JPH03189974A - Tracking servo gain adjustor for disk player - Google Patents

Abstract

PURPOSE:To easily and rapidly adjust the gain of a tracking servo by providing a signal switching circuit to input a servo errornous signal to the other input terminal of an AF amplifier, monitoring both the outputs of the AF amplifier, and adjusting a variable resistor for adjusting tracking. CONSTITUTION:A disturbance signal is taken out from the output of a disturbance input circuit 21 and is monitored with a voltmeter 33 from the output terminal of a right channel RCH of an AF amplifier 17. Besides, a tracking errornous signal outputted from an amplifier 5 is inputted to the input terminal of a left channel LCH of the AF amplifier 17 through a switch SWB and is outputted from the AF amplifier 17 output terminal as an audio signal. The voltmeters 32 and 33 are monitored, a half fixed variable resistor for adjusting tracking 3 is adjusted so that the level of the tracking errornous signal and the level of the disturbance signal may come to the same level and the gain of a tracking servo is adjusted. Thus, with simple and inexpensive constitution, adjust of the gain of the tracking servo can be executed easily and rapidly.

Description

DETAILED DESCRIPTION OF THE INVENTION <Industrial Application Field> The present invention relates to a tracking servo gain adjustment device for a disc player.

<Prior Art> Conventionally, there is a tracking servo gain adjustment device for a disc player as shown in FIG. This tracking servo gain adjustment device includes a pickup 1 and a high-frequency amplifier ( Hereinafter referred to as RFAMP)2
And the output of this RFAMP2 ((A + B) - (C + D)
), a tracking servo circuit consisting of an amplifier 5 with a semi-fixed volume 3 for tracking adjustment, a resistor R3, and a racking driver 6. This servo gain adjustment device connects a CR oscillator to test points TP and TP connected to both sides of the resistor R3 via resistors R1 and R7, and generates l kHz from this CR oscillator.
A test disturbance signal, which is a sine wave, is input to the tracking servo circuit, and this disturbance signal is detected by the voltmeter 13. An external CR oscillator 11 for generating an IkHz disturbance signal and dedicated test points TP, TP for inputting the disturbance signal to the tracking servo circuit and for extracting a tracking error signal are required, and furthermore, these connection work Therefore, there is a problem that it is not possible to easily and quickly adjust the gain of the tracking servo.

Therefore, the purpose of this invention is to simplify the process by eliminating the external CR oscillator and dedicated test points.

An object of the present invention is to provide a tracking servo gain adjustment device for a disc player that can quickly adjust the tracking servo gain.

<Means for Solving the Problems> In order to achieve the above object, the present invention provides a tracking servo circuit having a pickup, a subtraction circuit, a tracking adjustment volume, and an amplifier, a decoder for decoding the output from the pickup, and this decoder. The D/A converter that converts the output from The dragging error signal to be tested at the test point T,
The tracking adjustment semi-fixed volume 3 is adjusted so that the disturbance signal and the tracking error signal are detected at the same level by the voltmeter 12 via P.

Note that 7 is a subtraction circuit for performing focusing servo, and 8 is a focus driver. Further, 15 is a servo/signal decoder that receives the output from the RFAMP 2 and performs decoding processing under the control of the microcomputer 14, and 16 is a D/A that converts digital data output from the servo/signal decoder 15 into an analog signal. converter, 1
7 is an audio frequency amplifier (hereinafter referred to as AFAMP) that amplifies the signal from the D/A converter 16, 1819 is an audio signal output terminal, and this servo/signal decoder I
5, the D/A converter 16, and the AFAMP 17 constitute an audio output circuit.

<Problems to be Solved by the Invention> A tracking servo gain adjustment device for a disk player, comprising an audio output circuit having an AF amplifier for amplifying left and right channel playback signals output from an A converter, the device is in a test mode. A control microcomputer that outputs a test mode control signal representing the execution of When not receiving the test mode control signal, the left and right channel playback signals output from the D/A converter are input to the left and right channel playback signal input terminals of the AF amplifier, while the microcomputer controls the test mode. When the signal is output, one of the reproduction signals of the left and right channels output from the D/A converter is input as a disturbance signal into the closed loop of the tracking servo circuit via the disturbance input circuit, Above A
a signal switching circuit that inputs the disturbance signal to one input terminal of the F amplifier and inputs a servo error signal in the tracking servo circuit to the other input terminal of the AF amplifier; It is characterized in that the tracking adjustment volume is adjusted by monitoring the force.

<Operation> A test signal disk that generates a 1 kHz sine wave signal is played back by the pickup, and a test mode signal is input from the microcomputer to the signal switching circuit. Then, the signal switching circuit inputs one of the left and right channel reproduction signals outputted from the D/A converter as a disturbance signal to the tracking servo circuit via the disturbance input circuit, and also inputs the reproduction signal to the tracking servo circuit via the disturbance input circuit. The disturbance signal is input to one input terminal of the AF amplifier, while the servo error signal output from the amplifier of the tracking servo circuit is input to the other input terminal of the AF amplifier. As a result, signals representing a disturbance signal and a tracking error signal are output from the left and right channel output terminals of the AF amplifier, and this disturbance signal = 7. A subtraction circuit for singling, 8 a focus driver 15, a servo/signal decoder, 16 is a D/A converter, 17 is A
These FAMPs have the same configuration as the conventional circuit shown in FIG.

A disturbance input circuit 21 is connected between the amplifier 5 and the tracking driver 6. This disturbance input circuit 2I
consists of a voltage follower 22 and resistors R6 and Re. In this embodiment, a tracking servo circuit is constituted by a pickup 1, an RFAMP 2, an amplifier 5 with a semi-fixed volume 3 for tracking adjustment, a disturbance input circuit 21, and a tracking driver 6.

On the other hand, a signal switching circuit 25 having three switches 5WASWB and SWC between the output terminals of the left channel LCH and right channel RCH of the D/A converter 16 and the input terminals of the left channel LCH and right channel RCH of the AFAMP 17 are connected. This switch SWA, SW
B. When the SWC receives the test mode control signal from the microcomputer I4, it adjusts the dragging adjustment volume and adjusts the tracking servo gain so that the level of the signal connected to the left terminal and the tracking error signal are the same. is adjusted.

In this way, the reproduction signal generated by the test signal disk is input into the closed loop of the tracking servo circuit via the signal switching circuit provided in the audio output circuit and switching controlled by the control microcomputer. Since this disturbance signal and tracking error signal are extracted and monitored by a signal switching circuit, there is no need for conventional test points or external CR oscillators, and the gain of the tracking servo can be adjusted easily and quickly.

<Example> Hereinafter, the present invention will be explained in detail with reference to an example shown in FIG.

In Figure 1, ■ is the pickup, 2 is the RFAMP,
3 is a semi-fixed volume for tracking adjustment, 5 is an amplifier having a function of cutting high frequency noise, 6 is a tracking driver, and 7 is a focuser, which is connected to the right terminal when not receiving a test mode control signal. That is, when the test mode control signal is received, the reproduction signal output from the output terminal of the left channel LCH of the D/A converter 16 passes through the switch SWA and the circuit (a) resistor R8 to the voltage follower. The output of the voltage follower 22 is input to the input terminal of the right channel RCH of the AFAMP 17 via the circuit (b) and the switch SWC, while the tracking error signal output from the amplifier 5 is from the circuit (c) to the AF through the switch SWB.
It is input to the left channel LCH input terminal of AMP 17. On the other hand, when the test mode control signal is not input, the output terminal of the left channel LCH of the D/A converter 16 and the input terminal of the left channel LCH of the AFA and MP17 are connected via the switches SWA and SWB, and the The output terminal of the right channel RCH of the A converter 16 and AFAMP
The right channel RCH input terminal of I7 is switched to SW.
Connected via C, the played audio signal is connected to A.
Output from FA0 MP17. Above servo/signal decoder 1
5, D/A converter 16, signal switching circuit 25, and AFAMP
] 7 constitutes an audio output circuit. Also,
Voltmeters 32 and 33 are connected to the audio signal output terminals of the left and right channels of AFAMP 17, respectively.

In the above configuration, the pickup I reproduces an IkHz, -6 dB sine wave signal from the test signal disk, and a reproduced signal is obtained via the RFAMP 2, the servo/signal decoder 15, and the D/A converter 16. On the other hand, at this time, the microcomputer 14 outputs a test mode control signal to the signal switching circuit 25, switches SWA, SWB, and SWC of the signal switching circuit 25 are switched to the left contacts, and the left channel LCH of the D/A converter 16 is The playback signal output from the output terminal of the switch SWA, the circuit (
b) and is manually input to the closed loop of the tracking servo circuit via the resistor R8 of the disturbance input circuit 21. and,
This input disturbance signal is transmitted from the output of the voltage follower 22 to the circuit (b) and the switch 1. A disturbance input circuit 21 is provided in the closed loop of the servo circuit, and a signal switching circuit 25 is provided in the audio output circuit, and a control microcombination circuit is provided. The coater 14 is also controlled to control the signal switching circuit 25 to input the reproduction signal generated by reproduction of the test signal disk to the tracking servo circuit as a disturbance signal, and to take out this disturbance signal, while also outputting a tracking error signal. Since they are taken out and monitored, there is no need for an external CR oscillator or dedicated test points as in the past, and the gain of the tracking servo can be quickly adjusted with a simple and inexpensive configuration.

<Effects of the Invention> As is clear from the above, according to the present invention, the signal switching circuit provided in the audio output circuit converts the reproduced signal generated by reproducing the test signal disk into a disturbance signal via the disturbance input circuit. This disturbance signal is input to the tracking servo circuit, the tracking error signal output from the amplifier of the tracking servo circuit is monitored, and the tracking error signal is input to the right channel RCH of AFAMPl 7 via the channel SWC.
is input to the input terminal of That is, the reproduction signal generated by the reproduction of the test signal disk is input as a disturbance signal to the tracking servo circuit through the disturbance input circuit 21, and this disturbance signal is taken out from the output of the disturbance input circuit 21 and sent to the right channel of the AFAMP 17. The output terminal of the RCH is monitored with a voltmeter 33. At the same time, this disturbance signal is input to the tracking servo circuit, so that the tracking error signal output from the amplifier 5 is sent to the input terminal of the left channel LCH of AFAMP+7 via the circuit (c) and the switch SWB. input, this AFAMP 17 left channel L
The signal is output from the output terminal of the CH to the voltmeter 32 as an audio signal. This voltmeter 3233 is monitored and the semi-fixed volume 3 for tracking adjustment is adjusted so that the level of the tracking error signal and the level of the disturbance signal are the same level.
The tracking servo gain is adjusted by adjusting .

As described above, according to the present invention, the tracking adjustment volume is adjusted so that the levels of the tracking error signal and the disturbance signal are the same. No test points are required, and the tracking servo gain can be adjusted easily and quickly with a simple and inexpensive configuration.

[Brief explanation of drawings]

FIG. 1 is a block diagram of an embodiment of a tracking servo gain adjustment device for a disc player according to the present invention, and FIG. 2 is a block diagram of a conventional tracking servo gain adjustment device for a disc player. 1...Pickup, 2...RFAMP. 3... Semi-fixed volume for tracking adjustment, 5...
・Amplifier, 6... Tracking driver 14...
- Microcomputer, 15... Servo/signal decoder, 16... D/A converter, 17... AFAMP. 21...Disturbance input circuit, 25...Signal switching circuit, 3
2.33...Voltmeter. 4

Claims (1)

[Claims] (1) A tracking servo circuit that includes a pickup, a subtraction circuit, a tracking adjustment volume, and an amplifier, a decoder that decodes the output from the pickup, and a D that converts the output from this decoder into left and right channel playback signals and outputs them. A tracking servo gain adjustment device for a disc player, comprising a /A converter and an audio output circuit having an AF amplifier that amplifies left and right channel playback signals output from the D/A converter, a control microcomputer that outputs a test mode control signal representing the test mode; and a control microcomputer connected between the disturbance input circuit provided in the tracking servo circuit, the D/A converter, and the AF amplifier; When not receiving a control signal, the left and right channel playback signals output from the D/A converter are input to the left and right channel playback signal input terminals of the AF amplifier, while the microcomputer receives the test mode control signal. When output, one of the reproduction signals of the left and right channels outputted from the D/A converter is input as a disturbance signal into the closed loop of the tracking servo circuit via the disturbance input circuit, and the AF The above disturbance signal is input to one input terminal of the amplifier, while the servo error signal in the tracking servo circuit is input to the above A.
A tracking servo for a disc player, comprising: a signal switching circuit input to the other input terminal of the AF amplifier, so as to monitor both outputs of the AF amplifier and adjust the tracking adjustment volume. Gain adjustment device.