KR0176646B1 - High voltage trigger pulse generating circuit - Google Patents

Abstract

1. TECHNICAL FIELD OF THE INVENTION

TECHNICAL FIELD The present invention relates to a device using a transformer of a superposition type, particularly in a boost transformer for generating a high voltage pulse using a low voltage.

2. The technical problem to be solved by the invention

The use of two transformers solves the problems of stability, but it is difficult to design a turns ratio that enables accurate boosting of the transformer, and the problem that noise is considerably loud because two transformers are used when driving the device.

3. Summary of Solution to Invention

In the high voltage pulse generating circuit, there is provided a double overlapping boost transformer circuit capable of generating high voltage pulses such as the pulse voltages of two two-stage boosted high voltage pulse generator circuits with one transformer.

4. Important uses of the invention

Superimposed step-up high voltage trigger pulse generation circuit.

Description

Superimposed step-up high voltage trigger pulse generator

1 is a conventional high voltage trigger pulse generation circuit.

2 is a superimposed step-up high voltage trigger pulse generation circuit according to the present invention.

* Explanation of symbols for main parts of the drawings

4,12 capacitor 6 transistor

8: overlap boost type transformer 10: diode

14 spark gap 18 lamp power supply

20 lamp

TECHNICAL FIELD The present invention relates to a device using a transformer of a superposition type, particularly in a boost transformer for generating a high voltage pulse using a low voltage.

FIG. 1 is a conventional high voltage trigger pulse generation circuit. First, the charging circuit resistor 2, the capacitor 4, the discharge control transistor 6, the primary boost transformer 22, and the high voltage pulse of the transformer 22 are shown. The rectifier diode 10, the charging capacitor 12, and the secondary boost transformer 24 are comprised. At this time, the operation of the circuit having the above configuration will be described. First, when an input power is applied, the capacitor 4 is charged through the resistor 2. At this time, when the capacitor 4 is fully charged, the voltage charged to the capacitor is discharged by the trigger pulse supplied to the base of the transistor 6, and the change of the trigger pulse input to the base terminal of the transistor 6 is discharged. the instantaneous discharge current (I ₂₎ by the organic and the secondary side (L ₁₂₎ of the transformer (22) by interconnecting the rectifier diode (10) is charged with (I ₂₎ to the condenser (12). At this time, since the boosted and charged current is not as large as desired, the above operation is repeatedly charged several times. Thereafter, when a constant voltage (3KV) is applied to the spark gap (SPARK GAP) in the rear stage, the secondary current (L ₂₃ ) of the transformer 24 is changed by changing the current I ₄ discharged from the capacitor 12. Is organic). At this time, the high voltage pulse which is boosted and induced momentarily makes the initial point of the high voltage lamp and the like. Thereafter, the initially lit lamp continues to be lit through the lamp supply power source 18. However, the device configured as described above is stable because two transformers are used, but there is a problem in the design of the winding ratio that can accurately boost the transformer. A problem occurred.

Accordingly, an object of the present invention is to provide a double overlapping boost transformer circuit capable of generating high voltage pulses such as the pulse voltages of two two-stage boosted high voltage pulse generator circuits in one transformer in a high voltage pulse generator circuit. .

As described above, according to the present invention, when the power is input, the battery is temporarily charged by the first charging means and is switched by receiving a trigger pulse to change the current discharged from the charging means when the charged current is above a predetermined level. When the current changed by the switching means and the switching operation is induced to the first and secondary windings through the primary winding, and stepped up to a predetermined level or more, the boosted current is changed instantaneously to change the second and secondary windings. It is characterized in that it is composed of a superimposed transformer means for generating a high voltage pulse by the step-up operation once more.

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

1 is a conventional high voltage trigger pulse generation circuit.

2 is a superimposed step-up high voltage trigger pulse generation circuit according to the present invention, and a switching operation for changing the discharge current discharged through the first charging capacitor 4 and the capacitor 4 to charge the input power. A primary side connected to a transistor 6, an overlap boost type transformer 8 composed of one primary winding and two secondary windings, and first and secondary windings of the overlap boost boost transformer 8; A second capacitor 12 which charges the boosted voltage induced from the winding to a predetermined level, and is instantaneously conducted when discharged from the second capacitor 12 above a predetermined voltage to transfer the discharge current to the second and secondary windings. It consists of a spark gap 14 leading to.

Referring to the concrete operation in more detail with the above configuration, when the input power is applied to the capacitor 4 is charged through the resistor (2). At this time, when the capacitor 4 is fully charged, the voltage charged to the capacitor is discharged by the trigger pulse supplied to the base of the transistor 6, and the change of the trigger pulse input to the base terminal of the transistor 6 is discharged. The instantaneous discharge current I ₂ is induced from the primary winding to the first and secondary windings and the second and secondary windings. In this case, the current induced in the second and secondary windings is only a small amount when viewed as the second and secondary windings, and thus is ignored. Then, the current induced in the first and secondary windings is first stepped up according to the winding ratio to conduct the rectifying diode 10 to charge the charging current I ₂ in the condenser 12. At this time, since the boosted and charged current does not become as large as desired, the above operation is repeatedly charged several times. Thereafter, when a constant voltage (3 KV) or more is applied to the spark gap (14) at a later stage, the electric current (I ₄ ) that is instantaneously conducted and discharged from the capacitor (12) is changed to change the superimposed step-up transformer ( In the second and second of 8). At this time, the high voltage pulse which is boosted and induced momentarily turns on the high voltage lamp. Thereafter, the initially lit lamp continues to be lit through the lamp supply power source 18.

According to the present invention as described above, in the high voltage pulse generating circuit, by providing a double overlapping step-up transformer circuit that can generate a high voltage pulse, such as the pulse voltage of two two-stage step-up high voltage pulse generator circuit with one transformer, There is a simplified advantage in designing the transformer and a relatively low external noise.

Claims (1)

In the superimposed step-up high voltage trigger pulse generation circuit, a first charging means for starting discharging when a current is charged to a predetermined level or more when power is input to the primary winding, and a trigger pulse for inputting current discharged from the first charging means. And switching means for inducing the first and secondary windings and the second and secondary windings to boost the current induced in the primary and secondary windings by the switching means to a predetermined level. And a superimposed boost type high voltage trigger pulse, wherein the boosted current is induced by the second and secondary windings to generate a high voltage pulse when the induced current is boosted above the predetermined level. Generating circuit.