![]() Smulders, H.W.M., de Graaff, R.A.A., Janssen, M.F.P., van Alphen, G.: Measurement systems for AC traction power supply systems. PhD thesis, Eindhoven University of Technology (1990) Van Houten, M.A.: Electromagnetic Compatibility in High-Voltage Engineering. Van Heesch, E.J.M., van Rooij, J.N.A.M., Noij, R.G., van der Laan, P.C.T.: A new current and voltage measuring system tests in a 150 kV and 400 kV GIS. Sixth International Symposium on High Voltage Engineering, New Orleans (1989) Van Heesch, E.J.M., van Deursen, A.P.J., van Houten, M.A., Jacobs, G.A.P., Kersten, W.F.J., van der Laan, P.C.T.: Field Tests and Response of the D/I H.V. Van Deursen, A.P.J., Smulders, H.W.M., de Graaff, R.A.A.: Differentiating/integrating measurement setup applied to railway environment. 8th International Symposium on High Voltage Engineering, Yokohama (1993) Van Deursen, A.P.J., Gulickx, P.F.M., van der Laan, P.C.T.: A Current and Voltage Sensor in One Unit. PhD Thesis Eindhoven University of Technology (2007) Winands, G.J.J.: Efficient Streamer Plasma Generation. Racz, B., Patocs, A.: Fast high-voltage resistive pulse divider. Mazumder, S.K., Sarkar, T.: SiC based optically-gated high-power solid-state switch for pulsed-power application. Jiang, W., et al.: Compact solid-state switched pulsed power and its applications. Welleman, A., Waldmeyer, J., Ramezani, E.: Solid state switches for pulse power modulators. 29(1), 56–57 (1993)īaker, R.J., Ward, S.T.: Designing nanosecond high voltage pulse generators using power MOSFETs. ISBN 13:978-0-12-088479-7īaker, R.J., Johnson, B.P.: Applying the Marx Bank circuit configuration to power mosfets. (ed.): Power Electronics Handbook, 2nd edn. Mohan, N., Undeland, T., Robbins, W.: Power Electronics: Converters, Applications and Design, 2nd edn. Kesar, A.S., Merensky, L.M., Ogranovich, M., Kardo-Sysoev, A.F., Shmilovitz, D.: 6-kV, 130-ps rise-time pulsed-power circuit featuring cascaded compression by fast recovery and avalanche diodes. (eds.) Power Electronics Handbook 3rd edn. Redondo, L., Silva, F.A.: Solid state pulsed power electronics. Lyubutin, S.K., Mesyats, G.A., Rukin, S.N., Slovikovskii, B.G., Turov, A.M.: New solid state opening switches for repetitive pulsed power technology, High-Power Particle Beams, 1996 11th International Conference on, vol. ![]() Mankowski, J., Kristiansen, M.: A review of short pulse generator technology. 2, (3–6 July 1995) doi: 10.1109/PPC.1995.599771ĭeyu Wang, Weiyang Wu, Da Li, Liqiao Wang: Compact Magnetic Compression Repetitive Pulsed Power Generator Based on IGBT. 5(3), 484–492 (2010)īarrett, D.M.: Core reset considerations in magnetic pulse compression networks, Pulsed Power Conference, 1995. (ed.): IEEJ EEText, Kodenatsu Parusu Pawa Kougaku, Ohmsha, (in Japanese) (2003)Ĭhoi, J.: Introduction of the magnetic pulse compressor (MPC) – fundamental review and practical application. Wiley, New York (1990)īluhm, H.: Pulsed Power Systems, Principle and Applications. Humphries Jr., S.: Principles of Charged Particle Acceleration. Paul, W.: Smith, Transient Electronics, Pulsed Circuit Technology. 2.5, and delivery of electric pulses to biological tissues using antennas is described in Sect. Section 2.4 describes switches as a key technology. Measurement tools of pulsed power are shown in Sect. 2.3 discusses pulsed power generators utilized for bioelectrics. Section 2.2 summarizes the basics of electric circuits, while Sect. Section 2.1 summarizes pulsed power technology with a focus on this new field. Applications of pulsed power continue expansion into fields including the environment, recycling, energy, defense, material processing, medical treatment, plasma medicine, and food and agriculture.īuilding upon the development of pulsed power generators which offer both high repetition and performance, scientists are now able to investigate effects of pulsed power on living organisms, and their research has expanded to encompass a new field known as bioelectrics. Pulsed power is produced by transferring energy generally stored in capacitors and inductors to a load very quickly through switching devices. Pulsed power refers to the science and technology of accumulating energy over a relatively long period of time and releasing it as a high-power pulse composed of high voltage and current over a short period of time as such, it has extremely high power but moderately low energy.
0 Comments
Leave a Reply. |