KR20010048550A - A cathod-ray tube protecting circuit - Google Patents

Abstract

PURPOSE: The protection circuit of CRT(Cathode Ray Tube) is provided to protect CRT by removing high residual light generated in the CRT of a large-sized projection TV. CONSTITUTION: A vertical blanking pulse part(20) generates a vertical blanking pulse signal from a video signal. A vertical pulse discrimination part(21) determines whether the vertical blanking pulse is output. A horizontal blanking pulse part(22) generates a horizontal blanking pulse signal from a video signal. A horizontal pulse discrimination part(23) determines whether the horizontal blanking signal is output. A power-supply unit(24) provides power-supply to a whole circuit. According to an output signal of the horizontal pulse discrimination part(21) or the horizontal pulse discriminator(23), the vertical/horizontal discrimination part(25) cuts off a main voltage relay of the power-supply unit(24), or provides an output signal of the discrimination part to a microcomputer terminal if the horizontal or vertical blanking signal is mute.

Description

A cathod-ray tube protecting circuit

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a television circuit, and more particularly, to a cathode ray tube protection circuit that protects the cathode ray tube by removing high afterglow generated in the cathode ray tube of a large projection television.

1 is a circuit diagram showing the configuration of a conventional CRT circuit.

First, when the set is normally operated, the vertical / horizontal output signal is converted into a vertical blanking and a horizontal blanking signal and input to the first buffer 10 and the second buffer 11, respectively. Enters the conduction state, and a low voltage is output to the output collectors of the transistors TR1 and TR2. As a result, the forward current of the diodes D1 and D2 of the first and second reverse voltage units 12 and 13 increases, and the bases of the transistors TR3 and TR4 of the first and second control units 14 and 15 are in a low voltage state. In the off state, the collector is applied with the high voltage to the bases of the transistors TR5 and TR6 of the vertical / horizontal signal output unit 16 having the NPN type to output the low voltage state to the collector terminal. The vertical / horizontal output signal (low voltage state) is supplied to the microcomputer (not shown) terminal, and the relay (not shown) of the power supply unit 17 is kept in an on state so that the set operates normally.

However, if the set malfunctions, for example, if the vertical output component or horizontal output component is destroyed, there will be no vertical / horizontal output pulses, and thus no vertical blanking or horizontal blanking pulses will be produced. The two buffers 10 and 11 are turned off. When the first and second buffers 10 and 11 are turned off, the collectors of TR1 and TR2 enter high voltages and the diodes D1 and D2 of the first and second reverse voltage units 12 and 13 are turned off. . As a result, a bias voltage is applied to the bases of the first and second controllers 14 and 15 TR3 and TR4, and the collector output voltage is low, and the base of the vertical / horizontal signal output units 16 TR5 and TR6 is low. This causes a high voltage across the collector with forward-to-emitter-base conduction. This vertical / horizontal output signal (high voltage state) is supplied to the microcomputer terminal and cuts off the relay of the power supply unit 17. In case of a transient phenomenon, spots (horizontal lines, vertical lines) are generated in the CRT of the projection television due to high luminance. There was a problem.

In addition, if the circuit is operated in the same way as in the conventional method, the circuit is complicated because it is composed of several elements, and the increase in the number of parts triggers the cause of the failure more and causes the increase in the manufacturing cost of the product, such as an increase in the inefficiency of the PCB space area. There was a problem that occurs.

The technical problem to be achieved by the present invention is to provide a CRT protection circuit that protects the set by removing afterglow caused by component breakdown under abnormal conditions of the set and constitutes a complex circuit of the prior art in a simple circuit.

1 is a circuit diagram showing the configuration of a conventional CRT circuit.

2 is a block diagram showing the configuration of the CRT protection circuit according to the present invention.

3 is a detailed view of FIG. 2.

A CRT protection circuit for solving the technical problem to be achieved by the present invention includes: a power supply unit for supplying power to the device by on / off control of a relay; A discriminating unit for determining whether a vertical / horizontal blanking pulse signal is output among the image signals input to the apparatus; And a control unit controlling a relay of the power supply unit according to whether a blanking pulse signal is output from the determination unit.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram showing the configuration of the CRT protection circuit according to the present invention.

2 is a vertical blanking pulse unit 20 for outputting a vertical blanking pulse signal from an image signal, a vertical pulse discriminating unit 21 for discriminating the presence or absence of a vertical blanking pulse, and a horizontal blanking pulse signal from an image signal. A horizontal blanking pulse unit 22 for outputting a signal, a horizontal pulse discriminating unit 23 for determining whether or not a horizontal blanking signal is present, a power supply unit 24 for supplying power to the entire circuit, a vertical pulse discriminator 21 or a horizontal pulse When the vertical horizontal blanking signal mute according to the output of the discriminator 23, the output voltage is supplied to the microcomputer (not shown) terminal, and the vertical / which cuts off the main voltage relay (not shown) of the power supply unit 24. It is comprised by the horizontal discrimination output part 25. FIG.

3 is a detailed view of FIG. 2.

Next, the present invention will be described in detail with reference to FIGS. 2 and 3.

First, when the set operates normally, the power supply voltage of the power supply unit 24 is connected and supplied to the vertical / horizontal discrimination output unit 21/23/25, and the vertical blanking pulse unit 20 and the horizontal blanking pulse unit 22 are supplied. The outputted pulses are input to the vertical pulse determination unit 21 and the horizontal pulse determination unit 23, respectively. At this time, the vertical blanking pulse and the horizontal blanking pulse are input to the vertical pulse discrimination unit 20 and the Suffolk pulse discrimination unit 23 through the DC removal elements R1, C1, R10, and C4.

When the vertical blanking pulse from which the DC component is removed is inputted with an AC pulse higher than the voltages of the zener diodes D1 and D2 of the vertical pulse discriminating unit 20 and the horizontal pulse discriminating unit 23, the capacitor is turned on. Is filtered.

The filtered signal is biased by the base resistors (R3, R4, R7, R8) of the vertical / horizontal discrimination outputs 21/23/25, and the transistors TR1 and TR2 are brought into a conducting state and are collectors. The terminal is turned low to supply the microcomputer terminal and to keep the main voltage control relay of the power supply unit 24 continuously on, thereby stably operating the set.

However, when either the vertical blanking pulse unit 20 or the horizontal blanking pulse unit 22 does not operate due to a transient phenomenon or a defective part in the set, the vertical blanking pulse unit 20 or the horizontal blanking pulse unit 22 is not operated. Since there are no output pulses, the zener diodes D1 or D2 of the vertical pulse discrimination unit 21 or the horizontal pulse discrimination unit 23 are open.

Since the control diode D1 or D2 is open, the transistor TR1 or TR2 base of the vertical / horizontal discrimination output section 25 goes low and enters the open state, and the collector of the power supply section 24 does not generate current. The high voltage is output to the collector as much as the power supply voltage and supplied to the microcomputer terminal. At this time, the main voltage relay of the power supply unit 24 is cut off to protect the CRT by first driving a circuit for removing high afterglow before the CRT is deteriorated (horizontal line, vertical line blot).

The present invention is not limited to the above-described embodiments and can be modified by those skilled in the art within the spirit of the invention.

As described above, according to the present invention, it is possible to protect the set by removing afterglow generated due to component breakdown under abnormal conditions of the set, and to reduce the cost by configuring a complicated circuit of the prior art as a simple circuit. have.

Claims (2)

In the video display device, A power supply unit for supplying power to the device by on / off control of a relay; A discriminating unit for determining whether a vertical / horizontal blanking pulse signal is output among the image signals input to the apparatus; And And a control unit for controlling a relay of the power supply unit according to whether a blanking pulse signal is output from the determination unit. The circuit of claim 1, wherein the circuit is When the output of the vertical and horizontal blanking pulse signals is determined by the determination unit, the control unit maintains the relay of the power supply unit on. When the output of the vertical or horizontal blanking signal is not determined by the determination unit, the control unit is configured to perform the And a control tube for outputting a control signal for keeping the relay of the power supply unit in an off state.