HITACHI Service manual / Схема, сервісна інструкція Service manual & schematics

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HITACHI

CP2574TAN CP2874TAN

SERVICE MANUAL

CAUTION:

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

TECHNICAL SPECIFICATIONS

TV standard 625 lines 525 Lines NTSC	Programme selectorsChannel UP/DOWN buttons with 59 programme remote control
Channel coverageVHF, UHF and S Bands also PAL 60 via VCR	Speakers6 x 13 cm
Aerial input impedance75 ohm unbalanced	Power consumptionCP2574TAN90 W CP2874TAN96 W
Intermediate frequencies I.F. Luminance	Picture tube
F.M. Sound	Dimensions: CP2574TAN CP2874TAN Width701 mm772 mm Height
FocusingElectro static Mains voltage	Weight32 kg

Since this is a basic circuit, the values of the parts and specifications are subject to be altered for improvement

1994

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SAFETY PRECAUTIONS

WARNING: The following precautions should be observed.

1. Do not install, remove, or handle the picture tube in any manner unless shatter proof goggles are worn. People not so equipped should be kept away while picture tubes are handled. Keep the picture tube away from the body while handling.
2. When service is required, an isolation transformer should be inserted between the power line and the receiver before any service is performed on the chassis.
3. When replacing the chassis in the cabinet, ensure all the protective devices are put back in place, such as barriers, non-metallic knobs, adjustment or compartment covers or shields, isolation resistors/capacitors, etc.
4. When service is required, observe the original lead dressing. Extra precaution should be taken to ensure correct lead dressing in the high voltage circuitry area. Particularly note the R.G.B. lead dressing. Ensure they are dressed well away from the horizontal scan and F.B.T. circuitry.
5. Always use the manufacturer's replacement component. Always replace original spacers and maintain lead lengths. Especially critical components are indicated thus an the parts list and should not be replaced by other makes. Furthermore, where a short circuit has occurred, replace those components that indicate evidence of overheating.
6. Before returning a serviced receiver to the customer, the service technician must thoroughly test the unit to be certain that it is completely safe to operate without danger of electrical shock, and be sure that no protective device built into the instrument by the manufacturer has become defective, or inadvertently damaged during servicing.

Therefore, the following checks are recommended for the continued protection of the customers and service technicians.

INSULATION

Insulation resistance should not be less than 10MΩ at 500V DC between the mains poles and any accessible metal parts.

Also, no flashover or breakdown should occur during the dielectric strength test, applying 3kV AC or 4.25kV DC for two seconds between the main poles and accessible metal parts.

HIGH VOLTAGE

High voltage should always be kept at the rated value of the chassis and no higher. Operating at higher voltages may cause a failure of the picture tube or high voltage supply, and also, under certain circumstances could produce X-radiation levels moderately in excess of design levels. The high voltage must not, under any circumstances, exceed 27kV on the chassis.

X-RADIATION

TUBES: The primary source of X-radiation in this receiver is the picture tube. The tube utilised for the above mentioned function in this chassis is specially constructed to limit X-radiation.

For continued X-radiation protection, replace tube with the same type as the original HITACHI approved type.

PRODUCT SAFETY NOTICE

Many electrical and mechanical parts in HITACHI television receivers have special safety related characteristics. These characteristics are often not evident from visual inspection, nor can the protection afforded by them necessarily be obtained by using replacement components rated for higher voltage, wattage, etc. Replacement parts which have these special safety characteristics are identified by marking with a A on the schematics and the replacement parts list contained in this service manual.

The use of a substitute replacement component which does not have the same safety characteristics as the HITACHI recommended replacement one, shown in the parts list of this service manual, may create electrical shock, fire, X-radiation, or other hazards.

Product Safety is continuously under review, and new instructions are issued from time to time. For the latest information, always consult the current HITACHI service manual. A subscription to, or additional copies of HITACHI service manuals, may be obtained at a nominal charge from your HITACHI SALES CORPORATION.

TUBE DISCHARGE

The line output stage can develop voltages in excess of 25kV; if the E.H.T. cap is required to be removed, discharge the anode to chassis via a high value resistor, prior to its removal from the tube.

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The tuner used on this chassis is powered by the chassis +12v and +5v supplies, and covers the VHF, UHF, and CATV range of frequencies.

When tuning is performed the clock and data commands output from pins 40 and 41 of IC001 are applied to pins 4 and 5 of the tuner, and in conjunction with the 33v input at pin 7, initiates the search routine.

The output from pin 1 of the tuner is then input to the I.F. assembly unit at pin 2.

Band switching is controlled by the outputs from pins 10 and 12 of IC001, which are applied to pins 7 and 8 of the I.F. assembly.

This unit will then output a composite video signal from pin 12, and the main and sub audio signals from pins 10 and 11.

The QPSK (Quadrature Phase Shift Keying) signal required for NICAM decoding is output from pin 9.

Audio Stages:

The QPSK signal is input to pin 1 of the NICAM unit for decoding, and the Left and Right audio signals produced are output from pins 14 and 6 respectively.

By pressing the PCM/FM button on the remote control handset, you can alternate these outputs between NICAM stereo or FM mono. The clock and data inputs to pins 16 and 15 of the NICAM assembly control this selection.

The left and right audio signals output from pins 14 and 6 of the NICAM assembly, are applied to pins 9 and 10 of IC451 via Q1320 and Q1321.

The main and sub audio signals from pin 10 and 11 of the I.F. assembly are also input to IC451 at pins 7 and 8 respectively.

IC451 is responsible for audio multiplexing and processing of the sound signals. The I²C commands at pins 1 and 20 control the various operational modes, with the 10MHz crystal at pin 19 providing the reference clock frequency.

The 54.7KHz pilot signal of a Stereo/Dual sound broadcast, is coupled to pin 5 of IC451 via the filter network R460/C464. The pilot carrier signal is then regenerated by the I.C. in conjunction with the tuned circuit of L450 etc.

De-emphasis is performed by C460 and C462 on pins 15 and 17.

The audio signals are finally output from pins 11 and 12, then applied to pins 34 and 35 of IC1401.

This is a multiple switching I.C., controlled by the clock and data signals from IC001. These are input at pins 32 and 33 of IC1401.

The left and right audio signals then emerge from pins 23 and 22, and are then applied to pins 3 and 5 of IC402.

The left and right audio signals which emerge from pins 24 and 9 of IC402 are then input to the DOLBY and EFFECTS sound processing panel. This panel enables the customer to select DOLBY, HALL or MATRIX modes etc., and is controlled by the I²C clock and data commands from pins 40 and 41 of IC001. The circuit description for this panel will be given later.

The left and right processed signals are then returned to pins 23 and 10 of IC402 and applied to internal stages which influence the base, treble, and balance. The clock and data commands fed to pins 16 and 17 of IC402, control all these functions.

The clock and data commands also control the special effects available, such as pseudo stereo and wide stereo etc.

IC402 has two separate paths for headphone or speaker outputs.

This enables different settings of volume and balance to be applied to the headphone output.

The headphone left and right signals are output from pins 20 and 13 of IC402. They are then input to pins 7 and 6 of IC481, output from pins 1 and 3, then applied to the headphones.

The outputs for the speakers are taken from pins 18 and 15, then input to IC4451, which is the sound output IC, at pin 5 and 1.

The values of R4454/R4455 and R4456/R4457 control the gain of the signals output from pins 8 and 10, which are applied to the speakers.

The values of R4458/C4454 and R4459/C4455 provide stability at high frequency under load conditions.

IC4451 is powered from the +25v supply, which is applied to pin 9 via R4467.

This supply is monitored by Q4452 stage.

Should a short circuit exist on pin 9 of IC4451, the base voltage of Q4452 will fall, and the transistor will conduct. The voltage appearing at the collector will then be applied to the gate of Q704 on the power supply and deflection panel. This places the T.V. into its standby mode (described later), and the +9v and +25v supplies will be removed.

Should the load conditions of IC4451 suddenly increase, the +25v supply can drop in value. Should this fall below 22v, the voltage supplied to the junction of R4462/R4463 via ZD4001 will disappear.

As a result the base voltage of Q951 will drop. This transistor controls the regulation of the power supply, and therefore increases the power supply drives to compensate for the fall in the +25v due to load conditions.

The left and right audio signals can also be output to external equipment via the two scart sockets AV1 or AV2.

The audio signals input to pins 35 and 34 of IC1401 are output at pins 16 and 17. These are then input to pins 1 and 3 of AV1.

The audio signals output from pins 7 and 26 of IC402 are input to pins 1 and 3 of AV2 via transistors Q441 and Q442.

When the mute command is received, pin 38 of IC001 will output a "High". As a result, Q4451 is turned on and applies a "Low" to pin 3 of IC4451 via R4453. This ensures that no sound will be output for as long as the mute condition exists.

Under no signal conditions, the clock and data signals input to IC402 at pins 16 and 17 will cause the I.C. to mute its output stages.

When the T.V. is switched off, and the +9v begins to fall, the emitter voltage of Q443 on the Anti-Pop sub board will become more positive than the base, due to the charge maintained by C442. The transistor will then conduct and applies a voltage to the base of Q444 and Q445. The transistors then turn on, pulling "Low" the left and right signals at the junctions of C438/C473 and C446/C472. This action ensures no spurious sound is input to IC4451 during the time it takes for the +9v supply to disappear from switch off.

Similarly, when the 11v supply drops from switch off, Q4454 on the Mute sub board will conduct, and applies a voltage to Q4451, which then turns on and pulls pin 3 of IC4451 "Low", therefore muting the sound output during the switch off period.

DOLBY and Effects Processing Panel

IC4600 is the DOLBY PRO LOGIC decoder I.C. The left and right channels from IC402 on the signal and control panel are applied to pins 8 and 9 of IC4600. In PRO LOGIC mode (DOLBY processing), this I.C. outputs 4 channels, i.e. Left, Right, Centre, and Surround.

In "PHANTOM" mode, the I.C. only outputs 3 channels, i.e. Left, Right, and Surround.

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In PRO LOGIC mode the surround channel contains identical information, which is fed to both left and right surround speakers.

IC4600 has to be informed when to output 4 or 3 channels. This is done by applying a "Low" or "High" to pin 4. This is obtained from the sub-audio amp panel, and depends on the speaker configuration and the position of the "MODE" switch (SW4901) on the back of the T.V.

When SW4901 is set for PRO LOGIC mode (with or without the centre speaker connected), the voltage at the junction of R4922/R4940 is pulled low, and as a result Q4904 turns OFF. Q4902 will then turn on, and applies the required "Low" to pin 4 of IC4600.

When "PHANTOM" mode is selected using SW4901, and the centre speaker disconnected, Q4904 base becomes "High" via R4927, R4922, and turns on. This pulls "Low" the base of Q4902, turning it off, and applying the required "High" to pin 4 of IC4600 from the potential network of R4928/R4929.

In PRO LOGIC mode, the left and right front channels are output from pins 32 and 30 of IC4600, and applied to pins 28 and 30 of IC4604.

They emerge from pins 24 and 9, and are then returned to IC402 on the signal and control panel for further processing.

The surround channel is fed from pin 29 of IC4600 to pin 5 of IC4605.

In PRO LOGIC mode, pin 2 of IC4604 (microprocessor controlled output line) is held "Low". This is applied to pin 9 of IC4605, and as a result, the switching network outputs the surround channel from pin 4. It is then input to IC4601 for the required 20m Seconds delay, 7KHz low pass filtering, and modified DOLBY "B" noise reduction, before finally emerging from pin 56. It is then applied to pin 5 of IC4610. The "Low" at pin 2 of IC4604 is applied to pin 9 of IC4610 via D4601, and as a result, the switching network outputs the surround channel at pin 4.

It is then input to pin 10 of IC4604, then emerges at pin 15 after volume, bass and treble processing. It is then input to pin 12 of IC4610, and due to the "Low" at pin 2 of IC4604 being applied to pin 11 of IC4610, the surround channel is output at pin 14.

It is then input to IC4604 at pin 3, then fed internally to both the left and right headphone channels of the headphone channel stage.

NOTE: This stage is called the headphone channel because it was originally intended for that purpose. In our application however, we use it for the surround channel, so this should not be confused with the genuine headphone output of IC402 on the signal and control panel.

The surround channel is output at pins 20 and 13 of IC4604, then applied to IC4902 on the audio sub-amplifier panel for further amplification. The full circuit description of this panel will be given later.

The centre channel is output from pin 31 of IC4600, and applied to pin 23 of IC4604. It then receives volume, bass and treble processing, before emerging at pin 18.

The processed centre channel is then applied to IC4901 on the audio sub-amplifier panel.

MATRIX/HALL mode

The left and right audio signal from IC402 of the signal and control panel are input to IC4600 at pins 8 and 9.

In the HALL and MATRIX modes, IC4600 is only used to generate the centre channel, which is simply the left + right. This signal is output at pin 31, then input to IC4604 at pin 23 for volume, bass and treble processing. It is then output from pin 18 and applied to IC4901 on the sub-amplifier panel as the centre channel.

The left and right audio signals from IC402, are also applied to pins 3 and 1 of IC4605.

Pin 2 of IC4604 becomes "High" during HALL and MATRIX modes, and this is applied to pin 9 of IC4605, causing the left and right signals to emerge at pins 4 and 15 respectively. They are then input to IC4601 at pins 61 and 60 for processing.

In MATRIX mode, pin 31 of IC4604 is "High", and this is applied to Q4604, turning it on. Consequently, Q4605 will be turned off, and effectively pin 1 of IC4601 will become open circuit. Under this condition the I.C. will process the signals in the left - right mode of operation.

In HALL mode, pin 31 of IC4604 is "Low". Therefore, Q4604 will turn off, and Q4605 on. A "Low" is then applied to pin 1 of IC4601, and the I.C. will process the signals in the left + right mode of operation.

In summary.- MATRIX = the left and right difference output HALL = the left and right sum output

For description purposes, the HALL and MATRIX output will now be called the delayed channel, but remember each one is different in reality.

During HALL and MATRIX modes, the switching condition of IC4610 results in a "High" being output from pin 15. This is applied to pin 46 of IC4601, and disables the DOLBY noise reduction operation.

The delayed signal output from pin 54 of IC4601, is returned to pin 63 via C4648, R4616, R4615 etc. This is the feedback line to obtain the required reverb (Echo) effect.

In MATRIX mode, the delayed signal output from pin 56 is applied to pin 3 of IC4608 via R4648. It is amplified, output at pin 1, then input to pin 3 of IC4610. In MATRIX mode, both pins 2 and 31 of IC4604 will be "High". This means that pin 9 of IC4610 becomes "High" via R4653. Therefore, the switching condition of IC4610 causes the delayed signal at pin 3 to be output from pin 4.

In HALL mode, the delayed signal is input to pin 5 of IC4610. The "Low" at pin 31 of IC4604 is applied to pin 9 of IC4610 via D4602, and causes the switching to output the delayed signal at pin 4.

Therefore, pin 4 of IC4610 is the common output for both HALL and MATRIX modes.

For the left surround channel, the signal at pin 4 of IC4610 is returned to pin 13, then switched to pin 14. It is then input to pin 3 of IC4604 for volume control, then output at pin 20. It is then applied to IC4902 on the sub-amplifier panel.

For the right surround channel, the signal at pin 4 of IC4610 is input to pin 6 of IC4608 via R4652. It is then inverted, output from pin 7, then input to pin 5 of IC4604 for volume control.

An output is then produced at pin 13, which is applied to IC4902 on the sub-amplifier panel.

The front left and right channel signal path of the delayed HALL and MATRIX signal is as follows:-

The left channel from IC402 on the signal and control panel is fed via R4663, R4632 and applied to pin 3 of IC4606. The delayed channel from pin 54 of IC4601 is also applied to pin 3 via R4634. These resistors form a summing junction, so the left channel is added to the delayed channel.

The right channel from IC402 is fed via R4633 to pin 5 of IC4606. The delayed signal from IC4601 is fed to the invertor IC4607 via R4635, then this is also added to pin 5 of IC4606 via R4642.

The complete front left and front right channels are output from pins 1 and 7 of IC4606 respectively, then input to pins 1 and 32 of IC4604. They are then output from pins 24 and 9, and returned to IC402 on the signal and control panel.

NOISE SEQUENCER OPERATION

To set up the speaker output levels to suit the acoustics of the room, a noise sequencer is incorporated into this panel.

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This outputs white noise on each of the channels in turn, so the customer can set each output level to suit. This ensures optimum results during the DOLBY Pro Logic operation.

When the noise sequence mode is selected from the onscreen menus, pin 3 of IC4602 goes "High", and pin 5 goes "Low". Q4606 is turned on, and applies a "Low" to pin 11 of IC4605, changing the internal switching of IC4605, so that the "Low" applied to pin 12 from pin 5 of IC4602, is output from pin 14, and applied to pin 1 of IC4600.

"High" and/or "Low" outputs are obtained from pin 6 and 7 of IC4602, and applied to pins 2 and 3 of IC4600. These determine the sequence of white noise from each channel.

SUB-AUDIO PANEL

This panel is used to amplify the left and right suround channels, and the centre channel. It also provides a bass output which is applied to the woofer speaker.

The left and right surround channels are input to E4601 at pins 4 and 7 respectively from the DOLBY panel. They are then fed via C4991 and C4993 on the mute panel, and applied to pins 1 and 5 of IC4902 via C4909 and C4922.

The zener and capacitor on pins 1 and 5 give input protection to the I.C.

The amplified left channel is output from pin 10 of IC4902, whilst the right channel is output from pin 8.

Feedback to control the gain of each channel is obtained from these outputs. Feedback for the left channel is applied to pin 2 via R4910/R4911, and C4910, whilst feedback for the right channel is applied to pin 4 via R4907/R4909, and C4921.

The outputs from pin 10 and 8, are then applied to the left and right surround speakers via C4911 and C4920.

The centre channel is input to E4601 at pin 3 from the DOLBY panel, and applied via C4992 on the mute panel, then via divider R4916/R4917 and C4914, to pin 1 of IC4901.

The bass signal is derived from the left and right audio signals obtained from the signal and control panel. These are input to pins 1 and 3 of PL4902, added, divided, and low pass filtered by R4914, R4913, R4915 and C4925, with the resultant signal applied to pin 5 of IC4901 via C4901.

IC4901 operates exactly as IC4902, providing a centre channel output from pin 10, which is applied to the centre speaker via C4912, and a bass output from pin 8, which is applied to the bass (woofer) speaker via C4903.

If no centre speaker is connected, and the mode switch SW4901 is set to Pro Logic mode, then the left and right speakers of the T.V. (PL4905 and PL4906) will supply the centre channel.

If no external left and right speakers are connected, and the mode switch is set to Phantom, then the left and right speakers of the T.V. (PL4905 and PL4906) will supply the left and right outputs. These are obtained from the left and right outputs of IC4451 on the signal and control panel, and input via PL4903.

Depending on the speaker configuration and the position of SW4901, Q4904 and Q4902 will provide a "High" or "Low" output for the DOLBY panel via E4601 pin 6. This operation is explained in the DOLBY panel description.

There are two mute circuits on this sub-audio panel:-

The first mute circuit affects the feedback inputs of IC4901 and IC4902.

During switch ON or OFF, pin 38 of IC001 on the signal and control panel will momentarily output a "High" Q4451 will then turn on, applying a "Low" to R4476, consequently turning on Q4455. This will then apply a "Low" to Q4901 on the sub-amp panel via PL4902 pin 5 and R4946.

Q4901 then turns on, and its collecter will go "High". This is applied to the feedback lines of IC4901 via R4941 and

R4942, and the feedback lines of IC4902 via R4943 and R4944. In this way the amplifiers are muted.

The second mute circuit affects the inputs to the sub-audio panel, and consists of Q4991, Q4992 and Q4993.

During switch OFF, the +9v used to supply Q443 base disappears. Q443 will then turn ON for a short time, due to the charge remaining in C442. A voltage is then applied to Q4991, Q4992 and Q4993 via pin 5 of E4601, turning the transistors ON. The collectors of these transistors are then pulled "Low", thereby suppressing the centre and surround channels during the initial switch OFF mode.

Luminance stages:

The composite video output from pin 12 of the I.F. assembly unit, is applied to the base of Q321. The signal at the emitter is then input to pin 36 of IC1401 via R1314, and also to pin 19 of AV1 socket via C304 and R306 as an output to external equipment.

This signal at Q321 emitter is also input to pin 1 of IC320 via Q4453, and produces a "Low" ouput at pin 5, which is used as the "IDENT" for pin 11 of IC001. This presence of this "IDENT" halts the search tuning process.

The composite video input to pin 36 of IC1401 is output from pin 19 for luminance processing, and pin 21 for chrominance processing.

A composite video signal is also output from pin 30. This is then fed via Q1310 to pin 19 of AV2 socket. It can then be output to external equipment attached to this socket if desired.

The video signal from pin 19 of IC1401 is then fed via Q1399 into pin 12 of the teletext decoder unit. The output from this unit is applied to buffer Q2011, then fed to the base of Q505 via R558, with CP501 performing 4.43MHz rejection. It is then input to pin 30 of the luminance processor IC3201 via delay line DL502 and Q3202. The input at pin 30 then passes through an internal dynamic noise reduction stage, whose operation is controlled by the voltage level at pin 29. This in turn is controlled by a "High" or "Low" output from pin 8 of IC001, which then turns Q3209 on or off, therefore changing the voltage level at pin 29 of IC3201.

The signal with or without noise reduction, then emerges at pin 28, and is input once more to a black level correction circuit at pin 26 via C3216. This stage enhances the signal by making the darkest part of the signal even darker. For this operation, horizontal and vertical pulses are required. These are input to the sync. separation stage at pin 20 of the I.C. via D3203 and D3202 respectively.

In order for the sync. separation stage to function correctly, the D.C. level of the video signal needs to be regenerated and input to pin 18 of IC3201. This is accomplished by Q3100 and Q3101 stages.

The processed signal is then output from pin 23 of the I.C., then input once again at pin 15, via buffer Q3205 and C3221.

The internal circuitry then produces a time compressed profile compensation signal, which is split into 2. One signal is output at pin 7, whilst the other is internally processed to provide shoot balance and sharpness control, then output from pin 11.

The sharpness can be varied by the voltage applied to pin 6 of IC3201.

This variable voltage is obtained from pin 5 of IC001, and is then fed via R020, ZD3244, and R3203 to pin 6 of IC3201.

The video output from pin 7 of IC3201 is fed to Q501, where it is mixed with the processed signal from pin 11, fed via Q503, Q504, and Q502 stages.

The resultant signal is then input to pin 7 of IC501 where it is processed and added to the R.G.B. signals.

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Contrast and brightness control is obtained by the variable voltage levels applied to pins 14 and 25 of IC501. These originate from pins 2 and 3 of IC001.

An automatic beam current limit circuit is employed on this chassis.

Beam current is sampled at pin 4 of the flyback transformer, and applied to the cathode of D709 via R722. Should the beam current rise, the voltage level will fall, and the diode will conduct. This drop in voltage is then fed via R721 to pin 14 of IC501. This reduces the contrast level and hence the beam current is also reduced.

Chrominance Stages:

The composite video signal from pin 21 of IC1401 is fed via a bandpass filter circuit consisting of R547, C588 and L504. This extracts the chrominance signal, which is then input to pin 19 of IC501 via C507.

The chrominance signal is then applied to an internal A.C.C. amplifier, the operation of which depends on the burst signal amplitude, and the saturation voltage level on pin 18.

The oscillator X502 connected to pin 22, regenerates the required 4.43MHz sub carrier frequency, with phase control being determined by the components connected to pin 23.

The chrominance signal output from pin 17 is fed via the delay line DL501, then re-enters the I.C. at pin 15.

The decoding, adding and subtracting of the direct and delayed colour signals is performed internally, producing the R-Y, G-Y, and B-Y signals. These are then added to the luminance signal in a matrix circuit to produce the red, green, and blue signals. These finally emerge from pins 26, 29, and 4 respectively.

External inputs:

When inputs such as VCR signals are applied to AV1 or AV2 socket, the video signal from that socket is applied to pin 12 or pin 3 of IC1401, and the left and right audio signals to pins 10 and 11, or pins 2 and 4.

When equipment having an equivalent 21 pin socket is connected to the AV sockets and switched on, a "High" will be output from pin 8 of the appropriate socket, and applied to pin 34 or 37 of IC001.

The clock and data outputs from pins 40 and 41 of IC001 will then change, and this change is applied to pins 32 and 33 of IC1401. This causes the internal switching network of IC1401 to change, so that the external video signals are output from pins 19 and 21, and the left and right audio signals from pins 22 and 23 of the IC. They are then processed as previously described for the T.V. signal.

If the external equipment does not have an equivalent connector, the external mode must be selected using the remote control handset. This will then change the clock and data signal to suit accordingly.

When S-VHS equipment is connected to AV2 socket, the luminance signal is applied to pin 3 of IC1401, and the chrominance signal is applied to pin 5.

The video signal (luminance) will still be output from pin 19 as previously described, but pin 21 will now output the chrominance signal. These signals then follow the same luminance and chrominance paths described for T.V. signals.

When camcorder inputs etc. are applied via the phono sockets, the external mode must be selected using the TV/AV button on the handset. This then causes a change in the clock and data inputs applied to pins 32 and 33 of IC1401, so that the camcorder audio and video signals input to pins 13, 14, and 15, are output for further processing.

When S-VHS equipment is connected via the 5 pin socket on the front of the T.V., a "Low" is applied to pin 36 of IC001.

When the TV/AV button of handset is then pressed, the clock and data commands change the internal switching of IC1401 once again, so that the luminance and chrominance signals applied to pins 7 and 9 are output from pins 19 and 21 for further processing.

When R.G.B. equipment such as computers are connected to AV1 socket, the red, green, and blue inputs, plus a fast blanking input, are applied to pins 1, 4, 6, and 8 of IC502 respectively.

The external R.G.B. signals are output from pins 16, 13 and 11. These are then applied to pins 28, 2 and 5 of IC501. The fast blanking is output from pin 9 of IC502 and applied to pin 24 of IC501, changing the operation of the I.C., so that only the external R.G.B. signals emerge from pins 26, 29 and 4.

Horizontal and vertical timebase:

IC501 provides sync. separation, Horizontal and vertical timebase and output stages, and also contains a vertical count-down stage.

Sync. separation is obtained using the video signal input at pin 10.

The horizontal frequency is obtained from X501, connected to pin 9. It is then applied internally to a divider/count-down circuit from which the vertical frequency is obtained. Using this method has the advantage that no external frequency adjustment controls are required.

The horizontal output is made available from pin 13, and the vertical output from pin 12.

A horizontal signal from the flyback transformer is applied to pin 6 of IC591. It is then output from pin 7, and input to pin 8 of IC501. This pin supplies a comparitor circuit, which compares the horizontal signal to the sync. signal. Any frequency difference causes a corrective output to be applied to the horizontal oscillator stage, thereby maintaining the desired phase relationship.

A line flyback signal is also applied to pin 11 of IC501 via VR502, providing manual shift control.

Deflection output stages:

The horizontal output from pin 13 of IC501 is applied to pin 3 of IC591. This I.C. acts as a non-inverting buffer, and the horizontal output is obtained from pin 1.

It is then applied to line drive transistor Q701 on the power and deflection panel. T702 couples the output from Q701 to line output transistor Q702. Both these transistors are powered by the H.T. voltage supply (146v).

A line pulse available at pin 1 of the flyback transformer is rectified by D702, and supplies approximately 180v to power the output transistors of the C.R.T. base.

Under certain fault conditions, i.e. increased H.T. or reduced value of the tuning capacitors C706/C723 etc., an excess of E.H.T. could be developed.

To prevent this happening, the rectified voltage of D702 is fed via the potential divider R718/R719 to ZD701. Should the E.H.T. rise excessively, the threshold voltage of the zener will be exceeded and it will conduct, applying a voltage to the gate of thyristor Q704, turning it on, and pulling "Low" its anode.

This "Low" is applied to Q952 via R960 and R959, turning it off, and consequently turning Q953 and Q956 off also.

The +9v and +25v supplies are then removed, causing the timebase stages of IC501 to become non-operational, therefore preventing further E.H.T. generation until the fault is removed.

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R705 monitors the current of the horizontal output stages. Should a short circuit condition exist, the increased voltage drop across R705 will cause Q703 to conduct. A voltage will then be applied to the gate of Q704 via R708 and R717, turning it on, and removing the E.H.T. generation as previously explained.

The vertical output from pin 12 of IC501 is input to pin 2 of IC601 via R618. This is then applied to an internal ramp generation circuit, which in conjunction with C602 on pin 6 of IC601, produces a sawtooth waveform at vertical frequency.

Flyback generation time is determined by D601 and C603 connected between pins 8 and 9 of IC601.

The vertical output for the deflection coils is obtained from pin 12 of IC601.

The deflection current that occurs at the junction of C606/R611, is added to the feedback obtained from R609/C605, and the result is input to pin 7 of IC601 to control linearity, with VR601 determining the vertical amplitude.

Vertical shift can be obtained by the setting of S601.

Q602 stage monitors the +25v supply. Should the supply rise or fall, the change in base voltage will cause a variation of the collector voltage, and this change is applied to pin 7 of IC601 via R606 and VR601. The amplitude of the vertical output is then altered, compensating for the original fluctuation in voltage.

A portion of the ramp generation signal at pin 6 is shaped by Q601/Q603 stage then applied to the East/West correction circuitry of IC751 on the power and deflection panel.

This I.C. type TEA2031A provides the necessary correction needed for the scan circuits when employing 110° cathode ray tubes. It is powered by the voltage applied to pin 6, which is obtained from pin 1 of the Flyback transformer, and rectified by D752 and smoothed by C758.

The signal from Q601/Q603 stage is applied to pin 1 of IC751, which feeds an internal comparitor circuit. This compares the current available at pin 1 to the current at pin 2, and in conjunction with the load resistor R757, produces a symmetrical parabola waveform at pin 7 when both currents are equal. Adjusting VR755 changes the current at pin 2, causing the parabola to become assymmetrical, thus producing a keystone correction effect.

Line pulses from pin 1 of the Flyback transformer, are fed to pin 8 of IC751 via R760, VR751 and the integrating components D751/C756. This sets the line width, with VR751 providing variable width control.

The complete correction waveform is output from pin 5, with VR752 providing parabolic correction control. It is then applied to the diode modulation circuitry of Q702 stage via L751.

A portion of the beam current available at pin 4 of the Flyback transformer, is applied to pin 7 of IC751 via C750, R753.

This provides some correction for the breathing effect that can occur during sudden changes in brightness etc.

Power supply circuit:

This T.V. contains two power supplies.

The main power supply is a self oscillating supply, with a variable frequency and pulse width. The sub-supply operates at a fixed frequency with a variable pulse width.

Main Power Supply

The A.C. supply is rectified by D901 - 04, producing approximately 300v to power Q903.

Current flowing through R901/R909 causes Q903 to initially turn on.

Secondary voltages are then induced in T901, and a feedback voltage obtained via D905, L903 etc. is applied to the base of Q903, maintaining the transistors operation.

This circuit self oscillates at a frequency determined by the inductance of the transformer, the A.C. mains voltage, and the load conditions etc.

The transistor Q902 is held at -ve potential to ensure a good turn off of Q903 stage. The diodes D954 and D955 across the base and emitter of Q903 offer protection.

The secondary voltage in winding S1/S2 is rectified by D951 to produce the H.T. voltage of 146v. This is smoothed by C952.

Winding S3/S4 produces approximately 12v via D952, which is smoothed by C954. This 12v is then applied to Q953 stage, which in conjunction with IC951, produces the +9v chassis supply.

The rectified voltage from D953 is smoothed by C960. It is then fed to Q956, producing the +25 volts required for the sound output stage.

The voltage rectified by D953, is also fed via R967 to IC005 on the tuning and control circuit. This produces the +5v required for IC001 at the emitter of Q006.

Q951 stage controls H.T. regulation. The base voltage of Q951 is set to a pre-determined level by the resistor network R952, VR951 and R963. During normal operation, R951 is effectively out of circuit due to Q954 being turned on.

The emitter of Q951 is effectively held at 6v9 by ZD951. Should the H.T. level rise, the base voltage will become more positive than the emitter, and this difference is amplified by the transistor and applied to OPTO-COUPLER IC901. An output is then produced from IC901 and applied to the transistor network of Q901/Q902. This stage controls the on-time of Q903, and therefore controls the H.T. level, hence maintaining H.T. regulation.

ZD953 (shown connected at the emitter of Q703 on the circuit), offers protection to the H.T. circuits should this H.T. level rise excessively.

Q957 protects the +9v and +25v supplies during short circuit conditions.

Should either supply rail go short circuit, the base of Q957 will become "Low" via D956, R968, or D967, R970, and as a result the transistor turns on, applying a voltage to the gate of thyristor Q704. This turns on, and applies a "Low" to Q952, consequently turning off Q953 and Q956, removing the supplies that generate the +9v and +25v.

When the standby command is transmitted from the handset, pin 17 of IC001 becomes "High". This is applied to Q011 base, turning the transistor on.

This applies a "Low" to Q952 base via R960, turning the transistor off. As a result, both Q956 and Q953 become non-operational, and consequently the +9v and +25 chassis supplies are removed.

Due to the +9v supply disappearing, the drive to IC902 is removed. Q904 then operates, and causes the primary of T901 to enter its burst firing mode every 50Hz cycle. Q904 does this by following the mains cycle via R914, terminating Q903 operation every 10m Seconds.

This ensures a low power consumption during standby.

Finally, during standby, the voltage to the base of Q954 is removed, and the transistor turns off. As a result, R951 is added to the potential divider network at the base of Q951. This alters the drive to opto-coupler IC901, and the result is to reduce the H.T. voltage during the no load conditions created during standby.

Sub-Power Supply:

From switch on, the AC voltage is rectified by bridge rectifier D9001-D9004, producing approximately 300v DC at C9002. This is applied to Q9000 collector via the primary winding of T9000.

Page 8

The voltage at pin 7 of IC9000 will rise to approximately 16v via R9000 and D9005. This allows the internal circuitry to create a sawtooth waveform, from which a squarewave output is obtained at pin 6. This output causes F.E.T. Q9002 to turn off and on.

The base current for Q9000 is obtained from the DC supply to pin 7 of IC9000.

This DC supply is maintained after initial start up by the feedback obtained from the bias winding of T9000, which is then fed via R9001, L9001 and D9006 to pin 7.

ZD9000 and D9010 are protection diodes, preventing the voltage levels from rising to a point where they may cause damage to IC9000 and Q9000/Q9002 stages.

A current sense circuit exists at pin 3 of IC9000, and is used to monitor primary current. A voltage proportional to the primary current is obtained across R9005, then applied to pin 3 via R9007, R9008. C9005 suppresses the leading edge of this waveform to remove any switching noise that may occur

This voltage is compared to an internal reference of approximately 0.8v. Should the voltage applied to pin 3 rise above this reference, the pulse width output from pin 6 is limited, therefore providing protection for the transistors Q9000 and Q9002.

R9023, C9013 and D9011 act as a soft start circuit. This limits the duty cycle from pin 6 during the initial start up period, allowing a gradual rise to full output.

Q9001 monitors the base drive voltage to Q9000. Should this voltage fail, Q9001 will turn on, and in conjunction with the internal error amp. at pin 1 of IC9000 limits the maximum current, therby protecting Q9000 stage.

Overvoltage is sensed on the primary by the bias winding, then fed to pin 2 of IC9000 via R9001, L9001, D9013, and R9021. If the voltage at pin 2 rises above the internal reference voltage, the output from pin 6 is limited by the internal error amp., therefore clamping the secondary voltage to a safe level.

There are two supply voltages derived from the secondary of T9000.

A +24 volts is obtained from D9100 and smoothed by C9100, whilst a +12v supply is obtained from D9101 and smoothed by C9101.

A regulation circuit ensures the +12v supply remains stabilised.

Should the +12v rise, the voltage applied to IC9100 via R9103 will increase, and once it exceeds an internal reference, IC9100 will conduct, thus turning the OPTO-COU-PLER on. This causes a decrease to the error amp. input level at pin 1 of IC9000, reducing the pulse width output of the I.C., thus offsetting the original rise in the +12v supply.

When the standby condition exists, the +9v from the main power supply disappears. As a result the voltage to the base of Q9101 is removed, and the transistor turns off. Q9100 will then turn on due to the voltage supplied via D9103 and R9110, and consequently, the OPTO-COU-PLER remains permanently on. Pin 1 of IC9000 is therefore held at a low potential, and no output will exist from pin 6. As a result the secondary supplies of +24v and +12v are removed for as long as the standby condition exists.

During this standby mode, the voltage supply for the OPTO-COUPLER is obtained from R967 on the main power supply. It is then fed via PL4902 on the sub-audio panel to +5v regulator IC4903, then from PL4904 to D9103 on the subpower supply, then via R9106 to pin 1 of the OPTO-COU-PLER.

Remote control and selection circuit:

The remote control receiving unit U001, contains an infra red amplifier. This is powered by the +5v supply fed via R058.

The signal output from pin 2 of U001 is then applied to pin 35 of IC001 via R059.

This I.C. performs channel selection, customer control adjustments, on-screen displays, search tuning, teletext selection, and controls the switching functions of IC1401.

IC002 is the memory I.C., which stores the data relating to the above functions, then transfers that information to IC001 when required.

Both of these I.Cs. are powered by the +5v supply.

X001, C018 and C019, supply IC001 with a basic clock frequency, which controls all operating functions of the I C.

From switch on IC001 must be initially reset. This is performed by IC004.

As the +5v rises from switch on, pin 3 of IC004 is held "Low". This is applied to pin 33 of IC001, thus resetting the I.C.

Once pin 1 of IC004 has almost reached its +5v potential, the "Low" at pin 3 is removed. Pin 33 of IC001 will then become "High" via R057, thus releasing the reset condition.

Should a sudden drop in voltage occur, the reset circuit may not be fast enough to follow it, and the initial reset conditions of IC001 could be affected.

To prevent this happening, Q008 and Q009 stages have been added to monitor the +9v supply.

Under normal conditions, Q008 remains off, and therefore Q009 is also off. However, should the +9v fall, the emitter of Q008 will maintain its voltage due to the charge held by C009, but the base voltage will drop. Q008 will then conduct and applies a voltage to Q009 via R022 and ZD004. Q009 then turns on, and pulls pin 33 of IC001 "Low", thereby resetting the I.C.

When the +9v rises again, Q008 and Q009 will turn off once more, and the reset condition will be released.

Pin 17 of IC001 outputs a "Low" when the T.V. is switched on. This is applied to Q011, turning the transistor off. A "High" is then applied to Q952 base on the power supply panel via R097, R960, and R959.

This turns the transistor on, applying a "Low" to R957 and ZD906, thereby turning on Q956 and Q953. The +9v and 25v supplies required to operate the chassis are then made available.

When search tuning is initiated, the clock and data outputs applied to the tuner from pins 40 and 41 of IC001 cause the tuning procedure to commence.

Once a broadcast has been located, the video signal from pin 12 of the I.F. assembly unit is input to pin 1 of IC320 via Q321 and Q4453.

The output from pin 5 of IC320 then goes "Low", and this is applied to pin 11 of IC001 as an "IDENT" signal, causing the I.C. to halt the tuning procedure. IC001 will then monitor the AFC input at pin 9 to obtain the optimum signal.

Whilst searching for a signal, pin 5 of IC320 remains "High". This turns Q322 on, which pulls low the input to pin 36 of IC1401, causing the T.V. screen to remain blank during the search routine.

All customer control levels such as brightness and contrast etc., are determined by outputs from IC001. The volume and balance outputs to the headphones (which can be set by the customer), are controlled by the clock and data outputs from pins 40 and 41.

When the on-timer is set, and the T.V. has been placed into its standby mode, the output from pin 18 of IC001 will alternate between "High" and "Low". This causes Q012 to turn off and on alternately. This action turns the light emitting diode D019 off and on, thereby giving an indication that the timer mode is in operation.

The outputs from pins 19 and 20 of IC001 are determined by the type of sound received.

When a NICAM stereo broadcast is being received, both these pins go "Low" and therefore both D020 and D021 will illuminate.

Should the transmission authorities broadcast a dual language programme, only one diode will light up. This will

Page 9

depend on which of the dual languages are chosen, using the remote control handset.

When a mono broadcast exists, both pins 19 and 20 will become "High", therefore, D020 and D021 will remain off.

The clock and data outputs to operate the Tuner, NICAM assembly, Teletext assembly, IC402 and IC1401, are obtained from pins 40 and 41 of IC001.

The red, green and blue outputs for the on-screen displays, are made available from pins 22, 23, and 24 respectively, with a blanking signal from pin 25. The components L003, C016, and C017 determine the oscillating frequency of the display. The horizontal and vertical inputs at pins 26 and 27 of IC001, determine the actual position of the display on the screen.

To prevent any interference occurring between the onscreen display inputs and the luminance signal at pin 7 of IC501, Q010 and Q013 have been added.

When an on-screen command is received, the blanking output from pin 25 of IC001 will be applied to the base of Q013 via emitter follower Q010, turning the transistor on, effectively removing the luminance input at pin 7 of IC501.

When the standby command is received by IC001, the "Low" at pin 17 will be removed. A "High" is then applied to Q011 base via R040, turning the transistor on.

The collector will then become "Low", and consequently, Q952 on the power supply will be turned off.

As a result, both Q953 and Q956 will turn off, thereby removing the +9v and +25v supplies. This shuts down the sound output I.C., and the deflection timebase stages, placing the T.V. into its standby condition.

Should a PAL 60 transmission be received, there will be a change in the potential at pin 7 of IC001. This is applied to pin 5 of the vertical output I.C. via R621, correcting the scan to maintain a consistent height.

Teletext circuit:

The three I.Cs. which control the teletext operations are IC2201 type CF72306, IC2202 type CF72307, and IC2210 type TMS4464-10L.

The basic operation of these I.Cs. are as follows:-

IC2201.....Data slicer IC2202.....Decoder

IC2210.....Memory (256k byte)

The data and clock signals from pins 40 and 41 of IC001, are input to IC2202 at pins 36 and 37, and R.G.B. teletext signals are output from pins 20, 18 and 16.

During teletext mode, a "High" is output from pin 15 of IC2202 and applied via IC502, to IC501 pin 24 as the fast blanking signal. This alters the internal switching of IC501, so that only the teletext R.G.B. signals input to pins 28, 2, and 5 of IC501, are output to the C.R.T. base transistors.

This "High" applied to IC502 also changes the internal switching, so that the R.G.B. inputs at pins 3, 5, and 7 are output from pins 16, 13, and 11.

IC2203 performs the reset operation for IC2202 when the T.V. is first switched on, or brought out of its standby condition.

Until the voltage at pin 1 of IC2203 reaches 4v5, pin 3 remains "Low", and this is applied to pin 29 of IC2202, initiating the reset condition. When pin 1 exceeds 4v5, the "Low" is removed from pin 3, and pin 29 of IC2202 becomes "High" via R2209, releasing the reset condition.

The crystal X2201 provides the required oscillator for IC2201, and from this a clock output is made available at pin 15. This is then input to pin 9 of IC2202.

IC2201 has two main functions. The first is to acquire the teletext information.

The video signal from pin 19 of IC1401 is input to the teletext panel, and applied to pins 2 and 3 of IC2201.

From this, teletext clock and data signals are obtained, and output from pins 12 and 13, then input to pins 11 and 12 of IC2202.

The video signal is also input to pin 25 of IC2202, then output from pin 26. This signal is returned to the chassis for luminance processing during normal T.V. operation.

The second function is to supply a composite sync. signal.

The video input to IC2201 at pins 2 and 3, produces a sync. signal from pin 19, which is then input to pin 3 of IC2022.

IC2210 is the memory control, which stores and retrieves all relevant data required for operating and storing favourite pages etc.

Page 10

DICTUDE AND CONTROL AD JUSTMENTS

AGC Adjustment:

1 Switch TV on and allow to warm up for at least two minutes.

2 Beceive a signal with a level of -47dBm.

3. Connect a voltmeter to the AGC terminal of tuner. i.e. +ve leg of C103

4. Adjust variable control at top of I.F. unit (see adjustment position drawings) until meter reads 6v8 +/- 0v1.

1. Switch T.V. on, receive Philips circle test pattern, and set contrast and brightness levels to maximu

2. Connect a voltmeter to the +ve leg of C701.
3. Adjust VR951 so that meter reads 146v +/- 0v2.

Horizontal Phase

1. Receive Philips circle test pattern.

2. Adjust VR502 to centralise picture.

Vertical Center:

1. Receive Philips circle test pattern.
2. Set contrast and brightness levels to maximum.
3. Operate S601 (3 position switch) until the center of circle

is at the mechanical center of screen.

Vertical Height Adjustment: 1. Receive Philips test pattern

2. Set contrast and brightness levels to maximum.
3. Adjust VR601 to obtain the desired picture height.

Pin Cushion Adjustment

1. Receive Philips test pattern.

2. Set contrast and brightness to obtain normal viewing

3 Adjust VB755 so that the vertical lines at outside edges of screen are as perpendicular as possible.

4 Adjust VR752 to improve the vertical lines so they become as perpendicular as the vertical lines at the centre of the screen

5. Adjust VR751 so that the castellations at each side of the screen just disappear from view

6. Repeat this procedure until the optimum result is achieved

Focus Adjustment:

1. Receive Philips circle test pattern setting colour level to minimum, and contrast and brightness levels to maximum. 2. Adjust contrast so that the first two bars of the colour bar display become black.

3 Adjust brightness so that the 3rd and 4th bars of the grey scale bar display are the same colour black as in step 2.

4. Adjust the focus control (upper control on flyback transformer) to obtain the best overall focus.

Delay Line Adjustment:

1 Receive Philips circle test pattern, and set colour adjustment to achieve normal viewing level.

2. Adjust VR501 to minimise venetian blind effect in section "B" of the test card as shown below

3. Next adjust L501A to minimise the venetian blind effect in the magenta portion of circle pattern.

4. Repeat steps 2 and 3 for the best overall result.

Page 11

CUT OFF AND SCREEN ADJUSTMENT

PREPARATION:

(i) Preset the red, green and blue background controls on the C.R.T. base to the positions shown.

viewed from top

(ii) Set the customer controls as follows:- Contrast = 0

Colour = 0 Brightness = Approx. mid point

(iii) Receive horizontal white line, or red raster pattern from a Philips pattern generator.

METHOD.

1. Adjust screen control on the flyback transformer until the horizontal line is just visible and its colour can be seen.

2. Do not touch the background control of the colour that is most prominent on the screen, but adjust the other two background controls until a reasonable white line is obtained.

3. Connect an oscilloscope probe to each of the R.G.B. cathodes in turn and leave connected to the one with the highest level.

4. Set customer brightness so that the cathode value is no greater than 140v as shown below.

5. Disconnect oscilloscope, and set screen control so that the white horizontal line is just visible once more.

WHITE BALANCE

PREPARATION:

(i) Set the customer controls as follows:- Contrast = 0

Colour = 0

Brightness = Approx. mid point

(ii) Receive the white raster pattern.

(iii) Obtain and set up a combined colour analyser and light meter, e.g. MINOLTA CA100.

METHOD:

1. Adjust brightness customer control so that the light output from the white raster reads Y = 1 $\rightarrow$ 2 cdm-² on the light meter.

2. Next adjust the red and blue background controls to obtain the colour chromaticity co-ordinates of

The above co-ordinates represent a colour temperature of 7400k

Page 12

PROTECTION CHECKS

High Voltage Limit Check:

1. Switch T.V. on and set contrast and brightness levels to maximum.
2. Connect a 470K resistor in parallel with R718/R718A, and ensure that picture and sound disappear instantly.
3. Switch T.V. off, remove resistor, and wait 10 15 seconds
4. Switch T.V. on again, check that normal operation is resumed. Return contrast and brightness levels to their original settings.

Anode/Focus s/c Check:

1. Switch T.V. on and set contrast and brightness levels to maximum.
2. Connect a 390R (20 30 Watt) resistor from pin 9 of the flyback transformer to ground.
3. Check that picture and sound disappear instantly.
4. Switch T.V. off, remove resistor, and wait 10 15 seconds.

5. Switch T.V. on again, and check that normal operation is resumed, then return contrast and brightness levels to their original settings.

POSITION OF ADJUSTMENT CONTROLS

Page 13

SOME WAVEFORMS FOR CP2574TAN, CP2874TAN. THESE WERE TAKEN ON A COLOUR BAR SIGNAL, USING AN OSCILLOSCOPE SET TO 20µ SECS/CM UNLESS OTHERWISE STATED, AND A 10:1 PROBE.

IC001 pin 26 6v0 p.p.

IC001 pin 27 4v0 p.p. at 0.5m sec/cm

IC402 pins 3 and 7 3v0 p.p. at 0.5m sec/cm

IC402 pins 5 and 9 3v0 p.p. at 0.5m sec/cm

IC402 pin 15 1v0 p.p. at 0.5m sec/cm Volume at maximum

IC402 pin 18 1v3 p.p. at 0.5m sec/cm Volume at maximum

IC402 pin 26 3v0 p.p. at 0.5m sec/cm

IC451 pin 4 1v0 p.p at 0.5m sec/cm A2 Stereo/Dual Sound only

IC451 pin 5 1v75 p.p. at 1m sec/cm A2 Stereo/Dual Sound only

IC320 pin 1 2v2 p.p.

IC402 pin 10 2v0 p.p. at 0.5m sec/cm IC402 pin 13 2v6 p.p. at 0.5m sec/cm Headphone volume at maximum

IC402 pin 23 2v0 p.p. at 0.5m sec/cm

at 0.5m sec/cm

at 0.5m sec/cm A2 Stereo/Dual Sound

10402

pin 27 0v2 p.p.

IC402

pin 29

IC451 pin 7

0v5 p.p.

IC451 pin 8 1v0 p.p.

only

0v15 p.p.

Page 14

IC451 pin 9 1v8 p.p. at 0.5m sec/cm NICAM only IC451 pin 10 3v2 p.p. at 0.5m sec/cm NICAM only

IC451 pin 19 0v4 p.p. at 0.05µ sec/cm

IC501 pin 8 0v25 p.p. at 5m sec/cm

IC501 pin 9 0v5 p.p. at 1μ sec/cm

IC501 pin 12 3v7 p.p. at 5m sec/cm

IC501 pin 13 7v5 p.p.

IC501 pin 19 1v0 p.p.

IC501 pin 22 0v08 p.p.

IC591 pin 1 5v0 p.p.

IC591 pin 3 8v0 p.p.

--------------------------------------

IC451 pin 11 3v0 p..p. at 0.5m sec/cm

IC451 pin 12 3v0 p.p. at 0.5m sec/cm

IC501 pin 4 4v5 p.p.

IC501 pin 7 0v6 p.p.

IC501 pin 10 2v0 p.p.

IC501 pin 11 0v9 p.p.

IC501 pin 15 0v4 p.p.

IC501 pin 17 2v2 p.p.

IC501 pin 26 4v2 p.p.

IC501 pin 29 4v0 p.p.

IC591 pin 6 0v25 p.p.

IC591 pin 7 0v5 p.p.

Page 15

IC601 pin 2 4v p.p. at 5m sec/cm

IC601 pin 3 2v0 p.p. at 5m sec/cm

IC601 pin 7 1v5 p.p. at 5m sec/cm

IC601 pin 13 32v p.p. at 5m sec/cm

IC751 pin 5 35v p.p.

IC751 pin 7 0v5 p.p.

IC3201 pin 15 1v0 p.p.

IC3201 pin 18 1v5 p.p.

IC3201 pin 26 0v7 p.p.

IC3201 pin 30 1v1 p.p.

IC4451 pin 8 28v p.p. at 0.5m sec/cm at max. volume

IC4451 pin 10 28v p.p. at 0.5m sec/cm at max. volume

IC601 pin 6 2v0 p.p. at 5m sec/cm

IC751 pin 1 1v0 p.p.

IC751 pin 2 1v8 p.p.

IC3201 pin 7 2v0 p.p.

IC3201 pin 11 0v04 p..p.

IC3201 pin 20 2v5 p.p.

IC3201 pin 23 0v7 p.p.

IC4451 pin 1 0v8 p.p. at 0.5m sec/cm at max. volume

IC4451 pin 5 0v8 p.p. at 0.5m sec/cm at max. volume

IC1401 pin 16 2v5 p.p. at 0.5m sec/cm

IC1401 pin 17 2v5 p.p. at 0.5m sec/cm

Page 16

IC1401 pin 19 2v8 p.p.

IC1401 pin 21 2v0 p.p.

IC1401 pin 30 2v5 p.p.

IC1401 pin 34 2v5 p.p. at 0.5m sec/cm

IC4600 pin 8 1v5 p.p. at 0.5m sec/cm

IC4600 pin 9 1v5 p.p. at 0.5m sec/cm

IC4604 pin 1 1v5 p.p. at 0.5m sec/cm

IC4604 pin 3 1v5 p.p. at 0.5m sec/cm

Q321 base 0v15 p.p.

Q321 emitter 0v09µ p.p.

Q501 base 2v1 p.p.

Q501 emitter 1v3 p.p.

IC1401 pin 22 2v5 p.p. at 0.5m sec/cm

IC1401 pin 23 2v5 p.p. at 0.5m sec/cm

IC1401 pin 35 2v5 p.p. at 0.5m sec/cm

IC1401 pin 36 1v0 p.p.

IC4600 pin 30 1v5 p.p. at 0.5m sec/cm

IC4600 pin 32 1v5 p.p. at 0.5m sec/cm

IC4604 pin 5 2v1 p.p. at 0.5m sec/cm

IC4604 pin 9 2v1 p.p. at 0.5m sec/cm

Q322 base 0v7 p.p.

Q322 collector 1v7 p.p.

Q505 base 2v2 p.p.

Q505 emitter 2v2 p.p.

Page 17

Q601 base 2v0 p.p. at 0.5m sec/cm

Q601 emitter 2v0 p.p. at 0.5m sec/cm

Q603 collector 2v6 p.p. at 0.5m sec/cm

Q701 collector 70v p.p.

Q701 base 2v0 p.p.

Q602 base 1v5 p.p. at 0.5m sec/cm

Q602 collector 1v5 p.p. at 0.5m sec/cm

Q603 emitter 2v2 p.p. at 0.5m sec/cm

Page 18

VOLTAGE MEASUREMENTS

These voltages were taken on a colour bar signal, using a 20kΩ/volt meter, with colour, contrast and colour set to give normal viewing levels.

SIGNAL BOARD ICs

	IC001 ST6 (MICRO)
Pin	Volts	Pin	Volts	Pin	Volts	Pin	Volts
1	not used	11	0v1 (4v4)	20	3v8 (0v1)	35	4v8
2	0v2 - 4v5		(no sig.)		(stereo)	36	500
ļ	(cont.)	\| 12 \|	Ov	21	Ov	37	Ov
3	0v2 - 4v2	\| 13 \|	5v0 (0v)	22	0v	38	Ov
	(bri.)		(prog -)	23	Ov	39	5v0
4	0v2 - 4v9	14	5v0 (0v)	24	0v	\| 40 \|	3v7
	(col.)		(prog +)	25	0v (4v6)	41	3v7
5	0v - 5v0	15	5v0 (0v)	ł	(no sig.)	42	5v0
	(sharp.)		(vol +)	26	3v6
6	not used	16	5v0 (0v)	27	4v2
7	0v (5v0)		(vol -)	28	4v5
	(pal 60)	17	0v (4v3)	29	4v6
8	5̈̈̈̈̈̈́v0 (0v́)		(standby)	30	0v
	(N Reduce ON)	18	Šv1 (0v1)	31	*
9	5v0 (2v7)		(standby)	32	2v6
	(AFC on)	19	3v8 (0v1)	33	5v0
10	0v í		(stereo)	34	Ov
					* trips out when touched	1

IC002 ST24C16
Pin	Volts	Pin	Volts
1 2 3		5 6 7	3v7 3v7 0v 5v1

IC002 ST24C16
in	Volts	Pin	Volts
1 2 3	Ov Ov Ov	5 6 7	3v7 3v7 0v
4	Οv	8	5v1

	IC005 7805
Pin	Volts
1	27v
2	Ov
3	5v1


	IC121 7812
Pin	Volts
1 2 3	14v7 0v 12v2

IC320 TDA9120
Pin	Volts	Pin	Volts
1 2 3 4	4v4 0v not used 4v8	5 6 7 8	0v1 not used 0v 12v2


	IC451 TDA9840
Pin	Volts	Pin	Volts
1 2	3v7 3v2	11 12	2v4 2v4
3	3v9	13	not used
4 5	2v4 2v4	14
6	2v4	16	Ov
8	2v4 2v4	17	2v4 4v8
9	2v4	19	3v0
10	2v4	20	377

IC481 TDA2822M
Pin	Volts	Pin	Volts
1	2v4	5	0v6
2	5v7	6	Ov
3	2v4	7	0v
4	٥v	8	0v6

	IC402 TDA9860
Pin	Volts	Pin	Volts	Pin	Volts
1 2 3 4 5 6 7 8 9 10 11	not used not used 4v0 7v9 4v0 8v0 4v0 0v 4v0 4v0 4v0 4v0 4v0	12 13 14 15 16 17 18 19 20 21 22	4v0 4v0 4v0 3v7 3v7 4v0 4v0 4v0 4v0 4v0 4v0	23 24 25 26 27 28 29 30 31 32	4v0 4v0 0v 4v0 not used 4v0 not used not used not used

IC501 STV2100
Pin	Volts	Pin	Volts	Pin	Volts
1 2 3 4 5 6 7 8	6v5 2v9 8v7 2v6 2v8 6v5 2v8 (0v) 4v4	12 13 14 15 16 17 18	4v2 4v4 1v4 - 3v0 (cont.) 2v2 0v 4v3 1v5 - 4v6	21 22 23 24 25 26 27	6v0 (3v3) 3v7 4v6 0v1 (1v0) 1v0 - 2v6 (bri.) 2v8 6v4
9 10 11	2v1 1v3 0v	19 20	(col.) 2v7 3v6 (0v)	28 29 30	3v2 2v8 8v8

() = no signal

Page 19

IC502 TEA5114A
Pin	Volts	Pin	Volts
1 2 3 4 5 6 7 8	3v4 0v 3v4 3v5 3v5 3v5 3v5 3v5 0v	9 10 11 12 13 14 15 16	0v1 (1v0) 0v1 (1v0) 2v8 0v1 (1v0) 2v8 8v7 0v1 (1v0) 2v8

Pin	Volts	Pin	Volts
1	4v3	5	4v3
2	3v6	6	4v3
3	4v4	7	4v3
4	0v	8	8v8

IC601 LA7838
Pin	Volts	Pin	Volts
1 2 3 4 5 6 7	8v5 3v8 4v2 4v3 0v 4v2 3v9	8 9 10 11 12 13	26v8 3v0 1v2 0v 14v4 27v5

	IC1401 TA8777N
Pin	Volts	Pin	Volts	Pin	Volts	Pin	Volts
1	10v3	10	6v3	19	4v5	28	5v9
2	6v2	11	6v3	20	0v	29	8v4
3	5v9	12	5v9	21	4v5	30	4v2 (3v2)
4	6v3	13	6v3	22	5v0	31	0v
5	5v9	14	6v3	23	5v0	32	3v7
6	6v3	15	5v9	24		33	3v7
7	5v9	16	5v0	25	_	34	6v3
8	6v3	17	5v0	26	—	35	6v3
9	5v9	18	٥v	27	4v0	36	5v9

() = Text

		IC32	201 HA11559NT
Pin	Volts	Pin	Volts	Pin	Volts
1	8v4	11	3v0	21	Ov
2	8v8	12	5v2	22	not used
3	3v4	13	6v0	23	5v1
4	4v5	14	4v9	24	5v6
5	6v0	15	3v8	25	not used
6	4v2	16	4v2	26	3v5
7	5v2 (4v8)	17	4v2	27	0v
8	1v3	8	6v6	28	5v5
9	not used	19	5v9	29	0v9
10	3v8	20	0v5	30	4v1

-
0	=	no	signa	١

IC4451 TDA7263
Pin	Volts	Pin	Volts
1 2 3 4 5 6	1v6 1v6 16v6 1v6 1v6 0v	7 8 9 0 11	0v 14v8 30v1 14v8 not used

() = no signal

SIGNAL BOARD TRANSISTORS

	Q003	Q004	Q008	Q009	Q010	Q011
C B	0v 1v5 - 4v6	0v 5v0	3v0 8v8	4v0 0v	8v8 0v	3v9 (0v1) 0v (4v3)
Е	0v	5v0	8v8	0v	0v	0v (0v)

() = standby

	Q012	Q013	Q121	Q321	Q322	Q441
C	0v (0v)	2v8	7v1	6v9	2v1 (0v1)	8v6
B	5v0 (0v2)	0v	5v5	4v2	0v1 (0v7)	4v0
E	4v1 (0v9)	0v	4v9	3v5	0v	3v4

() = standby

() = no signal

	Q442	Q443	Q444	Q445	Q501	Q502
C	8v6	0v	0v	0v	8v4	8v4
B	4v0	8v1	0v	0v	4v1	4v1
E	3v4	8v5	0v	0v	3v4	3v4

Page 20

	Q503	Q504	Q505	Q601	Q602	Q603
C	0v9	0∨9	8v8	8v9	4v3	6v4
B	6v0	6∨0	3v1	4v0	0v7	2v2
E	6v6	6∨6	2v5	3v3	0v2	1v6

	Q804	Q1310	Q1320	Q1321	Q1399	Q3100
C	0v1	4v9 (3v9)	0v5	0v5	8v6	8v3
B	8v9	4v2 (3v2)	1v1	1v1	4v5	3v1
E	8v6	0v	5v9	5v8	3v8	2v5

() = no signal

	Q3101	Q3202	Q3205	Q3209	Q4451	Q4452
C	4v0	8v3	5v7	0v (3v8)	16v6	0v
B	3v3	1v2	5v0	4v3 (0v)	0v2	28v
E	0v	0v6	0v	0v	0v	28v

() = Noise Reduction on

	Q4454	Q4455	Q2011
C	0v2	26v8	5v3
B	11v5	3v5	3v8 (3v3)
E	11v4	3v9	3v1 (2v7)

() = teletext

DOLBY BOARD ICs In the following tables, L = Left , R = Right, C = Centre, S = Surround

			IC4600 LA2700N
Pin	Volts	Pin	Volts	Pin	Volts
1	4v9 HALL/MATRIX	10	0v8	22	9v5
	3v1 DOLBY mode	11	5v8	23	9v5
	0v1 noise gen.	12	5v8	24	5v8
2	0v noise gen. L/R	13	5v8	25	5v8
} '	5v0 other modes	14	9v6	26	5v8
3	0v noise gen. C/L	15	9v6	27	11v8
	5v0 other modes	16	5v8	28	5v8
4	4v3 PHANTOM (SW4901)	17	5v8	29	5v8
	0v PRO LOGIC (SW4901)	18	5v7	30	5v8
5	0v DOLBY mode	19	5v7 OFF mode	31	5v8
	5v other modes		3v7 other modes	32	5v8
6	5v8	20	5v7 OFF mode	33	5v8
7	5v8		3v7 other modes	34	5v5
8	5v8	21	5v7 OFF mode	35	0v1
9	5v8		3v7 other modes	36	1v8

Page 21

		IC4601	LV1000	NA
Pin Volts	Pin	Volts	Pin	Volts	Pin	Volts
1 0v HALL/ 9v other n 2 11v6 3 3v6 4 3v7 5 5v9 6 5v9 7 6v0 8 3v8 9 3v8 10 3v8 11 6v0 12 5v9 13 5v8 14 3v7 15 3v6	OFF 16 nodes 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31	6v0 6v0 not used 11v8 not used not used not used not used 5v0 2v5 2v5 2v5 2v5 1v3 3v8 2v4	32 33 34 35 36 37 38 39 40 41 42 43 44 45 46	4v3 0v 2v5 2v0 2v1 2v5 2v5 2v5 2v1 1v3 2v6 2v6 2v6 2v6 not used not used not used 11v2 6v2 DOLBY+OFF	47 48 49 50 51 52 53 54 55 56 57 58 59 60	6v2 DOLBY+OFF 9v0 other modes 5v9 5v9 5v9 5v9 5v9 6v1 6v0 6v0 5v9 5v9 5v9 0v 5v9

IC4602 SAA1300
Pin	Volts	Pin	Volts
1 2	0v 5v0	6	0v noise C/S 5v0 other modes
3	5v0 other modes		0v noise L/R 5v0 other modes
4	5v0 DOLBY mode 0v other modes	8	3v7 3v7
5	0v DOLBY mode 5v0 other modes


	IC4604 TDA9860
Pin	Volts	Pin	Volts	Pin	Volts
1	4v0	12	4v0	24	4v0
2	\|0v2 DOLBY+OFF\|	13	4v0	25	8v1
	6v8 other	14	4v0	26	not used
3	4v0	15	4v0	27	4v0
4	8v0	16	3v7	28	4v0
5	4v0	17	3v7	29	4v0
6	8v1	18	4v0	30	4v0
7	not used	19	4v0	31	0v2 DOLBY+OFF
8	0v0	20	4v0		6v7 other
9	4v0	21	4v0	32	4v0
10	4v0	22	4v0
11	4v0	23	4v0

IC4603 KM4164
Pin	Volts	Pin	Volts
1	4v3	9	1v3
2	2v4	10	2v1
З	3v8	11	2v5
4	1v3	12	2v5
5	2v5	13	2v1
6	2v5	14	2v0
7	2v5	15	2v5
8	5v0	16	0v

	IC4605 HCF4053BE
Pin	Volts	Pin	Volts
1 2 3	5v0 5v0 5v0	11 12	11v9 DOLBY Ov other Ov DOLBY
4 5 6 7	5v0 5v0 0v 0v	13 14	5v other 3v1 3v1 DOLBY 0v1 noise gen
9 10	0v 0v2 DOLBY 6v8 other 0v2 DOLBY 6v8 other	15 16	4v9 other 5v0 11v9

	IC4606 BA4558
Pin	Volts	Pin	Volts
1	6v0	5	5v9
2	6v0	6	6v0
3	5v9	7	5v9
4	0v	8	11v9

IC4608 BA4558
Pin Volts Pin Volts
1 2 3 4	6v0 6v0 5v9 0v	5 6 7 8	6v0 5v9 5v9 11v9

IC4607 BA4558
Pin	Volts	Pin	Volts
1	5v9	5	5v9
3	5v9 6v0	6 7	6v0
4	0v	8	11v9

	IC4610 HCF4053BE
Pin	Volts	Pin	Volts
1	11v9 DOLBY 11v5 other	10	0v2 DOLBY+OFF 6v8 other
2	not used	11	0v2 DOLBY+OFF
3	6v0		6v8 other
4	5v9	12	5v9
5	5v9	13	5v9
6	0v	14	5v9
7	0v	15	6v2 DOLBY+OFF
8	0v		11v5 other
9	0v7	16	11v9

IC4611 7805
Pin	Volts
1 2 3	11v8 0v 5v0

Page 22

DOLBY BOARD TRANSISTORS

	Q4601	Q4602	Q4604	Q4605	Q4606
С	10v DOLBY+OFF 0v other	0v	10v HALL+OFF 0v other	0v HALL+OFF 9v0 other	11v9 DOLBY Ov other
В	0v DOLBY+OFF 6v8 other	10v DOLBY+OFF 0v other	0v2 HALL+OFF 6v7 other	10v HALL+OFF 0v other	0v HALL+DOLBY 4v6 other
Е	Ov	Ov	Ov	Ov	Ov

POWER/DEFLECTION BOARD ICs

IC901 CNX82A
Pin Volts Pin Volts
1 2 3	130v5 (56v) 129v5 (55v) not used	4 5 6	-4v6 (-0v1) 0v4 (0v1 not used

() = standby

IC751 TEA2031A
Pin	Volts	Pin	Volts
1 2 3 4	6v5 6v5 6v4 0v	5 6 7 8	10v1 26v8 10v 10v

IC902 CNX82A
Pin	Volts	Pin	Volts
1 2 3	9v0 (0v1) 7v8 (0v) not used	4 5 6	4v5 (0v2) 4v5 (5v7) not used

() = standby

i	IC	IC951 MC7809CT
	Pin	Volts
	1 2 3	11v6 0v 9v0

POWER/DEFLECTION BOARD TRANSISTORS

	Q701	Q702	Q703	Q704	Q705	Q706
C	0v	206v	0v	A 3v8	26v9	1v1
B	0v	0v	146v7	G 0v	11v2	1v6
E	32v	0v	147v	K 0v	10v6	2v4

	Q901	Q902	Q903	Q904	Q951	Q952
C	2v2	-4v5	328v	-4v5	130v (55v)	0v1 (13v9)
B	0v4	-2v6	0v	-2v6	7v5	0v7 (0v)
E	0v	-4v4	0v	-4v4	6v9	0v

() = standby

	Q953	Q954	Q956	Q957
C	11v7	0v (4v1)	30v9 (0v6)	0v
B	11v1	0v7 (0v)	30v3 (13v9)	3v8
E	11v8	0v	31v (14v4)	3v8

() = standby

SUB-POWER SUPPLY ICs

IC9000 UC3844
Pin	Volts	Pin	Volts
1 2 3 4	1v9 2v2 0v 0v	5 6 7 8	0v 0v5 15v1 5v0

OP9000 CNX82A
Pin	Volts	Pin	Volts
1 2 3	10v4 9v3 not used	4 5 6	0v 1∨9 not used

IC9100 TL431CLP
Pin	Volts
A G K	0v 2v5 9v3

Page 23

SUB-POWER SUPPLY TRANSISTORS

	Q9000	Q9001	Q9002	Q9100	Q9101
C	323v (345v)	0v	S 14v5	9v3	0v
B	14v5 (12v)	3v2	G 0v	0v	0v8
E	14v5 (12v)	3v7	D 5v5	0v	0v

() = standby

CRT BASE TRANSISTORS

	Q801	Q802	Q803	Q811	Q812	Q813
C	111v -160v	97v5 -151v	105v9 -153v5	8v3	8v3	8v3
B	8v8	8v8	8v8	2v8 - 1v1	2v9 - 1v1	2v9 - 1v1
E	8v3	8v3	8v3	2v4 - 9v9	2v4 - 0v8	2v4 - 0v8

	Q851	Q852
C	0v	0v9
B	0v9	0v
E	1v6	0v

SUB-AMPLIFIER BOARD ICs

	IC4901	TDA2009	A		IC4902	TDA2009	A		IC49	03 LM780
Pin	Volts	Pin	Volts	Pin	Volts	Pin	Volts	F	' in	volts
1 2 3	1v3 0v7 14v2	7 8 9	0v 12v5 25v9	1 2 3	1v4 0v7 14v2	7 8 9	0v 13v 25v9		1 2 3	27v 0v 5v0
5 6	1v3 0v	11	12v5 12v5	4 5 6	1v4 0v	11	12v9 13v

	IFIER	BOARD	TRANSISTO	RS

	Q4901	Q4902	Q4903	Q4991	Q4992	Q4993
C	0v7	4v8	0v	0v	0v	0v
B	27v	0v	0v7	0v1	0v1	0v1
E	27v	0v	0v	0v	0v	0v

Page 24

NOTES

Page 25

SIGNAL AND CONTROL CIRCUIT

Page 26

POWER SUPPLY AND DEFLECTION CIRCUIT

Page 27

AUDIO SUB-AMP CIRCUIT

SUB-POWER CIRCUIT

Page 28

DOLBY CIRCUIT

Page 29

C.R.T. BASE CIRCUIT

Page 30

TELETEXT CIRCUIT

Page 31

SIGNAL AND CONTROL P.C.B. PRINT SIDE

Page 32

POWER SUPPLY AND DEFLECTION P.C.B. PRINT SIDE

Page 33

POWER SUPPLY SUB-PANEL P.C.B. PRINT SIDE

Page 34

DOLBY P.C.B. PRINT SIDE

Page 35

AUDIO SUB-AMP P.C.B. PRINT SIDE

Page 36

C.R.T. BASE P.C.B. PRINT SIDE

Page 37

PRESENTATION PARTS

A C.R.T. TYPE A59EDN43X01 A C.R.T. TYPE A66EDN43X01 A CABINET BACK CP2574TAN A CABINET BACK CP2874TAN CABINET FRONT CP2574TAN CABINET FRONT CP2874TAN CABINET FRONT CP2874TAN CONTROL DOOR	T159012 T166016 X240336 X263343 X212414 X212404 X263142
HITACHI BADGE	X640242
INFRA RED LENS (Cabinet)	X425051
A MAINS LEAD WITH MOULDED PLUG	2972374
MAINS ON/OFF KNOB	X321031
OPERATING GUIDE (SPAIN)	X830858
OPERATING GUIDE (BELGIUM)	X830860
OPERATING GUIDE (SWEDEN/NORWAY)	X830879
QUICK GUIDE (SPAIN)	X830890
QUICK GUIDE (BELGIUM)	X830909
QUICK GUIDE (SWEDEN)	X830880
REMOTE CONTROL HANDSET	X100023
SPEAKER BOXES (REAR)	X263271
SPEAKER BOXES (FRONT)	X263272

MISCELLANEOUS PARTS

⚠ C.R.T. BASE SOCKET	2698351
⚠ DEGAUSSING COIL CP2574TAN ⚠ DEGAUSSING COIL CP2874TAN	2274361 2274362
EXTENSION SPEAKER SOCKETS (E4450/1, SK4901/2/3)	2983041
⚠ FUSE TYPE 4A (F901) FUSE HOLDER FOR F901	E882376 2721792
HEADPHONE SOCKET	2679382
⚠ MAINS ON/OFF SWITCH	2633391
PHANTOM/PRO LOGIC SWITCH (SW4901)	E142206
SCART SOCKETS	2986121
SPEAKERS (WOOFER 4Ω)	E511117 E511121
S-VHS SOCKET/PHONO SOCKET ASSEMBLY SCART PLUG AND LEAD	2673821 E847141
TOUCH BUTTON BLOCK (SW001)	E139408

Page 38

PRODUCT SAFETY NOTE: Components marked with a A have special characteristics important to safety. Before replacing any of these components, read carefully the PRODUCT SAFETY NOTICE of this service manual. Don't degrade the safety of this reciever through improper servicing.

Resistor Abbreviation	Туре
CF	Carbon Film
MO	Metal Oxide
FF	Fusible Film
VR	Variable Control
MF	Metal Film
WW	Wire Wound


Capacitor Abbreviation	Туре
C PF FT MPO MPS MP TA	Ceramic Plastic Film Feed Through Met.Polyester Mica/Polystyrene Metallised paper Tantalum

Ref No.	Part No.	Value	Туре	% To l	Wattage
R002	0700049M	4K7	CF	5	1/16
R003-07	0700054M	10K	CF	5	1/16
R008	0700049M	4K7	CF	5	1/16
R009	0700054M	10K	CF	5	1/16
R010	0700049M	4K7	CF	5	1/16
R011	0700054M	10K	CF	5	1/16
R012	0700052M	6K8	CF	5	1/16
R013	0700057M	18K	CF	5	1/16
RU14	0700067M	100K	UF OF	5	1/16
RUI5 ROIG	0700054101			5	1/10
RU10 D017	0700054101			5	1/10
R012	070003110	31/0		5	1/16
R019	07000401M	11/0	CF	5	1/16
R020	0700041M	2K2	CF	5	1/16
R021	0700054M	10K	CF	5	1/16
R022	0700041M	1K0	ĊF	5	1/16
R023	0700058M	22K	ĊF	5	1/16
R024	0700054M	10K	ĊF	5	1/16
R025	0700054M	10K	CF	5	1/16
R026	0700054M	10K	CF	5	1/16
R027	0700041M	1K0	CF	5	1/16
R028	0700054M	10K	CF	5	1/16
R029	0700054M	10K	CF	5	1/16
R030	0700041M	1K0	CF	5	1/16
R031	0700076M	470K	CF	5	1/16
R032	0700027M	100R	CF	5	1/16
R037	0700034M	330R	CF	5	1/16
R038	0700034M	330R	CF	5	1/16
R039	0700072M	220K	CF	5	1/16
R040	0700054M	10K		5	1/16
RU42	070005410			5
RU43				5	1/10
R044-47	070004110			5	1/10
R052	070004110	68K		5	1/10
R054	B1/5319	15K	CE	5	1/2
R057	070005414	10K	CE	5	1/16
R058	0700034M	100B	CF	5	1/16
R059	0700027M	100R	CF	5	1/16
R065	0700027M	100R	CF	5	1/16
R066	0700036M	470R	CF	5	1/16
R067	0700054M	10K	CF	5	1/16
R068	0700054M	10K	CF	5	1/16
R071	R150319	100K	CF	5	1/2
R072	0700054M	10K	CF	5	1/16
R073	0700036M	470R	CF	5	1/16
R076	0700046M	2K7	CF	5	1/16
1 R078	0700054M	10K	CF	5	1/16
R0/9	0700046M	2K7	CF	5	1/16
RU8U BOR1	0/0002/M	100R		5	1/16
	070003610	4/0K		5	1/16
D000	0700041101			5	1/10
R087	0700032101	22011		5	1/10
B088	0700040101	106		2	1/10
B089	0700049M	4K7		5	1/10
R092	0700049M	4K7		ן א ה	1/16
R094	0700027M	100R	CF	5	1/16
R097	R130330	1K0	CF	5	1/4
R099	0700041M	1K0	CF	5	1/16
R101	0700027M	100R	CF	5	1/16
R102	0700027M	100R	CF	5	1/16
R103	0700038M	680R	CF	5	1/16

Ref No.	Part No.	Value	Туре	%Tol	Wattage
R121	0700042M	1K2	CF	5	1/16
R122	0110209M	33R	MO	5	2
R123	R628330	680R	CF	5	1/4
R124	R812549	82R	MO	5	2
R304	0187038M	75R	CF	5	1/16
R306	0187038M	75R	CF	5	1/16
R307	0700054M	10K		5	1/16
H308	018/038M	/5K		5	1/16
R309	U700054IVI			5	1/10
H310	0700054M	/3H 10K		5	1/10
D210	0700034101	10K		5	1/10
D210	0700055M	128		5	1/16
8320	0700035M	390B	CE CE	5	1/16
B321	07000331M	1K0	CE	5	1/16
B322	B120330	100R	CF	5	1/4
B323	B618319	68B	CF	5	1/2
B326	0187038M	75R	CF	5	1/16
B328	0700061M	33K	ĊF	5	1/16
R329	R125330	150R	CF	5	1/4
R350-55	0187031M	39R	CF	5	1/16
R401	0700067M	100K	CF	5	1/16
R402	0700036M	470R	CF	5	1/16
R403	0700067M	100K	CF	5	1/16
R404	0700067M	100K	CF	5	1/16
R405	0700036M	470R	CF	5	1/16
R406	0700067M	100K	CF	5	1/16
R411	0700067M	100K	CF	5	1/16
R412	0700036M	470R	CF	5	1/16
R413	0700067M	100K	CF	5	1/16
R414	0700067M	100K		5	1/16
\| K415 \| D410		470K		5 5	1/10
\| K410		100K		5	1/10
R422	0700027101			5	1/10
R423	0700027101	11/0		5	1/10
R439	070004110	1K0		5	1/16
B440	070004110	160		5	1/16
R443	070004114	160	CF	5	1/16
R446	0700051M	5K6	CF	5	1/16
R440	0700054M	10K	CF	5	1/16
B448	0700067M	100K	ČF	5	1/16
R449	0700054M	10K	CF	5	1/16
R450	0700067M	100K	CF	5	1/16
R460	0700061M	33K	CF	5	1/16
R462-05	0700027M	100R	CF	5	1/16
R467	0700027M	100R	CF	5	1/16
R468	0700027M	100R	CF	5	1/16
R481	0700042M	1K2	CF	5	1/16
R482	0700034M	330R	CF	5	1/16
\| R483	0700042M	\| 1K2	CF	5
\| H484	0700034M	330K		5
H485	0700032M			5	1/16
H480	0700051M	3K0 1K0		5	1/10
				5	1/10
D 1900		INU FK6		5	1/10
R409		22012		0 5	1/10
R/01	B516310	56R		5	1/10
VB501	0160211R	1K0	VR	HANOVER
B501	070002111	3908	CE	5	1/16
VB502	01602288	50K	VR	HORIZ	PHASE AD.I
B502	0700034M	330R	CF	5	1/16
8503	0187062M	750B	L CF	5	1/16

Page 39

	Ref No.	Part No.	Value	Туре	%Tol	Wattage	Ref No.	Part No.	Value	Туре	%Tol	Wattage
	R504	0700045M	2K2	CF	5	1/16	R705A	R000505	0R5	мо	5	7
	R508	0700073M	270K	CF	5	1/16	R706	R339330	3K9	CF	5	1/4
	R509	0700046M	2K7	CF	5	1/16	R707	0700027M	100R	CF	5	1/16
	R510	0700054M	10K	CF	5	1/16	R708	R150319	100K	CF	5	1/2
	R511	0700047M	3K3	CF	5	1/16	R709	R319330	39R	CF	5	1/4
	R513	0700056M	15K	CF	5	1/16	R710	0110255M	2K7	MO	5	2
	R515	0700076M	470K	CF	5	1/16	R712	R110319	10R	CF	5	1/2
	R516	0700076M	470K	CF	5	1/16	R714	R822319	820R	CF	5	1/2
	R517	0700059M	27K	CF	5	1/16	R715	R145319	15K	CF	5	1/2
	R518	0700063M	47K	CF	5	1/16	R716	0700067M	100K	CF	5	1/16
	R522	0700036M	470R	CF	5	1/16	R717	0700046M	2K7	CF	5	1/16
	R523	0700036M	470R	CF	5	1/16	R718	R257721	270K	\| MF	1	1/4
	R524	0700036M	470R	CF	5	1/16	R718A	R541721	51K	MF		1/4
	R531	0700051M	5K6	CF	5	1/16	R719	0119651M	68K	MF		1/8
	R532	0700051M	5K6	CF	5	1/16	R720	0110163M	5K6	MO	5	1
Δ	R533	0700048M	3K9	CF	5	1/16	R721	0700054M	10K		5	1/16
Δ	R533A	R170714	10M	MF	5	1/2	R722	0700054M	10K		5	1/16
	R534	0700048M	3K9	CF	5	1/16	R/23	R150330	TUUK		5	1/4
	R535	0700041M	1K0	CF	5	1/16	R/25	0110177M	22K		5	1/0
	R536	0700036M	470R	UF or	5	1/16	R/26	R142319	12K		5	1/2
	R537	0700036M	470K		5	1/10	R/Z/	R349330	39K		) E	1/4
1	R538	0700034101	330K		5	1/10	H/28	R048330	000		5 5	1/4
	R540	R130330		다	5	1/4	R729	H832330	8KZ		5	1/4
	R545	0700054101	IUK	다	5	1/10	H/30	H343330	33N 41/7		р Б	1/4
	R547	0700041M	1K0		5	1/16	R/32	01409335	4K7		5	1/4
	R548	0700041101			5	1/10	H/33	N130330			5 5	1/4
	R049 DEE0	0700020101	82R		5	1/10	N/34 D725	D222220	100h 21/2		5	1/2
	N000	0700007101	1000		5	1/10	N730 8726	R526330	560B		5	1/4
1	R554	07000271W	267		5	1/16	VR751	0160214R	5601		WIDTH	ΔD.I
	R555	0700040M	165	CE	5	1/16	R751	B237330	267	CF	5	1/4
	R556A	07000401M	1K0	CF	5	1/16	VB752	F311072	470K	VR	PARABOLA	AMP ADJ
	R557	0700032M	220B	CF	5	1/16	R752	R437330	4K7	CF	5	1/4
	R558	0700038M	680R	ČF	5	1/16	R753	R165716	1M5	MF	5	1/4
	R559	0700041M	1K0	CF	5	1/16	R754	0700058M	22K	CF	5	1/16
	R560	0700041M	1K0	CF	5	1/16	VR755	0160215R	10K	VR	TILT	ADJ
	R561	0700041M	1K0	CF	5	1/16	R755	0187106M	51K	CF	5	1/16
	R563	0700054M	10K	CF	5	1/16	R756	0700061M	33K	CF	5	1/16
	R579	0700069M	150K	CF	5	1/16	R757	R150330	100K	CF	5	1/4
	R584	0700031M	180R	CF	5	1/16	R758	0700049M	4K7	CF	5	1/16
	R585	0700031M	180R	CF	5	1/16	R759	R339330	3K9		5	1/4
1	R586	0700031M	180R	CF	5	1/16	R760	R140542	10K		5
	R591-94	0700063M	4/K		5	1/16		0160225	IUK		RED BACK	SROUND
	R595	070004410	1K8		5	1/10		0100040101	2K7
	H596	0700048101	3K9		5	1/10		0100220	21/7		GREEN BAU	1/16
	H09/	0700034101	2001/		5	1/10		0160225	2107 1017			GROUND
	R500	070007510	350K		5	1/16	R803	07000225	267	CE	5	1/16
:	VB601	01602188	50K		VERT	CENTRE AD L	B804	0110273S	15K	мо	5	2
	R601	0700065M	68K	CE	5	1/16	VR805	0700037M	560R	CF	5	1/16
	R602	0700076M	470K	CF	5	1/16	R805	0110273S	15K	MO	5	2
	R603	0700054M	10K	CF	5	1/16	VR806	0700037M	560R	CF	5	1/16
	R604	0700059M	27K	CF	5	1/16	R806	0110273S	15K	MO	5	2
	R605	0700045M	2K2	CF	5	1/16	R807	R237319	2K7	CF	5	1/2
	R606	0700059M	27K	CF	5	1/16	R808	R237319	2K7	CF	5	1/2
	R607	0700059M	27K	CF	5	1/16	R809	R237319	2K7		5	1/2
	R608	0700062M	39K		5	1/16	H811	0/00041M	1K0		5	1/10
	R609	0700046M	2K7		5	1/16	H812	0700041M	1K0		5	1/10
	R610	0700058M	22K		5	1/16	1 K813	0700041M			5	1/10
	R611	0113684M	282		5	1/2		0700035101	390R		5	1/10
	R612	0113684IVI	2K2		5	1/2		0700035101	200D		5	1/16
	HDI3	H128319				1/2		0700033IVI 0700024M	56B		5	1/16
	N014	D120220	1000		5	1/10	R919	0700024W	56R		5	1/16
	DC1C	D120330			5	1/4		0700024M	56R	CF	5	1/16
	R617	0700066M	821		5	1/16	B820	0700024M	330B	CF	5	1/16
	R618	0700041M	11/1	CF	5	1/16	R821	0700041M	1K0	ČF	5	1/16
	R619	0700054M	10K	CF	5	1/16	R821	0700027M	100R	CF	5	1/16
	R620	0700066M	82K	CF	5	1/16				(sign	al/contro	panel)
	R621	0700054M	10K	CF	5	1/16	R822	0700041M	1K0	\| CF	5	1/16
	R622	0700063M	47K	CF	5	1/16	R822	0700027M	100R	CF	5	1/16
	R623	0700045M	2K2	CF	5	1/16				(sign	al/contro	panel)
	R624	0700052M	6K8	CF	5	1/16	R823	0700041M	1K0	CF	5	1/16
	R625	0700036M	470R	CF	\| 5	1/16	R823	0700067M	100K	CF	5	1/16
	R626	0700059M	27K	CF	5	1/16		D100010	11/0	(sign	al/contro	panel)
	R628	0700054M	\| 10K		5	1/16		K130319	11/0		5	1/Z 1/16
	H/03	H832330	BK2		5	1/4	R852	0700041171	1NU 82012		5	1/16
	11/00		UND		L		11052	0700039101	02011	L		1/10

Page 40

	Ref No.	Part No.	Value	Туре	%Tol	Wattage	[	Ref No.	Part No.	Value	Туре	%Tol	Wattage
	R853	0700032M	220R	CF	5	1/16		R2214	0700027M	100R	CF	5	1/16
	R854	0700054M	10K	CF	5	1/16		R2231	0700051M	5K6	CF	5	1/16
	R855	0700027M	100R	CF	5	1/16		R3100	0700027M	100R	CF	5	1/16
	R901	R842319	82K	CF	5	1/2		R3101	R526330	560R	CF	5	1/4
	R902	0110137M	470R	MO	5			R3102	0700037M	560R	CF	5	1/16
	R903	R110856	100R	WW	5	5		R3103	0700057M	18K	CF	5	1/16
	R904	0700048M	3K9	CF	5			R3104	R427330	470R		5
	R905	0700051M	5K6		5	1/16		R3105	0700042M	1K2		5
	H906	0700041M	1KU		5	1/16		H310b	0187062101	/50K		5 5	1/10
	H9U/	07000481VI	3K9 100D		5			HJ2U2 D2202	0700067101	11/0		) D	1/10
	D000	070005214			) 5	1/4		D2203	070004110	100K		5	1/16
	R010	011401514	0N0 9R2		5	1/10		R3204	B257330	270K		J 5	1/10
	R911	B120330	100R	CE	5	1/4		R3204A	0700044M	1K8	CE	5	1/16
	B912	0700032M	220B	CF	5	1/16		R3207	0700049M	4K7	CF	5	1/16
	R913	R150319	100K	CF	5	1/2		R3208	0700048M	3K9	CF	5	1/16
	R914	0700057M	18K	CF	5	1/16		R3209	0700051M	5K6	CF	5	1/16
	R915	0700055M	12K	CF	5	1/16		R3211	0700027M	100R	CF	5	1/16
	R916	0700055M	12K	CF	5	1/16		R3214	0700051M	5K6	CF	5	\| 1/16 \|
	R917	0700041M	1K0	CF	5	1/16		R3215	0700051M	5K6	CF	5	1/16
	VR951	0160211	1K0	VR	нт	ADJ		R3216	0700069M	150K	CF	5	1/16
Í	R951	R437330	4K7	CF	5	1/4		R3217	0700039M	820R	CF	5
	R952	R648319	68K	CF	5	1/2		R3218	0700049M	4K7		5
	R953	R842319	82K		5	1/2		R3219	U/UUU49IVI	4K/		5
	N304	R832319	8KZ		5	1/2		NJ220 R2221	070005114	2301		5	1/16
	R057	01102530	00UN 2K2		5	1/4 2		110221 R3222	070005110	566		5	1/10
	R958	01102000	2112 2117		5	1/16		R3224	070005111	22K		5	1/16
	B959	0700040W	160		5	1/16		R3225	0700054M	10K		5	1/16
Ĺ	R960	0187072M	2K0	CF	5	1/16		B3226	0700054M	10K	CF	5	1/16
	R961	0700041M	1K0	CF	5	1/16		R3227	0700027M	100R	ČF	5	1/16
	R962	0700046M	2K7	CF	5	1/16		R3228	0700041M	1K0	CF	5	1/16
	R963	0700047M	3K3	CF	5	1/16		R3235	0700041M	1K0	ĊF	5	1/16
	R964	R329319	390R	CF	5	1/2		R3236	0700041M	1K0	CF	5	1/16
	R966	0700064M	56K	CF	5	1/16		R3237	0700053M	8K2	CF	5	1/16
	R967	R125542	150R	MO	5	1		R3239	0700067M	100K	CF	5	1/16
	R968	R230330	2K0	CF	5	1/4		R3243	0700037M	560R	CF	5	1/16
	R969	R130330	1K0	CF	5	1/4		R3244	0700056M	15K	CF	5	1/16
	R970	R526330	560R	CF	5	1/4		R4451	0700045M	2K2		5
	R981	0700041M	1K0		5	1/16		R4453	0700041101			5	1/16
Ц	R999	K1/U/Z/ 0700027M	1000		5	1/16			HZ34330			5	1/4
	R1301-00	07000271VI R220210	2000		5	1/10		R4400 R4466	B23/330	21/1		5	1/10
	R131/	R329330	200B		5	1/2		R4450	0700023M	47B		5	1/16
	B1315	R526330	560B	CF	5	1/4	Δ	R4458	B407551	4R7	FF	5	1/2
	R1320	0700065M	68K	ČF	5	1/16	Δ	R4459	R407551	4R7	FF	5	1/2
	R1321	0700065M	68K	CF	5	1/16		R4460	0700054M	10K	CF	5	1/16
	R1322	0700054M	10K	CF	5	1/16		R4461	0700054M	10K	CF	5	1/16
	R1323	0700054M	10K	CF	5	1/16		R4462	0700061M	33K	CF	5	1/16
	R1324	0700051M	5K6	CF	5	1/16		R4463	0700051M	5K6	CF CF	5	1/16
	R1325	0700051M	5K6	CF	5	1/16		R4464	R812330	82R	CF	5	1/4
	R1326	0700041M	1K0	CF	5	1/16		R4465	R339330	3K9		5	1/4
	R1327	0700041M	1K0	CF	5	1/16		R4466	R120330	100K		5
	n1399 R1401 14	070003010	4/UK		5	1/10		11440/ R//69	U14/524	4700		UI R	1//
	R1401-14	0700027101			) р Г	1/10		04400 R4470	0700063M	470n 17K		5	1/16
	R1452	0187038M	75R		\| 5 \| 5	1/16		R4471	0700054M	10K		5	1/16
	R1453	0700067M	100K	C.F	5	1/16		R4472	0700054M	10K	CF	5	1/16
	R1454	0700067M	100K	CF	5	1/16		R4473	0700027M	100R	CF	5	1/16
T	R1456	0187038M	75R	CF	5	1/16		R4474	0700038M	680R	CF	5	1/16
	R2002	0700027M	100R	CF	5	1/16		R4745	0700043M	1K5	CF	5	1/16
	R2003	0110105M	22R	мо	5	1		R4476	0700027M	100R	CF	5	1/16
	R2004	0700027M	100R	CF	5	1/16		R4477	0700054M	10K	\| CF	5	1/16
	R2005	0700054M	10K	CF	5	1/16		R4601	0700063M	47K	CF	5	1/16
	R2011	0700035M	390R	CF	5	1/16		R4602	0700041M	\| 1K0	CF	5	1/16
	H2013	0700059M	27K	CF	5	1/16		H4604	0700063M	47K	CF	5	1/16
	K2050	0700027M	100R		5	1/16		K4605	0700058M	22K	CF	5
	H2U51	0700027M			5	1/16		H4006		22K		5
	R2201	0700041M			5	1/16		0400/ D4600				5	1/10
		0700041M			5			04000 04600	070005614			5	1/10
	R2203-00 \|	0700037101	1K0		5	1/10		RAGIO	0700050101	471		5	1/10
	B2208	0700059M	27K	CF	5	1/16		R4611	0700056M	15K	CE	5	1/16
	B2209	0700067M	100K	CF	5	1/16		R4612	0700063M	47K	CF	5	1/16
				0.5	Ē	1/16		B4612	0187072M	2K0		L E	1/16
1	R2210	0700021M	338	1 11-	3	\| 1/10		114010	010/07/2141	1 2110		1 0
	R2210 R2211	0700021M 0700021M	33R 33R	CF	5	1/16		R4614	0187086M	7K5	CF	5	1/16
	R2210 R2211 R2212	0700021M 0700021M 0700021M	33R 33R 33R	CF CF CF	5 5 5	1/16 1/16 1/16		R4614 R4615	0187086M 0700055M	7K5 12K	CF CF	5	1/16

Page 41

Ref No.	Part No.	Value	Туре	%Tol	Wattage		Ref No.	Part No.	Value	Туре	%Tol	Wattage
R4617	0700063M	47K	CF	5	1/16		R4929	0700048M	3K9	CF	5	1/16
R4618	0700063M	47K	CF	5	1/16		R4930	0700067M	100K	CF	5	1/16
R4619	0700054M	10K	CF	5	1/16		R4940	0700041M	1K0	CF	5	1/16
R4620	0700067M	100K	CF	5	1/16		R4941-44	0700055M	12K	65 65	5	1/16
R4621	0700053101	8K2		5	1/10		R4945 R4946	0700065M	10K 68K		5	1/10
R4622	070005310	10K2		5	1/16		R4992	0700054M	10K	CF	5	1/16
R4624	0700034M	39K	CF	5	1/16		R4993	0700054M	10K	ČF	5	1/16
R4625	0700053M	8K2	CF	5	1/16		R4994	0700054M	10K	CF	5	1/16
R4626	0700056M	15K	CF	5	1/16		R4995	0700067M	100K	CF	5	1/16
R4627	0700047M	3K3	CF	5	1/16		R4996	0700067M	100K	CF	5	1/16
R4628	0700063M	47K		5	1/16		R4997	0700067M	100K		5	1/16
R4629	0700081M	1 M0		5	1/16		K9000 R0001	K343549	33K 207		5	2 1/4
R4030	0700072101	220K		5	1/10		R9007	R000706	5K6	ME	1	1/4
B4632	0700072M	56K	CF	5	1/16		R9003	B812330	82R	CF	5	1/4
R4633	0700064M	56K	CF	5	1/16		R9004	R130330	1K0	CF	5	1/4
R4634	0700067M	100K	CF	5	1/16		R9005	R000505	0R5	MO	5	7
R4635	0700067M	100K	CF	5	1/16		R9006	R427549	470R	MO	5	2
R4636	0700054M	10K	CF	5	1/16		R9007	R323330	330R	CF CF	5	1/4
R4037	070005410			5	1/10		R9008	R323330 R150330	100K		5	1/4
R4642	0700057M		CE	5	1/16		R9011	R145330	15K	CF	5	1/4
R4643	0700067M	100K	CF	5	1/16		R9013	R333721	3K3	MF	1	1/4
R4644-47	0700027M	100R	CF	5	1/16		R9014	R145330	15K	CF	5	1/4
R4648	0700063M	47K	CF	5	1/16		R9015	R142330	12K	CF	5	1/4
R4649	0700057M	18K	CF	5	1/16	(	R9016	R150330	100K	CF	5	1/4
R4650	0700057M	18K		5	1/16		K9017 R0019	R546330	50K 47R		5	1/4
R4051 B4652		100K		5	1/10		R9019	R353714	330K	ME	5	1/2
B4653	0700067M	100K	CF	5	1/16		R9021	R000707	19 1K	MF	1	1/4
R4654	0700054M	10K	CF	5	1/16		R9022	R000505	OR5	мо	5	7
R4655	0700054M	10K	CF	5	1/16		R9023	R242330	22K	CF	5	1/4
R4656	0700054M	10K	CF	5	1/16		R9100	R812551	82R	FF	5	1/2
R4657	0700063M	47K	CF	5	1/16		R9101	R138542	1K8		5	1/4
R4658	0/00063M			5	1/10		R9103 R0104	B145721	15K			1/4
R4009	0700046M	267		5	1/16	1 1	R9105	B150330	100K	CF	5	1/4
R4661	0700054M	10K	CF	5	1/16		R9106	R526330	560R	CF	5	1/4
R4662	0700054M	10K	CF	5	1/16		R9107	R252330	220K	CF	5	1/4
R4663	0700054M	10K	CF	5	1/16		R9108	R323542	330R	MO	5	1
R4664	0700063M	47K	CF	5	1/16		R9109	R130330	1K0	CF	5	1/4
R4665	0700063M	47K		5	1/16		R9110	8339330	3K9	\| UF	5	1/4
R4bbb		100K		5	1/10
R4668	0700001M	1600	CF	5	1/16
R4669	0700054M	10K	CF	5	1/16
R4671	0700049M	4K7	CF	5	1/16
R4672	0700049M	4K7	CF	5	1/16
R4673	0700027M	100R		5	1/16
R4674 R4675	070002710	1008		5	1/10
R4675	0700027M	1001		5	1/16				1
R4680	0700041M	1K0	CF	5	1/16
R4681	0700041M	1K0	CF	5	1/16			1				ł
R4700	0700041M	1K0	CF	5	1/16
R4901	R526319	560R		5				l	}	}	\|	\|
K4902	H118330			5		\| \|
R4904	R232330	2K2		5	1/4
R4905	R118330	18R	CF	5	1/4			ł
R4906	R407330	4R7	CF	5	1/4	\|			1
R4907	R427319	470R	CF	5	1/2				\|	1	\|
R4908	R407330	4R7	CF	5	1/4
\| K4909	K118330			5
R4910	R118330	4/0K		5	1/2			Į.				l
R4912	R407330	4R7	CF	5	1/4	1			ł		1	\|
R4913	0700064M	56K	CF	5	1/16						l
R4914	0700064M	56K	CF	5	1/16	l.						1
R4915	0700073M	270K	CF	5	1/16	1
H4916	0700049M	4K7		5	1/16	ļ		ļ	ļ			]
R4917		1 22K 4K7		5	1/10	ļ						ļ
R4924	0700054M	10K	CF	5	1/16	1						]
R4925	0700054M	10K	CF	5	1/16				1
R4927	0700064M	56K	CF	5	1/16							l
R4928	0700046M	2K7	CF	5	\| 1/16	j	L	\|		Ĺ

Page 42

Ref No.	Part No.	Value	Туре	%Tol	Voltage		Ref No.	Part No.	Value	Туре	%Tol	Voltage
C003	0880057R	100n	PF	10	50		C488	0800073R	470u	EL	-	10
C004	0880057R	100n	PF	10	50		C489	0800024R	22u	EL	-	25
C005	0800015R	10u	EL	-	16		C490	0800024R	22u	EL	-	25
C007	0800005R	2u2	EL	-	50		C491	0800015R	10u	EL	-	16
C008	0880057R	100n	PF	10	50		C492	0800015R	10u	EL	-	16
C009	0800032R	33u	EL	-	16		C493	0880057R	100n	PF	10	50
C010	C648715	68n	MPO	10	63		C494	0880057R	100n		10	50
C011-14	0890067R	33p	C	5	50		C501	0880044R	10n			50
C016	0890065R	22p	U O	5	50		C502	0880057R	1000			50
C017	0890065R	220		5	50		C503	08900076	33µ 10p		10	50
C010	0890003R	\| 15p		5	50		C507	00000440	2211	FI	- 10	16
C015 C021	00300031	\| 22µ \| 10n		10	50		C512	08800578	100n	PF	10	50
C021	000004411 0880056R	22011	FI		63		C513	0890074B	100n	c i	5	50
C023	0800072R	4700	FI	-	6.3		C514	0880037R	3n3	PF	10	50
C024	C343877	33n	C	10	25		C515	C457715	470n	MPO	10	63
C025	0800049R	100u	EL	-	16		C517	0276721R	220n	PF	5	50
C030	0880057R	100n	PF	10	50		C518	0880057R	100n	PF	10	50
C034	0800053R	100u	EL	-	50		C520	0800081N	1000u	EL	-	10
C040	0890074R	100p	C	5	50		C521	0276717R	100n	\| PF	5	50
C101	0800049R	100u	EL	- \|	16		C522	0880057R	100n			50
C102	0890073R	470u	EL	-	10		C523	0880057R	100n		10	50
C103	0800015R	10u		- 10	16		C524	08901188	22p		5 10	50
C104	U880057R	1000		10	50		C525	00000510	4/11 22n		10	50
0121 C122	08000156	100		•	10		C520	0800001h	202	FI	-	50
C122	00000101	100		10	50		C528	0800081N	10000	FI	_	10
C123	C150877	100n		10	25		C530	0276717R	1000u	PF	5	50
C251	0800047B	1000	EL	-	63		C531	0880057R	100n	PF	10	50
C252	0800049R	100u	EL	-	16		C533	0880057R	100n	PF	10	50
C304	0800073R	470u	EL	-	10		C534	0800015R	10u	EL	-	16
C314	0800073R	470u	EL	-	10		C541	0800015R	10u	EL	-	16
C321	0800057R	220u	EL	\| -	10		C542	0800015R	10u	EL	-	16
C322	0800003R	1u0	EL	- \|	50		C544	0276717R	100n	PF	5	50
C323	0890085R	680p	С	- \|	50		C545	C150715	100n	MPO	10	63
C324	0800003R	1u0	EL	-	50		C546	0880057R	100n	PF		50
0400	0800015R	10u		-	16		C547	08900788	220p		10	50
	U8UUU15K			-	10		C570	08800448	100 120 m		5	50
	08000156	100			10		C578	08900756	100u		\| 5 \| -	31.5
C412	08000158		FI		16		C581	00000000000000000000000000000000000000	100u	PF	5	50
C421	08000488	1000	FI		10		C582	0800122R	100	EL		16
C422	0800086N	22000	EL	-	10		C583	0276717R	100n	PF	5	50
C423	0880051R	33n	PF	10	50		C584	0800122R	10u	EL	-	16
C425	0880041R	5n6	PF	10	50		C585	0276717R	100n	PF	5	50
C428	0880041R	5n6	PF	10	50		C586	0800122R	10u	EL	- \|	16
C430	0880051R	33n	PF	10	50		C587	0800049R	100u	EL	-	16
C431	0890087R	1n0	C	-	50		C588	0890078R	220p	C	10	50
C432	0890087R	1n0		-	50		C591	0890074R	100p		5	50
C438	08000038	1000		-	50		L592 C502	08800448	100			50
C442	0800081	1.0000		-	50		C593	00000400	100		10	50
C451	08000031				16		C595	003011411	100 n	Č	5	50
C452	08800448	100	PF	10	50		C596	0880031B	1n0	PF	10	50
C453	0880057R	100n	PF	10	50		C599	0800081N	1000u	EL	\| -	10
C454	0880037R	3n3	PF	10	50		C601	0254506R	220u	EL	-	16
C455	0800056R	220u	EL	- \|	6.3		C602	0276729	1u0	PF	5	50
C456	0252396R	10u	\| EL	\| -	16		C603	0258112R	100u	EL	- \|	50
C457	0252396R	10u	EL	- \|	16		C604	0890061R	10p		- \|	50
U458	0800005R	2u2		\| •	50		C605	0252416R	0u47		- \|	50
C459	0800005R	202		-	50			0253934	2200u		- 10	\| 3\|5 \| 100
C461	0880044K	100-			50			02790938	1000		10	100
C401	08800440	1000		10	50		0000	02550466	100			25
C463	08000446	100	FI		16		C603	08800318	407 1n0		10	50
C464	0890069B	47n	C	5	50		C611	0800077N	470u	EL	-	50
C465	0890114R	10p	Č	\| .	50		C612	0880009R	10n	PF	10	50
C470	0252396R	100	EL	- \|	16	\|	C614	0800009R	4u7	EL	- \|	25
C471	0252396R	10u	EL	\| -	16		C616	0800009R	4u7	EL	-	25
C472	0880044R	10n	PF	10	50		C617	C252715	220n	MP0	10	63
C473	0880044R	10n	PF	\| 10	50		C701	0253491	100u	EL	- 1	200
0481	0880042R	6n8	PF	10	50		C702	0800044R	47u	EL	-	50
0482	U880042R	6n8	\| PF	\| 10	50		C703	0250511R	22n	\| PF		50
C483	0800039R	47u	EL				C704	U244501R	100-			500
C485	00300748			5	50		C705	0262425	100p		5	50 1900
C486	08900748	470 100c		5	10		C700	0202433	0112 27n		5	630
C467	0880057R	100p	PF	10	50		C708	0246344	1000	C C	10	2000
L			1 ''	L_''	1	1	0.00		1	L

Page 43

ſ	Ref No.	Part No.	Value	Туре	%Tol	Voltage		Ref No.	l
ſ	C709	0246357	1n0	С	10	2000		C1303
	C710	0244507R	3n3	С	10	500		C1304
	C711	0243512R	820p	С	10	500		C1305
	C712	0244213	1n5	С	10	2000		C1306
	C712A	0246364	3n3	С	10	2000		C1307
	C713	0253952R	1u0	EL	-	160		C1309
	C713A	0253952R	1u0	EL	- 10	160		C1320
	C715	0299931F	270n		10	200		01321 C1222
	C715	0299932	10000	FF	10	200		C1322
	C717	0243507B	330n	C C	10	500		C1401
	C718	0253971	4117	FL	-	250		C1403
	C719	0800015R	10u	EL	-	16		C1404
	C720	C343710	33n	MPO	10	250		C1405
	C721	0880031R	1n0	PF	10	50		C1406
	C722	0880031R	1n0	PF	10	50		C1407
	C723	0299995F	27n	PF	5	630		C1408
	C724	0800052R	100u	EL	-	31.5		C1409-14
	C725	0246357	100	U TI	10	2000		C1410
	C750	0000109h	100 100		10	50		C1410
	C751	0299932	330n	PE	10	200		C2001
	C752	02999929	180n	PF	10	200		C2201
	C753	0800018R	10u	EL	-	50		C2202
	C755	C447715	47n	MPO	10	63		C2203
	C756	C232715	2n2	MP0	10	63		C2204
1	C757	C140877	10n	С	10	25		C2205
	C758	0800052R	100u	EL	-	31.5		C2206
	C759	C150877	100n	U MDO	10	25		C2209
	C901	0255021	1000		10	200		C2210
	C807	0200001	470 220n		10	200		C2211
	C803	0890078B	220p 220p	č	10	50		C2214
	C804	0890078R	220p	Č	10	50		C2215
	C805	0890079R	270p	С	10	50		C2216
	C806	0890079R	270p	С	10	50		C2217
1	C806	0800057R	220u	EL	-	10		C2227
	C007	000070D	070-	(sign	al/contro	panel)		UZ228
	C807	0090079h 0242512B	270µ 820n		10	500		C2223
	C851	024331211 0800015B	10u	FI	-	16		C3100
	C852	0880044R	10n	PF	10	50		C3101
	C853	0800049R	100u	EL	-	16		C3202
	C854	0800001R	0u47	EL	-	50		C3203
	C880	0245612	4n7	C	10	1000		C3204
	C880A	E884110	10n	SPARK	GAP	2000		C3205
NÍ	C907	0279090	22011 An7			400		C3200	Ĺ
Ν	C904	C648712	68n	MP	10	275 AC		C3208
	C905	C001544	220u	EL	•	400		C3209
	C906	0244215R	2n2	C	10	2000		C3210
	C907	0880044R	10n	PF	10	50		C3211	Į
	C908	C457715	470n	MPO	10	63		C3212
	C909	0880033R	105	PF	10	50		03213	[ ]
	C910	000003211	100n		5	10 50		C3214
	C912	C457715	470n	MPO	10	63		C3219
	C913	0890081R	330p	C C	10	50		C3221
Ά	C914	0249498	1n0	С	10	50		C3222
	C915	0246353	470p	С	10	2000		C3223
١	C916	C648727	68n	PF	10	630		C4451
14	C917	C648712	68n	MP	10	275 AC			1
	C951	0240353	470n		10	2000		C4455
	C952 C953	0209401 0880053B	47n	PF	10	50		C4454 C4455
	C954	0800087N	2200u	EL	-	16		C4456
	C955	0800049R	100u	EL	-	16		C4457	\|
Ì	C956	0244505R	2n2	C	10	500	1	C4458
	C957	0243509R	470p	C	10	500		C4459
	C958	0800049R	100u	EL	-	16		U4460	1
	C959 C960	0243509K	4/Up		10	500 25		04401 CAA62	l
	C961	0203000	33000 47n	EL PF	10	50 50		C4463
	C962	0800073B	4700	FI	-	10		C4470
Ŵ	C998	0249498	1n0	C C	- \|	400		C4471	\|
Ά	C999	0247974	2n2	\| C	5	50		C4473	\|
	C1301	0800015R	10u	EL	-	16		C4601
	C1302	0880041R	5n6	PF	10	50		C4602	Ĺ

ef No.	Part No.	Value	Туре	%Tol	Voltage
1303	0800003R	1u0	EL		50
1304	0880041R	5n6	PF	10	50
1305	0800003R	1u0	EL	-	50
1306	0800015R	10u	EL	-	16
1307	0800005R	2u2	EL	-	50
1309	0800048K	1000	EL E1	-	10
1320	02020900 0252396R	10u 10u	FI		16
1322	0890074R	100p	C	5	50
1401	0800015R	10u ^.	EL	-	16
1402	0800015R	10u	EL	-	16
1403	0800015R	10u	EL	- 10	16
1404	0880044K	10u		10	00 16
1406	0800015R	100	FL	-	16
1407	0800015R	10u	EL	-	16
1408	0880044R	10n	PF	10	50
1409-14	0800015R	10u	EL	-	16
1416	0800081	10000	EL	-	10
1418	08000490	1000 470u	EL Fl	-	63
2002	0800015R	10u	EL		16
2201	0890078R	220p	C	10	50
2202	0890063R	15p	C	5	50
2203	0890063R	15p	C	5	50
2204	08900788	220p		10	50 60
2205	0880009R	10n	PF	10	50
2209	0276717R	100n	PF	5	50
2210	0880003R	1n0	PF	10	50
2211	0276725R	470n	PF	5	50
2213	0800109R	1u0	EL	-	50
2214	0800127R	220 100n	EL PE	- 5	50
2215	0276717R	100n	PF	5	50
2217	0800122R	10u	EL	-	16
2227	0800143R	100u	EL	-	6.3
2228	0800122R	10u	EL	-	16
2229	02/6/1/R	100n 22n	PF C	5	50
3100	0252420R	22p 4u7	EL	-	50
3101	0800015R	10u	EL	-	16
3202	0800049R	100u	EL	-	16
3203	0800049R	100u	EL	- 10	16
3204	08800098	10n 10n	PF	10	50
3206	0890115R	12p	Ċ	5	50
3207	0800003R	1u0	EL	-	50
3208	0880009R	10n	PF	10	50
3209	0880009R	10n 10u		IU	50 16
3210	0252550h	100 10n	PF	10	50
3212	0800003R	1u0	EL	-	50
3213	0243510R	560p	С	10	500
3214	0880031R	1n0	PF	10	50
3215-18	08000158	100	티	•	16
3219	0252417R	100	FI	-	50
3222	0800003R	1u0	EL	-	50
3223	0890122R	39p	С	5	50
4451	0800042R	47u	EL	-	25
4452	0800041R	47u	EL	-	16
4403	0234318K 0880057R	47U 100n	EL PF	- 10	20 50
4455	0880057R	100n	PF	10	50
4456	0800084	1000u	EL	-	31.5
4457	0800084	1000u	EL	-	31.5
4458	0253934	2200u	EL	-	31 5
4459		100n 1n0	PF c	10	50 60
4461	0880031R	1n0	PF	10	50
4462	0800003R	1u0	EL	-	50
4463	0800049R	100u	EL	-	16
4470	0890092R	2n2	C	-	50
44/1	0890092K	202		-	50 16
4601	C150877	100n	C	10	25
4602	0244117R	680p	Ċ	10	50

Page 44

	Ref No.	Part No.	Value	Type	%Tol	Voltage		Ref No.	Part No.	Value	Туре	%Tol	Voltage
CHOMO	C4603	C140877	10n	С	10	25		C4683	0252936R	10u	EL	-	16
CHOMES BINOTISA IL . ID LL . ID LL . ID ID LL . ID	C4604	C145877	15n	С	10	25		C4684	0252936R	10u	EL	-	16
C4479 C4570 C4770	C4605	0800015R	10u	EL	-	16		C4685	0252936R	10u	EL	-	16
	C4607	0800015R	10u	EL	-	16		C4686	0890087R	1n0	C	-	50
Data Description	C4608	0800015R	10u	EL		16			089008/H	100		- 10	00
	C4609	C45/421	4/Un		+80/-20	50 16		C4088	02200/12	500 506	PF	10	50
	C4010	0800049H C150977	100u 100n		- 10	25		C46690	0880041N	5n6	PF	10	50
	C4612	0253943R	0033	FL	-	50		C4691	C343715	33n	MPO	10	63
	C4613	C150877	100n	C	10	25		C4693	0800015R	10u	EL	-	16
C4816 0244117m 680p C 10 EL - 15 C4810 080003F4 4.7 EL - 25 C1703-03 0800013F1 10.0 EL - 100 C4810 0800013F1 10.0 EL - 100 EL - 100 C4810 0800013F1 100,0 C 5 50 50 C4820 C155715 150,0 MPO 10 63 C4717 0880074F 100,0 C 5 50 C4823 C155715 150,0 MPO 10 63 C4717 024105F1 100,0 C 55 60 C4826 024007F 3.3 EL - 25 C4697 02305F1 100,0 K10 53 C4826 024017F 100,0 C 10 52 C4697 C18077 100,0 K10 53 54 54	C4614	C150877	100n	Ċ	10	25		C4694	0800049R	100u	EL	-	16
CASIG DeBOODER 47 EL - 25 CHE883 DEBOODER 1.00 EL - 30 CASIG CLT0357 155, MPO 10 63 CLT0357 100, C 5 50 CASIG CLT0357 155, MPO 10 63 CLT05 DEBOOTHR 100, C 5 50 CASIG CLT05 155, 156, MPO 10 63 CLT05 DEBOOTHR 100, C 5 50 CASIG CLSSTIS 156, MPO 10 63 CLT05 DEBOOTHR 100, MPO 10 63 CASIG CLSSTIS 156, MPO 10 63 CLT05 DEBOOTHR 100, MPO 10 63 CLSSTIS 100, MPO 10 63 CLSSTIS 100, MPO 10 63 CLSSTIS 100, MPO 10 63 CLSSTIS 100,	C4615	0244117R	680p	С	10	50		C4695-98	0800015R	10u	EL	-	16
Cabin Control Cabin Contro Cabin Control Cabin Co	C4616	0800009R	4u7	EL	-	25		C4699	0800003R	1u0	EL	-	50
LBAIH CH50/Hs	C4617	0800009R	4u7	EL	-	25		C4700-03	0800015R	10u 0~0	EL	- 10	10
Display	C4618	C155/15	150n	MPU	10	63 F0		C4710-13	0244105K	202 100n	с С	5	50
CHART CLUBST IS LEG LEG DEVIS	C4619	08000078	3U3 150p		- 10	63		C4714	089007411	100p	C C	5	50
CHA22 DEGUTOPY m Sola Let - 50 C/177 DEVAHOR 2n2 C 10 50 C4623 OESOTOS M 4u7 EL - 25 C/4117 DEVALUE 221 EL - 15 C4625 DEMODER 4u7 EL - 25 C/4117 DEVALUE 2210 EL - 15 C4626 DEAH117N BEDp C 10 50 C/4117 DEVALUE 10 63 C4626 DESUBT HOM EL - 16 C/4906 DEDUZER 2210 EL - 16 C4630 OEMOLTRA HU EL - 16 C/4908 DEMOZER 2210 EL - 30 C4633 OEMOLTRA HU EL - 15 C/4101 DEMOZER 220 EL - 30 C4633 OEMOLTRA HU HL - 16	C4020 C4621	C155715	150n	MPO	10	63		C4716	0890074R	100p	č	5	50
CH622 COBODER LI D D D	C4627	0800007B	303	EL.	-	50		C4717	0244105R	2n2	С	10	50
C4625 C680009R 4u7 EL - 25 C4901 C252715 220u EL - 10 63 C4626 C024017H 6650 C 10 50 C4803 0233934 220u EL - 115 C4626 C139877 100n C 10 25 C4803 C139715 100n MFO 10 83 C4620 C139877 100n EL - 16 C4896 C189715 100n MFO 10 83 C4832 C6900487 100n MFO 10 83 C4833 C6900487 100n EL - 16 C4990 C1407715 10n MFO 10 63 C4993 C4990 C4833 C6900487 100 50 C4913 C49904284 22u EL - 50 C4635 C129715 220n MFO 10 63 C4913 C6900487 10n 10 53	C4623	C155715	150n	MPO	10	63		C4718	0244105R	2n2	С	10	50
CH625 D600059R 4.07 EL - 25 C4692 D80059R 2200 EL - 16 C4626 D253458R 0.33 EL - 50 C4690 C180715 100n MPO 10 63 C4628 C180877 100n C 10 25 C4805 C1807151 100n MPO 10 63 C4638 C1800771 100n C 10 25 C4808 C1807151 100n MPO 10 63 C4633 C690047R 100u EL - 16 C4901 0800057R 12u EL - 16 C4634 C690047R 10u EL - 16 C4911 0800057R 12u EL - 16 C4635 C123715 220n MPD 10 63 C4911 0800057R 12u EL - 16 C4635 C123715 220n	C4624	0800009R	4u7	EL	-	25		C4901	C252715	220n	MPO	10	63
C4626 C24313 R 60.03 EL - 90 C4803 C23334 R C2000 EL - 91.5 C4627 C159877 100n C 100 25 C4806 C159775 100n MFO 10 83 C4629 C159877 100n EL - 16 C4806 C159775 100n MFO 10 83 C4630 C600015R 10u EL - 16 C4808 C0800578 120u EL - 16 C4634 C600049R 100u EL - 15 C4911 08000587 220u EL - 50 C4635 C24971 220n MPO 10 63 C4912 025394 220u EL - 50 C4637 C16977 10n C 10 25 C4913 08000587 100u EL - 31.5 C4643 C68001587 10u <	C4625	0800009R	4u7	EL	-	25		C4902	0800058R	220u	EL	-	16
C4627 OC333481 0.0.33 EL - 50 C4895 C180/15 100n MFO 10 53 C4628 C180777 100n C 10 25 C4895 C180718 100n MFO 10 63 C4620 05000154 100 EL - 16 C4895 C180715 110n MFO 10 63 C4632 05000178 100n EL - 16 C4890 C180715 110n MFO 10 63 C4633 05000178 100n EL - 16 C4910 08000378 220n EL - 16 C4635 C52715 220n MFO 10 63 C4913 08000378 220n EL - 31.5 C4636 C52715 220n MFO 10 63 C4916 08000378 220n EL - 31.5 C4636 C52715 220n	C4626	0244117R	680p	С	10	50		C4903	0253934	2200u	EL	-	31.5
CH423 C159077 100n C 10 25 C4800 C159757 100n MPD 10 05 5 C4823 C159077 100n C 10 25 C4800 C159757 100n EL 0 155 C4832 C6000158 10n EL - 16 C4810 C6000578 10n EL - 16 C4832 C6000158 10n EL - 16 C4810 C6000678 2200 EL - 16 C4834 C6252715 220n MPO 10 63 C4912 023334 2200 EL - 60 C4635 C252715 220n MPO 10 63 C4913 G6600678 10n PF 10 50 C4638 C252715 220n MPO 10 63 C4916 G6600678 10n PF 10 50 C4642 G6000158 10n<	C4627	0253943R	0u33	EL	-	50		C4904	C150715	100n			63	15
L4630 C1300/F 100/II C 100/II N 100/II 100	C4628	C150877	100n	C	10	25		C4905	U150715	100n			62	Ę
LH630 DB00019h 100 EL - 16 D4383 D600029h 20 EL - 16 C4631 D800049h 100u EL - 16 C43930 DC40715 20 HD 0 63 C4634 D800049h 100u EL - 16 C4391 D880029h 220u EL - 16 C4635 C49477 D10 C3 C4912 D233834 220u EL - 50 C4636 C149477 D10 C3 C4914 D680028h 100u EL - 50 C4637 D252395h 10u EL - 16 C4914 D680028h 100u EL - 50 C4638 D24717 C150715 100n MPO 10 63 C4442 D680028h 100u EL - 16 C4642 D690015h 10u EL - 16	C4629		100n		10	25		C4900	09000528	1000			215	Ň
C4832 D000048 100, 40 EL - 16 C4893 C140715 10n MPO 10 63 C4833 D00004R 100, C4835 C252715 220n MPO 10 63 C4855 C252715 220n MPO 10 63 C4912 C253834 2200, 2200, EL - 315 C4663 C252715 220n MPO 10 63 C4912 C253834 220, EL - 315 C4638 C252715 220n MPO 10 63 C4914 B68004R 100, EL - 315 C4643 060015R 10u EL - 16 C4916 660022R 22u EL - 50 C4644 060015R 10u EL - 16 C4918 C160715 100, MPO 10 63 C4644 060015R 10u EL - 16 C4918 C160715 100, MPO 10	C4630	08000158	100	EL Fi	-	16		C4908	080003211 0800026B	2211	FI	-	50
CABS3 DBB00AR 4'U EL - 25 C4910 DBB00AR 22u EL - 50 CABS4 CDB00AR Z200 EL - 31.5 CABS5 CC32715 2200 MPD 10 63 CC4911 DBB00AR 2200.4 EL - 31.5 CABS5 CC32715 2200 MPD 10 63 CC4913 DBB002AR 220.0 EL - 31.5 CABS6 C223715 2200 MPD 10 63 CC4915 DBB0052R 100.0 EL - 31.5 CA640 OB0015R 100 EL - 16 CC4917 C150715 100.0 MPO 10 63 C4642 OB0015R 100 EL - 16 CC4913 DB0002R 220.0 EL - 16 C4642 OB0015R 100 EL - 16 CC4923 O253395 330.0 EL	C4031	08000156	100	FI		16		C4909	C140715	10n	MPO	10	63
CH453 C252715 C200 MP C 16 C4912 C23384 C200 EL - 16 C4635 C252715 C200 MP 10 C 10 25 C4913 G800028R 20 EL - 50 C4638 C252715 Z200 MP 10 63 C4915 G800028R 200 EL - 31.5 C4638 C252715 Z200 MP 10 63 C4915 G800028R 200 EL - 16 C4641 060015R 10u EL - 16 C4916 G800078 2000 EL - 15 C4644 0800015R 10u EL - 16 C4912 C40715 100 MPO 10 63 C4644 0800015R 10u EL - 16 C4921 C40715 100 MPO 10 63 C4646 0800015R	C4633	0800042R	470	EL	-	25		C4910	0800026R	22u	EL	-	50
C4638 C252715 220n MPO 10 63 C4912 0223344 2200u EL - 31.5 C4638 C10077 0n C 10 52 C4913 080002R 22.0 EL - 50 C4638 C252715 220n MPO 10 63 C4916 080005R 22.0 EL - 50 C4640 0800015R 10.0 EL - 16 C4918 C150715 100n MPO 10 63 C4642 0800015R 10.0 EL - 16 C4918 C150715 100n MPO 10 63 C4644 0800015R 10.0 EL - 16 C4922 C140715 100n MPO 10 63 C4644 0800015R 10.0 EL - 16 C4922 C140715 100n MPO 10 63 C4644 0800015R 2.0 10	C4634	0800049R	100u	EL	-	16		C4911	0800087	2200u	EL	- \|	16
C4636 C140877 100 C 100 25 C4913 090026R 22u EL - 50 C4637 C252396R 10u EL - 16 C4915 0900025R 10u EL - 31.5 C4638 C252715 220n MPO 100 63 C4916 0900025R 10u EL - 16 C4917 C150715 100n MPO 10 63 C4641 0900015R 10u EL - 16 C4919 C150715 100n MPO 10 63 C4644 0900015R 10u EL - 16 C4921 090003R 22u EL - 16 C4644 0900015R 10u EL - 16 C4922 0240335 3300u FL - 35 C4644 0900015R 10u EL - 16 C4924 024015R 2nz C 10	C4635	C252715	220n	MPO	10	63		C4912	0253934	2200u	EL	- \|	31.5
C4637 0252396R 10u EL - 16 C4914 0880048H 10n PF 10 90 C4638 C242715 220n MPO 10 50 C4916 080005R 22u EL - 50 C4640 0800015R 10u EL - 16 C4918 C150715 100n MPO 10 63 C4644 0800015R 10u EL - 16 C4918 C150715 100n MPO 10 63 C4644 0800015R 10u EL - 16 C4920 0800026R 22u EL - 150 C4644 0800015R 10u EL - 16 C4922 C140715 100n MPO 10 63 C4646 0800015R 10u EL - 16 C4922 C140715 100n MPO 10 65 C4646 0800015R 10u EL	C4636	C140877	10n	С	10	25		C4913	0800026R	22u	EL	-	50
C4638 C22715 Z20n MPU 10 63 C4915 0800026R 100 EL - 51.3 C4639 0244117R 680p C 10 50 C4915 0800026R 22u EL - 50 C4644 0800015R 10u EL - 15 C4919 C19715 100n MPO 10 63 C4644 0800015R 10u EL - 15 C4921 0800026R 22u EL - 16 C4644 0800015R 10u EL - 16 C4922 C140715 10n MPO 10 63 C4644 0800015R 10u EL - 16 C4922 C140715 10n MPO 10 63 C4644 0800015R 10u EL - 16 C4925 0800038H 47n PF 10 50 C4849 0800015R 10u EL	C4637	0252396R	10u	EL	-	16		C4914	0880044R	10n		\| 10	50
Leasy D2441/17/H Boby C IU 50 C +916 D0000267 220 EL - 30 C4640 0800015R 10u EL - 16 C4918 C130715 100n MPO 10 63 C4642 0800015R 10u EL - 16 C4918 C130715 100n MPO 10 63 C4643 C688041R 5n6 PF 10 50 C4922 0800057 220u EL - 16 C4644 0800015R 10u EL - 16 C4922 C10715 10n MPO 10 63 C4646 0800015R 10u EL - 16 C4924 C10715 100 MPO 10 63 C4646 0800015R 10u EL - 16 C4924 C10715 100 50 C4643 C4936 0244105R 2n2 C 10 50	C4638	C252715	220n	MPO		63		C4915	0800052R	100u	EL	- \|	31.5
Labai Deckulpts Lu L - 16 C-937 C-1015 Tuo	C4639	0244117R	680p		\| 10	50		C4910	0800026H C150715	220 100n		10	63
Caberi Dobulish Nu LL - 10 Cation Cation MPO 10 63 C4642 C0300157 End C 10 25 C4820 0800017 2200u EL - 16 C4644 C0380041 S600 C 10 50 C4821 0800017 2200u EL - 16 C4645 0244115R 560p C 10 50 C4922 0253353 3000u EL - 35 C4646 0800015R 10.u EL - 16 C4922 0880053R 47n PF 10 50 C4646 0800015R 10.u EL - 16 C4923 0244105R 2n2 C 10 50 C4646 0800015R 10.u EL - 16 C4924 080005R 2n2 C 10 50 C46450 0244105R 2n2 C 10	C4640	08000158	100		-	10		C4917	C150715	100n	MPO	10	63
Casa Casa Casa Casa Casa Casa Casa Casa	C4641	0800015N	100	FI	_	16		C4919	C150715	100n	MPO	10	63
C 4644 C 4645 OBSOLOTER D 24115R SEO D C PF 10 50 C 4921 OBSOLOFR C 4922 22.0 EL - 50 C 4645 D 24115R S60p C 10 S0 C 4922 C 140715 10n MPO 10 63 C 4647 D 225336R 10u EL - 16 C 4922 C 140175 10n MPO 10 63 C 4648 080001SR 10u EL - 16 C 4922 D 24105R 27.2 C 10 50 C 4649 080001SR 10u EL - 16 C 4922 D 24105R 27.2 C 10 50 C 4653 C 233715 33n MPD 10 63 C 4336 D 24105R 27.2 C 10 50 C 4653 D 28078R N 4735 024105R 27.2 C 10 50 C 4453 D 424105R 27.2 C 10 50	C4642	C638877	6n8	C	10	25		C4920	0800087	2200u	EL	-	16
C4645 C24115R 650p C 10 60 C4922 C140715 10n MP0 10 63 C4646 080015R 10u EL - 16 C4923 C253355 330u EL - 35 C4644 0800015R 10u EL - 16 C4923 C253355 330u EL - 50 C4643 0800015R 10u EL - 16 C4925 0880058R 47n PF 10 50 C4651 C437877 4n7 C 10 25 C49354 024105R 2n2 C 10 50 C4652 C437877 4n7 C 10 53 C4935 024015R 2n2 C 10 50 C4653 025347R 04072 EL - 50 C4939 0900052R 1000 EL - 16 C4653 0246670R 27p C 5	C4644	0880041R	5n6	PF	10	50		C4921	0800026R	22u	EL	-	50
C4646 0800015R 10u EL - 16 C4923 0253935 3300u EL - 35 C4647 0800015R 10u EL - 16 C4924 C150715 10n MPO 10 63 C4649 0800003R 1u0 EL - 16 C4924 C150715 10n MPO 10 50 C4650 023387 4n7 C 10 25 C4934 0244105R 2n2 C 10 50 C4652 C33715 33n MPO 10 63 C4933 0244105R 2n2 C 10 50 C4653 080038R 3n9 PF 10 63 C4933 080005R 100u EL - 16 C4933 080005R 100u EL - 16 C4933 080003R 1u0 EL - 16 C4633 080003R 1u0 EL - 50	C4645	0244115R	560p	С	10	50		C4922	C140715	10n	MP0	10	63
C4647 0252396R 10u EL - 16 C4824 C150715 100n MPO 10 63 C4649 0800013R 10u EL - 50 C4825 080005R 2/1 F 10 50 C4650 0252396R 10u EL - 16 C4825 0244105R 2/2 C 10 50 C4652 C343717 4n7 C 10 25 C4836 0244105R 2/2 C 10 50 C4653 080003R 3/3 MPO 10 63 C4836 080005R 2/20 EL - 16 C4836 080005R 2/20 EL - 16 C4836 080003R 100 EL - 16 C 2/2 C 10 50 C C4836 080003R 100 EL - 50 C C4836 080003R 100 EL - 50 C	C4646	0800015R	10u	EL	-	16		C4923	0253935	3300u	EL	-	35
C4648 Obsolves 10u EL - 16 C4225-29 Obsolves 47.1 Fr 10 30 C4649 0800005R 10u EL - 16 C4225-29 O244105R 2n2 C 10 50 C4650 0232396R 10u EL - 16 C4332 0244105R 2n2 C 10 50 C4653 0230038R 3n9 PF 10 50 C4335 0244105R 2n2 C 10 50 C4655 0233942R 0u22 EL - 50 C4393 0800058R 200 EL - 31.5 C4655 0233942R 0u22 EL - 50 C4991 0800058R 2n0 EL - 16 C4656 0248670R 27p C 5 50 C4991 08000038R 1u0 EL - 50 C46650 0248670R 27p	C4647	0252396R	10u	EL	-	16		C4924	C150715	100n			63
L4949 DB00003R ILU EL - 50 L4920-23 D24103N 2112 C 10 50 C4650 C2323877 4n7 C 10 25 C4332 C24105R 2n2 C 10 50 C4651 C33715 33 MPO 10 63 C4332 024105R 2n2 C 10 50 C4653 C33715 53 MPO 10 63 C4335 024105R 2n2 C 10 50 C4654 C648715 68n MPO 10 63 C4339 0800052R 100u EL - 16 C4655 0258670R 27p C 5 50 C4991 0800003R 1u0 EL - 50 C4656 0248670R 27p C 5 50 C4991 0800003R 1u0 EL - 50 C46650 02800058R 220u EL	C4648	0800015R	10u		-	16		C4925	0880053R	4/0		10	50
C4300 D243590 h 100 LL 10 D2000 h D244105 h 2.12 C 10 50 C4651 C4377 h A7 C 10 63 C4333 h D241105 h 2.12 C 10 50 C4652 C3377 h 68 MPO 10 63 C4335 D244105 h 2.12 C 10 50 C4654 C649715 68 MPO 10 63 C44336 0800058 h 2.02 EL - 31.5 C4655 0235942 h 0.022 EL - 50 C4939 0800038 h 1.00 EL - 50 C4656 0248670 h 27p C 5 50 C4991 0800003 h 1.00 EL - 50 C4669 0800058 h 220u EL - 16 C4993 0800003 h 1.00 EL - 50 C4660 C400077 10 n C	C4649	02522068	100		-	16		C4920-29 C4932	0244105h 0244105B	2112 2n2	Ċ	10	50
CH301 CH3017 TH7 C D D	C4050	0202090h	100 /1n7		10	25		C4934	0244105R	2n2	č	10	50
C4653 0980058R 3n9 PF 10 50 C4336 0800058R 220u EL - 16 C4654 C648715 68n WPO 10 63 C4339 0800052R 100u EL - 31.5 C4656 0253942R 0uz2 EL - 50 C4940 0244105R 2n2 C 10 50 C4656 0248670R 27p C 5 50 C4991 080003R 1u0 EL - 50 C4659 0800058R 220u EL - 16 C4993 0800003R 1u0 EL - 50 C4662 0800058R 220u EL - 16 C4993 0800003R 1u0 PF 25 250 C4662 0800058R 220u EL - 16 C9001 0276697 100n PF 25 250 C4663 0800058R 220u	C4652	C343715	33n	MPO	10	63		C4935	0244105R	2n2	С	10	50
C4654 C648715 68n MPO 10 63 C4939 0800052R 100u EL - 31.5 C4655 02384270R 27p C 5 50 C4940 0244057R 272 C 10 50 C4656 0248670R 27p C 5 50 C4931 0800003R 1n0 PF 10 50 C4658 C150877 100n C 10 25 C4993 0800003R 1n0 EL - 50 C4659 0800058R 220u EL - 16 C4933 0800003R 1n0 EL - 50 C4660 C140877 10n C 10 25 C4933 0800003R 1n0 PF 25 250 C4663 0800058R 220u EL - 16 C3002 023373 3n3 PF 2 100 C46665 0890076R 150p	C4653	0880038R	3n9	PF	10	50		C4936	0800058R	220u	EL	- \|	16	ŧ ĺ
C4655 023942R 0u22 EL - 50 C4940 0244105R 2n2 C 10 50 C4656 0248670R 27p C 5 50 C4991 080003R 1n0 PF 10 50 C4657 0248670R 27p C 5 50 C4991 080003R 1u0 EL - 50 C4659 0800058R 220u EL - 16 C4993 0800003R 1u0 EL - 50 C4661 C457421 470n C +80/-20 50 C C3994 0244105R 2n2 C 10 50 C4662 0800058R 220u EL - 16 C3001 0278697 100n PF 25 250 C4664 0800058R 220u EL - 16 C3001 0278697 100n PF 2 100 C4665 0890076R 150p C 10 50 C3004 C33713 3n3 PF 2 100	C4654	C648715	68n	MPO	10	63		C4939	0800052R	100u	EL	-	31.5	E.
C4666 0248670R 27p C 5 50 C491 088003R 1n0 PF 10 50 C4657 0248670R 27p C 5 50 C4991 088003R 1u0 EL - 50 C4658 0800058R 220u EL - 16 C4991 080003R 1u0 EL - 50 C4660 C457421 470n C 10 25 C4992 080003R 1u0 EL - 50 C4661 C457421 470n C +80/-20 50 C4994 0244105R 2n2 C 10 50 C4662 0800058R 220u EL - 16 C3002 0258973 100n PF 25 250 C4664 080058R 220u EL - 16 C3002 025373 37.3 PF 2 100 C4665 0890076R 150p C 10 25 C3006 C135715 1n5 MPO 10 63	C4655	0253942R	0u22	EL	-	50		C4940	0244105R	2n2	C	10	50
C4857 0248670R 27p C 5 50 C4931 0800003R 100 EL - 50 C4658 C150877 100n C 10 25 C4992 0800003R 100 EL - 50 C4650 C140877 10n C 10 25 C4992 0800003R 100 EL - 50 C4662 0800058R 220u EL - 16 C4993 0800003R 100 PF 25 250 C4663 0800058R 220u EL - 16 C3000 0279697 100n PF 25 250 C4666 0800058R 220u EL - 16 C3002 023873 47u EL - 400 C4666 0800058R 220u EL - 16 C3002 C33873 30u EL - 50 C4666 0800077R 1n0 C	C4656	0248670R	27p	Ç	5	50		C4941	0880031R	\| 1n0		10	50
C4633 C130877 100 C 10 23 C4932 060003R 100 EL - 50 C4659 0800058R 220u EL - 16 C4933 0800003R 1u0 EL - 50 C4661 C457421 470n C +80/-20 50 △ C3000 0279697 100n PF 25 250 C4662 0800058R 220u EL - 16 C3001 027697 100n PF 25 250 C4663 0800058R 220u EL - 16 C3001 027697 100n PF 25 250 C4664 080058R 220u EL - 16 C9003 0800069 330u EL - 50 C4666 0890076R 100 C - 50 C9005A 0890081R 330p C 100 50 C4666 080009R 4u7<		02486708	2/p		5	50		C4991	08000038		FI		50
C4660 C140877 10n C 10 C4860 C4494 C244105R 2n2 C 10 50 C4661 C457421 470n C +80/-20 50 A C4994 0244105R 2n2 C 10 50 C4662 0800058R 220u EL - 16 C9001 0279697 100n PF 25 250 C4663 0800058R 220u EL - 16 C9002 0253873 47u EL - 50 C4666 0890058R 220u EL - 16 C9003 0800069 330u EL - 50 C4666 C242877 22n C 10 25 C9005 C135715 1n5 MPO 10 63 C44668 080009R 4u7 EL - 25 C9006 C140715 10n MPO 10 63 C44670 0800009R 4u	C4038	08000588	2200			16		C4993	08000038	110	FI	- 1	50
C4661 C457421 470n C +80/-20 50 ▲ C3000 0279697 100n PF 25 250 C4662 0800058R 220u EL - 16 ▲ C9001 0279697 100n PF 25 250 C4663 0800058R 220u EL - 16 C9002 023873 47u EL - 400 C4665 0800058R 220u EL - 16 C9002 0253873 47u EL - 400 C4665 0890076R 150p C 10 25 C9004 C333713 3n3 PF 2 100 C4666 C242877 22n C 10 25 C9005 C135715 1n5 MPO 10 63 C4668 0800074 470 EL - 25 C9006 C140715 100n MPO 10 63 C4673 08900778 1n	C4650	C140877	10n		10	25		C4994	0244105R	2n2	C C	10	50
C4662 0800058R 220u EL - 16 △ C9001 0279697 100n PF 25 250 C4663 0800058R 220u EL - 16 C9002 023873 47u EL - 400 C4664 0800058R 220u EL - 16 C9003 0800069 330u EL - 50 C4666 0890076R 150p C 10 50 C9004 C333713 3n3 PF 2 100 C4667 0890087R 1n0 C - 50 C9006 C140715 10n MPO 10 63 C4667 0890087R 1n0 C - 16 C9007 C22863 220p C 10 100 C4667 0890087R 1n0 C - 50 C9008 C150715 100n MPO 10 63 C4671 08900076R 150p	C4661	C457421	470n	Č	+80/-20	50	Δ.	C9000	0279697	100n	PF	25	250
C4663 0800058R 220u EL - 16 C9002 0253873 47u EL - 400 C4664 0800058R 220u EL - 16 C9003 0800069 330u EL - 50 C4665 0890076R 150p C 10 50 C9004 C333713 3n3 PF 2 100 C4666 C242877 22n C 10 25 C9005 C135715 1n5 MPO 10 63 C4667 0890087R 1n0 C - 25 C9006 C140715 10n MPO 10 63 C4668 0800074 470u EL - 16 C9007 C22863 220p C 10 100 C4667 0890087R 1n0 C - 25 C9008 C150715 100n MPO 10 63 C4671 0890076R 150p C	C4662	0800058R	220u	EL	-	16		C9001	0279697	100n	PF	25	250
C4664 0800058R 220u EL - 16 C9003 0800069 330u EL - 50 C4665 0890076R 150p C 10 50 C9003 C333713 3n3 PF 2 100 C4666 C242877 22n C 10 25 C9005 C135715 1n5 MPO 10 63 C4667 0890087R 1n0 C - 50 C9005 C135715 1n5 MPO 10 63 C4668 080009R 4u7 EL - 16 C9007 C222863 220p C 10 100 C4667 080009R 4u7 EL - 25 C9008 C150715 100n MPO 10 63 C4671 0890087R 1n0 C - 50 C9010 024553 470p C 10 2000 C4672 C242877 22n C	C4663	0800058R	220u	EL	-	16		C9002	0253873	47u	EL EL	-	400
C4665 0890076R 150p C 10 50 C9004 C333713 3n3 PF 2 100 C4666 C242877 22n C 10 25 C9005 C135715 1n5 MPO 10 63 C4667 0890087R 1n0 C - 50 C9005A C9005A C03051F 1n5 MPO 10 63 C4668 080009R 4u7 EL - 25 C9006 C140715 10n MPO 10 63 C4667 080009R 4u7 EL - 25 C9006 C140715 10n MPO 10 63 C4670 080009R 4u7 EL - 25 C9007 C222863 220p C 10 100 C4671 0890087R 1n0 C - 50 C9008 C150715 100n MPO 10 63 C4672 C242877 22n C 10 25 C9010 0244599R 4n7 C 10 50<	C4664	0800058R	220u	EL	-	16		C9003	0800069	330u	EL	-	50
C4666 C242877 22n C 10 25 C9005A C135715 1n5 MPU 10 63 C4667 0890087R 1n0 C - 50 C9005A 0890081R 330p C 10 50 C4668 080009R 4u7 EL - 25 C9006 C140715 10n MPO 10 63 C4667 080009R 4u7 EL - 25 C9006 C140715 10n MPO 10 63 C4670 080009R 4u7 EL - 25 C9008 C150715 100n MPO 10 63 C4671 0890087R 1n0 C - 50 C9009 0246353 470p C 10 2000 C4672 C242877 22n C 10 25 C9010 0244509R 4n7 C 10 500 C4673 0890076R 150p C 10 63 A C9011 0249395 4n7 C 400	C4665	0890076R	150p	C	10	50		C9004	C333713	3n3		2
C4667 0890087R 1n0 C - 50 C3003A 090087R 500 10 50 C4668 0800009R 4u7 EL - 25 C9006 C140715 10n MPO 10 63 C4669 0800074 470u EL - 16 C9007 C222863 220p C 10 100 C4670 080009R 4u7 EL - 25 C9008 C150715 100n MPO 10 63 C4671 0890087R 1n0 C - 50 C9009 0246353 470p C 10 2000 C4672 C242877 22n C 10 25 C9010 0244509R 4n7 C 10 500 C4673 0890076R 150p C 10 50 A C9011 0249395 4n7 C - 400 C4674 C155715 150n MPO 10 63 A C9013 080018R 10u EL - 50	C4666	C242877	22n	C C	10	25		C9005	U135715	105		10	63 50
C4668 080009R 407 EL - 23 C3000 C140713 101 MT MT 100 100 1000<	04667	08900878	10		-	50		C9000A	00900016	10p		10	63
C4403 0600074 470u EL - 25 C3007 C407 D00 0 63 C4670 080009R 4u7 EL - 25 C3008 C150715 100n MPO 10 63 C4671 0890087R 1n0 C - 50 C9009 0246353 470p C 10 2000 C4672 C242877 22n C 10 25 C9010 0244509R 4n7 C 10 500 C4673 0890076R 150p C 10 50 A C9011 0249395 4n7 C - 400 C4674 C155715 150n MPO 10 63 A C9012 0249395 4n7 C - 400 - C4675 0800049R 100u EL - 16 C9013 0800018R 10u EL - 50 C4676 0800049R 100u EL - 16 C9015 024211 1n0 C 2 <		0800098	407			25		C9000	C222863	220n		10	100
C4671 0890087R 1n0 C - 50 C4671 0890087R 1n0 C - 50 C4071 0890087R 1n0 C - 50 C3009 0246353 470p C 10 200 C4672 C242877 22n C 10 25 C9010 0244509R 4n7 C 10 500 C4673 0890076R 150p C 10 50 A C9011 0249395 4n7 C - 400 C4674 C155715 150n MPO 10 63 A C9012 0249395 4n7 C - 400 C4675 0800049R 100u EL - 16 C9013 0800018R 10u EL - 50 C4678 0800049R 100u EL - 16 C9015 024211 1n0 C 10 2000 C4679 0800049R 100u	C4670	0800004	4117			25		C9008	C150715	100n	MPO	10	63
C4672 C242877 22n C 10 25 C9010 0244509R 4n7 C 10 500 C4673 0890076R 150p C 10 50 A C9010 0244509R 4n7 C 10 500 C4673 0890076R 150p C 10 50 A C9011 0249395 4n7 C - 400 C4674 C155715 150n MPO 10 63 A C9012 0249395 4n7 C - 400 C4675 0800049R 100u EL - 16 C9013 0800018R 10u EL - 50 C4676 0800049R 100u EL - 16 C9015 024211 1n0 C 10 2000 C4678 0800049R 100u EL - 16 C9013 024211 1n0 C 10 2000 C4679	C4671	0890087B	1n0	l c	- \|	50		C9009	0246353	470p	C	10	2000
C4673 0890076R 150p C 10 50 A C9011 0249395 4n7 C - 400 C4674 C155715 150n MPO 10 63 A C9012 0249395 4n7 C - 400 C4675 0800049R 100u EL - 16 C9012 0249395 4n7 C - 400 C4676 0800049R 100u EL - 16 C9013 0800018R 10u EL - 50 C4676 0800049R 100u EL - 16 C9015 024211 1n0 C 10 2000 C4678 0800049R 100u EL - 16 C9015 024211 1n0 C 10 2000 C4679 0800049R 100u EL - 16 C9010 0253355 3300u EL - 35 C4681 0800049R	C4672	C242877	22n	\| č	10	25	ا _ ا	C9010	0244509R	4n7	C	10	500
C4674 C155715 150n MPO 10 63 ∠N C9012 0249395 4n7 C - 400 C4675 0800049R 100u EL - 16 C9012 0800018R 10u EL - 50 C4676 0800049R 100u EL - 16 C9013 0800018R 10u EL - 50 C4676 0800049R 100u EL - 16 C9013 0800018R 10u EL - 50 C4678 0800049R 100u EL - 16 C9015 0242211 1n0 C 10 2000 C4679 0800049R 100u EL - 16 C9023 C121143 120p C 2 100 C4680 0252396R 10u EL - 16 C9100 025335 3300u EL - 35 C4681 0800049R 100u	C4673	0890076R	150p	С	10	50	I Å	C9011	0249395	4n7	\| C	-	400
C4675 0800049R 100u EL - 16 C9013 0800018R 10u EL - 50 C4676 0800049R 100u EL - 16 C9013 0800018R 10u EL - 50 C4676 0800049R 100u EL - 16 C9014 C323182 330p C 2 50 C4678 0800049R 100u EL - 16 C9015 0242211 1n0 C 10 2000 C4679 0800049R 100u EL - 16 C9023 C121143 120p C 2 100 C4680 0252396R 10u EL - 16 C9100 0253355 3300u EL - 35 C4681 0800049R 100u EL - 16 C9102 0243509R 470u EL - 25 C4682 0800049R 100u EL	C4674	C155715	150n	MP0	\| 10	63		C9012	0249395	4n7	C	- \|	400	1
C4676 0800049R 100u EL - 16 C9014 C323182 330p C 2 50 C4678 0800049R 100u EL - 16 C9015 024211 1n0 C 10 2000 C4679 0800049R 100u EL - 16 C9015 024211 1n0 C 10 2000 C4679 0800049R 100u EL - 16 C9023 C121143 120p C 2 100 C4680 0252396R 10u EL - 16 C9100 0253935 3300u EL - 35 C4681 0800049R 100u EL - 16 C9101 080075 470u EL - 25 C4682 0800049R 100u EL - 16 C9102 0243509R 470p C 10 500	C4675	0800049R	100u	\| EL	\| -	16		C9013	0800018R	100	EL		50
L46/8 U800049R 1000 EL - 16 L9015 0244211 100 C 10 2000 C4679 0800049R 1000 EL - 16 C9023 C121143 120p C 2 100 C4680 0252396R 100 EL - 16 C9100 0253935 3300u EL - 35 C4681 0800049R 100u EL - 16 C9101 0800075 470u EL - 25 C4682 0800049R 100u EL - 16 C9102 0243509R 470p C 10 500	C4676	0800049R	100u		\| -	16		C9014		330p		10	2000
C4079 C00004911 FDU EL - 16 C3023 C121145 120p C 2 100 C4680 0252396R 10u EL - 16 C9100 0253935 3300u EL - 35 C4681 0800049R 100u EL - 16 C9101 0800075 470u EL - 25 C4682 0800049R 100u EL - 16 C9102 0243509R 470p C 10 500	04678	0800049R	1000		\| -	10		C9012	0244211	1200		2	100
C4681 0800049R 100u EL - 16 C9101 0800075 470u EL - 25 C4682 0800049R 100u EL - 16 C9101 0800075 470u EL - 25 C4682 0800049R 100u EL - 16 C9102 0243509R 470p C 10 500	040/9 CA690	00000498	1000			10		C9100	0253935	33000	Ē	- \|	35
C4682 0800049R 100u EL - 16 C9102 0243509R 470p C 10 500	C4681	020203000 0800049R	100	E	1.	16		C9101	0800075	470u	EL	- \|	25
	C4682	0800049R	100u	EL	\| -	16		C9102	0243509R	470p	С	10	500

Page 45

Ref No.	Part No.	Value	Туре	%Tol	Voltage
C9103	0243509R	470p	C	10	500
C9105 C9106	U249500 C323182	105 330n	C C	20	400 AC 50
C9107	C323182	3n3	PF	2	100
C9108	0800049R	100u	EL	-	16
C9109	0890089R	1n5	C	10	50
C9110 C9111	0890089K C140715	105 100		10	50 63
C9112	0890083R	470p	C	10	50
C9113	0890083R	470p	C	10	50
C9114	0244204	220p	С	10	2000



































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IC001 T900590 ST6385 IC002 E740024 ST24C16 IC005 T900345 SV REGULALTOR IC121 T900326 12V REGULATOR IC402 2020002 TDA3860 IC411 2004971 TDA9860 IC451 2004971 TDA2822/M IC501 2004981 STV2100 IC502 2008741 TEA5114A IC501 2003541 LA7838 IC751 T900522 TEA2031AE IC302 2917781 CNX82A IC302 2917781 CNX82A IC302 200401R PST529C IC411 2004651 TA8777N IC2201 2004911 CF72307 IC2202 2004911 CF72306 IC2201 2007821 TMS4464-10NL IC3201 2301832 HA11559NT IC4601 200422 LV1000NA IC4602 T900469 SA41300 IC4603 T900573 KM1464-10NL	[	Ref No.	Part No.	Description
IC002 E740024 ST24C16 IC004 2009401R PST529C IC005 1900345 5V REGULATOR IC121 1900376 TDA9840 IC402 2020002 TDA9840 IC411 2020011 TDA9840 IC412 2020021 TDA9840 IC411 2020021 TDA9840 IC501 2004981 STV2100 IC502 2008741 IEA5114A IC501 2003541 LA7838 IC601 200352 MC7809CT IC411 2004651 TA8777N IC202 2004911 CF72307 IC203 2009401R PST529C IC201 2004831 LA2780N IC451 202012 TDA7633M IC4602 1900499 SA41300 IC4603 2004242 LV1000NA IC4604 202002 TDA7633M IC4605 1900546 HC740538E IC4607 2362605 BA4558 <		IC001	T900590	ST6385
IC004 2009401R PST529C IC005 T900345 5V REGULAITOR IC121 T900326 12V REGULAITOR IC402 2020002 TDA9860 IC451 2004971 TDA9840 IC451 2004971 TDA9840 IC501 2003741 TEA5114A IC591 2362605 BA4558 IC601 2003541 LA7838 IC771 T900572 TEA2031AE IC301 2917781 CNX82A IC951 2000252 MC7809CT IC201 2004401R PST523C IC202 2004911 CF72306 IC202 200401R PST523C IC201 2007821 TMS446-10ML IC301 2381832 HA11559NT IC4601 2004242 LV1000NA IC4602 T900469 SAA1300 IC4603 T900573 KM4164B-10 IC4604 202002 TDA9860 IC4605 T900546 HCF4053BE		IC002	E740024	ST24C16
ICO05 T900345 5V RÉGULALTOR IC121 T900326 12V RÉGULATOR IC320 T900576 TDA9128 IC402 2020002 TDA9860 IC451 2004971 TDA9840 IC461 2020021 TDA2822M IC501 2004981 STV2100 IC502 2008741 TEAS114A IC501 2003541 LA7838 IC601 2003541 LA7838 IC51 2004551 TA8777N IC41 2004651 TA8777N IC202 200401R PST529C IC301 201781 CNX82A IC302 200401R PST529C IC4600 2004831 LA2780N IC4601 2004242 LV1000NA IC4602 T900469 SAA1300 IC4603 T900573 KM4164B-10 IC4604 202002 TDA39860 IC4605 T900546 HCF4053BE IC4605 T90053 KM4164B-10		IC004	2009401R	PST529C
IC121 T900226 12V FEGULATOR IC320 T900576 TDA9128 IC402 202002 TDA9860 IC41 202021 TDA9860 IC501 2004971 TDA9860 IC501 2004971 TDA9860 IC501 200572 TEA20114A IC501 200551 EA4558 IC601 203541 LA7838 IC591 2000252 MC7809CT IC302 2917781 CNX82A IC302 2004411 CF72306 IC201 2004411 CF72307 IC202 2004911 CF72307 IC201 2007821 TMX5464-10NL IC3201 238182 HA11559NT IC4600 2004831 LA2780N IC4601 200022 TDA3860 IC4602 T900573 KM4164B-10 IC4603 T900573 KM4164B-10 IC4604 202002 TDA3868 IC4605 T900566 HC740538E		10005	T900345	5V REGULALTOR
IC320 T900576 TDA8128 IC402 2020002 TDA3860 IC451 2004971 TDA3840 IC451 2004971 TDA3840 IC501 2004981 STV2100 IC502 2005741 TEA5114A IC51 362605 BA4558 IC601 203541 LA7838 IC751 T900572 TEA2031AE IC302 2917781 CNX82A IC951 200525 MC7809CT IC41 2004651 TA8777N IC2201 2004411 CF72307 IC2203 209401R PST529C IC2210 2007821 TMS464-10NL IC321 2381832 HA11559NT IC461 2002012 TDA7633M IC4602 T900499 SA41300 IC4603 202002 TDA3860 IC4604 202002 TDA3860 IC4605 T900546 HCF4053BE IC4604 2362605 BA4558		IC121	T900326	12V REGULATOR
IC402 2020002 TDA9860 IC451 2004971 TDA9840 IC451 2020021 TDA2822M IC501 2004991 STV2100 IC502 2008741 TEA5114A IC591 2362605 BA4558 IC601 2003541 LA7838 IC751 T900572 TEA2031AE IC901 2917781 CNX82A IC902 2917781 CNX82A IC912 2004411 CF72306 IC2202 2004411 CF72307 IC2203 2009401R PST529C IC2204 2007821 TIMS4464-10NL IC3201 2381832 HA11559NT IC4601 2004242 LV1000NA IC4602 T900469 SAA1300 IC4603 T900573 KM4164B-10 IC4604 202002 TDA7863M IC4605 2362605 BA4558 IC4606 2362605 BA4558 IC4607 2362605 BA4558		10121	T900576	TDA8128
IC45 IC451 2004971 TDA9840 IC501 2004971 TDA2822M IC501 2008741 TEA5114A IC591 2362605 BA4558 IC601 2003541 LA7838 IC751 T900572 TEA2031AE IC902 2917781 CNX82A IC912 2004451 TA777N IC202 2004911 CF72306 IC202 200401R PST529C IC201 2014911 CF72307 IC202 200491R PST529C IC210 2007821 TMS4464-10NL IC3201 2381832 HA11559NT IC4601 2004242 LV1000NA IC4602 T900469 SAA1300 IC4603 T900573 KM4164B-10 IC4604 202002 TDA9860 IC4605 382605 BA4558 IC4606 2382605 BA4558 IC4607 2362605 BA4558		10020	2020002	TDA9860
IC481 LC0701 TD A2822M IC501 2004981 STV2100 IC502 2008741 TEA5114A IC501 2003541 LA7838 IC501 200352 TEA2031AE IC902 2917781 CNX82A IC91 2004651 TA8777N IC201 2004611 CF7306 IC202 2004911 CF7306 IC201 2004831 LA27707 IC201 2004831 LA2780N IC441 20012 TD A7263M IC4600 200431 LA2780N IC4601 2004242 LV100NA IC4602 1900573 KM4164B-10 IC4603 T900573 KM4164B-10 IC4604 202002 TD A39860 IC4605 1900546 HCF4053BE IC4606 2362605 BA4558 IC4607 2362605 BA4558	1	10102	2004971	TDA9840
IC501 IC502 IC501 2008741 TEA5114A IC501 2008741 TEA5114A IC501 2003541 LA7838 IC601 2003541 LA7838 IC751 T900572 TEA2031AE IC902 2917781 CNX82A IC951 2000252 MC7809CT IC1401 204651 TA8777N IC2202 2004911 CF72307 IC2203 2009401R PST529C IC2201 2007821 TM54464-10NL IC3201 2381832 HA11559NT IC4601 2004831 LA2780N IC4601 2004831 LA2780N IC4603 T900573 KM4164B-10 IC4604 202002 TDA3860 IC4605 T900546 HC4053BE IC4606 2362605 BA4558 IC4607 2362605 BA4558 IC4608 2362605 BA4558 IC4610 T900523		10431	2024071	TD 22822M
IC502 2008741 TEA5114A IC591 2362605 BA4558 IC601 2003541 LA7838 IC751 T900572 TEA2031AE IC901 2917781 CNX82A IC991 2017781 CNX82A IC992 2917781 CNX82A IC992 2017781 CNX82A IC991 2004651 TA8777N IC202 2004411 CF72306 IC2203 2009401R PST529C IC2210 2007821 TM54464-10NL IC3201 2381832 HA11559NT IC4600 200431 LA2780N IC4601 2004242 LV1000NA IC4602 T900469 SAA1300 IC4603 202002 TDA9860 IC4604 2020002 TDA9860 IC4605 T900546 HCF4053BE IC4607 2362605 BA4558 IC4611 T900523 TDA2009A IC4801 T900523 TDA2009A		10501	2004981	STV2100
ICS02 ICS01 ICS02		10507	2004001	ΤΕΔ511ΔΔ
L031 L0433 LA7838 IC61 2003541 LA7838 IC751 T900572 TEA2031AE IC901 2917781 CNX82A IC951 2000252 MC7809CT IC1401 2004651 TA8777N IC2202 2004411 CF72307 IC2203 2009401R PST529C IC210 2007821 TMS4464-10NL IC3201 23832 HA11559NT IC4451 2020012 TDA7263M IC4600 2004231 LA2780N IC4601 2004231 LA2780N IC4602 T900469 SAA1300 IC4603 T900573 KM4164B-10 IC4604 202002 TDA9860 IC4605 T900546 HCF4053BE IC4606 2362605 BA4558 IC4610 T900543 TDA2009A IC4902 T900523 TDA2009A IC4902 T900523 TDA2009A IC4900 T900473 TL431CLP		10502	2362605	RA4558
10301 200371 CFA30 10501 2917781 CNX82A 10502 2917781 CNX82A 10591 2000252 MC7809CT 11011 2004651 TA8777N 1102201 2004441 CF72305 1102202 2009401R PST529C 1102201 2004441 CF72307 1102202 2009401R PST529C 1102201 2038132 HA11559NT 1104451 202012 TDA7263M 1104451 202012 TDA7263M 1104601 2004242 LV1000NA 1104601 2004242 LV1000NA 1104604 2020002 TDA2663M 1104604 2020002 TDA3860 1104604 2020002 TDA3860 1104604 2362605 BA4558 1104604 2362605 BA4558 1104604 1900523 TDA2009A 1104903 1900452 UC3844 1105900 1900453 SV REGU		10551	2002003	1
IC901 120372 ICHOR IC901 2917781 CNX82A IC902 2917781 CNX82A IC901 2004411 CF72306 IC201 2004411 CF72307 IC202 2004411 CF72307 IC2203 2009401R PST529C IC2201 2007821 TMS4464-10NL IC3201 2381832 HA11559NT IC4600 2004831 LA2780N IC4601 2004242 LV1000NA IC4601 2004242 LV1000NA IC4602 T900573 KM4164B-10 IC4603 T900573 KM4164B-10 IC4604 2020002 TDA9860 IC4605 T900564 HC4053BE IC4606 2362605 BA4558 IC4610 T900533 TDA209A IC4901 T900523 TDA2009A IC4901 T90053 SV REGULATOR IC4900 T900473 TL431CLP 0000 2917781 CNX82A		10751	T900571	TEA2031AE
▲ ■ =	۸Ì	10901	2917781	CNX82A
IC951 2000252 MC7809CT IC951 200441 CF72306 IC2201 2004411 CF72307 IC2203 2009401R PST529C IC2210 2007821 TMS4464-10NL IC3201 2381832 HA11559NT IC4451 202012 TDA7263M IC4600 2004831 LA2760N IC4601 2004242 LV1000NA IC4603 T900573 KM4164B-10 IC4604 202002 TDA9860 IC4605 T900546 HCF4053BE IC4606 2362605 BA4558 IC4607 2362605 BA4558 IC4611 T900523 TDA2009A IC4902 T900523 TDA2009A IC4903 T900345 5V REGULATOR IC4903 T900473 TL431CLP 0003 T633133 BF422 0004 T631276 BC558B 0003 T631275 BC548B 0010 T631275 BC548B	Λ	10001	2917781	CNX82A
IC1401 2004651 TA8777N IC2201 2004411 CF72306 IC2202 200401R PST529C IC2210 2007821 TMS4464-10NL IC3201 2381832 HA11559NT IC4601 200421 TDA7263M IC4601 2004242 LV1000NA IC4602 T900469 SAA1300 IC4603 T900573 KM4164B-10 IC4604 202002 TDA78680 IC4605 T900546 HCF4053BE IC4606 2362605 BA4558 IC4607 2362605 BA4558 IC4610 T900523 TDA2009A IC4902 T900523 TDA2009A IC4902 T900523 TDA2009A IC4901 T900523 TDA2009A IC4902 T900523 TDA2009A IC4900 T900452 UC3844 IC9100 T900473 TL431CLP 0003 T631276 BC588B 0004 T631275 BC548B		10001	2000252	MC7809CT
IC201 2004411 CF72306 IC2202 200401R PST529C IC2210 2007821 TMS4464-10NL IC3201 2381832 HA11559NT IC4451 2020012 TDA7263M IC4600 200431 LA2780N IC4601 2004242 LV1000NA IC4602 T900469 SAA1300 IC4603 T900573 KM4164B-10 IC4604 202002 TDA9860 IC4605 T900546 HC74053BE IC4606 2362605 BA4558 IC4607 2362605 BA4558 IC4610 T900523 TDA2009A IC4901 T900523 TDA2009A IC4903 T900345 5V REGULATOR IC4903 T900452 UC3844 IC9100 T900452 UC3844 IC9100 T900473 TL431CLP 0003 T631275 BC548B 0010 T631275 BC548B 0011 2326873R DTC144EST		101401	2004651	TA8777N
IC2202 2004911 CF72307 IC2203 2009401R PST529C IC2210 2007821 TMS4464-10NL IC3201 2381832 HA11559NT IC4451 2020012 TDA7263M IC4600 2004831 LA2780N IC4601 2004242 LV1000NA IC4603 T900573 KM4164B-10 IC4604 2020002 TDA9860 IC4605 T900546 HCF4053BE IC4606 2362605 BA4558 IC4607 2362605 BA4558 IC4608 2362605 BA4558 IC4610 T900523 TDA2009A IC4901 T900523 TDA2009A IC4902 T900523 TDA2009A IC4903 T900345 5V REGULATOR IC9000 2917781 CN82A IC9000 T900452 UC3844 IC9100 T631275 BC548B 0008 T631275 BC548B 0010 T631275 BC548B		IC2201	2004441	CF72306
IC2203 2009401 R PST529C IC2210 2007821 TMS4464-10NL IC3201 2381832 HA11559NT IC4451 2020012 TDA763M IC4600 2004831 LA2780N IC4601 2004242 LV1000NA IC4603 T900469 SAA1300 IC4604 202002 TDA9880 IC4605 T900546 HCF4053BE IC4606 2362605 BA4558 IC4607 2362605 BA4558 IC4608 2362605 BA4558 IC4608 2362605 BA4558 IC4610 T900523 TDA2009A IC4901 T900523 TDA2009A IC4902 T900523 TDA2009A IC4903 T900473 TL431CLP 0003 T631133 BF422 0004 T631276 BC558B 0008 T631275 BC548B 0010 T631275 BC548B 011 2326873R DTC144EST		IC2202	2004911	CF72307
IC2210 2007821 TMS4464-10NL IC3201 2381832 HA11559NT IC4451 2020012 TDA7263M IC4600 2004831 LA2780N IC4601 2004242 LV1000NA IC4602 T900469 SAA1300 IC4603 T900573 KM4164B-10 IC4604 2020002 TDA9860 IC4605 T900546 HCFA053BE IC4606 2362605 BA4558 IC4610 T900546 HCF4053BE IC4611 T900345 5V REGULATOR IC4902 T900523 TDA2009A IC4902 T900523 TDA2009A IC4902 T900545 UC3844 IC9000 T900473 TL431CLP Q003 T631276 BC558B Q004 T631275 BC548B Q010 T631275 BC548B Q011 2326873R DTC144EST Q012 T631275 BC548B Q013 T631275 BC548B		102203	2009401B	PST529C
IC3201 2381832 HA11559NT IC4451 2020012 TDA7263M IC4600 2004831 LA2780N IC4601 2004242 LV1000NA IC4602 T90469 SAA1300 IC4603 T90573 KM4164B-10 IC4604 202002 TDA3860 IC4605 T900546 HC4053BE IC4606 2362605 BA4558 IC4607 2362605 BA4558 IC4610 T900546 HCF4053BE IC4611 T900345 5V REGULATOR IC4901 T900523 TDA2009A IC4903 T900345 5V REGULATOR IC4903 T900345 5V REGULATOR IC4903 T900473 TL431CLP 0000 T90473 TL431CLP 003 T631276 BC558B 0008 T631275 BC548B 0010 T631275 BC548B 0011 2326873R DT144EST 0012 T631275 BC548B		IC2210	2007821	TMS4464-10NL
IC4451 2020012 TDA7263M IC4600 2004831 LA2780N IC4601 2004242 LV1000NA IC4603 T900573 KM4164B-10 IC4604 202002 TDA9860 IC4605 T900546 HCF4053BE IC4606 2362605 BA4558 IC4607 2362605 BA4558 IC4608 2362605 BA4558 IC4607 2362605 BA4558 IC4608 2362605 BA4558 IC4610 T900546 HCF4053BE IC4611 T900523 TDA2009A IC4902 T900523 TDA2009A IC4903 T900473 TL431CLP Q004 T631276 BC558B Q005 T631276 BC558B Q004 T631275 BC548B Q010 T631275 BC548B Q011 2326873R DTC144EST Q012 T631275 BC548B Q121 T631275 BC548B		IC3201	2381832	HA11559NT
IC4600 2004831 LA2780N IC4601 2004242 LV1000NA IC4602 T900469 SAA1300 IC4603 T90573 KM4164B-10 IC4604 2020002 TDA9860 IC4605 T900546 HCF4053BE IC4606 2362605 BA4558 IC4607 2362605 BA4558 IC4610 T900546 HCF4053BE IC4610 T900545 5V REGULATOR IC4902 T900523 TDA2009A IC4903 T900452 UC3844 IC9000 2917781 CNX82A IC9000 T900473 TL431CLP Q003 T631276 BC558B Q004 T631275 BC548B Q010 T631275 BC548B Q011 2326873R DTC144EST Q012 T631275 BC548B Q121 T631275 BC548B		IC4451	2020012	TDA7263M
IC4601 2004242 LV1000NA IC4602 T900469 SAA1300 IC4603 T900573 KM4164B-10 IC4604 2020002 TDA9860 IC4605 T900546 HCF4053BE IC4606 2362605 BA4558 IC4607 2362605 BA4558 IC4608 2362605 BA4558 IC4610 T900546 HCF4053BE IC4611 T900545 5V REGULATOR IC4901 T900523 TDA2009A IC4902 T900345 5V REGULATOR IC4903 T900345 5V REGULATOR IC9000 2917781 CNX82A IC9000 T900473 TL431CLP Q003 T631276 BC558B Q004 T631276 BC548B Q010 T631275 BC548B Q011 2326873R DTC144EST Q012 T631275 BC548B Q013 T631275 BC548B Q121 T631275 BC548B		IC4600	2004831	LA2780N
IC4602 T900469 SAA1300 IC4603 T900573 KM4164B-10 IC4604 2020002 TDA9860 IC4605 T900546 HCF4053BE IC4607 2362605 BA4558 IC4601 T900523 TDA2009A IC4902 T900523 TDA2009A IC4903 T900452 UC3844 IC9000 2917781 CNX82A IC9000 1900473 TL431CLP 0003 T631276 BC588B 0010 T631275 BC548B 0011 2326873R DTC144EST		1C4601	2004242	LV1000NA
IC4603 T900573 KM4164B-10 IC4604 202002 TDA9860 IC4605 T900546 HCF4053BE IC4607 2362605 BA4558 IC4608 2362605 BA4558 IC4601 T900546 HCF4053BE IC4610 T900523 TDA2009A IC4902 T900523 TDA2009A IC4903 T900345 5V REGULATOR IC4903 T900345 5V REGULATOR IC4903 T900473 TL431CLP Q003 T633133 BF422 Q004 T631276 BC558B Q008 T631275 BC548B Q010 T631275 BC548B Q011 2326873R DTC144EST Q012 T631275 BC548B Q013 T631275 BC548B Q011 2326873R DTC144EST Q012 T631275 BC548B Q131 T631275 BC548B Q121 T631275 BC548B		IC4602	T900469	SAA1300
IC4604 2020002 TDA9860 IC4605 T900546 HCF4053BE IC4606 2362605 BA4558 IC4607 2362605 BA4558 IC4608 2362605 BA4558 IC4601 T900546 HCF4053BE IC4611 T900523 TDA2009A IC4902 T900523 TDA2009A IC4903 T900345 5V REGULATOR IC4900 2917781 CNX82A IC9000 2917781 CNX82A IC9000 T900473 TL431CLP Q000 T631276 BC558B Q000 T631275 BC548B Q004 T631275 BC548B Q010 T631275 BC548B Q011 236873R DTC144EST Q012 T631275 BC548B Q111 236873R DTC144EST Q012 T631275 BC548B Q121 T631275 BC548B Q121 T631275 BC548B Q321 T631275 BC548B Q321 T631275		IC4603	T900573	KM4164B-10
IC4605 T900546 HCF4053BE IC4606 2362605 BA4558 IC4607 2362605 BA4558 IC4608 2362605 BA4558 IC4610 T900546 HCF4053BE IC4611 T900523 TDA2009A IC4901 T900523 TDA2009A IC4902 T900523 TDA2009A IC4903 T900345 5V REGULATOR 009000 2917781 CNX82A IC9000 T900452 UC3844 IC9000 T90452 UC3844 IC9000 T631276 BC548B 0010 T631275 BC548B 0011 2326873R DTC144EST 012 T631275 BC548B 0322 T6312		IC4604	2020002	TDA9860
IC4606 2362605 BA4558 IC4607 2362605 BA4558 IC4608 2382605 BA4558 IC4610 T900546 HCF4053BE IC4611 T900345 5V REGULATOR IC4901 T900523 TDA2009A IC4902 T900523 TDA2009A IC4903 T900345 5V REGULATOR OP9000 2917781 CNX82A IC3000 T900452 UC3844 IC9100 T900452 UC3844 IC9100 T900473 TL431CLP Q003 T631276 BC558B Q004 T631275 BC548B Q010 T631275 BC548B Q011 2326873R DTC144EST Q012 T631275 BC548B Q013 T631275 BC548B Q121 T631275 BC548B Q121 T631275 BC548B Q322 T631275 BC548B Q441 T631275 BC548B		IC4605	T900546	HCF4053BE
IC4607 2362605 BA4558 IC4608 2362605 BA4558 IC4610 T900546 HCF4053BE IC4611 T900523 TDA2009A IC4902 T900523 TDA2009A IC4903 T900345 SV REGULATOR 0P9000 2917781 CNX82A IC9000 T900452 UC3844 IC9100 T900473 TL431CLP 0003 T631276 BC558B 0004 T631276 BC558B 0008 T631275 BC548B 0010 T631275 BC548B 011 2326873R DTC144EST 0012 T631275 BC548B 0121 T631275 BC548B 0222 T631275 BC548B 0322 T631275 BC548B		IC4606	2362605	BA4558
IC4608 2362605 BA4558 IC4610 T900546 HCF4053BE IC4611 T900523 TDA2009A IC4902 T900523 TDA2009A IC4902 T900523 TDA2009A IC4903 T900345 5V REGULATOR OP9000 2917781 CNX82A IC9000 T900473 TL431CLP 0003 T633133 BF422 0004 T631276 BC558B 0008 T631275 BC548B 0010 T631275 BC548B 0011 2326873R DTC144EST 0012 T631275 BC548B 0111 2326873R DTC144EST 012 T631275 BC548B 013 T631275 BC548B 0121 T631275 BC548B 0322 T631275 BC548B 0441 T631275 BC548B 0442 T631275 BC548B 0443 T631275 BC548B 0444		IC4607	2362605	BA4558
IC4610 T900546 HCF4053BE IC4611 T900345 5V REGULATOR IC4901 T900523 TDA2009A IC4902 T900345 5V REGULATOR IC4903 T900345 5V REGULATOR OP9000 2917781 CNX82A IC9000 T900473 TL431CLP Q003 T633133 BF422 Q004 T631276 BC558B Q009 T631275 BC548B Q010 T631275 BC548B Q011 2326873R DTC144EST Q012 T631275 BC548B Q013 T631275 BC548B Q011 2326873R DTC144EST Q012 T631275 BC548B Q121 T631275 BC548B Q121 T631275 BC548B Q322 T631275 BC548B Q441 T631275 BC548B Q442 T631275 BC548B Q443 T631275 BC548B		IC4608	2362605	BA4558
IC4611 T900345 5V REGULATOR IC4901 T900523 TDA2009A IC4902 T900523 TDA2009A IC4903 T900523 TDA2009A IC4900 2917781 CNX82A IC9000 2917781 CNX82A IC9000 T900452 UC3844 IC9100 T900473 TL431CLP 0003 T633133 BF422 0004 T631276 BC558B 0009 T631275 BC548B 0010 T631275 BC548B 0011 2326873R DTC144EST 0012 T631276 BC558B 0111 2326873R DTC144EST 012 T631276 BC548B 013 T631275 BC548B 0212 T631275 BC548B 0321 T631275 BC548B 0322 T631275 BC548B 0441 T631275 BC548B 0443 T631275 BC548B 04443		IC4610	T900546	HCF4053BE
IC4901 T900523 TDA2009A IC4902 T900523 TDA2009A IC4903 T900345 5V REGULATOR OP9000 2917781 CNX82A IC9000 T900452 UC3844 IC9100 T900452 UC3844 IC9100 T900473 TL431CLP Q004 T631276 BC558B Q009 T631275 BC548B Q010 T631275 BC548B Q011 T3226873R DTC144EST Q012 T631275 BC548B Q013 T631275 BC548B Q011 T2326873R DTC144EST Q012 T631276 BC558B Q013 T631275 BC548B Q121 T631275 BC548B Q321 T631275 BC548B Q443 T631275 BC548B Q502		IC4611	T900345	5V REGULATOR
IC4902 T900523 TDA2009A IC4903 T900345 5V REGULATOR OP9000 2917781 CNX82A IC9000 T900452 UC3844 IC9100 T900473 TL431CLP Q003 T633133 BF422 Q004 T631276 BC558B Q008 T631275 BC548B Q010 T631275 BC548B Q011 2326873R DTC144EST Q012 T631275 BC548B Q013 T631275 BC548B Q014 T631275 BC548B Q012 T631275 BC548B Q121 T631275 BC548B Q321 T631275 BC548B Q322 T631275 BC548B Q441 T631275 BC548B Q442 T631275 BC548B Q443 T631275 BC548B Q444 T631286 BC548C Q445 T631275 BC548B Q503 <		IC4901	T900523	TDA2009A
IC4903 T900345 5V REGULATOR △ DP9000 2917781 CNX82A IC9000 T900452 UC3844 IC9100 T900473 TL431CLP Q003 T633133 BF422 Q004 T631276 BC558B Q009 T631275 BC548B Q010 T631275 BC548B Q011 2326873R DTC144EST Q012 T631275 BC548B Q013 T631275 BC548B Q014 T631275 BC548B Q012 T631276 BC558B Q013 T631275 BC548B Q121 T631275 BC548B Q322 T631275 BC548B Q441 T631275 BC548B Q442 T631275 BC548B Q443 T631275 BC548B Q444 T631286 BC548C Q445 T631275 BC548B Q503 T631275 BC548B Q504		IC4902	T900523	TDA2009A
▲ ○P9000 2917781 CNX82A IC9000 T900452 UC3844 IC9100 T900473 TL431CLP Q003 T633133 BF422 Q004 T631276 BC558B Q009 T631275 BC548B Q010 T631275 BC548B Q011 T631275 BC548B Q012 T631275 BC548B Q011 T631275 BC548B Q012 T631275 BC548B Q013 T631275 BC548B Q011 T631275 BC548B Q012 T631275 BC548B Q121 T631275 BC548B Q321 T631275 BC548B Q322 T631275 BC548B Q441 T631275 BC548B Q442 T631275 BC548B Q443 T631275 BC548B Q444 T631275 BC548B Q502 T631275 BC548B Q503		IC4903	T900345	5V REGULATOR
IC9000 T900452 UC3844 IC9100 T900473 TL431CLP Q003 T633133 BF422 Q004 T631276 BC558B Q009 T631276 BC558B Q009 T631275 BC548B Q010 T631275 BC548B Q011 Z326873R DTC144EST Q012 T631275 BC548B Q013 T631275 BC548B Q011 Z326873R DTC144EST Q012 T631275 BC548B Q121 T631275 BC548B Q321 T631275 BC548B Q322 T631275 BC548B Q441 T631275 BC548B Q442 T631275 BC548B Q443 T631275 BC548B Q444 T631275 BC548B Q445 T631275 BC548B Q502 T631275 BC548B Q503 T631275 BC548B Q504 T631275<	Δ	0 P9000	2917781	CNX82A
IC9100 T900473 TL431CLP 0003 T633133 BF422 0004 T631276 BC558B 0008 T631276 BC558B 0009 T631275 BC548B 0010 T631275 BC548B 0011 2326873R DTC144EST 0012 T631275 BC548B 0111 2326873R DTC144EST 0012 T631275 BC548B 013 T631275 BC548B 0121 T631275 BC548B 0321 T631275 BC548B 0322 T631275 BC548B 0441 T631275 BC548B 0442 T631275 BC548B 0443 T631276 BC558B 0444 T631275 BC548B 0445 T631275 BC548B 0501 T631275 BC548B 0502 T631275 BC548B 0503 T631275 BC548B 0504 T631275		1C9000	T900452	UC3844
Q003 T633133 BF422 Q004 T631276 BC558B Q008 T631276 BC558B Q009 T631275 BC548B Q010 T631275 BC548B Q011 2326873R DTC144EST Q012 T631275 BC548B Q013 T631275 BC548B Q012 T631276 BC558B Q013 T631275 BC548B Q121 T631275 BC548B Q321 T631275 BC548B Q322 T631275 BC548B Q441 T631275 BC548B Q442 T631275 BC548B Q443 T631276 BC558B Q444 T631286 BC548C Q445 T631275 BC548B Q501 T631275 BC548B Q503 T631275 BC548B Q504 T631275 BC548B Q505 T631275 BC548B Q505 T631275	1	IC9100	T900473	TL431CLP
Q004 T631276 BC558B Q008 T631276 BC558B Q009 T631275 BC548B Q010 T631275 BC548B Q011 2326873R DTC144EST Q012 T631276 BC558B Q013 T631276 BC548B Q014 T631276 BC548B Q012 T631276 BC548B Q013 T631275 BC548B Q121 T631275 BC548B Q321 T631275 BC548B Q322 T631275 BC548B Q441 T631275 BC548B Q442 T631276 BC558B Q443 T631276 BC558B Q444 T631286 BC548C Q445 T631275 BC548B Q501 T631275 BC548B Q503 T631275 BC548B Q504 T631275 BC548B Q505 T631275 BC548B Q601 T631275		Q003	T633133	BF422
Q008 T631276 BC558B Q009 T631275 BC548B Q010 T631275 BC548B Q011 2326873R DTC144EST Q012 T631275 BC548B Q013 T631275 BC548B Q013 T631275 BC548B Q121 T631275 BC548B Q121 T631275 BC548B Q321 T631275 BC548B Q322 T631275 BC548B Q441 T631275 BC548B Q442 T631275 BC548B Q443 T631275 BC548B Q444 T631286 BC548C Q445 T631286 BC548B Q501 T631275 BC548B Q502 T631275 BC548B Q503 T631275 BC548B Q504 T631275 BC548B Q505 T631275 BC548B Q601 T631275 BC548B Q603 T631275		Q004	T631276	BC558B
Q009 T631275 BC548B Q010 T631275 BC548B Q011 2326873R DTC144EST Q012 T631276 BC588B Q013 T631275 BC548B Q11 2326873R DTC144EST Q012 T631276 BC588B Q013 T631275 BC548B Q121 T631275 BC548B Q322 T631275 BC548B Q322 T631275 BC548B Q441 T631275 BC548B Q442 T631275 BC548B Q443 T631276 BC558B Q444 T631286 BC548C Q445 T631275 BC548B Q501 T631275 BC548B Q503 T631275 BC548B Q504 T631275 BC548B Q505 T631275 BC548B Q504 T631275 BC548B Q505 T631275 BC548B Q601 T631275		Q008	T631276	BC558B
Q010 T631275 BC548B Q011 2326873R DTC144EST Q012 T631276 BC558B Q013 T631275 BC548B Q121 T631291 BC568 Q321 T631275 BC548B Q321 T631275 BC548B Q322 T631275 BC548B Q441 T631275 BC548B Q442 T631275 BC548B Q443 T631276 BC558B Q444 T631286 BC548C Q443 T631276 BC548B Q444 T631286 BC548C Q445 T631276 BC548B Q501 T631275 BC548B Q502 T631275 BC548B Q503 T631275 BC548B Q504 T631275 BC548B Q505 T631275 BC548B Q601 T631275 BC548B Q601 T631275 BC548B Q602 T631275		Q009	T631275	BC548B
Q011 2326873R DTC144EST Q012 T631276 BC558B Q013 T631275 BC548B Q121 T631291 BC368 Q321 T631275 BC548B Q322 T631275 BC548B Q441 T631275 BC548B Q442 T631275 BC548B Q443 T631276 BC558B Q444 T631286 BC548C Q444 T631286 BC548B Q444 T631275 BC548B Q444 T631276 BC558B Q444 T631276 BC548B Q501 T631275 BC548B Q502 T631275 BC548B Q503 T631275 BC548B Q504 T631275 BC548B Q505 T631275 BC548B Q601 T631288 BC517 Q602 T631275 BC548B Q603 T631275 BC548B Q704 T633138		Q010	T631275	BC548B
Q012 T631276 BC558B Q013 T631275 BC548B Q121 T631275 BC548B Q321 T631275 BC548B Q322 T631275 BC548B Q441 T631275 BC548B Q442 T631275 BC548B Q443 T631276 BC558B Q444 T631286 BC548C Q445 T631286 BC548B Q445 T631275 BC548B Q501 T631275 BC548B Q502 T631275 BC548B Q503 T631275 BC548B Q504 T631275 BC548B Q505 T631275 BC548B Q504 T631275 BC548B Q601 T631275 BC548B Q601 T631275 BC548B Q603 T631275 BC548B Q603 T631275 BC548B Q701 T633142 BF458 Q702 2315451 <		Q011	2326873R	DTC144EST
Q013 T631275 BC548B Q121 T631291 BC368 Q321 T631275 BC548B Q322 T631275 BC548B Q441 T631275 BC548B Q442 T631275 BC548B Q443 T631275 BC548B Q444 T631276 BC558B Q444 T631286 BC548C Q445 T631286 BC548B Q501 T631275 BC548B Q502 T631275 BC548B Q503 T631275 BC548B Q503 T631275 BC548B Q504 T631275 BC548B Q505 T631275 BC548B Q505 T631275 BC548B Q601 T631288 BC517 Q602 T631275 BC548B Q603 T631275 BC548B Q701 T633142 BF458 Q702 2315451 BU2508AF Q703 T633138 <		Q012	T631276	BC558B
Q121 T631291 BC368 Q321 T631275 BC548B Q322 T631275 BC548B Q441 T631275 BC548B Q442 T631275 BC548B Q443 T631276 BC558B Q444 T631286 BC548C Q445 T631286 BC548B Q445 T631275 BC548B Q501 T631275 BC548B Q502 T631275 BC548B Q503 T631275 BC548B Q504 T631275 BC548B Q505 T631275 BC548B Q505 T631275 BC548B Q601 T631288 BC517 Q602 T631275 BC548B Q603 T631275 BC548B Q701 T633142 BF458 Q702 2315451 BU2508AF Q703 T633138 BF423 Q704 T732013 TS0820-20 Q705 T631265		Q013	T631275	BC548B
Q321 T631275 BC548B Q322 T631275 BC548B Q441 T631275 BC548B Q442 T631275 BC548B Q443 T631276 BC558B Q444 T631286 BC548C Q445 T631286 BC548B Q501 T631275 BC548B Q502 T631275 BC548B Q503 T631275 BC548B Q504 T631275 BC548B Q505 T631275 BC548B Q505 T631275 BC548B Q601 T631275 BC548B Q602 T631275 BC548B Q603 T631275 BC548B Q603 T631275 BC548B Q701 T633142 BF458 Q702 2315451 BU2508AF Q703 T633138 BF423 Q704 T732013		Q121	T631291	BC368
Q322 T631275 BC548B Q441 T631275 BC548B Q442 T631275 BC548B Q442 T631275 BC548B Q443 T631276 BC558B Q444 T631286 BC548C Q445 T631275 BC548B Q501 T631275 BC548B Q502 T631275 BC548B Q503 T631275 BC548B Q504 T631275 BC548B Q505 T631275 BC548B Q601 T631288 BC517 Q602 T631275 BC548B Q603 T631275 BC548B Q701 T633142 BF458 Q702 2315451 BU2508AF Q703 T633138 BF423 Q704 T732013 <		Q321	T631275	BC548B
Q441 T631275 BC548B Q442 T631275 BC548B Q443 T631276 BC558B Q444 T631286 BC548C Q445 T631286 BC548C Q445 T631275 BC548B Q501 T631275 BC548B Q502 T631275 BC548B Q503 T631276 BC558B Q504 T631275 BC548B Q505 T631275 BC548B Q504 T631275 BC548B Q505 T631275 BC548B Q601 T631288 BC517 Q602 T631275 BC548B Q603 T631275 BC548B Q603 T631275 BC548B Q701 T633142 BF458 Q702 2315451 BU2508AF Q703 T633138 BF423 Q704 T732013 TS0820-20 Q705 T631265 BC546B		Q322	T631275	BC548B
Q442 T631275 BC548B Q443 T631276 BC558B Q443 T631286 BC548C Q444 T631286 BC548C Q445 T631275 BC548B Q501 T631275 BC548B Q502 T631275 BC548B Q503 T631276 BC558B Q504 T631275 BC548B Q505 T631275 BC548B Q601 T631288 BC517 Q602 T631275 BC548B Q603 T631275 BC548B Q603 T631275 BC548B Q701 T633142 BF458 Q702 2315451 BU2508AF Q703 T633138 BF423 Q704 T732013 TS0820-20 Q705 T631265 BC546B		0441	T631275	BC548B
U443 T631276 BC558B Q444 T631286 BC548C Q445 T631286 BC548C Q501 T631275 BC548B Q502 T631275 BC548B Q503 T631276 BC558B Q504 T631275 BC548B Q505 T631275 BC548B Q505 T631275 BC548B Q601 T631288 BC517 Q602 T631275 BC548B Q603 T631275 BC548B Q601 T631288 BC517 Q602 T631275 BC548B Q603 T631275 BC548B Q701 T633142 BF458 Q702 2315451 BU2508AF Q703 T633138 BF423 Q704 T732013 TS0820-20 Q705 T631265 BC546B		0442	T631275	BC548B
U444 T631286 BC548C Q445 T631286 BC548C Q501 T631275 BC548B Q502 T631275 BC548B Q503 T631275 BC548B Q503 T631275 BC548B Q504 T631275 BC548B Q505 T631275 BC548B Q601 T631275 BC548B Q602 T631275 BC548B Q603 T631275 BC548B Q701 T633142 BF458 Q702 2315451 BU2508AF Q703 T633138 BF423 Q704 T732013 TS0820-20 Q705 T631265 BC546B		L1443	T631276	BC558B
U445 1631286 BC548C Q501 T631275 BC548B Q502 T631275 BC548B Q503 T631276 BC558B Q504 T631275 BC548B Q505 T631275 BC548B Q601 T631275 BC548B Q602 T631275 BC548B Q603 T631275 BC548B Q603 T631275 BC548B Q701 T63142 BF458 Q702 2315451 BU2508AF Q703 T633138 BF423 Q704 T732013 TS0820-20 Q705 T631265 BC546B		U444	1631286	BU548U
Lbul 16512/5 BC548B Q502 T631275 BC548B Q503 T631276 BC558B Q504 T631275 BC548B Q505 T631275 BC548B Q601 T631288 BC517 Q602 T631275 BC548B Q603 T631275 BC548B Q701 T631284 BC517 Q602 T631275 BC548B Q701 T631242 BF458 Q702 2315451 BU2508AF Q703 T633138 BF423 Q704 T732013 TS0820-20 Q705 T631265 BC546B		U445	1631286	BU548U
L302 1651275 BC548B 0503 T631276 BC558B 0504 T631275 BC548B 0505 T631275 BC548B 0601 T631288 BC517 0602 T631275 BC548B 0603 T631275 BC548B 0701 T633142 BF458 0702 2315451 BU2508AF 0703 T633138 BF423 0704 T732013 TS0820-20 0705 T631265 BC546B		U501	1631275	BU048B
L503 1651276 BC558B Q504 T631275 BC548B Q505 T631275 BC548B Q601 T631288 BC517 Q602 T631275 BC548B Q603 T631275 BC548B Q701 T633142 BF458 Q702 2315451 BU2508AF Q703 T633138 BF423 Q704 T732013 TS0820-20 Q705 T631265 BC546B		U502	1631275	BU548B
L504 1551275 BC548B Q505 T631275 BC548B Q601 T631288 BC517 Q602 T631275 BC548B Q603 T631275 BC548B Q701 T633142 BF458 Q702 2315451 BU2508AF Q703 T633138 BF423 Q704 T732013 TS0820-20 Q705 T631265 BC546B		12503	16312/6	B-0540D
L303 1531275 BC548B Q601 T631288 BC517 Q602 T631275 BC548B Q603 T631275 BC548B Q701 T633142 BF458 Q702 2315451 BU2508AF Q703 T633138 BF423 Q704 T732013 TS0820-20 Q705 T631265 BC546B		U504	1031275
Ldol1 1031288 BC517 Q602 T631275 BC548B Q603 T631275 BC548B Q701 T633142 BF458 Q702 2315451 BU2508AF Q703 T633138 BF423 Q704 T732013 TS0820-20 Q705 T631265 BC546B		0601	10312/5
Cool Tosil273 BC548B Q603 T631275 BC548B Q701 T633142 BF458 Q702 2315451 BU2508AF Q703 T633138 BF423 Q704 T732013 TS0820-20 Q705 T631265 BC546B		0602	1031200
Cool Tosi273 DC348D Q701 T633142 BF458 Q702 2315451 BU2508AF Q703 T633138 BF423 Q704 T732013 TS0820-20 Q705 T631265 BC546B		0602	10312/3 T621275
Croit 103142 D1430 Q702 2315451 BU2508AF Q703 T633138 BF423 Q704 T732013 TS0820-20 Q705 T631265 BC546B		0701	T633140	BE458
CT02 Z019471 B02200AF Q703 T633138 BF423 Q704 T732013 TS0820-20 Q705 T631265 BC546B		0702	2215/151	BU2508AF
0704 T732013 TS0820-20 0705 T631265 BC546B		0702	7633139	BF/173
0705 T631265 BC546B		0704	T732012	T$0820_20
		0705	T631265	RC546B
0706 T631276 BC559P		0706	T631203	BC558B
0801 T633137 RE/50		0801	T6331270	RF459
0802 T633137 REA50		0802	T633137	BF459
0802 T633137 RE450		0803	T633137	BF459
0804 T631276 BC558B		0804	T631276	BC558B
0811 T631275 BC548B		0811	T631275	BC548B
Q812 T631275 BC548B		0812	T631275	BC548B
Q813 T631275 BC548B		Q813	T631275	BC548B

Page 46

Ref No.	Part No	Description

0851	1631276 Te21275	BC558B
0901	T631275
0902	T631291	BC368
Q903	2314791	BUT12AF
Q904	T631291	BC368
0951	T633133	BF422
U952 0952	1631275	BC548B
0954	2313011 T631275	BC548B
0956	2315611	BD438
Q957	T631276	BC558B
Q1310	T631276	BC558B
01320	T631275	BC548B
U1321	1631275	BC548B
02011	T631275	BC548B
03100	T631275	BC548B
Q3101	T631276	BC558B
Q3202	T631275	BC548B
Q3205	T631276	BC558B
03209	2326873R	DIC144EST
04451 04452	1031275 T631276	BC558B
04453	T631275	BC548B
Q4454	T631276	BC558B
Q4455	T631275	BC548B
Q4601	2326873R	DTC144EST
Q4602	2326873R	DTC144EST
U4604	23268738	DICI44ESI
04606	2320073n 2326873B	DTC144EST DTC144EST
04901	T631278	BC327-25
Q4902	2326873R	DTC144EST
Q4904	T631275	BC548B
Q4991	T631286	BC548C
04992	1631286	BC548C
09000	1031200 T636035
09001	T631276	BC558B
Q9002	T636060	BUZ71
Q9100	T631275	BC548B
Q9101	1631275
D002	T531055	IN4148
D012-15	2348921M	IN4531
D019	T547041	TLSH2101
D020	2483552	SLP-255B-81
D021	2483552	SLP-255B-81
D121	T531056	BYV10-40
D122	T531063	IN4002
D401	2343963M	MPG06J
D501	2348921M	IN4531
D503	1531055	BA185
0604	T531055	BAT85
D701-04	2343941M	RGP10G
D705	2343963M	MPG06J
D706	T431117	BY228
D707	T431116	BYW96D
0708	2343941M
D711	2348921M	1N4531
D712	2343963M	MPG06J
D751	T531053	IN4148
D752	T531053	IN4148
D804	2343941M	KGP10G
D804	23409211VI 2343941M	RGP10G
D805	2348921M	IN4531 (signal/control panel)
D806	2343941M	RGP10G
D806	2343963M	MPG06J (signal/control panel)
D807	2343963M	MPG06J
D808	2343963M
0852	23405211VI 2348921M	1N4531
D853	2348921M	IN4531

Ref No.	Part No.	Description
D901-04	2342711M	EM2A
D905	2348921M	IN4531
D906	2343963M
D908	2343903M	IN4531
D909	2323963M	MPG06J
D911	T531056	BYV10-40
D951	2349983	D10-BYR29F-600
D952	2349851
D953 D954	2349991 2342711M	D10-D1029F-200 FM2Δ
D955	2342711M	EM2A
D956	T531053	IN4148
D967	T531053	IN4148
D1404	2348921M	IN4531
D2001-04	234892110	104531
D2201	2348921M	IN4531
D3201	2348921M	IN4531
D3202	2348921M	IN4531
D3203	2348921M	IN4531
D4401	1531053	11144
D4451	2348921M	IN4531
D4601-05	T531053	IN4148
D4906	T531053	IN4148
D9001-04	2342711M	EM2A
D9005	1431111 T431120	1N4007 BVV27_150
D9008	T431120	BYD33J
D9009	T431113	BYD33J
D9010	T531056	BYV10-40
D9011	T531053	IN4148
D9012	1531053 T431120	BYV27-150
D9100	2349991	D10-BYW29F-200
D9101	T431120	BYV27-150
D9102	T531053	IN4148
D9103	1531056	BYV10-40 B7X79C22V
ZD001	T536174	BZX79C5V1
ZD004	2342806M	BZX79C3V9
ZD005-08	T536174	BZX79C5V1
ZD009-13	1536230
ZD400	T536184	BZX79C9V1
ZD480	T536224	BZX79B5V6
ZD501	T536184	BZX79C9V1
ZD503	\| 15360// \| T536181
ZD504	T536213	BZX79C4V3
ZD506	T536077	6V2 ZENER
ZD591	2342806M	BZX79C3V9
2D701	2339251M
70705	1536181	BZX79C13V
ZD801	T536177	BZX79C12V
ZD901	T536190	BZX79C2V7
ZD902	T536187	BZX79C4V7
20903	153018/ T536175	DZA/904V/ B7X79C6\/8
ZD905	T536175	BZX79C6V8
ZD906	T536183	BZX79C11V
ZD951	2332229M	HZ7BILTA
ZD953	2344122M	PGKE180AG23
703219	T536184	BZX79C9V1
ZD3244	T536213	BZX79C4V3
ZD4001	2342826M	BZX79C22
ZD4401	T536237	BZX79B24V
ZD4402	1536213	BZX79U4V3 BZX79C4V3
ZD4403	T536176	BZX79C10V
ZD4604	T536179	BZX79C6V2
ZD4605	T536179	BZX79C6V2
ZD4606-10	T536176	BZX79C10V
204611 704612	1536184
207012	1000104	02//30341

Page 47

	Ref No.	Part No.	Description
	ZD4903-06	T536213	BZX79C4V3
	ZD4928	T536185	BZX79C5V6
	209000	1536246 T536246	18V ZENER .3VV 18V ZENER 1.3W/
	ZD9102	T536174	BZX79C5V1
	L001	2123781R	100uH FILTER COIL
	L003	2123109R	33uH AXIAL COIL
	L101	2123/81R 2122791P
	1251	2123781R	1000H FILTER COLL
	L252	2123781R	100uH FILTER COIL
	L300	2123105M	15uH AXIAL COIL
	L422	2122956M
	1450	2140081 2123781B
	L481	2123103M	10uH AXIAL COIL
	L482	2123103M	10uH AXIAL COIL
	L501	2123099M	5 6uH AXIAL COIL
	1501A	2140041 2122956M
	L502	2122330N	100µH FILTER COIL
	L504	2123099M	5 6uH AXIAL COIL
	L505	2122956M	100uH AXIAL COIL
	L601	2122096
	1702	2161371	I INFARITY COIL
	L704	2122213	30uH FIXED COIL
	L705	2274773	VARIABLE INDUCTOR
	L751	2220641	EAST WEST INJECTION COIL
	1801	2220042
	L901	2122694	LINE FILTER
	L902	2124531	LINE FILTER
	L903	2125593	470uH CHOKE
	L951	2123331 2122056M
	L1401	2122956M	100uH AXIAL COIL
	L1403	2122956M	100uH AXIAL COIL
	L2201	2774631R	FERRITE BEADS LEAD
	L2202	2774631R 2122056M
	13201	2122956M	100uH AXIAL COIL
	L3202	2122956M	100uH AXIAL COIL
	L4601	2122253M	100uH AXIAL COIL
	L4603	2122253M
	14606	2122253M	100uH AXIAL COIL
1	L4901	2122239M	10uH AXIAL COIL
	L9000	2124531	LINE FILTER
	L9001	2122235M
	L9002 L9003	2120083
	L9004	2122694	LINE FILTER
- 44	T701	2436771	FLYBACK TRANSFORMER
	T702	2260291
Ŵ	1901 T9000	1380095	SWITCH MODE TRANSFORMER

	FILTERS, CRYSTALS, DELAY LINES etc
	CP501	2143893	4 43MHz TRAP
	DI 501	2163971
	DL502	2151101	LUMINANCE DELAY LINE
	S601	2611331	VERTICAL CENTRING SWITCH
	SG801	2340037
	U001	T549010	INFRA RED AMP. ASSEMBLY
	U201	E710030	TUNER
	U211	2575574	I.F UNIT ASSEMBLY
	U411 X001	2575562
	X451	2168942
	X501	2168201	CERAMIC OSCILLATOR
	X502	2168741	4.43MHz CRYSTAL
	X2201	2168671
	74001	£310034

Page 48

HITACHI

HITACHI LTD. TOKYO JAPAN International Sales Division, THE HITACHI ATAGO BLDG. No. 15 -12 Nishi-Shinbashi, 2 - Chome, Minato-Ku, Tokyo 105, Japan Tel. Tokyo 3 32581111

HITACHI SALES EUROPA GmbH Am Seestern 18, 40547 Düsseldorf, Germany Tel. 0211 5291 50

HITACHI SALES (HELLAS) S.A. 91, Falirou Street, 117-41 Athens, Greece Tel. 92 42-620-4

HITACHI HOME ELECTRONICS (EUROPE) Ltd. Hitachi House, Station Road, Hayes, Middlesex UB3 4DR, England Tel. 0181 849 2000

HITACHI SALES IBERICA, S.A. Gran Via Carlos Tercero.101,1 -1 Barcelona 08028 Tel. 3- 330.86.52

HITACHI FRANCE (RADIO-T.V.-ELECTRO-MENAGER) S.A. 4, allée des Sorbiers, Parc d'active de Chêne, 69671 BRON Cedex, France Tel. 72 14-29-70

HITACHI HOME ELECTRONICS NORDIC Domnarvsgatan 29 Lunda, Box 62 S-163 91 Spanga, Sweden Tel. 08 621 8250

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