SU1529385A1 - Transistor inverter - Google Patents

Abstract

The invention relates to converter equipment and can be used in the construction of secondary power supply sources. The purpose of the invention is to increase the load capacity of the inverter. The transistor inverter contains at least one rack of power transistors 1 series-connected in power, shunted in a conducting direction by chains of series-connected thyristors 2 and capacitor 3. A current-stabilizing unit 7 is connected to the discharge circuit of the capacitor. Introduction of a current-stabilizing unit 7 formed by a stabilizing transistor 8 , the control transistor 9 and the additional resistor 10, provides the discharge of the capacitor 3, and consequently, the "pumping" of the charge into the discharge thyristor 5 post direct current, which allows to increase the maximum value of the load current. 1 il.

Description

WITH

00 ate

The invention relates to a conversion technique and can be used in the construction of sources of E toric power.

The purpose of the invention is to increase the load capacity of the inverter. I The drawing is a diagram of tran. the inverter.

The device contains at least one rack in series of power supply power transistors 1, shunted in the conductive direction by chains of serially connected first thyristor fa 2 and capacitor 3, to the common point of which the anodes are switched off and discharge 5 thyristors, and the cathode of the thyristor 5 is connected to the cathode of diode 6, shunted by a yastabilizing node 7, made on a stabilizing transistor 8 /: whose mitter is connected to the base of the control transistor 9 connected the emitter to the anode of diode 6 and the other to the output of resistor 10, and the collector to the base of the stabilizing transistor 8, the base-emitter junction of which is shunted by an additional resistor 11, and the common connection point of the anode of the diode 6 with the resistor

The emitter of the control transistor 9 is connected to the collector of a 1 SOUGH transistor 1, shunted 19 in the opposite direction by a return diode 12.

The device operates as follows.

In the circuit, such an algorithm is provided for the operation of each power key, in which X first turns on thyristor 2. In this case, a chain consisting of {thyristor 2 and capacitor 3 is consistent, takes on all the load current and starts charge of capacitor 3. Through the time determined by the delay node up; . || any part, opens the power transistor 1 and removes the control signal from the control electrode of the interferor 2. In this case, the load current is not in the collector circuit of the power-to-transistor 1, and the reverse polarity is applied to the thyristor 2 to which the charge dils (capacitor 3, and thyristor 2 are locked.

: Before shutting down the power transistor of resistor 1, a control signal is given

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five

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to the control electrode of the discharge thyristor 5. At the same time, the capacitor 3 is discharged along the circuit: discharge thyristor 5, stabilizing transistor 8, power transistor 1, which ensures the accumulation of the main carriers of the discharge thyristor 5 and the absence of energy accumulation in the capacitor 3. By the time the end of the discharge, the capacitor 3 sends a control signal to the control electrode of the thyristor k and removes the control signals from the control electrode of the discharge thyristor 5 and the base of the power transistor 1. In this case, the load current goes into the circuit: diode 6, the discharge thyristor 5, which turns off the thyristor k, and the process of resorption of the load of the main carriers in the structure of the discharge thyristor 5 begins, therefore the process of switching off the power transistor that occurs parallel to this happens at a collector voltage not exceeding a few volts, which ensures low dynamic losses in the power transistor 1. After the blocking properties of the discharge thyristor 5 are turned on, it locks up, and the load current passes to the power diode 12 of the opposite key. Thus, the total voltage of the power supply is applied to the already turned off power transistor 1.

Claims (1)

Invention Formula A transistor inverter containing at least one rack of power transistors connected in series in power, the power circuits of which are shunted by series-connected capacitors and first thyristors, shunted by series-connected current-generating nodes and discharge thyristors connected in opposition to the corresponding first thyristors, each of the power transistors are shunted by a return diode, and the capacitors are shunted by switching off thyristors forming according to-serial connection with the first thyristor, the voltage driving in parallel to each of the nodes included diode, and a control unit configured inclusion providing first thyristors, before incorporation 51529385 power transistors, as well as the inclusion of a transistor, characterized by switching off the thyristor after the removal of the fact that, in order to increase the loading of the unlocking signal from the controllable ability of the inverter, the current electrode of the discharge thyristor, the master nodes are made current-stabilized whrda appropriate power spinners.