Pioneer PDR-509 Посібник з експлуатації - Сторінка 30

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Pioneer PDR-509 Посібник з експлуатації
PDR-555RW, PDR-V500, PDR-19RW, PDR-509
control. The spindle motor is controlled by switching the above
three spindle servos (CAV, EFM-CLV and Wobble-CLV) and Stop
mode by controlling the switch of the servo amplifier IC (PA9004A,
IC247) according to the control signal output from the mechanism-
control microcomputer.

7.2 DEFECT CIRCUIT

The defect signal is output if there is a defect, such as a flaw, on the
disc. If the defect signal is "Hi," the tracking error is muted and the
low-frequency component of the error signal output just before the
defect occurs is applied to the focus error and the spindle error so
that the pliability rises.

7.3 EFM-DIGITAL PLL

Channel clocks are required to demodulate the EFM signal
reproduced from the optical system, because it is modulated to 3T
to 11T (where T is a cycle of the channel clock), which is integer
multiple of T. Practically, the PLL must read the channel clock
because the irregularities in the spindle rotation may change the
pulse width of the EFM signal.
This product has three stages of PLL. The first stage is a wide-
range PLL. The output of the first-stage PLL functions as the
standard for all clocks in CXD2585Q.
The PLL of the second stage is for generating high-frequency clock
indispensable for the digital PLL of the third stage.
The PLL of the third stage is a digital PLL for generating the practical
channel clock.

7.4 RF DETECTION

For CD-Rs there is an RF detection circuit to distinguish recorded
and unrecorded parts. The detection signal is output from the servo
amplifier IC (PA9004A, IC247-pin 61).
RFB and RFT also output the peak value and the bottom value of
the HF signal used for OPC operation.

7.5 MIRROR CIRCUIT

A mirror signal equivalent to that of conventional CD players is
used for CDs with EFM signals and for recorded parts of CD-Rs
and CD-RWs.
For unrecorded parts of a CD-R or CD-RW, the mirror signal peculiar
to the CD decoder is generated using the RC (radial contrast)
generated by crossing a groove.
30

7.6 AUDIO CIRCUITS

7.6.1 Analog Audio Input

The audio signal input via JA801 runs through the volume of the
VR Assy once and returns to the AUDIO Assy.
The input buffer circuit of IC803 (L-channel) and IC804 (R-channel)
is a single-ended/differential conversion circuit composed inverting-
inverting circuits.
The audio signal is converted to a differential signal and input to the
IC801 A/D converter (AK5340-VS).

7.6.2 A/D Converter

AK5340-VS, made by Asahi Chemical is used as the A/D converter.
This is an 18-bit, 2-channel A/D converter, which employs fifth-
generation delta-sigma techniques.
It contains two delta-sigma modulators and performs s 64-times
oversampling of both channels simultaneously.
The input range of the A/D converter is 4.0 Vp-p. So it becomes 0
dB when a signal of 2.08 Vp-p is input to input terminals AIN+ and
AIN-.
The control signals of the A/D converter are ADSTBY (pin 10),
ADLRCK (pin 14), ADBCLK (pin 15), and ADDATA (pin 16).
ADSTBY (pin 10) switches to Power-Down mode at "Hi" and offset
calibration begins upon falling from "Hi" to "Lo."
During the offset calibration, the input of each channel is measured
as the data for it. At this moment, each audio input terminal is
separated from the outside and short-circuited inside.
ADLRCK (pin 14) is the signal from the encoder IC (IC308
LC89585, pin 36), and ADBCLK (pin 15) and ADDATA (pin 16)
are signals for the encoder IC (pins 35 and 33).
ADBCLK
ADLRCK
ADDATA
MSB
L ch
Fig. 7-3 AK5340-VS data output timing
However, A/D Converter of PDR-509 uses PCM1800-1 made by
the BURR-BROWN company.
LSB
MSB
LSB
R ch