CS220158B1 - Circuit wiring to indicate faults on power semiconductor device - Google Patents

Abstract

The circuit connection according to the invention is intended for indicating faults on a power semiconductor component, especially at the high voltage potential, and can also be used for diagnostic and protection purposes. The circuit is powered from a DC source, which is at the power semiconductor component potential and which serves primarily to power the control circuits and to generate control signals of the power semiconductor component. The circuit indicates the existence of control pulses higher than the minimum amplitude and the existence of a reverse voltage on the power semiconductor component. The essence of the invention is the sensing of the current of the control electrode of the power semiconductor component and the sensing of the reverse voltage of this component. Both information are suitably processed and transmitted together by an electro-optical converter to the receiver. The circuit connection according to the invention is also suitable for use for diagnostic and protection purposes, especially for high-voltage applications of power semiconductor converters.

Description

The circuit according to the invention is intended to indicate faults on a power semiconductor component, in particular the MV potential, and can also be used for diagnostic and protective purposes. The circuit is powered from a DC power supply that is at the potential of the power semiconductor component and which is primarily used to supply control circuits and generate control signals of the power semiconductor component. The circuit indicates the existence of control pulses higher than the minimum amplitude and the existence of a reverse voltage on the power semiconductor component. The invention is based on sensing the current of the control electrode of the power semiconductor component and sensing the reverse voltage of the component. Both information are conveniently processed and transmitted together by an electro-optical converter to the receiver. The circuit according to the invention is also suitable for use in diagnostic and circuit-breaker applications, in particular for high-voltage applications of power semiconductor converters.

BACKGROUND OF THE INVENTION 1. Field of the Invention The invention relates to circuitry for fault indication on a power semiconductor component. The invention relates to the field of power electronics.

The known prior art solves this problem either by indicating the existence of a control pulse of the power semiconductor component, the disadvantage being that the failure of the power semiconductor component to function with control pulses is not indicated or the existence of voltage on the power semiconductor component is disadvantageous. power semiconductor devices.

The above drawbacks eliminate circuit wiring to indicate faults on the power semiconductor component, powered from a DC power supply to the potential of the power semiconductor component and serving simultaneously to power the control circuits and to generate control pulses of the power semiconductor component. It is based on the fact that a negative DC terminal is connected to the first end of the fourth resistor, to the first end of the sixth resistor, to the emitter of the fourth transistor, to the emitter of the third transistor, and to the cathode of the electroluminescent diode. The positive terminal of the DC power supply is connected to the emitter of the fifth transistor whose collector is connected to the other end of the collector resistor, the first end of which is connected to the anode of the electroluminescent diode, the base of the fifth transistor is connected to the first end of the eighth resistor. it is connected both to the collector of the third transistor and to the collector of the fourth transistor, the base of which is connected to the second end of the sixth resistor and to the first end of the seventh resistor connected to the fifth terminal of the DC source.

The base of the third transistor is coupled to the first end of the fifth resistor, the second end of which is connected to the second end of the fourth resistor to the ninth terminal, to close the control pulse current of the power semiconductor component.

The basic advantage of the circuitry according to the invention is that the existence of control pulses of sufficient amplitude and the existence of a reverse voltage on the power semiconductor component are indicated. The power supply of the circuits uses a DC power supply on the potential of the diagnosed semiconductor power component, which is primarily used to supply the control circuits of the power semiconductor component and to generate control pulses. Common information about the control pulse and the power semiconductor component is transmitted to the receiver by an electro-optical converter.

The circuit according to the invention is explained in more detail below by way of example with reference to the accompanying drawing, in which a complete circuit diagram for indicating faults on a power semiconductor component is shown. The electro-optic transducer is represented by a luminescent diode V10, and a Zener diode is used as the second diode V2 and the third diode V3 in the DC source A, which consists of diodes V1, V2, V3 V4. A fourth resistor R4 is connected between the negative terminal 4 of the DC power supply A and the ninth terminal 9, from which a signal proportional to the control pulse current is sensed. A fifth resistor R5 is connected between the ninth terminal 9 and the base of the third transistor V7.

A sixth resistor R6 is connected between the negative terminal 4 of the AC source A and the base of the fourth transistor V8. A seventh resistor R7 is connected between the base of the fourth transistor V8 and the fifth terminal 5 of the DC power supply A. The emitter of the third transistor V7 and the emitter of the fourth transistor V8 together with the cathode of the electroluminescent diode V10 are connected to the negative terminal 4 of the DC source A. The collector of the third transistor V7 and the collector of the fourth transistor V8 are connected to the eighth resistor R8. The emitter of the fifth transistor V9 is connected to the positive terminal 3 of the DC power supply A. A collector resistor R9 is connected between the collector of the fifth transistor V9 and the anode of the electroluminescent diode V10.

The DC power supply A, which consists of diodes VI to V4, supplies the control circuits of semiconductor component V from transistors V5, V6 and resistor R2 and operates at the potential of semiconductor component V. To indicate control pulses higher than minimum amplitudes, a proportional current signal control pulse. Furthermore, a signal is applied via a third transistor V7 and a fifth transistor V5 to an electroluminescent diode V10, which acts as an electro-optic transducer, by which the control pulse information is transmitted. The inverter also transmits the reverse voltage information on the semiconductor device through the resistor divider RB, R7 and the fourth transistor V8.

The electrical circuit according to the invention can also be used for diagnostic and circuit breaker purposes.

Claims (1)

Subject Circuit wiring to indicate faults on a power semiconductor component powered from a DC power supply to the power semiconductor component potential and simultaneously supplying control circuits and generating control pulses of the power semiconductor component, characterized in that the negative terminal (4) of the DC power supply (A) ) is connected to the first end of the fourth resistor (R4), to the first end of the sixth resistor (R6J), to the emitter of the fourth transistor (V8j) and to the emitter of the third transistor (V7) and to the cathode of the electroluminescent diode. the positive terminal (3) of the DC power supply (A) is connected to the emitter of the fifth transistor (V9) whose collector is connected to the other end of the collector resistor (R9J, whose first end is connected to the anode of the electroluminescent diode (V10)) (V9j is connected to the first end of the eighth resistor (R8), the other end of which is connected to the tenth terminal (10), connected both to the collector of the third transistor (V7) and to the collector of the fourth transistor (V8), the base of which is connected to the other end of the sixth resistor (R6) a resistor (R7) connected by a second end to a fifth terminal (5) of a DC power supply (A), wherein the base of the third transistor (V7j is connected to the first end of a fifth resistor (R5)) a terminal (9) for closing the control pulse current of the power semiconductor component.