Hitachi CP2025T Service Manual

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August 2000

No. 0106

CP2025T C2125T/S CL2125T/S CP2125T/S C2142N/S CL2142AN/S CP2142AN/S C2842N/S CL2842AN/S CP2842AN/S

SERVICE MANUAL MANUEL D’ENTRETIEN WARTUNGSHANDBUCH

CAUTION:

Before servicing this chassis, it is important that the service technician read the “Safety Precautions” and “Product Safety Notices” in this service manual.

ATTENTION:

Avant d’effectuer l’entretien du châassis, le technicien doit lire les «Précautions de sécurité» et les «Notices de sécurité du produit» présentés dans le présent manuel.

VORSICHT:

Vor Öffnen des Gehäuses hat der Service-Ingenieur die „Sicherheitshinweise“ und „Hinweise zur Produktsicherheit“ in diesem Wartungshandbuch zu lesen.

Data contained within this Service manual is subject to alteration for improvement.

Les données fournies dans le présent manuel d’entretien peuvent faire l’objet de modifications en vue de perfectionner le produit.

Die in diesem Wartungshandbuch enthaltenen Spezifikationen können sich zwecks Verbesserungen ändern.

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Contents

Contents...................................................................................................................................................2

Safety Precautions.................................................................................................................................3

TV Set switched off.................................................................................................................................3

Measurement.........................................................................................................................................3

PERI-TV SOCKET....................................................................................................................................3

SCART 1..................................................................................................................................................3

SCART 2..................................................................................................................................................3

INTRODUCTION....................................................................................................................................3

SMALL SIGNAL PART WITH TDA884X.................................................................................................3-4

TUNER...................................................................................................................................................5

VIDEO SWITCH TEA6415C....................................................................................................................5

AM DEMODULATOR TDA9830...............................................................................................................6

DIGITAL TV SOUND PROCESSOR TDA9875........................................................................................6

SOUND OUTPUT STAGE TDA2615/TDA2616Q....................................................................................6

VERTICAL OUTPUT STAGE WITH TDA8351/TDA8356........................................................................7

VIDEO OUTPUT AMPLIFIER TDA6107Q...............................................................................................7

SINGLE/MULTISTANDARD VIF/SIF-PL and FM-PLL/AM DEMODULATOR TDA9818...........................7

COMB FILTER SAA497Q.......................................................................................................................7

POWER SUPPLY (SMPS).......................................................................................................................7

MICROCONTROLLER SDA525X............................................................................................................7

SERIAL ACCESS CMOS 8K(1024*8) EEPROM ST24C08.......................................................................7

CLASS AB STEREO HEADPHONE DRIVER TDA1308..........................................................................8

SAW FILTERS............................................................................................................................................8

IC DESCRIPTIONS and INTERNAL BLOCK DIAGRAM..........................................................................8

TDA8840/TDA8842/TDA8844..............................................................................................................8

UV1315/UV1316/UV1336..................................................................................................................10

TEA6415C..........................................................................................................................................11

TDA9830.............................................................................................................................................11

TDA2614/TDA2615/TDA2616Q...........................................................................................................12

TDA8351/TDA8356.............................................................................................................................13

TDA6107Q...........................................................................................................................................13

SAA4961............................................................................................................................................14

MC44604.............................................................................................................................................14

SDA525X.............................................................................................................................................15

TDA9875.............................................................................................................................................17

TDA9818..............................................................................................................................................18

ST24C08..................................................................................................................................................19

TDA1308..............................................................................................................................................19

G1965M...............................................................................................................................................19

TDA9855...............................................................................................................................................20

MANUAL ADJUSTMENT PROCEDURE....................................................................................................21

WHITE BALANCE ADJUSTMENT.........................................................................................................21

AGC ADJUSTMENT..............................................................................................................................21

IF-PL NEGATIVE ADJUSTMENT...........................................................................................................21

IF-PLL

POSITIVE ADJUSTMENT..........................................................................................................21

LUMINANCE DELAY ADJUSTMENT.....................................................................................................21

VERTICAL ZOOM ADJUSTMENT........................................................................................................21

VERTICAL SCROLL ADJUSTMENT.................................................................................................... 21

GENERAL BLOCK DIAGRAM..................................................................................................................

OPTION SETTINGS...............................................................................................................................

ELECTRONIC PARTS LISTS....................................................................................................................

SCHEMATIC DRAWING.............................................................................................................................

4:3 HORIZONTAL SHIFT ADJUSTMENT........................................................................................

4:3 VERTICAL SLOPE ADJUSTMENT............................................................................................

4:3 VERTICAL AMPLITUDE

ADJUSTMENT....................................................................................

4:3 S-CORRECTION ADJUSTMENT...............................................................................................

4:3 VERTICAL SHIFT

ADJUSTMENT..............................................................................................

4:3 EW WIDTH ADJUSTMENT........................................................................................................

4:3 EW PARABOLA

WIDTH ADJUSTMENT....................................................................................

4:3 EW CORNER PARABOLA

ADJUSTMENT................................................................................

4:3 EW TRAPEZIUM ADJUSTMENT...............................................................................................

16:9 HORIZONTAL SHIFT

ADJUSTMENT.......................................................................................

16:9 VERTICAL SLOPE ADJUSTMENT

..........................................................................................

16:9 VERTICAL AMPLITUDE

ADJUSTMENT..................................................................................

16:9 S-CORRECTION ADJUSTMENT.............................................................................................

16:9 VERTICAL SHIFT

ADJUSTMENT............................................................................................

16:9 EW WIDTH ADJUSTMENT.......................................................................................................

16:9 EW PARABOLA

WIDTH ADJUSTMENT..................................................................................

16:9 EW CORNER PARABOLA

ADJUSTMENT..............................................................................

16:9 EW TRAPEZIUM ADJUSTMENT.............................................................................................

21 22 22 22 22 22 22 22 22 22 22 22 22 22 22 22-23 23

25-61

62-72 73-74

OPTION 00........................................................................................................................................27

OPTION 01........................................................................................................................................27

OPTION 02........................................................................................................................................27

OPTION 03........................................................................................................................................28

OPTION 04........................................................................................................................................28

OPTION 05........................................................................................................................................28

OPTION 06........................................................................................................................................29

OPTION 07........................................................................................................................................29-30

OPTION 08........................................................................................................................................30-31

OPTION 09........................................................................................................................................31

OPTION 10........................................................................................................................................32

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DO NOT CHANGE ANY MODULE UNLESS THE SET IS SWITCHED OFF

The mains supply side of the switch mode power supply transformer is live. Use an isolating transformer. The receivers fulfill completely the safety requirements.

Safety precautions:

Servicing of this TV should only be carried out by a qualified person.

- Components marked with the warning symbol on the circuit diagram are critical for safety and must only be replaced with an identical component.

- Power resistor and fusable resistors must be mounted in an identical manner to the original component.

- When servicing this TV, check that the EHT does not exceed 26kV.

TV Set switched off:

Make short-circuit between HV-CRT clip and CRT ground layer. Short C804 (150mF) before changing IC802 or other components in primary side of SMPS.

Measurements:

Voltage readings and oscilloscope traces are measured under following conditions. Antenna signal 60dB from colourbar generator. (100% white, 75% colour saturation) Brightness, contrast, colour set for a normal picture. Mains supply, 220VAC, 50Hz.

PERI-TV SOCKET

SCART 1 (SC050)SCART 2 (SC051)

1Audio right output0.5Vrms / 1K1Audio right output0.5Vrms / 1K 2Audio right input0.5Vrms / 10K2Audio right input0.5Vrms / 10K 3Audio left output0.5Vrms / 1K3Audio left output0.5Vrms / 1K 4Ground AF4Ground AF 5Ground Blue5Ground Blue 6Audio left input0.5Vrms / 10K6Audio left input0.5Vrms / 10K 7Blue input0.7Vpp / 75ohm7Blue input0.7Vpp / 75ohm 8AV switching input0-12VDC /10K8AV switching input0-12VDC /10K 9Ground Green9Ground Green 10-1011Green input0.7Vpp / 75ohm1112-1213Ground Red13Ground Red 14Ground Blanking14Ground Blanking 15Red input0.7Vpp / 75ohm1516Blanking input0-0.4VDC, 1-3VDC / 75ohm1617Ground CVS output17Ground CVS output 18Ground CVS input18Ground CVS input 19CVS output1Vpp / 75ohm19CVS output1Vpp / 75ohm 20CVS input1Vpp / 75ohm20CVS input1Vpp / 75ohm 21Ground21Ground

1. INTRODUCTION

This is a 90ø and 110ø chassis capable of driving 20-21,24,25,28-29,32,33 tubes at appropriate currents. The chassis is capable of working in both PAL and SECAM. The sound system is capable of giving 6watts RMS output into a load of 8ohms. One 8 page simple TELETEXT, TOPTEXT and FASTEXT is provided. The chassis is equipped with 21-pin scart connectors which can accept via scart the SVHS format from VCRs so equipped.

2. SMALL SIGNAL PART WITH TDA884X

The TDA8840/8842/8844 combine all small signal functions required for a colour TV receiver, except tuning.

2.1. Vision IF amplifier

The IF-amplifier contains 3 AC-coupled control stages with a total gain control range which is higher than 66dB. The sensitivity of the circuit is comparable with that of modern IF-IC s. The video signal is demodulated by means of a PLL carrier regenerator. This circuit contains a frequency detector and a phase detector. The AFC output is obtained by using the VCO control voltage of the PLL and can be read via the I²C-bus. For fast search tuning systems the window of the AFC can be increased with a factor 3. The setting is realised with the AFW bit. Depending on the type the AGC-detector operates on top-sync level (single standard versions) or on top sync and top white-level (multi standard versions). The demodulation polarity is switched via the I²C-bus. The AGC detector time-constant capacitor is connected externally. This mainly because of the flexibility of the application. The time-constant of the AGC system during positive

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modulation is rather long to avoid visible variations of the signal amplitude. To improve the speed of the AGC system a circuit has been included which detects whether the AGC detector is activated every frame period. When during 3 frame periods no action is detected the speed of the system is increased. For signals without peak white information the system switches automatically to a gated black level AGC. Because a black level clamp pulse is required for this way of operation the circuit will only switch to black level AGC in the internal mode. The circuits contain a video identification circuit which is independent of the synchronisation circuit. Therefore search tuning is

possible when the display section of the receiver is used as a monitor. The ident output is supplied to the tuning system via the I²C-bus. The video ident circuit can be made less sensitive by means of the STM bit. This mode can be used during search tuning to avoid that the tuning system will stop at very weak input signals.

2.2. Video Switches

The circuits have two CVBS inputs (internal and external CVBS) and Y/C input. When the Y/C input is not required the Y input can be used as third CVBS input. The selection of the various sources is made via the I²C-bus. The circuit has one CVBS output.

2.3. Sound Circuit

The sound band pass and trap filters have to be connected externally. The filtered intercarrier signal is fed to a limiter circuit and is demodulated by means of a PLL demodulator. This PLL circuit tunes itself automatically to the incoming carrier signal so that no adjustment is required. The volume is controlled via the I²C-bus. The deemphasis capacitor has to be connected externally. The non-controlled audio signal can be obtained from this pin. The FM demodulator can be muted via the I²C-bus. This function can be used to switch-off the sound during a channel change so that high output peaks are prevented. The TDA8840/8842 contain an automatic volume levelling (AVL) circuit which automatically stabilises the audio output signal to a certain level which can be set by the viewer by means of the volume control. This function prevents big audio output fluctuations due to variations of the modulation depth of the transmitter. The AVL function can be activated via the I²C-bus.

2.4. Synchronisation circuit

The sync seperator is preceded by a controlled amplifier which adjusts the sync pulse amplitude to a fixed level. These pulses are fed to the slicing stage which is operating at 50% of the amplitude. The separated sync pulses are fed to the first phase detector and to the coincidence detector. This coincidence detector is used to detect whether the line oscillator is synchronised and can also be used for transmitter identification. The first PLL has a very high statical steepness so that the phase of the picture is independent of the line frequency. The horizontal output signal is generated by means of an oscillator which is running at twice the line frequency. Its frequency is divided by 2 to lock the first control loop to the incoming signal. The time-constant of the loop can be forced by the I²C-bus (fast or slow). If required the IC can select the time-constant depending on the noise content of the incoming video signal. To protect the horizontal output transistor, the horizontal drive is immediately switched off when a power-on-reset is detected. The drive signal is switched-on again when the normal switch-on procedure is followed. Via the I²C-bus, adjustments can be made of the horizontal and vertical geometry. The vertical sawtooth generator drives the vertical output drive circuit which has a differrential output current. For the EW drive a single ended current output is available. When the horizontal scan is reduced to display 4 : 3 pictures on a 16 : 9 picture tube an accurate video blanking can be switched on to obtain well defined edges on the screen. Overvoltage conditions can be detected via the EHT tracking pin.When an overvoltage condition is detected the horizontal output drive signal will be switched-off via the slow stop procedure but it is also possible that the drive is not switched-off and that just a protection indication is given in the I²C-bus output byte. The choice is made via the input bit PRD.

2.5. Chroma and Luminance processing

The circuits contain a chroma bandpass and trap circuit. The filters are realised by means of gyrator circuits and they are automatically calibrated by comparing the tuning frequency with the X-tal frequency of the decoder. The luminance delay line and the delay for the peaking circuit are also realised by means of gyrator circuits. The centre frequency of the chroma bandpass filter is switchable via the I²C-bus so that the performance can be optimised for front-end signals and external CVBS signals. During SECAM reception the centre frequency of the chroma trap is reduced to get a better suppression of the SECAM carrier frequencies.

2.6. Colour Decoder

The decoder contains an alignment-free X-tal oscillator, a killer circuit and two colour difference demodulators. The 90° phase shift for the reference signal is made internally. The IC contains an automatic colour limiting (ACL) circuit which prevents that oversaturation occurs when signals with a high chroma-to-burst ratio are received. The ACL circuit is designed such that it only reduces the chroma signal and not the burst signal. This has the advantage that the colour sensitivity is not affected by this function. The base-band delay line is integrated in the PAL/SECAM IC s. The demodulated colour difference signals are internally supplied to the delay line. The matrixed signals are externally available. The colour difference matrix switches automatically between PAL/SECAM and NTSC, however, it is also possible to fix the matrix in the PAL standard. Which colour standard the IC can decode depends on the external X-tals. The X-tal to be connected to pin 34 must have a frequency of 3.5 MHz (NTSC-M, PAL-M or PAL-N) and pin 35 can handle X-tals with a frequency of 4.4 and 3.5 MHz. To prevent calibration problems of the horizontal oscillator the external switching between the 2 X-tals should be carried out when the oscillator is forced to pin 35. For a reliable calibration of the horizontal oscillator it is very important that the X-tal indication bits (XA and XB) are not corrupted. For this reason the X-tal bits can be read in the output bytes so that the software can check the I²C-bus transmission.

2.7. RGB output circuit and black-current stabilisation

The colour-difference signals are matrixed with the luminance signal to obtain the RGB-signals. The TDA 884X device has one linear RGB input. This RGB signal can be controlled on contrast and brightness. The output signal has an amplitude of about 2 volts black-to-white at nominal input signals and nominal settings of the controls. To increase the flexibility of the IC it is possible to insert OSD and/or teletext signals directly at the RGB outputs. This insertion mode is controlled via the insertion input (pin 26 in the S-DIP 56- and pin 38 in the QFP-64 level). This blanking action at the RGB outputs has some delay which must be compansated externally. To obtain an accurate biasing of the picture tube a Continuous Cathode Calibration circuit has been developed. This function is realised by means of a 2-point black level stabilisation circuit.

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When the TV receiver is switched-on, the RGB output signals are blanked and the black current loop will try to set the right picture tube bias levels.Via the AST bit a choice can be made between automatic start-up or a start-up via the m-processor.

3. TUNER Either a PLL or a VST tuner is used as a tuner. UV1316 (VHF/UHF) is used as a PLL tuner. For only PALM/N, NTSC M applications UV1336 is used as the PLL tuner. UV1315 (VHF/ UHF) is used as a VST Tuner.

Channel coverage of UV1316:

OFF-AIR CHANNELS CABLE CHANNELS

BAND

CHANNELS FREQUENCY CHANNELS FREQUENCY

RANGE (MHz) RANGE (MHz) Low Band E2 to C 48.25 to 82.25 (1) S01 to S08 69.25 to 154.25 Mid Band E5 to E12 175.25 to 224.25 S09 to S38 161.25 to 439.25 High Band E21 to E69 471.25 to 855.25 (2) S39 to S41 447.25 to 463.25

(1). Enough margin is available to tune down to 45.25MHz. (2). Enough margin is available to tune up to 863.25MHz.

Noise Typical Max. Gain Min. Typical Max.

Low band : 5dB 9dB All channels : 38dB 44dB 52dB Mid band : 5dB 9dB Gain Taper (of-air channels) : - - 8dB High band : 6dB 9dB

Channel Coverage UV1336:

BAND CHANNELS FREQUENCY

RANGE (MHz) Low Band 2 to D 55.25 to 139.25 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:

OFF-AIR CHANNELS CABLE CHANNELS

BAND

CHANNELS FREQUENCY CHANNELS FREQUENCY

RANGE (MHz) RANGE (MHz)

Low Band E2 to C 48.25 to 82.25 (1) S01 to S10 69.25 to 168.25 Mid Band E5 to E12 175.25 to 224.25 S11 to S39 231.25 to 447.25 High Band E21 to E69 471.25 to 855.25 (2) S40 to S41 455.25 to 463.25

(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. Max. Gain Min. Typ. Max. Low band : 6dB 9dB All Channels 38dB 44dB 50dB Mid band : 6dB 10dB Gain Taper - - 8dB High band : 6dB 11dB (off-air channels)

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.

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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 5mA.

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. 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

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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

The TDA9818 is 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 38.9MHz, 45.75MHz and 58.75MHz. 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 (62.5KHz 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

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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 : Model: G1965M : PAL-SECAM B/G MONO G3962M : PAL-SECAM B/G GER&NIC STEREO, PAL I NIC STEREO, INT-1 G1984 : PAL-SECAM B/G GER&NIC STEREO INT-2 J1951M : PAL-I MONO J3950M : PAL-I NIC STEREO J1956M : PAL-I MONO K2955M : PAL-SECAM B/G-D/K MONO, PAL-SECAM B/G-D/K-I, MONO, PAL-SECAM B/G-D/K-L MONO K2958M : PAL-SECAM B/G-D/K (38) MONO K2962M : PAL-SECAM B/G-L/L MONO G3957M : PAL-SECAM B/G-L/L GER&NIC BG/L STEREO K6256K : 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

K6259K : PAL-SECAM B/G-D/K-I-M/N (EURO) MONO M1963M : 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) n TEA6415C n TDA9830 n TDA2614/2615/2616Q n TDA8351/8356 n TDA6107Q n SAA4961 n MC44604 n SDA525X n TDA9875 n TDA9818 n ST24C08 n TDA1308 n G1965M n TDA9855

TDA8840/8842/8844:

The TDA884X is I²C-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 nAlignment-free multi-standard FM sound demodulator (4.5MHz to 6.5MHz) 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 nAsymmetrical peaking in the luminance channel with a noise coring function nBlack 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 nHorizontal synchronisation with two control loops and alignment-free horizontal oscillator nVertical count-down circuit nVertical driver optimised for DC-coupled vertical output stages nI²C-bus control of various functions nLow dissipation (850mW)

Functional Differences between the 8840/8842/8844:

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IC VERSION (TDA) 8840 8842 8844

Multi-standard IF X X Automatic Volume Limiting X X PAL Decoder X X X SECAM Decoder X X NTSC Decoder X X Dynamic Skin Control X Colour Matrix PAL/NTSC (Japan) X X Colour Matrix NTSC Japan/USA YUV interface X Base-band delay line X X X Adjustable luminance delay time X Horizontal geometry X Horizontal and vertical zoom X Vertical scroll X

PINNING PIN VALUE

1. Sound IF input : 1mVrms

2. External audio input : 500mVrms

3.IF demodulator tuned circuit 1

4. IF demodulator tuned circuit 2

5.IF-PLL loop filter:Min:32-Max:60MHz

6. IF video output : 4.7V (Negative Modulation), 2V (Positive Modulation)

7. Serial clock input : Low level max:1.5 V, High level min 3.5V

8. Serial data input/output : Low level max:1.5 V, High level min 3.5V

9. Bandgap decoupling

10. Chrominance input (S-VHS) : 1Vpp, Max:1.4Vpp

11. External CVBS/Y input : 1Vpp, Max:1.4Vpp

12. Main supply voltage 1 : 8V, Min:7.2V, Max:8.8V

13. Internal CVBS input : 1Vpp, Max:1.4Vpp

14. Ground 1

15. Audio output : 700mVrms, Min:500mVrms, Max:900mVrms

16. SECAM PLL decoupling

17. External CVBS input : Vpp, Max:1.4Vpp

18. Black-current input : Amplitude of low reference current : 8mA

Amplitude of high reference current : 20mA

19. Blue output : 2Vpp

20. Green output : 2Vpp

21. Red output : 2Vpp

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:3.58/4.43MHz

34.3.58MHz crystal connection

35.4.43/3.58MHz 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:150ms/ms

43.Phase-1 filter:±0.9KHz, Max: ±1.2KHz

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

output voltage), 300mV (Output saturation voltage)

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55.Audio deemphasis : 500mVrms

56. Decoupling sound demodulator

UV1315, UV1316, UV1336

General description of UV1315:

The UV1315 tuner belongs to the UV1300 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 PIN VALUE

1. Gain control voltage (AGC) : 4.0V, Max:4.5V

2. Tuning voltage

3. High band switch : 5V, Min:4.75V, Max:5.5V

4. Mid band switch : 5V, Min:4.75V, Max:5.5V

5. Low band switch : 5V, Min:4.75V, Max:5.5V

6. Supply voltage : 5V, Min:4.75V, Max:5.5V

7. Not connected

8. Not connected

9. Not connected

10. Symmetrical IF output 1

11. Symmetrical IF output 2

Bandswitching table:

Pin 3 Pin 4 Pin 5

Low band 0V 0V +5V Mid band 0V +5V 0V High band +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 nDigitally controlled (PLL) tuning via I²C-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 PIN VALUE

1. Gain control voltage (AGC) : 4.0V, Max:4.5V

2. Tuning voltage

3.I²C-bus address select:Max:5.5V

4. I²C-bus serial clock : Min:-0.3V, Max:5.5V

5. I²C-bus serial data : Min:-0.3V, Max:5.5V

6. Not connected

7. PLL supply voltage : 5.0V, Min:4.75V, Max:5.5V

8. ADC input

9. Tuner supply voltage : 33V, Min:30V, Max:35V

10. Symmetrical IF output 1

11. Symmetrical IF output 2

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

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n Both Phono connector and F connector are available

PINNING PIN VALUE

1. Gain control voltage : 4.0V, Max:4.5V

2. Tuning voltage

3. Address select : Max:5.5V

4. Serial clock : Min:-0.3V, Max:5.5V

5. Serial data : Min:-0.3V, Max:5.5V

6. Not connected

7. Supply voltage : 5.0V, Min:4.75V, Max:5.5V

8. ADC input (optional)

9. Tuning supply voltage : 33V, Min:30V, Max:35V

10.Ground

11. IF output

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 I²C-bus.

Features:

n20MHz 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 n Fully ESD protected

PINNING PIN VALUE

1. Input : Max : 2Vpp, Input Current : 1mA, Max : 3mA

2. Data : Low level : -0.3V Max:1.5V, High level : 3.0V Max : Vcc+0.5V

3. Input : Max : 2Vpp, Input Current : 1mA, Max : 3mA

4. Clock : Low level : -0.3V Max:1.5V, High level : 3.0V Max : Vcc+0.5V

5. Input : Max : 2Vpp, Input Current : 1mA, Max : 3mA

6. Input : Max : 2Vpp, Input Current : 1mA, Max : 3mA

7. Prog

8. Input : Max : 2Vpp, Input Current : 1mA, Max : 3mA

9. Vcc : 12V

10. Input : Max : 2Vpp, Input Current : 1mA, Max : 3mA

11. Input : Max : 2Vpp, Input Current : 1mA, Max : 3mA

12.Ground

13. Output : 5.5Vpp, Min : 4.5Vpp

14. Output : 5.5Vpp, Min : 4.5Vpp

15. Output : 5.5Vpp, Min : 4.5Vpp

16. Output : 5.5Vpp, Min : 4.5Vpp

17. Output : 5.5Vpp, Min : 4.5Vpp

18. Output : 5.5Vpp, Min : 4.5Vpp

19.Ground

20. Input : Max : 2Vpp, Input Current : 1mA, Max : 3mA

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 PIN VALUE

1. Sound IF differential input signal : Minimum IF input signal (between pins 1 and 16):60mV

Max:100mV Maximum IF input signal (between pins 1 and 16) :120mV Min :70mV

2. Not connected

3. AGC capacitor

4. REF voltage filtering capacitor

5. Not connected

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6. AM demodulator output : THD:0.8%, Max:2%; S/N:53dB, Min:47%; DC potential:2.15V, Min : 2.00V Max :2.30V

7. Input signal (from AM) to audio switch : Max:1.2V

8. Output signal from audio switch : 80dB, Min : 70dB

9. Input signal (from external) to audio switch : Max:1.2V

10. Switch input select control : Audio switching voltage to activate pin7 : Min :0V, Max :0.8V

Audio switching voltage to activate pin9 : Min:1.5V, Max :Vp

11. Supply voltage : 12V, Min:10.8V, Max:13.2V

12. Mute control : For Mute-ON Min : 0V, Max : 0.8V For Mute-OFF Min : 1.5V, Max : Vp

13.Ground

14. Supply voltage : 5V, Min : 4.5V, Max : 8.8V

15. Not connected

16. Sound IF differential input signal : 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 PIN VALUE

1. Not connected

2. Mute input : 300mA (For mute to activate)

3. Ground

4. Not connected

5. Supply voltage (negative) : -12VDC

6. Output : 6.9Vrms

7. Supply voltage (positive) : +12VDC

8. Inverting input (Ground) : 0V

9. Non-inverting input : 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 PIN VALUE

1. Non-inverting input 1 : 700mVrms, Min :500mVrms, Max : 900mVrms

2. Mute input : 300mA (For mute to activate)

3. Ground

4. Output 1 : 6.9Vrms

5. Supply voltage (negative) : -12VDC

6. Output 2 : 6.9Vrms

7. Supply voltage (positive) : +12VDC

8. Inverting inputs 1 and 2 (Ground) : 0V

9. Non-inverting input 2 : 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:

Page 13

PINNING PIN VALUE

1. Non-inverting input 1 : 700mVrms, Min : 500mVrms, Max : 900mVrms

2. Mute input : 300mA (For mute to activate)

3. Ground

4. Output 1 : 9.8Vrms

5. Supply voltage (negative) : -16VDC

6. Output 2 : 9.8Vrms

7. Supply voltage (positive) : +16VDC

8. Inverting inputs 1 and 2 (Ground) : 0V

9. Non-inverting input 2 : 700mVrms, Min : 500mVrms, Max : 900mVrms

TDA8351/8356:

General Description:

The TDA8356 is a power circuit for use in 90° colour deflection system for field frequencies of 50 to 120Hz. The circuit operates as a highly efficient class G system. The TDA8351 is a power circuit for use in 110° colour deflection system for field frequencies of 50 to 120Hz. 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

PINNING PIN VALUE

1. Input power-stage (positive); includes Ii(sb) signal bias : 400mA, Min : 50mA, Max : 500mA

2. Input power-stage (negative); includes Ii(sb) signal bias :400mA, Min : 50mA, Max : 500mA

3. Operating supply voltage : +15VDC

4. Output voltage B : Max : 52V Output current : 2App (TDA8356) 3App (TDA8351)

5. Ground

6. Input flyback supply voltage : Min : Vp, Max : 50V

7. Output voltage A : Max : 52V Output current : 2App (TDA8356) 3App (TDA8351)

8. Guard output voltage : Max:5.5V (Io:100mA)

9. Input feedback voltage : 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:

nBandwith: 4.0MHz typ at 100Vpp (Measured in application 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 PIN VALUE

1. Inverting input 1 : 2Vpp

2. Inverting input 2 : 2Vpp

3. Inverting input 3 : 2Vpp

4. Ground

5. BSC-output : Max:7V

6. Supply voltage : 200VDC

7. Cathode output 3 : 20mA, 100Vpp

8. Cathode output 2 : 20mA, 100Vpp

Page 14

9. Cathode output 1 : 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 PIN VALUE

1. Subcarrier frequency input : 200mVpp, Min : 100mVpp, Max : 400mVpp

2. Internal connected

3. Bypass mode forcing : HIGH level input voltage Min : 2.4VDC, Max : Vcc

4. Internal connected

5. Decoupling capacitor : 1.25VDC, Min : 1.1VDC, Max : 1.4VDC

6. Internal connected

7. Analogue supply voltage : 5VDC, Min : 4.75VDC, Max : 5.5VDC

8. Analogue supply voltage output buffer : 5VDC, Min : 4.75VDC, Max : 5.5VDC

9. Analogue ground

10. External chrominance input : 0.7Vpp, Max : 1Vpp

11. Analogue ground output buffer

12. Chrominance output signal : 0mV, Min : -400mV, (DC offset voltage related to input) Max : +400mV

BYPASS-mode:Co/Cext : 0dB, Min : -1dB, Max : +1dB

13. fsc reference selection : HIGH level input voltage Min : 2V, Max : Vcc

: Low level input voltage Min : 0V, Max : 0.8V

14. Luminance output signal : 1Vpp, Min : 0.6Vpp, Max : 1.54Vpp

15. CVBS and Y output signal : 1Vpp, Min : 0.6Vpp, Max : 1.54Vpp

16. Internal connected

17. CVBS and Y input signal : 1Vpp, Min : 0.7Vpp, Max : 1.4Vpp

18. Disable prefilter : HIGH level input voltage Min : 2.0VDC, Max : Vcc

LOW level input voltage Min : 0VDC, Max : 0.8VDC

19. Storage Capacitor : 2.5VDC, Min : 1.8VDC, Max : Vcc

20. Standard select 1 : HIGH level input voltage Min : 2.0VDC, Max : Vcc

LOW level input voltage Min : 0VDC, Max : 0.8VDC

21. Digital ground

22. Digital supply voltage : 5VDC, Min : 4.75VDC, Max : 5.5VDC

23. Standard select 2 : HIGH level input voltage Min : 2.0VDC, Max : Vcc

LOW level input voltage Min : 0VDC, Max : 0.8VDC

24. Decoupling capacitor : 1.25VDC, Min : 1.1VDC, Max : 1.4VDC

25. Controlling I/O pin : HIGH level input voltage Min : 2.4VDC, Max : Vcc

LOW level input voltage Min : 0VDC, Max : 1.5VDC

26. Analogue ground PLL

27. Analogue supply voltage PLL : 5VDC, Min : 4.75VDC, Max : 5.5VDC

28. Internal connected

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

Page 15

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 PIN VALUE

1. Output Supply Voltage (Vcc) : 12VDC

2. Output Supply Voltage (Vc) : 12VDC

3. Output voltage : LOW Level Drop Voltage 1VDC, Max : 1.2VDC (Isink=100mA)

1.4VDC, Max : 2VDC (Isink=500mA)

HIGH Level Drop Voltage 1.5VDC, Max : 2VDC (Isource=200mA)

2VDC, Max : 2.7VDC (Isource=500mA)

4. Ground

5. Foldback input : 0.9VDC, Min:-0.3VDC, Max : Vcc+0.3VDC

6. Overvoltage protection (OVP) : 0.78VDC, Min:-0.3VDC, Max : Vcc+0.3VDC

7. Current sense input : Min:-0.3VDC, Max : Vcc+0.3VDC

8. Demagnetization detection input : Idemag-ib (source):-4mA Idemag-ib (sink) : 10mA

9. Standby current set : Ipeak-stby/Iref : 0.40 Min : 0.37 Max : 0.43

10. Oscillator voltage swing : 2Vpp

11. Soft start/Dmax/Voltage mode : Idischarge : 5mA, Min : 1.5mA (Vsoft start=1V)

12. Clamp E/A input : 4.7VDC, Min : 4.5VDC Max : 4.9VDC

13. E/A output : HIGH State: 6.5VDC, Min : 5.5VDC, Max : 7.5VDC LOW State : 1.0VDC, 1.1VDC

14. E/A input : 2.5VDC, Min : 2.4VDC, Max : 2.6VDC

15. Stand-by management : 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

16. Rref input : 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: SDA2526 or SDA2546 PLL: SDA3202-3, SDA3302 IR transmitter: SDA2208-3 or SDA2218 IR preamplifier: SFH506-32

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 nIF 38MHz or 38.9MHz selectable

Tuning:

nFrequency synthesis tuning (62.5KHz 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

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Sound:

n Mono sound control by analogue voltage

Service Mode:

n System configuration with service mode

PINNING PIN VALUE

1. Crystal selection output 1 : LOW level : 0V

HIGH level : 4.2V

2. Volume + switch input : LOW level : 0V

HIGH level : 5V

3. Volume - switch input : LOW level : 0V

HIGH level : 5V

4. Program - switch input : LOW level : 0V

HIGH level : 5V

5. Program + switch input: : LOW level : 0V

HIGH level : 5V

6. LED output : LOW level : 0V

HIGH level : 4.2VDC

7. Filter (sound standard) selection output 1 : LOW level : 0V

HIGH level : 4.2V

8. Filter (sound standard) selection output 2 : LOW level : 0V

HIGH level : 4.2V

9. Mod-switch selection output : LOW level : 0V

HIGH level : 4.2V

10.Ground

11. Supply voltage : +5V

12. 18 MHz crystal connection 1 : 2Vpp

13. 18 MHz crystal connection 2 : 2Vpp

14. L-ACC output : LOW level : 0V

HIGH level : 3.6V

15. RESET output LOW level : 0V

HIGH level : 5V

16. Comb filter PAL/SECAM selection output : LOW level : 0V

HIGH level : 5V

17. Tuning output : LOW level : 0V

HIGH level : 3.4V

18. Audio switch transistor selection 1 : LOW level : 0V

HIGH level : 5V

19. Audio switch transistor selection 2 : LOW level : 0V

HIGH level : 5V

20. Audio switch transistor selection 3 : LOW level : 0V

HIGH level : 5V

21. Audio switch transistor selection 4 : LOW level : 0V

HIGH level : 5V

22. Comb filter standard selection 1 : LOW level : 0V

HIGH level : 5V

23. Comb filter standard selection 2 : LOW level : 0V

HIGH level : 5V

24. Analogue ground

25. Filter 3

26. Filter 2

27. Filter 1

28. Analogue supply voltage : 5VDC

29. Reference current input

30. CVBS input : 1Vpp

31. Service output : LOW level : 0V

HIGH level : 5V

32. AV2-status input : LOW level : 0V

HIGH level : 5V

33. AV1-status input : LOW level : 0V

HIGH level : 5V

34. AFC output : 600mVpp

35.Ground

36. IR-input : LOW level : 0V

HIGH level : 5V

37. Supply voltage : 5V

38. LC input : 5Vpp

39. LC output : 5Vpp

40. Mute output : LOW level : 0V

HIGH level : 4.2V

41. St-by output : LOW level : 0V

HIGH level : 1.4V

42. Clock signal output

43. Data output

44. Local connection : LOW : 0V

HIGH : 5V

45. SAND input : 4Vpp

46. ODD/EVEN output : 1.8V

47. OSD-red output : LOW level : 0V

HIGH level : 5V

48. OSD-green output : LOW level : 0V

HIGH level : 5V

49. OSD-blue output : LOW level : 0V

HIGH level : 5V

50. OSD-blanking output : LOW level : 0Vh

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HIGH level : 5V

51. COR output : LOW level : 0V

HIGH level : 5V

52. Crystal selection output 2 : LOW level : 0V

HIGH level : 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:

nAnalogue crossbar switch with inputs for mono and stereo, SCART1 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 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

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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 operation

29. Audio mono input : 500mVrms

30.Second test pin; connected to ground for normal operation

31. External audio input right channel : 350mVrms

32. External audio input left channel : 350mVrms

33.SCART 1 input right channel:350mVrms

34. SCART 1 input left channel : 350mVrms

35. Ground guards

36. SCART 2 input right channel : 350mVrms

37. SCART 2 input left channel : 350mVrms

38. Analogue supply voltage 2 : 5V, Min : 4.75V, Max : 5.5V

39. Positive reference voltage

40. Reference voltage ground : 0V

41. Filter capacitor pin 1

42. Filter capacitor pin 2

43. Analogue supply ground 2 : 0V

44. Filter capacitor pin 2

45. Filter capacitor pin 1

46. Reference voltage 2 : Vdda2/Vssa2 : 50%

47. Scart 1 output right channel : 500mVrms

48. Scart 1 output left channel : 500mVrms

49. Digital supply ground 2 : 0V

50. Analogue supply ground 4 : 0V

51. Scart 2 output right channel : 500mVrms

52. Scart 2 output left channel : 500mVrms

53. Reference voltage 3 : Vdda3/Vssa3:50%

54. Post-filter capacitor pin right channel

55. Post-filter capacitor pin left channel

56. Analogue supply ground 3 : 0V

57. Headphone output right channel : Vo(clip) : Min : 1400mVrms

58. Headphone output left channel : Vo(clip) : Min : 1400mVrms

59. Analogue supply voltage 3 : 5.0V, Min : 4.75V, Max : 5.5V

60. Loudspeaker (main) output right channel : Vo(clip) : Min : 1400mVrms

61. Loudspeaker (main) output left channel : Vo(clip) : Min : 1400mVrms

62. Line output left channel : 500mVrms

63. Line output right channel : 500mVrms

64. Digital supply voltage 2 : 5.0V, Min : 4.75V, Max : 5.5V

TDA9818:

General description: The TDA9818 is an integrated circuit for multistandard vision IF signal processing, sound AM and FM demodulation.

Features:

n 5 V supply voltage nApplicable for IF frequencies of 38.9MHz, 45.75MHz and 58.75MHz n Gain controlled wide band VIF-amplifier (AC-coupled) n True synchronous demodulation with active carrier regeneration (very linear demodulation, good intermodulation figures, reduced

harmonics, excellent pulse response)

n Robustness for overmodulation better than 105% due to gated phase detector at L/L accent standard and PLL-bandwidth

control at negative modulated standards

n VCO frequency switchable between L and L accent (alignment external) picture carrier frequency n VIF AGC detector for gain control, operating as peak sync detector for B/G, peak white detector for L; signal controlled reaction

time for L

n Tuner AGC with adjustable takeover point (TOP) n AFC detector without extra reference circuit n AC-coupled limiter amplifier for sound intercarrier signal n Alignment-free FM-PLL demodulator with high linearity n SIF input for single reference QSS mode (PLL controlled); SIF AGC detector for gain controlled SIF amplifier; single reference

QSS mixer able to operate in high performance single reference QSS mode and in intercarrier mode

n AM demodulator without extra reference circuit n Stabilizer circuit for ripple rejection and to achieve constant output signals n ESD protection for all pins

PINNING PIN VALUE

1. VIF differential input signal voltage 1 : Input signal voltage sensitivity

60mVrms, Max:100mVrms

2. VIF differential input signal voltage 2 : Input signal voltage sensitivity

60mVrms, Max:100mVrms

3. Standard switch : Min : 2.8V, Max : Vp

4. VIF AGC capacitor : Charging current : 1mA, Min : 0.75mA, Max : 1.25mA

Discharging current : B/G standard : 20mA, Min : 15mA, Max:25mA Normal mode L : 300nA, Min : 225nA, Max : 375nA Fast mode L : 40mA, Min : 30mA, Max : 50mA

5. SIF AGC capacitor : Charging current : FM mode : 12mA, Min : 8mA, Max : 16mA

AM mode : 1.2mA, Min : 0.8mA, Max : 1.6mA Discharging current : FM mode : 12mA, Min : 8mA, Max : 16mA Normal mode AM : 1.4mA, Min : 1mA, Max : 1.8mA Fast mode AM : 85mA, Min : 60mA, Max : 110mA

6. PLL loop filter : Min : 0V, Max : Vp

7. L/L accent switch and adjust : Min : 0V, Max : Vp

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8. Audio output : Rx : 470ohm : 250mVrms, Min : 200mVrms, Max : 300mVrms

Rx : 0ohm : 500mVrms, Min : 400mVrms, Max : 600mVrms

9. De-emphasis input : Min : 0V, Max : Vp

10.De-emphasis output : Min : 0V, Max : Vp

11. Decoupling capacitor : Min : 0V, Max : Vp

12. Single reference QSS/intercarrier output voltage : 140mVrms, Min : 100mVrms Max : 180mVrms

13. Sound intercarrier input voltage : Input signal voltage for lock-in: Max : 100mVrms

Input signal voltage : 250mVrms

14. Tuner AGC output : IF input signal voltage for minimum starting point of tuner takeover

2mV, Max : 5mV IF input signal voltage for maximum starting point of tuner takeover 100mV, Min : 50mV

15. Black level detector : Min : 0V, Max : Vp

16. Composite video output voltage : 1.1Vpp, Min : 0.97Vpp, Max : 1.23Vpp

17. AFC output : Upper limit : Vp-0.3V, Min : Vp-0.6V, Lower limit : 0.3V, Max : 0.6V

18. VCO1 resonance circuit

19. VCO2 resonance circuit

20.Ground : 0V

21. Supply voltage : 5V, Min : 4.5V, Max : 5.5V

22. Tuner AGC takeover adjust (TOP)

23. SIF differential input signal voltage 1 : Input signal voltage sensitivity 50mVrms, Max : 100mVrms

24. SIF differential input signal voltage 2 : Input signal voltage sensitivity 50mVrms, Max : 100mVrms

ST24C08:

General description:

The ST24C08 is a 8Kbit electrically erasable programmable memory (EEPROM), organized as 4 blocks of 256 * 8 bits. The memory operates with a power supply value as low as 2.5V. Both Plastic Dual-in-Line and Plastic Small Outline packages are available.

Features:

n Minimum 1 million ERASE/WRITE cycles with over 10 years data retention n Single supply voltage:4.5 to 5.5V n Two wire serial interface, fully IýC-bus compatible n Byte and Multibyte write (up to 8 bytes) n Page write (up to 16 bytes) n Byte, random and sequential read modes n Self timed programming cycle

PINNING PIN VALUE

1. Write protect enable (Ground) : 0V

2. Not connected (Ground) : 0V

3. Chip enable input (Ground) : 0V

4. Ground : 0V

5. Serial data address input/output : Input LOW voltage : Min : -0.3V, Max : 0.3*Vcc

Input HIGH voltage: Min : 0.7*Vcc, Max : Vcc+1

6. Serial clock : Input LOW voltage : Min: -0.3V, Max : 0.3*Vcc

Input HIGH voltage: Min : 0.7*Vcc, Max : Vcc+1

7. Multibyte/Page write mode : Input LOW voltage : Min: -0.3V, Max :0.5V

Input HIGH voltage: Min : Vcc-0.5, Max : Vcc+1

8. Supply voltage : Min : 2.5V, Max : 5.5V

TDA1308:

Features:

n Wide temperature range n No switch ON/OFF clicks n Excellent power supply ripple rejection n Low power consumption n Short-circuit resistant n High performance

- high signal-to-noise ratio

- high slew rate

- low distortion

n Large output voltage swing

PINNING PIN VALUE

1. Output A (Voltage swing) : Min : 0.75V, Max : 4.25V

2. Inverting input A : Vo(clip) : Min : 1400mVrms

3. Non-inverting input A : 2.5V

4. Ground : 0V

5. Non-inverting input B : 2.5V

6. Inverting input B : Vo(clip) : Min : 1400mVrms

7. Output B (Voltage swing) : Min : 0.75V, Max : 4.25V

8. Positive supply

: 5V, Min : 3.0V, Max : 7.0V

G1965M:

Features:

n TV IF filter with Nyquist slope and sound shelf at typ. 20.4dB n High colour carrier level at typ. 1.0dB n Constant group delay

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TDA9855

General description:

The TDA9855 is a bipolar-integrated BTSC stereo/SAP decoder with hi-fi audio processor (IýC-bus controlled) for application in TV sets.

Features:

n Quasi alignment-free BTSC stereo decoder due to auto adjustment of channel separation via IýC-bus n High integration level with automatically tuned integrated filters nInput level adjustment I²C-bus controlled n Alignment-free Sap processing n dbx noise reduction circuit n Audio processor

-Selector for internal and external signals (line in)

-Automatic volume level control

-Subwoofer or surround output with separate volume control

-Volume control

-Special loudness characteristic automatically controlled in combination with volume setting

-Bass and treble control

-Audio signal zero crossing detection between any volume step switching

-Mute control at audio signal zero crossing

-I²C-bus tranceiver.

PINNING PIN VALUE

1. Treble control capacitor, left channel

2. Bass control capacitor, left channel

3. Bass control capacitor, left channel

4. Not connected

5. Programmable address bit (module address)

6. Output, left channel : 500mVrms, Min : 480mVrms,

Max : 520mVrms

7. Input loudness, left channel

8. Input volume control, left channel : 2.15Vrms, Min : 2Vrms

9. Output effects, left channel

10. Automatic volume control capacitor

11. Reference voltage 0.5Vcc : 4VDC

12. Line input, left channel : 2.3Vrms, Min : 2Vrms

13. Input automatic volume control, left channel : Min : 2Vrms

14. Output selector, left channel

15. Line output, left channel : 500mVrms

16. Capacitor timing wideband for dbx

17.Capacitor timing spectral for dbx

18.Capacitor wideband for dbx

19.Capacitor spectral for dbx

20.Variable emphasis out for dbx

21.Variable emphasis in for dbx

22.Capacitor noise reduction for dbx

23.Capacitor mute for SAP

24.Capacitor DC decoupling for SAP

25.Common ground:0V

26.Serial data input/output:High level input voltage : Min : 3VDC, Max : Vcc

: Low level input voltage : : Low level output voltage : Max : 0.4VDC

Min : -0.3VDC, Max : 1.5VDC

27.Serial clock input:High level input voltage: Min : 3VDC, Max : Vcc

: Low level output voltage : Max : 0.4VDC

ow level input voltage : Min : -0.3VDC, Max : 1.5VDC

28.Supply voltage:8VDC

29.Input composite signal:250mVrms

30.Capacitor for electronic filtering of supply

31.Capacitor for pilot detector

32.Capacitor for pilot detector

33.Capacitor for phase detector

34.Capacitor for filter adjust

35.Ceramic resonator

36.Capacitor DC decoupling mono

37.Capacitor DC decoupling stereo/SAP

38.Line output, right channel:500mVrms

39.Output selector, right channel

40.Input automatic volume control, right channel:Min:2Vrms

41.Line input, right channel:2.3Vrms, Min : 2Vrms

42.Capacitor 2 pseudo function

43.Capacitor 1 pseudo function

44.Output effects, right channel

45.Input volume control, right channel:Min : 2Vrms

46.Input loudness, right channel

47.Output, right channel:500mVrms, Min : 480mVrms,

Max : 520mVrms

48.Not connected

49.Filter capacitor for subwoofer

50.Bass control capacitor, right channel

51. Bass control capacitor, right channel

52. Treble control capacitor

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n Insertion attenuation typ. 15.0dB

PINNING

1. Input

2. Input-ground

3. Chip carrier-ground

MANUAL ADJUSTMENTS PROCEDURE

In order to enter the service menu, first enter the installation menu and then press the digits 4, 7, 2 and 5 respectively.

For ADJUST settings: Select Adjust using

or button and press or button to enter it. To select different adjust parameters, use or button.

To change the selected parameter, use or button.

WHITE BALANCE ADJUSTMENT:

The following three parameters are used to make white balance adjustment. To do this, use a Colour Analyser. Using white point RED, white point GREEN and white point BLUE parameters, insert the + sign in the square which is in the middle of the screen.

ADJUST 00 = White Point RED ADJUST 01 = White Point GREEN ADJUST 02 = White Point BLUE

AGC ADJUSTMENT:

In order to do AGC adjustment, enter a 60dBmV RF signal level from channel C-12. Connect a digital voltmeter to pin 1 of the tuner. Change the AGC parameter until you see 3.70VDC on voltmeter display. Check that picture is normal at 90dBmV signal level.

ADJUST 03 = AGC

IF-PLL NEGATIVE ADJUSTMENT (Only with PLL tuner):

Connect 38.9MHz test pattern for PAL B/G, PAL-SECAM B/G, 39.5MHz test pattern for PAL I or 45.75MHz test pattern for PAL M/N, NTSC M model to Z401 SAW filter input terminals. Change the IF-PLL Negative parameter until you see IN, DOWN below. If you cannot catch IN, DOWN position this way, using a screwdriver rotate the VIF-COIL LT401 left or right until you see IN, DOWN.

ADJUST 04 = IF-PLL Negative

IF-PLL POSITIVE ADJUSTMENT (Only with PLL tuner):

Connect 33.9MHz test pattern for SECAM L model to Z401 SAW filter input terminals. Change the IF-PLL Positive parameter until you see IN, DOWN below. If you cannot catch IN, DOWN position this way, using a screwdriver rotate the VIF-COIL LT401 left or right until you see IN, DOWN.

ADJUST 05 = IF-PLL Positive

LUMINANCE DELAY ADJUSTMENT (with only TDA 8844 video processor): ADJUST 06 = Y-Delay PAL

Enter a PAL B/G colour and black-white bar test pattern via RF. Adjust Y-Delay PAL till the colour transients on the colour bar of the pattern become as sharper and colours between transients do not mix with each other as possible. Note: If the SAW filter is one of the G1965M, J1951M, J3950M, K2958M, K2962M, G3957M, K6256K, K6259K or M1963M, there is constant group delay distortion, so for an equal delay of the luminance and chrominance signal the delay must be set at a value of 160nS. This means the adjustment must be set to the maximum value. ADJUST 07 = Y-Delay SECAM Enter a SECAM B/G colour and black-white bar test pattern via RF. Adjust Y-Delay SECAM till the colour transients on the colour bar of the pattern become as sharper and colours between transients do not mix with each other as possible. Note: If the SAW filter is one of the G1965M, K2958M, K2962M, G3957M, K6256K or K6259K, there is constant group delay distortion, so for an equal delay of the luminance and chrominance signal the delay must be set at a value of 160nS. This means the adjustment must be set to the maximum value. ADJUST 08 = Y-Delay NTSC Enter an NTSC colour and black-white bar test pattern via RF. Adjust Y-Delay NTSC till the colour transients on the colour bar of the pattern become as sharper and colours between transients do not mix with each other as possible. Note: If the SAW filter is M1963M, there is constant group delay distortion, so for an equal delay of the luminance and chrominance signal the delay must be set at a value of 160nS. This means the adjustment must be set to the maximum value. ADJUST 09 = Y-Delay Other In case of other colour systems, enter this system with colour and black-white bar test pattern via RF. Adjust Y-Delay Other till the colour transients on the colour bar of the pattern become as sharper and colours between transients do not mix with each other as possible. Normally for an equal delay of the luminance and chrominance signal the delay must be set at a value of 160nS. This means the adjustment must be set to the maximum value.

VERTICAL ZOOM ADJUSTMENT (only for 110° picture tubes): ADJUST 10 = Vertical Zoom

Enter a PAL B/G circle test pattern via RF. Change vertical zoom till you see the upper and lower limit of the circle as close to the upper and lower limit of the picture tube as possible.

VERTICAL SCROLL ADJUSTMENT (only for 110° picture tubes): ADJUST 11 = Vertical Scroll

Enter a PAL B/G circle test pattern via RF. Change vertical scroll till you see the circle exactly in the middle of the screen.

4:3 HORIZONTAL SHIFT ADJUSTMENT: ADJUST 12 = 4 : 3 Horizontal Shift

Enter a RED PURITY test pattern via RF.Change horizontal shift till the picture is horizontally centred. Check whether this adjustment is correct after completing Service Mode Adjustment.

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4:3 VERTICAL SLOPE ADJUSTMENT: ADJUST 13 = 4 : 3 Vertical Slope

Enter a CROSS-HATCH B/G test pattern via RF. Change vertical slope till the size of squares on both the upper and lower part of test pattern become equal to the squares laying on the vertical centre of the test pattern. Check and readjust VERTICAL SLOPE item if the adjustment becomes improper after some other geometric adjustments are done.

4:3 VERTICAL AMPLITUDE ADJUSTMENT: ADJUST 14 = 4 : 3 Vertical Amplitude

Enter a PAL B/G test pattern via RF. Change vertical slope till horizontal black lines on both the upper and lower part of the test pattern become very close to the upper and lower horizontal sides of picture tube and nearly about to disappear. Check and readjust VERTICAL AMPLITUDE item if the adjustment becomes improper after some other geometric adjustments are done.

4:3 S-CORRECTION ADJUSTMENT: ADJUST 15 = 4 : 3 S-Correction

Enter a PAL B/G circle test pattern via RF. Change S-correction till the middle part of the circle is as round as possible.

4:3 VERTICAL SHIFT ADJUSTMENT: ADJUST 16 = 4 : 3 Vertical Shift

Enter a PAL B/G test pattern via RF. Change Vertical Shift till the test pattern is vertically centred, i.e. horizontal line at the centre pattern is in equal distance both to upper and lower side of the picture tube. Check and readjust Vertical Shift item if the adjustment becomes improper after some other geometric adjustments are done.

4:3 EW WIDTH ADJUSTMENT (only for 110° picture tubes): ADJUST 17 = 4 : 3 EW Width

Enter a PAL B/G test pattern via RF. Change EW Width till the vertical black and white bars on both left and right side of the pattern exactly disappear.

4:3 EW PARABOLA WIDTH ADJUSTMENT (only for 110° picture tubes): ADJUST 18 = 4 : 3 EW Parabola Width

Enter a PAL B/G test pattern via RF. Change EW Parabola Width till vertical lines close to the both sides of the picture frame become parallel to vertical sides of picture tube. Check and readjust EW Parabola Width item if the adjustment becomes improper after some other geometric adjustments are done.

4:3 EW CORNER PARABOLA ADJUSTMENT (only for 110° picture tubes): ADJUST 19 = 4 : 3 EW Corner Parabola

Enter a PAL B/G test pattern via RF. Change EW Corner Parabola till vertical lines at the corners of both sides of picture frame become vertical and parallel to vertical corner sides of picture tube. Check and readjust EW Corner Parabola item if the adjustment becomes improper after some other geometric adjustments are done.

4:3 EW TRAPEZIUM ADJUSTMENT (only for 110° picture tubes): ADJUST 20 = 4 : 3 EW Trapezium

Enter a PAL B/G test pattern via RF. Change EW Trapezium till vertical lines, especially lines at the sides of the picture frame became parallel to the both sides of picture tube as close as possible. Check and readjust EW Trapezium item if the adjustment becomes improper after some other geometric adjustments are done.

16:9 HORIZONTAL SHIFT ADJUSTMENT: ADJUST 21 = 16 : 9 Horizontal Shift

Enter a RED PURITY test pattern via RF.Change horizontal shift till the picture is horizontally centred. Check whether this adjustment is correct after completing Service Mode Adjustment.

16:9 VERTICAL SLOPE ADJUSTMENT: ADJUST 22 = 16 : 9 Vertical Slope

16:9 VERTICAL AMPLITUDE ADJUSTMENT: ADJUST 23 = 16 : 9 Vertical Amplitude

16:9 S-CORRECTION ADJUSTMENT: ADJUST 24 = 16 : 9 S-Correction

Enter a PAL B/G circle test pattern via RF. Change S-correction till the middle part of the circle is as round as possible.

16:9 VERTICAL SHIFT ADJUSTMENT: ADJUST 25 = 16 : 9 Vertical Shift

16:9 EW WIDTH ADJUSTMENT (only for 110° picture tubes): ADJUST 26 = 16 : 9 EW Width

Enter a PAL B/G test pattern via RF. Change EW Width till the vertical black and white bars on both left and right side of the pattern exactly disappear.

16:9 EW PARABOLA WIDTH ADJUSTMENT (only for 110° picture tubes):

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ADJUST 27 = 16 : 9 EW Parabola Width Enter a PAL B/G test pattern via RF. Change EW Parabola Width till vertical lines close to the both sides of the picture frame become parallel to vertical sides of picture tube. Check and readjust EW Parabola Width item if the adjustment becomes improper after some other geometric adjustments are done.

16:9 EW CORNER PARABOLA ADJUSTMENT (only for 110° picture tubes): ADJUST 28 = 16 : 9 EW Corner Parabola

16:9 EW TRAPEZIUM ADJUSTMENT (only for 110° picture tubes): ADJUST 29 = 16 : 9 EW Trapezium

Select OPTION using $ or ' button and press & or % button to enter it. To select different option bytes, use $ or ' button. Using & or % button select the bit you want to set and then set it pressing 0 or 1 button.

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TV-TEXT CONTROLLER

SDA 52XX

VIDEO PROCESSOR

TDA 884X

PLL TUNER

UV1315/6

AUDIO

OUTPUTS

TDA2615/6

TDA2614(MONO)

RGB AMP.

TDA6107

KEYPAD

SMPS

(MC44604)

VERTICAL

OUTPUT TDA8351/6

HORIZONTAL

OUTPUT

FBT

SCART1

CRT

115/150VDC +12VDCAud.

-12VDCAud 12VDC 8VDC 5VDC 5VDCst-by

SPEAKERS

8R 6/12W

IR.

SCART2

TDA9870/5

DIGITAL SOUND PROCESSOR

FRONTAV SVHS

SER VICE

CONNECTOR

I2C

CTI &

COMB FILTER

NVM

VIDEO SWITCH

TEA6415

BLOCK DIAGRAM

GENERAL BLOCK DIAGRAM

Page 25

Index Table

INDEX TABLE..........................................................................................................................................................................................25

PTION 0. .............................................................................................................................................................................................. 27

PTION 1. ............................................................................................................................................................................................. 27

PTION 2. .............................................................................................................................................................................................. 27

PTION 3. .............................................................................................................................................................................................. 28

PTION 4. ............................................................................................................................................................................................... 28

PTION 5. CTI AVAILABLE .............................................................................................................................................................. 28

PTION 6. ............................................................................................................................................................................................... 29

PTION 7. COUNTRY VALUE, PLL_VST, PIP ZOOM MODE, PIP POSITION ............................................................................. 29-30

PTION 8. TUBE SIZE, DEFAULT ZOOM MODE, IF FREQUENCY ............................................................................................... 30-31

PTION 9. STANDARD AVAILABLE ................................................................................................................................................ 31

PTION 10. SCART , COMBFILTER, TELETEXT LANGUAGE ..................................................................................................... 32

PTION 11. PLL TUNER CONTROL 1 BYTE.................................................................................................................................. 33

PTION 12. PLL TUNER CONTROL 2 LOW BYTE........................................................................................................................ 33

PTION 13. PLL TUNER CONTROL 2 MID BYTE.......................................................................................................................... 34

PTION 14. PLL TUNER CONTROL 2 HIGH BYTE........................................................................................................................ 34

PTION 15. PLL TUNER VHF LOW - VHF HIGH CROSSOVER LOW BYTE............................................................................... 35

PTION 16. PLL TUNER VHF LOW - VHF HIGH CROSSOVER HIGH BYTE.............................................................................. 35

PTION 17. PLL TUNER VHF HIGH - UHF CROSSOVER LOW BYTE........................................................................................ 36

PTION 18. PLL TUNER VHF HIGH - UHF CROSSOVER HIGH BYTE......................................................................................... 36

PTION 19. PIP PLL TUNER CONTROL 1 BYTE........................................................................................................................... 37

PTION 20. PIP PLL TUNER CONTROL 2 LOW BYTE................................................................................................................. 37

PTION 21. PIP PLL TUNER CONTROL 2 MID BYTE................................................................................................................... 38

PTION 22. PIP PLL TUNER CONTROL 2 HIGH BYTE................................................................................................................. 38

PTION 23. PIP PLL TUNER VHF LOW - VHF HIGH CROSSOVER LOW BYTE........................................................................ 39

PTION 24. PIP PLL TUNER VHF LOW - VHF HIGH CROSSOVER HIGH BYTE....................................................................... 39

PTION 25. PIP PLL TUNER VHF HIGH - UHF CROSSOVER LOW BYTE.................................................................................. 40

PTION 26. PIP PLL TUNER VHF HIGH - UHF CROSSOVER HIGH BYTE.................................................................................. 40

PTION 27. LANGUAGE AVAILABLE 1..................................................................................................................................... 41

PTION 28. LANGUAGE AVAILABLE 2..................................................................................................................................... 41

PTION 29. LANGUAGE AVAILABLE 3 AND ZOOM MODE AVAILABLE ............................................................................ 41

PTION 30. MENU COLOR SELECTION HEADER/BOTTOM BACKGROUND .................................................................. 41

PTION 31. MENU COLOR SELECTION HEADER FOREGROUND....................................................................................... 42

PTION 32. MENU COLOR SELECTION ITEMS BACKGROUND.......................................................................................... 42

PTION 33. MENU COLOR SELECTION ITEMS FOREGROUND........................................................................................... 42

PTION 34. MENU COLOR SELECTION CURSOR BACKGROUND...................................................................................... 42

PTION 35. MENU COLOR SELECTION CURSOR FOREGROUND ....................................................................................... 43

PTION 36. MENU COLOR SELECTION BOTTOM FOREGROUND...................................................................................... 43

PTION 37. MENU COLOR SELECTION LISTBOX FOREGROUND ...................................................................................... 43

PTION 38. TV TELETEXT MODE SELECTION, CHILD LOCK, STANDARD, EQUALIZER, COUNTRY.............................. 43-44

PTION 39. PERSONAL PREFERANS EQUALIZER BAND 1.................................................................................................. 44

PTION 40. PERSONAL PREFERANS EQUALIZER BAND 2.................................................................................................. 44-45

PTION 41. PERSONAL PREFERANS EQUALIZER BAND 3.................................................................................................. 45

PTION 42. PERSONAL PREFERANS EQUALIZER BAND 4.................................................................................................. 45

PTION 43. PERSONAL PREFERANS EQUALIZER BAND 5.................................................................................................. 45

PTION 44. SOUND EFFECT (STANDARD, MUSIC, SPEECH, JAZZ,PP)............................................................................ 46

PTION 45. VOLUME OFFSET LEFT ........................................................................................................................................... 46

PTION 46. VOLUME OFFSET RIGHT......................................................................................................................................... 46

PTION 47. VOLUME OFFSET CENTER ..................................................................................................................................... 46

PTION 48. VOLUME OFFSET REAR.......................................................................................................................................... 46-47

PTION 49. SURROUND DELAY.................................................................................................................................................. 47

PTION 50. FM PRESCALE............................................................................................................................................................ 47

PTION 51. NICAM PRESCALE.................................................................................................................................................... 47

PTION 52. SCART PRESCALE AND AVL BIT .......................................................................................................................... 47-48

PTION 53. I2S PRESCALE ............................................................................................................................................................ 48

PTION 54. MSP SCART OUTPUT VOLUME............................................................................................................................ 48

Page 26

PTION 55. SPEAKER SETUP ....................................................................................................................................................... 48-49

PTION 56. AUDIO OPTIONS....................................................................................................................................................... 49

PTION 57. MSP OPTION .............................................................................................................................................................. 49-50

PTION 58. MSP OPTION .............................................................................................................................................................. 50

PTION 59. MSP OPTION .............................................................................................................................................................. 50

PTION 60. ACTIVE LANGUAGE................................................................................................................................................. 50

FINISHED OPTION TABLE................................................................................................................................................................... 57

PTION 61. DUAL LIMIT............................................................................................................................................................... 58

PTION 62. STEREO LIMIT ........................................................................................................................................................... 58

PTION 63. AUTO SWITCH THRESHOLD................................................................................................................................. 59

PTION 64. DFP ADDRESS............................................................................................................................................................ 59

ADJUST 00-65 .......................................................................................................................................................................................... 60-61

Page 27

Option 0.

B7: Ina = x B6: Inb = x B5: Inc = x B4: Akb = 0 B3: Foa = x B2: Fob = x B1: Xa = note1 B0: Xb = note1

note 1:

Xa,Xb

0,1 : Pal M, Pal N, Ntsc M

Pin 34 : 3.58 (1, 2 or 3 crystals) Pin 35 : No crystal

1,0 : Pal BG, Pal DK, Pal I/I+, Secam BG, Secam DK, Secam L/L’, Secam K1

Pin 34 : No crystal

Pin 35 : 4.43 (1 crystal)

1,1 : Pal BG, Pal DK, Pal I/I+, Secam BG, Secam DK, Secam L/L’, Secam K1, Pal M, Pal N, Ntsc M

Pin 34 : 3.58 (1, 2 or 3 crystals)

Pin 35 : 4.43 (1 crystal)

Option 1.

B7: Frf = 1 B6: Frs = 1 B5: Dl = x B4: Stb = 1 B3: Poc = x B2: Cm2 = x B1: Cm1 = x B0: Cm0 = x

Option 2.

B7: Oso = 0 B6: Vsd = 0 B5: Cb = 0 B4: Bls = 0 B3: Bks = 0 B2: Ie1 = x B1: Afw = x B0: Bb = 0

Page 28

Option 3.

B7: Hob = note 1 B6: Bps = 0 B5: Acl = x B4: Cmb = note 2 B3: Ast = x B2: Cl2 = 1 B1: Cl1 = 0 B0: Cl0 = 0

note 1:

0 = Pal+ helper output blanking disabled 1 = Pal+ helper output blanking enabled

note 2:

0 = Comb filter disabled 1 = Comb filter enabled

Option 4.

B7: Ifs = x B6: Mod = x B5: Vsw = x B4: Sm = x B3: Ds = 0 B2: Dsa = 0 B1: Fav = 0 B0: Lfa = x

Option 5. CTI Available

B7: Avl = 0 B6: Hbl = x B5: Vim = x B4: Gai = note 1 B3: Nci = x B2: Stm = x B1: Vid = x B0: Lbm = 0

note 1:

0 = CTI disabled 1 = CTI available

Page 29

Option 6.

B7: Hco = x B6: Evg = 1 B5: Sbl = 1 B4: Prd = x B3: Mat = note 1 B2: Rbl = x B1: Cor = x B0: Aen = note 2

note 1:

0 = If only PAL 1 = Else

note 2:

0 = APS diasbled >> Preset 1 = APS enabled >> APS

Option 7. Country Value, PLL_VST, PIP Zoom Mode, PIP Position

B7: C3 = note 1 B6: C2 = note 1 B5: C1 = note 1 B4: C0 = note 1 B3: P/V = note 2 B2: PZM = note 3 B1: PP1 = note 4 B0: PP0 = note 4

note 1:

C3,C2,C1,C0 = Country

0,0,0,0 = ? Not allowed 0,0,0,1 = D Germany 0,0,1,0 = A Austria 0,0,1,1 = CH Switzerland 0,1,0,0 = I Italy 0,1,0,1 = F France 0,1,1,0 = B Belgium 0,1,1,1 = DK Denmark 1,0,0,0 = S Sweden 1,0,0,1 = N Norway 1,0,1,0 = SF Finland 1,0,1,1 = GB Great Britain 1,1,0,0 = NL Netherlands 1,1,0,1 = P Portugal 1,1,1,0 = E Spain 1,1,1,1 = TR Turkey

Page 30

note 2:

1 = VST Tuner 0: = PLL Tuner

note 3:

PZM 1: = 16 : 9 0: = 4:3

note 4:

PP1, PP0 00: = LEFT-TOP 01: = LEFT BOTTOM 10: = RIGHT-BOTTOM 11: = RIGHT-TOP

Option 8. Tube Size, Default Zoom mode, IF Frequency

B7: Tub = note 1 B6: Z.Def = note 2 B5: IfD = note 3 B4: IfI = note 4 B3: IfM = note 5 B2: Aps = note 6 B1: Hp = note 7 B0: Hue = note 8

note 1:

Tub

0 = 16:9 Tube size 1 = 4:3 Tube size

note 2:

Z.Def

0 = 16:9 mode default 1 = 4:3 mode default

note 3:

IfI

0 = IF I 39.5 MHz Great Britain I , Only UHF Tuner 1 = IF I 38.9 MHz Ireland I+ , Standard Tuner

note 4:

IfD

0 = IF DK 38.0 MHz 1 = IF DK 38.9 MHz

Page 31

note 5:

IfM

0 = IF M,N 45.75 MHz S&N American Models , Tuner UV1336 (Only Pal M/N, Ntsc M) 1 = IF M,N 38.9 MHz Euro M,N Models , Standard Tuner

Note 6:

Aps ( Only for PLL )

0 = A.P.S. done 1 = A.P.S. set

note 7:

0 = No headphone 1 = Headphone available

note 8:

Hue

0 = No hue 1 = Hue available

Option 9. Standard Available

B7: NM = note 1 B6: PN = note 1 B5: PM = note 1 B4: K1 = note 1 B3: L = note 1 B2: I = note 1 B1: DK = note 1 B0: BG = note 1

note 1:

0 = Standard not supported 1 = Standard available

Page 32

Option 10. Scart , Combfilter, Teletext Language

B7: TXL2 = note 1 B6: TXL1 = note 1 B5: TXL0 = note 1 B4: Com = note 2 B3: Svh = note 3 B2: Fro = note 4 B1: Sc2 = note 5 B0: Sc1 = note 6

note 1: TXL2,TXL1,TXL0: 000 = WEST

, {ENGLISH}, {FRENCH}, {SCAND }, {CZECH }, {GERMAN}, {SPANISH}, {ITALIAN}, {ENGLISH }

001 = WEST-EAST{POLISH }, {FRENCH}, {SCAND }, {CZECH }, {GERMAN}, {SERBIAN}, {ITALIAN}, {RUMANIAN} 010 = WEST-TR{ENGLISH}, {FRENCH}, {SCAND }, {TURKISH}, {GERMAN}, {SPANISH}, {ITALIAN}, {GREEK } 011 = EAST (Cyrillic) {ENGLISH}, {RUSSIAN},{HUNGARIAN},{CZECH }, {GERMAN},{UKRAINIAN},{LETTISH}, {RUMANIAN} 100 = ARABIC{ENGLISH}, {FRENCH} ,{ENGLISH }, {ENGLISH}, {ENGLISH},{HEBREW}, {ENGLISH}, {ARABIC } 101 = -110 = -111 = --

note 2:

0 = Comb filter not supported 1 = Comb filter available

note 3:

0 = S-VHS not supported 1 = S-VHS available

note 4:

0 = Front/Back AV (AV-3) not supported 1 = Front/Back AV (AV-3) available

note 5:

0 = Scart 2 not supported 1 = Scart 2 available

note 6:

0 = Scart 1 not supported 1 = Scart 1 available

Page 33

Option 11. Pll tuner control 1 byte

B7: b7 = note 1 B6: b6 = note 1 B5: b5 = note 1 B4: b4 = note 1 B3: b3 = note 1 B2: b2 = note 1 B1: b1 = note 1 B0: b0 = note 1

note 1 :

Pll tuner control 1 byte

b7 b6 b5 b4 b3 b2 b1 b0

Philips UV1316MK2 1 0 0 0 1 1 1 0 Alps TELE9X062A 1 0 0 0 1 1 1 0 Samsung TEXX2949PG28A 1 0 0 0 1 1 1 0 Siel PT060 1 0 0 0 1 1 1 0 Temic 5001PH5-3X0003 1 0 0 0 1 1 1 0 Thomson CTT5020 1 0 0 0 1 1 1 0

Option 12. Pll tuner control 2 low byte

B7: b7 = note 1 B6: b6 = note 1 B5: b5 = note 1 B4: b4 = note 1 B3: b3 = note 1 B2: b2 = note 1 B1: b1 = note 1 B0: b0 = note 1

note 1 :

Pll tuner contr ol 2 low byte

b7 b6 b5 b4 b3 b2 b1 b0

Philips UV1316MK2 1 0 1 0 0 0 0 1 Alps TELE9X062A 0 0 0 0 0 0 0 1 Samsung TEXX2949PG28A 0 0 0 0 0 0 0 1 Siel PT060 0 1 1 0 0 0 0 0 Temic 5001PH5-3X0003 0 0 0 0 0 0 1 0 Thomson CTT5020 0 0 0 0 0 0 1 1

Page 34

Option 13. Pll tuner control 2 mid byte

B7: b7 = note 1 B6: b6 = note 1 B5: b5 = note 1 B4: b4 = note 1 B3: b3 = note 1 B2: b2 = note 1 B1: b1 = note 1 B0: b0 = note 1

note 1 :

Pll tuner control 2 mid byte

b7 b6 b5 b4 b3 b2 b1 b0

Philips UV1316MK2 1 0 0 1 0 0 1 0 Alps TELE9X062A 0 0 0 0 0 0 1 0 Samsung TEXX2949PG28A 0 0 0 0 0 0 1 0 Siel PT060 0 1 0 1 0 0 0 0 Temic 5001PH5-3X0003 0 0 0 0 0 1 0 0 Thomson CTT5020 0 0 0 0 0 1 1 0

Option 14. Pll tuner control 2 high byte

B7: b7 = note 1 B6: b6 = note 1 B5: b5 = note 1 B4: b4 = note 1 B3: b3 = note 1 B2: b2 = note 1 B1: b1 = note 1 B0: b0 = note 1

note 1 :

Pll tuner control 2 high byte

b7 b6 b5 b4 b3 b2 b1 b0

Philips UV1316MK2 0 0 1 1 0 1 0 0 Alps TELE9X062A 0 0 0 0 1 0 0 0 Samsung TEXX2949PG28A 0 0 0 0 1 0 0 0 Siel PT060 0 0 1 1 0 0 0 0 Temic 5001PH5-3X0003 0 0 0 0 0 0 0 1 Thomson CTT5020 1 0 0 0 0 1 0 1

Page 35

Option 15. Pll tuner VHF LOW - VHF HIGH crossover low byte

B7: b7 = note 1 B6: b6 = note 1 B5: b5 = note 1 B4: b4 = note 1 B3: b3 = note 1 B2: b2 = note 1 B1: b1 = note 1 B0: b0 = note 1

note 1 :

Pll tuner VHF LOW - VHF HIGH crossover low byte

b7 b6 b5 b4 b3 b2 b1 b0

Philips UV1316MK2 0 0 0 0 1 0 1 0 (0A hex) Alps TELE9X062A 0 0 0 0 0 0 0 0 Samsung TEXX2949PG28A 0 0 0 0 1 0 0 0 Siel PT060 0 0 0 0 0 0 0 0 Temic 5001PH5-3X0003 0 0 0 0 0 0 0 0 Thomson CTT5020 1 0 1 0 1 0 1 0 (AA hex)

Option 16. Pll tuner VHF LOW - VHF HIGH crossover high byte

B7: b7 = note 1 B6: b6 = note 1 B5: b5 = note 1 B4: b4 = note 1 B3: b3 = note 1 B2: b2 = note 1 B1: b1 = note 1 B0: b0 = note 1

note 1 :

Pll tuner VHF LOW - VHF HIGH crossover high byte

b7 b6 b5 b4 b3 b2 b1 b0

Philips UV1316MK2 0 0 0 0 1 1 0 0 (0C hex) Alps TELE9X062A 0 0 0 0 0 0 0 0 Samsung TEXX2949PG28A 0 0 0 0 1 1 0 1 Siel PT060 0 0 0 0 0 0 0 0 Temic 5001PH5-3X0003 0 0 0 0 0 0 0 0 Thomson CTT5020 0 0 0 0 1 0 0 1 (09 hex)

Page 36

Option 17. Pll tuner VHF HIGH - UHF crossover low byte

B7: b7 = note 1 B6: b6 = note 1 B5: b5 = note 1 B4: b4 = note 1 B3: b3 = note 1 B2: b2 = note 1 B1: b1 = note 1 B0: b0 = note 1

note 1 :

Pll tuner VHF HIGH - UHF crossover low byte

b7 b6 b5 b4 b3 b2 b1 b0

Philips UV1316MK2 1 1 1 0 0 0 1 0 (E2 hex) Alps TELE9X062A 0 0 0 0 0 0 0 0 Samsung TEXX2949PG28A 1 0 1 0 0 0 1 0 Siel PT060 0 0 0 0 0 0 0 0 Temic 5001PH5-3X0003 0 0 0 0 0 0 0 0 Thomson CTT5020 1 0 1 0 0 0 1 0 (A2 hex)

Option 18. Pll tuner VHF HIGH - UHF crossover high byte

B7: b7 = note 1 B6: b6 = note 1 B5: b5 = note 1 B4: b4 = note 1 B3: b3 = note 1 B2: b2 = note 1 B1: b1 = note 1 B0: b0 = note 1

note 1 :

Pll tuner VHF HIGH - UHF crossover high byte

b7 b6 b5 b4 b3 b2 b1 b0

Philips UV1316MK2 0 0 0 1 1 1 1 0 (1D hex) Alps TELE9X062A 0 0 0 0 0 0 0 0 Samsung TEXX2949PG28A 0 0 0 1 1 1 1 0 Siel PT060 0 0 0 0 0 0 0 0 Temic 5001PH5-3X0003 0 0 0 0 0 0 0 0 Thomson CTT5020 0 0 0 1 1 0 1 1 (1B hex)

Page 37

Option 19. PIP Pll tuner control 1 byte

B7: b7 = note 1 B6: b6 = note 1 B5: b5 = note 1 B4: b4 = note 1 B3: b3 = note 1 B2: b2 = note 1 B1: b1 = note 1 B0: b0 = note 1

note 1 :

Pll tuner control 1 byte

b7 b6 b5 b4 b3 b2 b1 b0

Philips UV1316MK2 1 0 0 0 1 1 1 0 Alps TELE9X062A 1 0 0 0 1 1 1 0 Samsung TEXX2949PG28A 1 0 0 0 1 1 1 0 Siel PT060 1 0 0 0 1 1 1 0 Temic 5001PH5-3X0003 1 0 0 0 1 1 1 0 Thomson CTT5020 1 0 0 0 1 1 1 0

Option 20. PIP Pll tuner control 2 low byte

B7: b7 = note 1 B6: b6 = note 1 B5: b5 = note 1 B4: b4 = note 1 B3: b3 = note 1 B2: b2 = note 1 B1: b1 = note 1 B0: b0 = note 1

note 1 :

Pll tuner control 2 low byte

b7 b6 b5 b4 b3 b2 b1 b0

Philips UV1316MK2 1 0 1 0 0 0 0 1 Alps TELE9X062A 0 0 0 0 0 0 0 1 Samsung TEXX2949PG28A 0 0 0 0 0 0 0 1 Siel PT060 0 1 1 0 0 0 0 0 Temic 5001PH5-3X0003 0 0 0 0 0 0 1 0 Thomson CTT5020 0 0 0 0 0 0 1 1

Page 38

Option 21. PIP Pll tuner control 2 mid byte

B7: b7 = note 1 B6: b6 = note 1 B5: b5 = note 1 B4: b4 = note 1 B3: b3 = note 1 B2: b2 = note 1 B1: b1 = note 1 B0: b0 = note 1

note 1 :

Pll tuner control 2 mid byte

b7 b6 b5 b4 b3 b2 b1 b0

Philips UV1316MK2 1 0 0 1 0 0 1 0 Alps TELE9X062A 0 0 0 0 0 0 1 0 Samsung TEXX2949PG28A 0 0 0 0 0 0 1 0 Siel PT060 0 1 0 1 0 0 0 0 Temic 5001PH5-3X0003 0 0 0 0 0 1 0 0 Thomson CTT5020 0 0 0 0 0 1 1 0

Option 22. PIP Pll tuner control 2 high byte

B7: b7 = note 1 B6: b6 = note 1 B5: b5 = note 1 B4: b4 = note 1 B3: b3 = note 1 B2: b2 = note 1 B1: b1 = note 1 B0: b0 = note 1

note 1 :

Pll tuner control 2 high byte

b7 b6 b5 b4 b3 b2 b1 b0

Philips UV1316MK2 0 0 1 1 0 1 0 0 Alps TELE9X062A 0 0 0 0 1 0 0 0 Samsung TEXX2949PG28A 0 0 0 0 1 0 0 0 Siel PT060 0 0 1 1 0 0 0 0 Temic 5001PH5-3X0003 0 0 0 0 0 0 0 1 Thomson CTT5020 1 0 0 0 0 1 0 1

Page 39

Option 23. PIP Pll tuner VHF LOW - VHF HIGH crossover low byte

B7: b7 = note 1 B6: b6 = note 1 B5: b5 = note 1 B4: b4 = note 1 B3: b3 = note 1 B2: b2 = note 1 B1: b1 = note 1 B0: b0 = note 1

note 1 :

Pll tuner VHF LOW - VHF HIGH crossover low byte

b7 b6 b5 b4 b3 b2 b1 b0

Option 24. PIP Pll tuner VHF LOW - VHF HIGH crossover high byte

B7: b7 = note 1 B6: b6 = note 1 B5: b5 = note 1 B4: b4 = note 1 B3: b3 = note 1 B2: b2 = note 1 B1: b1 = note 1 B0: b0 = note 1

note 1 :

Pll tuner VHF LOW - VHF HIGH crossover high byte

b7 b6 b5 b4 b3 b2 b1 b0

Page 40

Option 25. PIP Pll tuner VHF HIGH - UHF crossover low byte

B7: b7 = note 1 B6: b6 = note 1 B5: b5 = note 1 B4: b4 = note 1 B3: b3 = note 1 B2: b2 = note 1 B1: b1 = note 1 B0: b0 = note 1

note 1 :

Pll tuner VHF HIGH - UHF crossover low byte

b7 b6 b5 b4 b3 b2 b1 b0

Option 26. PIP Pll tuner VHF HIGH - UHF crossover high byte

B7: b7 = note 1 B6: b6 = note 1 B5: b5 = note 1 B4: b4 = note 1 B3: b3 = note 1 B2: b2 = note 1 B1: b1 = note 1 B0: b0 = note 1

note 1 :

Pll tuner VHF HIGH - UHF crossover high byte

b7 b6 b5 b4 b3 b2 b1 b0

Page 41

Option 27. LANGUAGE AVAILABLE 1

B7: L7 = DANISH B6: L6 = SWEDISH B5: L5 = ITALIAN B4: L4 = PORTUGUESE B3: L3 = SPANISH B2: L2 = FRENCH B1: L1 = GERMAN B0: L0 = ENGLISH

1: Language available 0: Language not available

Option 28. LANGUAGE AVAILABLE 2

B7: L15 = RUSSIA, B6: L14 = BULGARIAN, B5: L13 = RUMANIAN, B4: L12 = CROATIC, B3: L11 = POLISH B2: L10 = CZECH B1: L9 = HUNGARY B0: L8 = TURKEY

1: Language available 0: Language not available

Option 29. LANGUAGE AVAILABLE 3 and Zoom Mode Available

B7: ZSP = SUPER ZOOM MODE B6: ZSB = SUBTITLE ZOOM MODE B5: ZCN = CINEMA ZOOM MODE B4: b4 = x B3: L19 = Not used B2: L18 = Not used B1: L17 = ARABIC B0: L16 = HEBREW

1: Available 0: Not available

Option 30. MENU COLOR SELECTION HEADER/BOTTOM BACKGROUND

B7: b7 = TRANSPARENT B6: . = B5: b5 = note 1 B4: b4 = note 1 B3: b3 = note 1 B2: b2 = note 1 B1: b1 = note 1 B0: b0 = note 1

note 1 :

b7 b6 b5 b4 b3 b2 b1 b0

default 0 0 0 0 0 1 0 0 blue

Page 42

Option 31. MENU COLOR SELECTION HEADER FOREGROUND

B7: b7 = TRANSPARENT B6: . = B5: b5 = note 1 B4: b4 = note 1 B3: b3 = note 1 B2: b2 = note 1 B1: b1 = note 1 B0: b0 = note 1

note 1 :

b7 b6 b5 b4 b3 b2 b1 b0

default 0 0 0 0 0 1 1 1 white

Option 32. MENU COLOR SELECTION ITEMS BACKGROUND

B7: b7 = TRANSPARENT B6: . = B5: b5 = note 1 B4: b4 = note 1 B3: b3 = note 1 B2: b2 = note 1 B1: b1 = note 1 B0: b0 = note 1

note 1 :

b7 b6 b5 b4 b3 b2 b1 b0

default 0 0 1 1 0 0 1 0 cyan

Option 33. MENU COLOR SELECTION ITEMS FOREGROUND

B7: b7 = TRANSPARENT B6: . = B5: b5 = note 1 B4: b4 = note 1 B3: b3 = note 1 B2: b2 = note 1 B1: b1 = note 1 B0: b0 = note 1

note 1 :

b7 b6 b5 b4 b3 b2 b1 b0

default 0 0 0 0 1 0 0 0 black

Option 34. MENU COLOR SELECTION CURSOR BACKGROUND

B7: b7 = TRANSPARENT B6: . = B5: b5 = note 1 B4: b4 = note 1 B3: b3 = note 1 B2: b2 = note 1 B1: b1 = note 1 B0: b0 = note 1

note 1 :

b7 b6 b5 b4 b3 b2 b1 b0

default 0 0 0 0 0 1 0 0 blue

Page 43

Option 35. MENU COLOR SELECTION CURSOR FOREGROUND

B7: b7 = TRANSPARENT B6: . = B5: b5 = note 1 B4: b4 = note 1 B3: b3 = note 1 B2: b2 = note 1 B1: b1 = note 1 B0: b0 = note 1

note 1 :

b7 b6 b5 b4 b3 b2 b1 b0

default 0 0 0 0 0 1 1 1 white

Option 36. MENU COLOR SELECTION BOTTOM FOREGROUND

B7: b7 = TRANSPARENT B6: . = B5: b5 = note 1 B4: b4 = note 1 B3: b3 = note 1 B2: b2 = note 1 B1: b1 = note 1 B0: b0 = note 1

note 1 :

b7 b6 b5 b4 b3 b2 b1 b0

default 0 0 0 0 0 1 1 1 white

Option 37. MENU COLOR SELECTION LISTBOX FOREGROUND

B7: b7 = TRANSPARENT B6: . = B5: b5 = note 1 B4: b4 = note 1 B3: b3 = note 1 B2: b2 = note 1 B1: b1 = note 1 B0: b0 = note 1

note 1 :

b7 b6 b5 b4 b3 b2 b1 b0

default 0 0 0 0 0 0 0 1 red

Option 38. TV TELETEXT MODE SELECTION, Child Lock, Standard, Equalizer, Country

B7: B7 = x B6: C = note 6 B5: LM = note 5 B4: EQ = note 4 B3: St = note 3 B2: CL = note 2 B1: T1 = note 1 B0: T0 = note 1

note 1:

Teletext selection

Page 44

T1, T0:

0,1 = No TV Text 0,0 = Simple TV Text ( One page ) 1,0 = Fasttext/Toptext TV Text ( Eight pages)

note 2 :

ST = Child Lock

0 = Off 1 = On (Active)

note 3 :

St = Standard available

0 = Standard not available 1 = Standard available

note 4 :

EQ = Equalizer available

0 = Equalizer not available 1 = Equalizer available

note 5 :

EQ = List Mode available

0 = List Mode not available 1 = List Mode available

note 6 :

EQ = Country Line available

0 = Country Line not available 1 = Country Line available

Option 39. PERSONAL PREFERANS EQUALIZER BAND 1

B7: b7 = note 1 B6: b6 = note 1 B5: b5 = note 1 B4: b4 = note 1 B3: b3 = note 1 B2: b2 = note 1 B1: b1 = note 1 B0: b0 = note 1

note 1 :

b7 b6 b5 b4 b3 b2 b1 b0

EQUALIZER BAND 1 0 0 0 0 0 1 1 0

Option 40. PERSONAL PREFERANS EQUALIZER BAND 2

B7: b7 = note 1

Page 45

B6: b6 = note 1 B5: b5 = note 1 B4: b4 = note 1 B3: b3 = note 1 B2: b2 = note 1 B1: b1 = note 1 B0: b0 = note 1

note 1 :

b7 b6 b5 b4 b3 b2 b1 b0

EQUALIZER BAND 2 0 0 0 0 0 1 1 0

Option 41. PERSONAL PREFERANS EQUALIZER BAND 3

B7: b7 = note 1 B6: b6 = note 1 B5: b5 = note 1 B4: b4 = note 1 B3: b3 = note 1 B2: b2 = note 1 B1: b1 = note 1 B0: b0 = note 1

note 1 :

b7 b6 b5 b4 b3 b2 b1 b0

EQUALIZER BAND 3 0 0 0 0 0 1 1 0

Option 42. PERSONAL PREFERANS EQUALIZER BAND 4

B7: b7 = note 1 B6: b6 = note 1 B5: b5 = note 1 B4: b4 = note 1 B3: b3 = note 1 B2: b2 = note 1 B1: b1 = note 1 B0: b0 = note 1

note 1 :

b7 b6 b5 b4 b3 b2 b1 b0

EQUALIZER BAND 4 0 0 0 0 0 1 1 0

Option 43. PERSONAL PREFERANS EQUALIZER BAND 5

B7: b7 = note 1 B6: b6 = note 1 B5: b5 = note 1 B4: b4 = note 1 B3: b3 = note 1 B2: b2 = note 1 B1: b1 = note 1 B0: b0 = note 1

note 1 :

Page 46

b7 b6 b5 b4 b3 b2 b1 b0

EQUALIZER BAND 5 0 0 0 0 0 1 1 0

Option 44. SOUND EFFECT (STANDARD, MUSIC, SPEECH, JAZZ,PP)

B7: b7 = note 1 B6: b6 = note 1 B5: b5 = note 1 B4: b4 = note 1 B3: b3 = note 1 B2: b2 = note 1 B1: b1 = note 1 B0: b0 = note 1

note 1 :

Option 45. VOLUME OFFSET LEFT

B7: b7 = note 1 B6: b6 = note 1 B5: b5 = note 1 B4: b4 = note 1 B3: b3 = note 1 B2: b2 = note 1 B1: b1 = note 1 B0: b0 = note 1

note 1 :

Option 46. VOLUME OFFSET RIGHT

B7: b7 = note 1 B6: b6 = note 1 B5: b5 = note 1 B4: b4 = note 1 B3: b3 = note 1 B2: b2 = note 1 B1: b1 = note 1 B0: b0 = note 1

note 1 :

Option 47. VOLUME OFFSET CENTER

B7: b7 = note 1 B6: b6 = note 1 B5: b5 = note 1 B4: b4 = note 1 B3: b3 = note 1 B2: b2 = note 1 B1: b1 = note 1 B0: b0 = note 1

note 1 :

Option 48. VOLUME OFFSET REAR

B7: b7 = note 1 B6: b6 = note 1

Page 47

B5: b5 = note 1 B4: b4 = note 1 B3: b3 = note 1 B2: b2 = note 1 B1: b1 = note 1 B0: b0 = note 1

note 1 :

Option 49. SURROUND DELAY

B7: b7 = note 1 B6: b6 = note 1 B5: b5 = note 1 B4: b4 = note 1 B3: b3 = note 1 B2: b2 = note 1 B1: b1 = note 1 B0: b0 = note 1

note 1 :

Option 50. FM PRESCALE

B7: b7 = note 1 B6: b6 = note 1 B5: b5 = note 1 B4: b4 = note 1 B3: b3 = note 1 B2: b2 = note 1 B1: b1 = note 1 B0: b0 = note 1

note 1 :

b7 b6 b5 b4 b3 b2 b1 b0

FM PRESCALE 0 0 0 0 0 1 1 0 (AVL On)

Option 51. NICAM PRESCALE

B7: b7 = note 1 B6: b6 = note 1 B5: b5 = note 1 B4: b4 = note 1 B3: b3 = note 1 B2: b2 = note 1 B1: b1 = note 1 B0: b0 = note 1

note 1 :

b7 b6 b5 b4 b3 b2 b1 b0

NICAM PRESCALE 0 0 0 0 0 1 1 0 (AVL On)

Option 52. SCART PRESCALE and AVL Bit

B7: b7 = note 1 B6: b6 = note 1 B5: b5 = note 1

Page 48

B4: b4 = note 1 B3: b3 = note 1 B2: b2 = note 1 B1: b1 = note 1 B0: b0 = note 1

note 1 :

b7 b6 b5 b4 b3 b2 b1 b0

SCART PRESCALE 0 0 0 0 1 1 0 0 (AVL On)

Option 53. I2S PRESCALE

B7: b7 = note 1 B6: b6 = note 1 B5: b5 = note 1 B4: b4 = note 1 B3: b3 = note 1 B2: b2 = note 1 B1: b1 = note 1 B0: b0 = note 1

note 1 :

b7 b6 b5 b4 b3 b2 b1 b0

I2S PRESCALE 0 0 0 0 0 1 1 0 (AVL On)

Option 54. MSP SCART OUTPUT VOLUME

B7: b7 = note 1 B6: b6 = note 1 B5: b5 = note 1 B4: b4 = note 1 B3: b3 = note 1 B2: b2 = note 1 B1: b1 = note 1 B0: b0 = note 1

note 1 :

b7 b6 b5 b4 b3 b2 b1 b0

MSP SCART OUTPUT VOLUME 0 0 0 0 0 1 1 0 (AVL On)

Option 55. SPEAKER SETUP

B7: b7 = note 1 B6: b6 = note 1 B5: b5 = note 1 B4: b4 = note 1 B3: b3 = note 1 B2: b2 = note 1 B1: b1 = note 1 B0: b0 = note 1

note 1 :

b7 b6 b5 b4 b3 b2 b1 b0

Page 49

SPEAKER SETUP (L/R, L/C/R, L/R/S, L/C/R/S) 0 0 0 0 0 0 0 0 (AVL On)

Option 56. AUDIO OPTIONS

B7: b7 = x B6: b6 = x B5: b5 = x B4: Trs = note 1 B3: Trb = note 2 B2: Bbe = note 3 B1: Spa = note 4 B0: Avl = note 5

note 1 :

Trs = TruSurround

0 = TruSurround not available 1 = TruSurround available

note 2 :

Trb = TruBass

0 = TruBass not available 1 = TruBass available

note 3 :

Bbe = BBE

0 = BBE not available 1 = BBE available

note 4 :

Spa = Spatial Efect available

0 = Spatial Efect not available 1 = Spatial Efect available

note 5 :

Avl = Automatic volume level available

0 = Automatic volume level not available 1 = Automatic volume level available

Option 57. MSP OPTION

B7: b7 = note 1 B6: b6 = note 1 B5: b5 = note 1 B4: b4 = note 1 B3: b3 = note 1 B2: b2 = note 1 B1: b1 = note 1 B0: b0 = note 1

Page 50

note 1 :

RESERVED FOR MSP

Option 58. MSP OPTION

B7: b7 = note 1 B6: b6 = note 1 B5: b5 = note 1 B4: b4 = note 1 B3: b3 = note 1 B2: b2 = note 1 B1: b1 = note 1 B0: b0 = note 1

note 1 : RESERVED FOR MSP

Option 59. MSP OPTION

B7: b7 = note 1 B6: b6 = note 1 B5: b5 = note 1 B4: b4 = note 1 B3: b3 = note 1 B2: b2 = note 1 B1: b1 = note 1 B0: b0 = note 1

note 1 : RESERVED FOR MSP

Option 60. Power Delay Time

B7: L7 = note 1 B6: L6 = note 1 B5: L5 = note 1 B4: L4 = note 1 B3: L3 = note 1 B2: L2 = note 1 B1: L1 = note 1 B0: L0 = note 1

Note 1: L7 L6 L5 L4 L3 L2 L1 L0 Default Value : 0 0 0 0 0 0 1 0 1000 MSEC = 1SN

L7L6L5L4L3L2L1L0

00000000

= 0 msec

00000001

= 25 msec

00000010

= 50 msec

00000011

= 75 msec

00000100

= 100 msec

00000101

= 125 msec

00000110

= 150 msec

00000111

= 175 msec

00001000

= 200 msec

00001001

= 225 msec

00001010

= 250 msec

00001011

= 275 msec

00001100

= 300 msec

Page 51

00001101

= 325 msec

00001110

= 350 msec

00001111

= 375 msec

00010000

= 400 msec

00010001

= 425 msec

00010010

= 450 msec

00010011

= 475 msec

00010100

= 500 msec

00010101

= 525 msec

00010110

= 550 msec

00010111

= 575 msec

00011000

= 600 msec

00011001

= 625 msec

00011010

= 650 msec

00011011

= 675 msec

00011100

= 700 msec

00011101

= 725 msec

00011110

= 750 msec

00011111

= 775 msec

00100000

= 800 msec

00100001

= 825 msec

00100010

= 850 msec

00100011

= 875 msec

00100100

= 900 msec

00100101

= 925 msec

00100110

= 950 msec

00100111

= 975 msec

00101000

= 1000 msec

00101001

= 1025 msec

00101010

= 1050 msec

00101011

= 1075 msec

00101100

= 1100 msec

00101101

= 1125 msec

00101110

= 1150 msec

00101111

= 1175 msec

00110000

= 1200 msec

00110001

= 1225 msec

00110010

= 1250 msec

00110011

= 1275 msec

00110100

= 1300 msec

00110101

= 1325 msec

00110110

= 1350 msec

00110111

= 1375 msec

00111000

= 1400 msec

00111001

= 1425 msec

00111010

= 1450 msec

00111011

= 1475 msec

00111100

= 1500 msec

00111101

= 1525 msec

00111110

= 1550 msec

00111111

= 1575 msec

01000000

= 1600 msec

01000001

= 1625 msec

01000010

= 1650 msec

01000011

= 1675 msec

01000100

= 1700 msec

01000101

= 1725 msec

01000110

= 1750 msec

01000111

= 1775 msec

01001000

= 1800 msec

Page 52

01001001

= 1825 msec

01001010

= 1850 msec

01001011

= 1875 msec

01001100

= 1900 msec

01001101

= 1925 msec

01001110

= 1950 msec

01001111

= 1975 msec

01010000

= 2000 msec

01010001

= 2025 msec

01010010

= 2050 msec

01010011

= 2075 msec

01010100

= 2100 msec

01010101

= 2125 msec

01010110

= 2150 msec

01010111

= 2175 msec

01011000

= 2200 msec

01011001

= 2225 msec

01011010

= 2250 msec

01011011

= 2275 msec

01011100

= 2300 msec

01011101

= 2325 msec

01011110

= 2350 msec

01011111

= 2375 msec

01100000

= 2400 msec

01100001

= 2425 msec

01100010

= 2450 msec

01100011

= 2475 msec

01100100

= 2500 msec

01100101

= 2525 msec

01100110

= 2550 msec

01100111

= 2575 msec

01101000

= 2600 msec

01101001

= 2625 msec

01101010

= 2650 msec

01101011

= 2675 msec

01101100

= 2700 msec

01101101

= 2725 msec

01101110

= 2750 msec

01101111

= 2775 msec

01110000

= 2800 msec

01110001

= 2825 msec

01110010

= 2850 msec

01110011

= 2875 msec

01110100

= 2900 msec

01110101

= 2925 msec

01110110

= 2950 msec

01110111

= 2975 msec

01111000

= 3000 msec

01111001

= 3025 msec

01111010

= 3050 msec

01111011

= 3075 msec

01111100

= 3100 msec

01111101

= 3125 msec

01111110

= 3150 msec

01111111

= 3175 msec

10000000

= 3200 msec

10000001

= 3225 msec

10000010

= 3250 msec

10000011

= 3275 msec

10000100

= 3300 msec

Page 53

10000101

= 3325 msec

10000110

= 3350 msec

10000111

= 3375 msec

10001000

= 3400 msec

10001001

= 3425 msec

10001010

= 3450 msec

10001011

= 3475 msec

10001100

= 3500 msec

10001101

= 3525 msec

10001110

= 3550 msec

10001111

= 3575 msec

10010000

= 3600 msec

10010001

= 3625 msec

10010010

= 3650 msec

10010011

= 3675 msec

10010100

= 3700 msec

10010101

= 3725 msec

10010110

= 3750 msec

10010111

= 3775 msec

10011000

= 3800 msec

10011001

= 3825 msec

10011010

= 3850 msec

10011011

= 3875 msec

10011100

= 3900 msec

10011101

= 3925 msec

10011110

= 3950 msec

10011111

= 3975 msec

10100000

= 4000 msec

10100001

= 4025 msec

10100010

= 4050 msec

10100011

= 4075 msec

10100100

= 4100 msec

10100101

= 4125 msec

10100110

= 4150 msec

10100111

= 4175 msec

10101000

= 4200 msec

10101001

= 4225 msec

10101010

= 4250 msec

10101011

= 4275 msec

10101100

= 4300 msec

10101101

= 4325 msec

10101110

= 4350 msec

10101111

= 4375 msec

10110000

= 4400 msec

10110001

= 4425 msec

10110010

= 4450 msec

10110011

= 4475 msec

10110100

= 4500 msec

10110101

= 4525 msec

10110110

= 4550 msec

10110111

= 4575 msec

10111000

= 4600 msec

10111001

= 4625 msec

10111010

= 4650 msec

10111011

= 4675 msec

10111100

= 4700 msec

10111101

= 4725 msec

10111110

= 4750 msec

10111111

= 4775 msec

11000000

= 4800 msec

Page 54

11000001

= 4825 msec

11000010

= 4850 msec

11000011

= 4875 msec

11000100

= 4900 msec

11000101

= 4925 msec

11000110

= 4950 msec

11000111

= 4975 msec

11001000

= 5000 msec

11001001

= 5025 msec

11001010

= 5050 msec

11001011

= 5075 msec

11001100

= 5100 msec

11001101

= 5125 msec

11001110

= 5150 msec

11001111

= 5175 msec

11010000

= 5200 msec

11010001

= 5225 msec

11010010

= 5250 msec

11010011

= 5275 msec

11010100

= 5300 msec

11010101

= 5325 msec

11010110

= 5350 msec

11010111

= 5375 msec

11011000

= 5400 msec

11011001

= 5425 msec

11011010

= 5450 msec

11011011

= 5475 msec

11011100

= 5500 msec

11011101

= 5525 msec

11011110

= 5550 msec

11011111

= 5575 msec

11100000

= 5600 msec

11100001

= 5625 msec

11100010

= 5650 msec

11100011

= 5675 msec

11100100

= 5700 msec

11100101

= 5725 msec

11100110

= 5750 msec

11100111

= 5775 msec

11101000

= 5800 msec

11101001

= 5825 msec

11101010

= 5850 msec

11101011

= 5875 msec

11101100

= 5900 msec

11101101

= 5925 msec

11101110

= 5950 msec

11101111

= 5975 msec

11110000

= 6000 msec

11110001

= 6025 msec

11110010

= 6050 msec

11110011

= 6075 msec

11110100

= 6100 msec

11110101

= 6125 msec

11110110

= 6150 msec

11110111

= 6175 msec

11111000

= 6200 msec

11111001

= 6225 msec

11111010

= 6250 msec

11111011

= 6275 msec

11111100

= 6300 msec

Page 55

11111101

= 6325 msec

11111110

= 6350 msec

11111111

= 6375 msec

Page 56

13 11 8 6 15 14 13 10 14 13 12 13 10 15 11 3

R G B

R G B R G B R

G B

16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31

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

9 4 2 2 13 11 6 2 11 7 3 5 2 9 0 0

0 15 0 15 0 15 0 15 0 7 0 7 0 7 0 7

0 0 15 15 0 0 15 15 0 0 7 7 0 0 7 7

0 0 0 0 15 15 15 15 0 0 0 0 7 7 7 7

32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47

5 11 6 8 2 10 3 0 0 12 6 0 0 0 15 15

5 15 13 5 5 15 15 15 6 13 9 7 3 1 9 4

0 5 0 15 0 13 10 7 3 15 15 15 11 8 15 15

48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63

11 5 6 0 0 12 11 13 15 15 13 14 11 7 5 15

0 8 14 12 8 12 8 8 11 4 0 14 11 0 5 7

11015139151515131071411153

Page 57

76543210

Bit Positions

76543210

00000000

00100000

00000001

00100001

00000010

00100010

00000011

00100011

00000100

00100100

00000101

00100101

00000110

00100110

00000111

00100111

00001000

00101000

00001001

00101001

00001010

00101010

00001011

00101011

00001100

00101100

00001101

00101101

00001110

00101110

00001111

00101111

00010000

00110000

00010001

00110001

00010010

00110010

00010011

00110011

00010100

00110100

00010101

00110101

00010110

00110110

00010111

00110111

00011000

00111000

00011001

00111001

00011010

00111010

00011011

00111011

00011100

00111100

00011101

00111101

00011110

00111110

00011111

Colour Code

00111111

FINISHED OPTION TABLE

Page 58

Option 61. DUAL LIMIT

B7: b7 = note 1 B6: b6 = note 1 B5: b5 = note 1 B4: b4 = note 1 B3: b3 = note 1 B2: b2 = note 1 B1: b1 = note 1 B0: b0 = note 1

note 1 : Dual Identification Limit related to reading DFP Register 0018h –Stereo Detection Register of MSP 34xxD in German dual transmissions.

b7 b6 b5 b4 b3 b2 b1 b0

DUAL LIMIT 0 0 0 1 0 0 1 0 (AVL On and Off)

Option 62. STEREO LIMIT

B7: b7 = note 1 B6: b6 = note 1 B5: b5 = note 1 B4: b4 = note 1 B3: b3 = note 1 B2: b2 = note 1 B1: b1 = note 1 B0: b0 = note 1

note 1 :

Stereo Identification Limit related to reading DFP Register 0018h – Stereo Detection Register of MSP34xxD in German Stereo Transmissions.

b7 b6 b5 b4 b3 b2 b1 b0

STEREO LIMIT 1 1 1 1 0 0 0 0 (AVL ON and Off)

Page 59

Option 63. AUTO SWITCH THRESHOLD

B7: b7 = note 1 B6: b6 = note 1 B5: b5 = note 1 B4: b4 = note 1 B3: b3 = note 1 B2: b2 = note 1 B1: b1 = note 1 B0: b0 = note 1

note 1 : Auto FM_AM : FP Register 21h Automatic switching with external threshold B2, B1, B0 : Bit10, Bit9,Bit8 of the register B7, B6, B5, B4,B3 : Bit7,Bit6, Bit5, Bit4, Bit3 of the register (Bit2,Bit1 of the register is always 0 and Bit0 of the register is always 1.)

b7 b6 b5 b4 b3 b2 b1 b0

AUTO SWITCH THRESHOLD 0 1 0 0 0 0 1 1 (AVL On and off, Threshold 800) 0 1 ???

Option 64. DFP ADDRESS

B7: b7 = note 1 B6: b6 = note 1 B5: b5 = note 1 B4: b4 = note 1 B3: b3 = note 1 B2: b2 = note 1 B1: b1 = note 1 B0: b0 = note 1

note 1 : Write to any of the DFP Registers when the power is on: If this byte or option is zero, you do not use this option. If you input a number to this option, you write the following bytes to the register addressed by that number.

b7 b6 b5 b4 b3 b2 b1 b0

DFP ADDRESS 0 0 0 0 0 0 0 0 (Under normal conditions)

Page 60

ADJUST 00-65

ADJUST 00 = White Point RED ADJUST 01 = White Point GREEN ADJUST 02 = White Point BLUE ADJUST 03 = AGC ADJUST 04 = IF-PLL Negative ADJUST 05 = IF-PLL Positive ADJUST 06 = Y-Delay PAL ADJUST 07 = Y-Delay SECAM ADJUST 08 = Y-Delay NTSC ADJUST 09 = Y-Delay OTHER

ADJUST 10 = 4:3 Vertical Zoom ADJUST 11 = 4:3 Vertical Scroll ADJUST 12 = 4:3 Horizontal Shift ADJUST 13 = 4:3 Vertical Slope ADJUST 14 = 4:3 Vertical Amplitude ADJUST 15 = 4:3 S-correction ADJUST 16 = 4:3 Vertical Shift ADJUST 17 = 4:3 EW Width ADJUST 18 = 4:3 EW Parabola Width ADJUST 19 = 4:3 EW Corner Parabola ADJUST 20 = 4:3 EW Trapezium

ADJUST 21 = 16:9 Vertical Zoom ADJUST 22 = 16:9 Vertical Scroll ADJUST 23 = 16:9 Horizontal Shift ADJUST 24 = 16:9 Vertical Slope ADJUST 25 = 16:9 Vertical Amplitude ADJUST 26 = 16:9 S-correction ADJUST 27 = 16:9 Vertical Shift ADJUST 28 = 16:9 EW Width ADJUST 29 = 16:9 EW Parabola Width ADJUST 30 = 16:9 EW Corner Parabola ADJUST 31 = 16:9 EW Trapezium

ADJUST 32 = Subtitle Vertical Zoom ADJUST 33 = Subtitle Vertical Scroll ADJUST 34 = Subtitle Horizontal Shift ADJUST 35 = Subtitle Vertical Slope ADJUST 36 = Subtitle Vertical Amplitude ADJUST 37 = Subtitle S-correction ADJUST 38 = Subtitle Vertical Shift ADJUST 39 = Subtitle EW Width ADJUST 40 = Subtitle EW Parabola Width ADJUST 41 = Subtitle EW Corner Parabola ADJUST 42 = Subtitle EW Trapezium

ADJUST 43 = Super Zoom Vertical Zoom ADJUST 44 = Super Zoom Vertical Scroll ADJUST 45 = Super Zoom Horizontal Shift ADJUST 46 = Super Zoom Vertical Slope ADJUST 47 = Super Zoom Vertical Amplitude ADJUST 48 = Super Zoom S-correction ADJUST 49 = Super Zoom Vertical Shift ADJUST 50 = Super Zoom EW Width

Page 61

ADJUST 51 = Super Zoom EW Parabola Width ADJUST 52 = Super Zoom EW Corner Parabola ADJUST 53 = Super Zoom EW Trapezium

ADJUST 54 = Cinema Vertical Zoom ADJUST 55 = Cinema Vertical Scroll ADJUST 56 = Cinema Horizontal Shift ADJUST 57 = Cinema Vertical Slope ADJUST 58 = Cinema Vertical Amplitude ADJUST 59 = Cinema S-correction ADJUST 60 = Cinema Vertical Shift ADJUST 61 = Cinema EW Width ADJUST 62 = Cinema EW Parabola Width ADJUST 63 = Cinema EW Corner Parabola ADJUST 64 = Cinema EW Trapezium

ADJUST 65 = OSD position

Page 62

CRN Part No. Description C01 VS30000332 CAP SMD 4.7NF 50V K (0805) C02 VS30000332 CAP SMD 4.7NF 50V K (0805) C029 VS30000294 CAP SMD 100NF 50V K (0805) C030 VS30000294 CAP SMD 100NF 50V K (0805) C031 VS30000294 CAP SMD 100NF 50V K (0805) C032 VS30000294 CAP SMD 100NF 50V K (0805) C056 VS30000109 CAP MKT 470NF 63V J C057 VS30000109 CAP MKT 470NF 63V J C059 VS30000300 CAP SMD 1.5NF 50V K 0805 C060 VS30000300 CAP SMD 1.5NF 50V K 0805 C061 VS30000242 CAP SMD 330PF 50V J 0805 C062 VS30000242 CAP SMD 330PF 50V J 0805 C074 VS30000371 CAP EL 22UF 50V M C077 VS30000242 CAP SMD 330PF 50V J 0805 C095 VS30000289 CAP SMD 10NF 50V K R (0805) C102 VS30000345 CAP EL 10UF 50V M C107 VS30000300 CAP SMD 1.5NF 50V K 0805 C108 VS30000312 CAP SMD 22NF 50V K (0805) C109 VS30000332 CAP SMD 4.7NF 50V K (0805) C111 VS30000332 CAP SMD 4.7NF 50V K (0805) C112 VS30000109 CAP MKT 470NF 63V J C116 VS30000082 CAP MKT 15NF 63V J C117 VS30000082 CAP MKT 15NF 63V J C201 VS30000352 CAP EL 100UF 16V M C202 VS30000074 CAP MKT 100NF 63V J C203 VS30000345 CAP EL 10UF 50V M C205 VS30000294 CAP SMD 100NF 50V K (0805) C206 VS30000294 CAP SMD 100NF 50V K (0805) C207 VS30000294 CAP SMD 100NF 50V K (0805) C208 VS30000345 CAP EL 10UF 50V M C209 VS30000345 CAP EL 10UF 50V M C210 VS30000345 CAP EL 10UF 50V M C211 VS30000294 CAP SMD 100NF 50V K (0805) C212 VS30000191 CAP CER 100PF 50V J SL C401 VS30000384 CAP EL 2.2UF 50V M C402 VS30000345 CAP EL 10UF 50V M C403 VS30000074 CAP MKT 100NF 63V J C404 VS30000268 CAP SMD 68PF 50V J (0805) C405 VS30000345 CAP EL 10UF 50V M C406 VS30000313 CAP CER 22NF 50V Z F C407 VS30000384 CAP EL 2.2UF 50V M C409 VS30000294 CAP SMD 100NF 50V K (0805) C410 VS30000345 CAP EL 10UF 50V M C411 VS30000334 CAP SMD 47NF 50V K (0805) C412 VS30000312 CAP SMD 22NF 50V K (0805) C413 VS30000375 CAP EL 220UF 16V M C416 VS30000312 CAP SMD 22NF 50V K (0805) C417 VS30000312 CAP SMD 22NF 50V K (0805) C418 VS30000312 CAP SMD 22NF 50V K (0805) C419 VS30000315 CAP SMD 220NF 25V Z (0805) C421 VS30000220 CAP SMD 22PF 50V J (0805) C422 VS30000220 CAP SMD 22PF 50V J (0805) C423 VS30000322 CAP SMD 3.3NF 50V K (0805) C424 VS30000294 CAP SMD 100NF 50V K (0805) C425 VS30000312 CAP SMD 22NF 50V K (0805) C426 VS30000353 CAP EL 100UF 25V M C427 VS30000294 CAP SMD 100NF 50V K (0805) C428 VS30000345 CAP EL 10UF 50V M C430 VS30000309 CAP SMD 2.2NF 50V K R 0805 C431 VS30000362 CAP EL 1UF 50V M C432 VS30000413 CAP EL 4.7UF 50V M

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CRN Part No. Description C433 VS30000284 CAP SMD 1NF 50V K R (0805) C434 VS30000284 CAP SMD 1NF 50V K R (0805) C435 VS30000074 CAP MKT 100NF 63V J C436 VS30000074 CAP MKT 100NF 63V J C437 VS30000362 CAP EL 1UF 50V M C438 VS30000312 CAP SMD 22NF 50V K (0805) C439 VS30000284 CAP SMD 1NF 50V K R (0805) C440 VS30000345 CAP EL 10UF 50V M C446 VS30000252 CAP SMD 47PF 50V J (0805) C447 VS30000252 CAP SMD 47PF 50V J (0805) C448 VS30000189 CAP SMD 100PF 50V J (0805) C450 VS30000294 CAP SMD 100NF 50V K (0805) C459 VS30000332 CAP SMD 4.7NF 50V K (0805) C465 VS30000300 CAP SMD 1.5NF 50V K 0805 C490 VS30000284 CAP SMD 1NF 50V K R (0805) C497 VS30000300 CAP SMD 1.5NF 50V K 0805 C498 VS30000189 CAP SMD 100PF 50V J (0805) C499 VS30000300 CAP SMD 1.5NF 50V K 0805 C500 VS30000393 CAP EL 3.3UF 50V M C501 VS30000189 CAP SMD 100PF 50V J (0805) C502 VS30000074 CAP MKT 100NF 63V J C503 VS30000074 CAP MKT 100NF 63V J C504 VS30000294 CAP SMD 100NF 50V K (0805) C505 VS30000294 CAP SMD 100NF 50V K (0805) C513 VS30000294 CAP SMD 100NF 50V K (0805) C514 VS30000345 CAP EL 10UF 50V M C516 VS30000371 CAP EL 22UF 50V M C517 VS30000352 CAP EL 100UF 16V M C521 VS30000109 CAP MKT 470NF 63V J C524 VS30000237 CAP SMD 33PF 50V J (0805) C525 VS30000237 CAP SMD 33PF 50V J (0805) C526 VS30000294 CAP SMD 100NF 50V K (0805) C530 VS30000294 CAP SMD 100NF 50V K (0805) C531 VS30000294 CAP SMD 100NF 50V K (0805) C532 VS30000294 CAP SMD 100NF 50V K (0805) C533 VS30000294 CAP SMD 100NF 50V K (0805) C537 VS30000294 CAP SMD 100NF 50V K (0805) C538 VS30000294 CAP SMD 100NF 50V K (0805) C570 VS30000371 CAP EL 22UF 50V M C571 VS30000371 CAP EL 22UF 50V M C572 VS30000371 CAP EL 22UF 50V M C573 VS30000371 CAP EL 22UF 50V M C575 VS30000252 CAP SMD 47PF 50V J (0805) C576 VS30000201 CAP SMD 15PF 50V J (0805) C577 VS30000201 CAP SMD 15PF 50V J (0805) C580 VS30000387 CAP EL 33UF 50V M C583 VS30000294 CAP SMD 100NF 50V K (0805) C590 VS30000294 CAP SMD 100NF 50V K (0805) C596 VS30000289 CAP SMD 10NF 50V K R (0805) C597 VS30000289 CAP SMD 10NF 50V K R (0805) C598 VS30000289 CAP SMD 10NF 50V K R (0805) C599 VS30000334 CAP SMD 47NF 50V K (0805) C601 VS30000355 CAP EL 100UF 50V M C603 VS30000309 CAP SMD 2.2NF 50V K R 0805 C604 VS30000107 CAP MKT 47NF 250V J C605 VS30000075 CAP MKT 100NF 250V K (DC) C606 VS30000388 CAP EL 33UF 160V M C607 VS30000407 CAP EL 470UF 16V M C608 VS30000323 CAP CER 33NF 50V K B C610 VS30000131 CAP MKP 100NF 250V J C611 VS30000174 CAP MKP 7.5NF 1.6KV 3.5%

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CRN Part No. Description C612 VS30000356 CAP EL 100UF 63V M C617 VS30000156 CAP MKP 430NF 250V J C618 VS30000394 CAP EL 3.3UF 160V M C632 VS30000360 CAP EL 1000UF 25V M C660 VS30009208 CAP CER 470PF 1KV K (PULSE) C661 VS30009208 CAP CER 470PF 1KV K (PULSE) C700 VS30000191 CAP CER 100PF 50V J SL C702 VS30000356 CAP EL 100UF 63V M C704 VS30000402 CAP EL 47UF 100V M C705 VS30000071 CAP MKT 10NF 63V J C706 VS30000092 CAP MKT 220NF 63V J C707 VS30000090 CAP MKT 22NF 100V J C708 VS30000284 CAP SMD 1NF 50V K R (0805) C709 VS30000074 CAP MKT 100NF 63V J C715 VS30000284 CAP SMD 1NF 50V K R (0805)

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C801 VS30000084 CAP MKT 150NF 275V M AC P=15

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C802 VS30000084 CAP MKT 150NF 275V M AC P=15 C803 VS30000189 CAP SMD 100PF 50V J (0805) C804 VS30000420 CAP EL 150UF 400V M C806 VS30000342 CAP CER 820PF 50V K B C807 VS30000074 CAP MKT 100NF 63V J C808 VS30000284 CAP SMD 1NF 50V K R (0805) C809 VS30000284 CAP SMD 1NF 50V K R (0805) C811 VS30000161 CAP MKP 47NF 630V J C813 VS30000411 CAP EL 4700UF 16V M C814 VS30000294 CAP SMD 100NF 50V K (0805) C816 VS30000295 CAP CER 100NF 50V Z F C817 VS30000359 CAP EL 1000UF 16V M C819 VS30000295 CAP CER 100NF 50V Z F C821 VS30013533 CAP CER 100PF 1KV K (PULSE) C822 VS30000295 CAP CER 100NF 50V Z F C823 VS30000383 CAP EL 2200UF 25V M C824 VS30013533 CAP CER 100PF 1KV K (PULSE) C825 VS30000295 CAP CER 100NF 50V Z F C826 VS30000383 CAP EL 2200UF 25V M C827 VS30013533 CAP CER 100PF 1KV K (PULSE) C828 VS30000359 CAP EL 1000UF 16V M C829 VS30000404 CAP EL 47UF 160V M (HR) C830 VS30000295 CAP CER 100NF 50V Z F C831 VS30000198 CAP CER 120PF 500V J SL C832 VS30000294 CAP SMD 100NF 50V K (0805) C833 VS30007308 CAP CER 220PF 1KV K (PULSE) C845 VS30000375 CAP EL 220UF 16V M C846 VS30000433 CAP CER 1NF 1KV M B C847 VS30000375 CAP EL 220UF 16V M C848 VS30000353 CAP EL 100UF 25V M C850 VS30000433 CAP CER 1NF 1KV M B C851 VS30000433 CAP CER 1NF 1KV M B C852 VS30000433 CAP CER 1NF 1KV M B C853 VS30000289 CAP SMD 10NF 50V K R (0805) C854 VS30008805 CAP MKT 39NF 63V J C855 VS30000284 CAP SMD 1NF 50V K R (0805)

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C860 VS30000447 CAP CER 4.7NF 4KV M E C890 VS30000396 CAP EL 47UF 16V M

C891 VS30000335 CAP CER 47NF 50V Z F C892 VS30000295 CAP CER 100NF 50V Z F C901 VS30000075 CAP MKT 100NF 250V K (DC) C902 VS30000350 CAP EL 10UF 250V M C903 VS30000434 CAP CER 1NF 2KV K B C904 VS30000319 CAP CER 2.7NF 500V K B CAB111 VS30009829 CABLE 1P R2.6 (8CM)

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CRN Part No. Description CAB200 VS30009850 CABLE 1P R2.6 (6CM) CAB212 VS30009085 CABLE 1P R2.6 35 W/CLIPS CAB433 VS30009849 CABLE 0.6MM BLUE (7CM) CAB700 VS30009851 CABLE 1P R2.6 (35CM) CAB820 VS30009846 CABLE 0.6MM BLUE (4CM) D100 VS30001284 DIODE 1N4148 D201 VS30001284 DIODE 1N4148 D408 VS30001347 DIODE ZENER 8.2V D420 VS30001284 DIODE 1N4148 D500 VS30012412 DIODE ZENER 2.4V SMD D503 VS30001284 DIODE 1N4148 D504 VS30001284 DIODE 1N4148 D505 VS30012412 DIODE ZENER 2.4V SMD D509 VS30001284 DIODE 1N4148 D520 VS30001284 DIODE 1N4148 D521 VS30001284 DIODE 1N4148 D522 VS30001284 DIODE 1N4148 D583 VS30001284 DIODE 1N4148 D601 VS30001318 DIODE BA159 D602 VS30001284 DIODE 1N4148 D603 VS30001284 DIODE 1N4148 D604 VS30001377 DIODE ZENER 33V UZT 33B D605 VS30001318 DIODE BA159 D606 VS30001318 DIODE BA159 D607 VS30001284 DIODE 1N4148 D608 VS30001284 DIODE 1N4148 D609 VS30001318 DIODE BA159 D701 VS30001284 DIODE 1N4148 D801 VS30001329 DIODE 1N4007 D802 VS30001329 DIODE 1N4007 D803 VS30001329 DIODE 1N4007 D804 VS30001329 DIODE 1N4007 D805 VS30001318 DIODE BA159 D807 VS30001318 DIODE BA159 D811 VS30001315 DIODE BYD33D D812 VS30001315 DIODE BYD33D D813 VS30001288 DIODE BYV27-200 D814 VS30001307 DIODE BYW95A D815 VS30001307 DIODE BYW95A D816 VS30007681 DIODE UF5407 D818 VS30001318 DIODE BA159 D819 VS30001349 DIODE ZENER 11V D823 VS30001284 DIODE 1N4148 D826 VS30001318 DIODE BA159 D827 VS30001318 DIODE BA159 D858 VS30001371 DIODE ZENER 5.1V ZPD D864 VS30001285 DIODE 1N4148 SMD D900 VS30001347 DIODE ZENER 8.2V

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F801 VS20000848 FUSE ASSY.TK79-A (2.5A) F801 VS30001731 FUSE 2.5A 250V 5*20MM F801 VS35000136 FUSE HOLDER TK79-A (GRAY) IC100 VS30001524 IC TDA2614 IC401 VS30001575 IC TDA8842/N2 IC501 VS30015255 IC SDA5555 HITACHI IC502 VS20063994 IC 24C08 WP 3.3V Program. UK (C2142N,C2842N/S) IC502 VS20058672 IC 24C08 WP 3.3V Program. UK (C2125S/T)

IC701 VS30001561 IC TDA8356

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IC801 VS30007069 IC TCDT1102G IC802 VS30001499 IC MC44604P IC804 VS30001668 IC LM317T

IC502 VS20064874 IC 24C08 K57?521100202F10 (C2142S)

IC502 VS20058678 IC 24C08 J19¥251100200A10 (CL2125S/T) IC502 VS20063997 IC 24C08 K43¥552100102F10 (CL2842AN/S)

IC502 VS20046722 IC 24C08 D93T521100202C00 (CP2025T) IC502 VS20058618 IC 24C08 J11¥211100200A10 (CP2125S/T) IC502 VS20059188 IC 24C08 J28¥511100102F10 (CP2142AN/S)

IC502 VS20058730 IC 24C08 J17¥512100102F10 (CP2842AN/S)

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CRN Part No. Description IC807 VS30001622 IC 7805 (1A)

IC901 VS30008721 IC TDA6108 J129 VS30001997 FIXED COIL 33UH Q60 J J500 VS30010964 FERRITE BEAT(805) BLM21A601RPT J649 VS30002016 FIXED COIL 150UH Q60 K J810 VS20051395 MD.ASY.PR19Y-11PR19Y(PROTECTION CIR.)90° L001 VS30002016 FIXED COIL 150UH Q60 K L002 VS30010964 FERRITE BEAT(805) BLM21A601RPT L01 VS30001996 FIXED COIL 22UH Q40 K L02 VS30001996 FIXED COIL 22UH Q40 K L050 VS30002015 FIXED COIL 150UH Q50 K (RAD) L201 VS30001979 FIXED COIL 1UH Q45 M-A L401 VS30001986 FIXED COIL 3.3UH Q65 K L402 VS30001986 FIXED COIL 3.3UH Q65 K L403 VS30001990 FIXED COIL 6.8UH Q75 K L405 VS30001992 FIXED COIL 10UH Q65 K-A L406 VS30001992 FIXED COIL 10UH Q65 K-A L502 VS30001992 FIXED COIL 10UH Q65 K-A L504 VS30001992 FIXED COIL 10UH Q65 K-A L505 VS30001992 FIXED COIL 10UH Q65 K-A L506 VS30001992 FIXED COIL 10UH Q65 K-A L515 VS30001992 FIXED COIL 10UH Q65 K-A L603 VS30002149 LINEARITY COIL 50UH (06-06A) L605 VS30001999 FIXED COIL 40UH (LOSS COIL) L801 VS30001984 FIXED COIL 2.2UH Q55 M-AX L803 VS30002011 COIL CHOKE 150UH 0.82A RAD LD501 VS30001279 LED RED/GREEN LTL293SJ MD501 VS30001670 PREAMPLIFIER TFMS5360 PL050 VS30001783 CONN.MALE 5P (2005) PL055 VS30001831 CONN MALE 2P TOP RED PL056 VS30001830 CONN MALE 2P TOP BLUE PL100 VS30001762 CONN.MALE 2P (2052) GRAY PL1201 VS30001833 CONN MALE 2P SIDE BLUE PL1202 VS30001834 CONN MALE 2P SIDE RED PL1203 VS30001884 RCA JACK 1P YELLOW PL1204 VS30001882 RCA JACK 1P WHITE PL1205 VS30001883 RCA JACK 1P RED PL520 VS30001830 CONN MALE 2P TOP BLUE PL601 VS30001827 HRZ VRT CONN.(4P) PL602 VS20071116 CABLE ASSY.19-5/45 FC RGB W/BLACK CON. PL801 VS30001792 CONN.MALE 2P MOLEX PL802 VS30001795 CONN.MALE 3P (DEG) PL890 VS30002249 CONN ASSY 2/28 SHL.D.C. BLU PL890 VS30001830 CONN MALE 2P TOP BLUE PL892 VS30007118 PIN F 2P/7.5MM PL893 VS30007118 PIN F 2P/7.5MM

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PL900 VS30015752 SOCKET CRT NARROWNECK W/GND HITACHI PL901 VS30001783 CONN.MALE 5P (2005) PL902 VS30015629 CONN.MALE 5P (2005) BLACK PL903 VS35000135 TEST PIN 1.1MM PL903 VS35000176 EYELET BR 2*3MM PL904 VS35000176 EYELET BR 2*3MM PL904 VS30002170 COIL FTZ/RAD Q051 VS30001454 TR BC548B Q052 VS30001454 TR BC548B Q057 VS30001454 TR BC548B Q100 VS30001454 TR BC548B Q401 VS30001454 TR BC548B Q402 VS30001454 TR BC548B Q406 VS30001454 TR BC548B Q407 VS30001454 TR BC548B

IC805 VS30001500 IC LM7808

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CRN Part No. Description Q415 VS30001454 TR BC548B Q420 VS30001454 TR BC548B Q500 VS30001454 TR BC548B Q501 VS30001423 TR BF240 Q502 VS30001455 TR BC558B Q503 VS30001455 TR BC558B Q504 VS30001455 TR BC558B Q505 VS30001454 TR BC548B Q506 VS30001454 TR BC548B Q508 VS30001455 TR BC558B Q510 VS30001455 TR BC558B Q512 VS30001455 TR BC558B Q514 VS30001454 TR BC548B Q515 VS30001454 TR BC548B Q516 VS30001454 TR BC548B Q517 VS30001454 TR BC548B Q518 VS30001454 TR BC548B Q601 VS30001455 TR BC558B Q604 VS30001435 TR BC639 Q605 VS30001440 TR 2506DF Q701 VS30001455 TR BC558B Q702 VS30001454 TR BC548B Q802 VS30001385 TR MTP3N60E (PLASTIC) Q802 VS20000959 HE.ASY.19-SMPS 90° 170-270V (PLASTIK) Q805 VS30001454 TR BC548B Q806 VS30001454 TR BC548B Q807 VS30001454 TR BC548B Q809 VS30001506 IC TL431 Q810 VS30001384 TR MCR22-6 Q890 VS30001428 TR BF423 R01 VS30000743 RES CF 1/2W 560R J R02 VS30000743 RES CF 1/2W 560R J R03 VS30000712 RES CF 1/4W 470R J R04 VS30000712 RES CF 1/4W 470R J R055 VS30000597 RES SMD 1/10W 22K J R056 VS30000692 RES SMD 1/10W 3.9K J 0805 R057 VS30000727 RES SMD 1/10W 47K J (0805) R058 VS30000597 RES SMD 1/10W 22K J R059 VS30000692 RES SMD 1/10W 3.9K J 0805 R060 VS30000727 RES SMD 1/10W 47K J (0805) R064 VS30000469 RES SMD 1/10W 1K J 0805 R067 VS30000469 RES SMD 1/10W 1K J 0805 R068 VS30000774 RES SMD 1/10W 680R J (0805) R069 VS30000469 RES SMD 1/10W 1K J 0805 R070 VS30000588 RES SMD 1/10W 220R J 0805 R071 VS30000588 RES SMD 1/10W 220R J 0805 R072 VS30000588 RES SMD 1/10W 220R J 0805 R073 VS30000797 RES SMD 1/10W 75R J (0805) R074 VS30000797 RES SMD 1/10W 75R J (0805) R075 VS30000653 RES SMD 1/10W 33R J R086 VS30000475 RES SMD 1/10W 10K J 0805 R092 VS30000466 RES CF 1/4W 1K J R100 VS30000727 RES SMD 1/10W 47K J (0805) R101 VS30000471 RES CF 1/4W 10K J R102 VS30000747 RES SMD 1/10W 560R J (0805) R103 VS30000710 RES SMD 1/10W 47R J (0805) R104 VS30000457 RES SMD 1/10W 10R J 0805 R106 VS30000727 RES SMD 1/10W 47K J (0805) R107 VS30000480 RES SMD 1/10W 100K J (0805) R200 VS30000503 RES SMD 1/10W 12K J (0805) R201 VS30000723 RES CF 1/4W 47K J

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CRN Part No. Description R202 VS30000459 RES CF 1/4W 100R J R203 VS30000471 RES CF 1/4W 10K J R204 VS30000459 RES CF 1/4W 100R J R205 VS30000459 RES CF 1/4W 100R J R212 VS30000727 RES SMD 1/10W 47K J (0805) R400 VS30000717 RES SMD 1/10W 470R J (0805) R401 VS30000717 RES SMD 1/10W 470R J (0805) R402 VS30000706 RES CF 1/4W 47R J R403 VS30000659 RES SMD 1/10W 330R J (0805) R404 VS30000688 RES SMD 1/10W 390R J (0805) R405 VS30000469 RES SMD 1/10W 1K J 0805 R407 VS30000459 RES CF 1/4W 100R J R417 VS30000797 RES SMD 1/10W 75R J (0805) R418 VS30000735 RES SMD 1/10W 4.7R J (0805) R419 VS30000710 RES SMD 1/10W 47R J (0805) R420 VS30000593 RES SMD 1/10W 2.2K J (0805) R421 VS30000499 RES SMD 1/10W 1.2K J (0805) R422 VS30000710 RES SMD 1/10W 47R J (0805) R426 VS30000659 RES SMD 1/10W 330R J (0805) R428 VS30000650 RES CF 1/4W 33R J R429 VS30000524 RES SMD 1/10W 150R J (0805) R431 VS30000459 RES CF 1/4W 100R J R432 VS30000459 RES CF 1/4W 100R J R433 VS30000475 RES SMD 1/10W 10K J 0805 R437 VS30000469 RES SMD 1/10W 1K J 0805 R438 VS30000499 RES SMD 1/10W 1.2K J (0805) R439 VS30000499 RES SMD 1/10W 1.2K J (0805) R440 VS30000499 RES SMD 1/10W 1.2K J (0805) R441 VS30000469 RES SMD 1/10W 1K J 0805 R446 VS30000480 RES SMD 1/10W 100K J (0805) R447 VS30000464 RES SMD 1/10W 100R J R448 VS30000466 RES CF 1/4W 1K J R449 VS30000489 RES SMD 1/10W 1R J (0805) R450 VS30000631 RES SMD 1/10W 2.7K J 0805 R451 VS30000633 RES CF 1/4W 27K J R454 VS30000534 RES SMD 1/10W 15K J (0805) R456 VS30000550 RES SMD 1/10W 160K J R457 VS30000606 RES SMD 1/10W 2.2M J R458 VS30000732 RES SMD 1/10W 470K J R459 VS30000697 RES SMD 1/10W 39K G R460 VS30000770 RES CF 1/4W 680R J R461 VS30000499 RES SMD 1/10W 1.2K J (0805) R462 VS30000778 RES SMD 1/10W 6.8K J 0805 R463 VS30000563 RES SMD 1/10W 1.8K J (0805) R465 VS30006658 RES SMD 1/10W 82R J R485 VS30000727 RES SMD 1/10W 47K J (0805) R486 VS30000721 RES SMD 1/10W 4.7K J R488 VS30000471 RES CF 1/4W 10K J R498 VS30000563 RES SMD 1/10W 1.8K J (0805) R500 VS30000469 RES SMD 1/10W 1K J 0805 R501 VS30000614 RES SMD 1/10W 2.4K J (0805) R502 VS30000469 RES SMD 1/10W 1K J 0805 R503 VS30000469 RES SMD 1/10W 1K J 0805 R504 VS30000534 RES SMD 1/10W 15K J (0805) R505 VS30000475 RES SMD 1/10W 10K J 0805 R506 VS30000696 RES SMD 1/10W 39K J (0805) R507 VS30000469 RES SMD 1/10W 1K J 0805 R508 VS30000466 RES CF 1/4W 1K J R509 VS30000593 RES SMD 1/10W 2.2K J (0805) R510 VS30000675 RES SMD 1/10W 3.3M J R511 VS30000668 RES SMD 1/10W 33K J 0805

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CRN Part No. Description R512 VS30000727 RES SMD 1/10W 47K J (0805) R513 VS30000727 RES SMD 1/10W 47K J (0805) R514 VS30000727 RES SMD 1/10W 47K J (0805) R515 VS30000727 RES SMD 1/10W 47K J (0805) R516 VS30000464 RES SMD 1/10W 100R J R517 VS30000464 RES SMD 1/10W 100R J R523 VS30000475 RES SMD 1/10W 10K J 0805 R524 VS30000475 RES SMD 1/10W 10K J 0805 R525 VS30000475 RES SMD 1/10W 10K J 0805 R526 VS30000475 RES SMD 1/10W 10K J 0805 R527 VS30000721 RES SMD 1/10W 4.7K J R528 VS30000560 RES CF 1/4W 1.8K J R529 VS30000560 RES CF 1/4W 1.8K J R530 VS30000560 RES CF 1/4W 1.8K J R531 VS30000718 RES CF 1/4W 4.7K J R532 VS30000475 RES SMD 1/10W 10K J 0805 R533 VS30000721 RES SMD 1/10W 4.7K J R534 VS30000475 RES SMD 1/10W 10K J 0805 R535 VS30000721 RES SMD 1/10W 4.7K J R536 VS30000475 RES SMD 1/10W 10K J 0805 R537 VS30000593 RES SMD 1/10W 2.2K J (0805) R538 VS30000475 RES SMD 1/10W 10K J 0805 R539 VS30000475 RES SMD 1/10W 10K J 0805 R540 VS30000818 RES SMD 1/10W 8.2K J (0805) R541 VS30000721 RES SMD 1/10W 4.7K J R542 VS30000721 RES SMD 1/10W 4.7K J R543 VS30000717 RES SMD 1/10W 470R J (0805) R544 VS30000471 RES CF 1/4W 10K J R545 VS30000469 RES SMD 1/10W 1K J 0805 R546 VS30000475 RES SMD 1/10W 10K J 0805 R547 VS30000475 RES SMD 1/10W 10K J 0805 R548 VS30000721 RES SMD 1/10W 4.7K J R549 VS30000531 RES CF 1/4W 15K J R550 VS30000721 RES SMD 1/10W 4.7K J R551 VS30000475 RES SMD 1/10W 10K J 0805 R552 VS30000475 RES SMD 1/10W 10K J 0805 R553 VS30000471 RES CF 1/4W 10K J R554 VS30000815 RES CF 1/4W 8.2K J R556 VS30000567 RES SMD 1/10W 18K J 0805 R558 VS30000475 RES SMD 1/10W 10K J 0805 R559 VS30000588 RES SMD 1/10W 220R J 0805 R561 VS30000692 RES SMD 1/10W 3.9K J 0805 R562 VS30000471 RES CF 1/4W 10K J R563 VS30000471 RES CF 1/4W 10K J R564 VS30000475 RES SMD 1/10W 10K J 0805 R565 VS30000475 RES SMD 1/10W 10K J 0805 R566 VS30010167 RES SMD 1/10W 56R J 0805 R568 VS30000475 RES SMD 1/10W 10K J 0805 R569 VS30000459 RES CF 1/4W 100R J R571 VS30000466 RES CF 1/4W 1K J R572 VS30000475 RES SMD 1/10W 10K J 0805 R573 VS30000721 RES SMD 1/10W 4.7K J R574 VS30000692 RES SMD 1/10W 3.9K J 0805 R576 VS30000475 RES SMD 1/10W 10K J 0805 R578 VS30000475 RES SMD 1/10W 10K J 0805 R579 VS30000721 RES SMD 1/10W 4.7K J R580 VS30000464 RES SMD 1/10W 100R J R581 VS30000588 RES SMD 1/10W 220R J 0805 R582 VS30000464 RES SMD 1/10W 100R J R583 VS30000475 RES SMD 1/10W 10K J 0805 R584 VS30000563 RES SMD 1/10W 1.8K J (0805)

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CRN Part No. Description R585 VS30000480 RES SMD 1/10W 100K J (0805) R586 VS30000480 RES SMD 1/10W 100K J (0805) R587 VS30000712 RES CF 1/4W 470R J R589 VS30000529 RES SMD 1/10W 1.5K J R590 VS30000721 RES SMD 1/10W 4.7K J R592 VS30000475 RES SMD 1/10W 10K J 0805 R594 VS30000475 RES SMD 1/10W 10K J 0805 R595 VS30000475 RES SMD 1/10W 10K J 0805 R596 VS30000475 RES SMD 1/10W 10K J 0805 R598 VS30000475 RES SMD 1/10W 10K J 0805 R601 VS30000471 RES CF 1/4W 10K J R602 VS30000459 RES CF 1/4W 100R J R605 VS30000466 RES CF 1/4W 1K J R610 VS30001125 RES MO 2W 2.2K J R611 VS30001215 RES FUSE 1W 1R J R613 VS30000837 RES CF 1/4W 9.1K J R614 VS30000815 RES CF 1/4W 8.2K J R615 VS30000837 RES CF 1/4W 9.1K J R617 VS30000599 RES CF 1/4W 220K J R618 VS30000588 RES SMD 1/10W 220R J 0805 R619 VS30000815 RES CF 1/4W 8.2K J R620 VS30001082 RES MO 1/2W 1K J R626 VS30000466 RES CF 1/4W 1K J



R628 VS30001230 RES FUSE 1/2W 27R J R630 VS30001082 RES MO 1/2W 1K J R700 VS30000466 RES CF 1/4W 1K J

R702 VS30000551 RES CF 1/4W 18R J R703 VS30000911 RES MF 1/4W 1.8R J



R704 VS30001251 RES FUSE 1/2W 56R J R705 VS30000580 RES CF 1/4W 22R J R706 VS30000949 RES MF 1/4W 3K G

R707 VS30000655 RES CF 1/4W 330R J R708 VS30000469 RES SMD 1/10W 1K J 0805 R709 VS30000475 RES SMD 1/10W 10K J 0805 R710 VS30000718 RES CF 1/4W 4.7K J R711 VS30000500 RES CF 1/4W 12K J R716 VS30000466 RES CF 1/4W 1K J R717 VS30000712 RES CF 1/4W 470R J R805 VS30000633 RES CF 1/4W 27K J R806 VS30001129 RES MO 3W 22K J R807 VS30000466 RES CF 1/4W 1K J R808 VS30007029 RES SMD 1/10W 9.1K J (0805) R809 VS30000469 RES SMD 1/10W 1K J 0805 R810 VS30000597 RES SMD 1/10W 22K J R811 VS30000597 RES SMD 1/10W 22K J R812 VS30000519 RES CF 1/4W 150R J R813 VS30000475 RES SMD 1/10W 10K J 0805 R814 VS30000706 RES CF 1/4W 47R J R816 VS30000540 RES CF 1/2W 1.5M J (400V) R817 VS30001260 RES WW 5W 2.2R J RAD. R818 VS30000466 RES CF 1/4W 1K J R821 VS30000602 RES SMD 1/10W 220K J 0805 R822 VS30001129 RES MO 3W 22K J R823 VS30001037 RES MF 1/4W 99K F R824 VS30000925 RES MF 1/4W 2.2K F R828 VS30007759 RES CF 1W 47K J R829 VS30000469 RES SMD 1/10W 1K J 0805 R831 VS30000471 RES CF 1/4W 10K J R832 VS30000721 RES SMD 1/10W 4.7K J R833 VS30000710 RES SMD 1/10W 47R J (0805) R834 VS30000818 RES SMD 1/10W 8.2K J (0805)

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CRN Part No. Description R835 VS30000580 RES CF 1/4W 22R J R836 VS30000706 RES CF 1/4W 47R J R844 VS30000471 RES CF 1/4W 10K J



R845 VS30001257 RES MG 1/2W 4.7M J R849 VS30000534 RES SMD 1/10W 15K J (0805)

R850 VS30000569 RES CF 1/4W 180K J R858 VS30000712 RES CF 1/4W 470R J R860 VS30000603 RES CF 1/2W 2.2M J (400V) R868 VS30000810 RES CF 1/4W 820R J R869 VS30000810 RES CF 1/4W 820R J R870 VS30001159 RES MO 1W 0.33R J R871 VS30000471 RES CF 1/4W 10K J R872 VS30007786 RES SMD 1/10W 2.55K F (0805) R873 VS30012852 RES SMD 1/10W 3.9K F (0805) R879 VS30000718 RES CF 1/4W 4.7K J R885 VS30000475 RES SMD 1/10W 10K J 0805 R886 VS30000475 RES SMD 1/10W 10K J 0805 R888 VS30000503 RES SMD 1/10W 12K J (0805) R890 VS30001089 RES MO 2W 1R J R901 VS30000525 RES CF 1/2W 1.5K J R902 VS30000525 RES CF 1/2W 1.5K J R903 VS30000525 RES CF 1/2W 1.5K J R905 VS30000525 RES CF 1/2W 1.5K J R906 VS30000525 RES CF 1/2W 1.5K J R907 VS30000459 RES CF 1/4W 100R J R908 VS30000459 RES CF 1/4W 100R J R909 VS30000459 RES CF 1/4W 100R J



R914 VS30001242 RES FUSE 1/4W 47R J SC050 VS30001865 SOCKET SCART (R) SP901 VS30000428 SPARK GAP 300V SP902 VS30000428 SPARK GAP 300V SP903 VS30000428 SPARK GAP 300V SP904 VS30000428 SPARK GAP 300V SW501 VS30002178 SWITCH TACT SKHHLU SW502 VS30002178 SWITCH TACT SKHHLU SW503 VS30002178 SWITCH TACT SKHHLU SW504 VS30002178 SWITCH TACT SKHHLU



SW801 VS30002175 SWITCH ON/OFF 2.5A/100A



TH801 VS30001270 PTC 9 OHM TR601 VS30002090 LINE DRIVER NEW TYPE



TR602 VS30002826 TRF FBT 90ø (LAYER TYPE)



TR801 VS30002100 LINE FILTER 2*27MH



TR802 VS30002083 TRF SMPS 90° (170-270V) TU201 VS30001930 TUNER WSP (VST) X401 VS30001748 XTAL 4.433619 MHZ X501 VS30006662 XTAL 6MHZ Z206 VS30001720 FILTER SER 6MHZ SFE 6MB Z209 VS30001725 FILTER CER TRAP TPS6.0MHZ Z401 VS30001678 FILTER SAW J1956

NOTE: Some components do not appear in all models. Refer to Parts List

Page 72

Model Variant Assembly Parts

BACK CVR.XX6-7-8-9/6-25/26 SILVER (P) VS20053756 BUTTON ASSY.XX66/86 (SILVER/P) VS20056985 BUTTON FUNCTION XX66/86 SILVER (P) VS20056986 BUTTON ON/OFF XX66/86 (SILVER) (P) VS20056988 FRONT 5586-AV W/H&J SILVER (P) VS20092618

BACK CVR.5X70/71-2172 SILVER (P) VS20039118 BUTTON ASSY 2172H (4T) (SILVER/P) VS20093733 BUTTON FUNCTION 2172H (SILVER/P) VS20093730 BUTTON ON/OFF 2172H (SILVER/P) VS20093732 FRONT 2172H-FAV W/H&J SILVER (P) VS20093735

BACK C.(2.&3.K)7210/1/2/5/6-2872(19)SILV VS20095591 BUTTON ASSY.2872H (SILVER/P) VS20092538 BUTTON FUNCTION 2872H SILVER (P) VS20092541 BUTTON ON/OFF 2872H SILVER (P) VS20092539 CONT.PNL DOOR 2872H SILVER (P) VS20092537 FRONT 2872H W/H SILVER (P) VS20092534

C2125S/CL2125S/CP2125S

C2842S/CL2842S/CP2842S

C2142S/CL2142S/CP2142S

Page 73

Page 74

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Hitachi, Ltd. Tokyo, Japan

International Sales Division

THE HITACHI ATAGO BUILDING,

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BELGIUM (for BENELUX)

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No. 0106

Aug 2000

www.hitachi-consumer-eu.com