KR910008343Y1 - Phase-difference detecting circuit of tracking-error in cdp - Google Patents

Abstract

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Description

Time difference detection circuit of tracking error of compact disc

1 is a block diagram showing a time difference detection circuit of the present invention.

FIG. 2 is a detailed circuit diagram of the time difference detector of FIG.

3 is an operational waveform diagram of each part of FIG. 1 and FIG.

* Explanation of symbols for main parts of the drawings

PD: Receiver PA: Preamplifier

WF: waveform shaping part TD: time difference detecting part

IG: Integrating circuit XOR: Exclusive OR circuit

DL: Delay unit EG ₁ , EG ₂ : Edge detector

NOR: Noah gate BF: 3 state buffer

R: resistance

The present invention relates to a time difference error detection circuit of a compact disc that detects a time difference of a tracking error when tracking a compact disc used in a digital audio deck.

There are three methods of tracking tracks of a compact disc, a beam method and a push pull method.

However, these tracking methods detect the time difference of the tracking error by detecting that the amount of light drops considerably when the spot of the laser tracking the track of the compact disc is off the track. Although linearity should be good as shown in FIG. 4B, the linearity is very low as in FIG. 4C with respect to the position of the track shown in FIG.

The present invention has been devised to solve the above-mentioned conventional problems, and the linearity is increased by detecting the time difference of the tracking error using the temporal change of the amount of reflected light by one beam, thereby increasing the tracking effect and improving the control efficiency. It is an object of the present invention to provide a time difference detection circuit for tracking error.

Hereinafter, a time difference detection circuit of a tracking error of the present invention will be described in detail with reference to the accompanying drawings of FIGS. 1 to 3.

1 is a block diagram showing a tracking time difference detection circuit of the present invention.

In detecting the time difference of the tracking error of the compact disc, the pickup portion PD divided into four light receiving portions a to d is required in order to detect the laser beam scanned on the compact disc. The signals output from the light receiving parts a to d are paired in a diagonal direction and amplified by the amplifiers A ₁ and A ₂ of the preamplifier PA and the output signals a + c of the amplifier A ₁ . ) Is connected to the non-inverting (+) of the comparator (A ₃ ) of the waveform shaping unit (WF) through the capacitor (C ₁ ), the output signal (b + d) of the amplifier (A ₂ ) is a capacitor (C) ₂ ) is connected to the non-inverting input terminal (+) of the comparator (A ₄ ) of the waveform shaping unit (WF), and the inverting input terminals (-) and (-of the comparators (A ₃ ) and (A ₄ ). ) Ground.

In addition, the output signals V ₁ and V _{2 of the} comparators A ₃ and A ₄ are input to the time difference detector TD, and the output signal V ₃ of the time difference detector TD is integrated. It is input to the circuit IG.

The time difference detector TD causes the output signals V ₁ and V _{2 of the} comparators A ₃ and A ₄ to be input to the exclusive ora gate XOR as shown in FIG. ₂ . as well as the output signal (V ₁₎ is inputted to the edge detector (EG ₁₎ through a delay unit (DL), and the output signal (V ₂₎ is inputted to the edge detector (EG ₂₎ and the edge detector (EG ₂₎ , Output signals K ₁ and K ₂ of RG ₁ are applied to the reset terminals R and R of the edge detectors EG ₂ and EG ₁ , respectively. The output signal K ₁ of EG ₁ and the output signal K ₀ of the exclusive OR gate XOR are connected to the control terminal of the buffer BF through the NOA gate NOR. The output signal K ₀ of the OR gate XOR is connected to the integrating circuit IG through the buffer BF and connected to the connection point such that the power supply terminal (-Vcc) is applied through the resistor R. It was.

The laser beam emitted to the track of the compact disc is reflected by the power supply terminal (-Vcc) of the tracking error time difference detection circuit of the present invention configured as described above to reflect the light receiving units a to d of the pick-up part PD. When the light is incident on the light receiving units a to d, the intensity of the incident laser beam is detected, and the detection signals are mixed and amplified between the signals at diagonal positions in the amplifiers A ₁ and A ₂ of the preamp PA. The output signals a + c and b + d of the amplifiers A ₁ and A ₂ are comparators A ₃ of the waveform shaping part WF through the capacitors C ₁ and C ₂ . ) And (A ₄ ) are applied to the non-inverting input terminals (+) and (+).

Here, as shown in FIG. 3, assuming that the laser beam tracks the track of the compact disc, the output signals of amplifiers A ₁ and A ₂ are (a + c) and (b +) in FIG. d), and the output signals of the amplifiers (A ₁ ) and (A ₂ ) are input to the comparators (A ₃ ) and (A ₄ ) and converted into pulse signals as shown in (V ₁ ) and (V ₂ ) in FIG. 3. Is converted.

In this way, the signals output from the comparators A ₃ and A ₄ are input to the exclusive OR gate XOR of the time difference detector TD and are exclusively ORed, and the output signal V ₁ is the delay unit DL. Delay at a certain time from) and input to the edge detector (EG ₁ ) and the output signal (V ₂ ) is input to the edge detector (EG ₂ ) to detect the edge, the edge detector (EG ₁ ), (EG ₂ ) According to the edge signals K ₁ and K ₂ , the edges of the detectors EG ₂ and EG ₁ are rehearsed and the edges of the output signals V ₁ and V ₂ are detected again. The output signal K ₁ of EG ₁ and the output signal K ₀ of the exclusive OR gate XOR are inverted and ORed at the NOR gate NOR to control the operation of the buffer BF. Therefore, the exclusive oragate XOR passes through the buffer BF in accordance with the output signal of the NOA gate NOX, and the buffer BF is output as shown in FIG. 3 (V ₃ ), and the output signal V _{3 is} output. ) Is integrated in the integrating circuit IG and output as shown in FIG.

As such, the signal TE output from the integrating circuit TD is input to a control unit, not shown as a time difference signal of a tracking error, and used as a control signal for tracking a track of a compact disc.

As described in detail above, the time difference detection circuit of the present invention linearly outputs the time difference signal of the tracking error according to the tracking position of the laser beam, thereby improving the tracking effect, thereby improving the tracking time. .

Claims (2)

The pickups for detecting the laser beams scanned on the disk are divided into four, so that the signal sources from each of the light receiving units a to d are paired diagonally so that the amplifiers A ₁ and A ₂ of the amplifier PA. And the outputs (a + c) and (b + d) of the above-described amplifiers (A ₁ ) and (A ₂ ), respectively, with comparators in the wave form (WF) having capacitors (C ₁ ) and (C ₂ ), respectively. (A ₃ ), (A ₄ ) and (+) terminals.The outputs (V ₁ ) and (V ₂ ) of the comparators (A ₃ ) and (A ₄ ) are applied to the time difference detector (TD) again. And a tracking error signal (E) is drawn out from the output of the integration circuit (IG) by applying an output (V ₃ ) to the integration circuit (IG). The configuration of the time difference detecting unit TD, which has passed the exclusive OR circuit XOR for performing an exclusive OR operation on the signals V ₁ and V ₂ , and the delay unit DL. The edge detector EG whose edge EDGE is detected with respect to the signal V ₁ and the signal V ₂ , and each of the outputs K ₁ and K ₂ is connected to the reset terminal R of the other party. _1), (EG _2), and a three-state buffer (BF) by performing the quinoa operation on the output (K ₁₎ of the output (K ₀₎ and the edge detector (EG ₁₎ of the above-described exclusive Iowa circuit (XOR) Integrate the NOR gate NOR which produces the output E applied to the operation line of the NOR gate, and the output K ₀ of the exclusive OR circuit XOR according to the output E value of the NOA gate NOX. A time difference detection circuit for a tracking error of a compact disc, characterized by consisting of a tri-state buffer (BF) or the like output to the input terminal (V ₃ ) of the circuit (IG).