SU1173510A1 - Transistor inverter - Google Patents

Abstract

A transistor inverter containing n phases, each of which is a first choke, a first transistor, a second transistor, and a second choke, each of the transistors shunted by a recuperating diode, each of the chokes is shunted by a chain of successively connected chokes a diode and a resistor, and the first electrodes of the first and second capacitors are connected to the connection point of the transistors, characterized in that, in order to increase the efficiency by decreasing the iCal losses between the second electrodes of the first and second capacitors vklyui chen third capacitor, through which (L are also connected to the midpoints of said chains of the decoupling diodes and resistors. CiO ate

Description

The invention relates to a conversion technique and can be used in secondary power sources.

The goal of the invention is to increase efficiency by reducing dynamic losses.

The drawing shows a single phase transistor inverter.

The phase consists of the first drossel 1 in series, the first transistor 2, the second transistor 3 and the second drossel 4. Each of the transistors 1 and 2 is shunted by a corresponding recuperating diode 5 and 6. Each of the chokes 1 and 4 is shunted by a corresponding chain of series-connected and diodes 7 and 8 and resistors 9 and 10. The first electrodes of the first and second capacitors 11 and -12 are connected to the junction point of the transistors. The third capacitor 13 is connected between the second electrodes of the capacitors 11 and 12, as well as between the average points of the chains 7-9 and 8-10. A load 14 is connected to the output of the phase, and a power supply wrench 15 ,, is connected to the input terminals.

The inverter works as follows.

By applying control signals to the base transitions, transistors 2 and 3 are alternately unlocked and locked, thus ensuring the transfer of energy from the power source 15

to the load 14. The limitation of the currents at the moments of switching is provided by inductors of chokes 1 and 4, and the limiting of the rate of increase and the magnitude of the collector-bursts on transistors 2 and 3 are provided by capacitors 11-13.

Let the transistor 2 be locked at the initial moment. At the same time, capacitors 9 and 10 are charged up to the voltage of the power source 15. After changing the polarities of the control voltages at the base transitions, the transistor 2 turns on and through it the current source 15 increases from the power source 15, the rate of change of which limits the inductance of the throttle 1 discharge of capacitor 11 along the circuit: 11-9-1-2-11 and charge of capacitors 12 and 13 along the circuits: 15-1-2-11-13-10-15 and 15-1-2-12-10 -15i The power dissipation current of the droplets 4 closes in the circuit: 4-10-8-4. As a result of these processes, a gradually increasing collector current flows through the unlocking transistor 2, and at the collector junction surge of surge voltage is damped due to overcharging of capacitors 1-13. This provides a reduction in dynamic losses in the circuit and a corresponding increase in efficiency. Diodes 5 and 6 serve to eliminate the inverse mode of operation of transistors 2 and 3.

Claims (1)

A transistor inverter containing η phases, each of which is a first inductor, a first transistor, a second transistor and a second inductor connected in series with respect to the input terminals, each of the transistors is shunted by a recovery diode, each of the chokes is shunted by a chain of decoupling diode and resistor connected in series , and the first electrodes of the first and second co-capacitors are connected to the transistor connection point, characterized in that, in order to increase the efficiency by reducing dynamically loss between the second electrodes of the first and second capacitors included _about chen third capacitor through which © also connected to midpoints of said chains of the decoupling diodes and resistors. SU .1173510 11735