SU955505A1 - Device for reversive gate converter separate control - Google Patents

Description

The invention relates to electrical engineering and can be used in reversible valve converters with counter-parallel connected non-phase supply bridges and a load with counter-EMF (for example, the supply of thermoelectric batteries).

A control device for switching rectifying bridges of a reverse valve converter is known. It contains two switching channels. Each channel consists of an element connected in series. And, a trigger element and a trigger common to both channels. In this device, the switching signal is logically multiplied with the current-free signal. It then arrives at the corresponding delay element for triggering AND

A disadvantage of the known device is the short time allotted for switching channels, since the delay element after the countdown of a pause takes time to recover the properties. when switching with high frequency, this reduces the reliability of the device. In addition, the device does not provide a delay of the reverse until 11 EMF is lost.

The closest in technical essence is a device containing an output signal switch, whose outputs are intended for connection to converter valve groups, an input through a phase-shifting unit, a signal switch

10 controls and amplifiers - to connect the controller's control signal, a logical switching unit, the outputs of which are connected to the phase shifting unit and the signal switch

15, the input of which is connected to the output of the first matching element, to the first input of which a voltage sensor on the converter valves is connected, the second input is connected via

20, the second matching element and the delay element with the output of the logical switching unit 2.

The disadvantage of it is that it does not provide sufficient reliability of the control of the reverse in the presence of a thermo-emf load.

The purpose of the invention is to increase the reliability of the reverse control.

The goal is achieved

30 in that the device is equipped with a sensor

thermo-emf load, the output of which is associated with the BTopiJM input of the coincidence element.

The drawing shows a functional diagram of the proposed device.

The device consists of the following elements: valve groups 1 and 2 of the converter, switch 3 of the output signals connected to them, phase-shifting unit 4, switch 5 of the control signal connected to it, amplifiers 6 and 7, whose inputs serve to connect the control signal of the regulator logic switch unit 8, the first and second elements 9 and 10, the voltage sensor 11 on the converter valves, the delay element 12, the load cell 13 thermo-emf sensor.

The device. For separate control of the reversible valve converter operates as follows.

Current is conducted by a group of 1 valves. If it is necessary to reverse the current, the signal of the regulator 14 s causes the control pulses to shift towards a decrease in the control signal value of the gates 1.

After the valve groups 1 are completely locked, a voltage appears in all the valves of this group of the converter, exceeding in absolute value the direct voltage drop on the cards of the valve of group 1 of the valves. From the output of the sensor 11 to the element 9, the coincidence signal arrives. Since the signal 16 from the element 10 coincidence is present when there is a signal of 17 s. The output of the coincidence element 9 is the signal 19. This signal 19 is fed to the logical switching unit 8. When the signal 19 is received, the logical switching unit 8 blocks the pulse channel 20 of the valve group 1 by removing the signal 21 of the switch 3 of the pulse channels. Then, the device 8 sends a signal 22 to the delay element, as a result of which the signal circuit 18 is blocked and the But | the reverse values of the logic signals 23 and 24 at the input of the control signal switch 5. Resulting in an amplifier b. working at

the control of the valve group 1 is disconnected from the phase-pulse converters 4, and the amplifier 7 is connected to it. After a predetermined period of time required for switching the amplifiers B and 7, the signal 18 is removed from one of the inputs of the coincidence element 10. When thermo-emf is hit, the signal 17 is removed from the second input of the element 10 coincidence. If there are no signals on the wallpaper inputs of the match element 10, the signal 16 is removed from the input of the match element 9. When this is done, the signal 25 is locked by the pulse channel 26 and the control pulses are applied to the valve group 2. In the load current begins to flow in the opposite direction of the initial.

Claims (2)

Invention Formula A device for separate control of a reversing valve converter, whose load is a thermo-electrolyte, containing output switches {outputs, whose outputs are intended for connecting converter valve groups, input through a phase-shifting unit, a control signal switch and amplifiers - for connecting a regulator control signal, logical switching a unit whose outputs are connected to the output signal switch and the control signal switch, and the input is connected to the output , the first element of coincidence, to the first input of which a voltage sensor is connected to the converter valves, the second input is connected via the second element of coincidence and the delay element to the output of the logic switching unit, which differs from the fact that, in order to reliably control the reverse, it equipped with a thermo EMF load sensor, the output of which is connected to the second input of the coincidence element. Sources of information taken into account in the examination . 1. Barsky V.A. Separate control of reversible thyristor converters. M., Energie, 1973, p. 41 2. USSR author's certificate 289491, cl. H 02 R 13/16, 1971. / V if