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CX-34G3
CX-51 G3
_)
S H A R P
SERVICE MANUAL
SX7i2CX-51 G31
COLOUR TELEVISION
Chassis No. SP-67
CX-34G3
CX-51 G3
MODELS
CX-34G3
CX-51 G3
In the interests of user-safety (Required by safety regulations in some countries) the set should be restored to its original condition and only parts identical to those specified should be used.
n
Reminder/ON-Off Timer n
English/Arabic/Chinese/French/Russian/Malay six
Language OSD w Hyper Band PLL Tuner n
Wide Range Chopper Regulator System n
Front A/V Input Rear A/V Input/Output Terminal
FEATURE
n Blue Back Noise Mute n
PAUSECAM Dual System n
NTSC 4.43/3.58 MHz (AV only) n Direct Access Remote Control n
NTSC Colour-Comb Filter n
Black Strech Circuit
Page l SPECIFICATIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2 l IMPORTANT SERVICE NOTES . . . . . . . . . . . . . . . . . . . . . . . . 2 l ADJUSTMENT PRECAUTIONS . . . . . . . . . . . . . . . . . . . . . . . . 3 l TROUBLE SHOOTING TABLE . . . . . . . . . . . . . . . . . . . . . . . . 17 l SOLID STATE DEVICE BASE DIAGRAM . . . . . . *. 19 l CHASSIS LAYOUT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20
CONTENTS
Page l WAVE FORMS . . . . . . . . . . . . . . . . . ..*.............................. 22
. DESCRIPTION OF SCHEMATIC DIAGRAM . . . . . . . 24
. BLOCK DIAGRAM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29
. PRINTED WIRING BOARD ASSEMBLIES . . . . . . 33 l REPLACEMENT PARTS LIST . . . . . . . . . . . ..*........... 35
Y
WARNING
The chassis in this receiver is partially hot. Use an isolation transformer between the line cord plug and power receptacle, when servicing this chassis. To prevent electric shock, do not remove cover. No user -serviceable parts inside. Refer servicing to qualified service personnel.
SHARP CORPORATION
SPECIFICATIONS
Convergence. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Focus . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Self Converging System
Quadra-Potential Electrostatic
Sweep Deflection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Intermediate Frequencies
Picture IF Carrier . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Sound IF Carrier Frequency
Magnetic
38.9 MHz
6.0 MHz . . . . .._...... . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
32.9 MHz
Colour Sub-Carrier Frequency ._ . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
34.47 MHz
Power Input . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
1 i O-240V AC 50/60 Hz
Power Consumption . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 65 W
Audio Power Output Rating . . . .._. ..“.................~...................................,..........
3.0 w
(at Max.)
Speaker
Size . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Voice Coil Impedance . . .
5cmx9cmlpc
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16 ohms at 400 Hz
Aerial tnput Impedance
VHF/UHF . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
75 ohm Unbalanced
Receiving System . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
CCiR PAL 6, G
NTSC 3.58i4.43 MHz (AV Input Only)
Tuner Ranges l VHF-Channels . . . . .._..........................
E2 (48.25 MHz) thru El2 (224.25 MHz)
Cl (49.75 MHz) thru Cl2 (216.25 MHz)
Sl (105.25 MHz) thru S41 (463.25 MHz) l UHF-Channels . . . . . . . . . . . . . . . . . . . . . . . . . . . . . E21 (471.25 MHz) thru E69 (855.25 MHz)
Cl3 (471.25MHz) thru C57 (863.25 MHz)
Dimensions
CX-34G3 . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Width: 357.0 m m
Height: 360.0 mm
CX-51G3 . . . ..I.......
Depth: 359.5 mm
Weight (approx.): 9.5 kg
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Width: 449.0 m m
Height: 475.0 mm
Cabinet Material . . . . . . . . . . . . . . .
Depth: 473.0 mm
Weight (approx.): 21.0 kg
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
All Plastics
Specifications are subject to change without prior notice. 1
2-l
IMPORTANT SERVICE NOTES
Maintenance and repair of this receiver should be done by qualified service personnel only.
SERVICING OF HIGH VOLTAGE SYSTEM AND
PICTURE TUBE
When servicing the high voltage system, remove static charge from it by connecting a 10k ohm Resistor in series with an insulated wire (such as a test probe) between picture tube dag and 2nd anode lead. (AC line cord should be disconnected from AC outlet.)
1.
Picture tube in this receiver employs integral implosion protection.
2.
Replace wlth tube of the same type number for continued safety.
3. Do not lift picture tube by the neck.
4.
Handle the picture tube only when wearing shatterproof goggles and after discharging the high voltage completely
X-RAY
This receiver is designed so that any X-Ray radiation is kept to an absolute minimum. Since certain malfunctions or servicing may produce potentially hazardous radiation with prolonged exposure at close range, the following precautions should be observed:
1. CX-34G3: When repairing the circuit, be sure not to Increase the high voltage to more than 23.5 kV (at beam 0 PA) for the set.
CX-51G3: When repairing the circuit, be sure not to Increase the high voltage to more than 29.0 kV (at beam 0 PA) for the set.
2. CX-34G3: To keep the set in a normal operation, be sure to make it function on 22.0 kV f 1.5 kV (at beam 800 PA) in the case of the set. The set has been factory -
Adjusted to the above-mentioned high voltage.
CX-51G3: To keep the set in a normal operation, be sure to make it function on 24.8 kV f 1.5 kV (at beam 1100 PA) in the case of the set. The set has been factory -
Adjusted to the above-mentioned high voltage.
:.
If there is a possibility that the high voltage fluctuates as a result of the repairs, never forget to check for such high voltage after the work.
3. Do not substitute a picture tube with unauthorized types and/or brands which may cause excess X-ray radiation.
BEFORE RETURNING THE RECEIVER
Before returning the receiver to the user, perform the following safety checks.
1.
Inspect all lead dress to make certain that leads are not pinched or that hardware is not lodged between the chassis and other metal parts in the receiver.
2.
Inspect all protective devices such as non-metallic control knobs, Insulating fishpapers, cabinet backs, adjustment and compartment covers or shields, isolation resistorcapacity networks, mechanical Insulators etc.
2-2
c4.3
ADJUSTMENT PRECAUTIONS
This model’s settings are adjusted in two different ways: through the PC bus control and in the conventional analog manner. The adjustment via the PC bus control includes preset-only items and variable data.
1. Calling the service mode by the microprocessor
@ Set the switch S1006 to the service mode position, and the microprocessor is put in the service mode
(adjustment through the PC bus control).
@ Press the CH UP/DOWN keys on the remote controller to select the modes one by one.
@ Press the CH UP/DOWN keys on the remote controller to select the modes in the order opposite to the above step 0.
@ Using the VOLUME UP/DOWN keys on the remote controller, the data can be modified.
@ Set the switch S1006 to the normal mode (OFF) position, and the microprocessor is put out of the service mode.
2. Factory presettings
@ Set the switch S1006 to the service mode position and turn on the main power switch. Initial values are automatically preset only when a new E2PROM is used (judgment with the first 4 bytes).
@ The initial data are preset as listed on pages 4 and 5.
@ Keep in mind that some settings should be modified, and the others should remain as preset.
Once the chassis has been put together, be sure to set the switch S1006 to the service mode position first and then turn on the main power switch (see the step 2.-@ above). Turning on the power without initializing the E*PROM may cause a flow of excess beam current.
3. The accompanying memory map (12-page document for the RH-iX2938CE) is for your reference.
3-1 n
SERVICE MODE
(1) Press the specific keys to change the modes as follows.
COLOUR ADJUST mode
60 Hz ADJUST mode
In the direction of arrow : CH DOWN key
In the opposite direction : CH UP key
{ CUT-OFF/BKGD m o d e
R-CUT OFF
G-CUT OFF
B-CUT OFF
4 b
,
HORIZONTAL mode
4
3-set time out
KEY
R-CUT OFF
G-CUT OFF
B-CUT OFF
R-DRIVE
B-DRIVE
HORIZONTAL mode
UP
3-set time out
DOWN
1 KEY
2 KEY
3 KEY
7 K E Y
8 KEY
9 K E Y
4 KEY
5 KEY
6 KEY
F/B KEY
0 KEY
COLOUR ADJUST mode
4
V-AMP 50 Hz (V-AMPSO)
4
V-LINE 50 Hz (V-LINE50)
4
S-CORRECT 50 Hz (V S-CORRSO)
4
V-PHASE 50 Hz (V-CENTER50)
4
H-PHASE 50 Hz (H-CENTER50)
4
V-BLK START (V-BLK ST50)
4
V-BLK STOP (V-BLK SP50)
4
SECAM R-Y (R-Y)
4
SECAM B-Y (R-Y)
In the direction of arrow : CH DOWN key
In the opposite direction : CH UP key
In the direction of arrow : CH DOWN key
In the opposite direction : CH UP key l
The characters in parentheses appear on the on-screen display.
3-2
SUB CONT+ST (SUB CON)
SUB BRIGHi (SUB BRI)
SUB COLO”p (SUB COL)
SUB SUBTIY ( SUB TIN)
SUB SHAFtTESS (SUB SHARP)
Y-SUB CONTRAST (Y SUB CON)
In the direction of arrow : CH DOWN key
In the opposite direction : CH UP key
4
V-AMP 60 Hi (V-AMPGO)
V-LINE 60 H; (V-LINEGO)
VS-CORRECT 60 Hz
4
V-PHASE 60 Hz (V-CENTERGO)
4
H-PHASE 60 Hz (H-CENTERGO)
4
V-BLK STABT 60 Hz (V-BLK ST60) t
V-BLK STOP 60 Hz (V-BLK SP60)
In the direction of arrow : CH DOWN key
In the opposite direction : CH UP key
4
Y DELAY PA/- (DT PAL TV/AV)
Y DELAY SECAM (DT SECAM TV/AV)
4
Y DELAY N;SC (DT NTSC TVIAV)
Y DELAY BtW (DT BW TVIAV)
4
VIDEO MUT; ON/OFF (V-MUTE)
VIDEO 2 ON/OFF (AV2)
(DELAY AN effective in AN mode) l
The characters in parentheses appear on the on-screen display.
l
When the modes are switched, the last service mode data are stored into the E2PROM.
l
In the service mode, the user data are preset as follows.
CONTRAST
COLOUR
BRIGHTNESS
TINT
SHARPNESS
S-VOLUME
BLUE BACK
C SYSTEM
S SYSTEM
User data
MAX (64164)
CENT (32/64)
CENT (32/64)
CENT (32/64)
CENT (32/64)
MIN (l/64)
OFF
AUTO
‘1 l
The following keys are used to go directly to their respective modes,
*
‘1 : Settings of each before switching mode.
channel to the service
VIDEO MUTE
I BLUE BACK l
To go to the service mode, the data at the E2PROM’s addresses OOH thru 03H are read. If the data are not as given below, the E2PROM is initialized according to the table below.
Address : Data
OOH : 22H
OlH : 29H
02H : 13H
03H : 48H
(OOH)
(OlH)
W’f-4
(03H)
R CUT OFF
G CUT OFF
B CUT OFF
G DRIVE
E’PROM item
I
IData adjustable range) Data initial value 1
I I
0 -
0 -
0 -
0 -
255
255
255
255
29H
13H
48H
0
0
0
Remarks
B DRIVE
50Hz V-AMP
50Hz V-LINEARITY
50Hz S-CORRECTION
50Hz V-PHASE
50Hz H-PHASE
V-BLK S T 50
V-BLK SP 50
60Hz V-AMP
0 -
0 o -
0 -
0 -
255
127
31
127
7 o- 31
0 -
0 .
n
63
127
127
127
58
16
50 (14”)/67 (21”) r;
;
58-+63 (50Hz)
25
1
- 2
7
-.
-3
+5
‘1 l 1
‘1 ‘ 2 l 1 l 1
60Hz V-LINEARITY
60Hz S-CORRECTION o- 31
0 127 l 2
60Hz V-PHASE 0 o- 31
7
15
255
‘ 4
60Hz H-PHASE
60Hz V BLK ST
60Hz V BLK SP
SECAM R-Y
SECAM B-Y
SUB-CONTRAST
SUB-BRIGHT
O- 63
0 o o-
0 -
0 -
-
127
15
255
60-+63 (60Hz)
20
10
6
255
127
‘ 2
SUB-COLOUR
SUB-TINT
0 -
0 -
0 -
255
127
110
70
SUB-SHARPNESS
Y SUB-CONTRAST
DT PAL TVIAV
DT SECAM TVIAV
DT NTSC TV/AV
DT BiW TVIAV
V-MUTE o -
0 -
0 I
0 -
0 -
ON/OFF
ON/OFF
63
31
7
7
7
7
28
18
2l2
414
2f2
2l2
OFF l 2
‘ 2
‘ 2
‘ 2
‘ 2
AN2
AFT/SKIP
0 1
ON
OFF/ON
C-SYSTEM
S-SYSTEM
NVM
I I
PIG
YIU
I
With all the adjustments complete, do not change the data of addresses OOH thru 03H. Other-
‘3 wise the E*PROM will be initialized when the AC power is turned on.
l 1 : These data are additionally adjusted for 60Hz based on the 50Hz settings.
‘2 : Unless otherwise specified, these data are fixed and need no adjustment.
4-2
I
l 3 : When the ICI001 is RH-iX2938CEZZ/Nl, change the NVM data from 00 to 01 (address
198H). For the RHiX2938CEN2 and the following ICs, there is no need to change this data
(as from the July 1997 production).
‘4 : Only 0 through 5 must be used in changing the data.
INITIAL SETTINGS OF CHANNEL SELECTION DATA
(1) Make an entry of MCLI in the service mode in order to set the following channel selection data to the
E2PROM. And select the POSl channel. (An MCL2, -3 or -4 input makes different settings.)
FACTORY SETTING
(1) The following key-in data have been factory-set for the E2PROM.
LAST FB POS
VOLUME
CONTRAST
COLOUR
BRIGHTNESS
TINT
SHARPNESS
1
MIN
MAX
CENT
CENT
CENT
CENT
*I : For settings, refer to the Job Instruction Sheet.
5-1 5-2
115V ADJUSTMENT
Adjusting point
115v adjustment:
R71l
Adjusting procedure/conditions
1. Receive the E-5CH (monoscope pattern) signal.
2. Using the remote controller, call the P-NORM mode.
3. Connect a beam ammeter between TP602 and
TP603.
0 Ammeter’s full-scale : 3 mA range l Ammeter’s positive (+) lead : TP603 l
Ammeter’s negative (-) lead : TP602
4. Take the beam ammeter reading to make sure that the beam current is between 600 pA and
800 uA (14”)/900 pA and 1100 pA (21”).
l
If not, readjust the FBT screen control to obtain the beam current of 600-800 uA (14”)/
900-1100 pA (21”).
5. Connect a digital voltmeter to TP701.
6. Adjust R711 so that the digital voltmeter should read 115 kO.5 V.
Waveform and others
PIF CHECKING
Jo. Adjusting point
1 Tuner IF
(preset):
TU201
Adjusting procedure/conditions
1. Get the tuner ready to receive the E-9CH signal.
but with no signal input. Adjust the PLL data.
2. Connect the sweep generator’s output cable to the tuner antenna. (RF sweep)
3. Adjust the sweep generator’s output level to 80 dBj.rV.
4. Connect the response lead (use a low-impedance probe with wave detector; see Fig. 7) to the tuner’s IF output terminal.
(This terminal must have the probe alone connected.)
5. Set the RF AGC voltage to O-6 V with no contact with the waveform.
6. Adjust the tuner IF coil to obtain the waveform as shown in Fig. 2.
Note: Be sure to keep the tuner cover in position during this adjustment.
Waveform and others
IF-OUT
1 ooop
1 Okf;!
7s$gfjffjfOPf
Fig. 7
E-9CH
P
- 1.5dB + 0.8dB
u
Fig. 2
6-1
PIF/AFT/AGC ADJUSTMENT
lo. Adjusting point
1 VCO adjustment: T203
Adjusting procedure/conditions Waveform and others
1. Disconnect the antenna from the tuner antenna l
Warm up the unit for longer than terminal.
10 minutes in advance.
2. Apply DC voltage to pin (4)(IF AGC) of IC201.
l
DC voltage: 6.0 V (allowable +O.l V)
3. Using a digital voltmeter, measure the DC voltage at pin (2O)(PLL FIL) of IC201.
l
The digital voltmeter must be able to take read* 10 kHz at about 0.007 V.
ings down to the third decimal place.
4. Relieve pin (4) of lC201 of the DC voltage.
5. Reconnect the antenna in position and receive l
Position the T203 core in the the E-12CH signal. (With the AFT off, adjust the range in which the E-l 2CH sigreceiving frequency to 224.25 MHz.) nal can be received.
6. Connect the DC digital voltmeter to pin (20) of
IC201. Adjust T203 so that the voltmeter should read the same voltage as in Step 3.
Allowable error : 0.015 V (20 kHz)
2 AFT adjustment:
T204
DC voltage at TP201
6V
3 RFAGC cut-in adjustment:
R216
1. Receive the E-12CH (PAL colour bar) signal. If this signal is not available, any signal above the
E-5CH band is acceptable.
l Field strength : 55-80 dBpV
Make sure the frequency is almost the same as that of the received channel (i30 kHz).
2. Using the channel setting control, make a frequency of 224.25 MHz appear on the screen (the
AFT turns off). If any other channel than E-12CH is received, make its frequency on the screen.
(The AFT turns off when the on-screen display turns yellow.)
3. Turn T204 clockwise to have a 6V point, and counterclockwise to have a 0.2-V point. Position the coil at the center of these two points.
4. Adjust T204 so that the DC voltage at pin (1) (AFT
OUT terminal) of IC201 be 3.3 kO.1 V (See Fig. 3)
1. Receive the E-12CH (PAL colour bar) signal.
l Field strength : 57 k.1 dBpV (75 ohms open)
2. Connect the oscilloscope to TP210, as shown in
Fig. 4.
Oscilloscope TV Set
TP210 l
3.3v
- - - ,
I
I bL
DOWN A B’ ; B” C UP
Fig. 3
Turn the core counterclockwise for the UP direction, and clock wise for the DOWN direction.
Adjust the T201 core to point E
(between B’ and B”). (Points F and C are rejectable.)
Note: If a 500hm field strength meter is used without a 50/X impedance converter, set thf field strength to 55 *l dBpV
Pay attention to a loss tha would be caused with the con verter.
Bias box
+
SF
Fig. 4 l
Bias box: About 6.5 V
3. Turn R216 to have the highest voltage.
4. Turn R216 slowly in the opposite direction until the voltage goes down 0.1 V below the highest level.
5. Adjust thesignal level to 63-67 dBpV and make sure there is no noise.
6. Now adjust the signal level to 90-95 dBuV and make sure there is no chrominance modulation beat.
6-2
PURITY ADJUSTMENT
rlo. j Adiustins point j
Purity adjustment
Adiusting procedure/conditions
1. Using the remote controller, make the screen colour green-only. Adjust the contrast control to have a beam current of about 500 f.tA (14”)/700 pA (21”).
2. Degauss the cathode ray tube enough with the degaussing coil.
Note: Follow the Job Instruction Sheet to adjust the magnetic field.
Vertical Bv : +0.030 mT (0.30 gauss)
Horizontal Bh : +0.020 mT (0.20 gauss)
See page 10.
3. Keep the purity magnet in the zero magnetic field in advance. Roughly adjust the convergence.
4. Observe the points “a” and “b”, as shown in Fig.
5-1, through a microscope. Adjust the landing to the rank “A” requirements.
5. Adjust the raster rotation to “0” eastward.
6. Tighten up the deflection coil.screws.
l Tightening torque: 108 *20 N (11 lt2 kgf)
7. While observing the cathode ray tube corners.
apply the magnet sheet to have the landing at rank “A”.
Note: Before starting this adjustment, warm up the unit for 30 minutes or longer at a beam current of over 500 f.rA (14”)/
700 pA (21 I’).
Note: Set the service switch SlOOl to call the service mode and press the single-colour key on the process remote controller to get the green-only screen.
I l
Each time the single-colour key is pressed, the screen colour changes as follows.
Green-only screen
Blue-only screen
Red-only screen
T Single-colour screen cleared
Waveform and others
Fig. 5-l
Fig. 5-2
Rank “A” (on the right of the CRT)
Fig. 5-3
Rank “A” (on the left of the CRT) l
Whether in the service mode OI not, hold down the single-coloul key for 1 second or longer ant the service mode is called.
The TEXT key or the R.G.Cy kel may be used instead to provide the single-colour screens.
o. j Adiustina
CONVERGENCE ADJUSTMENT
Waveform and others Adiuztino oracedurelconditions j
1. Receive the E-2CH (crosshatch pattern) signal.
I
2. Using the remote controller, call the Normal mode.
STATIC CONVERGENCE
1. Turn the 4-pole magnet to a proper opening angle in order to superimpose the blue and red colours.
2. Turn the g-pole magnet to a proper opening angle in order to superimpose the green colour over the blue and red colours.
I
BGR
Fig. 6-i
‘. . . . . . . .
I
\ :
\ :
.
-
_---
. . . . .
4
B
DYNAMIC CONVERGENCE
1. Adjust the convergence on the fringes of the screen in the following steps.
a) Fig. 6-7: Drive the wedge at point “a” and swing the deflection coil upward.
b) Fig. 6-2: Drive the wedges at points ‘lb” and
“c” and swing the deflection coil downward.
c) Fig. 6-3: Drive the “c” wedge deeper and swing the deflection coil rightward.
d) Fig. 6-4: Drive the “b” wedge deeper and swing the deflection coil leftward.
2. Fix all the wedges on the cathode ray tube and apply glass tape over them.
3. Apply lacquer to the deflection yoke lock screw, magnet unit (purity, 4-pole and 6-pole magnets), and magnet unit lock screw.
Fig. 6-2
Fig. 6-3
Finally receive the red-only and blue-only signals and make sure there is no other colour mixed on the screen.
Fig. 6-4
Wedge “a”
Fig. 6-5
Purity magnet fig. 6-6
7-2
00
CRT CUT-OFF, BACKGROUND AND SUB-CONTRAST ADJUSTMENT
So. Adjusting point Adjusting procedure/conditions Waveform and others
1 CRT cut-off 1. Receive the E-5CH (monoscope pattern) signal.
l
First of all, make sure that the service mode: 2. Using the remote controller, call up the P-NORM R/G/B cut-off and B/G drive data
12C bus data adjustment mode.
3. Turn on the service switch and select the cut-off/ are all initial values.
background mode.
Note:
4. Set the screen control to O/10 position.
5. Press the “9” key on the remote controller to reach the horizontal centering mode.
6. Turn the screen control clockwise until the horizontal raster of the first glimmering colour becomes slightly visible.
R CUT OFF UP
G CUT OFF UP
6 CUT OFF UP
“1” KEY
DOWN “4” KEY
“2” KEY
DOWN “5” KEY
“3” KEY
DOWN “6” KEY
7. Adjust the cut-off data of the other two colours until the horizontal raster becomes whitish.
8. Turn the screen control counterclockwise until the horizontal raster disappears.
The data can be turned up and down with the above keys.
Note: Before starting this adjustment, warm up the unit for 30 minutes or longer at a beam current of over 500 PA (14”)/
700 PA (21”).
9. Press the “9” key on the remote controller to call the NORMAL mode.
iO.Using the remote controller, call the sub-brightness setting mode. (Receive the E-2CH signal.)
11. Set the sub-brightness data so that the third black portion (1st to 5th counted from the left of the screen) of the window pattern looks sinking.
Note: The service mode adjustment in the above steps 10. and 11. should be carried out after the white balance and background adjustments.
1 2 3 4 5
II
Make sure all the Ist, 2nd and
3rd black portions are at the same black level.
CRT CUT-OFF, BACKGROUND AND SUB-CONTRAST ADJUSTMENT
(Continued)
lo. Adjusting point Adjusting procedure/conditions Waveform and others
2 White balance 1. Receive the E-5CH (monoscope pattern) signal.
See page 5.
and 2. Using the remote controller, call up the Video l
12300°K X: 0.273
background Normal mode.
service mode: 3. Connect the beam ammeter between TP601 and
Y : 0.276
1% bus data adjustment
TP602.
4. Make sure the beam current is about 800 PA
(with colour temperature meter
CA-100 (MINOLTA).)
(14”)/1,100 PA (21”).
5. Adjust the G-drive and B-drive data to have a Note: colour temperature of 12,300”K (white).
6. Adjust the contrast and brightness controls to
G-DRIVE UP “7” KEY
DOWN “-I--” KEY have the beam current of 200 PA. Now check the background colour. If the colour temperature is
B-DRIVE UP “8” KEY
DOWN “0” KEY not as specified, go back to No. 1 on the preceding page.
Note: Before starting this adjustment, warm up the unit for 30 minutes or longer at a beam current of over 500 pA (14”)/
700 pA (21”).
The data can be turned up and down with the above keys.
3 Maximum 1. Receive the E-5CH (monoscope pattern) signal.
beam current 2. Using the remote controller, call up the Video
(check item) Normal mode.
3. Connect the beam ammeter between TP602 and
TP603.
l Ammeter’s full-scale : 3 mA range l Ammeter’s positive (+) lead : TP603 l Ammeter’s negative (-) lead : TP602
4. Make sure the beam current is 800 *lOO PA (14’11
1,100*100pA (21”).
Note: Before starting this adjustment, warm up the unit for 30 minutes or longer at a beam current of over 500 PA (14”)/
700 PA (21”).
8-1 8-2
HORIZONTAL AND VERTICAL CIRCUIT ADJUSTMENT
lo. 1 Adlustina ooint 1
V-AMP 50
Adiustina orocedurekonditions
1. Adjust the overscan to 9% (E-5).
V-LINEARITY -
50 Hz
V-S CORREC-
TION - 50 Hz
1. Adjust to get the best linearity.
1. Preset (readjust if the linearity is poor).
I Waveform and others
The selected channels in parentheses have the following signals.
(E-2): Crosshatch pattern (50 Hz) signal
(E-5): Monoscope pattern (50 Hz) signal
V-SHIFT 50 (V1. Align the screen center with the cathode ray tube’s
CENTER) geometrical center (E-5).
H-SHIFT (50)
(H-CENTER)
1. Align the screen center with the cathode ray tube’s geometrical center (E-5).
Note: For the V-HEIGHT 60, V-LINEARITY 60,
V-S CORRECTION 60, V-SHIFT 60 and
H-SHIFT 60 adjustments, their corrected data are automatically entered when the corresponding 50 Hz mode adjustments are made.
Receive the E-5CH (monoscope pattern) signal.
Using the remote controller, call the Video Normal mode.
Adjust the focus control so that the screen be in good focus.
PAL CHROMA ADJUSTMENT
Waveform and others o. Adjusting point
1 Sub-colour adjustment:
12C bus adjustment
Adjusting procedure/conditions
1. Receive the E-l 2CH (PAL colour bar) signal.
2. Using the remote controller, call the Video Normal mode.
3. Connect the oscilloscope to TP851 (14”)1TP852
(21”) (RED cathode). (Use a 10 : 1 probe.) l Range : 2 Vldiv.
l
Sweep time : 20 usecldiv.
B w
W Y lOO%WMg R
4. Using the remote controller, call the sub-colour adjustment mode. Adjust the sub-colour data so that the 75% white and red portions of the PAL colour bar be at the same level. See Fig. 7.
5. Clear the adjustment mode. (Now the 100% white and red portions will be at the same level. The sub-colour data is up 20.) l
Pin (3)(K) may be used instead of TP851 (14”)/
TP852 (21”) (RED cathode) for this adjustment.
In such case, keep in mind that the polarity of the waveform is inverted.
Fig. 7
NTSC CHROMA ADJUSTMENT
Waveform and others lo. Adjusting point
1 Sub-tint adjustment:
12C bus adjustment
Adjusting procedure/conditions
1. Call the sub-tint adjustment mode. Receive the
NTSC 3.58 colour bar signal in the A/V mode.
2. Connect the oscilloscope to pin (36)(B-Y) of
IC801.
l
Range : 20 mV/div. (AC) l Sweep time : 20 psec/div. (Use a 10 : 1 probe.)
(B-Y)
A 4
B4 c c- - - - - - - - - - - -
3. Adjust the sub-tint data to obtain the waveform as shown in Fig. 8.
4. Clear the adjustment mode.
@
WYCyGMgRB
Fig. 8
A=B=C
9-1 9-2
SECAM CHROMA ADJUSTMENT
Waveform and others lo. Adjusting point Adjusting procedure/conditions
1 SECAM b l a c k 1. Receive the Oi-5CH (SECAM colour bar) signal.
level (R-Y/B-Y) 2. Call the SECAM black level adjustment R-Y mode.
adjustment: 3. Connect the oscilloscope to pin (34)(R-Y OUT,
1% bus adjustment
TP802) of IC801.
l Range : 10 mV/div.
l Sweep time : 20 psec/div. (Use a 10 : 1 probe.)
4. Adjust the R-Y data so that the offset between the no-signal line and the signal line be minimum.
See Fig. 9-l(b).
5. Call the SECAM black level adjustment B-Y mode.
6. Reconnect the oscilloscope to pin (33)(B-Y OUT,
TP801) of IC801. The conditions are just the same as in Step 3.
7. Adjust the B-Y data so that the offset between the no-signal line and the signal line be minimum.
See Fig. 9-2(b).
- -
OFF SET
1”-
Fig. 9-l (a)
4
- -
_- -_-_ _-_-_ _ _-_
7-F
Fig. 9-l (b)
__ _- -_ _ -- -_ _-_
OFF S:;
!111
Fig. 9-2 (a)
+
-- -- -_ _ -- -_ _ _
@
Fig. 9-2 (b)
PROTECTOR PERFORMANCE CHECK
lo. Adjusting point
1 B e a m protector
Adjusting procedure/conditions Waveform and others
1. Receive the EdCH (monoscope pattern) signal.
l
Short-circuit any of the Q851
2. Set the contrast control to maximum.
0852 and 0853.
3. Set the brightness control to maximum.
4. Make a short-circuit between the collector and emitter of Q851, Q852 or Cl853 and make sure that the protector is activated and the stand-by mode is called.
2 High-voltage protector
1. Receive the E8CH (monoscope pattern) signal.
2. Connect the bias box to the cathode (R635 side) of D607.
3. Adjust the bias box voltage to 18 V and make sure that the protector is not activated.
4. Adjust the bias box voltage to 27 V and make sure that the protector is not activated.
3 Other protectors
1. In checking the performance of other protectors
- for example, the one against shorting of smoothing electrolytic capacitor of +B line -, pay attention not to damage or deteriorate any related element.
10-l
A/v INPUT AND OUTPUT CHECK
Waveform and others lo. Adjusting point
1 Video and audio output check
Adjusting procedure/conditions
1. Receive the E-12CH colour bar (100% white colour bar, 400 Hz, 100% modulation audio) signal.
2. Terminate the video output with a 75 ohm impedance. Make sure the output is as specified
(1 .O Vp-p *3 dB).
3. Terminate the audio output with a 10k ohm impedance. Make sure the output is as specified
(1.76 Vp-p rt3 dB).
2 Video and audio input check
1. Using the TV/AV key on the remote controller, make sure that the modes change in the order of
TV, AV1, AV2 and TV again and that the video and audio outputs are according to the input and output terminals for each mode.
10-2 e 4 iY
1 CONTRAST key
FUNCTION CHECK (VIDEO AND AUDIO)
Waveform and others
1. Receive the E-5CH signal.
2. Select the contrast on the P-MODE screen.
3. The contrast must be changeable with the UP/
DOWN key.
2 COLOUR key I. Receive the E-12CH signal.
2. Select the colour on the P-MODE screen.
3. The colour must be changeable with the UP/
DOWN key.
3 BRIGHTNESS key
I. Receive the E-5CH signal.
2. Select the brightness on the P-MODE screen.
3. The black level must be changeable with the UP/
DOWN key.
4 TINT key 1. Receive the NTSC colour bar signal. (A/V)
2. Select the tint on the P-MODE screen.
3. The tint must be changeable toward green with the UP key and toward red with the DOWN key.
5 PIC-NOR. k e y 1. Press the NOR. key on the P-MODE screen to l
The contrast, colour, brightness, make sure all the displayed items are at normal tint and sharpness settings are settings.
all normal when these items dc not appear on the screen.
See below for the normal settings.
l l
Contrast
Colour
: MAX
: CENTER l Brightness : CENTER l Tint : CENTER l Sharpness : CENTER
6 SHARPNESS key
1. Receive the E-5CH signal.
2. Select the sharpness on the P-MODE screen.
3. The sharpness must be changeable with the UP/
DOWN key.
7 Channel sign display coiour
1. The display colour of all the channel (O-99) signs must be green. Keep the AFT on.
FUNCTION CHECK (VIDEO AND AUDIO) (Continued)
Waveform and others o. Adjusting point
9 C O L O U R
SYSTEM key
Adjusting procedure/conditions
1. Receive the E-l 2CH PAL colour bar signal. Using the COLOUR SYSTEM key, select a mode other than PAL and make sure the colour system does not work properly.
2. Receive the E-37CH NTSC 4.43 colour bar signal. Using the COLOUR SYSTEM key, select a mode other than N4.43 and make sure the colour system does not work properly.
3. Receive the NTSC 3.58 colour bar (A/V) signal.
Using the COLOUR SYSTEM key, select a mode other than N3.58 and make sure the colour system does not work properly.
9 S O U N D
SYSTEM key
I. Receive the 01-9CH PAL colour bar signal. Using the SOUND SYSTEM key, select B/G and I modes and make sure the sound system does not work properly.
2. Receive the E-23CH monoscope pattern signal.
Using the SOUND SYSTEM key, select B/G and
D/K modes and make sure the sound system does not work properly.
3. Receive the E-12CH colour bar signal. Using the
SOUND SYSTEM key, select I and D/K modes and make sure the sound system does not work properly.
IO Noise mute check
1. Receive the E-12CH (PAL colour bar) signal.
2. Turn up the sound volume to maximum and make sure the sound is heard normally from the speakers. Then cut off the signal.
3. Make sure the sound muting functions.
4. Finally turn down the sound volume to minimum.
11-1 11-2
MEMORY MAP (RH-iX2938)
SUB
DDRESS
DATA
7 1 6 1 5 1 4 1
I I I
R 1 7 1 initialization judgment data “22”
Initialization judgment data “29”
1 n
I
I 003 I
I
I
I 004 II t ii& I
006 1
007 II
008 I
PLL data (lower)
PLL data (lowerj
PLL data iurx)e;I
REMARKS I CRlTERlA
Other than $22
Other than $29
Other than $13 c
)thnr than $48 I
I
I CHO
CHl
CH2
FACTORY
I SElTlNG I
$22
$29
$13
$48
- -
,
012 1
013 I
017
018
019 t
OIA 1I
1 fl1B 1
OlC
OlD
OlE 1
OlF 1I
I 020 I
021
022
023
024 1
025 1
026 1
027 1 I t
028
I
029
02A
028 1
02c I t t
02D i
02E 1
I
I
02F 1
PLL d a t a (i
PLL data (lower)
PLL data (lower)
PLL data (upper)
PLL data (upper)
PLL data (uppe;)
PLL data (lower)
PLL d a t a (
I
PLL data (lowerj
PLL data &De;)
PLL data ildwerj
PLL data (upper)
PLL data (lower)
PLL data (upper)
PLL data il ower)
PLL data iupper)
PLL data (lower)
PLL data (lower)
PLL data (upper)
PLL data (lower)
PLL data (upper)
PLL data ildwer)
PLL data (lower)
12-1
1
I
CHIO
CHll
CH12
CH13
CH14
I
CH15
CH16
CH17
I CH18 I
CH19
CH20
I I
I I
I
FACTORY
SETTING
SUB
ADDRESS
09E
09F
OAO
OAl
OA2
OA3
OA4
OA5
OA6
OA7
OA8
OA9
OAA
090
091
092
093
094
095
096
097
098 lzF=
09B
09c
09D
OAD 1
OAE I
7 1 6 1 6 1 4
DATA
’
131211JU
PLL dz ata (upper)
PLL dz ata (lower)
PLL di ata (upper)
PLL dista (lower)
PLL di ata (upper)
PLL diata (lower)
PLL ds ata (upper)
PLL dsata (lower)
PLL d ata (upper)
PLL d
PLL d
PLL d
PLL d
PLL dlata (lower)
PLL dlata (upper)
PLL dlata (lower)
PLL clata (upper)
PLL clata (lower)
PLL clata (upper)
PLL ctata (lower)
PLL data (lower)
PLL data (upper) pLL +dP /ln!Amr\
PLL (
PLL (
PLL L,.- \-TT- ,
PLL data (lower)
PLL data (upper)
PLL data (lower)
PLL data (upper)
I
CH70
CH71
I
1 CH72
CH73
CH74
I
CH77
I
CH78
I
1 CH79
I
1 CH80
CH8
CH84
CH85
:ACTORY
SElTlNG
13-2
ADDRESS 7 1 6 1 5 1
4
DATA
1 j I
2 110
OCI bC2 oc3 oc4
PLL data (upper)
PLL data Ilower\ t --.-‘I
PLL data (upper)
PLL data (lower)
PLL data (upper) oc5
OC6 1 oc7 I oca
PLL data (lower1
PLL data (upper)
PCL data (lower1
\ -.--.I
PLL data (upper) oc9
OCA
OCB
OCC POWER/
OCD
OCE
OCF
PLL data (lower)
PLL data (upper)
PLL data (lower)
TVIAV I’ ’
BLUE BACKGROUND 1 One-digit/two-digit
LANGUAGE
000
ODl
LAST CONTRkT
LAST COLOUR
OD2
OD3
LAST BRIGHTNESS
LAST TINT
004 1 m5 I
LAST SHARPNESS
AST VOLlJMF
I
I
I
1
I
I
I
II
I
REMARKS
I
CH94
CH95
CH96
I
-. .-,
CH98
CH99
OFFI .
I
I
I
CRITERIA
L
I
I
1
I
1 Factorv-set at ON
FACTORY
SETTING
80
5 5
--3iT-
01
- - - F - - -
- - - r - - -
--iF---
--iF---
- - - T - -
- - - - E - -
--E--
1 SUB I DATA
ADDRESS 7
OF0
OF1
6 5 4 3 2
CH7 CH5 CH5 CH4 CH3 C&’ CHl CHO
CHI
I
’ REMARKS
SKIP
0:OFF
1 :ON
CRITERIA
SKIP ON
FACTORY
SETTING
00
OFE 1
OFF 1
I
I
I I
I I
I I t I
I I I I
I
I
I
“Y
ODE
ODF
OEO t
I
I
I
I
I
I
1 Cl-17 1 CM 1 Cl-i.5 1 CH4
I
I
I
I CH3 I CH2 I CHI I CHO i AFT
I l AFTOFF
-
---FF--
14-1
14-2
SUB
ADDRESS
130
131
132
133
7
1
6 5
AUDIO SYSTEM
AUDIO SYSTEM
AUDIO SYSTEM
AUDIO SYSTEM
4
DATA
3 2 1
VIDEO SYSTEM
VIDEO SYSTEM
VIDEO SYSTEM
VIDEO SYSTEM
0
REMARKS
CH4B
CH49
CH50
CH51
CRITERIA
FACTORY
SETTING
I I
1
15F 1 AUDIO SYSTEM 1 VIDEOSYSTEM 1 ‘iHi 1
I
I I
i SUB 1
DATA
7 1 6 1 5 1 4 1 3 1 2 1 1 1 0
AUDIO SYSTEM
AUDIO SYSTEM
AUDIO SYSTEM
AUDIO SYSTEM
AUDIO SYSTEM
VIDEO SYSTEM
VIDEO SYSTEM
VIDEO SYSTEM
VIDEO SYSTEM
VIDEO SYSTEM
I I
REMARKS CRITERIA
I
CH96
CH97
CH98
CH99
A/V MODE cArrfiay
I
165
166
167
168
169
160
161
162
163
164
DATA
198
19c I
I I I I
1 SFIELD pc0~1-r IDEUFJ Foj s GP
I I I
196
19E
I
I I
1 V ID SW 1 s KIL
I
L
1
I
BELLFO 1
I
I I
I
I
I
I
1 ;;
1AB I
1AC
1AD
1AE
IAF
1BO I
I
181 I
I
I
I
I
I I
I
I
I
I
I
I I
I
I
I
I
I I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I
I I
I
I
I I
I
I
I
I
i
16-1
* : The initial setting of the RH-iX2938CEZZ/Nl must be changed from 00 to 01. With the RH-iX2938CEN2, there is no need to change the initial setting.
16-2
TROUBLE SHOOTING TABLE
NO RASTER
I Check F701.
t I
Blown out.
I
Replace the fuse.
1 Abnormal 1
I
Check pin (1) of T701 voltage
(Approx. 31 OV at 220V AC)
I I
The fuse is again blown out.
I
;
I
I
I
Check R701, R702 and
C h e c k S e c o n d a r y Main+B
(Approx. 115V)
I ir’
Normal
1 Check C707, D701,0702, ;
1 C h e c k D7Or3 a n d 0 7 3 2 . 1 ( E!trF k!L connecto,r lzl ~~~~~~Power LED Green) 1
L NO
I
I
I
I r------~---___,
Check R609 and R611.
_-------------I
{ r
I
Does horizontal circuit
I+ oscillate ?
YES
I
I
I
N O r- - - - - - - ‘--------
Check Q1005, Q1006, !
Bus error mode.
See Fig. 1 or Check
IC602.
Checking the protector circuit
(The protector circuit still works even if there is no vertical waveform at pin (2) of IClOOl
If a bus error happens, the LED RED (pin 3) indicator starts flashing and the power is turned off. The power key is still effective.
IC1003
F i g . 1 E E P R O M (ST24C02) 1
IC801
V/C/J (TB1226CN) -
TU201
PLL (CXA3134) 6 uu
2s 0.5s
17-1
TROUBLE SHOOTING TABLE
(Continued)
CIRCUITS TO BE CHECKED: l Tuner.
l PIF.
l Automatic Gain Control.
l (W), (9V) Power Source.
NO PICTURE, NO SOUN
Does the noise level increase at max.
received.
I
Check the tuner supply voltage MB must be approx, 9V. BP must approx.
5V. BT must be approx 31V, and channel preset data check.
1
I
Normal 1
+
1
Check the tuner AGC.
1
I
Normal 1
I
1 Abnormal [
+ +
------l--------L-----,
I Check the tuner i I
I circuit.
I l
I
C h e c k IC201. i
I- - - - - - m - e - t l - - - - - - , - - - l
CIRCUITS TO BE CHECKED: l SIF Amplifier Circuit.
: l Sound Detector Circuit.
(
Does signal appear at pins
(1) and (8) of IC302 ?
NO
+
Does signal appear at pin
(3) of IC351 ?
YES r--------------_
; Check (5) connector IC351 ;
NO
17-2
No snow noise.
Jr
Dose noise or signal appear at pin (21) of IC201 ?
YES
Do noise or signal appear at pin (1) of IC801 ?
I and its related
1 parts.
I
I
I
I
I
I ( CheckANsw 1
Check IC801.
I
1 c i r c u i t s (IC401).
I
I__-------- I l - - - - - - - - - - l
I ---------------1 r--------------_ r_--____--------
I Check IC302 and peripheral r h circuit.
I - - - - - - - - - - - - - - - I
I
TROUBLE SHOOTING TABLE
(Continued)
NEITHER VERTICAL NOR
HORIZONTAL SYNCHRONIZATION
CIRCUIT TO BE CHECKED: l
Sync. Separator Circuit.
I
,..--------------_
I Check IC801 and Q401.
I
- - - - - - - - - - - - - - - I
I
*] j/
1 I
I I
I
* i- Che-ck R5;10, G-13,-c514- ;
1 and C501.
I
] Check C515, C519, R511, ;
NO VERTICAL SCAN
I
Check IC501 bias.
I-- ,
Normal 1
I
1 Abnormal J
I
I
Check 0506.
l---------------l
I
I
I
I
Check IC501.
I ------_------_-I
I
I
TROUBLE SHOOTING TABLE
(Continued)
( NO SPECIFIC COiOU$
i Check IC801, R809, R810, i
I
, R811, D801, D802, D803, 1
Q801, Q802, Q803,Q804 ;
: and Q805.
- - - - - - - - - - - - - - -
I
NO Is some colour produced in
BNJ broadcast reception ?
YES
I
+
, yEs I s t h e w h i t e b a l a n c e p r o p e r l y adjusted ?
N O
I r----m.---------_
I Readjust the white balance. I
I
I - - - - , - - - - - - - - - - I
I Check Q851 and its ;
I
I
I
Check Q852 and its ;
I
I Check Q853 and its ;
NO SPECIFIC COLOUR
“PAL”/“SECAM”/“NTSC”
(NO COLOUR SYNCHRONISATION)
i Check X801, C810, C815, ;
, _C8_‘6 and R814.
SOLID STATE DEVICE BASE DIAGRAM
TOP VIEW
8 5 a l-4
ST24C04
16
1 ix1 779CE
8
9 ix2938
1
56
29
TB1226
28
1
BA7357S
11
SIDE VIEW
IL t-BASE
COLLECTOR
!- EMITTER
2SA1015
2SC1815
2SC1906
2SC2482
2sc2229
Ii Ii R
1 2 3 1 L
I - BASE
COLLECTOR
EMllTER
3 2 1
L
L CATHODE
ANODE
KiA7045P UPC78LO5 iX0037CE
TA78L09
TA7348P
B C E
2582586
2SD1877
B C E
2SD1884 PX0003PE
1 2 3
KA7809
KA7805
1 iX0640CE
7
1
TDA7056A
9
1 9
.
CX-34G3
CX-51 G3 i
‘.
MODEL CX-34G3 CHASSIS LAYOUT
3 4 0 3
..“-- . . .
3 4 0 2
,._.,.” . . .
AV UNIT
RMClOOl
CFlOOl s1005
CH-UP
I
SlOOl
PRE-SET r
ICI003 if=!
CB14,,
CB13i
R F ACC
4 4 0 5
0
+ X801
PBO4
ICI002
OQBOI
8
PBOS
OQB03
0
4802
0
Q606
1C603
0
0 0
9401
4 4 0 4
Q607
0
9601
0
T601
I C60.2
1 C60
(F’- Q602
63
L602
S1006
NOR
SEVON
[n
[BC)
I I
(VA)
I c202
P302 t
IC401
J
5 4 0 1
“IDEOj
[ A U D I O
VIDEO
IN
AUD
IN
10
VI DE0
OUT
AUD
OUT
1 0
(Hl[
D604
-qFzq
TPB54
T602
/ II /II, 1 2 MAIN UNIT
\
\
\
, ///, r-2
I i
1 I 2 I 3
2 0
4 I 5 I 6 I
E
MODELCX-51 G3 CHASSIS LAYOUT
J403 5 4 0 2
I a
RMClOOl s1003
VOL-UP
5 1 0 0 4
CH-DOWN
5 1 0 0 5
CH-UP
Y-l
PRE-SET
I7 ’ q
' ' D1013
CFlOOl
IC1002 g OQBOl cl805 ow303
0
QEO2
0
a301
S1006
NOR
SEVON
VIDEO
IN I
VIDEO
OUT
AUDIO
IN
I 1
1
3
:I
1
2
1 PWB-B 1
CRT UNIT
1 I 2 I 3
21
I 4 I 5 I 6
1
CX-34G3
CX-51 G3
CX-34G3
CX-51 G3
. .
‘.
WAVEFORMS
IO 2.0 VP-p (H) 2 1.3 Vp-p (H) 3 1.5 Vp-p (H) l
4 3.0 Vp-p (H)
IO VP-p (H) n
-1 A- I 1 ,,L..L
-7Ttt=w
I
I t
0 1.8 Vp-p (H)
II7
I
@ 0.8 VP-p (I-i)
I
@ 140 VP-p (H)
(CX-34G3)
145 Vp-p (H)
(CX-51 G3)
I
0 9% VP-p (I-i)
(CX-34G3)
1000 Vp-p (H)
(CX-51 G3)
@? 150 Vp-p (H)
2 2
n
Tuner
NOTE: The parts here shown are supplied as an assembly but not independently.
,t&VTki~ST§WD64/
CX-34G3
CX-51 G3 n
Infrared Remote Control Unit
NOTE: The parts here shown are supplied as an assembly but not independently.
RRMCGI 342PESA
.
1 2 3
2 3
4
0 3 0 0 1
2SC3203Y
DxDl
-191.
5 6
L
I
DESCR~P‘TION OF
SCHEMATIC
DIAGRAM
SAFETY NOTES:
1. DISCONNECT THEAc PLUG FROM THEAC OUTLET BEFORE
REPLWING
PARTS
.
2. SEMICOND
U
CTOR HEAT SINKS SHOULD BE REGARDED AS
POTENT/AL SHOCK HAZARDS WHEN THE CHASSIS IS OP-
ERATING.
IMPORTA
NT
SA
FE
TY NOTICE:
PARTS MARKE
D WITH
“A ” ( ) ARE IMPORTANT FOR
MAINTAINING THESAFETY OF THE SET BE SURE TO REPLACE
THESE PARTS WITH SPECIFIED ONES FOR MAINTAINING THE
SAFETYAND PERFORMANCE OF THE SET
SERVICE PRECAUTION:
THEAREA ENC
LO
SE
D
BY THIS LINE (- - - ) Is D
IRE
C
TLY
CONNECTED WITH AC MAINS VOLTAGE.
WHEN SERVlClNG THEAREA, CONNECTAN ISOLATING TRANS-
FORMER BETWEEN TV RECEIVER AND AC LlNE TO ELIMINATE
1 HAZARD OF ELECTRIC SHOCK.
NOTES:
7. The unit of resistance ‘ohm” is omitted.
(K = 1000 ohms, M = Meg ohm).
2. All resisfors are I/B watt, unless otherwise noted.
3. All capacitors are pF; unless therwise noted. (P = ppF).
VOLTAGE MEASUREMENT CONDITIONS:
1. Voltage in parenthesis measured with no Signal.
2. Voltages without parenthesis measured with 3m V 8 & W or
Colour-Signal.
3. All the voltages in each point are measured with VTVM.
WAVEFORM MEASUREMENT CONDITIONS:
1. Co/our bar generator signal of 1.5V peak to peak applied at
Base of Video Buffer Amp. Q202.
2. Approximate/y 4.0 V AGC bias.
24
MODELCX-34G3 SCHEMATIC DIAGRAM
PWB-C (AV2 UMT)
DUNTK9324WEVO
B (CRT UNIT)
PWB-A
<9323WEV2 ~
(MAIN UNIT)
DUtdTK9322WEW 1
Ic80 1 T91226CN iPAL/SECAM/NTSCI
IC603 :N:S
Th78109S
25
CX-34G3
CX-51 G3 k,
2 6
MODEL CX-51 G3 SCHEMATIC DIAGRAM
CX-34G3
CX-51 G3
27
CX-34G3
CX-51 G3
CX-34G3
CX-51 G3
28
J 1
2
I
3
29
4
5
____ AUDIO-OUT -- ______ VIDEO-OUT v-,
6
r
CX-34G3
CX-51 G3
CX-34G3
CX-51 G3
\I
H-DRIVE
060 I
T60 I
H-OUT
0602
T
PLUSE
CLIP
D602
1
I l
5701 c----1 d--!
I
I I-F
& -------__ A,
I j
L70L
LINE FILTER
1 I*---- - - - - - a-1
II
II
I l-4
1
;
4
B
D
C
G
-
H
MODEL CX-51 G3 BLOCK DIAGRAM
P*B-B
.
PWB-A
MAIN UNIT
IC35 I
SPOT
-FOCUS / -
F
-
E c
C
------_
- - -
*
1
2 3
31
4 I 5 i@ @ @ a
AUDIO-IN VIDEO-I,, AUDIO-OUT VIDEO-C
I 6
CX-34G3
CX-51 G3
CX-34G3
CX-51 G3
I
I 11, 18 I
I I I
G L E D D R .
01004
’
L702
LINE FILTER
&- - - - - - - ,1
I I
+ --------- &-,
I
L70 I I
LINE FILTER ;
1 I
L----A
2 i
PLUSE
CLIP
D602
II
-I I I
RECTIFIER
D70 I-0704 t-A
i
--~~----~----~-----~--~~~~~~~~~~~~~
_-__--_--___--_-___---------
JDIO-IN VIDEO-IN AUDIO-OUT VIDEO-OUT
AUDIO IN VIDEO IN
6 7 I 8 9 I
32
10 i-
I rh
----e--m---
11 12
PRINTED WIRING BOARD ASSEMBLIES
(All the PWBs here are shown as viewed from their wiring sides)
CX-34G3
CX-51 G3
C
C
1
1 2 3
33
4
PWB-A: Main Unit
5 6
3463
51G3
‘. I
1 XI _““-
PWB-B:
CRT Socket Unit
PWB-C: AV-2 Terminal Unit
7 8 9
34
10 11 12
PARTS LIST
PARTS REPLACEMENT
Replacement parts which have these special safety characteristics identified in this manual: eleCtfiCa1 Components having such features are identified by “A” in the Replacement Parts Lists.
The use of a substitute replacement part which does not have the same safety characteristics as the factory recommended replacement parts shown in this Service manual may create shock, fire or other hazards.
“HOW TO ORDER REPLACEMENT PARTS”
TO have your order filled promptly and correctly, please furnish the following informations.
1. MODEL NUMBER
3. PART NO.
5. CODE
2. REF. NO.
4. DESCRIPTION
6. QUANTITY
Ref. No.
MARK Jr: SPARE PARTS-DELIVERY SECTION
Part No.
* Description Code
PICTURE TUBE nv1 a L708
A DYl
MODEL CX-34G3
VB370BVBKl S-S R CRT 37 cm (14”)
RCiLG0023PEZZ
RCiLHO140PEN3
LHLDW0003PEKZ
R Degaussing (ADG) Coil
R Deflection Yoke
R ADG Coil Holder, x4
PMAGF3006CEZZ R Purity Magnet
PSPAG0004PEZZ R W edge (Gum), x3
MSPRTOOOi PEFJ R CRT Spring
QEARC1404PEZZ R Grounding Strap
AVl
&J L708
MODEL CX-51 G3
VB51 KPD12X/4E R CRT 54 cm (21”)
RCiLG0025PEZZ R Degaussing (ADG) Coil
(with DY)
LHLDW0003PEKZ R ADG Coil Holder, x4
PMAGF3003CEZZ R Purity Magnet
PSPAG0003PEZZ R W edge (Gum), x3
MSPRTOOOl PEFJ R CRT Spring
PRINTED WIRING BOARD ASSEMBLIES
(NOT REPLECEMENT
ITEM)
MODEL CX-34G3
PWB-A DUNTK9322WEVl - M a i n U n i t
PWB-B DUNTK9323WEV2 - CRT Socket Unit
PWB-C DUNTK9324WEVO - AV-2 Terminal Unit
-
-
-
MODEL CX-51G3
PWB-A DUNTK9322WEV3 - M a i n U n i t
PWB-B DUNTK9323WEV3 - CRT Socket Unit p’@B-C DUNTK9324WEV3 - AV-2 Terminal Unit
AK
AB
AC
AD
BZ
AN
BC
AB
CG
AW
-
-
-
AB
AK
A D
AC
Ref. No.
Part No.
* Description
Code
PWB-A DUNTK9322WEwl/ws
MAIN UNIT
NOTE:
a TU201
TUNER
THE PARTS HERE SHOWN ARE SUPPLiED AS AN
ASSEMBLY BUT NOT INDEPENDENTLY.
VTUVTSTGHD64I R VHFTuner
BF
IC201
IC202
IC302 lC351
IC401
IC501
IC602 iC603 iC604
IC751
IC801
Ic1001
IC1002
IC1003
IC1004
INTEGRATED CIRCUITS
VHiBA7357S/-1
RH-iX0037CEZZ
R BA7357S
R 32V Regulator
VHiTA7348P/-1
VHiTDA7056A-1
VHiTA7348P/-1
RH-iX0640CEZZ
VHiKA7809Pi-1
VHiTA78LOSS-1
VHiKA7805Pi-1
RH-iX1779CEZZ
VHiTB1226CN-1
RH-iX2938CEN2
VHiKiA7045P-1
VHiST24C04/-1
VHiUPC78L054
R TA7348P
R TDA7056A
R TA7348P
R LA7830
R KiA7809Pi
R H-Vcc, 9V Regulator
R 5V Regulator
R TEA2261
R TB1226CN
R M37221 M4-109SP
R KiA7045P
R ST24C04CB6
R UPC78LO5J
AR
AF
AK
AP
AK
AK
BC
AW
AD
AQ
AD
AE
AC
AE
AR
Q201
Q202
Q205
Q207
Q301
Q302
Q303
Q305
Q401
TRANSISTORS
VS2SC1906//1 E
VS2SCl815GW-1
VS2SC1815GW-1
VS2SC1815GW-1
VS2SC1815GW-1
VS2SCl815GW-1
VS2SCi 815GW-1
VS2SC1815GW-1
VS2SA1015Yll E
Q404 VS2SCl815GW-1
R IF Amp.
R 6MHz (CX-34G3)
R 2SC1815(G)
R 2SC1815(G)
R M u t e
R Amplifier
R Amplifier
R Mute
R Buffer
R Video Buffer
Q405 VS2SA1015G/l E
Q601 VS2SC2482//-1
R 2SA1015(G)
R Horizontal Drive
A Q602
Q701
Q801
VS2SD 1877//l E
Q805 VS2SAlO15Y/l E
R Horizontal Output
(CX-34G3)
Q606 VS2SC1815GW-1 R Horizontal Switch
A Q607 VS2SC1815GW-1 R 2SC1815(G)
VS2SD1884//-1
VS2SC1815GW-1
Q802 VS2SA1015Y/l E
Q803 VS2SA1015Y/l E
Q804 VS2SA1015Y/l E
R Power Output
R Spot Killer
R Spot Killer
R R-Buffer
R B-Buffer
R G-Buffer
QlOOl VS2SC1815GW-1 R V-Sync.
Q1002 VS2SCl815GW-1 R H - S y n c .
Q1003 VS2SA1015Y/l E R R LED Driver
Q1004 VS2SA1015Y/l E
Q1005 VS2SA1015Y/l E
R G LED Driver
R H-Vcc SW
QlOO6 VS2SC1815GW-1 R H-Vcc S W
AB
AB
AB
AB
AC
AB
AB
AB
AC
AB
AC
AD
AL
AC
AC
AC
AC
AB
AB
AC
AC
AC
AB
AB
AB
AN
AB
D201
DIODES
RH-DX0475CEZZ R D i o d e AB
35
Ref. No.
Part No.
* Description Code
PWB-A DUNTK9322WEwmv3
MAIN UNIT(Continued)
D302 RH-DX0224CEZZ
D303 RH-DX0475CEZZ
R Diode
R Diode
AB
AB
D305 RH-DX0475CEZZ
D403 RH-DX0475CEZZ
R Diode
R Diode
AB
AB
AB
D404 RH-DX0475CEZZ
D501 RH-DX0279CEZZ
R Diode
R Diode
D502 RH-DXO127CEZZ R Diode
D503 RH-EX0675GEZZ R Zener Diode 33V
D504 RH-EX0675GEZZ
D601
R Zener Diode 33V
RH-EX0294CEZZ R Zener Diode 5.1V
D602 RH-EX0313CEZZ
D603
R Zener Diode 9.1 V
RH-DX0073CEZZ R Diode
AB
AB
AC
D604 RH-DX0279CEZZ R Diode
A D606 RH-DX0475CEZZ R Diode
A D607 RH-EX0692GEZZ
A D607 RH-EX0342CEZZ
0611
A D618
D619 RH-DX0475CEZZ a D657
0701 RH-DX0055TAZZ
D702 RH-DX0055TAZZ
D703 RH-DX0055TAZZ
D704 RH-DX0055TAZZ
0705
D706
D708
D709 RH-DX0302CEZZ
D710
D712
RH-DX0475CEZZ
RH-DX0475CEZZ
RH-EX0286CEZZ
RH-DXO130CEZZ
RH-DXOl30CEZZ
RH-EX0639CEZZ
RH-DX0027CEZZ
RH-DXO130CEZZ
AD
AB
AB
R Zener Diode 27V (CX-34G3) AB
R Zener Diode 24V (CX-51G3) AB
R Diode AB
R Diode AB
R Diode
R Zener Diode 3.9V
R Diode
R Diode
R Diode
R Diode
R Diode
R Diode
R Zener Diode 3.9V
R Diode
R Diode
R Diode
AB
A A
AD
AD
AD
A D
AE
AE
AB
AC
AE
AE
AB
AB
AA
AA
D715 RH-EX0323CEZZ
D732 RH-DX0388CEZZ
D733 RH-DX0302CEZZ
D801 RH-DX0475CEZZ
R Zener Diode 13V
R Diode
R Diode
R Diode
AB
AE
0 8 0 2 RH-DX0475CEZZ
0 8 0 3 RH-DX0475CEZZ
D804 RH-DX0475CEZZ
D1003 RH-EXO61 SGEZZ
D1004 RH-EXO61 SGEZZ
D1008 RH-EXO61 SGEZZ
D1012 RH-EXO61 SGEZZ
Dl 013 RH-PX0003PEZZ
Dl 014 RH-EXO61 SGEZZ
Dl 015 RH-EXO61 SGEZZ
Dl 018 RH-DX0475CEZZ
Dl 019 RH-DX0475CEZZ
D1020 RH-DX0475CEZZ
R Diode
R Diode
R Diode
R Zener Diode 6.2V
R Zener Diode 6.2V
R Zener Diode 6.2V
R Zener Diode 6.2V
R LED, Red/Green
R Zener Diode
R Zener Diode
R Diode
R Diode
R Diode
AC
AB
AB
AB
AB
AA
A A
AA
A A
AF
AA
AA
AB
AB
AB
D1021 RH-DX0475CEZZ
D1022 RH-EXO61 SGEZZ
D1023 RH-EXO61 SGEZZ
D1026 RH-EXO61 SGEZZ n VA702 RH-VX0048CEZZ
R Diode
R Zener Diode (CX-51G3)
R Zener Diode (CX-51 G3)
R Zener Diode
R Varistor
AB
AA
AA
A A
AE
Ref. No.
Part No.
* Description Code
PACKAGED CIRCUITS
PR701 RMPTP0028CEZZ R Packaged Circuit (CX-34G3)AG
PR701 RMPTPOOOl PEZZ R Packaged Circuit (CX-51 G3)AN
X801 RCRSB0244CEZZ R C r y s t a l , 16.2MHz
AH
CF201 RFiLA0042CEZZ
CFl 001 RFiLA0084CEZZ
L201
L202
L203
L204
L206
L401
L602
L605
COILS AND TRANSFORMERS
VP-DF270KOOOO
VP-DF270KOOOO
VP-DF270KOOOO
VP-XFl ROKOOOO
VP-XF390KOOOO
VP-CFl 01 KOOOO
RCiLP0224CEZZ
VP-DFl OOKOOOO
R Filter
R Filter
AD
AE
AB R Peaking 27pH
R Peaking 27pH
R Peaking 27pH
AB
AB
R Peaking 1 pH
R Peaking 39pH
AB
AB
R Peaking 100pH
R Coil
AB
AE
R P e a k i n g 10pH (CX-34G3) AB
L605
L609
L609
L632 a L701
&, L702
L705
L712
L712
L801
L802
Ll 001
VP-DFl 01 KOOOO
VP-CFl R5MOOOO
VP-CFl ROM0000
RCiLP0225CEZZ
RCiLF0021 PEZZ
RCiLF0012PEZZ
VP-CF3R3KOOOO
VP-CF330KOOOO
VP-CFl OOKOOOO
VP-DFl 01 KOOOO
VP-DFl 01 KOOOO
VP-DFl ROKOOOO
SF201 RFiLC0018PEZZ
T203 RCiLD0238CEZZ
T204 RCiLD0239CEZZ
A T601
A T601
R Peaking 1OOpH (CX-51G3) AB
R Peaking 1.5pH (CX-34G3) AB
R Peaking 1pH (CX-51G3)
R Coil
R Coil
R Coil
R Peaking 3.3pH
R Peaking 10pH (CX-51 G3)
R Peaking 100pH
R Peaking 100pH
R Peaking 1 pH
R Detection Coil
R Detection Coil
AB
AF
AK
AN
AB
R P e a k i n g 33pH (CX-34G3) AB
AB
AB
AB
AB
R Surface Acoustic Wave FilterAL
AE
AE
RTRNZO179CEZZ R T r a n s f o r m e r (CX-34G3) AE
RTRNZ0026PEZZ R Transformer (CX-51 G3) AH n T602 RTRNFO141 PEZZ R H-Volt Transformer BC
A T602 n T701
A T701
(CX-34G3)
RTRNF0147PEZZ R H-Volt Transformer
(CX-51 G3)
RTRNZOll SPEZZ R Transformer (CX-34G3)
RTRNZOl20PEZZ R Transformer (CX-51 G3)
BC
AS
BB
CONTROLS
R216 RVR-M4630GEZZ R 47k(B) RF-AGC
R711 RVR-M4324CEZZ R 220(B) 115V Adj.
AB
AC
CAPACITORS
C201 VCEAGAlCW226M R 2 2 16V E l e c t r o l y t i c AB
C202 VCKYMNlCY103N R 0 . 0 1
C203 VCKYMNlCY103N R 0 . 0 1
16V Ceramic AA
C204 VCEAGAl CW107M R 1 0 0
C205 VCEAGAlCW337M R 3 3 0
C206 VCKYPAl HF103Z R 0 . 0 1
C207 VCEAGAlHWlOGM R 1 0
C208 VCKYMNlCY103N R 0 . 0 1
C209 VCKYMNlCY103N R 0 . 0 1
16V Ceramic AA
16V E l e c t r o l y t i c AB
16V Electrolytic AC
50V Ceramic AA
5OV Electrolytic AC
16v Ceramic AA
16v Ceramic AA
C210 VCKYMNlCY103N R 0 . 0 1 c211 VCKYMNlCY103N R 0 . 0 1
16v Ceramic AA
16v Ceramic AA
36
k-.-
Ref. No.
Part No.
Description Code c212 c213
C214
C215
C216
C217
C218 c219 c220 c221 c222
C223
C232
C233 c301
C302 c303 c304 c305
C306 c307
C308 c309 c310 c311
C312 c314 c315
C316 c317
C318
C224
C225
C227
C228 c229
C231 c319
C320
C321
C322
C323
C324
C327
C328 c329 c330 c331 c401
C402 c403 c404 c405
C406
PWB-A DUNTK9322WEwmV3
MAIN UNIT(Continued)
VCKYPAl HFlO3Z R 0.01
VCFYSAlHB154J R 0.15
VCKYMNlCY103N R 0.01
VCEAGAlCWlOGM R 10
VCKYMNlCY103N R 0.01
VCKYMNlCY103N R 0.01
VCCCPAlHH150J R 15~
VCCCPAlHH220J R 22p
VCCCPAlHHlOlJ R 100~
VCFYSAl HB684J R 0.68
VCCCPAlHH120J R 12p
RC-QZAl 04TAYK R 0.1
VCEAGAlCW476M R 47
VCKYMNlCY103N R 0.01
VCCCPAlHH180J R 18p
RC-QZA104TAYK R 0.1
RC-QZA103TAYK R 0.01
VCEAGAlHW475M R 4.7
VCKYMNl CY103N R 0.01
VCEAGAlHW225M R 2.2
VCEAGAlCW477M R 470
RC-QZA104TAYK R 0.1
VCFYSAl HB474J R 0.47
RC-QZAl OBTAY K R 0.01
VCEAGAl HW104M R 0.1
RC-QZA473TAY K R 0.047
VCKYPAl HB331 K R 330~
VCKYPAl HF103Z R 0.01
VCKYPAl HF103Z R 0.01
VCEAGAlCW106M R 10
VCKYPA2HB102K R 1000~
VCEAGAlCW477M R 470
VCKYMNl CY103N R 0.01
VCEAGAlCWlOGM R 10
VCKYMNl CY 103N R 0.01
VCEAGAlCW106M R 10
VCEAGAlHW225M R 2.2
VCKYD41 CY103N R 0.01
VCEAGAlCW337M R 330
VCKYMNl CY103N R 0.01
VCEAGAlHW225M R 2.2
VCEAGAlHW105M R 1
VCKYMNl HB331 K R 330~
VCEAGAlHW225M R 2.2
VCEAGAlCWlOGM R 10
VCEAGAlHW105M R 1
RC-QZA473TAY K R 0.047
VCKYD41 HB102K R 1000~
VCEAGAlCWlOGM R 10
VCKYMNl CY103N R 0.01
VCEAGAlCW106M R 10
VCKYMNl CY103N R 0.01
VCEAGAlCW106M R 10
VCEAGAl CW108M R 1000
5ov
5ov
5ov
16V
16V
16V
16V
16V
16V
16V
5ov
5ov
5ov
5ov
16V
5ov Ceramic AA
5ov
16V
16V
Mylar
Ceramic
AB
AA
Electrolytic AA
Ceramic AA 16V
16V
5ov
Ceramic
Ceramic
AA
AA
5ov
5ov
5ov
5ov
5ov
16V
16V
5ov
5ov
Ceramic
Ceramic
Mylar
Ceramic
Mylar
Electrolytic
Ceramic
Ceramic
Mylar
AA
AA
AC
AA
AB
AB
AA
AA
AB
5ov
5ov
Mylar AA
Electrolytic AB
Ceramic AA 16V
5ov
16V
5ov
Electrolytic
Electrolytic
AB
AC
5ov
5ov
5ov
5ov
5ov
5ov
Ceramic
Ceramic
AA
A A
5ov
16V
Ceramic
Electrolytic
5oov Ceramic
AA
AA
AA
16V
16V
16V
16V
16V
Mylar
Mylar
Mylar
AB
AC
AA
Electrolytic AA
Mylar
Electrolytic AC
Ceramic AA
Electrolytic AA
Ceramic
AB
AA
Electrolytic AA
Electrolytic AB 5ov
16V
16V
Ceramic
Electrolytic
AA
AC
Ceramic
Electrolytic
AA
AB
Electrolytic AC
Ceramic AA
Electrolytic
Electrolytic
AB
AA
Electrolytic
Mylar
Ceramic
AC
AB
AA
Electrolytic AA
Ceramic A A
Electrolytic AA
Ceramic AA
Electrolytic AA
Electrolytic AD
37
Ref. No.
Part No.
-k Description Code
C408 c409 c410 c411
C412 c413 c414 c415
C416 c417
C418 c419 c501 c514 c515
C518 c519
C601
C602
C603
C604
C605
C606
C607
C608
C609
C610
C611
C613 c501
C502 c503 c504 c505
C506 c507 c509 c510 c511
C512
C512 c513 c513
C613
C614
C615
C616
VCKYMNlCY103N R 0.01
VCEAGAlCWlOGM R 10
RC-QZA104TAYK R 0.1
16V C e r a m i c
16V Electrolytic
50V M y l a r
VCEAGAlHW475M R 4.7
VCKYMNlCY103N R 0.01
VCEAGAlCW107M R 100
50V Electrolytic
16V Ceramic
16V Electrolytic
VCKYMNl CY 103N R 0.01
RC-QZA104TAY K R 0.1
VCEAGAlCW226M R 22
16V Ceramic
50V M y l a r
16V Electrolytic
50V Electrolytic VCEAGAlHW105M R 1
VCEAGAlCW477M R 470
VCCCPAlHH56OJ R 56~
16V Electrolytic
50V Ceramic
VCEACAlHC105M R 1 50V Electrolytic
(CX-34G3)
VCEACAlHC225M R 2.2
50V Electrolytic
(CX-51 G3)
VCKYPAlHB471 K R 470~ 50V C e r a m i c
RC-QZA104TAYK R 0.1
50V M y l a r
VCCSPA2HL471K R 470~ 500V C e r a m i c
RC-QZA104TAYK R 0.1
50V M y l a r
VCEAGAl EW108M R 1000 25V E l e c t r o l y t i c
VCEAGAlVW107M R 100 35V Electrolytic
RC-QZA104TAYK R 0.1
50V M y l a r
VCEAGAlVW477M R 470 35V Electrolytic
VCKYPA2HB102K R 1000~ 500V C e r a m i c
VCFYSAlHB824J R 0.82 50V M y l a r
(CX-34G3)
VCEACAl HC105M R 1 50V Electrolytic
VCFYSAl HB824J
(CX-51 G3)
R 0.82 50V Mylar
(CX-34G3)
VCEACAl HC105M R 1 50V Electrolytic
(CX-51 G3)
VCEAGAlHW105M R 1
VCEACAl HC105M R 1
50V Electrolytic
50V Electrolytic
VCQYTAlHM392K R 3900p 50V M y l a r
RC-QZA472TAY K R 0.0047 50V M y l a r
VCEAGAlCW476M R 47 16V Electrolytic
VCKYPAl HF103Z R 0.01
VCKYMNl CY103N R 0.01
VCEAGAlCW107M R 100
VCEAGAlCW476M R 47
VCEAGAlCW476M R 47
RC-QZA104TAYK
RC-QZA103TAY K
R 0.1
R 0.1
50V Ceramic
16V Ceramic
16V Electrolytic
16V Electrolytic
16V Electrolytic
50V M y l a r
50V M y l a r
VCEAGAlHW105M R 1 50V Electrolytic
VCFYSB2EB823J R 0.082 250V M y l a r
VCKYPA2HB102K R 1000~ 500V C e r a m i c
VCFPPD2DB474J R 0.47 200V M-Poly.
(CX-34G3)
VCFPPD2DB564J R 0.56
200V M-Poly.
(CX-51 G3)
VCEAGAlCWl 06M R 10 16V Electrolytic
VCQPSD2DA224J R 0.22
200V Mylar
VCFPPD3CA682H R 6800~ 1.6kV M-Poly.
(CX-34G3)
AA
AA
AB
AB
AA
AB
AA
AB
AB
AC
AC
AA
AC
AC
AC
AC
AC
AF
AD
AC
AB
AD
AA
AB
AB
AB
AA
AC
AA
AB
AB
AB
AB
A A
AC
AD
AC
AC
AB
AA
AB
AA
AA
AE
A A
AD
AE
CX-34G3
CX-51 G3
Ref. No.
Part No.
Ir Description Code
PWB-A DUNTK9322WEwVws
MAIN UNIT(Continued)
c729 c731
C732 c733 c734
C736 c737 c741
C742
C742 a c747 c750
C801
C802
C803
C616
C656
A c701 c703 c704 c705
C706 c707
C708 c709 c710 c711
C712
C712 c713 c714 c715
C716
C720
C721
C723
C724
C725
C726
C617
C619
A C620
A C622
A C630
C636
C650
C653
C654
C655
C726
VCFPPD3CA912H R 9 1 OOp 1.6kV M-Poly.
RC-QZA104TAYK
(CX-51 G3)
R 0.1
50V M y l a r
VCEAGA2AWlOGM R 1 0 1 OOV Electrolytic
VCEAGAlHW105M R 1
VCEAGAlHW105M R 1
50V Electrolytic
50V Electrolytic
VCKYMNlCY103N R 0 . 0 1
VCEAGAlCW476M R 4 7
VCFYSAl HB224J
16V Ceramic
16V Electrolytic
R 0.22
5OV M y l a r
VCKYATl EX103N R 0 . 0 1 25V Ceramic
VCEAGAlCW476M R 4 7
VCKYPAl HF103Z R 0 . 0 1
RC-KZ0029CEZZ
RC-KZ0029CEZZ
16V Electrolytic
50V Ceramic
VCEAGAOJW107M R 1 0 0
RC-FZO17SCEZZ
6.3V Electrolytic
R 0.22 AC250VSpecil
RC-KZ0029CEZZ R 0.01 AC250V Ceramic
R 0.01 AC250V Ceramic
RC-KZ0029CEZZ
RC-EZ0545CEZZ
R 0.01 AC250V Ceramic
R 0.01 AC250V Ceramic
R 6 8 400V Electrolytic
RC-KZ0029CEZZ R 0.01 AC250V Ceramic
VCEAGAlEW107M R 1 0 0 25V Electrolytic
VCKYPA2HB102K R 1000~ 500V C e r a m i c
RC-QZA471TAYJ R 470~ 50V M y l a r
VCFYSAl HB474J R 0.47
50V (CX-34G3)
VCFYSAl HB564J R 0 . 5 6 50V (CX-51 G3)
VCKYPA2HB102K R 1000~ 500V C e r a m i c
RC-QZA563TAYK R 0 . 0 5 6 50V M y l a r
VCEAGAlHWlOGM R 1 0 50V Electrolytic
VCEAGAlHW105M R 1
VCEAGAlJW476M R 4 7
RC-KZ0341 CEZZ
50V Electrolytic
63V Electrolytic
R 1000~ 2kV C e r a m i c
VCKYPA2HB102K R 1000~ 500V C e r a m i c
RC-KZ0029CEZZ
VCFYSAl HB474J
R 0.01 AC250V Ceramic
R 0.47
50V M y l a r
VCKYPAl HB392K R 3900p 50V C e r a m i c
(CX-34G3)
VCKYPAlHB272K R 2700~ 50V C e r a m i c
(CX-51 G3)
VCEAGAlCW477M R 4 7 0 16V Electrolytic
VCEAGH2CW107M R 1 0 0 16OV Electrolytic
RC-KZ0341 CEZZ R 1000~ 2kV C e r a m i c
VCKYPA2HB102K R 1000~ 500V C e r a m i c
VCEAGAlCW477M R 4 7 0
RC-KZ0029CEZZ
16V Electrolytic
R 0.01 AC250V Ceramic
VCEAGH2CW107M R 1 0 0 16OV Electrolytic
VCKYPA2HB472K R 4700~ 500V C e r a m i c
VCFYSAl HB394J R 0 . 3 9 50V (CX-51 G3)
VCFYSAlHB474J R 0 .
4 7 50V (CX-34G3)
RC-KZ021SCEZZ R 3300~ 4kV C e r a m i c
VCKYPAl HF103Z R 0 . 0 1 50V Ceramic
VCEAGAlHW475M R 4 . 7
RC-QZA103TAY K
RC-QZAl03TAYK
R 0.01
R 0.01
50V Electrolytic
50V M y l a r
50V M y l a r
AE
A A
AC
A C
AE
AB
AC
AC
AE
A A
AC
AE
A D
AA
AB
A A
A A
AB
A A
AB
AA
AB
AD
AC
A C
AC
AC
AB
AC
AC
AC
A A
AB
A C
AB
AD
AA
AC
AC
AB
AB
AC
AC
A A
AQ
A C
AD
A A
AB
AC
Ref. No.
Part No.
* Description Code
C804 RC-QZA103TAYK R 0.01
C805 VCEAGAl CW107M R 1 0 0
50V M y l a r
16V Electrolytic
C806 VCKYMNl CY103N R 0 . 0 1
C807 VCEAGAl CWl07M R 1 0 0
C808 VCKYMNlCY103N R 0 . 0 1
16V Ceramic
16V Electrolytic
16V Ceramic
C809 VCKYMNlCY103N R 0 . 0 1 16V Ceramic
50V Ceramic C810 VCCCMNlHH120J R 12p
C811 VCKYPAlHF103Z R 0 . 0 1
C812 VCEAGAlCW107M R 1 0 0
C813 RC-QZAl04TAYK R 0.1
C814 RC-QZAl04TAYK R 0.1
C815 VCEAGAlHW105M R 1
C816 RC-QZA103TAYK R 0.01
50V Ceramic
16V Electrolytic
50V M y l a r
50V M y l a r
50V Electrolytic
50V M y l a r
C817 VCEAGAlCW227M R 2 2 0
C820 VCKYMNlCY103N R 0 . 0 1
C82i VCKYD41CY103N R 0 . 0 1
16V Electrolytic
16V Ceramic
16V Ceramic c901 RC-QZA104TAYK R 0.1
Cl001 VCCSMNlHL330J R 33p
Cl002 VCCSPAl HL330J R 33p
Cl003 VCCSMNlHL330J R 33p
50V M y l a r
50V Ceramic
50V Ceramic
50V Ceramic
Cl004 VCCSMNl HL330J R 33p
Cl005 VCEAGAl HW105M R 1
50V Ceramic
50V Electrolytic
Cl006 VCEAGAlAW107M R 1 0 0
Cl007 VCKYMNlCY103N R 0 . 0 1
Cl008 VCEAGAlAW476M R 4 7
Cl009 VCEAGAlCWlOGM R 1 0
Cl010 VCEAGAlCW106M R 1 0
1 OV Electrolytic
16V Ceramic
1 OV Electrolytic
16V Electrolytic
16V Electrolytic
Cl011 VCKYMNlHBlOlK R 100~ 50V C e r a m i c
Cl012 VCKYATl EX103N R 0 . 0 1 25V Ceramic
Cl01 3 VCCSPAl HL471 J R 470~ 50V C e r a m i c
Cl014 VCCSMNl HL560J R 56~
Cl01 5 VCEAGAlCW476M R 4 7
50V Ceramic
16V Electrolytic
Cl016 VCEAGAOJW107M R 1 0 0
Cl017 VCKYMNlCY103N R 0 . 0 1
6.3V Electrolytic
16V Ceramic
Cl 618 VCCSPAl HL680J
Cl 019 VCCSPAl HL680J
Cl020 VCEAGAOJW107M R 1 0 0
Cl021 VCCSPAlHLl81J
R 68p
R 68p
50V Ceramic
50V Ceramic
6.3V Electrolytic
R 180~ 50V C e r a m i c
Cl022 VCKYMNlCY103N R 0 . 0 1
Cl023 VCKYMNlCY103N R 0 . 0 1
Cl024 VCKYD41CY103N R 0 . 0 1
Cl025 VCKYD41CY103N R 0 . 0 1
16V Ceramic
16V Ceramic
16V Ceramic
16V Ceramic
Cl026 VCKYD41CY103N R 0 . 0 1
Cl027 VCKYD41 CY103N R 0 . 0 1
Cl028 VCKYD41CY103N R 0 . 0 1
Cl029 VCKYD41CY103N R 0 . 0 1
16V Ceramic
16V Ceramic
16V Ceramic
16V Ceramic
(CX-34G3)
Cl031 VCKYD41CY103N R 0 . 0 1 16V Ceramic
Cl032 VCKYD41CY103N R 0 . 0 1 16V Ceramic
AB
AC
AA
AC
AA
AA
AB
AA
AA
AA
AB
AB
AA
AA
AB
AB
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AC
AB
AA
AA
AA
AB
AA
AB
AA
AA
AB
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
RESISTORS
R201 VRD-MN2BE680J R 6 8 1/8W Carbon
R202 VRD-MN2BE680J R 6 8
R206 VRD-MN2BE680J R 6 8
1/8W Carbon
1/8W Carbon
R207 VRD-MN2BE392J R 3.9k 1/8W C a r b o n
R209 VRD-MN2BE122J R 1.2k 1/8W C a r b o n
AA
AA
AA
AA
AA
38
Ref. No.
Part No.
* Description Code
PWB-A DUNTK9322WEwmM
MAIN UNIT(Continued)
R210
R212
R213
R214
R215
R216
R218
R219
R220
R221
R222
R223
R224
R225
R226
R227
R228
R229
R230
R232
VRD-RA2BE103J
VRD-MN2BE472J
VRD-MN2BE472J
VRS-VV3DB153J
VRD-MN2BE151 J
VRD-MN2BE273J
VRD-MN2BE222J
VRD-MN2BE102J
VRD-MN2BE393J
VRD-MN2BE102J
VRD-MN2BE332J
VRD-RA2BE392J
VRD-MN2BE392J
VRD-MN2BE473J
VRD-RA2BEl OOJ
VRD-MN2BE153J
VRD-MN2BE123J
VRD-MN2BE104.J
VRD-MN2BE123J
VRD-MN2BE153J
VRD-RA2BE273J
VRD-MN2BE332J
VRD-MN2BE563J
VRD-MN2BE123J
VRD-MN2BE123J
VRD-RA2BE681 J
VRD-RA2BE393J
VRD-RA2BE223J
VRD-RA2BE473J
VRN-VV3DB2R2J
R308
R309
R310
R311
R312
R234
R235
R237
R238
R242
R244
R247
R249
R250
R301
R302
R303
R304
R305
R306
R313
R314
R315
R316
R317
R318
R319
R320
R321
R322
VRD-RA2BE122J
VRD-MN2BElOl J
VRD-MN2BE102J
VRD-MN2BE222J
VRD-MN2BE102J
See Controls
VRD-MN2BE273J
VRD-MN2BE154J
VRD-MN2BE184J
VRD-MN2BE223J
VRD-MN2BE472J
VRD-MN2BE472J
VRD-MN2BE472J
VRD-MN2BE472J
VRD-RA2EE12OJ
VRD-RA2EE12OJ
VRD-MN2BElO3J
VRD-MN2BE103J
VRD-MN2BE153J
VRD-RA2BE473J
R233 VRD-RA2BE473J
R 1.2k 1/8W C a r b o n
R 1 0 0 1/8W C a r b o n
R lk 1/8W Carbon
R 2.2k 1/8W C a r b o n
R lk 1/8W Carbon
R 27k 1/8W C a r b o n
R 150k 1/8W C a r b o n
R 180k 1/8W C a r b o n
R 22k 1/8W C a r b o n
R 4.7k 1/8W C a r b o n
R 4.7k 1/8W C a r b o n
R 4.7k 1/8W C a r b o n
R 4.7k 1/8W C a r b o n
R 12
R 12
1/4W Carbon
1/4W Carbon
R 10k 1/8W C a r b o n
R 1 Ok 1/8W Carbon
R 15k 1/8W C a r b o n
R 47k 1/8W C a r b o n
(CX-34G3)
R 47k 1/8W C a r b o n
(CX-34G3)
R 1 Ok 1/8W Carbon
R 4.7k 1/8W C a r b o n
R 4.7k 1/8W C a r b o n
R 15k 2W Metal Oxide
R 1 5 0 1/8W C a r b o n
R 27k 1/8W C a r b o n
R 2.2k 1/8W C a r b o n
R lk 1/8W Carbon
R 39k 1/8W C a r b o n
R lk 1/8W Carbon
R 3.3k 1/8W C a r b o n
R 3.9k 1/8W C a r b o n
R 3.9k 1/8W C a r b o n
R 47k 1/8W C a r b o n
R 10 1/8W Carbon
R 15k 1/8W C a r b o n
R 12k 1/8W C a r b o n
R 1OOk 1/8W C a r b o n
R 12k 1/8W C a r b o n
R 15k 1/8W C a r b o n
R 27k 1/8W C a r b o n
R 3.3k 1/8W C a r b o n
R 56k 1/8W C a r b o n
R 12k 1/8W C a r b o n
R 12k 1/8W C a r b o n
R 6 8 0 1/8W C a r b o n
R 39k 1/8W C a r b o n
R 22k 1/8W C a r b o n
R 47k 1/8W C a r b o n
R 2.2 2W Metal Film
AA
A A
A A
AA
AA
AA
AA
AA
AA
A A
A A
A A
AA
AA
AA
AA
A A
AA
AA
AB
AA
AA
A A
A A
A A
AA
A A
A A
A A
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
A A
AA
A A
AA
AA
AA
AA
AA
AA
AA
CX-34G3
CX-51 G3
Ref. No.
Part No.
* Description Code
R324
R328
R401
R402
R403
R406
R408
R409
R415
R416
R417
R418
R419
R420
R420
R421
R422
R504
R506
R510
R510
R511
R511
R513
R513
R601
R602
R604
R605
R606
R607
R608
R514
R515
R516
R517
R518
R519
R608
R609
R609
R610
R611
VRD-MN2BElO2J
VRD-MN2BE472J
VRD-RA2EE750J
VRD-MN2BElO3J
VRD-RA2EE750J
VRD-RA2BE102J
VRD-RA2BE222J
VRD-MN2BE824J
VRD-RA2BElOl J
VRD-RM2HD470J
VRD-RA2EE750J
VRD-RA2BE223J
VRD-RA2BE223J
VRD-MN2BE103J
VRD-RA2BEl53J
VRD-RM2HD470J
VRD-RA2BE222J
VRD-MN2BE221 J
VRD-RA2BE102J
VRD-RM2HDl R5J
VRD-RM2HD2R2J
VRD-RA2BE273J
VRD-RA2BE333J
VRD-RA2BE273J
VRD-RA2BE333J
VRD-RA2BE563J
VRD-RA2EE220J
VRD-RM2HD331 J
VRD-RA2BE223J
VRD-RA2BElO2J
VRD-RM2HDl52J
VRD-MN2BE104J
VRD-RA2BE103J
VRD-RA2BE391 J
VRD-MN2BE102J
VRD-RA2BE681 J
VRD-MN2BE103J
VRD-RM2HD392J
VRD-RM2HD472J
VRSSV3LB332J
VRS-SV3LB472J
VRD-MN2BE822J
VRW-KQ3HC4R7K
R lk 1/8W Carbon
R 4.7k 1/8W C a r b o n
R 75 1/4W Carbon
R 1 Ok 1/8W Carbon
R 7 5
R lk
1/4W Carbon
1/8W Carbon
R 2.2k 1/8W C a r b o n
R 820k 1/8W C a r b o n
R 1 0 0 1/8W C a r b o n
R 4 7
R 7 5
1/2W Carbon
1/4W Carbon
R 22k 1/8W C a r b o n
R 22k 1/8W C a r b o n
R 1 Ok 1/8W Carbon
(CX-34G3)
R 15k 1/8W C a r b o n
(CX-51 G3)
R 4 7 1/2W Carbon
R 2.2k 1/8W C a r b o n
R 2 2 0 1/8W C a r b o n
R lk 1/8W Carbon
R 1 . 5 1/2W C a r b o n
(CX-51 G3)
R 2 . 2 1/2W C a r b o n
(CX-34G3)
R 27k 1/8W C a r b o n
(CX-34G3)
R 33k 1/8W C a r b o n
(CX-51 G3)
R 27k 1/8W C a r b o n
(CX-51 G3)
R 33k 1/8W C a r b o n
(CX-34G3)
R 56k 1/8W C a r b o n
R 2 2 1/4W Carbon
R 3 3 0 1/2W C a r b o n
R 22k 1/8W C a r b o n
R lk 1/8W Carbon
R 1.5k 1/2W C a r b o n
(CX-51 G3)
R 1 OOk 1/8W Carbon
R 10k 1/8W C a r b o n
R 3 9 0 1/8W C a r b o n
R lk 1/8W Carbon
R 6 8 0 1/8W C a r b o n
R 10k 1/8W C a r b o n
R 3.9k 1/2W C a r b o n
(CX-34G3)
R 4.7k 1/2W C a r b o n
(CX-51 G3)
R 3.3k 3W Metal Oxide
(CX-51 G3)
R 4.7k 3W Metal Oxide
(CX-34G3)
R 8.2k 1/8W C a r b o n
R 4.7 5W
(CX-34G3)
Cement
AA
AA
AA
AA
AA
AA
AA
AB
AC
AA
AE
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
A A
AA
AA
AA
AB
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
39
Ref. No.
Part No.
* Description Code
PWB-A DUNTK9322WEwvw3
MAIN UNIT(Continued)
R611 VRW-KQ3NC4R7K R 4 . 7 7W Cement
(CX-51 G3)
AE
A R612 RR-XZ0073CEZZ R 270 1/2W Fuse Resistor AB
(CX-34G3)
&, R612 VRG-PD2HD820J R 8 2 1/2W Fuse Resistor AC
(CX-51 G3)
R613 VRD-MN2BE103J R 10k 1/8W C a r b o n
R614 VRD-RM2HD180J R 1
R617 VRSVV3AB330J
8 1/2W Carbon
R33 1W
AA
A A
Metal Oxide AA
R618 VRD-RM2HD102J R 1
(CX-51 G3) k 1/2W Carbon
R619 VRD-MN2BE393J R 39k 1/8W C a r b o n n R620 RR-XZ0035TAZZ R 2 2
AA
A A
1/4W Fuse Resistor AB
(CX-34G3)
A R620 RR-XZ0085CEZZ R 3.9 1/4W Fuse Resistor AC
(CX-51 G3)
R621 VRN-VV3ABl ROJ A A
R621
R622 a R623
VRN-RV3ABR56J
VRD-RM2HD223J
VRD-RA2BE563G
Rl 1W
(CX-34G3)
Metal Film
R 0 . 5 6 1W Metal Film
(CX-51 G3)
R 22k 1/2W C a r b o n
AB
A A
A A
A R623 VRD-RA2EE683G
R 56k 1/8W C a r b o n
(CX-34G3)
R 68k 1/4W C a r b o n
(CX-51 G3)
AB n R624 VRD-RA2BE822J A A
A R624
R625
A R630
A R631 a R633
VRD-RA2BE123G
VRD-RA2BE103J
VRD-MN2BE123J
VRD-MN2BE102J
VRD-RA2BE473G
R 8.2k 1/8W C a r b o n
(CX-34G3)
R 12k 1/8W C a r b o n
(CX-51 G3)
R 10k 1/8W C a r b o n
R 12k 1/8W C a r b o n
R lk 1/8W Carbon
R 47k 1/8W C a r b o n
AA
AA
A A
A A
A A
R633
R634
R634
VRD-RA2BE562J
VRD-RM2HD680J
VRD-RM2HDlOl J
(CX-34G3)
R 5.6k 1/8W C a r b o n
(CX-51 G3)
R 6 8 1/2W Carbon
(CX-34G3)
R 1 0 0 1/2W C a r b o n
(CX-51 G3)
AA
AA
AA
A R635 VRD-MN2BE154J R 150k 1/8W C a r b o n A A
R640
A R642
R648
VRD-RM2HD682J
VRD-MN2BE103J
VRD-RM2HD2R7J
R 6.8k 1/2W C a r b o n
R 10k 1/8W C a r b o n
R 2 . 7 1/2W C a r b o n
R 1 0 0 1/2W C a r b o n
AA
A A
A A
A A R651
R653
R654
VRD-RM2HDlOl J
VRD-MN2BE822J
VRD-RM2HD560J
A A
A A
R655
R656
R657
R658
R660
VRD-RM2HD18OJ
VRD-RM2HD2R7J
VRD-RA2BE103J
VRD-RM2HD470J
VRD-MN2BE681 J
R 8.2k 1/8W C a r b o n
R 5 6 1/2W Carbon
R 18 1/2W Carbon
R 2 . 7 1/2W C a r b o n
R 1 Ok 1/8W Carbon
R 4 7 1/2W Carbon
R 6 8 0 1/8W C a r b o n
A A
A A
AA
A A
A A
Ref. No.
Part No.
Description Code
R661
R661 VRD-RA2BElO5J
R702
R703
R704
R706
R707
VRD-RA2EE105J
VRW-KQSNC3RSK
VRS-KT3LB562J
VRS-SV3DB15OJ
R704 VRN-RV3DB4R7J
R705 VRN-VV3AB2R2J
VRN-VV3AB3R3J
VRD-RA2BEl24J
VRD-RA2BE390J
R707 VRD-RA2BE270J
R 1M 1/4W
(CX-34G3)
R 1M li8W
(CX-51 G3)
R 3.9
7W
R 5.6k 3W
R15 2W
(CX-34G3)
R 4.7
2W
(CX-51 G3)
R 2.2
1W
(CX-34G3)
R 3.3
1W
(CX-51 G3)
R 120k 1/8W
R 39 lf8W
(CX-34G3)
R 27 ll8W
(CX-51 G3)
R 5.6k 3W
R 3.9k lf8W
Carbon
Carbon
Cement
Metal Oxide
Metal Oxide
Metal Film
Metal Film
Metal Film
Carbon
Carbon
Carbon
Metal Oxide
Carbon
R715 VRD-RA2BE153J
R805
R809
R810
R811
R812
R813
R814
R815
R723
R724
R735
R736
R802
R803
R804
R816
R817
R819
R820
R821
R822
R709
R710
R711
R712
R715
R716
R717
R718 b R719
& R720
R721
R722
VRS-KT3LB562J
VRD-RA2BE392J
See Controls
VRD-RA2BE821 J
VRD-RA2BElO3J
VRD-RA2BEl8OJ
VRD-RA2BElOl J
VRN-VV3ABR22J
VRC-UA2HG825K
VRC-UA2HG825K
VRD-RM2HDl ROJ
VRN-SV2HBR47J
VRS-VV3LB272J
VRD-RA2BE102J
VRD-RM2HD184J
VRD-RM2HD184J
VRD-MN2BE561 J
VRD-MN2BE561 J
VRD-MN2BE561 J
VRD-MN2BE222J
VRD-RA2BE102J
VRD-RA2BE102J
VRD-RA2BE102J
VRD-MN2BElOl J
VRD-MN2BElOl J
VRD-RA2BE273J
VRD-RA2BE223J
VRD-MN2BE473J
VRD-MN2BE473J
VRD-RA2BE102J
VRD-RA2BElOl J
VRD-RA2BElOl J
VRD-RA2BElOl J
R 8 2 0 1/8W C a r b o n
R 10k 1/8W C a r b o n
(CX-34G3)
R 15k 1/8W C a r b o n
(CX-51 G3)
R 18 ll8W Carbon
R 1 0 0 1/8W C a r b o n
R 0 . 2 2 1W Metal Film
R 8.2M 1/2W S o l i d
R 8.2M 1/2W S o l i d
R 1 1/2W Carbon
R 0.47 1/2W Metal Film
(CX-51 G3)
R 2.7k 3W
R lk
Metal Oxide
1/8W Carbon
R 180k 1/2W C a r b o n
R 180k 1/2W C a r b o n
R 5 6 0 1/8W C a r b o n
R 5 6 0 1/8W C a r b o n
R 5 6 0 1/8W C a r b o n
R 2.2k 1/8W C a r b o n
R lk 1/8W Carbon
R lk 1/8W Carbon
R lk 1/8W Carbon
R 1 0 0 1/8W C a r b o n
R 1 0 0 1/8W C a r b o n
R 27k 1/8W C a r b o n
R 22k 1/8W C a r b o n
R 47k 1/8W C a r b o n
R 47k 1/8W C a r b o n
R lk 1/8W Carbon
R 1 0 0 1/8W C a r b o n
R 1 0 0 1/8W C a r b o n
R 1 0 0 1/8W C a r b o n
AA
AA
AE
AC
AA
AB
AA
AA
AA
AA
AA
AC
AA
AA
AA
AA
AA
AB
AA
AA
AA
AA
AB
AA
AA
AA
AA
AA
AA
AA
AA
AB
AA
AA
AA
AA
AA
AA
AA
AA
AA
AB
AB
AB
40
Ref. No.
Part No.
* Description
PWB-A DUNTK9322WEwVws
MAIN UNIT(Continued)
R823
R824
R825
R826
RlOOl
R1002
R1003
R1004
R1005
R1006
R1009
RlOlO
VRD-RA2BE102J
VRD-RA2BE102J
VRD-RA2BE102J
VRD-RA2BE223J
VRD-RA2BE472J
VRD-RA2BE472J
VRD-MN2BE472J
VRD-MN2BE473J
VRD-RA2BE562J
VRD-RA2BElOl J
VRD-MN2BElOl J
VRD-RA2BE683J
Rl 010 VRD-MN2BE683J
RlOll VRD-RA2BE683J
R1012 VRD-RA2BE102J
R1014 VRD-RA2BE472J
Rl 015 VRD-MN2BE332J
R1016 VRD-RA2BElOlJ
R1017 VRD-RA2BE683J
R1018 VRD-RA2BElOlJ
R1019 VRD-MN2BElOlJ
R1021 VRD-MN2BE102J
R1023 VRD-MN2BElO2J
R1024 VRD-MN2BE683J
R1036
R1037
R1038
R1039
R1040
R1041
R1042
R1043
R1044
R1045
R1026
R1027
R1028
R1030
R1031
R1032
R1034
R1035
VRD-MN2BE102J
VRD-MN2BE562J
VRD-MN2BE332J
VRD-RA2BElOl J
VRD-RA2BE333J
VRD-RA2BE683J
VRD-MN2BE562J
VRD-MN2BE562J
VRD-MN2BE182J
VRD-MN2BE103J
VRD-MN2BE333J
VRD-MN2BE271 J
VRD-MN2BE271 J
VRD-MN2BElO3J
VRD-RA2BE562J
VRD-MN2BE103J
VRD-RA2BE562J
VRD-RM2HD270J
R1045 VRD-RM2HD18OJ
R1046 VRD-RM2HD270J
R1046 VRD-RM2HD18OJ
R lk
R lk
R lk lf8W Carbon ll8W Carbon lf8W Carbon
R 22k ll8W C a r b o n
R 4.7k ll8W C a r b o n
R 4.7k ll8W C a r b o n
R 4.7k ll8W C a r b o n
R 47k ll8W C a r b o n
R 5.6k ll8W C a r b o n
R 100 ll8W C a r b o n
R 100 ll8W C a r b o n
R 68k ll8W C a r b o n
(CX-34G3)
R 68k ll8W C a r b o n
(CX-51 G3)
R 68k ll8W C a r b o n
R lk 1 l8W Carbon
R 4.7k ll8W C a r b o n
R 3.3k ll8W C a r b o n
R 100 ll8W C a r b o n
R 68k ll8W C a r b o n
R 100 ll8W C a r b o n
R 100 ll8W C a r b o n
R lk ll8W Carbon
(CX-34G3)
R lk ll8W Carbon
R 68k lf8W C a r b o n
(CX-51 G3)
R lk ll8W Carbon
R 5.6k ll8W C a r b o n
R 3.3k ll8W C a r b o n
R 100 ll8W C a r b o n
R 33k ll8W C a r b o n
R 68k ll8W C a r b o n
R 5.6k 1/8W C a r b o n
R 5.6k ll8W C a r b o n
R 1.8k 1/8W C a r b o n
R 1 Ok ll8W Carbon
R 33k ll8W C a r b o n
R 270 ll8W C a r b o n
R 270 lf8W C a r b o n
R 10k lf8W C a r b o n
R 5.6k ll8W C a r b o n
R 1 Ok 1/8W Carbon
R 5.6k ll8W C a r b o n
R 27 1 f2W Carbon
(CX-34G3)
R 18 ll2W Carbon
(CX-51 G3)
R 27 1 l2W Carbon
(CX-34G3)
R 18 ll2W Carbon
(CX-51 G3)
Code
AA
AA
AA
AA
AA
AA
AA
AA
AA
AB
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AB
AA
AA
AA
A A
AA
AA
AA
AB
AA
AB
AA
AA
AA
AA
AA
AA
Ref. No.
Part No.
Ir Description
R1047 VRD-MN2BE472J
R1049 VRD-MN2BE473J
R1050 VRD-RA2BE473J
R 4.7k ll8W C a r b o n
R 47k lf8W C a r b o n
R 47k 1/8W C a r b o n
R1051 VRD-MN2BE393J
R1058 VRD-MN2BE822J
R1059 VRD-MN2BE472J
R 39k lf8W C a r b o n
R1052 VRD-MN2BE272J R 2.7k ll8W C a r b o n
Rio55 VRD-RM2HDlOl J R 100 ll2W C a r b o n
R1057 VRD-MN2BE273J R 27k ll8W C a r b o n
R 8.2k ll8W C a r b o n
R 4.7k lf8W C a r b o n
R1060 VRD-MN2BE222J R 2.2k ll8W C a r b o n
R1061 VRD-MN2BE103J R 1 Ok ll8W Carbon
R1062 VRD-RM2HD270J R 27 lf2W Carbon
(CX-34G3)
R1062 VRD-RM2HD180J R 18 ll2W Carbon
(CX-51 G3)
R1063 VRD-MN2BE103J R 10k ll8W C a r b o n
R1064 VRD-RA2BElO2J R lk
R1065 VRD-MN2BElO2J R lk ll8W Carbon ll8W Carbon
R1067 VRD-MN2BE562J R 5.6k 1/8W C a r b o n
R1069 VRD-MN2BEOOOJ R 0 ll8W Carbon
(CX-51 G3)
R1070 VRD-MN2BE562J R 5.6k ll8W C a r b o n
R1072 VRD-RA2BE153J R 15k lf8W C a r b o n
R1075 VRD-MN2BE102J R lk ll8W Carbon
R1076 VRD-MN2BE102J R lk ll8W Carbon
SWITCHES
s701 QSW-P0588CEZZ R M a i n P o w e r
SlOOl QSW-K0079GEZZ R P r e s e t
S1002 QSW-K0079GEZZ R V o l u m e D o w n
S1003 QSW-K0079GEZZ R V o l u m e U p
S1004 QSW-K0079GEZZ R C h a n n e l D o w n
S1005 QSW-K0079GEZZ R C h a n n e l U p
S1006 QSW-B0015CEZZ R S e t - u p
A F301
A F701
MISCELLANEOUS PARTS
QFS-J1521 CEZZ
QFS-C3224CEZZ
FB305 RBLN-0037CEZZ
R IC Protector
R T3.15A
R Ferrite Bead
R Ferrite Bead FB602 RBLN-0037CEZZ
FB702 RBLN-0037CEZZ
FB706 RBLN-0037CEZZ
FB731 RBLN-0080CEZZ
R Ferrite Bead
R Ferrite Bead
R Ferrite Bead
FH701 QFSHD1017CEZZ R F u s e H o l d e r
FH702 QFSHDl 018CEZZ R Fuse Holder
J401 QTANJ0429CEZZ R A/V Terminal
P201 QPLGN0241 CEZZ R Plug 2-pin TP210
P301
P401
QPLGN0241CEZZ R P l u g 2-pin (S)
QPLGN0441CEZZ R Plug 4-pin (VA)
P502 QPLGN0603CEZZ R P l u g 6-pin (F)
P602 QPLGN0441CEZZ R P l u g 4-pin (H)
P711 QPLGN0207CEZZ R P l u g 2-pin (G)
P712 QPLGN0269GEZZ R Plug 2-pin (A)
P801 QPLGN0541CEZZ R P l u g 5-pin (K)
PlOOl QPLGN0441CEZZ R P l u g 4-pin (BC)
RMClOOl RRMCU0222CEZZ R Infrared R/C Receiver
CX-34G3
CX-51 G3
Code
AP
AB
AB
AB
AB
AB
AC
AB
AB
A D
AC
AC
AH
A A
AF
A D
AB
AB
A A
AB
AB
AB
AL
A A
AB
AB
AB
AA
AA
AA
AA
AA
AA
A A
AA
AA
AA
AA
AA
AA
AA
A A
A A
A A
A A
A A
A A
A A
A A
41
L
CX-34G3
CX-51 G3
Ref. No.
Part No.
* Description
PWB-A DUNTK9322WEwmu
MAIN UNIT(Continued)
RDA351 PRDAR0142PEFW R Heat Sink, for IC351
RDA501 PRDAR0223PEFW R Heat Sink, for IC501
RDA701 PRDAR0222PEFW R Heat Sink, for Q701
SLDl 00 1 PSLDM0233PEFW R Shield, for ICl 001
SLD201 PSLDM0232PEFW R Shield, PIF Shield
LX-BZ31 OOCEFD R Screw, x3
LX-TZ3004CEFD R Screw, x2
PRDAR0224PEFW R Heat Sink for Q602
Code
AD
AA
AA
AF
AD
AF
AH
AC
Ref. No.
Part No.
sr Description Code
PWB-B DUNTK9323WEvmvs
CRT SOCKET UNIT
Q851
Q851
TRANSISTORS
VS2SC22290/1 E
VS2SC3789//1 E
R R-Out (CX-34G3)
R R-Out (CX-51 G3)
Q852 VS2SC22290/1 E
Q852 VS2SC3789lfl E
R G-Out (CX-34G3)
Q853 VS2SC2229Ofl E
Q853 VS2SC3789fll E
Q854 VS2SA1015Yll E
R G-Out (CX-51G3)
R B-Out (CX-34G3)
R B-Out (CX-51 G3)
R Bias
D851
D852
D853
RH-DX0475CEZZ
RH-DX0475CEZZ
RH-DX0475CEZZ
DIODES
R Diode
R Diode
R Diode
AB
AB
AB
L851 VPCF681 KOOOO
COIL
R Peaking 680uH AB
C851
C851
C852
C852
C853
C853
C854
C854
C861
C865
C866
C870
CAPACITORS
VCCSPAl HL271 J R 270~ 50V C e r a m i c
VCCSPAl HL391 J
VCCSPAl HL271 J
VCCSPAl HL391 J
VCCSPAl HL271 J
(CX-34G3)
R 390p 50V C e r a m i c
(CX-51 G3)
R 270~ 50V C e r a m i c
(CX-34G3)
R 390p 50V C e r a m i c
(CX-51 G3)
R 270~ 50V C e r a m i c
VCCSPAl HL391 J
RC-KZOOl GCEZZ
(CX-34G3)
R 390p 50V C e r a m i c
(CX-51 G3)
R 0.01
50V Ceramic
RCKZO150CEZZ
(CX-34G3)
R 1000~ 3kV C e r a m i c
(CX-51 G3)
VCEAGAlCWlOGM R 1 0 16V Electrolytic
VCKYPAl HB102K R 1000~ 50V C e r a m i c
VCEAGA2EWlOGM R 1 0
VCEAGAlCWlOGM R 1 0
250V Electrolytic
16V Electrolytic
AA
AA
AA
AA
AA
AA
AC
AB
AA
AA
AC
AA
AD
AE
AD
AE
AD
AE
AC
R851
R851
R852
R856
R856
R858
R859
R860
R862
RESISTORS
VRD-RA2BE821 J
VRD-RA2BE821 J
R 8 2 0 ll8W Carbon
(CX-34G3)
VRD-MN2BE471 J R 4 7 0 lf8W
(CX-51 G3)
Carbon
VRD-MN2BE561 J R 5 6 0 ll8W
R 8 2 0 ll8W
Carbon
Carbon
(CX-34G3)
VRD-MN2BE471 J R 4 7 0 ll8W Carbon
(CX-51 G3)
VRD-MN2BE561J R 5 6 0 ll8W Carbon
VRD-MN2BE152J R 1.5k lf8W
VRS-VV3DBl23J R 12k 2W
VRD-RA2BE821 J R 8 2 0 lf8W
(CX-34G3)
Carbon
Metal Oxide
Carbon
AA
AA
AA
AA
AA
AA
AA
AA
AA
42
+
Ref. No.
Part No.
Ir Description Code
PWB-B DUNTK9323WEvmm
CRT SOCKET UNIT(Continued)
R862 VRD-MN2BE471 J
R864
R865
R866
R867
R868
R870
R871
R875
R876
R877
R898
R899
VRD-MN2BE561 J
VRD-RA2BE471 J
VRS-VV3DBl23J
VRD-RM2HD272J
VRS-VV3DB123J
VRD-MN2BE222J
VRD-MN2BEl52J
VRD-MN2BE560J
VRD-MN2BE560J
VRD-MN2BE560J
VRD-RM2HD272J
VRD-RM2HD272J
R 4 7 0 1/8W
(CX-51 G3)
Carbon
R 5 6 0 1/8W Carbon
R 4 7 0 ll8W
R 12k 2W
R 2.7k ll2W
Carbon
Metal Oxide
Carbon
R 12k 2W
R 2.2k 1/8W
R 1.5k ll8W
R 5 6 ll8W
R 5 6
R 5 6
1J8W
1 l8W
R 2.7k 1/2W
R 2.7k 1/2W
Metal Oxide
Carbon
Carbon
Carbon
Carbon
Carbon
Carbon
Carbon
AA
A A
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
AA
P851
P852
MISCELLANEOUS PARTS
QPLGN0441CEZZ R Plug 4-pin ( H )
QPLGN054lCEZZ R Plug 5-pin (K)
A SC851 QSOCV0842CEZZ R CRT Socket (CX-34G3)
A SC851 QSOCV0931CEZZ R CRT Socket (CX-51 G3)
AB
AB
AH
AK
Description
CX-34G3
CX-51 G3
Code Ref. No.
Part No.
*
PWB-C DUNTK9324WEvoIw
AV-2 TERMINAL UNIT
MISCELLANEOUS PARTS
J402
J403
QJAKEOl45CEZZ R Jack, Audio In
QJAKE0144CEZZ R Jack, Video In
P402 QPLGN0441 CEZZ R Plug 4-pin (VA)
AF
AF
AB
43
CX-34G3
CX-51 G3
Ref. No.
Part No.
* Description Code
MISCELLANEOUS PARTS
SPl VSP905OPBll WA
A ACC701 QACCL3025CESA
LHLDK0005PEOO
QCNW-2128PEZZ
QCNW-2161 PEZZ
QCNW-2162PEZZ
QCNW-2126PEZZ
QCNW-2127PEZZ
QCNW-2163PEZZ
R Speaker
R AC Cord
R AC Cord Holder
R Connecting Wire (VA)
R Connecting Wire (K)
(CX-34G3)
R Connecting Wire (H)
(CX-34G3)
R Connecting Wire (H)
(CX-51 G3)
R Connecting Wire (K)
(CX-51 G3)
R Connecting Wire (S)
(CX-51 G3)
AG
AG
AE
AP
AR
AC
AK
AG
AG
Ref. No.
Part No.
* Description
PACKING PARTS
(NOT REPLACEMENT ITEM)
MODEL CX-34G3
SPAKC6280PEZZ - Packing Case
SSAKP0056PEZZ - Polystyrene Cover
SSAKA0031 PEZZ - Polyethylene Bag
SPAKX2654PEZZ - Buffer Material
MODEL CX-51 G3
SPAKC5117CEZZ - Packing Case
SSAKP0704CEZZ - Polystyrene Cover
SSAKA0037CEZZ - Polyethylene Bag
SPAKX2802CEZZ - Buffer Material
Code
-
-
-
-
-
-
-
-
SUPPLIED ACCESSORIES
ACCESSORIES
QANTR0018PEZZ R Rod Antenna
QPLGJOll BCEZZ
(CX-34G3)
R Antenna Plug Adaptor
(CX-34G3)
RRMCG1342PESA R infrared R/C Unit
TiNS-6222PEZZ R Operation Manual
AQ
AG
AU
AG
ACCESSORIES (NOT REPLACEMENT ITEM)
UBATU0002AJZZ - Dry Batteries
TGAN-0068PEZZ - Guarantee Cord
(CX-34G3)
-
-
44
1
l - l l-2 l-3 l-4 l-5 l-6 l-7
Ref. No.
Part No.
* Description
CABINET PARTS
(MODEL CX-34G3)
CCABA2434WEVO R Front Cabinet Ass’y
Not Available
- Front Cabinet
GCOVA0079PESA R LED Cover
GCOVA0083PESA R R/C Cover
HBDGB0018PESA R SHARP Badge
JBTN-0273PESA R Control Button
JBTN-0272PESA R Power Button
MSPRC0068CEFW R Spring for Power Button
Code
2 GCABB2345PEKA R Rear Cabinet
C A
-
AC
AD
AE
AF
AD
A A
AY l-4
I-5 l-6 l-7
1 l - l l-2 l-3
Ref. No.
2
Part No.
GCABB2344PEKA
* Description
CABINET PARTS
(MODEL CX-51 G3)
CCABA2433WEVO Front Cabinet Ass’y
Not Available
- Front Cabinet
GCOVA0079PESA R L E D C o v e r
GCOVA0080PESA R R/C Cover
HBDGB0019PESA R SHARP Badge
JBTN-0273PESA
JBTN-0274PESA
R Control Button
R Power Button
MSPRC0068CEFW R Spring for Power Button
Rear Cabinet
Code
-
AC
AD
AD
AF
AG
AA
45
CX-34G3 cx-51 G3
TQ0373-S
Dec. 1997 Printed in Japan
NA. KG
S H A R P
COPYRIGHT 0 1997 BY SHARP CORPORATION
ALL RIGHTS RESERVED.
No part of this publication may be reproduced, stored in a retrieval system, or transmitted in any form or by any means, electronic, mechanical, photocopying, recording, or otherwise, without prior written permission of the publisher.
SHARP CORPORATION
AV Systems Group
Quality & Reliability Control Center
Yaita, Tochigi 329-21, Japan
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