Pulsed power generation by means of transmission lines
A novel approach for pulsed power generation is described, in which conventional storage components are replaced by transmission line segments. Taking advantage of the propagation modes in transmission lines and making use of the fact that the time of appearance of a voltage pulse traveling on a cha...
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| Published in | IEEE transactions on power electronics Vol. 18; no. 1; pp. 221 - 230 |
|---|---|
| Main Authors | , |
| Format | Journal Article |
| Language | English |
| Published |
New York
IEEE
01.01.2003
The Institute of Electrical and Electronics Engineers, Inc. (IEEE) |
| Subjects | |
| Online Access | Get full text |
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| Abstract | A novel approach for pulsed power generation is described, in which conventional storage components are replaced by transmission line segments. Taking advantage of the propagation modes in transmission lines and making use of the fact that the time of appearance of a voltage pulse traveling on a channel is directly proportional to the electrical length of the channel, it is possible to synchronize power pulses in such manner to generate pulsed power. An multiple transmission line topology (MTLT) containing m transmission line segments is used. The difference in the electrical length from one line to the other should be T/m, where T denotes the period of the cycle. The resulting, output peak power is m times higher than the input peak power, due to either a rise in voltage, in current, or a combination of both. The current/voltage magnification would be defined by the choice of a suitable connection mode at the end points of the topology. The main advantages of the transmission line based topology are: (a) the switching elements the system consists of need to withstand a much lower power than the power experienced by the load; and (b) the system can operate either at extremely high frequencies or with very short rise and decay times of rectangular pulses. This novel approach to energy compression is supported by simulation examples and experimentally validated. |
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| AbstractList | A novel approach for pulsed power generation is described, in which conventional storage components are replaced by transmission line segments. Taking advantage of the propagation modes in transmission lines and making use of the fact that the time of appearance of a voltage pulse traveling on a channel is directly proportional to the electrical length of the channel, it is possible to synchronize power pulses in such manner to generate pulsed power. An multiple transmission line topology (MTLT) containing m transmission line segments is used. The difference in the electrical length from one line to the other should be T/m, where T denotes the period of the cycle. The resulting, output peak power is m times higher than the input peak power, due to either a rise in voltage, in current, or a combination of both. The current/voltage magnification would be defined by the choice of a suitable connection mode at the end points of the topology. The main advantages of the transmission line based topology are: (a) the switching elements the system consists of need to withstand a much lower power than the power experienced by the load; and (b) the system can operate either at extremely high frequencies or with very short rise and decay times of rectangular pulses. This novel approach to energy compression is supported by simulation examples and experimentally validated. A novel approach for pulsed power generation is described in which conventional storage components are replaced by transmission line segments. Taking advantage of the propagation modes in transmission lines and making use of the fact that the time of appearance of a voltage pulse traveling on a channel is directly proportional to the electrical length of the channel, it is possible to synchronize power pulses in such manner to generate pulsed power. An multiple transmission line topology (MTLT) containing m transmission line segments is used. The difference in the electrical length from one fine to the other should be T/m, where T denotes the period of the cycle. The resulting, output peak power is m times higher than the input peak power, due to either a rise in voltage, in current, or a combination of both. The current\voltage magnification would be defined by the choice of a suitable connection mode at the end points of the topology. The main advantages of the transmission line based topology are: a) the switching elements the system consists of need to withstand a much lower power than the power experienced by the load; b) the system can operate either at extremely high frequencies or with very short rise and decay times of rectangular pulses. This novel approach to energy compression is supported by simulation examples and experimentally validated. [PUBLICATION ABSTRACT] |
| Author | Shmilovitz, D. Singer, S. |
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| Cites_doi | 10.1109/PPC.1989.767434 10.1049/ip-a-1.1985.0019 10.1109/IAS.1990.152406 10.1088/0022-3727/22/1/004 10.1109/63.728329 10.1109/63.368461 10.1109/27.163593 10.1109/PESC.1995.474891 10.1109/81.669066 10.1063/1.1718871 10.1109/81.269048 10.1109/APEC.1990.66402 10.1049/ip-cds:19951390 10.1109/PESC.1996.548753 10.1007/978-1-4757-2014-3 10.1117/12.950557 10.1109/63.372608 10.1109/13.9751 |
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| References | ref13 ref15 ref14 ref20 ref11 cronje (ref4) 1991; 3 ref10 ref21 ref2 ref1 ref17 ref19 ohsato (ref12) 1998; j81b i ref18 ref8 ref7 ref9 ref3 ref6 ref5 sarjeant (ref16) 1989 |
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| Snippet | A novel approach for pulsed power generation is described, in which conventional storage components are replaced by transmission line segments. Taking... A novel approach for pulsed power generation is described in which conventional storage components are replaced by transmission line segments. Taking advantage... |
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| SubjectTerms | Channels Circuit simulation Distributed parameter circuits Electric potential Electric power generation Frequency Impedance Power Power electronics Power generation Power transmission lines Pulsars Segments Semiconductors Topology Transmission line theory Transmission lines Voltage |
| Title | Pulsed power generation by means of transmission lines |
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