KR950007772Y1 - Black noise cancellon - Google Patents

Abstract

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Description

Black Noise Reduction Circuit

1 is a conventional black noise removing circuit diagram.

2 is a video signal waveform diagram before and after black noise removal in FIG.

3 is a black noise removing circuit of the present invention.

4 is a first embodiment according to the present invention.

* Explanation of symbols for main parts of the drawings

1: Video signal input unit 1a: Buffer

1b: Differential amplifier 1c: Current source

2: Black noise removing unit C1: Capacitor

2A: Bias Circuit Part 2B: Noise Reduction and Speed Control Part

2C: Differential Amplifier D1 ~ D5: Diode

R1 to R4: Resistor Q1 to Q14: Transistor

The present invention relates to a black noise removing circuit, and more particularly, to a black noise removing circuit adapted to remove black noise at a high frequency terminal (IF) such as a TV or a VCR.

In the conventional black noise removing circuit, as shown in FIG. 1, a video signal input unit 1 for buffering and outputting a video signal transmitted through a video input terminal Vin and a video transmitted through the video input unit 1 are provided. The black noise removing unit 2 removes and outputs black noise corresponding to noise in the signal.

The video signal input unit 1 is composed of transistors Q1 to Q3, and a buffer 1a for buffering, a differential amplifier 1b for amplifying a difference between a signal and another input signal through the buffer 1a, It is composed of a current source (1c) so that the amount of current output through the differential amplifier (1b) is constant, the black noise cancellation circuit (2) is a video signal transmitted through the transistor (Q1) of the video input unit (1) And a differential amplifier 2b for amplifying the difference between the signals divided by the resistors R13 and R14, a bias circuit portion 2c for adjusting the bias voltage through the resistors R8 and R9 and a current source; According to the output of the differential amplifier 2b, the bias voltage of the bias circuit portion 2c is adjusted so that the black noise can be removed.

Looking at the operation of the prior art configured as described above are as follows.

When a normal video signal without black noise is applied to the bases of the transistors Q1 and Q2 of the buffer 1a, the signal through the transistor Q1 is transmitted to the black noise removing unit 2 and passes through the transistor Q2. As the signal is added to the normal signal and applied to the base of the transistor Q3, the transistor Q3 is turned off so that the high potential of the power supply voltage Vcc through the resistors R3 and R4 is increased by the differential amplifier 1b. It is applied to the base of transistor Q6 to turn it on.

Accordingly, the signal through the transistor Q6 emitter of the differential amplifier 1b is output through the output terminal Vo.

At this time, the current source 1c allows the amount of current output through the differential amplifier 1b to be constant.

The transistor Q11 of the differential amplifier 2b of the black noise canceller 2 receiving the output of the transistor Q1 of the buffer 1a has a resistance R13 lower than the lowest level of the normal video signal applied to its base. The transistor Q11 is turned on and operated by supplying the bias voltage by R14 to the transistor Q12 base.

Accordingly, while the normal video signal is applied, the transistor Q11 of the differential amplifier 2b is always "on", so that the transistor Q12 is turned off, and as the transistor Q12 is `` off '', the voltage adjuster 2a Since no current flows through the base of the transistor Q9, the transistor Q9 is also turned off.

Since the collector voltage of the transistor Q9 of the voltage adjusting unit 2a, that is, the base voltage of the transistor Q7 of the differential amplifier 1b is grounded, the transistor Q7 is always turned off so that a normal video signal is emittered to the transistor Q6. Is output via

On the other hand, when the black noise as shown in FIG. 2A is mixed with the normal video signal and applied to the normal video signal, if the magnitude of the black noise is sufficiently low to turn off the transistor Q11 of the differential amplifier 2b, the transistor Q11 is applied. ) Is turned off, and transistor Q12 is turned on so that transistor Q9 base potential of voltage adjuster 2a is lowered, so that transistor Q9 is turned on and its collector potential is saturated, so emitter potential of transistor Q8 As a result, the transistor Q7 of the differential amplifier 1b is turned on and the transistor Q6 is turned off.

At this time, the transistor Q8 of the voltage adjusting section 2a is provided in the bias circuit section 2c, which is composed of the resistors Q8 and Q9, the diodes D1 and D2, and the resistors R10 and R12 of the transistors Q10 and Q13. When properly adjusted the base voltage transistor (Q7) of the differential amplifier (1b) has as the base voltage is applied to the _{V B (Q8) -V BE (} Q8) , the emitter of the transistor (Q7) V _B (Q8) - Since the voltage of V _BE (Q8) -V _BE (Q7) is output, it is set to the voltage of V _B (Q8) -V _BE (Q8) -V _BE (Q7) at the final output Vo as shown in FIG. .

Therefore, a normal video signal without black noise is output.

However, in the prior art, since black noise is an unpredictable noise in a video signal, the speed of a circuit for removing the noise must be fast. The transistor Q7 base potential of the differential amplifier 1b is V _B (Q8) at the ground potential. It is slow because it is switched to the -V _BE (Q8) potential, and the saturation voltage V _{CE (Q9)} of the transistor Q9 is almost zero, but in reality any voltage ( 0.2V or less), so that the output voltage after removing the noise is not accurate so that the output voltage is not constant.

Accordingly, an object of the present invention is to provide a black noise removing circuit which can stably set the black noise clamping level and increase the speed of removing black noise.

The present invention for achieving the above object is a buffer (1a) for buffering the input video signal, a differential amplifier (1b) for amplifying and outputting the difference between the output signal and the other input signal of the buffer (1a), and the differential A video input unit 1, which consists of a current source 1c for the amount of current output through the amplifier to be constant, delivers a video signal, a bias circuit unit 2A for setting a predetermined voltage, and the buffer 1a. The differential amplifier 2B amplifies the difference between the video signal through the bias circuit unit 2A and the differential signal of the differential amplifier 2B, and removes black noise and increases the speed at the time of removing the noise. Note is composed of a black noise removing unit (2) for outputting a signal to remove the black noise consisting of a noise removing and speed adjusting unit (2c).

The black noise removing unit 2 sets a predetermined voltage and amplifies the difference between the bias circuit unit 2A ', the video signal through the video signal input unit 1, and the signal between the bias circuit unit 2A'. And a differential amplifier 2C 'that amplifies the difference between the differential amplifier 2B' and the output signal of the differential amplifier 2B 'and the signal of the bias circuit section 2A' to remove noise.

When described in detail with respect to the operation and effect of the present invention configured as described above.

When the normal video signal is input, the final output Vo is output through the emitter of the transistor Q6 of the differential amplifier 1b in the operation of the video signal input unit 1 as in the conventional art.

At this time, in the black noise removing unit 2, a voltage lower than the video signal applied to the transistor Q9 base is applied to the transistor Q10 base of the differential amplifier 2B by the bias circuit unit 2A. Q9) is turned on and transistor Q10 is turned off, so no current flows to the base of transistor Q13 of noise canceling and speed cooking section 2C, thereby turning it off.

Therefore, since the transistor Q7 of the differential amplifier 1b is always turned off, the normal video signal is connected to the output through the transistor Q6.

In addition, when black noise is applied to a normal signal through the input terminal Vin, the transistor Q9 of the differential amplifier 2B is turned off, so that the transistor Q10 is turned on so that the diode of the noise canceling and speed controller 2C ( Since the bare current of the transistor Q13 is sinked through D1), the transistor Q13 is also turned on.

Accordingly, since the base voltage of the transistor Q7 rises and turns on, the transistor Q6 is turned off so that the black noise-free signal is output through the emitter of the transistor Q7.

Here, when the base current of the transistor Q13 is not sinked to the diode D1, that is, when a normal video signal is input, the transistor Q13 is turned off, but the noise canceling and speed control unit 2C Through the resistors R9 and R10, the base voltage of the transistor Q7 is set to some degree (that is, 0.1 V or less than 4 V _T or less than the base potential of the transistor Q6), so that the base voltage of the transistor Q6 is lower than the conventional voltage. As it does not swing to ground, the speed is increased, and when the transistor Q13 is turned on, that is, when the black noise is applied, the diodes D1 and D2 are turned on at the same time, so that the base-collector of the transistor Q13 As the potential difference becomes zero, transistor Q13 does not saturate and the black noise canceling voltage is precisely controlled to V _B (Q12) -V _BE (Q12) -V _BE (Q13) -VD _D1 -V _BE (Q7). do.

In addition, the first embodiment of the black noise removing unit 2 will now be described.

When the normal video signal is input, the bias circuit section 2A 'sets the base voltage of the transistor Q11 so that the transistor Q10 of the differential amplifier 2B' is always on and the transistor Q11 is off, and the differential amplifier 2C When the transistor Q10 is turned on, the base voltage of the transistor Q8 is lower than the base voltage of the transistor Q9 so that the transistor Q8 is turned on and the transistor Q9 is turned off.

This causes V _B (Q9) -V _BE (Q9) to be applied to the base of the transistor Q7 so that the normal video signal is output from the emitter of the transistor Q6 to the output terminal Vo.

When the black signal is mixed with the normal signal, the transistor Q10 base voltage of the differential amplifier 2B 'is lower than the base voltage of the transistor Q11 so that the transistor Q10 is turned off and the transistor Q11 is turned on. do.

Accordingly, the collector voltage of the transistor Q10, that is, the base voltage of the transistor Q8 becomes high and the transistor Q8 is turned on.

Therefore, the base voltage of the transistor Q7 becomes the potential of V _B (Q8) -V _BE (Q8), and the black noise level is clamped to V _B (Q8) -V _BE (Q8) -V _BE (Q7).

The black noise removal unit 2 easily adjusts the resistor R8 and the diode D1 and the diode D5 or the resistor R10 and the diodes D2 to D4 to easily remove the black noise and set the noise clamping level. Can be.

The speed can be improved by using the PNP transistor used above.

As described in detail above, the present invention has an effect of easily removing black noise and removing the noise at a high speed.

Claims (3)

In a circuit composed of a black noise canceling section 2 which removes noise when a black noise is input through the video signal input section 1, the black noise removing section 2 is provided with a bias circuit section 2A having a predetermined voltage. A differential amplifier 2B for amplifying the difference between the video signal through the video signal input unit 1 and the signal set by the bias circuit unit 2A, and removing black noise according to the differential signal of the differential amplifier 2B; In addition, the black noise removing circuit comprising a noise removing and speed adjusting unit (2c) to increase the speed at the time of removing noise. The noise canceling and speed adjusting unit 2C includes a transistor Q12 to which a bias power supply of the bias circuit unit 2A is applied as a base, an emitter of the transistor Q12 is commonly connected, and a resistor ( The transistors Q13 connected to the collectors through R9 and the transistors Q10 of the differential amplifier 2B are connected in parallel to the collectors to control the base number of the transistors Q13, D1 and D2. Black noise elimination circuit, characterized in that consisting of. The noise canceling and speed adjusting unit 2C is configured to obtain the same effect by using a differential amplifier that amplifies the difference between the bias signal set by the bias circuit unit 2A and the differential amplifier 2B output signal. Black noise elimination circuit characterized in that.