KR900008391Y1 - Automatic tracking circuit in video signal displayer - Google Patents

Abstract

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Description

Automatic tracking circuit of video recorder

1 is an automatic tracking circuit of the present invention.

2 is a waveform diagram of each part of FIG.

* Explanation of symbols for main parts of the drawings

1: microprocessor 2: Divider

3: data selector 4: analog switching unit

5: voltage divider 6: buffer

7: integrator 8: tracking monomulti

9 amplifier 10 envelope detector

11: Sample / Hold Part 12: Analog / Digital Converter

The present invention provides a video recording and reproducing apparatus for recording and playing back video signals on a videotape. An automatic tracking circuit of a recording player.

In general, when a video recording player plays back a video signal, the video head tracks a track of a video tape and accurately tracks a recorded portion of the video signal so that a clear playback video signal is output so that a noise signal does not appear on the screen.

Therefore, conventionally, when recording a video signal on a videotape, the control signal is separately recorded on the control track of the videotape, when the video signal is reproduced, the recorded control signal is reproduced and delayed by a tracking device for a predetermined time. The rotation speed of the motor was input to the servo circuit which controls the rotation speed of the video head to accurately track the track tracked during recording.

However, since the delay of the fixed time is controlled by the variable of the variable tracking control resistor installed on the outer periphery, the user not only has to change the variable resistor every time it is played but also records a separate control signal on the videotape. And a wide range of video tapes and complicated devices because they have to be played back.

In view of such a conventional defect, the present invention does not use a separate control signal, and detects the level of the reproduced video signal at regular intervals with a microprocessor and automatically adjusts the tracking delay time according to the detected signal level. Invented an automatic tracking circuit to determine, described in detail by the accompanying drawings as follows.

1 is an automatic tracking circuit diagram of the present invention, as shown in The output voltage of the voltage divider 5 is controlled by an output control signal of the microprocessor 1 for controlling the entire operation by the 30 Hz switching signal divided by the divider 2 and the data selector 3. An analog switching unit 4 for selective output, an integrator 7 for setting the delay time of the tracking monomulti 8 by integrating the output voltage of the analog switching unit 4 through the buffer 6, and an image head. The amplifier 9 amplifies the video signal reproduced on the videotape by the video signal, the envelope detector 10 for detecting the envelope of the output signal of the amplifier 9, and the microprocessor 1 The sample / hold unit 11 for sampling and holding the output signal of the envelope detector 10 and the output analog signal of the sample / hold unit 11 are converted into digital signals under the control of the microprocessor 1. Input to the microprocessor 1 Is composed of an analog / digital converter 12, wherein the 30 Hz switching signal is a signal detected by a pulse generator installed in the head drum.

Referring to the effect of the present invention configured in this way in detail as follows.

When the player presses the play button on the video recording player, the head drum rotates and the pulse generator generates a switching signal of 30 Hz as shown in FIG. Since it is input to the frequency divider 2, the output signal of the scan frequency divider 2 is outputted with the pulse signal of 15 Hz which scan-divided the switching signal of 30 Hz as shown in FIG. It is input to the terminal I1.

Therefore, the microprocessor 1 outputs a control signal corresponding to the number of 15 kHz pulse signals inputted to the input terminal I1 to its control signal output terminals a0-a3 and is input to the data selector 3, so that the data The high potentials are sequentially output to the output terminals OT1-OT12 of the selector 3 and are input to the analog switching unit 4. Accordingly, the analog switching unit 4 divides the voltages divided by the voltage divider 5 one by one. After selecting and outputting the voltage of the output voltage divider (5) is input to the integrator (7) through the buffer (6) and integrated, and then input to the tracking monor multi (8) to delay the predetermined time, to control the head drum It is input to the servo circuit to control the rotation speed of the head drum.

That is, the voltage divided by the predetermined size in the voltage divider 5 The output of the divider 2 is sequentially output by the control of the microprocessor 1 according to the pulse signal of 15 kHz, integrated in the integrator 7, and then input to the tracking monomulti 8 so that the tracking mon multi 8 can be obtained. The delayed signal is output to the output side of the predetermined time interval, and the delayed signal is input to the servo circuit to rotate the head drum at a predetermined time interval and rotate.

The video signal reproduced as the head drum is rotated at a predetermined time interval as described above is input to the amplifier 9 and amplified, and the amplified reproduced video signal has an envelope having a level as shown in FIG. 2C. do. As described above, only the positive signal of the signal output from the amplifier 9 is charged in the capacitor C1 through the diode D1 of the envelope detector 10 to detect the envelope, and the output signal of the envelope detector 10 is a sample. It is applied to the drain of the field effect transistor FET1 via the operational amplifier OP1 of the / hold section 11. At this time, the output terminal (b0) of the microprocessor (1) as shown in Figure 2b Since the pulse signal of the divider 2 is output and applied to the gate of the field effect transistor FET1, the field effect transistor FET1 is turned on every time the pulse signal is output. As described above, whenever the field effect transistor FET1 is turned on, the output signal of the envelope detector 10 is sampled through the operational amplifier OP1 and the field effect transistor FET1 and then charged and held in the capacitor C1.

That is, at this time, the signal waveform sampled and held in the sample / hold unit 11 is input to the analog / digital converter 12 through the operational amplifier OP2 after being shown in FIG. 2D.

At this time, the output terminal b2 of the microprocessor 1 is shown in FIG. 2B. The pulse signal of the divider 2 is output and applied to the analog / digital converter 12 as a driving pulse. Accordingly, the signal output from the sample / hold unit 11 is transmitted from the analog / digital converter 12. The digital signal is sequentially converted to a digital signal, and then input to the microprocessor 1 and stored in order. That is, the average level value of the reproduced video signal is stored in the microprocessor 1 as the head drum is slowly rotated every other time.

When the average level of the reproduced video signal is input to and stored in the microprocessor 1 in this manner, a high potential signal is output to the output terminal b1 of the microprocessor 1 to short-circuit the switch S1 to hold the sample / hold. The low potential signal is output from the unit 11, and the microprocessor 1 compares the average level of each reproduced video signal according to the delayed rotation of the input head drum as described above, detects the largest level, and detects the signal. Detects which pulse signal is the 15 Hz pulse signal output from the scan divider 2, and continuously outputs a control signal according to the detected pulse signal to the control signal output terminals a0-a3 to output the data selector (3). ), The data selector 3 controls the analog switching unit 4 to selectively output the most suitable voltage of the voltage divider 5, that is, the level of the reproduced video signal is the largest and is output from the voltage divider 5. The controller outputs a constant voltage output, is integrated in the integrator 7 through the buffer 6, and then input to the tracking monomulti 8. Accordingly, the tracking mon multi 8 can reproduce an image signal in an optimal state. Since the delay is input to the servo circuit, the head drum rotates so that the head can accurately track the track of the video tape.

As described above, the present invention detects a playback video signal at regular intervals using a microprocessor and automatically adjusts the video head to accurately track the track of the video tape using the detected signal. There is no need to adjust tracking, and there is no need to record and play back control signals separately on the video tape, which simplifies the system and reduces the width of the video tape.

Claims (1)

In a video recording and reproducing apparatus for tracking control with tracking mono multi (8), it is generated by a pulse generator. The output voltage of the voltage divider 5 as the output control signal of the microprocessor 1 through the data selector 3 and the microprocessor 1 which controls the whole operation by the switching signal of 15 Hz divided by the divider 2. An analog switching unit (4) for selectively outputting an integrator, an integrator (7) for integrating the output voltage of the analog switching unit (4) through the buffer (6) and inputting it to the tracking monomulti (8), and an amplifier (9). Envelope detector 10 for detecting the envelope of the reproduced video signal amplified by a), and the sample / hold unit 11 for sampling and holding the output signal of the envelope detector 10 under the control of the microprocessor (1) ) And an analog / digital converter 12 for converting a digital signal from the output signal of the sample / hold unit 11 under the control of the microprocessor 1 and inputting the digital signal to the microprocessor 1. Recording player chair Tracking circuit.