JPH04192764A - Video signal processor - Google Patents

Abstract

PURPOSE:To prevent the occurrence of a sag phenomenon due to the attenuation of the low frequency component of a video signal by providing a video signal input terminal to which the video signal is inputted, a low-pass filter extracting the low frequency part of the video signal, an adder, a clamp circuit setting the horizontal synchronization period part of the video signal at a desirable electric potential, an amplifier and a driving circuit driving an external circuit. CONSTITUTION:The video signal is inputted to a video signal input terminal 1 and supplied to a low-pass filter 2 and an adder 3. In the adder 3, the inputted video signal is added with an output signal of the low-pass filter extracting the low frequency part of the video signal and outputted to a clamp circuit 4. At this time, by setting the frequency characteristic of the low-pass filter to be changed into the characteristics shown by (b) when the frequency characteristics determined by an output impedance resistance 7, a condenser 8 and the input impedance of the circuit in the next stage is the characteristics shown by (a), the energy of the low frequency part of the video signal attenuated by (a) can be complemented by the characteristics of the low-mass filter 2 having the characteristics shown by (b).

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention relates to a magnetic recording and reproducing device for recording and reproducing video signals.
This relates to a drive circuit (1.'/1) that drives the interface part of the video signal and is effective for use in the video signal processing device.

21\-7 Prior Art Hereinafter, the conventional technology will be explained with reference to the drawings. Third
The figure shows a video signal output interface circuit block of a conventional magnetic recording and reproducing device.

In Fig. 3, 1 is a video signal input terminal, 4 is a clamp circuit that operates to adjust the potential of the horizontal synchronization period part of the video signal to a certain desired potential, 5 is an amplifier, and 6 is a drive for the output interface part of the video signal. drive circuit,
γ is an output impedance resistance, 8 is a capacitor, and 9 is a video signal output terminal.

The operation will be explained below.

The video signal is input to a video signal input terminal 1 and supplied to a clamp circuit 4. The clamp circuit 4 clamps the potential of the horizontal synchronization period portion of the video signal to a certain potential. The clamped video signal is amplified by an amplifier 5 and supplied to a drive circuit 6, passes through an output impedance resistor a and a capacitor 8, and is output to a video signal output terminal 9.

Problems to be Solved by the Invention However, with the above configuration, when interfaced with an external circuit, the video signal is generally output with an output impedance of 75Ω, and the impedance on the input side is 75Ω. Since the frequency component of the signal exists from the low frequency band, the capacitance value of the capacitor 8 is set to 1.
If the value is not greater than 000 μF, the low frequency energy of the video signal will be attenuated, resulting in a shaky phenomenon. Further, particularly in the case of a camera-integrated VTR, a capacitor of 1000 μF or more is a large component, which poses a problem such as hindering the reduction in size and weight of a printed circuit board.

In order to solve the second problem, the video signal processing device of the present invention includes a video signal input terminal into which a video signal is input, and a low-pass filter that extracts low-frequency components of the video signal. , an adder L11° which adds the output signal from the video signal input terminal and the output signal from the low-pass filter, and a horizontal synchronization period portion of the video signal, which is the output signal from the adder a, to the desired value. This device has a configuration including a clamp circuit that sets a potential, an amplifier that amplifies a signal from the clamp circuit, and a drive circuit that drives an external circuit.

Effect The present invention has the above-described configuration, so that in a conventional video signal processing device, the number of interface capacitors is reduced to 1000.
When the value is less than μF, there is no distortion caused by the attenuation of the low-frequency components of the video signal, and the value of the capacitor can be reduced, so it is possible to reduce the size of the printed circuit board, especially in camera-integrated VTRs. It doesn't get in the way.

Embodiment Hereinafter, an embodiment of a video signal processing apparatus according to the present invention will be described with reference to the drawings.

FIG. 1 shows a block diagram of an embodiment of a video signal processing apparatus of the present invention. In FIG. 1, parts with the same reference numerals as those in FIG. 3 indicate the same or equivalent parts as in FIG. 3, and the explanation thereof will be omitted. The operation will be explained below.

The video signal is input to a video signal input terminal 1 and supplied to a low-pass filter 2 and an adder 3. The adder 3 adds the input video signal and the output signal of the low-pass filter 2 that extracts the low-frequency components of the video signal, and outputs the result to the clamp circuit 4. The clamp circuit 4 clamps the potential of the horizontal synchronization period portion of the video signal to a certain potential. The clamped video signal is amplified by an amplifier 5, supplied to a drive circuit 6, and output impedance resistor 7. Capacitor 8'f: output to video signal output terminal 9. At this time, when the frequency characteristics determined by the output impedance resistance γ, the capacitor 8, and the input impedance of the next stage circuit are as shown in FIG. 2a, the frequency characteristics of the low-pass filter 20 are as shown in FIG. By setting the characteristics such that It is possible to take a small value f.

61, 7 Effects of the Invention According to the present invention, as described in 2, a video signal input terminal into which a video signal is input, a low-pass filter that extracts a low-frequency component of the video signal, an adder, and a video signal input terminal. Since the video signal is configured to include a clamp circuit that sets the horizontal synchronization period portion to a desired potential, an amplifier, and a drive circuit that drives the external circuit, a sag phenomenon occurs due to attenuation of the low-frequency components of the video signal. Moreover, since the value of the output capacitor can be made small, excellent effects such as miniaturization of the printed circuit board can be obtained.

[Brief explanation of the drawing]

FIG. 1 is a block diagram of a video signal processing device according to an embodiment of the present invention, FIG. 2 is a characteristic diagram of a video signal processing device according to an embodiment of the present invention, and FIG. 3 is a block diagram of a conventional recording signal amplification device. It is a diagram. 1...Video signal input terminal, 2...Low pass filter, 3...Adder, 4...Clamp circuit, 5...Amplifier, 6... Drive circuit, 7... Output impedance resistor,
8...Capacitor, 9...Video signal output terminal.

Claims (1)

[Claims] a video signal input terminal into which a video signal is input; a low-pass filter that extracts a low-frequency component of the video signal; and an adder that adds the output signal from the video signal input terminal and the output signal from the low-pass filter. , a clamp circuit that sets a horizontal synchronization period portion of a video signal that is an output signal from the adder to a desired potential, an amplifier that amplifies the signal from the clamp circuit, and a drive circuit that drives an external circuit. A video signal processing device characterized by: