Very Fast Rise-Time Short-Pulse High-Voltage Generator

This paper relates to the development of an ultrafast compact system readily applicable to the field of ultrawideband microwave applications such as transient radar or laser drivers. The design, production, and experimental results of a short-pulse generation system are presented in this paper. The...

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Veröffentlicht in:	IEEE transactions on plasma science 2006-10, Vol.34 (5), p.1822-1831
Hauptverfasser:	Pecastaing, L., Paillol, J., Reess, T., Gibert, A., Domens, P.
Format:	Artikel
Sprache:	eng
Schlagworte:	Applied sciences Coaxial components Direct current Discharge Electric currents Electricity generation Electronic tubes, masers Electronics Engineering Sciences Exact sciences and technology Fast high-voltage (HV) generator Fault location Ferrite ferrite cores transformer Generators high-bandwidth probe Jitter Laser radar Microwave tubes (eg, klystrons, magnetrons, traveling-wave, backward-wave tubes, etc.) Power system transients Pulse generation Pulse transformers pulsed source Reproducibility Reproducibility of results Shot Switches thyristor switch Transformers Ultra wideband technology
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creator	Pecastaing, L. Paillol, J. Reess, T. Gibert, A. Domens, P.
description	This paper relates to the development of an ultrafast compact system readily applicable to the field of ultrawideband microwave applications such as transient radar or laser drivers. The design, production, and experimental results of a short-pulse generation system are presented in this paper. The coaxial generator technology based on the principle of a line discharge by means of a high-pressure gas switch in a simple transmission line arrangement is described. In the first stage of the process, the coaxial generator was charged by a high-voltage direct current source. Interesting results were obtained, but due to the jitter of the discharge formative time, the reproducibility of the output pulses was not sufficient. To improve the performance, a pulsed source was developed in order to apply an overvoltage to the gap switch and thus reduce the jitter of the discharge formative time. The characteristics of the pulsed source are defined. A thyristor Marx generator and a pulse transformer using magnetic properties of ferrite cores were combined in order to produce this pulsed source. The main performances of this source are a pulse amplitude of 60 kV, a rise time of 250 ns, and a maximum frequency of 900 Hz from a 1-kV dc supply. Finally, the complete generation system is able to generate pulses with 25-kV amplitude and 70-ps rise time through a 50-Omega impedance from the single shot mode up to 900 Hz. The output pulses reproducibility obtained is better than plusmn5%
doi_str_mv	10.1109/TPS.2006.883346
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The main performances of this source are a pulse amplitude of 60 kV, a rise time of 250 ns, and a maximum frequency of 900 Hz from a 1-kV dc supply. Finally, the complete generation system is able to generate pulses with 25-kV amplitude and 70-ps rise time through a 50-Omega impedance from the single shot mode up to 900 Hz. 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The design, production, and experimental results of a short-pulse generation system are presented in this paper. The coaxial generator technology based on the principle of a line discharge by means of a high-pressure gas switch in a simple transmission line arrangement is described. In the first stage of the process, the coaxial generator was charged by a high-voltage direct current source. Interesting results were obtained, but due to the jitter of the discharge formative time, the reproducibility of the output pulses was not sufficient. To improve the performance, a pulsed source was developed in order to apply an overvoltage to the gap switch and thus reduce the jitter of the discharge formative time. The characteristics of the pulsed source are defined. A thyristor Marx generator and a pulse transformer using magnetic properties of ferrite cores were combined in order to produce this pulsed source. The main performances of this source are a pulse amplitude of 60 kV, a rise time of 250 ns, and a maximum frequency of 900 Hz from a 1-kV dc supply. Finally, the complete generation system is able to generate pulses with 25-kV amplitude and 70-ps rise time through a 50-Omega impedance from the single shot mode up to 900 Hz. 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The design, production, and experimental results of a short-pulse generation system are presented in this paper. The coaxial generator technology based on the principle of a line discharge by means of a high-pressure gas switch in a simple transmission line arrangement is described. In the first stage of the process, the coaxial generator was charged by a high-voltage direct current source. Interesting results were obtained, but due to the jitter of the discharge formative time, the reproducibility of the output pulses was not sufficient. To improve the performance, a pulsed source was developed in order to apply an overvoltage to the gap switch and thus reduce the jitter of the discharge formative time. The characteristics of the pulsed source are defined. A thyristor Marx generator and a pulse transformer using magnetic properties of ferrite cores were combined in order to produce this pulsed source. The main performances of this source are a pulse amplitude of 60 kV, a rise time of 250 ns, and a maximum frequency of 900 Hz from a 1-kV dc supply. Finally, the complete generation system is able to generate pulses with 25-kV amplitude and 70-ps rise time through a 50-Omega impedance from the single shot mode up to 900 Hz. The output pulses reproducibility obtained is better than plusmn5%</abstract><cop>New York, NY</cop><pub>IEEE</pub><doi>10.1109/TPS.2006.883346</doi><tpages>10</tpages><orcidid>https://orcid.org/0000-0003-2162-9732</orcidid><orcidid>https://orcid.org/0000-0002-1842-7403</orcidid><orcidid>https://orcid.org/0000-0002-1323-9518</orcidid></addata></record>
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subjects	Applied sciences Coaxial components Direct current Discharge Electric currents Electricity generation Electronic tubes, masers Electronics Engineering Sciences Exact sciences and technology Fast high-voltage (HV) generator Fault location Ferrite ferrite cores transformer Generators high-bandwidth probe Jitter Laser radar Microwave tubes (eg, klystrons, magnetrons, traveling-wave, backward-wave tubes, etc.) Power system transients Pulse generation Pulse transformers pulsed source Reproducibility Reproducibility of results Shot Switches thyristor switch Transformers Ultra wideband technology
title	Very Fast Rise-Time Short-Pulse High-Voltage Generator
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