SU1241385A1 - Transistor inverter - Google Patents

Abstract

The invention relates to electrical engineering and can be used to convert direct current into alternating current. The purpose of the invention is to simplify the device. The transistor inverter contains the upper group of transistors (T) 1,3,5 and the lower group of transistors 2,4,6. Throttle (DR) 13 limits the rate of rise and switching current surge Gu 27

Description

one

when turning on one of T 1,3,5, controlled by the 20-degree switching law. Dr. 14 has a similar purpose when turning on one of T 2,4,6. A chain of diode (D) 15 and a resistor P 16 shunts O r 13 and serves to discharge its energy in the power pause, the chain of D 17 and P 18 has a similar purpose

241385

 with respect to dr 14. inclusion

, DR 13 in the serial power supply circuit of the bridge, and DR 14 - sequentially in the negative power supply circuit of the bridge and the connection of capacitors (K) 19, 21, 23 to the resistor 16, aK 20.22, 24k P18 allows the set to simplify the inverter circuit while reducing the minimum power switching losses in transistors. 1 il.

The invention relates to electrical engineering and can be used in power supply and electric drive systems for converting direct current into alternating current.

The purpose of the invention is to simplify the device.

The drawing shows a schematic diagram of a three-phase inverter.

Three pairs of transistors 1-6 are shunted by return diodes 7-12 and form a three-phase bridge. The inductor 13 limits the rate of rise and switching current surge when one of the transistors 1, 3 and 5 is turned on, controlled, for example, by a 120-degree switching law. The choke 14 has a similar purpose when one of the transistors 2, 4 and 6 is turned on, the chain from diode 15 and resistor 16 shunts the choke and serves to discharge the energy of the chokes 13 in the power supply pause, the chain from diode 17 and resistor 18 has the same purpose with respect to the choke 14. The inverter also contains capacitors I9-24.

The circuits formed by resistor 16 and capacitors 19, 21, and 22 limit the rate of rise and commutation voltage surge when transistors 1, 3 and 5 are disconnected, and resistor 18 and capacitors 20, 22 and 24 have the same function when disconnecting transistors 2, 4 and 6. Elements 25-27 of a three-phase load are connected to the output pins of the inverter, which is supplied from source 28 via an STANDARD.

The inverter operates as follows.

When transistors I and 4 are turned on, the current increases in the circuit 28-13-1-25- 26-4-14-28. At the same time, capacitors 19 and 22 are discharged in circuits 19-16-13-1-19 and 22-4-14-18-22, in which the switching current surge is limited to throttles 13 and 14. Pulse width control the current and the voltage of the load are effected, for example, by switching-ifliH transistors 2, 4 and 6.

When transistor 4 is disconnected, the load current flows in circuit 1-25-26-9-1, and capacitor 22 is charged in circuit 28-13-9-22-17-14-28 and limits the rate of increase of the voltage on the locked transistor 4. The inductive energy discharge of chokes occurs in circuits 13-15-16-1 and 14-18-17-14. When transistor 4 is turned on again, capacitor 22 is discharged in circuit 22-4-14-18-22. Under the action of the voltage of the power supply source 28, the diode 9 is closed and the current in the circuit 28-13-1-25-26-4-14-28 rises again.

When current is switched from one of the upper 1,3,5 or lower 2,4,6 groups to another transistors in accordance with the 120-degree law of switching between disconnecting the previous transistor and turning on the next, a minimum pause is created for the current to drop into throttles 13 and 14.

Thus, the circuit of the proposed inverter is significantly simplified, as a result of minimizing the switching power in its transistors.

5 1241385.

Claims (1)

The claim of the invention is that, for the sake of simplicity, the first choke is connected to a post-transistor inverter, containing a positive bridge of N pairs of transistors, each bridge, and the second choke is a series of which is shunted back to negative one. a bridge power supply circuit, a diode, N pairs of capacitors, each second terminals of the first pair capacitors of which are connected by the first pin of each pair to the point connected to the corresponding output of the resistor and diode of the inverter, and two dross l, each chain, shunting the first one of which is shunt by a tO choke, and the second pins of the second end are from series-connected resistors, the capacitors of each pair are connected to a torus and a diode connected oppositely connecting the resistor and diode in the direction of conductivity of the corresponding chain shunt the second throttling transistors, distinguish-sel.