KR910001301Y1 - Switching noise reduction circuit of vtr - Google Patents

Abstract

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Description

VTR switching noise cancellation circuit

1 is a circuit diagram of the present invention.

2 is an output waveform diagram of each part of the circuit diagram of the present invention.

* Explanation of symbols for main parts of the drawings

1,3 Differential Circuit 2: Trigger Circuit

4: Integrating Circuit 5: Delay Unit

6: smoothing part 7: mixer

8: Switch part Q ₁ , Q ₂ , Q ₃ , Q ₄ : Transistor (for switch)

OP ₁ : Integrator OP ₂ : Integrator

The present invention relates to a switching noise cancellation circuit of a VTR to remove switching noise generated in an FM audio system of a video tape recorder.

Conventionally, in order to remove the switching noise generated in the VTR FM audio system, an RF switching pulse is used to hold a reproduction signal to a predetermined level.

That is, the noise generated during switching was removed by holding the reproduction signal at a predetermined level during the switching using the RF switching pulse. However, the noise generated when switching caused a difference from the original reproduction signal.

In view of the above, the present invention differentiates the playback signal using the RF switching pulse in the FM audio system of the VTR to obtain a linear signal similar to the original playback signal, and then, if there is no RF switching pulse, the original playback signal. In the case of outputting an RF switching pulse and outputting an RF switching pulse, switching noise is removed by outputting the above-described linear signal.

This will be described in detail with reference to the accompanying drawings.

1 is a circuit diagram of the present invention, a differential circuit 1 for differentiating an RF switching pulse RF, a diode D _{1 for} passing only a positive pulse among the pulses differentiated in the differential circuit ₁ , and the diode A trigger circuit 2 which is triggered by a pulse passing through (D ₁ ) and outputs a pulse of a very short time, and a transistor which is driven by an output pulse of the trigger circuit 2 to control the operation of the differential circuit 3 ( Q ₁ ), a transistor Q1 driven by the RF switching pulse RF to control the operation of the integrating circuit 4, and a differential circuit for differentiating a reproduction signal SF during the driving of the transistor Q ₁ . (3), an integration circuit 4 for integrating the output of the differential circuit 3 when the transistor Q ₂ is driven, and a delay unit 5 for delaying the output of the integration circuit 4 for a predetermined time. And switch to the output pulse of the trigger circuit 2 to apply the regeneration signal SF to the smoothing section 6. (7) to mix transistors Q ₃ and Q ₄ , the output of the smoothing unit 6 and the output of the delay unit 5, and the output signal and the reproduction signal SF of the mixer 7. ) Is switched to the RF switching pulse (RF) and configured to switch section 8 for outputting.

The effect of the present invention configured as described above will be described in detail with reference to FIG.

First, FIG. 2a is a reproduction signal SF waveform, and FIG. 2b shows an RF switching pulse RF.

Conventionally, as shown in FIG. 2c, noise is removed during switching by holding and outputting an input signal at a predetermined level during the RF switching pulse period. However, this method uses the original input signal in the RF switching pulse period as shown in FIG. There is a difference between the signal level held at and a constant level.

Therefore, conventionally, RF switching noise is attenuated or has a problem in that it is different from the original signal level.

However, in the present invention, as shown in FIG. 2d, the original reproduction signal is dotted at a point A corresponding to the rising edge of the RF switching pulse to make a signal similar to the original reproduction signal.

That is, when the reproduction signal SF is input as shown in FIG. 2A and the RF switching pulse RF as shown in FIG. 2B is generated, the differential switching circuit 1 composed of the resistor R1 and the capacitor C1 causes the RF switching pulse. Differentiate (RF) to output the same pulse as in FIG. 2e, and output pulse of the differential circuit 1 is applied to the trigger circuit 2 through the diode D1 with the same amount of pulse as in FIG. It is done.

At this time, the trigger circuit 2 is triggered by a pulse as shown in FIG. 2f to output a pulse of a very short time (several ns) as shown in FIG. 2h, and the output pulse of the trigger circuit 2 turns the transistor Q ₁ into '. By turning on-off ', the operation of the differentiator OP ₁ of the differential circuit 3 is switched.

And the non-differential RF switching pulse (RF) that is the 2b help of the pulse is a transistor (Q ₂₎ is applied to the base of the transistor (Q ₂₎ of - "on the Let it" on-off "the transistor (Q ₂₎ - Off ′, The integrator OP ₂ of the integrating circuit 4 is switched.

On the other hand, as shown in FIG. 2F, the tangent F (f) of a signal f (t), which is a reproduction signal, takes a derivative value at a certain time point t ₁ , and F (f) = f '(t _1). (tt ₁ ) + f (t ₁ )

Therefore, in the present invention, by operating the differentiator OP ₁ through the transistor Q ₁ with the output pulse (Fig. 2h) of the trigger circuit 2 triggered by the differential pulse (Fig. 2f) of the RF switching pulse RF. In the differentiator OP ₁ , the derivative signal f '(t ₁ ) can be obtained from the reproduction signal SF at a specific time t ₁ .

Then, the differentiator differential value (f '(t ₁₎₎ obtained through the (OP ₁₎ has a capacitor (C ₃₎ has a certain level of play in the pulse (P ₂₎ than in a relatively long time a pulse shown in the 2h Fig. The integrator OP ₂ is operated by the pulse P ₁ shown in FIG. 2B having a width, and the value charged in the capacitor C ₃ is integrated to make a function of f '(t ₁ ) · t.

Of course, at this time, the resistance R ₄ (R ₆ ) and the capacitor C ₂ (C ₄ ), which are peripheral elements of the differential circuit 3 or the integration circuit ₄ , are determined well.

In addition, the function signal of f ′ (t ₁ ) · t passing through the integrator OP ₂ is applied to the delay unit 5 after the DC level is removed through the condenser C ₂ and delayed for a predetermined time. ), The function signal of f '(t) (tt ₁ ) can be obtained.

On the other hand, the reproduction signal SF differentiates the RF switching pulse RF and switches the transistors Q ₃ and Q ₄ to the same pulse P ₂ as the second h diagram passing through the trigger circuit 2 to smooth the part 6. ) And the smoothing unit 6 outputs the instantaneous value f (t ₁ ) at time t ₁ by smoothing the reproduction signal SF applied during the pulse P ₂ period.

The function of f ′ (tt ₁ ) obtained by passing the instantaneous value f (t ₁ ) output from the smoothing unit 6 and the derivative circuit 3, the integrating circuit 4, and the delay unit 5 is calculated. By applying to the mixer 7, the mixer 7 mixes two signals to obtain a value of f '(tt ₁ ) + f' (t) and to apply it to the switch section 8.

At this time, the original playback signal SF is input to the switch unit 8 and f ′ (tt ₁ ) + f ′ (t) applied from the playback signal SF and the mixer 7 by the RF switching pulse RF. The signal is output.

As described above, the present invention differentiates the playback signal by using the RF switching pulse in the 8mm VTR FM audio system to make a straight signal having a level similar to that of the original playback signal. When the RF signal is outputted and the RF switching pulse is output, the above-described straight line signal is output so that the signal is most similar to the original reproduction signal during switching, thereby reducing the switching noise.

Claims (1)

A differential circuit 1 for differentiating the RF switching pulse RF and a trigger circuit 2 for triggering with a positive pulse differentiated in the differential circuit ₁ and passing through the diode D ₁ to output a very short pulse And differentiating the transistor Q ₁ (Q ₂ ) which is switched by the output pulse of the trigger circuit 2 and the RF switching pulse RF, and the regeneration signal SF when the transistor Q ₁ is driven. An integrating circuit 3, an integrating circuit 4 for integrating the output of the differential circuit 3 with the transistor Q ₁ , and a delay section 5 for delaying the output of the integrating circuit 4 for a predetermined time period. And a transistor Q ₃ (Q ₄ ), the smoothing unit 6, and the delay unit 5, which are switched to an output pulse of the trigger circuit 2 to apply a regeneration signal SF to the smoothing unit 6. (7) for mixing the output of the switch, the switch for switching the output signal and the reproduction signal (SF) of the mixer (7) by the RF switching pulse (RF) VTR switching noise cancellation circuit of, characterized in that consisting of (8).