Xoceco TK2055D, TS2049 Schematic

COLOR TELEVISION
TK2055D
(TS2049)
CONTENTS
Alignment instruction. ………………………………….…………………………….…….
Debugging instruction …………………………………………….………………………….
IC Block diagram ……………………………..…..…..…..…..…..…….………….………….
Function introduction to pin……………………..……………………….…………………..
Wiring diagram……………………………………………………………………………..…
Part list.............………..…..…..…..…..…..…..…..…..…..…..…..…..…..…..…..…..…..…...
Schematic diagram………………………………………………………..……………..............
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AUTION: THIS SERVICE MANUAL IS ONLY FOR PROFESSIONAL SERVICE PERSONNEL’S
REFERENCE. BEFORE SERVICING THIS CHASSIS, PLEASE READ THE
FOLLOWING NOTICE ITEMS.
1. SAFETY I NSTRUCTION AND GENERAL INSTRUCTION Before servicing and aligning this equipment, please read the following “X-RAY RADIATION PRECAUTION” ,”SAFETY PRECAUTION” and “PRODUCT SAFETY NOTICE”.
1.1 X-RAY RADIATION PRECAUTION
1 Excessive high voltage can produce potentially hazardous X-RAY RADIATION. To avoid such
hazards, the high voltage must not be above the specified limit. The normal value of the high voltage
of this receiver is under 24.5kV(21”) and 22.5KV(14”) at zero beam current (minimum brightness),
the high voltage must not, under any circumstances, exceed 30kV.
2 Each time a receiver requires servicing, the high voltage should be checked following the HIGH
VOLTAGE CHECK procedure in this manual. It is recommended the reading of the high voltage be
recorded as a part of service record. It is important to use an accurate and reliable high voltage
meter.
3 The primary source of X-RAY RADIATION in this TV receiver is the picture tube. For continuous
X-RAY RADIATION protection, the replacement tube must be exactly the same type tube as
specified in the parts list.
4 Some parts in this receiver have special safety-related characteristics for X-RAY RADIATION
protection. For continuous safety, parts replacement should be undertaken only after referring to the
PRODUCT SAFETY NOTICE below.
1.2 SAFETY PRECAUTION WARNING:
Service should not be attempted by anyone unfamiliar with the necessary precaution on this receiver.
The following are the necessary precautions to be observed before servicing this chassis.
1) Since the power supply circuit of this receiver is directly connected to the AC power line, an isolation
transformer should be used during any dynamic service to avoid possible shock hazard.
2) Always discharge the picture tube anode to the CRT conductive coating before handling the picture
tube. The picture tube is highly evacuated and if broken, glass fragments will be violently expelled.
Use shatter proof goggles and keep picture tube away from the unprotected body while handling.
3) When replacing a chassis in the cabinet, always be certain that all the protective devices are put
back in place, such as: non-metallic control knobs, insulating covers, shields, isolation
resistor-capacitor network etc.
4) When replacing parts or circuit boards, disconnect the power cord.
5) When replacing a high wattage resistor (oxiode metal film resistor) on the circuit board, keep the
resistor 10mm (1/2in) away from circuit board.
6) Connection wires must be kept away from components with high voltage or high temperature.
7) If any fuse in this TV receiver is blown, replace it with the FUSE specified in the chassis parts list.
1
1.3 PRODUCT SAFETY NOTICE
Many electrical and mechanical parts in the chassis 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
wattage, etc. Replacement parts which have these special safety characteristics are identified in this
manual and its supplement electrical components having such features are shaded on the schematic
diagram and the parts list. Before replacing any of these components, read the parts list in this manual carefully. The use of
substitute replacement parts which do not have the same characteristics as specified in the parts list
may create shock, fire, X-RAY RADIATION or other hazards.
2 Alignment items and procedur e
The alignment flow chart (see below figure).
EEPROM copy
B+ check
Focus adjust and aging
High-handed
Field breadth
and field line
White balance and sub-bright
RF AGC adjust
Audio check
VG2 adjust
H-field and center
field and field breadth
Filament voltage
X-radial protect
Picture and audio
Sub-brightness
White balance
OSD center position
Color pure and assemble
Foucs fine adjust
AV (S.DVD)
The button check
Leave factory state setup
Remote control check
check
Assemble check
Safety check
2
3 TEST EQUIPMENT
3.1 AUDIO VOLTAMETER
3.2 OSCILLOGRAPH
3.3 HIGH-VOLTAMETER
3.4 DIGITAL MULTIMETER
3.5 AC ATTACK PULL TEST EQUIPMENT
3.6 SCAN frequency signal generator BT-3
4 Debugging instruction
4.1 enter into the factory debugging m enu
use to the remote control(RC-A23),follow to the blow model enter into the factory:
DISPLAY MUTE MUTE MUTE enter into the factory
press “sleep” button for pages upward, press “return” button for pages downward, press “CH+/-” to
select alignment items and “VOL+/-” to adjust volume, press “MUTE” to exit.
If the remote sensor designed for alignment is unavailable, press the following buttons to enter by
using user remote sensor
4.2 B+ voltage adj ustment
Check B+ voltage ( negative pole of VD509) by using DC voltmeter DC 200V
14”110 V±1 V CRT 21”PF 100 V CRT A15QDX992X002(H)
21”110 V±1 V CRT 54SX503Y22-CD01 A51LVV898X12
4.3 AGC adjustment
Measure the voltage of RF AGC by connecting digital DC voltmeter with TP1, receive weak signal
(40dBu) and the static AGC voltage of TP1 AGC should be V1=4V±0.2V; the receive medium signal
(60dBu), adjust the value of PAGE8 RF. AGC of factory menu and the start-control voltage of TP1 AGC
should be V2=3.5V±0.2.if V2>3.5V, then the voltage is -1 or -2,if V2<3.5V, then the voltage is+1 or+2.
after adjustment the picture should not appear no-sync , distortion and moire.
White balance and screen-grid voltage VG2 adjustment
After enter PAGE3 of factory menu, use remote sensor directly to adjust white balance by pressing the
following digital buttons:
“1”=R.BIAS(+) “2”=G.BIAS(+) “3”=B.BIAS(+)
“4”=R.BIAS(-) “5”=G.BIAS(-) “6”=B.BIAS(-)
press “pp” button to select picture mode→T1→T2→bright→soft→nature→user→ the current picture
mode will be display on the screen.
The T1 mode has the maximum value of brightness and contrast with all the other items min. Value of all
the analog are minimum while in T2 mode.
Before adjustment you should set the following items :SUB-BRIGHT=50, R.B=100, G.B=100,
B.B=100, R.D=100, G.D=15, B.D=100
Adjustment method: 1. press PP button to select T2 picture mode, press CH+/- to select V.K, press vol+
to let the field scanning fail to oscillate, adjust the screen-grid potentiometer on FBT clockwise to let
horizontal bright line just appear on the screen; let the value of G.B unchanged, adjust R-BIAS and
B-BIAS to let the horizontal bright line appear white. If the green horizontal line don’t appear firstly,
fine-turn the screen-grid voltage, the adjust R.B and B.B until red , green and blue just appear. After
adjustment press VOL- to obtain normal field scanning mode.
4.4 Receive grey-scale signal (D8), enter PAGE4 of factory menu, press PP to select T2 picture mode,
3
adjustment SUB-BRIGHT to let picture on the screen microbright.
4.5 receive white balance adjustment signal
enter PAGE3 of factory menu, press PP to select T1 picture mode, let the value of GD unchange, adjust
RD and B.D to let the white part of the picture appear “white”.
4.6 Use white balancer to rectify the white balance under following conditions
colour temperature:12000K+8MPCD
x =0.270± 0.008 Y=0.283±0.008 dark space : 4.5nit, bright space: 60nit
Note:1. Check the white balance of bright field and dark field by receiving monochrome signal or
adjusting the degree of saturation to minimum under maintenance condition, adjust RGB BIAS in dark
field and RGB DRIVE in bright area, adjust bright/dark balance repeatedly until the bright and dark
field have no colour drift.
2. While the colour saturation changed from maximum to minimum, if the dark balance appears
changeable, adjust RY.DC.LVL and BY.DC.LVL (page3) to let it coincide with white balance.
3. If the dark balance appears changeable while connected with DVD, adjust YUV.BY.DC and
YUV.RY.DC (PAGE4) to let it conincide with white balance.
4.7 High voltage and filament voltage check
Connect a high-voltage meter between anode cap of picture tube and the ground, measure the filament
voltage using rms voltmeter, set the picture mode to “standard”, the high-voltage: 24.5KV±1KV of 21”,
22.5KV±1KV of 14”,filament voltage: 6.3±0.1Vrms.
4.8 x -ray protection check
Receive local TV signal, set the picture mode to “standard”, shorten the circuit and measure the
value of TP1-TP2, restart the TV 30 seconds after turn off the power source and it should return to
normal.
4.9 AV function check
according to the owner’s manual require, connect to the AV equipment and the AV interface:
VIDEO IN: 1 Vp-p 75OHM AUDIO IN: (-8±3)dBm>47 kOHM
S interface Y IN: 1 Vp-p 75OHM C IN: 0.3 Vp-p 75OHM
DVD Y IN: 1 Vp-p 75OHM Cr IN: 0.7 Vp-p 75OHM
Cb IN: 0.7 Vp-p 75OHM
4.10 AV parts check
incept to standard the TV signal:
a AV and crossfire and allophone and shake ; b The user control function ana picture model c The remote control function check; d Color pure and converge check.
4.11 leave factory state setup
Picture model (PP) STENDARD
language All the country language
Color system AUTO
C.CAPTION C1
CCD ON MUTE OFF
RECEPTION AIR
AFT ON
4
MTS AUTO
PASSWORD CLEAR
volume 30
4.12 the factory menu adjustment model pre-set
OSD item Pre-set model
P1-60
V SIZE 60HZ field amplitude 50 4.5.1
V SHIFT 60HZ field center 0 4.5.1
H-PHASE 60HZ H-center 9 4.5.1
V LINE 60HZ V-line 15 4.5.1
V SC 60HZ field S-correct 10 4.5.1
V COMP field amplitude compensate 7 fixed
L.BLK Left blanking 3 fixed
R.BLK Right blanking 3 fixed
P3-50
V SIZE 50HZ field amplitude 50 4.5.2
V SHIFT 50HZ field center 0 4.5.2
H-PHASE 50HZ H-center 6 4.5.2
V LINE 50HZ V-line 13 4.5.2
V SC 50HZ field S-correct 10 4.5.2
P5
LINE Level bright line 0 0=normal 1= Level bright line
RB Red cut off 100 4.4 GB Green cut off 100 4.4 BB Blue cut off 100 4.4 RD Red driver 100 4.4 GD Green driver 15 4.4 BD Blue driver 100 4.4
P6
RF AGC RF AGC 30 4.3
SUB-BRI Sub-brightness 127 4.4
SUB-CNT Sub-contrast 31 fixed
SUB-COL Sub-colour 15 fixed
SUB-SHP Sub-definition 15 fixed
SUB-TINT Sub-tint 28 fixed
P7
VOL.FIL Volume control ADC filter 0 fixed
OSD.COT OSD contrast 2 fixed
OSD.HPOS OSD center 6 fixed
AFT
VIF SW IF3=45.75MHZ 3 fixed
Line AFC loop gain and sync
gate switch
1
fixed
5
SIF SW Sound IF0=4.5MHZ 0 fixed
VIDEO LEVEL VIDEO LEVEL 3 fixed
P8
GY ANGLE G-Y demodulation angle 0 fixed
V.R TM Filed scan strting time 0 fixed
R/B ANG R-Y/B-Y demodulation angle 8 Fixed
R/B BAL R-Y/B-Ydemodulation balance 8 fixed
C TRAP Color trap filter 6 fixed
H FREQ H-frequency 16 fixed
C.BPF TEST
Color band filter center
frequency
0 fixed
P9
OVER.MOD.SW
OVER.MOD.LVL
BLK.STR
Selection over-modulation
function
Adjustment over-modulation
working point
Dark level expand starting
control point
0 Fixed,0=nothing 1=have
0 fixed
0 Fixed,0=40IRE 2=60IRE 3-OFF
BLK.GAIN Dark level expand gain 0 Fixed,0=MIN 2=MAX
Y.APF Selection color trap filter 0 0=trap filter,1= direct pass(YcbCr&Y/C)
PRE.ADJ Pre-shoot 3 fixed, 0=narrow 3=width
OVER ADJ overshoot 3 Fixed,a 0=narrow 3=width
C.VCO.ADJ
Color VCO frequency
adjustment
4
fixed,0-4-7=-120KHZ-0-90KHZ
P10
BRT.ABL.DEF Brightness ABL 0 fixed,0=ABL ON 1=ABL OFF
MID.STP.DEF ABL start control point 0 fixed
BRT.ABL.THR ABL threshold 7 fixed
WPL.OPE White peak limit 2 fixed
V BLK.SW Field blanking switch 0 fixed ,0=nomarl;1=width model
FBP BLK SW Horizontal blanking switch 1
fixed,0=inside produce;1=FBP and
inside logic “and”
DC REST DC recover rate 1 fixed,0=100% 1=107%
CD.MODE Field frequency division model 0 fixed,0=auto
P11
CORE GAIN Noise reduction 2 fixed,0=OFF 1=MIN 3=MAX
γ.GAMA
RGB TEMP.SW
RGB DC output
temperature speciality
A.MONI SW Selection pin5 output 1
SVO OR FSC Selection pin5 output 0
r-correct 0 fixed,0=OFF
1 fixed
fixed1=SAO
fixed,0=VIDEO 1=FSC(color sub-carrier wave)
CROSS B/W Selection test signal 0 fixed,0=TV
6
CRAY.MODE Test signal 0 fixed,0=white(75%)1=grey(15%)
P12
BY TV Blue chromatism DC level 8
RY TV Red chromatism DC level 8
BY YUV
RY YUV
S.TRAP.TEST Sound trap filter adjustment 6 fixed
LOW.BRI Min-brightness 28 fixed
LOW.CONT Min-contrast 30 fixed
P13
COL.KILL Achromatic level 5 fixed,0=-30dB 3=-40dB
VCO.FREQ VCO frequency 32 fixed
P14
Y GAIN 0 fixed
Y TH 0 fixed
B OFFSET 0 fixed
B WIDTH 0 fixed
C OFFSET 0 fixed
C WIDTH 0 fixed
CAN.V CHIP V-CHIP 0/1 1=CAN.V-CHIP
OPTION
AV AV selec t i on 3 AV input select(3=AV1/AV2/S/DVD)
MTS MTS IC selection 1/0 0=nothing,1=72700 2=AN5832
V.OFF.MOTE Turn off model 1 0=discharge,1=close
PWR.MEM Turn on model 0/2 0=standby,1=auto turn on,2=memory
1115 select LV1115 0 fixed,0=nothing;1=have
BLCK GROND
N/PN
1115(the unit no use)
VOL.OFFSET
GAIN
PWM LOGIC
AVL M OD E
AVL DET LEVEL
AVL SLOPE
PWM SET
DVD input Blue chromatism
DC level
DVD input Red chromatism
DC level
No signal background
selection
South America and North
America selection
8
8
1
1/0 0=south america;1=north america
4.4 adjustment dark white balance (DVD
4.4 adjustment dark white balance(DVD
0=nothing 1/3=blue background;2=black
4.4 adjustment dark white
balance(TV/AV model)
4.4 adjustment dark white
balance(TV/AV model)
input)
input)
background
7
VOL 1 1% volume control speciality 30 fixed
VOL 25 25%volume control speciality 32 fixed
VOL 50 50%volume control speciality 68 fixed
VOL 75 75%volume control speciality 82 fixed
72700
ALC ALC 1 fixed ,1=ALC ON
VOL
SAP LEVEL SAP level 1 fixed
SIF.M/BB.M SIF and baseband model 0 fixed,0=SIF MODE 1=BB MODE
5832
AGC 1 fixed
Note:above “/” are the adjustment data for north america, below it are for south america.
Baseband model ,input level
adjustment
0 The unit no use
8
IC BLOCK DIA GRAM
LA76931
9
Function introduction to pin
pin function Reference
voltage
(V)
1 SIF output 2.28 64 PIF input1 2.86
2 PIF AGC 2.61 63 PIF input 2 2.86
3 SIF input 3.11 62 IF GND 0
4 FM filter 2.64 61 RF AGC output 4.55
5 FM filter/sound output 2.25 60 Video output 2.30
6 Sound output 2.24 59 AFT filter 2.50
7 SIF APC filter 2.24 58 APC filter 2.60
8 IF VCC(5V) 4.92 57 Black level detection
9 Expanded sound input 2.25 56 Internal video input and
10 ABL 3.21 55 Video, colour and
11 RGB VCC(8V/18Ma) 8.00 54 Expanded video input
12 R ouput 2.65 53 Colour APC filter 3.40
13 G ouput 2.65 52 Selection video output
14 B ouput 2.67 51 Cr input 2.50
15 AKB (undo) 2.31 50 4.43 MHZ crystal 2.73
16 Field sawtooth filter to
capacitance
17 Field output 2.34 48 Y(DVD) input
18 VCO Reference voltage 1.65 47 DDS filter 1.89
19 H/BUS VCC(5V/27mA) 6.81 46 Y(Y/C) input
20 H/APC filter 2.54 45 C(Y/C) input
21 H-output 0.28 44 Retrace impulse input 1.20
22 Video, colour and
deflexion ground
23
x -ray protection,
2.16 49 Cb input 2.50
0 43 CCD VCC 4.50
5.00 42 CPU GND 0
pin function Reference
voltage
(V)
2.50
filter
2.70
S-C input
4.90
deflexion power VCC
2.50
and Y input
2.40
and FSC output
low level availability
24 41 PLL 3.50
25 40 reset 4.00
26 IR control input 4.90 39 Button input 0.32
27 38 TV/AV H=TV L=AV 0
28 POWER H=OFF
0 37 AV1/AV2 5.00
L=ON
29 STAND-BY 5 36 MUTE high level 5.00
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