SU1408512A1 - Transistorized inverter - Google Patents

Abstract

The invention relates to electrical engineering and can be used in the design of secondary power sources. The goal is to increase reliability by reducing the dynamic losses in the power transistors when they are turned off. The voltage inverter is made according to a bridge circuit, each arm of which contains a power transistor 1, shunted in a conductive direction by a chain of series-connected first thyristor 2 and capacitor 3, to the common point of which are connected the anode of the switching thyristor 4 and the anode of the discharge thyristor 5. The circuit consisting of the first thyristor 2 and the capacitor 3 accepts the switching currents when the supply voltage is applied to it when turned on, and the circuit consisting of diode 7, discharge thyristor 5 and turning off the thyristor 4 - when turned off. 1 il.

Description

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and the process of absorption by the load current of the main carriers in the structure of the discharge thyristor 5 begins, therefore, the parallel process of switching off the power transistor 1 takes place at the collector voltage not exceeding several volts ujaroiueM, which ensures low dynamic losses in the power transistor 1. After restoration of the locking properties of the discharge thyristor 5

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 reliability by reducing the dynamic losses in the power transistors when they are turned off.

The drawing shows a diagram of the proposed device.

The device is made according to a bridge circuit, it is locked, the load current passes to the side of which each arm contains a power diode 8 of the opposite key. Tatransistor 1, shunted into a wire - in the same way, the full voltage source

In this case, a chain from a series power supply is applied to the already connected switches of the first thyristor 2 to the power transistor 1.

and capacitor 3, to the common point of which is a sequential chain consisting of

the anode of the switching thyristor 4 5 thyristor 2 and capacitor 3 are connected, and the anode of the discharge thyristor 5 receives, and the switching currents when the power supply voltage is applied to it when turned on, and the series consisting of diode 7 and of the thyristor 5 and turning off the thyristor 4, - when you turn off. Therefore, the processes of switching on and off of the power transistor 1 occur at low voltages on the collector, which ensures

the cathode of the switching thyristor 4 is connected to the emitter of the power transistor 1, and the cathode of the discharge thyristor 5 is connected to the connection point of the resistor b with the 2d diode 7, the anode of the diode 7 and the other output of the resistor 6 are connected to the collector of the power transistor 1 backed up diodes 8.

The device works as follows.

In the circuit, such an algorithm is provided for 25 inverters of the voltage inverter, and thereby the operation of each power switch, which improves its reliability, the thyristor 2 is turned on first.

the small dynamic losses in power circuits are sequential, consisting of thyristor 2 and capacitor 3, takes on all the load current and starts charging the capacitor 3. When 30, capacitor 3 is charged by the load current to a voltage equal to units of volts, over time determined by the control unit delay unit, the power transistor 1 is opened and the control signal is removed from the control electrode of the thyristor 2. In this case, the load current goes to the collector circuit of the power transistor 1, and the thyristor 2 is applied the reverse polarity voltage, to which capacitor 3 is charged, and thyristor 2 is locked. 40

Before turning off the power transistor 1, a control signal is applied to the control electrode of the discharge thyristor 5. At the same time, the capacitor 3 is discharged along the circuit: the discharge thyristor 5 limiting the discharge current, the resistor 6, the power transistor 1, which ensures the accumulation of the main carriers in the structure of the discharge thyristor 5 and the absence of accumulation of energy in the capacitor 3. By the end of the discharge of the capacitor 3 by 50

Claims (1)

Invention Formula A transistor inerter containing at least one rack of power transistors connected in series, the power circuits of which are clamped by series-connected capacitors and first thyristors, shunted by series-connected resistors and valve elements connected oppositely to the corresponding first thyristors, each of power transistors are shunted by a return diode, the control unit, made to ensure the inclusion of the first thyristors p In addition to that, switching on the power transistors, characterized in that, in order to increase reliability by reducing the dynamic losses in the power transistors when they are turned off, discharge thyristors are used as mentioned valve elements, and capacitors are clamped by the input of turn-off thyristors, which form they are connected in series with the first thyristors, and a diode is connected in parallel with each of the resistors, and the control unit is designed to turn on the switching off thyristor after removing Control signal from the control signal to the control electrode of the switching thyristor 4 and remove the control signals from the control electrode of the discharge thyristor 5 and the base of the power transistor 1. At the same time, the current 50 A transistor inerter containing at least one rack of power transistors connected in series, the power circuits of which are clamped by series-connected capacitors and first thyristors, shunted by series-connected resistors and valve elements connected oppositely to the corresponding first thyristors, each of power transistors are shunted by a return diode, the control unit, made to ensure the inclusion of the first thyristors p In addition to that, switching on the power transistors, characterized in that, in order to increase reliability by reducing the dynamic losses in the power transistors when they are turned off, discharge thyristors are used as mentioned valve elements, and capacitors are clamped by the input of turn-off thyristors, which form they are connected in series with the first thyristors, and a diode is connected in parallel with each of the resistors, and the control unit is designed to turn on the switching off thyristor after removing The unlocking signal from the load goes into the circuit: diode 7, section; of the thyristor discharge electrode and the input thyristor 5, which turns off the thyristor 4 of the corresponding power transistor. and the process of absorption by the load current of the main carriers in the structure of the discharge thyristor 5 begins, therefore, the parallel process of switching off the power transistor 1 takes place at the collector voltage not exceeding several volts ujaroiueM, which ensures low dynamic losses in the power transistor 1. After restoration of the locking properties of the discharge thyristor 5  locked, the load current goes to the power diode 8 of the opposite key. Inverter tacistors voltage and thereby increases its reliability of operation, low dynamic losses in power trans Invention Formula A transistor inerter containing at least one rack of power transistors connected in series, the power circuits of which are clamped by series-connected capacitors and first thyristors, shunted by series-connected resistors and valve elements connected oppositely to the corresponding first thyristors, each of power transistors are shunted by a return diode, the control unit, made to ensure the inclusion of the first thyristors p In addition to that, switching on the power transistors, characterized in that, in order to increase reliability by reducing the dynamic losses in the power transistors when they are turned off, discharge thyristors are used as mentioned valve elements, and capacitors are clamped by the input of turn-off thyristors, which form they are connected in series with the first thyristors, and a diode is connected in parallel with each of the resistors, and the control unit is designed to turn on the switching off thyristor after removing Unlocking signal from uravl eschue