KR970003249Y1 - Auto-tracking input circuit of high fidelity vcr - Google Patents

Abstract

None.

Description

Auto Tracking Input Circuit of High Fidelity Video Cassette Recorder

1 is a block diagram of an auto tracking input circuit of a conventional Hi-Fi VCR.

2 is a block diagram of an auto tracking input circuit of a high fidelity VCR according to the present invention.

3 is a detailed circuit diagram of the block diagram in FIG.

* Explanation of symbols for main parts of the drawings

1: video envelope detection unit 2: auto tracking unit

3, 8: microprocessor unit 4: first waveform shaping unit

5: adder 6: second waveform shape part

7: comparator

The present invention relates to an auto tracking input circuit of a high-fidelity (hereinafter also referred to as Hi-Fi) video cassette recorder (hereinafter referred to as a VCR), and in particular, a waveform-shaped video signal and a waveform-shaped Hi The present invention relates to a circuit for adding a micro-Fi audio signal and sending a microprocessor unit control signal, thereby causing the microprocessor unit to perform an optimal auto tracking operation command.

In general, auto tracking in a VCR uses a microprocessor unit and an envelope detection circuit to automatically determine an optimal tracking delay amount in the VCR itself without borrowing a user's operation and to control the servo. This is one of the functions that provide convenience to the user.

In the conventional auto tracking input circuit of the VCR, as shown in FIG. 1, the envelope detector 1 detects the signal output from the video envelope signal, and based on the switching pulse signal output from the servo controller. In the auto tracking (2), information of the screen state is obtained as a signal output from the envelope detector (1). Receive a value from the microprocessor unit 3 as serial data; Auto tracking was performed by transferring the state of the auto tracking unit 2 and the tracking data value to the microprocessor unit 3 as serial data during or during the auto tracking operation.

As described above, since the auto tracking input circuit of the conventional Hi-Fi VCR performs auto tracking only by the change of the video envelope and the detection signal, an optimal tracking point satisfying both the Hi-Fi audio unit and the video unit is obtained. It did not find, there was a problem that lacks compatibility according to other model characteristics.

The present invention is to solve this problem, the object of the present invention, using an adder (Adder) and a microprocessor, add the waveform-shaped video signal and the waveform-shaped Hi-Fi audio signal with an adder, When the signal is applied to the microprocessor unit, the microprocessor unit provides an auto tracking input circuit of the Hi-Fi VCR that automatically performs optimal tracking.

A feature of the present invention for achieving the above object comprises: an auto tracking input circuit comprising: first waveform shaping means for shaping a signal output from a video envelope signal to generate a DC level; Second waveform shaping means for shaping a signal output from the HI-FI audio envelope signal to produce a DC level; Comparison means for comparing and determining a voltage level value output from said second waveform shaping means and a predetermined reference potential of a level voltage comparable to said voltage level; Adding means for adding an output value output from said first waveform shaping means and a value output from said comparing means; An auto tracking input circuit of a Hi-Fi VCR having a microprocessor means for performing an auto tracking operation with a superimposed value by said adding means.

2 is a block diagram of an auto tracking input circuit of the Hi-Fi VCR of the present invention.

A first waveform shaping section 4 for shaping a signal output from a video envelope signal at a DC level, a second waveform shaping section 6 shaping a signal output from a Hi-Fi audio envelope signal at a DC level and the first The comparator 7 for comparing and judging the signal level output from the two-waveform shaping section 6 and the predetermined reference potential T, and the signal level output from the first waveform shaping section 4 and the comparator 7 An adder 5 for adding the output signal level and a microprocessor unit 8 for automatically performing optimal tracking with the output signal X through the adder 5 are composed.

Hereinafter, an embodiment of the present invention will be described in detail.

3 is a detailed circuit diagram of the present invention with respect to the block diagram of FIG.

The DC level signal output from the first waveform shaping section 4 for shaping the signal output from the video envelope signal to the DC level passes through the resistor R ₁ , and the signal output from the Hi-Fi audio signal is converted to the DC level. Transistor Q ₁ is connected to the second waveform shaping section 6 and the output terminal of the second waveform shaping section 6, and a bias resistor R ₃ (R ₄ ) is formed at the base of the transistor Q ₁ . The signal is output from the second waveform shaping section 6 by connecting the diode D ₁ to the anode, and the predetermined reference potential T to the anode, and the base of the transistor Q ₁ to the cathode. A comparator 7 comparing and determining a level and the predetermined predetermined reference potential T, and Hi-Fi passing through a resistor R ₂ connected at the comparator 7 to an emitter output of the transistor Q ₁ . audio signal and the resistance (R _1), the adder for adding the coarse video signal 5 and the Automatically to the signal (X) output from the adder is configured by the microprocessor unit (8) that provides the best tracking.

In more detail, first, the Hi-Fi audio envelope signal has a DC level value passed through the second waveform shaping unit 6 to be smaller than a predetermined reference potential T or the normal audio mode Hi. In the non-Fi mode), the transistor Q ₁ is turned off, so that the video envelope signal is connected to, for example, a video signal by a level value shaped by the first waveform shaping section 4 to a DC level. Only by sending the level signal to the microprocessor unit 8, whereby the microprocessor unit 8 performs an optimal auto tracking operation command.

Next, when the Hi-Fi audio envelope signal is equal to or greater than the predetermined reference potential T, the DC level value through the second waveform shaping section 6 is turned on and accordingly the transistor Q ₁ is turned on. resistance (R ₁₎ a rough video signal level value with a signal through the resistance (R ₂₎ via the comparator 7, for example, a value obtained by superimposing the Hi-Fi audio signal level values,

Here, V is a video envelope signal, A is a Hi-Fi audio envelope signal, and since the microprocessor unit 9 is applied to the microprocessor unit 9 at the same value as that of Equation (1), the microprocessor unit 9 is the Hi-Fi audio. The optimal tracking operation command is performed by combining the signal level and the audio signal level state.

The auto-tracking input circuit of the Hi-Fi VCR according to the present invention is applied to the microprocessor unit according to the output level value obtained by adding the waveform-formed video signal level value and the waveform-formed Hi-Fi audio signal level value. The processor unit not only performs an optimal auto tracking operation command but also has a compatibility effect in the microprocessor unit of the normal audio mode instead of Hi-Fi audio.

Claims (2)

1. An auto tracking input circuit of a Hi-Fi VCR, comprising: first waveform shaping means (4) for shaping a signal output from a video envelope signal to produce a DC level; A second waveform shaping means 6 for shaping the signal output from the Hi-Fi audio envelope signal to produce a DC level; Comparison means (7) for comparing and judging a voltage level value output from said second waveform shaping means (6) and a predetermined reference potential (T); Adding means (5) for adding an output value output from said first waveform shaping means (4) and a value output from said comparing means (7); Auto-tracking input circuit of a Hi-Fi VCR comprising microprocessor means (8) for performing auto-tracking operations with superimposed values by said adding means (5). 2. The transistor according to claim 1, wherein the comparing means (7) comprises: a transistor (Q ₁ ) for comparing and switching the output of the second waveform shaping means (6) with a reference potential (T); A bias resistor (R ₄ ) (R ₃ ) for determining an operating point of the transistor (Q ₁ ); An auto-tracking input circuit of a Hi-Fi VCR having a diode (D ₁ ) for preventing a reverse current from flowing from the base of the transistor (Q ₁ ) to the predetermined predetermined reference potential (T).