SU754395A1 - Stabilized dc voltage stabilizer - Google Patents

Description

The invention relates to electrical engineering and can be used in power supply devices of automation, computing and communications.

Known stabilized dc voltage converter containing a two-stroke oscillator, a control circuit, an output rectifier and a filter [1].

The disadvantages of the converter are the low reliability of the launch at low temperatures, the impossibility of using at high frequencies and the complexity of the circuit.

The closest to the proposed technical solution is a transformer, whose collector winding is connected to the first through switching transistors and the middle point of the collector winding to the second output terminals, the outputs of the base winding are connected to the control electrodes of the switching transistors, and the output winding through a rectifier and filter with output terminals regulating transistor connected2

one terminal to the first input terminal and a resistor [2].

The disadvantage of this device is unreliable start at low temperature and the connected load. In addition, ₅ to ensure stabilization of the output voltage in the additional winding has entered a full-wave rectifier, an amplifier and a feedback circuit that

complicates the circuit.

The aim of the invention is to increase the reliability of the launch and simplify the stabilized DC / DC converter.

This goal is achieved by the fact that it additionally introduced two voltage dividers, the first of which is made ¹⁵ on two resistors, and the second on a resistor and a zener diode connected between the first and second input terminals, the zener diode connected to the second input terminal, and two diodes connected between the respective, additionally introduced taps of the output winding of the transformer and the control electrodes of the switching transistors, with the average output of the first divider connected to the midpoint 754395

3

the base winding of the transformer, and through the input capacitor with the second input terminal, and the middle point of the second divider - with the control electrode of the regulating transistor, the second output of which is connected to the output terminal through a resistor.

The drawing shows a circuit diagram of a stabilized DC voltage converter.

The stabilized dc voltage converter contains switching transistors 1 and 2, the emitters of which are interconnected, and with one of the terminals of resistors 3 and 4, the emitter of the regulating transistor 5, and one input terminal. The base of the regulating transistor 5 is connected to another terminal of the resistor 3 and the cathode of the Zener diode 6, the anode of which is connected to another input terminal, the first terminals of the capacitor 7 and the resistor 8 and the midpoint of the collector winding 9 of the transformer 10. The second terminals of the capacitor 7 and resistor 8 are connected to another terminal the resistor 4 and the midpoint of the base winding 11 of the transformer 10, the extreme output of which is connected to the bases of the switching transistors 1 and 2. The collectors of the switching transistors 1 and 2 are connected to the terminals of the collector winding 9 tons of the transformer 10. The collector of the regulating transistor 5 through a resistor 12 is connected to one of the output terminals, to which the middle point 13 of the output winding 14 of the transformer 10 is also connected. the outputs of the output winding 14 through the diodes 17 and 18 are connected to another output terminal. A filter capacitor 19 and a load 20 are connected between the output terminals.

Stabilized dc voltage converter operates as follows.

When a DC source is connected to the input terminals of the converter on the resistor 4, a bias voltage is created, which minus through the base windings 11 of the transformer 10 is applied to the bases of the switching transistors 1 and 2, causing unlocking of any of them. The converter starts and a voltage appears at its output terminals and load 20.

At the same time, the alternating voltages from the additional terminals of the output winding 14 are straightened by diodes 15 and 16 and positive polarity relative to the middle terminal 13 of the winding 14 are fed to the bases of the switching transistors 1 and 2. The magnitude of the positive voltage is offset

This is set by resistor 12 and the resistance of the emitter-collector junction of the control transistor 5.

As the voltage of the DC source increases, the current through the resistor 3 and the zener diode 6 increases. The voltage across the resistor 3 increases, which is applied to the base of the control transistor 5 minus, which opens further, reducing the resistance of the emitter-collector junction. At the same time, an increase in the input voltage of the converter increases the voltage on the output windings, and a greater positive bias voltage goes to the bases of switching transistors 1 and 2. As a result, the voltage drop on open transistors increases, and the voltage on the collector winding 9 remains constant.

When the voltage of the DC source decreases, the reverse occurs.

Claims (1)

Claim A stabilized dc voltage converter containing a transformer whose collector winding is connected to the first through switching transistors and the middle point of the collector winding to the second output terminals, the outputs of the base winding are connected to the control electrodes of the switching transistors, and the output winding through a rectifier and filter to the output electrodes terminals, a regulating transistor connected by one pin to the first input terminal, and a resistor, characterized in that, in order to increase reliability start and simplification, it additionally introduced two voltage dividers, the first of which is made on two resistors, and the second on a resistor and a zener diode connected between the first and second input terminals, the zener diode connected to the second input terminal, and two diodes connected between corresponding, additionally introduced taps of the output winding of the transformer and control electrodes of the switching transistors, with the middle terminal of the first divider connected to the midpoint of the transformer’s base winding and through the input capacitor is with the second input terminal, and the middle point of the second divider is with the control electrode of the control transistor, the second output of which is connected to the output terminal through a resistor.