SU851641A1 - Device for continuous power supply - Google Patents

Description

(54) DEVICE FOR UNINTERRUPTED POWER SUPPLY

I

The invention relates to electrical engineering and can be used in power supply devices for communications and other responsible consumers.

Devices for automatic input of a reserve are known, comprising a main and a backup power source, a diode, a main and auxiliary thyristors, a control unit with switching capacitors, and additional power sources 1.

Closest to the present invention is a power supply device 2 comprising a main and backup power sources, a diode, a circuit of connected thyristor and a nonlinear element, the first sensitive element, a time relay, the break contact of which is connected in parallel to the nonlinear element, the second sensitive element and the pulse expander, whose closing contact is connected parallel to the thyristor.

A disadvantage of the known device due to the possibility of a self-oscillation process. Auto-oscillations occur when the load is connected to a backup source, and the voltage at the input of the main source (for example, controlled

rectifier) is below the normalized level, but the voltage at its output (due to the absence of load and the charge of the smoothing filter capacitor to the amplitude of the mains voltage) is within the normalized limits. In this case, the sensitive elements of the device signal the actuators for switching load from the backup source on the OSNO8NOY. The load is switched to the main source, while the pressure at its output becomes below normal. Sensing elements give a signal to reversely transfer the load to the backup source, and the main source goes to idle mode and the voltage at its output rises again

15 to normal. After that, the sensitive elements again signal to switch the load from the backup source to the main one. The process is repeated many times.

The purpose of the invention is to increase switching reliability.

The goal is achieved by the fact that in the device for uninterrupted power supply, containing the main and backup power sources, the same outputs of which are intended to connect the load, respectively, through a diode and a circuit consisting of a series-connected nonlinear element and a thyristor, two sensitive elements, the inputs of which are connected to the output of the main source, the input of the first of which is connected to a time relay, the break contact of which is connected in parallel to the nonlinear element, second feel An element, a pulse generator and a pulse expander, the closing contact of which is connected parallel to the thyristor, and the second sensitive element is designed as a threshold element, a measuring element is additionally introduced, the input of which is connected parallel to the input of the main source, and an OR element, to which one output is connected the second sensitive element, the output of the measuring element is connected to the second input, and the output of the element OR is connected to a pulse generator, the outputs of which are connected with a pulse expander and thyristor control electrode. The drawing shows the functional diagram of the device. The device contains the main 1 and backup power sources, connected by the same poles with one load terminal, and the other poles connected to another load terminal, respectively, through diode 2 and a chain of series-connected nonlinear element 3 and thyristor 4. The first sensitive element 5 is connected to the output of the main source 1, and a time relay 6 is connected to its output, the break contact 7 of which is connected in parallel to the nonlinear element 3. The second sensitive element is designed as a threshold element 8 and 9 and the pulse generator. Logic element OR 10 inputs connected to the outputs of the measuring element 11 and the threshold element 8, the output to the input of the generator 9 pulses, the output of which is connected to the input of the expander 12 pulses and control transition of the thyristor 4. The closing contact 13 of the expander 12 pulses connected in parallel to the thyristor 4. The input of the measuring element 11 is connected to the input of the main source 1, and the input of the threshold element 8 with its output. The main power source 1 is made, for example, in the form of a controlled rectifier, the measuring element 11 in the form of serially connected rectifier and Schmitt trigger, the threshold element 8 in the form of voltage divider connected to the Schmitt trigger, the generator 9 pulses in the form of blocking -generator, puller 12 pulses - on a waiting multivibrator with a relay connected to its output. The device operates as follows: The load is powered from the main source 1 through diode 2 if the voltage at the output of source 1 is within normalized limits. At the same time, from the outputs of the measuring 11 and the threshold element through the logic element OR 10, signals do not arrive at the input of the generator 9 of pulses, therefore, its output also does not receive signals at the input of the expander 12 pulses and the control transition of the thyristor 4, the latter is closed, and pin 13 The pulse opener 12 is open, i.e. one of the poles of the backup source 14 is disconnected from the load terminal. In the case of a decrease in the voltage at the output of the main power source 1 below the normalized level, a signal is fed from the output of the threshold element 8 through the logic element OR 10 to the input of the generator 9 of pulses. In this case, the output of the generator 9 receives a signal at the thyristor 4 control transition, the latter opens, connecting one of the poles of the backup source 14 to the load terminal. Simultaneously, the generator 9 receives a signal and an input to the expander 12 pulses, after a specified time its closure contact 13 triggers and shunt the thyristor 4. The puller expander 12 also provides for the thyristor 4 to be bridged by closing contact 13 when the output voltage is below the normalized level main source 1. If the voltage at the output of the main source 1 is below the normalized level, then the generator 9 sends signals to the input a pulse expander 12, with the opening contact 13 of the latter closed, and the source 14 connected to the load. When the voltage at the output of the main source 1 is restored, the signal from the input of the generator 9 pulses is removed, which arrived there from the outputs of threshold 8 and measuring 11 elements via the logic element OR 10, and the input of time relay 6 receives a signal from the output of the sensitive element 5. At the same time actuators work in the following sequence. First, the time relay 6 triggers, opening its contact 7, which shunts the nonlinear element 3, as a result of which the internal resistance of the load supply circuit from the backup source 14 becomes greater than the internal resistance of the main source 1, therefore the latter takes up the load. Then the closing contact 13 of the pulse expander 12 is returned to its original position and the pole of the backup power source 14 is disconnected from the load terminal. Then blur

Claims (1)

Claim Device for uninterrupted power supply, containing the main and backup power sources, of the same name, the outputs of which are designed to connect the load respectively through a diode and a circuit consisting of a series-connected nonlinear element and a thyristor, two sensitive elements, the inputs of which are connected to the output of the main source, the output of the first of which is connected to a time relay, the disconnecting contact of which is connected parallel to the non-linear element, the second sensitive element, the pulse generator and the extension Pulse watcher, the closing contact of which is connected in parallel to the thyristor, characterized in that, in order to improve the switching reliability, the second sensitive element is designed as a threshold element, a measuring element is additionally introduced, the input of which is connected to the main source parallel input, and the logical element OR, one input of which is connected to the output of the second sensitive element, the output of the measuring element is connected to the second input, and the output of the element OR is connected to the pulse generator, the outputs to connected to the pulse expander and the thyristor control electrode.