SU412660A1 - - Google Patents

Description

one

The known circuits of triphasic regulated current inverters have thyristor-throttle controllers for each phase, which greatly complicates the control device.

The purpose of the invention is to simplify the known schemes.

This is achieved by those. that the common points of the switching capacitors and regulating thyristors are connected through a choke.

The drawing shows the scheme of the proposed inverter. Oia contains main thyristors 1-6, thyristors 7- / 2 regulators, commuting capacitors TZ- / 5, filter choke 16, choke / 7 regulators.

The scheme works as follows. In the steady state mode, the thyristors 7-6 operate in the appropriate sequence numbering for 120 e. hail, with a phase shift of 60 e. hail. Their artificial switching is carried out with the help of switching capacitors, providing a leading power factor to create the thyristor locking angle.

Let the inverter thyristors 1 and 2 finish at time t 0. The voltage across the switching capacitors 13–15 is as indicated in the drawing. When the next next thyristor 3 is turned on, the input current switches to this thyristor.

The thyristor 3 connected in series, the capacitors 14 and 13 and the thyristor / form a switching circuit, the current of which flows in the direction back; 1 of the conductor of the trisrist 1, which turns on i is applied to it the opposite voltage.

In the process of alternate and analogous switching of all thyristors / -6 with intervals of 60 el. hail, there is a process of recharging and switching kondisatorov 13-15 and at the output of the inverter. a three-phase voltage is generated with a frequency corresponding to the full thyristor switching cycle / -6.

The value of the output three-phase voltage is determined by the load and the reactive power of the switching capacitors, therefore stabilization and control of the output voltage of the three-phase parallel inverter when changing the load {consists in controlling the total reactive power of the switching capacitors 13-15 thyristor-throttle 7-12 and 17 the controller due to the variable component of the inductive nature created by the controller.

Thyristors of the regulator 7-12 work also in the corresponding sequence numbering, including each through 60 e-mails. hail. The duration of current flow through them, and hence the value of the INDUCTIVE component, of the inverter reactive energy is determined by the magnitude of the phase shift of switching on the thyristors relative to the maximum voltage across them, i.e. the maximum phase voltage of the inverter.

This thyristor turn-on angle is regulated in the B range of the B-N90 el. hail, and the maximum duration of current flow in the thyristors of the regulator is within the limits of el. hail. The total maximum duration of thyristors does not exceed 360 e. hail. The current of each thyristor flows through the same throttle of regulator J7.

Thus, when, for example, the thyristor 7 of the regulator is turned on, the inductor component of the current flows through the inductor / 7 and the switching capacitor 13 of the corresponding phase of the inverter, compensating the corresponding part of the capacitive current of this capacitor, which is equivalent to reducing the values of the switching capacitor.

Therefore, by adjusting the switching on angle of the thyristors of the regulator, it is possible to regulate or stabilize the output voltage of the inverter.

Due to the limitation of the operating time of the thyristors of the controller within 60 el. hail, the proposed scheme can significantly simplify the inverter. In it, the regulator and the commutator co-sensors are made as a common node so that each phase of the inverter is connected in parallel by a chain consisting of a series-connected corresponding pair of anti-parallel thyristors, a switching capacitor and one common throttle 17 connected between them.

Moreover, commuting co-sensors

13-15 and counter-parallel thyristors

7 -i-12, for throttles, play the role of phase-separation devices, providing

connecting one throttle alternately to

different phases of the inverter. The smaller range of adjustment of the angle of the thyristor of the regulator (60-90 e. Hail) leads to a decrease in the typical power of the chokes in relation to the required reactive power by 3-4

times and is an effective means of reducing the installed power chokes. A further decrease in the dimensions of the chokes also occurs due to an increase of three times the operating frequency of the current of the chokes.

Subject invention

A three-phase adjustable current inverter containing a bridge of main thyristors, switching capacitors and counter-connected pairs of regulating thyristors connected by some plates and clips to the output terminals of the inverter, and the second plates of capacitors and clips of regulating thyristors are connected in star, in order to simplify The common points of the switching capacitors and control thyristors are connected via a choke.