Output Characteristics of Parallel or Serially Connected Helical Magneto-Cumulative Generators

병렬 또는 직렬로 결합한 나선형 자장압축발전기의 출력특성 분석

  • Published : 2004.11.01

Abstract

Helical magneto-cumulative generator(HMCG)s are very useful devices in suppling pulsed high current to inductance loads. To apply fast high voltage pulses to high impedance loads, high current outputs of HMCGs are required to be conditioned to higher voltages by using various pulse components such as opening/closing switches and pulse transformer. In this paper, stepping with the trends of requirements for ever-increasing energy in pulsed power applications coupling methods is investigated to obtain higher output energy by connecting several HMCGs in series or parallel way. The coil dimension of HMCGs used in series or parallel connections was 50 mm in diameter and 150 mm in length. The coil was fabricated by using enamel-coated copper wire of 1 mm in diameter. The highest energy amplification ratio and peak voltage of load were achieved from the serially connected four-barrel HMCG system. They were 68 and 34 kV, respectively, when the initial energy of 0.36 kJ was supplied into that system with the load of 0.4 μH. Within the tested range of inductance ratio, energy amplification ratio was found to be highly dependent on the inductance ratio of serial- and parallel-connected HMCG systems to load, which to be optimal around 500 was turned out. The experimental results showed that the output energy and voltage of load are controlled by connecting HMCGs in series or parallel.

Keywords

References

  1. C. Fowler, R. Caird and W. Garn, 'An Introduction to Explosive Magnetic Flux Compression Generators,' Los Alamos Report LA-5890-MS, 1975
  2. L. Altgilbers, M. Brown, I. Grishnaev, B. Novac, I. Smith, I. Tkach and Y. Tkach, Magnetocumulative Generators, New York: Springer-Verlag New York Inc., 2000
  3. I. Ursu, M. Ivascu, A. Ludu, B. Novac, I. Panaitescu, D. Preotescu, A. Radu, N. Verbuta, V. Zambreanu, and V. Zoita, Megagauss Technology and Pulsed Power Application, Plenum Press, New York and London, pp. 389-396, 1987
  4. A. I. Pavlovskii, R. Z. Lyudaev, L. I. Sel'Chenkov, A. S. Seryoghin, V. A. Zolotov, A. S. Yuryzhev, D. I. Zenkov, V. Ye. Gurin, A. S. Boriskin, and V. F. Basmanov, Megagauss Physics and Technology, Plenum Press, New York and London, pp. 585-593, 1980
  5. A. I. Pavlovskii, R. Z. Lyudaev, L. N. Pljashkevich, A. M. Shuvalov, A. S. Kravchenko, Yu. I. Plyushchev, D. I. Zenkov, V. F. Bukharov, V. Ye. Gurin, and V. A. Vasyukov, Megagauss Physics and Technology, Plenum Press, New York, pp. 611-626, 1980
  6. E. C. Cnare, R. J. Kaye, and M. Cowan, Ultrahigh Magnetic Field. Physics. Proceedings of the Third International Conference of Megagauss Magnetic Field Generation and Related Topics, Novosibirsk, June 13-17, pp. 50-56, 1983
  7. V. K. Chernyshev, E. I. Zharinov, V. E. Vaneev, A. I. Ionov, V. N. Buzin, and Y. G. Bazanov, Megagauss Field and Pulsed Power Systems, Nova Science Publishers Inc., New York, pp. 355-365, 1990
  8. A. I. Pavlovskii, L. N. Plyashkevich, A. M. Shuvalov, and E. M. Dimant, Megagauss Magnetic Field Generation and Pulsed Power Application, Nova Science Publishers Inc, New York, pp. 629-635, 1994
  9. R. Z. Lyudaev, A. I. Pavlovskii, A. S. Yuryzhev, and V. A. Zolotov, Megagauss Magnetic Field Generation and Pulsed Power Application, Nova Science Publishers Inc, New York, pp. 607-618, 1994
  10. V. B. Mintsev, A. E. Ushnurtsev, V. E. Fortov, A. A. Leontyev, A. V. Shurupov, and G. F. Kiuttu, 'Multi-Stage Flux-Trapping Helical Flux Compression Generators,' The 13th IEEE International Pulsed Power Conference, pp. 994-997, Las Vegas NV, 2001 https://doi.org/10.1109/PPPS.2001.1001709
  11. A. I. Pavlovskii, R. Z. Lyudaev, V. A. Zolotov, A. S. Seryoghin, A. S. Yuryzhev, M. M. Kharlamov, A. M. Shuvalov, V. Ye. Gurin, G. M. Spirov, and B. S. Makaev, Megagauss Physics and Technology, Plenum Press, New York and London, pp. 557-583, 1980
  12. R. Z. Lyudaev, A. I. Pavlovskii, A. S. Yuryzhev, and V. A. Zolotov, Megagauss Magnetic Field Generation and Pulsed Power Application, Nova Science Publishers Inc, New York, pp. 619-628, 1994
  13. J. W. Shearer, F. F. Abraham, C. M. Aplin, B. P. Benham, J. E. Faulkner, F. C. Ford, M. M. Hill, C. A. McDonald, W. H. Stephens, D. J Steinberg, and J R. Willson, 'Explosive Driven Magnetic Field Compression Generators,' J App. Phys., Vol. 39, pp.2102-2116, 1968 https://doi.org/10.1063/1.1656496