3496 1-164-156-11 CERAMIC CHIP OAR av 

3499 1-162-970-11 CERAMIC CHIP O.01NF 10% —25V 
C3448 1-162-970-11 CERAMIC CHIP O.01NF 10% 25V 
C3449 1-164-156-11 CERAMIC CHIP OF av CONNECTOR 
C3450 1-164-156-11 CERAMIC CHIP OF av : 
Cleo SHS Sik. “CERAMIC CHIP ONE me CN32031-793-923-11 CONNECTOR, DIN (PLUG) e4P 
63453 1-124-779-00 ELECT CHIP 10KF 20% + 16V 

DIODE 

C3454 1-164-156-11 CERAMIC CHIP OF av 3089 8:719-06251 DIODE 1P9226-115 
63455 1-124-779-00 ELECT CHIP 10KF 20% + 16V 3090 8719-06251 DIODE 4P9226-115 
C3456 1-164-156-11 CERAMIC CHIP OF av 3099 «8-719-988-61 DIODE 18S355TE-17 
C3457 1-124-779-00 ELECT CHIP 1QuF 20% © 16V 3301 8:719-083-58 DIODE UDZSTE-173.98 





—115— 


KP-46WT510 











REF.NO. PART NO. DESCRIPTION VALUES REFNO. PART NO. DESCRIPTION VALUES 
03302 8-719-069-60 DIODE UDZSTE-179.1B COIL 
03401 8-719-914-43 DIODE DAN202K 
3402 «8719-91444 DIODE DAP202K ESOT AE Te “OT Ctl 
3403 -—«8-719-978-33 DIODE DIZTTH1-6.88 ES Cea, SPEAR ou 
13102 1-412-946-11 INDUCTOR 3.9UH 
FERRITE BEAD 13301 1-412-058-11 INDUCTOR 10yH 
13302 1-469-555-21 INDUCTOR 10,H 
FB3302 —1-500-451-11 FERRITE OuH 
FB3303 —1-469-110-21 FERRITE OH 13303 1-412-052-21 INDUCTOR 1pH 
FB3401 —-1-414-235-22 FERRITE OH 13304 1-469-555-21 INDUCTOR 10yH 
FB3402 —1-414-235-22 FERRITE OH 13305, 1-469-555-21 INDUCTOR 10yH 
13306 1-469-561-21 INDUCTOR 100H 
FILTER 13307 1-469-555-21 INDUCTOR 10,H 
FL3003 1-781-924-21 FILTER, LOW PASS (SMD) L330 1-489-561-21 INDUCTOR ‘00H 
FL3301  1-284-868-21 _FILTER, LOW PASS. 3309 1489561-21 INDUCTOR ‘00H 
FL3302 1-284-667-21_FILTER, LOW PASS. 3310 1.489561-21 INDUCTOR ‘00H 
F303 1-284-587-21_FILTER, LOW PASS. lait 1.489561-21 INDUCTOR ‘00H 
FL3401 1-781-923-21 _FILTER, LOW PASS (SMD) 3312148955521 INDUCTOR ‘0 
& 13401 1-412-058-11 INDUCTOR 10uH 
Ic30gg 6-700-149-01 IC M24C04-MNGT(A) 13402 1-412-052-21 INDUCTOR ApH 
Ic3090  6-802-930-01 IC MB94918RpF-G-161-BND 13403 1-469-561-21 INDUCTOR 100pH 
Ic30918-759-349-11 IC PSTO145NL 13404 1-469-561-21 INDUCTOR 100yH 
IC3301 8-759-663-74 IC HYS7V161610DTC-77R L34051-469-585-21 INDUCTOR 10H 
13302 8-759-832-05 Ic BA18BCOFP-E2 
13406 1-469-555-21 INDUCTOR 10yH 
1C33038-752-409-78 IC CxD2095AQ 13407 1-469-555:21 INDUCTOR 10H 
IC3304 8-759-447-90 IC TLC5733A1PM 13409 1-469-555:21 INDUCTOR 10H 
1C3305  8-759-669-75. IC TLC29321PWR 13410 1-412-058-11_ INDUCTOR 10H 
Ic3306 8-759-669-78 IC TLC29331PWR-12 L34it1-412-058-11 INDUCTOR 10H 
13401 6-700-394-01 Ic BA25BCOFP-E2 
13412 1-469-555-21 INDUCTOR 10uH 
Ic3402 6-703-430-01 IC MT48LC2M32B2TG-6-YoqW 13413 1-469-555:21 INDUCTOR 10H 
103403 8-759-460-29 IC PST9120NL L34141-469-555:21 INDUCTOR 10H 
IC3404 8-759-669-75. IC TLC29321PWR 13416 1-469-555:21 INDUCTOR 10H 
103405 8-759-485-79 Ic TC7SETOSFU(TES5L) 
103406 8-759-485-79 IC TC7SETO8FU(TE8SL) TRANSISTOR 
3005 8-729-120-28 TRANSISTOR 28C1623-L5L6 
oy, Se. TGPSETOBEUTERSL) 03006 8-729-120-28 ‘TRANSISTOR 28C1623-L5L6 
ICME: Sra BIE ST NG CHDRBING 09007 8-729-120-28 ‘TRANSISTOR 28C1628-516 
ae: TES NINESTOFZORIES 03089 8-729:026-49 TRANSISTOR 2SATOGTAK-T146-R 
MOE SIS. oe ee 03090 8-729.026-49 TRANSISTOR 2SATOSTAK-T146-R 
13411 8-759-082-57 Ic TC7WO4FU 
03091 1-801-806-11. TRANSISTOR DTCI44EKA 
ela Aicdcckes am TOTWwoRrU 03301 8-729-120-28 TRANSISTOR 28C1623-L5L6 
MS Bremer on 3302 8-729-120-28 ‘TRANSISTOR 28C1623-L5L6 
I: PISS SRS Ke MpeOsoEP 03303 8-729-120-28 ‘TRANSISTOR 28C1623-L5L6 
3304 8-729-120-28 TRANSISTOR 28C1623-L5L6 
3305 8-729-026-49 TRANSISTOR 2SA1037AK-T146-R 
3306 8-729-026-49 TRANSISTOR 2SA1037AK-T146-R 


—116— 


KP-46WT510 











REFNO. PART NO. DESCRIPTION VALUES REFNO. PART NO. DESCRIPTION VALUES 
3307 8-729-120-28 TRANSISTOR 28C1623-L5L6 R3101 1-216-809-11 METAL CHIP 100 5% = 10W 
3308 8-729-026-49 TRANSISTOR 2SA1037AK-T146-R R3102 1-216-809-11 METAL CHIP 100 5% = 10W 
3309 8-729-120-28 TRANSISTOR 28C1623-L5L6 R3103 1-216-822-11 METAL CHIP 1.2K 5% = 10W 
Q3310 8-729-026-49 TRANSISTOR 2SA1037AK-T146-R R3104 1-216-809-11 METAL CHIP 100 5% = 10W 
3311 8-729-120-28 TRANSISTOR 28C1623-L5L6 R3105 1-216-809-11 METAL CHIP 100 5% = 10W 
3401 8-729-120-28 TRANSISTOR 28C1623-L5L6 R3106 1-216-818-11 METAL CHIP 560 5% = 10W 
3402 8-729-028-28 TRANSISTOR 28K2036(TEB5L) R3107 1-216-864-11 SHORT CHIP 
3403 8-729-120-28 TRANSISTOR 28C1623-L5L6 R3108 1-216-817-11 METAL CHIP 470 5% = 10W 
3404 8-729-028-28 TRANSISTOR 28K2036(TEB5L) R3109 1-216-823-11 METAL CHIP 1.5K 5% = 10W 
3405 8-729-026-49 TRANSISTOR 2SA1037AK-T146-R R3110 1-216-809-11 METAL CHIP 100 5% = 10W 
3406 8-729-026-49 TRANSISTOR 2SA1037AK-T146-R R3t11 1-216-809-11 METAL CHIP 100 5% = 10W 
3407 8-729-120-28 TRANSISTOR 28C1623-L5L6 R3301 1-216-809-11 METAL CHIP 100 5% = 10W 
3408 8-729-026-49 TRANSISTOR 2SA1037AK-T146-R R3302 1-216-817-11 METAL CHIP 470 5% = 10W 
3409 8-729-120-28 TRANSISTOR 28C1623-L5L6 R3303 1-218-710-11 METAL CHIP 5.6K 0.50% 1/10W 
3410 8-729-026-49 TRANSISTOR 2SA1037AK-T146-R R3304 1-216-809-11 METAL CHIP 100 5% = 10W 
3411 8-729-026-49 TRANSISTOR 2SA1037AK-T146-R R3305 1-216-809-11 METAL CHIP 100 5% = 10W 
Q3412 8-729-026-49 TRANSISTOR 2SA1037AK-T146-R R3306 1-216-809-11 METAL CHIP 100 5% = 10W 
3413 8-729-026-49 TRANSISTOR 2SA1037AK-T146-R R3307 1-216-864-11 SHORT CHIP 
Q3414 8-729-026-49 TRANSISTOR 2SA1037AK-T146-R R3308 1-216-864-11 SHORT CHIP 
Q3415 8-729-026-49 TRANSISTOR 2SA1037AK-T146-R R3309 1-218-662-11 METAL CHIP 56 0.50% 1/10W 
RESISTOR R3310 1-218-662-11 METAL CHIP 56 0.50% 1/10W 
3001 4216-89311 METAL CHIP 10K 5% tow R33tt 1-218-662-11 METAL CHIP 56 0.50% 1/10W 
se R3312 1-218-662-11 METAL CHIP 56 0.50% 1/10W 
bee ieee Frese: a nee ies RO313—1-216-895-11  METAL CHIP 1K 5% 1/OW 
7 R3314 1-218-665-11 METAL CHIP 1) 0.50% 1/10W 
R3022 1-216-809-11 METAL CHIP 100 5% = 10W 
PRES. ~SPRIE SST” = -METALCHI ie See o1AOW, ROB15—1-216895-11 METAL CHIP 1K 5% AOW 
3035 4216-80911 METAL CHIP 100 5% 1/10 R3316 1-218-664-11 METAL CHIP 68 0.50% 1/10W 
Ra036 1.216-809-11 METAL CHIP 100 5%  1hOW R3317 1-218-664-11 METAL CHIP 68 0.50% 1/10W 
3037 4216-80911 METAL CHIP 100 5% +H0W R3318 1-218-665-11 METAL CHIP 1) 0.50% 1/10W 
° R3319 1-218-662-11 METAL CHIP 56 0.50% 1/10W 
R3038 1-218-686-11 METAL CHIP 560 0.50% 1/10W 
R3039 1-218-686-11 METAL CHIP 560 0.50% 1/10W 3320 1-218-662-11 METAL CHIP 56 0.50% 10W 
3040 4.218-686-1 METAL CHIP 560 050% 1/10W R3321 1-218-662-11 METAL CHIP 56 0.50% 1/10W 
3050 4.216-809-1 METAL CHIP 100 5% +H0W R3322 1-218-662-11 METAL CHIP 56 0.50% 1/10W 
3079 4-216-801-11 METAL CHIP 1K 5% +H0Ww R3323 1-216-825-11 METAL CHIP 2.2K 5% = 10W 
: 9324 1-216-827-11 METAL CHIP 33K 5% 110W 
R3089 1-216-864-11 SHORT CHIP 
POEL Pale METS. BOK 9 Shoe OW F9825—1-216827-11 METAL CHIP 33K 5% 1110 
3092 4216-80541 METAL CHIP 20K 5% 1/10 R3326 1-216-825-11 METAL CHIP 2.2K 5% = 10W 
3095 1-216-845-11 METAL CHIP 100k 5% s/0W pcs tee a 5 Sh ae 
R3096 © 1-216-817-11 METAL CHIP 470 «5% = 1/0W Be eal, cee ae 
R3329 1-216-815-11 METAL CHIP 330 5% = 10W 
R3097 1-216-845-11 METAL CHIP 100K 5% = 10W 
Fan Lee ie MERE CUle a = css ali R9330 1-216815-11 METAL CHIP 330 5% 1/10 
3099 4-216-805-11 METAL CHIP "7 5% tow R3331 1-216-841-11 METAL CHIP 47K 5% = 10W 
3100 4.216-809-1 METAL CHIP 100 py 1H0W R3332 1-218-709-11 METAL CHIP 5.1K 0.50% 1/10W 
4 9333 1-216:864-11 SHORT CHIP 





—117— 


KP-46WT510 








REF.NO. PART NO. DESCRIPTION VALUES REF.NO. PART NO. DESCRIPTION VALUES 

R3334 1-216-809-11 METAL CHIP 100 5% = TOW R3383 1-216-817-11 METAL CHIP 470 5% = 1/0W 
R3335 1-216-833-11 METAL CHIP 10K 5% = 1/0W R3384 1-216-809-11 METAL CHIP 100 5% = 10W 
R3337 1-216-820-11 METAL CHIP 820 5% = 10W R3410 1-216-833-11 METAL CHIP 10K 5% = 1/0W 
R3338 1-216-821-11 METAL CHIP 1K 5% = 1/0W R3421 1-216-864-11 SHORT CHIP 

R3339 1-216-855-11 METAL CHIP 680K 5% = 1/0W R3422 1-216-864-11 SHORT CHIP 

R3340 1-216-855-11 METAL CHIP 680K 5% = 10W R3423 1-216-813-11 METAL CHIP 220 5% = 1/0W 
R3341 1-216-813-11 METAL CHIP 220 5% = 1/0W R3428 1-216-803-11 METAL CHIP 33 5% = 10W 
R3342 1-218-705-11 METAL CHIP 3.6K 0.50% 1/10W R3429 1-216-823-11 METAL CHIP 1.5K 5% = 1/0W 
R3343 1-216-809-11 METAL CHIP 100 5% = 10W R3432 1-216-815-11 METAL CHIP 330 5% = 10W 
R3344 1-216-853-11 METAL CHIP 470K 5% = 10W R3434 1-216-809-11 METAL CHIP 100 5% = 1/0W 
R3345 1-218-704-11 METAL CHIP 3.3K 0.50% 1/10W R3445 1-216-864-11 SHORT CHIP 

R3346 1-216-809-11 METAL CHIP 100 5% = 1/0W R3446 1-216-821-11 METAL CHIP 1K 5% = 10W 
R3347 1-216-815-11 METAL CHIP 330 5% = 10W R3447 1-216-819-11 METAL CHIP 680 5% = 1/0W 
R3348 1-216-864-11 SHORT CHIP R3448 1-216-855-11 METAL CHIP 680K 5% = 1/0W 
R3349 1-218-687-11 METAL CHIP 620 0.50% 1/10W R3452 1-216-864-11 SHORT CHIP 

R3350 1-216-814-11 METAL CHIP 270 5% = 1/0W R3454 1-216-825-11 METAL CHIP 2.2K 5% = 1/0W 
R3351 1-216-825-11 METAL CHIP 22K 5% = 1/0W R3460 1-216-833-11 METAL CHIP 10K 5% = 1/0W 
R3352 1-216-853-11 METAL CHIP 470K 5% = TOW R3461 1-216-833-11 METAL CHIP 10K 5% = 1/0W 
R3353 1-216-837-11 METAL CHIP 22K 5% = 10W R3464 1-216-821-11 METAL CHIP 1K 5% = TOW 
R3354 1-216-813-11 METAL CHIP 220 5% = 1/0W R3465 1-216-821-11 METAL CHIP 1K 5% = 10W 
R3355 1-216-821-11 METAL CHIP 1K 5% = 10W R3467 1-216-821-11 METAL CHIP 1K 5% = 10W 
R3356 1-216-819-11 METAL CHIP 680 5% = 1/0W R3470 1-216-809-11 METAL CHIP 100 5% = 10W 
R3357 1-218-676-11 METAL CHIP 220 0.50% 1/10W R3471 1-216-821-11 METAL CHIP 1K 5% = 1/0W 
R3358 1-218-676-11 METAL CHIP 220 0.50% 1/10W R3472 1-216-801-11 METAL CHIP 22 5% = 10W 
R3359 1-218-676-11 METAL CHIP 220 0.50% 1/10W R3475 1-216-809-11 METAL CHIP 100 5% = 10W 
R3360 1-216-827-11 METAL CHIP 3.3K 5% = 1/0W R3476 1-216-821-11 METAL CHIP 1K 5% = 1/0W 
R3361 1-216-825-11 METAL CHIP 22K 5% = 1/0W R3477 1-218-701-11 METAL CHIP 24K 0.50% 1/10W 
R3364 1-216-864-11 SHORT CHIP R3478 1-216-821-11 METAL CHIP 1K 5% = 1/0W 
R3365 1-216-827-11 METAL CHIP 3.3K 5% = 1/0W R3483 1-218-701-11 METAL CHIP 24K 0.50% 1/10W 
R3366 1-216-825-11 METAL CHIP 22K 5% = 1/0W R3484 1-216-821-11 METAL CHIP 1K 5% = 1/0W 
R3367 1-216-803-11 METAL CHIP 33 5% = 1/0W R3485 1-216-821-11 METAL CHIP 1K 5% = 1/0W 
R3369 1-216-864-11 SHORT CHIP R3486 1-216-801-11 METAL CHIP 22 5% = 10W 
R3371 1-218-686-11 METAL CHIP 560 0.50% 1/10W R3489 1-216-864-11 SHORT CHIP 

R3372 1-216-817-11 METAL CHIP 470 5% = 1/0W R3490 1-216-864-11 SHORT CHIP 

R3373 1-216-817-11 METAL CHIP 470 5% = 1/0W R3491 1-216-821-11 METAL CHIP 1K 5% = 10W 
R3374 1-216-809-11 METAL CHIP 100 5% = 1/0W R3492 1-216-821-11 METAL CHIP 1K 5% = 1/0W 
R3375 1-218-686-11 METAL CHIP 560 0.50% 1/10W R3493 1-218-701-11 METAL CHIP 24K 0.50% 1/10W 
R3376 1-218-710-11 METAL CHIP 5.6K 0.50% 1/10W R3495 1-216-821-11 METAL CHIP 1K 5% = TOW 
R3377 1-216-817-11 METAL CHIP 470 5% = 1/0W R3496 1-216-801-11 METAL CHIP 22 5% = TOW 
R3378 1-216-817-11 METAL CHIP 470 5% = 1/0W R3497 1-216-829-11 METAL CHIP 47K 5% = 1/0W 
R3379 1-216-809-11 METAL CHIP 100 5% = 1/0W R3498 1-216-818-11 METAL CHIP 560 5% = 1/0W 
R3380 1-218-686-11 METAL CHIP 560 0.50% 1/10W R3499 1-216-821-11 METAL CHIP 1K 5% = 10W 
R3381 1-218-710-11 METAL CHIP 5.6K 0.50% 1/10W R3501 1-216-821-11 METAL CHIP 1K 5% = 1/0W 
R3382 1-216-864-11 SHORT CHIP R3502 1-216-821-11 METAL CHIP 1K 5% = 1/0W 





—118— 


KP-46WT510 








REFNO. PART NO. DESCRIPTION VALUES REFNO. PART NO. DESCRIPTION VALUES 
R3503 1-216-821-11 METAL CHIP 1K 5% = 10W R3839 1-218-670-11 METAL CHIP 120 0.50% 1/10W 
R3504 1-216-821-11 METAL CHIP 1K 5% = 1/10W R3840 1-216-803-11 METAL CHIP 2] 5% = 10W 
R3505, 1-216-821-11 METAL CHIP 1K 5% = 10W R3841 1-218-670-11 METAL CHIP 120 0.50% 1/10W 
R3506 1-216-821-11 METAL CHIP 1K 5% = 1/10W R3842 1-218-689-11 METAL CHIP 750 0.50% 1/10W 
R3507 1-216-821-11 METAL CHIP 1K 5% == 10W R3846. 1-216-801-11 METAL CHIP 22 5% = 10W 
R3508 1-216-821-11 METAL CHIP 1K 5% = 10W R3847 1-216-801-11 METAL CHIP 22 5% = 1/10W 
R3509 1-216-821-11 METAL CHIP 1K 5% = 110W R3848- 1-216-825-11 METAL CHIP 2.2K 5% = 1/10W 
R3510 1-216-821-11 METAL CHIP 1K 5% = 1/10W R3849 1-218-675-11 METAL CHIP 200 0.50% 1/10W 
R3511 1-216-821-11 METAL CHIP 1K 5% = 1/10W R3850 1-218-675-11 METAL CHIP 200 0.50% 1/10W 
R3512 1-216-821-11 METAL CHIP 1K 5% = 1/0W R3851 1-216-809-11 METAL CHIP 100 5% = 1/10W 
R3800 1-216-864-11 SHORT CHIP R3852 1-218-675-11 METAL CHIP 200 0.50% 1/10W 
R3802 1-218-678-11 METAL CHIP 270 0.50% 1/10W R3854 1-216-825-11 METAL CHIP 2.2K 5% = 10W 
R3803 1-218-678-11 METAL CHIP 270 0.50% 1/10W 3857, 1-216-809-11 METAL CHIP 100 5% = 1/10W 
3804, 1-218-678-11 METAL CHIP 270 0.50% 1/10W R3858. 1-218-704-11 METAL CHIP 3.3K 0.50% 1/10W 
R3805, 1-218-678-11 METAL CHIP 270 0.50% 1/10W R3862 1-216-825-11 METAL CHIP 2.2K 5% = 1/0W 
R3807 1-218-670-11 METAL CHIP 120 0.50% 1/10W R3863 1-218-700-11 METAL CHIP 2.2K 0.50% 1/10W 
R3808 1-218-670-11 METAL CHIP 120 0.50% 1/10W 3864, 1-216-827-11 METAL CHIP 3.3K 5% = 1/10W 
R3809 1-218-670-11 METAL CHIP 120 0.50% 1/10W R3865, 1-216-809-11 METAL CHIP 100 5% = 10W 
R3810 1-218-670-11 METAL CHIP 120 0.50% 1/10W R3866 1-414-234-22 FERRITE OuH 
R3811 1-216-809-11 METAL CHIP 100 5% = 10W R3867 1-414-234-22 FERRITE OH 
R3812 1-216-809-11 METAL CHIP 100 5% = 1/10W R3868 1-414-234-22 FERRITE OH 
R3813 1-216-809-11 METAL CHIP 100 5% = 110W R3869 1-218-719-11 METAL CHIP 13K 0.50% 1/10W 
R3814 1-218-644-11 METAL CHIP 10 0.50% 1/10W R3870 1-218-719-11 METAL CHIP 13K 0.50% 1/10W 
R3815, 1-218-648-11 METAL CHIP 15 0.50% 1/10W R3871 1-218-719-11 METAL CHIP 13K 0.50% 1/10W 
R3816. 1-218-652-11 METAL CHIP 22 0.50% 1/10W R3881 1-216-807-11 METAL CHIP 68 5% = 10W 
R3817 1-218-652-11 METAL CHIP 22 0.50% 1/10W R3882 1-216-807-11 METAL CHIP 68 5%  — 10W 
R3820 1-218-684-11 METAL CHIP 470 0.50% 1/10W R3883. 1-216-807-11 METAL CHIP 68 5% = 10W 
R3821 1-218-684-11 METAL CHIP 470 0.50% 1/10W R3915, 1-218-644-11 METAL CHIP 10 0.50% 1/10W 
R3822 1-218-684-11 METAL CHIP 470 0.50% 1/10W R3916. 1-218-644-11 METAL CHIP 10 0.50% 1/10W 
R3823 1-216-826-11 METAL CHIP 2.7K 5% = 1/10W R3917 1-218-644-11 METAL CHIP 10 0.50% 1/10W 
R3824, 1-216-826-11 METAL CHIP 2.7K 5% = 1/10W R3933 1-216-864-11 SHORT CHIP 
R3825, 1-216-826-11 METAL CHIP 2.7K 5% = 1/10W R3937 1-216-809-11 METAL CHIP 100 5% = 10W 
R3826 1-216-809-11 METAL CHIP 100 5% = 10W R3953 1-216-821-11 METAL CHIP 1K 5% = 10W 
R3828 1-218-684-11 METAL CHIP 470 0.50% 1/10W 3954, 1-216-821-11 METAL CHIP 1K 5% = 1/0W 
R3829 1-218-684-11 METAL CHIP 470 0.50% 1/10W 3955, 1-216-821-11 METAL CHIP 1K 5% = 10W 
R3830 1-218-684-11 METAL CHIP 470 0.50% 1/10W R3956 1-216-825-11 METAL CHIP 2.2K 5% = 1/10W 
R3831 1-216-864-11 SHORT CHIP R3957 1-216-825-11 METAL CHIP 2.2K 5% = 1/10W 
R3832 1-216-864-11 SHORT CHIP R3958- 1-216-825-11 METAL CHIP 2.2K 5% = 10W 
R3833 1-216-864-11 SHORT CHIP 
P3634 1-218-678-11 METAL CHIP 270 0.50% 1/10 RESISTOR BRIDGE 
R935 1-218-678-11 METAL CHIP 270 0.50% 110 FEROS RRS (6). RES, CHE NETWORK 100 
R936 1-218-678-11 METAL CHIP 270 050% 1/10W PESOS eae Tel: ¢ “RES. CHE NE ORK 00 
P3637 1-218-678-11 METAL CHIP 270 0.50% 1/10 BBRDE.. «ese ore Iie “RES, CHENETHORK ‘0 
9838 1-218-678-11 METAL CHIP 270 0.50% 1H0W BRST | corel): AES CAE NE IMOR 00 

RB301 —1-234524-21 RES, CHIP NETWORK 3 





—119— 


NOTE: The components identified by shading 
mark are critical for safety. Replace only 


and 


with part number specified. 


NOTE: Les composants identifies per un trame et une 
marque A\ sont critiques pour la securite. Ne les 


remplacer que par une piece portant le numero specifie. 








KP-46WT510 


[DI 








REF.NO. PART NO. DESCRIPTION VALUES REFNO. PART NO. DESCRIPTION VALUES 
RB3O2 — 1-234524-21 RES, CHIP NETWORK 3 e009 1-162-970-1 CERAMICCHIP. «= OLOIF 10% 25V 
RB3O3 — 1-234524-21 RES, CHIP NETWORK 3 ceoio —1-136-177-00 FILM tu 5% OV 
RB3O4 —1-234524-21 RES, CHIP NETWORK 3 cei] = 1-162-927-11 CERAMICCHIP. §=—100F 5% = 50V 
RB3O5 — 1-234524-21 RES, CHIP NETWORK 3 ca012 © 1-162-970-1 CERAMICCHIP = OLOIF 10% 25V 
RB3MO8 —1-234524-21 RES, CHIP NETWORK 3 C8013 1-462-927-11 CERAMICCHIP =—100pF 5% = SOV 
RB307 1-239-409-11 NETWORKRESISTOR(CHIP) 47 ca0t4 = 1404685-11 ELECT 100uF 20% 25V 
RB308 1-239-409-11 NETWORKRESISTOR(CHIP) 47 CaOts = 1-126-96-11 ELECT QF 20% 50V 
RB309 1-239-409-11 -NETWORKRESISTOR(CHIP) 47 cats «= 1-404665-11 ELECT 100uF 20% © 25V 
RB3M10 1-239-409-11 NETWORKRESISTOR(CHIP) 47 C8017 = 1-162-964-11 CERAMICCHIP »=—OLODIWE 10% 50V 
RB311  1-239-400-11 NETWORKRESISTOR(CHIP) 47 cats 1-126-964-11 —ELECT 1OuF 20% 50V 
RB312 1-239-400-11 NETWORKRESISTOR(CHIP) 47 ce019 —1-162-927-11 CERAMICCHIP = 100pF 5% SOV 
RB321 1-233576-11 RES, CHIP NETWORK 400 e020 1-162-927-11 CERAMICCHIP =—=«100F 5% SOV 
RB3422 1-233576-11 RES, CHIP NETWORK 400 e023 1-106-220-00 -MYLAR OWE 10% 100 
RB34231-233576-11 RES, CHIP NETWORK 400 cenzs = 1-197-372-11 ~— MYLAR O.022NF 5% —50V 
RB3424 1-233576-11 RES, CHIP NETWORK 400 e025 1-126-968-11 —ELECT 100uF 20% 50V 
RB3425 1-233576-11 RES, CHIP NETWORK 400 ceozs «= 1-126-968-11 —ELECT 100uF 20% 50V 
RB3426 1-233576-11 RES, CHIP NETWORK 400 cans) 1-126-968-11 —ELECT 100uF 20% SOV 
RB327 1-233576-11 RES, CHIP NETWORK 400 e029 1-126-968-11 —ELECT 100uF 20% 50V 
RB3428 1-233576-11 RES, CHIP NETWORK 400 ceost = 1-107-636-11 —ELECT 1OuF 20% 160V 
e032 1-126-968-11 —ELECT 100uF 20% 50V 
CRYSTAL 
e033 1-126-968-11 —ELECT 100uF 20% 50V 
YONG HIE-G0G 21 VIBRATOR, CERAMIC ca034 = 1-162-927-11  CERAMICCHIP = 100pF «5% © 50V 
X40 4-781-887-21— VIBRATOR, CRYSTAL C8085 «= 1-162927-11  CERAMICCHIP = 100pF «5% © 50V 
ce0ss = 1-126968-11 —ELECT 100uF 20% SOV 
ce0s7 = 1-126-968-11 —ELECT 100uF 20% 50V 
A AAQIAG-A” DBOARD, COMPLETE 8040 1-115.349-51 CERAMIC O.01uF 2KV 
f (SERIAL 8,700,001 AND UP and #6 100,001 ANUP) cals! = 1-162-927-11 CERAMICCHIP = 100pF «5% © 50V 
ea AASLT0GA DBOARD, COMPLETE ca042 © 116292711 CERAMICCHIP = 100pF«5% © 50V 
(SERIAL 8,000,004 TO 6,099,999 and # 9,000,001 TO 9,099,999) foie. SCiMea) v HECT ahF OK Sv 
43RSH-1T SCREW (MEX10},P, SW (4) cals 1-126-965.91 ELECT QF 20% 50V 
‘ 7651-00050 GREASE SILICON (G-746) 2006 
CREB | SCRENAPSHSNG C8047 1-462974-11 —CERAMICCHIP.=—O.O1yF ov 
The high voltage leads associated with the FBT on the D board are caods —1-126-965-91 ELECT 24F 20% 50V 
not included and must be ordered separately. Order the following 9049 4-162-974-11 CERAMIC CHIP O0tur 50V 
leads when requesting this D boar: 8060 1-126-965.91 ELECT QF 20% 50V 
A ieee) US SERIE ie Abe canst —1-162:318-11 CERAMIC O.00tyF 10%  500V 
A 4-900-26040 CONNECTOR ASSY, MV 
C8052 © 1-126-965-91 ELECT ZF 0% 50V 
CAPACITOR C8063 1-162-974-11 —CERAMICCHIP. «(OAL 50V 
ceoot 4497-37-11 MYLAR onze 5% SOV C8054 1-162974-11 —CERAMICCHIP.=—(O.OTy. 50V 
e002 1-162-927-11 CERAMIC CHIP 100pF 5% = 50V C8055 —1-164-156-11 CERAMIC CHIP O.1pF 25V 
8003 1-162-927-11 CERAMIC CHIP 100pPF 5% © 50V C8056 1-107-652-11 ELECT 10uF = 20% = 250V 
e004» 1-104866-11 —ELECT OF 20% 25V 
ca00s «= 4-426-04061 ‘ELECT ‘00,F 20% 25V C8057 = 1-126-959-11 —ELECT OE 20% 50V 
C8058 1-164-230-11 CERAMICCHIP. == (200F 5% SOV 
caus 4-4a6-040-61 ‘ELECT {00,F 20% 25 C8059 —«1-127-715-91 CERAMICCHIP «=u 10% 16V 
8007 1-162-927-11 CERAMIC CHIP 100pF «5% = 50V C8060 1-104-665-11 ELECT 100uF 20% © 25V 
e008 = 1-162-927-11 CERAMICCHIP. §=—«100F 5% = SOV 


—120— 


NOTE: The components identified by shading 
and A\ mark are critical for safety. Replace only 
with part number specified. 


NOTE: Les composants identifies per un trame et une, 
marque Z\ sont critiques pour la securite. Ne les 
remplacer que par une piece portant le numero specifie. 


KP-46WT510 


(D) 








—121— 


REF.NO. PART NO. DESCRIPTION VALUES REF.NO. PART NO. DESCRIPTION VALUES 
C8061 1-107-826-11 CERAMIC CHIP O.1uF 10%  16V C8106 1-107-826-11 CERAMIC CHIP O.1UF 10%  16V 
C8062 1-162-970-11 CERAMIC CHIP O.01NF 10% © 25V C8107 1-136-187-11 MYLAR 0.047UF 10%  250V 
C8063 1-107-826-11 CERAMIC CHIP O.1UF 10%  16V C8108 1-126-964-11 ELECT 10uF 20% 50V 
C8064 1-107-636-11 ELECT 10uF 20% — 160V C8109 1-162-924-11 CERAMIC CHIP 56pF 5% © 50V 
C8065 1-106-383-00 MYLAR 0.047F 10%  200V C8110 1-126-960-11 ELECT yr 20% 50V 
C8066 1-162-970-11 CERAMIC CHIP O.01NF 10% 25V ett 1-126-960-11 ELECT AUF 20% 50V 
C8067 1-104-665-11 ELECT 100UF 20% = 25V C8113 1-130-495-00 MYLAR O.1uF 5% = 50V 
C8068 1-162-318-11 CERAMIC 0.001uF 10% 500V C8114 1-125-473-11 ELECT(BLOCK) 1000NF 20%  160V 
C8069 1-162-970-11 CERAMIC CHIP O.01NF 10% 25V C8115, 1-107-826-11 CERAMIC CHIP O.1UF 10%  16V 
C8070 1-126-964-11 ELECT 10uF 20% 50V C8116 1-107-826-11 CERAMIC CHIP O.1yF 10%  16V 
C8071 1-126-964-11 ELECT 10uF 20% 50V C8117 1-162-318-11 CERAMIC 0.001uF 10%  500V 
8072 1-126-964-11 ELECT 10uF 20% 50V C8118 1-136-189-00 MYLAR O.1UF 10%  250V 
C8073 1-162-970-11 CERAMIC CHIP O.01NF 10% 25V C8120 1-107-826-11 CERAMIC CHIP O.1pF 10%  16V 
8074 1-104-665-11 ELECT 100UF 20% = -25V 8121 1-115-349-51 CERAMIC 0.01pF 2kV 
C8075 1-162-970-11 CERAMIC CHIP O.01NF 10% © 25V (8122 1-126-934-11 ELECT 220uF = 20% += 16V 
C8076 1-128-551-11 ELECT 2QuF 20% © 63V (8123 1-107-444-11 CERAMIC 100pF 5% = 2KV 
C8077 1-162-970-11 CERAMIC CHIP O.01pF 10% 25 A\ cBt24 1-117-642-11 FILM 8200pF 3% = 1.2KV 
C8078 1-115-416-11 CERAMIC CHIP 0.001uF 5%  25V (8125 1-107-826-11 CERAMIC CHIP O.1uF 10%  16V 
8079 1-126-964-11 ELECT 10uF 20% 50V (8126 1-106-357-00 MYLAR 0.0039pF 99%  200V 
C8080 1-126-964-11 ELECT 10uF 20% 50V (8127 1-126-942-61 ELECT 1000UF 20%  25V 
C8081 1-115-416-11 CERAMIC CHIP 0.001UF 5%  25V C8129 1-137-150-11 FILM OIF = 5% = 100 
C8082 1-165-176-11 CERAMIC CHIP 0.047UF 10% 16V C8131 1-128-582-11 ELECT 10uF 20% = 100V 
C8083 1-130-495-00 MYLAR AUF 5% = 50V C8132 1-126-927-11 ELECT 2200UF 20% 10V 
C8084 1-130-992-11 FILM 0.022uF 5%  50V (8133 1-107-649-11 ELECT 22uF 20% © 250V 
C8085 1-162-924-11 CERAMIC CHIP 56pF 5%  50V (8135 1-117-813-11 FILM O.75UF 5%  250V 
C8086 1-162-970-11 CERAMIC CHIP O.01NF 10% © 25V C8136 1-130-495-00 MYLAR O.1uF 5% = 50V 
C8087 1-126-960-11 ELECT yr 20% 50V C8137 1-126-927-11 ELECT 2200UF 20% 10V 
C8088 1-126-964-11 ELECT 10uF 20% 50V C8138 1-162-964-11 CERAMIC CHIP 0.001uF 10% 50V 
A\ 8089 1-104-332-11 CERAMIC 470pF 10% = 2KV C8139 1-126-964-11 ELECT 10uF 20% —50V 
C8090 1-126-960-11 ELECT 1 pF 20% 50V C8140 1-102-030-00 CERAMIC 330pF 10% + 500V 
C8091 1-104-665-11 ELECT 100UF 20% = 25V C8141 1-162-927-11 CERAMIC CHIP 100pF 5% © 50V 
C8092 1-117-640-11 FILM 6800pF 3% = 1.2KV 08142 1-117-664-11 FILM O.27NF 5%  — 250V 
C8093 1-107-648-91 ELECT 100UF 20% += 200V 08143 1-109-889-11 ELECT AF 20% —50V 
C8094 1-126-947-11 ELECT 47uF 20% © 35V (8153 1-126-960-11 ELECT IF 20% 50V 
8095 1-162-970-11 CERAMIC CHIP O.01NF 10% © 25V C8156 1-107-636-11 ELECT 10uF 20% — 160V 
C8096 1-136-684-51 FILM 0.0022uF 2.00% 100V C8158 1-107-826-11 CERAMIC CHIP O.1pF 10%  16V 
C8097 1-162-131-11 CERAMIC 220pF = 10% += 2KV C8159 1-106-383-00 MYLAR 0.047uF 10% 200 
C8098 1-162-131-11 CERAMIC 220pF = 10% += 2KV C8160 1-127-715-91 CERAMIC CHIP 0.22uF 10% = 16V 
C8099 1-115-416-11 CERAMIC CHIP 0.001uF 5%  25V C8162 1-162-318-11 CERAMIC 0.001uF 10%  500V 
C8100 1-104-665-11 ELECT 100UF 20% =. 25V C8163 1-126-960-11 ELECT AF 20% 50V 
C8102 1-162-318-11 CERAMIC 0.001uF 10%  500V CONNECTOR 
C8103 1-126-964-11 ELECT 10uF 20% 50V a 
gi0d——1-162-965-11 CERAMIC CHIP O.0015uF 10%  50V : CN8002 —1-779-890-11 CONNECTOR, BOARD TO BOARD 10P 
8105 1-107-826-11 CERAMIC CHIP OtuF 10% 16V CNG003—1-691-135-11 PIN, CONNECTOR (PC BOARD) 4P 


KP-46WT510 








REF.NO. PART NO. DESCRIPTION VALUES REFNO. PART NO. DESCRIPTION VALUES 

CN8004 —1-779-690-11 CONNECTOR, BOARD TO BOARD 10P eos © §:719-90243 DIODE ELIZ 

CN8O05  1-779-690-11 CONNECTOR, BOARD TO BOARD 10P e033 8:719-028-72 DIODE AGPO2-17EL-6499 

CN8008 1-779-890-11 _CONNECTOR, BOARD TO BOARD 10P peo} 8719-11039 DIODE ADISESBI 

CN8007 —-1-564-506-11 PLUG, CONNECTOR: 3P 08037 8-719-028-45 DIODE D2L20U 

CN8008 —1-564-506-11 PLUG, CONNECTOR 3P 08038 8-719-302-43 DIODE ELIZ 

CN8009 —1-564-506-11 PLUG, CONNECTOR 3P 08039 8-719-028-72 DIODE RGP02-17EL-6433 

CN8010 —1-564-507-11 PLUG, CONNECTOR. 4p 08043 8-719-991-33 DIODE 18S133T-77 

CN8011 —1-564-507-11 PLUG, CONNECTOR. 4p 08045 8-719-908-03 DIODE GP08D 

CN8012 —1-564-507-11 PLUG, CONNECTOR. 4p 08046 8-719-991-33 DIODE 18S133T-77 

CN8013 —1-766-177-11 PIN, CONNECTOR (PC BOARD) 9P 08047 8-719-991-33 DIODE 18S133T-77 
08050 8-719-988-61 DIODE 1SS355TE-17 

CNBOtS —1-806:371-00 PIN, CONNECTOR 2p 

CNBO16 —1-564-507-11 PLUG, CONNECTOR ap FERRITE BEAD 

CNBOt8 —1-580-689-11 PIN, CONNECTOR (PC BOARD) 4 

CN80t9 1-580-689-11 PIN, CONNECTOR (PCBOARD) 4P Fep001  1-480-678-11FERRITE ‘AH 

CN8020 1-580-689-11 PIN, CONNECTOR (PC BOARD) 4P e802, ASCOT IIL FERRITE 11H 
FB8005 —1-469-869-21 FERRITE OH 

cNe022 1-564510-t1 PLUG, CONNECTOR 7P Eeomie, Ieee ls Fenn ou 

cNe023 1-564507-t1 PLUG, CONNECTOR a Popo: Aaa denels SERA ou 

DIODE FB8015 —1-469-869-21 FERRITE OH 
a FB8016 —_-1-469-869-21 FERRITE OH 

8001 8-719-109-88 DIODE RD5.6ESB1 FB8017 —_‘1-469-869-21 FERRITE OuH 

08002 8-719-110-53 DIODE RD20ESB2 FB8018 —_1-469-869-21 FERRITE OH 

08003 8-719-110-56 DIODE RD22ESB1 FB8021 1-469-578-11 FERRITE 14H 

08004 8-719-908-03 DIODE GP08D 

08005 8-719-991-33 DIODE 18S133T-77 FB8022 —1-469-579-11 FERRITE 0.45,H 
FB8023 —1-469-579-11 FERRITE 0.45uH 

08006 8-719-991-33 DIODE 18S133T-77 FB8024 —_1-469-869-21 FERRITE OH 

8008 8-719-991-33 DIODE 18S133T-77 

8010 8-719-991-33 DIODE 18S133T-77 I 

8011 8-719-991-33 DIODE 18S133T-77 

e012 —8-719-991-33DIODE 1881931-77 EOD: Sera tee aNe oe 
18002 8-749-019-08 Ic STK392-560 

e013 8719-10984 DIODE RDS.AESBI ASUS, e618 1 3IG pitas 

e014 = 8-719-109-84 DIODE RDS.AESBI i Dee ees Pe de 

e015 = 8-719-991-33 —_DIODE 1881931-77 Hes sb TSS ee? BSreae Ee 

08016 8-719-991-33 DIODE 18S133T-77 

Dang 8-719-991-33 DIODE 1$81937-77 EO STOR TOT eke Nun2s03h 
18007 8-759-700-07 Ic NJM2903M 

e020 8-719-991-33 —DIODE 1881931-77 PAE ee Sis tee. WIE be ie 

e022 © 8-719-991-33 —-DIODE 1881931-77 Hang ese ae IC TASSID ER 

e023 © 8-719-991-33 —DIODE 1881931-77 eee EISEOO* sIe a 

08024 8-719-110-39 DIODE RD15ESB1 

08025 8-719-991-33 DIODE 18S133T-77 Coll 
18001 1-412-533-21 INDUCTOR 47uH 

08026 8-719-109-88 DIODE RD5.6ESB1 8002 4-412-533-21 INDUCTOR 47H 

08027 -8-719-028-45 DIODE D2L20U 18003 1-412-525-31 INDUCTOR 40yH 

08028 8-719-110-41 DIODE RD15ESB2 18004 1-412-533-21 INDUCTOR 47H 

e029 -8-719-027-43 — DIODE S2L20,F 18005 1-412-533-21  INDUCTOR 47H 

08030 8-719-027-43 DIODE S2L20uF 





—122— 


NOTE: The components identified by shading 
mark are critical for safety. Replace only 
with part number specified. 


and 


NOTE: Les composants identifies per un trame et une, 
marque Z\ sont critiques pour la securite. Ne les 
remplacer que par une piece portant le numero specifie. 


KP-46WT510 


(D) 











REF.NO. PART NO. DESCRIPTION VALUES REFNO. PART NO. DESCRIPTION VALUES 
8006 1-412-525-31 INDUCTOR 10uH 8015 8-729-120-28 TRANSISTOR 28C1623-L5L6 
18007 1-412-533-21 INDUCTOR 47H 8016 8-729-120-28 TRANSISTOR 28C1623-L5L6 
18008 1-412-533-21 INDUCTOR 47H 8019 8-729-026-49 TRANSISTOR 2SA1037AK-T146-R 
18009 1-412-525-31 INDUCTOR 10uH 8020 8-729-120-28 TRANSISTOR 28C1623-L5L6 
18010 1-414-187-11 INDUCTOR 47H 8021 8-729-120-28 TRANSISTOR 28C1623-L5L6 
L801 1-414-856-11 INDUCTOR 10uH 8022 8-729-120-28 TRANSISTOR 28C1623-L5L6 
18012 1-414-187-11 INDUCTOR 47H 8023 8-729-048-47 TRANSISTOR 28C2688(5)-LK 
18013, 1-414-856-11 INDUCTOR 10uH 8024 6-550-144-01 TRANSISTOR 28C5778-YB 
8014 1-414-189-31 INDUCTOR 100pH 8027 6-550-153-01 TRANSISTOR FOQPF12P20XDTU 
18015 1-414-189-31 INDUCTOR 100yH 98028 8-729-120-28 TRANSISTOR 28C1623-L5L6 
18016 1-412-537-31 INDUCTOR 100pH 8029 8-729-120-28 TRANSISTOR 28C1623-L5L6 
18017 1-414-856-11 INDUCTOR 10uH 8030 8-729-026-49 TRANSISTOR 2SA1037AK-T146-R 
18018 1-406-667-11 INDUCTOR 220uH 8031 8-729-120-28 TRANSISTOR 28C1623-L5L6 
18019 1-456-109-11 COIL HORIZONTAL LINEARITY(HLC) 08035 6550-153-01 TRANSISTOR FOPF12P20XDTU 
18020 1-412-525-31 INDUCTOR 10uH 8039 8-729-048-47 TRANSISTOR 28C2688(5)-LK 
18021 1-406-659-11 INDUCTOR 10uH 8041 8-729-026-49 TRANSISTOR 2SA1037AK-T146-R 
8022 1-412-552-11 INDUCTOR 2.2MH 8042 8-729-048-47 TRANSISTOR 28C2688(5)-LK 
8025 1-414-856-11 INDUCTOR 10uH 8043 6-550-144-01 TRANSISTOR 28C5778-YB 
18026 1-414-856-11 INDUCTOR 10uH Q8101 8-729-026-49 TRANSISTOR 2SA1037AK-T146-R 
18033 1-414-856-11 INDUCTOR 10uH 
RESISTOR 
NEON LAMP 
R8001 1-216-825-11 METAL CHIP 2.2K 5% = 110W 
AX NL8001 1-517-778-21 LAMP, NEON R8002 1-216-809-11 METAL CHIP 100 5% = 110W 
R8003 1-216-809-11 METAL CHIP 100 5% = 10W 
IC LINK R8004 1-216-809-11 METAL CHIP 100 5% = 110W 
AX Ps800t 1.539-595.31 IcLINK 315A ov R8005 1-215-875-11 METAL OXIDE 10K 5% = =61W 
ee iRecrceell [Gil SHS fot e007 © 1-216809-11 —-METAL CHIP 100 5% = thow 
in Sei Teseaeall DBI Se EG e008 = 1-216809-11 METAL CHIP 100 5% tow 
ix Gee Ree IBM sah “eu e009 = 1-216809-11 METAL CHIP 100 5% = thow 
Soa oe COS Seo ReO10 —1-260-131-11 CARBON 470K 5% 12W 
AX $8006 1-593-595-31 IcLINK 315A cov Re011 1-216-829-11 METAL CHIP 47K 5% = 110W 
eee RSA 1BiLLs Ba ReOI2 1.216821 METAL CHIP 47K 5% HOW 
et UL GEN sll REIS 1-218-710-11 METAL CHIP 56K 050% 1/oW 
R8014 1-218-709-11 METAL CHIP 5.1K 0.50% 1/10W 
TRANSISTOR ROOIS §—1-216837-11 METAL CHIP 2K 5% HOW 
Q8001 —-8-729-120-28 TRANSISTOR 2801623-L5L6 R016 1-216-829-11 — METAL CHIP 47K Sh INOW 
8002 6-560-659-01  TRANSISTOR 28C4634LS-YB11 
8003 -8-729.026-49 TRANSISTOR. 2SA1037AK-T146-R R017 1-216-829-11 — METAL CHIP 47K Sh INOW 
08004 -8-729.026-49 TRANSISTOR 2SA1037AK-T146-R Re018—1-216-821-11 — METAL CHIP 1K 5% 1/10W 
Q8007 —8-729-046-80 ‘TRANSISTOR 2SC4634LS-CB11 REO191-218-712-41 — METAL CHIP 68K 0.50% INOW 
R8020 1-216-829-11 METAL CHIP 47K 5% = 110W 
8008 ——«8-729-207-89 ‘TRANSISTOR 28A1358-Y R802 = 1-216-833-11  METALCHIP 10K 5% = 1/10W 
8009 -8-729-207-82 TRANSISTOR 2803421-Y 
Q8010 —-8-729-120-28 TRANSISTOR 2801623-L5L6 R022 1-216-830-11 — METAL CHIP 33K 5% HOW 
Q8011 8729-02649 TRANSISTOR 2SA1037AK-T146-R R023 1-216-833-11 — METAL CHIP 10K 5% = 1MOW 
08014 -8-729-120-28 TRANSISTOR 2801623-L5L6 R024 = 1-216-833-41 — METAL CHIP 10K 5% 1/10 


— 123 — 


KP-46WT510 











REF.NO. PART NO. DESCRIPTION VALUES REF.NO. PART NO. DESCRIPTION VALUES 
R025 1-216-829-11 METAL CHIP 47K 5% = 10W R8073 1-214-808-11 METAL 47 1%  1/2W 
R026 1-216-829-11 METAL CHIP 47K 5% = 10W R8075 1-214-808-11 METAL 47 1%  1/2W 
R029 1-216-829-11 METAL CHIP 47K 5% = 10W R8076 1-216-829-11 METAL CHIP 47K 5% = 1/0W 
R030 1-215-903-11 METAL OXIDE 68K 5% = 8=2W R077 1-216-829-11 METAL CHIP 47K 5% = 1H0W 
Re031 1-216-829-11 METAL CHIP 47K 5% = 10W R8078 1-214-808-11 METAL 47 1%  1/2W 
R8079 1-214-808-11 METAL 47 1%  1/2W 
R032 1-216-821-11 METAL CHIP 1K 5% = 10W 
R8033 1-216-833-11 METAL CHIP 10K 5% = 10W R080 1-216-353-00 METAL OXIDE 22 5% = =1W 
R034 1-216-833-11 METAL CHIP 10K 5% = 10W R8081 1-214-808-11 METAL 47 1%  1/2W 
R035 1-218-692-11 METAL CHIP 1K 0.50% 1/10W R082 1-214-808-11 METAL 47 1%  1/2W 
R036 1-214-800-11 METAL 22 1%  1/2W R083 1-216-821-11 METAL CHIP 1K 5% = 1/0W 
R084 1-216-833-11 METAL CHIP 10K 5% = 10W 
R037 1-215-903-11 METAL OXIDE 68K 5% = =2W 
R038 1-216-809-11 METAL CHIP 100 5% = 10W R085 1-214-808-11 METAL 47 1%  1/2W 
R039 1-214-800-11 METAL 22 1%  1/2W R086 1-214-808-11 METAL 47 1%  1/2W 
R040 1-215-913-11 METAL OXIDE 220 5% = =©=3W R087 1-249-385-11 CARBON 22 5% = 1/4W 
Ra041 1-218-709-11 METAL CHIP 5.1K 0.50% 1/10W R088 1-249-385-11 CARBON 22 5% = 1/4W 
R089 1-214-808-11 METAL 47 1%  1/2W 
R042 1-216-826-11 METAL CHIP 27K 5% = 1/0W 
R043 1-218-740-11 METAL CHIP 100K 0.50% 1/10W R090 1-214-808-11 METAL 47 1%  1/2W 
R044 1-218-712-11 METAL CHIP 6.8K 0.50% 1/10W 8091 1-214-808-11 METAL 47 1%  1/2W 
R045 1-214-808-11 METAL 47 1%  1/2W R092 1-214-808-11 METAL 47 1%  1/2W 
R046 1-214-808-11 METAL 47 1%  1/2W R093 1-214-808-11 METAL 47 1%  1/2W 
R094 1-214-808-11 METAL 47 1%  1/2W 
R047 1-215-857-71 METAL OXIDE 10 5% = =1W 
R048 1-414-189-31 INDUCTOR 100uH R095 1-216-801-11 METAL CHIP 22 5% = 1H0W 
R049 1-414-189-31 INDUCTOR 100pH R096 1-216-801-11 METAL CHIP 22 5% = 1/0W 
R050 1-216-833-11 METAL CHIP 10K 5% = 10W R097 1-214-808-11 METAL 47 1%  1/2W 
8051 1-214-808-11 METAL 47 1%  1/2W R098 1-214-808-11 METAL 47 1% 1/2 
R099 1-218-740-11 METAL CHIP 100K 0.50% 1/0W 
R053 1-214-808-11 METAL 47 1%  1/2W 
R055 1-218-748-11 METAL CHIP 220K 0.50% 1/10W R100 1-216-475-11 METAL OXIDE 120 5%  3W 
R056 1-216-829-11 METAL CHIP 47K 5% = 10W 8101 1-216-475-11 METAL OXIDE 120 5% ©3W 
R057 1-216-829-11 METAL CHIP 47K 5% = 10W R102 1-218-738-11 METAL CHIP 82K 0.50% 1/10W 
R058 1-216-809-11 METAL CHIP 100 5% = 10W R8103 1-216-816-11 METAL CHIP 390 5% = TOW 
R104 1-216-832-11 METAL CHIP 8.2K 5% = 1HOW 
R059 1-214-808-11 METAL 47 1%  1/2W 
R060 1-214-808-11 METAL 47 1%  1/2W R8105 1-214-808-11 METAL 47 1%  1/2W 
e061 1-216-390-11 METAL OXIDE 12 5% = =3W R8106 1-214-808-11 METAL 47 1%  1/2W 
(SERIAL # 8,700,001 AND UP) R109 1-216-814-11 METAL CHIP 270 5% = 10W 
e061 1-216-392-11 METAL OXIDE 18 5% = =3W R8110 1-247-852-11 CARBON 7.5K 5% = 1/4W 
(SERIAL # 8,000,001 TO 8,700,000) R811 1-216-819-11 METAL CHIP 680 5% = 10W 
R062 1-260-107-11 CARBON 47K 5% = 1/2W 
R8063 1-214-808-11 METAL 47 1%  1/2W R112 1-216-824-11 METAL CHIP 1.8K 5% = 10W 
Re064 1-214-808-11 METAL 47 1%  1/2W R8113 1-216-475-11 METAL OXIDE 120 5% =3W 
R065 1-260-328-11 CARBON 1K 5% = 1/2W R114. 1-216-475-11 METAL OXIDE 120 5% = 3W 
RB066 1-214-808-11 METAL 47 1%  1/2W R115, 1-216-475-11 METAL OXIDE 120 5% = 3W 
R116 1-216-475-11 METAL OXIDE 120 5% = 3W 
RB067 1-214-808-11 METAL 47 1%  1/2W 
R068 1-216-809-11 METAL CHIP 100 5% == 10W 8117 1-216-833-11 METAL CHIP 10K 5% = 1HOW 
R069 1-214-808-11 METAL 47 1%  1/2W R8118 1-216-833-11 METAL CHIP 10K 5% = 10W 
R070 1-214-808-11 METAL 47 1%  1/2W R119 1-216-833-11 METAL CHIP 10K 5% = 10W 
Ra071 1-215-381-00 METAL 22 1%  1/4W R120 1-216-833-11 METAL CHIP 10K 5% = 1/0W 


—124— 


KP-46WT510 








REF.NO. PART NO. DESCRIPTION VALUES REF.NO. PART NO. DESCRIPTION VALUES 

8121 1-216-809-11 METAL CHIP 100 5% = 1/0W R8170 1-218-716-11 METAL CHIP 10K 0.50% 1/10W 
R123 1-216-821-11 METAL CHIP 1K 5% = 10W R8171 1-216-809-11 METAL CHIP 100 5% = 10W 
Re124 1-249-377-11 CARBON 0.47 5% = 1/4W R172 1-249-405-11 CARBON 100 5% = 1/4W 
R125 1-216-816-11 METAL CHIP 390 5% = 10W R8173 1-216-845-11 METAL CHIP 100K 5% = 10W 
R126 1-216-823-11 METAL CHIP 1.5K 5% = 1/0W R174 1-249-425-11 CARBON 47K 5% = 1/4W 
R128 1-216-833-11 METAL CHIP 10K 5% = 10W R8176 1-218-740-11 METAL CHIP 100K 0.50% 1/10W 
R129 1-216-825-11 METAL CHIP 22K 5% = 1/0W R8178 1-216-841-11 METAL CHIP 47K 5% = 1/0W 
R8130 1-216-825-11 METAL CHIP 22K 5% = 1/0W R8179 1-414-189-31 INDUCTOR 100uH 

8131 1-216-833-11 METAL CHIP 10K 5% = 1/0W R8180 1-216-841-11 METAL CHIP 47K 5% = 10W 
R132 1-216-833-11 METAL CHIP 10K 5% = 1/0W 8181 1-216-841-11 METAL CHIP 47K 5% = 10W 
8133 1-215-923-00 METAL OXIDE 10K 5% = =©638W R8182 1-218-748-11 METAL CHIP 220K 0.50% 1/10W 
R134 1-215-873-00 METAL OXIDE 47K 5% = =1W 8183 1-218-748-11 METAL CHIP 220K 0.50% 1/10W 
R135 1-215-923-00 METAL OXIDE 10K 5% = 3W R189 1-249-377-11 CARBON 0.47 5% = 1/4W 
R136 1-216-833-11 METAL CHIP 10K 5% = 1/0W R8190 1-215-431-00 METAL 27K 1%  1/4W 
R8137 1-218-740-11 METAL CHIP 100K 0.50% 1/10W 8191 1-215-429-00 METAL 22K 1%  1/4W 
R138 1-216-833-11 METAL CHIP 10K 5% = 1/0W R192 1-215-449-00 METAL 15K 1%  1/4W 
R139 1-216-827-11 METAL CHIP 3.3K 5% = 1/0W R193 1-215-449-00 METAL 15K 1%  1/4W 
R140 1-216-833-11 METAL CHIP 10K 5% = 1/0W R8194 1-215-449-00 METAL 15K 1%  1/4W 
8141 1-216-827-11 METAL CHIP 3.3K 5% = 1/0W R195 1-215-449-00 METAL 15K 1%  1/4W 
Re142 1-216-833-11 METAL CHIP 10K 5% = 1/0W R196 1-249-425-11 CARBON 47K 5% = 1/4W 
R143 1-218-734-11 METAL CHIP 56K 0.50% 1/10W R8201 1-249-397-11 CARBON 22 5% = 1/4W 
Re144 1-216-809-11 METAL CHIP 100 5% = 10W R202 1-260-092-11 CARBON 270 5% = 1/2W 
R145 1-218-716-11 METAL CHIP 10K 0.50% 1/10W R205 1-249-377-11 CARBON 0.47 5% = 1/4W 
R146 1-218-716-11 METAL CHIP 10K 0.50% 1/10W R8206 1-249-377-11 CARBON 0.47 5% = 1/4W 
R147 1-218-710-11 METAL CHIP 5.6K 0.50% 1/10W R208 1-260-288-11 CARBON 0.47 5% = 1/2W 
R148 1-218-740-11 METAL CHIP 100K 0.50% 1/10W R8209 1-216-833-11 METAL CHIP 10K 5% = 1/0W 
R149 1-249-401-11 CARBON 47 5% = 1/4W R8210 1-216-809-11 METAL CHIP 100 5% = 1/0W 
R8150 1-218-740-11 METAL CHIP 100K 0.50% 1/10W 8211 1-215-906-11 METAL OXIDE 15 5%  3W 
8151 1-218-692-11 METAL CHIP 1K 0.50% 1/10W R212 1-215-907-11 METAL OXIDE 22 5%  3W 
R152 1-218-716-11 METAL CHIP 10K 0.50% 1/10W 8213 1-216-821-11 METAL CHIP 1K 5% = 1/0W 
8153 1-218-692-11 METAL CHIP 1K 0.50% 1/10W R8216 1-216-833-11 METAL CHIP 10K 5% = 1/0W 
R154 1-218-728-11 METAL CHIP 33K 0.50% 1/10W R8217 1-216-821-11 METAL CHIP 1K 5% = 10W 
R155 1-215-469-00 METAL 100K 1%  1/4W R8218 1-260-123-11 CARBON 100K 5% = 1/2W 
R156 1-215-469-00 METAL 100K 1%  1/4W R8219 1-249-377-11 CARBON 0.47 5% = 1/4W 
R8157 1-218-738-11 METAL CHIP 82K 0.50% 1/10W R820 1-216-821-11 METAL CHIP 1K 5% = 1/0W 
R159 1-216-833-11 METAL CHIP 10K 5% = 10W R8222 1-216-341-11 METAL OXIDE 0.22 5% = 1W 
8161 1-216-845-11 METAL CHIP 100K 5% = 1/0W R223 1-218-748-11 METAL CHIP 220K 0.50% 1/10W 
R8163 1-216-845-11 METAL CHIP 100K 5% = 10W R224 1-260-127-11 CARBON 220K 5% © 1/2W 
R164 1-218-734-11 METAL CHIP 56K 0.50% 1/10W R225 1-260-292-11 CARBON 1 5% = 1/2W 
R8165 1-249-425-11 CARBON 47K 5% = 1/4W R8228 1-260-314-11 CARBON 68 5% = 1/2W 
R8166 1-218-716-11 METAL CHIP 10K 0.50% 1/10W R8230 1-218-751-11 METAL CHIP 300K 0.50% 1/10W 
R8167 1-414-189-31 INDUCTOR 100uH R232 1-216-341-11 METAL OXIDE 0.22 5% = 1W 
R8168 1-216-809-11 METAL CHIP 100 5% = 1/0W R236 1-218-917-11 METAL CHIP 820K 0.50% 1/10W 
R8169 1-216-845-11 METAL CHIP 100K 5% = 1/0W R237 1-216-857-11 METAL CHIP 1M 5% = 1/0W 





— 125 — 


KP-46WT510 


NOTE: The components identitied by shading | JA component identified by this B4 symbol indicates that it [D] S R H 2 | H 1 
and A\ mark are critical for safety. Replace only | has been carefully factory-selected to satisfy regulations 


‘sith part number specified. regarding X-ray radiation. Should replacement be required, 
replace only with the value originally used. 























REF.NO. PART NO. DESCRIPTION VALUES REF.NO. PART NO. DESCRIPTION VALUES 
e249 1-215-923-00 METAL OXIDE 10K 5% = W RESISTOR 
215-9234 4, 
ie teed Wa i ci Hee R201 1-218-684-11 METAL CHIP 470 0.50% 1MOW 
ae R202 © 1-218-684-11 METAL CHIP 470 0.50% 1MOW 
8253 —«(1-216-816-11 — METALCHIP 390 5% = 1MOW iaee 
fiscal Sioleaiiy <METAICHIP Ta eit HOW R203 1-218-684-11  METALCHIP 470 0.50% 1M0W 
; Re204 = 1-218-684-11  METALCHIP 470 0.50% 1MOW 
-218-688- % 4 
AOE Glee SUEAORE ge ye R205 1-218-688-11  METALCHIP 680 © 0.50% 1/10W 
-249-401- vay 
Le eer area an i ia R206 1-218-688-11 METAL CHIP 680 0.50% 1/10W 
R207 1-218-692-11 METAL CHIP 1K 0.50% 1/10W 
R208 = 1-218-696-11 METAL CHIP 15K 0.50% 1/10W 
TRANSFORMER R9209 —1-218-700-11 METAL CHIP 22K 0.50% 1MOW 
T3001 —1-437-708-11 TRANSFORMER, FERRITE (DFT) R9210 © 1-218-704-11 METAL CHIP 33K 0.50% 1M0W 
78002 1-47-739-11 TRANSFORMER, FERRITE (HDT) Ro2tt —1-218-712-11 METAL CHIP 68K — 0.50% 1/10W 
T3003 —1-437-401-21 FERRITE TRANSFORMER (HOT) 
T8004 1-437-399-21 TRANSFORMER, FERRITE (LOT) SWITCH 


ald 


78005, 1-453-285-51 FBT ASSY, NX-4006//X4P4 


e006 1-497-739-11 ‘TRANSFORMER, FERRITE (HOT) S00,» eoeeiae ll > 2 SHIT KON 


$9202 1-572-198-11 SWITCH, KEYBOARD 
$9203 1-572-198-11 SWITCH, KEYBOARD 





ee 39204 1672-196-11 SWITCH, KEYBOARD 
THB001 1-800-199-00 THERMISTOR 39205 1672-196-11 SWITCH, KEYBOARD 
VARIABLE RESISTOR 39208 1672-196-11 SWITCH, KEYBOARD 
39207 1-872-196-11 SWITCH, KEYBOARD 
ANDAvRe001 | 1-225-62791 RES, VAR,ADJ,CERMET 2K cook. SLSR SWITCH KEYBOARD 
ANDAVR=002 1-225-69091 RES, VAR,ADJ,CERMET 20K eos! MiG” 2 SHITCHEKEVBOARD 
s92t01-572-198-11 SWITCH, KEYBOARD 
: 1-572-198-11 SWITCH, KEYBOARD 
BeMOU seh: ShlBOARD; MOUNTED: 1-572-196-t1 SWITCH, KEYBOARD 
CONNECTOR 
* CNg901 —1-564-506-11 PLUG, CONNECTOR 3 
: A-1405-148-A_-Hi BOARD, MOUNTED 
DIODE 
CAPACITOR 
Dg9902 8-719-069-55 DIODE UDZSTE-175.6B 
C9101 1-107-826-11 CERAMIC CHIP O.ApF 10%  16V 
BATTERY 


CONNECTOR 
$B9901 —_1-756-295-11 BATTERY, SOLAR 
* —CNO101 — 1-564-508-11 PLUG, CONNECTOR  5P 


* — CN9102 — 1-564-506-11 PLUG, CONNECTOR 3P 





‘ A-1405-147-A_H2 BOARD, MOUNTED DIODE 
9101 8-719-053-43 DIODE SLR-325VCT31 
CONNECTOR Det02 8719-05943 DIODE SLR-325VCT31 
+ CNo201 1-564-520-11 PLUG, CONNECTOR 5P 
* (No202 1-564-621-11 PLUG, CONNECTOR 6P Ic 
IC9101 8-719-066-43 DIODE GP1U28Y 





— 126 — 


KP-46WT510 


[H1| 














REF.NO. PART NO. DESCRIPTION VALUES REF.NO. PART NO. DESCRIPTION VALUES 
RESISTOR RESISTOR 
RO101 — 1-216-833-41 — METAL CHIP tok 5% = 1MOW ROMO —1-216-853-11 -METAL CHIP 470K 5% HOW 
Rot02 +-216-800-11-METAL CHIP foo 5% = AoW ROMO 1-216-853-1 METAL CHIP am0K 5% = tO 
R010) 1-216-813-41 METALCHIP 20 5% 1OW R002 —1-218-285-11-METAL CHIP 155% OW 
RO104 —1-216-813-41 —-METALCHIP m0 5% OW R003 1-218-285-11 METAL CHIP 155% OW 
ROO 1-216-821-11 METAL CHIP kK 5% AoW 
SWITCH ROOT 1-218-285-11 METAL CHIP 155% OW 
Soiot —1-571-532-21 SIMITCH, TACTILE pce eSCoics Aun PACKING 
; 4091-91901 BAG, PROTECTION 
si A-1405-149-A_H4 BOARD, MOUNTED : 4-096-271-01 CARTON, INDIVIDUAL 
. 4.091-087-01 CUSHION, LOWER 
CAPACITOR : 4-091-086-01 CUSHION, UPPER 
coq 14126-964-11 ELECT fOyF 20% SOV 4-004-605-11 _ MANUAL, INSTRUCTION 
coqot —1-126-964-11 —ELECT OF 20% 50 Geb aS3' MANUAL INSTRUCTION 
Cado2 1425-891-11 CERAMIC CHIP. OATUF 10% © 10V 400460531 MANUAL INSTRUCTION 
C9403 1-163-021-91 CERAMIC CHIP» OOtF 10% 50V . 48190001). SHEETIPROTECTION 
Caq0S —1425-891-11 CERAMICCHIP ATU 10% | 10V . 4006-70001 TRAY 
SeRiecTGR REMOTE COMMANDER 
* Naot 1-564-826-11 —PLUG, CONNECTOR 11P {-476864-11 REMOTE COMMANDER (RM-909) 
4-081-888-01 BATTERY COVER (FOR RM-Y809) 
DIODE 
e400 8-710-41047 DIODE RDI0ESB2 
peor 87101047 DIODE RDIVESB2 
e402 8-71-1047 DIODE RDI0ESB2 
pa03 8719-41047 DIODE RDIVESB2 
Dados 8-71-1047 DIODE RDI0ESB2 
pa05 8710-41047 DIODE RDIESB2 
JACK 


J9401 4-770-361-11 TERMINAL BLOCK, S 





Sony Corporation English 

Sony Technology Center 2003FJ74WEB-1 

Technical Services Printed in USA 

9-965-946-07 Service Promotion Department © 2003.6 


—127— 


ee ee eee 
SERVICE MANUAL RA-6A cuassis 


In an effort to reduce the size of this pdf file the tiled 
schematics are not attached to this Service Manual. To 
receive a complete set of the tiled schematics for this manual 
please submit a request to: 
Service_Promotion@am.sony.com. 





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