SU447794A1 - Capacitive Current Compensation Device - Google Patents

Description

The present invention relates to the field of emergency control automation in electrical distribution networks, in particular to devices for electrical safety in networks with insulated neutral.

A device for compensating capacitive ground-fault currents in networks with an insulated neutral, containing a compensating choke connected to a neutral and a phase sensitive element, in which a signal proportional to the reactive component of the operating current is used to set up the compensating choke, is known.

Since the magnitude of the operating current and its phase depend not only on the network capacity, but also on the magnitude of the grounding resistance, the instability of the latter leads to a false adjustment of the compensating throttle.

The aim of the invention is to substantially reduce the effect of the magnitude and instability of the grounding resistance on the tuning accuracy of the compensating throttle and thereby eliminating tuning error.

This is achieved due to the fact that the mains supply and ground through the attachment filter and the high frequency generator are connected to the reference regulated inductance, and the phase sensitive element is connected to the high frequency generator and to the reference inductance.

The drawing shows a block diagram of the proposed device.

The circuit includes: a high-frequency generator (HPC), which generates a current that is supplied to the network through an attachment filter (AF), which is a large resistance for the power frequency current and low for the operating current; reference regulated inductance le, phase-sensitive element (FE) and compensating choke (KD).

Setting compensating throttle in resonance with the network capacity at the industrial frequency is as follows. The operational current of the high-frequency generator flows through the circuit: generator, filter of the connection, network capacity, ground, transient grounding resistance, reference inductance LS and returns to the generator. If there is between the operating current and the phase shift voltage, the value of which is determined by the ratio of Co + Sfp and e (Sfp - capacity of the attachment filter), the phase-sensitive element gives a signal to change the value of the reference inductance Lg until the phase shift becomes zero i.e. the reference inductance will be tuned to resonance at an increased frequency. At the same time, the inductance of the compensating choke is changed. Since there is a linear relationship between the reference inductance and the inductance of the compensating throttle, the compensating choke will be tuned in resonance with the network capacitance at the power frequency.

Since the degree of resonance setting of Co-Sfp-Lg does not depend on the magnitude and instability of the grounding resistance, but is determined only by the sensitivity of the phase-sensitive element, the change in grounding resistance in wide (for operating conditions of mobile electrical installations). .

The use of an increased operating current frequency eliminates the influence of the network insulation resistance on the accuracy of the resonant tuning of the Co-Cfp-Lg circuit. High accuracy of resonant tuning of compensating throttle with network capacity is caused by

the fact that when the tuning error at the operating current frequency (1000 Hz) is ± 20%, the tuning error of the compensating throttle at the industrial frequency (50 Hz) does not exceed ± 1%.

Subject invention

A device for compensating capacitive ground-fault currents in networks with an insulated neutral, containing a compensating choke connected to the neutral and a phase sensitive element, characterized in that, in order to eliminate tuning error, between the threading network and the ground

through the filter. attachments and a high-frequency generator, the reference regulated inductance is connected, and the phase-sensitive element is connected to the high-frequency generator and to the reference inductance

.