SU1059640A1 - Redundant power supply unit - Google Patents

Abstract

A RESERVED POWER SUPPLY DEVICE, containing the main and backup power sources, n-load, a key amplifier connected to the backup source, the control input of which through the Zener diode is connected to the sensor of the correct operation of the main source, as a simple sensor work applied transistor, the base of which is connected to the load, and the emitter-collector junction - between the minus output of the main source and the cathode of the zener diode.

Description

The invention relates to techniques for power supply with low-voltage direct current and can be used, for example, for * powering electronic equipment that does not interrupt power supply. 5

A device for redundant power supply, where the main and backup power sources are connected to the load through decoupling diodes [1]. 10

However, in this device, the priority of the main source over the backup is provided only when the voltage of the backup source is equal to _; but or lower than the main voltage, but (5 this condition cannot always be maintained. If, for example, galvanic cells are used as a backup power source, the open circuit voltage of which is much 20 higher than the operating voltage, then power in such a device will come from them regardless of whether the main source works or not until their voltage is equal to the voltage of the main source.This situation means premature partial or full discharge of the backup source and is unacceptable __

Closest to the proposed device is a redundant power supply, containing the main and backup power sources, the load included in the backup source circuit of a key amplifier, 35 whose control input is connected through a zener diode to the sensor for proper operation of the main source {21. The purpose of the invention is simplification. This goal is achieved 40 by the fact that in the redundant power supply device containing the main and backup power sources, the load is included in the backup source circuit of the key amplifier, the equalizing input of which through the zener diode is connected to the sensor for proper operation of the main source, A transistor was used as a sensor of good operation, the base of which is connected to the load, and three emitter were placed between the minus terminal of the main source and the cathode, the emitter-collector junction.

The drawing shows a schematic diagram of a redundant power supply device

The device consists of a main 1 and a backup 2 power sources', load 3, a sensor of good operation of the main source, made on transistor 4, second transistor 5, zener diode 6 and resistor 7.

The device operates as follows.

If the main source 1 is turned on, then through the emitter-base junction of the transistor 4 the current of the source flows to load · 3, so that the transistor is open until saturated. A current determined by resistor 7 flows through its collector. A voltage difference between sources 1 and 2 is applied to the zener diode 6 and the emitter-base junction of transistor 5, minus the collector-emitter voltage of transistor 4, which is small in this case. If the backup source 2 has a higher voltage, then this difference is applied to the zener diode in reverse polarity. The zener diode must be selected with a breakdown voltage slightly larger than the maximum possible voltage difference of the sources, then it will be locked and the base current of the transistor 5 is absent. If the main voltage 1 has a larger voltage, then the zener diode is biased in the forward direction, however, the emitter-base transition of transistor 5 is closed by the voltage difference of the sources. In both cases, transistor 5 is closed and the backup source 2 is disconnected from load 3.

When the current from the main source 1 ceases for some reason, the transistor 4 closes. The current through the resistor 7, previously selected by the collector of the transistor 4, now flows through the zener diode 6 to the base of the transistor 5, which opens and connects the backup source 2 to the load 3. The main source 1 is disabled by the reverse emitter junction of the transistor 4.

. Transistor 4 can be turned on inversely by swapping its emitter and collector. Moreover, due to the fact that the saturation voltage of the inverse switch is less, the permissible limits for the voltage difference between sources 1 and 2 are somewhat expanded.

The use of the proposed device is most appropriate for field and on-board equipment having low power consumption, when sources with unstable voltage, for example, galvanic and (or) solar cells and batteries, are used as one or both power sources.

ВНИИПИ Order 9852/56 Circulation 617 Subscription

Branch of PPP Patent, Uzhgorod, Project 4,

Claims (1)

A RESERVED POWER SUPPLY DEVICE containing main and backup power sources, such as a load, a key amplifier included in the backup source circuit, the control input of which is connected through a zener diode to a sensor of normal operation of the main source, characterized in that, for the sake of simplification, as a sensor of operational In operation, a transistor was used, the base of which is connected to the load, and the emitter-collector junction is between the negative output of the main source and the zener diode cathode.