KR0130606Y1 - Stabilization circuit of x-ray protection circuit - Google Patents

Abstract

The present invention relates to a stabilization circuit of an X-ray cut-off circuit that can extend the life of the C-ti and prevent the emission of electromagnetic waves by shortening the time to shut down when the high voltage rises in the case of the X-ray cut-off circuit. A voltage for distributing a voltage of a waveform smoothed by the smoothing part 2, and a smoothing part 2 for smoothing the high pressure of said flyback transformer FBT, and a smoothing part 2 for outputting a high voltage. A Zener diode (ZD) connected to the distribution section (3), the output side of the voltage distribution section (3) and turned on when a predetermined voltage or more is input, and between the Zener diode (ZD) and the horizontal oscillation section (5). In the x-ray cut-off circuit of the monitor comprising a switching unit (4) connected to the control unit for passing the horizontal oscillation waveform of the horizontal oscillation unit (5) to the ground side when high pressure is generated due to abnormal operation, the zener die De (ZD) and the switching unit 4 can be quickly switched to the high pressure occurs, the switching unit (4) speed-up circuit 6, to which is connected between the above operation is made by further comprising.

Description

Stabilization circuit of X-ray cutoff circuit

1 is a conventional X-ray blocking circuit diagram.

2 is a stabilization circuit diagram of an X-ray blocking circuit according to the present invention.

* Explanation of symbols for main parts of the drawings

1: FBT 2: Smooth part

3: voltage division unit 4: switching unit

5 horizontal oscillation unit 6 speed up circuit

Q1-Q3: Transistor ZD: Zener Diode

R1-R7: Resistor C1, C2: Capacitor

D1: diode

The present invention relates to a monitor, and in particular, in the case of an X-ray cutoff circuit, it protects the CRT by shortening the time of shut down when a high voltage is generated, thereby extending the life of the CRT and preventing the emission of electromagnetic waves. It relates to a stabilization circuit of the X-ray cut-off circuit to prevent it.

As shown in FIG. 1, the X-ray blocking circuit of the conventional monitor includes a flyback transformer (FBT) for outputting high voltage, a diode (D1) and a capacitor (C1) for smoothing the high voltage of the flyback transformer (FBT). A voltage divider 3 comprising a smoothed portion 2, a resistor R1 (R2) for distributing the voltage of the waveform smoothed by the smoothed portion 2, and an output side of the voltage divider 3 Connected to the Zener diode (ZD) is turned on when a predetermined voltage or more is input, and the horizontal oscillator (1) is connected between the Zener diode (ZD) and the horizontal oscillator (5) when a high pressure is generated by abnormal operation And a switching section 4 composed of a transistor Q1, a resistor R4, and a capacitor C2 for passing the horizontal oscillation waveform of the signal to the ground side.

In the X-ray cut-off circuit of the conventional monitor configured as described above, the transistor Q1 cannot pass through the zener diode ZD because it is smaller than the voltage of the pulsed zener diode ZD output from the flyback transformer FBT during normal operation. Is kept off, and the horizontal oscillation waveform of the horizontal oscillator 1 is normally output.

On the other hand, when a high voltage is generated due to the abnormal operation, the pulse waveform of the flyback transformer (FBT) is increased, and smoothed and voltage-divided through the smoothing unit 2 and the voltage distribution unit 3 and applied to the zener diode ZD. Zener diode ZD is turned on.

Therefore, when the zener diode ZD is operated, the capacitor C2 of the switching unit 4 charges the above-described abnormal voltage, and when the charging is completed, the transistor Q1 is switched on to switch off the horizontal oscillation unit 5. As the horizontal oscillation waveform passes through the transistor Q1 to the ground side, the generation of X-rays due to the high voltage rise is blocked.

However, in the conventional X-ray cut-off circuit as described above, even when the high voltage rises due to the abnormal operation and the zener diode ZD is turned on, the transistor Q1 is turned on so that the horizontal oscillation waveform of the horizontal oscillator 1 flows to the ground side. This takes a lot of damage, as well as damage to the CALTI there was a problem that emits electromagnetic waves.

The present invention has been made to solve such a conventional problem, and the X-ray cut-off circuit capable of quickly switching the transistor when the zener diode is turned on due to the abnormal operation to pass the horizontal oscillation waveform to the ground side. The purpose is to provide a stabilization circuit.

The present invention for achieving the above object is a flyback transformer for outputting a high pressure, a smoothing portion for smoothing the high pressure of the flyback transformer, a voltage divider for distributing the voltage of the waveform smoothed by the smoothing portion; And a zener diode which is connected to the output side of the voltage divider and turned on when a predetermined voltage or more is input, and is connected between the zener diode and the horizontal oscillator and grounds a horizontal oscillation waveform of the horizontal oscillator when a high voltage is generated by abnormal operation. In the X-ray cut-off circuit of the monitor comprising a switching unit for passing to the side, characterized in that it further comprises a speed-up circuit that is connected between the zener diode switching unit and can quickly switch the switching unit when a high voltage occurs due to abnormal operation have.

According to the stabilization circuit of the X-ray cut-off circuit of the present invention, when the high voltage rises due to the abnormal operation and the zener diode is turned on, the transistor is quickly switched on and the horizontal oscillation waveform is passed to the ground side, thereby preventing damage to Sialti. will be.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of the stabilization circuit of the subject innovation x-ray blocking circuit described in detail as follows.

2 is a stabilization circuit diagram of an X-ray blocking circuit according to the present invention, and includes a flyback transformer (FBT) for outputting high voltage, a diode (D1) and a capacitor (C1) for smoothing the high voltage of the flyback transformer (FBT). On the output side of the voltage divider 3 and the voltage divider 3 which consists of the smoothing part 2, the resistor R1 (R2) which distributes the voltage of the waveform smoothed by the smoothing part 2, and R2. Connected to the zener diode ZD, which is turned on when a predetermined voltage or more is input, and between the zener diode ZD and the horizontal oscillator 5, when the high voltage is generated by abnormal operation of the horizontal oscillator 1 In the X-ray cut-off circuit of a monitor comprising a switching unit (4) consisting of a transistor (Q1), a resistor (R4), and a capacitor (C2) for passing a horizontal oscillation waveform to the ground side, switching with the Zener diode (ZD) The switching part is connected between the parts (4) when a high pressure is generated by abnormal operation It can rapidly switching transistor (Q1) with (Q3), configured to include resistance to a speed-up circuit 6 with (R5-R7).

According to the present invention configured as described above, since the pulse waveform of the flyback transformer FBT is smaller than the voltage of the zener diode ZD in the normal operation, the zener diode ZD is turned off, so that the transistor Q2 of the speed up circuit 6 is turned off. The transistor Q3 is also turned off while being turned off. Accordingly, the transistor Q1 is turned off, and the horizontal oscillation waveform of the horizontal oscillator 1 is normally output.

However, when a high voltage is generated due to an abnormal operation and the pulse waveform of the flyback transformer FBT becomes large, the pulse waveform is smoothed by direct current by the diode D1 and the capacitor C1, and the voltage is divided by the voltage divider 3. Is distributed and applied to the zener diode ZD, so the zener diode ZD is turned on.

Accordingly, the waveform through the zener diode ZD is applied to the transistor Q2 of the speed up circuit 6 so that the transistor Q2 is turned on, so the transistor Q3 is also turned on.

This is because the power supply Vcc is voltage-divided by the resistors R7 and R6, and the base side of the transistor Q3 maintains a low potential state, whereby the power supply Vcc is connected to the switching unit 4 described above. The capacitor C2 is supplied together with the high pressure according to the abnormal voltage. Therefore, as the capacitor C2 receives a lot of charging current, the charging speed is increased, thereby shortening the charging completion time.

Thus, charging is completed and at the same time, a current is applied to the base of the transistor Q1, thereby turning on the transistor Q1. This immediately removes the output signal of the horizontal oscillator 5, and is made only when an abnormal voltage of the flyback transformer FBT is generated.

According to the present proposal as described above, when the high voltage is output from the flyback transformer FBT due to an abnormal operation, the transistor Q1 is quickly switched on by the speed up circuit 6 so that the horizontal oscillation waveform of the horizontal oscillator 5 is generated. By passing the to the ground side to prevent damage to the CALTI can not only extend the life of the CRT, but also has the effect of reducing the emission of electromagnetic waves.

Claims (2)

A flyback transformer (FBT) for outputting a high voltage, a smoothing portion (2) for smoothing the high pressure of the flyback transformer (FBT), and a voltage divider for distributing the voltage of the waveform smoothed by the smoothing portion (2). (3) and a Zener diode (ZD) connected to the output side of the voltage divider (3) and turned on when a predetermined voltage or more is input, and connected between the Zener diode (ZD) and the horizontal oscillator (5). In the X-ray cut-off circuit of the monitor comprising a switching unit for passing the horizontal oscillation waveform of the horizontal oscillation unit 5 to the ground side when high voltage is generated by abnormal operation, the zener diode (ZD) and the switching unit And a speed up circuit (6) which is connected between (4) and capable of quickly switching the switching section (4) when a high voltage is generated due to abnormal operation. The method of claim 1, wherein the speed up circuit 6 is switched on / off depending on whether the transistor Q2 is switched on when the zener diode ZD is turned on and whether the transistor Q2 is switched. When the transistor Q3 and the transistor Q3 are turned on, the power supply VCC is supplied to the switching unit 4 together with a voltage of a predetermined value according to the occurrence of an abnormal voltage to make the switching speed faster. Stabilization circuit of X-ray cutoff circuit.