SU860034A1 - Pulse voltage stabilizer with protection against overload - Google Patents

Description

(54) PULSE VOLTAGE STABILIZER WITH OVERLOAD PROTECTION

one

This invention relates to electrical engineering and can be used as a secondary power source.

A pulsed voltage regulator is known, comprising a regulating element, a control unit, a DC amplifier, a reference voltage source, an output filter, and a protection node 1.

The closest to the present invention is a pulsed voltage regulator containing a regulating element included in one of the power fields, to the control input of which is connected the output of the pulsed control unit, the input connected to the measuring and amplifying unit, a voltage sensor proportional to the load current, and threshold device, whose inputs are connected to the sensor terminals, and the output is connected to the input of the control unit, with the output power output of the regulating element connected through a smoothing choke to one of the output pins 2.

However, in this device, as a voltage sensor proportional to the load current, a resistor is used in series with the choke in the power circuit of the stabilizer, and since to ensure reliable operation and sufficient noise immunity of the threshold device, the output voltage of the sensor with the maximum permissible load current must reach 0, 3-0.5 V, considerable power is dissipated on the resistor, which reduces the efficiency of the stabilizer.

The goal of the invention is to increase the efficiency of the device.

10 The goal is achieved by the fact that in an impulse voltage regulator with overload protection, an additional winding is inserted in the smoothing choke, one of the terminals of which is connected to the main winding of the same name, and two

5 other like-named leads of the windings are connected to the inputs of the threshold device, and the number of turns of the additional winding is equal to the number of turns of the main one.

The drawing is functional

A pulse voltage regulator circuit with overload protection.

Claims (2)

The impulse voltage regulator contains a regulating element 1 connected to one of the power busses, to the control input of which the output of the pulse control unit 2 connected to the measuring amplifier unit 3 is connected, the threshold device 4 whose output is connected to the input of the control unit, and an output filter formed by the main winding 5 of the smoothing throttle 6 and the capacitor 7. The choke 6 is provided with an additional winding 8, the number of turns of which is equal to the number of turns of the main one, and one of the conclusions is additional second winding of the same is connected to the main terminal, and the other two of similar output windings connected respectively to the inputs 9 and 10 of the threshold device. During the operation of the stabilizer, an alternating voltage equal to the self-induction voltage of the main winding is formed on the additional winding of the throttles, since the main and the additional windings have an equal number of turns. Since the two coils of the same name are interconnected, and the voltage on the main winding can be represented as the sum of the emf of self-induction and the voltage across the active resistance of the coil, between two other ends of the windings and, accordingly, between the inputs 9 and 10 of the threshold device equal to the voltage across the active resistance of the main winding of the throttles. The specified voltage is proportional to the current flowing through the choke and, consequently, to the load current. When the voltage between the inputs 9 and 10 of the threshold device exceeds the maximum permissible load current, the threshold device is triggered and a voltage is formed at its output locking the control unit 2 and the regulating element 1. After locking the regulating element, the current through the choke gradually decreases to the values at which the threshold device returns to its initial state, the control unit and the regulating element re-enter operation. With a subsequent increase in the load current to a value exceeding the permissible value, the threshold device is triggered again. The process is repeated periodically until the load conductance is reduced to a value that provides a valid value for the output current of the device. Thus, for any load conductance, the output current of the stabilizer does not exceed the specified allowable value. A small input current threshold device, usually not exceeding 2-5 mA, allows the use of a much smaller wire for the additional winding than for the main winding included in the power circuit. Therefore, the introduction of additional winding does not actually cause an increase in the overall dimensions of the smoothing throttle. It is advisable to wind the windings simultaneously in two wires. The use of a smoothing throttle with a specially introduced additional winding as a voltage sensor proportional to the load current favorably distinguishes the proposed device from the known one, since in this case, while maintaining the high performance of the protection circuit, additional power losses due to the inclusion of a separate sensor in the circuit are preserved. resistor. As a result, the efficiency of the voltage regulator with overload protection is increased. Claims of the Invention Pulse voltage regulator with overload protection, containing a regulating element connected to one of the power buses, to the control input of which the output of the pulse control unit, the input connected to the measuring and amplifying node, and a voltage sensor proportional to the load current, and threshold device, the inputs of which are connected to the sensor outputs, and the output is connected to the input of the control unit, with the output power output of the regulating element through a smoothing throttle cone One of the output pins, characterized in that, in order to increase the efficiency, an additional winding is introduced into the smoothing choke, one of the terminals of which is connected to the main winding of the same name, and two other winding of the same name are connected to the inputs of the threshold device, and the number of turns of the additional winding winding is equal to the number of turns of the main. Sources of information taken into account during the examination 1. USSR author's certificate No. 400888, cl. G 05 F 1/58, 1970. 2. USSR author's certificate number 654941, cl. G 05 F 1/58, 1979.