SU1171939A1 - Voltage converter with current feedback - Google Patents

Abstract

1. CURRENT VOLTAGE CONVERTER containing a power transformer, the middle output of which is connected to the first input terminal, and its extreme leads are connected to the second input terminal through the corresponding primary windings of the current transformer and the main transistors, the current transformer secondary leads the diodes, the primary windings of the auxiliary transformer and the auxiliary transistors are connected to the common output of the master oscillator, paraphase outputs which are connected to the control electrodes of the auxiliary transistors, the control electrodes of the main transistors are connected to the opposite first terminals of the respective secondary windings of the auxiliary transformers, resistors, voltage suppressor, characterized in that, in order to improve the efficiency by reducing dynamic losses, the combined collectors of the main transistors are connected to the second input terminal, the second terminals of the secondary windings of the auxiliary transformer are connected to the corresponding edges In the primary pins of the power transformer, the common point according to and serially connected secondary windings of the current transformer and the common output of the master oscillator are connected to the first input terminal, the resistors are connected between the second terminal (the primary terminal and the connection points of the corresponding diodes and primary diodes of the secondary transformer and the voltage limiter is connected to the windings of the auxiliary transformer. 2. The converter according to claim 1, characterized in that the voltage limiter is designed as a series-connected diode and a zener diode connected to the primary windings of the auxiliary transformer. with so with so

Description

The invention relates to electrical engineering, namely to inverters of one level of a DC voltage to an AC voltage of another level and can be used to power various devices. The purpose of the invention is to increase efficiency by reducing dynamic losses. The drawing shows a current-feedback voltage converter circuit. The voltage converter contains a master oscillator 1 connected by paraphase outputs to the control electrodes of the auxiliary transistors 2 and 3, the common output of the master oscillator is connected to the auxiliary transistors connected together, resistors 4 and 5, one ends of which are connected together and connected to the second input terminal of the source 6 power, auxiliary transformer 7, having two primary windings 8 and 9 and two secondary windings 10 and 11, power transformer 12, the average output of its primary windings 13 and 14 is connected to the first input ohm terminal 6, and the extreme conclusions of these windings through the respective main transistors 15 and 16 and the primary windings 17 and 18 of the current transformer 19 are connected to the second input terminal 6. The secondary winding of the current transformer 19 is made with a midpoint and its secondary windings 20 and 21 through the corresponding Auxiliary DZ diodes 22 and 23 are connected to the connection point of the primary windings 8 and 9 of the auxiliary transformer 7 with resistors 4 and 5, which are connected to the second input terminal of the power supply 6. Each of the primary windings 8 and 9 of the auxiliary transformer 7 is shunted by voltage suppressors consisting of series-connected zener diodes 24 and 25 with diodes 26 and 27, respectively. The secondary winding 28 of the power transformer 12 is connected to the load 29. The voltage feedback transformer with current feedback operates as follows. The master oscillator 1 produces, at its paraphase outputs, square-shaped voltages and controls the auxiliary transistors 2 and 3 in such a way that, for example, the transistor 2 is open in one half period, and 3. in the other half. of the terminals through the corresponding resistor 4 (5) and the transistor 2 (3) is applied to the primary winding 8 (9) of the auxiliary transformer 7. The induced voltage of the secondary winding 10 (11; turns on the corresponding main transistor 15 (16) and further conducts it n It is supported by current feedback formed by primary 17 (18), secondary 20 (21) windings of current transformer 19, auxiliary transformer 7 and corresponding diode 22 (23). Energy is supplied from primary 13 (14) windings of power transformer 12 during secondary 28 and yes load 29. After locking the auxiliary transistor 2 (3) when applying the polarity, the voltage at the output of the master oscillator 1 voltage on the windings 17 (18) and 8 (9) increases. The magnitudes of these voltages are determined by the voltage limiters. performed on the diode 26 (27) and the zener diode 24 (25). The main previously connected transistor 15 (16) is then forcedly locked, and the switching on of the next transistor 16 (15) is delayed by keeping the windings 18 (17) and 11 (10) of the same polarity of the voltages, thereby eliminating the possibility of "through currents . After locking the previously turned on transistor 15 (16), the processes in the circuit are repeated for the next half-period of operation of the master oscillator 1.

Claims (2)

1. A CURRENT FEEDBACK VOLTAGE CONVERTER containing a power transformer, the middle terminal of the primary winding of which is connected to the first input terminal, and its extreme terminals are connected to the second input terminal through the corresponding primary windings of the current transformer and main transistors, secondary windings of the current transformer through the corresponding diodes , the primary windings of the auxiliary transformer and auxiliary transistors are connected to the common output of the master oscillator, the paraphase outputs of which o connected to the control electrodes of the auxiliary transistors, the control electrodes of the main transistors connected to the opposite terminals of the corresponding secondary windings of the auxiliary transformers, resistors, voltage limiter, characterized in that, in order to increase efficiency by reducing dynamic losses, the combined collectors of the main transistors are connected to the second input clamp, the second terminals of the secondary windings of the auxiliary transformer are connected to the corresponding extreme terminals the primary winding of the power transformer, the common point according to and sequentially connected secondary windings of the current transformer and the common output of the master oscillator are connected to the first input terminal, resistors are connected between the second input terminal and the connection points of the corresponding diodes and primary windings of the auxiliary transformer, and the voltage limiter is connected to the auxiliary windings transformer. 2. The converter according to π. 1, characterized in that the voltage limiter is made in the form of series-connected diode and zener diode connected to the primary windings of the auxiliary transformer. >