SU1453385A1 - Gate-type d.c. voltage stabilizer - Google Patents

Abstract

This invention relates to secondary power sources for radio equipment. The purpose of the invention is to increase reliability by simplifying the control circuit and reducing power loss. The goal is achieved by introducing into the circuit a magnetic amplifier 2 with two working windings and a control winding. In this case, the power transistors 5 and 6 operate in the output converter circuit as well as in the pulse-width regulator circuit. This not only simplifies the control circuit, but also reduces the number of power switching transistors, which reduces losses. 1 il.

Description

The invention relates to the field of electrical engineering, in particular to sources of secondary power supply.

The aim of the invention is to increase reliability by simplifying the control circuit and reducing power losses.

The drawing shows a stabilizer circuit. | 0, The device contains a choke 1 in the input circuit. The inductor 1 is connected to the connection point of the working windings of the magnetic amplifier 2, the extreme terminals of which through the first 3 and second and 4 diodes are connected to the collectors of the power switching transistors 5 and 6. The control winding of the magnetic amplifier 2 through the amplification amplifier 7 is connected to the load ₂ θ 8, to which the secondary winding of the transformer 9 is also connected through a rectifier 10. The extreme ends of the primary winding of the transformer 9 are connected to the collectors of transistors 25 5 and 6, and the tap from the midpoint of the primary winding through the diode 11 under for prison workers to the connection point of the windings and the magnetic amplifier 2 via the capacitor 12 to the emitters of the power transistors 5 and 6 and the common bus input DC voltage source. The base of the power transistors 5 and 6 are connected to the antiphase outputs of the master oscillator 13.

The device operates as follows.

When applying a supply voltage to the master oscillator 13 at its outputs connected to the bases of power transistors 5 and 6, an out-of-phase rectangular voltage appears. In this case, the transistors 5 and 6 are switched alternately. An alternating rectangular voltage is induced on the windings of the transformer 9. The voltage of the secondary winding is rectified by the rectifier 10 and supplied to the load 8 with a capacitive filter. The output voltage from the load 8 is supplied to the input of the amplifier 7, where it is compared with the reference voltage, and the amplified error signal affects the control winding of the magnetic amplifier 2. In this case, the current through the working windings of the magnetic amplifier 2 55 flows at the time of the magnetically saturated state of the core. This moment is determined by the magnitude of the current flowing through the control winding, i.e. pulse width regulation is carried out. At the moment of saturated state of the magnetic amplifier, the circuit of the input voltage source is closed in each half-cycle through the inductor 1, one of the working windings of the magnetic amplifier (depending on which of the power transistors is open), diode 3 or 4, one of the power transistors 5 or 6. In this case, the energy of the input voltage source is stored in the inductor 1 (the inductor current increases linearly ^.

After the switching of transistors or 6, the core of the magnetic amplifier 2 is magnetically reversed, and current does not flow through its working windings (neglecting the no-load current) until the core is saturated, determined by the amount of current in the control winding. In this case, the voltage at the inductor 1 is added to the input voltage and supplied through the diode 11 to the midpoint of the transformer 9. The energy stored in the inductor 1 is transmitted to the capacitor 12. When the input voltage or other destabilizing factors change, the saturation time of the core of the magnetic amplifier 2 changes. those. pulse-width regulation of voltage in the stabilizer is carried out. In this case, the average value of the voltage across the capacitor 12 changes so that the voltage across the load stabilizes. Diodes 3 and 4 carry out the isolation of the working windings of the magnetic amplifier 2 and the primary winding of the transformer

9. The collector current of the transistor 5 or is composed of the current of the primary winding of the transformer 9 and the current of the working winding of the magnetic amplifier 2, i.e. transistors simultaneously operate both in the output converter circuit, as well. and in the circuit of a pulse-width regulator.

The circuit of a key DC voltage stabilizer allows to increase reliability, since a complex pulse control circuit of power transistors is excluded, which, as in the known device, consists of a sawtooth voltage generator, a DC amplifier, a PWM comparator, a reference source

14533 voltage, counting flip-flop, two coincidence circuits and is significantly affected by impulse noise, leading to failures and emergency modes of power elements. ⁵ The introduced magnetic amplifier is highly reliable. In addition, the proposed device has reduced power losses due to the reduction in the number of power switching transistors.

Claims (1)

Claim A key DC voltage stabilizer containing a choke, the first output connected to the first input terminal, two power switching transistors, the emitters of which are combined and connected to the second input terminal, a transformer with a middle primary terminal. a ki, a rectifier, a capacitor, two diodes, a mismatch amplifier with a reference voltage source and a master oscillator, characterized in that, in order to increase reliability by simplifying the control circuit and reducing power losses, a magnetic amplifier and a third diode are introduced into it, and two serially connected working windings of the magnetic amplifier with the extreme leads through the first and second diodes are respectively connected to the collectors of the corresponding power switching transistors, the control winding of the magnetic force In the mismatch amplifier, the mismatch amplifier is connected to the output terminals, to which the secondary winding of the transformers is also connected through the rectifier, the extreme terminals of the primary winding of which are connected to the collectors of the corresponding power switching transistors, and the middle output through the third diode is connected to the connection point of the working windings of the magnetic amplifier and the second output of the dros mudflowing, and through a capacitor - to the emitters of power switching transistors, the bases of which are connected to the antiphase outputs of the master oscillator.