KR970004895Y1 - The x-ray inventive circuit of monitor - Google Patents

Abstract

None.

Description

X-ray cut-off circuit of monitor

1 is an X-ray interrupt circuit diagram of a conventional monitor

2 is an X-ray cut-off circuit diagram of the present invention monitor

3 is a level diagram of output voltages at respective stages in FIG.

* Explanation of symbols for main parts of the drawings

11: horizontal oscillation unit 12: horizontal output unit

13: high pressure part 14: abnormal high pressure detection part

16: abnormal high pressure removing unit

The present invention relates to the X-ray cut-off circuit of the monitor, and more particularly to the x-ray cut-off circuit of the monitor that can fundamentally block the X-rays emitted from the monitor caused by the abnormal high pressure generated in the high-pressure section.

As shown in FIG. 1, the X-ray cut-off circuit of the conventional monitor includes a horizontal oscillation unit 1 for outputting a horizontal oscillation signal and a horizontal output unit for receiving a horizontal oscillation signal of the horizontal oscillation unit 1 and outputting a horizontal output signal. (2), an abnormality of detecting an abnormal high pressure generated at an output terminal of the high voltage unit 3, which receives a horizontal output signal of the horizontal output unit 2, and outputs a high pressure through an output terminal. When abnormal high pressure is detected by the high pressure detector 4 and the abnormal high pressure detector 4, the current input from the horizontal oscillator 1 to the horizontal output unit 2 is reduced to output from the horizontal output unit 2. It is composed of a horizontal output control unit 5 for removing the abnormal high pressure generated in the output terminal of the high voltage section 3 by reducing the magnitude of the horizontal output signal.

In the prior art configured as described above, when the horizontal output unit 2 receives the horizontal oscillation signal from the horizontal oscillation unit 1 and moves the high voltage unit 3, the high pressure output from the output terminal of the high voltage unit 3 When the abnormally high pressure rises abnormally due to any cause, the zener diode ZD1 of the abnormal high voltage detecting part 4 connected to the output terminal of the high voltage part 3 is turned on by the abnormal high pressure to turn on the variable resistor VR1. The transistor Q4 connected to the zener diode ZD1 is turned on. At this time, the DC power supply voltage B ⁺ 2 is applied to the collector terminal of the transistor Q4 through the resistor R5.

Meanwhile, as described above, as the transistor Q4 of the abnormal high voltage detection unit 4 is turned on, current is supplied to the transistor Q2 of the horizontal output control unit 5 connected to the transistor Q4 through the resistor Q3. The transistor Q2 is turned on, and then the two transistors Q1 and Q3, which receive the driving current from the emitter of the transistor Q2, are also turned on. At this time, the DC power supply voltage B ⁺ 1 is applied to the emitter of the transistor Q2 through the resistor R1 and to the base of the transistor Q2 through the resistor R2.

On the other hand, as the transistors Q1 and Q3 are turned on as described above, the horizontal oscillator 1 is directed toward the horizontal output controller 5 connected to the output terminal of the horizontal oscillator 1 through the collector terminal of the transistor Q1. Part of the current inputted to the horizontal output unit 2 is consumed by the horizontal output control unit 5, so that the current flowing toward the horizontal output unit 2 is reduced by that amount and is output from the horizontal output unit 2. The horizontal output voltage is reduced.

As described above, as the horizontal output voltage output from the horizontal output unit 2 decreases, the abnormal high pressure generated in the high voltage unit 3 using the horizontal output voltage is eliminated, so that no X-rays are emitted from the monitor.

However, even when the horizontal oscillation signal of the horizontal oscillator is controlled to suppress the abnormal high pressure generated on the secondary side of the high pressure unit, the suppression of the abnormal high pressure is not complete, and thus the X-rays emitted from the monitor cannot be fundamentally blocked. The problem is that the monitor always carries the possibility of emitting x-rays.

Therefore, the purpose of the present invention, if the abnormal high pressure occurs at the output terminal of the high voltage portion, by grounding the secondary terminal of the flyback transformer in the high voltage portion completely eliminates the abnormal high pressure generated, it is possible to fundamentally block the X-ray generated from the monitor It is to provide the X-ray blocking circuit of the monitor.

The X-ray cut-off circuit of the present invention monitor according to the above object is a horizontal oscillation unit for outputting a horizontal oscillation signal, a horizontal output unit for receiving a horizontal oscillation signal of the horizontal oscillation unit and outputting a horizontal output signal, horizontal output of the horizontal output unit When an abnormal high pressure is detected at the output terminal of the high voltage part by a high voltage part receiving a signal and outputting a high pressure through an output terminal, an abnormal high pressure detecting part detecting an abnormal high pressure generated at an output terminal of the high voltage part, and the abnormal high pressure detecting part. It includes an abnormal high pressure removing unit for removing the abnormal high pressure generated by electrically grounding the secondary side terminal of the flyback transformer in the high voltage section.

Looking at the operation of the present invention configured as described above, when the horizontal output unit is driven by the horizontal oscillation signal as a horizontal oscillation signal to drive the high pressure unit, when the high pressure output from the output terminal of the high pressure unit is abnormal high pressure for some reason, the abnormal high pressure detection unit The abnormal high pressure is detected by this.

When the abnormal high pressure is detected by the abnormal high pressure detecting unit as described above, the abnormal high pressure removing unit electrically grounds the secondary terminal of the flyback transformer in the high voltage unit when the abnormal high pressure detected by the abnormal high pressure detecting unit is greater than the reference voltage set in the magnetic field. By removing the abnormal high pressure generated in the high pressure part, the X-ray emitted from the monitor is essentially blocked.

Now, with reference to Figures 2 and 3 showing one specific embodiment of the present invention having the above-described action will be described in more detail the operation of blocking the abnormal high pressure. In this case, detailed description of the same parts as in the prior art will be omitted.

First, when an abnormal high pressure occurs for some reason at the output terminal of the high voltage section 13, the abnormal high pressure is detected by the abnormal high pressure detection section 14 connected to the output terminal of the high voltage section 13, and the abnormal high pressure detection section 14 The abnormal high pressure shown at the output terminal A of the output terminal A and applied to the negative terminal of the comparator OP of the abnormal high pressure removing unit 16 is applied to the comparator OP. If the reference voltage applied to the positive terminal of () is higher than 6.2 V, the comparator OP is driven to output a low signal through the output terminal B as shown in FIG. At this time, the high-voltage detector 14 is configured such that the capacitor C1 and the diode D1 are connected in parallel to the resistor R3 and the variable resistor VR1 connected in series, and two DC power sources are connected to the output terminal of the resistor R3. Voltages B ⁺ 1 and B ⁺ 2 are applied.

Meanwhile, as described above, the low signal output from the output terminal B of the comparator OP is applied to the base of the transistor Q1 through the resistor R5 connected to the comparator OP to drive the transistor Q1. The transistor Q2, which is configured to receive the driving current from the collector terminal of the transistor Q1 driven in this manner, is also turned on, and a high signal is output to the collector terminal D of the transistor Q2. As it is applied to the gate terminal of SCR1 through R10, the SCR1 is turned on as shown in FIG. 3 so that a forward current flows from the anode to the cathode and thus is located in the high voltage section 13. The secondary terminal of the flyback transformer (not shown) is electrically grounded.

As the secondary terminal of the flyback transformer in the high voltage unit 13 is electrically grounded as described above, the abnormal high pressure generated at the output terminal of the high voltage unit 13 is eliminated, and thus there is no X-ray emission from the monitor.

On the other hand, if the abnormal high pressure output from the output terminal of the high voltage unit 13 is smaller than the reference voltage set in the comparator OP of the abnormal high pressure removing unit 16, the comparator OP is not driven, so the abnormal high pressure removing unit ( At each node BCD, signals having a level state as shown in FIG. 3 are detected so that the SCR1 at the output side of the abnormal high voltage removing unit 16 is turned off, so that the SCR1 is It remains electrically open.

As a principle, the present invention which blocks X-rays emitted from the monitor by removing the abnormal high pressure generated in the high voltage part may be applied to monitors, TVs, and other video display devices.

As described so far, the present invention detects the abnormal high pressure and electrically grounds the secondary side terminal in the high voltage part, and thus, it is possible to fundamentally suppress the emission of harmful X-rays from the monitor when the abnormal high pressure occurs. Has an effect.

Claims (1)

A horizontal oscillator for outputting a horizontal oscillation signal, a horizontal output unit for receiving a horizontal oscillation signal of the horizontal oscillator and outputting a horizontal output signal, and a high voltage unit for receiving a horizontal output signal of the horizontal output unit and outputting a high voltage through an output terminal And a secondary side of the flyback transformer in the high voltage section when the abnormal high pressure detected by the abnormal high pressure detected at the output terminal of the high voltage section by the abnormal high pressure detected by the abnormal high pressure detected by the abnormal high pressure detected by the output terminal of the high voltage section. An X-ray cut-off circuit of the monitor, characterized in that the terminal is electrically grounded and has an abnormal high voltage removing unit for removing the abnormal high voltage generated at the output terminal of the high voltage section.