KR19980042279U - Bias Control Circuit Using Video Preamplifier - Google Patents

Abstract

The present invention relates to a bias control circuit in an image amplifier circuit of a video monitor, and more particularly, to a bias control circuit of an image amplifier circuit that can be adjusted at the preamplifier stage of the image amplifier circuit.

The present invention is responsible for preamplification of a video signal, and a video preamplifier integrated circuit (IC) having an operational amplifier having two input stages of a positive clamp (CLAMP) and a negative clamp (CLAMP) for bias adjustment of an image signal. 1) and a video output amplifier integrated circuit for power amplifying the output from the video preamplifier integrated circuit and applying it to a cathode ray tube, wherein the video preamplifier integrated circuit has a plus. Two supply voltage distribution resistors connected to the clamp inputs; And a variable resistor having one end connected to the plus clamp input terminal and the other end connected to the earth to divide and input the voltage at the plus clamp input terminal. By providing the bias, the bias can be controlled even at low power, thereby achieving the effect of reducing the power consumption of the video display device.

Description

Bias Control Circuit Using Video Preamplifier

The present invention relates to a bias control circuit in an image amplifier circuit of a video monitor, and more particularly, to a bias control circuit of an image amplifier circuit that can be adjusted at the preamplifier stage of the image amplifier circuit.

The image signal amplifier circuit refers to a circuit for amplifying a weak video signal input to a video monitor device to a size large enough to operate a cathode ray tube (CRT). In order to fully operate the cathode ray tube, a signal voltage of about 80-150V (P-P) is required. The magnitude of the input signal is usually about 1V (P-P). Therefore, it is necessary to amplify about 80-150 times through the image signal amplification circuit.

The image signal is applied to the cathode ray tube by adjusting the contrast and the luminance of each of the R, G, and B color signals.

An operation of the bias control circuit of the image display device according to the related art will be described in detail with reference to FIG. 1.

1 is a circuit diagram showing a conventional image amplifier circuit and a bias circuit thereof constructed using a preamplifier integrated circuit and an output amplifier integrated circuit.

This circuit is a circuit for adjusting the contrast and the luminance in addition to the three R, G, and B color signals, and is a circuit diagram showing only one color signal channel for convenience.

The main function of the video preamplifier (IC 1) is to take an input signal and amplify it and output it. Here, contrast adjustments to adjust the gain of the amplifier and brightness adjustments to adjust the contrast of the image are made.

The adjustment of this gain is controlled by varying the level of the direct current bias voltage, using a variable resistor to change the direct current bias voltage level.

The video preamplifier (IC 1) also incorporates a spot rejection circuit. This circuit prevents the output transistor from being destroyed due to the sudden brightening and turning off of the screen when the image display device is turned off. When the power supply voltage falls below a predetermined voltage, the gain of the amplifier is immediately reduced. Say a circuit.

The image output circuit is also formed using the integrated circuit IC 2. 1 shows a bias control circuit of an output amplifier integrated circuit IC 2.

In the above-described bias control circuit of the prior art, the power consumption is increased due to the bias adjustment in the amplifier of the output circuit.

In addition, there is a problem that causes adverse effects due to electromagnetic interference (EMI) due to the large power consumption.

An object of the present invention is to provide a bias control circuit capable of adjusting a bias in a preamplifier stage of an image amplifier circuit.

1 is a circuit diagram showing a conventional image amplifier circuit and a bias circuit thereof constructed using a preamplifier integrated circuit and an output amplifier integrated circuit.

2 is a circuit diagram illustrating an embodiment of a bias control circuit of an image amplifier constructed according to the present invention.

* Description of the symbols for the main parts of the drawings *

IC 1: Video Preamplifier Integrated Circuit IC 2: Video Output Amplifier Integrated Circuit

R 1, R 2: Voltage divider resistor R 3: Variable resistor

CRT: cathode ray tube

In order to realize the above object, the present invention is responsible for preamplification of a video signal, and has a video amplifier having two input stages of positive clamp (CLAMP) and negative clamp (CLAMP) for bias adjustment of a video signal. An image amplifier circuit of an image display apparatus comprising a preamplifier integrated circuit (IC 1) and a video output amplifier integrated circuit for power amplifying an output from the video preamplifier integrated circuit and applying it to a cathode ray tube. Two supply voltage distribution resistors connected to the positive clamp input of the preamplifier integrated circuit; And a variable resistor having one end connected to the plus clamp input terminal and the other end connected to the earth to divide and input the voltage at the plus clamp input terminal. to provide.

According to the above configuration, the circuit of the present invention performs the function of adjusting the bias in the preamplifier circuit part of the image amplification circuit.

EXAMPLE

Hereinafter, with reference to the accompanying Figure 2 will be described a preferred embodiment of the present invention.

2 is a circuit diagram illustrating an embodiment of a bias control circuit according to the present invention.

The present invention is a video preamplifier integrated circuit (IC 1) having an operational amplifier having two input stages of a positive clamp (CLAMP) and a negative clamp (CLAMP) for the pre-amplification of the video signal to adjust the bias of the video signal And video output amplifier integrated circuit (IC 2) for power amplifying the output from the video preamplifier integrated circuit (IC 1) and applying it to the cathode ray tube. .

The present invention, in the image amplifier circuit, the power supply voltage distribution resistor (R 1, R 2) connected to the plus clamp input terminal of the video preamplifier integrated circuit (IC 1) and one end thereof is connected to the plus clamp input terminal, the other end Is connected to the earth and comprises a variable resistor (R 3) for dividing and inputting the voltage at the plus clamp input terminal.

The present invention adjusts the bias by changing the voltage applied between the plus clamp and the minus clamp.

The plus clamp terminal of the video preamplifier integrated circuit IC 1 receives a clamp power supply from a power supply voltage Vcc.

The power supply voltage Vcc is divided by a predetermined value by the voltage distribution resistors R 1 and R 2 of the present invention and input to the plus clamp terminal of the video preamplifier integrated circuit IC 1. This predetermined voltage value serves as a reference voltage of the comparator operational amplifier in the video preamplifier integrated circuit IC 1 described later.

On the other hand, the negative clamp terminal of the video preamplifier integrated circuit (IC 1) is connected to the movable side contact of the variable resistor (R 3) of the present invention, the variable resistor (R 3) is one end of the video preamplifier It is connected to the positive clamp input of the integrated circuit IC 1 and the other end is connected to ground.

Here, the positive and negative clamp inputs are respectively input to a comparator operational amplifier formed in the video preamplifier integrated circuit IC 1.

Accordingly, as the variable resistor R 3 is varied, the operation level of the comparator operational amplifier in the video preamplifier integrated circuit IC 1 is changed, and accordingly, the DC voltage level of the image amplifier circuit is changed, and the desired bias is changed. It's a control action.

As described above, the bias control circuit of the present invention performs the bias of the color signal output by using the preamplifier integrated circuit, so that the bias can be controlled even at low power, thereby reducing the power consumption of the image display apparatus. To achieve.

Since the bias control circuit of the present invention is capable of bias adjustment with low power, it also provides an effect of reducing electromagnetic inductive interference.

Although the present invention has been illustrated and described in connection with certain preferred embodiments, the present invention may be variously modified and changed without departing from the spirit or the field of the present invention provided by the following utility model registration claims. Those skilled in the art will readily recognize that there is a.

Claims (1)

A video preamplifier integrated circuit (IC 1) incorporating an operational amplifier in charge of preamplification of a video signal and having two input stages of a positive clamp and a negative clamp for adjusting bias of an image signal; and An image amplification circuit of an image display apparatus comprising a video output amplifier integrated circuit (IC 2) for power amplifying an output from the video preamplifier integrated circuit (IC 1) and applying it to a cathode ray tube. Two supply voltage distribution resistors R 1 and R 2 connected to the positive clamp input of the video preamplifier integrated circuit IC 1; And, One end thereof is connected to the plus clamp input terminal, and the other end thereof is connected to earth, and includes a variable resistor R 3 for dividing and inputting the voltage at the plus clamp input terminal. Bias circuit.