SU427439A1 - DEVICE FOR PROTECTION OF THE INVERTER - Google Patents

Description

one

The invention relates to industrial electronics and can be applied in the field of engineering using frequencies. Conversion devices based on ion or thyristor inverters, made according to bridge circuits.

Known devices for protection of an inverter, made by bridge circuit on controlled valves and operating in discontinuous current mode, against short circuits during the overturning, contain current sensors in the form of shunts included in the anode circuit of the bridge circuit valves and the actuator in the form of a high-speed switch , nanrnmer, on the thyristor, are performed either by current or by voltage. In the first case, the protection is triggered when the input current of the inverter exceeds the specified value. In the second case, the protection is activated when the voltage on the load terminals disappears.

Both types of protection have drawbacks: the current protection does not have a fast response, since the rate of increase of the input current of the inverter is limited by the input reactor, the voltage protection is almost not always feasible, because at the time of turning on the inverter there is no voltage at the load terminals.

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In the proposed device, these drawbacks are eliminated due to the fact that the device has a tilt indicator, made as a matching element on two transistors, the collector penins of which are connected simultaneously and connected to an auxiliary source of constant voltage, and the basic circuits are connected via isolation transformers with shunts.

The drawing shows one of the possible schemes of the proposed device.

Block L - protected inverter. The circuit shows a single phase thyristor inverter; however, it can be multiphase and can be performed on controlled ion fans.

B- / C blocks are a safety device. Block B is an indicator of the inverter tipping. It consists of transistors G -, - G, whose collector circuits are connected in series and in parallel and powered from an auxiliary source of constant voltage aux. Two transistors are connected in parallel to the parallel branch. The number of parallel transistor branches is equal to the number of parallel branches of the power valves in the protected inverter.

Basic transistors are powered through Tpi-Tr isolation transformers with

schItami - iiiji included in the anode circuit of the power valves of the inverter. From the shunt u, the voltage is applied to the base of the transistor TI, from the shunt to the base of the transistor Ga, etc. The phase of the secondary voltage of the Tpi-G / 74 transformers is selected so that in the presence of current in the shunt the corresponding transistor is opened.

Consistently with transistor branches, the resistance RK, shunted by capacitor Sk, is turned on, which prevents false operation of the protection under the action of high-frequency pickups. To the resistance terminals RK, the control electrode circuit of the thyristor BI of the high-speed switch is connected. In principle, this switch can be made according to various schemes.

In the drawing, it is shown consisting of thyristors BI, 82 and capacitor C, which is powered by an auxiliary constant voltage source Uacn.

Thyristor 82 is included in the inverter input current circuit and is normally open. Thyristor 5i during normal operation of the inverter is closed.

Suppose that thyristors B and B2 are conductive in the considered time interval. The transistors T and Gz are open in this time interval, and the transistors TI and T are closed and therefore there is practically no current in the control electrode circuit of the thyristor BI, and therefore the thyristor Sj is locked and the thyristor B is open. Since the inverter operates in the discontinuous current mode, at the moment of supplying the control pulse to the thyristors 6.5, 5b, the current does not pass through the thyristors B, B. In the conduction interval, the thyristors BS, 5b, the transistors Ha, T are open, and the transistors TI, T are locked. Thus, in this case, the thyristor Si is closed, and the thyristor Sa is open.

If the inverter overturns and begins to conduct simultaneously, for example, thyristors BZ and BS, then transistors G and T turn out to be open. In this case, a current appears in the circuit of the control electrode of the thyristor B, it will open and co-detector C, discharging to thyristors B , B, suppresses the thyristor BZ, thereby breaking the input current circuit of the inverter.

The advantage of the proposed protection device in comparison with the existing ones lies in its speed and simplicity, since in order to operate it is enough to prevent the valve working order from being disturbed. Besides

In addition, this device can serve as an indicator of the inverter's transition to the continuous current mode, since in this case time intervals appear in which both valves of the successive circuit are simultaneously flowing, which causes the device to trip.

Subject invention

A device for protecting an inverter made in a bridge circuit on controlled valves and operating in discontinuous current mode against short circuits during tipping, containing current sensors in the form of shunts included in one of the bridge circuit valves, and the actuator in the form of high-speed A switch, for example, on a thyristor, characterized in that, in order to simplify the circuit and increase reliability, the device is equipped with a tilt indicator made as a coincidence element on two transistors, the collector s circuits which are connected in series and connected to the auxiliary source

constant voltage, and the base circuits are connected via separation transformers with shunts.