SU1190276A1 - Direct current converter - Google Patents

Abstract

DC CONVERTER, containing an inverter, the input to which is connected to the input terminals of the converter, and the output - to the input terminals of the top terminal, the first output terminal of which is connected to the common output of the primary and secondary windings of the drossel, and the second - to the first output terminal the converter, the second output of the primary winding of the throttle is connected to the second output terminal of the converter and the first input of the threshold unit, the second output of the secondary winding of the throttle through a resistor is connected to the first output terminal of the pre A driver, characterized in that, in order to increase reliability by controlling the output voltage, a reference voltage source, a separation diode and an additional resistor are inserted, the first output terminal of the reference voltage source being connected to the first output terminal of the converter, the second output terminal is connected to the cathode of the separation diode, the anode of which through an additional resistor is connected to the second output of the secondary winding of the choke and directly to the second input threshold about block.

Description

The invention relates to electrical engineering and can be used as a secondary power source. The purpose of the invention is to increase reliability by controlling the output voltage. The drawing shows a block diagram of a DC-DC converter. The converter contains inverter 1, rectifier 2, choke 3c primary 4 and secondary 5 windings, output terminals 6 and 7 of the converter, threshold unit 8, resistor 9, extension resistor 10, isolation diode 11, reference source 12, output terminals 13 and 14 converter The output terminals of the inverter are connected to the input terminals of the top of the gate. The common terminal of the windings 4 and 5 of the throttles 3 is connected to the first output terminal of the rectifier 2. The second terminal of the winding 4 is connected to the second output terminal 6 of the converter and the first input of the threshold unit 8. The second output terminal of the rectifier 2 is connected to the first output terminal 7 of the converter and through a resistor 9 - with a second terminal of the winding 5, which is connected through an additional reactor to the anode of the separation diode 11 and the second input of the threshold unit .8. The cathode of the isolation diode 11 is connected to the first output terminal of the source 12 of the threshold voltage, the second output terminal of which is connected to the first output terminal 7 of the converter. The converter operates as follows. When the converter (terminals 7 and 6) has a stabilized constant voltage, the value of which does not exceed the value of the reference voltage specified by the source 12 of the reference voltage, the diode 11 is locked, the threshold unit 8 is in the initial state, its output is formed a high voltage level that signals the normal operation of the converter. The voltage drop across the winding 5 of the drossels 3, caused by the current flowing through the resistor 9, is the voltage of the reference signal of the output current control circuit, with which the constant component of the voltage on the primary winding of 4th drossels 3 is proportional to the load current. In the event of an overcurrent or a short circuit at the output of the converter, the voltage drop across the active resistance of the winding 4 of the choke 3 increases. When it exceeds the voltage of the reference signal, given by the voltage drop 1 on the winding 5 of the choke 3, the unit triggers, and a low voltage level is formed at its output. If the output voltage exceeds the permissible level determined by the voltage of the voltage source 12 and the separation diode 11, the inputs of the block 8 are under different potentials, one of which is set by the reference voltage source 12 and the diode 11, and the second output voltage of the converter , which leads to the triggering of the threshold unit 8 and the formation at its output of a low voltage level, signaling the deviation of the output parameters of the converter from the required values.

Claims (2)

A DC-DC converter containing an inverter, the input of which is connected to the input terminals of the converter, and the output is connected to the input terminals of the rectifier, the first output terminal of which is connected to the common output of the primary and secondary chokes, and the second to the first output terminal of the converter, the second output of the primary inductor winding is connected to the second output terminal of the converter and to the first input of the threshold unit, the second output of the secondary inductor winding through a resistor is connected to the first output terminal of the converter atelier, characterized in that, in order to increase reliability by controlling the excess of the output voltage, a reference voltage source, an isolation diode and an additional resistor are introduced into it, the first output terminal of the reference voltage source being connected to the first output terminal of the converter, its second output terminal being connected g with the cathode of a separation diode, the anode of which is connected via an additional resistor to the second output of the secondary winding of the inductor and directly to the second input of the threshold unit. * I > I 1 . 1190276 2 '