SU1262658A1 - Transistorized voltage converter - Google Patents

Abstract

The invention relates to electrical engineering and can be used in secondary power supply and voltage conversion systems. The purpose of the invention is to increase the reliability of transition processes and pulsed load changes. The master oscillator 1 commutes a pulse-width modulator (M) 2. The feedback unit 9 generates a maximally large signal arriving at the input M 2. At this time, the transistor (t) 11 of the start node 10 is turned on. In this case, the output signal of the block 9 is shunted; therefore, the relative duration of the on state of the transistors of the power amplifier 3 is small, which reduces the starting currents. As the capacitor 12 is charged, the action T 11 weakens, which ensures a monotonic increase in S of the duration of the control pulses M 2, and consequently, the voltage at the output of the filter 6, 7. 1 sludge. y O5 th O5 el 00

Description

The invention relates to electrical engineering and can be most widely used in secondary power sources. The purpose of the invention is to improve reliability in transients of start-up and pulsed change of load. The drawing shows a transistor voltage converter circuit. The transistor voltage converter contains a generator I, a pulse-width modulator 2, a power amplifier 3, connectors 4 and 5, LC filters 6 and 7, a load 8, a feedback unit 9, a soft start node 10, a transistor 11, capacitor 12, resistor 13 and diode 14.

The Converter operates as follows.

When the input voltage is applied to the converter, the 1H generator 1 that switches the / pulse-width modulator 2 is excited. In view of the absence of output voltage at this stage, the feedback block 9 amplifies the signal of maximum magnitude to the input of the modulator 2. V the same time, the transistor 11 of the node 10 is triggered by the circuit: capacitor 12 - resistor 13. This bypasses the output signal of block 9, therefore the relative duration of the on state of the power transistors of amplifier 3 is powerfully tee, actuated by the modulator 2 is small, which reduces inrush currents. As the capacitor 12 charges, the shunting effect of transistor 11 weakens, which ensures a monotonous increase in the relative duration of the control signals of the modulator 2, and consequently, a smooth increase in voltage at the output 12

20 Formula Invention.

A transistor voltage converter containing a master oscillator connected to a pulse-width modulator, the output of which is connected to the control input of a power amplifier, an output rectifier with an LC filter, the input of which is connected to a feedback unit whose output is connected to an input pulse-width modulator, a soft start node whose input is formed by a series-connected capacitor and a diode, and the output is a collector by an emitter junction of the transistor, which controls the transition through a shun resistor this diode in the opposite direction, which is connected with the fact that, in order to increase the reliability in transients of the start and pulse change of the load, the input of the soft start node is connected to the input of the specified Filter, and the output to feedback to the feedback unit. 8 filters 6 and 7 through rectifiers 4 and 5. It should be noted that the time constant of the circuit: resistor 13 capacitor 12 must be chosen for a longer time constant of the output part of the converter: filters 7 and 6 load 8. When the converter is turned off to reduce its time In preparation for restarting, a diode 14 is used, through which the load 8, which has a relatively small value, is quickly discharged to the capacitor 12. Similarly to the described processes, the circuit occurs during a pulse load change, where also due to Node 10 eliminates current overloads in the power section of the converter.

Claims (1)

Claim A transistor voltage converter containing a master oscillator connected to a pulse width modulator, the output of which is. It is connected with the control input of the power amplifier, an output rectifier with an LC filter, to the input of which a feedback block is connected, the output of which is connected to the input of a pulse-width modulator, a soft starter, the input of which is formed by a series-connected capacitor and diode, and the output is a collector - the emitter junction of the transistor, the control junction of which through the resistor shunts the aforementioned diode in the opposite direction, due to the fact that, with a circuit for increasing reliability in the transient processes of start-up and impedance snogo load changes, soft start input node connected to an output of said filter, and an output - to the output of the feedback unit.