SU309401A1 - HIGH VOLTAGE CAPACITOR - Google Patents

Description

This invention relates to high voltage capacitors used, for example, in impulse installations containing capacitive energy storage devices.

When capacitors are discharged to a load with nonlinear resistance, when discharged through cables and in other cases, high-frequency overvoltages occur in capacitive energy storages.

There are known methods for protecting capacitors with the help of resistors installed in the discharge circuit, but these resistances reduce the slope of the discharge current -

and limit it.

A number of capacitors, for example, cosine, used in AC circuits, have built-in active discharge resistances connected in parallel to the capacitor terminals. These resistances provide capacitor discharge after it is disconnected from the mains and limit the high-frequency overvoltage somewhat. However, the inclusion of discharge resistances is unacceptable for pulsed capacitors operating in a multiple charge-discharge mode, since usually the charge time constant is much longer than the discharge time constant for the load, and in charge mode, the capacitors noticeably discharge through specified resistances. In addition, a significant portion of the energy is released in the discharge resistances, and there may be undercharging of capacitors.

In the proposed capacitor, in order to increase the service life or power consumption of high-voltage pulse capacitors, it is proposed to connect low-inductance protective elements consisting of series-connected capacitors in parallel with all or individual capacitor sections.

di resistors and capacitors. These elements make it possible to reduce

amplitude of high-frequency oscillations. Placing elements directly in the dielectric of a capacitor provides a small inductance for their connection.

In capacitors consisting of several

sections connected in series, the security element is connected in parallel to the terminals. In capacitors consisting of a large number of sections connected in series, the elements are also connected in parallel to separate sections.

The optimal variant of connecting the protective elements is selected depending on the design of the capacitor and the electrical circuit in which it should work.