SU1292107A1 - Device for switching two m-phase a.c.sources - Google Patents

Abstract

The invention relates to the field of electrical engineering and can be used in non-contact automatic switches installed in power supply systems of responsible AC consumers for switching consumers from one to another non-synchronized sources. The goal is to increase the reliability of the work of the battery by eliminating the distortion of the form of the supply voltage when switching unsynchronized sources. The consumer is powered from the main source via a thyristor switch and a current sensor. Additional control of the phases of the instantaneous values of the main and backup sources and the voltage control of the main source are introduced. When a signal appears to switch over the zero value of the consumer current or voltage from the Primary source, the phase of the instantaneous value of the primary source voltage is remembered, which is compared with the instantaneous phase of the backup source voltage and if these values are equal and if there are current consumers the coincidence of the field p-, the voltage supply voltage of the backup source of the consumer allow- ing. KIT pulse control to the thyristors of the switch of the backup source i 2 or 2 s. F. with in (L

Description

112

The invention relates to electrical engineering and can be used in non-contact automatic switches installed in systems of guaranteed power supply NINs responsible consumers of alternating current for switching consumers from one to another non-synchronized sources.

The purpose of the invention is to increase the reliability of the consumer by eliminating the distortion of the form of the supply voltage when switching asynchronous sources,

Figures 1 and 2 illustrate single phase diagrams of a contactless switching device, in which the current is monitored by a current sensor and a thyristor state control unit of the main source switch, respectively.

The device (Fig. 1) consists of the main 1 and the backup 2 sources controlled by the thyristor terminals 3 and 4 of the main and backup sources of the control unit 5, the driver 6 of the polarity signal of the backup source 2 and the consumer current, form. l 7 signal at the consumer current zero, the driver 8 of the control pulses of the backup source 2, the driver of the 9 control pulses of the main source 1, the consumer 10,

current sensor 11, delay unit 12, adder 13, coincidence unit 14, comparison unit 15, trigger 16, voltage zero sensor 17, instantaneous voltage value phase control unit 18, backup source, instantaneous value phase control unit 19 the main source 1, the main 1 and the reserve 2 sources are connected through switch 3 and 4 of the main and backup sources and connected through the current sensor 11 to the consumer 10, the inputs of the driver 6 are connected to the backup source 2 and the current sensor 1 1, a. the output is to the first input of the adder 13, the input of the imaging unit 7 is connected to the sensor I1, and the output to the second input of the adder 13 and to the first input of the block 19., the input of the delay unit 12 is connected to the output of the adder 13, and the output - k to the first input of the coincidence unit 14, the shaper 8 inputs are connected to

72

the backup source 2 and the output of the trigger 6, and the outputs to the control inputs of the thyristors of the switch 4, the inputs of the former 9 are connected to the main source I and to the first output of the control unit 5, and the outputs to the control inputs of the thyristors of the switch 3, the second input of the unit 14 matches are connected to the comparison unit 15, and the output is connected to the first input of the trigger 16, the second output of the control unit 5 is connected to the second input of the trigger 16 and the second input of the block 19, the third and fourth inputs of which are connected respectively to the main source 1 and the sensor output ika 17 whose input is connected

to the main source I, and the output to the first input of the comparison unit 15, the input of the sensor 18 is connected to the backup source 2, and the output to the second input of the comparison unit 15.

In the block diagram (Fig. 2), instead of the current sensor, the thyristor state control unit 20 of the main source switch, the input of which is connected to the switch 3, is applied, and the output is connected to the driver 6 and 7.

In the initial state, the power supply of the consumer 10 from the main source 1 is provided via the thyristor switch 3 and the current sensor 11. The thyristors of the switch 3 are supplied with control pulses from the driver 9. With the arrival of the switching signal in block 5, it issues a command to the driver 9, trigger 16 and block 19, which prohibits the passage of control pulses to the thyristors of the switch 3, is allowed to trigger the trigger 16 and the signals from the driver 7 and sensor 17 to the memory input

block 19. The signals generated by shaper 6 and 7 are summed with the gmmator 13 and fed to block 12, where coincidence is delayed and fed further to block 14, the output signals of blocks 18 and 19 are compared in block 15 and if they are equal, block 15 generates an enable signal, which enters the coincidence unit 14 and allows the passage of the signal from unit 12 to the trigger input 16. The trigger 16 changes its state and enables the control pulses to pass

3,

thyristor control inputs of switch 4 from the driver 8.

In the block diagram of FIG. 2 of one phase of the device, the current is monitored by the thyristor control unit 20 of the main source switch. The conductivity and non-conductivity signals of the thyristors generated by block 20 are used to generate the corresponding signals by driver 6 and 7.

The formers 8 and 9 form control pulses with a duration of 180 al. Grades, respectively, from the voltage of the backup and main sources, and provide pulses to the thyristor, which is currently positive voltage at the anode. Sensor 17 and driver 7 generate signals, respectively, when the voltage of the main source and the current of the consumer reaches zero. Block 19 controls the instantaneous phase of the main source. In order to avoid non-shaping of the signal at the output of block 15 when the main source crashes, the signal at the output of block 19 is limited by the maximum possible signal at the output of block 18. Block 12 delays the input signal, the duration of which is determined by the phase shift between the output voltage of the current sensor and current measured by it, as well as the recovery time of the thyristor locking properties in the main source circuit.

At currents close to the idle speed of the device, the signal at the output of the sensor 1 1 is so small that it is not felt by the controlling organs of the formers 6 and 7. As a result, there is always a signal at the output of the shaper 7. When switching non-synchronous sources, this leads to the presence of two half-waves of the same polarity in the output voltage. To increase the reliability of the device in the entire range of the consumer current, instead of the current sensor, it is necessary to use the thyristor state control unit of the main source switch, which signals the state of the thyristors regardless of the current flowing through them.

The proposed device can be used to switch power.

92107 4

consumer from backup source

on the main one, by supplementing the device circuit with a shaper of the coincidence of the polarities of the main source and consumer current, an adder, a delay unit and a phase control unit of the instantaneous value of the primary source voltage, a phase control and memory unit .- to the instantaneous value of the backup voltage , source, comparison unit and trigger. When using, instead of a current sensor, the thyristor state control unit of the main source switch t5, it is necessary to additionally enter the thyristor state control unit of the reserve source switch and the signal conditioner at zero of the backup source current.

Claims (2)

Invention Formula 25 1. A device for switching 171-phase alternating current sources containing thyristor switches of the main and backup sources (the outputs of which are combined through the current sensor are connected to the consumer and the inputs are connected respectively to the main and backup source) the coincidence signal of the phase voltage of the backup source and the consumer current of the same phase, the inputs of which are connected to the backup source and the current sensor, and the output to one of the inputs zero ty, the current of the consumer, whose input is connected to the current sensor, and the output to the second input of the adder, the delay unit whose input is connected to  the adder, the driver of control pulses of the backup source, the input of which is connected to the backup source, and the output - to the control inputs of the thyristors of the switch - a backup source, the driver of control pulses of the main source, one of the inputs of which is connected to the main source, and the outputs to the control inputs of tiris35 55  tori of the main source switch, the control unit, the output of which is connected to the second input of the control pulse generator of the main source, the coincidence unit. five characterized in that, in order to increase the reliability of the consumer by eliminating distortion of the form of the supply voltage when switching nonsynchronous sources, a comparison unit is added to it, a sensor monitoring the phase of the instantaneous value of the backup supply source, a sensor of voltage the min phase of the instantaneous value of the voltage of the main source, a trigger, the output of the comparison unit is connected to the coincidence unit, the sensor input of the control phase of the instantaneous value of the voltage reserve source is connected to the backup source and the output. - to the comparison unit, the input of the zero-voltage sensor is connected to the main source, the inputs of the control sensor and the memory 10 921076 Neither the phase of the instantaneous value of the voltage of the main source is connected to the main source, to the signal conditioner at zero -Lok, to the control unit and to the voltage zero sensor, and the output to the comparison unit, the trigger inputs are connected to the coincidence unit and to the control unit, and the output is to the driver of control pulses of the backup source, and the output of the delay unit is connected. to match block. 2. The device according to claim 1, characterized in that, in order to increase the reliability of the device in the entire consumer current range, the current sensor is made as a thyristor state monitoring unit of the main source switch, the input of which is connected to the main source switch. 20