2016
DOI: 10.1063/1.4965241
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Determination of plasma pinch time and effective current radius of double planar wire array implosions from current measurements on a 1-MA linear transformer driver

Abstract: Implosions of planar wire arrays were performed on the Michigan Accelerator for Inductive Z-pinch Experiments, a linear transformer driver (LTD) at the University of Michigan. These experiments were characterized by lower than expected peak currents and significantly longer risetimes compared to studies performed on higher impedance machines. A circuit analysis showed that the load inductance has a significant impact on the current output due to the comparatively low impedance of the driver; the long risetimes… Show more

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Cited by 13 publications
(13 citation statements)
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“…The trigger circuit is a fundamental component of LTD generators, since accurate control (and monitoring) of the closing time for each switch in an LTD is essential to deliver the desired current pulse to the load [25]. For example, triggering the switches in a predetermined sequence allows tailoring of the current pulse [26], while, in order to have the fastest rise time and maximum peak current from a single LTD cavity, the switches should fire simultaneously [27]. The switches used in the CESZAR LTD have two 6.4 mm gaps symmetric around a trigger midplane.…”
Section: A Trigger Circuitmentioning
confidence: 99%
“…The trigger circuit is a fundamental component of LTD generators, since accurate control (and monitoring) of the closing time for each switch in an LTD is essential to deliver the desired current pulse to the load [25]. For example, triggering the switches in a predetermined sequence allows tailoring of the current pulse [26], while, in order to have the fastest rise time and maximum peak current from a single LTD cavity, the switches should fire simultaneously [27]. The switches used in the CESZAR LTD have two 6.4 mm gaps symmetric around a trigger midplane.…”
Section: A Trigger Circuitmentioning
confidence: 99%
“…However, all of the bricks in an LTD cavity are combined in parallel, thus L equiv = L brick /N bricks and R equiv = R brick /N bricks . For MAIZE, N bricks = 40, L brick ≈ 240 nH, and R brick ≈ 660 mΩ; therefore, L equiv ≈ 6 nH and R equiv ≈ 16.5 mΩ [110]. This means that about half of the overall ≈ 20-nH LTD cavity inductance on MAIZE is from the bricks and the outer regions of the power feed, while the remaining half comes from the inner power feed and the load.…”
Section: Maize (Ltd)mentioning
confidence: 99%
“…This means that about half of the overall ≈ 20-nH LTD cavity inductance on MAIZE is from the bricks and the outer regions of the power feed, while the remaining half comes from the inner power feed and the load. Note that the outer ≈ 10-nH inductance on MAIZE is essentially fixed, while the inductance of the inner power feed and load can vary significantly from one experimental configuration to the next-e.g., from 8 nH to 23 nH for some of the configurations tested on MAIZE so far [110]. Also note that the L/R time on MAIZE is τ L/R = L/R ≈ 1.2 µs τ peak (meaning the voltage is primarily an inductive voltage: V ≈ Lİ + IL IR) while the RC time constant is τ RC = RC ≈ 26 ns τ peak (meaning the capacitors can discharge and recharge fast enough to support resonant oscillations).…”
Section: Maize (Ltd)mentioning
confidence: 99%
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