SU706905A1 - Adjustable device for longitudinal capacitive compensation - Google Patents

Description

I

The invention relates to electrical network equipment and can be used to improve the technical and economic performance of AC power lines.

Installations of longitudinal capacitive compensation are known, designed to improve the voltage mode in networks, consisting of a capacitor bank connected in series with the load, and a capacitor protection unit 1.

Also known is the installation of a longitudinal capacitive compensation comprising a sectioned capacitor bank connected in series, a capacitor overvoltage protection unit and a capacitor bank 2 capacity control unit.

In these longitudinal capacitive compensation (UPEC) installations, the regulation of the capacitance, and hence the voltage addition, is carried out by the voltage value at the UPEC switching point, which reduces the efficiency of the UPEC and may even lead to a deterioration of the voltage conditions at the terminals of the electrical receivers.

The aim of the invention is to improve the quality of the voltage at the terminals of the power consumers.

This goal is achieved due to the fact that the adjustable longitudinal capacitive compensation installation contains a partitioned capacitor bank, a capacitor overvoltage protection unit and a capacitor bank capacitance control unit containing a switch, and additionally contains a capacitor capacitor current sensor, rectifier bridge, aperiodic element of the first type, zener diode, dynistor and resistors, and the outputs of one diagonal rectifier bridge are connected to the current sensor, and to you odes second diagonal of the bridge rectifying unit connected chain of series connected zener diode and a resistor, the parallel resistor across the Shockley diode and a resistor connected to the switch control unit.

A triac can be used as a switch in UPEC.

The drawing shows the scheme UPEC.

The installation of longitudinal capacitive compensation consists of series-connected sections of a battery of capacitors 1 and 2, a circuit 3 for protecting capacitors against overvoltages, a transreactor 4, a rectifying bridge 5, an aperiodic link of the first kind 6, a series-connected zener diode 7 and a resistor 8, a dynistor 9, a limiting resistor 10, the control circuitry of the switch 11 and the switch 12. In the case of the TYSPOLNovaniye, the blocks 11 and 12 are combined as a switch of the triac.

The principle of operation of the proposed UPEC is as follows.

Voltage proportional to the load current is removed from the transreactor (current sensor) 4 and fed through the rectifying bridge 5 to the aperiodic link b. The purpose of i (fflie pbs Lednego is to build a circuit against false positives with a short-term increase in current. At the output of aperiodic link 6, zener diode 7 and resistor 8 are turned on. Dinistor 9 is designed to create a control pulse with a steep front, which is fed into the control circuit of switch 12.

As the load current increases, the voltage at the output of the transreactor 4 rises. The rectified voltage from the rectifying bridge 5 through the aperiodic link 6 is fed to the zener diode 1. At a certain value of this voltage, the zener diode 7 breaks through and a current flows through the resistor 8. Under the action of the voltage across the resistor 8, the dynistor 9 opens and the control signal through the resistor 10 enters the control circuit 11 of the switch 12. The switch 12 opens its contacts, and a load current flows through section 1 of the capacitor bank. The voltage additive produced by the capacitor bank increases and the voltage across the load rises.

When the current in the network decreases, the voltage on the Zener diode 7 decreases and

equal to its voltage, the breakdown of the zener diode control signal is removed. The switch 12 closes its contacts, shunt section 1 of the capacitor bank. The stress additive produced by UPEC decreases.

The use of the proposed installation of longitudinal capacitive compensation installation will improve the voltage quality of consumers without reducing the level of reliability of power supply.

Claims (2)

Invention Formula 5 t Adjustable installation of longitudinal capacitive compensation, comprising a partitioned capacitor bank, a capacitor protection unit, overvoltage, and a capacitor bank capacitance control unit, containing a switch, characterized in that, in order to improve the quality of the voltage on the terminals of the receivers, the capacitor capacitance control unit contains current sensor, rectifying bridge, aperiodic element of the first kind, zener diode, dynistor, and resistors, with the conclusions of one rectifying bridge diagonal under oedineny the sensor Toka, and to the terminals of the other diagonal of the bridge rectifying unit connected chain of series connected zener diode and a resistor, the parallel resistor across the Shockley diode and a resistor connected to the switch control unit. 2. Installation under item 1, characterized in that a simulator is used as a switch. Sources of information taken into account in the examination 1. USSR Author's Certificate No. 232365, cl. H 02 J 3/18, 1952. 2. US patent number 3457459, cl. 317-12, 1965.