SU1256124A1 - Controlled one-step d.c.voltage converter - Google Patents

Abstract

The invention relates to electrical engineering and can be used in secondary power sources. The purpose of the invention is to reduce weight and size by reducing the voltage across a capacitor. The transistor (T) 4 opens when the unlocking voltage arrives at the base and shuns the control transition T 6, which is closed. . Through T 4 flows the sum of magnetizing currents and load. When the polarity is changed, the voltage T 6 is unlocked and the flow of magnetizing current in the opposite direction is ensured. The voltage across the capacitor 8 is reduced due to the counter-inclusion of a power source in its circuit. This leads to the fact that the demagnetizing voltage is applied to the winding 3 during the whole time of the locked state T 4, and the remagnetization of the core of the transformer 1 is carried out over a full cycle with a small amplitude of magnetization current. The design of the device is simplified by eliminating the pulse former and reducing the power of the control unit. 1 h. apt. 1 il. (P UJ

Description

112

The invention relates to electrical engineering and can be used in secondary power supply systems for converting a constant voltage and regulating or stabilizing it.

The purpose of the invention is to reduce the weight and size by reducing the voltage across the capacitor,

The drawing shows a block diagram of the converter. The converter contains a transformer 1 about the primary winding 2 and an additional winding 3, the main transistor 4 connected to the control unit 5, and the additional transistor 6 shunted by a reverse diode 7. The emitters of transistors 4 and 6 are connected to one input terminal and the connection point of the windings 2 and 3 - with a different input terminal for connecting the power supply. The last terminal of the winding 3 is connected to the connection point of the additional transistor 6 and diode 7 through a capacitor 8, transistor 6 is connected to the connection point of the winding 2 and the main transistor 4 through a resistor 9.

The Converter operates as follows.

When the unlocking voltage arrives at the base of the transistor 4, the latter opens, and the power supply voltage is applied to the winding 2 of the transformer 1. Since the control transition of the transistor 6 is shunted by the open transistor 4, the transistor 6 is locked. Through the transistor 4 flows the sum of magnetizing currents and load. At the end of the control pulse, the transistor 4 is locked, the magnetizing current is closed through the diode 7, the capacitor 8, the winding Z. and the power source. Due to the capacitor B, the magnetizing current flows continuously during the whole pulse period from control unit 5 and the average value of this current is zero. This leads to the fact that

VNIIPI Order 4832/53

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The magnetizing voltage is applied to the winding 3 during the entire time of the locked state of the transistor 4, and the remagnetization of the core of the transformer 1 is carried out over a full cycle with a small amplitude of magnetizing current.

The voltage on the capacitor 8 is reduced in comparison with the known one due to the counter connection of the converter power supply to the capacitor.

The source of the unlocking voltage for the auxiliary transistor 6 is the voltage across the locked transistor 4, which makes it possible to reduce the power of the control unit and simplify the converter circuit. In this case, a pulse of locking the power transistor switch is formed in the output winding of the transformer 1 by eliminating the pulse former of the additional transistor 6.

Claims (2)

1. An adjustable single-ended DC / DC converter containing an output transformer, the primary winding of which is connected between the first input terminal of the converter and the primary output transistor collector, and the additional winding connected to the first output of the capacitor connected by an additional transistor bypassing the reverse-connected diode the second input terminal of the converter to which the emitters are connected main and auxiliary transistors, characterized in that, in order to reduce the weight and size by reducing the voltage on the 5 capacitor, the second output of the additional winding is connected to the first input terminal of the converter, and the second capacitor output - to the collector of the additional transistor, 2. The Converter according to claim 1, about t l and 0 This is because the base of the additional transistor is connected through the resistor to the collector of the main transistor. Circulation 631 Subscription