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引用次数: 0
摘要
在评估了各种电容式和电感式储能脉冲功率系统概念的工程需求、成本和性能模拟后,我们确定了一些简洁的设计,能够产生峰值电流脉冲200 KA,上升时间6.36 μs, di/dt为139 KA /μs,用于白沙导弹靶场的闪电直接打击试验设施。与最近翻新的桑迪亚闪电模拟器不同,该模拟器使用YAG激光诱导火花隙触发,我们的设计依赖于高功率二极管作为撬杆开关,在所需的时间点自动分流峰值电流脉冲,并通过RL子电路实现所需的衰减。本文还讨论了二极管的工程、性能和可靠性的各个方面,关键的开关元件,以及关键参数的评估,例如正向恢复瞬态期间的动态电阻,以及高di/dt对调制电导率的影响,所有这些最终都将通过先进的扩散物理模拟来解决。
A prototype design approach for Lightning Direct Strike Test Facility
After evaluating the engineering requirements, costs, and performance simulations of various Capacitive and Inductive Energy Storage Pulsed Power Systems concepts, we have settled on some concise design capable of generating peak current pulse of 200 KA, with 6.36 μs rise-time, and di/dt of 139 kA/μs for the Lightning Direct Strike Test Facility at White Sands Missile Range, NM. Unlike the recently refurbished Sandia Lightning Simulator which uses YAG laser induced spark-gap triggering, our design relies on high-power diodes as crowbar switch that automatically shunts the peak current pulse at the desired point in time, and for the desired decay through RL sub-circuitry. Also discussed herein are the various aspects of engineering, performance, and reliability of the diodes, the crucial switching components, and evaluation of the key parameters, such as dynamic resistance during forward recovery transient, and high di/dt impact on modulation conductivity, all of which will eventually be resolved using advanced diffusion physics simulations.
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