KR920000717Y1 - Video signal noise removing circuit - Google Patents

Abstract

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Description

Noise reduction circuit of video signal

Circuit diagram of the present invention.

* Explanation of symbols for the main parts of the drawings

5: photocoupler 10: power supply

15: video input unit 20: noise removal unit

25: video signal selection section 30: video buffer section

35: video amplifier Q1-Q6: transistor

D1-D5: Diode R1-R19: Resistor

SW1: selection switch

The present invention relates to a noise reduction circuit of a video signal in which a pure video signal component is outputted by removing noise components that are amplified together when amplifying an external input video signal in a television and a VTR.

Conventionally, in a television and a VTR which amplify a video signal input through an external video input unit and output the video signal from a video buffer unit using a photocoupler for power separation, only the pure video input signal component is a video buffer unit. Since a small noise component is included in the video signal and is amplified and output as a video signal, the final output video signal includes a noise component, and thus the screen to be reproduced is not clear.

Therefore, in order to remove such noise, conventionally, a noise removing filter circuit is connected to the output side of the video buffer unit. However, when the noise removing filter circuit is connected to the output side of the video buffer unit, the circuit configuration is complicated.

In view of the above, the present invention removes the video noise component generated in the process of amplifying the external input video signal with a simple circuit configuration at the front end of the video buffer unit, and outputs a noise-free video signal from the video buffer unit. .

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

The present invention is a video input unit 15 for amplifying an external input video signal, a port coupler (5) for separating and transmitting the power to the video signal amplified by the video input unit 15, and transmitted from the photocoupler (5) In a video signal input circuit comprising a video amplifying unit 35 for amplifying a video signal to be applied to the video buffer unit 30, the video amplifying unit 35 and the video buffer unit 30 are connected to each other and are reversed. A noise canceling unit 20 for removing noise included in the video signal through the connected diodes D4 and D5, and connected to the noise removing unit 20 and reversely driven by switching of the selection switch SW1. Transistors Q4 and Q5 to selectively apply outputs of the video amplifier 35 and the noise removing unit 20 to the video buffer unit 30 according to the operations of the transistors Q4 and Q5. Video signal selector 35 It is configured.

That is, according to the present invention, the video signal applied to the video input terminal 1 passes through the impedance matching circuit of the coil L1 and the resistor R1, and the base of the transistor Q1 to which the resistor R2 for temperature compensation and the diode D1 are connected. The video signal applied to the transistor Q1 is applied to the photocoupler 5 after Darlington amplification in the transistor Q2 to which the variable resistor VR1 for feedback is applied, and constitutes the video input unit 15. The flyback pulse of the flyback transformer (FBT) is applied to the input unit 15 through a power supply unit 10 composed of a diode D3, a capacitor C2, and a zener diode D2.

The video signal passing through the photocoupler 5 for power separation is amplified by the video amplification unit 35 composed of transistors Q3, resistors R6-R9, and capacitors C3 and C4, and then a DC coupling capacitor. The noise removing unit 20 is configured to remove noise through the diodes D4 and D5 connected to (C5) and C6 and connected to each other in reverse direction.

At this time, in the noise removing unit 20, the video signal from which the noise is removed according to the driving of the video signal selecting unit 25 is applied to the video buffer unit 30 through the condenser C7, or the video signal in which the noise is not removed is a resistor R12. After R13 and the capacitor (C7) is configured to be applied to the video buffer unit (30).

Accordingly, the video signal selector 25 selects the flow of the video signal by reverse driving the transistors Q4 and Q5 according to the "on-off" selection switch SW1. The video signal applied from is output through the video buffer unit 30 composed of the resistors R17-R19 and the transistor Q6.

That is, according to the present invention, the video signal amplified from the video signal input unit 15 to the noise is amplified again by the video amplifying unit 35 through the photocoupler 5 for power separation, and then selected by the video signal selecting unit 25. Accordingly, the video signal containing the noise or the video signal from which the noise is removed is output through the video buffer unit 30. Noise is removed by using conduction voltage of.

In the present invention configured as described above, when an external video signal is applied to the video input terminal 1, the impedance is matched in the impedance matching circuit by the coil L1 and the resistor R1, and then the photo is connected through the darlington-connected transistors Q1 and Q2. Is applied to the coupler 5.

In this case, the resistor R2 and the diode D1 connected to the base of the transistor Q1 are used for temperature compensation, and the feedback variable resistor VR1 is connected to the emitter side of the transistors Q1 and Q2. Power supply 10 rectifies the flyback pulse of the flyback transformer (FBT) to the diode (D3) and the capacitor (C) and distributes it to the resistors (R4) and (R5), and then the zener diode (D2) A constant voltage is applied.

In this way, the video signal amplified by the video input unit 15 at the hot power terminal is separated from the power through the photocoupler 5 for power separation, and is inverted to the colt power terminal.

The video signal inverted by the photocoupler 5 is amplified by the video amplification unit 35 including the resistors R6-R9, transistors Q3, and capacitors C3 and Q4, and then the video signal selection unit 25. Is applied to the noise removing unit 20 whose selection is controlled.

At this time, the video signal amplified by the video amplifying unit 35 is not amplified only to the pure video signal is amplified to the noise components contained therein to be removed.

That is, the video signal amplified from the video amplifier 35 to the noise component is the noise is removed through the diode (D4) (D5) reversely connected between the DC coupling capacitor (C5) (C6) at this time, the video signal selector As the selection switch SW1 of (25) is "on-off", the video signal from which the noise is removed is applied to the video buffer unit 30, or the video signal containing the noise is applied.

First, when noise is removed through the diodes D4 and D5, the diodes D4 and D5 are connected in opposite directions so that they are not turned on within ± 0.6 V but only “ON” above ± 0.6 V. Therefore, the video signal amplified by the video amplifier 35 and containing noise (see (A) in the drawing) is applied to the capacitor C7 with noise components within ± 0.6 V removed from the diodes D4 and D5. Will be.

(See (B) in the drawing.)

That is, the noise amplified by the video amplifying unit 35 and the noise of the (+) component of the video signal as shown in (a) of FIG. Component noise is cut at diode D4 and negative component noise is 'off' at diode D5 within -0.6V, so component (-) component noise at -0.6V is applied at diode D5. Since the noise included in the video signal is cut through the diodes D4 and D5, noise within ± 0.6 V is removed, and then the video signal is output as shown in the figure (B).

The output video signal is output through the video buffer unit 30 including the resistors R17-R19 and the transistor Q6 after the capacitor C7.

In this case, the video signal selection unit 25 is configured to output the video signal from which the noise is removed or output the video signal including the noise.

That is, when the selection switch SW1 is turned "on", a low level is applied to the base of the transistor Q5 to which the bias resistors R15 and R16 are connected, so that the transistor Q5 is "turned off" and the transistor Q5 is turned on. By "turning off", the transistor Q4 applied through the transistor 30 to which the power supply Vcc is applied through the resistor R14 is "turned on".

Therefore, the video signal from which the noise is removed through the capacitors C5 and C6 and the diodes D4 and D5 of the noise removing unit 20 passes through the resistor R10 and the condenser C7 and then the video buffer unit 30. It is output through.

At this time, the video signal containing the noise passing through the capacitor C5 and the resistor R12 by the turn-on of the transistor Q4 is prevented from being applied to the capacitor C7.

However, in order to output the video signal including the noise signal, the selector switch SW1 is turned off so that the power supply Vcc is applied to the base of the transistor Q5 through the resistors R15 and R16. Turn on (Q5).

When the transistor Q5 is "turned on", the transistor Q4 which is driven back to it is "turned off", so that the video signal from which the noise is removed through the diode D4 (D5) is a collector of the transistor Q5 that is "turned on". And the video signal, which flows to ground through the emitter and passes through the capacitor C5 and before passing through the diodes D4 and D5, passes the video through the resistors R12 and 13 and the capacitor C7. By being applied to the buffer unit 30, a video signal containing noise is output at this time.

As a result, the present invention includes the noise amplified video signal is a noise component is removed by the diode (D4) (D5) of the noise removing unit 20 at this time switching the selection switch (SW1) of the video signal selection unit 25 Accordingly, the video buffer unit 30 outputs the video signal including the noise or the video signal from which the noise is removed.

That is, when the selector switch SW1 is "on", the video signal from which the noise is removed is output through the diodes D4 and D5. When the selector switch SW1 is "off", the video signal containing the noise is directly output. Will be.

As described above, the present invention utilizes a diode before the video signal is applied to the video buffer unit at the rear of the video amplifying unit when the amplified video signal is amplified by the video amplifying unit through the photocoupler for power separation. By removing the video signal, the video signal from which the noise component has been removed can be output, and the video signal or the video signal containing the noise can be selectively output as the noise is removed depending on the video signal selection unit.

Therefore, the present invention can simply remove the noise included in the video signal compared to removing the noise at the rear end of the video buffer unit with a simpler circuit configuration.

Claims (1)

The video input unit 15 that amplifies an external input video signal and the photo coupler 5 which separates and transmits the video signal amplified by the video input unit 15 and the video coupler 5 which are transmitted from the photo coupler 5 are amplified. In the video signal input circuit comprising a video amplifying unit 35 to be applied to the video buffer unit 30, a diode D4 connected between the video amplifying unit 35 and the video buffer unit 30 and connected in reverse direction to each other. Noise removal unit 20 for removing noise included in the video signal through D5, and transistor Q4 connected to the noise removal unit 20 and reversely driven according to switching of the selection switch SW1. A video signal selection unit (Q5) for selectively applying the outputs of the video amplifier unit 35 and the noise removing unit 20 to the video buffer unit 30 according to the operations of the transistors Q4 and Q5. Consisting of 35) Noise canceling circuit of the video signal, characterized by.