SU877696A1 - Inverter protection device - Google Patents

Description

The invention relates to the protection of inverters,

A device for protecting an inverter with an input choke, comprising a quenching capacitor with its source of ^e- charge, connected to the terminals of the inverter through the quenching thyristors [1].

The disadvantage of this device is the complexity of the circuit.

The closest in technical essence and the achieved result to the proposed one is an inverter protection device connected to a power source through a reactor containing a quenching thyristor and a capacitor 15 connected to the inverter input terminals, a diode and resistor C2].

The disadvantage of this device is the high speed of the capacitor recharging and the short recovery time of the control ability, which reduces the thyristor reliability of the inverter, protection.

The purpose of the invention is to increase reliability. 75

This goal is achieved by the fact that the diode and resistor are connected in series and are connected between the common point of the thyristor and capacitor and the common point of the draw, satellites and power source. thirty

The drawing shows a diagram of the device.

The device contains a capacitor 1 with a source 2 of its charge, through a thyristor 3 connected to an inverter 4. A diode-resistor circuit 5 is connected between the free end of the input choke 6 and the common point of the thyristor 3 and capacitor 1.

The device operates as follows.

In the initial state, the capacitor 1 is charged by the source 2 with the polarity indicated in the drawing. When an emergency current occurs, the thyristor 3 is opened. The reverse voltage of the capacitor 1 is applied to the inverter 4, as a result of which the inverter is turned off. The capacitor 1 is recharged through the inductor 6 and the inverter power source. After the transition of the maximum overcharge current, the voltage of the inductor 6 turns out to be applied to the diode of the circuit 5 in the forward direction, the diode opens and the current of the inductor 6 closes through the chain 5.

The voltage of the capacitor after it is recharged exceeds the voltage of the inverter power source by the magnitude of the voltage drop across the circuit 5, which is enough to turn off the thyristor 3 after the energy stored in the inductor 6. The capacitor 1 is recharged to its initial state from the charge source 2 after the thyristor 3 is turned off .

The device provides an increase in the time provided for restoration of controllability of the inverter thyristors, which increases the reliability of protection.

Claims (2)

This invention relates to the protection of inverters. A device for protecting an inverter with an input choke is known, which contains an extinguishing capacitor with a charging source connected to the inverter through monitors through the extinguishing thyristors 1. The disadvantage of this device is complexity. The closest in technical essence and the achieved result to the proposed is a protection device of an inverter connected to a power source through a choke containing quenching thyristor and a capacitor connected to the input terminals of the inverter, a diode and a resistor C2. The disadvantage of this device is the high rate of recharging of the capacitor and the short recovery time of the controllability of the thyristors of the inverter, which reduces the reliability of the zigocytes. The purpose of the invention is to increase reliability. The goal is achieved by connecting the diode and the resistor in series and connecting between the common point of the thyristor and the capacitor and the target point of the core and the power source. The drawing shows a diagram of the device,. The device contains a capacitor 1 with a source 2 of its charge, through a thyristor 3 connected to the inverter 4. A diode-resistor circuit 5 is connected between the free end of the input throttle b and the common point of the thyristor 3 and capacitor 1, the device works as follows 1 is charged by source 2 with the polarity indicated in the drawing. When an emergency current occurs, the thyristor 3 is opened. Reverse voltage of capacitor 1 is applied to inverter 4, as a result of which the inverter is turned off. Condenser 1 is recharged through choke 6 and the inverter power supply. After passing over the recharge current to the maximum, the voltage of the throttle 6 is applied to the diode of the chain 5 in the forward direction, the diode opens and the current of the throttle 6 is closed through the chain 5. the voltage on the chain 5, which is sufficient to disconnect the thyristor 3 after the energy stored in the choke 6 is reversed. The recharge of the capacitor 1 to its initial state occurs from the source 2 of the recharge and the thyristor 3, V troystvo provides increased time-granted for Formation of controllability of the thyristors of the inverter, which increases the reliability of protection. Claim device Protecting an inverter connected to a power source through a choke containing quenching thyristor and a capacitor connected to the input terminals of the inverter, a diode and a resistor, characterized in that, to increase reliability, the diode and the resistor are connected in series and connected between a common point of thyristor and capacitor; and a common point of droplets and a power source. Sources of information taken into account in the examination 1.Gluh EM and Zelenov V.E. Protection of semiconductor converters. M ,, Energie, 1970, p. 97., Fig. 4-15. 2. Authors certificate of the USSR 678585, cl. H 02 And 7/10, 1978. + P g " irI FU