SU858171A1 - Automatic regulator for adjusting arc-extinguishing reactor - Google Patents

Description

(54) AUTOMATIC REGULATOR FOR SETTING THE ARC REACTOR

one

The invention is intended for use in cable AC high voltage electrical networks equipped with arc suppressing factors to compensate for capacitive ground fault current.

An automatic regulator is known for adjusting an arc suppression reactor. in cable networks, containing a j-phase angle measurement unit between the current and the mains voltage, KOTOIIL is connected to the bridge thyristor control unit supplying power to the control winding of the reactor.

However, this device automatically regulates the bias current of the arc-extinguishing reactor only in normal operation of the network. In the case of a single-phase short circuit to earth (OZNZ), the regulator is automatically blocked. At the same time, the automatic resonant tuning of an arc-suppressing reactor after the occurrence of an AOR is very effective and necessary, since unacceptable compensation detuning may occur in this mode, for example, caused by switching operations, emergency disconnection of cable lines. In addition, due to non-linear jO

These volt-ampere characteristics of arc-powered reactors with sub-magnetizations, and their resonant settings in the normal and emergency modes of the network, can be significantly different.

The closest in technical essence to the present invention is an automatic regulator that adjusts an arc-extinguishing reactor with biasing both in the normal mode of operation of the network and in the APS. The regulator contains a transformer: a voltage torus connected to two phases of the mains, a phase-and-sight-like measuring unit, one input of which is connected to the secondary winding of a voltage transformer, an automatic installation unit for scaling the amplitude of the input signal, whose input is connected to a neutral voltage, and the output through the voltage divider to the second input of the phase-sensitive measuring unit, made in the form of a phase-sensitive transistor amplifier. The output of the phase-sensitive measuring unit is connected to the input of the thyristor control unit, which controls the thyristor rectifier

The windings of magnetization of the arc suppression switch &

The principle of operation of the regulator in the Normal network mode and at the OZNZ is based on the measurement of the phase angle between the neutral voltage and the linear voltage of the network, and the linear voltage phase, which is selected as the reference, remains constant in both network modes. in normal mode, the capacitor is connected to one of the mains phases and the position of the neutral voltage vector, during resonant tuning of the arcing reactor in this mode, is determined by which phase the capacitor is connected to. With an APSC, the neutral voltage vector changes its position relative to the linear voltage. The new position of the resonant vector of the voltage of the neutral depends on what phase the earth has closed 2,

However, such an uncertainty of the position of the neutral voltage vector relative to the linear voltage at the APSN leads to significant errors in the tuning of the reactor when any phase of the network is shorted to ground, since the phase of the reference voltage does not change compared to the normal mode.

In addition, the decrease in a1adlite voltage at an AHCS, proposed in the known device, reduces the sensitivity of the regulator, since the phase of the neutral voltage from the detuning compensation in this mode varies by ten times less compared to the normal mode.

The purpose of the invention is to increase the sensitivity and accuracy of tuning arc-arc reactor in single-phase ground mode.

This goal is achieved by the fact that the automatic regulator for setting an arc-suppressing reactor containing a voltage transformer, a phase-sensitive measuring element, whose output through the thyristor control unit connected in series and the thyristor rectifier is assigned to. connected to the bias winding of the arcing reactor, a blocking element, a phase voltage source selection unit of the damaged phase source, a normal mode phase corrector, an emergency mode phase corrector, the blocking element elements and the phase voltage selection unit are connected to the voltage transformer, a normal phase phase corrector input mode is connected to the output of the blocking element, and the output is connected to one input of the phase-sensitive measuring unit, the other input of which is connected through

emergency mode phase corrector with the output of the phase voltage source selector of the source of the damaged phase; the third input of the measuring element is designed to be connected to the additional winding of the arcing reactor.

In addition, the phase-sensitive measuring unit is designed as a series-connected symmetrically ring detector on diodes and a differential DC amplifier.

Fig. 1 shows a functional diagram of an automatic controller for tuning an arc suppression reactor; in fig. 2 - vector diagrams of voltages arriving at the input of the regulator in the normal mode of the network, (o) and after the occurrence of an AOR (5),

The device contains a transformer 1 voltage, a blocking element 2, a phase corrector 3 normal mode, a block 4 for selecting the phase voltage of the source of a damaged phase, a phase corrector 5 for the emergency mode, a phase-sensitive measuring unit b containing a series-connected symmetric ring detector 7 on diodes and a differential amplifier 8 direct current, thyristor control unit 9, thyristor rectifier 10 and arcing reactor 11,

The secondary windings of the voltage transformer 1, connected by the primary windings to the three phases of the network, are connected to the input of the blocking element 2 which is designed to pass the line voltage of the network in normal mode. The line voltage of the network is fed to the input of the phase corrector 3 of the normal mode, by means of which a constant phase shift of the linear voltage is introduced by 90,

Claims (2)

1. USSR author's certificate number 413593, class, H 02 R 13/04, 1971. 2. USSR author's certificate number 618854, cl. H 02 R 13/04, 1974. t / av T At / Fi9.1