SU853759A1 - Two-cycle voltage converter - Google Patents

Description

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The invention relates to the field of electrical engineering and can be used as a secondary power source.

Two-stroke voltage converters, known as special start-up devices f 1, are known.

Closest to the present invention is a voltage converter containing an auto-oscillator with a saturable transformer and power transistors, the basic circuits of which include resistors, a starting generator, and the plus power bus of which is connected to the midpoint of the transformer 21.

The disadvantages of such start-up devices are an increase in the base currents of the power transistors, which leads to a decrease in the device efficiency, and the autogenerator does not re-enable in case of self-oscillations in it during short-term overloads.

The purpose of the invention is to increase the reliability of the converter during short-term current overloads in the output circuits.

This is achieved by inserting a transistor with base and collector resistors into the converter, matching an RC circuit connected at one end to the output of the starting generator, and the other end connected to the base of the transistor, and its collector is connected through a resistor to the base of one of the transistor transceivers , the base resistor is connected between the emitter and the base of the traisistor, the emitter of which is connected to the midpoint of the transformer, the second transistor, the collector of which is connected to the minus power bus running the gene a controller, a limiting resistor connecting the base of the Btopage transistor to the midpoint of the transformer, a return diode, an RCR filter and a rectifier whose input

connected to the base winding of the transformer, and the output through an RCR filter with a common connection point of the cathode of the diode and the base of the second transistor, the emitter of which is connected to the diode anode and to the emitters of the power transistors.

The drawing shows a converter that contains a starting generator 1, made on resistors 2-5, a chip 6 and a capacitor 7, a transistor 8, the base of which is connected through a resistor 9 and a capacitor 10 to the output of the starting generator, the emitter of the same transistor is connected through a resistor 1I c base and the midpoint of the transformer 12, the collector of the transistor 8 through a resistor 13 is connected to the base of one of the power transistors of the oscillator 14, the transistor 15, the collector of which is connected to the negative power bus of the triggering g generator 1, and the base with the cathode of diode 16, through a resistor 17 with a positive power bus and through a filter 18-20 with a rectifier output 21

The voltage converter operates as follows.

When the supply voltage Ef is applied, the power transistors of the auto-oscillator 14 are closed, the voltage on the windings of the transformer 12 is zero, and a current is flowing through the resistor 17 that unlocks the transistor 15. The common power supply voltage Ep 1 and the start-up generator 1 flow generates pulses, the required duration of which is controlled by resistors 2-5 and capacitor 7. These pulses are supplied through resistor 9, which is necessary to limit the output current of chip 6, and capacitor 10, which provides y POSTO21NNOMU of current to the base of transistor 8 received pulses are amplified and applied to one of the power transistors of the oscillator 14 which outputs a voltage required value. After the output voltages have been set to the nominal value from the output of the rectifier 21, the base voltage of the transistor 15 is applied through the jia filter resistors, the blocking voltage, the transistor 15 closes, the voltage on the power supply busses of the starting generator 1 becomes zero, the pulses at the input of transistor 8 disappear and the last closes.

The autogenerator continues to operate normally with the startup scheme disabled.

Resistor 11 is required to avoid breakdown of the collector-emitter junction of transistor B, as well as to recharge capacitor 10. Filter 18-20 provides a quick turn-on of the starting generator 1 when the power supply E is supplied and causes a delay when the start-up generator 1 turns off after the output of the auto-generator 14 on a nominal operating mode.

In case of short-term current overloads (for example, when a capacitive load is turned on), the oscillator of the oscillator 14 fails at the first moment, the voltage on the windings of transformer 12 is zero, the AiCTOp 15 opens and the entire starting circuit is activated for the current overload time. After the transients are established, the startup circuit is turned off again.

The use of the proposed device with newly introduced elements and connections allowed us to achieve, without increasing the current consumption (i.e., without deteriorating the device), quickly setting the output of 1v 1x voltage to the nominal value, as well as reliable operation of the device when switching on the capacitive load and pulse overloads nominal mode of operation.

Claims (2)

1. US patent 3411108, CL 311-114, 1967, FIG. 1,2,5. 2. Authors certificate of the USSR 494833, cl. H 02 M 7/537, 1973.