An Overview of Pulse Compression and Power Flow in the Upgraded Z Pulsed Power Driver

An Overview of Pulse Compression and Power Flow in the Upgraded Z Pulsed Power Driver

Summary form only given. The Z pulsed power driver at Sandia National Laboratories is used to develop high energy density Z-pinch X-ray sources for inertial confinement fusion research and radiation effects testing, and drive megabar pressures in material samples for equation of state studies. The p...

Full description

Saved in:
Bibliographic Details
Published in:2007 IEEE 34th International Conference on Plasma Science (ICOPS) p. 637
Main Authors: Savage, M. E., Bennett, L. F., Bliss, D. E., Clark, W. T., Coats, R. S., Elizondo, J. M., LeChien, K. R., Harjes, H. C., Lehr, J. M., Maenchen, J. E., McDaniel, D. H., Pasik, M. F., Pointon, T. D., Owen, A. C., Seidel, D. B., Smith, D. L., Stoltzfus, B. S., Struve, K. W., Warne, L.K., Woodworth, J. R., Mendel, C. W., Prestwich, K.R., Shoup, R. W., Johnson, D. L., Corley, J. P., Hodge, K. C., Wagoner, T. C, Wakeland, P. E.
Format: Conference Proceeding
Language:English
Published: IEEE 01-06-2007
Subjects:
Equations
Inertial confinement
Laboratories
Load flow
Materials testing
Power system reliability
Power transmission lines
Pulse compression methods
Pulse power systems
Radiation effects
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Summary form only given. The Z pulsed power driver at Sandia National Laboratories is used to develop high energy density Z-pinch X-ray sources for inertial confinement fusion research and radiation effects testing, and drive megabar pressures in material samples for equation of state studies. The pulsed power system is in the process of being replaced, improving reliability and increasing energy delivered to the load. The upgraded pulsed power system will deliver more than nine megajoules of forward wave energy in the first one hundred nanoseconds of its pulse. The system is comprised of thirty-six nominally identical modules, each producing a 3.3-terawatt pulse in 6Omega water-insulated transmission lines. The peak forward-going voltage is about 5 MV. The pulse rise time is -75 ns; the full width at half maximum is -190 ns. The thirty-six modules are combined in parallel and drive twenty to twenty-five MA into the single load. In such a system, reliable insulation and precise switching are primary concerns. We show key components of the system and results from a test module. We also show performance results from the energy storage, triggering, and pulse-forming systems. We also show the differing constraints of power flow from the 175 kA from each Marx generator, to currents in excess of 24 MA in the final feed to the load.
ISBN:9781424409150
1424409152
ISSN:0730-9244
2576-7208
DOI:10.1109/PPPS.2007.4345943