SU875517A2 - Controllable discharger - Google Patents

Description

 , -one . : The invention relates to electrophysics and can be used to create impulse current and voltage generators in various electrophysical installations, pulsed light sources and electrical technology. According to the main author. St. 527786 a controllable arrester containing conductive buses, two main electrodes and one control unit located between the main, a dielectric and an initiating impulse channel, for example a cable connected to the control electrode with one pole, is known on the other hand, the electrode electrode is located on one side of the dielectric whose length is less than the minimum distance between the main electrodes, and the other side of the dunglock is equipped with a conductor, electrically connected to one of the main electrodes and the other pole la {initiating pulse. The operation of this device lies in the fact that when the initiating impulse is supplied, which has a steep ont, discharges in the form of a multichannel grid develop from the control electrode, and the discharge of the main circuit of the accumulator takes place. The inductance of the known controlled discharge and current carrying capacity depend on the number of discharge channels formed. The disadvantages of the known controlled discharge include the instability of the discharge characteristics, which is due to the fact that the number of streamers and discharge channels formed from impulse to impulse is not constant, and consequently, the inductance of the entire discharge circuit is also inconstant. In addition, it is impossible to determine in advance the inductance of the generated arrester, since it depends on the number of channels developed per unit length of the igniting electrode and the uniform distribution of the discharge channels over the surface of the diesel power unit. The purpose of the invention is to stabilize the discharge characteristics (response time and inductance of the discharge) by stabilizing the number of discharge channels. This goal is achieved by the fact that the dielectric is made with a non-uniform dielectric constant

structure, in the form of periodic inclusions oriented along the discharge gap.

In addition, the dielectric can be made of a PCB with inclusions of ferroelectric material.

FIG. 1 Schematically shows the general view and the top view of the proposed controlled discharge; figure 2 - the implementation of the dielectric.,

Electrodes 1 and 2 and control

the electrode 3, made in the form of strips, is located on a dielectric 4, on the reverse side of which a return conductor 5 passes. Dielectric 4, having a dielectric constant e, has surface areas (including) 6 with a dielectric constant and, for example, filling made in the dielectric e. of the grooves with ferroelectric powder (VaTu) Added to the binder based on epic resins (g. 2), with the grooves arranged perpendicular to electrodes 1 and .2. To electrodes 1 and 2 and the return conductor connected

energy storage 7 and load B.

The discharge works as follows.

An impulse of initiating voltage is supplied to the control electrode 3 and the return conductor 5. A 6m control electrode in both directions along the line to the main electrodes sparks of sliding discharges develop, which are formed mainly in places with pronounced changes in the electric field intensity that is provided by the differences in the dielectric strength of the surface areas of the dnelectrice. The number of discharge channels is determined by the number of irregularities in the structure of the dielectric over the dielectric itsaemosti.

The use of a dielectric with a non-uniform dielectric-permeable structure in the discharge makes it possible to increase the specific capacitance of the dielectric and, with the same ignition pulse parameters, provide a specified number of discharge channels and a given inductance of the discharge.

The proposed design facilitates conditions for the formation of more powerful streamers, which then develop into discharge channels, which stabilizes the discharge characteristics and the operation of the entire discharge circuit as a whole. In addition, the invention allows, with a higher accuracy, to calculate the self-inductance of the gaps in the design stage.

Claims (2)

1. Controlled authorization auth. St. 527786, characterized in that, in order to stabilize the magnitude of characteristics, the dielectric is made with a non-uniform dielectric constant structure in the form of periodic inclusions oriented along the discharge gap. 2. Distribution according to claim 1, which is made with the fact that the dielectric is made of a PCB with inclusions of ferroelectric material. Sources of information taken into account in the examination 1. USSR author's certificate 527786, cl. I 01 T 5/00, 1973. to s4