KR20020008672A - A self protectin circuit in a display device - Google Patents

Abstract

PURPOSE: A self-protection circuit for a display device is provided to control the operation of the horizontal deflection circuit by detecting abnormal operation of the horizontal output circuit. CONSTITUTION: A self-protection circuit for a display device includes an abnormality detector(10) for detecting if an output signal of a horizontal drive circuit(1) is abnormal. Herein, the horizontal drive circuit(1) amplifies a horizontal drive signal output from a horizontal oscillating circuit and thus provides an operation voltage of a horizontal output transistor. According to the detected result of the abnormality detector(10), an abnormality controller(20) is switched. Then, according to the switching state of the abnormality controller, a power controller(30) controls output of power applied from a power supply(2) to the horizontal drive circuit(1).

Description

A self protectin circuit in a display device

The present invention relates to a display device, and more particularly, to a self-protection circuit of a display device that detects an abnormality of an operation in a horizontal output circuit and controls the operation of the horizontal deflection circuit.

The display device is a representative peripheral device of a computer that forms and displays an image so that a user can recognize a signal transmitted from the computer. The basic configuration of the internal circuit will be briefly described with reference to FIG. 1. As shown in the drawing, a video signal R, G, B required for image formation is applied from a video card (not shown) mounted in a computer, and a second amplification is performed to supply energy to each pixel of the CRT 10. An image signal processor 20, a microprocessor 30 that receives a horizontal synchronous signal (H-sync) and a vertical synchronous signal (V-sync) from the video card and outputs a control signal for adjusting a screen; A horizontal / vertical oscillation signal processor 40 for oscillating a drive signal for deflection in accordance with a control signal transmitted from a microprocessor, and an electron gun of the CRT 10 in accordance with the oscillation frequency provided from the horizontal / vertical oscillation signal processor 40. Vertical deflection in which the electron beam generated in (11) is deflected in order from the upper left to the lower right of the CRT 10 by the deflection yoke (DY) to perform horizontal and vertical deflection so as to form an image like a photograph. Part (50 ) And an anode (Anode) stage of the CRT 10 by using a horizontal deflection unit 60 and a retrace pulse generated from an output terminal of the horizontal deflection unit 60 using a principle of a switching circuit and high voltage technology. It consists of a high-pressure generating unit 70 which is a device for supplying a high voltage to the.

In the conventional display device, there is no protection circuit in the horizontal output circuit in the horizontal deflection unit 60. That is, when the driving voltage applied to the base terminal of the horizontal output transistor is abnormal, the horizontal output transistor occurs. 2 is an exemplary output waveform diagram of a horizontal drive circuit. In the normal case (A), the pulse of the square wave is generated, and in the abnormal case (B), the duty width of the pulse is variable so that the voltage applied to the base terminal of the horizontal output transistor becomes unstable and eventually the circuit element is destroyed. There is this.

SUMMARY OF THE INVENTION An object of the present invention is to provide a self-protection circuit of a display device that can protect circuit components by monitoring an abnormal operation of a horizontal output circuit and controlling a power applied to a deflection circuit from a power supply.

The structure of the self-protection circuit according to the present invention for achieving this purpose is to detect the abnormality of the output signal of the horizontal drive circuit to provide an operating voltage of the horizontal output transistor by amplifying the current output of the horizontal drive signal output from the horizontal oscillation circuit. And an abnormality detecting unit, an abnormality controlling unit which is switched according to the detection result of the abnormality detecting unit, and a power controlling unit controlling the output of power applied to the horizontal drive circuit from the powering unit according to the switching state of the abnormality controlling unit. do.

1 is a block diagram showing a configuration of a general display device;

2 is an exemplary output waveform diagram of a horizontal drive circuit;

3 is a detailed circuit diagram of a magnetic protection circuit of the display device according to the present invention.

Hereinafter, the configuration and operation of the self-protection circuit according to the present invention will be described with reference to the accompanying drawings. 3 shows a self-protection circuit according to the invention. The configuration is largely an abnormality detection unit 10 for detecting the abnormality of the output signal of the horizontal drive circuit (1) providing current voltage of the horizontal drive signal output from the horizontal oscillation circuit to provide the operating voltage of the horizontal output transistor, The output of the power applied to the horizontal drive circuit 1 from the power supply unit 2 according to the switching state of the abnormal control unit 20 and the abnormal control unit 20 is switched according to the detection result of the abnormal detection unit 10 It consists of a power supply control unit 30 to control.

The output AC voltage of the horizontal drive circuit 1 filtered by the resistor R6 and the coupling capacitor C2 is DC by the diode D1 and the capacitor C1 of the abnormality detecting unit 10. Converted to level. In this case, when the output waveform of the horizontal drive circuit is a normal square wave as shown in FIG. 2A, the switching transistor Q1 of the abnormality control unit 20 maintains an off state.

When the duty width of the voltage of the horizontal drive circuit 1 is changed so that the DC output level of the abnormality sensing unit 10 becomes the driving voltage of the third switching transistor Q3, the third switching transistor Q3 is turned on. The base voltage of the second switching transistor Q2 is lowered to a low level. As the collector potential of the second switching transistor Q2 becomes high level, the first switching transistor Q1 is turned off. Accordingly, the output voltage of 14 V applied to the horizontal drive circuit 1 as the B + voltage is cut off to operate in the safe mode.

On the other hand, the abnormality detection unit and the abnormality control unit may be configured by replacing the specific pulse width by using the time constant of the resistor and the capacitor to an integrated circuit for controlling the switching operation of the abnormal control unit. In this case, when the output of the horizontal drive circuit is normal, the third switching transistor Q3 maintains the off state, detects it when abnormal operation is turned on, and operates in a safe mode.

Diode (D1), capacitor (C1) and the sense voltage level constituting the abnormality detection unit 10 is transmitted to the microprocessor (3) through the resistor (R4, R3) to perform the operation necessary for the safety of the display device do. In some cases, a method of controlling the power control unit by feeding back the detection result of the abnormality detection unit to the microprocessor and checking the level by a program may be used. However, this may occur when the response speed is slow and does not function as a protection circuit.

As described above, the self-protection circuit according to the present invention has the effect of preventing the horizontal output transistor from being destroyed due to the abnormal operation of the horizontal deflection circuit with a simple circuit configuration.

Claims (3)

An abnormality detector for detecting an abnormality of an output signal of a horizontal drive circuit which provides an operating voltage of the horizontal output transistor by amplifying the horizontal drive signal output from the horizontal oscillation circuit; An abnormality control unit which is switched according to a detection result of the abnormality detection unit; And a power control unit controlling an output of power applied from the power supply unit to the horizontal drive circuit in accordance with the switching state of the abnormal control unit. The method of claim 1, The abnormality detector is a diode for rectifying the output voltage of the horizontal drive to convert to a direct current (DC) level, A self-protection circuit of a display device, characterized in that the coupling capacitor for coupling the voltage rectified by the diode to the rear end by the charge and discharge operation. The method of claim 1, The abnormality detection unit is a self-protection circuit of a display device, characterized in that the integrated circuit for controlling the switching operation of the abnormal control unit by filtering the specific pulse width abnormality using the resistance and the time constant of the capacitor.