SU1711288A1 - Back-up dc supply system - Google Patents

Abstract

The invention relates to electrical engineering, in particular to uninterruptible power supply devices for responsible consumers, and can be used in power installations of automation, computer technology and communications. The purpose of the invention is to increase the efficiency when operating from a battery. The system contains several voltage regulators 3 and 4, the input connected to the mains supply 8, and the house is connected to the load 7. When the supply voltage drops, the load is powered by the battery 9 connected through the same stabilizers 3 and 4. However, if the voltage on the battery 9 becomes equal to the allowable voltage on the load 7. then the power of the latter comes directly from this battery 9. 1 sludge.

Description

The invention relates to electrical engineering. namely, uninterruptible power supply devices for responsible consumers, and may find application in automation equipment, computer equipment and communications.

The purpose of the invention is an increase in efficiency when operating on battery power.

The drawing shows a functional diagram of a DC power supply system with redundancy with two channels for converting AC voltage to DC.

The redundant DC power supply system contains rectifiers 1 and 2. The outputs of which through voltage stabilizers 3 and 4 with decoupling diodes 5 and 6 at the output are connected to terminals for connecting load 7. The inputs of rectifiers 1 and 2 are connected to AC network 8.

The system includes a rechargeable battery 9, a locking power diode 10, a first contactor 11 with a group of NC contacts 12 and 13, a second contactor 14 with a delayed shutdown with make contact 15. The voltage sensor 16 is triggered when the battery 9 reaches an acceptable level. A circuit from the group of NC contacts 12 and 13 of the first contactor 11 with a series-connected NO contact 15 of the second contactor 14 is connected between the outputs of the rectifiers 1 and 2 of the same name and the terminal for connecting the load 7. The common point of the above contacts 12 and 13, 'and 15 is connected via a shut-off diode 10 to the corresponding terminal of the battery 9. The output contacts 17 and 18 of the voltage sensor 16 are connected in series with the windings of the contactors 11 · and 14. In parallel with the winding of the contactor 14, a delay circuit for disconnecting the contactor 14 is connected, in made in the form of a capacitor 19.

The system operates as follows.

The alternating voltage of the network 8 is fed to the input of converters 1 and 2, where the alternating voltage is converted to constant unstabilized, this voltage is stabilized in the stabilizers 3 and 4 to the required limits and supplied to the load 7. It is fed to the voltage of the converters 1 and 2 through a shutoff power diode 10 and a group of NC contacts 12 and 13 is connected to the battery 9. Since the voltage at the output of the converters 1 and 2 is obviously higher than from the battery 9, the diode 10 is locked and the battery discharge is not is coming. If the alternating voltage of the network 8 disappears, diode 10 opens and the load 7 is supplied with direct current from the battery 9 through diode 10, a group of disconnect contacts 12 and 13, and voltage stabilizers 3 and 4. When the voltage on the battery 9 decreases to the upper level of stability, the voltage sensor 16, contactor 1.4 is activated and its contact 15 closes, which directly supplies the load 7 from the batteries 9, then the contactor 11, which opens the group of contacts 12 and 13, is activated. voltage of the battery to a lower level of stability of the output voltage, the voltage sensor 16 is activated and opens its contacts 17 and

18, the group of contacts 12 and 13 closes and 20 closes the contact '15 with a time delay equal to the discharge of the capacitor

19, since the windings of the contactors 11 and 14 are de-energized (the discharge time of the capacitor is longer than the closing time of the group of contacts 12 and 13). Prior to the restoration of the alternating voltage, the load 7 is supplied with direct current from the battery 9 through a diode 10, a group of contacts 12 and 13, and voltage stabilizers 3 AND 4 30.

Claims (1)

Formula of the invention A redundant DC power supply system comprising 35 rectifiers, the outputs of which through η voltage stabilizers with decoupling diodes at the output are connected to the terminals for connecting the load, and the inputs of the rectifiers are connected to an alternating current network 40, a backup source circuit consisting of a series-connected battery / battery and a shut-off power diode, the first output of this circuit is connected to the terminal of the corresponding polarity for connecting the load, which means that, with in order to increase the efficiency when operating on battery power, the system is equipped with two contactors, the first with a group of NC contacts, 50 second with a delay for disconnection and a make contact, as well as a voltage sensor that triggers upon the battery voltage reaching an acceptable voltage level at 55 load, a circuit from the group of NC contacts connected in series with the NO contact is connected between the unipolar outputs of the rectifiers and the terminal for connecting the load, __ and the common point is name contacts 1711288 6 is connected to the second output of the circuit; connected to the power supply circuit of the windings of the redundant source, the output of the sensor is voltage contactors.