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Fabrication and Operation Testing of an Air-cored Pulse Transformer for Charging a High Voltage Pulse Forming Line

고압 펄스 성형라인 충전을 위한 공심형 고압 펄스트랜스의 제작과 동작 특성

  • Received : 2010.02.16
  • Accepted : 2010.03.15
  • Published : 2010.05.01

Abstract

A high voltage air-cored helical strip/wire type pulse transformer has been fabricated for charging of a high voltage pulse forming line. As a primary coil, copper strip of 25mm width was wound helically around a MC nylon cylinder. For a secondary coil, copper enameled wire of 1mm diameter was wound around conical cylinder in order to provide insulation between two windings. The coupling coefficient of 0.53 was obtained when two coils were combined coaxially in the insulation oil filled chamber. Voltage gain and energy transfer efficiency were investigated by varying the parameters of primary and secondary circuit. Test results shows that the voltage gain increases up to 17 with increasing the primary capacitance up to 200nF. And highest energy transfer efficiency of 44% was obtained when the dual resonant operation condition was nearly satisfied. The pulse transformer developed in this study can be used for charging the middle conductor of a Blumlein pulse forming line.

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References

  1. Rohwein G. J. "Aircore Pulse Transformer for High Power Lasers", Laser Focus (1980)70-74, and "a Three Megavolt Transformer for PFL Pulse Charging", IEEE Trans. on Nuclear Science NS-26 (1979) 4211-4213
  2. Martin J. C. Champney P.D. and Hammer D. A. "Note on the construction Methods of A Martin High-Voltage Transformer", Cornel University Report (1967)
  3. Martin J.C. and Smith I.D. "High Voltage Pulse Generating Transformers", US Patent No. 3456221 (1969)
  4. D. Finklstein, P. Goldberg, J. Shuchatowitz "High Voltage Impulse System", Rev. Sci. Instrum., 37 (1966), 159-161 https://doi.org/10.1063/1.1720117
  5. P.W. Smith, "Transient Electronics", John Willey & Sons (2002), Ch. 5
  6. C.R. Hoffman, "A Tesla transformer high-voltage generator", Rev. Sci. Instrum., 46 (1975), 1-4 https://doi.org/10.1063/1.1134057