JPS61117741A - Optical recording disc reproducing system - Google Patents

Abstract

PURPOSE:To stabilize the operation of the system against the external vibration and to improve the responsiveness of the servo system by detecting the magnitude of optical transfer and by shifting the servo range of the tracking servo system to the wider secondary range when the peak value of the detection output exceeds the prescribed reference level. CONSTITUTION:The output of a pickup 1 is amplified by a preamplifier 30, and is supplied to a focus error generating circuit 31 that generates the error signal in the focusing direction and a tracking error generating circuit 32 that generates the error signal in the tracking direction. By the output of the circuit 31, the focusing direction of the objective lens in the pickup 1 of the information storage surface of a disc 2, is controlled. And the output of the circuit 32 is supplied to a tracking servo circuit 34 that controls the information-reading point 3 to the tracking direction. In the meantime, the optical transfer detected by a vibration. In the meantime, the optical transfer detected by a vibration detecting circuit 23 is differentiated 36, and its peak values are held by a peak holding circuit 37. A level detecting circuit 35 detects any peak that exceeds the prescribed reference level, and by its output, the servo range of the servo circuit 34 is shifted to the wide range.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to an optical recording disc reproducing apparatus, and particularly to an optical recording disc reproducing apparatus suitable for use in a vehicle.

1EL In this type of device, recorded information is read by the information reading point of the pickup following the recording track of the recording disk (hereinafter simply referred to as disk). If motion is applied, the information reading point of the pickup will jump over the recording track, making it impossible to obtain stable playback operation. Especially when considering installation in a car that constantly takes pictures,
There is a high possibility that so-called truck jumping will occur frequently, and countermeasures against this are desperately needed.

1) The present invention was made in view of the above-mentioned points, and an object of the present invention is to provide an optical recording disk playback device that is strong against external vibrations applied to the VT4 main body and is capable of stable playback operation. do.

The optical recording disk reproducing apparatus according to the present invention includes a detection means for detecting the amount of movement of the optical system, bolds the peak value of the signal level of the output signal of the detection means, and sets the hold output to a predetermined reference level. The servo band of the tracking servo system is switched from the first band to the second band wider than the first band when the servo band exceeds the first band.

IIL Hereinafter, embodiments of the present invention will be described in detail based on the drawings.

FIG. 1 is a configuration diagram showing an embodiment of the present invention. In this figure, 1 is a pickup that irradiates light toward the disc 2 and forms an information reading point 3 on the recording surface to read recorded information on the disc 2 and photoelectrically converts the read signal. A driving means, which will be described later, is built in to move the point 3 with respect to the disk 2 in a direction perpendicular to the recording surface (focus direction) and in a radial direction of the disk 2 (tracking direction).

An example of a specific configuration of the pickup 1 is shown in FIG.

In FIG. 2, an optical system including an objective lens 25 housed in a cylindrical case 24 is held by a holding frame 26,
Furthermore, it is movable within a predetermined range in both the optical axis direction of the irradiation light emitted from the optical system, that is, the focus direction X, and the tracking direction y perpendicular to the focus direction It is supported by the support mechanism 4 so that This optical system has the function of irradiating a spot light onto the disk recording surface and detecting changes in the light that passes through the recording surface.The specific structure is well known, so it will not be described in detail here. do not.

The support eE114 includes a pair of leaf springs 7a and 7b whose one ends are fixed to the base 6 via brackets 5a and 5b and which are flexible only in the tracking direction, and these leaf springs 7a and 7b.
A frame-shaped and plate-shaped relay member 8 is fixed at both ends to each free end of the relay member 8, and one end of each is fixed to the upper and lower ends of the relay member 8, and each other end is fixed to the holding frame 26, and the focus direction is It is composed of a pair of leaf springs 9a and 9b that are flexible only in the direction of the angle.

A cup-shaped bobbin 1o is fixed to the lower end of the case 1, and a driving coil 11 in the focus direction X is wound around the outer periphery of the bobbin 10 in the circumferential direction. Further, a pair of cylindrical bobbins 12a and 12b are provided on the outer peripheral surface of the case 24.
are provided protruding in the tracking direction y, and these bobbins 12a
, 12b are wound with a driving coil 13 in the tracking direction y. The bobbin 10 is provided so as to be located within an annular magnetic gap 15 of a magnetic circuit section 14 fixed to the base 6. Also, the bobbin 12a.

12b is provided so as to be located within the magnetic gaps 17a, 17b of a pair of magnetic circuit parts 16a, 16b fixed to the base 6.

The above-mentioned components: 10, 12a, 12b, drive coil 11
．． 13 and the magnetic circuit sections 14, 16a, 16b, etc., constitute a driving means for driving the optical system in the focus direction X and the tracking direction y.

Referring again to FIG. 1, the output signal of the pickup 1 is amplified by a preamplifier 30 and then supplied to a focus error generation circuit 31 that generates an error signal in the focus direction and a tracking error generation circuit 32 that generates an error signal in the tracking direction. be done. A focus error signal output from the focus error generation circuit 31 is supplied to a focus servo circuit 33 that controls the position of the objective lens 25 in the pickup 1 in the focus direction with respect to the information recording surface of the disk 2. A tracking error signal output from the tracking error generation circuit 32 is supplied to a tracking servo circuit 34 that controls the information reading point 3 in the tracking direction. The tracking servo circuit 34 is configured so that the servo band can be switched between a predetermined first band and a second band wider than the first band in response to an external 1lltllll signal. The tracking servo circuit 34 is supplied with an ill@ signal generated by a level detection circuit 35. Level detection circuit 35
inputs the vibration detection signal supplied from the vibration detector 23 as a movement amount detection means for detecting the movement amount of the optical system of the pickup 1 via the differentiation circuit 36 and the peak hold circuit 37, and calculates the absolute value of this detection signal. It is detected that the value level exceeds a predetermined reference level, and the above-mentioned tlIIIll signal is output.

As shown in FIG. 2, the vibration detector 23 includes a detection magnet 20 attached to a holding frame 26 holding an optical system, and a yoke 22 located near the magnet 20 in the tracking direction. The detection coil 21 is wound around the base 6 and fixed on the base 6. A voltage proportional to the vibration speed of the optical system is applied to the output end of the vibration detector 23. That is, during normal tracking operation, a voltage corresponding to the tracking error signal is obtained, but when external vibrations are applied to the device body, a disturbance component is superimposed on the tracking error signal.

The detection output of the vibration detector 23 is differentiated by a differentiation circuit 36 to become an acceleration signal, and then supplied to a peak hold circuit 37 to hold the peak value of the signal level. The hold output of the peak hold circuit 37 is supplied to the level detection circuit 35. Note that even if the vibration detector 23 is provided to detect vibrations applied to the main body of the apparatus, vibrations of the optical system can also be detected.

FIG. 3 shows a specific circuit configuration of the level detection circuit 35 and the peak hold circuit 37. In this figure, the level detection circuit 35 uses a predetermined reference voltage E for level detection.
, -E, comparators 41a and 41b that compare the reference voltage obtained by the voltage regulator diodes 40a and 40b with the output signal of the peak hold circuit 37, and a comparator (lator 418.4).
It is composed of transistors 42a and 42b for wired ORing the output of 1b. In addition, the group llI
! Voltages E and -E are set within the capture range of the tracking servo.

On the other hand, the peak hold circuit 37
A pair of peak hold circuits 37A, 3 that hold the peak values of the signal levels on the positive potential side and the negative potential side of the acceleration signal corresponding to external vibration supplied from the
7B, each output of which is connected to a comparator 41a, 41
This is the comparison input for b. Peak hold circuit 37A
is a detection diode 43 for detecting an acceleration signal.
a, a hold capacitor 44a for holding the acceleration signal detected by this diode 43a, and a discharge resistor 45a that determines the time to discharge the stored charge of this capacitor 44a and widen the servo band. Similarly, the peak hold circuit 37B includes a detection diode 43b, a hold capacitor 44b, and a discharge resistor 45b.

Next, the circuit operation of the present invention will be explained.

First, external vibrations applied to the main body of the apparatus are detected by the vibration detector 23 and converted into acceleration by the differentiating circuit 36. This acceleration signal is detected by a detection diode 43a.

43b, it is divided into a positive potential side and a negative potential side,
It is held by hold capacitors 44a and 44b.

At this time, if no external vibration is applied, the terminal voltages of the hold capacitors 44a and 44b will not exceed the reference voltages E and -E provided by the voltage regulator diodes 40a and 40b, and the outputs of the comparators 41a and 41b will both be at the same level. becomes.

This output makes transistors 42a and 42b non-conductive, so that the output of level detection circuit 35 becomes +V. This output is supplied to the band switching control input terminal of the tracking servo circuit 34 (see FIG. 1), and sets the servo band to a predetermined first band.

On the other hand, when external vibration is applied, a disturbance component appears in the acceleration signal, and the hold capacitor 44a.

44b holds the peak value. Here, for example, when the terminal voltage of the hold capacitor 44a exceeds the reference voltage E, the output of the comparator 41a is inverted and becomes +■. The output of this comparator 41a is the transistor 42
a is brought into conduction, whereby the output of the level detection circuit 35 becomes O[V]. This output causes the servo band of the tracking servo circuit 34 to be switched from the first band to a second band wider than the first band. At this time, the terminal voltage of the hold capacitor 44b on the negative potential side is the reference voltage -E
Therefore, the output of the comparator 41b is at -■, and the transistor 42b is in a non-conducting state, but the output of the level detection circuit 35 is set to O by the transistor 42a.
It is maintained at [V].

When the servo band of the tracking servo circuit 34 is widened, the tracking error signal input to the tracking servo circuit 34 is compressed more than the error signal in the first band and at the same time starts to converge to the target track. Immediately after the servo band is switched, even if the external vibration disappears and the signal level of the acceleration signal becomes lower than the base tS voltage E, the output of the comparator 41a remains at the capacitor 44a and the resistor 45.
Since the servo band is not inverted for the time determined by the time constant a, the servo band can remain widened for the time. Therefore, the responsiveness when converging to the target track can be improved. When the terminal voltage of the hold capacitor 44a falls below the reference voltage E, the servo band changes to the second
from the band to the first band.

11 animals 11 As explained above, according to the present invention, since the vibration of the optical system is directly detected, it is possible to reliably detect positional fluctuations of the information reading point due to external vibrations applied to the main body of the device. The peak value of the signal level of the detection signal is held, and the timing for switching the servo band is determined based on the hold output, which improves the responsiveness of the servo system after external vibrations are applied, and allows it to meet the target. An optical recording disk reproducing device is obtained that can shorten the time required to converge on a track.

Furthermore, in the present invention, due to the peak hold effect, the servo band can be widened for a while not only when external vibration is applied, but also when the acceleration signal exceeds the reference voltage due to jump or search operation. Therefore, the response of the servo system after a jump operation or a search operation can be improved, and the effects of improving the stability of the jump operation and shortening the time of the search operation can also be obtained.

[Brief explanation of the drawing]

FIG. 1 is a configuration diagram showing one embodiment of the present invention, and FIG.
FIG. 3 is a circuit diagram showing a specific configuration of the level detection circuit and peak hold circuit in FIG. 1. FIG. Explanation of symbols of main parts

Claims (2)

[Claims] (1) An optical system for irradiating a recording surface of a recording disk with a spot light, and supporting the optical system so as to be movable in the optical axis direction of the irradiation light emitted from the optical system and at least one direction perpendicular to the optical axis direction. a support mechanism; and a tracking servo system that controls the position of the spot light relative to the recording disk in the disk radial direction, and the servo band of the tracking servo system is wider than a predetermined first band. An optical recording disk reproducing device configured to be able to switch between a second band and a second band, comprising a movement amount detection means for detecting the movement amount of the optical system, and a detection output of the movement amount detection means as an input and an output thereof. a peak hold circuit that holds a peak level value; and a comparator that generates an output when the output level of the peak hold circuit exceeds a predetermined reference level; An optical recording disk reproducing device characterized by switching a band from a first band to a second band. (2) The movement amount detection means is characterized by comprising a magnet attached to the optical system and a coil arranged near the magnet and wound around a yoke according to the direction of movement of the optical system. An optical recording disc reproducing apparatus according to claim 1.