RU2008134964A - METHOD FOR DIRECT, without converter, ARC DISCHARGE CURRENT SOURCE spark gap with a breakdown voltage and the glow discharge, greatly exceeds VOLTAGE IS ISTOCHIKA AND POSSIBILITY FOR PRODUCING HIGH EFFICIENCY AND HIGH CURRENT DISCHARGE CAPACITY AND HIGH VOLUME PLASMA WITH HIGH CONDUCTIVITY - Google Patents

Abstract

1. A method of obtaining a direct, without converters, arc discharge of a current source into the spark gap with a breakdown voltage and a burning voltage of a glow discharge that is many times higher than the voltage of this source, and the possibility of obtaining high currents and discharge powers, as well as large plasma volumes with high conductivity - refers to devices using the energy of spark discharges; consists of a plasma generator, consisting of a capacitor, the main source of discharge energy of the plasma generator, which provides a large volume of plasma with high conductivity and is connected in series with the high-voltage winding of the step-up transformer, with a small number of turns of the windings and a small resistance of the high-voltage winding up to less than one Ohm; a small transformer discharge energy provides short-term self-conductivity of the spark gap, sufficient for the appearance of an arc discharge of a charged plasma generator capacitor, and is characterized in that the resulting plasma is used to close the spark gaps of additional spark gaps in an amount of at least one; the spark gaps are located on the path of plasma propagation, have a breakdown voltage and a glow discharge voltage for a given length of their spark gap, greater than the voltage of direct or alternating current sources connected to the spark gates, while the task of the plasma generator is to create a plasma with a volume sufficient to overlap the contacts of additional spark gaps, conductivity, providing the occurrence of arc discharges. ! 2. The method according to claim 1, in pla

Claims (5)

1. A method of obtaining a direct, without converters, arc discharge of a current source into the spark gap with a breakdown voltage and a glow voltage of a glow discharge that is many times higher than the voltage of this source, and the possibility of obtaining high currents and discharge powers, as well as large plasma volumes with high conductivity - refers to devices using the energy of spark discharges; consists of a plasma generator, consisting of a capacitor, the main source of discharge energy of the plasma generator, which provides a large volume of plasma with high conductivity and is connected in series with the high-voltage winding of the step-up transformer, with a small number of turns of the windings and a small resistance of the high-voltage winding up to less than one Ohm; low transformer discharge energy provides short-term self-conductivity of the spark gap, sufficient for the appearance of an arc discharge of a charged plasma generator capacitor, and is characterized in that the resulting plasma is used to close the spark gaps of additional spark gaps in an amount of at least one; the arresters are located on the plasma propagation path, have a breakdown voltage and a glow discharge voltage for a given length of their spark gap, greater than the voltage of direct or alternating current sources connected to the spark gap, the task of the plasma generator is to create a plasma with a volume sufficient to overlap the contacts of the additional spark gap, and conductivity, providing the occurrence of arc discharges. 2. The method according to claim 1, in the plasma generator and additional arresters can be used the same or different current sources, including with different voltage. 3. The method according to claim 1, the plasma obtained by discharging a current source in an additional arrester can be used to create conditions for the occurrence of arc discharges in other additional arrester when fulfilling the requirements of claim 1, for the placement of additional arrester and parameters of the obtained plasma. 4. The method according to claim 1, in order to obtain the highest efficiency, pulse currents and power as a current source connected to an additional spark gap, it is advisable to use a charged capacitor having the lowest internal resistance for the discharge current. 5. The method according to claim 1, to reduce the energy used to generate plasma by the plasma generator, it is advisable to use a plasma generator that generates plasma conductive jets, at least one, for closing the contacts of the arresters.