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.
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.
WARNING
SHARP CORPORATION
1
Page 2
2
20U200, 20U250
51U200, 51U250
51U500, 51U550
2-12-2
SPECIFICATIONS
Convergence .............................................................................. Self Convergence System
Focus .........................................................................Electrostatic Focus High Bi-Potential
Sweep Deflection ................................................................................................... Magnetic
Intermediate Frequencies
Picture IF Carrier ............................................................................................... 38.9 MHz
Dimensions .............................................................................................. Width: 692.0 mm
Height: 477.5 mm
Depth: 474.5 mm
Weight (approx.): 20U200/25024.0 kg
51U200/25024.5 kg
51U500/55024.7 kg
Cabinet Material ................................................................................................. All Plastics
Specifications are subject to change without prior notice.
IMPORTANT SERVICE NO TES
Maintenance and repair of this receiver should be done by
qualified service personnel only.
SERVICE 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 with 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. 20U200/250: When repairing the circuit, be sure not to increase the high
voltage to more than 27.7 kV (at beam 0 mA) for the set.
51U200/250/500/550
: When repairing the circuit, be sure not to increase the high
voltage to more than 28.1 kV (at beam 0 mA) for the set.
2. 20U200/250: To keep the set in a normal operation, be sure to make it
function on 24.5 kV ± 1.5 kV (at beam 1,100 µA) in the case
of the set.
51U200/250/500/550
: To keep the set in a normal operation, be sure to make it
function on 24.8 kV ± 1.5 kV (at beam 1,100 µA) 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 follo wing safety chec ks.
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
resistor-capacity networks, mechanical insulators and etc.
Page 3
3
20U200, 20U250
51U200, 51U250
51U500, 51U550
3-13-2
ADJUSTMENT PRECAUTIONS
This model’s setting are adjusted in two different ways: though the I2C bus control and in the
conventional analog manner. The adjustments via the I2C bus control include preset-only items
and variable data.
1. Setting the service mode by the microprocessor.
1 Make a short-circuit JA122 and JA124 for a second and release to switch to the service
mode position and the microprocessor is in input mode. (Adjustment through the I2C bus
control). (Use JWS Key to set as well).
2 Press the CH DOWN / UP key on the remote controller to get ready to select the mode
one by one.
3 Press the CH DOWN / UP key on the remote controller to select the modes reversibly
one by one.
4 Using the VOLUME UP/ DOWN key on the remote controller, the data can be modified.
5 Make a ashort circuit JA122 and JA124 for a second and release to switch to the normal
mode (OFF) position and the microprocessor is in out of the service mode.
2. Factory Presetting.
1 Make a short-circuit JA122 and JA124 for a second and release to switch to the service
mode position and turn on the main power switch. Initial v alues are automatically preset,
only when a new EEPROM is used (Judge with the first 4 bytes).
2 The initial data are preset as listed in pages 5-7.
3 Make sure the data need modify or not (Initial data).
Note: Once the chassis has been assembly together and ready to be POWER ON for the
FIRST TIME, make sure to short-circuit JA122 and JA124 to switch to the service
mode position first and then turn on the main power switch. (See 2-1 above).
Precaution: If haven’t done this initiation, it ma y possibl y generate excessive Beam
current.
3. For reference please check with memory map
(UA1 Series type RH-IX3410CE Attachment)
AGC &
GEOMETRIC
MODE
↓
AGC TAKE OVER POINT (AGC)
↓
VERTICAL SLOPE (V-LIN)
↓
VERTICAL AMP (V-AMP)
↓
VERTICAL SHIFT (V-CENT)
↓
HORIZONTAL SHIFT (H-CENT)
↓
HORIZONTAL PARALLELOGRAM (EW//)
↓
EAST-WEST PARABPLA/WIDT (PARA)
↓
HORIZONTAL BOW (HB)
↓
S-CORRECTION (S-COR)
WHITE POINT
ADJ.
MODE
↓
W.P. RED STD. W.T. (DRI-RS)
↓
W.P. GREEN STD. W.T.(DRI-GS)
↓
W.P.BLUE STD. W.P. (DRI-BS)
↓
W.P. RED COOL W.P.(DRI-RC)
↓
W.P. GREEN COOL W.P.(DRI-GC)
↓
W.P. BLUE COOL W.P. (DRI-BC)
↓
W.P. RED WARM W.P.(DRI-RW)
↓
W.P. GREEN WARM W.P.(DRI-GW)
↓
W.P. BLUE WARM W.P.(DRI-BW)
SUB
ADJ.
MODE
↓
MAX VOLUME (SUB-VOL)
↓
SUB CONTRAST (SUB-CON)
↓
SUB COLOUR (SUB-COL)
↓
SUB BRIGHTNESS (SUB-BRI)
↓
SUB TINT (SUB-TINT)
↓
SUB SHARPNESS (SUB-SHP)
↓
MAX HOTEL VOLUME (HTL-VOL)
↓
HOTEL PROGRAM NO(HTL-PRG)
↓
BLUE BACK CONTRAST (BB-CON)
↓
OSD GRB REFERENCE (RGB)
↓
BLACK LEVEL OFFSET R(CUT-R)
↓
BLACK LEVEL OFFSET G(CUT-G)
↓
CATHODE DRIVE LEVEL(CDL)
FORWARD : CH DOWN KEY
REVERSE : CH UP KEY
* ( ) means OSD display.
FORWARD : CH DOWN KEY
REVERSE : CH UP KEY
AGC &
GEOMETRIC
MODE
WHITE POINT
ADJ.
MODE
SUB
ADJ.
MODE
Y-DELAY
ADJ.
MODE
IC
OPTION
MODE
OFFSET
ADJ.
MODE
MISC.
OPTION
MODE
STEREO
ADJ.
MODE
Ë
SERVICE MODE
(1)In the Service Mode, Key is used to select the mode in the following order.
Page 4
4
20U200, 20U250
51U200, 51U250
51U500, 51U550
4-14-2
Y-DELAY
ADJ.
MODE
↓
Y-D TIME FOR PAL (TV) (DL-PT)
↓
Y-D TIME FOR SECAM (TV) (DL-ST)
↓
Y-D TIME FOR N358 (TV) (DL-3T)
↓
Y-D TIME FOR N443 (TV) (DL-4T)
↓
Y-D TIME FOR B/W (TV) (DL-TV)
↓
Y-D TIME FOR PAL (AV) (DL-PA)
↓
Y-D TIME FOR SECAM (AV) (DL-SA)
↓
Y-D TIME FOR N358 (AV) (DL-3A)
↓
Y-D TIME FOR N443(AV) (DL-4A)
↓
Y-D TIME FOR B/W (AV) (DL-AV)
*(Y-D : Y-DELAY)
OFFSET
ADJ.
MODE
↓
COLOUR OFFSET (PAL) (COL-OP)
↓
COLOUR OFFSET (SECAM) (COL-OS)
↓
COLOUR OFFSET (NTSC358) (COL-O3)
↓
COLOUR OFFSET (NTSC443) (COL-O4)
↓
SHARPNESS OFFSET (PAL) (SHP-OP)
↓
SHARPNESS OFFSET (SECAM) (SHP-OS)
↓
SHARPNESS OFFSET (NTSC358) (SHP-O3)
↓
SHARPNESS OFFSET (NTSC443) (SHP-O4)
IC
OPTION
MODE
↓
VERTICAL SCAN DISABLE(VSD)
↓
BLACK STRETCH (BKS)
↓
AUTO VOLUME LEVELING(AVL)
↓
FAST FILTER IF-PLL(FFI)
↓
ENABLE VERTICAL GUARD (EVG)
↓
EHT TRACKING MODE (EHT)
↓
OVERSCAN SWITCH OFF(OSO)
↓
AUTO COLOUR LIMIT(ACL)
↓
FORCED COLOUR LIMIT(FCO)
SOUND PROCESSOR
AND
STEREO ADJ. MODE
↓
BASS MIX FOR ANXXXX (BM_ON)
↓
BASS MIX AFFECT FOR ANXXXX (BM_EFF)
↓
AGC FOR ANXXXX (AGC_ON)
↓
AGC ADJUST FOR ANXXXX (AGC_ADJ)
↓
NICAM AGC (AGC_N)
↓
NICAM AGC GAIN ADJ (GAIN_N)
↓
FM OUTPUT LEVEL (FM_LV)
↓
IGR OUTPUT LEVEL (IGR_LV)
↓
NICAM OUTPUT LEVEL B/G (BG_NLV)
↓
NICAM OUTPUT LEVEL I (I_NLV)
↓
NICAM OUTPUT LEVEL D/K (DK_NLV)
↓
NICAM LOWER ERR LIMIT (LOW-ERR)
↓
NICAM UPPER ERR LIMIT (UP_ERR)
↓
IGR STR R CH GAIN ADJ (IGR_STR)
MISC.
OPTION
MODE
↓
SOUND SYSTEM M (S-M)
↓
SOUND SYSTEM DK (S-DK)
↓
SOUND SYSTEM I (S-I)
↓
SOUND SYSTEM BG (S-BG)
↓
PLAYBACK SECAM (P-SECAM)
↓
FE (RF) NTSC 3.58 (F-N358)
↓
FE (RF) NTSC 4.43 (F-N443)
↓
FE (RF) SECAM (F-SECAM)
↓
VIDEO MUTE AT IDENT LOSS (VMI)
↓
VIDEO MUTE AT PROGRAM
/SOURCE CHANGE (VMC)
↓
HOTEL MODE (HTL)
↓
REDUCED FM DEMODULATION
GAIN FOR BTSC SIGNAL (BTSC)
↓
NUMBER OF EXT AV SOURCE (AV)
↓
FM WINDOW SELECTION (FMWS)
↓
SOUND MUTE BIT 0 (SM0)
↓
SOUND MUTE BIT 1 (SM1)
↓
THAI LANGUAGE (THA)
↓
ARABIC LANGUAGE (ARA)
↓
MALAY LANGUAGE (MAL)
↓
CHINESE LANGUAGE (CHI)
↓
A
A
↓
FRENCH LANGUAGE (FRE)
↓
RUSSIAN LANGUAGE (RUS)
↓
FORCED V-SYNC SLICING LEVEL(FSL)
↓
SYNC OF OSD (HP2)
↓
IF AGC SPEED BIT 0 (AGC0)
↓
IF AGC SPEED BIT 1 (AGC1)
↓
FOA Time Constant-RF (FOA-FE)
↓
FOB Time Constant-RF (FOB-FE)
↓
FOA Time Constant-AV (FOA-AV)
↓
FOB Time Constant-AV (FOB-AV)
↓
TELETEXT (TXT)
↓
TEXT WEST OR EURO CHAR (TXT_W/E)
↓
TEXT PAN-EURO LANG (TXT-EUR)
↓
IF FREQ SELECTION (IF_38_0)
↓
CHARGE PUMP (CP)
↓
AN5890 ON (AN5890)
↓
AN5891 ON (AN5891)
↓
AN7396 ON (AN7396)
↓
NICAM DECODING (NICAM)
↓
IGR DECODING (IGR)
↓
GAME MODE (GAME)
↓
BILINGUAL (BIL)
Page 5
5
20U200, 20U250
51U200, 51U250
51U500, 51U550
5-15-2
USER DATA IN SERVICE MODE
* While SERVICE mode ON, EEPROM DATA will switch to the service data.
Also, once SERVICE mode OFF, EEPROM will switch back to previous USER DATA.
* In the service mode, the user data establish as below,
MODEUSER DATA
CONTRASTMAX
COLOURCENTER
BRIGHTNESSCENTER
TINTCENTER
SHARPNESSCENTER
WHITE TEMPSTANDARD
S-VOLUMEMAX
BLUE BACKOFF
C SYSTEMAUTO
S SYSTEMB/G
After short JA122 & JA124, and turn on the main power switch, read data from EEPROM
address 00H ~ 03H, and compare to the list below, if different, initialize the EEPROM.
Address : DataAddress : Data
00H: 55H02H: 53H
01H: 41H03H: 36H
EEPROM ITEMSOSDDATA LENGTH
INITIAL DATA FIX/ADJ
REMARK
AGC TAKE OVER POINTAGC0~6314ADJ
VERTICAL SLOPEV-LIN0~6332ADJ
VERTICAL AMPLITUDEV-AMP0~6332ADJ
VERTICAL SHIFTV-CENT0~6332ADJ
HORIZONTAL SHIFTH-CENT0~6332ADJ
HORIZONTAL SIZEH-SIZE0~6332FIXNO EFFECT
HORIZONTAL PARALLELOGRAMEW//0~6332FIXNO EFFECT
EAST-WEST PARABOLA/WIDTHPARA0~6332FIXNO EFFECT
CORRECTION UPPERCOR (U)0~6332FIXNO EFFECT
CORRECTION LOWERCOR (L)0~6332FIXNO EFFECT
TRAPEZIUMTRAPE0~6332FIXNO EFFECT
HORIZONTAL BOWHB0~6332FIXNO EFFECT
S-CORRECTIONS-COR0~630FIX
WHITE POINT RED STD WHITE TEMPDRI-RS0~6332FIX
WHITE POINT GREEN STD WHITE TEMPDRI-GS0~6332ADJ
WHITE POINT BLUE STD WHITE TEMPDRI-BS0~6332ADJ
WHITE POINT RED COOL WHITE TEMPDRI-RC0~6325FIX
WHITE POINT GREEN COOL WHITE TEMPDRI-GC0~6332FIX(DRI-GS)-7 DATA
WHITE POINT BLUE COOL WHITE TEMPDRI-BC0~6332FIX(DRI-BS)
SAME DATA
WHITE POINT RED WARM WHITE TEMPDRI-RW0~6332FIX
WHITE POINT GREEN WARM WHITE TEMPDRI-GW0~6332FIX(DRI-GS)-7 DATA
WHITE POINT BLUE WARM WHITE TEMPDRI-BW0~6332FIX(DRI-BS)-7 DATA
MAX VOLUMESUB-VOL0~6060FIX
SUB CONTRASTSUB-CON0~6363FIX
SUB COLOURSUB-COL0~6332ADJ
SUB BRIGHTNESSSUB-BRI0~6332ADJ
SUB TINTSUB-TINT0~6332ADJ
SUB SHARPNESSSUB-SHP0~6332FIX
MAX HOTEL VOLUMEHTL-VOL0~6030FIX*1
HOTEL PROGRAM NUMBERHTL-PRG
0~99 OR>99FOR NONE
255FIX
BLUE BACK CONTRASTBB-CON0~1510FIX
OSD RGB REFERENCERGB0~1515FIX
BLACK LEVEL OFF-SET RCUT-R0~158ADJ
BLACK LEVEL OFF-SET GC U T-G0~158ADJ
CATHODE DRIVE LEVELCDL0~150FIX*2
Y-DELAY TIME FOR PAL(TV) [YD]DL-PT0~1512FIX
Y-DELAY TIME FOR SECAM(TV) [YD]DL-ST0~1515FIX
Y-DELAY TIME FOR N358 (TV) [YD]DL-3T0~1512FIX
Y-DELAY TIME FOR N443 (TV) [YD]DL-4T0~1512FIX
Y-DELAY TIME FOR B/W (TV) [YD]DL-TV0~1512FIX
Y-DELAY TIME FOR PAL (AV) [YD]D L-PA0~1512FIX
Y-DELAY TIME FOR SECAM (AV) [YD]DL-SA0~1515FIX
Y-DELAY TIME FOR N358 (AV) [YD]DL-3A0~1512FIX
Y-DELAY TIME FOR N443 (AV) [YD]DL-4A0~1512FIX
Y-DELAY TIME FOR B/W (AV) [YD]DL-AV0~1512FIX
COLOUR OFFSET (PAL)COL-OP0~158FIX
COLOUR OFFSET (SECAM)COL-OS0~158FIX
COLOUR OFFSET (NTSC358)COL-O30~154FIX
COLOUR OFFSET (NTSC443)COL-O40~154FIX
Page 6
6
20U200, 20U250
51U200, 51U250
51U500, 51U550
6-16-2
NOTE ( * ) :
Fix data, please do not change without specific instruction.”
*1 : Unless customer request, or else please fix the adjustment
*2 : CDL data= ‘ 2 ‘.
*3 : Manual change to ‘ 0 ‘
*4 : Switch off AN5890 ( Manual change to ‘ 0 ‘ )
*5 : Switch on AN5891 ( Manual change to ‘ 1 ‘ )
*6 : Change FM-LV data from 15 to 21
Change IGR-LV data from 16 to 23
Change B/G-NLV data from 13 to 20
Change LOW ERR data from 35 to 20
2. Connect the oscilloscope to TP201 (Tuner’s
AGC Terminal) as shown in Fig. 3.
3. Call "AG" mode in service mode. Adjust the
"AG" bus data to obtain the Tuner output pin
drop 0.1 V below maximum voltage .
4. Change the antenna input signal to
63~67dBµV , and make sure there is no noise .
5. Turn up the input signal to 90~95 dBµV to be
sure that there is no cross modulation beat.
Note:
For the 50 ohm signal strength
gauge, when not using 50/75
impedance adapter, signal
strength is 52 ±1 dBµV(75 ohm
open), instead of 57 ±1 dBµV
(75 ohm open).
For the 50 ohm signal strength
gauge,
Precaution:
The loss of using impedance
adapter.
» Bias box: About 4.5 V
Oscilloscope
0.1V
TV Set
Bias box
TP201+
+
–
–
Tuner IFT
(PRESET)
1. Get the tuner ready to receive the E-9 CH
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 to 80dBµV.
4. Connect the response lead (use LOW IMPEDANCE probe with wave detector; see Fig.1) to
the tuner's IF output terminal. (This terminal
must have the probe alone connected).
5. Set the RF AGC to 0 - 6 V with no saturation
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.
E-9 CH
P C
10k
100k
1n60
75ohm
IF OUT
-1.5+/-0.8dB
1000p
Oscilloscope
Fig. 2
Fig. 3
Note: After pressing MODEL setting. 0 channel will be skipped.
Page 8
8
20U200, 20U250
51U200, 51U250
51U500, 51U550
8-18-2
PURITY ADJUSTMENT
NO. Adjustment par tAdjusting procedure and conditionsWaveform and others
1
PURITY ADJ.1. Receive the GREEN-ONLY signal. Adjust the
beam current to about 700 mA.
2. Degauss the CRT. Maintain the purity magnet
at the zero magnetic field and keep the static
convergence roughly adjusted.
3. Observe the points a, b as shown in Fig. 4-1
through the microscope. Adjust the landing to
the rank A requirements.
4. Orient the raster rotation to 0 eastward.
5. Tighten up the deflection coil screws.
» Tightening torque: 108 ± 20 N (11 ±2 kgf)
6. Make sure the CRT corners landing meet the
A rank requirements. If not, stick the magnet
sheet to correct it.
Note: This adjustment must be done after
warming up the unit for 30 minutes
or longer with a beam current over
700 µA.
* For the f ollowing colours press R/C RGB k ey
to change.
* Press R/C RGB key for a sec-
ond in NORMAL MODE, the
colour will change to RGB mono
colour mode.
a
b
A
B
A
B
A = B
A = B
Rank "A"
(on the right of the CRT)
Rank "A"
(on the left of the CRT)
Red-only
Green-only
Blue-only
Signal-colour
screen cleared
Fig. 4-1
Fig. 4-2
Fig. 4-3
RGB
BGR
R
G
B
R
G
B
B
G
R
B
G
R
RGB
BGR
Lacquer
Wedge "a"
Wedge
"b"
Wedge
"c"
About
100°
About
100°
4-pole magnet
6-pole magnet
CRT neck
20mm
Lacquer
Purity magnet
CONVERGENCE ADJUSTMENT
NO. Adjustment partAdjusting procedure and conditionsWaveform and others
1 CONVERGENC
ADJ.
(To be done
after the purity
adjustment.)
1. Receive the "Crosshatch Pattern" signal.
2. Using the remote controller, call NORMAL
mode.
Static Convergence
1. Turn the 4-pole magnet to a proper opening
angle in order to superpose the blue and red
colours.
2. Turn the 6-pole magnet to a proper opening
angle in order to superpose the green colour
over the blue and red colours.
Dynamic Convergence
1. Adjust the convergence on the fringes of the
screen in the following steps.
a) Fig. 5-1: Drive the wedge at point "a" and
swing the deflection coil upward.
b) Fig. 5-2: Drive the wedge at points "b"
and "c", and swing the deflection coil
downward.
c) Fig. 5-3: Drive the "c" wedge deeper and
swing the deflection coil rightward.
d) Fig. 5-4: Drive the "b" wedge deeper and
swing the deflection coil leftward.
2. Fix all the wedges on the CRT and apply glass
tape over them.
3. Apply lacquer to the deflection yok e lock screw ,
magnet unit (purity, 4-pole, 6-pole magnets)
and magnet unit lock screw.
Finally received the Red-only and Blue-only
signals to make sure there is no other colours
on the screen.
Fig. 5-2
Fig. 5-1
Fig. 5-3
Fig. 5-4
Fig. 5-5
Fig. 5-6
Page 9
9
20U200, 20U250
51U200, 51U250
51U500, 51U550
9-19-2
1. Call "SUB-BRI" in service mode. (Receive
Crosshatch pattern with 5 black level windows)
2. Adjust the "SUB BRIGHT" bus data in order
that the line 1, 2 and 3 have the same darkness
wherelse line 4 is slightly brighter than line 1,
2 and 3 and finally line 5 will be the brighter
than line 4.
1. Switch TV to VIDEO mode, BLUE BACK OFF
with NO VIDEO signal.
2. Press R/C to set Picture Normal condition.
3. Connect the oscilloscope to Red OUT from
IC801. (TP851)
Range: 1 V/Div (DC)
Sweep: 5 msec/Div
4. Adjust SCREEN VR, so that the tip of signal
reach 3.0 ±0.1 Vdc.
CUT-OFF, B ACKGROUND AND SUB-CONTRAST ADJUSTMENT
NO. Adjustment partAdjusting procedure and conditionsWaveform and others
1
2 SUB-
BRIGHTNESS
ADJUSMENT
(I
2
C BUS
CONTROL)
1, 2 and 3 are in same black level.
CRT CUTOFF
ADJUSTMENT
(I
2
C BUS
CONTROL)
Fig. 6
3 WHITE
BALANCE
SERVICE
MODE ADJ.
(I2C BUS
CONTROL)
1. Receive the "Monoscope Pattern with BURST"
signal.
2. Press R/C to set Picture NORMAL condition.
3. Connect the DC miliammeter between TP602
(-) and TP603 (+).
4. Check Beam current should be around 1,100 µA.
5. Set it to service mode and adjust the " DRIGS" & "DRI-BS" data to have a colour
temperature of 12,300°K. (Note.)
6. Receive "White" pattern, with BURST Signal, and
set Brightness Y by generator, to** 10 cd/m
2
(Minolta CA-100) by reducing Luminate Y signal.
7. Adjust "CUT -R" & "CUT-G" to get 12,300°K. Then
go back normal mode (High Bright)** to check
colour temperature. If out of range, back to 1.
Note: This adjustment must be done after
warming up the unit for 30 minutes
or longer with a beam current over
700µA).
* Adjust DRI-GC/GW, DRI-BC/BW as following
data after finishing DRI-GS and DRI-BS.
DRI-GC/GW DATA="DRI-GS" -7 DATA
DRI-BC=DRI-BS
DRI-BW DATA="DRI-BS" -7 DATA
** Low=10 cd/m
2
: High=120 cd/m
2
Refer to Page 7.
* 12,300°K X : 0.272
Y : 0.275
(MINOLTA COLOUR ANALYZER
CA-100)
(Note): Above Data can be UP/
DOWN by Volume key.
4 Maximum
beam check
1. Receive the "Monoscope Pattern" signal.
2. Press R/C to set Picture NORMAL condition.
3. Connect the DC miliammeter between TP603
(+) and TP602 (–).
(Full Scale: 3 mA Range)
4. Beam current must be within 1,100 ±100 µA.
1 V
3.0Vdc
0
1 2 3 4 5
Fig. 7
HORIZONTAL, VERTICAL, DEFLECTION LOOP AND FOCUS ADJUSTMENT
NO. Adjustment partAdjusting procedure and conditionsWaveform and others
1
2
3
4
5
6
V-SLOPE
(I
2
C BUS
CONTROL)
V-SHIFT
(I
2
C BUS
CONTROL
V-AMP
(I
2
C BUS
CONTROL)
S-CORRECTION (I
2
C
BUS CONTROL)
H-SHIFT (50)
(H - CENTER)
(I
2
C BUS
CONTROL)
FOCUS
1. Receive "PAL 50Hz Monoscope Pattern"
Signal.
2. Call the "V-LIN" mode.
3. Increase or decrease "V-LIN" by Volume key till
the horizontal line in the center of monoscope is
just at the position where the blanking starts.
1. Call the "V-CENT" mode.
2. Increase or decrease "V -CENT" b y V olume k e y
till the picture is centered.
1. Call the "V-AMP" mode.
2. Increase or decrease "V- AMP" by Volume k e y
to set overscan of 8.5% typical.
Adjustment Spec 8.5% range +1% -0%.
FIXED DA TA, NO NEED TO ADJUST.
1. Call the "H-CENT" mode.
2. Increase or decrease "H-CENT" by V olume ke y
to center the picture horizontal.
1. Receive the "Monoscope Pattern" signal.
2. Press R/C to set Picture NORMAL condition.
3. Adjust the focus control to get the best
focusing.
PAL CHROMA ADJUSTMENT
NO. Adjustment partAdjusting procedure and conditionsWaveform and others
1
SUB COLOUR
(I
2
C BUS
CONTROL)
1. Receive the "PAL Colour Bar" signal.
2. Press R/C to set Picture Normal condition.
3. Connect the oscilloscope to Red cathode
(Between C881 and R885).
4. Using the R/C call "SUB COL" in SERVICE
mode. Adjust SUB COLOUR bus data, so that
the 75% White & Red portions of PAL Colour
Bar be at the same level shown as Fig. 8.
5. Clear the SERVICE mode.
Cy
G
B
W
Y 100%W
75%
Mg R
Fig. 8
Page 10
10
20U200, 20U250
51U200, 51U250
51U500, 51U550
10-110-2
NTSC CHROMA ADJUSTMENT
NO. Adjustment par tAdjusting procedure and conditionsWaveform and others
1 SUB-TINT (I
2
C
BUS
CONTROL)
1. Receive the "NTSC3.58 Colour Bar" signal
through AV in.
2. Connect the oscilloscope to TP853 (Pin (5) of
P882) BLUE-OUT.
3. Call the "SUB-TINT" mode in service mode.
Adjust the "SUB-TINT" bus data to obtain the
waveform shown as Fig. 9.
4. Clear the SERVICE mode.
PROTECTOR OPERATION CHECKING
NO. Adjustment par tAdjusting procedure and conditionsWaveform and others
1 BEAM
Protector
1. Receive "Monoscope Pattern" signal.
2. Set CONTRAST MAX.
3. Set BRIGHT MAX.
4. During the Collector & Emitter of Q883/5/7
short, make sure the protector ON and switch
to standby mode.
* Select one of Q883/5/7 to do each
short test.
2 H, V Protector 1. Receive "Monoscope Pattern" signal.
2. Connect output of Bias Box to D607 cathode
(R606 side).
3. Set voltage of Bias Box to 18V and make sure
the protector is not work.
4. Set voltage of Bias Box to 27V, and make sure
the protector is work.
A/V INPUT AND OUTPUT CHECKING
NO. Adjustment par tAdjusting procedure and conditionsWaveform and others
1 VIDEO AND
AUDIO OUTPUT Check
1. Receive the "PAL Colour Bar" signal (100%
White Color Bar, Sound 400 Hz 100% Mod.)
2. Terminate the Video output with a 75 ohm impedance. Make sure the output is as specified
(1.0 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 ±3 dB).
2 VIDEO AND
AUDIO INPUT
Check
1. Using the TV/AV key on the remote controller,
make sure that the modes change in order of
TV , A V1, A V2 & TV again and the video & audio
output are according to the input terminal for
each mode.
3 Other
Protectors
1. Once finish rectified Electrolytic Capacitor short
testing in +B line, check all possible damaged
components on +B line.
(Use random selected set for inspection)
WYCy G Mg R
B
Fig. 9
SIF (NICAM/IGR) ADJUSTMENT (51R500/550 ONLY)
NO. Adjustment par tAdjusting procedure and conditionsWaveform and others
2. Connect DC Voltmeter to Pin (1) of P2301
(Main Unit). (TP2300 in NICAM/IGR Unit)
3. Check and turn T2300 counter-clockwise (Left)
to 0V and then turn it clockwise (Right) until
TP2300 become 5V.After that, turn T2300
counter-clockwise (Left) until TP2300 become
2.5 ± 0.1 Vdc.
* UNIT BOARD ADJUSTMENT
Vcc5.0 ± 0.1 Vdc
IF Input Frequency 38.9 MHz ± 10 KHz
Adjust T2300 until TP2300 (NICAM/IGR Unit)
become 2.5 ± 0.1 Vdc.
Check after assembly NICAM Board
Test Point: Pin (1) of P2301 (Main Unit)
Preset selected reception frequency (AFT
OFF)
Check Voltage 2.5 ± 1.0 Vdc.
Precaution: The Vcc, f0 and other factors are
considered in the unit board of the
1.0 V tolerance which differ from the
adjustment accuracy.
2. Set the sound output to 2 Vrms by volume key.
(Speaker Impedance: 8 Ohm, Sound Output:
500mW)
3. Terminate the "Sub - Woofer" output with a 22
kΩ impedance.Make sure that the output is
5.6Vp-p ± 3dB.
Page 11
11
20U200, 20U250
51U200, 51U250
51U500, 51U550
11-111-2
FUNCTION OPERATION CHECKING (VIDEO AND AUDIO)
NO. Adjustment partAdjusting procedure and conditionsWaveform and others
1
2 COLOUR Key1. Receive "Colour Bar" signal.
2. Set PICTURE MENU to select COLOUR.
3. Press Volume Up/Down key to check whether
the COLOUR effect is OK or not.
CONTRAST
Key
1. Receive "Monoscope Pattern" signal.
2. Set PICTURE MENU to select CONTRAST.
3. Press Volume Up/Down key to check whether
the CONTRAST effect is OK or not.
3 BRIGHTNESS
Key
1. Receive "Monoscope Pattern" signal.
2. Set PICTURE MENU to select BRIGHTNESS.
3. Press Volume Up/Down key to check whether
the BRIGHTNESS effect is OK or not
4 TINT key1. Receive the "NTSC Colour Bar" signal through
AV in.
2. Set PICTURE MENU to select TINT.
3. Press Volume Up/Down key to check TINT, UP
for GREEN direction and DOWN for PURPLE
direction whether is OK or not.
5 SHARPNESS
Key
1. Receive "Monoscope Pattern" signal.
2. Set PICTURE MENU to select SHARPNESS.
3. Press Volume Up/Down key to check whether
the SHARPNESS effect is OK or not.
6 CH DISPLAY
COLOUR
1. All Ch (1~99) will have an OSD display of the
channel number in green colour under AFT ON
condition.
7 NORMAL Key1. Once in PICTURE / SOUND MENU and the
NORMAL key is pressed, all the settings will
be present to normal setting. (Normal setting
value for every mode).
CONTRAST : MAXTREBLE: CENTER
COLOUR : CENTER BASS: CENTER
BRIGHTNESS
:CENTER SURROUND :OFF
TINT:CENTER
SURROUND LEVEL
: CENTER
SHARPNESS
:CENTER BALANCE: CENTER
8 WHITE TEMP1. Receive "Monoscope P attern" signal.
2. Set PICTURE MENU to select WHITE TEMP.
3. Press Volume Up/Down key to check WHITE
TEMP Option, STANDARD:
NORMAL SETTING, WARM for more
REDDISH direction changing, COOL for more
BLUISH direction changing.
FUNCTION OPERATION CHECKING (VIDEO AND AUDIO)
(Continued)
NO. Adjustment partAdjusting procedure and conditionsWaveform and others
9
COLOUR
SYSTEM
1. Receive the "PAL COLOUR BAR" signal, press
the COLOUR SYSTEM key to select modes
except P AL, check the COLOUR is not working
properly. Then, select the "PAL" mode. Check
again its colour so that it is working properly.
2. Receive "NTSC 4.43/3.58 COLOUR BAR" signal thru AV, press COLOUR SYSTEM key to
select modes except N4.43/3.58, check the
COLOUR is not working properly. Then, select
the "NTSC 4.43/3.58" mode. Check again its
colour so that it is working properly.
10 SOUND
SYSTEM
1. Receive "PAL-B/G" signal, check the sound
output is working properly or not.
11 NOISE MUTE
CHECKING
1. Receive "PAL COLOUR BAR" signal.
2. Turn up the volume control to maximum, make
sure the sound is heard from the speakers.
Then put the unit in no signal state.
3. Check the sound mute is effective.
4. Finally turn sound level of CTV to minimum.
12 OSD
LANGUAGE
QUANTITY
CHECK
Check OSD LANGUAGE quantity and type.
13 SOUND
CONTROL
(BASS/TRE/
BAL)
1. Receive "Monoscope Pattern" signal.
2. Set SOUND MENU to select BASS/TRE/BAL.
3. Select each item, and press Volume Up/Down
Key to check the sound effect.
14 SURROUND
FUNCTION
CHECKING
1. Receive STEREO Music signal thru AV.
2. Press SURROUND Key to select following
mode
SURROUND OFF
↓
SURROUND 1
(Check SURROUND sound effect)
Check the level of SURROUND 1 effect by
increasing and decreasing the level control
3. Receive MONO Music signal and press
SURROUND Key to select following mode.
SURROUND 2
(Check MONO sound effect)
Page 12
12
20U200, 20U250
51U200, 51U250
51U500, 51U550
12-112-2
FUNCTION OPERATION CHECKING (VIDEO AND AUDIO)
(Continued)
NO. Adjustment partAdjusting procedure and conditionsWaveform and others
15
OTHER
(NICAM/IGR/
TEXT)
1. Check Normal operation of each model of
different features.
Model
NICAM
IGR TEXT
20U200/250, 51U200/250 XXX
51U500/550B/G B/GX
HEADPHONE JACK CHECKING
NO. Adjustment par tAdjusting procedure and conditionsWaveform and others
1
HEADPHONE
OUTPUT
CHECKING
1. Receive PAL Colour Bar with SOUND 400Hz,
100% MODULATION (± 50kHz Dev)
2. Maximum volume, and check the headphone
output with 400Hz sound and no sound out
from speaker.
The purpose of this HOTEL MODE is enable hotel authorized person to store the tuned
programs as hotel channels, current volume as maximum hotel volume, picture and sound
setting. In addition, the end user will not be able to select Preset and Channel-setting
functions.
How to enable/disable the "Hotel Mode" ?
Ans: a) Select BLUE BACK function (under MENU-FEATURE selection)by R/C, Press the -/
-- (one/two digit) key and keep pressing it for five second, then you can see the hotel
mode with four digits password.
b) Key in the four digits password starting with number "1", "3", "7" and "9", then the
hotel mode will be in ENABLE condition, you can switch on/off the hotel mode by
using R/C (volume up/down) key.
* We recommend:
Before set the hotel mode, it is better to choose CH 1 & set SOUND VOLUME level Up to
75% full scale.After set hotel mode, starting channel will be always ch 1 & maximum
sound level out will be set to 75% of full scale.
* If you set hotel mode in AV, starting channel will be the last ch which you received before
power off (same as normal operation)
CONDITION:
When using hotel mode, end user can ONLY control PICTURE, SOUND and FEATURE
selection. But, It will return to the previous hotel mode setting condition, after power off.
End user can’t use:— CH-SETTING (OSD become violet) and preset the others function is
allowed to be used.
#1 Ch 1 is your selected
channel for hotel mode.
Input 1, 3, 7 and 9 by R/C key.
Set vol up/down by R/C key.
HOTEL ON
PASSWORD ****
2C0
2C1
2C2
2C3
2C4
2C5
2C6
2C7
2C8
2C9
2CA
2CB
2CC
2CD
2CE
2CF
2D0
2D1
2D2
2D3
2D4
2D5
2D6
2D7
2D8
2D9
2DA
2DB
2DC
2DD
2DE
2DF
2E0
2E1
2E2
2E3
2E4
2E5
2E6
2E7
2E8
2E9
2EA
2EB
2EC
2ED
2EE
2EF
2F0
2F1
2F2
2F3
2F4
2F5
2F6
2F7
2F8
2F9
2FA
2FB
2FC
2FD
2FE
2FF
MODELMODEL
LETTER NO.LETTER NO.
ADDRESS
DATA
MICON EEPROM EEPROMCHASSISCTV FINAL
LAST INTIAL
(HEX)
D7D6D5D4D3D2D1D0
DEFAULT RANGE
WRITE (CPU)
CHECK DATA CHECK TYPE CHECK DATA CHECK TYPE
SETTING DATA
REMARK
Page 19
19
20U200, 20U250
51U200, 51U250
51U500, 51U550
19-119-2
TROUBLE SHOO TING TABLE
NO RASTER
Blown out.
Replace the fuse.
Check IC701, D701
and C707.
Abnormal
YES
NO
ON/OFFON
NO
AbnormalNormal
Does horizontal circuit
oscillate ?
Check IC605, IC751 and
IC801.
D1001 (Power LED Red)
turns on or turns ON/OFF.
Check T701 pin (7) voltage
(Approx. 310V at 220V AC)
Check F701.
Normal
Check Secondary Main+B
(Approx. 115V)
Normal
Abnormal
Normal
Check CRT connector
K1-K5 bias.
Check
IC801.
Checking the
protector circuit.
Check R615 and R618.
D1001 (Power LED Green)
turns on.
Check IC702, IC753 and
D758.
Check R701, R707 and
D709.
The fuse is blown out again.
TROUBLE SHOO TING TABLE (Continued)
NO PICTURE, NO SOUND
Does signal appear at pin
(28) of IC801 ?
NO SOUND
No snow noise.
Does noise or signal appear at pin (40)
of IC801 ?
Noise increases but no signal is
received.
Check the tuner supply voltage LB must
be approx. 5V, BT must be approx. 32V.
and CH preset data check.
Check the tuner AGC
(TP201).
Does noise or
signal appear at
pin (38) of IC801 ?
Check IC801 and
its related circuit.
Check Q203,
IC401 and related
circuit.
Check PIF circuit
and its related
circuit.
Check pin (27) of
IC801, Tuner and
related circuit.
Does the noise level increase at max.
Contrast, Brightness and Sound controls ?
CIRCUITS TO BE CHECKED:
» Tuner.
» PIF.
» Automatic Gain Control.
» (5V), (32V) Power Source.
Does signal appear at pins
(22) and (24) of IC401 ?
Check IC801.
AbnormalNormal
Normal
YES
YES
YES
(Signal)
YES
NO
NO
NO
Does signal appear at pins
(12) and (15) of IC303 ?
YES
NO
Does signal appear at pins
(7) and (12) of IC302 ?
YES
NO
Check headphone circuit,
P301 and their peripheral
circuit.
NO
Check pin (38) of
IC801.
Check IC401, NICAM/IGR circuit
and their peripheral circuit.
Check IC303 and its peripheral
circuit.
Check IC302 and its peripheral
circuit.
* Note: NICAM/IGR circuit for
51U500/550 only.
Page 20
20
20U200, 20U250
51U200, 51U250
51U500, 51U550
20-120-2
TROUBLE SHOO TING TABLE (Continued)
NEITHER VERTICAL NOR
HORIZONTAL SYNCHRONIZATION
CIRCUIT TO BE CHECKED:
» Sync. Separator Circuit.
NO VERTICAL SCAN
Check R503, R506, R513,
C517 and D501.
DEFECTIVE VERTICAL AMP.
AND VERTICAL LINEARITY
Readjust vertical size.
(Bas Data)
Check pins (33) and (34) of
IC801.
Check IC501.Check C503 and C507.
Check IC501.
NormalAbnormal
Vertical linearity and size
abnormal.
TROUBLE SHOO TING TABLE (Continued)
NO SPECIFIC COLOUR
Is some colour produced in
B/W broadcast reception ?
Is the white balance properly
adjusted ?
Readjust the white balance.
The picture colour is yellow.The picture colour is magenta.The picture colour is cyan.
Check Q871, Q883 and its
adjacent circuits.
Check Q870, Q885 and its
adjacent circuits.
Check Q872, Q887 and its
adjacent circuits.
Check IC801 and bias
control circuit.
Normal
NO SPECIFIC COLOUR
“PAL/SECAM”
(NO COLOUR SYNCHRONIZATION)
NOYES
YES
NO
Check IC801, R801, R802,
R803, D804, D805, D806
and Q801.
Check X1001(12 MHz).
Page 21
SOLID STATE DEVICE BASE DIAGRAM
TOP VIEW
20U200, 20U250
51U200, 51U250
51U500, 51U550
85
14
M24C08W
6433
132
iX3410CE
SIDE VIEW
BASE
COLLECTOR
EMITTER
2SA1015
2SC1815
43
COLLECTOR
2R
12
BASE EMITTER
FX0008GED601A
241320112815
112
AN5891K
BASE
COLLECTOR
EMITTER
2SC2482
COLLECTOR
BASE EMITTER
B709A
123
PST573J
COLLECTOR
:BG:
JC
BASE EMITTER
2SC2735
110
114
TDA9808T
SE115N
TDA9874A
M52797SP
+ ~ ~ -
DX0386CE
BCE
2SD2586
1
TA48M033
ANODE
(RED)
CATHODE
(COMMON)
ANODE
(GREEN)
123
KA7808
PX0423CE
3
STRF6654
24
135
TDA8357
KA7805
9
DX0445CE
BCE
2SC4517
BCE
TF321S
112
AN5276
21
Page 22
20U200, 20U250
51U200, 51U250
51U500, 51U550
MODELS 20U200/250, 51U200/250 CHASSIS LAYOUT
H
G
F
E
D
C
B
A
654321
22
Page 23
MODELS 51U500/550 CHASSIS LAYOUT
H
G
F
20U200, 20U250
51U200, 51U250
51U500, 51U550
E
D
C
B
A
654321
23
Page 24
25
20U200, 20U250
51U200, 51U250
51U500, 51U550
24
121110987654321
A
B
C
D
E
F
G
H
MODELS 20U200/250, 51U200/250 BLOCK DIAGRAM-1
Page 25
27
20U200, 20U250
51U200, 51U250
51U500, 51U550
26
121110987654321
A
B
C
D
E
F
G
H
MODELS 51U500/550 BLOCK DIAGRAM
Page 26
20U200, 20U250
51U200, 51U250
51U500, 51U550
BLOCK DIAGRAM-2
H
G
F
E
D
C
B
A
654321
28
Page 27
BLOCK DIAGRAM-3
(NICAM/IGR)
H
G
F
20U200, 20U250
51U200, 51U250
51U500, 51U550
E
D
C
B
A
654321
29
Page 28
20U200, 20U250
51U200, 51U250
51U500, 51U550
WAVEFORMS
1
6
0.98 Vp-p 20"
1.12 Vp-p 21"
80.0 Vp-p (H)
3.15 Vp-p (H) 20"
2
3.17 Vp-p (H) 21"
89.4 Vp-p (H) 20"
7
87.2 Vp-p (H) 21"
3.02 Vp-p (H) 20"
3
3.11 Vp-p (H) 21"
3.10 Vp-p (H) 20"
8
3.11 Vp-p (H) 21"
3.28 Vp-p (H) 20"
4
3.11 Vp-p (H) 21"
1.85 Vp-p (H) 20"
9
1.93 Vp-p (H) 21"
81.8 Vp-p (H) 20"
5
83.8 Vp-p (H) 21"
129.0 Vp-p (H) 20"
0
133.0 Vp-p (H) 21"
8.38 Vp-p (H) 20"
q
8.48 Vp-p (H) 21"
952 Vp-p (H) 20"
y
980 Vp-p (H) 21"
1.08 Vp-p (H) 20"
w
1.17 Vp-p (H) 21"
2.7 Vp-p (H) 20"
u
2.6 Vp-p (H) 21"
0.83 Vp-p (H) 20"
e
0.91 Vp-p (H) 21"
504 Vp-p (H) 20"
i
510 Vp-p (H) 21"
30
46.6 Vp-p (H) 20"
r
48.0 Vp-p (H) 21"
130.0 Vp-p (H) 20"
t
130.5 Vp-p (H) 21"
Page 29
DESCRIPTION OF SCHEMATIC DIAGRAM
20U200, 20U250
51U200, 51U250
51U500, 51U550
SAFETY NOTES:
1. DISCONNECT THE AC PLUG FROM THE AC OUTLET BEFORE
REPLACING PARTS.
2. SEMICONDUCTOR HEAT SINKS SHOULD BE REGARDED AS
POTENTIAL SHOCK HAZARDS WHEN THE CHASSIS IS OPERATING.
IMPORTANT SAFETY NOTICE:
PARTS MARKED WITH “å” ( ) ARE IMPORTANT FOR
MAINTAINING THE SAFETY OF THE SET. BE SURE TO REPLACE THESE PARTS WITH SPECIFIED ONES FOR MAINTAINING THE SAFETY AND PERFORMANCE OF THE SET.
SERVICE PRECAUTION:
THE AREA ENCLOSED BY THIS LINE (
CONNECTED WITH AC MAINS VOLTAGE.
WHEN SERVICING THE AREA, CONNECT AN ISOLATING TRANSFORMER BETWEEN TV RECEIVER AND AC LINE TO ELIMINATE
HAZARD OF ELECTRIC SHOCK.
) IS DIRECTLY
NOTES:
1. The unit of resistance “ohm” is omitted.
(K = 1000 ohms, M = Meg ohm).
2. All resistors are 1/16 watt, unless otherwise noted.
3. All capacitors are µF, unless therwise noted. (P = µµF).
VOLTAGE MEASUREMENT CONDITIONS:
1. Voltage in parenthesis measured with no Signal.
2. Voltages without parenthesis measured with PAL Colour-Signal.
3. All the voltages in each point are measured with high impedence
volt-meter.
WAVEFORM MEASUREMENT CONDITIONS:
1. Colour bar generator signal of 1.8V peak to peak applied at Base
of Video Buffer Amp. Q200.
Replacement parts which have these special safety characteristics
identified in this manual: electrical components having such features
are identified by "å" 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 NUMBER2. REF. NO.
3. PART NO.4. DESCRIPTION
5. CODE6. QUANTITY
MARK ★: SPARE PARTS-DELIVERY SECTION
Ref. No.Part No.★DescriptionCode
PICTURE TUBE
å V1VB48QAD220X1EPicture Tube (20U200/250)
å V1VB51KPD12X/*SPicture TubeCF
PWB-A DUNTK9988WEA2 – MAIN Unit (51U500/550)—
PWB-A DUNTK9988WEZ8 – MAIN Unit (51U200/250)—
PWB-A DUNTK9988WEZ9 – MAIN Unit (20U200/250)—
PWB-B DUNTK9990WEX8 – CRT Unit (20U200/250)—
PWB-B DUNTK9990WEZ5 – CRT Unit—
C752VCEA0A0JW107M R 10046.3V ElectrolyticAB
C753VCKYPA2HB102KR 1000p 500V CeramicAA
C754VCEA0A1CW476M R 4716V ElectrolyticAB
C755VCEA0A1CW108M R 100016V ElectrolyticAD
C756VCEA0A1CW338M R 330016V ElectrolyticAE
C758VCKYPA1HB221KR 220p 50V CeramicAA
å C759VCKYPA1HB102KR 1000p 50V CeramicAA
C760RC-KZ0039CEZZR 680p2kV CeramicAB
C761VCEA4W2CN227M R 220160V ElectrolyticAG
C762VCQYTA1HM473JR 0.047 50V MylarAA
C801VCEA0A1HW105M R 1.050V ElectrolyticAB
C802VCEA0A1CW108M R 100016V ElectrolyticAD
C803VCEA9M1CW107M R 10016V ElectrolyticAB
C804VCKYCY1HB222K R 2200p 50V CeramicAA
C805VCKYCY1HB102K R 1000p 50V CeramicAA
C806VCKYCY1HB102K R 1000p 50V CeramicAA
C807VCKYCY1HB102K R 1000p 50V CeramicAA
C808VCEA0A1CW107M R 10016V ElectrolyticAC
C809VCKYCY1CF474Z R 0.4716V CeramicAB
C810VCKYCY1CF474Z R 0.4716V CeramicAB
C811VCEA0A1CW107M R 10016V ElectrolyticAC
C812VCFYFA1HA224JR 0.2250V MylarAB
C813VCFYFA1HA224JR 0.2250V MylarAB
C814VCKYCY1HB471K R 470p50V CeramicAA
C1001 VCEA0A0JW107M R 10046.3V ElectrolyticAB
C1003 VCEA0A1CW106M R 1016V ElectrolyticAB
C1004 VCKYCY1CF474ZR 0.4716V CeramicAB
C1005 VCKYCY1HF223ZR 0.022 50V CeramicAB
C1006 VCEA0A1CW106M R 1016V ElectrolyticAB
C1007 VCEA0A1CW106M R 1016V ElectrolyticAB
C1008 VCCCCY1HH330J R 33p50V CeramicAA
C1009 VCCCCY1HH330J R 33p50V CeramicAA
C1010 VCEA0A0JW107M R 10046.3V ElectrolyticAB
C1011 VCKYCY1CF474ZR 0.4716V CeramicAB
C1012 VCKYCY1CF474ZR 0.4716V CeramicAB
C1013 VCEA0A0JW107M R 10046.3V ElectrolyticAB
C1014 VCEA0A1CW106M R 1016V ElectrolyticAB
C1015 VCFYFA1HA474JR 0.4750V MylarAC
C1016 VCQYTA1HM104J R 0.150V MylarAA
C1018 VCKYCY1HB221K R 220p50V CeramicAA
C1019 VCEA9M1HW225M R 2.250V ElectrolyticAB
C1023 VCEA0A1CW107M R 10016V ElectrolyticAC
C1024 VCEA0A1CW106M R 1016V ElectrolyticAB
AC250V
FilmAD
2000V
CeramicAC
(20U200/250, 51U200/250)
RESISTORS
RJ2VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ3VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ9VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ10VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ12VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ13VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ15VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ16VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ18VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ21VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ25VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ26VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ27VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ30VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ31VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ32VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ33VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ34VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ39VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ41VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ43VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ51VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ53VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ56VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ61VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ64VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ66VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ67VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ68VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ69VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ71VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ74VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ75VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ79VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ80VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ81VRS-CY1JF000JR 01/16W Metal Oxide AA
(20U200/250, 51U200/250)
RJ82VRS-CY1JF000JR 01/16W Metal Oxide AA
(20U200/250, 51U200/250)
RJ84VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ85VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ87VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ88VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ90VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ94VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ96VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ103 VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ107 VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ201 VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ202 VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ205 VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ206 VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ208 VRS-CY1JF000JR 01/16W Metal Oxide AA
(20U200/250, 51U200/250)
R201VRS-CY1JF101JR 100 1/16W Metal Oxide AA
R202VRS-CY1JF101JR 100 1/16W Metal Oxide AA
R203VRD-RM2HD102JR 1.0k 1/2WCarbonAA
R204VRD-RM2HD102JR 1.0k 1/2WCarbonAA
R205VRD-RA2BE680JR 681/8WCarbonAA
R206VRS-CY1JF122JR 1.2k 1/16W Metal Oxide AA
R207VRS-CY1JF221JR 220 1/16W Metal Oxide AA
R208VRS-CY1JF122JR 1.2k 1/16W Metal Oxide AA
R209VRS-CY1JF392JR 3.9k 1/16W Metal Oxide AA
R215VRS-CY1JF681JR 680 1/16W Metal Oxide AA
(51U500/550)
R217VRD-RA2BE392JR 3.9k 1/8WCarbonAA
R218VRS-CY1JF102JR 1.0k 1/16W Metal Oxide AA
R219VRS-CY1JF391JR 390 1/16W Metal Oxide AA
R220VRS-CY1JF101JR 100 1/16W Metal Oxide AA
R221VRS-CY1JF102JR 1.0k 1/16W Metal Oxide AA
R222VRS-CY1JF681JR 680 1/16W Metal Oxide AA
R223VRD-RA2BE101JR 100 1/8WCarbonAB
R224VRS-CY1JF750JR 751/16W Metal Oxide AA
R225VRD-RA2EE680JR 681/4WCarbonAA
R229VRD-RA2EE680JR 681/4WCarbonAA
R230VRS-CY1JF561JR 560 1/16W Metal Oxide AA
R231VRS-CY1JF561JR 560 1/16W Metal Oxide AA
R233VRS-CY1JF181JR 180 1/16W Metal Oxide AA
R237VRS-CY1JF272JR 2.7k 1/16W Metal Oxide AA
R238VRS-CY1JF821JR 820 1/16W Metal Oxide AA
R239VRS-CY1JF221JR 220 1/16W Metal Oxide AA
R300VRS-CY1JF680JR 681/16W Metal Oxide AA
R306VRS-CY1JF123JR 12k 1/16W Metal Oxide AA
R307VRD-RA2BE272JR 2.7k 1/8WCarbonAA
R308VRD-RA2BE332JR 3.3k 1/8WCarbonAA
R309VRS-CY1JF272JR 2.7k 1/16W Metal Oxide AA
R310VRD-RA2BE103JR 10k 1/8WCarbonAA
R311VRS-CY1JF332JR 3.3k 1/16W Metal Oxide AA
R312VRD-RA2BE101JR 100 1/8WCarbonAB
R313VRD-RA2BE101JR 100 1/8WCarbonAB
R314VRS-CY1JF224JR 220k 1/16W Metal Oxide AA
R315VRS-CY1JF152JR 1.5k 1/16W Metal Oxide AA
R316VRS-CY1JF562JR 5.6k 1/16W Metal Oxide AA
R318VRS-CY1JF152JR 1.5k 1/16W Metal Oxide AA
R319VRD-RA2BE562JR 5.6k 1/8WCarbonAA
R322VRS-CY1JF101JR 100 1/16W Metal Oxide AA
(20U200/250, 51U200/250)
R325VRS-CY1JF821JR 820 1/16W Metal Oxide AA
(20U200/250, 51U200/250)
R326VRS-CY1JF332JR 3.3k 1/16W Metal Oxide AA
R327VRS-CY1JF564JR 560k 1/16W Metal Oxide AA
R328VRS-CY1JF564JR 560k 1/16W Metal Oxide AA
R329VRS-CY1JF332JR 3.3k 1/16W Metal Oxide AA
R332VRS-CY1JF561JR 560 1/16W Metal Oxide AA
R333VRS-CY1JF103JR 10k 1/16W Metal Oxide AA
R334VRS-CY1JF102JR 1.0k 1/16W Metal Oxide AA
R335VRS-CY1JF561JR 560 1/16W Metal Oxide AA
R336VRS-CY1JF102JR 1.0k 1/16W Metal Oxide AA
R337VRS-CY1JF101JR 100 1/16W Metal Oxide AA
R338VRS-CY1JF103JR 10k 1/16W Metal Oxide AA
R339VRS-CY1JF564JR 560k 1/16W Metal Oxide AA
R340VRS-CY1JF332JR 3.3k 1/16W Metal Oxide AA
R341VRS-CY1JF332JR 3.3k 1/16W Metal Oxide AA
R342VRS-CY1JF564JR 560k 1/16W Metal Oxide AA
R343VRS-CY1JF104JR 100k 1/16W Metal Oxide AA
R344VRS-CY1JF101JR 100 1/16W Metal Oxide AA
R345VRS-CY1JF104JR 100k 1/16W Metal Oxide AA
R347VRD-RM2HD101JR 100 1/2WCarbonAA
R348VRD-RM2HD101JR 100 1/2WCarbonAA
R358VRS-CY1JF680JR 681/16W Metal Oxide AA
R376VRS-CY1JF101JR 100 1/16W Metal Oxide AA
R377VRS-CY1JF101JR 100 1/16W Metal Oxide AA
R378VRN-VV3DBR12JR 0.12 2WMetal FilmAB
R403VRS-CY1JF101JR 100 1/16W Metal Oxide AA
R404VRD-RA2BE820JR 821/8WCarbonAA
R406VRS-CY1JF103JR 10k 1/16W Metal Oxide AA
R411VRD-RA2BE820JR 821/8WCarbonAA
R412VRS-CY1JF101JR 100 1/16W Metal Oxide AA
R501VRS-CY1JF182JR 1.8k 1/16W Metal Oxide AA
R502VRS-CY1JF182JR 1.8k 1/16W Metal Oxide AA
R503VRD-RM2HD1R5J R 1.5 1/2WCarbonAA
å R505VRG-PD2HD330JR 331/2WFuse Resistor AC
R506VRD-RA2BE224JR 220k 1/8WCarbonAA
R508VRD-RM2HD221JR 220 1/2WCarbonAA
R509VRD-RM2HD1R0J R 1.0 1/2WCarbonAA
R510VRS-CY1JF101JR 100 1/16W Metal Oxide AA
R511VRS-CY1JF101JR 100 1/16W Metal Oxide AA
R513VRD-RA2BE393JR 39k 1/8WCarbonAA
R514VRS-CY1JF101JR 100 1/16W Metal Oxide AA
R515VRS-CY1JF272JR 2.7k 1/16W Metal Oxide AA
R516VRD-RM2HD223JR 22k 1/2WCarbonAA
R602VRN-VV3DBR68JR 0.68 2WMetal FilmAA
R610VRD-RA2BE822JR 8.2k 1/8WCarbonAA
R611VRD-RA2EE563GR 56k 1/4WCarbonAA
R612VRD-RA2BE103JR 10k 1/8WCarbonAA
R613VRD-RA2BE103JR 10k 1/8WCarbonAA
R614VRS-CY1JF103JR 10k 1/16W Metal Oxide AA
R615VRS-KT3LB332JR 3.3k 3.0WMetal Oxide AC
R616VRS-CY1JF102JR 1.0k 1/16W Metal Oxide AA
R617VRD-RM2HD472JR 4.7k 1/2WCarbonAA
R618VRS-KA3HG3R3K R 3.3 5WMetal Oxide AD
R619VRD-RM2HD682JR 6.8k 1/2WCarbonAA
R621VRS-VV3AB330JR 331WMetal Oxide AA
R622VRS-VV3DB680JR 682WMetal Oxide AA
R623VRS-VV3DB150JR 152WMetal Oxide AA
R624VRD-RA2BE101JR 100 1/8WCarbonAB
R625VRS-CY1JF184JR 180k 1/16W Metal Oxide AA
R626VRS-CY1JF472JR 4.7k 1/16W Metal Oxide AA
R628VRD-RM2HD470JR 471/2WCarbonAA
R630VRS-CY1JF100JR 101/16W Metal Oxide AA
R631VRS-CY1JF391JR 390 1/16W Metal Oxide AA
R632VRS-CY1JF273JR 27k 1/16W Metal Oxide AA
R633VRS-CY1JF102JR 1.0k 1/16W Metal Oxide AA
R635VRS-CY1JF822JR 8.2k 1/16W Metal Oxide AA
R636VRS-CY1JF223JR 22k 1/16W Metal Oxide AA
R638VRS-CY1JF103JR 10k 1/16W Metal Oxide AA
R639VRD-RA2BE101JR 100 1/8WCarbonAB
R701VRW-KQ41C3R3K R 3.3 15WCementAG
R728VRS-CY1JF272JR 2.7k 1/16W Metal Oxide AA
R750VRD-RM2HD180JR 181/2WCarbonAA
(20U200/250, 51U200/250)
R750VRS-VV3DB4R7JR 4.7 2WMetal Oxide AA
(51U500/550)
R752VRD-RA2BE682JR 6.8k 1/8WCarbonAA
R753VRS-VV3LB472JR 4.7k 3.0WMetal Oxide AB
R755VRD-RA2BE222JR 2.2k 1/8WCarbonAA
R756VRS-CY1JF152JR 1.5k 1/16W Metal Oxide AA
R757VRD-RA2BE182JR 1.8k 1/8WCarbonAA
R758VRD-RA2BE102JR 1.0k 1/8WCarbonAA
R759VRS-CY1JF102JR 1.0k 1/16W Metal Oxide AA
R760VRD-RA2BE471JR 470 1/8WCarbonAA
R761VRD-RA2BE221JR 220 1/8WCarbonAA
R763VRS-CY1JF472JR 4.7k 1/16W Metal Oxide AA
R764VRS-CY1JF272JR 2.7k 1/16W Metal Oxide AA
å R766VRG-PE2EE120JR 121/4WFuse Resistor
R801VRS-CY1JF101JR 100 1/16W Metal Oxide AA
R802VRS-CY1JF101JR 100 1/16W Metal Oxide AA
R803VRS-CY1JF101JR 100 1/16W Metal Oxide AA
R804VRS-CY1JF101JR 100 1/16W Metal Oxide AA
R806VRD-RA2BE123JR 12k 1/8WCarbonAA
R807VRS-CY1JF103JR 10k 1/16W Metal Oxide AA
R808VRS-CY1JF221JR 220 1/16W Metal Oxide AA
R809VRD-RA2BE224JR 220k 1/8WCarbonAA
R811VRS-CY1JF563JR 56k 1/16W Metal Oxide AA
R812VRS-CY1JF101JR 100 1/16W Metal Oxide AA
R813VRS-CY1JF101JR 100 1/16W Metal Oxide AA
R1001 VRD-RA2BE221JR 220 1/8WCarbonAA
R1002 VRS-CY1JF331JR 330 1/16W Metal Oxide AA
R1003 VRS-CY1JF471JR 470 1/16W Metal Oxide AA
R1004 VRS-CY1JF821JR 820 1/16W Metal Oxide AA
R1005 VRD-RA2BE181JR 180 1/8WCarbonAA
R1011 VRS-CY1JF820JR 821/16W Metal Oxide AA
R1012 VRS-CY1JF391JR 390 1/16W Metal Oxide AA
R1013 VRS-CY1JF101JR 100 1/16W Metal Oxide AA
R1014 VRD-RA2BE101JR 100 1/8WCarbonAB
R1015 VRS-CY1JF332JR 3.3k 1/16W Metal Oxide AA
R1016 VRD-RA2BE101JR 100 1/8WCarbonAB
R1017 VRS-CY1JF332JR 3.3k 1/16W Metal Oxide AA
R1019 VRS-CY1JF472JR 4.7k 1/16W Metal Oxide AA
R1020 VRD-RA2BE101JR 100 1/8WCarbonAB
R1021 VRS-CY1JF153JR 15k 1/16W Metal Oxide AA
R1022 VRD-RA2BE101JR 100 1/8WCarbonAB
R1023 VRS-CY1JF101JR 100 1/16W Metal Oxide AA
R1024 VRS-CY1JF122JR 1.2k 1/16W Metal Oxide AA
R1025 VRS-CY1JF101JR 100 1/16W Metal Oxide AA
R1026 VRS-CY1JF224JR 220k 1/16W Metal Oxide AA
R1027 VRD-RA2BE101JR 100 1/8WCarbonAB
R1028 VRD-RA2BE101JR 100 1/8WCarbonAB
R1030 VRS-CY1JF102JR 1.0k 1/16W Metal Oxide AA
R1031 VRD-RA2BE562JR 5.6k 1/8WCarbonAA
R1032 VRS-CY1JF332JR 3.3k 1/16W Metal Oxide AA
R1033 VRD-RA2BE102JR 1.0k 1/8WCarbonAA
R1034 VRD-RA2BE101JR 100 1/8WCarbonAB
R1035 VRS-CY1JF332JR 3.3k 1/16W Metal Oxide AA
R1036 VRS-CY1JF332JR 3.3k 1/16W Metal Oxide AA
R1037 VRD-RA2BE101JR 100 1/8WCarbonAB
R1038 VRD-RA2BE101JR 100 1/8WCarbonAB
R1039 VRS-CY1JF223JR 22k 1/16W Metal Oxide AA
R1040 VRS-CY1JF101JR 100 1/16W Metal Oxide AA
R1041 VRS-CY1JF101JR 100 1/16W Metal Oxide AA
R1043 VRS-CY1JF153JR 15k 1/16W Metal Oxide AA
R1044 VRS-CY1JF153JR 15k 1/16W Metal Oxide AA
R1045 VRD-RA2BE271JR 270 1/8WCarbonAA
R1046 VRD-RA2BE101JR 100 1/8WCarbonAB
R1065 VRS-CY1JF101JR 100 1/16W Metal Oxide AA
R1067 VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ2301 VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ2306 VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ2307 VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ2310 VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ2311 VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ2312 VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ2314 VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ2315 VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ2316 VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ2318 VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ2319 VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ2320 VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ2322 VRS-CY1JF000JR 01/16W Metal Oxide AA
RJ2323 VRS-CY1JF000JR 01/16W Metal Oxide AA
R2309 VRS-CY1JF822JR 8.2k 1/16W Metal Oxide AA
R2311 VRS-CY1JF102JR 1.0k 1/16W Metal Oxide AA
R2313 VRD-RA2BE101JR 100 1/8WCarbonAB
R2314 VRD-RA2BE101JR 100 1/8WCarbonAB
R2316 VRS-CY1JF222JR 2.2k 1/16W Metal Oxide AA
R2318 VRS-CY1JF222JR 2.2k 1/16W Metal Oxide AA
R2340 VRS-CY1JF223JR 22k 1/16W Metal Oxide AA
R2341 VRS-CY1JF181JR 180 1/16W Metal Oxide AA
R2342 VRS-CY1JF183JR 18k 1/16W Metal Oxide AA
R2343 VRS-CY1JF561JR 560 1/16W Metal Oxide AA
R2344 VRS-CY1JF102JR 1.0k 1/16W Metal Oxide AA
R2345 VRS-CY1JF183JR 18k 1/16W Metal Oxide AA
R2346 VRS-CY1JF102JR 1.0k 1/16W Metal Oxide AA
R2348 VRS-CY1JF221JR 220 1/16W Metal Oxide AA
R2349 VRS-CY1JF393JR 39k 1/16W Metal Oxide AA
R2350 VRS-CY1JF152JR 1.5k 1/16W Metal Oxide AA
R2351 VRS-CY1JF102JR 1.0k 1/16W Metal Oxide AA
R2352 VRS-CY1JF823JR 82k 1/16W Metal Oxide AA
R2353 VRS-CY1JF823JR 82k 1/16W Metal Oxide AA
R2354 VRS-CY1JF225JR 2.2M1/16W Metal Oxide AA
R2355 VRS-CY1JF101JR 100 1/16W Metal Oxide AA
R2356 VRS-CY1JF102JR 1.0k 1/16W Metal Oxide AA
R2357 VRS-CY1JF122JR 1.2k 1/16W Metal Oxide AA
R2358 VRS-CY1JF392JR 3.9k 1/16W Metal Oxide AA
R2359 VRS-CY1JF151JR 150 1/16W Metal Oxide AA
R2361 VRS-CY1JF102JR 1.0k 1/16W Metal Oxide AA
R2362 VRS-CY1JF102JR 1.0k 1/16W Metal Oxide AA
R2401 VRS-CY1JF101JR 100 1/16W Metal Oxide AA
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.
D SEM P SYI TQ0979-S
Sep. 2000 Printed in Japan
NA. KG
SHARP CORPORATION
A V Systems Group
Quality & Reliability Control Center
Yaita, Tochigi 329-2193, Japan
54
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