KR950003462Y1 - Vis scan error protection circuit of vcr - Google Patents

Abstract

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Description

VSR Bis Scan Error Prevention Circuit

1 is a control signal detection circuit diagram without a conventional audio dubbing function.

2 is a waveform diagram of each part of FIG.

3 is a non-scan scan error prevention circuit of V-AL of the present invention.

* Explanation of symbols for main parts of the drawings

10: control signal input unit 20: amplification unit

30: Schmitt trigger unit 40: Audio muting unit

50: Vis scan error protection unit

The present invention relates to a V-scan Vis Scan error prevention circuit. In particular, the V-seal with audio dubbing and vis function prevents interference of the control signal due to the erase voltage during audio dubbing. A non-scan scan error prevention circuit of V-C is suitable for preventing an error.

As shown in FIG. 1, the control signal amplifying circuit without the audio dubbing function includes a control signal input unit 1 for detecting a control signal with the control head H1, and an output of the control signal input unit 1 is a resistor ( The input terminal of the operational amplifier OP1 is connected to the inverting input terminal of the operational amplifier OP1 through R1) and the capacitor C2, and the output terminal of the operational amplifier OP1 is connected to its inverting input terminal through the resistor R2 and the condenser C1. A Schmitt tree connected to a control signal amplifying unit 2 for amplifying a signal and an inverting input terminal of the control signal amplifying unit C5 and the Schmitt trigger ST1, and converting the amplified control signal into a digital signal. It consists of the rejection 3, and demonstrates the operation process of this conventional circuit.

The control signal recorded on the video tape is detected by the control head H1 and output as a control pulse such as a degree in FIG. 2, which is amplified by about 60 dB in the operational amplifier OP1 and b degree in FIG. This signal becomes a signal of the same waveform, and this signal is input to the Schmitt trigger section 3 at the rear stage, and digitalized as shown in c of FIG. 2 to be input to a microcomputer (not shown).

However, such a conventional circuit does not have an audio dubbing function, and thus does not function properly as a high-performance V-CAL.

In view of the above, the present invention not only has an audio dubbing function as V-CAL but also does not interfere with the control signal caused by the audio erased oscillation signal during dubbing, thereby maintaining the stability of the system and preventing the V-SC scan error. An error prevention circuit is devised, which will be described in detail with reference to the accompanying drawings.

3 is a VBIS scan error prevention circuit diagram of the present invention, and as shown therein, a control signal input unit 10 for detecting a control signal recorded on a tape by the control head H1, and the control signal input unit 10. As shown in FIG. A digital signal corresponding to an input unit 10, an amplifying unit 20 for receiving and amplifying the output signal of the control signal input unit 10, and a control signal amplified from the amplifying unit 20; Of the Schmitt trigger unit 30 for converting and outputting the audio signal to the audio erase unit 40 for erasing the normal audio track by the erase voltage output from the oscillation unit 40-1 during audio dubbing or recording, and the switch SW10. The oscillator 40-1 is controlled by switching, and the control signal inputted to the Schmitt trigger unit 30 is influenced by the oscillation signal of the audio erasing head H2 on the control head H1 during dubbing. Audi A bis scan error prevention unit 50 which filters the oscillation signal component and completely blocks the bis scan paper filtering operation to prevent waveform distortion of the control signal.

Referring to the operation and effects of the bis scan error prevention circuit of the present invention configured as described above in detail as follows.

The present invention is a circuit for resolving anxiety of a system during audio dubbing and a non-scan scan error in FF / REW, and is divided into an operation in dubbing mode and a scan scan in FF / REW. In the audio dubbing mode, the video system and the hi-fi audio system are in the playback mode or the normal audio mode.

Therefore, in the circuit of the present invention, the control signal input unit 10, the amplifying unit 20 and the Schmitt trigger unit 30 are in the playback mode, and the audio canceling unit 40 and the non-scan scan error preventing unit 50 It is operated in record mode.

The weak control signal detected by the control head H1 is amplified by 600 dB in the amplifying unit 20 and output as a signal as shown in FIG. 2 b. The control signal is input to the Schmitt trigger unit 30 in the rear stage. The digital signal is converted into a digital signal suitable for digital processing as shown in FIG.

However, when dubbing, the audio canceling unit 40 and the non-scanning error preventing unit 50 operate so that the noise of 70 KHz generated here is induced to the control head H1, and this signal is transmitted to the control signal by the amplifying unit 20. By being amplified and output together, the Schmitt trigger unit 30 is unable to detect an accurate digital waveform according to the detection of the control signal, causing anxiety of the system.

The condenser C5 is employed to eliminate this phenomenon, and the condenser C5 may function as a noise filter only when the capacitor C5 is directly connected to the ground as a noise filter for removing noise of 70 KHz component during dubbing.

The ground of the condenser C5 is controlled by the transistor Q20. In the dubbing mode, the switch SW10 of the bis scan error prevention unit 50 is turned on so that the base potential of the transistor Q10 is grounded. Dropping the transistor Q10 turns off, thereby applying a high potential to the base of the transistor Q20, which turns off the transistor Q20, thereby applying a high potential to the base of the transistor Q20. It is applied and its transistor Q20 is turned on so that the capacitor C5 is electrically grounded. Therefore, at this time, the capacitor C5 acts as a noise filter to filter the audio oscillation signal component in the control signal.

On the other hand, if the capacitor C5 is directly connected to ground during the bis scan in the FF / REW mode, it will be open in DC but act as a low pass filter in AC. In the / REW mode, since the speed of the tape is high, the frequency characteristic of the control signal is reduced and the waveform is lumped, so that the Schmitt trigger unit 30 does not accurately detect the control signal.

Therefore, during the bis scan in the FF / REW mode, it is necessary to keep the capacitor C5 fully open even in alternating current.

At this time, as the switch SW10 is opened, a high potential is applied to the base of the transistor Q10 so that the transistor Q10 is turned on. Thus, a low potential is applied to the base of the transistor Q20, and the transistor Q20 is applied. Since the condenser C5 is completely open in alternating current, there is no phenomenon of acting as a low pass filter, and thus the control signal is not affected by the Schmitt trigger unit 30.

Therefore, in addition to removing noise on the control signal during audio dubbing, malfunctions can be prevented during vis scan.

As described in detail above, the present invention eliminates the noise of the audio oscillation signal component carried on the control signal when the audio is dubbed and prevents the malfunction during the vis scan. There is an effect that can be prevented.

Claims (2)

In a V-al having an audio dubbing and a vis scan function, a control signal input unit 10 for detecting a control signal from a V-Cal tape, and an amplifier for receiving and amplifying the output signal of the control signal input unit 10 ( 20), a Schmitt trigger unit 30 for converting the control signal amplified by the amplifier 20 into a corresponding digital signal, and an audio mute unit for generating an audio mute signal to erase the normal audio track of the tape ( 40) and a service for filtering the audio oscillation signal component introduced into the control signal input to the Schmitt trigger unit 30 during audio dubbing and for preventing the waveform distortion of the control signal completely blocking the filtering operation during scan scan. Bis scan error prevention circuit of V-C, comprising a scan error prevention unit (50). The resistor of claim 1, wherein the bis scan error prevention unit 50 connects the switch SW10 having one side grounded to the base of the transistor Q10, and connects the collector of the transistor Q10 to the power supply Vcc. (V5) Bis scan of V-Cal, characterized in that it is connected to the base of R5 and transistor Q20, and the input terminal of the Schmitt trigger unit 30 is connected to the collector of the transistor Q20 through a capacitor C5. Error prevention circuit.