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Good service manual. I gat all I want. Copy is good, but could be better. All clear and useful. I sincerely recommend.
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The schematic is very helpful and the images are very good.The schematic is very helpful and the images are very good.The schematic is very helpful and the images are very good.The schematic is very helpful and the images are very good.The schematic is very helpful and the images are very good.The schematic is very helpful and the images are very good.
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Welcome. The scheme is clearly helped me to repair. Worth to download it.
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Excellent manual, very clear, technical specification provided, useful information regarding adjustment and set up.
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fast and easy and exactly what I was looking for. Not the cheapest but value for money after all.
8-4.
Focus Servo Circuit
As shown in Fig. 8-5., the photoelectric current output from the optical block A to D detectors is input to the RF amplifier (IC501), converted to voltage by the I-V amplifier inside, passed through the ABCD amplifier and F.E. (focus error) amplifier, and the ABCD signal is output from Pin #� (ABCD) while the focus error signal is output from Pin #§ (FE) to the DSP/digital servo (IC601). The A to D I-V amplifiers each have a gain switch for adjusting level. Using the serial data input from the system controller (IC801) via the serial bus (SBUS), initial settings of the gain is performed together with ABCD level adjustment according to the disc type each time PLAY, etc. to obtain the optimum output. To perform these, the system controller reads the ABCD level data A/D converted from the DSP/digital servo (IC601) and control the gain switch so that the data becomes the prescribed level. The input of the DSP/digital servo (IC601) is incorporated with an A/D converter, which converts the ABCD signal and the FE signal to 7-bit data at sampling frequencies of 22.05 kHz (fs/2) and 88.2 kHz (2 fs) respectively. The focus error signal is then subject to servo calculation in the DSSP (digital servo signal processor) block, converted to the 88.2 kHz PWM wave, and used to control the focus coil via the servo driver (IC551) and LPF (low pass filter). In addition to the ABCD level adjustment mentioned earlier, the A/D converted ABCD signal data is also compared with the reference level preset with the serial data from the system controller, and the FOK (focus OK) detection signal is output to the system controller via the serial bus (SBUS). The focus gain and focus bias adjustments are performed in the adjustment mode, the adjustment values are stored in the nonvolatile memory, the data is sent to the servo circuit via the serial bus (SBUS) at starting to set the focus gain and focus bias adjustment data. In the case of focus bias, data on the bias amount during adjustment is sent to the DSSP block, added to the focus error signal, and used to drive the focus coil.
� 42 �
 $4.99 MZE30 SONY
Owner's Manual Complete owner's manual in digital format. The manual will be available for download as PDF file aft…
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