SU828188A1 - Electric power supply source - Google Patents

Description

tensioner; in fig. 2 - adjustable voltage regulator.

Each of the circuits contains the regulating element 1, connected by the power leads 2, i to the power circuit, connecting the device input and output, and the control leads 4 to the output of the control unit 5, the protection unit 6 with a resistor current sensor 7 included in the power circuit , and the protective transistor 8, whose collector circuit is connected to the control unit 5, and the emitter-base circuit to the resistor current sensor 7, the pulse correction unit 9 with a capacitor 10 connected by a lower potential output to the emitter of the protective transistor 8, and the upper potential By output via isolation diode II to the collector circuit of the protection transistor 8. The circuits also contain a relay element (transistor)

12 and an additional control unit 13, wherein the output circuit of the relay element 12 is connected between the input terminal of the device and the upper potential output of the capacitor 10, and the input of the element 12 is connected to the output of the node 13, the input of which is connected to the load unit 14. Typically, the input of the node 13 is connected to the output of the control node in block 14.

The main task of the power supply is to control the charge of the capacitor 10 by unlocking the charge circuit of the latter at the moment of passing the increased load current, i.e., when the capacitor 10 is discharged through the transistor 8. This synchronization is achieved by coupling the node input

13 with the load unit 14, while the node 13 must provide the input signal of the element 12 with the necessary phase of the load signal so that the switching on of the relay element occurs when the load current decreases below a predetermined level, i.e. when the protection node 6 is turned off. It is this phasing provided by one of the possible schemes of the additional control unit 13 (see Fig. 1).

In the circuit of the adjustable voltage converter (see Fig. 2), the protection and correction nodes 6 are open; therefore, the matching of the node 13 with the element 12 must be carried out through electrically isolated elements, for example, using optoelectronic elements. Galvanic isolation is not required if nodes 6 and 9 are located at the input of the converter, however, an additional power supply is also needed, which also forms the input of the device.

In general, the work proposed

power supply at pulse

The correction occurs as follows.

l moment of current overload

a predetermined value, the relay element 12 is opened, the protective transistor 8 is opened and the capacitor 10 is discharged through it, which allows the required

pulsed load current. After the capacitor 10 is discharged, the transistor 8 closes, the load current decreases below a predetermined value, the relay element 12 closes and the capacitor 10 is charged through it. With a cyclic load, the process repeats with the frequency of change of the load current.

This invention is applicable to a wide class of power sources.

and loads, which allows to increase the economic efficiency of radio power supply systems.

Claims (1)

Invention Formula A power supply containing a regulating element connected by power leads to the power circuit, and control leads connected to the output of the control unit, a protection node with a resistor current sensor connected to the power circuit, and a protective transistor whose collector circuit is connected to the control node - base circuit - to a resistor current sensor, pulse correction unit with a capacitor connected by a lower potential output to the emitter of the protective transistor, and through an upper potential output through An element, such as a diode, is connected to a collector circuit of a protective transistor, characterized in that, in order to reduce the output voltage ripple and expand the frequency range of the load current, a relay element is introduced into it, for example, a transistor, and an additional control node, while the output circuit of the relay element is connected between the input terminal of the device and the upper potential terminal of the capacitor, the input The relay element is connected to the output of an additional control unit, the input of which is connected to the output terminal. Sources of information taken into account in the examination 1 USSR author's certificate According to application number 2461084, cl. G 05F 1/56, 1977. 2 USSR author's certificate according to application no. 2580796, cl. G 05F 1/58, 1978.