SU920958A1 - Device for longitudinal capacitive compensation - Google Patents

Description

The invention relates to electrical engineering, namely, devices for reactive power compensation. Known devices are longitudinal compensation of reactive power, containing a capacitor bank, connected in series in the load circuit and sparse by gap and switch P. The disadvantage of this device is the presence of two shunt protective devices, which complicates the circuit and reduces its reliability. In addition, the presence of an open spark gap makes such a scheme inapplicable in networks passing in explosive areas, such as mine distribution networks. It is also known device longitudinal capacitive compensation, containing a capacitor bank, shunted by a chain of series-connected resistors and anti-parallel connected thyristors. equipped with a control pulse driver. Such a scheme is simple and explosion-proof G23. The disadvantage of this technical solution is that the capacitor bank is not protected from subharmonic oscillations arising in networks with longitudinal capacitive compensation. The purpose of the invention is to protect the device for longitudinal capacitive compensation from subharmonic vibrations. The goal is achieved by the fact that a longitudinal capacitive compensation device containing a capacitor bank, shunted by a chain of series-connected resistors and anti-parallel connected thyristors equipped with a control pulse shaper, additionally contains a saturation choke and counter-connected avalanche diodes connected in parallel to the choke saturation, which is connected in parallel to the parallel-parallel through the control pulse shapers m thyristors.

The drawing shows the proposed device.

Resistor 1 and parallel-connected thyristors 2 are connected in series with the honey and connected in parallel to the battery of capacitors 3. Control pulse drivers C, counter-connected avalanche diodes 5 and connected to the avalanche diodes 5 in parallel, saturation throttle 6 of low power are connected in series to each other and connected in parallel thyristors 2.

The proposed device works as follows.

When a short circuit occurs, the voltage on the battery of capacitors 3 increases to the voltage of the breakdown of avalanche diodes 5. As a result, the breaking diodes of B 5 The pulse shaper k supplies a pulse of the corresponding polarity to turn on one of the thyristors 2. The battery of capacitors 3 is shunted by resistor 1. 2 is turned off when the current in the shunt resistor 1 passes through O. In the next half of the period, another thyristor 2 also operates in the same way. The voltage across the battery of capacitors 3 does not exceed a predetermined value (the magnitude of the probe diode 5). When subharmonic oscillations occur with an amplitude lower than the voltage of the avalanche diode 5, the choke 6 is saturated and the pulse shapers turn on the thyristors 12. With a short circuit x, the choke 6 duplicates the action

avalanche diodes 5, with a possible exit from the system.

The use of longitudinal capacitive compensation with protection of overvoltages and subharmonic vibrations is possible in any branch of the national economy where there are enterprises with extended and branched electrical networks. The application of the proposed device allows to significantly improve the operating conditions of electric drives of machines and installations, reduce the consumption of cables, reduce the failure of electric motors and the cost of their repair. The economic effect from the introduction of a single installation is 50 thousand rubles.

Claims (1)

Invention Formula A longitudinal capacitive compensation device containing a capacitor bank, shunted by a chain of series-connected resistors and counter-parallel-connected thyristors equipped with control pulse shapers, which, in order to protect against subharmonic oscillations, it additionally contains a saturation throttle and successively connected avalanche diodes connected in parallel to the saturation throttle, which is connected in parallel to the opposing sensor through the pulse shapers parallel thyristors. Sources of information taken into account in the examination 1, Collection of 500 kV Long-distance transmissions, M.-L., 1969, p., 291, rice, 1. 2, Patent of England No. noBlSk, class, H 2 H, 05.31.66