SU573843A1 - Thyristor regulator of multiphase voltage - Google Patents

Description

The invention relates to electrical engineering, in particular, to converter equipment, and can be used to regulate the supply voltage in radio engineering and electronic engineering installations for various purposes, for example, in powerful stabilizers.

The known multiphase controller knobs contain a group of input controlled gates (thyristors), a output output and a stabilizing system in which phase shifters connect the input switching phase (each Phase 1).

The circuit is built on the phase shift of the signal to turn on the thyristors, and each phase. Since the number of phao-shifting devices is equal to the number of phases, and these devices cannot be exactly the same and have a certain variation, in the process of regulation the turn-on angle of the thyristors will not be the same for all phases, i.e. the output voltages in the phases will be different, and therefore, in each phase, asi | 1 «1 of three output voltages will be observed separately. If you adjust the output voltage, the switching angle of the thyristors may blink in each half-period, which changes the asymmetry of the output voltage is proportional to the rate of change of the output voltage.

According to this scheme, all phase-shifting devices must have trimmers, the number of which is often greater than or equal to the number of phases. Therefore, the mantlet of such a system is very complex and requires the development of special tuning methods and highly skilled tuner.

The purpose of the invention is to increase the reliability and eliminate the asymmetry of the output voltage.

To do this, a multiphase voltage regulator, including a group of thyristors, a control pulse shaping unit with separate synchronizing inputs for the positive and negative half cycles of the supply voltage of each phase, and a phase shifter, are introduced with basic and additional delay elements, the phase shifter and the main

the delay elements are connected in series, the common inputs of which and the output of the last element are connected respectively to the first inputs of the control pulse shaping unit directly and the second through each additional delay elements.

The drawing is a structural, schematic of the proposed stall-phase voltage regulator.

This voltage regulator has a group of thyristors 1, a block 2 of the control pulse spacing, a phase shifter 3, the main 4 and 5, and an additional 6.1 kV delay lines.

The input signal from the first phase is applied to the input of the phase shifter 3 (only one half cycle is used). From the output of the phase shifter, a half-wave signal is fed to the control shaping unit in their pulses. The phase shift of the current signal is determined by the value of the reference signal supplied to the other input of the phase shifter.

The control signal for the second half-period of the voltage is obtained: ay by the quadruple shift method by the magnitude of the signal of the first half-period from the output of the phase-guiding signal using an additional delay line 5 (T is the period of the network voltage).

The control signal for the positive half-cycle of the subsequent phases is formed by the successive time shift of the signal from the output of the phase shifter — main delay lines 4 and 5 by the magnitude Tp of the mains voltage period (1 is the number of phases), and for the negative half-period, with additional delay lines 7 and 8.

This cut, adjusting the angle of conduction of the thyristors (the investigator

but the output voltage is carried out by a single phase shifter. The circuit produces a control pulse for each phase and each half-period with a certain time-1 shift relative to the control pulse in the positive half-period of the first phase.

Sequential tight temporal binding of control pulses to one

equal angles of conductance of all thyristors are ensured, and, consequently, the difference in output voltages across the phases n is almost eliminated by ingf5 three times the voltage in each phase. As a result, the scope of application of the controller is expanded, the setup is simplified.

Claims (1)

1. Patent SHE number 3390321, cl. 321-5, -