KR930002129Y1 - Position checking circuit of cdp - Google Patents

Abstract

No content.

Description

Position detection circuit in compact disc player

1 is a state of movement according to the position of the lens when the disk is shaken by the eccentricity when the disk rotates.

2 is a diagram showing the effect of the bias of the tracking servo on the slave drive in the slave motor drive driver.

3 is a circuit diagram according to the present invention.

4 is an operational waveform diagram of FIG. 3 according to the present invention.

The present invention relates to a position detection circuit in a compact disc player, and more particularly, to a compact disc play position detection circuit capable of minimizing the eccentricity by reducing the eccentricity by grasping the position of the objective lens due to the disc eccentricity.

Conventional devices using compact discs are driven to drive in a linear region within the linear region of the pickup specification, defined by the tracking servo and the servo designer, to read along the data recorded in a spiral structure to read the data recorded on the disk. When the position value of the lens is converted into a voltage value and goes beyond the linear range, it is fed back to the slave drive servo system and the focusing servo system which maintains a constant distance between the surface of the disk and the objective lens. You have a servo system.

For example, reading data creates the need for long-distance movements on disk. At this time, the slave drive system is driven by directly controlling the slave motor, which greatly affects the objective lens as shown in FIG. Due to this, there is a problem that it takes a long time to read the data.

Therefore, an object of the present invention is to provide a circuit that can determine the position of the objective lens due to the disk eccentricity and reduce the time until reading data by reducing the influence of the eccentricity during the slide movement.

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

3 is a circuit diagram according to the present invention, which is based on a slave drive drive output unit 10 generating a slave motor drive signal for reading the next data among data reads, and an output signal of the slave component drive output unit 10. A reference detection circuit 20 for generating a signal, the reference detection circuit 20, a comparator 30 for detecting rising and falling edges of an output signal of the reference detection circuit 20, and the comparator 30 Eccentric from the falling edge of the comparator 30 and the first single-stable multivibrator 40 generated by a predetermined pulse with respect to the direction in which the objective lens moves due to the eccentricity from the output rising edge of The second single-stable multivibrator 50 generated by a predetermined pulse with respect to the point where the objective lens is moved and the least influence by First and second AND gates AND1 and AND2 for selecting outputs of the first and second stage stable multivibrators 40 and 50 and the first and second AND gates AND1 and AND2 as the first and second control signal outputs. The microcomputer 60 generates a control signal for minimizing the influence of the eccentricity after recognizing the point to move the slide by the output of the), and drives to minimize the influence of the eccentricity according to the output of the micom 60 Consisting of a slide drive system 70.

4 is an operation waveform diagram of FIG. 3, (a) is an output waveform of the slave drive drive output unit 10, (b) is an output waveform of the reference detection circuit 20, and (c) is a comparator 30 (D) is a waveform when the rising edge of the output of the comparator 30 is detected, and (e) is a waveform when the falling edge of the output of the comparator 30 is detected. to be.

Therefore, a specific embodiment of the present invention will be described in detail with reference to FIGS. 1 to 9, when a slide motor is driven through the slide drive system 70 during data read to move to read the next data. The output of the unit 10 is shown in FIG. The reference signal is detected by the reference detection circuit 20 using the signal of (a) as shown in (b), and the first multi-vibrator 40 detects the waveform output through the comparator 30 for rising edge detection. ) And the direction in which the objective lens moves by the eccentricity through the second multi-vibrator 50 for the falling edge detection.

The microcomputer 60 recognizes the point where the slide is moved by turning on / off the first and second control signals A and B according to the moving direction, and then operates the slide drive system 70 to influence the eccentricity. To minimize it.

As described above, there is an advantage of reducing the time until reading data by detecting the least received point due to the drive eccentricity of the disk to reduce the influence of shaking.

Claims (1)

A position detection circuit of a compact disc, comprising: a reference signal from a slave drive drive output unit (10) for generating a slave motor drive signal for reading the next data during data read, and an output signal of the slave drive drive output unit (10); The objective lens is eccentrically generated from the generated reference detection circuit 20, the comparator 30 for detecting the rising and falling edges of the output signal of the reference detection circuit 20, and the output rising edge of the comparator 30. The direction and direction of movement of the objective lens with the smallest eccentricity from the falling edge of the first single-stable multi-vibrator 40 and the comparator 30 generated with a predetermined pulse with respect to the moving direction and the point with less influence. The second single-stable multivibrator 50 generated by a predetermined pulse with respect to the point point, and the first and second single-stable multivibrators 4 according to the first and second control signals. The first and second and gates AND1 and AND2 select an output of 0 and 50, and the first and second control signals output the first and second control signals. Micom 60 that generates a control signal for minimizing the effects of the eccentricity after recognizing the point, and the slave drive system 70 is driven to minimize the effects of the eccentricity according to the output of the micom 60 Circuit characterized in that.