KR950007295B1 - Focus oa signal transmitting circuit of disk reproduction system - Google Patents

Abstract

The voltage level of the focus servo-on signal is leveled up so that the thermal destruction of the input terminal of a microcomputer caused by the repeated focus servo-on is prevented and the transmission speed of focus servo-on signal is increased. The circuit includes an analog to digital converter(34) for digitizing a focus error signal generated by an error signal generator(16), a focus servo-on signal transmission circuit(32) for shifting voltage level of a focus servo-on signal generated by a comparator(28), and a microcomputer(30) for receiving output signal of the A/D converter to inspect focus state and for controlling the focus servo-on signal transmission circuit according to the focus state.

Description

Focus Servo Insulation Signal Transmission Circuit of Disc Playback System

1 is a block diagram of a disc reproducing system to which the focus servo thermal signal transmission circuit according to the present invention is applied.

* Explanation of symbols for main parts of the drawings

10: pickup device 11: light-emitting diode

12 buffer 13 first and second adders

14: subtractor 16: error generator

18: compensator 20: initial voltage applying unit

22: switching element 24: amplifier

26 Actuator 28 Comparator

30: microcomputer 32: focus servo signal transmission circuit

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a focus servo thermal signal transmission circuit of a disc reproducing system. For example, the present invention relates to a focus servo thermal signal transmission circuit of a disc reproducing system that can be quickly transmitted without an input terminal of a microcomputer and a thermal breakdown.

As is well known, a disc reproducing system for reproducing a disc as an information storage medium is provided with a spindle motor as a drive means for rotating the disc and a pickup device for reading out information recorded on the disc. Among them, when the pickup apparatus uses an optical beam such as a laser, the laser beam is irradiated to the track of the disk to receive the reflected light from the reflective surface of the disk and the information is read out. For the focus, the objective lens enters the focus servo ON section set to approximately 1.9 mm from the disk to perform the focus servo operation. In this case, the pick-up apparatus transmits the state where the objective lens enters the focus servo insulation section to the microcomputer as the control means so that the spindle motor is driven.

However, if an error factor such as a scratch or the like exists on the surface of the disc, the correct focus servo operation is disturbed, and the approach operation to the focus servo ON section is repeatedly performed, and the signal relating to such repeated servo ON operation is performed. (FRF signal) is continuously transmitted to the microcomputer. In general, since the potential of the focus servo thermal signal transmitted to the microcomputer varies from 0V to 5V, the focus constituted by the CMOS FET included in the microcomputer when the repetitive focus servo thermal signal is continuously transmitted to the input of the microcomputer. There is a drawback that the current flowing in the servo-on signal input stage is increased and the input stage is often thermally destroyed.

In addition, since the level of the focus servo ON signal is generally shifted to a range of 5V, a period in which the potential of the focus servo thermal signal transitions from 0V to 5V is prolonged, which also impairs the signal transmission speed.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems in the prior art, and in the case where the focus-serving operation of the pickup device with respect to the disk is repeatedly performed by boosting and compensating the potential of the focus-serving signal by a predetermined level, the heat and collapse of the microcomputer input stage are repeated. The purpose of the present invention is to provide a focus servo thermal signal transmission circuit of a disc reproducing system which is designed to improve the transmission speed of a focus servo ON signal as well as to prevent the problem.

In order to achieve the above object, according to the present invention, a pickup apparatus for receiving a reflected light of a light beam irradiated to a disk as an information recording medium with a plurality of light receiving diodes to detect a focus signal, and to obtain a focus error from the focus signal, Error generation and compensation means for compensating for errors, an initial voltage applying unit for applying an initial voltage for the focus operation of the pickup device, switching the compensation signal of the compensation means and the initial driving power of the initial voltage applying unit and amplifying the switching signal And a comparator for outputting a focus servo signal by comparing a focus error with a focus reference voltage and an actuator for driving a pickup device based on an amplified signal. The digital display device may further include a focus error signal output from the error generating means. A digital signal from the analog-digital converter, a focus-servo signal transmission circuit unit for compensating and boosting the potential of the focus-servo signal output from the comparator by a predetermined level, and receiving a digital signal from the analog-digital converter to monitor the focus state; A focus servo thermal signal transmission circuit of a disc reproducing system is provided, which is equipped with a microcomputer for controlling the circuit connection of the focus servo signal transmission circuit portion in accordance with the focus state.

According to a preferred embodiment of the present invention, the focus servo thermal signal transfer circuit portion includes a resistor for boosting the level of the focus servo signal and a switching element for controlling the circuit connection of the resistor.

In the focus servo thermal signal transmission circuit of the disc reproducing system according to the present invention configured as described above, the level of the focus servo signal obtained by the focus error signal and the focus reference voltage is compensated by a resistor to increase the level of the input terminal of the microcomputer by the focus servo signal. In addition to preventing destruction, the signal transition period can be shortened to enable rapid signal transmission.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of a focus servo thermal signal transmission circuit of a disc reproducing system according to the present invention, wherein reference numeral 10 denotes a laser beam beam for a disc (not shown) and receives reflected light from a reflection surface of the disc. A pickup apparatus for performing track access of a disc, comprising: a plurality of light receiving diodes 11a, 11b, 11c, 11d; 11 and a plurality of light receiving diodes 11a, 11b, 11c that receive reflected light of a laser beam and generate a focus state signal; Adds buffers 12a, 12b, 12c, and 12d to amplify the output of 11d), first adder 13a to add the outputs of the buffers 12a and 12c, and outputs of the buffers 12b and 12d. And a subtractor 14 which subtracts the addition outputs of the first and second adders 13a and 13b to obtain a focus signal.

16 is an error generator for obtaining a focus error from the focus signal output from the pickup device 10, 18 is a compensator for compensating the focus error, and 20 is an initial voltage for the focus operation of the pickup device 10 Is the initial voltage application unit. In addition, 22 is a switching device for switching the compensation signal of the compensator 18 and the initial drive power supply of the initial voltage applying unit 20, 24 is an amplifier for amplifying the signal switched by the switching device 22, Reference numeral 26 denotes an actuator for driving the pickup device 10 so that the objective lens of the pickup device 10 is adjusted to the focus zero based on the signal amplified by the amplifier 24. 28 is a comparator for comparing a focus error with a reference voltage for accurate focusing of the pickup device 10 and outputting a focus servo signal, and 30 is an analogue for digitally changing the focus error output from the error generator 16. Controlling the focus of the pickup apparatus 10 by receiving the focus servo thermal signal when the focus state of the pickup apparatus 10, that is, a focusing zero cross point is detected, based on the output of the digital converter 34. 32 is a focus servo signal transmission circuit unit provided according to the present invention to compensate and boost the potential of the focus signal output from the comparator 28 by a predetermined level, and transmit it to the input terminal of the microcomputer 30.

Referring to the operation of the focus servo signal transmission circuit of the disc reproducing system according to the present invention configured as described above, first, the switching element 22 is connected to the initial voltage applying unit 20 under the control of the microcomputer 30, and then the microcomputer is operated. The initial driving voltage of the pickup device 10 applied by the initial voltage applying unit 20 controlled by 30 is amplified by the amplifier 24 and then applied to the actuator 26, so that it is applied to the pickup device 10. . In this state, when the pickup device 10 irradiates a laser beam ratio with respect to the disk, the reflected light reflected from the reflecting surface of the disk is collected on the light receiving diodes 11 and each of the light receiving diodes 11a, 11b, 11c, and 11d. An electrical signal is output from the condensed state, and the electrical signal is amplified in the corresponding buffers 12a, 12b, 12c, and 12d, and then added to the first and second adders 13a and 13b. The addition output is subtracted by the subtractor 14 to obtain a focus signal.

The focus signal is applied to the error generator 16 to obtain a focus error, and the focus error signal is digitally converted by the analog-to-digital converter 34 and applied to the microcomputer 30. Accordingly, the microcomputer 30 monitors the focus state based on the digital signal applied from the analog-to-digital converter 34. When the focus state reaches the focus zero, the switch 32a of the focus servo signal transmission circuit 32 Will be disconnected. In addition, the output of the error generator 16 has one end (-) of the other end of the comparator 28, the reference voltage is set so that the pickup device 10 is correctly entered into the focus servo insulation section for the disk (-). The focus servo thermal signal output from the comparator 28 is directly transmitted to the microcomputer 30.

As described above, since the input terminal of the microcomputer 30 is composed of a CMOS FET device, when the pickup apparatus 10 repeats the focus servo operation with respect to the disk, the focus servo ON signal is continuously generated accordingly. Since the current is applied to the input terminal of, the current flowing through the FET device constituting the input terminal is increased, and the FET device is likely to be thermally destroyed. In addition, since the potential of the focus servo ON signal is shifted between 0 V and 5 V, the transition time of the potential is extended.

Accordingly, the present invention provides a focus servo signal transmission circuit 32 for leveling up and delivering the focus servo ON signal output from the comparator 28 to the microcomputer 30. That is, the focus servo signal transfer circuit unit 32 is controlled by a switching signal applied from the resistor 32a and the microcomputer 30 that raise the level of the focus servo ON signal, thereby connecting the circuit of the resistor 32a. The switching device 32b for controlling the configuration is provided. Preferably, the switching element 32b has a switching control signal applied from the microcomputer 30 to the base, and its collector is connected to the output side of the comparator 28 to control the resistance under the control of the microcomputer 30. 32a) is constituted by a transistor for making a circuit connection.

According to this configuration, the switching element 32b of the focus servo signal transfer circuit unit 32 is the digital focus error signal applied from the analog-to-digital converter 34 with respect to the focus servo thermal signal output from the comparator 28. Is connected to the switching control signal output from the microcomputer 30 when it is determined that the objective lens is positioned near the focus zero, and the resistor 32a is connected to the circuit accordingly. The output level is in the state of level compensation by the voltage drop by the resistor 32a. Therefore, since the level-compensated focus servo thermal signal signal is transmitted to the input terminal of the microcomputer 30, the current level flowing through the FET elements constituting the input terminal of the microcomputer 30 is reduced, thereby reducing the possibility of thermal breakdown. Since the transition time of the signal is shortened by the level rising from the resistor 32a, it is possible to quickly transmit the signal.

The microcomputer 30 that receives the focus servo thermal signal signal in the level-up state as described above is connected to the compensator 18 by controlling the switching device 22 when the correct focus is achieved, thereby allowing a normal focus servo system to be configured. Therefore, the focus error compensation value compensated by the compensator 18 is amplified by the amplifier 24 and then applied to the actuator 26, and the actuator 26 causes the driving of the pickup device 10 based on the focus error compensation value. Will be performed.

As described above, according to the focus servo thermal signal transmission circuit of the disc reproducing system according to the present invention, the level of the focus servo ON signal of the pickup device with respect to the disc is compensated and boosted to thermally destroy the input terminal of the microcomputer by the focus servo signal. In addition, since the signal transition period of the signal is prevented and the signal is rapidly transmitted, the stabilization and the high performance of the focus servo system can be realized.

Claims (2)

Pick-up device 10 which receives the reflected light of the light beam irradiated to the disk as the information recording medium with a plurality of light-receiving diodes 11 to detect the focus signal, and an error that obtains a focus error from the focus signal and compensates for the focus error. And an initial voltage applying unit 20 for applying an initial voltage for the focus operation of the pickup device 10, the compensation means 16 and 18, the compensation signal of the compensation means 18, and the initial voltage applying unit 20. A switching element and amplifiers 22 and 24 for switching the initial driving power of the amplifier and amplifying the switching signal, an actuator 26 for driving the pickup device based on the amplified signal, and comparing the focus error with the focus reference voltage. A disc reproducing system having a comparator 28 for outputting a servo signal to perform the focus of the pickup device, the digital conversion of the focus error signal output from the error generating means 16. The digital signal from the analog-to-digital converter 34, the focus-servo signal transmission circuit 32 for compensating and boosting the potential of the focus-servo signal output from the comparator 28 by a predetermined level, and the digital-signal from the analog-to-digital converter 34. And a microcomputer 34 for monitoring the focus state and controlling the circuit connection of the focus servo signal transfer circuit unit 32 according to the focus state. . The focus servo signal transfer circuit part 32 is provided with a resistor 32a for boosting the level of the focus servo signal and a switching element 32b for controlling the circuit connection of the resistor 32a. A focus servo thermal signal signal transmission circuit of a disc reproducing system.