SU1631532A1 - Secondary power system - Google Patents

Abstract

The invention relates to electrical engineering, in particular, to power supplies of electronic equipment. The purpose of the invention is to increase reliability. The system contains stabilizing sources 1.1 - 1.N DC voltage, sensors 2.1 - 2.N current, measuring comparators 3.1 - 3.N, control comparators 4.1 - 4.N, separation diodes 5.1 - 5 N , two-wire power lines 6.1-6 N, two-wire feedback lines 7.1 -7.N. If at least one of the sources, for example, source 1 and 2, the load current becomes greater than the other, the signal after diode 5.2 is decisive. In this case, for control comparator 4.2, the signals at both inputs will be the same. The signals at the non-inverting inputs of the other control comparators will be greater than at the inverting inputs. As a result, these comparators produce signals that act on the control inputs of the respective sources, and load currents are equalized between the sources 1.1-1.N. 1 il. (Ls

Description

The invention relates to electrical engineering and is intended for use in the implementation of the power supply of the responsible electronic equipment.

The purpose of the invention is to increase the reliability of work.

The drawing shows a functional diagram of the proposed secondary power supply system.

The system contains 1.1-1.N stabilizing voltage sources, 2.1-2.N current resistance sensors, 3.1-3.N measuring comparators, 4.1-4.N control comparators, 5.1-5.N separation diodes, two-wire power lines 6.1-6.N and two-wire feedback lines 7.1 -7.N. The diagram also shows the load 8. Positive output terminals of sources 1.1-1.N directly, and negative output terminals through current sensors 2.1-2.N are connected with appropriate pins for connecting the load. The non-inverting inputs of measuring comparators 3.1-3.N are connected to the outputs of current 2.1-2.N sensors. The inverting inputs of the control comparators 4.1-4.N are connected in parallel to the non-inverting inputs of the measuring comparators 3.1-3.N. Dividing diodes 5.1-5.N are connected between the outputs of the measuring commutator of rators 3.1-Z.M and connected in parallel

inverting inputs of measuring comparators 3.1-3.N and non-inverting inputs of control comparators 4.1-4.N. The outputs of the latter are connected to the control inputs of sources 1.1-1.N.

The system works as follows.

In the normal mode, with identical load currents of steam / pulse-working sources 1.1-1.N, the signals at both inputs of the measuring comparators 3.1-3.N are the same and equal to the output signals of the current 2.1-2.N sensors, since the measuring comparators 3.1-3. N work in repeater mode. At the same time, at both inputs of the control comparators 4.1-4.W, the signals are also identical. Thus, the control comparators 4.1-4.N do not affect the controls of the sources 1.1-1.N.

If at least one of the sources, for example, the source 1.2, the load current becomes greater than the others, the signal at the output of the measuring comparator 3.2 and after the diode 5.2 is greater than the others. 8, because the cathodes of diodes 5.1-5.2 are combined, the signal after diode 5.2 is decisive. In this case, for control comparator 4.2, the signals at both inputs are the same, since the signals at the inputs of measuring comparator 3.2 are also the same. The signals at the non-inverting inputs of the remaining control comparators become larger than at the inverting inputs, where the signals from the corresponding current sensors are received. These comparators ultimately produce signals that act on the control inputs of the respective sources. As a result, currents between parallel-operating 1.1-1.N. sources are equally distributed.

The operation of sources 1.1-1.N is identical and the absence of the division of sources into the master and slave predetermines the high operational reliability of this

power systems.

Claims (1)

Claims of the invention A secondary power supply system comprising N stabilizing voltage sources of direct current, one unipolar output terminals of which are directly, and other unipolar output leads through individual current sensors connected to the corresponding terminals for connecting the load, (N-1) measuring comparators, the non-inverting inputs of which are connected to the outputs of current sensors related to the second and subsequent stabilizing sources, characterized in that to increase the reliability of operation, an additional measuring comparator, N control comparators, and N cross-section diodes were introduced into it, the non-inverting input of an additional the measuring comparator is connected to the output of a current sensor belonging to the first stabilizing source; the inverting inputs of the controlling comparators are connected in parallel with a non-inverting the inputs of the corresponding measuring comparators, separator diodes are connected between the outputs of the measuring comparators and the connected parallel inverting inputs of all measuring comparators and the non-inverting inputs of all control comparators, and the outputs of the latter are connected to the control inputs of the corresponding stabilizing sources.