grundig_gmm1100-stf55-1001_t2s08_chassis_[ET]

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COLOR TELEVISION

CONTENTS

SERVICE MANUAL 21” T2S08 CHASSIS

WITH NICAM&TELETEXT

ⅠSAFETY PRECAUTION ………………………………………………… 1

ⅡSPECIFICATION ………………………………………………………… 2

Ⅲ IC’S GENERAL DESCRIPTION ……………………………………… 3

Ⅳ SPECIAL IC INTRODUCTION ………………………………………… 3

Ⅴ CHASSIS BLOCK DIAGRAM ………………………………………… 12

Ⅵ SERVICE MODE&ADJUSTMENT …………………………………… 13

Ⅶ TEST POINT WAVE FORM&SCHEMATIC DIAGRAM …………… 18

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ⅠSAFETY PRECAUTION 1. X-RAY RADIATION PRECAUTION 1.1 Excessive high voltage can produce potentially hazardous X-RAY RADIATION. To avoid such hazards the high voltage must be specified limit. The normal value of the high voltage of this receiver is 27KV±500V under 230V AC power source. The high voltage must not exceed 30KV. 1.2 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 the service record. It is important to use an accurate and reliable high voltage meter.

1.3 The primary source of X -RAY RADIATION in this TV receiver is the picture tube. For continued X-RAY RADIATION protection, the replacement tube must be exactly the same type tube as used in this TV receiver.

1.4 Some parts in this receiver have special safety-related characteristics for X-RAY RADIATION protection. For continued safety, parts replacement should be undertaken only after referring the PRODUCT SAFETY NOTICE below.

2. GENERAL SAFETY PRECAUTION The following are the necessary precautions to be observed before servicing this chassis WARNING: Service should not be attempted by anyone unfamiliar with the necessary 2.1 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. 2.2 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 shatterproof goggles and keep picture tube away from the unprotected body while handling.

2.3 When replacing a chassis in the cabinet, always be certain that all the protective devices are put back in place, such as: nonmetallic control; knobs, insulating covers, shields, isolation resistor-capacitor, network, etc.

2.4 Connection wires must be kept away from components with high voltage or high temperature. 2.5 When replacing parts or circuit boards, disconnect the power cord. 2.6 When replacing a high voltage resistor (metal oxide resistor) on circuit board, keep the resistor APP. 10mm (1/2 in.) away from circuit board.

2.7 If any fuse in this TV receiver is broken, replace it with the FUSE specified in the chassis parts list. 2.8 The receiver is designed to operate with 230V (50Hz) AC mains.

3. PRODUCT SAFETY NOTICE Many electrical and mechanical parts in this chassis have special safety-related characteristics are often

passed unnoticed by a visual inspection and the X-RAY RADIATON protection afforded by them cannot necessarily be obtained by using replacement components rated for higher voltage. The use of substitute replacement parts that do not have the same safety characteristics as specified in the parts list may create shock, fire, X-RAY RADIATION or other hazards.

Warning!

There are no any repairable components in this TV set. Do not try to make any change to it. High voltage inside may cause danger.

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ⅡSPECIFICATION RF SYSTEM

COLOR SYSTEM: PAL SECAM SOUND SYSTEM:B/G D/K I NICAM STEREO

VIDEO SYSTEM PAL SECAM NTSC4.43 TUNING SYSTEM VOLTAGE SYNTHESIZER TUNING

RECEIVING CHANNEL VHF-L: E2～S6 48.25 MHz～140.25MHz VHF-H: S7～S36 147.25 MHz～423.25MHz

UHF: S37～DS57 431.25 MHz～863.25MHz PROGRAM PRESET 99

AV JACKS 1 SIDE RCA AV IN

1 FULL SCART AND 1 AV SCART TELETEXT 1PAGE

ANTENNA INPUT 75Ω（UNBALANCE） AUDIO OUTPUT ≥2.5W MAIN POWER 170-260V AC 50/60Hz

POWER CONSUMPTION 100W

ⅢCHIP GENERAL DESCRIPTION 1. MAIN BOARD PART IC001 ST92195 MCU With ON SCREEN DISPLAY and TELETEXT Decoder IC002 24C08 8 Kbit Serial I2C Bus EEPROM IC101 STV2246 I²C BUS-Controlled Multistandard Single Chip TV Processor IC301 STV9306A/B BUS-Controlled VERTICAL DEFLECTION W.E/W CORRECTION CIRCUIT IC601 H11A817C OPTOCOUPLERS IC603 MC7808CT +8V VOLTAGE REGULATOR IC604 IC605

MC7805CT +5V VOLTAGE REGULATOR

IC606 MC7812CT +12V VOLTAGE REGULATOR IC701 CD7522CS 3W AUDIO AMPLIFIER IC801 STV8216 Multi-standard TV Audio Processor and Digital Sound Demodulator

ⅣCHIP INTRODUCTION 1. ST92195 The ST92195 microcontrollers are developed and manufactured by STMicroelectronics using a proprietary n-well HCMOS process. Their performance derives from the use of flexible 256-register programming model for ultra-fast context switching and real-time event response. The intelligent on-chip peripherals offload the ST9 core from I/O and data management processing tasks allowing critical application tasks to get the maximum use of core resources. TheST92195 MCU support low power consumption and low voltage operation for power-efficient and low-cost embedded systems.

1.1 Main features 28 fully-programmable I/Os 4 channels Analog/Digital Converter

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Built in I2C bus interface Built in OSD and Teletext decoder 14-bit Voltage Synthesis PWM output for VS tuning system

1.2 Pin description Pin No. Pin Name Signal Name I / O Function

1 P2.0 IRIN I IR Input 2 RESET RESET I Hardware Reset 3 P0.7 NC I/O Not Used 4 P0.6 MUTE O Mute Output PIN 5 P0.5 NC I/O Not Used 6 P0.4 ON/OFF O Standby Output 7 P0.3 DESIGN I Service menu control 8 P0.2 SCART1 I Identify scart entering Design 9 P0.1 SCART2 I Identify scart entering Design

10 P0.0 AV SEL O AV Selection 11 P3.7 S0 O AV/TV 12 P3.6 S1 O AV/TV 13 P3.5 TV/DVD O TV/DVD 14 P3.4 DFD O Default data control 15 B B O OSD Blue colour Signal Output 16 G G O OSD Green colour Signal Output 17 R R O OSD Red colour Signal Output 18 BLANK BLANK O OSD Blanking Output 19 P5.1 SDA I/O I2C data line 20 P5.0 SCL O I2C clock line 21 VDD VDD +5 V Digital Supply 22 JTDO JTDO Test Pin 23 WSCF WSCF Analog Pin For VPS / WPP slicer line PLL 24 WSCR WSCR Analog Pin For VPS / WPP slicer line PLL 25 AVDD3 AVDD3 +5V Analog VDD For PLL 26 TEST0 TEST0 Test Pin 27 MCFM MCFM Analog Pin for display pixel freq. multiplier 28 JTCK JTCK Test Pin 29 TXCF TXCF Analog pin for VPS /WSS line PLL 30 CVBSO CVBSO Test Pin 31 AVDD2 AVDD2 Analog Power supply 32 JTMS JTMS Test Pin 33 CVBS2 CVBS2 I CVBS In for VPS / WSS 34 CVBS1 CVBS1 I CVBS In for Teletext Slicer 35 AGND AGND Analog ground 36 GND GND Digital ground 37 JTRST0 JTRST0 Test Pin 38 PXFM PXFM Analog Pin for display pixel freq. multiplier 39 AVDD1 AVDD1 Analog Power Supply 40 HSYNC HSYNC I Horizontal Sync Input 41 VSYNC VSYNC I Vertical Sync Input

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42 P4.0 BSW1 O Band switch 1 43 P4.1 BSW2 O Band switch 2 44 P4.2 SAW_SW1 O SAW Filter switch 1 45 P4.3 NC I/O Not connected 46 P4.4 SAW_SW2 O SAW Filter switch 2 47 P4.5 NC I/O Not connected 48 P4.6 Vlin PWM O V-linearity PWM output 49 P4.7 VOL PWM O VOL PWM output 50 XTAL XTAL Clock oscillator 51 XTAL XTAL Clock oscillator 52 P2.5 LED2 O LED driver 53 P2.4 LED1 O LED driver 54 P2.3 VS O VST Voltage ouput 55 P2.2 NC I/O Not connected 56 P2.1 KB INPUT I KEY Input

1.3 Block diagram

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1.4 General application description BAND SWITCH OUTPUT (Pin42 Pin43) Pin42 BSW1 Pin43 BSW2 SELECTED BAND

0 0 NOT USED 0 1 VHF-L 1 0 VHF-H 1 1 UHF

KEYBOARD INPUT LEVEL (Pin56) KEY IN (Pin 56) KEY PRESSED 0.285 ~ 0.587V Volume – (1 K ohm) 0.706 ~ 1.098V Volume + (2.2 K ohm) 1.204~ 1.596V Program- (3.9 K ohm) 1.704 ~ 2.096V Program+ (6.2 K ohm) 2.194 ~ 2.586V MENU (9.1 Kohm) 2.704 ~ 3.096V TV/DVD (13.8 Kohm) 3.205 ~ 3.606V AV/TV(22 Kohm) 3.745 ~ 4.145V Analog (37.4 Kohm) 4.282 ~ 4.682V OK (86.5 K ohm) Note:The pull up resistor of Pin56 is 10K.

TV/AV SELECTION (Pin11/Pin12) S0-Pin11 0 1 0 1 S1-Pin12 0 0 1 1

TV/AV MODE TV AV1/RGB AV2 S-VHS STANDBY OUTPUT (Pin6) STD-BY (Pin 6) Mode

0 Standby 1 Operating

2. STV2246H The STV224XH is fully bus-controlled IC for TV that include PIF, SIF, Luma, Chroma and Deflection processing functions. Used with a vertical frame booster (TDA8174A for a 90° chassis, STV9306 for a 110° chassis), they allow multi-standard (BG/DK/I/MN/LL’, PAL/SECAM/NTSC) sets to be designed with very few external components and no manual adjustments.

2.1 Main features I²C Bus Control PIF Circuit with PLL Demodulation (Positive and Negative Video) SIF Circuit with QSS Structure, FM Demodulation and AM Demodulation for France Intercarrier Capability and Built-in Sound Band pass Sound Subcarrier Output for Stereo Chassis (FM, NICAM) Integrated Chroma Filters and Luma Delay Line and Integrated Chroma Delay Line 3 channels input Video Switch and 2 channels CVBS output OSD RGB Inputs and external RGB Inputs Interface PAL/SECAM/NTSC Chroma Demodulators Black Stretch and peaking Circuit

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Automatic Cut-off Current Loop, manual Cut-off possible for low-cost applications Two Horizontal Deflection PLLs APR (Automatic RGB Peak Regulation) or RGB Peak Limitation Function

2.2 Pin description PIN NO. SYMBOL DESCRIPTION

1 SIFIN1 SIF input 2 SIFIN2 SIF input 3 AGCSIFCAP AGC SIF capacitor 4 VREFIF Voltage reference filter 5 AGCPIFCAP AGC PIF capacitor 6 PIFIN1 PIF input 7 PININ2 PIF input 8 TUNERAGCOUT AGC Tuner output 9 IFPLL IF PLL filter 10 GNDIF IF Ground 11 AM/FMOUT/SC AM/FM Mono sound or stereo carriers output 12 VCCIF 5V IF Supply 13 INTCVBSOUT Internal CVBS output 14 EXTAUDIOIN External audio input 15 PIFLC1 LC input 16 PIFLC2 LC input 17 VCC2 Video/LUMA Supply voltage (8V) 18 CVBSIN1 Internal video input 19 GND2 Video/LUMA ground 20 CVBSIN2 External video input 21 BS Black stretch capacitor 22 Y/CVBSIN3 Y(SVHS) or CVBS3 external input 23 CHR Chroma(SVHS) input 24 APR Automatic RGB peak regulation 25 BEXT/Cb External blue input or Cb input 26 GEXT/Y External green input or Y input 27 REXT/Cr External red input or Cr input 28 FBEXT External fast blanking input 29 NC/CVBSOUT1 Not connected or CVBS output1 30 BOUT Blue output 31 GOUT Green output 32 ROUT Red output 33 ICATH Cathode current measurement input 34 BOSD OSD Blue input 35 GOSD OSD Green input 36 ROSD OSD Red input 37 FBOSD/HC OSD Fast blanking input/half contrast 38 XTAL3/BTUN 3.5x MHz Crystal or bell filter tuning capacitor 39 XTAL2 3.5x MHz Crystal 40 XTAL1 4.43/3.5x MHz Crystal

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41 CLPF Chroma PLL filter

42 X1/VAMP/CHROUT XTAL1 control pin, vertical amplitude DAC output and chroma reference signal output

43 GND1 Chroma/scanning ground 44 CVBSOUT2 Second video switch output 45 VCC1 Chroma/scanning power supply (8V) 46 BCL/SAF Beam current limiter control voltage and safety input(X-ray) 47 VERT Vertical output pulse 48 HOUT Horizontal output pulse 49 LFB/SSC Line flyback input and super-sandcastle output 50 SLPF Scanning PLL filter 51 SCL I2C Bus clock input 52 SDA I2C Bus data input 53 VCCD Digital supply voltage(5V) 54 GNDD Digital ground 55 AUDIOOUT Main audio output 56 FMCAP FM demodulation capacitor

2.3 Block diagram

3. STV9306A The STV9306 is a fully I2C controlled vertical deflection IC designed forusein110°, 4/3 or 16/9 CRT applications. It integrates both the vertical deflection and E/W correction circuitries necessary in design of a 110° chassis.

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3.1 Main features Fully I2C controlled Internal flyback generator (UPTO60V) and DC Coupled operation Self adapted sawtooth (50/60Hz) Vertical linearity, amplitude and centering adjustments. Horizontal width, pincushion, trapezoid and corner adjustments. Breathing correction.

3.2 Pin description PIN NO. SYMBOL DESCRIPTION

1 SCL I2C Bus clock 2 CRAMP Ramp capacitor 3 SDA I2C Bus data 4 CHOLD Hold capacitor 5 SYNC Sync input 6 VS Supply voltage 7 FLYBACK Flyback output 8 GND Vertical output 9 OUT Vertical output 10 VOPS Vertical output Power Supply 11 EWOUT EW output 12 SENS2 Vertical current sense2 13 EWFB EW feedback 14 SENS1 Vertical current sense1 15 BREATHING Breathing input

3.3 Block diagram

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4. CD7522CS The CD7522CS is a stereo 2×3W BTL audio amplifier, specially designed for high quality sound TV applications. Features of the CD7522CS include Stand-by and Volume control functions.

4.1 Main feature 2×3W output power RL = 8Ω @THD = 0.5% VCC = 10V Standby and volume control function Low turn-on turn-off pop noise Low voltage supply ≤ 14V Thermal overload protection

4.2 Pin description

Pin NO. SYMBOL DESCRIPTION 1 VCC Power supply 2 OUT1+ Ch1 output + 3 GND Gnd (output ch1) 4 OUT1- Ch1 output - 5 ST-BY Standby control 6 Ch1 In Ch1 audio output 7 GND Gnd (Input) 8 Ch2 In Ch2 audio output 9 Vol DC volume control 10 OUT2- Ch2 output - 11 GND Gnd (output ch2) 12 OUT2+ Ch2 output +

4.3 Block diagram

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5. STV8216 This chip included three main parts: TV Sound Demodulator: provides all the necessary circuitry for the demodulation of audio transmissions of European and Asian terrestrial TV broadcasts. The various transmission standards are automatically detected and demodulated without user intervention. Audio Processor: based on DSP technology independently controls loudspeaker, subwoofer and headphone signals. It offers basic and advanced features, such as a ST Wide Surround, Equalizer, Automatic Loudness and Smart Volume Control for television viewer comfort. The STV8226/36 versions can perform additionally the SRS 3D Surround for stereo and mono signals. Audio Matrix: 3 stereo and 1 mono external analog audio inputs to loudspeakers and headphone, with 2 stereo external analog audio outputs (SCART compatible).

5.1 Main features NICAM, AM, FM Mono and FM 2 carrier stereo demodulators for all sound carriers between 4.5 and 7MHz Mono input provided for optimum AM demodulation performances Demodulation controlled by automatic standard recognition system Sound IF AGC with wide range, over modulation and carrier offset recovery, Smart volume control, smart volume control, 5-band equalizer bass/treble control, automatic loudness control Loudspeaker and Headphone outputs with volume/balance controls and beeper Subwoofer output with volume control and programmable bandwidth, spatial Sound Effects (ST Wide Surround and Pseudo-Stereo), low-noise audio mutes and switches I²C Bus-controlled, single and standard 27 MHz crystal oscillator, Power supplies: 3.3V Digital, 5V or 8V Analog, embedded 3.3V regulators

5.2 Pin description Pin NO. SYMBOL Pin TYPE DESCRIPTION

1 SIF Analog Sound IF input 2 VTOP Analog ADC VTOP decoupling pin 3 VREF IF Analog AGC Voltage reference decoupling Pin 4 VDDIF Analog power supply 3.3V Power supply for IF AGC & ADC 5 GNDIF Analog power supply Ground for IF AGC & ADC 6 MONOIN Analog Mono Input 7 AO1L Analog Left SCART1 audio output 8 AO1R Analog Right SCART1 audio output 9 VDDC Analog power supply 3.3V Power supply for audio DAC/ADC 10 GNDC Analog power supply Ground for audio DAC/ADC 11 AI1L Analog Left SCART1 audio input 12 AI1R Analog Right SCART1 audio input 13 VMC1 Analog Switched VREF decoupling Pin for audio converters (VMCP) 14 VMC2 Analog VREF decoupling Pin for audio converters (VMC) 15 AI2L Analog Left SCART2 audio input 16 AI2R Analog Right SCART2 audio input 17 VDDA Analog power supply 3.3 V power supply for audio buffers, matrix & bias 18 GNDAH Analog power supply Ground for audio buffers and SCART 19 AO2L Analog Left SCART2 Audio output

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20 AO2R Analog Right SCART2 Audio output 21 VDDH Analog power supply 8V/5V power supply for SCART and audio buffers 22 VREFA Analog Voltage reference for audio buffers 23 AI3L Analog Left SCART3 audio input 24 AI3R Analog Right SCART3 audio input 25 BGAP Analog Bandgap voltage source decoupling 26 LSL Analog Left loudspeaker output 27 LSR Analog Right loudspeaker output 28 SW Analog Subwoofer output 29 HPL Analog Left headphone output 30 HPR Analog Right headphone output 31 GNDSA Analog power supply Substrate analog/digital shield 32 HPD Bidirectional Headphone detection input (active low) 33 ADR Input Hardware I²C chip address control 34 SCL Open drain I²C serial clock 35 SDA Open drain I²C serial data 36 REG Analog 5V power regulator control 37 RESET Input Hardware reset (active low) 38 SYSCK Bidirectional System clock output 39 MCK Bidirectional I²S master clock output 40 VDD1 Digital power supply 3.3V Power supply for digital core & IO cells 41 GND1 Digital power supply Ground for digital core & IO cells 42 GNDSP Analog power supply Substrate analog/digital shield for clock-PLL 43 XTI Input Crystal oscillator Input 44 XTO Output Crystal oscillator output 45 VDDP Analog power supply 3.3V power supply for analog PLL clock 46 GNDP Analog power supply Ground for analog PLL clock 47 GND2 Digital power supply Ground for digital core, DSPs & IO cells 48 VDD2 Digital power supply 3.3V power supply for digital core, DSPs & IO cells 49 CKTST Input Must be connected to ground 50 SDO Bidirectional I²S bus data output 51 ST/SDI Bidirectional Stereo detection output / I²S bus data input 52 WS Bidirectional I²S bus word select output 53 SCK Bidirectional I²S bus clock output 54 BUS1 Bidirectional I²C bus expander output1 55 BUS0 Bidirectional I²C bus expander output2 56 IRQ Bidirectional I²C status read request

5.3 Block diagram

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ⅤCHASSIS BLOCK DIAGRAM

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Ⅵ SERVICE MODE&ADJUSTMENT The Service-1 mode is entered by pressing the “SERVICE” key on remote control when the TV is in ON condition and not in any Menu mode. In service mode, by pressing “OK” key, Service-2 is accessed. by pressing “OK” key again, Serivice-3 is accessed. By pressing “PP” key, exit Service mode.

6.1 WHITE BALANCE ADJUSTMENT The items within the Service-1 mode can be accessed using P+/P- keys and the selected item can be modified by using V+/V- keys. The parameters controlled in the Service-1 menu are : a) Red Gain ( 0 ... 63 ) b) DC Red ( 0 .... 127) c) Green Gain ( 0 .... 63) d) DC Green ( 0 .... 127) e) Blue Gain ( 0 .... 63)

f) DC Blue ( 0 .... 127) g) APR_threshold (0….15)

h) LOGO ( the first show the length of logo, and the followed is the logo)

i) R-Cutoff (0…63) j) G-Cutoff (0…63)

The display of Service-1 menu is showed as follows:

6.2 VIF ADJUSTMENT When in Service-1 menu ,if “OK” key is pressed , Service-2 menu appears and the display is as follows.The parameters controlled in the Service-2 menu are : a) Tuner AGC ( 0 ... 63 ) b) Horizontal position 50 Hz( 0 ... 63) c) Vertical position 50 Hz (0…15)

d) Vertical amplitude 50Hz (0…63) e) Vertical linearity 50Hz (0…63)

f) Horizontal position 60 Hz( 0 ... 63) g) Vertical position 60 Hz (0…15) h) Vertical amplitude 60 Hz (0…63) i) Vertical linearity 60 Hz (0…63) j) Sub-Bright Maximum (0…63) k) Sub-Bright Minimum (0…63) l) Sub Tint (0…63) m) VCO Coarse ( 0 ... 15) n) VCO Fine ( 0 ... 127 ) o) VCO Coarse L1( 0 ... 15) p) VCO Fine L1( 0 ... 127 )

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The display of Service-2 menu is showed as shown: The VCO status bar at the bottom of the screen appears only if either VCO Coarse item or VCO Fine item is selected. The VCO status is read from the Read register of STV223X/4X and guides whether to Increase / Decrease the VCO registers to attain VCO OK Status. For doing VCO adjustment , Feed a 38.9MHZ Carrier as IF input and adjust VCO Coarse and fine parameters to get VCO OK Status. If the cursor is in VCO Coarse or Fine, and the display shows VCO OK status, then pressing of AV” key will automatically put VCO fine to the Centre of the +60 to -60 KHz window. For doing VCO L1 adjustment ,Feed a 33.9 MHZ carrier as IF input and adjust VCO Coarse L1 and VCO Fine L1 to get VCO OK Status. If the cursor is in VCO Coarse L1 or Fine L1 , and the display shows VCO OK status, then pressing of “AV” key will automatically put VCO fine for L1 to the Centre of the +60 to -60 KHz window. Another fast way of adjustment of VCO is to put the selection bar to either VCO Coarse or fine and press the “AV” key. The VCO adjustment is done automatically. Similarly if you put the selection bar to VCO Coarse L1 or Fine L1 and press the “AV” key , the VCO L1 adjustment will be done automatically. NOTE:Below items are not used in this chassis:

Vertical position 50 Hz Vertical amplitude 50Hz Vertical linearity 50Hz Vertical position 60 Hz Vertical amplitude 60 Hz Vertical linearity 60 Hz

6.3 STV9306 ADJUSTMENT When in Service-2 menu, if “OK” key is pressed, Service-3 menu appears and the display is as follows, if the IC STV9306 has not been detected, then Service-4 (design menu) menu will appear.

1) Vertical amplitude for 50Hz signal. 2) Vertical amplitude for 60Hz signal. 3) Vertical shift (internal separated by 50Hz and 60Hz) 4) S Correction. 5) C Correction. 6) Horizontal width adjustment. 7) Pincushion Correction. 8) E/W Sharp Correction. 9) Trapezium Correction.

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6.4 DESIGN OPTION SETTING When in Service-3 menu, if “OK” key is pressed, Option menu appears and the display is as follows:

OPTION1 b7 = Over modulation (0=Disable, 1=Enable, it’s suggested to set it to 0 normally.) b5 = P/N/S crystals application (0=2 Crystals, 1= 1 Crystals, according the quantity of crystal used for color decoding in chassis.) b4 = Cutoff Loop (0= OFF, 1=ON, it’s suggested to set it to 1 normally) b3 = Safety Reset (0=Active, 1=Non, it’s suggested to set it to 0 normally) b2 = MONO IN (0 = OFF, 1= ON, Depend on the sound decoding solution used in chassis. ) b1 = Sound Demodulation (0 = Intercarrier/MONO, 1 =QSS/NICAM, depend on the sound decoding solution used in chassis.) b0 = logo display (0 =OFF, 1= ON, it’s suggested to set it to 0 normally.) OPTION2 (set to 0 by default) b5 = HALF_CONTRAST (0 = OFF, 1=ON) b4 = Color 6dB (0 = OFF, 1 = ON) b3 = APR Feature (0 = ON, 1= OFF) b2 = Black Stretch (0 = ON, 1= OFF) b1 = Auto Flesh (0 = ON, 1= OFF) b0 = Coring (0 = ON, 1 = OFF) OPTION3 b7 =SMART (0 = OFF, 1=ON, it’s suggested to set it to 1 normally) b5 = AVL (0 = OFF, 1=ON, it’s suggested to set it to 0 normally.) b4 = PIF overmodulation (0 = OFF, 1= ON, it’s suggested to set it to 0 normally.) b3 = Market_France --- secam LL (0 = OFF, 1 = ON, depend on the solution of chassis.) b2 = Manual/Auto cutoff (0 = Manual, 1 = Auto cutoff, depend on the CRT for chassis.) b1 = Mute pin low/high –to control the mute of speaker (0 = low, 1 = high, depend on the solution of chassis.) OPTION4 b6 = WIDE MODE (0 = OFF, 1=ON, it’s suggested to set it to 0 normally.) b4 = SCART2 (0 = OFF, 1=ON, depend on the solution of chassis.) b3 = RGB (0 = OFF, 1= ON, depend on the solution of chassis.) b2 = SVHS (0 = OFF, 1= ON, depend on the solution of chassis.) b1 = AV2 (0 = OFF, 1= ON, depend on the solution of chassis.)

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b0 = AV1 (0 = OFF, 1= ON, depend on the solution of chassis.) OPTION5 There are 8 bits used in OPTION 5. They are b0, b1, b2, b3, b4, b5, b6 and b7. For b0, normally, ST suggests to set it to 0. For b1, b2, they are used to select teletext languages. For b3, it’s used to enable AV3 and SVHS. When b3 is set to 0, SVHS is enabled. When b3 is set to 1 in binary, the value is 8 in decimal. AV3 is enabled.

For b4, b5, b6 and b7 of OPTION 5 are also used to set the brightness of background in teletext mode. When b4 b5 b6 and b7 are all set to 0, the brightness of teletext background is the same as brightness of TV background. When b4, b5, b6 and b7 are all set to 1, it’s the maximum brightness of teletext background. It’s the minimum brightness of teletext background when b4 is set to 1, and b5, b6 and b7 are all set to 0. you can set these 4 bits according to your favorite brightness of teletext background.

A. for 11 OSD languages CPU ST92195C7B1/MNS and ST92195C7B1/MTH for east Europe, the setting of the b1 and b2 is listed as below. 1. If b1 = b2 = 0, then the TEXT languages like “ENGLISH, FRENCH, SWEDISH, CZECH, GERMAN, PORTUGUESE (SPANISH), ITALIAN, RUMANIAN” can be decoded; 2. If b1=1, b2=0, then the TEXT languages like “ENGLISH, RUSSIAN (BULGARIAN), HUNGARIAN, TURKISH, GERMAN, PORTUGUESE (SPANISH), ITALIAN, RUMANIAN” can be decoded. 3. If b1=0, b2=1, then the TEXT languages like “POLISH, RUSSIAN (BULGARIAN), SWEDISH, SLOVAK, GERMAN, SLOVENIAN, LITHUANIAN, RUMANIAN” can be decoded. 4. If b1 = b2 =1, then the TEXT languages like “POLISH, RUSSIAN (BULGARIAN), SWEDISH, CZECH, GERMAN, CROATIAN, LETTISH, RUMANIAN” can be decoded. B. for 12 OSD languages CPU ST92195C7B1/MNU and ST92195C7B1/MOK (SHRINK VERSION) for Western Europe, the setting of the b1 and b2 is as below. 1. If b1 = b2 = 0, then the TEXT languages like “ENGLISH, FRENCH, FINNISH, CZECH, GERMAN, PORTUGUESE (SPANISH), ITALIAN, GREEK” can be decoded; 2. If b1=1, b2=0, then the TEXT languages like “ENGLISH, FRENCH, DANISH, NORWEGIAN, GERMAN, PORTUGUESE (SPANISH), ITALIAN, GREEK” can be decoded. 3. If b1=0, b2=1, then the TEXT languages like “POLISH, FRENCH, SWEDISH, CZECH, HOLLAND, SERBIAN, ITALIAN, RUMANIAN” can be decoded. 4. If b1 = b2 =1, then the TEXT languages like “POLISH, FRENCH, SWEDISH, CZECH, GERMAN, PORTUGUESE (SPANISH), LETTISH, RUMANIAN” can be decoded. ST Text b0 is used to change the process for adjusting Auto gain. 1) When CPU ST92195C7B1/MOK is used, the b0 is suggested to set to 0, the gain table for shrink version should be selected. 2) When CPU ST92195C7B1/MNU is used, the b0 is suggested to set to 1, the gain table for normal version will be selected. b1, b2, b3 = select the correct process, only for ST engineer adjustment. ROM_M6_P_valid | OSDEPROM_M6_R_valid | ROM_M6_R_valid | EPROM_M6_R_valid EPROM_M6_R_valid | ROMLESS_H5_P_valid | ROM_H5_P_valid | EPROM_M6_A_valid /* note: ROMLESS_M6_R_valid == ROM_M6_R_valid*/ b4 = Color transition for SVHS of STV224XX (0 = b5 is available, 1 = b5 is not available, and “SHARPNESS” is no feature.) b5 = (0 = STV224XH, 1 = STV224XC/D/E).

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b6 = Tuner Drift Correction (0 = OFF, 1 = ON.) b7 = RGB/DVD display on screen (0 = RGB, 1 = DVD.) HPOS OSD, Adjust horizontal position of OSD. VPOS OSD, Adjust vertical position of OSD. HPOS TXT, Adjust horizontal position of teletext. VPOS TXT, Adjust vertical position of teletext. HOTEL MODE, To set HOTEL MODE ON or OFF. When HOTEL MODE is enabled. The end user can not make any adjustment of items in menu INSTALL, AUDIO and ORGANIZE. Menu INSTALL and AUDIO will disappear automatically. Volume Limit, To set maximum volume of HOTEL MODE. It’s only available when HOTEL MODE is enabled. SndSt 1 b0, b1, b2, b3 of SndSt 1 are used to set the sound output level at pin 26 and pin 27 of STV8216 with RF signal. When b0, b1, b2, b3 of SndSt 1 are all set 0, the minimum sound output level will be got at pin 26 and pin 27 of STV8216 with RF signal. When b0, b1, b2, b3 of SndSt 1 are all set 1, it’s 15 in decimal. The maximum sound output level will be got at pin 26 and pin 27 of STV8216 with RF signal. b4, b5, b6, b7 of SndSt 1 are used to set the “SURROUND” gain at pin 26 and pin 27 of STV8216 with RF & AV signal. When b4, b5, b6, b7 of SndSt 1 are all set 0, the minimum “SURROUND” gain will be got at pin 26 and pin 27 of STV8216 with RF & AV signal. When b4, b5, b6, b7 of SndSt 1 are all set 1, it’s 240 in decimal. The maximum “SURROUND” gain will be got at pin 26 and pin 27 of STV8216 with RF signal. SndSt 2 b0, b2, b2, b3 of SndSt 2 are used to set the sound output level at pin 26 and pin 27 of STV8216 with AV signal. When b0, b2, b2, b3 of SndSt 1 are all set 0, the minimum sound output level will be got at pin 26 and pin 27 of STV8216 with AV signal. When b0, b2, b2, b3 of SndSt 1 are all set 1, it’s 15 in decimal. The maximum sound output level will be got at pin 26 and pin 27 of STV8216 with AV signal. b4, b5, b6, b7 of SndSt 2 are used to set the “EQUALIZER” gain at pin 26 and pin 27 of STV8216 with RF & AV signal. When b4, b5, b6, b7 of SndSt 1 are all set 0, the maximum “EQUALIZER” gain will be got at pin 26 and pin 27 of STV8216 with RF & AV signal. When b4, b5, b6, b7 of SndSt 1 are all set 1, it’s 240 in decimal. The minimum “EQUALIZER” gain will be got at pin 26 and pin 27 of STV8216 with RF & AV signal. LL1 MAGC, Just for SECAM LL1 SIF AGC setting purpose in STV8216. No available for PAL and NTSC system. When the item “LL1 MAGC” is set to OFF, the SIF AGC of STV8216 is set by software. When the item “LL1 MAGC” is set to ON, the SIF AGC of STV8216 can be set manually. The following steps can be followed when set this item. 1) To get a RF SECAM LL1 signal without sound modulation, only sound carrier is available. And put the

signal to input of tuner in CTV 5 chassis. 2) To press “SERVICE” key on remote control to enter service menu. And select the item “LL1 MAGC” by

P+ or P- key on remote control. Set the item “LL1 MAGC” from “OFF” to “ON” by V+ or V- key on remote control. service command,

1) “PP”----exit 2) “OK”---- switch between the service menu

-18-

3) “AV”---- auto VCO adjust 4) “MUTE” ---- one line gain

Enter service menu with user remote control, 1) Press key “Sleep” on remote control to set sleep time to “00:50”. 2) Within 5 seconds, press local key “V+” in TV set to enter service menu. 3) Adjust expecting item as the same as service remote control.

Ⅶ TEST POINT WAVE FORM&SCHEMATIC DIAGRAM

-19-

-20-

-21-

C6010.22u 250V

RT6

01M

Z72-

18

D634RU3YX

C634470P

ZD1013.9V

+

C63247u/16V

C131 47p

C101 0.1u

R133 1K

R131 1K

R129 1K

C3242200p

R137 39K

R118 5.6K

T2S08 CHASSIS SCHEMATIC DIAGRAM

+

C607100u/400V

D606

2R625 6.8

D6161N4148

D605

2

R62439

D603

D604

T604

R113100K

5R633 22

+C645 470u/25VD635

RU4YX

C637 470P

C303

0.1u

C3040.68u

D302 1N4007

R32468K C307

1000p

R31410K

R335100

R322100

C804

0.1u

C803

0.22u

C8050.1u

R802

22

D3091N4148

D631RG2

C631 470P

+C641

47u/160V

R302100

R301100

+C661100u/16V

R111 5.6K

R805100

R804100+

C820

0.47u/16V

C1034700p

C1120.1u

C105 0.22u

C104220p

R115470

D617RGP15J

D6141N4148

R61922

R620180K

R635150K

R63610K

VR6312K

D6416.2V

2 R303150

R306220

R25375

5

82

39

13

16

17

9

15

R637

150K

+C639

470u/16V

+

C67547u/16V

+

C658220u/16V

Q683B892

R317 1K

R120

4.7K

R8064.7K

AC230V

50Hz

SW601

T3.15A 250V

F601

Q613ST1802

C6161000p 2KV

C617

0.015u

Q6122SC3807

R62215K

R6262.7K

C6150.015u

R61522K

C6140.1u

C6134700p

R6172.2K

R6232.7K

ZD60

1

11V

Q6112SA1015

R6115.6K

IC601H11A817

C603 C605

C606 C604

R6025D11

C602

0.22u 250V

T601UF-LB-1604

XP601

XS602

XS601

C6080.1u 400V

XS603

L601

DEGAUSSING COIL

C6292200p 400V

R629

8.2M 1/2W

C603-C606 D603-D6071000p 1KV RM11C

C11322p

+

C6351000u/25V

V in

GND

V outIC605

7805

R685

15K

R6551K

C6510.1u

V in

GND

V out

IC6067812

C6570.1u

V in

GND

V out

IC6037808

C6740.1u

V in

GND

V outIC604 7805

C6710.1u

Q631 2SC1815

Q6822SC1815

Q1022SA1015

D1011N4148

R1144.7K

+

C1061u/50V

R116

270

2R640

15KIC602

uPC574

+C6591uF/50V

+12V

+8V

+5V-1

+33V

STD BY

RST

+5V

+12V-1+140V

C3260.1u

H OUT

Q3012SC2383

T301JDT1924 Q302

2SC5296

SCL

OSD R

MCFM

OSD G

JTCK

AVDD3

JTD0

TEST0

ESCR

VDD

WSCF

OSD FB

SDA

OSD B

DATA PRT

NC

S1

S0

TV /AV

SCART2 ID

SCART1 ID

SERVICE

STD BY

NC

MUTE

NC

RESET

IR IN1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17

18

19

20

21

22

23

24

25

26

27

28 29

30

31

32

33

34

35

36

37

38

39

40

41

42

43

44

45

46

47

48

49

50

51

52

53

54

55

56

TXCF

CVBS0

AVDD2

JTMS

WSS

TXT VIN

AGND

GND

JTRET0

PXFM

AVDD1

H SYNC

V SYNC

BSW1

BSW2

PIF SW

NC

SIF SW

NC

VLIN PWM

VOL PWM

OSC

OSC

STDBY LED

STDBY LED

VT

NC

KB IN

IC101 ST92195

+C11047u/16V

R117 10R119 6.8K

C1080.1u

+C109

100u/16VL101

10uH

R134 1K

R123 10K

+5V

SCLSDA

OSD FB

OSD R

OSD G

OSD B

MUTE

RST

R121 15K C123

2200p

C122

0.1u

+C11147u/16V

C12182p

+

C1190.47u/50V

R141 10

C136

22p

R139 5.6K

C1354700p

C1330.1u

+C13447u/16V

R143 10

D1041N4148

D105

1N4148 ZD1025.1V

R190 1K

R149 5.6K

R102 10K

Q1012N3904

R112 33K

X101

4MHz C11439p

C11539p

R10133K

R104 33K

C1020.1u

R10333K

VT

+33V

SIF SW

BSW2

BSW1+5V

V SYNCSC

+5V

TXT

+5V

R171 10K

+5V

L80210uH

C8070.1u

+

C80610u/16V

C810

0.1u

+

C808

10u/16V

C811

0.1u

+C809

10u/16V

AO

2R

VD

DA

LSR

AI2

R

SWBG

AP

VER

FA

LSL

AL3

R

VD

DH

AI3

L

GN

DA

H

AO

2L

AI2

L

VM

C2

VM

C1

AI1

R

AI1

L

GN

DC

VD

CC

AO

1R

AO

1L

MO

NO

IN

GN

DIF

VD

DIF

VER

FIF

VTO

P

SIF

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28

29303132333435363738394041424344454647484950515253545556

HPL

HPR

GN

DSA

HPD

AD

R

SCL

SAD

REG

RES

ET

SYSC

K

MC

K

VD

D1

GN

D1

GN

DSPXTI

XTO

VD

DP

GN

DP

GN

D2

VD

D2

CK

TST

SD0STWS

SCK

BU

S1

BU

S0

IRQ

IC80

1ST

V82

16

C812

0.1u

+

C81310u/16VR803330

C818 0.1u

+

C81910u/16V

C8160.1u

+

C81710u/16V

C8140.1u

+

C81510u/16V

L80310uH

+C82747u/16V

C821

0.1u

X801

27MHz

C823 22p

C822

22p

R807

270K

C824

0.1u

C826

0.1u

+

C825

10u/16V

VC

C

BH

BL

AG

C

VT

BU

IF

831 54 6 72 9 10 11

TU201

C216

0.1uR2034.7K

R202

27KR201100

+8V

+5V

SIF

AO

1L

AO

1R

AI1

LA

I1R

AI2

RA

I2L

+8V

AGCVT

+5V-1

BSW2BSW1

+C220

22u/16V

+C21247u/16V

+5V-1SDASCL

XS101

+5V

+8V

CV

BS

IN2

VC

C2

R E

XT

PIF

LC2

FB E

XT

B E

XT

Y/C

VB

S IN

3

G E

XT

APR

BS

CH

R

CV

BS

IN1

GN

D2

PIF

LC1

EXTA

UD

IAIN

INTC

VB

SOU

T

VC

C IF

AM

/FM

OU

T

GN

D IF

IF P

LL

AG

C O

UT

PIF

IN2

PIF

IN1

AG

CPI

FCA

P

VR

EF IF

AG

CSI

FCA

P

SIF

IN2

SIF

IN1

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28

29303132333435363738394041424344454647484950515253545556

NC

B O

UT

G O

UT

R O

UT

ICA

T

OSD

B

OSD

G

OSD

R

OSD

FB

XTA

L3

XTA

L2

XTA

L1

CLP

F

V A

MP

GN

D1

CV

BSO

UT

VC

C1

BC

L

VER

T

H O

UT

LFB

SLPF

SCL

SDA

VC

C D

GN

D D

AU

DIO

OU

T

FM C

AP

IC201STV2248

C429

0.1u

C428

0.1u

C427

0.1u

R42175

R42275

R42375

+

C225

1u/5

0V

R228330K

+

C4251u/50V

R418

75

+C217

1u/5

0V

+C426

1u/5

0V

R42075

+C218

1u/5

0V

R2231K

R2241K

Q2022SC1815

T2017K011

+

C233470u/16V

C219

0.1u

L202

10uH

+

C21047u/16V

C2110.1u

R219150

L203

10uH

SF2035.5MHz

C2030.1u

+

C22147u/16V

L20110uH

C80147p

L80110uH

R80

1560

C20

810

00pR221

150

C206

0.33u

+

C2091u/50V

+

C22310u/16V

C2240.022u

+

C2221u/50V

1 2

3

45

K3953MSF2021 2

3

45SF201K9650M

R231470

R232

470

R233

470

R235

1K

C22

9

0.1u

X202

4.43

C26115p

R22

956

K

R128 1K

R127 1K

R126 1K

R125 2.7K

R1301.5K

R124 1.5K

C2260.1u

C2270.1u

C2280.1u R234

47K

C23

847

00p

R23

627

KC23

70.

1u

R23

92.

2K

R24

6

2.2K

R24

8

100

R24

7

100+

C2351u/50V +

C232

100u

C2340.1u

L20410uH

R23

8

2.2K

R24

5

8.2K

D20

3

1N4148

R23

7

15K

+

C24

22.

2u/5

0VC24

347

00p

MHz16V

AB

L

TXT

VSY

NC

H O

UTSC+8V

SCL

SDA

+5V

-1

OSD

FB

OSD

R

OSD

G

OSD

B

ICA

T

R O

UT

G O

UT

B O

UT

FBIRIGIBI

+5V

-1

+8V

Q2032SC1815

R211

470

R212

1KR213

560

V O

UT1

+8V

V IN

1

V IN

2

SIF

+

C305

100u/35V

R311

220K

R3202.2K

R31315K

R312100K

V C

IOL

1R323

0.56

2 R336470

C3080.033u

+C3061000u/16V

2R331 10

ZD30143V

2R329 10+

C3104.7u/160V

H C

OIL

L301 31uH

1R312 1K

2R308 10K

D305RGP15J

C312 0.01uF

C3110.22uF+

C3091u/250V

L3021mH

T302 ***

C316220p

L3030.2uH

C313

7500p

C3150.018uF

C314

4700p

D301BY228

D302RGP15J

1.6KV

2KV

C3170.039u

R3161

D308RGP15J

1R310

1

D303RGP15J

C322470p/500V

1R318 1K

D3041N4148

+

C3201000u/35V

3R399 ***

2R307

1

C318 470p/500V+

C31910u/250V

+C321

22u/160V

R3258.2K R321

8.2K

R31922K

ABL

+24V

+140V

+24V

SC

R24910K

+ C2464.7u/50V

ABL-V

XS302

SCLSDA

V SYNC+24V+12V

R506

2.2K

R515

2.2K

R521

2.2K

2R

523

10K

R326 220K

R5191.2K

R51

3

1.2K

R50

1

1.2K

R52010K

R512330C510

680p

R518330C515

680p

2R

522

10K

2R

524

10K

ZD5015.6V

R50747K

D5011N4007

C517

680p

Q502

BF423

D5041N4007

C511680p

Q507BF423

D5061N4007

C516680p

Q504BF423

R514 10K

R505 10K

Q501

2SC1815

Q504BF422

Q501BF422

R504330

C505

680p

R0743.9K

R0756.2K

R0721K

R0732.2K

SW3P-

SW4P+

SW5V-

SW6V+

D111HFT505M

R0151K

R170510

R168 10C1270.1u

I R

IC103HS0038

IF

+12VABL-V

KB

KG

KR

CRT

C5212200p/2KV

XP502

XP501XS101

HV

FOCUS

SCREEN

OU

T L

OU

T R

ICAT

R OUT

G OUT

B OUT

C8292200p

C7070.1u

C8302200p

C7060.1u

R8124.7K

R8114.7K

R810 18K

R809 18K+

C70247u/16V

+C703

470u/25V

D7011N4148

+C701220u

R7014.7K

Q7012SA1015

16V

OUT L

OUT R

+15V

2R707 0.47

+12V-1

ROLORILISW

BIVI

VO

FBIGIRI

123456789101112131415161718192021

XS401

R70

82.

2

C7090.1u

XS702

SPK L

R70

92.

2

C708 0.1uXS701R SPK

ROLORILISW

BIVI

VO

FBIGIRI

123456789101112131415161718192021

XS402

L403

15uH

L402

15uH

L404

15uH

L401

15uH

C407

330p

C404

330p

C408

330p

C403

330p

R40

810

0K

R40

710

0K

R40

110

K

R40

622

0

R40

210

K

R40

522

0

R40968

V IN

2V

OU

T2

AI2

R

AI2

L

AO

2R

AO

2L

L407 15uH

L406 15uH

L408 15uH

L405 15uH

C422

330p

R41

510

0K

R416

100K

C41

833

0pC

421

330p

C41

733

0p

R414220

R413 10K

R417 220

R412 10K

V IN

1

R41968

V O

UT1

FBI

RI

GI

BI

SCA

RT1

ID

SCA

RT2

ID

AO

1L

AO

1R

AI1

L

AI1

R

1. IS MARK OF CRITICAL COMPONENT2.SUBJECT TO CHANGE WITHOUT NOTICE

C207

0.1u

AG

C

+C

410

1u/5

0V +

C41

11u

/50V

+

C40

91u

/50V

+

C41

2

1u/5

0V

+ C423 1u/50V

+

C4131u/50V

+

C4141u/50V

+

C4241u/50V

R813 33

D201

1N41

R21

7

6.8K

R21

8

2.2K

R21

6

2.2K

Q2012SC1815

R215

10K

R21422K

C20

40.

1u C2050.1u

48

SIF

SW

IFIF +8V

C2390.1u

L20510uH

+

C245

4.7u

R24456K

R2432.2K

D20

2

1N41

48

C2410.1u +

C231

470u16V

C80256p

R105 6.8K

R10

712

K

R10

612

K

R136 6.8K

R110 4.7K

R160 6.8K

+5VSCLSDA

SCART2 ID

SCART1 ID

+5V

STD BY

R108 2.7K

R109 2.7K

Q8012SA1015

R808220K D

801

1N41

48

R526 22

T2S08 CHASSIS SCHEMATIC DIAGRAM

C33047p

Title:Number:Date:

Revision:Sheet:

Described: Checked: Approved:20-May-2007 1 of 1

1

+ C21347u/16V

+C21447u/16V

D3101N4007

D3111N4007

+15V

+15V

L206

10uH

R639

15K

+C6380.22uF

D636

1N4148

R621180K

C405

330p

C401

330p

C406

330p

C402

330p

C419

330p

C416

330p

C420

330p

C415

330p

AO

2LA

O2R

R2571K

Q2072SC1815

R230470

R240560

V O

UT2

+8V

+8V

VC

C

OU

T1+

GN

D1

OU

T1-

STD

BY

IN1

GN

D

IN2

VO

L

OU

T2-

GN

D2

OU

T2+

IC701 CD7522CS

R70410K

R705 3.3K

R703100K

Q7022SC1815

R702

4.7K

R122

4.7K

MU

TE

R0743.9K

SW3P-

R0743.9K

SW3P-

R516 100

R510 100

R502 100

Q5032SA1015

R508 4.7K

R509100

+C506

100u/16V

R638 3.3K

TP1 TP2

TP3 TP4

TP5 TP6 TP7

TP8 TP9

TP10

TP11 TP12 TP13

TP14

TP15

TP16

TP17

TP18

TP19 TP20

TP21

TP22

TP23

TP24

TP25

TP26

TP27TP28

TP29

SCL

CR

AM

P

SDA

CH

OLD

SYN

C

VC

C

FLY

BA

CK

GN

D

OU

T

VO

PS

EWO

UT

SEN

S2

EWSE

NS

SEN

S1

BR

EATH

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15

IC301 STV9306

A0

A1

A2

GN

DSD

ASC

L

VC

CW

C

IC10224C08

grundig_gmm1100-stf55-1001_t2s08_chassis_[ET]

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