SU654946A1 - Dc voltage stabilizer - Google Patents

Description

one

The invention relates to the field of radio engineering and can be used in stabilized power supplies of electronic equipment.

A voltage regulator is known in which protection against short circuits can be implemented using protective transistors locking the control transistor 1.

However, in such devices a large current flows through the regulating transistor after the protection trips, which leads to an overload of the regulating transistor on the dissipated power.

The closest technical solution to the invention is a DC regulator containing a control transistor connected in series to the power bus, a base connected to the collector of the transistor of a DC amplifier, the emitter of which is connected to the reference zener diode and the base connected to the potentiometer connected to the output terminals 2

The disadvantages of the known stabilizer are the complexity of the electrical circuit and design, the presence of the regulating transistor current after the protection trips (about 5% of nominal), the presence of a resistor - overload current sensor, reducing the efficiency of the voltage regulator, low reliability due to the large number of elements.

The aim of the invention is to increase reliability, increase efficiency. The goal is achieved by introducing a resistive divider of the output voltage into the DC voltage regulator,

capacitor, asynchronous logic. КЗтггер, having a zero setting on the input R, a matching logic element NOT with an open collector on the output. The midpoint of the resistive divider of the output voltage is connected to the input S of the asynchronous logical RS flip-flop, the direct output of the RS flip-flop is NOT connected to the base of the control transistor through the matching logic element, and the inverse output of the asynchronous short-circuited trigger is connected to its input S of the asynchronous through the capacitor logical short-circuit trigger.

The drawing shows a schematic diagram of a constant voltage regulator.

The proposed device consists of a control transistor 1, the base of which is connected to the collector of the transistor of the DC amplifier 2 and through a resistor

3 - to the input terminal of the stabilizer.

The zmitter of the transistor of the direct current amplifier through the reference zener diode 4 is connected to the common bus of the stabilizer. The base of the transistor DC amplifier is connected to the midpoint of the potentiometer.

5, in parallel with which a resistive output voltage divider is connected

6,7, the middle point of which is connected to the input S of an asynchronous logical, NC-trigger, performed on the elements 8, 9 AND-NOT. The direct output 10 of the asynchronous RS logic flip-flop through the matching logic element 11 is NOT connected to the regulating transistor base, and the inverse output 12 via the capacitor 13 is connected to the input S of the asynchronous RS-flip-flop.

The device works as follows.

At rated load current, the output voltage is nominal. The voltage drop across the resistor 7 is equal to the level of the logical unit (2.4-4.5 V). The RS trigger is in the zero state. At the direct output of 10 flip-flop, the voltage is equal to the logic zero level (O-0.4 V). The output transistor element And is in the cut-off mode, the current does not flow through it. The stabilizer operates in voltage stabilization mode. In case of a short circuit at the output of the stabilizer, the voltage drop across the resistor 7 is zero. The RS-flip-flop will go into one state. At the direct output of 10 RS-flip-flop, Vits voltage with the level of the logical unit. The output transistor of the element 11 will go into saturation mode and, on the basis of the regulating transistor 1, the voltage will become zero, and as a result, at the output of the stabilizer, the voltage will also be zero. After supplying a zero potential to the RS-flip-flop input, a single voltage drop from the RS-12 flip-flop output 12 through the capacitor 13 is transmitted to the RS-flip-flop S input and it will go to the zero state. The circuit will return to its original state.

The use of the invention will make it possible to significantly simplify the circuit and the design, eliminate the resistor - overcurrent sensor, and increase the efficiency in voltage regulators with short circuit protection.

Due to the complete elimination of the current of the regulating transistor after the protection triggers, the power dissipation on it is zero, which excludes its failure from operation and increases the reliability of the stabilizer in general. ..

Claims (2)

1. USSR author's certificate number 194917, cl. H 02 H 7/12, 1965. 2. USSR author's certificate number 333650, cl. H 02 H 7/12, 1971.