SU288060A1 - IMPACT SUPPLY CIRCUIT - Google Patents

Description

Known shock excitation circuits, in which spark dischargers are used as the switching element, have considerable high frequency losses and energy in the dischargers.

The purpose of the invention is to reduce and lose. . my discharge to the commutator.

For this, in the proposed circuit, parallel to the spark gap of the arrester, a capacitor connected by an additional switch is turned on through the inductance.

FIG. 1 and shows the principle of the proposed device; in fig. 2 - time dependencies of currents in the circuit elements.

The arrester / is connected to the switched circuit 2, which can be in a particular case either a serial LC circuit (striking circuit) or the Waibel line. To the spark gap of the arrester / through inductance 3 and the power switch capacitor 4. parallel to which the switch is turned on 5.

In the initial state, the capacitor 4 is charged up to the voltage E. At the time of the triggering of the arrester / through its spark gap, in addition to the high-frequency current r there will pass a current / due to the discharge of the capacitor 4 (see Fig. 2). Current g,

from the moment of time to / / 2 will be replaced by approximately the following law:

f L Isin,

I L and

At the time of / 2. the voltage on the capacitor 4 will be 0. This triggers the switch 5, the bypass capacitor 4. The current / s will slowly fall off. In the case of using as a switch 5 a device of the type “valve, for example, gas tube, the gas tube is switched on also approximately at time 2). For this, the gas tube is turned on so that the polarity of the initial voltage on it corresponds to a nonconductive condition , and at time t, the polarity on the electrodes changes sign and the gas turbine is ignited.

Inductance 5 and capacitor 4 are chosen such that, max. Thus, the current iJ, through the discharge 1 during the high-frequency imiuls (with the exception of the initial time interval O - / i), will be jLMeTb one and the same way. A drop of 1n in the nscreen gap remains unimportant and significant, which means that there is no loss of high-frequency energy in the discharge (its distance resistance is zero). The energy released from the gap will be removed

auxiliary circuit consisting of inductance 3 and capacitor 4.

Subject invention

Shock excitation circuit containing a switched circuit and a high frequency

spark, characterized in that, in order to reduce the losses introduced by the discharge switch into the switched circuit, a capacitor shunted by an additional switch is connected in parallel with the discharge gap of the discharge switch.