SU1597867A1 - Thyristor a.c.voltage stabilizer for active-inductive load - Google Patents

Abstract

The invention relates to secondary power sources. The purpose of the invention is to increase the reliability of the device. The goal is achieved by the fact that two diode bridges 19 and 29 with active loads 20 and 30, two comparators 22 and 33, an adder 41 and five resistors 21, 31, 32, and 39.40 are entered into the device. These elements, together with the current transformer 9 and the supply voltage sensor 7, provide a signal equivalent to the output voltage of the device. When a single-wave mode occurs, the device maintains its operability, since the saturation of current transformers 8-10 does not cause the thyristors 1-6 to fail, which is what provides for improving the reliability of the device. 1 hp f-ly, 2 ill.

Description

The invention relates to electrical engineering, in particular, to thyristor AC voltage converters for active-inductive loads, in particular, for electric resistance furnaces.

The aim of the invention is to increase the reliability of the device.

FIG. Figure 1 shows the basic stabilizer circuit; in fig. 2 - diagrams for the direction of research institutes at various points of the device.

The thyristor AC voltage regulator contains six thyristors 1-6, connected in pairs anti-parallel, voltage supply sensor 7, load current sensors 8-10 connected to ammeters 11-13, active-inductive load .14-16, system 17 pulse-phase control, control signal source 18, first diode bridge 19 with a resistive load 20, first resistor 21, first comparator 22, consisting of an operational amplifier 23, resistors 24-27, diode 28, the second diode bridge 29 with an active load of 30, the second and third resistors 31 and 32, the second comparator 33, consisting of an operational amplifier 34, resistors 35-37, a diode 38, a fourth and fifth resistors 39 and 40, an adder 41, containing an operational amplifier-42, resistors 43-46, a diode 47. Between the inverse input and the output of the adder 41 can be connected to the capacitor 48, which will provide an integral control characteristic,

FIG. 2 accept the following 1e notation: 9 - power supply voltage and load current 1 c; 50 - voltage A at the output of the second diode bridge with a resistive load; 51 - voltage B at the output of the first diode bridge with a resistive load; S output From the first comparator; 53 - input D of the second comparator.

The device is as follows.

The network voltage Uc is supplied to the thyristors 1-6 and, through the sensor 7, to the voltage system 17 of the pulse-phase control, which forms and supplies control pulses to the input circuits of the thyristors 1-6. The moment of supply of the indicated pulses and the voltage at the load are varied by means of a control signal source 18 and an additional node containing elements 19-48. This node performs the function of simulating a load voltage from a voltage U, - the network using a signal according to the load current 1 ,.

At point A, a rectified voltage is formed that is proportional to the voltage Uj of the network, and at point B a rectified voltage is proportional to the load current. At point C, there is a negative voltage at the moments of pauses of the load current and a voltage close to zero at the moments of the flow of the load current. At point D, a negative voltage is formed, the average value of which is proportional to the voltage across the load. This formation is carried out by cutting out temporary areas corresponding to the load current flow times from the area under the supply voltage curve. Voltage Id is compared on resistors 39, 40 with the voltage of the control signal source and fed to the inversion input of operational amplifier 42, adder 41, which is connected to the output of system 17 of pulse-phase control in case of voltage variation U of the network or current change The load changes the feedback signal (voltage and.) So as to maintain the output voltage of the converter unchanged by changing the moment of supplying control pulses to thyristors 1-6.

To increase the accuracy of stabilizing the output voltage of a device, an integral control law is needed, which is provided by

installing a capacitor between the inverse input and the output of the operational amplifier 42.

The proposed device maintains its operability even under the single-wave mode of operation. The reliability of the device is ensured by the use of a current transformer, which, even in single-wave mode, does not fail, unlike a voltage transformer used for galvanic isolation in similar devices.

Claims (2)

1. Thyristor AC voltage regulator for active-inductive load, containing opposite-connected thyristors connected in series with current sensors between the terminals for connecting the supply voltage and the terminals for connecting the active-inductive load, pulse-phase control system, synchronization inputs which is connected to the outlets ten 15 20 25 the outputs are connected to control inputs of anti-parallel connected thyristors, a control signal source, characterized in that, in order to increase reliability, it is equipped with two diode bridges with a resistive load, two compressors, an adder and five resistors, one of current sensors through a resistor diode. bridge with resistive load and the first resistor is connected to the input of the first comparator, the output connected via the second resistor to the input of the second comparator connected through the third resistor to the output of the second diode A bridge with a resistive load, the input of a mains voltage sensor connected to the output, an adder input through the fourth and fifth resistors are connected to the output of the second comparator and a control signal source, respectively, and the output is connected to the control input of the pulse-phase control system. ; 2. A stabilizer according to claim 1, distinguished by the fact that it is equipped with a capacitor connected between the supply voltage voltage sensor and JQ with a vertical input and an output of the adder. the outputs are connected to control inputs of anti-parallel connected thyristors, a control signal source, characterized in that, in order to increase reliability, it is equipped with two diode bridges with a resistive load, two comparators, an adder and five resistors, one of the current sensors through , a resistive diode bridge with a resistive load and the first resistor is connected to the input of the first comparator, the output connected via the second resistor to the input of the second comparator connected through the third resistor to the output of the second diode th bridge with a resistive load, the input connected to the output of the sensor voltage supply circuit, the adder input through the fourth and fifth resistors connected to the output of the second comparator and a control signal source respectively, and an output coupled to the control input of the pulse-phase control system. ; 2. A stabilizer according to Claim 1, characterized in that it is provided with a capacitor connected between the FIG.