Haier 21TV6H User manual

Category
CRT TVs
Type
User manual

This manual is also suitable for

SERVICE MANUAL
Colour Television
Haier model:21TV6H
Customer model: HTR21S34
CAUTION READ
THIS MANUAL CAREFULLY TO DIAGNOSE
TROUBLE CORRECTLY BEFORE OFFERING
SERVICE .
.
2
CONTENTS
1. Safety precautions……………………………………………………………..……………3
2. TV block diagram……………………………………………………………………..…….4
3. Replacement of memory IC………………………………………………………….……5
4. Service adjustment……………………………………………………………..…………...5
5. ICs functional description…………………………………………………………………8
6. Test point waveform………………………………………………………………………10
7. All ICs voltages……………………………..……………………………………………….10
8. Purity / convergence adjustment………………………………………………………12
9. CIRCUIT DIAGRAM…………………………………………………………………Attached
10. WIRING CONNECTION DIAGRAM………………………………………………Attached
.
3
1. SAFETY PRECAUTIONS
1. The design of this product contains special hardware, many
circuits and components especially for safety purposes. For
continued protection, no changes should be made to the
original design unless authorized in writing by the
manufacturer. Replacement parts must be identical to those
used in the original circuits. Service should be performed by
qualified personnel only.
2. Alterations of the design or circuitry of the products should
not be made. Any design alterations or additions will void the
manufacturer’s warranty and will further relieve the
manufacturer of responsibility for personal injury or property
damage resulting therefrom.
3. Many electrical and mechanical parts in the products have
special safety-related characteristics. These characteristics
are often not evident from visual inspection nor can the
protection afforded by them necessarily be obtained by using
replacement components rated for higher voltage, wattage,
etc. Replacement parts which have these special safety
characteristics are identified in the parts list of Service
manual. Electrical components having such features are
identified by shading on the schematics and by ( ) on
the parts list in Service manual. The use of a substitute
replacement which does not have the same safety
characteristics as the recommended replacement part
shown in the parts list of Service manual may cause shock,
fire, or other hazards
4. Don’t short between the LIVE side ground and
ISOLATED (NEUTRAL) side ground or EARTH side
ground when repairing. Some model’s power circuit is
partly different in the GND. The difference of the GND is
shown by the LIVE: ( ) side GND, ISOLATED
(NEUTRAL): ( ) side GND and EARTH: ( ) side GND.
Don’t short between the LIVE side GND and ISOLATED
(NEUTRAL) side GND or EARTH side GND and never
measure with a measuring apparatus (oscilloscope etc.) the
LIVE side GND and ISOLATED (NEUTRAL) side GND or
EARTH side GND at the same time. If above note will not be
kept, a fuse or any parts will be broken.
5. If any repair has been made to the chassis, it is
recommended that the B1 setting should be checked or
adjusted (See ADJUSTMENT OF B1 POWER SUPPLY).
6. The high voltage applied to the picture tube must conform to
that specified in Service manual. Excessive high voltage can
cause an increase in X-Ray emission, arcing and possible
component damage, therefore operation under excessive
high voltage conditions should be kept to a minimum, or
should be prevented. If severe arcing occurs, remove the AC
power immediately and determine the cause by visual
inspection (incorrect installation, cracked or melted high
voltage harness, poor soldering, etc.). To maintain the proper
minimum level of soft X-Ray emission, components in the
high voltage circuitry including the picture tube must be the
exact replacements or alternatives approved by the
manufacturer of the complete product.
7. Do not check high voltage by drawing an arc. Use a high
voltage meter or a high voltage probe with a VTVM.
Discharge the picture tube before attempting meter
connection, by connecting a clip lead to the ground frame
and connecting the other end of the lead through a 10k 2W
resistor to the anode button.
8. When service is required, observe the original lead dress.
Extra precaution should be given to assure correct lead
dress in the high voltage circuit area. Where a short circuit
has occurred, those components that indicate evidence of
overheating should be replaced. Always use the
manufacturer’s replacement components.
9. Isolation Check
(Safety for Electrical Shock Hazard)
After re-assembling the product, always perform an isolation
check on the exposed metal parts of the cabinet (antenna
terminals, video/audio input and output terminals, Control
knobs, metal cabinet, screw heads, earphone jack, control
shafts, etc.) to be sure the product is safe to operate without
danger of electrical shock.
10. The surface of the TV screen is coated with a thin film which
can easily be damaged. Be very careful with it when handle
the TV. Should the TV screen become soiled, wipe it with a
soft dry cloth. Never rub it forcefully. Never use any cleaner
or detergent on it.
(1) Dielectric Strength Test
The isolation between the AC primary circuit and all metal
parts exposed to the user, particularly any exposed metal
part having a return path to the chassis should withstand a
voltage of 3000V AC (r.m.s.) for a period of one second.
(…Withstand a voltage of 1100V AC (r.m.s.) to an appliance
rated up to 120V, and 3000V AC (r.m.s.) to an appliance
rated 200V or more, for a period of one second.)
This method of test requires test equipment not generally
found in the service trade.
(2) Leakage Current Check
Plug the AC line cord directly into the AC outlet (do not use
line isolation transformers during this check). Using a
“Leakage Current Tester”, measure the leakage current from
each exposed metal part of the cabinet, particularly any
exposed metal part having a return path to the chassis, to a
known good earth ground (water pipe, etc.). Any leakage
current must not exceed 0.5mA AC (r.m.s.).
However, in tropical area, this must not exceed 0.2mA AC
(r.m.s.).
Alternate Check Method
Plug the AC line cord directly into the AC outlet ( do not use
a line isolation transformer during this check.). Use an AC
voltmeter having 1000 ohms per volt or more sensitivity in
the following manner. Connect a 1500 10W resistor
paralleled by a 0.15μF AC-type capacitor between an
exposed metal part and a known good earth ground (water
pipe, etc.). Measure the AC voltage across the resistor with
the AC voltmeter. Move the resistor connection to each
exposed metal part, particularly any exposed metal part
having a return path to the chassis, and measure the AC
voltage across the resistor. Now, reverse the plug in the AC
outlet and repeat each measurement. Any voltage measured
must not exceed 0.75V AC (r.m.s.). This corresponds to
0.5mA AC (r.m.s.).
However, in tropical area, this must not exceed 0.3V AC
(r.m.s.).
This corresponds to 0.2mA AC (r.m.s.)
.
4
2. Block diagram TDA11115HPS/N2 series with mono intercarrier sound demodulator
5
3. REPLACEMENT OF MEMORY IC
1. MEMORY IC.
This TV uses memory IC. In the memory IC are memorized data for correctly operating the video and deflection
circuits.
2. PROCEDURE FOR REPLACING MEMORY IC
(1) Power off
Switch the power off and unplug the power cord from AC outlet.
(2) Replace IC
Be sure to use memory IC written with the initial data values.
(3) Power On
Plug the power cord into the AC outlet and switch the power on.
(4) Check and set SYSTEM default value:
1) Press “MENU”
Æ
“8”
Æ
“8“
Æ
“9”
Æ
“3” buttons in sequence to enter into factory status.
2) If the memory IC haven’t been written with the initial data, press [Program+] / [Program-] to select item
INIT and press [VOLUME+] / [VOLUME-] to start initialize memory IC.
3) Check the setting value of the SYSTEM default value of Table below. If the value is different, select
items by [Program+] / [Program-] keys and set value by [VOLUME+] / [VOLUME-] keys.
4) Press “EXIT” button to return to the normal screen.
4. SERVICE ADJUSTMENT
Specific operation: use remote controller
Press “MENU”
Æ
“8”
Æ
“8“
Æ
“9”
Æ
“3”buttons in sequence to enter into factory mode.
Press [Program+] / [Program-] to select items and press [VOLUME+] / [VOLUME-] key, to make data adjustment
of corresponding factory menus.
Press “EXIT” key to exit factory mode.
Focus adjustment
1. Receive a crosshatch signal.
2. While watching the screen, adjust the FOCUS VR on the FBT to make the vertical and horizontal lines as
fine and sharp as possible.
Geometrical adjustment
Receive PAL standard complete pattern signal.
Adjustment steps
a) Adjust VSL, to the centre horizontal line just appears from half bottom shadow.
b) Adjust VAM, to get 92% of vertical picture contents would be displayed on CRT.
c) Adjust VSH, the centre horizontal line corresponds to CRT vertical centre.
d) Adjust SCL, to the linearity of P card field is in proper condition.
e) Adjust
HSH, to get the picture horizontal centre correspond to CRT horizontal centre.
Receive NTSC signal and repeat above adjustment.
AGC Adjustment
Receive 60dBμ (1mV) VH colour bar pattern signal.
Select TOP item.
Adjust value, to noise reduce gradually and just disappeared point.
CRT cut off and white balance adjustment
a) CRT cut off adjustment
1. Select item VG2B, then adjust value to 32.
2. PRESS “0” key, when the screen shows”VG2” adjust the SCREEN control on Fly back transformer to
make the screen show alternating flashing characters of “INSIDE HIGH INSIDE LOW”.
b) White balance adjustment
1. Receive a Black and White pattern.
2. Adjust WRP, WRG, WRB items to get colour temperature 9300K ±3 JND.
Adjustable Items
6
Direct access key Items Description Preset Remark
“1” 6HSH/5HSH Horizontal shift
0~63
A
VSD VG2 Brightness
“2” 5/6VSL Vertical slop A
5/6VAM Vertical amplitude A
5/6SCL S-correction A
5/6VSH Vertical shift A
5/6VOF OSD Vertical offset A
HOF* OSD Horizontal offset A
“3”
BLOC
A
COF
A
RED/RED
Black level offset R A
GRN/GRN
Black level offset G A
BLU/BLU
Black level offset B A
WPR/WPR White Point R
A
WPG/WPG White Point G
A
WPB/WPB White Point B
A
CL Cathode drive level 7
A
“4”
AGCT AGC Take-Over
A
AGC SPEED AGC SPEED
A
OIF
8
A
IF
0=38MHz1=45.75MHz
2=38.90MHz
3=33.90MHz
0
FFI EVERADJUST 0
GD
0
MTXF
0
BRIGHTMAX
63
CONTRASTMAX
63
CONTRASTMID
55
HUEMID
32
NOTE: THE ITEMS WITH REMARK “A” IS ADJUSTABLE DATA.
Optional data
1. OP1
Bit Function Description Preset Remark
Bit 0 6HSH/5HSH 0~63 0~63 EA
Bit 1
VSD
0~63 0~63 EA
2. OP2
Bit Function Description Preset Remark
Bit 7 5/6VSL Vertical slop 0~63 EA
Bit 6 5/6VAM Vertical amplitude 0~63 EA
Bit 5 5/6SCL S-correction 0~63 EA
Bit 4 5/6VSH Vertical shift 0~63 EA
Bit 3 5/6VOF OSD Vertical offset 0~63 EA
Bit 2 HOF* OSD Horizontal offset 0~10 EA
Bit 1 5/6VSL Vertical slop 0~63 EA
Bit 0 5/6VAM Vertical amplitude 0~63 EA
3. OP3
7
Bit Function Description Preset Remark
Bit 7 RUSSIA 1=Enable 0 EA
Bit 6 ITALY 1=Enable 0 EA
Bit 5 GERMANY 1=Enable 0 EA
Bit 4 FRANCE 1=Enable 0 EA
Bit 3 RUTKISH 1=Enable 0 EA
Bit 2 ARABIC 1=Enable 0 EA
Bit 1 FARSI 1=Enable 0 EA
Bit 0 ENGLISH 1=Enable 1 EA
4. OP4
Bit Function Description Preset Remark
1
AGCT AGC Take-Over 18
EA
2
AGC SPEED AGC SPEED 2
EA
3
OIF
8
EA
4
IF
0=38MHz 1=45.75MHz 2=38.90MHz
3=33.90MHz
0
EA
5
FFI EVERADJUST 0
EA
6
GD
0
EA
7
MTXF
0
EA
8
BRIGHTMAX
63
EA
9
CONTRASTMAX
63
EA
10
CONTRASTMID
55
EA
11
HUEMID
32
EA
5. OP5
Bit Function Description Preset Remark
1
0BRI Soft: Brightness 40
EA
2
0COL Soft: Color 40
EA
3
0CON Soft: Contrast 40
EA
4
0SHP Soft: Sharpness 50
EA
5
1BRI Standard: Brightness 50
EA
6
1COL Standard: Color 50
EA
7
1CON Standard: Contrast 50
EA
8
1SHP Standard: Sharpness 20
EA
9
COLORMID COLORMID 26
EA
10
BRIGHTNESSMID BRIGHTNESSMID 32
EA
11
VOLUMEMID VOLUMEMID 32
EA
6. OP6
Bit Function Description Preset Remark
1
2BRI Dynamic: Brightness 60
EA
2
2COL Dynamic: Color 60
EA
3
2CON Dynamic: Contrast 80
EA
4
2SHP Dynamic: Sharpness 50
EA
5
PFP4
0=2.7MHz 1=3.1MHz
2=3.5MHz 3=4MHz
0
EA
6
PFN4
0=2.7MHz 1=3.1MHz
2=3.5MHz 3=4MHz
2
EA
7
PFAV
0=2.7MHz 1=3.1MHz
2=3.5MHz 3=4MHz
0
EA
8
RPA
1
EA
9
RPO
1
EA
10
CHROMATRAP
2
EA
11
CHSE
3
EA
8
7. OP7
Bit Function Description Preset Remark
1
HBL
1=Enable 1 EA
2
WBF
0 EA
3
WBR
0 EA
4
BLUESCREEN
1=Enable 1 EA
5
OSD
0 EA
6
FADE
1=Enable 0 EA
7
AV2
1=Enable 1 EA
8
SVHS
1=Enable 1 EA
9
YUV
1=Enable 1
8. OP8
Bit Function Description Preset Remark
1
INIT
1=Enable 0 EA
2
LOGOYEND
1=Enable 1 EA
NoteDon’t adjust any OPTION items, please inform the engineer about any change.
5. ICs functional description
1. N201 UOC OM11115H
SYMBOL PIN DESCRIPTION
STAND BY output. 1 In STAND BY mode, low level (Power OFF).
For Power ON this pin will be high.
SCL 2 I
2
C-bus clock line
SDA 3 I
2
C-bus data line
TUNING 4 tuning Voltage (Vt) PWM output
KEY 5 Control keys input
SYSTEM 6 TV system control
VOL 7 Sound Volume control PWM output
MUTE 8 Sound mute output
VSSC/P 9 Digit ground for μ-controller core and periphery
CTL 10 DVD power control
STANDBY 11 STANDBY control
VSSA 12 Analog ground of digital ground of TV-processor
SECPLL 13 Internally connected
VP2 14 2
nd
supply voltage TV-processor(+8V)
DECDIG 15 decoupling digital supply of TV-processor
PH2LF 16 Phase-2 filter
PH1LF 17 Phase-1 filter
GND3 18 Ground 3 for TV-processor
DECBG 19 Band gap decoupling
AVL/EWD 20 Automatic volume levelling
VDRB 21 Vertical drive B output
VDRA 22 Vertical drive A output
IFIN1 23 IF input 1
IFIN2 24 IF input 2
IREF 25 Reference current input
VSC 26 Vertical sawtooth capacitor
9
TUNER AGC 27 Tuner AGC output
AUDEEM/SIFIN1 *1 28 Audio deemphasize or SIF input
DECSDEM/SIFIN2 29 Decoupling sound demodulator
GND2 30 Ground 2 for TV processor
SNDPLL/SIFAGC *1 31 Narrow band PLL filter
AVL 32 Automatic Volume Levelling
HOUT 33 Horizontal output
FBISO 34 Flyback input/sandcastle output
AUDEXT 35 External audio output
EHTO 36 EHT/over voltage protection input
PLL IF 37 IF-PLL loop filter
IFVO/SVO 38 IF video output / selected CVBS output
VP1 39 supply voltage TV processor
CVBS INT 40 internal CVBS input
GND1 41 ground for TV processor
CVBS/Y 42 CVBS/SVHS(Y) input
CHROMA 43 SVHS (C) input
AUDOUT 44 Audio output
INSSW2 45 YUV insertion input
R2/VIN 46 R input / V (R-Y) input / PR input
G2/YIN 47 G input / Y input
B2/UIN 48 B input / U (B-Y) input / PB input
BCLIN 49 Beam current limiter input
BLKIN 50 Black current input
RO 51 Red output
GO 52 Green output
BO 53 Blue output
VDDA 54 Analog supply of Closed Caption decoder and digital supply of TV-processor (3.3 V)
VPE 55 Ground
VDDC 56 Digital supply to core (3.3 V)
OSCGND 57 Oscillator ground supply
XTALIN 58 Crystal oscillator input
XTALOUT 59 Crystal oscillator output
RESET 60 Ground
VDDP 61 Digital supply to periphery (+3.3 V)
P1.0/INT1 62 AV1 / AV2 mode Output.
P1.1/T0 63 AV /S-VHS mode Output.
P1.2/INT0 64 Remote control signal input.
Note
Pin TV SVHS AV1 AV2
62 1 0 0 1
63 1 1 0 0
2. N202 24C08/PCF8598
PIN Function
1 GND
2 GND
3 Upper resistance
4 GND
5 SDA data wire
6 SCL clock wire
7 GND
8 +5V Power
3. N601: Sound power amplify (TDA1517P)
Symbol PIN Function Symbol PIN Function
Vcc 1 Power supply GND 7 ground
Out 1 (+) 2 Ch 1 output (+) In 2 8 Ch 2 input
GND(out 1) 3 Ch 1Ground VOL 9 Volume Control
Out 1 (-) 4 Ch 1 output (-) Out 2 (-) 10 Ch 2 output (-)
Standby 5 Mute input GND(out 2) 11 Ch 2 Ground
In 1 6 Ch 1 input Out 2 (+) 12 Ch 2 output (+)
10
4. N301: Vertical output (TDA4864)
Symbol PIN Function Symbol PIN Function
INV IN 1 Input PUMP UP 6 Pump up power
INV IN 2 Input V OUT 7 Vertical output
Vcc 3 Pump up power V PRO 8 Vertical protection
V OUT 4 Vertical output V FEEDBACK 9 Vertical feedback
GND 5 Ground
5. U101
Tuner
PIN Function PIN Function
1 AGC 7 +5V
2 vacant 8 vacant
3 Gnd 9 Vt 33V
4 SCL 10 Gnd
5 SDA 11 IF Out
6 +5V
6. Test point Waveforms
7. IC voltages
TDA11115H
PIN 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16
V 0 3.8 3.6 3.3 3.5 4.4 5.1 1.8 0 0.18 0.17 0 2.3 8 5 3
PIN 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32
V 4 0 4 0.5 0.7 0.8 1.9 1.9 3.9 3.8 1.6 3.2 2.3 0 2.3 0.2
PIN 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48
V 0.5 0.3 0 1.7 2.4 3.4 8 3.9 0 3.3 0 3.6 1.4 2.5 2.5 2.5
PIN 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64
V 1.9 5.0 2.4 2.4 2.4 3.1 0 3.2 0 1.8 1.7 0 3.2 5.1 3.3 5
5Vpp
0.9Vpp
1.3Vpp
H
H
1Vpp
V
CRT KB
CRT KG CRT KR
95Vpp
95Vpp
95Vpp
H
H H
TDA1115IN40
2.5Vpp
2.5Vpp
3.8Vpp
H H
H
TDA1115IN40
TDA1115IN40
TDA1115IN40
TDA1115IN40
0.8Vpp
V
TDA1115IN40
TDA1115IN40
TDA1115IN40
1.2Vpp
2.6Vpp
H
H
TDA1115IN40
TDA1115IN40
11
TDA4864
PIN 1 2 3 4 5 6 7 8 9
V 0.8 0.7 16 6.9 0 43 7.2 0.3 7.2
TDA1517
PIN 1 2 3 4 5 6 7 8 9 10 11 12
V 10 4.4 0 4.4 2.75 1.4 0 1.4 0.35 4.4 0 4.4
24C08/PCF8598
PIN 1 2 3 4 5 6 7 8
V 0 0 5.1 0 3.2 0 0 5.1
12
8. PURITY / CONVERGENCE ADJUSTMENT
PURITY ADJUSTMENT
1. Demagnetize CRT with the demagnetizer.
2. Loosen the retainer screw of the deflection yoke.
3. Remove the wedges.
4. Input a green raster signal from the signal generator,
and turn the screen to green raster.
5. Move the deflection yoke backward.
6. Bring the long lug of the purity magnets on the short
lug and position them horizontally. (Fig2)
7. Adjust the gap between two lugs so that the GREEN
RASTER will come into the centre of the screen.
(Fig. 3)
8. Move the deflection yoke forward, and fix the position
of the deflection yoke so that the whole screen will
become green.
9. Insert the wedge to the top side of the deflection yoke
so that it will not move.
10. Input a crosshatch signal.
11. Verify that the screen is horizontal.
12.
Input red and blue raster signals, and make sure that
purity is properly adjusted.
CRT
WEDGE
DEFLECTION YOKE
P
4
6
P: PURITY MAGNET
4: 4-POLES
(convergence magnets)
6: 6-POLES (convergence magnets)
P/C MAGNETS
Fig. 1
PURITY MAGNETS
Long lug
Short lug
Bring the long lug over the short lug and
position them horizontally.
Fig. 2
(FRONT VIEW)
GREEN RASTER
CENTER
Fi
g
. 3
13
STATIC CONVERGENCE ADJUSTMENT
1. Input a crosshatch signal.
2. Using 4-pole convergence magnets overlap the red
and blue lines in the center of the screen (Fig. 1) and
turn them to magenta (red/blue).
3. Using 6-pole convergence magnets overlap the
magenta (red/blue) and green lines in the center of the
screen and turn them to white.
4. Repeat 2 and 3 above, and make the best
convergence.
DYNAMIC CONVERGENCE ADJUSTMENT
1. Move the deflection yoke up and down and overlap
lines in the periphery. (Fig. 2)
2. Move the deflection yoke left to right and overlap the
lines in the periphery. (Fig. 3)
3. Repeat 1 and 2 above, and make the best
convergence.
After adjustment, fix the wedge at the original position.
Fasten the retainer screw of the deflection yoke.
Fix the 6 magnets with glue.
9 CIRCUIT DIAGRAM
(FRONT VIEW)
Fig. 1
(FRONT VIEW)
RED GREEN BLUE
BLUE
RED
GREEN GREEN
RED BLUE
BLUE GREEN RED
Fig.2
(FRONT VIEW)
RED GREEN BLUE BLUE GREEN RED
RED
GREEN
BLUE
BLUE
GREEN
RED
Fig. 3
1 2 3 4 5 6 7 8 9 10 11 12
A
B
C
D
12
1110987654321
D
C
B
A
R806
2.2/1W
R801
2.2K
Gnd
1
R809
3.3
1
R808
3.3
1
R810
330
R807
2.2/1W
C809
47nF/100V
R815
5.6
D801
BYD33D
+
C806
220uF/25V
+
C805
100uF/50V
+9V
V
H
L901
H-LINE
EHT
D901
BYD33G
D902
BYD33G
R908
2.2/0.5W
D905
BYD33J
C910
470pF/500V
Focus
G2
+
C808
220uF/25V
+
C605
220uF/10V
+
C911
22uF/250V
R909
220K
R802
2.2K
+
C915
1uF/160V
7
R907
3.9
+
C908
4.7uF/160V
Gnd
+110V
1
2
3
4
X901
RGB Supply
R912
2W 3.9
R911
1K
R925
6.8K
R603
1.8K
C912
47nF
D301
1N4148
+3.3stb
Gnd
R301
4.7K
ZD901
BZX79C15V
R919
680
R918
1K
D908
1N4148
R328
39K
T901
H-DRIVER
2
R902 270
C902
4700pF/500V
R905 2.2K
+
C901
47uF/50V
+24V
R901 100
R906
82
Gnd
C906
680pF/2KV
C907
8n2/2KV
C918
390n/400V
R608
10K
C346
100nF
+
C609
470uF/25V
C608
22nF
Gnd
Gnd
Gnd
Gnd
R610
1/1W
+16V
Gnd
R926
1.8K
R607
47K
V601
C1815
V602
A1015
R605
10K
D602
1N4148
+
C610
100uF/16V
Gnd
1
2
3
X602
Speaker1
1
2
X601
Speaker2
AGC
1
VT
2
Hi/n.c.
3
Mi/BS1(SCL)
4
Lo/BS2(SDA)
5
V+
6
i.c.(V+)
7
i.c.
8
i.c.(+33V)
9
IFGND
10
IF
11
U201
TUNNER
+
C201
10uF/16V
+
C607
220uF/16V
Gnd
V202
C1815
V201
BF370
C210
10nF
C212
10nF
R212
2.2K
R216
22
R215
180
R211
4.7K
Gnd
L202
1uH
C215
10nF
R217 10
Gnd
R219
4.7K
R218
3.3K
R220
2.2K
R221
56K
D201
BAT81
Gnd
Gnd
Gnd
+5V
WP
1
n.c.
2
A2
3
Vss
4
Vdd
8
PTC
7
SCL
6
SDA
5
N302
AT24C16
R362
100
R361 100
R360 100
R330 12K
Gnd
+5Vstb
C343
100nF
C306
10nF
C308
6.8nF
+
C348
10uF
R340
10K
C345
100nF
L305
1.5uH
C317
150nF
R308
39K
R331 470
C331
100nF
C322
100nF
R348
470
R339
100
R201
10K
C320
22nF
+
C202
100uF/16V
L201
10uH
+5V
R352
4.7K
Gnd
Z301
24.576MHz
C357
22nF
C371
27pF
R511
10K/2W
R202
100
R367 82
ZD201
UPC574
Gnd
+105V
R365
3.3K
R366
3.3K
C362
27pF
C361
27pF
Gnd
L309
1.5uH
C342
22nF
L308
1.5uH
L302
1.5uH
Gnd
Gnd2
+3.3stb
+5V
Gnd
R329
33K
C311
10nF
Gnd1
C305
22nF
1
R917
4.7K
ZD902
BZX79C5V1
R310
680
+
C325
47uF
t
o
RT501
T120
C355
22nF
R305
100
C316
1nF
C315
1nF
R302
12K
L501
POWER-FILTER
1
R501
220K
C501
0.1uF/275VAC
C502
0.1uF/275VAC
C507
1000pF/1KV
C506
1000pF/1KV
C508
1000pF/1KV
C509
1000pF/1KV
D501
1N5061
D502
1N5061
D506
1N5061
D505
1N5061
F501
3.15A/250VAC
7
R502
3.9
R521
22K
R510
470
R507
620
R517
22K
R516
1.5K
+
C511
150uF/400V
C505
2200pF/400VAC
D507
BYD33J
D508
BYD33J
D509
BYD33J
D510 1N4148
C517
3900pF/50V
C515
47nF/50V
C519
10nF
C516
1000pF/1KV
R519
12M/RS11
Gnd
1
2
X502
CON2
D511
BYV95C
D512 BYD33D
D515
BYD33D
D516
BYV95A
C521
470pF/1KV
C525
470pF/500V
C536
470pF/500V
C532
470pF/500V
+
C522
220uF/160V
R522
15K
R525
100K
R515
1K
R526
10K
V506
C1815
RP501
15K
Gnd
R527
2.4K
V507
C1815
R535
1/0.5W
+
C526
100uF/35V
Gnd
+24V
R536
0.47/0.5W
In Out
Gnd
N506
7805
Gnd
Gnd
+
C530
100uF/16V
Gnd
+
C531
100uF/10V
+
C302
100uF
+
C539
1000uF/16V
R538
22/1W
R537
1.8K
Gnd
Gnd
+5V
+3.3stb
+
C538
100uF/10V
Gnd
+
C535
470uF/25V
Gnd
+16V
Gnd
R508
68K
R509
68K
Gnd
C373
27pF
C370
27pF
R336
4.7K
L301
1.5uH
Gnd
R356 47
+
C312
10uF/16V
Gnd3
R337
100
R316
470
L307
1.5uH
Gnd
Gnd
Gnd
Gnd
Gnd
Gnd5
R312 390
R342
100
R341
100
+
C341
10uF/16V
+
C307
1uF
R358 10K
+5V
R306
100
C351
22nF
C347
100nF
+
C350
100uF/10V
C360
10nF
Gnd
Gnd
+
C352
4.7uF/16V
+
C310
1uF
R345
100
C905
1000pF/500V
V901
C2383
Gnd
+5V
GND
R325 100
Gnd
+8V
ZD505
BZX79C5V1
R539
270
R601
1.8K
Gnd
+5Vstb
+
C321
10uF
R351
47
R321 100
C801
1nF
C802
1nF
R805
220 1W
R205
100
V510
C1815
V511
C1815
R540
1K
R541
1K
ZD506
BZX79C2V7
standby
V902
BU4508DZ
D906
BYD33J
15V
-15V
R920
470K
C807
47nF
L801
2uH
ABL
R347
470
R609 1K
C603
4700pF
110V
+5V
R915
2.2K 1W
R346
470
Gnd
+
C339
1uF/16V
+
C602
0.47uF/16V
+
C601
0.47uF/16V
Z201
D1510C
1
2
3
4
5
X301
RGB.AMP
Gnd1
L505
2uH
+
C510
47uF/50V
N505
KA431
1
2
3
4
5
VFB VCC
SYNC
N502
KA5Q0765BT
Gnd
Gnd
Gnd
R506
10
V509
BPSS5140S
R532
1.5K
R531
10K
Gnd
Gnd
1
23
4
N501
PC817
C356
22nF
Gnd
C309
220nF
R338
100
VP1
1
VP3
2
VP2
3
GND
4
Vout
5
IN-
6
IN+
7
N801
TDA4864AJ
Gnd
SCL
SDA
STBY
IR
V305
C1815
V301
C1815
V302
C1815
IF1
IF2
TV Audio
TV Audio
FBLY
Hout
Cr
Y
Cb
ABL
Mute
LED
Main-L
Vert-
Vert+
FBLY
EHT/Protect
ABL
AGC
Mute
MAIN L
MAIN R
AV2
AV1
AGC
SDA
SCL
IF2
IF1
Vert+
Vert-
+9V
Hout
SYS
STBY
+9V
Out1
4
SVRR
3
SGND
2
-INV1
1 18
17
16
15
-INV2
9
M/SS
8
Vp
7
Out2
6
PGND
5 14
13
12
11
10
N601
TDA1517P
Heatsink
SVO
SVHS-C
TV Audio
R528
1/0.5W
SYS
EHT/Protect
R311
10K
R309
68K
R357
47
KEY
C329
100nF
Gnd
R611
3.3K
C206
27pF
Gnd
Gnd
C301
100nF
+
C326
47uF
+9V
R315
10
C207
27pF
R319 100
D909
1N4148
R350
27
R349
10K
Gnd
+9V
WISP
Normal
R335
1K
R332
1K
Haier TV 0.32
1
2
3
4
X302
IIC
Gnd
SDA
SCL
5VSTB
R927
390*
+
C303
10uF
+
C358
1uF
C338
1nF
ZD301
BZX79C8V1
Gnd2
+5V
SVO
R326 100
R327
100
+
C337
0.47uF
Gnd
+5V
+
C336 0.47uF
C328
100nF
C372
27pF
TV Audio L
C335
1nF
R320 10K
R322 10K
L306
1.5uH
C349
100nF
Gnd3
TV Audio
C604
4700pF
Main-R
1
2
3
4
X305
Front Cinch
R369 10K
R368 10K
Gnd
AV2
X105
S105
Front AV
C374
27pF
R612
470
V603
C1815
R355
4.7K
Gnd
STBY Aud
STBY Aud
X307
R602
22K
R604 22K
+
C205
10uF/50V
T902
FBT-3
8
2
1
10
3
4
5
6
7
9
P2.5
1
P1.2
2
P1.3/SYS
3
Int GND
4
XTALIN
5
XTALOUT
6
DECDIGNEG
7
VGURAD
8
DECDIG
9
VP1
10
PH2LF
11
EHTO
43
GND3
46
HOUT
45
EWD/ABL
16
VDRB
17
FBISO/SAND
44
IREF
22
32
SVO
31
VP2
30
VCC8V
29
PLLIF
28
GND2
27
DECSDEM
26
AGCOUT
25
AVL
24
23
PHILF
12
GND1
13
SECPLL
14
BCLIN
55
VIFIN1
19
G3/Y3/CVBS3
52
R3/CR3/C2/C3/C4
51
YOUT
49
DECBG
15
VDRA
18
VDDA1 3.3V
60
VP4
54
B3/CB3
53
INSW3
50
IR
64
YSYNC
48
33
LSR
40
AUDOUT
41
CVBS2/Y2
36
BLK/SVM
56
VPE
61
GOUT
58
ROUT
57
VP3
47
42
CVBS4/Y4
34
AUDIN2/IN1L
35
AUDIN3/IN1R
37
C2/C3/C4
38
LSL
39
GND5
62
AV2/P2. 4
80
AV1/P3. 3
79
P3.2/LED
78
KEY/P3.1
76
MUTE/P3.0
75
STBY Aud/P2.3
74
Band2/P2.2
73
VDDP 3.3V
70
Tuning/P2.0
71
P1.7/SDA
69
P1.6/SCL
68
P1.3/T1(DVD)
67
DEGAUSS
66
STBY
65
VDDC3V3
63
77
VIFIN2
20
VSC
21
Band1/P2.1
72
BOUT
59
N301
TDA11106H
+
C380
10uF/16V
+5V
Gnd
R389100
R381
100
C375
22nF
C377
22nF
C376
22nF
+5V
C378
22nF
R371
82
R387 470
R385
220
R379
68
R378
82
Gnd
R375
100K
R377
82
R376
82
+
C381
10uF/16V
R388100
R372 100K
Audio 1-R
Audio Mono Out
Audio Mono Out
Video 1
Video out
Audio 1-L
Y
Cb
Cr
R370
82
+
C379
220uF/10V
R380
100
V306
A1015
X311
AV-1SOC KET-9
X310
S-VHS
Y
Gnd
SVHS-Y/Video1
SVHS-C
Gnd
1
2
3
4
5
E
6
Vee
7
Vss
8 9
10
11
12
13
14
15
Vdd
16
0
1
2
3
0
1
2
3
2 TO 4Decoder
A0
A1
N303
HEF4052
Cb
Cr
Rear AV
Gnd
Gnd
R363 1K
R364
1K
AV1
AV2
AUDIN1L
AUDIN1R
LR Video
R386 470
R354 4.7K
DVD Power
D513
BYV95A
C513
470pF/500V
+
C514
1000uF/10V
Gnd
1
2
3
4
X503
DVD Power
Gnd
IN
1
OUT
2
GND
3
SW
4
N503
78R05
+
C523
10uF/16V
Gnd
+
C524
100uF/10V
Gnd
DVD power
R923
470 1/2W
ZD903
BZX79C12V
+
C533
100uF/16V
Gnd
5V
12V
1
2
3
X370
Int.DVD
Gnd
Gnd
+
C330
0.47uF
+
C332
0.47uF
+
C914
100uF/25V
R523
1/0.5W
+
C344
1uF
Status 4052PIN9 4052PIN10
00
01
10
11
IntDVD
AV1
AV2
TV
TOPPIN67
1
0
0
0
1
2
X501
220V AC input
R353 4.7K
Deuauss
R717
1.5K/RS11
R718 1.5K/RS11
R719 1.5K/RS11
C710
1000pF/2KV
1
X702
G2
Gnd
1
X700
GND
Gnd
R711
47
V707
BF422
C707
470pF
R715
220
R712
15K
R
G
B
R707
47
V705
BF422
C706
470pF
R708
220
R709
15K
R70147
V701
BF422
C701
470pF
R702
220
R705
15K
EHT
G1 G2 G3
KR
KG
KB
X701
TUBE
S701
CON-05
S702
CON-04
180V
Heating
R703
270
+
C703
4.7uF/250V
D703
BAV21
ZD302
BZX79C5V1
Gnd
C365
22nF
1
2
3
X310A
Int DVD
R333 100
B
G
R
TV Audio R
Gnd
R811
5.6
1
2
3
7
16
10
13
11
15
12
18
4
5
6
17
14
T501
TRANSFORMER5
Gnd
1
2
3
4
X902
Deflicat ion
V390
C1815
R390 1K
R391
2.2K
R392
820K
+
C340
1uF
R343
1K
+9V
C382
56pF
C383
56pF
C384
56pF
Gnd Gnd Gnd
Gnd
+
C101
10uF/16V
1
2
3
CP101 IR
+5Vstb
Gnd
Gnd
SW102
KEY
SW103
KEY
SW104
KEY
SW105
KEY
SW106
KEY
R102
470
R105
620
R106
1K
R107
1.2K
R108
1.8K
SW107
KEY
GndGndGndGndGndGnd
Gnd
PROG+ AV/TVPROG- MenuVOL-VOL+
LED
KEY
+5Vstb
IR
D101
LED
14
S102
KEY
Gnd
S101
IR
12
Gnd
1
2
X306A
KEY
1
2
3
4
X302
IR
HEATER
Text
X701
X501
X502
CONTROLBAND
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Haier 21TV6H User manual

Category
CRT TVs
Type
User manual
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