SU381143A1 - THREE PHASE INVERTER - Google Patents

Description

one

The invention relates to the field of converter technology and can be used in power supply and electric drive systems of industrial plants and vehicles.

To obtain the shape of the output voltage of three-phase inverters, close to sinusoidal, a method is known in which the main switches of the inverter are open for the entire half-period, and the rest of the half-period the output terminal of the inverter has a potential equal to half the supply voltage point of power source.

The disadvantage of such an inverter is the need to perform a power removal from the midpoint and introduce six additional keys to the circuit.

An inverter, which does not have these disadvantages, is offered to the motor with an output terminal potential equal to half the supply voltage, formed by saturation droplets with removal from the midpoint of the first winding and switching on the second magnetizing winding to the power source via a limiting resistor and a linear choke.

FIG. 1 shows the power circuit diagram of the proposed inverter; in fig. 2 is a key switching diagram and a form of linear voltages; in fig. 3 is an example of the implementation of voltage limiting devices for degaussing the core of the throttle.

Inverter B of the power circuit contains six semiconductor switches / -6 and three saturation throttles 7-9, the cores of which are made of a material with a rectangular shape of a hysteresis loop. The operating windings of chokes 10-12 are connected between the keys of each phase and have a center outlet, which forms the output terminal of the inverter A. C. C. The second magnetizing windings of chokes 13-15 are connected in series and through a linear choke 16 and the limiting resistor 17 are closed to the power supply .

The parameters of the chain 13-17 are chosen so that the bias current flowing in it exceeds the maximum load current, and the choke is in a saturated state and is not

affects the operation of the inverter with one of the public keys connected to the working winding of this throttle.

When, in accordance with the diagram (Fig. 2), both keys will appear open, connected

with the working winding of the throttle (/ -2, 3-4 or 5-6), the core of the throttle is re-magnetized, and the potential of the midpoint of its winding 10-12 becomes equal to half the supply voltage. Drossel parameters are selected so that during simultaneous

open the specified keys, its core is not saturated.

If this time is taken to be 1/12 of the period, then the linear voltage has 4 times reduced fifth and seventh harmonics and has the shape shown in FIG. 2. The resetting of the core of the throttles to the initial state is provided by means of a transformer 7S, the primary winding. Which Wl and iTj are connected to the return diode circuit / V, 20, and the secondary W- through the diode bridge is connected to the power supply.

In order to decrease the size of the throttles during the aforementioned time interval T / 12, the keys are closed and open with a period much shorter than T / 12. In this case, the transformer 18 and diodes 21-24 are absent, and the current flowing through the diodes 19-20 is open through the open keys, maintaining the potential of the midpoint of the winding Wi droplet 7 at half the supply voltage of the inverter. The core of the throttle is re-magnetized at an increased frequency and therefore has small dimensions.

4 P o d m e t o d o t i u

Claims (2)

1. A three-phase inverter containing semiconductor switches connected by a bridge circuit and returnable diodes, characterized in that, in order to improve the output voltage curve, between the keys of each phase, the first coil of the throttle with the saturating core is sequentially switched from the midpoint which forms the output terminal of the inverter, and the second windings of these chokes of all phases are connected in series and through a limiting resistor and a linear choke are connected to the input terminals of the inverter, and one The name clips of the keys of each phase are connected via return diodes. 2. A three-phase inverter according to claim 1, characterized in that the primary windings of the auxiliary transformer are connected in series with the return diodes, the secondary winding of which is connected to the inverter input terminals through a bridge return rectifier. Kk 1 . Fig. / Olg. Uflsk Chir