Physical Review Special Topics. Accelerators and Beams (Sep 2010)

Circuit models and three-dimensional electromagnetic simulations of a 1-MA linear transformer driver stage

  • D. V. Rose,
  • C. L. Miller,
  • D. R. Welch,
  • R. E. Clark,
  • E. A. Madrid,
  • C. B. Mostrom,
  • W. A. Stygar,
  • K. R. LeChien,
  • M. A. Mazarakis,
  • W. L. Langston,
  • J. L. Porter,
  • J. R. Woodworth

DOI
https://doi.org/10.1103/PhysRevSTAB.13.090401
Journal volume & issue
Vol. 13, no. 9
p. 090401

Abstract

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A 3D fully electromagnetic (EM) model of the principal pulsed-power components of a high-current linear transformer driver (LTD) has been developed. LTD systems are a relatively new modular and compact pulsed-power technology based on high-energy density capacitors and low-inductance switches located within a linear-induction cavity. We model 1-MA, 100-kV, 100-ns rise-time LTD cavities [A. A. Kim et al., Phys. Rev. ST Accel. Beams 12, 050402 (2009)PRABFM1098-440210.1103/PhysRevSTAB.12.050402] which can be used to drive z-pinch and material dynamics experiments. The model simulates the generation and propagation of electromagnetic power from individual capacitors and triggered gas switches to a radially symmetric output line. Multiple cavities, combined to provide voltage addition, drive a water-filled coaxial transmission line. A 3D fully EM model of a single 1-MA 100-kV LTD cavity driving a simple resistive load is presented and compared to electrical measurements. A new model of the current loss through the ferromagnetic cores is developed for use both in circuit representations of an LTD cavity and in the 3D EM simulations. Good agreement between the measured core current, a simple circuit model, and the 3D simulation model is obtained. A 3D EM model of an idealized ten-cavity LTD accelerator is also developed. The model results demonstrate efficient voltage addition when driving a matched impedance load, in good agreement with an idealized circuit model.