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CONTENTS
INTRODUCTION .......................................................................................................................... 3 TECHNICAL SPECIFICATIONS ............................................................................................... 3 1. SCREEN ........................................................................................................................................... 3 2. POWER SOURCE ................................................................................................................................ 3 3. POWER CONSUMPTION ...................................................................................................................... 3 4. INPUT SIGNALS ................................................................................................................................. 3 5. INTERFACE ....................................................................................................................................... 3 6. RESOLUTION ..................................................................................................................................... 3 7. DISPLAY SIZE ................................................................................................................................... 3 8. OPERATING TEMPERATURE ................................................................................................................. 3 9. PREDEFINED FACTORY MODES ........................................................................................................... 4 C. IMPORTANT SERVICING SAFETY PRECAUTIONS ............................................................ 5 D. LOCATION OF CONTROLS ....................................................................................................... 6 E. CIRCUIT DESCRIPTION ............................................................................................................ 7 1. POWER SUPPLY CIRCUITRY ................................................................................................... 7 a) MC44605 .................................................................................................................................. 7 b) MTP6N60E ............................................................................................................................... 7 2. DEFLECTION CIRCUITS ........................................................................................................... 8 a) EHV Generation ....................................................................................................................... 8 b) Horizontal Deflection .............................................................................................................. 8 c) E/W Circuitry ............................................................................................................................ 8 d) S-Correction and Linearity ....................................................................................................... 8 e) Rotation (optional) ................................................................................................................... 8 f) Vertical Deflection .................................................................................................................... 8 g) TDA9109 .................................................................................................................................. 9 h) TDA8172 .................................................................................................................................. 9 i) BUH1015 ................................................................................................................................ 10 j) TIP122 .................................................................................................................................... 10 k) IRF630 .................................................................................................................................... 10 3. MICROCONTROLLER ............................................................................................................. 11 4. VIDEO CIRCUIT ....................................................................................................................... 12 a) TDA9203A .............................................................................................................................. 12 b) STV9425B ............................................................................................................................... 13 c) TDA9511 ................................................................................................................................. 13 5. DDC (OPTIONAL) ........................................................................................................................... 14 a) ST24LC21 ............................................................................................................................... 14 F. BLOCK DIAGRAMS .................................................................................................................. 15 1. SUPPLY .......................................................................................................................................... 15 2. VIDEO ........................................................................................................................................... 16 3. MICRO CONTROLLER AND DDC CIRCUIT ......................................................................................... 17 4. DEFLECTION ................................................................................................................................... 18 5. GENERAL ADJUSTMENTS ...................................................................................................... 19 1. SYSTEM VOLTAGE ADJUSTMENT ....................................................................................................... 19 2. EHT (B +) ADJUSTMENT ............................................................................................................... 19 3. FOCUS ADJUSTMENT ....................................................................................................................... 19 6. WHITE BALANCE ADJUSTMENT ......................................................................................... 20 7. GEOMETRY ADJUSTMENTS .................................................................................................. 23 8. CONVERGENCE ADJUSTMENT ............................................................................................ 24 9. USING THE VESTEL MONITOR ADJUSTMENT PROGRAM: ......................................... 28 10. EEPROM MAP ............................................................................................................................ 29 11. PROBLEM SOLVING GUIDE ................................................................................................... 38 12. PARTS LIST ................................................................................................................................. 41 13. WAVEFORMS .............................................................................................................................. 50 14. SCHEMATICS AND LAYOUTS ................................................................................................ 54 A. B.

1

A. Introduction 15AK15 is a full I2C controlled monitor chassis designed for driving 15 and 17 inch tubes. The chassis is able to display information automatically in the range of 30Khz to 70Khz horizontal and 50Hz to 120Hz vertical frequency. Many different VESA display modes are included in the predefined factory settings. Power consumption of the chassis is in appliance with the VESA-NUTEK requirements, i.e. power consumption is below 5W in off mode and is below 15W in standby and suspend modes. Plug and play function is supported by DDC1/2B protocols. B. Technical Specifications 1. Screen 15 0.28 mm dot pitch, medium short persistence phosphor, anti-glare. 2. Power Source AC 120V / 60 Hz & 220V / 50 Hz Auto-switching. 3. Power Consumption Maximum 85 W. 4. Input Signals Video Analog R.G.B.: 0.7Vpp (positive) Sync TTL level positive or negative 5. Interface 15 Pin D type connector. 6. Resolution Maximum resolution 1280 x 768 pixels (non-interlaced) 7. Display Size 270 ± 5 mm (H) x 200 ± 5 mm (V) 8. Operating Temperature 0-40 degree C

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1. Predefined Factory Modes Mode No Chroma Timing (Pixels x Lines) Horizontal Freq.(kHz) Polarity Freq.(Hz) Polarity 0 105 720x400 1 106 720x400 2 107 640x480 3 108 640x480 4 109 640x480 5 110 640x480

Resolution Vertical 31.469 37.927 31.469 37.861 37.500 43.269 70.087 85.039 59.940 72.809 75.000 85.008 + + -

2

6 7 8 9 10 11 12 13 14 15 16 17 18 19

111 112 113 114 115 116 117 118 119 120 121

800x600 800x600 800x600 800x600 800x600 1024x768 1024x768 1024x768 1024x768 1024x768 1280x1024 reserved reserved USER MODE

35.156 37.879 48.077 46.875 53.674 35.5 48.363 56.476 60.023 68.677 63.981

+ + + + + + + + +

56.250 60.317 72.188 75.000 85.061 43.479 Int. 60.004 70.069 75.029 84.997 60.020

+ + + + + + + + +

SINGLE/MULTISTANDARD VIF/SIF-PLL and FM-PLL/AM DEMODULATOR TDA9818 ....................................................... 6 COMB FILTER SAA4961 ......................................................................................................................................................... 6 POWER SUPPLY (SMPS) ....................................................................................................................................................... 6 MICROCONTROLLER SDA525X ............................................................................................................................................ 6 SERIAL ACCESS CMOS 8K (1024*8) EEPROM ST24C08 ................................................................................................... 6 CLASS AB STEREO HEADPHONE DRIVER TDA1308 ......................................................................................................... 7 SAW FILTERS .......................................................................................................................................................................... 7 IC DESCRIPTIONS AND INTERNAL BLOCK DIAGRAM ....................................................................................................... 7 TDA8840/TDA8842/TDA8844 ........................................................................................................................................... 7-8 UV1315/UV1316/UV1336 .................................................................................................................................................. 9-10 TEA6415C .......................................................................................................................................................................... 10 TDA9830 ............................................................................................................................................................................ 10 TDA2614/TDA2615/TDA2616Q ......................................................................................................................................... 11-12 TDA8351/TDA8356 ............................................................................................................................................................ 12 TDA6107Q ......................................................................................................................................................................... 13 SAA4961 ............................................................................................................................................................................ 13-14 MC44604 ............................................................................................................................................................................ 14-15 SDA525X ............................................................................................................................................................................ 16-17 TDA9875 ............................................................................................................................................................................ 17-18 TDA9818 ............................................................................................................................................................................ 18 ST24C08 ............................................................................................................................................................................ 18 TDA1308 ............................................................................................................................................................................ 18 G1965M .............................................................................................................................................................................. 18 TDA9855 ............................................................................................................................................................................ 19 AK19 CHASSIS MANUAL ADJUSTMENT PROCEDURE ...................................................................................................... 20 For Adjust Settings ............................................................................................................................................................. 20 WHITE BALANCE ADJUSTMENT .................................................................................................................................... 20 AGC ADJUSTMENT .......................................................................................................................................................... 20 IF-PLL NEGATIVE ADJUSTMENT .................................................................................................................................... 20 IF-PLL POSITIVE ADJUSTMENT ..................................................................................................................................... 20 LUMINANCE DELAY ADJUSTMENT ................................................................................................................................ 20 VERTICAL ZOOM ADJUSTMENT .................................................................................................................................... 20 VERTICAL SCROLL ADJUSTMENT ................................................................................................................................. 20 4 : 3 HORIZONTAL SHIFT ADJUSTMENT ................................................................................................................... 20 4 : 3 VERTICAL SLOPE ADJUSTMENT ....................................................................................................................... 20 4 : 3 VERTICAL AMPLITUDE ADJUSTMENT .............................................................................................................. 21 4 : 3 S-CORRECTION ADJUSTMENT .......................................................................................................................... 21 4 : 3 VERTICAL SHIFT ADJUSTMENT ......................................................................................................................... 21 4 : 3 EW WIDTH ADJUSTMENT ................................................................................................................................... 21 4 : 3 EW PARABOLA WIDTH ADJUSTMENT .............................................................................................................. 21 4 : 3 EW CORNER PARABOLA ADJUSTMENT ........................................................................................................................ 21 4 : 3 EW TRAPEZIUM ADJUSTMENT ........................................................................................................................................ 21 16 : 9 HORIZONTAL SHIFT ADJUSTMENT ................................................................................................................................. 21 16 : 9 VERTICAL SLOPE ADJUSTMENT ..................................................................................................................................... 21 16 : 9 VERTICAL AMPLITUDE ADJUSTMENT ........................................................................................................................... 21 16 : 9 S-CORRECTION ADJUSTMENT ......................................................................................................................................... 21 16 : 9 VERTICAL SHIFT ADJUSTMENT ....................................................................................................................................... 21 16 : 9 EW WIDTH ADJUSTMENT .................................................................................................................................................. 21 16 : 9 EW PARABOLA WIDTH ADJUSTMENT ........................................................................................................................... 21 16 : 9 EW CORNER PARABOLA ADJUSTMENT ....................................................................................................................... 22 16 : 9 EW TRAPEZIUM ADJUSTMENT ....................................................................................................................................... 22 For Option Settings ..................................................................................................................................................................................... 22 OPTION 00 .......................................................................................................................................................................................... 22 OPTION 01 .......................................................................................................................................................................................... 23 OPTION 02 .......................................................................................................................................................................................... 23 OPTION 03 .......................................................................................................................................................................................... 23-24 OPTION 04 .......................................................................................................................................................................................... 24 OPTION 05 .......................................................................................................................................................................................... 24 OPTION 06 .......................................................................................................................................................................................... 24 OPTION 07 .......................................................................................................................................................................................... 24-25 OPTION 08 .......................................................................................................................................................................................... 25 OPTION 09 .......................................................................................................................................................................................... 25 OPTION 10 .......................................................................................................................................................................................... 25

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GENERAL BLOCK DIAGRAM OF CHASSIS AK19 .............................................................................................................................. 26 ELECTRONIC COMPONENT PART LIST ............................................................................................................................................... 27-28

DO NOT CHANGE ANY MODULE UNLESS THE SET IS SWITCH OFF The mains supply side of the switch mode power supply transformer is live. Use Mid Band E to PP 145.25 to 391.25 High Band QQ to 69 397.25 to 801.25

Noise is typically 6dB for all channels. Gain is minimum 38dB and maximum 50dB for all channels. Channel Coverage of UV1315: BAND OFF-AIR CHANNELS CHANNELS E2 to C E5 to E12 E21 to E69 FREQUENCY RANGE (MHz) 48.25 to 82.25 (1) 175.25 to 224.25 471.25 to 855.25 (2) CABLE CHANNELS CHANNELS S01 to S10 S11 to S39 S40 to S41 FREQUENCY RANGE (MHz) 69.25 to 168.25 231.25 to 447.25 455.25 to 463.25

Low Band Mid Band High Band

(1). Enough margin is available to tune down to 45.25 MHz. (2). Enough margin is available to tune up to 863.25 MHz. Noise Typ. Low band : 6dB Mid band : 6dB High band : 6dB Max. 9dB 10dB 11dB Gain All Channels Gain Taper (off-air channels) Min. 38dB Typ. 44dB Max. 50dB 8dB

4.VIDEO SWITCH TEA6415C In case of three or more external sources are used, the video switch IC TEA6415C is used. The main function of this device is to switch 8 video input sources on the 6 outputs. Each output can be switched on only one of each input. On each input an alignment of the lowest level of the signal is made (bottom of sync. top for CVBS or black level for RGB signals). Each nominal gain between any input and output is 6.5dB.For D2MAC or Chroma signal the alignment is switched off by forcing, with an external resistor bridge, 5VDC on the input. Each input can be used as a normal input or as a MAC or Chroma input (with external resistor bridge). All the switching possibilities are changed through the BUS. Driving 75ohm load needs an external resistor. It is possible to have the same input connected to several outputs. 5. AM DEMODULATOR TDA9830 The TDA9830 is designed for AM-sound demodulation used in L and L standard. Sound IF Input: The sound IF amplifier consists of three AC-coupled differential amplifier stages each with approximately 20dB gain. At the output of each stage is a multiplier for gain controlling. The overall control range is approximately -6 to +60dB and the frequency response (-3dB) of the IF amplifier is approximately 6 to 70MHz. The steepness of gain control is approximately 10mV/dB. IF AGC: The automatic gain control voltage to maintain the AM demodulator output signal at a constant level is generated by a mean level detector.The AGC-detector charges and discharges the capacitor at pin 3 controlled by the output signal of the AM-demodulator compared to an internal reference voltage.The maximum charge/discharge current is approximately 5 mA. AM-demodulator The IF amplifier output signal is fed to a limiting amplifier (two stages) and to a multiplier circuit. However the limiter output signal (which is not any more AM modulated) is also fed to the multiplier, which provides AM demodulation (in phase demodulation). After lowpass filtering (fg @ 400kHz) for carrier rejection and buffering, the demodulator output signal is present at pin 6. Audio Switch This circuit is an operational amplifier with three input stages and internal feedback network determining gain (0dB) and frequency response (fg @ 700kHz). Two of the input stages are connected to pin 7 and pin 9, the third input stage to an internal reference voltage. Controlled by the switching pins 10 and 12, one of the three input stages can be activated and a choice made between two different AF signals or mute state. The selected signal is present at pin 8. The decoupling capacitors at the input pins are needed, because the internally generated bias voltage for the input stages must not be influenced by the application in order to avoid DC-plop in case of switching. Reference Circuit: This circuit is a band gap stabiliser in combination with a voltage regulation amplifier, which provides an internal reference voltage of about 3.6V nearly independent from supply voltage and temperature. This reference voltage is filtered by the capacitor at pin 4 in order to reduce noise. It is used as a reference to generate all important voltages and currents of the circuit. 4

For application in 12V power supply concepts, there is an internal voltage divider in combination with a Darlington transistor in order to reduce the supply voltage for all IC function blocks to approximately 6V. 6. DIGITAL TV SOUND PROCESSOR TDA9875 The TDA9875 is a single-chip Digital TV Sound Processor. Supported standards are M, B/G, D/K, I and L. Description of the demodulator and decoder section: SIF Input: Two input pins are provided, SIF1 e.g. for terrestrial TV and SIF2 e.g. for a satellite tuner. The selected signal is passed through an AGC circuit and then digitized by an 8-bit ADC operating at 24.576MHz. AGC: The gain of the AGC amplifier is controlled from the ADC output by means of a digital control loop employing hysteresis. The AGC has a fast attack behaviour to prevent ADC overloads and slow decay behaviour AGC oscillations. For AM demodulation AGC must be switched off. Mixer The digitized input signal is fed to the mixers, which mix one or both input sound carriers down to zero IF. A 24-bit control word for each carrier sets the required frequency. FM and AM Demodulation An FM or AM input signal is fed via a band-limiting filter to a demodulator that can be used for either FM or AM demodulation. Apart from the standard (fixed) de-emphasis characteristic, an adaptive de-emphasis is available for encoded satellite programs. A stereo decoder recovers the left and right signal channels from the demodulated sound carriers. FM Identification: The identification of the FM sound mode is performed by AM synchronous demodulation of the pilot signal and narrow-band detection of the identification frequencies. The result is available via the I²C-bus interface. NICAM Demodulation: The NICAM signal is transmitted in a DQPSK code at a bit rate of 728 kbit/s. The NICAM demodulator performs DQPSK demodulation and feeds the resulting bitstream and clock signal onto the NICAM decoder and, for evaluation purposes, to PCLK (pin 1) and NICAM (pin 2). NICAM Decoder: The device performs all decoding functions in accordance with the EBU NICAM 728 specification. After locking to the frame alignment word, the data is descrambled by applying the defined pseudo-random binary sequence; the device will then synchronise to the periodic frame flag bit C0. The status of the NICAM decoder can be read out from the NICAM status register by the user. The OSB bit indicates that the decoder has locked to the NICAM data. The VDSP bit indicates that the decoder has locked to the NICAM data and that the data is valid sound data. 7. SOUND OUTPUT STAGE TDA2614/TDA2615/TDA2616Q TDA2614 is used as the AF output amplifier for mono applications. It is supplied by ±12VDC coming from a separate winding in the SMPS transformer. An output power of 2*6W (THD=0.5%) can be delivered into an 8ohm load. TDA2615 is used as the AF output amplifier for stereo applications. It is supplied by ±12VDC coming from a separate winding in the SMPS transformer. An output power of 2*6W (THD=0.5%) can be delivered into an 8ohm load. TDA2616Q is used as the AF output amplifier for stereo and dolby prologic applications. It is supplied by ±16VDC coming from a separate winding in the SMPS transformer. An output power of 2*12W (THD=0.5%) can be delivered into an 8ohm load. 8. VERTICAL OUTPUT STAGE WITH TDA8351/8356 The TDA8351/8356 vertical deflection circuit can be used in 90° and 110° deflection systems with field frequencies from 50 up to 120Hz. With its bridge configuration the deflection output can be DC coupled with few external components. Only a single supply voltage for the scan and a second supply for the flyback are needed. The TDA8356 is intended for 90° systems and the TDA8351 is intended for 110° systems. The drive voltage is amplified by an amplifier and fed to two amplifiers, one is inverting and the other is a non inverting amplifier. The outputs (pins 7 and 4) are connected to the series connection of the vertical deflection coil and feedback resistor Rsense (R702//R703). The voltage across Rsense is fed via pin 9 to correction amplifier, to obtain a deflection current which is proportional to the drive voltage. The supply voltage for the TDA8351/8356 is 15VDC at pin 3. The supply voltage generator has a separate supply voltage of 45VDC at pin 6. 9. VIDEO OUTPUT AMPLIFIER TDA6107Q The TDA6107Q consists of three monolithic video output amplifiers. The amplifier can be seen as an operational amplifier with negative feedback. The advantage of negative feedback is that the amplifier characteristics do not play an important role up to certain frequencies. The internal flash diodes protect the amplifiers against flash over in the picture tube. The only protections required at the cathode outputs are a flash resistor and a sparkgap. The TDA6107Q has an internal thermal protection circuit which gives a decrease of the slew rate at high temperatures. Furthermore, the device needs only one power supply voltage (Vdd). In contrast to previous types of DMOS video amplifiers, all the external resistors (Rf, Ri and Ra) are integrated, so the gain is fixed and saves 9 resistors. Furthermore, the reference voltage is integrated, it saves a resistor divider and a decoupling capacitor. So, the replacement value of the TDA6107Q is very high. The TDA6107Q is provided with a black current data pin. Since TDA884X is used as drive device, no adjustments are required for gain and black setting, as the TDA884X has I²C white point adjustment and black current set-up. 10. SINGLE/MULTISTANDARD VIF/SIF-PLL and FM-PLL/AM DEMODULATOR TDA9818 5

The TDA9818is an IC for multistandard vision IF signal processing, sound AM and FM demodulation. It is a gain controlled wide band VIF-amplifier (AC-coupled). It is applicable for IF frequencies of 38.9 MHz, 45.75 MHz and 58.75 MHz. True synchronous demodulation is provided with active carrier regeneration. It has a VCO frequency which can be switchable between L and L accent (alignment external) picture carrier frequency. The TDA9818 has a SIF input for single reference QSS mode (PLL controlled). SIF AGC detector is to provide gain controlled SIF amplifier. The AM demodulator is without extra reference circuit. The supply voltage is +5VDC at pin 21. 11. COMBFILTER SAA4961 The SAA 4961 is a one-chip, PAL/NTSC combfilter IC with internal delay lines, filters, clock control, synchronisation and signal switches. The combfilter function is realised in a switched capacitor technique, so it has time discrete but amplitude continuous processing. The Y/CVBS input is first clamped and then fed to the delay-line and combfilter section via a low pass pre-filter. This filter can be bypassed via the external LPF-on pin. This pin is internally pulled up, to put the filter default on. The Y/CVBs input is also fed to the sync seperator, where horizontal and vertical reference pulses are made. Bypass mode can be forced via BYP (pin 3).FSC (pin 1) is the subcarrier input which is connected to the colour decoder. Input FSCSW pin indicates if fsc or 2*fsc is used. The Sys1,2 pins (20, 23) indicate which system standard is processed. Sys2 is internally pulled up, Sys1 is internally pulled down. Therefore when the Sys1,2 inputs are left open, automatically PAL 4.43MHz is forced. SAA4961output pin 15 CVBS can be used for parallel-synced teletext decoders, to guarantee that the teletext display always has a correct timing relation with the main picture. Comb filter is disabled by setting SAA4961 pin 3 BYP high. 12. POWER SUPPLY (SMPS) The DC voltages required at various parts of the chassis are provided by an SMPS transformer controlled by the IC MC44604 which is designed for driving, controlling and protecting switching transistor of SMPS. The transformer produces 150/115V for FBT input, ±14V for audio output IC, S+5V for microcontroller, +15V for vertical output (field scan) and +33V for tuner and some other ICs and transistors. 13. MICROCONTROLLER SDA525X The device is TV TEXT tuning and control system based on the SDA 525X TV TEXT microcontroller. It is designed for a low cost mono TV-SET with analogue picture and sound control. Neverthless the system offers an on screen display (OSD) and IR remote control of all functions. SDA525X has the following features: - Display of program number, channel number, TV standard, analogue values, sleep timer, parental control, and mute is done by OSD. - Single LED for IR active, standby and on mode indication. - 1 Control line to select external source. - 3 Control lines for TV standard selection. - Frequency synthesis tuning (62.5 kHz steps) - 192 step fine tuning - Channels corresponding to standards B/G, OIRT, L and I (I+) - Mono sound control by analogue voltage - System configuration with service mode 14. SERIAL ACCESS CMOS 8K (1024*8) EEPROM ST24C08 The ST24C08 is a 8Kbit electrically erasable programmable memory (EEPROM), organised as 4 blocks of 256*8 bits. The memory is compatible with the I²C standard, two wire serial interface which uses a bi-directional data bus and serial clock. The memory carries a built-in 4 bit, unique device identification code (1010) corresponding to the I²C bus definition. This is used together with 1 chip enable input (E) so that up to 2*8K devices may be attached to the I²C bus and selected individually. 15. CLASS AB STEREO HEADPHONE DRIVER TDA1308 The TDA1308 is an integrated class AB stereo headphone driver contained in a DIP8 plastic package. The device is fabricated in a 1 mm CMOS process and has been primarily developed for portable digital audio applications. 16. SAW FILTERS Saw filter type : G1965M : G3962M : G1984 : J1951M : J3950M : J1956M : K2955M : K2958M : K2962M : G3957M : K6256K : K6259K M1963M Model: PAL-SECAM B/G MONO PAL-SECAM B/G GER&NIC STEREO, PAL I NIC STEREO, INT-1 PAL-SECAM B/G GER&NIC STEREO INT-2 PAL-I MONO PAL-I NIC STEREO PAL-I MONO PAL-SECAM B/G-D/K MONO, PAL-SECAM B/G-D/K-I, MONO, PAL-SECAM B/G-D/K-L MONO PAL-SECAM B/G-D/K (38) MONO PAL-SECAM B/G-L/L MONO PAL-SECAM B/G-L/L GER&NIC BG/L STEREO PAL-SECAM B/G-D/K-I-L/L MONO, PAL-SECAM B/G-D/K-I, L/L GER&NIC BG/L STEREO, PAL-SECAM B/G-D/K-I-L/L I, NICAM STEREO, PAL-SECAM B/G-D/K-I-L/L GER&NIC I-B/G-L, STEREO : PAL-SECAM B/G-D/K-I-M/N (EURO) MONO : PAL M/N MONO, NTSC M MONO, PAL M/N-NTSC M MONO

17. BTSC STEREO/SAP/DBX-DECODER and AUDIO PROCESSOR TDA9855 The TDA9855 is a BTSC stereo/SAP/dbx decoder and audio processor. It performs all functions to transform the composite baseband signal into the appropriate audio output signals to line out and to the loudspeaker output stages. IC DESCRIPTIONS AND INTERNAL BLOCK DIAGRAM n TDA8840/8842/8844 n TUNER (UV1315, UV1316, UV1336)

6

n n n n n n n n n n n n n n

TEA6415C TDA9830 TDA2614/2615/2616Q TDA8351/8356 TDA6107Q SAA4961 MC44604 SDA525X TDA9875 TDA9818 ST24C08 TDA1308 G1965M TDA9855

TDA8840/8842/8844:

The TDA884X is IýC-bus controlled single chip TV processor which is intended to be applied in PAL, NTSC, PAL/NTSC and multi-standard television receivers. These IC s are nearly pin compatible with the TDA837X TV processors but have a higher degree of integration because the delay line (TDA4665 function) and the SECAM decoder have been integrated. In addition to these functions some additional features have been added like Continuous Cathode Calibration (2-point black current loop which results in an accurate biasing of the 3 guns), adjustable luminance delay time, blue stretching and dynamic skin tone control. Features: n Vision IF circuit with PLL demodulator n Alignment-free multi-standard FM sound demodulator (4.5 MHz to 6.5 MHz) n Audio switch n Flexible source selection with CVBS switch and Y(CVBS)/C input so that a comb filter can be applied n Integrated chrominance trap circuit n Integrated luminance delay line n Asymmetrical peaking in the luminance channel with a noise coring function n Black stretching of non-standard CVBS or luminance signals n Integrated chroma band-pass filter with switchable center frequency n Blue stretch circuit which offsets colours near white towards blue n RGB control circuit with Continuous Cathode Calibration and white point adjustment n Linear RGB inputs and fast blanking n Possibility to insert a blue black option when no video signal is available n Horizontal synchronisation with two control loops and alignment-free horizontal oscillator n Vertical count-down circuit n Vertical driver optimised for DC-coupled vertical output stages n IýC-bus control of various functions n Low dissipation (850 mW) Functional Differences between the 8840/8842/8844:

IC VERSION (TDA) Multi-standard IF Automatic Volume Limiting PAL Decoder SECAM Decoder NTSC Decoder Dynamic Skin Control Colour Matrix PAL/NTSC (Japan) Colour Matrix NTSC Japan/USA YUV interface Base-band delay line Adjustable luminance delay time Horizontal geometry Horizontal and vertical zoom Vertical scroll PINNING 1. Sound IF input 2. External audio input 3. IF demodulator tuned circuit 1 4. IF demodulator tuned circuit 2 5. IF-PLL loop filter 6. IF video output 7. Serial clock input 8. Serial data input/output 9. Bandgap decoupling 10. Chrominance input (S-VHS) 11. External CVBS/Y input

8840 X X

8842 X X X X X X

8844 X X X X X X X X X X X X

X

X

PIN VALUE : 1mVrms : 500mVrms : : : : Min:32-Max:60 MHz 4.7V (Negative Modulation), 2V (Positive Modulation) Low level max:1.5 V, High level min 3.5V Low level max:1.5 V, High level min 3.5V

: 1Vpp, Max:1.4Vpp : 1Vpp, Max:1.4Vpp 7

12. Main supply voltage 1 13. Internal CVBS input 14. Ground 1 15. Audio output 16. SECAM PLL decoupling 17. External CVBS input 18. Black-current input

: 8V, Min:7.2V, Max:8.8V : 1Vpp, Max:1.4Vpp : 700mVrms, Min:500mVrms, Max:900mVrms : Vpp, Max:1.4Vpp : Amplitude of low reference current Amplitude of high reference current : 2Vpp : 2Vpp : 2Vpp : : 8mA 20mA

19. Blue output 20. Green output 21. Red output 22. Beam current limiter input/V-guard input 23. Red input for insertion : 0.7Vpp, Max:0.8Vpp 24. Green input for insertion : 0.7Vpp, Max:0.8Vpp 25. Blue input for insertion : 0.7Vpp, Max:0.8Vpp 26. RGB insertion input : Max:0.3V 27. Luminance input : 1.4Vpp 28. Luminance output : 1.4Vpp 29. (B-Y) signal output : 1.05Vpp 30. (R-Y) signal output : 1.05Vpp 31. (B-Y) signal input : 1.05Vpp 32. (R-Y) signal input : 1.05Vpp 33. Subcarrier reference output : 3.58/4.43 MHz 34. 3.58 MHz crystal connection 35. 4.43/3.58 MHz crystal connection 36. Loop filter phase detector 37. 2nd supply voltage 1 : 8V, Min:7.2V, Max:8.8V 38. CVBS output : 1Vpp, Max:1.4Vpp 39. Decoupling digital supply : 1.8V 40. Horizontal output : Max: 0.3V 41. Flyback input/sandcastle output : Min:100ma, Max:300mA 42. Phase-2 filter : 150 ms/ms 43. Phase-1 filter : ±0.9 kHz, Max: ±1.2 kHz 44. Ground 2 45. East-west drive output 46. Vertical drive A output : 0.95mA 47. Vertical drive B output : 0.95mA 48. IF input 1 49. IF input 2 50. EHT/overvoltage protection input : Min:1.2V, Max : 2.8V 51. Vertical sawtooth capacitor : 3Vpp 52. Reference current input : 3Vpp 53. AGC decoupling capacitor 54. Tuner AGC output : Max:9V (Maximum tuner AGC 55. Audio deemphasis : 500mVrms 56. Decoupling sound demodulator

output voltage), 300mV (Output saturation voltage)

UV1315, UV1316, UV1336
General description of UV1315: The UV1315 tuner belongs to the UV 1300 familiy of tuners, which are designed to meet a wide range of applications. It is a combined VHF, UHF tuner suitable for CCIR systems B/G, H, L, L, I and I. The low IF output impedance has been designed for direct drive of a wide variety of SAW filters with sufficient suppression of triple transient. Features of UV1315: n Member of the UV1300 family small sized UHF/VHF tuners n Systems CCIR:B/G, H, L, L, I and I; OIRT:D/K n Voltage synthesized tuning (VST) n Off-air channels, S-cable channels and Hyperband n Standardized mechanical dimensions and pinning n Compact size PINNING 1. Gain control voltage (AGC) 2. Tuning voltage 3. High band switch 4. Mid band switch 5. Low band switch 6. Supply voltage 7. Not connected 8. Not connected 9. Not connected 10. Symmetrical IF output 1 11. Symmetrical IF output 2 PIN VALUE : 4.0V, Max:4.5V : : : : 5V, Min:4.75V, Max:5.5V 5V, Min:4.75V, Max:5.5V 5V, Min:4.75V, Max:5.5V 5V, Min:4.75V, Max:5.5V

8

Bandswitching table: Low band Mid band High band

Pin 3 0V 0V +5V

Pin 4 0V +5V 0V

Pin 5 +5V 0V 0V

General description of UV1316: The UV1316 tuner belongs to the UV 1300 family of tuners, which are designed to meet a wide range of applications. It is a combined VHF, UHF tuner suitable for CCIR systems B/G, H, L, L, I and I. The low IF output impedance has been designed for direct drive of a wide variety of SAW filters with sufficient suppression of triple transient. Features of UV1316: n Member of the UV1300 family small sized UHF/VHF tuners n Systems CCIR: B/G, H, L, L, I and I; OIRT: D/K n Digitally controlled (PLL) tuning via IýC-bus n Off-air channels, S-cable channels and Hyperband n World standardized mechanical dimensions and world standard pinning n Compact size n Complies to CENELEC EN55020 and EN55013 PINNING 1. Gain control voltage (AGC) 2. Tuning voltage 3. I²C-bus address select 4. I²C-bus serial clock 5. I²C-bus serial data 6. Not connected 7. PLL supply voltage 8. ADC input 9. Tuner supply voltage 10. Symmetrical IF output 1 11. Symmetrical IF output 2 PIN VALUE : 4.0V, Max:4.5V : Max:5.5V : Min:-0.3V, Max:5.5V : Min:-0.3V, Max:5.5V : 5.0V, Min:4.75V, Max:5.5V : 33V, Min:30V, Max:35V

General description of UV1336: UV1336 series is developed for reception of channels broadcast in accordance with the M, N standard. The tuning is available through built-in digitally controlled IýC bus (PLL). Features of UV1336: n Global standard pinning n Integrated Mixer-Oscillator&PLL function n Conforms to CISPR 13, FCC and DOC (Canada) regulations n Low power consumption n Both Phono connector and F connector are available

PINNING 1. Gain control voltage 2. Tuning voltage 3. Address select 4. Serial clock 5. Serial data 6. Not connected 7. Supply voltage 8. ADC input (optional) 9. Tuning supply voltage 10. Ground 11. IF output

PIN VALUE : 4.0V, Max:4.5V : Max:5.5V : Min:-0.3V, Max:5.5V : Min:-0.3V, Max:5.5V : 5.0V, Min:4.75V, Max:5.5V : 33V, Min:30V, Max:35V

TEA6415C:

General Description: The main function of the TEA6415C is to switch 8 video input sources on the 6 outputs. Each output can be switched to only one of the inputs whereas but any same input may be connected to several outputs. All switching possibilities are controlled through the IýC-bus. Features: n 20 MHz Bandwith n Cascadable with another TEA6415C (Internal address can be changed by pin 7 voltage) n 8 inputs (CVBS, RGB, Mac, CHROMA, ) n 6 Outputs n Possibility of MAC or chroma signal for each input by switching-off the clamp with an external resistor bridge n Bus controlled n 6.5dB gain between any input and output n -55dB crosstaljk at 5MHz 9

n Fully ESD protected PINNING 1. Input 2. Data 3. Input 4. Clock 5. Input 6. Input 7. Prog 8. Input 9. Vcc 10. Input 11. Input 12. Ground 13. Output 14. Output 15. Output 16. Output 17. Output 18. Output 19. Ground 20. Input PIN VALUE : Max : Low level : Max : Low level : Max : Max : : : : : : : : : : Max 12V Max Max 5.5Vpp, 5.5Vpp, 5.5Vpp, 5.5Vpp, 5.5Vpp, 5.5Vpp, : 2Vpp, Input Current : -0.3V Max:1.5V, High level : 2Vpp, Input Current : -0.3V Max:1.5V, High level : 2Vpp, Input Current : 2Vpp, Input Current : 2Vpp, Input Current : 2Vpp, Input Current : 2Vpp, Input Current Min : 4.5Vpp Min : 4.5Vpp Min : 4.5Vpp Min : 4.5Vpp Min : 4.5Vpp Min : 4.5Vpp : 1mA, Max : 3mA : 1mA, : 3.0V : 1mA, : 3.0V : 1mA, : 1mA, Max Max Max Max Max Max : 3mA : Vcc+0.5V : 3mA : Vcc+0.5V : 3mA : 3mA

: 1mA, Max : 3mA : 1mA, Max : 3mA : 1mA, Max : 3mA

: Max : 2Vpp, Input Current

TDA9830:

General description: The TDA9830, a monolithic integrated circuit, is designed for AM-sound demodulation used in L- and L-standard. The IC provides an audio source selector and also mute switch. Features: n Adjustment free wideband synchronous AM demodulator n Audio source-mute switch (low noise) n Audio level according EN50049 n 5 to 8V power supply or 12 V alternative n Low power consumption PINNING 1. Sound IF differential input signal 2. Not connected 3. AGC capacitor 4. REF voltage filtering capacitor 5. Not connected 6. AM demodulator output 7. Input signal (from AM) to audio switch 8. Output signal from audio switch 9. Input signal (from external) to audio switch 10. Switch input select control 11. Supply voltage 12. Mute control 13. Ground 14. Supply voltage 15. Not connected 16. Sound IF differential input signal PIN VALUE : Minimum IF input signal (between pins 1 and 16):60mV Max:100mV Maximum IF input signal (between pins 1 and 16) :120mV Min :70mV

: : : : :

THD:0.8%, Max:2%; S/N:53dB, Min:47%; DC potential:2.15V, Min : 2.00V Max :2.30V Max:1.2V 80dB, Min : 70dB Max:1.2V Audio switching voltage to activate pin7 : Min :0V, Max :0.8V Audio switching voltage to activate pin9 : Min:1.5V, Max :Vp : 12V, Min:10.8V, Max:13.2V : For Mute-ON Min : 0V, Max : 0.8V For Mute-OFF Min : 1.5V, Max : Vp : 5V, Min : 4.5V, Max : 8.8V

: Look at pin 1

TDA2614/TDA2615/TDA2616Q:

General Description of TDA2614: The TDA2614 is a power amplifier in a 9-lead single-in-line (SIL9) plastic medium power package. It has been especially designed for mains fed applications. Features: n Requires very few external components n No switch-on/switch-off clicks n Input mute during switch-on and switch-off n Low offset voltage between output and ground n Hi-fi in accordance with IEC 268 and DIN 45500 n Short-circuit proof and thermal protected n Mute possibility PINNING 1. Not connected 2. Mute input 3. Ground 4. Not connected PIN VALUE : 300mA (For mute to activate) 10

5. 6. 7. 8. 9.

Supply voltage (negative) Output Supply voltage (positive) Inverting input (Ground) Non-inverting input

: : : : :

-12VDC 6.9Vrms +12VDC 0V 700mVrms, Min : 500mVrms, Max : 900mVrms

General Description of TDA2615: The TDA2615 is a dual power amplifier in a 9-lead single-in-line (SIL9). It has been especially designed for mains fed applications. Features: n Requires very few external components n No switch-on/switch-off clicks n Input mute during switch-on and switch-off n Low offset voltage between output and ground n Excellent gain balance of both amplifiers n Hi-fi in accordance with IEC 268 and DIN 45500 n Short-circuit proof and thermal protected n Mute possibility PINNING 1. Non-inverting input 1 2. Mute input 3. Ground 4. Output 1 5. Supply voltage (negative) 6. Output 2 7. Supply voltage (positive) 8. Inverting inputs 1 and 2 (Ground) 9. Non-inverting input 2 PIN VALUE : 700mVrms, Min :500mVrms, Max : 900mVrms : 300mA (For mute to activate) : : : : : : 6.9Vrms -12VDC 6.9Vrms +12VDC 0V 700mVrms, Min : 500mVrms, Max : 900mVrms

General Description of TDA2616Q: The TDA2616Q is a dual power amplifier. It is supplied in a 9-lead SIL-bent-to DIL plastic power package (SOT157). It has been especially designed for mains fed applications. Features: n Requires very few external components n No switch-on/switch-off clicks n Input mute during switch-on and switch-off n Low offset voltage between output and ground n Excellent gain balance of both amplifiers n Hi-fi in accordance with IEC 268 and DIN 45500 n Short-circuit proof and thermal protected n Mute possibility

PINNING 1. Non-inverting input 1 2. Mute input 3. Ground 4. Output 1 5. Supply voltage (negative) 6. Output 2 7. Supply voltage (positive) 8. Inverting inputs 1 and 2 (Ground) 9. Non-inverting input 2

PIN VALUE : 700mVrms, Min : 500mVrms, Max : 900mVrms : 300mA (For mute to activate) : : : : : : 9.8Vrms -16VDC 9.8Vrms +16VDC 0V 700mVrms, Min : 500mVrms, Max : 900mVrms

TDA8351/8356:

General Description: The TDA8356 is a power circuit for use in 90ø colour deflection system for field frequencies of 50 to 120 Hz. The circuit operates as a highly efficient class G system. The TDA8351 is a power circuit for use in 110ø colour deflection system for field frequencies of 50 to 120 Hz. The circuit operates as a highly efficient class G system. Features: n Few external components n Highly efficient fully DC-coupled vertical output bridge circuit n Vertical flyback switch n Guard circuit n Protection against: - short-circuit of the output pins (7 and 4) - short-circuit of the output pins to Vp n Temperature (thermal) protection n High EMC immunity because of common mode inputs n A guard signal in zoom mode 11

PINNING 1. Input power-stage (positive); includes Ii(sb) signal bias 2. Input power-stage (negative); includes Ii(sb) signal bias 3. Operating supply voltage 4. Output voltage B 5. Ground 6. Input flyback supply voltage 7. Output voltage A 8. Guard output voltage 9. Input feedback voltage

: : : : : : : :

PIN VALUE 400mA, Min : 50mA, Max : 500mA 400mA, Min : 50mA, Max : 500mA +15VDC Max : 52V Output current : 2App (TDA8356) 3App (TDA8351) Min : Vp, Max : 50V Max : 52V Output current : 2App (TDA8356) 3App (TDA8351) Max:5.5V (Io:100mA) Max:52V

TDA6107Q:

The TDA6107Q includes three video output amplifiers in a SIL 9 MP (Single In Line 9 pins Medium Power) package SOT111BE, using high-voltage DMOS technology, and is intended to drive the three cathodes of a colour picture tube. In contrast to previous types of DMOS video amplifiers, all external resistors (Rf, Ri and Ra) are integrated, so the gain is fixed and it saves 9 resistors. To obtain maximum performance, the amplifier should be used with black-current control and mounted on the CRT panel. Features: n Bandwith: 4.0 MHz typ at 100Vpp (Measured in appli,cation set-up, with Rfl=1K5 and Cl=Ctube+Cpcb=10pF) n Slewrate: 950V/ms n Fixed gain of 50 times n No external components, only the well known supply decoupling n Very simple application with a variety of colour decoders n Black-current measurement output for automatic black current stabilization n Only one supply voltage needed n Internal protection against positive appearing CRT flash-over discharges n Protection against ESD n Internal reference voltage n Thermal protection n Controllable switch-off behaviour n Very small PCB dimensions n Very high replacement value PINNING 1. Inverting input 1 2. Inverting input 2 3. Inverting input 3 4. Ground 5. BSC-output 6. Supply voltage 7. Cathode output 3 8. Cathode output 2 9. Cathode output 1 PIN VALUE : 2Vpp : 2Vpp : 2Vpp : : : : : Max:7V 200VDC 20mA, 100Vpp 20mA, 100Vpp 20mA, 100Vpp

SAA4961:

The SAA4961 is an adaptive alignment-free one chip comb filter compatible with both PAL and NTSC systems and provides high performance in Y/C separation. Features: n One chip adaptive multi-standard comb filter n Time discrete but continuous amplitude signal processing with analogue interfaces n Internal delay lines, filters, clock processing and signal switches n Alignment-free n No hanging dots or residual cross colour on vertical transients n Few external components It is possible to switch the comb filter into one of the following 3 modes: 1. Comb mode : In this mode, luminance and chrominance comb filter function are active. Chrominance output pin (pin 12) outputs comb filtered chrominance signal, luminance output pin (pin 14) outputs comb filtered luminance signal and CVBS output pin (pin 15) outputs delay compensated CVBS signal. 2. Comboff mode : In this mode, luminance comb filter function is turned off, but chrominance comb filter function operates. Chrominance output pin (pin 12) outputs comb filtered chrominance signal, luminance output pin (pin 14) outputs delay compensated CVBS signal and CVBS output pin (pin 15) outputs delay compensated CVBS signal. 3. Bypass mode : In this mode, no IC-function is active. Cext is bypassed to chrominance output pin (pin 12) and Yext/CVBS is bypassed to luminance output pin (pin 14) and CVBS output pin (pin 15). PINNING 1. Subcarrier frequency input 2. Internal connected 3. Bypass mode forcing 4. Internal connected 5. Decoupling capacitor 6. Internal connected PIN VALUE : 200mVpp, Min : 100mVpp, Max : 400mVpp : HIGH level input voltage Min : 2.4VDC, Max : Vcc : 1.25VDC, Min : 1.1VDC, Max : 1.4VDC 12

7. Analogue supply voltage 8. Analogue supply voltage output buffer 9. Analogue ground 10. External chrominance input 11. Analogue ground output buffer 12. Chrominance output signal 13. fsc reference selection 14. Luminance output signal 15. CVBS and Y output signal 16. Internal connected 17. CVBS and Y input signal 18. Disable prefilter 19. Storage Capacitor 20. Standard select 1 21. Digital ground 22. Digital supply voltage 23. Standard select 2 24. Decoupling capacitor 25. Controlling I/O pin 26. Analogue ground PLL 27. Analogue supply voltage PLL 28. Internal connected

: 5VDC, Min : 4.75VDC, Max : 5.5VDC : 5VDC, Min : 4.75VDC, Max : 5.5VDC : 0.7Vpp, Max : 1Vpp : 0mV, Min : -400mV, (DC offset voltage related to input) Max : +400mV BYPASS-mode:Co/Cext : 0dB, Min : -1dB, Max : +1dB : HIGH level input voltage Min : 2V, Max : Vcc : Low level input voltage Min : 0V, Max : 0.8V : 1Vpp, Min : 0.6Vpp, Max : 1.54Vpp : 1Vpp, Min : 0.6Vpp, Max : 1.54Vpp : 1Vpp, Min : 0.7Vpp, Max : 1.4Vpp : HIGH level input voltage Min : 2.0VDC, Max : Vcc LOW level input voltage Min : 0VDC, Max : 0.8VDC : 2.5VDC, Min : 1.8VDC, Max : Vcc : HIGH level input voltage Min : 2.0VDC, Max : Vcc LOW level input voltage Min : 0VDC, Max : 0.8VDC : 5VDC, Min : 4.75VDC, Max : 5.5VDC : HIGH level input voltage Min : 2.0VDC, Max : Vcc LOW level input voltage Min : 0VDC, Max : 0.8VDC : 1.25VDC, Min : 1.1VDC, Max : 1.4VDC : HIGH level input voltage Min : 2.4VDC, Max : Vcc LOW level input voltage Min : 0VDC, Max : 1.5VDC : 5VDC, Min : 4.75VDC, Max : 5.5VDC

MC44604:

General description: The MC44604 is an enhanced high performance controller that is specifically designed for off-line and DC-to-DC converter applications. It offers a really safe and reliable power management thanks particularly to its protection features (foldback, overvoltage detection, soft start, accurate demagnetization detection). Its high current totem pole output is also ideally suited for driving a power MOSFET, but can also be used for driving a bipolar transistor in low power converters. In addition to these features, the MC44604 offers an efficient stand-by mode. Features: Current Mode Controller n Operation up to 250 kHz Output Switching Frequency n Inherent Feed Forward Compensation n Latching PWM for Cycle-by-Cycle Current Limiting n Oscillator with Precise Frequency Control High Flexibility n Externally Programmable Reference Current n Secondary or Primary Sensing n High Current Totem Pole Output n Undervoltage Lockout with Hysteresis Safety/Protection Features n Overvoltage Protection Facility against Open Loop n Protection against Short Circuit on Oscillator Pin n Fully Programmable Foldback n Soft-Start Feature n Accurate max Duty Cycle Setting n Demagnetization (Zero Current Detection) Protection n Internally Trimmed Reference Green Controller n Low Start-Up and Operating Current n Patented Stand-by Pulsed Mode for low stand-by losses n Low dV/dT for Low EMI radiations PINNING 1. Output Supply Voltage (Vcc) 2. Output Supply Voltage (Vc) 3. Output voltage PIN VALUE : 12VDC : 12VDC : LOW Level Drop Voltage 1VDC, 1.4VDC, HIGH Level Drop Voltage 1.5VDC, 2VDC, : : : : : : :

4. Ground 5. Foldback input 6. Overvoltage protection (OVP) 7. Current sense input 8. Demagnetization detection input 9. Standby current set 10. Oscillator voltage swing 11. Soft start/Dmax/Voltage mode

Max : 1.2VDC (Isink=100mA) Max : 2VDC (Isink=500mA) Max : 2VDC (Isource=200mA) Max : 2.7VDC (Isource=500mA)

0.9VDC, Min:-0.3VDC, Max : Vcc+0.3VDC 0.78VDC, Min:-0.3VDC, Max : Vcc+0.3VDC Min:-0.3VDC, Max : Vcc+0.3VDC Idemag-ib (source):-4mA Idemag-ib (sink) : 10mA Ipeak-stby/Iref : 0.40 Min : 0.37 Max : 0.43 2Vpp Idischarge : 5mA, Min : 1.5mA (Vsoft start=1V) 13

12. Clamp E/A input 13. E/A output 14. E/A input 15. Stand-by management 16. Rref input

: : : :

4.7VDC, Min : 4.5VDC Max : 4.9VDC HIGH State: 6.5VDC, Min : 5.5VDC, Max : 7.5VDC LOW State : 1.0VDC, 1.1VDC 2.5VDC, Min : 2.4VDC, Max : 2.6VDC Stand-by On Detection current ratio : Idet/Iref : 0.38, Min : 0.34, Max : 0.42 Stand-by regulation current ratio : Ireg/Iref : 20.5, Min : 18, Max : 23 : 2.5VDC, Min : 2.4VDC, Max : 2.6VDC

SDA525X:

General description: The SDA525X is designed for a low cost mono TV-set with analogue picture and sound control. IN SDA525X the following IC s are used and supported: Non-volatile memory PLL IR transmitter IR preamplifier : SDA 2526 or SDA2546 : SDA 3202-3, SDA 3302 : SDA 2208-3 or SDA 2218 : SFH 506-32

Features: General: n Display of program number, channel number, TV standard, analogue values, sleep timer, parental control, and mute is done by OSD n Single LED for IR active, standby and on mode indication n Local control (8 keys) n IR remote control n Control of volume, contrast, brightness, and saturation by analogue voltages n Non-volatile memory for 50 or 100 programs, optimum analogue values and system parameters n Individual delta volume for each program n 1 control line to select external source n 3 control lines for TV standard selection n Automatic muting if no carrier detected n Automatic switch-off when carrier disappears for more than 5 minutes n Software protection against tube flashovers with internal watchdog timer n Sleep timer n Parental control n IF 38 MHz or 38.9 MHz selectable Tuning: n Frequency synthesis tuning (62.5 kHz steps) n 192 step fine tuning n Channels corresponding to standards n 100 programs selectable by directly entering a program number or by up/down function depending on the NVM size n Channel selection by directly entering a channel number or by up/down function n Channel search function in two directions Sound: n Mono sound control by analogue voltage Service Mode: n System configuration with service mode PINNING 1. Crystal selection output 1 2. Volume + switch input 3. Volume - switch input 4. Program - switch input 5. Program + switch input: 6. LED output 7. Filter (sound standard) selection output 1 8. Filter (sound standard) selection output 2 9. Mod-switch selection output 10. Ground 11. Supply voltage 12. 18 MHz crystal connection 1 13. 18 MHz crystal connection 2 14. L-ACC output 15. RESET output 16. Comb filter PAL/SECAM selection output 17. Tuning output 18. Audio switch transistor selection 1 PIN VALUE : LOW level : HIGH level : : LOW level : HIGH level : : LOW level : HIGH level : : LOW level : HIGH level : : LOW level : HIGH level : : LOW level : HIGH level : : LOW level : HIGH level : : LOW level : HIGH level : : LOW level : HIGH level : +5V 2Vpp 2Vpp LOW level HIGH level LOW level HIGH level : LOW level HIGH level : LOW level HIGH level : LOW level 14 : : : : 0V 4.2V 0V 5V 0V 5V 0V 5V 0V 5V 0V 4.2VDC 0V 4.2V 0V 4.2V 0V 4.2V

: : : : : : : : :

0V 3.6V 0V 5V 0V 5V 0V 3.4V 0V

19. Audio switch transistor selection 2 20. Audio switch transistor selection 3 21. Audio switch transistor selection 4 22. Comb filter standard selection 1 23. Comb filter standard selection 2 24. Analogue ground 25. Filter 3 26. Filter 2 27. Filter 1 28. Analogue supply voltage 29. Reference current input 30. CVBS input 31. Service output 32. AV2-status input 33. AV1-status input 34. AFC output 35. Ground 36. IR-input 37. Supply voltage 38. LC input 39. LC output 40. Mute output 41. St-by output 42. Clock signal output 43. Data output 44. Local connection 45. SAND input 46. ODD/EVEN output 47. OSD-red output 48. OSD-green output 49. OSD-blue output 50. OSD-blanking output 51. COR output 52. Crystal selection output 2

HIGH level : LOW level HIGH level : LOW level HIGH level : LOW level HIGH level : LOW level HIGH level : LOW level HIGH level

: : : : : : : : : : :

5V 0V 5V 0V 5V 0V 5V 0V 5V 0V 5V

: 5VDC : 1Vpp : LOW level HIGH level : LOW level HIGH level : LOW level HIGH level : 600mVpp : LOW level HIGH level : 5V : 5Vpp : 5Vpp : LOW level HIGH level : LOW level HIGH level : LOW HIGH : 4Vpp : 1.8V : LOW level HIGH level : LOW level HIGH level : LOW level HIGH level : LOW level HIGH level : LOW level HIGH level : LOW level HIGH level : : : : : : 0V 5V 0V 5V 0V 5V

: 0V : 5V

: : : :

0V 4.2V 0V 1.4V

: 0V : 5V : : : : : : : : : : : : 0V 5V 0V 5V 0V 5V 0Vh 5V 0V 5V 0V 4.2V

TDA9875:

General description: The TDA9875 is a single-chip Digital TV Sound Processor (DTVSP) for analogue and digital multi-channel sound systems. Features: Demodulator and decoder section: n Sound IF (SIF) input switch e.g. to select between terrestrial TV SIF and SAT SIF sources n SIF AGC with 21dB control range n SIF 8-bit Analogue-to-Digital Converter (ADC) n DQPSK demodulation for different standards, simultaneously with 1-channel FM demodulation n NICAM decoding (B/G, I and L standard) n Two-carrier multistandard FM demodulation (B/G, D/K and M standard) n Decoding for three analogue multi-channel systems (A2, A2+ and A2*) and satellite sound n Optional AM demodulation for system L, simultaneously with NICAM n Programmable identification (B/G, D/K and M standard) and different identification times DSP section: n Digital crossbar switch for all digital signal sources and destinations n Control of volume, balance, contour, bass, treble, pseudo stereo, spatial, bass boost and soft-mute n Plop-free volume control n Automatic Volume Level (AVL) control n Adaptive de-emphasis for satellite n Programmable beeper n Monitor selection for FM/AM DC values and signals, with peak detection option n I²S-bus interface for a feature extension (e.g. Dolby surround) with matrix, level adjust and mute. Analogue audio section: n Analogue crossbar switch with inputs for mono and stereo, SCART 1 input/output, SCART2 input/output and line output n User defined full-level/-3dB scaling for SCART outputs n Output selection of mono, stereo, dual A/B, dual A or dual B n 20 kHz bandwith for SCART-to-SCART copies n Standby mode with functionality for SCART copies 15

n Dual audio digital-to-analogue converter from DSP to analogue crossbar switch, bandwith 15kHz n Dual audio ADC from analogue inputs to DSP n Two dual audio Digital-to-Analogue Converters (DACs) for loudspeakers (Main) and headphone (Auxiliary) outputs; also applicable for L, R, C and S in the Dolby Pro Logic mode with feature extension. PINNING PIN VALUE 1. NICAM clock output (728kHz) : LOW level input voltage : Max : 0.8V HIGH level input voltage : Min : 2.0V 2. Serial NICAM DATA output (728kHz) : LOW level input voltage : Max : 0.8V HIGH level input voltage : Min : 2.0V 3. First I²C-bus slave address modifier : LOW level input voltage : Max : 0.8V HIGH level input voltage : Min : 2.0V 4. SCL (I²C-bus clock) : LOW level input voltage : Max : 1.6V HIGH level input voltage : Min : 3.0V 5. SDA (I²C-bus data) : LOW level input voltage : Max : 0.8V HIGH level input voltage : Min : 2.0V 6. Analogue supply ground 1 : 0V 7. Analogue supply voltage 1 : 5V, Min : 4.75V, Max : 5.5V 8. Resistor for reference current generator : Iref : 220mA, Min : 170mA, Max : 260mA 9. First general purpose I/O pin 10. Sound IF input 2 : Min : 21Vrms, Max : 250mVrms 11. Reference voltage for demodulator part : Vdda1/Vssa1 : 50%, Min : 35%, Max : 65% 12. Sound IF input 1 : Min : 21Vrms, Max : 250mVrms 13. Second I²C-bus slave address modifier : LOW level input voltage : Max : 0.8V HIGH level input voltage : Min : 2.0V 14. Digital supply ground 1 : 0V 15. Digital supply voltage 1 : 5V, Min : 4.75V, Max : 5.5V 16. Capacitor for power-on reset : LOW level input voltage : Max : 1.6V HIGH level input voltage : Min : 3.0V 17. Crystal oscillator output 18. Crystal oscillator input 19. Tuning voltage output for crystal oscillator 20. Second general purpose I/O pin 21. System clock output : LOW level input voltage : Max : 0.5V HIGH level input voltage : Min : 2.9V 22. I²S-bus clock : LOW level input voltage : Max : 0.8V HIGH level input voltage : Min : 2.0V 23. I²S-bus word select : LOW level input voltage : Max : 0.8V HIGH level input voltage : Min : 2.0V 24. I²S-bus data output 2 : LOW level input voltage : Max : 0.8V HIGH level input voltage : Min : 2.0V 25. I²S-bus data output 1 : LOW level input voltage : Max : 0.8V HIGH level input voltage : Min : 2.0V 26. I²S-bus data input 2 : LOW level input voltage : Max : 0.8V HIGH level input voltage : Min : 2.0V 27. I²S-bus data input 1 : LOW level input voltage : Max : 0.8V HIGH level input voltage : Min : 2.0V 28. First test pin; connected to ground for normal operatio