JPS58220251A - Focus servo driver - Google Patents

Abstract

PURPOSE:To access quickly a PCM reproducer, by keeping a focus servo loop in a closed state even in a stop mode of a disk driving motor. CONSTITUTION:A focus servo control circuit consists of the 1st and 2nd focus servo control circuits 10a and 10b. A power supply of a motor switched on, and a high frequency signal is detected by a high frequency signal detecting circuit 5 with driving of an objective lens of a pickup. Then the output of the circuit 5 sets an RS flip-flop 14, and the output of the circuit 10b is set at +V. Therefore an FFT18 conducts to close a focus servo loop. No high frequency signal is detected even though a disk driving motor is stopped, and the circuit 10a supplies a signal of 0 level to the circuit 10b to keep the servo loop closed.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention is an optical type PC that records information signals in the form of pits on a disk and reads them optically using a laser beam.
The present invention relates to an M reproducing device, and particularly to a laser beam focus servo drive device.

Digital audio disc (DAD), which generally reproduces information signals by emitting a laser beam onto the disc
In a PCM reproducing apparatus such as a PCM reproducing apparatus, a laser beam must be accurately focused on a bit surface on a disk in order to detect information without contact, and focus servo loose control is required.

The focus servo loop is closed by forcibly driving the pickup up and down to detect a high frequency signal. Therefore, if the detection sensitivity of the high-frequency signal is set high, the detection range is limited, making it impossible to stably close the focus servo loop.

In addition, the focus servo loop is closed by detecting a high frequency signal, so when the motor rotation stops due to the disk stop operation, the focus servo loop is open, so when you perform the play operation again, the focus servo loop is closed. There was a problem in that it needed to be closed again, and it took a long time to become operational due to time loss.

SUMMARY OF THE INVENTION The present invention has been devised in view of the above-mentioned problems, and the laser ball loop is closed when the disk is ejected.

An embodiment of the present invention will be described in detail below with reference to the drawings.

ft) is a disk, which is driven by a motor (2). (3) emits a laser beam and
The information signal (Do) recorded on
This is a pickup that detects error signals. Information signal (
Do) is supplied to a high frequency amplification circuit (4), and the high frequency signal is further detected by a high frequency signal detection circuit (5). On the other hand, the focus error signal is supplied via a focus error signal detection circuit (6) to a phase compensation amplifier circuit (7) that performs phase compensation and amplifies the error signal, and is picked up via a focus coil drive circuit (8). (3
) is supplied to the focus coil (9). The output of the high frequency signal detection circuit (5) is supplied to the disk ft.
This is a focus servo control circuit that controls the focus coil drive circuit (8) in response to the ejection operation of the laser beam and the ON/OFF operation of the laser power source.

FIG. 2 shows a detailed circuit diagram of FIG. 1.

(11) is a high frequency signal input terminal to which the output of the high frequency amplifier circuit (4) is supplied, and is connected to the transistor (131) via a buffer amplifier 0''A, a diode (1), and a resistor @1). Reference numeral 131 has a collector connected to the first operating power supply (+η) via a resistor (R2), and an emitter that is grounded, constituting a high frequency signal detection circuit (5).

(n)i; 1R8-flip flop. The collector electrode of transistor 0 is connected to the set terminal (S)K. In addition, the AND circuit (the output of the country is applied to the reset terminal (c). One-shot multivibrator (16a) (16b) that outputs waves
Two outputs are applied. (10a) is the above-mentioned flip-flow 210 one-shot multi-vibrator (16a) (tab) and AND circuit 05)
This is a first focus servo control circuit composed of the following.

(1η is a focus error signal input terminal to which the output of the focus error signal detection circuit (6) is supplied, and is applied to the focus coil drive amplifier (8) via the phase compensation amplifier circuit (7) and the source and drain of FBTQ19. and drives the focus coil (9).FET (Is
The gate of is supplied to the second focus servo control circuit (10t+) via a diode (2).

The second focus servo control circuit (10'b)
2 type and MP'N type transistors (consisting of 1 east wire, configured to operate with 2 power supplies of ±V, -Re
The (Q) output of the -7 rip-flop H is 111, which outputs 12, and the (Q) output is 101, which outputs +V.

The focus servo control circuit (lO) is composed of a first focus servo control circuit (LOA) and a second focus servo control circuit (10b).

FIG. 3 is a waveform diagram of each part of FIG. 2.

(a) is an output waveform diagram of the high frequency signal detection circuit (5). When a high frequency signal is detected from the pickup (3), it is applied to the base of the transistor (14) via the buffer amplifier α, and the collector output is 11'l changes to @O level, and a high frequency signal is detected.Furthermore, when the drive of the disk 111 is stopped by operating a stop key (not shown), a high frequency signal can be detected by the transistor (ll is cutoff). The 111 signal is then applied to the set terminal (S) of the Re-7 lip-flop H.

(b) is an output waveform diagram of a one-shot multivibrator (16a) that generates a wOl signal for a predetermined period of time by an initial pulse generated when the laser power is turned on. Further, (C) is an output waveform diagram of the one-shot multivibrator (16b) which generates the signal 101 for a predetermined period by the discharge operation. (d) is a (Q) output waveform diagram of the Re-flip-flop Q4], and (e) is a diagram of conduction and non-conduction states of pm't'H.

Next, the operation of the present invention having such a configuration will be explained.

Now, the motor (2) is driven by the operation of the disk, and an initial pulse is sent out when the laser power is turned on, and the one-shot multivibrator (16a) outputs a level signal. circuit(
1η, so the 8th - flip-flop Q4
) is reset and Q) output becomes 111, the second focus servo control circuit (1ob) becomes -V output,
FF! T (to) is quickly disconnected, and the focus servo loop is opened.

However, when the power of the motor (2) is turned on and a high frequency signal is detected by driving the objective lens (not shown) of the pickup (3), the collector output of the transistor (1 turbidity) changes to a sow level of 11 lbs. R because it changes
The 8-7 lip-flop Q4 is set, the (Q) output becomes 10 lB, and the output of the second focus servo control circuit Qob) becomes +V, so Fil! IT (181
becomes conductive and the focus servo loop is closed.

Therefore, the laser beam emitted from the pickup 111 can be focused on the disk (1).

Now, when the motor (2) is stopped due to the subsequent stop operation of the disk 11), the high frequency signal 0DO) can be detected and the transistor 01 becomes 11 levels, but the R8-7 lip flip (14I cannot be set). The first focus servo control circuit (tOa) supplies a 10 level signal to the second focus servo control circuit (10b), and the focus servo loop is closed.

Therefore, even when the motor (2) is stopped, the laser beam is focused on the disk full, and the information signal O) can be immediately detected on the disk (1) during subsequent playback operations. Become.

Furthermore, as the disk +1) is ejected, an ejection pulse is applied from the one-shot multivibrator (xab) to the AND circuit (1~), so R8-flip-flop Q4 is reset, and the (Q) output becomes III. level, and the second focus servo control circuit (10b) (7
) output is -V and ik7:, (at D, IF B T t+
81 is cut off and the focus servo loop is opened.

,' Therefore, according to the present invention, once the disk is mounted and the focus servo loop is closed, the focus servo loop is always closed except when the disk is ejected, so that when the motor stops thereafter, the focus servo loop is closed. Even if a high-frequency signal is detected, the high-frequency signal may be detected immediately by the play operation of the disc, and a playing state may be entered. Therefore, there is no need to open the focus servo lubricant and reconverge the focus when the motor is stopped, so the present invention has the advantage that it can be accessed in an extremely short time, and is extremely effective when used in a non-contact type PCM reproducing device. This is the result.

[Brief explanation of drawings]

FIG. 1 is a diagram showing a focus servo drive device according to the present invention, FIG. 2 is a circuit diagram showing the main parts of FIG. 1, and FIG. 3 is a waveform diagram of each part in FIG. 2. +11...Disc, (2)...Motor, (3)
... Pickup, (6) ... High frequency signal detection circuit, (6) ... Focus / Applicant 1 person other than Sanyo Electric Co., Ltd. 7-1.1, 327

Claims (1)

[Claims] ■ In an optical PCM playback device that records information signals in the form of unevenness on a disk and optically reads them with a laser beam, the disk is loaded into the PCM playback device and played back by the laser beam focus servo drive device in the optical PCM playback device. A focus servo drive device characterized in that a focus servo loop is kept closed even when a motor for driving a disk is stopped after being operated.