SU1065846A1 - Redundant stabilizer d.c. voltage source - Google Patents

Abstract

A RESERVED STABLE STANDARD VOLTAGE SOURCE, containing at least two identical stabilization channels, each of which consists of a dc voltage regulator with a series regulating element connected to a dc voltage converter, the output of which is connected to a bridge rectifier, each with a different voltage generator. that, in order to achieve full redundancy of the prostate by means and at the same time protecting the primary power source from overload, They are made on separate transformers, and the rectifiers connected to their secondary windings have two series-connected diodes in each arm of the bridge circuit and are connected in pairs and in parallel with respect to output terminals.

Description

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4 05 The invention relates to electrical engineering and can be used to power various electrical and radio devices, automation devices, computer technology, etc. A redundant DC voltage regulator is known which contains two control channels connected through dividing diodes parallel to the output terminals, in which each channel has a series regulating element, a comparator, an additional comparator and a protection node made in the form of a thyristor and an actuator, with a pair; thyristor and the executive node of the protection node, included a zener diode}. In the known stabilizer, a reliable supply of several load channels with galvanic isolation of their circuits is not ensured. The closest to the proposed technical object is a redundant stabilized DC voltage source containing two identical stabilization channels connected via dividing diodes to the power buses of the converters, a control node with an executive element and two DC converters with alternating voltage windings, one of which is connected through the half-wave rectifier to the output of the integrating KS circuit and the input circuit of the transistor control node, The output through an actuator ™ is connected in parallel to the input of one of the two control channels and the input of the integrating KS circuit, each of the same pair of power supply buses having the same polarity of the DC to AC converters, respectively, through the opening and closing contacts of the actuator of the control unit to the common point of connection of the anodes of the separation diodes of the control channels, and each of the other pair of power buses of the same polarity of the converters is connected to a common The power supply bus of control channels 2. The disadvantage of a redundant stabilized DC voltage source is a decrease in the voltage on the loads, causing the power object to lose its functionality for the time required to switch the output voltage of the stabilization channels from the failed converter to redundant and determinable constant time of the integrating KS circuit, as well as the switching time of the actuating element of the protection unit. In addition, in a known stabilizer, the failure of any diode of the distributors leads to the failure of the redundant DC voltage regulator, which reduces its reliability, since it does not provide full redundancy. In this case, the failure of any of the rectifier diodes leads to the failure of the stabilizer of this channel and overload of the primary power source. The latter creates an emergency situation for all devices powered from the same primary source. The purpose of the invention is to achieve full redundancy with simple means while protecting the primary power source from overload. The goal is achieved by the fact that in a redundant stabilized source of constant voltage, containing at least two identical stabilization channels, each of which consists of a constant voltage stabilizer aTORa connected to its output of a constant voltage transformer the output of which is connected to the bridge rectifier, the converters are made on separate transformers, and the connectors connected to their secondary windings have a bridge in each arm Two circuits are connected in series with the diode and are connected in pairs in parallel with respect to the output pins. The drawing shows a functional diagram of a redundant stabilized DC source. The device contains two identical stabilization channels 1 and 2, made on stabilizers with a sequential regulating element and converters 3 and 4. Transformers 5 and b have primary windings 7 and 8 respectively and output windings 9л-9, п and 10.1- 10.p., Respectively, to which pod; -1yuche.ny bridges rectifiers 11.1-ll.n and 12.112. P, respectively, are connected in pairs-parallel with respect to output filters 13.1 - 13p, to which the loads 14.1-14.P. each strand of the bridge rectifier circuit is connected two in series 's, diode that conventionally indicated in the drawing device operates as follows. When you turn on the source, both channels work simultaneously. 1 and 2 stabilization, each of which is its own load (in this case, the loads are the power supply circuits of the converters 3 and 4, respectively) and the converters 3 and 4 connected by power buses to the outputs of the stabilization channels. The voltages from the primary windings 7 .and 8 of transformers 5 and 6 are transformed into output windings 9.1 ,, .. 9.P and 10.1, .., 10.p and are fed to rectifiers 11.1, ... And, n and 12.1 , ... 12.p. The outputs of rectifiers 11.1 and 12.1, ... 11, p and 12.p, having the same values of rectified voltage, are connected in pairs and in parallel and connected through filters 13 Lg. 13.p to loads 14.1 .., 14.p. Thus, during normal operation of the power source, each of the galvanically unloaded loads, for example 14.1, is carried out from two rectifiers 11.1 and 12.1 connected in parallel. Failure within one of the stabilization channels or converters leads only to a decrease in the output voltage of the converter in which the failure occurred. At the same time, due to pair-parallel switching of rectifiers, unlike the prototype, the voltage on the loads does not decrease. For a short time, the second (healthy) channel and the converter continue to operate and the voltage is applied to the loads uninterruptedly from the rectifiers of the working channel converter. The rectifiers of the converters are made according to a bridge circuit with two series-connected diodes 1 and in each arm, as a result of which a short circuit of one of the diodes does not lead to the failure of the rectifier, since the rectifying diode connected in series with the failed one. Breakage of one of the diodes leads to the failure of the rectifier, since its output voltage decreases, however, due to the pair-wise connection of the rectifiers, the load voltage is supplied from a working rectifier connected in parallel to the failed, i.e. Any failure of one of the rectifier diodes does not lead to the failure of a redundant source, which increases the reliability of the latter and provides full backup. Thus, the invention makes it possible to eliminate the reduction of the voltage on the load at the moment of switching from the failed to the backup channel, thereby maintaining the operability of the power supply object, and to increase the reliability of the stabilizer due to full redundancy.

Claims (1)

The stabilized DC voltage source, comprising at least two identical channels stabilizations, each of which consists of a constant voltage stabilizer with successive regulating element connected to the DC voltage converter ego'vyhodu, _b whose output is connected to the bridge rectifier, characterized in that, in order to achieve full redundancy by simple means while protecting the primary power supply from overload, they are connected to separate transformers, and rectifiers connected to their secondary windings have two diodes in series in each arm of the bridge circuit and are connected in parallel with each other in relation to the output terminals. £ SU ,. „1065846> 106584b