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首页> 外文期刊>IEEE Transactions on Magnetics >Integration and Test of a Second Generation Dual Purpose Pulse Forming Network Into the P&E HWIL SIL
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Integration and Test of a Second Generation Dual Purpose Pulse Forming Network Into the P&E HWIL SIL

机译:将第二代双重用途脉冲形成网络集成到P&E HWIL SIL中并进行测试

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A second-generation dual purpose pulse forming network (DP-PFN) has been developed to power both the electro-thermal-chemical (ETC)/electro-thermal-ignition (ETI) lethality capability and the electro-magnetic armor (EMA) survivability capability improvements envisioned for future hybrid-electric vehicles. ETI decreases the ignition variability associated with the launching of conventional munitions by roughly a factor of ten which, in conjunction with the systems ballistic computer, greatly enhances hit probability of the round. ETC provides maximum performance in all conditions, including temperature compensation, resulting in increased lethality and range with higher average muzzle velocities. EMA uses stored electric energy to disrupt a shaped-charge jet and reduce it's depth of penetration. The second-generation DP-PFN for driving both ETI/ETC and EMA emulators is scheduled to be integrated into the power and energy (P&E) hardware-in-the-loop (HWIL) System Integration Laboratory (SIL) in Santa Clara, CA, in 2006. The DP-PFN is capable of providing either the short pulse lengths required by the EMA or the considerably longer pulse lengths required by the ETI/ETC gun as well as emulating various "degraded functionality" states such as loss of individual capacitors. Integration of this DP-PFN marks another great milestone for the SIL, ensuring that it continues to be capable of emulating all the major hybrid-electric mobility functions of a ground combat vehicle as well as the major lethality and survivability electrical loads. This paper describes the DP-PFN components, the overall DP-PFN design philosophy and the planned integration and testing of the DP-PFN in the P&E HWIL SIL
机译:已开发出第二代双用途脉冲形成网络(DP-PFN),以为电热化学(ETC)/电热点火(ETI)杀伤能力和电磁装甲(EMA)生存能力提供动力未来的混合动力汽车有望实现功能改进。 ETI将与常规弹药的发射相关的着火可变性降低了大约十倍,这与系统弹道计算机一起极大地提高了该弹的命中率。 ETC在包括温度补偿在内的所有条件下均可提供最佳性能,从而提高了杀伤力和射程,并具有更高的平均枪口速度。 EMA使用存储的电能来破坏聚能射流并减小其穿透深度。用于驱动ETI / ETC和EMA仿真器的第二代DP-PFN计划集成到位于加利福尼亚州圣克拉拉的电力和能源(P&E)硬件在环(HWIL)系统集成实验室(SIL)中,2006年。DP-PFN能够提供EMA所需的短脉冲长度或ETI / ETC喷枪所需的相当长的脉冲长度,并能够模拟各种“性能下降”状态,例如单个电容器的损耗。这种DP-PFN的集成标志着SIL的又一个重要里程碑,确保SIL能够继续模拟地面战斗车辆的所有主要混合动力机动功能以及主要的杀伤力和生存能力。本文介绍了DP-PFN组件,总体DP-PFN设计理念以及在P&E HWIL SIL中计划进行的DP-PFN集成和测试

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