SU1684880A1 - Dc/dc voltage converter - Google Patents

Abstract

The invention relates to a converter technology and can be used in secondary power sources, power inverters and voltage converters. The goal is to increase efficiency. The constant voltage converter, made according to the transformer single-ended inverter circuit with the direct switching on of the rectifying diode 8, provides for the formation of the optimal switching path of the power transistor 7 using the damping circuit from the capacitor 10, the diode 11 and the additional 12 V transistor circuit of the damping circuit included additional winding b, providing nepef magnetisation magnetically about transformer water 3. 1 sludge

Description

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The invention relates to a converter technology and can be used in secondary power sources, power inverters and voltage converters.

The purpose of the invention is to increase efficiency.

The drawing shows a schematic diagram of a constant voltage converter.

The device contains the first 1 and second common 2 input pins, the transformer 3 from the primary 4, the secondary 5 and remagnetizing 6 windings, the power transistor 7, the rectifying direct diode 8, the load 9 connected to the output pins, the capacitor 10, the second diode 11, an additional transistor 12 with a base resistor 13, a choke 14 and a recovery diode 15.

Constant voltage converter operates as follows.

In the initial state, the power transistor 7 is locked, the capacitor 1C is charged. When the power transistor 7 is unlocked, power is transmitted through the transformer 4, the rectifying diode 8 and the load 9. At the same time in the circuit: capacitor 10 - collector emitter of transistor 7 - second input terminal - resistor 13, base-emitter of transistor 12, a current occurs that unlocks transistor 12. The energy stored in capacitor 10, creating a current in the circuit: capacitor 10 — collector-emitter of transistor 7 — input terminal 2 — magnetization reversal winding 6 — choke 14, collector-emitter of transistor 12, is transferred to choke 14. When the transistor is locked, 7, energy storage in the capacitor 11 begins again and the energy stored in the choke 14 is recuperated to the power source. The current flowing through the winding provides remagnetization of the transformer magnetic circuit 3.

Thus, the efficiency is increased by using the elements of the damping chain and the energy accumulated in them, not only to form the optimal switching path of the power transistor, but also to remagnetize the magnetic core of the transformer.

Claims (1)

Invention Formula A constant voltage converter containing a power transistor through the primary winding of the transformer connected to the input terminals, the secondary winding of the transformer through a rectifying direct diode connected to the output terminals, an additional transistor whose emitter is connected to the capacitor junction point and the damping circuit diode, shun- to the power circuit of the power transistor, the collector of the additional transistor is connected to the first input terminal through a recuperating diode and through the other circuit The donkey has a second input terminal to which the base of the additional transistor is connected via the base resistor, characterized in that, in order to increase efficiency, a remagnetizing transformer winding is inserted in the circuit of the drossel.