SU700886A1 - Controllable spark switching device - Google Patents

Description

The invention relates to the field of high-voltage impulse technology and can be used in electrical equipment tests, physical studies of the electrical strength of the insulation in the field of application of aperiodic high voltage cut pulses, as well as in the formation of voltage pulses of a special form, for example mountable

The closest of the known devices in the invention is a controlled spark switch containing between high-voltage and grounded leads, series-connected spark gaps, formed by the main electrodes of controlled three-electrode arresters and a parallel circuit of capacitively connected main capacitors, and the adjacent plates of the main capacitors are connected to adjacent electrode electrodes through resistors, which are equipped with intermediate leads connected to ignite they electrodes ukazannELH arrester 1. A disadvantage of the known switch is a large response time, since the breakdown of the subsequent spark gap occurs after the breakdown of the previous spark gap and the beginning of the transition process in the previous circuit, i.e. The spark gaps are alternately triggered, and the discharge time of the spark gap is determined by the sum of the response times of the individual spark gaps. In addition, due to the occurrence of voltages on the resistances connecting the capacitances and spark gaps, especially at the front of the voltage pulse, spontaneous premature breakdowns of the spark gaps and the discharge as a whole are possible.

The purpose of the invention is to reduce the response time and increase the reliability of the switch. The goal is achieved by the fact that a well-known controlled switch is equipped with an additional resistor, capacitors and a controllable discharge, with an additional resistor connected between the high-voltage output and the adjacent capacitor plate adjacent to it, the intermediate output of the additional resistor connected to the igniter , additional capacitors are connected in parallel with the indicated spark gaps, and additional controlled discharge A is connected between the adjacent plates of two main capacitors and a grounded lead, and its control electrode is connected to a triggering device.

The inclusion of additional capacitors in parallel with the spark gaps reduces the magnitude of the resulting voltages on the resistors connecting the spark gaps and the main capacitors, which reduces the likelihood of spontaneous premature switching of the switch. Due to the additional capacitors and the additional controlled discharging at the required moment of time, the potential difference arises at all resistors, which leads to almost simultaneous breakdown of the spark gaps. As a result, the switch response time is reduced.

The drawing shows the electrical circuit of the switch with five spark gaps.

The switch contains serially connected controlled three-electrode gaps 1, in parallel which are connected through resistors 2 main capacitors 3. Parallel to the spark gaps, additional capacitors 4 are also connected. Adjacent plates of main capacitors 3, for example, first and second with respect to the earth terminal, are connected to it through three-electrode controlled. The surge voltage 5, which is started up from the triggering device 6. A resistor 7 can be connected between the high-voltage output of the switch and the adjacent plate of the additional capacitor 4, whose resistance is equal to the resistance of the resistor 2.

The switch works in the following way.

When a voltage is applied to the switch, the voltage distribution over the arresters 1 is determined by the capacitances of the main 3 and additional 4 capacitors. The difference of the potentials on the resistors 2 is close to zero. When a control pulse is applied from the triggering device b, the 5 is triggered, changing the potential of the terminals b of the resistors 2 by the voltage to which one main capacitor 3 is charged. The potentials of the second terminals of the resistors 2 determined by the additional capacitors 4 remain unchanged . Thus, a voltage arises on all resistors 2, as a result of which all spark gaps are punctured almost simultaneously, ensuring the operation of the switch.

The execution of the switch according to the proposed scheme reduces the likelihood of premature spontaneous trips, which is especially important for tests that require considerable time to be prepared, as well as in the case of the impossibility of retesting. Reducing the response time is important in the case of using a switch, for example, as a protective switch, as well as in the formation of short voltage pulses.

Claims (2)

Invention Formula one . A controlled spark switch containing between a high-voltage and a grounded terminals a series-connected main controlled three-electrode arresters and a parallel circuit of series-connected main capacitors parallel to them, the adjacent plates of the main capacitors being connected to adjacent electrodes of the arresters through resistors that are equipped with intermediate terminals connected to the ignition arrester electrodes, characterized in that, in order to reduce the response time and increase reliability It is equipped with an additional resistor with an intermediate, output, capacitors and a controlled discharge, and an additional resistor is connected between the high-voltage output and the adjacent capacitor lining adjacent to it, the intermediate output of the additional resistor is connected to the ignition electrode closest to the high-voltage output of the main discharge capacitor. the bottom, additional capacitors are connected in parallel to the main arresters, and an additional controllable arrester is connected between adjacent faces s two major capacitor and the grounded terminal of the switch. 2. The arrester according to claim 1, is designed in that the additional controlled arrester is connected between adjacent plates of the first and second main capacitors adjacent to the grounded terminal. 0Sources of information taken into account in the examination 1. The patent of England No. 1345978, cl. H 3 R, 1974.