KR20020014420A - X-ray protection circuit in the monitor - Google Patents

Abstract

PURPOSE: An X-ray protection circuit of a monitor is provided to prevent unnecessary power loss by isolating DC power in operating an X-ray protection circuit and to prevent the damage of components by turning on/off a transistor through detection in operation of the X-ray protection circuit. CONSTITUTION: In an X-ray protection circuit of a monitor, a transistor(100) is mounted on a 12V/15V DC power line. An MCU(Microcomputer Unit,200) is connected to the transistor to control the transistor. A sensor(300) is connected to the MCU to detect and report the operation of the X-ray protection circuit by X-ray generation of a monitor. The sensor detects the generation of abnormal high voltage by receiving a pulse higher than a specific level from an FBT(Fly Back Transistor). The transistor consists of a first transistor(Q1) turning on/off a power supply and a second transistor(Q2) turning on/off the first transistor. If an abnormal high voltage is detected from the FBT, the sensor reports the generation to the MCU. The MCU turns on the second transistor. Thereby, the first transistor is turned off to prevent unnecessary power consumption.

Description

X-ray PROTECTION CIRCUIT IN THE MONITOR}

The present invention relates to an X-ray protection circuit of a monitor, and more particularly, when the x-ray protection circuit is operated to prevent the X-ray from being emitted due to abnormally high pressure The present invention relates to an X-ray protection circuit of a monitor which cuts off wires, eliminates unnecessary power consumption, and stabilizes a circuit.

In general, a cathode ray tube of a monitor accelerates electrons emitted from an electron gun and collides with a fluorescent surface to realize an image. In order to operate the cathode ray tube, a heater voltage of about 6.3 V is applied to the heater, and a high voltage of 25 V is applied to the anode to accelerate the electrons.

However, this is not a problem when the high pressure applied to the anode of the cathode ray tube is normal, but when abnormally high pressure is applied to the anode, electrons collide with the fluorescent surface to generate X-rays harmful to the human body. do.

Therefore, the monitor is provided with an X-ray protection circuit to prevent the occurrence of such X-rays, a conventional X-ray protection circuit is shown in FIG.

The flyback transformer FBT receives power from the power supply unit 50 according to the signal of the horizontal output unit 30, outputs a high voltage (H.V) to the secondary side, and supplies it to the anode of the cathode ray tube.

In the normal operation, the oscillator 10 receives the synchronization signal and generates a locked horizontal drive signal, and the horizontal drive unit 20 amplifies the horizontal drive signal output from the oscillator 10 sufficiently and then the horizontal output unit 30. ) The horizontal output unit 30 is turned on and off in accordance with the horizontal drive signal input through the horizontal drive unit 20 to apply a current to the horizontal deflection coil (H.DY).

At this time, when the horizontal output transistor is turned off, the energy accumulated in the primary winding of the flyback transformer 40 is guided to the secondary and tertiary windings. High voltage is induced in the secondary winding and supplied to the anode of the cathode ray tube, and the voltage induced in the tertiary winding is for detecting abnormal occurrence of high voltage.

When abnormal high pressure is generated, a pulse of a predetermined level or more is applied to the oscillation unit 10 connected to the tertiary winding of the flyback transformer (FBT) 40, and the oscillation unit 10 receives the horizontal driving signal. It does not occur. As a result, power is not supplied to the primary winding of the flyback transformer (FBT) 40 because no horizontal drive signal is generated, thereby stopping the operation of the circuit and blocking the generation of the X-rays.

However, in the conventional X-ray protection circuit which stops the operation of the circuit at abnormal high voltages and blocks the generation of the X-ray, the DC power supplied to each part of the monitor is cut off even though the operation of the X-ray protection circuit can suppress the generation of the X-ray. Otherwise, there is a problem that not only wastes unnecessary power but may cause component damage.

The present invention provides a switching unit in the DC power line in order to solve the above problems, by detecting the operation of the X-ray protection circuit on and off the switching unit, by blocking the supply of DC power during the operation of the X-ray protection circuit unnecessary It is an object of the present invention to provide a monitor X-ray protection circuit that prevents power loss and prevents damage to components.

1 is a circuit diagram for explaining a conventional X-ray protection circuit,

2 is a circuit diagram showing an X-ray protection circuit according to the present invention.

In order to achieve the above object, the X-ray protection circuit of the monitor according to the present invention is connected to a DC power line drawn from the power supply to the conventional X-ray protection circuit and the switching unit for turning on and off the power, It characterized in that it further comprises a sensing unit for controlling the microcomputer and the high-pressure generation from the flyback transformer (FBT) of the monitor to transmit the high-pressure generation signal to the microcomputer.

Herein, the switching unit includes a first transistor having an emitter terminal and a collector terminal connected to the power line to turn on and off a power supply, a collector terminal connected to a base terminal of the first transistor, and an emitter terminal is grounded. And a second transistor connected to the micom to turn on and off the first transistor according to a signal applied from the micom.

In addition, the power line is preferably a 12V or 15V power line supplied from the DC output terminal of the power supply.

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

2 is a circuit diagram showing an X-ray protection circuit of the monitor according to the present invention.

In the X-ray protection circuit of the monitor according to the present invention, a switching unit 100 is installed on a DC power line of 12V or 15V, and a microcomputer (MCU) 200 for controlling this is connected to the switching unit, and the microcomputer ( 200 is connected to the detection unit 300 for detecting and informing the operation of the X-ray protection circuit according to the X-ray generation of the monitor. The detector 300 receives a pulse of a predetermined level or more from the flyback transformer (FBT) 40 and detects whether abnormal high pressure is generated. The sensing unit 300 may be an oscillation unit.

The microcomputer 200 is programmed to receive a signal related to the operation of the X-ray protection circuit from the sensing unit 300 and output a signal for controlling the switching unit 100.

The switching unit 100 includes a first transistor Q1 connected directly to a power line to turn off power and a second transistor connected to a base end of the first transistor to turn off the first transistor. The base terminal of the second transistor is connected to the microcomputer 200 to be turned on and off in response to a signal from the microcomputer 200.

When the abnormal high voltage is detected from the flyback transformer (FBT) 40, the sensing unit 300 notifies the microcomputer 200, and the microcomputer 200 applies a signal to the base terminal of the second transistor to supply a second signal. When the transistor is turned on, this turns the first transistor off and the power is cut off.

In the case of using the X-ray protection circuit of the monitor according to the present invention, by detecting the occurrence of abnormal high voltage to block the horizontal synchronization signal to prevent the generation of X-rays, and to block the DC power line to prevent unnecessary operation of the parts It is possible to obtain an effect of preventing damage and preventing unnecessary power consumption.

Claims (3)

X-ray protection of the monitor, which includes a horizontal oscillation unit that generates a horizontal drive signal by receiving a synchronization signal during normal operation and blocks the output of the horizontal drive signal when a pulse of a predetermined level or more is input from the third winding of the flyback transformer (FBT) In the circuit, A switching unit connected to a DC power line drawn from the power supply unit to turn the power on and off; A microcomputer that controls on / off of the switching unit; X-ray protection circuit of the monitor further comprises a detection unit for detecting whether the high-pressure generation from the flyback transformer (FBT) of the monitor to transmit the high-pressure generation signal to the microcomputer. According to claim 1, The switching unit, A first transistor having an emitter terminal and a collector terminal connected to the power supply line to turn the power on and off; The collector terminal is connected to the base terminal of the first transistor, the emitter terminal is grounded, and the base terminal includes a second transistor connected to the micom to turn off the first transistor according to a signal applied from the micom. An X-ray protection circuit of a monitor characterized in that it is made. The method according to claim 1 or 2, And the power line is a 12V or 15V power line supplied from a DC output terminal of the power supply unit.