KR100303483B1 - High pressure generator of deflection / high pressure separation type video display device - Google Patents

Abstract

The high pressure generating device of the disclosed deflection / high pressure separation type video display device generates a high pressure supplied to the cathode ray tube by a constant fixed frequency regardless of the horizontal frequency of the video mode inputted to the deflection / high pressure separation type video display device such as a monitor. will be.

In the high pressure generator of the deflection / high pressure separation type video display device according to the present invention, in the high pressure generator for generating a constant high pressure to the cathode ray tube to display the image signal according to the video mode input to the deflection / high pressure separation type image display device, When the power is turned on and the video signal is applied, the fixed frequency generator generates a preset frequency regardless of each video mode of the applied video signal, and the fixed frequency generated from the fixed frequency generator. And a horizontal high voltage output circuit unit which is switched according to the B + voltage and outputs a horizontal drive voltage, and an FBT which boosts the horizontal drive voltage output from the horizontal high voltage output circuit unit and supplies high voltage to the cathode ray tube.

Therefore, the present invention does not use the B + power supply control circuit due to the horizontal frequency variation, which provides convenience in designing the circuit, and also prevents operation error and component damage caused by the high horizontal frequency of the input video mode. To increase the reliability of the product.

Description

High pressure generator of deflection / high pressure separation type video display device

The present invention relates to a high-pressure generator of a deflection / high pressure separation type video display device, and more particularly, to a cathode ray by a constant constant frequency at all times regardless of the horizontal frequency of the video mode input to the deflection / high pressure separation type video display device, such as a monitor The present invention relates to a high pressure generator of a deflection / high pressure separation type image display device that generates a high pressure supplied to a pipe.

In general, an image display device such as a monitor is a peripheral device that allows a user to easily monitor and check the operation state of a computer system. The image display device such as a monitor is a predetermined image according to a current operation inputted from a video card embedded in the computer system. The signal is displayed on the screen of the Cathode Ray Tube.

In order to display the predetermined video signal output from the video card of the computer system on the screen of the video display device, the vertical synchronous signal and the horizontal synchronous signal output together with the predetermined video signal to be displayed on the video display device in the computer system. Should be used.

That is, the cathode ray tube has an electron gun in the neck and emits an electron beam according to an image signal, and controls a vertical deflection of the electron beam with a vertical synchronous signal, and controls a horizontal deflection of the electron beam with a horizontal synchronous signal. To display the video.

The video modes output from the computer system described above include a color graphics adapter (CGA) mode, a video graphics array (VGA) mode, a super video graphics array (SVGA) mode, and the like. The frequency and resolution of the synchronization signal are different.

For example, in the CGA mode, the horizontal synchronization signal has a frequency of 15.75 KHz, the vertical synchronization signal has a frequency of 60 Hz, and the resolution is 640 × 350.

In VGA mode, the horizontal synchronization signal has a frequency of 31.5 KHz, the vertical synchronization signal has a frequency of 60 Hz or 70 Hz, and the resolution is 720 × 350 or 640 × 480.

In the SVGA mode, the frequency of the horizontal synchronization signal is 35 to 37 KHz, the frequency of the vertical synchronization signal is interlace, and the resolution is 800x600.

As such, in order to display a video signal according to a video mode input from a computer system to a conventional video display device through a cathode ray tube, a high voltage is generated in a FBT (FlyBack Transformer) by switching a switching element according to a horizontal frequency included in the video mode. It should be supplied to the cathode ray tube.

FIG. 1 is a block diagram schematically illustrating a high pressure generator of a deflection / high pressure separation type image display device according to the related art.

Video display equipment is largely divided into a deflection / high voltage integrated image display device and a deflection / high pressure separation type video display device. Generally, a video display device such as a television implements a video display device by integrating a horizontal deflection circuit and a high voltage circuit. In the case of ultra-high resolution large size video display devices with horizontal frequency of 100KHz or more, the video display device is implemented by separating the horizontal deflection circuit and the high voltage circuit.

The reason for separating the horizontal deflection circuit and the high voltage circuit is to prevent the regulation effect due to the efficiency and high pressure fluctuations from reaching the horizontal deflection.

Therefore, in the case of the deflection / high voltage type video display device, since only a stable DC voltage is applied to the high voltage circuit, it is not necessary to synchronize the high voltage circuit and the horizontal deflection circuit.

As shown, the horizontal / vertical processor unit 1 is a high voltage stable to the cathode ray tube (not shown) according to the horizontal frequency of each video mode included in the horizontal synchronization signal input from the microcomputer (not shown). The horizontal drive signal is output to the horizontal high voltage output circuit unit 3 to be described later in accordance with the horizontal period, and the horizontal deflection current is described later to supply the horizontal deflection current to the horizontal deflection yoke 6 described later. The horizontal deflection drive signal is output to the output circuit section 5.

The B + voltage supply control circuit section 2 is a horizontal high voltage output circuit section 3 to be described later according to the horizontal frequency of the video signal for each video mode input to the microcomputer from a computer system (not shown). Supply.

The horizontal high voltage output circuit section 3 is switched according to the B + voltage supplied from the B + voltage supply control circuit section 2 and the horizontal drive signal input from the horizontal / vertical processor section 1, so that the horizontal drive voltage is described below. Will output

The FBT 4 converts the horizontal drive voltage output from the horizontal high voltage output circuit unit 3 into high voltage and supplies the same to the cathode ray tube.

The horizontal deflection output circuit section 5 is switched in accordance with the horizontal deflection drive signal input from the horizontal / vertical processor section 1 to output the horizontal deflection voltage to the horizontal deflection yoke 6 described later.

The horizontal deflection yoke 6 adjusts the horizontal size by deflecting the image signal input from the computer system according to the horizontal deflection voltage output from the horizontal deflection output circuit section 5.

The operation of the high-pressure generator of the deflection / high pressure separation type image display device according to the prior art configured as described above is as follows.

First, when a horizontal synchronization signal is input to the horizontal / vertical processor unit 1, the horizontal / vertical processor unit 1 sends a horizontal drive signal for applying a stable high voltage to the cathode ray tube to the horizontal high voltage output circuit unit 3 in a horizontal period. The output is correct.

In addition, in the horizontal / vertical processor section 1, a horizontal deflection drive signal for supplying a horizontal deflection current to the horizontal deflection yoke 6 is output to the horizontal deflection output circuit section 5.

Accordingly, the horizontal high voltage output circuit unit 3 is switched according to the horizontal drive signal input from the horizontal / vertical processor unit 1 and the B + voltage supplied from the B + voltage supply control circuit unit 2, and the horizontal according to the switching operation is performed. The drive voltage is output to the FBT 4 so that a high voltage is generated.

In the horizontal deflection output circuit section 5, the horizontal deflection voltage according to the horizontal deflection drive signal input from the horizontal / vertical processor section 1 is output to the horizontal deflection yoke 6, and in the horizontal deflection yoke 6, the horizontal deflection output is output. The horizontal size is adjusted by deflecting an image signal input from the computer system according to the horizontal deflection voltage output from the circuit unit 5.

However, since the high pressure generator of the conventional deflection / high pressure split type image display device as described above is designed such that the switching frequency applied to the horizontal high voltage output circuit part and the frequency applied to the horizontal deflection output circuit part are the same, the deflection / high pressure split type image display is performed. When the horizontal frequency of the image signal according to the video mode applied to the device is high, there is a problem that the operation error and component damage of the switching element and the FBT of the horizontal high-voltage output circuit unit.

In addition, since the B + voltage supplied to the horizontal high voltage output circuit must be supplied differently according to the horizontal frequency of the video signal according to each video mode applied to the deflection / high voltage split type video display device, a circuit for controlling this is separately required. A complicated problem occurred.

Accordingly, an object of the present invention is to provide a deflection / high pressure separation type video display device that generates a high pressure supplied to a cathode ray tube at a constant constant frequency regardless of the horizontal frequency of a video mode input to a deflection / high pressure separation type video display device such as a monitor. To provide a high pressure generator of the.

1 is a block diagram schematically illustrating a high pressure generator of a deflection / high pressure separation type image display device according to the prior art;

FIG. 2 is a block diagram schematically illustrating a high pressure generator of a deflection / high pressure separation type image display device according to an exemplary embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

10: horizontal / vertical processor unit 20: horizontal deflection output circuit unit

30: horizontal deflection yoke 40: fixed frequency generator

50: horizontal high voltage output circuit 60: FBT

In order to achieve the above object, the high-pressure generator of a deflection / high pressure type detachable image display device generates a constant high pressure with a cathode ray tube to display an image signal according to a video mode inputted to the deflection / high pressure type detachable image display device. In the high pressure generator, a fixed frequency generator for generating a predetermined frequency irrespective of each video mode of the applied video signal when the power supply of the deflection / high pressure separation type video display device is applied, and a fixed frequency generation It consists of a horizontal high voltage output circuit that is switched according to the fixed frequency generated by the negative voltage and B + voltage and outputs a horizontal drive voltage, and an FBT that boosts the horizontal drive voltage output from the horizontal high voltage output circuit and supplies high voltage to the cathode ray tube. It features.

Hereinafter, with reference to the accompanying drawings will be described in detail the high-pressure generator of the deflection / high pressure separation type video display device of the present invention.

FIG. 2 is a block diagram schematically illustrating a high pressure generator of a deflection / high pressure separation type image display device according to an exemplary embodiment of the present invention.

As shown, the horizontal / vertical processor unit 10 is a high voltage stable to the cathode ray tube (not shown) according to the horizontal frequency of each video mode included in the horizontal synchronization signal input from the microcomputer (not shown). The horizontal drive signal is output in accordance with the horizontal period to the horizontal high voltage output circuit unit 20 to be described later.

The horizontal deflection output circuit unit 20 is switched according to the horizontal deflection drive signal input from the horizontal / vertical processor unit 10 to output the horizontal deflection voltage to the horizontal deflection yoke 30 described later.

The horizontal deflection yoke 30 adjusts the horizontal size by deflecting an image signal input from a computer system (not shown) according to the horizontal deflection voltage output from the horizontal deflection output circuit unit 20.

The fixed frequency generator 40 generates a preset frequency regardless of the video mode of the applied video signal when the power of the deflection / high pressure split type video display device is turned on and the video signal is applied from the computer system. Output to the circuit part 50 is carried out.

The fixed frequency generator 40 may be implemented with a PWM control IC such as TL494 or KA3842.

The horizontal high voltage output circuit unit 50 is switched according to the fixed frequency and the B + voltage generated from the fixed frequency generator 40 to output the horizontal drive voltage to the FBT 60 which will be described later.

The FBT 60 boosts the horizontal drive voltage output from the horizontal high voltage output circuit unit 50 to high pressure and supplies the same to the cathode ray tube.

Next, the operation of the high-pressure generator of the deflection / high pressure separation type video display device according to the present invention configured as described above will be described in detail.

First, when the power of the deflection / high voltage type separate video display device is turned on and the video signal corresponding to each video mode is applied from the computer system, the preset ON signal is set regardless of the video mode of the video signal applied by the fixed frequency generator 40. A fixed frequency with a constant on / off duty is generated and output to the horizontal high voltage output circuit unit 50.

Accordingly, the horizontal high voltage output circuit unit 50 is switched according to the fixed frequency and the B + voltage generated from the fixed frequency generator 40, and the horizontal drive voltage according to the switching operation is output to the FBT 60 to be boosted to high voltage. Then supplied to the cathode ray tube.

In addition, when the horizontal synchronization signal is input to the horizontal / vertical processor unit 10 as in the above-described conventional technology, the horizontal / vertical processor unit 10 supplies a horizontal deflection drive signal for supplying a horizontal deflection current to the horizontal deflection yoke 30. Is output to the horizontal deflection output circuit section 20.

In the horizontal deflection output circuit unit 20, the horizontal deflection voltage according to the horizontal deflection drive signal input from the horizontal / vertical processor unit 10 is output to the horizontal deflection yoke 30, and in the horizontal deflection yoke 30, the horizontal deflection output is output. The horizontal size is adjusted by deflecting an image signal input from the computer system according to the horizontal deflection voltage output from the circuit unit 20.

As described above, according to the high-pressure generating device of the deflection / high pressure separation type video display device of the present invention, when generating the high pressure supplied to the cathode ray tube, the horizontal frequency of the video mode inputted to the deflection / high pressure separation type video display device is not used. By generating a constant fixed frequency at all times to generate a high voltage in the FBT, the B + power supply control circuit is not used due to the variation of the horizontal frequency, thereby providing convenience in designing the circuit.

In addition, it is possible to prevent operation error and component damage caused by the high horizontal frequency of the input video mode, which has the advantage of increasing the reliability of the product.

Claims (1)

In the high pressure generator for generating a constant high pressure to the cathode ray tube to display the video signal according to the video mode input to the deflection / high pressure separation type video display device, A fixed frequency generator configured to generate a preset frequency regardless of each video mode of the applied video signal when the power is turned on and the video signal is applied; A horizontal high voltage output circuit unit which is switched according to a fixed frequency generated by the fixed frequency generator and a B + voltage to output a horizontal drive voltage; And And a high voltage generation device of a deflection / high pressure separation type image display device, comprising: an FBT for boosting a horizontal drive voltage output from the horizontal high voltage output circuit unit and supplying a high pressure to a cathode ray tube.