Daewoo 2594ST, 2896ST, 2898ST, 28G2ST, 25G1ST, 29G1ST stereo color television Service Manual
The Daewoo 2594ST, 2896ST, 2898ST, 28G2ST, 25G1ST, and 29G1ST stereo color televisions are equipped with a variety of features, including PAL, SECAM, and NTSC compatibility, a 21-pin EURO-SCART jack with AV input, TV output, and RGB input, a 21-pin EURO-SCART jack with AV input and S-VHS input, RCA type AV input jack, a headphone jack, and a remote controller.
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Service Manual
59 / 66 Cm STEREO Colour Television
CHASSIS : CP-775
MODEL :2594ST / 2896ST
2898ST / 28G2ST
25G1ST / 29G1ST
Specifications
CRT
System
Main Voltage
Power Consumption
25” : A59EAK071X11 (PHILIPS)
28” : A66EAK071X11 (PHILIPS)
TF : PAL - B/G for West Europe, NTSC-3.58 / 4.43 (Play back)
TA : PAL - B/G, SECAM-L/L’ for France, NTSC-3.58 / 4.43 (Play back)
TU : PAL- I for U.K, NTSC-3.58 / 4.43 (Play back)
TK : PAL/SECAM - B/G, D/K, NTSC-3.58/4.43(play back) for East Europe & CIS
230V AC, 50Hz
Stand-by mode : 10 Watts
Normal operating mode : 25” = 75 Watts
28” = 75 Watts
5 + 5 Watts, 10 % THD at RF 60 % mod. (1 )
12W 4 ohm x 2 EA
75 ohm unbalanced input
Sound output
Speaker
Antenna
Impedance
Tuning system
Tuner
VS( voltage synthesis ) tuning
3303KHC (TF, TA, TK, TI Model)
BAND I : CH2 - CH4
BAND III : CH5 - CH12
CABLE BAND : S1’ - S3’ , S1 - S20
HYPER BAND : S21 - S41
BAND IV, V : CH21 - CH69
DT2-IV17D (TU Model )
BAND IV, V : CH21 - CH69
70 programs Number of program
Aux. Terminal
Remote controller
Teletext
OSD language
21 pin EURO-SCART jack ( AV input, TV output, RGB input )
21 pin EURO-SCART jack ( AV input, S-VHS input )
RCA type AV input jack
Headphone jack (3.5 mm )
R-28B03 or R-35D05 with 2 “AA” type batteries
8 pages memory TOP & FLOF
- West option :English, German/Dutch/Flemish, French, Italian,
Spanish/Portuguese, Swedish/Finnish/Danish, Czech/Slovak
- East option : Polish, Czech/Slovak, Rumanian, Hungarian, Servo-croat,
German/Dutch/Flemish, French, Italian
- Turkish option : Turkish, English, German/Dutch/Flemish, French,
Italian, Spanish/Portuguese, Swedish/Finnish/Danish
- Cyrillic option: Russian, Lettish/Lithuanian, Estonian, Ukranian,
Czech/Slovak, Servo-croat, English
-East,West,Turkish Version : English,French,German,Italian,Spanish
-Cyrillic Version : Russian, English, German
1
21 PIN EURO-SCART
PIN Signal Designation
13
14
15
16
9
10
11
12
17
18
19
20
21
7
8
5
6
3
4
1
2
Audio Out(linked with 3)
Audio In(linked with 6)
Audio Out(linked with 1)
Audio Earth
Blue Earth
Audio in (linked with 2)
Blue in
Slow(Function) Switching
Green Earth
NC
Green In
NC
Red Earth
NC
Red In, C In
Rapid(Blanking) switching
Video Earth
Rapid Blanking Earth
Video Out
Video In, Y In
Common Earth
Matching Value
0.5Vrms,lmp<1 (RF 60% MOD)
0.5Vrms,lmp>10
0.5Vrms,lmp<1 (RF 60% MOD)
0.5Vrms,lmp>10
0.7Vpp
3 ,lmp75
TV:0-2V,PERI:9.5-12V,lmp>10
0.7Vpp
3 ,lmp75
0.7Vpp
3 ,lmp75
Logic 0:0-0.4V,Logic 1:1-3V,Imp 75
1Vpp 3 ,lmp75
1Vpp 3 ,lmp75
20 18 16 14 12 10 8 6 4 2
21 19 17 15 13 11 9 7 5 3 1
2
Safety Instruction
WARNING: Only competent service personnel may carry out work involving the testing or repair of this equipment.
X-RAY RADIATION PRECAUTION
1. Excessive high voltage can produce potentially hazardous X-RAY RADIATION.To avoid such hazards, the high voltage must not exceed the specified limit. The nominal value of the high voltage of this receiver is 26 at max beam current. The high voltage must not, under any circumstances, exceed 29.5
(25"), 30 (28").
Each time a receiver requires servicing, the high voltage should be checked. It is important to use an accurate and reliable high voltage meter.
2. The only source of X-RAY Radiation in this TV receiver is the picture tube.For continued X-RAY
RADIATION protection,the replacement tube must be exactly the same type tube as specified in the parts list.
SAFETY PRECAUTION
1. Potentials of high voltage are present when this receiver is operating. Operation of the receiver outside the cabinet or with the back board removed involves a shock hazard from the receiver.
1) Servicing should not be attempted by anyone who is not thoroughly familiar with the precautions necessary when working on highvoltage equipment.
2) Discharge the high potential of the picture tube before handling the tube. The picture tube is highly evacuated and if broken, glass fragments will be violently expelled.
2. If any Fuse in this TV receiver is blown, replace it with the FUSE specified in the Replacement
Parts List.
3. When replacing a high wattage resistor(oxide metal film resistor)in circuit board, keep the resistor 10mm away from circuit board.
4. Keep wires away from high voltage or high temperature components.
5. This receiver must operate under AC230 volts,
50Hz. NEVER connect to DC supply or any other power or frequency.
PRODUCT SAFETY NOTICE
Many electrical and mechanical parts in this have special safety-related characteristics. These characteristics are often passed unnoticed by a visual inspection and the X-RAY RADIATION protection afforded by them cannot necessarily be obtained by using replacement components rated for higher voltage,wattage,etc. Replacement parts which have these special safety characteristics are identified in this manual and its supplements, electrical components having such features are identified by designated symbol on the parts list.
Before replacing any of these components, read the parts list in this manual carefully. The use of substitute replacement parts which do not have the same safety characteristics as specified in the parts list may create X-RAY Radiation.
3
Alignment Instructions
1. AFT
1.1 Standard B/G,D/K,I and L
1) Set a Signal Generator with
- RF FREQUENCY = 38.9 MHz,
- RF OUTPUT LEVEL = 80 5 dBuV
- System = PAL / SECAM - B/G, D/K, I
2) Connect the Signal Generator RF Output to P101 (Tuner IF Output).
There must be no signal input to the tuner.
3) Press the “AFT” KEY and wait until the TV screen display “AFT OK”.
1.2 Standard SECAM-L’ (France VHF-Low)
Above mentioned “1.1” adjustment has to be done in advance.
1) Set a Signal Generator with
- RF FREQUENCY = 34.5 MHz,
- RF OUTPUT LEVEL = 80 5 dBuV
- System = SECAM - L’
2) Connect the Signal Generator RF Output to P101 (Tuner IF Output).
There must be no signal input to the tuner.
3) Press the “L’ AFT” KEY and wait until the TV screen display “L AFT OK”.
2. AGC
1) Set a Pattern Generator with RF LEVEL 63 2 dBuV .
2) Connect a OSCILLOSCOPE PROBE to P101 (TUNER AGC INPUT).
3) Adjust AGC UP/DOWN KEY the voltage drop 1V dc over below its maximum voltage.
Alternative Method
1) Set a Pattern Generator with
- RF LEVEL 80 5 dBuV
- PAL CROSSHATCH
( without SOUND CARRIER )
2) Connect a OSCILLOSCOPE
( Bandwidth 100MHz ) PROBE to P101 (TUNER IF OUTPUT).
3) Use AGC UP/DOWN KEY to obtain an envelop amplitude 200 + 50 mVp-p.
3. SCREEN
1) Apply a COLOR BAR pattern signal.
2) Set the CONTRAST, BRIGHTNESS to MAX, COLOR to MIN.
3) Set the R,G,B LEVEL to CENTER (31/63) with R,G,B UP/DOWN KEY.
4) Connect a OSCILLOSCOPE PROBE to P906 ( CRT CATHOD R, G, B ).
5) Adjust the SCREEN VOLUME on FBT such that the highest black level voltage
140 5Vdc.
Black level
140 5Vdc
GND
5
4. WHITE BALANCE
1) Set the TV to NOR I mode.
2) Set the R,G,B LEVEL to CENTER with R,G,B UP/DOWN KEY .
3) Adjust the R,G,B UP/DOWN KEY of the other color which did not appear on the screen to obtain WHITE.
5. FOCUS
1) Apply a RETMA PATTERN signal.
2) Adjust the FOCUS VOLUME on FBT to obtain optimal resolution.
6. GEOMETRY
6.1 VERTICAL CENTER
1) Set the TV to NOR I mode.
2) Pressing the V-SIZE UP/DOWN KEY, the lower half of the screen is blanked.
3) Adjust the border line of blanked picture coincident with the mechanical center marks of the CRT using the V-SIZE UP/DOWN KEY.
6.2 VERTICAL SIZE
The VERTICAL CENTER adjustment has to be done in advance.
1) Apply a RETMA PATTERN signal.
2) Set the TV to NOR I mode.
3) Adjust the upper part of the picture with the V-SIZE UP/DOWN keys.
6.3 VERTICAL SLOPE
The VERTICAL SIZE adjustment has to be done in advance.
1) Apply a RETMA PATTERN signal.
2) Adjust the lower part of the picture with the V-SLOPE UP/DOWN keys.
6.4 VERTICAL S-CORRECTION
1) Apply a CROSSHATCH PATTERN signal.
2) Adjust the S-COR UP/DOWN KEY to obtain the same distance between horizontal lines.
6.5 HORIZONTAL CENTER
1) Apply a RETMA PATTERN signal.
2) Adjust picture centering with CENTER
LEFT/RIGHT keys.
6
7. EW
7.1 WIDTH
1) Apply a RETMA PATTERN signal.
2) Pressing the EW KEY, the WIDTH OSD appear in the screen.
3) Adjust the over to make a perfect circle with VOL-UP/DOWN KEY.
7.2 PARA
1) Apply a CROSSHATCH PATTERN signal.
2) Pressing the EW KEY, the PARA OSD appear in the screen.
3) Adjust the vertical line to straight with VOL-UP/DOWN KEY.
7.3 CORNER
1) Apply a CROSSHATCH PATTERN signal.
2) Pressing the EW KEY, the CORNER OSD appear in the screen.
3) Adjust the vertical line to straight with VOL-UP/DOWN KEY.
7.4 TRAPI
1) Apply a CROSSHATCH PATTERN signal.
2) Pressing the EW KEY, the TRAPI OSD appear in the screen.
3) Adjust the vertical line to straight with VOL-UP/DOWN KEY.
7
If EEPROM (I702) has been changed ;
- Option data has to be changed and
- all alignment function has to be readjusted .
TUNER
LANGAGE
W/B
AGC
V-CENTER
V-SIZE
V-SLOPE
S-COR
H-CENTER
WIDTH
PARA
CORNER
TRAPI
The initial state of adjustment are as follows;
28TAF
3303KHC
French
RGB = 32
11
30
52
27
15
43
63
36
30
29
28TUF
DT21V17D
English
32
9
37
54
28
15
42
63
38
28
28
28TFF
3303KHC
English
32
10
30
52
27
15
42
62
37
30
29
Service Remocon
P O W E R
SVC
NORMAL
EW
OPTION
PR
VOL VOL
PR
SEARCH
SEARCH
STOP EFFECT
MODE
WOOFER
TREBLE
MIN MAX
BASS
MIN
BAL
MAX
L R
CH S
E
T S
Y
STEM MAX
CONT
MIN
MAX MAX
BRI COL
MIN MIN
AFT AFT-L'
AUTO
TEST AV TTX
+
V- CENTER
+
V- SIZE
-
+
V- SLOPE
-
+
S-COR.
-
+
SUB BRI.
-
L
H-CENTER
R +
R
+
G
-
+
B
-
AGC
+
R-30SVC
8
SIF ADJUSTMENT
1. APPARATUS CONNECTION & PRESETTING
* CONNECTION
1) Connect H-out of LSW-480 to X-axis of the oscilloscope and V-out of LSW-480 to Y-axis of the oscilloscope.
2) Connect the sweep signal output to TP1.
3) Set ATTENUATOR of LSW-480 to 20dB.
4) Supply 12V D.C. voltage(B+) to TP3.
5) Supply 3V D.C. voltage(B+) to TP4.
6) Connect the test point of LSW-480 to TP2.
7) Adjust L109(AFT COIL) so that the P marker point is located on the reference level.
* PRESET
1) Oscilloscope Scaling a) Put the scale of X and Y of the oscilloscope to D.C. level b) Set the horizontal time display to X-Y.
c) Put the horizontal axis (x) to 1V / div. and the vertical axis (Y) to 2V / div.
2) LSW-480 MARKER FREQ. SETTING fp(n+1)
31.9
fs
33.4
fc
34.47
fp-2
36.9
fp
38.9
fs(n-1)
40.4
PIF SWEEP MAKER (LSW-480)
GENERATOR
H-OUTPUT
OUTPUT
V-OUTPUT
FROM TP
TP1 (TUNER IF)
TP3 (TUNER B+)
TP2 (I603 #12)
TP3 (I603 #3)
DC POWER SUPPLY
(+12V)
DC POWER SUPPLY
(+3V)
- Connection For SIF Adjustment -
OSCILLOSCOPE
X
Y
Y
P
(38.9 MHZ)
X
9
IC Description
DW5255S*(Micro-controller & West/East Teletext Decoder)
(1) General Description
The TDA5255 contains a slicer for VPS and TTX, an accelerating acquisition hardware module, a display generator for “LEVEL 1” TTX data and a 8 bit u-controller running at 333 nsec cycle time.
The controller with dedicated hardware guarantees flexibility, does most of the internal processing of TTX acquisition , transfers data to/from the external memory interface and receives/transmits data via I2C and
UART user interfaces.
The Slicer combined with dedicated hardware stores TTX data in a VBI 1Kbyte buffer.
The u-controller firmware does the total acquisition task ( hamming- and parity -checks, page search and evaluation of header control bits) once per field.
(2) Feature
• Acquisition:
- feature selection via special function register
- simultaneous reception of TTX and VPS
- fixed framing code for VPS and TTX
- programmable framing code window for TTX
- Acquisition during VBI
- direct access to VBI RAM buffer
- Acquisition of packets x/26, x/27, 8/30 (firmware)
- assistance of all relevant checks (firmware)
- 1-bit framing-code error tolerance (switchable)
• . Display:
- features selectable via special function register
- 50/60 Hz display
- level 1 serial attribute display pages
- blanking and contrast reduction output
- 8 direct addressable display pages
- 12 x 10 character matrix
- 96 character ROM (standard G0 character set)
- 143 national option characters for 11 languages
- 288 characters for X/26 display
- 64 block mosaic graphic characters
- 32 free addressable characters for OSD in expanded character ROM + 32 inside OSD box
- double height (TOP/BOTTOM)
- conceal/reveal
- transparent foreground/background -inside/outside of a box
- cursor (colour changes from foreground to background colour)
- flash (flash rate 1s)
- programmable horizontal und vertical sync delay
- hardware assisted fast display page erase
- full screen background colour in outer screen
• Synchronization: display synchronization to sandcastle or Horizontal Sync (HS) and Vertical Sync (VS) with startstop-oscillator or display synchronization to sandcastle or Horizontal Sync and Vertical Sync with external clock independent clock systems for acquisition, display and controller
• Controller:
- 8 bit configuration
- 18 MHz internal clock
- 0.33 us instruction cycle
- eight 16-bit data pointer registers (DPTR)
10
- two 16-bit timers
- watchdog timer
- serial interface (UART)
- 256 bytes on-chip RAM
- 1 Kbyte on-chip extended RAM (access via MOVX)
- 8 Kbyte on-chip ACQ-buffer-RAM (access via MOVX)
- 6 channel 8-bit pulse width modulation unit
- 2 channel 14-bit pulse width modulation unit
- 4 multiplexed ADC inputs with 8-bit resolution
- one 8-bit I/O port with open drain output and optional I2C emulation
- two 8-bit multifunctional I/O ports
- one 4-bit port working as digital or analog inputs
- one 2-bit I/O port with optional address latch enable function
• P-SDIP 52 package
• 5 V supply voltage
(3) Block Diagram
11
Pin
1
2
3
4
5
6
7
8
9
P3.1
Name
P0.7/Open Drain
P0.6/Open Drain
P0.5/Open Drain
P0.4/Open Drain
P0.3/Open Drain
P0.2/Open Drain
P0.1/Open Drain
P0.0/Open Drain
10 VSS
11 VCC
12 XTAL1
13 XTAL2
14 P4.0/ALE
15 RESET
16 P1.7/14BIT PWM
17 P1.6/14BIT PWM
18 P1.5/14BIT PWM
19 P1.4/14BIT PWM
20 P1.3/14BIT PWM
21 P1.2/14BIT PWM
22 P1.1/8BIT PWM
23 P1.0/8BIT PWM
VSS
VCC
OSCIN
OSCOUT
RST
VT
OPTION
F/SW
SYS
Symbol
BUSSTOP
SDA
SCL
OPTION
OPTION
OPTION
OPTION
LED
OPTION
MUTE
GND
12
Description
SECAM-L’ OUT for switching SAW filter L9461
- SECAM- L : L
- SECAM-L’ : H
I2C BUS STOP IN for Computer controlled alignment in Factory ( Active Low )
Serial data IN/OUT for I2C
Serial clock IN/OUT for I2C
#5 #6 Teletext
H H West Teletext
L H East Teletext
H L Turkish Teletext
#7 #8 #17 Tuning / Sound System
L H H B/G (2-G, NICAM)
H H H B/G, D/K (2-C, NICAM)
L L H I/I (NICAM)
H L H I (UHF only, NICAM)
H H L L/L’ B/G (2-C, NICAM)
L H L B/G L/L’ (2-C, NICAM)
LED drive OUT
- Stand-by mode : H
- Operating mode : L
( IR reception : pulse ) ground
Power Supply
Input to inverting osc. Amplifier
Output of inverting osc. Amplifier
Not Used
RESET IN (ACTIVE LOW)
TUNING VOLTAGE OUT
TUNING SYSTEM
F/SW IDENT IN for stopping OSD display in RGB mode
- H : TV /AV mode
- L : RGB mode
ATS OPTION H : ON
L : OFF
AUDIO MUTE OUT
GND
Not Used
Not Used
Pin
24 VSSA
25 FIL3
Name
VSSA
FIL3
Symbol Description
Analog GND for Slicer
PLL Loop Filter I/O for Phase Shifting
26 FIL2
27 FIL1
28 VCCA
29 IREF
FIL2
FIL1
VCCA
IREF
PLL Loop Filter I/O for TTX Slicing
PLL Loop Filter I/O for VPS Slicing
Analog Supply for Slicer
Reference Current for Slicer PLLs
30 CVBS CVBS IN
31 P2.3/8 bit ADC
32 P2.2/8 bit ADC
33 P2.1/8 bit ADC
34 P2.0/8 bit ADC
AGC
KS
S/SW
Not Used
IF AGC INPUT for Auto Tuning System
Local KEY SCAN IN
S/SW IDENT IN for Automatic switching between TV/AV mode
- H : AV / RGB mode
- L : TV mode
35 VSS VSS-OSD
36 P3.3/INT1
37 VDD VCC-OSD
38 LCIN OSCIN-OSD
39 LCOUT
40 P3.7/TXT I/O
41 P3.6/RXD
42 P3.5/T1
VSS
IR
VDD
LCIN
LCOUT
BL
BH
BU
POWER
Ground
REMOTE IR IN
Power Supply
CLOCK IN for OSD
CLOCK OUT for OSD
BAND VHF-L OUT ( Active High )
BAND VHF-H OUT ( Active High )
BAND UHF OUT ( Active High )
43 P3.4/T0
44 P3.2/INT0
45 HS/SC
46 P4.7/VS
47 R
48 G
49 B
50 BLANK
51 COR
52 P3.0 T1C2/PWM1
HSYNC
VSYNC
R
G
B
BL
COR
EVEN/ODD
POWER CONTROL OUT
Not Used
HOR. SYNC. IN (Active High)
VERT. SYNC. IN (Active High)
RED OUT
GREEN OUT
BLUE OUT
BLANK OUT
Not Used
(CONTRAST REDUCTION OUT)
EVEN/ODD OUT for non-interlacing
in TTX mode
13
CAT24C08P (E
2
PROM)
(1) Typical Features
• IC Bus compatible
• Low power CMOS Technology
• 16 Byte page write Buffer
• Self-Timed Write cycle with Auto-Clear
• 100,000 program/Erase cycles
• 100 Year Data Retention
• Optional High Endurance Device Available
(2) Description
The CAT24C08P is a 8K bit serial CMOS E
2
PROM internally organized as 1024x8bits.
The CAT 24C08P features a 16 byte page write buffer.
(3) Block Diagram
EXTERNAL
SENSE AMPS
SHIFT REGISTERS
Vcc
Vgg
SDA
D OUT
AKC
WORD ADDRESS
BUFFERS
START/STOP
LOGIC
COLUMN
DECODERS
2
XDEC 64
TEST
CONTROL
LOGIC
DATE IN STORAGE
HIGH VOLTAGE/
TIMING CONTROL
SEL
A 0
A
1
A
2
STATE COUNTERS
SLAVE
ADDRESS
COMPARATORS
(4) Pin Description
PIN SYMBOL
1-3 A0, A1, A2
4 Vss
5 SDA
6 SCL
7 TEST
8 Vcc
DESCRIPTION
Device Address lnputs
Ground
Serial Data/Address
Serial Clock
Connect to Vss
+5V Power supply
14
TDA8375A (Single chip TV Processor for Negative modulation IF )
(1) General Description
The TDA8375A is I2C-bus controlled single chip TV processors which are intended to be applied in PAL/NTSC television receiver.
The IC is mounted in a S-DIL 56 envelope.
(2) Feature
• IF
- Vision IF amplifier with high sensitivity and good figures for differential phase and gain
- PLL demodulator with high linearity offering the possibility for (single standard) intercarrier stereo audio application .
- Alignment PLL via I2C
- [TDA8375A] Multistandard IF with negative and positive modulation, switchable via I2C
• Video
- Integrated luminance delay line
- Integrated chroma trap and bandpass filters (auto calibrated)
- Asymmetrical peaking circuit in the luminance channel
- Black stretching of non standard CVBS or luminance signals
• Colour
- SECAM interface for application with SECAM add-on TDA8395.
• RGB
- RGB control (brightness, contrast, saturation)
- Black current stabilization and white point adjustment
• Input / Output
- Flexible video source select with CVBS input for the internal signal and two external video inputs(one switchable for
CVBS or Y/C).
- The output signal of the video source select is externally available ( also as CVBS when Y/C input is used).
- External audio input.
- Linear RGB input with fast blanking.
• Synchronization and Deflection
- Horizontal synchronization with two control loops and alignment free horizontal oscillator.
- Slow start and slow stop of the horizontal drive output to enable low stress start-up and switch-off from the line circuit at nominal line supply voltage.
- Vertical count-down circuit for stable behavior with provisions for non-standard signals.
- Vertical geometry control.
- Vertical drive optimized for DC coupled vertical output stages.
• Control
- Full I2C bus control, as well for customer controls as for factory alignment.
- All automatic controls have an option for forced mode.
• Power consumption
- Low power consumption (900 mW at 8.0 Volts).
• Packaging
- SDIL-56 (Shrinked Dual In Line, 56 pins).
15
(3) Block Diagram
16
No Name
1
5
6
7
8
9
2
3
4
10
SOUND IF INPUT
EXT AUDIO INPUT
VCO REF FILTER
PLL LOOP FILTER
IF VIDEO OUTPUT
BUS INPUT : SCL
BUS INPUT : SDA
BANDGAP
DECOUPLING
CHROMA INPUT
11 Y/CVBS INPUT
12 MAIN
37 POSITIVE SUPPLY
Description not used.
not used.
The IF VCO tuned circuit is applied to these pin.
Its resonance frequency must be two times the IF-frequency and in between a range of 64-120MHz.
This range is suitable for the IF standards as 33.4, 38.9, 45.75 and 58.75MHz.
The VCO frequency can be adjusted by I2C bus so a fixed coil can be used.
The PLL loopfilter is a first order filter with R=390 ohm and C = 100nF in series to ground.
The loopfilter bandwidth is 60kHz and is optimal for both fast catching and sufficient video suppression for optimal sound performance.
Sound performance can theoretically be improved by adding a small capacitor (approx.0- 4.7nF) between pin 5 and ground.
This however must be evaluated further because the normal video signal response should not be effected.
Although the video output impedance is low it is recommended to avoid high frequency current in the output due to for instance sound trap filters.
This can be achieved by means of an emitter follower at the video output with a 1 resistor in series with the base.
Serial clock line
Serial data line
The bandgap circuit provides a very stable and temperature independent reference voltage.
This reference voltage (6.7V) ensures optimal performance of the TDA8375 and is used in almost all functional circuit blocks.
The supplied C S-VHS input burst amplitude should be nominally 300mVpp
(assumed is a colour bar signal with 75% saturation and with chroma/burst ratio of 2.2/1 ). The C S-VHS input is internally clamped to 4V via 50 .
The external AC coupling capacitor with 50 forms a high pass filter.
A recommended coupling capacitor is 1 nF; the high pass filter cut off frequency is then approximately 3KHz.
The Y S-VHS signal of 1Vpp ( inclusive sync amplitude) is AC coupled to pin11.
The TDA8375 has a main supply pin 12 and a horizontal supply pin 37. Both pins have to be supplied simultaneously.
Notice that the IC has not been designed to use this pin 37 as start pin.
(pin 37 supplies the horizontal oscillator, PHI-1 and PHl-2)
(pin 12 supplies the rest of the circuits in the IC)
The nominal supply voltage is 8V. With min/max values of 7.2-8.8V.
Also in stand-by condition the IC must be supplied with 8V.
A voltage detection circuit is connected to both pins.
- pin12 if V12 <6.8V than a power on reset, POR, is generated. The Hout output is disabled immediate.
- pin37 if V37 <5.8V than the horizontal output is disabled immediate.
17
No Name
13 INT CVBS INPUT
17 EXT CVBS INPUT
14
15
16
18
22
23
24
25
26
GROUND
AUDIO OUTPUT
DECOUPLING
FILTER TUNING
BLACK CURRENT
INPUT
19 BLUE OUTPUT
20 GREEN OUTPUT
21 RED OUTPUT
RED INPUT
GREEN INPUT
BLUE INPUT
RGB INSERTION
SWITCH INPUT
27 LUMINANCE INPUT
28
V-GUARD INPUT/
BEAM CURRENT
LIMITER
LUMINANCE
OUTPUT
Description
It is recommended that the CVBS1 int and CVBS2 ext input amplitudes are
1 Vpp (inclusive sync amplitude).
This, because the noise detector switches the 1 loop to slow mode
(i.e. auto 1mode when FOA, FOB = 0,0) when noise level exceeds
100mVrms (i.e. at S/N of 20dB).
All internal circuits are connected to this ground pin 14.
not used.
Voltage variations at pin 16, which can be due to external leakage current or crosstalk from interference sources, should be less than 50mV to ensure that tuning of filters/delay cells remains correct.
For correct operation of the loop CURRENT information is supplied to the black current input pin.
The RGB outputs are supplied to the video output stages from pins 21, 20 and 19 respectively.
For nominal signals (i.e. CVBS/S-VHS, -(R-Y)/- (R-Y), TXT inputs) and for nominal control settings, then the RGB output Signal amplitudes is typically 2VBLACK_WHITE.
Vertical Guard
With this function, the correct working of the vertical deflection can be monitored. If the vertical deflection fails, the RGB outputs are blanked to prevent damage to the picture tube.
Beam current limitinq
The beam current limiting function is realised by reducing the contrast (and finally the brightness) when the beam current reaches s too high level. The circuit falls apart in two functions:
- Average beam current limiting (ABL): reacting on the average content of the picture
- Peak white limiting (PWL): reacting on high local peaks in the RGB signal.
The Rin, Gin, Bin input signals (nominal signal amplitude of 700mV) are
AC coupled to pin 23, 24 and 25 respectively.
Clamping action occurs during burstkey period.
The table below a survey is given of the three modes which can be selected with a voltage on RGB insertion switch input pin ;
Vpin26 I2C function Selected RGB signal
0.9V-3V IE1=0 RGB(internal)
IE1=1 Rin,Gin,Bin
(fast insertion on pin23,24,25)
> 4V IE1=X OSD can be inserted at the RGBout pins
An nominal input signal amplitude of 1 Vblack-white MUST be DC coupled to the luminance input pin 27.
The pin is internally AC coupled to the luminance clamp via a capacitor of
50pF; clamping action occurs during burstkey period.
The luminance output signal is approximately l V black-white with typical output impedance of 25O ohm.
18
No
29 B-Y OUTPUT
30 R-Y OUTPUT
31
32
Name
B-Y INPUT
R-Y INPUT
33 SECAM REF
OUTPUT
34 X-TAL 3.58
35 X-TAL 4.43
36 LOOP FILTER
38
BURST PHASE
DETECTOR
CVBS OUTPUT
39 BLACK PEAK
HOLD CAPACITOR
40 HOR OUTPUT
41
42
SANDCASTLE
OUTPUT/
FLYBACK INPUT
PHI-2 FILTER /
FLASH PROTECT
Description
The maximum output impedance of pins 29 and 30 is 500 when PAL/NTSC signals are identified. When SECAM is identified by the SECAM add-on and no PAL/NTSC is already identified by the ASM, then the ASM sets the
-(B-Y)/-(R-Y) output switch open (via DEMSW).
This enables the -(B-Y)/-(R-Y) outputs of the TDA8395 to be directly connected to pins 29 and 3O respectively.
The -(B-Y),-(R-Y) output signals (supplied from baseband delay line) are AC coupled, via a coupling capacitor of 10nF or greater, to the -(B-Y)/-(R-Y) inputs; both inputs are clamped during burstkey period.
The SECAM reference output is directly connected to pin l of the TDA8395 for
SECAM decoding ; it also can be used as a reference for comb filter applications.
To ensure correct operation of both:
- colour processing internal circuits,
- sync calibration internal circuits, it is only allowed to have 3.6MHz Xtals on pin34: both 4.4MHz,3.6MHz Xtals are allowed on pin 35.
If pin 35 is not used: then it is left open in application (also XA,XB=O,1 ).
One of the important aspects of the PLL is the 1oop filter connected to pin 36; it influences the dynamic performance of the loop.
The output amplitude is 1Vpp (transfer gain ratio between CVBS1int or
CVBS2ext or CVBS3ext/Ys-vhs and CVBSout is 1).
The maximum output impedance is 250 ohm.
For the correct working of the black stretcher an external time constant should be added at the black peak hold capacitor input.
This open collector output is meant to drive the horizontal output stage.
The output is active low, i.e. the line transistor should conduct during the low period of the output.
Pin 41 is a combined input/output pin.
The pin provides a three level sandcastle pulse.
Both burstkey pulse and vertical blanking pulse are always available, the line blanking pulse is only present when the external flyback pulse is fed to this pin.
The line flyback pulse, fed to this pin is used for two functions:
- input signal for the PHI-2 1oop and
- RGB line blanking. (without flyback pulse blanking occurs only during the burstkey pulse)
To ensure correct working of the delay line and SECAM add-on, the output should not be loaded with more than:
- Sandcastle input delay line TDA 4665
- Sandcastle input SECAM add-on TDA 8395
The loopfilter is a first order filter.
This pin requires a capacitor (C) only.
A flash protection becomes active when this pin is forced >6V. The horizontal drive is switched-off immediately.
Once the voltage is <6V the horizontal drive is switched-on again via the slow start procedure.
19
No
43
Name
PHI-1 FILTER
44 GROUND
Description
The loopfilter connected to pin 43 is suitable for various signal conditions as strong/weak and VCR signal.
This is achieved by switching of the loopfilter time constant by changing the
PHI-1 output current.
Via I2C bus FOA/B, different time constants can be chosen, including an automatic mode which gives optimal performance under varying conditions.
To this pin are connected the IC-substrate and horizontal output.
45
46
47
48
49
EAST-WEST DRIVE
VERT DRIVE +
VERT DRIVE -
IF INPUT
The EW drive is a current output.
The output is single-ended and is fed directly to the EW-input terminal
The vertical drive has a current output. The output is balanced which ensures a good common mode behavior with temperature and makes the output signal less sensitive for disturbances.
The PLL frequency range is 32-60MHz with corresponding VCO frequency
64-120MHz.
The IF input impedances is 2 in parallel with 3pF and matches the required load for commonly used SAW filters.
A DC coupling is allowed, so no series capacitors between SAW filter and IF input are necessary.
50
51
EHT/OVERVOLTAGE
PROTECT INPUT
VERT
SAWTOOTH
CAPACITOR
52 REFERENCE
CURRENT INPUT
53 AGC
DECOUPLING
CAPACITOR
The input range for EHT tracking is 1.2 ~ 2.8V, for a compensation of +/- 5% on vertical and/or EW.
The tracking on EW can be switched on/off by HCO.
The overvoltage protection is activated when the voltage on pin 50 exceeds
3.9V typical.
This pin requires a capacitor to ground of l00nF +/- 5%.
The optimal sawtooth amplitude is 3.5V and is determined by the external capacitor and charge current.
The sawtooth bottom-level is 2V.
This pin requires a resistor to ground.
The optimal reference current is 100 . which is determined by this resistor.
The AGC capacitor value is 2.2
and has been defined for an optimal compromise between AGC speed and tilt for all AGC modes
(negative/positive modulation).
54 TUNER AGC
OUTPUT
This output is used to control (reduce) the tuner gain for strong RF signals.
The tuner AGC is an open collector output which is acting as a variable current source to ground.
55 AUDIO not
DEEMPHASSIS
56 DECOUPLING
SOUND
DEMODULATOR
This pin requires a capacitor of 10 connected to ground.
The pin acts as a low pass filter needed for the DC feedback loop.
20
TDA4665(Base Band Delay Line)
(1) Features
• Two comb filters, using the switched-capacitor technique,for one line delay time (64
µ s)
• Adjustment free application
• No crosstalk between SECAM colour carriers
• Handles negative or positive colour-difference input signals
• Clamping of AC-coupled input signals(
±
(R-Y)and
±
(B-Y))
• VCO without external components
• 3MHz internal clock signal derived from a 6MHz VCO, line-locked by the sandcastle pulse (64
µ s line)
• Sample-and -hold circuits and low-pass filters to suppress the 3 MHz clock signal
• Addition of delayed and non-delayed output signals
• Output buffer amplifiers
• Comb filtering functions for NTSC colour-difference signals to suppress cross-colour
(2) General Description
The TDA4661 is an integrated baseband delay line circuit with one line delay. It is suitable for decoders with colour-difference signal outputs
±
(R-Y)and
±
(B-Y).
(3)Block Diagram
(4) Pin Description
SYMBOL PIN
V p2
1 n.c.
GND2 i.c.
SAND n.c.
i.c.
i.c.
6
7
8
4
5
2
3
DESCRIPTION
+5V supply voltage for digital part not connected ground for digital part (0V) internally connected sandcastle pulse input not connected internally connected internally connected
21
SYMBOL PIN
V p1
9
GND1 10
V
0
(R-Y) 11
V
0
(B-Y) 12 n.c.
13
V
1
(B-Y) 14 n.c.
15
V
1
(R-Y) 16
DESCRIPTION
+5V supply voltage for analog part ground for analog part (0V)
±
(R-Y) output signal
±
(B-Y) output signal not connected
±
(B-Y) input signal not connected
±
(R-Y) input signal
TDA8395 (Secam Decoder)
(1) Features
Fully integrated filters
Alignment free
For use with baseband delay
(2) Description
The TDA8395 is a self-calibrating,fully integrated SECAM decoder. The IC should preferably be used in conjunction with the PAL/NTSC decoder TDA8362 and with the switch capacitor baseband delay circuit TDA4665. The IC incorporates HF and LF filters, a demodulator and an identification circuit
(Iuminance is not processed in this IC).
A highly stable reference frequency is required for calibration and a two-level sandcastle pulse for blanking and burst gating.
(3) Block Diagram
V p
GND
TEST
BANDGAP
CLOCHE ref
7
100 nF 220 nF
PLL ref
8
TUNING TUNING
3 6 2
TDA8395
CVBS
16
ACC
CLOCHE
FILTER
PLL
DE-
EMPHASIS
INTERFACE CONTROL
IDENT-
IFICATION
1 f ref
/IDENT
15
SAND
(4) Pin Description
SYMBOL fp1/IDENT
TEST
Vp n.c.
n.c.
GND
CLOCHEref
PLL ref
-(R-Y)
-(B-Y) n.c.
n.c.
n.c.
n.c.
SAND
CVBS
12
13
14
15
16
8
9
10
11
6
7
4
5
PIN
1
2
3
DESCRIPTION reference frequency input/identification input test output positive supply voltage not connected not connected ground
Cloche reference filter
PLL reference
-(R-Y) output
-(B-Y) output not connected not connected not connected not connected sandcastle pulse input video (chrominance) input
OUTPUT
STAGE
9
10
–(R-Y)
–(B-Y)
22
TDA6106Q ( Video Output Amplifier )
(1) General Description
The TDA6106Q is a monolithic video output amplifier (5MHz bandwidth) in a SIL 9 MPpackage, using high-voltage
DMOS technology, and is intended to drive the cathode of CRT directly .
To obtain maximum performance, the amplifier should be used with black-current control.
(2) Feature
• Black - current measurement output for automatic black current stabilization (ABS)
• Single supply voltage of 200V
• Internal protection against positive appearing CRT flash-over discharge
• Protection against ESD
• Internal 2.5V reference circuit
• Controllable switch-off behavior
(3) Block Diagram
–
(4) Pin Description
8
9
6
7
4
5
2
3
PIN SYMBOL
1
V in
GND
I om
V dd
V oc
V of
DESCRIPTION
N.C
N.C
inverting input ground, substrate
Black-current measurement output supply voltage high
N.C
cathode output feedback/transient output
23
TDA8351 (DC-coupled vertical deflection circuit)
(1) General Description
The TDA8351 is power circuit for use in 90 and 110 color deflection systems for field frequencies of 50 to 120 Hz.
The circuit provides a DC driven vertical deflection output circuit, operating as a high efficient class G system.
(2) Feature
• High efficient fully DC-coupled vertical output bridge circuit
• Vertical fly-back switch
• Guard circuit
• Protection against : - short circuit of the output pins (7 and 4)
- short circuit of the output pins to Vp
• Temperature (thermal) protection
• High EMC immunity because of common mode inputs
• A guard signal in zoom mode.
(3) Block Diagram
(4) Pin Description
6
7
4
5
8
9
2
3
PIN
1
SYMBOL
I drive (pos)
I drive (neg)
V p
V o(b)
GND
V fb
V o(a)
V o(guard)
V I(fb)
DESCRIPTION input power stage (positive); include Ii(sb) signal bias input power stage (negative); include Ii(sb) signal bias operating supply voltage output voltage B ground input fly-back supply voltage output voltage A guard output voltage (Not used) input feedback voltage
24
STR-S5707 (Hybrid IC for a Switching Regulator)
(1) General Description
The STR-S5707 is a Hybrid IC with a built in power transistor and a separate excitation control IC, designed for converter type switching mode power supply applications.
The IC is capable of quasi-resonant mode and requires small number of external component.
(2) Feature
• Small SIP isolated package : Resin sealed type (transfer mold)
• Lower power dissipation at a lighter load
• Many protection function : - Pulse-by-pulse over current protection
- Over-voltage protection with a latch
- Thermal protection with a latch
• These protection functions are incorporated and can be latched with an external signal.
(3) Block Diagram
(4) Pin Description
7
8
9
4
5
2
3
PIN NAME
1 Collector
Ground
Base
6
SYMBOL
C
GND
B
Sink
Inhibit
Latch
SINK
Over-current OCP protection
INH
Sensing
Drive
Vin
SENS
DRIVE
VIN
DESCRIPTION
Collector of power Tr ground (Emitter of power Tr)
Base of power Tr
Base current (IS) input over-current sensing signal input input for synchronizing OFF time and latch circuit operation constant voltage control signal input
Base drive current (ID) output supply voltage for control circuit
25
Electrical Characteristics of Control Part (Ta=25 )
Description
On-state Voltage
Off-state Voltage
Operating Circuit Current
Stand-by Circuit Current
On Time
Off Time
OCP terminal Threshold Voltage
INH terminal Threshold Voltage 1
INH terminal Threshold Voltage 2
INH terminal Threshold Voltage 3
OVP Operating Voltage
Latch Circuit Sustaining Current
Latch Circuit Cancellation Voltage
MIC Thermal Shutdown
Starting Temp
Fixed Reference Voltage
Temperature Coefficient of
Reference Voltage
Terminal
9-2
9-2
9-2
9-2
6-2
8-2
8-2
8-2
9-2
9-2
9-2
7-2
7-2
Symbol
V IN(ON)
V IN(OFF)
I IN(ON)
I IN(OFF)
T ON
T OFF
V S
Rating
MIN TYP MAX
7.6 8 8.4
4.6
4.9
5.2
15 28
33
45
200
41
55
Unit
V OCP
V INH-1
V INH-2
V
V
I H
Latch
IN(OVP)
3.2
5.1
5.8
9.2
10.7
V IN(La.OFF) 2.5
3.1
Tj (TSD)
-1.12
-1 -0.88
V
0.65
0.75
0.85
V
1.4
2..0
V
V
V
A
V
125 150
500
32.0
+2.5
V
V mA
A
V mV/
Electrical Characteristics of Power Transistor Part(Trl) (Ta=25 )
Description
Collector Saturation Voltage
Collector Cutoff Current
Base-Emitter saturation voltage
DC Current Gain
Thermal Resistance
Switching Time
Terminal
1-2
1-2
3-2
1-2
1-2
Symbol
I
V h ts tf
CE(sat)
CEX
V BE(sat)
FE j-F
Rating
MIN TYP MAX
29
0.4
100
1.5
61
1.3
15
0.5
Unit
V
A
V
/W
26
TDA8138 (5.1V+12V regulator with Disable and Reset)
(1) General Description
The TDA8138 is a monolithic dual positive voltage regulator designed to provide fixed precision output voltages of
5.1V and 12V at currents up to 1A.
A internal reset cuicuit generates a reset pulse when the output 1 decrease below the regulated voltage value.
Output 2 can be disabled by TTL input.
Shot circuit and themal protections are included.
(2) Feature
• output currents up to 1A
• ixed precision Output 1 voltage 5.1V 2%
• fixed precision Output 2 voltage 12V 2%
• output 1 with Reset facility
• output 2 with Disable by TTL input
• short circuit protection at both outputs
• thermal protection
• low drop output voltage
(3) Block Diagram (4) Pin Description
6
7
4
5
8
9
2
3
PIN
1
SYMBOL DESCRIPTION
V in 1 input 1
V in 2
C e input 2
Delay capacitor
V dis
GND
RST disable ground reset n.c
V out 2
V out 1 output 2 (12V) output 1 (5.1V)
27
TDA1519B (BTL or STEREO audio amplifier)
(1) Features
Requires very few external components for Bridge Tied Load
(BTL)
Stereo or BTL application
High output power
Low offset voltage at output (important for BTL)
Fixed gain
Good ripple rejection
Mute/stand-by switch
Load dump protection
SC and DC short-circuit-safe to ground and VP
Thermally protected
Reverse polarity safe
Capability to handle high energy on outputs (VP
= 0 V)
No switch-on/switch-off plop
Protected against electrostatic discharge
Identical inputs (inverting and non-inverting)
Compatible with TDA1519A (except output power)
(2) General Description
The TDA1519B is an integrated class-B dual output amplifier in a 9-lead single in-line (SIL) plastic medium power package. The device is primarily developed for car radio applications.
(3) Block Diagram (4) Pin Description
1
60k
183 mute switch
Cm
V A
18.1 k power stage
4
PIN NAME DESCRIPTION
1 NINV non-inverting input
2 GND1 ground
3 RR supply voltage ripple rejection
4 OUT1 output 1
5 GND2 ground (substrate)
6 OUT2 output 2
7 Vp positive supply voltage
8 M/SS
9 INV mute/stand-by switch inverting input
Vp stand–by switch
V A
+
–
8 stand–by reference voltage
15k
3 x1
15k
+
+
– mute reference voltage mute switch
TDA1519B
18.1 k
183
9 V A
60k
input reference voltage
+ signal ground
2 mute switch
Cm
Vp
7 power stage
5 power ground
(substrate)
6
28
MSP3410 (Multistandard Sound processor for NICAM & 2-Carrier
(1) Features
• Asingle-chip Multistandard Sound Pressor for applications in analog and digital TV sets
• TWO selectable analog inputs
• Automatic Gain control for analog input
• All demoudlation and filtering is performed on chip and is individually programmable
• Adjustment of volume, balance, loudness, treble, bass, base width enlargement, pseudo stereo
• Independent input selection for speaker-out and scart-out
(2) Block Diagram
29
(3) Description
• Analog Sound IF - Input Section
The input pins ANA_IN1+, ANA_IN2+ and ANN_IN-offer the possibility to connect two different sound IF sources to the MSP 3410. By means of bit [8] of AD_CV either terrestrial or satellite sound IF signals can be selected. The analogto-digital conversion of the preselected sound IF signal is done by a flash-converter, whose output can be used to control an analog automatic gain circuit (AGC), providing optimum level for a wide range of input levels. It is possible to switch between automatic gain control and a fixed (setable) input gain. In the optimum case, the input range of the AD converter is completely covered by the sound if source. Some combinations of SAW filters and sound IF mixer IC’s however show large picture components on their outputs. In this case filtering is recommended. It was found, that the high pass filters formed by the coupling capacitors at pins ANA_IN1+ and ANA_IN2+ are sufficient in most cases.
• Quadrature Mixers
The digital input coming from the integrated A/D converter may contain audio information at a frequency range of theoretically 0 to 9 MHz corresponding to the selected standards. By means of two programmable quadrature mixers two different audio sources, for example NICAM and FM-mono, may be shifted into baseband position. In the following the two main channels are provided to process either:
- NICAM (channel 1) and FM mono (channel 2) simultaneously or alternatively
- FM2 (channel 1) and FM1 (channel2).
Two independent digital oscillators are provided to generate two pairs of sin/cos-functions. Two programmable increments, to be divided up into Low- and High part, determine frequency of the oscillator, which corresponds to the frequency of the desired audio carrier.
• Lowpass Filtering Block for Mixed Sound IF Signals
By means of decimation filters the sampling rate is reduced. Then, data shaping and/or FM bandwidth limitation is performed by a linear phase Finite Impulse Response (FIR-filter). Just like the oscillators’ increments the filter coefficients are programmable and are written into the IC by the CCU via the control bus. Thus, for example, different
NICAM versions can easily be implemented. Two not necessarily different sets of coefficients are required, one for channel 1 (NICAM or FM2) and one for channel 2 (FM1=FM-mono).
Since both MSP channels are designed to process the German FM Stereo System with the same FIR coefficient set
(despite 7 dB power level difference of the two sound carriers), the MSP channel 1 has an internal overall gain of 6 dB. To process two carriers of identical power level these 6 dBs have to be taken into account by decreasing the values of the channel 1 coefficient set.
• CORDIC Block
The filtered sound IF signals are demodulated by transforming the incoming signals from Cartesian into polar format by means of a CORDIC processor block. On the output, the phase and amplitude is available for further processing.
AM signals are derived from the amplitude information whereas the phase information serves for FM and NICAM
(DQPSK) demodulation.
• Differentiators
FM demodulation is completed by differentiation the phase information output of the CORDIC block.
• Lowpass Filer Block for Demodulated Signals
The demodulated FM and AM signals are further lowpass filtered and decimated to a final sampling frequency of 32 kHz. The usable bandwidth of the final baseband signals is about 15 kHz.
30
• DQPSK-Decoder
In case of NICAM-mode the phase samples are decoded according the DQPSK-Coding scheme. The output of this block contains the original NICAM-bitstream, which is available at the N-Bus interface.
• NICAM-Decoder
Before any NICAM decoding can start, the MSP must lock to the NICAM frame structure by searching and synchronizing to the so-called Frame Alignment Words (FAW).
To reconstruct the original digital sound samples the NICAM-bitstream has to be descrambled, deinterleaved and rescaled. Also bit error detection and correction (concealment) is performed in this
NICAM specific block.
To facilitate the Central Control Unit CCU to switch the TV-set to the actual sound mode, control information on the NICAM mode and bit error rate are supplied by the the NICAM-Decoder, It can be read out via the I 2 C-Bus.
• Analog Section and SCART Switches
The analog input and output sections offer a wide range of switching facilities, which are shown in Fig.
To realize a TV-set with 3 pairs of SCART-inputs and two pairs of SCART-outputs no external switching hardware is required.
The switches are controlled by the ACB bits defined in the audio processing interface (see chapter
“programming the audio processing part”).
If the MSP 3410 is switched off by first pulling STANDBYQ low and then disconnecting the 5V but keeping the 8V power supply (‘Standby’-mode), the switches S1, S2 and S3 maintain their position and function.
This facilitates the copy from selected SCART-inputs to SCART-outputs in the TV-sets standby mode.
Fig. SCART-Switching Facilities Bold lines determine the default configuration
31
In case of power-on start or starting from standby, the IC switches automatically to the default configuration, shown in the figure above. This action takes place after the first I
2
C transmission into the
DFP part. By transmitting the ACB register first, the default setting mode can be changed.
• MSP 3410 Audio Baseband Processing
By means of the DFP processor all audio baseband functions are performed by digital signal processing
(DSP). The DSP functions are grouped into three processing parts: Input preprocessing, channel selection and channel postprocessing.
The input preprocessing is intended to prepare the various signals of all input sources in order to form a standardized signal at the input to the channel selector. The signals can be adjusted in volume, are processed with the appropriate deemphasis and are dematrixed if necessary.
Having prepared the signals that way, the channel selector makes it possible to distribute all possible source signals to the desired output channels.
Of special importance is the ability to route in an external coprocessor for special effects like graphic equalizer, surround processing and sound field processing. Routing can be done with each input source and output channel via the I
2
S inputs and outputs.
All input and output signals can be processed simultaneously with the exception that FM2 cannot be processed at the same time as NICAM. Note that the NICAM input signals are only available in the MSP
3410 version. While processing the adaptive deemphasis, no dual carrier stereo (German or Korean) or
NICAM processing is possible. Identification values are not valid either.
• Dual Carrier FM Stereo/Bilingual Detection
In the German and Korean TV standard, audio information can be transmitted in three modes: Mono, stereo or bilingual. To obtain information about the current audio operation mode, the MSP 3410 detects the so-called identification signal. Information is supplied via the Stereo Detection Register to an external
CCU.
32
(4) Pin Description
PIN PIN NAME
S_DA_IN
S_ID
S_CL
DVSUP
DVSS
S_DA_OUT
FRAME
N_CL
N_DA
RESETQ
DACA_R
DACA_L
VREF2
DACM_R
DACM_L
TESTIO2
AUD_CL_OUT
CW_CL
CW_DA
D_CTR_OUT1
D_CRT_OUT0
ADR_SEL
STANDBYQ
D_CTR_IN 0
I 2 C_CL
I 2 C_DA
I 2 S_CL
I 2 S_WS
I 2 S_DA_OUT
I 2 S_DA_IN
C_DACS_R
C_DACS_L
SC2_OUT_R
SC2_OUT_L
VREF1
SC1_OUT_R
SC1_OUT_L
CAPL_A
AHVSUP
CAPL_M
29
30
31
32
25
26
27
28
21
22
23
24
17
18
19
20
37
38
39
40
33
34
35
36
13
14
15
16
9
10
11
12
7
8
5
6
3
4
1
2
DESCRIPTION
Audio clock output
Pay-TV control clock
Pay-TV control data
Digital control output 1
Digital control output 0
Control bus address select
Standby (low-active)
For future use
I 2 C clock
I 2 C clock
I 2 S clock
I 2 S wordstrobe
I 2 S data output
I 2 S data input
SBUS data input
SBUS ident
SBUS clock
Digital power supply +5V
Digital ground
SBUS data output (FM/NICAM-test)
NBUS frame
NBUS clock
NBUS data
Power-on-reset
Analog output AUX, right
Analog output AUX, left
Reference ground2 high voltage part
Analog output MAIN, right
Analog output MAIN, left
Test pin 2
SCART output capacitor to ground
SCART output capacitor to ground
SCART output2, right
SCART output2, left
Reference ground1 high voltage part
SCART output, right
SCART output, left
Volume capacitor AUX
Analog power supply 8V
Volume capacitor MAIN
33
61
62
63
64
PIN PIN NAME
53
54
55
56
49
50
51
52
57
58
59
60
45
46
47
48
41
42
43
44
AHVSS
AGNDC
PDMC1
PDMC2
BAGNDI
SC3_IN_L
SC2_IN_R
ASG2
SC2_IN_L
SC2_IN_R
ASG1
SC1_IN_L
SC1_IN_R
VREFTOP
MONO_IN
AVSS
AVSUP
ANA_IN1+
ANA_IN1-
ANA_IN2+
TESTIO1
XTAL_IN
XTAL_OUT
DMA_SYNC
DESCRIPTION
Analog ground
Analog reference voltage high voltage part
Capacitor to BAGNDI
Capacitor to BAGNDI
Buffered AGNDC
Scart input3 in, left
Scart input3 in, right
Analog Shield Ground2
Scart input2 in, left
Scart input2 in, right
Analog Shield Ground1
Scart input1 in, left
Scart input1 in, right
Reference voltage IF A/D converter
Mono input
Analog ground
Analog power supply +5V
IF input1
IF common
IF input (if ANA_IN1+is used only, connect to
AVSS with 50pF Capacitor
Test pin1
Crystal oscillator
Crystal oscillator
DMAC-sync: signal
34
TDA4445B (Quasi Parallel Sound Processor)
(1) Features
• Very high input sensitivity
• Excellent signal to noise ratio
• Fast averaged AGC
• IF amplifier can be switched off for VTR mode
• Output signal stabilized against supply voltage variations
• Very few external components
• Targeting bistandard applications
• Low AM distortion
(2) General Description
The TDA4445B is quasi parallel sound processor with quadrature intercarrier demodulator.
(3)Block Diagram
(4)Pin Description
PIN
1, 16
3
8, 9
11
12
13
2,4,7,10
14,15
5
6
DESCRIPTION
IF input
IF AGC time constant
Tuned circuit
Supply voltage
Sound-IF-output
Ground not be connected
Average capacitor
AF output
35
GMS30112-R098 (4-bit Single Chip Microcomputer for Remote control)
(1) General Description
The GMS30112-R098 is 4-bit single chip CMOS microcomputer.
(2) Feature
• program memory : 1024 bytes
• data memory : 32 x 4 bits
• 43 types of instruction set
• 3 levels of subroutine nesting
• 1 bit output port for a large current (REMOUT signal)
• operating frequency : 300kHz - 1 MHz
• instruction cycle : 12.5 usec @ 480kHz
• CMOS process ( single 3.0 V power supply )
• stop mode (through internal instruction)
• released stop mode by key input (masked option)
• built in capacitor for ceramic oscillation circuit (masked option)
• built in a watch dog timer(WDT)
• low operating voltage (2.0 V to 4.0 V)
(3) Block Diagram
36
(4) Pin Description
PIN
1,2,3,4
5,6,7,8,9,10
SYMBOL
K0,K1,K2,K3
D0,D1,D2,D3,D4,D5
11
12
13
14
15
16
17,18,19,20
REMOUT
OSC 2
OSC 1
Vdd
RESET
GND
R0,R1,R2,R3
DESCRIPTION
4 bit input port with built in pull up resistor
10 bit output port which can be set or reset pin by pin independently.
The output structure is N-channel open drain.
remote control signal output port which has high current driving capability oscillator output oscillator input
2-4V power supply reset signal input which is a low active ground
4 bit programmable I/O port
37
IC DC Voltage charts
Input signal PAL/CH5-Video : 8 step colour bar (87% AM)
Audio : 1 KHz sinewave (60% FM)
User’s control condition
Line voltage
Contrast, Brightness, Colour, Volume Controls-max.
AC 230V, 50Hz
All the voltage in each point are measured with Multimeter
1. TDA 8375A (I501)
Pin No.
V(DC)
1
0
2
0
Pin No.
V(DC)
11
3.5
Pin No.
V(DC)
21
4
12
8
22
1.9
Pin No.
V(DC)
31
4
Pin No.
V(DC)
Pin No.
V(DC)
41
0.5
51
3.8
32
4
42
4.5
52
3.9
23
3.5
33
1.6
3
3.6
13
4
43
4
53
3
25
3.5
35
2.6
5
2.7
15
3.4
45
0.5
55
3.5
24
3.5
34
2.6
4
3.6
14
0
44
0
54
3
26
0.3
36
4.9
6
3.3
16
3.6
46
2.2
56
3.8
27
2.8
37
8
7
3.7
17
3.5
47
2.2
29
1.8
39
4
9
6.6
19
3.8
49
4
28
2.8
38
8
8
3.4
18
5.1
48
4
30
1.8
40
1.5
10
4
20
3.9
50
1.7
2. DW 5255S (I701)
Pin No.
V(DC)
1
0
2
5
Pin No.
V(DC)
11
5
Pin No.
V(DC)
21
5
12
2.6
22
5
3
3.4
13
2.6
23
5
4
3.6
14
5
24
0
15
5
5
5
25
2.6
6
5
16
4.1
26
2.6
17
0
7
5
27
2.6
18
5
8
5
28
5
19
5
9
0
29
1.5
10
0
20
0
30
1.5
38
Pin No.
V(DC)
31
0.5
Pin No.
V(DC)
41
0
Pin No.
V(DC)
51
0
32
2.5
42
0
52
0
33
5
43
4.7
34
0
44
5
35
0
45
0.4
36
5
46
1.3
37
5
47
0
38
2.7
48
0
39
2.8
49
0
40
3.2
50
0
3. TDA 4665 (I503)
Pin No.
V(DC)
1
5
2
0
Pin No.
V(DC)
11
2.9
12
2.9
3
0
13
0
4
0
14
1.3
5
0.6
15
0
6
0
16
1.3
7
0.3
8
0
9
5
10
0
4. TDA 4445B (I603)
Pin No.
V(DC)
1
4.5
2
0
Pin No.
V(DC)
11
12
12
5.3
3
2.5
13
0
4
0
14
0
5
4
15
0
6
4
16
4.5
7
0
8
4.7
9
4.7
10
0
5. TDA 4445B (I602)
Pin No.
V(DC)
1
4.5
2
0
Pin No.
V(DC)
11
12
12
3.7
3
2.6
13
0
4
0
14
0
5
4
15
0
6
4
16
4.5
7
0
8
4.8
9
4.8
10
0
39
6. TDA 8395 (I502)
Pin No.
V(DC)
1
1.6
2
1.2
Pin No.
V(DC)
11
0
12
0
3
8
13
0
4
0
14
0
5
0
15
0.5
6
0
16
3.4
7
3.3
8
4.3
9
1.7
10
1.7
7. TDA 8138 (I802)
Pin No.
V(DC)
1
12
2
4.5
3
3
4
4.5
5
0
6
5
7
0
8
12
9
5
8. TDA 8351 (I301)
Pin No.
V(DC)
1
2.3
2
2.3
3
16
4
8.3
5
0
6
4.6
7
8.3
8
0.6
9
7.1
9. TDA 1519B (I601)
Pin No.
V(DC)
1
1.9
2
0
3
6.4
4
6.4
5
0
6
6.5
7
13.3
8
12.7
9
1.9
10. MSP 3410 (I602)
Pin No.
V(DC)
1
0
2
0
Pin No.
V(DC)
11
2.5
Pin No.
V(DC)
21
0
12
2.5
22
2.5
Pin No.
V(DC)
31
3.8
32
3.8
24
5
34
3.8
4
0
14
2.5
23
0.5
33
3.8
3
0
13
2.5
26
0.1
36
3.8
6
0
16
4.9
25
0.1
35
0
5
0
15
2.5
28
1.5
38
7.1
8
0
18
4.9
27
0
37
3.8
7
4.9
17
3.8
29
1.7
39
8
9
3.6
19
0
30
0
40
6.2
10
3.4
20
3.8
40
Pin No.
V(DC)
41
0
Pin No.
V(DC)
51
0
Pin No.
V(DC)
61
0
42
3.7
52
3.8
62
2.5
43
3.8
53
3.8
63
2.5
44
3.8
54
2.7
64
0.1
45
3.8
55
4
46
3.8
56
0
47
3.8
57
5
48
0
58
1.5
49
3.8
59
1.5
50
3.8
60
0.1
41
Circuit Description
Vision IF amplifier, AFC, video demodulator
The IF signal from the tuner is fed through a SAW filter to the differential IF input (pin 48 and 49).
The first IF stage consists of 3 AC-coupled amplifiers with a total gain control range of over 66 dB.
The reference carrier for the video demodulator is obtained by a PLL carrier regenerator
(eliminating notch filter compromises, as in reference tuned circuits for passive carrier regeneration).
Only an oscillator coil is needed( pin 3 and 4) that can be aligned via l2C-bus to the double IF frequency.
The AFC information is derived from the VCO control voltage of the IF-PLL and can be read via I2C-bus.
Bit AFB toggles when the picture carrier is exactly at the desired IF frequency (= half the aligned IF-PLL frequency).
AFA is active in a window around this point.
For fast search-tuning applications this window can be increased by a factor 3 (AFW bit).
Tuner A.G.C.
The automatic gain control (A.G.C.) circuit operates on top sync level at negative modulated signals or on peak white level at positive modulation, selected by MOD bit.
The tuner A.G.C. is controlled via pin 54.
The tuner A.G.C. take over point (T.O.P.) can be set over a wide range: 0.8 mVrms .. 80 mVrms
IF input signal amplitude.
The tuner AGC output may have to operate above Vcc of TDA8375A.
Therefore pin 54 is an open collector output, that can operate from 0.3 up to Vcc+ 1 Volt
(at > 2 mA sink current)
Source select switch
TDA8375A input switch can select one of the following sources ; pin 13 front-end : CVBS l int pin17 : CVBS 2 ext pin 11.pinlO : Y (S-VHS), C (S-VHS)
Selected signal is available at the CVBS output pin 38, in case of Y/C input Y+C are added.
It drive teletext and the TDA8395 SECAM add-on.
For S-VHS applications, the Y,C input can be selected, independent of the CVBS source switch.
TDA8375A Y,C inputs are selected, while the source switch outputs CVBS l int or CVBS 2 ext on CVBS out.
Horizontal synchronization and protection
The synchronization separator adapts its slicing level in the middle between top-sync and black level of the CVBS signal.
The separated synchronization pulses are fed to the first phase detector and to the coincidence detector.
The -1 loop gain is determined by the components at pin 43 (C+RC).
The coincidence detector detects whether the horizontal line oscillator is synchronized to the incoming video.
The line oscillator is a VCO-type, running at twice the line frequency.
It is calibrated with the X-tal oscillator frequency of the colour decoder and has a maximum deviation of 2% of the nominal frequency, so no alignment is-needed.
Calibration is done at start up( the TDA8375A must first know what colour X-tals are connected, bits XA and XB) and after synchronization loss ( -1 coincidence detector “Sync Locked” bit SL).
The second phase detector -2 locks the phase of the horizontal driver pulses at output pin 40 to the horizontal flyback pulse at input pin 41 .
This compensates for the storage time of the horizontal deflection transistor.
The - 2 loop filter (C) is externally connected to pin 42.
The horizontal phase can be given a static off set via I2C-but (HSH “horizontal shift”)
A dynamic correction is possible by current feedback into the - 2 loop filter capacitor.
To protect the horizontal deflection transistor, the ho rizontal drive is switched off immediately when a power
42
failure ( “ Power-On Reset “ bit POR ) is detected.
The power failure may have corrupted the contents of the internal data registers, so the TDA8375A should be started up again.
The TDA8375A has a separate supply input (pin 37) that only used as a clean supply voltage for thehorizontal oscillator circuits.
Vertical synchronization
The vertical sawtooth generator drives the vertical output.
It uses an external capacitor at pin 51 and a current reference resistor at pin 52.
The TDA8375A vertical drive has differential current outputs for DC-coupled vertical output stage, like the TDA8351 .
At TDA8351 input pins l and 2 this current is converted into a drive voltage via a resistor.
Geometry processing
With the TDA8375A is possible to implement automatic geometry alignment, because all parameters are adjusted via the I2C bus.
The deflection processor of the TDA8375A offers the following five controls;
- Horizontal shift
- Vertical slope.
- Vertical amplitude
- Vertical S-correction
- vertical shift
Colour decoder
The colour decoder contains an alignment-free X-tal oscillator, a dual killer circuit and colour difference demodulators.
Together with the TDA8395 SECAM add-on a multi standard PAL/SECAM/NTSC decoder can be built with automatic recognition.
Which standard can be decoded depends on the external Xtals used.
Two Xtal pins (34and 36) are present so normally no external switching is required.
The I.C. must be told which X-tals are connected (bits XA and XB).
This is important, because the X-tal frequency of the colour decoder is also used to calibrate many internal circuit.
The burst phase detector locks the Xtal oscillator with the chroma burst signal.
The phase detector operates during the burst key period only, to prevent disturbance of the PLL by the chroma signal.
Two gain modes provide:
- Good catching range when the PLL is not Locked.
- Low ripple voltage and good noise immunity once the PLL has locked
The killer circuit switches-off the R-Y and B-Y demodulators at very low input signal conditions (chroma burst amplitude).
A hysteresis prevents on/off switching at low, noisy signals.
Color standard
PAL4.43/SECAM + NTSC-4.43
PAL4.43/SECAM + NTSC-M pin34 none
3.58
pin35
4.43
4.43
XA
1
1
XB
0
1
Integrated video filters
The TDA8375A has alignment-free internal luminance delay, chroma bandpass and chroma trap.
They are implemented as gyrator circuits tuned by tracking to the frequency of the chroma Xtal oscillator.
The chroma trap in the Y signal path is by-passed when Y/C input is selected (S-VHS ).
For SECAM an extra luminance delay is build-in, for correct delay of the luminance signal.
43
RGB output and black current stabilization
The colour difference signals (R-Y, B-Y) are matrixed with the luminance signal (Y) to obtain the RGBout output signals (pins 19, 20, 21).
In the TDA8375A the matrix type automatically adapts to the decoded standard (NTSC,PAL) .
Linear amplifiers are used to interface external RGB in signals (pins 23,24,25) from the SCART connector.
These signals overrule the internal RGB signals when the data insertion pin 26 (FBI) is switched to a level between
1.0V and 3.0V.
The contrast and brightness control and the peak white limiter operate on both internal and external RGB signals
R,G and B each have their own, independent gain control to compensate for the difference in phosphor efficiencies of the picture tube: so called “white point” adjustment.
The nominal amplitude is about 2V black to white, at nominal input signals and control settings.
TDA8375A has a black current stabilization loop, that automatically adjust the black level to the cut-off voltage of the picture tubes three gun cathodes.
Since no current is flowing when the voltage the cathode is equal to the cut-off voltage of the tube, the loop stabilizes at a very small gun current.
This “black current” of the three guns is measured internally and compared with a reference current, to adjust the black level of RGBout.
The black level loop is active during 4 lines at the end of the vertical blanking.
In the first line the leakage current is measured (max. acceptable 100 A).
In the next three lines the black levels of the three guns are adjusted.
The nominal value of the ‘black current’ is 10 A.
The ratio of the ‘black currents’ for the 3 guns tracks automatically with the white point adjustment, so the back-ground colour is the same as the adjusted white point.
At switch-on of the TV receiver the black current stabilization circuit is not yet active and RGBout are blanked.
Before the first measurement pulses appear, 0.5 sec delay ensures that the vertical deflection is active, so the pulses will not be visible on the screen.
During the measuring lines RGBout will supply 4V pulses to the video output stages.
The TDA8375A waits until the black current feedback input (pin 18) exceeds 200 A, which indicates that the picture tube is warm-up.
Then the black current stabilization circuit is active.
After a waiting time of about 1.0 sec, the blanking of RGBout is released.
Tuning
The AFC information of the TDA8375A is not available as an analogue voltage.
Automatic following (=frequency tracking, AFC) can be done via the I2C-bus by software.
The TDA8375A AFC window is typically 80 kHz wide.
This value is made higher than the 62.5 kHz tuning step, to prevent an automatic following loop from continuously adapting the tuning frequency..
With this AFC window ( 40 kHz) the maximum tuning error is less than 62.5 kHz.
For high speed search-tuning-algorithms, the AFC window can be widened to 240 kHz via bit AFW.
TDA8395 SECAM decoder
The TDA8395 is an alignment-free SECAM colour decoder, including a Cloche filter, demodulator and line identification circuit.
The Cloche filter is a gyrator-capacitor type.
Its frequency is calibrated in the vertical retrace period.
The calibration reference( pin 1 ) is obtained from the TDA8375A color X-tal oscillator (pin 33).
Pin 7 is a decoupling for the Cloche reference.
44
The voltage change at this pin due to leakage currents should be lower than 10 mV, during field scan, resulting in a capacitor of minimal 100 nF.
Pin 8 is the reference capacitor for the PLL.
The voltage variation during field scan at this pin should be lower than 2 mV , resulting in a capacitor of 220 nF.
The sandcastle input (pin 15) is connected to TDA8375A pin 41 and is used for generation of the blanking periods and provides clock information for the identification circuit.
The CVBS source select output (TDA8375A pin 38) supplies SECAM chroma to pin 16 of the TDA8395.
This is demodulated by a PLL demodulator, that uses the reference frequency at pin l and a bandgap reference to obtain the desired demodulation characteristic.
If the digital line identification in theTDA8395 detects SECAM, pin 1 will sink a current of 150 (A out of TDA8375A
SECAMref pin 33.
When the TDA8375A has not detected PAL or NTSC, it will respond by increasing the voltage at pin 33 from 1.5V to 5V.
Now the TDA8375A color difference outputs pin 30 and 29 are made high-ohmic and the TDA8395 output pin 9 and 10 are switched on.
These outputs will be disconnected and high-ohmic when no SECAM is detected for two frame periods, the decoder will be initialized before trying again.
SECAM-L and -L’ application
For SECAM-L and L’ the TDA8375A has to be switched to positive modulation via I2C-bus bit MOD.
SECAM-L’ signals only occur in VHF band l and have their picture and sound carrier interchanged, compared to
SECAM-L/PAL channels.
For SECAM-L’ the IF picture carrier is situated at 34.5 MHz and the AM-sound carrier at 41MHz.
Therefore the IF-PLL reference has to be tuned away from 38.9 to 34.5 MHz.
This can be done via I2C-bus sub-address 15hex (IF-PLL).
The AM sound output is inserted at TDA8375A external audio input pin via the SCART plug.
When bit MOD selects positive modulation for SECAM-L/L’, the TDA8375A automatically switches to external audio.
Base band delay line TDA4665
TDA4665 is an integrated double baseband delay line of 64 S.
It couples to the TDA8375A and TDA8395 without any switches or alignments.
The TDA4665 consist of two main blocks:
- Two delay lines of 64 sec in switched capacitor technique
- Internal clock generation of 3 MHz, line locked to the sandcastle pulse
The TDA4665 operates according to the mode demanded by the colour transmission standard:
- For PAL it operates as geometric adder to satisfy the PAL demodulation requirements
- In NTSC mode it reduces cross-colour interference (comb-filtering)
- For SECAM it repeats the colour difference signal on consecutive horizontal scan lines.
A sandcastle pulse is connected to pin 5.
The top pulse voltage (should not exceed 5 V) can be directly coupled to the 5 V sandcastle output of the TDA8375A.
The R-Y and B-Y colour difference signals (from TDA8375A pins 30 and 29) are AC-coupled and clamped by the input stages at pins 16 and 14.
An internal 6 MHz Current controlled oscillator is line locked via a PLL to the sandcastle pulse at pin 5.
This clock drives the delay lines to obtain the required 64 sec.
Sample and hold low pass filters supress the clock signal.
The original and the delayed signals are added, buffered and fed to the output pins 11 and 12.
These are AC-coupled to the R-Y and B-Y colour difference input pin 32 and 31 of TDA8375A.
45
The TDA4665 needs a 5 V supply voltage on pin 1 for the digital part and on pin 9 for the analog part.
TDA8351 vertical deflection.
The TDA8351 is a vertical deflection circuit.
It can be used in 90 deflection systems with frame frequencies from 50 up to 120 Hz
With its bridge configuration the deflection output can be DC coupled with few external components.
Only a supply voltage for the scan and a second supply for the flyback are needed.
The TDA8351 can drive max.2A.
The vertical drive currents of TDA8375A pins 47 and 46 are connected to input pins 1 and 2 of the TDA8351.
The currents are converted into a voltage by a resistor between pins 1 and 2.
Pin2 is on a fixed DC level (internal bias voltage) and on pin l the drive voltage can be measured (typical 1.8 Vpp).
The drive voltage is amplified by ‘A’ and fed to two amplifiers ‘B’ and ‘C’, one is inverting and the other is a non inverting amplifier.
The outputs (pins 4 and 7) are connected to the series connection of the vertical deflection coil and feedback resistor .
The voltage across feed back resistor is fed via pin 9 to correction amplifier ‘D’, to obtain a deflection current which is proportional to the drive voltage.
The supply voltage for the TDA8351 is 16V at pin 3.
The flyback generator has a separate supply voltage of 45V on pin 6.
Horizontal deflection
The circuit contains horizontal drive, line output transformer.
The horizontal driver pulses from the TDA8375A are amplified in the horizontal drive circuit, to get sufficient base-drive current for the high voltage switching transistor Q401.
During the horizontal scan period( =52 s) Q401 will conduct, and a sawtooth current flows from +132V through the primary winding of the FBT to ground.
After this time Q401 is switched off and the energy stored in the FBT during the scan period will be transformed to the flyback capacitor CT.
This energy transfer will take place in a cosine shape because the primary of the FBT and CT from a resonant circuit.
The time the energy is transferred from FBT to CT. and back to the FBT, is called the flyback time and will take place in about 12 s.
The flyback peak voltage is about 9 times the scan voltage.
In series with the horizontal deflection coil there is a (damped) linearity corrector coil.
During the scan there is some loss in the resistance of the deflection coil.
In the first part of a line the linearity corrector stores some energy in a permanent magnet until it is saturated.
This improves the linearity of the horizontal scan speed.
The required S correction for the picture tube can be adjusted with the value of C408.
The beam current limiting information (BeamCurr) is derived from the foot of the H.V winding of the FBT.
This is connected via resistor to +8V.
As the beam current increase, the voltage on line BeamCurr decreases.
BeamCurr is damped by a integration filter before it is fed back to TDA8375A pin 22.
The TDA8375A will decrease the contrast (and eventually the brightness) to limit the average beam current.
EW drive
The DC voltage on pin 45 is determined by the East-West driver stage input and may range from 1 to 8 volts.
To prevent distortion, the voltage must always be >1volt.
Because the DC voltage on pin 45 is equal to the minimal output voltage of the East-West driver stage (reached for i ew
=
0), it is recommended to choose this level close to 1 volt for maximum range.
46
Video amplifiers
Three TDA6106Q integrated video amplifiers drive cathode of the picture tube directly.
They are protected against CRT flashover discharges and ESD (electro static discharge).
The three video amplifiers, have a beam current output I black, used by the TDA8375A black current loop to control the black level on the cathodes.
The outputs can be connected together because the black current 100p sequentially controls the black level for each cathode.
The amplification of the TDA6106Q is set by the resistors between pin 3 and 9 and between pin 3 (negative-input) and the TDA8375A output.
There are no alignment any more on the CPT panel, because of the automatic black current stabilization and because the white point adjustment can be done in the TDA8375A via I2C bus.
Power Supply STR-S5707
(1) VIN terminal, start-up circuit
A start-up circuit is to start and stop a operation of a control IC by detecting a voltage appearing at a VIN terminal
(pin-9).
At start up of a power supply, when a voltage at the VIN terminal reaches to 8V (typical) by charging up C812 by the function of a start-up resistor, R802, a control circuit starts operating by the function of the start-up circuit.
After the control circuit starts its operation, power source is obtained by smoothing voltage appearing at winding of pin6-7 of T802.
(2) Oscillator, F/B terminal voltage (Pin 7)
A oscillator generates pulse signals which turns a power transistor on and off by making use of charge and discharge of C1 and C2 incorporated in the Hybrid IC.
Constant voltage control of a switch-mode power supply is performed by changing both ON-time and OFF-time except when the load is light (ex. remote control stand-by mode of TVs).
The ON-time is controlled by changing a current charged by C1, which is as the result of that the detection winding of pin5-7 of T802, which detects a change of voltage in a secondary side, connected to the sensing terminal (Pin 7) has the current in accordance with an output signal from an output voltage detection circuit (an error amplifier) built in.
As an AC input voltage to the power supply gets the higher and a load current the smaller, the current flowing to the
SENS terminal gets the larger, and the ON-time gets the shorter.
(3) Function of INH terminal (Pin 6), control of OFF-time
Signal to the INH terminal is used as inputs to COMP.1 and COMP.2 inside of the control IC.
A threshold voltage of COMP.1, VTH1 is set at 0.75V (Ta=25
°
) and an input signal to a drive circuit becomes almost
0V (the power transistor is in OFF mode) when a voltage at the INH terminal reaches the VTH1.
A threshold voltage of COMP.2, VTH2, is set at 1.5V (Ta=25
°
).
When the INH terminal voltage reaches VTH2, an output from COMP.2 reverses (the power transistor is in on mode).
Quasi-resonant operation
By inputting the voltage of winding of pin6-7 of T802 which is synchronized with the energy discharge time of a secondary winding, pin14(or 15)-16 of T802, to the INH terminal through D805 and RC803, quasi-resonant operation can be achieved.
When the power transistor turns off and a voltage higher than VTH2 is applied to the INH terminal, C3 immediately discharges and then starts charging again.
Even after the discharge of energy of a secondary winding is completed, VINH does not immediately increases.
When it gets lower than VTH1, the transistor turns on.
47
Stand-By Mode
While being in remote control stand-by mode, the output voltage is kept on providing to the secondary side and the power transistor operates at A class mode.
(4) Drive circuit
The STR-S5707 applies the proportional drive system in order to minimize turn-on and saturation loss, and storage time.
(5) OCP (over-current protection) function
Over-current protection is performed pulse by pulse by directly detecting collector current of the power transistor.
Detecting voltage is set to -1V below a reference point of GND (ground).
(6) Latch circuit
It is a circuit which sustains an output from the oscillator low and stops operation of the power supply when over-voltage protection (OVP) circuit and thermal shutdown (TSD) circuit are in operation.
As the sustaining current of the latch circuit is 500 A maximum when VIN terminal voltage is 4V, the power supply circuit sustains the off state as long as current of 500 A minimum flows to V
IN terminal from a start-up resistor.
In order to prevent a malfunction to be caused by a noise and so on, delay time is provided by C1 incorporated in the
IC and, therefore, the latch circuit operates when the OVP or TSD circuit is in operation, or an external signal input is provided for about 10 sec or longer.
In addition, even after the latch circuit start operating, the constant voltage regulator (Reg) circuit is in operation and the circuit current is at high level.
As a result, V
IN terminal voltage rapidly decreases.
When VIN terminal voltage becomes lower than the shutdown voltage, V
IN(OFF)
(4.9V typical), it starts increasing as the circuit current is below 500 A.
When it reaches the ON-state voltage, V
IN (ON)
(8V typical), VIN terminal voltage starts decreasing because the circuit current increases again.
When the latch circuit is on, VIN terminal voltage increases and decreases within the range from 4.9V typical to
8V typical and is prevented from abnormally rising.
Cancellation of the latch is done by decreasing VIN terminal voltage below 3.3V.
The power supply can be restarted after disconnecting an AC input to the power supply once.
(7) Thermal shutdown circuit
It is a circuit to trigger the latch circuit when the frame temperature of the IC exceeds 150 (typical).
Although the temperature is actually sensed at the control chip, it works against overheating of the power transistor as the power transistor and the control IC are mounted on the same lead frame.
(8) Over-voltage protection circuit
It is a circuit to trigger the latch circuit when VIN terminal voltage exceeds 11V (typical).
Although it basically functions as protection of VIN terminal against over-voltage, since VIN terminal is usually supplied from the drive winding of the transformer and the voltage is proportional to the output voltage, it also functions against the over-voltage of secondary output which causes when the control circuit opens or in some other events.
48
THE DIFFERENT PARTS FOR CRT (CP-775)
No
1
2
3
4
5
6
LOC. NAME
C402 C MYLAR
C404 C MYLAR
C408 C MYLAR
D406 DIODE
C409 C CERA
J802 WIRE COPPER
28” (V/COLOR 28”(PHILIPS) 25”(PHILIPS) 25”(ORION) 29”(ORION)
(2896ST, 2898ST) (2896ST, 2898ST) (2594ST) (25G1ST) (29G1ST)
1.6KV 7200PF 1.6KV 8200PF
CMYH3C722J
1.6KV 4700PF
CMYH3C472J
400V 0.27MF
CMYE2G274J
BYW95C
DBYW95C - - -
250V 47MF
CEXF2E470V
CMYH3C822J
1.6KV 8200PF
CMYH3C822J
400V 0.33MF 400V 0.47MF
CMYE2G334J CMYE2G474J
AWG22 1/0.65 TIN
COATING
85801065GY
7 R333 R C-FILM 1/4W 2K OHM 1/4W 3K OHM
8 R919 R FUSIBLE
RD-4Z202J -
1W 0.68
RD-4Z302J-
1W 3.3
9
RF01Z688J -
A66ECY13X611
10 ZDC10 COIL
4859613360
DC-2701
DEGAUSSING 58G0000103
11
V901 CRT
L401 COIL
H-LINEARITY
TRL-330
58G0000025
12 P501A CONN AS
13 ZCG10 CRT
GROUND AS
YH025-06+YST025+
ULW=400
4850706S02
2801H-1015-2P
48519A5510
RF01Z339J -
A66EAK071X11
4859622160
A59EAK071X11 A59KTB96X01 P38 A68KTB190X006 P38
4859622260 4859608962 4859618060
DC-2501 DC-2500 DC-2901
58G719M096 58G0000092 58G0000094
TRL-200D
58G0000039
YH025-06+YST025+
USW=500
2501H-1015-2P
48519A4010
4850706S18
2901H-1015-2P
48519A4210
49
THE DIFFERENT PARTS FOR SYSTEM (CP-775)
No LOC.
1 J701
NAME
WIRE COPPER
TF TU
2 J702 WIRE COPPER
3
4
5
J703
J704
J705
WIRE COPPER
WIRE COPPER
AWG221/0.65 TIN
COATING
85801065GY
AWG22 1/0.65 TIN
COATING
85801065GY
WIRE DOPPER
TK
AWG22 1/0.65 TIN
COATING
85801065GY
TA
AWG22 1/0.65 TIN
COATING
85801065GY
6 J706 WIRE COPPER
7
8
9
SF01 FILTER SAW
SF02 FILTER SAW
SF03 FILTER SAW
10 Z502 FILTER CERA
11 I502
12 I604
IC
IC
16 D602 DIODE
G3962M
5PG3962M - -
G9251M
5PG9251M - -
MKT40MA100P
5PMKT40MA -
G3962M
5PG3962M - -
K9260M
5PK9260M - -
MKT40MA100P
5PMKT40MA -
13 U100
14 P801
15 D601
TUNER
VATACTOR
3303KHC
4859714430
DT2-IV17D
4859716130
CORD POWER CW4232+BL102NG CW3222/240V 5A
AS +TUBE=2500 +HOUS=2200
4859903110 4859905110
DIODE
G3962M
5PG3962M - -
K9260M
5PK9260M - -
G3962M
5PG3962M - -
G9251M
5PG9251M - -
L9461M
5PL9461M - -
MKT40MA100P
5PMKT40MA -
TDA8395
1TDA8395 - -
TDA8395
1TDA8395 - -
TDA4445B
TDA4445B -
3303KHC
4859714430
3303KHC
4859714430
KKP419C+BL102NG CW4232+BL102NG
+TUBE+2100 +TUBE=2500
4859902910 4859903110
1S2186
D1S2186 - - -
1S21 86
D1S2186 - - -
50
MECHANICAL EXPLODED VIEW
2896
29 4858213800 BAG POLY
28 4858215400 PE FILM
27 6520010100 STAPLE PIN
26 4858037300 BOX CARTON
25 4858164200 PAD
24 4855415800 SPEC PLATE
1 PE FILM TO.06 250 350
1
12 18M/M JDO
1 DW-3
1 EPS 2895
1 150ART P/E FILM
54
23 4857817611 CLOTH BLACK
22 7122401612 SCREW TAPPING
21 4852148901 COVER BACK
6 FELT TO.7 200 20
9 T2S TRS 4 16 MFZN
1 HIPS BK
20 CRT 1
19 4856015700 SCREW CRT FIXING 4 SWRM+SK-5L=27
18 4856215402 WASHER RUBBER
17 MAIN PCB AS
4
1
CR
CP-775
16 4854934001 BUTTON
15 4857817612 CLOTH BLACK
14 7121401611 SCREW TAPPING
13 4853414501 BRKT CRT
12 4853311601 RETAINER BACK
11 4852062401 MASK FRONT
10 7122401212 SCREW TAPPING
9 SPK
1
3
20
4
7
1
8
2
ABS BK
FELT TO.7 250 20
T2S PAN 4 16 MFZN
ABS NC
HIPS NC
HIPS BK
T2S TRS 4 12 MFZN
8 4852535101 GRILL SPK R
7 4857923300 DOOR LOCK
6 4855617401 MARK BRAND
5 4855058201 DECO CTRL
4 4852820601 DOOR
3 4856717900 SPRING
2 4854849201 BUTTON POWER
1 4852534901 GRILL SPK L
1 EGI TO.5
1 LA701(KIFCO)
1 AL(SILVER)
1 PVC TO.3
1 PC SMOG
1 SWPA( 6.4 16 TO.5)
1 ABS BK
1 EGI TO.5
C/B+M/F
BRKT+M/F
SPK+M/F
2898
29 4858213800 BAG POLY
28 4858215400 PE FILM
27 6520010100 STAPLE PIN
26 4858037300 BOX CARTON
25 4858164200 PAD
24 4855415800 SPEC PLATE
1 PE FILM TO.06 250 350
1
12 18M/M JDO
1 DW-3
1 EPS 2895
1 150ART P/E FILM
55
23 4857817611 CLOTH BLACK
22 7122401612 SCREW TAPPING
21 4852148901 COVER BACK
6 FELT TO.7 200 20
9 T2S TRS 4 16 MFZN
1 HIPS BK
20 CRT 1
19 4856015700 SCREW CRT FIXING 4 SWRM+SK-5L=27
18 4856215402 WASHER RUBBER
17 MAIN PCB AS
4
1
CR
CP-775
16 4854934001 BUTTON
15 4857817612 CLOTH BLACK
14 7121401611 SCREW TAPPING
13 4853414501 BRKT CRT
12 4853311601 RETAINER BACK
11 4852062411 MASK FRONT
10 7122401212 SCREW TAPPING
9 SPK
1
3
20
4
7
1
8
2
ABS BK
FELT TO.7 250 20
T2S PAN 4 16 MFZN
ABS NC
HIPS NC
HIPS BK
T2S TRS 4 12 MFZN
8 4852535001 GRILL SPK R
7 4857923300 DOOR LOCK
6 4855617401 MARK BRAND
5 4855058201 DECO CTRL
4 4852820601 DOOR
3 4856717900 SPRING
2 4854849201 BUTTON POWER
1 4852535000 GRILL SPK L
1 PS SHEET TO.45
1 LA701(KIFCO)
1 AL (SILVER)
1 PVC TO.3
1 PC SMOG
1 SWPA( 6.4 16 TO.5)
1 ABS BK
1 PS SHEET TO.45
C/B+M/F
BRKT+M/F
SPK+M/F
25G1
56
29G1
57
2594
58
28G2
59
Electrical Parts List
Components marked with this symbol must only be replaced by a component having identical physical characteristics.
LOC.
PART-CODE
ZAC10 PSACPW0069
M821
10
4858211400
47P7500001
10000 48586A1617
ZBC10 PSBCSH0031
M211 4852148901
M541
M781
4855415800
4857817611
M782 4857817610
ZCA10 PSCACA0069
M211A 7122401612
M251
M252
4852534901
4852535101
M281
M352
M481
4852820601
97P4602700
4854849201
M481A 4856717900
M491 4854934001
M501
M561
M681
M783
M791
4855058201
4855617401
4856812001
4857817612
4857923300
P405 4850706S10
SP01B 7122401212
SP01C 7122401212
V901 4859622160
V901A 4856215402
V901B 4856015700
ZFM10 PSFMSJ0031
M201 4852062401
M331
M341
4853311601
4853414501
M341A 7121401611
ZMP10 PSMPMS0069
10 2193102005
20
30
2193011101
2291050615
PART-NAME PART-DESCRIPTION
ACCESSORY AS
POLY BAG
BATTERY
DTY-2896TAF
P.E FILM T0.03X600X550
AAM 1.5V
MANUAL INSTRUCTION ALL
COVER BACK AS DTY-2896TF
COVER BACK HIPS BK
SPEC PLATE
CLOTH BLACK
150ART P/E FILM (C/TV)
FELT T0.7 L=200
CLOTH BLACK
CABINET AS
SCREW TAPPING
GRILL SPKR L
GRILL SPKR R
DOOR
CLAMP CORD
BUTTON POWER
SPRING
BUTTON
FELT T0.7 L=300
DTY-2896TAF
T2S TRS 4X16 MFZN BK
EGI T0.5
EGI T0.5
PC SMOG
NYLON 66 BLK 5280N
ABS BK
SWPA
ABS BK
DECO CTRL
MARK BRAND
TIE CABLE
CLOTH BLACK
DOOR LOCK
CONN AS
SCREW TAPPING
SCREW TAPPING
CRT
WASHER RUBBER
PVC T0.3
AL (SILVER)
NYLON66 DA100
FELT T0.7 L=250
LA701(KIFCO)
35135-06+HS30052+ULW=500
T2S TRS 4X12 MFZN BLACK
T2S TRS 4X12 MFZN BLACK
A66EAK071X11
CR
SCREW CRT FIX
MASK FRONT AS
MASK FRONT
RETAINER BACK
BRKT CRT
SWRM+SK5 L=27
DTY-2896TF
HIPS BK
HIPS NC
ABS NC
SCREW TAPPING T2S PAN 4X16 MFZN
PCB MAIN MANUAL AS DTY-2896TAF
SOLDER BAR SN:PB=63:47 S63S-1320
SOLDER WIRE
FLUX SOLDER
RS 60-1.2 1.6A
DF-2012U
60
REMARK
PART-CODE
4SG0D00103
4SG0D00103
4859102130
1TDA8351—
4857024403
7174301011
1TDA8375A-
1TDA8395—
1TDA4665V4
1TDA1519B-
4857026401
7174300811
4856815900
7128261011
1MSP3410D-
1TDA4445B-
1TDA4445B-
1UPC574J—
1DW5255S1-
124LC08B—
2291050301
2224050026
2291051001
CEYD1H689W
CMYH3C722J
CMYH3C472J
CMYE2G274J
CMYB2G472J
CEXF1E102V
CL1JB3474M
CEYN2G181P
CH1FFE472M
CCYB3D102K
DBY228——
DBYW95C—-
DBYW95C—-
DKLR114L—
DBYW95C—-
DBYW95C—-
DBYW95C—-
5FSCB4022R
4SG0D00103
LOC.
I603
I604
I700
I701
I702
I601A
I601B
I601C
I601D
I602
G972
G973
HP01
I301
I301A
I301B
I501
I502
I503
I601
C965
D403
D404
D406
D707
D809
D810
D812
F801
G971
40
60
90
C302
C402
C404
C408
C417
C666
C801
C805
C821
PART-NAME
SPARK GAP
SPARK GAP
JACK EARPHONE
IC VERTICAL
HEAT SINK
SCREW TAPPTITE
IC VCD
IC
IC DELAY
IC AMP
HEAT SINK
SCREW TAPPTITE
CLAMP WIRE
SCREW TAPPING
IC AUDIO
IC
IC
IC
IC MICOM
IC MEMORY
FLUX SOLVENT
BOND SILICON
FLUX KILLER
C ELECTRO
C MYLAR
C MYLAR
C MYLAR
C MYLAR
C ELECTRO
C LINE ACROSS
C ELECTRO
C CERA AC
C CERA
DIODE
DIODE
DIODE
LED
DIODE
DIODE
DIODE
FUSE CERA
SPARK GAP
61
PART-DESCRIPTION
IM-1000
RTV 122 CARTRIDGE
KFT-7
50V RHD 6.8MF (16X35.5)
1.6KV BUP 7200PF J
1.6KV BUP 4700PF J
400V PU 0.27MF J
100V 0.1MF J (TP)
25V RSS 1000MF (13X20) TP
AC250V 0.47MF U/C/SNDFIS
400V LHS 180MF (25X35)
4.0KV 4700PF M KD AC250V
2KV B 1000PF K
BY228 (TAPPING)
BYW95C (TAPPING)
BYW95C (TAPPING)
KLR114L
BYW95C (TAPPING)
BYW95C (TAPPING)
BYW95C (TAPPING)
SEMKO F4AH 4A 250V MF51
S-23 900V-1.5KV
S-23 900V-1.5KV
S-23 900V-1.5KV
YSC-1537
TDA8351
AL EX
TT2 RND 3X10 MFZN
TDA8375A
TDA8395
TDA4665/V4
TDA1519B
AL EX (BK)
TT2 RND 3X8 MFZN
EGI T0.4+PVC COATING
T2S WAS 2.6X10 MFZN
MSP3410D
TDA4445B
TDA4445B
UPC574J
DW5255S1
24LC08B
REMARK
LOC.
PART-CODE
I703
I801
I801A
I801B
I802
I802A
I802B
I803
I901
I902
I903
1TFMW5380-
1STRS5707-
4857025403
7174301011
1TDA8138—
4857025401
7174300811
1KA7808—-
1TDA6106Q-
1TDA6106Q-
1TDA6106Q-
L109
L110
L401
L402
L802
JPA01 4859200401
JPA02 4859200401
JPA03 4859108450
LF801 5PLF24A1—
L103 58C9780027
58M38R9006
58E0000S37
58H0000025
58C7070085
58C9430599
M351
M721
4853530901
4857235402
PWC1 4859903110
A000 4859903511
P401A 4850704S04
P402 4859240120
P501A 4850706S02
P801 4859242220
P802
P903
4859242220
4859238620
P904
Q401
4859275220
T2SD1880—
Q401A 4857024500
Q401B 7174300811
Q403 T2SB546K—
Q403A 4857024902
Q403B 7174300811
R406 RF-2Y479J-
R801
R819
SCT1
DEC140M290
RX10B339JN
4859302930
PART-NAME
HOLDER LED
SHIELD CASE
CORD POWER AS
CORD POWER
CONN AS
CONN WAFER
CONN AS
CONN WAFER
CONN WAFER
CONN WAFER
CONN WAFER
TR
HEAT SINK
SCREW TAPPTITE
TR
HEAT SINK
SCREW TAPPTITE
R FUSIBLE
POSISTOR
R CEMENT
SOCKET CRT
IC PREAMP
IC POWER
HEAT SINK
SCREW TAPPTITE
IC REGULATOR
HEAT SINK
SCREW TAPPTITE
IC REGULATOR
IC AMP
IC AMP
IC AMP
SOCKET RGB
SOCKET RGB
JACK PIN BOARD
FILTER LINE
COIL CHOKE
COIL DET
COIL AFT
COIL H-LINEARITY
COIL CHOKE
COIL CHOKE
62
PART-DESCRIPTION
TFMW5380
STR-S5707
AL050P-H24 T=2
TT2 RND 3X10 MFZN
TDA8138
A1050P-H24 T2
TT2 RND 3X8 MFZN
KA7808
TDA6106Q
TDA6106Q
TDA6106Q
SR-21A1 (ANGLE TYPE)
SR-21A1 (ANGLE TYPE)
YSC03P-4120-14A
LF-24A1
TRF-1201B (0.97 UH)
TRF-1490
TRF-A001
TRL-330
TLN-3062A
AZ-9004Y(94MH)
HIPS BK
SPTH-C T0.25
CW4232+BL102NG+TUBE=2500
CW4232 H03VVH2-F=2250
YH025-04+YST025+ULW=400
YFW500-06
YH025-06+YST025+ULW=400
YFW800-02
YFW800-02
YPW500-02
YF254-05R (ANGLE)
2SD1880
AL EX B/K
TT2 RND 3X8 MFZN
2SB546-K
AL EX
TT2 RND 3X8 MFZN
1/2 4.7 OHM J
ECPCC140M290
10W 3.3 OHM J BENCH 4P
ISHS-09S
REMARK
LOC.
PART-CODE
SF01 5PG3962M—
SF02
SF03
5PG9251M—
5PL9461M—
SW801 5S40101143
T401
T402
50D19A1—-
50H0000181
T802
U100
X501
X502
X601
50M0000101
4859714430
5XE4R4336E
5XE3R5795E
5XE18R432E
X701
Z502
5XE18R000E
5PMKT40MA-
ZMP10 PSMPJ20069
CCA01 HCQK471JCA
CCA02 HCQK331JCA
CCA03 HCQK471JCA
CCA04 HCQK331JCA
CCA05 HCFK103ZCA
CCA06 HCFK103ZCA
CCA07 HCFK103ZCA
CCA08 HCFK103ZCA
CCA10 HCBK102KCA
CCA11 HCBK102KCA
CCA15 HCFK103ZCA
CCA16 HCBK102KCA
CCA17 HCBK152KCA
CCA18 HCBK102KCA
CCA19 HCBK102KCA
CCA20 HCBK102KCA
CCA21 HCQK561JCA
CCA22 HCQK561JCA
CCA25 HCBK102KCA
CCA26 HCFK103ZCA
CCA27 HCBK152KCA
CCA31 HCFK103ZCA
CC101 HCQK220JCA
CC102 HCBK102KCA
CC103 HCBK102KCA
CC104 HCBK102KCA
CC105 HCBK102KCA
CC106 HCBK102KCA
PART-NAME PART-DESCRIPTION
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
FILTER SAW
FILTER SAW
FILTER SAW
SW PUSH
TRANS DRIVE
FBT
TRANS SMPS
TUNER VARACTOR
CRYSTAL QUARTZ
CRYSTAL QUARTZ
CRYSTAL QUARTZ
G 3962-M
G 9251-M
L 9461-M
PS3-22SP (P.C.B)
TD-19A1
1352.5008E
2094.0008C
3303KHC-3X1289
HC-49/U 4.433619MHZ 30PPM
HC-49/U 3.579545MHZ 30PPM
HC-49/U 18.43200MHZ 30PPM
CRYSTAL QUARTZ
FILTER CERA
HC-49/U 18.000MHZ 30PPM
MKT40MA100P
PCB CHIP MOUNT B AS DTY-2896TAF
C CHIP CERA
C CHIP CERA
50V CH 470PF J 2012
50V CH 330PF J 2012
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
50V CH 470PF J 2012
50V CH 330PF J 2012
50V Y5V 0.01MF Z 2012
50V Y5V 0.01MF Z 2012
50V Y5V 0.01MF Z 2012
50V Y5V 0.01MF Z 2012
50V X7R 1000PF Z 2012
50V X7R 1000PF Z 2012
50V Y5V 0.01MF Z 2012
50V X7R 1000PF K 2012
50V X7R 1500PF K 2012
50V X7R 1000PF K 2012
50V X7R 1000PF K 2012
50V X7R 1000PF K 2012
50V CH 560PF J 2012
50V CH 560PF J 2012
50V X7R 1000PF K 2012
50V Y5V 0.01MF Z 2012
50V X7R 1500PF K 2012
50V Y5V 0.01MF Z 2012
50V CH 22PF J 2012
50V X7R 1000PF K 2012
50V X7R 1000PF K 2012
50V X7R 1000PF K 2012
50V X7R 1000PF K 2012
50V X7R 1000PF K 2012
63
REMARK
LOC.
PART-CODE
CC111 HCBK473KCA
CC310 HCBK152KCA
CC401 HCBK102KCA
CC402 HCBK102KCA
CC403 HCBK102KCA
CC404 HCBK472KCA
CC501 HCFK104ZCA
CC502 HCFK104ZCA
CC503 HCFK104ZCA
CC504 HCFK104ZCA
CC509 HCBK473KCA
CC510 HCBK472KCA
CC511 HCFK104ZCA
CC512 HCBK223KCA
CC513 HCBK223KCA
CC514 HCBK223KCA
CC515 HCBK102KCA
CC516 HCBK102KCA
CC517 HCQK221JCA
CC518 HCQK180JCA
CC519 HCBK222KCA
CC520 HCBK472KCA
CC521 HCBK102KCA
CC522 HCBK102KCA
CC523 HCFK104ZCA
CC524 HCBK223KCA
CC526 HCBK152KCA
CC527 HCFK104ZCA
CC528 HCQK181JCA
CC529 HCQK100DCA
CC530 HCBK102KCA
CC531 HCFK104ZCA
CC532 HCBH224KCA
CC540 HCQK101JCA
CC541 HCQK101JCA
CC542 HCQK101JCA
CC555 HCBK223KCA
CC601 HCQK391JCA
CC602 HCQK391JCA
CC603 HCBK102KCA
CC604 HCFK104ZCA
CC605 HCQK471JCA
PART-NAME
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
64
PART-DESCRIPTION
50V X7R 0.047MF K 2012
50V X7R 1500PF K 2012
50V X7R 1000PF K 2012
50V X7R 1000PF K 2012
50V X7R 1000PF K 2012
50V X7R 4700PF K 2012
50V Y5V 0.1MF Z 2012
50V Y5V 0.1MF Z 2012
50V Y5V 0.1MF Z 2012
50V Y5V 0.1MF Z 2012
50V X7R 0.047MF K 2012
50V X7R 4700PF K 2012
50V Y5V 0.1MF Z 2012
50V X7R 0.022MF K 2012
50V X7R 0.022MF K 2012
50V X7R 0.022MF K 2012
50V X7R 1000PF K 2012
50V X7R 1000PF K 2012
50V CH 220PF J 2012
50V CH 18PF J 2012
50V X7R 2200PF K 2012
50V X7R 4700PF K 2012
50V X7R 1000PF K 2012
50V X7R 1000PF K 2012
50V Y5V 0.1MF Z 2012
50V X7R 0.022MF K 2012
50V X7R 1500PF K 2012
50V Y5V 0.1MF Z 2012
50V CH 180PF J 2012
50V CH 10PF D 2012
50V X7R 1000PF K 2012
50V Y5V 0.1MF Z 2012
25V X7R 0.22MF K 2012
50V CH 100PF J 2012
50V CH 100PF J 2012
50V CH 100PF J 2012
50V X7R 0.022MF K 2012
50V CH 390PF J 2012
50V CH 390PF J 2012
50V X7R 1000PF K 2012
50V Y5V 0.1MF Z 2012
50V CH 470PF J 2012
REMARK
LOC.
PART-CODE
CC606 HCQK471JCA
CC607 HCFK104ZCA
CC608 HCBK223KCA
CC609 HCQK509DCA
CC610 HCQK509DCA
CC611 HCBK102KCA
CC612 HCBK102KCA
CC613 HCBK102KCA
CC614 HCFK103ZCA
CC616 HCBK102KCA
CC618 HCQK220JCA
CC619 HCQK470JCA
CC620 HCFK103ZCA
CC622 HCBK223KCA
CC623 HCFK104ZCA
CC624 HCBK223KCA
CC625 HCFK104ZCA
CC660 HCFK104ZCA
CC701 HCBK102KCA
CC708 HCBK102KCA
CC711 HCQK220JCA
CC712 HCQK220JCA
CC715 HCFK103ZCA
CC770 HCQK390JCA
CC801 HCFK104ZCA
CC805 HCQK471JCA
CC807 HCBK102KCA
CC901 HCQK561JCA
CC902 HCQK561JCA
CC903 HCQK561JCA
RCA02 HRFT473JCA
RCA03 HRFT473JCA
RCA10 HRFT750JCA
RCA11 HRFT750JCA
RCA14 HRFT750JCA
RCA16 HRFT750JCA
RCA17 HRFT750JCA
RCA18 HRFT750JCA
RCA19 HRFT750JCA
RCA20 HRFT102JCA
RCA21 HRFT102JCA
RCA30 HRFT101JCA
PART-NAME
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
R CHIP
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
C CHIP CERA
65
PART-DESCRIPTION
50V CH 470PF J 2012
50V Y5V 0.1MF Z 2012
50V X7R 0.022MF K 2012
50V CH 5PF D 2012
50V CH 5PF D 2012
50V X7R 1000PF K 2012
50V X7R 1000PF K 2012
50V X7R 1000PF K 2012
50V Y5V 0.01MF Z 2012
50V X7R 1000PF K 2012
50V CH 22PF J 2012
50V CH 47PF J 2012
50V Y5V 0.01MF Z 2012
50V X7R 0.022MF K 2012
50V Y5V 0.1MF Z 2012
50V X7R 0.022MF K 2012
50V Y5V 0.1MF Z 2012
50V Y5V 0.1MF Z 2012
50V X7R 1000PF K 2012
50V X7R 1000PF K 2012
50V CH 22PF J 2012
50V CH 22PF J 2012
50V Y5V 0.01MF Z 2012
50V CH 39PF J 2012
50V Y5V 0.1MF Z 2012
50V CH 470PF J 2012
50V X7R 1000PF K 2012
50V CH 560PF J 2012
50V CH 560PF J 2012
50V CH 560PF J 2012
1/10 47K OHM J 2012
1/10 47K OHM J 2012
1/10 75 OHM J 2012
1/10 75 OHM J 2012
1/10 75 OHM J 2012
1/10 75 OHM J 2012
1/10 75 OHM J 2012
1/10 75 OHM J 2012
1/10 75 OHM J 2012
1/10 1K OHM J 2012
1/10 1K OHM J 2012
1/10 100 OHM J 2012
REMARK
LOC.
PART-CODE
RC101 HRFT183JCA
RC102 HRFT153JCA
RC103 HRFT682JCA
RC110 HRFT104JCA
RC111 HRFT104JCA
RC115 HRFT102JCA
RC302 HRFT472JCA
RC303 HRFT473JCA
RC304 HRFT103JCA
RC305 HRFT823JCA
RC306 HRFT471JCA
RC401 HRFT272JCA
RC402 HRFT472JCA
RC501 HRFT123JCA
RC502 HRFT103JCA
RC503 HRFT273JCA
RC504 HRFT102JCA
RC505 HRFT104JCA
RC506 HRFT182JCA
RC507 HRFT102JCA
RC510 HRFT102JCA
RC511 HRFT470JCA
RC513 HRFT102JCA
RC514 HRFT102JCA
RC515 HRFT104JCA
RC517 HRFT334JCA
RC518 HRFT332JCA
RC520 HRFT153JCA
RC521 HRFT393JCA
RC522 HRFT100JCA
RC523 HRFT470JCA
RC524 HRFT101JCA
RC526 HRFT273JCA
RC527 HRFT100JCA
RC528 HRFT121JCA
RC529 HRFT472JCA
RC530 HRFT101JCA
RC531 HRFT101JCA
RC532 HRFT101JCA
RC533 HRFT102JCA
RC601 HRFT101JCA
RC602 HRFT222JCA
PART-NAME
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
66
PART-DESCRIPTION
1/10 47 OHM J 2012
1/10 1K OHM J 2012
1/10 1K OHM J 2012
1/10 100K OHM J 2012
1/10 330K OHM J 2012
1/10 3.3K OHM J 2012
1/10 15K OHM J 2012
1/10 39K OHM J 2012
1/10 10 OHM J 2012
1/10 47 OHM J 2012
1/10 100 OHM J 2012
1/10 27K OHM J 2012
1/10 10 OHM J 2012
1/10 120 OHM J 2012
1/10 4.7K OHM J 2012
1/10 100 OHM J 2012
1/10 100 OHM J 2012
1/10 100 OHM J 2012
1/10 1K OHM J 2012
1/10 100 OHM J 2012
1/10 2.2K OHM J 2012
1/10 18K OHM J 2012
1/10 15K OHM J 2012
1/10 6.8K OHM J 2012
1/10 100K OHM J 2012
1/10 100K OHM J 2012
1/10 1K OHM J 2012
1/10 4.7K OHM J 2012
1/10 47K OHM J 2012
1/10 10K OHM J 2012
1/10 82K OHM J 2012
1/10 470 OHM J 2012
1/10 2.7K OHM J 2012
1/10 4.7K OHM J 2012
1/10 12K OHM J 2012
1/10 10K OHM J 2012
1/10 27K OHM J 2012
1/10 1K OHM J 2012
1/10 100K OHM J 2012
1/10 1.8K OHM J 2012
1/10 1K OHM J 2012
1/10 1K OHM J 2012
REMARK
LOC.
PART-CODE
RC603 HRFT153JCA
RC604 HRFT751JCA
RC605 HRFT102JCA
RC606 HRFT223JCA
RC607 HRFT103JCA
RC608 HRFT103JCA
RC609 HRFT683JCA
RC610 HRFT562JCA
RC613 HRFT102JCA
RC614 HRFT332JCA
RC615 HRFT332JCA
RC616 HRFT563JCA
RC617 HRFT152JCA
RC618 HRFT103JCA
RC619 HRFT752JCA
RC620 HRFT152JCA
RC701 HRFT101JCA
RC702 HRFT101JCA
RC703 HRFT333JCA
RC704 HRFT333JCA
RC706 HRFT333JCA
RC709 HRFT472JCA
RC710 HRFT182JCA
RC711 HRFT333JCA
RC713 HRFT912JCA
RC714 HRFT682JCA
RC715 HRFT822JCA
RC716 HRFT682JCA
RC717 HRFT153JCA
RC718 HRFT392JCA
RC719 HRFT182JCA
RC720 HRFT132JCA
RC721 HRFT103JCA
RC722 HRFT103JCA
RC723 HRFT103JCA
RC724 HRFT103JCA
RC725 HRFT473JCA
RC726 HRFT101JCA
RC727 HRFT222JCA
RC729 HRFT332JCA
RC730 HRFT332JCA
RC731 HRFT100JCA
PART-NAME
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
67
PART-DESCRIPTION
1/10 4.7K OHM J 2012
1/10 1.8K OHM J 2012
1/10 33K OHM J 2012
1/10 9.1K OHM J 2012
1/10 6.8K OHM J 2012
1/10 8.2K OHM J 2012
1/10 6.8K OHM J 2012
1/10 15K OHM J 2012
1/10 3.9K OHM J 2012
1/10 1.8K OHM J 2012
1/10 1.3K OHM J 2012
1/10 10K OHM J 2012
1/10 10K OHM J 2012
1/10 10K OHM J 2012
1/10 10K OHM J 2012
1/10 47K OHM J 2012
1/10 100 OHM J 2012
1/10 2.2K OHM J 2012
1/10 3.3K OHM J 2012
1/10 3.3K OHM J 2012
1/10 10 OHM J 2012
1/10 15K OHM J 2012
1/10 750 OHM J 2012
1/10 1K OHM J 2012
1/10 22K OHM J 2012
1/10 10K OHM J 2012
1/10 10K OHM J 2012
1/10 68K OHM J 2012
1/10 5.6K OHM J 2012
1/10 1K OHM J 2012
1/10 3.3K OHM J 2012
1/10 3.3K OHM J 2012
1/10 56K OHM J 2012
1/10 1.5K OHM J 2012
1/10 10K OHM J 2012
1/10 5.1K OHM J 2012
1/10 7.5K OHM J 2012
1/10 100 OHM J 2012
1/10 100 OHM J 2012
1/10 33K OHM J 2012
1/10 33K OHM J 2012
1/10 33K OHM J 2012
REMARK
LOC.
PART-CODE
RC732 HRFT913JCA
RC733 HRFT564JCA
RC734 HRFT473JCA
RC735 HRFT332JCA
RC737 HRFT100JCA
RC738 HRFT102JCA
RC739 HRFT472JCA
RC741 HRFT472JCA
RC742 HRFT472JCA
RC743 HRFT472JCA
RC744 HRFT103JCA
RC747 HRFT472JCA
RC748 HRFT182JCA
RC749 HRFT182JCA
RC777 HRFT103JCA
RC778 HRFT103JCA
RC802 HRFT104JCA
RC803 HRFT222JCA
RC804 HRFT220JCA
RC805 HRFT102JCA
RC901 HRFT162JCA
RC902 HRFT162JCA
RC903 HRFT162JCA
RC904 HRFT162JCA
RC905 HRFT162JCA
RC906 HRFT162JCA
ZMP10 PSMPJ00069
C305 CEXF1E471V
C403 CEXF1E471V
C405
C409
CMXE2G273J
CEXF2E470V
C413
C415
C416
C806
C813
CEXF2C470V
CEXF2E100V
CCXB3D681K
CCXB3D102K
CEXF2C101V
C814
C815
C820
CEXF2C101V
CEXF1E102V
CEXF1E222V
C902
C905
CEXF2E100V
CEXF2E100V
ZMP10 PSMPJB0069
PART-NAME
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
PCB MAIN (RHU) AS
C ELECTRO
C ELECTRO
C MYLAR
C ELECTRO
C ELECTRO
C ELECTRO
C CERA
C CERA
C ELECTRO
C ELECTRO
C ELECTRO
C ELECTRO
C ELECTRO
C ELECTRO
PCB MAIN M-10 AS
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
R CHIP
68
PART-DESCRIPTION
1/10 91K OHM J 2012
1/10 560K OHM J 2012
1/10 47K OHM J 2012
1/10 3.3K OHM J 2012
1/10 10 OHM J 2012
1/10 1K OHM J 2012
1/10 4.7K OHM J 2012
1/10 4.7K OHM J 2012
1/10 4.7K OHM J 2012
1/10 4.7K OHM J 2012
1/10 10K OHM J 2012
1/10 4.7K OHM J 2012
1/10 1.8K OHM J 2012
1/10 1.8K OHM J 2012
1/10 10K OHM J 2012
1/10 10K OHM J 2012
1/10 100K OHM J 2012
1/10 2.2K OHM J 2012
1/10 22 OHM J 2012
1/10 1K OHM J 2012
1/10 1.6K OHM J 2012
1/10 1.6K OHM J 2012
1/10 1.6K OHM J 2012
1/10 1.6K OHM J 2012
1/10 1.6K OHM J 2012
1/10 1.6K OHM J 2012
DTY-2896TAF
25V RSS 470MF (10X16) TP
25V RSS 470MF (10X16) TP
400V PU 0.027MF J (TP)
250V RSS 47MF (16X25) TP
160V RSS 47MF (13X25) TP
250V RSS 10MF (10X20) TP
2KV B 680PF K (TAPPING)
2KV B 1000PF K (TAPPING)
160V RSS 100MF (16X25) TP
160V RSS 100MF (16X25) TP
25V RSS 1000MF (13X20) TP
25V RSS 2200MF (16X25) TP
250V RSS 10MF (10X20) TP
250V RSS 10MF (10X20) TP
DTY-2896TAF
REMARK
LOC.
PART-CODE
R803
R804
R805
R812
R816
R820
R822
R916
R919
R920
P101
P401
P501
P601
P702
R407
R410
R415
R700
R701
R802
C301
C303
C304
C310
C401
C411
C414
C501
C502
C504
C505
ZMP10 PSMPJR0069
CA10 CBXF1H104Z
CA11 CCXF1H473Z
C101
C102
CEXF1E470V
CEXF1H479V
C103
C104
C105
C106
C111
CEXF1H479V
CEXF1H100V
CMXM2A104J
CEXF1E330V
CEXD1H109F
CMXM2A223J
CMXM2A104J
CMXM2A104J
CMXM2A104J
CEXF1H100V
CEXF2C229V
CMXM2A104J
CCXF1H473Z
CEXF1H229V
CEXF1E101V
CEXF1H100V
485923162S
485923172S
485923192S
485923172S
485923182S
RS02Z561JS
RS02Z223JS
RS02Z102JS
RS02Z912JS
RS02Z912JS
RS02Z473JS
RS02Z473JS
RF02Z338J-
RS02Z300JS
RS02Z300JS
RS02Z300JS
RS02Z100JS
RF01Z228J-
RS02Z101JS
RF01Z339J-
RF01Z129JA
PART-NAME
PCB MAIN RADIAL AS
C CERA SEMI
C CERA
C ELECTRO
C ELECTRO
C ELECTRO
C ELECTRO
C MYLAR
C ELECTRO
C ELECTRO
C MYLAR
C MYLAR
C MYLAR
C MYLAR
C ELECTRO
C ELECTRO
C MYLAR
C CERA
C ELECTRO
C ELECTRO
C ELECTRO
CONN WAFER
CONN WAFER
CONN WAFER
CONN WAFER
CONN WAFER
R M-OXIDE FILM
R M-OXIDE FILM
R M-OXIDE FILM
R M-OXIDE FILM
R M-OXIDE FILM
R M-OXIDE FILM
R M-OXIDE FILM
R FUSIBLE
R M-OXIDE FILM
R M-OXIDE FILM
R M-OXIDE FILM
R M-OXIDE FILM
R FUSIBLE
R M-OXIDE FILM
R FUSIBLE
R FUSIBLE
69
PART-DESCRIPTION
YW025-03 (STICK)
YW025-04 (STICK)
YW025-06 (STICK)
YW025-04 (STICK)
YW025-OF(STICK)
2W 560 OHM J SMALL
2W 22K OHM J SMALL
2W 1K OHM J SMALL
2W 9.1K OHM J SMALL
2W 9.1K OHM J SMALL
2W 47K OHM J SMALL
2W 47K OHM J SMALL
2W 0.33 OHM J (TAPPING)
2W 30 OHM J SMALL
2W 30 OHM J SMALL
2W 30 OHM J SMALL
2W 10 OHM J SMALL
1W 0.22 OHM J (TAPPING)
2W 100 OHM J SMALL
1W 3.3 OHM J (TAPPING)
1W 1.2 OHM J A CURVE
DTY-2896TAF
50V F 0.1MF Z (TAPPING)
50V F 0.047MF Z (TAPPING)
25V RSS 47MF (5X11) TP
50V RSS 4.7MF (5X11) TP
50V RSS 4.7MF (5X11) TP
50V RSS 10MF (5X11) TP
100V 0.1MF J (TP)
25V RSS 33MF (5X11) TP
50V RND 1MF (5X11) TP
100V 0.022MF J TP
100V 0.1MF J (TP)
100V 0.1MF J (TP)
100V 0.1MF J (TP)
50V RSS 10MF (5X11) TP
160V RSS 2.2MF (8X11.5)TP
100V 0.1MF J (TP)
50V F 0.047MF Z (TAPPING)
50V RSS 2.2MF (5X11) TP
25V RSS 100MF (6.3X11) TP
50V RSS 10MF (5X11) TP
REMARK
PART-CODE
CEXF1H100V
CEXF1E470V
CEXF1H100V
CEXF1H479V
CEXF1H100V
CEXF1H479V
CEXF1E470V
CEXF1H100V
CEXF1H100V
CEXF1E470V
CEXF1H109V
CMXM2A104J
CMXM2A104J
CEXF1E470V
CMXB1H224J
CEXF1H100V
CEXF1H109V
CMXM2A104J
CXCH1H331J
CXCH1H309J
CXCH1H330J
CEXF1E470V
CEXF1H109V
CEXF1H109V
CMXL2E104K
CEXF1H109V
CEXF1E470V
CEXF1E470V
CEXF1H109V
CMXM2A473J
CXCH1H680J
CEXF1H470V
CEXF1H479V
CEXF1H479V
CEXF1H100V
CEXF1E470V
CEXF1H100V
CEXF1H339V
CEXF1H109V
CEXF1H109V
CEXF1H109V
CEXF1H109V
LOC.
C702
C703
C704
C705
C706
C707
C708
C709
C710
C716
C717
C616
C618
C619
C620
C621
C622
C623
C625
C626
C701
C606
C607
C608
C609
C610
C611
C612
C613
C614
C615
C506
C507
C508
C509
C510
C511
C514
C515
C525
C601
C602
PART-NAME
C ELECTRO
C ELECTRO
C ELECTRO
C ELECTRO
C ELECTRO
C ELECTRO
C ELECTRO
C ELECTRO
C ELECTRO
C ELECTRO
C ELECTRO
C MYLAR
C MYLAR
C ELECTRO
C MYLAR
C ELECTRO
C ELECTRO
C MYLAR
C CERA
C CERA
C CERA
C ELECTRO
C ELECTRO
C ELECTRO
C MYLAR
C ELECTRO
C ELECTRO
C ELECTRO
C ELECTRO
C MYLAR
C CERA
C ELECTRO
C ELECTRO
C ELECTRO
C ELECTRO
C ELECTRO
C ELECTRO
C ELECTRO
C ELECTRO
C ELECTRO
C ELECTRO
C ELECTRO
70
PART-DESCRIPTION
25V RSS 47MF (5X11) TP
50V RSS 1MF (5X11) TP
50V RSS 1MF (5X11) TP
250V MEU 0.1MF K
50V RSS 1MF (5X11) TP
25V RSS 47MF (5X11) TP
25V RSS 47MF (5X11) TP
50V RSS 1MF (5X11) TP
100V 0.047MF J (TP)
50V CH 68PF J (TAPPING)
50V RSS 47MF (6.3X11) TP
50V RSS 4.7MF (5X11) TP
50V RSS 4.7MF (5X11) TP
50V RSS 10MF (5X11) TP
25V RSS 47MF (5X11) TP
50V RSS 10MF (5X11) TP
50V RSS 3.3MF (5X11) TP
50V RSS 1MF (5X11) TP
50V RSS 1MF (5X11) TP
50V RSS 1MF (5X11) TP
50V RSS 1MF (5X11) TP
50V RSS 10MF (5X11) TP
25V RSS 47MF (5X11) TP
50V RSS 10MF (5X11) TP
50V RSS 4.7MF (5X11) TP
50V RSS 10MF (5X11) TP
50V RSS 4.7MF (5X11) TP
25V RSS 47MF (5X11) TP
50V RSS 10MF (5X11) TP
50V RSS 10MF (5X11) TP
25V RSS 47MF (5X11) TP
50V RSS 1MF (5X11) TP
100V 0.1MF J (TP)
100V 0.1MF J (TP)
25V RSS 47MF (5X11) TP
50V EU 0.22MF J (TP)
50V RSS 10MF (5X11) TP
50V RSS 1MF (5X11) TP
100V 0.1MF J (TP)
50V CH 330PF J (TAPPING)
50V CH 3PF J (TAPPING)
50V CH 33PF J (TAPPING)
REMARK
LOC.
PART-CODE
Q603
Q604
Q606
Q702
Q703
Q704
Q705
Q706
Q707
Q708
Q709
QA03
Q301
Q402
Q404
Q405
Q406
Q501
Q502
Q601
Q602
C727
C803
C804
C807
C808
C809
C811
C812
C816
C817
C818
CMXM2A104J
CCXF3A472Z
CCXF3A472Z
CCXB3A471K
CEXF2A100V
CCXB3A471K
CEXF1E221V
CEXF1E221V
CEXF1E101V
CEXF1E470V
CEXF1E101V
C819
C822
C823
C968
C969
CEXF1E101V
CEXF1E470V
CEXF1H109V
CMXL2E104K
CMXL2E104K
C970 CMXL2E104K
F801A 4857415001
F801B 4857415001
QA01
QA02
TKTA1266Y-
TKTC3198Y-
TKTC3198Y-
TKTC3198Y-
T2SD1207T-
TKTC3198Y-
TKTC3198Y-
TKTA1266Y-
TKTC3198Y-
TKTC3198Y-
TKTC3198Y-
TKTC3198Y-
TKTC3198Y-
TKTC3197—
TKTC3198Y-
TKTC3198Y-
TKTC3198Y-
TKTC3198Y-
TKTA1266Y-
TKTA1266Y-
TKTA1266Y-
TKTC3198Y-
TKTC3198Y-
PART-NAME
TR
TR
TR
TR
TR
TR
TR
TR
TR
TR
TR
TR
TR
TR
TR
TR
TR
TR
TR
TR
TR
C MYLAR
C CERA
C CERA
C CERA
C ELECTRO
C CERA
C ELECTRO
C ELECTRO
C ELECTRO
C ELECTRO
C ELECTRO
C ELECTRO
C ELECTRO
C ELECTRO
C MYLAR
C MYLAR
C MYLAR
CLIP FUSE
CLIP FUSE
TR
TR
71
PART-DESCRIPTION
100V 0.1MF J (TP)
1KV F 4700PF Z (T)
1KV F 4700PF Z (T)
1KV B 470PF K (T)
100V RSS 10MF (6.3X11) TP
1KV B 470PF K (T)
25V RSS 220MF (8X11.5) TP
25V RSS 220MF (8X11.5) TP
25V RSS 100MF (6.3X11) TP
25V RSS 47MF (5X11) TP
25V RSS 100MF (6.3X11) TP
25V RSS 100MF (6.3X11) TP
25V RSS 47MF (5X11) TP
50V RSS 1MF (5X11) TP
250V MEU 0.1MF K
250V MEU 0.1MF K
250V MEU 0.1MF K
PFC5000-0702
PFC5000-0702
KTA1266Y (TP)
KTC3198Y
KTC3198Y
KTC3198Y
2SD1207-T (TAPPING)
KTC3198Y
KTC3198Y
KTA1266Y (TP)
KTC3198Y
KTC3198Y
KTC3198Y
KTC3198Y
KTC3198Y
KTC3197 (TP)
KTC3198Y
KTC3198Y
KTC3198Y
KTC3198Y
KTA1266Y (TP)
KTA1266Y (TP)
KTA1266Y (TP)
KTC3198Y
KTC3198Y
REMARK
LOC.
PART-CODE
D302
D401
D402
D405
D407
D408
D410
D501
D502
D503
D504
DA12
DA13
DA14
DA15
DA16
DA20
DA21
DA22
D101
D301
DA02
DA03
DA04
DA05
DA06
DA07
DA08
DA09
DA10
DA11
Q711 TKTC3202Y-
Q801
Q802
TKTC3198Y-
TKTC3198Y-
SW700 5S50101090
SW701 5S50101090
SW702 5S50101090
SW703 5S50101090
SW704 5S50101090
ZMP10 PSMPJA0069
A001
DA01
4859801393
D1N4148—-
DMTZ5R6B—
DMTZ12C—-
DMTZ5R6B—
DMTZ5R6B—
DMTZ5R6B—
DMTZ5R6B—
DMTZ5R6B—
DMTZ5R6B—
DMTZ5R6B—
DMTZ5R6B—
DMTZ5R6B—
DMTZ5R6B—
DMTZ5R6B—
DMTZ5R6B—
DMTZ5R6B—
DMTZ5R6B—
DMTZ5R6B—
DMTZ5R6B—
D1N4148—-
DMTZ220—-
DUZ5R1BM—
D1N4003—-
D1N4003—-
D1N4936GP-
DBYV95C—-
DBYV95C—-
DBYV95C—-
DMTZ5R1B—
D1N4148—-
D1N4148—-
D1N4148—-
PART-NAME
DIODE ZENER
DIODE ZENER
DIODE ZENER
DIODE ZENER
DIODE ZENER
DIODE ZENER
DIODE ZENER
DIODE ZENER
DIODE
DIODE ZENER
DIODE ZENER
DIODE
DIODE
DIODE
DIODE
DIODE
DIODE
DIODE ZENER
DIODE
DIODE
DIODE
TR
TR
TR
SW TACT
SW TACT
SW TACT
SW TACT
SW TACT
PCB MAIN AXIAL AS
PCB MAIN
DIODE
DIODE ZENER
DIODE ZENER
DIODE ZENER
DIODE ZENER
DIODE ZENER
DIODE ZENER
DIODE ZENER
DIODE ZENER
DIODE ZENER
DIODE ZENER
72
PART-DESCRIPTION
MTZ 5.6-B(TAPPING)
MTZ 5.6-B(TAPPING)
MTZ 5.6-B(TAPPING)
MTZ 5.6-B(TAPPING)
MTZ 5.6-B(TAPPING)
MTZ 5.6-B(TAPPING)
MTZ 5.6-B(TAPPING)
MTZ 5.6-B(TAPPING)
1N4148 (TAPPING)
MTZ 22-D
UZ-5.1BM
1N4003 (TAPPING)
1N4003 (TAPPING)
1N4936GP (TAPPING)
BYV95C (TAPPING)
BYV95C (TAPPING)
BYV95C (TAPPING)
MTZ 5.1-B (TAPPING)
1N4148 (TAPPING)
1N4148 (TAPPING)
1N4148 (TAPPING)
KTC3202Y (TP)
KTC3198Y
KTC3198Y
SKHV17910A
SKHV17910A
SKHV17910A
SKHV17910A
SKHV17910A
DTY-2896TAF
330X246 D1B
1N4148 (TAPPING)
MTZ 5.6-B(TAPPING)
MTZ-12C
MTZ 5.6-B(TAPPING)
MTZ 5.6-B(TAPPING)
MTZ 5.6-B(TAPPING)
MTZ 5.6-B(TAPPING)
MTZ 5.6-B(TAPPING)
MTZ 5.6-B(TAPPING)
MTZ 5.6-B(TAPPING)
MTZ 5.6-B(TAPPING)
REMARK
PART-CODE
D1S1888—-
DBYV95C—-
DBYV95C—-
DBYV95C—-
DBYV95C—-
D1S1888—-
5CPZ109M04
5CPZ109M04
5CPZ109M04
5CPZ109M04
5CPZ109M04
5CPZ109M04
5CPZ100K04
5CPZ100K04
5CPZ470K02
5CPZ100K04
5CPZ100K04
5CPZ479K02
5CPZ479K02
5CPZ470K04
5CPZ479K02
5CPZ479K02
RD-4Z102J—-
5CPZ100K04
D1N4148—-
DUZ5R1BM—
D1SS85TA-
D1SS85TA-
D1N4148—-
D1N4148—-
D1N4148—-
D1N4148—-
D1N4148—-
D1N4148—-
DMTZ5R6B—
DMTZ5R6B—
DMTZ5R6B—
DMTZ5R6B—
DMTZ5R6B—
D1S1888—-
D1S1888—-
D1S1888—-
LOC.
L301
L302
L601
L602
L603
LA06
LA07
LA10
LA12
L101
D804
D805
D806
D807
D808
D903
LA01
LA02
LA03
LA04
L604
L605
L606
L607
D705
D706
D708
D709
D710
D711
D712
D801
D802
D803
D505
D506
D601
D602
D701
D702
D703
D704
PART-NAME
DIODE
DIODE
DIODE
DIODE
DIODE
DIODE
COIL PEAKING
COIL PEAKING
COIL PEAKING
COIL PEAKING
COIL PEAKING
COIL PEAKING
COIL PEAKING
COIL PEAKING
COIL PEAKING
COIL PEAKING
COIL PEAKING
COIL PEAKING
COIL PEAKING
COIL PEAKING
COIL PEAKING
COIL PEAKING
R CARBON FILM
COIL PEAKING
DIODE
DIODE ZENER
DIODE
DIODE
DIODE
DIODE
DIODE
DIODE
DIODE
DIODE
DIODE ZENER
DIODE ZENER
DIODE ZENER
DIODE ZENER
DIODE ZENER
DIODE
DIODE
DIODE
73
PART-DESCRIPTION
1N4148 (TAPPING)
UZ-5.1BM
1SS85TA
1SS85TA
1N4148 (TAPPING)
1N4148 (TAPPING)
1N4148 (TAPPING)
1N4148 (TAPPING)
1N4148 (TAPPING)
1N4148 (TAPPING)
MTZ 5.6-B(TAPPING)
MTZ 5.6-B(TAPPING)
MTZ 5.6-B(TAPPING)
MTZ 5.6-B(TAPPING)
MTZ 5.6-B(TAPPING)
1S1888 (TAPPING)
1S1888 (TAPPING)
1S1888 (TAPPING)
1S1888 (TAPPING)
BYV95C (TAPPING)
BYV95C (TAPPING)
BYV95C (TAPPING)
BYV95C (TAPPING)
1S1888 (TAPPING)
1UH 10.5MM K (LAL04TB)
1UH 10.5MM K (LAL04TB)
1UH 10.5MM K (LAL04TB)
1UH 10.5MM K (LAL04TB)
1UH 10.5MM K (LAL04TB)
1UH 10.5MM K (LAL04TB)
10UH 10.5MM K (LAL04TB)
10UH 10.5MM K (LAL04TB)
47UH K (AXIAL 3.5MM)
10UH 10.5MM K (LAL04TB)
10UH 10.5MM K (LAL04TB)
4.7UH K (AXIAL 3.5MM)
4.7UH K (AXIAL 3.5MM)
47UH 10.5MM K (LAL04TB)
4.7UH K (AXIAL 3.5MM)
4.7UH K (AXIAL 3.5MM)
1/4 IK OHM J
10UH 10.5MM K (LAL04TB)
REMARK
PART-CODE
RD-2Z470J-
RD-4Z472J-
RD-4Z684J-
RD-4Z334J-
RD-4Z103J-
RD-4Z123J-
RD-4Z123J-
RD-4Z101J-
RD-4Z101J-
RD-4Z223J-
RD-2Z151J-
RD-2Z151J-
RD-4Z102J-
RD-4Z103J-
RD-4Z332J-
RD-4Z472J-
RD-4Z472J-
RD-4Z472J-
RD-4Z472J-
RD-4Z101J-
RD-4Z472J-
5CPZ100K04
5CPZ689K02
5MC0000100
RD-4Z101J-
RD-4Z221J-
RD-4Z221J-
RD-4Z221J-
RD-4Z103J-
RD-4Z472J-
RD-2Z129J-
RD-2Z129J-
RD-2Z220J-
RD-2Z101J-
RD-2Z101J-
RD-4Z101J-
RD-4Z472J-
RD-4Z752J-
RD-4Z302J-
RD-4Z272J-
RD-4Z220J-
RD-4Z102J-
LOC.
R608
R609
R610
R702
R703
R705
R706
R707
R711
R713
R715
R405
R409
R501
R502
R503
R603
R604
R605
R606
R607
R304
R305
R306
R307
R308
R309
R333
R401
R403
R404
L608
L701
L804
RA01
RA02
RA03
RA04
RA05
R301
R302
R303
PART-NAME
R CARBON FILM
R CARBON FILM
R CARBON FILM
R CARBON FILM
R CARBON FILM
R CARBON FILM
R CARBON FILM
R CARBON FILM
R CARBON FILM
R CARBON FILM
R CARBON FILM
R CARBON FILM
R CARBON FILM
R CARBON FILM
R CARBON FILM
R CARBON FILM
R CARBON FILM
R CARBON FILM
R CARBON FILM
R CARBON FILM
R CARBON FILM
COIL PEAKING
COIL PEAKING
COIL BEAD
R CARBON FILM
R CARBON FILM
R CARBON FILM
R CARBON FILM
R CARBON FILM
R CARBON FILM
R CARBON FILM
R CARBON FILM
R CARBON FILM
R CARBON FILM
R CARBON FILM
R CARBON FILM
R CARBON FILM
R CARBON FILM
R CARBON FILM
R CARBON FILM
R CARBON FILM
R CARBON FILM
74
PART-DESCRIPTION
1/2 47 OHM J
1/4 4.7K OHM J
1/4 680K OHM J
1/4 330K OHM J
1/4 10K OHM J
1/4 12K OHM J
1/4 12K OHM J
1/4 100 OHM J
1/4 100 OHM J
1/4 22K OHM J
1/2 150 OHM J
1/2 150 OHM J
1/4 1K OHM J
1/4 10K OHM J
1/4 3.3K OHM J
1/4 4.7K OHM J
1/4 4.7K OHM J
1/4 4.7K OHM J
1/4 4.7K OHM J
1/4 100 OHM J
1/4 4.7K OHM J
10UH 10.5MM K (LAL04TB)
6.8UH K (AXIAL 3.5MM)
MD-5 (HC-3550)
1/4 100 OHM J
1/4 220 OHM J
1/4 220 OHM J
1/4 220 OHM J
1/4 10K OHM J
1/4 4.7K OHM J
1/2 1.2 OHM J
1/2 1.2 OHM J
1/2 22 OHM J
1/2 100 OHM J
1/2 100 OHM J
1/4 100 OHM J
1/4 4.7K OHM J
1/4 7.5K OHM J
1/4 3K OHM J
1/4 2.7K OHM J
1/4 22 OHM J
1/4 1K OHM J
REMARK
LOC.
PART-CODE
R716
R720
R721
R806
R807
R818
R910
R911
R912
R913
R914
RD-4Z823J-
RD-4Z101J-
RD-4Z101J-
RD-4Z101J-
RD-4Z302J-
RC-2Z565J-
RD-4Z104J-
RD-4Z104J-
RD-4Z104J-
RC-2Z332J-
RC-2Z332J-
R915
R917
R918
RC-2Z332J-
RD-4Z105J-
RD-2Z102J-
Z502 5PMKT40MA-
ZSP10 PSSPPW0069
P601A 4850704N10
SP01 4858313010
ZCG10 48519A5510
ZDC10 58G0000103
ZPK10 PSPKCP0069
M641
M801
M811
6520010100
4858037300
4858164200
M822 4858215400
ZTR10 48B3228B03
PART-NAME
R CARBON FILM
R CARBON FILM
R CARBON FILM
R CARBON FILM
R CARBON FILM
R CARBON COMP
R CARBON FILM
R CARBON FILM
R CARBON FILM
R CARBON COMP
R CARBON COMP
R CARBON COMP
R CARBON FILM
R CARBON FILM
FILTER CERA
SPEAKER AS
CONN AS
SPEAKER
CRT GROUND AS
COIL DEGAUSSING
PACKING AS
STAPLE PIN
BOX CARTON
PAD
BAG P.E
TRANSMITTER REMOCON
PART-DESCRIPTION
1/4 82K OHM J
1/4 100 OHM J
1/4 100 OHM J
1/4 100 OHM J
1/4 3K OHM J
1/2 5.6M OHM J
1/4 100K OHM J
1/4 100K OHM J
1/4 100K OHM J
1/2 3.3K OHM J
1/2 3.3K OHM J
1/2 3.3K OHM J
1/4 1M OHM J
1/2 1K OHM J
MKT40MA100P
DTY-2896TAF
YH025-04+YST025+ULW=700
SP-58126F03
2801H-1015-2P
DC-2701
DTY-2896TAF
18M/M J D O
DW-3
EPS 2895
PE FILM
R-28B03
REMARK
75
ENGINEER NOTE
S/M NO : CP775P-011
DAEWOO ELECTRONICS CO., LTD.
686, AHYEON-DONG, MAPO-GU,
SEOUL, KOREA.
C.P.O. BOX 8003 SEOUL KOREA
TELEX : DWELEC K28177-8
F A X : (02) 364-5588,5305
T E L : (02) 360-7360 4, 7315 7
PRINTED DATE: DEC. 1997
CP-775 CHASSIS SCHEMATIC DIAGRAM
52
WAVE FORMS
53
advertisement
Key Features
- PAL, SECAM, and NTSC compatibility
- 21-pin EURO-SCART jack with AV input, TV output, and RGB input
- 21-pin EURO-SCART jack with AV input and S-VHS input
- RCA type AV input jack
- Headphone jack
- Remote controller
- Teletext
- OSD language
- VS( voltage synthesis ) tuning