KR930004019Y1 - Optical disk - Google Patents

Abstract

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Description

External Shock Detection Circuit of Optical Disc Using Linear DC Motor

1 is an external shock detection circuit diagram of the present invention.

2 is a waveform diagram of each part of FIG.

* Explanation of symbols for main parts of the drawings

1: Speed detecting coil 2-5: Comparator

OP ₁ , OP ₄ : Buffer Amplifier I ₁ -I ₃ : Inverter

AND ₁ : ANDGATE

The present invention relates to an external shock detection circuit of an optical disk device using a linear DC motor of the present invention. In particular, when an impact is applied from the outside of the device, the external shock detection of the optical disk enables a rapid circuit detection of the impact. It is about a circuit.

In the conventional optical disk device, the external shock is detected by using a separate device and a circuit or by using a tracking error signal from the pickup.

That is, a separate device sensitive to vibration detects vibration caused by an impact, and converts the detection into an electrical signal to notify the optical disk device as a shock information signal, but this requires an additional device, which adds to an installation cost. Even weak vibrations were faulty due to external shocks, causing malfunctions.

In addition, when using the tracking error signal, it takes a lot of time to detect the tracking error signal, i.e. tracking by pick-up because the linear DC motor is omni-directional first and then the pick-up is moved when an external shock is applied. There was a time delay in detecting the error signal, and therefore there was a defect that the external shock could not be dealt with immediately.

In order to solve the above-mentioned drawbacks, the present invention devises a circuit having a simple structure that can immediately detect an external shock when an external shock is applied to an optical disk device and generate an external shock detection signal. When described in detail with reference to as follows.

1 is an optical disk external shock detection circuit of the present invention, as shown in the drawing, the speed detection coil (1) for detecting the movement of the linear DC motor through the buffer amplifier (OP ₁ ) of the comparison unit 2 ratio In addition to being connected to the inverting input terminal, the inverter I ₁ is again connected to the non-inverting input terminal of the comparator 3, and the output terminals of the comparators 2 and 3 are diode D ₁ , After passing through each of (D ₂ ), through the resistor (R ₅ ) again connected to the input terminal of the resistor (R ₆ ) and the AND gate (AND ₁ ), the linear DC motor driving voltage terminal (V _L ) is connected to the buffer amplifier. (OP ₄ ) is connected to the non-inverting input terminal of the comparator 4, and is connected to the non-inverting input terminal of the comparator 5 through the inverter I ₂ , and the comparator 4, ( 5) After output terminals (D ₃ ) and (D ₄ ) respectively, the output terminal is connected to the resistor (R ₁₂ ) through the resistor (R ₁₁ ) again, and the connection point of the resistors (R ₁₁ ) and (R ₁₂ ). Inver (I ₃₎ to be over, and connected to the other input terminal of the AND gate (AND _1), configured by connecting the AND gate (AND ₁₎ output terminal to output detection signal output terminal (S), in this way of the subject innovation consisting Referring to the operation effect in detail with reference to the waveform diagram of FIG. 2 as follows.

The linear DC motor movement of the optical disc is due to external impact and normal composition. In this way the linear direct current motor moves he is detected by the voltage (V _S) as shown in the second degree (a) from the speed detecting coil (1), the detection voltage (V _S) are buffer amplifiers (OP ₁₎ It is applied to the non-inverting input terminal of the comparator 2 and inverted by the inverter I ₁ to be applied to the non-inverting input terminal of the comparator 3.

Therefore, when the voltage V _S detected by the speed detecting coil 1 is positive, a high potential signal is output from the comparator 2, and when it is negative, a high potential signal is output to the comparator 3. In this way, the signals output from the comparators 2 and 3 are applied to one input terminal of the AND gate AND ₁ again through the resistors R ₅ through the diodes D ₁ and D ₂ , respectively. do.

As a result, a waveform signal as shown in FIG. 2B is applied to one input terminal of the AND gate AND ₁ .

When the linear DC motor driving voltage as shown in FIG. 2C is applied to the linear DC motor driving voltage terminal V _L , the driving voltage is supplied to the comparator 4 through the buffer amplifier OP ₄ . In addition, the high potential signal is output from the comparator 4 when the driving voltage is positive because the signal is applied to the non-inverting input terminal of the C) and is inverted by the inverter I ₂ and applied to the non-inverting input terminal of the comparator 5. If negative, the comparator 5 outputs a high potential signal.

As such, the signals output from the comparators 4 and 5 are applied to the resistors R ₁₂ through the resistors R ₁₁ again through the diodes D ₃ and D ₄ , respectively, and thus the resistances R _11. ) And (R ₁₂ ), a waveform signal as shown in (d) of FIG. 2 is outputted, and the waveform signal is inverted by the inverter I ₃ and applied to the other input terminal of the AND gate AND ₁ . do.

Therefore, when the linear DC motor driving voltage is applied to move the linear DC motor (T ₁ section in FIG. ₂ ), the low potential signal is continuously output from the AND gate AND ₁ .

However, when the linear DC motor is moved by external shock (T ₂ section in FIG. ₂ ) in a state where the linear DC motor driving voltage is not applied, a high potential signal is output from the AND gate AND ₁ , and this high potential The signal is output to the shock detection signal output terminal S as a shock detection signal and applied to the servo system of the optical disc.

As described in detail above, the present invention does not depend on the linear DC motor driving voltage, so when the linear DC motor is moved by an external shock, it is immediately detected and output as a shock detection signal. There is an advantage that can be done quickly.

Claims (1)

The speed for detecting the linear direct current motor moves the detection coil (1) through a buffer amplifier (OP ₁₎ for connection to the non-inverting input terminal of the comparator (2) hereinafter as well as parts Comparative through an inverter (I ₁₎ in the back ( 3) The output terminals of the comparators 2 and 3 are connected to the non-inverting input terminals of 3) through the diodes D ₁ and D ₂ , respectively, and then the AND gate AND through the resistor R ₅ again. ₁ ) is connected to the input terminal of one side, and the linear DC motor driving voltage terminal (V _L ) is connected to the non-inverting input terminal of the comparator 4 through the buffer amplifier OP ₄ and the inverter I ₂ . Through the non-inverting input terminal of the comparator 5 again, and through the diodes D ₃ , D ₄ , respectively, the output terminals of the comparator 4 and 5 are respectively resistors R ₁₁ and and connected to the other terminal of the history of the aND gate (aND ₁₎ via an inverter (I ₃₎ again, constructed by the aND gate connected to the output terminals of the impact (aND ₁₎ detection signal output terminals External impact detecting circuit of an optical disc using a linear direct current motor, characterized by.