1
70GS-62S
MODEL 70GS-62SDE / GG / IT
SHARP CORPORATION
PAL BG SYSTEM COLOUR TELEVISION
SESG70GS62S00
SERVICE MANUAL Issued: 30th May 01
This document has been published to be used for after sales service only.
GA-10 CHASSIS
In the interests of user safety (required by safetyregulations in some countries) the set should restoredto its original condition and only parts identical tothose specified should be used.
ADJUSTMENTS PROCEDURES......................7STEREO LED FLASHING CODES..................11 PARTS LISTING..............................................38
CONTENTSELECTRICAL SPECIFICATION........................3IMPORTANT SERVICE NOTES........................4CONTROL & TERMINALS.................................5
SCHEMATIC DIAGRAM..................................31
PRINTED WIRING BOARDS..........................12 PACKING OF THE SET & ACCESSORIES....46
CHASSIS LAYOUT...........................................16
ICs ADITIONAL INFORMATION.....................21COMPONENT LOCATION TABLES................16
2
70GS-62S
Use this page to keep any special servicing information as Technical Report (Bulletin), Technical Information, etc.If only part number changes are required, just change part number directly the part number in the Parts Listing Section.If you need more information, please refer to the Technical Report (Bulletin).
SERVICE MANUAL UPDATE LOG SHEET
Part No.Technical Report No.Technical Bulletin No.
Cause / Solution Page No. ApplicationData /Serial No.
3
70GS-62S
ELECTRICAL SPECIFICATIONS
•Focus ....................... High Bi-Potential Electrostatic
•Sweep Deflection ..................................... Magnetic
•Picture Intermediate frequency................... 38.9MHz
•Sound Carrier Trap................................... 33.4MHz
•Adjacent Sound Carrier Trap ................... 40.4MHz
•Adjacent Picture Carrier Trap.................. 31.9MHz.•Aerial Input Impedance
VHF/UHF ...................... 75 ohm Unbalanced
•Tuning Ranges........... 48.25 MHz thru 855.25 MHzVHF: E2-E12 CH S1-S41 CH (Hiperband)UHF: E21-E69 CH
•White LevelSet brightness control to get total picture tube cathode current of 600 milliammeter under no signalcondition. Maximum necessary correction of each picture tube cathode current to get 8900 de-grees K-20 MPCD screen temperature should not exceed 15% of its original value.
X=0.290 Y=0.300
WARNING
The chassis in this receiver is partially hot. Use an isolation transformer between the line cord plugand power receptacle, when servicing this chassis.To prevent electric shock, do not remove cover. No user-serviceable parts inside. Refer servicing toqualified service personnel.
Specifications are subject to change without prior notice.
•Power Input .................... 220V-240 Volts AC 50Hz
•Power ConsumptionNormal Operation ...................................87WStand-by Operation ..................................1W
•Audio Power Output Rating (MPO) / ImpedanceInternal Left Speaker ...................... 10W, 7ΩInternal Right Speaker .................... 10W, 7Ω
•SpeakersLeft / Right ...................................... 12 x 6cm
•ConvergenceStatic (Centre) ........ between any two coloursDynamic ..................... after static equals zero
MODEL DESTINATION & DIFFERENCES:70GS-62SDE: Germany, Austria. Particular Operation Manual.70GS-62SGG: Greece. No Operation Manual from Factory.
Greek Teletext (NVM: Page 00, Position 95, Value: 03 05).70GS-62SIT: Italy. Particular Operation Manual.
4
70GS-62S
IMPORTANT SERVICING NOTESOnly qualified service personnel are allowed to carry out maintenance and repair of this receiver.
SERVICING OF HIGH VOLTAGE SYSTEM AND CRTIt is important that the static charge is removed from the high voltage system when carrying out workon the receiver. This can be achieved by connecting a 10K resistor (with a suitably insulated lead) fromthe CRT cavity connector to the CRT ground tag. This must be carried out with the AC supply discon-nected from the receiver.Note the following:• The CRT in this receiver employs Integral Implosion Protection.• If the CRT has to be changed it MUST be replaced with the correct type for continued safe
working• DO NOT lift the CRT by its neck.• When handing the CRT, ensure that shatterproof goggles are worn.• Ensure that the CRT is discharge before handling.
X-RAYThis receiver is designed to keep any x-ray emission to an absolute minimum. Some fault conditionsand servicing procedures may produce potentially hazardous x-ray radiation levels. This is a problemwhen in close proximity to the receiver for long periods of time. To reduce any risks associated withthis, please observe the following precautions:
1. When undertaking any servicing on this chassis, DO NOT increase the EHT to more than 29.9 KV, (at a instantaneous beam current of 1300µΑ).2. Ensure that during normal operation the EHT does not exceed 27KV±1.5KV (at a beam current of 1000µΑ). This level has been preset in the factory. Always check that this level has not been ex-
ceeded after carrying out any repair on the receiver.3. DO NOT replace the CRT with any other type than that specified in the parts listing as this may cause excessive x-ray radiation.
BEFORE RETURNING THE RECEIVER TO THE CUSTOMERIn addition to the above checks, the following should also be carried out before returning the receiverto the customer.
1. Inspect all the leads to ensure that they are dressed correctly and that they are not obstructed or pinched by any other parts.2. Ensure that all protective devices are in good condition. These will include nonmetallic control knobs, insulating fish papers, cabinets backs, compartment covers or shields, mechanical insulators, etc.
5
70GS-62S
TV 1. Stand-by ON/OFF switch (TV)
Video 2. Power ON / OFF switch (VCR)
TV 3. Digit buttons 0 ∼ 94. Flashback button
Teletext 5. Colour button (green)6. Colour button (red)
TV 7. Volume Down/Cursor control Left8. Menu button
Teletext 9. Reveal button10. List selector11. Store button12. Cancel button13. Top/ Bottom/Full button14. Reset button
Video 15. Rewind/picture search/reverse16. Play button17. Pause / Still button18. Stop button
TV 19. TV / VIDEO selector20. Channel call button21. Single/Double entry
Teletext 22. Colour button (yellow)23. Colour button (blue)
TV 24. Channel Up/Cursor control Up25. Volume Up/Cursor control Right26. Channel Down/Cursor control Down27. TV button / Subtitle
TV/Teletext 28. Time button
TV 29. Sound mode selector
Teletext 30. Hold button
TV 31. Sound Mute button
Teletext 32. Text/Mix button33. Index button
Video 34. Channel Up selector35. Fast forward/picture search/forward36. Channel Down selector37. Record button
8
?
I i
LIST
X
TV / VCR / TEXT REMOTE CONTROL
G1061SA
TV/VIDEO
0
MENU
CH
VCR
S
I/II/I+II
TV VCR
TV
CH
CH
2
5
1
4
7 9
6
3
32.
34. 33.
31.
35. 36. 37.
30. 29.
27.
28.
25.
26.
24. 23.
20.
19.
21.
22.
2.
3.
1.
4.
5.
6.
7.
8.
9.10.11.
13.14.15.16.17.18.
12.
REMOTE CONTROL
6
70GS-62S
CH
1 5 3 2 6 6 4 8 7
/ I / II OPC
FRONT TV
1. Main PowerOn/Off Switch
2. Power Indicator
3. Program Selector(UP/DOWN)
4. Volume Buttons(UP/DOWN)
5. Remote Control Sensor
6. Sound Indicator
7. Remote Control Indicator
8. DOOR
Behind the door
9. Headphone Socket(3.5 mm Ø / 16~600 )
HOW TO OPEN THE DOOR
Press the top of the door, opening it slightly.Hook your finger inside and pull open.
OPC
REAR TV
RF Input1. Antenna terminal
21-pin In/Out2. 21-pin Euro SCART (RGB)3. 21-pin Audio/Video (AV-1)
With S-Video Input
9
AV/TERMINAL
SCART PERITELEVISION
2
3
1
CONTROLS & TERMINALS
7
70GS-62S
ADJUSTMENT PROCEDURESAll adjustments to this chassis, except for focus, are carried out in the service mode.
••••• SERVICE MODEThe service mode is provided to enable the engineer to correctly set up the receiver to the CRT fitted in the set.Note that these adjustments may vary from one receiver to another.
To enter the service mode, carry out the following procedure.1. Connect a test pattern to the antenna terminal.2. Tune the receiver to this signal.3. Turn the receiver off using the mains switch.4. Press volume down and channel up buttons on the front of the receiver at the same time. See Fig.1.5. Keeping these buttons pressed, turn the mains on. See Fig.1.6. When the set starts up it will be in service mode.7. Release the two buttons.
••••• Use the channel up and down buttons to move between the options.••••• Use the volume control buttons to change the data.••••• To store the data, use the stand-by button on the remote control.••••• To exit the service mode, turn the receiver off using the mains switch.
When the service mode is entered the following On Screen Display appears
-SERVICE SOFTWARE AND HEXADECIMAL COUNTER DISPLAY:SW ON XXXX SW OFF XXXX HOURS ON XXXX
The figures displayed in the XXXX locations are hexadecimal representations of the number of times that particularfunction has been executed. For example if the hexadecimal number displayed after SW ON was 0E4A, this wouldcorrespond to the receiver being turned on 3658 times.
Adjustment menu:
The following adjustments can be carried out in the service mode.
• Horizontal Shift• East West Width• Pin Phase• Pin Amp• Corner Amplitude• Corner Symmetry• Vertical Linearity• Vertical Angle• Vertical Bow• Vertical Amplitude• S Correction• Vertical Shift• Red Gain• Green Gain
• Blue Gain• Red Cut Off• Green Cut Off• Blue Cut Off• Alter NVM Page• Alter NVM Position• Alter NVM Value• Teletext Mix Mode Contrast• Teletext Contrast• OSD Contrast• DVCO Adjustment (Only PAL)• DVCO Adjustment (Only NTSC)• AGC Adjustment• Auto Installation On/Off
8
70GS-62S
The following geometry adjustments can be carried out. Detailed instructions on how to execute these are given onthe following pages
Horizontal
• Horizontal Shift• E-W Width• Pin Phase• Pin Amp• Corner Amplitude• Corner Symetry
Vertical
• Vertical Amplitude• S Correction• Vertical Shift• Vertical Linearity• Vertical Angle• Vertical Bow
Just in case the TV set requires a full geometries adjustment, please proceed first withVertical according to the above order, and after that, adjust Horizontal according to theabove order.
Horizontal ShiftAdjust the horizontal shift so that the picture is centred.The effect of this adjustment is shown in figure 2.
• When the volume up button is pressed, the picture moves to the right.• When the volume down button is pressed, the picture moves to the left.• Press the stand-by button on the remote control to store.
E-W WidthAdjust the E-W Width so that 9% over-scan is achieved.The effect of this adjustment is shown in figure 3.
• When the volume up button is pressed, horizontal scanning increases.• When the volume down button is pressed, horizontal scanning decreases.• Press the stand-by button on the remote control to store.
Pin PhaseAdjust the Pin Phase so that the picture is symmetrical top and bottom.The effect of this adjustment is shown in figure 4.
• When the volume up button is pressed, side pincushion changes.• When the volume down button is pressed, side pincushion changes.• Press the stand-by button on the remote control to store.
Pin AmpAdjust the Pin Amplitude so that the picture is centred.The effect of this adjustment is shown in figure 5.
• When the volume up button is pressed, side pincushion changes from pincushion tobarrel shape.
• When the volume down button is pressed, side pincushion changes from barrelshape to pincushion.
• Press the stand-by button on the remote control to store.
Corner AmplitudeAdjust the Corner Amplitude so that the picture is centred.The effect of this adjustment is shown in figure 6.Note: This adjustment affects to upper and lower sides.
• When the volume up button is pressed, side pincushion changes from pincushion tobarrel shape.
• When the volume down button is pressed, side pincushion changes from barrelshape to pincushion.
• Press the stand-by button on the remote control to store.
Fig.2
Fig.3
Fig.4
Fig.5
Fig.6
9
70GS-62S
Corner Symmetry
Adjust the Corner Symmetry so that the picture is centred.The effect of this adjustment is shown in figure 7.Note: This adjustment affects to upper and lower sides.
• When the volume up button is pressed, side pincushion changes from pincushion tobarrel shape.
• When the volume down button is pressed, side pincushion changes from pincushion tobarrel shape.
• Press the stand-by button on the remote control to store.
Vertical Linearity
Adjust the Vertical Linearity so that the upper and lower parts of the picture are symmetrical.The effect of this adjustment is shown in figure 8.
• When the volume up button is pressed, the upper picture scanning decreases and thelower picture scanning increases.
• When the volume down button is pressed, the upper picture scanning increases and thelower picture scanning decreases.
• Press the stand-by button on the remote control to store.
Vertical AngleAdjust the Vertical Amplitude so that the picture is centred.The effect of this adjustment is shown in figure 9
• When the volume up button is pressed, the vertical angle changes to right.• When the volume down button is pressed, the vertical angle changes to left.• Press the stand-by button on the remote control to store.
Vertical BowAdjust the Vertical Bow so that the picture is centred.The effect of this adjustment is shown in figure 10
• When the volume up button is pressed, the vertical bow changes to right.• When the volume down button is pressed, the vertical bow changes to left.• Press the stand-by button on the remote control to store.
Vertical Amplitude
Adjust the Vertical Amplitude so that the picture is over-scanned.The effect of this adjustment is shown in figure 11.
• When the volume up button is pressed, the vertical size of the picture decreases.• When the volume down button is pressed, the vertical size of the picture increases.• Press the stand-by button on the remote control to store.
S Correction
Adjust the S Correction so that the picture symmetrical between the top, centre and bottom.The effect of this adjustment is shown in figure 12.
• When the volume up button is pressed, the top and bottom scanning increases and thecentre scanning decreases.
Fig.8
Fig.12
Fig.11
Fig.10
Fig.9
Fig.7
10
70GS-62S
Colour Adjustments
The following adjustments should only be carried out whenthe CRT IC801 are replaced.
G2, Cut Off and Gain Adjustments
1. Follow the procedure below to set the G21.1 Tune the set to the output of a signal generator
(cross hatch pattern).1.2 In the user menu, set contrast to 80/100 and
brightness to 40/100.1.3 Connect the oscilloscope to the red cathode and
adjust G2 to read 140V on the sensor pulse asin the drawing:
NOTE:Oscilloscope should be adjusted for vertical TV field triggerand synchronized with video signal.
2. Follow the procedure below to set the Cut Off.2.1 Adjust G2.2.2 Tune a white card.2.3 Adjust colour to minimum.2.4 Position colorimeter in the centre of screen.2.5 Adjust brightness and contrast to obtain a lumi-
nance of ≈20 NITS.2.6 Operate in Service Mode and select location RED
CUT OFF, GREEN CUT OFF and BLUE CUTOFF, to obtain colour coordinates:
X=0.290 ± 0.015 Y=0.300 ± 0.015
To increase press volume-up button and to decrease pressvolume down button.
RED CUT OFF alter «X» coordinate.GREEN CUT OFF alter «Y» coordinate.BLUE CUT OFF alter «X» and «Y» coordinate.
3. Follow the procedure below to set the GAIN.3.1 Using brightness and contrast buttons, select a
luminance of ≈120 NITS.3.2 Operate in Service Mode and select location RED
GAIN, GREEN GAIN and BLUE GAIN, to obtaincolour coordinates:
X=0.290 ± 0.015 Y=0.300 ± 0.015To increase press volume-up button and to decrease
press volume down button.
RED GAIN alter «X» coordinate.GREEN GAIN alter «Y» coordinate.BLUE GAIN alter «X» and «Y» coordinate.
3.3 Exit Service Mode and check colour coordinates«X» and «Y» at 20 and 120 NITS. It may be nec-essary to repeat procedure 2 and 3 of ColourAdjustments.
Changing NVM Data
To change the data contained within the Non VolatileMemory, it is necessary to first select the page the data isstored in, then the position and finally to change the dataitself. The procedure below outlines this process.
1. While on ALTER NVM PAGE, use the volume up/downbuttons to change this data (data is shown in hexadecimalformat).
2. Press the channel up button and ALTER NVM POSITIONappears, use the volume up/down buttons to change thisdata (data is shown in hexadecimal format).
3. Press the channel up button and ALTER NVM VALUEappears, use the volume up/down buttons to change thisdata (data is shown in hexadecimal format).
• When the volume down button is pressed the top and bottom scanning decreases andthe centre scanning increases.
• Press the stand-by button on the remote control to store.
Vertical Shift
Adjust the Vertical Shift so that the picture is centred.The effect of this adjustment is shown in figure 13.
• When the volume up button is pressed, the picture moves down.• When the volume down button is pressed, the picture moves up.• Press the stand-by button on the remote control to store. Fig.13
140 V
CH1 gnd
11
70GS-62S
4. Once this data has been set, press the stand-by buttonto store.
5. If another NVM value has to be changed, use the chan-nel down button to select the page or position and repeatas necessary.
Note:DO NOT change any NVM data, unless you have been ad-vised to do so by a Sharp representative. If data is incor-rectly changed, serious damage may occur to the receiver.
Contrast Adjustments
Three types of contrast levels can be varied as listed be-low:
• TELETEXT MIX MODE CONTRAST• TELETEXT CONTRAST• OSD CONTRAST
Use the volume up/down buttons to adjust to a suitable level,then press the stand-by button to store.
DVCO Adjustment (PAL)Carry out the DVCO Adjustment (PAL) as shown below:
1. Receive a Phillips pattern signal.2. While in the DVCO ADJUSTMENT (PAL) menu, press
the stand-by button.3. The adjustment will be carried out automatically and
stored.
DVCO Adjustment (NTSC)No adjustment required.
AGC AdjustmentTo correctly align the Automatic Gain Control, follow theprocedure outlined below:
1. Tune the set into a pattern generator on CH10.2. Adjust the signal strength of the pattern generator to 57
dB/uV3. Enter the service mode.4. Enter the AGC Adjustment menu.5. Press the stand-by button on the remote control.6. The adjustment will be carried out and stored automati-
cally.
Auto Installation On/OffTo return the receiver to the original Auto Installation mode,using the volume up or down button, set the Auto Installa-tion On/Off to On. This setting is automatically stored andwhen the receiver is turned on the next time it will start up inAuto Installation mode.
STEREO LED FLASHING CODES.
If the TV set does not work and the stereo led is flashing,follow the sequence according to the information below, asa guide to fault finding.
1. Unable to read or write into NVM: 66% ON, 33% OFFtwice and OFF for a second.
2. MSP failure: 66% ON, 33% OFF for three times andOFF for a second.
3. VCT failure: 66% ON, 33% OFF for four times and OFFfor a second.
On Off
On Off
On Off
12
70GS-62S
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13
70GS-62S
Page
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F7315N4. MOTHER UNIT PWB. Component side.
14
70GS-62S
Page 15
X
22
23
24
25
17
18
19
20
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11
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13
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F7315N4. MOTHER UNIT PWB. Copper side.
15
70GS-62S
Page
14
Y
X
22
23
24
25
17
18
19
20
21
11
12
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F7315N4. MOTHER UNIT PWB. Copper side.
16
70GS-62S
F7315N4. CHASSIS LAYOUT.
PTC UNIT (F7347N0) PWB & COMPONENT LOCATION TABLES.
1
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17
70GS-62S
MOTHER UNIT (F7315N4) PWB COMPONENT LOCATION TABLES.Component Side.
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18
70GS-62S
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19
70GS-62S
MOTHER UNIT (F7315N4) PWB COMPONENT LOCATION TABLES.Copper Side.
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20
70GS-62S
MOTHER UNIT (F7315N4) PWB COMPONENT LOCATION TABLES.Copper Side.
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21
70GS-62S
QUICK REFERENCE DATA
SYMBOL PARAMETER CONDITIONS MIN. TYP. MAX. UNIT
VP supply voltage note 1 4.75 5.00 5.50 V
IP supply current 52 61 70 mA
Vi(VIF)(rms) VIF input signal voltage sensitivity(RMS value)
−1 dB video at output − 60 100 µV
GVIF(cr) VIF gain control range see Fig.10 60 66 − dB
fVIF vision carrier operating frequencies see Table 28 − 33.4 − MHz
− 33.9 − MHz
− 38.0 − MHz
− 38.9 − MHz
− 45.75 − MHz
− 58.75 − MHz
∆fVIF VIF frequency window of digitalacquisition help
related to fVIF; see Fig.7 − ±2.3 − MHz
Vo(v)(p-p) video output signal voltage(peak-to-peak value)
normal mode; see Fig.9 1.7 2.0 2.3 V
trap bypass mode;see Fig.9
0.95 1.10 1.25 V
Gdif differential gain “CCIR 17”; note 2
B/G standard − − 5 %
L standard − − 7 %
ϕdif differential phase “CCIR 17” − 2 4 deg
Bv(−3dB)(trap) −3 dB video bandwidth includingsound carrier trap
CL < 20 pF; RL > 1 kΩ;AC load; note 3
ftrap = 4.5 MHz 3.95 4.05 − MHz
ftrap = 5.5 MHz 4.90 5.00 − MHz
ftrap = 6.0 MHz 5.40 5.50 − MHz
ftrap = 6.5 MHz 5.50 5.95 − MHz
αSC1 trap attenuation at first sound carrier M/N standard 30 36 − dB
B/G standard 30 36 − dB
S/NW weighted signal-to-noise ratio ofvideo signal
see Fig.5; note 4 56 59 − dB
PSRR17 power supply ripple rejection atpin 17
fripple = 70 Hz; video signal;grey level; positive andnegative modulation;see Fig.8
20 25 − dB
Bv(−1dB) −1 dB video bandwidth CL < 20 pF; RL > 1 kΩ;AC load; trap bypass mode
5 6 − MHz
AFCstps AFC steepness ∆I21/∆f 0.85 1.05 1.25 µA/kHz
Vo(AF)(rms) audio output signal voltage at pin 8(RMS value)
27 kHz FM deviation;50 µs de-emphasis
430 540 650 mV
THDaudio total harmonic distortion of audiosignal
27 kHz FM deviation;50 µs de-emphasis
− 0.15 0.50 %
AM; m = 54% − 0.5 1.0 %
ICs ADITIONAL INFORMATION: TDA9885 (IC201)
22
70GS-62S
Notes
1. Values of video and sound parameters can be decreased at VP = 4.75 V.
2. Condition: luminance range (4 steps) 0 to 80%.
3. The sound carrier frequencies (depending on TV standard) are attenuated by the integrated sound carrier traps(see Figs 16 to 21; H (s) is the absolute value of transfer function).
4. S/N is the ratio of black-to-white amplitude to the black level noise voltage (RMS value, pin 17). B = 5 MHz weightedin accordance with “CCIR 567”.
5. The intercarrier output signal at pin 12 can be calculated by the following formula taking into account the internalvideo signal with 1.1 V (p-p) as a reference:
where:
= correction term for RMS value, = sound-to-picture carrier ratio at VIF input (pins 1 and 2) in dB,
6 dB = correction term of internal circuitry and ±3 dB = tolerance of video output and intercarrier output amplitudeVo(intc)(rms).
6. The reference input pin 15 is able to operate as a 1-pin crystal oscillator as well as input terminal with externalreference signal, e.g. from the tuning system.
BAF(−3dB) −3 dB audio frequency bandwidth forFM
without de-emphasis;dependent on loop filter atpin 4
80 100 − kHz
S/NW(audio) weighted signal-to-noise ratio ofaudio signal
27 kHz FM deviation;50 µs de-emphasis;vision carrier unmodulated
52 56 − dB
AM; m = 54% 45 50 − dB
αAM(sup) AM suppression of FM demodulator 50 µs de-emphasis;AM: f = 1 kHz; m = 0.54referenced to 27 kHzFM deviation
40 46 − dB
PSRR8(AM) power supply ripple rejection at pin 8 fripple = 70 Hz; see Fig.8 20 26 − dB
PSRR8(FM) power supply ripple rejection at pin 8 fripple = 70 Hz; see Fig.8 14 20 − dB
Vo(rms) IF intercarrier level (RMS value),valid also for radio
QSS mode; SC1; soundcarrier 2 off
90 140 180 mV
L standard; withoutmodulation
90 140 180 mV
intercarrier mode; SC1;sound carrier 2 off
− note 5 − mV
fref frequency of reference signal atpin 15
note 6 − 4 − MHz
Vref(rms) amplitude of reference signal source(RMS value)
operation as input terminal 80 − 400 mV
SYMBOL PARAMETER CONDITIONS MIN. TYP. MAX. UNIT
Vo(intc)(rms) 1.1 V (p-p)1
2 2-----------× 10
Vi SC( )Vi PC( )--------------- dB( ) 6 dB 3 dB±+
20----------------------------------------------------------------
×=
1
2 2-----------
Vi SC( )Vi PC( )--------------- dB( )
ICs ADITIONAL INFORMATION: TDA9885 (IC201)
23
70GS-62S
BLOCK DIAGRAM
TA
GC
CV
AG
C p
os
CB
L
VIF
-PLL
4 M
Hz
exte
rnal
AF
C
vide
o ou
tput
2 V
(p-
p)[1
.1 V
(p-
p) w
ithou
t tra
p]
AU
D
CA
F
de-e
mph
asis
netw
ork
FM
-PLL
filte
r
soun
d in
terc
arrie
r ou
tput
CA
GC
AG
ND
VP
VIF
1
VIF
-AG
CR
C V
CO
DIG
ITA
L V
CO
CO
NT
RO
LA
FC
DE
TE
CT
OR
VID
EO
TR
AP
S
4.5
to 6
.5 M
Hz
NA
RR
OW
-BA
ND
FM
-PLL
DE
TE
CT
OR
I2C
-BU
S T
RA
NS
CE
IVE
R
VIF
-PLL
SIN
GLE
RE
FE
RE
NC
E Q
SS
MIX
ER
/IN
TE
RC
AR
RIE
R M
IXE
R A
ND
AM
-DE
MO
DU
LAT
OR
SIF
-AG
CS
UP
PLY
12
14
16
19 1
5 2
1
17 8 65
412
7 1
1 1
018
20
2324
OU
TP
UT
PO
RT
S
MA
D
AU
DIO
PR
OC
ES
SIN
GA
ND
SW
ITC
HE
S
9
TU
NE
R A
GCCA
GC
neg
322
crys
tal
and
MA
D s
elec
t
TD
A98
85
n.c.
13
OP
1O
P2
SC
LS
DA
DG
ND
SIO
MA
DF
MP
LL
CV
BS
TO
P
VIF
2
SIF
1
SIF
2D
EE
M
AF
D
RE
FV
AG
CV
PLL
filte
r
(1)
(1)
Not
con
nect
ed fo
r T
DA
9885
.
refe
renc
e or
ICs ADITIONAL INFORMATION: TDA9885 (IC201)
24
70GS-62S
PINNING
SYMBOL PIN DESCRIPTION
VIF1 1 VIF differential input 1
VIF2 2 VIF differential input 2
OP1 3 output 1 (open-collector)
FMPLL 4 FM-PLL for loop filter
DEEM 5 de-emphasis output for capacitor
AFD 6 AF decoupling input for capacitor
DGND 7 digital ground
AUD 8 audio output
TOP 9 tuner AGC TakeOver Point (TOP)
SDA 10 I2C-bus data input/output
SCL 11 I2C-bus clock input
SIOMAD 12 sound intercarrier output and MADselect
n.c. 13 not connected
Note
1. Not connected for TDA9885.
TAGC 14 tuner AGC output
REF 15 4 MHz crystal or reference input
VAGC 16 VIF-AGC for capacitor; note 1
CVBS 17 video output
AGND 18 analog ground
VPLL 19 VIF-PLL for loop filter
VP 20 supply voltage (+5 V)
AFC 21 AFC output
OP2 22 output 2 (open-collector)
SIF1 23 SIF differential input 1
SIF2 24 SIF differential input 2
SYMBOL PIN DESCRIPTION
handbook, halfpage
TDA9885TTDA9886T
MXXxxx
1
2
3
4
5
6
7
8
9
10
11
12
VIF1
VIF2
OP1
FMPLL
DEEM
AFD
DGND
AUD
TOP
SDA
SCL
SIOMAD
SIF2
SIF1
OP2
AFC
VP
VPLL
AGND
CVBS
VAGC(1)
REF
TAGC
n.c.
24
23
22
21
20
19
18
17
16
15
14
13
Fig.2 Pin configuration for SO24.
(1) Not connected for TDA9885.
handbook, halfpage
TDA9885TSTDA9886TS
MXXxxx
1
2
3
4
5
6
7
8
9
10
11
12
VIF1
VIF2
OP1
FMPLL
DEEM
AFD
DGND
AUD
TOP
SDA
SCL
SIOMAD
SIF2
SIF1
OP2
AFC
VP
VPLL
AGND
CVBS
VAGC(1)
REF
TAGC
n.c.
24
23
22
21
20
19
18
17
16
15
14
13
Fig.3 Pin configuration for SSOP24.
(1) Not connected for TDA9885.
ICs ADITIONAL INFORMATION: TDA9885 (IC201)
25
70GS-62S
ICs ADITIONAL INFORMATION: TDA7480 (IC301, IC302, IC501)
ABSOLUTE MAXIMUM RATINGS
Symbol Parameter Value Unit
VCC DC Supply Voltage ±20 V
Tstg, Tj Storage and Junction Temperature –40 to 150 °C
VFREQ Maximum Voltage Across VFREQ (Pin 9) 8 V
Top Operating Temperature Range -20 to 70 °C
ESD Maximum ESD on Pins ±1.8 kV
THERMAL DATA
Symbol Parameter Value Unit
Rth j-amb Thermal Resistance Junction to ambient 80 °C/W
Rth j-pin Thermal Resistance Junction to Pin Max. 12 °C/W
PIN FUNCTIONS
N. Name Function
1234567891011121314151617181920
-VCC-VCC-VCCOUT
BOOTDIODEBOOT
NCFEEDCAP
FREQUENCYSGN-GND
INST-BY-MUTE
NC+VCC SIGN
VREG+VCC POW
-VCC-VCC-VCC-VCC
NEGATIVE SUPPLY.NEGATIVE SUPPLY.NEGATIVE SUPPLY.PWM OUTPUTBOOTSTRAP DIODE ANODEBOOTSTRAP CAPACITORNOT CONNECTEDFEEDBACK INTEGRATING CAPACITANCESETTING FREQUENCY RESISTORSIGNAL GROUNDINPUTST-BY/ MUTE CONTROL PINNOT CONNECTEDPOSITIVE SIGNAL SUPPLY10V INTERNAL REGULATORPOSITIVE POWER SUPPLYNEGATIVE SUPPLY (TO BE CONNECTED TO PIN 16 VIA C5)NEGATIVE SUPPLYNEGATIVE SUPPLYNEGATIVE SUPPLY
-VCC
OUT
BOOTDIODE
N.C.
BOOT
FEEDCAP
FREQ
1
3
2
4
5
6
7
8
9 STBY/MUTE
N.C.
+VCC SIGN
+VCC POW
VREG
-VCC
-VCC
20
19
18
17
16
14
15
13
12
D96AU537B
SGN-GND 10 IN11
-VCC
-VCC
-VCC
-VCC
PIN CONNECTION (Top view)
0 4 8 12 Area(cm2)30
40
50
60
Rthj-a(˚C/W)
D97AU675
COPPER AREA 35µTHICKNESS
PC BOARD
Rth with "on board" Square Heatsink vs. cop-per area.
26
70GS-62S
ICs ADITIONAL INFORMATION: TDA7480 (IC301, IC302, IC501)
ELECTRICAL CHARACTERISTICS (Refer to the test circuit, VCC = ±14V; RL = 8Ω; RS = 50Ω;Rf = 12KΩ; Demod.. filter L = 60µH, C = 470nF; f = 1KHz; Tamb = 25°C unless otherwise specified.)
Symbol Parameter Test Condition Min. Typ. Max. Unit
VS Supply Range ±10 ±16 V
Iq Total Quiescent Current RL = ∞; NO LC Filter 25 40 mA
VOS Output Offset Voltage Play Condition –50 +50 mV
PO Output Power THD = 10%THD = 1%
8.56
107
WW
RL = 4Ω VCC = ±10.5VTHD = 10%THD = 1%
107
WW
Pd (*) Dissipated Power at 1W OutputPower
Rf = 12KΩ PΟ = 1W 1 W
PDMAX Maximum Dissipated Power PΟ = 10W THD 10%Rth-j-amb = 38°C/W (Area 12cm2)
1.8 W
ηEfficiency ≡
PO
PO + PD ≡
PO
PI (**)
THD 10%Rth-j-amb = 38°C/W (Area 12cm2)
80 85 %
THD Total Harmonic Distortion RL = 8Ω; PO = 0.5W 0.1 %
Imax Overcurrent ProtectionThreshold
RL = 0 3.5 5 A
Tj Thermal Shut-down JunctionTemperature
150 °C
GV Closed Loop Gain 29 30 31 dB
eN Total Input Noise A Curvef = 20Hz to 22KHz
712
µVµV
Ri Input Resistance 20 30 KΩSVR Supply Voltage Rejection f = 100Hz; Vr = 0.5 46 60 dB
Tr, Tf Rising and Falling Time 50 ns
RDSON Power Transistor on Resistance 0.4 ΩFSW Switching Frequency 100 120 140 KHz
FSW_OP Switching Frequency OperativeRange
100 200 KHz
BF Zero Signal FrequencyConstant (***)
1.4x109 HzΩ
RF Frequency Controller ResistorRange (****)
7 12 14 KΩ
MUTE & STAND-BY FUNCTIONS
VST-BY Stand-by range 0.8 V
VMUTE Mute Range 1.8 2.5 V
VPLAY Play Range (1) 4 V
AMUTE Mute Attenuation 60 80 dB
IqST-BY Quiescent Current @ Stand-by 3 5 mA
*: The output average power when the amplifier is playing music can be considered roughly 1/10 of the maximum output power. So it is useful to consider the dissipated power in this condition for thermal dimensioning.
**: PO = measured across the load using the following inductor: COIL 58120 MPPA2 (magnetics) TURNS: 28 ∅ 1mm COIL77120 KOOL Mµ (magnetics) TURNS: 28 ∅ 1mm
***: The zero-signal switching frequency can be obtained using the following expression: FSW = BF/RF
****: The maximum value of RF is related to the maximum possible value for the voltage drop on RF itself.
(1): For V12 >5.2V, an input impedance of 10KΩ is to be considered.
27
70GS-62S
ICs ADITIONAL INFORMATION: MSP3401G (IC303)
Block Diagram of the MSP 34x1G
So
urc
e S
elec
t
Loud-
SCART1
SCART2
SCART1
SCART2
SCART4
SCART3
MONO
De-modulator
HeadphoneHeadphone
I2S
SoundProcessing
speakerSound
Processing
DAC
DAC
ADC
Loud-
DAC
DACADC
Subwoofer
SCARTDSP Input Select
Pre-processing
SCART Output Select
Prescale
PrescaleI2S1
I2S2
Sound IF1
Sound IF2
speaker
80-pin PQFP package
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
40
39
38
37
36
35
34
33
32
31
30
29
28
27
26
251 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24
64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49 48 47 46 45 44 43 42 41AVSUP
AVSUP
ANA_IN1+
ANA_IN−
ANA_IN2+
TESTEN
XTAL_IN
XTAL_OUT
TP
AUD_CL_OUT
NC
NC
D_CTR_I/O_1
D_CTR_I/O_0
ADR_SEL
STANDBYQ
CAPL_M
AHVSUP
CAPL_A
SC1_OUT_L
SC1_OUT_R
VREF1
SC2_OUT_L
SC2_OUT_R
NC
NC
DACM_SUB
NC
DACM_L
DACM_R
VREF2
DACA_L
NC
AVSS
AVSS
MONO_IN
NC
VREFTOP
SC1_IN_R
SC1_IN_L
ASG1
NC
SC2_IN_R
SC2_IN_L ASG2
SC3_IN_R
SC3_IN_L
ASG4
SC4_IN_R
SC4_IN_L
NC
AGNDC
AHVSS
AHVSS
NC
NC
I2C_CL
I2C_DA
I2S_CL
I2S_WS
I2S_DA_OUT
I2S_DA_IN1
ADR_DA
ADR_WS
ADR_CL
NC
DVSUP
DVSUP DVSUP
DVSS
DVSS
DVSS
I2S_DA_IN2
NC
NC
NC
RESETQ
NC
NC
DACA_R
MSP 34x1G
28
70GS-62S
Absolute Maximum Ratings
Symbol Parameter Pin Name Min. Max. Unit
TA Ambient Operating Temperature − 0 701) °C
TS Storage Temperature − −40 125 °C
VSUP1 First Supply Voltage AHVSUP −0.3 9.0 V
VSUP2 Second Supply Voltage DVSUP −0.3 6.0 V
VSUP3 Third Supply Voltage AVSUP −0.3 6.0 V
dVSUP23 Voltage between AVSUP and DVSUP
AVSUP,DVSUP
−0.5 0.5 V
PTOT Power DissipationPLCC68PSDIP64PSDIP52PQFP80PLQFP64
AHVSUP,DVSUP, AVSUP
1200130012001000 9601)
mWmWmWmWmW
VIdig Input Voltage, all Digital Inputs −0.3 VSUP2+0.3 V
IIdig Input Current, all Digital Pins − −20 +20 mA2)
VIana Input Voltage, all Analog Inputs SCn_IN_s,3)
MONO_IN−0.3 VSUP1+0.3 V
IIana Input Current, all Analog Inputs SCn_IN_s,3)
MONO_IN−5 +5 mA2)
IOana Output Current, all SCART Outputs SCn_OUT_s3) 4), 5) 4), 5)
IOana Output Current, all Analog Outputs except SCART Outputs
DACp_s3) 4) 4)
ICana Output Current, other pins connected to capacitors
CAPL_p,3)
AGNDC
4) 4)
1) PLQFP64: 65 °C2) positive value means current flowing into the circuit3) “n” means “1”, “2”, “3”, or “4”, “s” means “L” or “R”, “p” means “M” or “A”4) The analog outputs are short-circuit proof with respect to First Supply Voltage and ground.5) Total chip power dissipation must not exceed absolute maximum rating.
ICs ADITIONAL INFORMATION: MSP3401G (IC303)
29
70GS-62S
ICs ADITIONAL INFORMATION: VCT3832 (IC1001)
Absolute Maximum Ratings
Symbol Parameter Pin Name Min. Max. Unit
TA Ambient Operating Temperature − 65 °C
TC Case Temperature (PSDIP64) − 115 °C
TC Case Temperature (PMQFP128) − 115 °C
TS Storage Temperature −40 125 °C
PTOT Total Power Dissipation − 1400 mW
VSUPx Supply Voltage VSUPx −0.3 6 V
VI Input Voltage, all Inputs −0.3 VSUPx+0.31) V
VO Output Voltage, all Outputs −0.3 VSUPx+0.31) V
VIO Input/Output Voltage, all Open Drain Out-puts
−0.3 6 V
Block diagram of the VCT 38xxA (shaded blocks are optional)
Video Front-end
Comb Filter
Color Decoder
Display Processor Video
Back-endPanorama
Scaler
4 3
4
12
31
2I2C Master
16 kBText RAM
3 kBOSD
96 kBCPU ROM
TPU DMA CPU
24 IO Ports
Watchdog
2 CapCom
2 Timer
15:1 Mux10-bit ADC
8-bit PWM
Audio 3
2
Clock Oscillator
1 kB CPU RAM
XTAL1
XTAL2
VIN
AIN
Pxy
ADB, DB, CB
RGBOUT
RGBIN
VE
RT
PR
OT
HF
LB
SE
NS
E
I2C
XR
EF
HO
UT
VR
D
VR
T
SG
ND
Color, PrioMSyncI2C
VSUPAB
VS
UP
P1
GN
DP
1
Reset Logic
RESQ
VS
UP
S
TEST
GNDAB
VS
UPA
F
VS
UP
D
GN
DA
F
GN
DD
RS
W
2
GN
DM
EW
8
14-bit PWM
2 2
3CIN SVM
Vid
eo
GN
DS
CLK20
RDY
BE
24 kB
VCT 38xx
AOUT
VSync
VOUT
24 kB ROM
3 kB OSD RAM
Pict.Improv.
30
70GS-62S
ICs ADITIONAL INFORMATION: VCT3832 (IC1001)
48113AIN2
114AIN1
115AOUT2
116AOUT1
117RESQ
118SCL
119SDA
120XTAL1
121XTAL2
122VSUPS
123GNDS
124WE1Q
125WE2Q
126OE1Q
127OE2Q
128ADB18
CBIN
VSUPAF47
GNDAF46
SGND45
VRT44
VOUT43
P1042
P1141
P1240
P1339
GNDP138
VSUPP137
P1436
P1535
P1634
P1733
VSUPADBGNDADB
ADB16ADB15
ADB14ADB13
ADB12ADB11
ADB10
ADB17
ADB9ADB8
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24
96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76 75 74 73
25 26 27 28 29 30 31 32
ADB7ADB6
ADB5VSUPADB
ADB1ADB0
DB0DB1
DB2DB3
VSUPDBGNDDB
DB4DB5
DB6DB7
ADB2ADB3
ADB4GNDADB
72 71 70 69 68 67 66 65
49 CIN1
50 CIN2/CRIN
51 VIN1
52 VIN2
53 VIN3
54 VIN4
55 DISINTROM
56 P27
57 P26
58 P25
59 P24
60 VSUPP2
61 GNDP2
62 P23
63 P22
64 P2197VERTQ
98VERT
99EW
100SENSE
101GNDM
102RSW1
103RSW2
104SVMOUT
105ROUT
106GOUT
107BOUT
108VSUPAB
109GNDAB
110VRD
111XREF
112AIN3
SAFETYVPROT
BINGIN
RINFBLIN
TESTP30
P31
HFLB
P32P33GNDP3
VSUPP3P34
P35
HOUTCLK20
VB0VB1
VB2VB3
VB4VB5
VB6VB7
VBCLKP20
VSUPDGNDD
P37P36
VCT 38xx
31
70GS-62S
DESCRIPTION OF SCHEMATIC DIAGRAM
SAFETY NOTE:
1. DISCONNECT THE AC PLUG FROM THE ACOUTLET BEFORE REPLACING PARTS.
2. SEMICONDUCTOR HEAT SINKS SHOULD BEREGARDED AS POTENTIAL SHOCK HAZARDSWHEN THE CHASSIS IS OPERATING.
NOTE:1. The unit of resistance «ohm»is omitted (K=1000
ohms. M= Megaohm).2. All resistors are 1/8 watt. unless otherwise noted.3. All capacitors are mF, unless otherwise noted
(P= mmF).4. The capacitor with Part No. RC-FZ9XXXBMNJ
is designed to with stand 63V.5. The capacitor with Part No. RC-FZ4XXXBMNJ
is designed to with stand 50V.
SERVICE PRECAUTION:
THE AREA ENCLOSED BY THIS LINE ( )IS DIRECTLY CONNECTED WITH AC MAINSVOLTAGE.WHEN SERVICING THE AREA, CONNECT ANISOLATING TRANSFORMER BETWEEN TVRECEIVER AND AC LINE TO ELIMINATE HAZ-ARD OF ELECTRIC SHOCK.
WAVEFORMS MEASUREMENT:
1. TEST EQUIPMENT: Digital Oscilloscope (Tektronix TDS 3012).
2. TEST CONDITIONS: PAL B/G full colour bar, 1KHz sinewave (volume regulation 50%).
Note: Waveforms 8 and 11 should be taken with the TV set in Stand-by mode.
Red in1 Green in2 Blue in3
!
IMPORTANT SAFETY NOTE:
PARTS MARKED WITH « » ( ) AREIMPORTANT FOR MAINTAINING THE SAFETYOF THE SET. BE SURE TO REPLACE THESEPARTS WITH SPECIFIED ONES FOR MAINTAIN-ING THE SAFETY AND PERFORMANCE OF THESET.
CAUTIONThis circuit diagram is original one, therefore there may be light differencefrom yours.
32
70GS-62S
I Sense7 V St-by8 E/W Output9
V Switch10 V Control St-by11 Vp (Primary)12
Vertical Input13 E/W Correction14 V inner correction15
Vertical + input16 VH17 H Control18
Red output4 Green output5 Blue output6
33
70GS-62S
V in Headphone R22 V in Speaker L23 V out Speaker L24
V out Speaker R25 V in Speker R26 X100227
V Flyback Vertical28 Vertical output29 Vertical input30
IF Video output31
Vb (Horizontal)19 Vc (Horizontal)20 V in Headphone L21
34
70GS-62S
SCHEMATIC DIAGRAM OF MOTHER UNIT (K7315N4).
1
I
H
G
F
E
D
C
B
A
2 3 4 5 6 7
Page 35
Page 36M
1000
BR G
+5V
+5V
+5V
12
34
56
1 2 3 4 5
12
34
+5V
ST
BY
+3.3VSTBY
+3,
3VS
TB
Y
+16
V+
5VS
TB
Y
+3.
3V
+5V
ST
BY
+5V
ST
BY
+3.
3V
+5V
+16
V
-16V
+16
5V
+5V
+12
V
+12
V
+12
V
+12
V
+5V
+13
V
12
3
4 5
6
7
8
+5V
ST
BY
IX16
41B
M
Q70
9
+5V
ST
BY
+5STBY
QP
WB
F73
47B
MN
0
DU
NT
K73
47B
MV
0
QP
WB
F73
16B
MN
5
DU
NT
K73
16B
MV
1
CH
CH
VO
L+V
OL-
ONLY AVLINK
GB
VPROT
HOUT
R
VI2
VI1
AV2
ALCLOCK
CR1
MUTE
AV2
KE
Y
PROT
FI
FB
IR LED
OP
C
ST
BY
E/W
PROT
KE
Y
AV1
KEY
LED
AV1
AL
.
.
.
.
.
.
.
.
.
.
.
.
. .
.
.
.
.
.
.
.
.
.
R10
074K
7(T
Q)
C70
133
0nF
(275
V)
FZ
0188
BM
R10
023K
3
R10
013K
3
D72
0S
UF
15J
L701
F01
11B
M
D79
8
EG
P20
BD
X06
29 D71
9
EG
P20
BD
X06
29
JF70
110
0nF
IC10
03X
24645S8
IX1603B
M
NC
1
S1
2
S2
3
VS
S4
SD
A5
SC
L6
WP
7
VC
C8
D72
7D
X00
45
Q70
8B
C54
7T
X01
06
Q70
62S
C24
12
R10
091K
D10
04D
X05
51
R10
10
100K
C10211nF
R62
41K
R62
5
330
C8053.3uF
F70
1F
S-C
3226
(M)
GN
0304
3
2
CU
0205
BM
1
D10
01P
X01
05
12
3
12
R10
1310
0
IC90
1T
DA
6107 VI(1
)1
VI(2
)2
VI(3
)3
GN
D4
SE
NS
5
VD
D6
VO
(3)
7
VO
(2)
8
VO
(1)
9R
906
2K7
(1/2
W)
C90
110
uF(2
50V
)
D90
11N
4004
DX
0501
BM
C90
2P
B3D
E47
2
FO
CU
S
G2
(L3)
(H)
CN
W-2
710B
M
R90
82K
7(1
/2W
)
R90
72K
7(1
/2W
)
R90
44M
7(1
/8W
)
S70
2
K00
79G
E
S70
3
K00
79G
E
S70
4
K00
79G
E
S70
5
K00
79G
E
R10
3310
0
C73
710
0uF
(16V
)
R10
9910
0
D71
2B
YV
28-6
00D
X06
18B
M
D70
3
DX
0555
RF
2005
D70
4D
X05
55R
F20
05
D70
1
DX
0555
RF
2005
D70
2
DX
0555
RF
2005
C70
310
nF25
0VK
Z00
29C
E
C70
410
nF25
0VK
Z00
29C
E
C70
668
0nF
(400
V)
(G)
PLG
N02
07
C70
210
nF25
0VK
Z00
29C
E
R71
310
K
R70
639
0K(T
Q)
R73
868
R75
539
0
R75
610
0
R75
8
2R7
D10
07
DX
0045
Q90
32S
C24
12
Q90
22S
C24
12
Q90
12S
A10
37
R91
339
0
R91
22K
2
R91
039
0
R91
110
0Q
906
TX
0232
Q90
52S
C24
12
Q90
42S
A10
37
R91
839
0
R91
72K
2
R91
539
0
R91
610
0Q
909
2SC
2412
Q90
82S
C24
12
Q90
72S
A10
37
R91
912
0
R92
339
0
R92
22K
2
R92
039
0
R92
110
0
D90
2
C5V
1E
X04
08B
M
C91
010
0nF
R90
51K
(K)
CN
W-2
865B
M
C91
110
0nF
L100
61u
H(N
M)
C10
4047
uF
Q10
012S
C24
12
LP70
1R
LAM
P00
1
R77
182
K(T
Q)
R76
582
K(T
Q)
R77
482
K(T
Q)
R77
082
K(T
Q)
D10
06D
X05
51R
1035
33K
R1040
2M2
D10
09C
4V7
EX
0544
BM
R90
3
0R
902 0
Q70
2T
X02
37B
M
R72
53K
3
D71
7D
X00
45
C72
110
nF(F
Z)
D73
1D
X00
45
R74
968
0K(T
Q)
R71
110
R71
518
K(1
%)
+VS
-VS
IC70
1
IX15
56
8
7
6
54
3
2
1
R78
8
22K
Q72
12S
A10
37
Q72
02S
C24
12
R78
510
0K
C71
21u
F(1
60V
)
R78
322
0KR
712
390K
(TQ
)R
705
8K2
Q71
22S
A10
37
D71
6
C6V
2E
X05
84B
M2%
R75
1
100K
R78
61K
8
R78
418
K
D71
5D
X05
51
R71
6
390K
(TQ
)
R71
033
0K(T
Q)
(1%
)
R70
933
0K(T
Q)(
1%)
C71
168
nF(2
50V
)F
Z02
06B
M
R70
839
0K(T
Q)
Q70
42S
A10
37
Q70
52S
C24
12
R75
410
K
R75
210
K
D71
4C
6V8
EX
0411
BM
D74
1C
4V3
EX
0543
BM
R70
1
22K
R74
822
0K
R79
027
0(1
/2W
)
D70
7D
X05
51R78
910
0K
D74
2D
X05
51
C79
822
0pF
2KV
KZ
0035
CE
C90
510
0nF
(400
V)
(FZ
)
R77
268
0K(T
Q)
R77
368
0K
R71
9
2M2
R77
9
2M2
R77
8
2M2
D74
4D
X05
51
R92
6
560
R92
7
560
R92
5
560
Q91
02S
A10
37
R93
33K
3R
932
1K8
R93
1
8K2
C91
222
0pF
R79
91 (1
/2W
)X
Z02
00B
M
PO
R17
01P
0001
BM
D73
4D
X05
51
R72
110
0(T
Q)
R72
2
R70
32K
7
C80
410
0nF
R1020
10K
C40
9
100n
F
C40
8
100n
F
L602
3.3u
H(D
F)
C40
7
100n
F
R8042K2
FB
701
LN-0
037B
M
C72
010
00uF
(6.3
V)
FB
702
LN-0
037B
M
T702
Z05
90B
M
3146
R10
1810
0
R10
2210
0
R90
1
0
C10
3310
0nF
C1034100nF
R36
110
0K
C1036
100nF
L901
0
D74
7D
X05
51B
M
R10
43
680
R75
9
(TQ
)56
0
14 12 13 11
T701
RN
Z05
89B
M
56 4
C72
710
00uF
(25V
)
D90
3
DX
0539
C90
410
uF
R93
4
100K
(TQ
)
R93
5
100K
(TQ
)
C10
4247
0nF
D74
9D
X05
18B
M
C73
110
0uF
(25V
)
F70
3
FU
S
Q70
1T
X02
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70GS-62S
SCHEMATIC DIAGRAM OF MOTHER UNIT (K7315N4).
8 9 10 11 12 13 14
I
H
G
F
E
D
C
B
APage
34
Page 37
Vh
GND
FS
V OUT
V IN
12
34
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3 4 5 6
ONLY 28"
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1 2 3 4 5 6 7
R
Q
P
O
N
M
L
K
J
SCHEMATIC DIAGRAM OF MOTHER UNIT (K7315N4).
Page 37
Page 34
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70GS-62S
8 9 10 11 12 13 14
R
Q
P
O
N
M
L
K
J
SCHEMATIC DIAGRAM OF MOTHER UNIT (K7315N4) .
Page
36
Page 35
12
34
5
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18,4
32M
Hz
R41
41K
R41
575
R41
675
R41
775
R41
875 R
420
75
R41
368
R41275
R41
975
C21
9
390n
F
L401
12uH
R22
547
K
SF
202
K93
56C
0286
BM
54
3
1 2
JF10
JF42
C51
033
0nF
D51
11N
4148
3.3p
F
D51
2
C33
EX
0427
C10
4122
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)
R20
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C21
547
uF(1
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C34
468
0pF
C34
368
0pF
D42
4
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0554
D42
3E
X05
54
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5E
X05
54D
426
EX
0554
BM
JF43
JF44
JF50
TP
201
C21
0
D20
5E
X05
46B
M
R23
122
0
C20
810
nF
R10
2310
K
5pF
R51
08K
2
C20
71n
5
D20
4E
X05
46B
M
R50
115
02W
L801
1uH
R21
418
K1/
2W
J96
LN-0
037C
E
C51
222
0nF
R52
810
0K
R50
4
39K
R51
71M
R51
456
0
Q50
7
2SB
852
TX
0203
C224100nF
C4331nF
R45
222
R20
733
0
C21
247
0uF
(10V
)
4
D42
2
EX
0556
BM
C15
D40
6
EX
0549
7V5
R53
56K
8
C32
75p
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C32
547
pF
C32
65p
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C20
410
0uF
(16V
)
C21
110
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0549
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Q20
12S
A10
37
C33
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)
C22
133
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C20
210
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C22
210
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(6,3
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222
0
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5V6
EX
0409
C32
910
0nF
R50
756
0K
C20
322
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38
70GS-62S
+.&478 ,.&-.&/, -#(1-&9,-/(%*
10 -3"7* &/:3;(&%*/3%+,%* , )
(#0+1 -%(#,-/*</%&: , .+ .1
!"#$=05. <*/4"1 ."<,/3.,,(,, , , 0) 3
=050 <*/4 0+1 &/<*(/(*,3.*, , , 55 55
=05 <*/40+1 /+%<#-(*,3.* , 55 55
% &'
/3 &/<*30+;; /<*-&///3%+,%* , .6 0.
( &35(6!!0+;; (/.!3(#(, , .- .
( &35(6-;; (<"1*- , .2 .
( 13(/.5 (/./3%+,%* , .2 .4
( 13(/.5 (/./3%+,%* , .2 .4
( &35(6 0+;; (+,5).5.+(&%*., , .) 00
( 13(+#5 (+# , .. 77
( &35(6 0+;; $($/.#/3%+,%* , . .#
( 13(0.5 (0.,+ , . .
( 13(0.5 (0.,+ , . .
( &35(6 0+;; (0.!,,+&%3+ , . .
( &35(6 0+;; (4..;,.+,<* , .. .
( &35260+;; %/%%<#-&/-/1(,3.9 , .. .
( &35(6 0+;; (4..;,.+,<* , .. .
( &35(60+;; (1/.5)35.)2+(&%*., , ./ 0-
( 35(6", -&%+,-/,%2/, , , . 0.
( &35(6 0+;; (*1+6 ,,+6(%& , ., .1
) 1,,.4)5 /&/0,+ , .. ..
) &35/60+;; /&/00,+3(#(, , .. ..
) 1,,.4)5 /&/0,+ , .. ..
) &35/60+;; /&/00,+3(#(, , .. ..
) &35/60+;; /&/00,+3(#(, , .. ..
) 1,,.4)5 /&/0,+ , .. ..
) &35/60+;; /&/4,.!.,.+<* , .. .
) &35/6!0+;; /&/,<* 5!#,(#(%*(6 , .. 77
) &35/60+;; /&/00,+3(#(, , .. ..
) &35/60+;; /&/,0&%3+ , .. .0
) &35/6 0+;; /&/0<3,/ , . .4
) 35/60+1 /&/,-/&35/6&-2%&+ , 55 55
) &35/60+;; /&/00,+3(#(, , .. ..
) &35/60+;; /&/00,+3(#(, , .. ..
) &35/6!0+;; /&/4,,.+,<* , .0 .
) &35/60+;; /&/00,+3(#(, , .. ..
) &35/60+;; /&/00,+3(#(, , .. ..
) 1,,.4)5 /&/0,+ , .. ..
) ! &35/60+;; /&/00,+3(#(, , .. ..
) &35/60+;; /&/,4!!/%,3(0. , 55 55
>>>>>>>
>
>
) 1,,.4)5 /&/0,+ , .. ..
) &35/60+;; /&/4! /%,3(0. , .. .
) 35/60+1 /&/,-/&35/6&-2%&+ , 55 55
) 35/60+1 /&/,-/&35/6&-2%&+ , 55 55
) 35/60+1 /&/,-/&35/6&-2%&+ , 55 55
) 1,,.4)5 /&/0,+ , .. ..
) &35/60+;; /&/00,+3(#(, , .. ..
) &35/60+;; /&/00,+3(#(, , .. ..
) &35/60+;; /&/00,+3(#(, , .. ..
) &35/6 0+;; /&/0 , .. .0
)! &35(60+;; (#!1,/ , 55 55
) &35/60+;; /&/00,+3(#(, , .. ..
) &35/60+;; /&/00,+3(#(, , .. ..
) 1,,.4)5 /&/0,+ , .. ..
) 1,,.4)5 /&/0,+ , .. ..
) &35/60+;; /&/00,+3(#(, , .. ..
) 1,,.4)5 /&/0,+ , .. ..
) &35/60+;; /&/00,+3(#(, , .. ..
) 1,,.4)5 /&/0,+ , .. ..
) &35/60+;; /&/00,+3(#(, , .. ..
) &35/60+;; /&/00,+3(#(, , .. ..
) &35/60+;; /&/00,+3(#(, , .. ..
)! &35/60+;; /&/4! /%,3(0. , .. .
) &35/60+;; /&/00,+3(#(, , .. ..
) &35/60+;; /&/00,+3(#(, , .. ..
) &35/60+;; /&/00,+3(#(, , .. ..
) &35/60+;; /&/00,+3(#(, , .. ..
) &35/60+;; /&/00,+3(#(, , .. ..
) &35/60+;; /&/00,+3(#(, , .. ..
) 1,,.4)5 /&/0,+ , .. ..
) &35/60+;; /&/00,+3(#(, , .. ..
1&,5/)0" %3+?=,+ , .. 77
&35-6 0+;; ;-*-&(%-/;+1 /24,+ , .. ..
&35-6 0+;; ;-*-&(%-/;+1 /24,+ , .. ..
&35-6!0+;; ;-*-&(%-/;+1/24,+ , .. ..
&35-6!0+;; ;-*-&(%-/;+1/24,+ , .. ..
&35-6!0+;; ;-*-&(%-/;+1/24,+ , .. ..
&35-6!0+;; ;-*-&(%-/;+1/24,+ , .. ..
&3560+;; (%-##/24,+ , .. ..
&35-60+;; ;-*-&(%-0;6!1 , .0 .0
&35-60+;; ;-*-&(%-0;6!1 , .0 .0
&35-6!0+;; ;-*-&(%-/;+1/24,+ , .. ..
&35-6!0+;; ;-*-&(%-/;+1/24,+ , .. ..
&35-6!0+;; ;-*-&(%-/;+1/24,+ , .. ..
&35-6!0+;; ;-*-&(%-/;+1/24,+ , .. ..
&35-6!0+;; ;-*-&(%-/;+1/24,+ , .. ..
&35-6!0+;; ;-*-&(%-/;+1/24,+ , .. ..
! &35-6!0+;; ;-*-&(%-/;+1/24,+ , .. ..
&35-6!0+;; ;-*-&(%-/;+1/24,+ , .. ..
&35-6 0+;; ;-*-&(%-/;+1 /24,+ , .. ..
&35-6 0+;; ;-*-&(%-/;+1 /24,+ , .. ..
&35-60+;; ;-*-&(%-/;+1/24,+ , .. ..
&35-6 0+;; ;-*-&(%%/;+/24,+ , .. ..
&35-60+;; ;-*-&(%-/;+/24,+ , .. ..
&35-60+;; ;-*-&(%-/;+/24,+ , .. ..
&35-60+;; ;-*-&(%-/;+/24,+ , .. ..
&35-60+;; ;-*-&(%-/;+/24,+ , .. ..
&35-60+;; ;-*-&(%-/;+/24,+ , .. ..
&3560+;; (%-##/24,+ , .. ..
&3560+;; (%-*!.. , .0 .-
&3560+;; (%-##/24,+ , .. ..
&35-6 0+;; ;-*-&(%-/;+/24,+ , .. ..
&356!!0+;; (%-095 , . .-
&3560+;; (%-##/24,+ , .. ..
&3560+;; (%-*!$(*,/&<+-*/, , 55 55
&3560+;; (%-##/24,+ , .. ..
&356 0+;; (%-&5 -$,-+(%*</%& , 55 55
&3560+;; (%-##/24,+ , .. ..
! &3560+;; (%-*!$(*,/&<+-*/, , 55 55
&3560+;; (%-*!$(*,/&<+-*/, , 55 55
&3560+;; (%-*! .. , .. ..
&3560+;; (%-*!.. , .0 .-
PARTS LISTING REPLACEMENT PARTS
Replacement parts which have special safety characteristics are identi-fied in this manual. Electrical components having such features are iden-tified by ! in the Replacement Part List.The use of a substitute replacement part which does not have the samesafety characteristics as the factory recommended is not permitted.Replacement parts not shown in this service manual may create shockfire, or other hazards.
HOW TO ORDER REPLACEMENT PARTSTo have your order completed promplty and corretly please supply thefollowing information.
1. MODEL NUMBER3. PART NO.5. CODE
2. REF. NO.4. DESCRIPTION6. QUANTITY
39
70GS-62S
&3560+;; (%-*!.. , .0 .-
&35-6 0+;; ;-*-&(%-/;+/24,+ , .. ..
&35-60+;; ;-*-&(%-/;+1/24,+ , .. ..
&3560+;; (%-##/24,+ , .. ..
&3560+;; (%-##/24,+ , .. ..
! &3560+;; (%-##/24,+ , .. ..
&35-60+;; ;-*-&(%-/;+/24,+ , .. ..
&356 0+;; (%-+$,-+(%*</%& , 55 55
&35-60+;; ;-*-&(%-/;+/24,+ , .. ..
&35-60+;; ;-*-&(%-/;+1/24,+ , .. ..
&3560+;; (%-##/24,+ , .. ..
&3560+;; (%-##/24,+ , .. ..
&3560+;; (%-##/24,+ , .. ..
&3560+;; (%-##/24,+ , .. ..
&35-60+;; ;-*-&(%-0;6!1 , .. ..
&3560+;; (%-##/24,+ , .. ..
&3560+;; (%-##/24,+ , .. ..
&3560+;; (%-&22.%& , .. .0
&3560+;; (%-&22.%& , .. .0
&3560+;; (%-&22.%& , .. .0
&3560+;; (%-&22.%& , .. .0
&35-6 0+;; ;-*-&(%-/;+1 /24,+ , .. ..
&3560+;; (%-##/24,+ , .. ..
&3560+;; (%-##/24,+ , .. ..
&35-60+;; ;-*-&(%-/;+/24,+ , .. ..
! &3560+;; (%-* , .. ..
&356 0+;; (%-&"$,-+(%*</%&-, , .. 77
&3560+;; (%-##/24,+ , .. ..
&35-60+;; ;-*-&(%-/;+ 1/24,+ , .. ..
&3560+;; (%-##/24,+ , .. ..
&35-60+;; ;-*-&(%-/;+0 1/24,+? , .. ..
&3560+;; (%-##/24,+ , .. ..
&3560+;; (%-##/24,+ , .. ..
! &356 !0+;; (%--0$,-+(%*</%& , 55 55
&356 0+;; (%-,<2"$,-+(%*</%& , 55 55
&356 0+;; (%-,<2"$,-+(%*</%& , 55 55
&3560+;; (%-*!$(*,/&<+-*/, , 55 55
&35-60+;; ;-*-&(%-/;+1/24,+ , .. ..
&35-60+;; (%-;-*-&/;+01/24,+? , .. ..
&35-6 0+;; ;-*-&(%%/;+/24,+ , .. ..
&3560+;; (%-##/24,+ , .. ..
&3560+;; (%-##/24,+ , .. ..
! &356!0+;; (%-*!.. , .. .0
&35-60+;; ;-*-&(%-/;+0 1/24,+? , .. ..
&3560+;; (%-##/24,+ , .. ..
&3560+;; (%-##/24,+ , .. ..
&35-60+;; ;-*-&(%-/;+0 1/24,+? , .. ..
&3560+;; (%-##/24,+ , .. ..
&35-6 0+;; ;-*-&(%%/;+/24,+ , .. ..
&356!0+;; (%-*!.. , .. .0
&3560+;; (%-##/24,+ , .. ..
&3560+;; (%-##/24,+ , .. ..
! &35-6 0+;; ;-*-&(%-/;+/24,+ , .. ..
&3560+;; (%-* , .. ..
&35-60+;; ;-*-&(%-/;+1/24,+ , .. ..
&3560+;; (%-##/24,+ , .. ..
&35-60+;; ;-*-&(%-/;+/24,+ , .. ..
&3560+;; (%-##/24,+ , .. ..
&3560+;; (%-##/24,+ , .. ..
&3560+;; (%-##/24,+ , .. ..
&35-60+;; ;-*-&(%-/;+ 1/24,+ , .. ..
! &3560+;; (%-*!$(*,/&<+-*/, , 55 55
&35-6 0+;; ;-*-&(%%/;+/24,+ , .. ..
! &356 !0+;; (%--0$,-+(%*</%& , 55 55
&3560+;; #-,05+1=&%3+ , . .
&3560+;; #-,05+1=&%3+ , . .
&356 0+;; (%-0.,3(#(,,+ , .. .0
&3560+;; (%-##/24,+ , .. ..
&35-6 0+;; ;-*-&(%-/;+/24,+ , .. ..
&3560+;; (%-##/24,+ , .. ..
&3560+;; (%-* , .. ..
&35-6!0+;; ;-*-&(%-/;+01!/24,+? , .. ..
! &35-60+;; ;-*-&(%-/;+1/24,+ , .. ..
&35-60+;; ;-*-&(%-/;+1/24,+ , .. ..
&35-6 0+;; ;-*-&(%-/;+1 /24,+ , .. ..
&35-6 0+;; ;-*-&(%-/;+1 /24,+ , .. ..
&35-60+;; ;-*-&(%-0;6!1 , .0 .0
&3560+;; (%-* , .. ..
(6 &&,00+;; &9,/.#+3; , .4 .+
6 &&,00+;; &9,/.#@+3; , . .
6 &&,0!0+;; &9,/.#$3+; , . .3
)# 1524 -.4%(#<3? , .. 77
# 152 &4 -.4%(# $<3? , .. ..
# 1524 -.4%(#<3? , .. 77
# 152&4 -.4%(#@<3? , .0 .0
# 152&4 -.4%(#@<3? , .0 .0
# 152&4 -.4%(#$<3? , .0 .0
# 152&4 -.4%(#$<3? , .0 .0
# 1524 -.4%(#<3? , .0 .0
# 152&4 -.4%(#$<3? , .0 .0
# 152&4 -.4%(#$<3? , .0 .0
# &(#0+;; %(#.+95 4A&/%4% , 55 55
# &(#0+;; %(#.+95 4A&/%4% , 55 55
# 1524 -.4%(#<3? , .. 77
# 1&5&.0-" &-,%3+?= , .. ..
# 1&5&.0-" &-,%3+?= , .. ..
# &(#0+;; %(#054(-+-* , . .
# 152&4 -.4%(#@<3? , .0 .0
# &(#;0+;; #(*-.#(/9%(#.5:3(#(, , 55 55
# 1&,5/)0" %3+?=,+ , .. 77
# ! &(#-;; -.4(%(#$B3$./4 , .. .0
# &(#0+;; %(#.+95 4A&/%4% , 55 55
# &(#20+;; %(#3&5! , .- .#
# &(#0+;; %(#.+954A&/%4% , 55 55
# 152&+ -.4%(#<3? , .. 77
# 152&+ -.4%(#<3? , .. 77
# 15*+&+&* %(#<3,+ , .0 .0
# 15*+&+&* %(#<3,+ , .0 .0
# 152&+ -.4%(#<3? , .. 77
# 15*+&+&* %(#<3,+ , .0 .0
# 15*+&+&* %(#<3,+ , .0 .0
# &0#*5-;; 0.#<*20.3.!5/9 , .0 .0
# 1&,5/)0" %3+?=,+ , .. 77
&),2 &2(#0+;; ,.=2(#/-&!,(-+-*, , .2 .4
,2 &2(# 0+;; 2(#/-&4! +,(-+-*, , . .
&/ &/&*20+;; 20/.5:(-+-**C*1-&,(%*, , 55 55
/ &/&*20+;; 20/.5:3(#(,*+,-../$ , 55 55
/ &/&*;0+;; 3%-&.5:(-+-**C*1-&,(%*, , 55 55
/ &/&*;!0+;; 3%-&.5:3(#(,*C*1-&,(%*, , 55 55
/ &/&*;!0+;; 2.5:3(#(, , 55 55
&52;!0+*" %#2(#+*2? 1 , .0 .
149/132; -&.+*21,+ , .. ..
149/132; -&.+*21,+ , .. 77
1-..=+ -#-<2? 1 , .. 77
&52;!0+*" %#2(#+*2? 1 , .. .
149/132; -&.+*21,+ , .. ..
149/1304 -&.+@*21,+ , .. 77
149/132; -&.+*21,+ , .. ..
1&,5/1"" %3+?=,+ , .. ..
149/132; -&.+*21,+ , .. ..
1-...=+ -#-<2?1 , .. .0
1/133" -&.+21,+ , .. ..
1/133" -&.+21,+ , .. 77
1-..= + -#-<2? 1 , .. 77
! 1/133!" -&.+!21,+ , .. 77
&52;!0+*" %#2(#+*2? 1 , .. .
1-.."=+ -#-<2? @1 , .. 77
1/133" -&.+21,+ , .. 77
1/133" -&.+21,+ , .. 77
>
>
>
>
>
>
>
>
>
40
70GS-62S
1/133" -&.+21,+ , .. 77
1-..3= + -#-<2?1 , .. 77
1-..3= + -#-<2?1 , .. 77
1-..= + -#-<2? 1 , .. 77
1-..= + -#-<2? 1 , .. 77
149/1304 -&.+*21,+ , .. ..
149/1304 -&.+*21,+ , .. ..
149/132; -&.+*21,+ , .. ..
1-..3=+ -#-@<2?1 , .. ..
! 1-...=+ -#-<2?1 , .. 77
149/132; -&.+*21,+ , .. ..
1-..= + -#-<2? 1 , .. 77
1-..= + -#-<2? 1 , .. 77
149/132; -&.+*21,+ , .. 77
&52;!0+*" %#2(#+*2? 1 , .. .
&52;!0+*" %#2(#+*2? 1 , .. .
&52;!0+*" %#2(#+*2? 1 , .. .
! &52;!0+*" %#2(#+*2? 1 , .. .
1-..= + -#-<2? 1 , .. 77
149/132; -&.+*21,+ , .. ..
149/132; -&.+*21,+ , .. ..
1/133" -&.+21,+ , .. ..
1/133" -&.+21,+ , .. ..
1/133" -&.+21,+ , .. ..
1/133& -&.+21,+ , .. ..
1/133& -&.+21,+ , .. ..
149/132; -&.+*21,+ , .. ..
! 149/132; -&.+*21,+ , .. ..
1-...=+ -#-<2?1 , .. 77
1/133 " -&.+ 21,+ , .. 77
149/1304 -&.+*21,+ , .. ..
1/133 " -&.+ 21,+ , .. 77
149/1304 -&.+*21,+ , .. ..
1/133 " -&.+ 21,+ , .. 77
1/133 " -&.+ 21,+ , .. 77
149/1304 -&.+@*21,+ , .. ..
149/1304 -&.+@*21,+ , .. ..
149/132; -&.+*21,+ , .. ..
1-..-=+ -#-<2?1 , .. ..
149/132; -&.+*21,+ , .. ..
&52;!0+*" %#2(#+*2? 1 , .. .0
1/133" -&.+21,+ , .. 77
&52;!0+*" %#2(#+*2? 1 , .. .
149/1304 -&.+*21,+ , .. ..
&52;!0+*" %#2(#+*2? 1 , .. .0
! 149/1304 -&.+@*21,+ , .. ..
1/133 " -&.+ 21,+ , .. ..
&52;!0+*" %#2(#+*2? 1 , .0 .
1-..3=+ -#-@<2?1 , .. 77
1-..-=+ -#-<2?1 , .. ..
149/132; -&.+*21,+ , .. ..
1-..-=+ -#-<2?1 , .. ..
149/132; -&.+*21,+ , .. ..
149/132; -&.+*21,+ , .. ..
&52;!0+*" %#2(#+*2? 1 , .. .0
! 1/133" -&.+21,+ , .. 77
&52;!0+*" %#2(#+*2? 1 , .. .
149/1304 -&.+*21,+ , .. ..
1-..3=+ -#-@<2?1 , .. 77
&52;!0+*" %#2(#+*2? 1 , .. .0
149/1304 -&.+@*21,+ , .. ..
1/133 " -&.+ 21,+ , .. ..
&52;!0+*" %#2(#+*2? 1 , .0 .
1-..3=+ -#-<2?1 , .. ..
1-..-=+ -#-<2?1 , .. ..
! 149/132; -&.+*21,+ , .. ..
149/132; -&.+*21,+ , .. ..
149/132; -&.+*21,+ , .. ..
149/132; -&.+*21,+ , .. ..
149/1304 -&.+*21,+ , .. ..
149/1304 -&.+*21,+ , .. ..
149/1-2; -&.+*21,+ , .. ..
&52;!0+*" %#2(#+*2? 1 , .. .
149/132; -&.+*21,+ , .. ..
&52;0+*" %#2(#+21?-)51.*.,%*( , .. 77
! &52;0+*" %#2(#+21?-)51.*.,%*( , .. 77
! 149/1304 -&.+*21,+ , .. ..
! 149/1304 -&.+*21,+ , .. ..
&52;! 0+*" %#2(#+ *2? 1 , .0 .
149/132; -&.+*21,+ , .. ..
&52;! 0+*" %#2(#+ *2? 1 , .0 .
149/132; -&.+*21,+ , .. ..
149/132; -&.+*21,+ , .. ..
! 149/132; -&.+*21,+ , .. ..
1-...=+ -#-<2?1 , .. 77
149/1304 -&.+*21,+ , .. ..
149/1304 -&.+*21,+ , .. ..
149/1-2; -&.+*21,+ , .. .0
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70GS-62S
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42
70GS-62S
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43
70GS-62S
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&! 1&,5/1"" 4%3+?=,+ , .. ..
& 1&,5/1"" 4%3+?=,+ , .. ..
& 1&,5/1"" @4%3+?=,+ , .. 77
& 1&,5/1"" %3+?=,+ , .. ..
& 1&,5/1"" %3+?=,+ , .. ..
& 1&,5/1"" %3+?=,+ , .. ..
& 1&,5/1"" @4%3+?=,+ , .. 77
& 1&,5/1"" $4%3+?=,+ , .. 77
& 1&,5/1"" %3+?=,+ , .. ..
& 1&,5/1"" 4%3+?=,+ , .. ..
& 1&,5/1"" %3+?=,+ , .. ..
& 1&,5/1"" 4%3+?=,+ , .. ..
& 1&,5/1"" %3+?=,+ , .. 77
& 1&,5/1"" %3+?=,+ , .. ..
>
>
& 1&,5/1"" %3+?=,+ , .. 77
& 1&,5/1"2 @4%3+?=,+ , .. 77
& 1&,5/1"2 4%3+?=,+ , .. 77
& 1&,5/1"2 4%3+?=,+ , .. 77
& 1&,5/1"" %3+?=,+ , .. ..
& 1&,5/1"" @4%3+?=,+ , .. ..
& 1&,5/1"" 4%3+?=,+ , .. ..
& 1&5&.0-" &-,@4%3+?= , .. ..
& 1&,5/1"" $4%3+?=,+ , .. ..
&! 1&,5/1"!" $!4%3+?=,+ , .. 77
& 1&,5/1"" @+%3+?=,+ , .. 77
& 1&,5/1"" 4%3+?=,+ , .. ..
& 1&,5/1" " %3+?=,+ , .. ..
&!! 1&,5/1"" %3+?=,+ , .. ..
&)).1 )*=5!0+;; ,3(#-=(&-=.9,&%<*&%/-/- , 55 55
.1 ),%;0+;; /=(*,.&/3.,,(,.5 , 55 55
* )".4"-;; -.&3%*-".43,"!!5 , .. .
2 )#*-;; #< , .. .0
)#*-;; #< , .. 77
3 )*=5 0+;; =(&-3:: , .. 77
4 )*=5 0+;; =(&-4 =.9, , . 77
# )/(+-2+ /( , .. ..
+ )#*-;; #< , .. 77
, )#*-;; #<(* , .. 77
1.& &35160+;; 1.&(,/%&1.3(#(, , .. .
2 1524 -.4%(#<3? , .. ..
2 1524 -.4%(#<3? , .. ..
2 )2,5 -;; 2<,-/$.31 , . .-
2 )2,5"-;; 2<,[email protected]#(//-#2<,- , . .-
2 )2,5"-;; 2<,[email protected]#(//-#2<,- , . .-
2 )2,5"-;; 2<,[email protected]#(//-#2<,- , . .-
20 &0#*5-;; 0.#<*20.3.!5/9 , .0 .0
20 &0#*5-;; 0.#<*20.3.!5/9 , .0 .0
20 &0#*5-;; 0.#<*20.3.!5/9 , .0 .0
20 &0#*5-;; 0.#<*20.3.!5/9 , .0 .0
20 &0#*5-;; 0.#<*20.3.!5/9 , .0 .0
20 &0#*5-;; 0.#<*20.3.!5/9 , .0 .0
20 &0#*5-;; 0.#<*20.3.!5/9 , .0 .0
20 &0#*5-;; 0.#<*20.3.!5/9 , .0 .0
20 &0#*5-;; 0.#<*20.3.!5/9 , .0 .0
20 &0#*5-;; 0.#<*20.3.!5/9 , .0 .0
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
"! 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
"! 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1524 -.4%(#<3? , .0 .0
>
44
70GS-62S
" 1&,5/)0" %3+?=,+ , .. 77
" 1&,5/)0" %3+?=,+ , .. 77
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
"! 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/)0" %3+?=,+ , .. 77
" 1&,5/)0" %3+?=,+ , .. 77
"! 1&,5/1"" %3+?=,+ , .. ..
" )".4;0+;; ".4%*-/%& , . 77
"2 1&,5/1"" %3+?=,+ , .. ..
"2 1&,5/1"" %3+?=,+ , .. ..
"2 1&,5/1"" %3+?=,+ , .. ..
"2 1&,5/1"" %3+?=,+ , .. ..
"2! 1&,5/1"" %3+?=,+ , .. ..
"2 1&,5/1"" %3+?=,+ , .. ..
"2 1&,5/1"" %3+?=,+ , .. ..
"2 1&,5/1"" %3+?=,+ , .. ..
"2 1&,5/1"" %3+?=,+ , .. ..
"2 1&,5/1"" %3+?=,+ , .. ..
"2 1&,5/1"" %3+?=,+ , .. ..
"2 1&,5/1"" %3+?=,+ , .. ..
"2 1&,5/1"" %3+?=,+ , .. ..
"2 1&,5/1"" %3+?=,+ , .. ..
"2 ! 1&,5/1"" %3+?=,+ , .. ..
"2 1&,5/1"" %3+?=,+ , .. ..
"2 1&,5/1"" %3+?=,+ , .. ..
"2 1&,5/1"" %3+?=,+ , .. ..
"2 149/132; -&.+*21,+ , .. ..
"2 &0#*5-;; 0.#<*20.3.!5/9 , .0 .0
"2 1&,5/1"" %3+?=,+ , .. ..
"2 1&,5/1"" %3+?=,+ , .. ..
"2 1&,5/1"" %3+?=,+ , .. ..
"# )*=5 0+;; =(&-=.9 , .0 77
"# )*=5 0+;; =(&-=.9 , .0 77
"# )*=5 0+;; =(&-=.9 , .0 77
# &#.+0+;; *-%*/9-30*-%/&%*( , .0 .
+ &&+<0+;; &&--(1-&/,/24 , .0 .2
, ),=5 0+;; ,=(/3,- , .2 .#
, ),=54!-;; /./(#-,=(/3 , .. 77
, ),=54!-;; /./(#-,=(/3 , .. 77
, ),=54!-;; /./(#-,=(/3 , .. 77
, ),=54!-;; /./(#-,=(/3 , .. 77
),%;, ,%4-/((* , .. .0
%
(! 13(/. )5 (.+#$1(-%/. )*3(#(, , . .#
)! 1,,.4)5 /&/0,+ , .. ..
)! &35/60+;; /&/00,+3(#(, , .. ..
)! &35/60+;; /&/00,+3(#(, , .. ..
)! 1,,.4)5 /&/0,+ , .. ..
)! &35/60+;; /&/00,+3(#(, , .. ..
)! &35/60+;; /&/00,+3(#(, , .. ..
)! 1,,.4)5 /&/0,+ , .. ..
)! &35/60+;; /&/00,+3(#(, , .. ..
)!! &35/60+;; /&/00,+3(#(, , .. ..
)! 1,,.4)5 /&/0,+ , .. ..
! &3560+;; (%-* , .. ..
! &35-60+;; ;-*-&(%-/;+1/24,+ , .. ..
>
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" ! 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
"! 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
"! &0#*5-;; 0.#<*20.3.!5/9 , .0 .0
"! &0#*5-;; 0.#<*20.3.!5/9 , .0 .0
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
"! 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
"! 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/)0" %3+?=,+ , .. 77
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" &0#*5-;; 0.#<*20.3.!5/9 , .0 .0
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/)0" %3+?=,+ , .. 77
"! 1&,5/)0" %3+?=,+ , .. 77
" 1&,5/)0" %3+?=,+ , .. 77
"! 1&,5/1"" %3+?=,+ , .. ..
"! &0#*5-;; 0.#<*20.3.!5/9 , .0 .0
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/)0" %3+?=,+ , .. 77
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
"! 1&,5/1"" %3+?=,+ , .. ..
"! 1&,5/1"" %3+?=,+ , .. ..
"! 1&,5/)0" %3+?=,+ , .. 77
"! 1&,5/)0" %3+?=,+ , .. 77
"! 1&,5/)0" %3+?=,+ , .. 77
"! 1&,5/1"" %3+?=,+ , .. ..
"!! 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/)0" %3+?=,+ , .. 77
" 1&,5/1"" %3+?=,+ , .. ..
45
70GS-62S
& &&56;0+;; 2<,&-,&/.?= , .. .0
& 1&,5/1"" %3+?=,+ , .. ..
& 1&,5/1"" 4%3+?=,+ , .. ..
& &&56;0+;; 2<,&-,&/.?= , .. .0
&))#<0+1 &-#-/.)#<%&/..&-2%& , 55 55
&)).30+* ,=(/3%1-& , .. 77
&&+0+,. &.53%,(-* , ., .=
<0./<.";; 0.//-&9& 6 , .- .3
&%&20+;; 2-&&(/-%&-/25 -6 , .2 .4
2 )*=5 0+;; %*==.9, , .0 .-
).;0+,. .%& , .3 .&
1, 0. ,-.4-&%3+=.(=. , .- .
+0%12 .0.0+1 .0(*-/,-/, , , .9 77
$ %&2 0+, %%& , 55 55
$ 4.(50+ %%&#./3 , . .2
$ 300+-,0 0.- , . .3
$ 3-)0+,. %=-&#--,5, , .. 77
$ 3-)0+,. &-%&./(%* , .. 77
$ "0/*5!0+, <%=*0<//%*:&-9 , .. .
$ "0/*50+, 0<//%*-,,04 , .. .
$ 3(*0+,. (* , .. 77
.00 0+4. &-.&.0(*-/, ,* , .& 77
6/.,0 &-.&.0(*-/,&-=, , .. ..
6/0,0 .1,&-=, , .. ..
&)/(*,5 !0+* %=*-&,+.*<.#, ,- , . .
/(*,5!0+* %=*-&,+.*<.#, ,(/ , . 77
>>
>
! &356!0+;; (%-09/+/24 , .. .
! &356 0+;; (%-09/24,+ , .. .
! &356 0+;; (%-09/24,+ , .. .
! &356 0+;; (%-09/24,+ , .. .
! 1-..-= + -#-<2?1 , .. 77
! 1490-; -5-;4+<&./. , .. 77
! 1-..-= + -#-<2?1 , .. 77
! &52; 0+*" 2(#+$<2?1 , .. 77
!! 1-..=+ -#-<2? 1 , .. 77
! 149/132; -&.+*21,+ , .. ..
! 149/132; -&.+*21,+ , .. ..
! 1/133" -&.+21,+ , .. 77
! &35160+;; 1.&(,/%&!01 , 55 55
! &35160+;; 1.&(,/%&!01 , 55 55
! 149.304 -&.+@*2?1 , .. 77
&! 1&,5/1"" %3+?=,+ , .. ..
&! 1&,5/1"" %3+?=,+ , .. ..
&! 1&,5/1"" %3+?=,+ , .. ..
&! 1&5&.0-" &-,@+%3+?= , .. 77
&! 1&,5/1"" 4%3+?=,+ , .. ..
&! 1&5&.3" &-,@4%3+?= , .. 77
&! 1&5&.3" &-,@4%3+?= , .. 77
&! 1&5&.3" &-,@4%3+?= , .. 77
&!! 1&,5/1"" %3+?=,+ , .. ..
&! 1&,5/1"!" !%3+?=,+ , .. ..
&! 1&,5/1"" %3+?=,+ , .. ..
&! 1&,5/1"" @4%3+?=,+ , .. 77
&! 1&,5/1"!" !%3+?=,+ , .. ..
&! 1&,5/1"" %3+?=,+ , .. ..
&! 1&,5/1"!" !%3+?=,+ , .. ..
&! 1&,5/1"" %3+?=,+ , .. ..
&! 1&,5/1"" @4%3+?=,+ , .. 77
&! 1&,5/1"!" !%3+?=,+ , .. ..
&!! 1&,5/1"" %3+?=,+ , .. ..
&! 1&,5/1"!" !%3+?=,+ , .. ..
&! 1&,5/1"" %3+?=,+ , .. ..
&! 1&,5/1"" @4%3+?=,+ , .. 77
&! 1&,5/1"!" !%3+?=,+ , .. ..
&! 1&,5/1" " %3+?=,+ , .. ..
&! 1&,5/1" " %3+?=,+ , .. ..
&! 1&,5/1" " %3+?=,+ , .. ..
&! 1&,5/1"" @4%3+?=,+ , .. ..
&! 1&,5/1"" @4%3+?=,+ , .. ..
&! 1&,5/1"" $4%3+?=,+ , .. 77
&! 1&,5/)0" %6&-4%3+?=,+ , .. 77
&! 1&,5/)0" %6&-4%3+?=,+ , .. 77
&! &&56;0+;; 2<,&-,&/.?= , .. .0
&))* ),%10+;; ,%43,53%,3( , . .
# )/(+-2+ /( , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
" 1&,5/1"" %3+?=,+ , .. ..
% &)
( &35260+;; %/%%<#-&/# "/%,3(0. , .0 .-
) 130/=25 (%-0/=53(#(, , . .-
&35-60+;; ;-*-&(%-/;+1/24,+ , .. ..
&3560+;; (%-* , .0 ..
(%& &+/0+;; /0!550 , .. .
1-..=+ -#-<2? 1 , .. 77
>
46
70GS-62S
FRONTSPAKC5448BMN2Carton Box
WrapperSPAKP2006BMZZ
Pack-adSPAKX4053BMZZ
PACKING OF THE SET
2
3
4
3
1
1.3
1.7
1.51.1 1.2 1.6 1.4
47
70GS-62S
DOCUMENTATION OF SOURCES.1. TDA 9886, Philips Data Sheet:
TDA9885; TDA9886. I2C-bus controlled single/multistandard alignement-fee IF-PLL. Preliminary specifica-tion. File under Integrated Circuits, IC02. 1999 Dec 14.
2. TDA 7480, ST Microelectronics Data Sheet:TDA7480. 10W Mono Class D Amplifier. 1/10/1998
3. MSP3411G, Micronas Intermetall Data SheetPreliminary data sheet: MSP 34x1G Multistandard Sound Processor Family with Virtual Dolby Surround,Edition Oct. 15, 1999, 6251-511-1PD. First release of preliminary data sheet.
4. VCT 3832, Micronas Intermetall Data SheetAdvance Information: VCT 38xxA Video/Controller/Teletext IC Family, Edition Oct. 17, 2000, 6251-518-1AL. First release of the advance information.
Q601, Q602 REPLACEMENT NOTES:
When Q601 or Q602 requires to be replaced, please consider the following steps in order to avoid damaging any part.1. Gently unclamp clip from side to side using a screwdriver to remove, as shown on Fig.12. Check that clip is not deformed when replacing. If deformed press inwards as shown on Fig. 2
Remote ControlRRMCG1071BMSA
Operation Manual Set
FIG.1
FIG.2
Screwdriver
Press inwards
BatteriesUBATU0247AJZZ
48
70GS-62S
PRINTED BY: ON:
No part of this publication may be reproduced,stored in a retrieval system, or transmitted in anyform or by any means, electronic, mechanical,photocopying, recording, or otherwise, withoutprior written permission of the publisher.
SHARP ELECTRONICA ESPAÑA S.A.TV DivisionEngineering Dept.Polígono Industrial Can Sant JoanSant Cugat del VallèsBarcelonaSpain
Think Ecology, please use
RECYCLED PAPER
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