摘要脉冲调制系统是电磁脉冲战斗部的重要组成部分,但传统脉冲调制系统体积、质量很大,成为了约束电磁脉冲战斗部应用的重要桎梏。本文通过理论数值计算、仿真建模分析和实验研究的方法,对适用于电磁脉冲弹药的脉冲调制网络进行了探索研究。30177
首先分析了电磁脉冲弹药环境对脉冲调制系统在可靠性、质量和体积等方面的要求,并以此为依据,对比了不同脉冲调制方式在弹药环境中的适用性,确定了电感储能脉冲调制方式适合应用于电磁脉冲弹药。
其次建立了电感储能脉冲调制方式中关键元器件——电爆炸金属丝的PSpice模型,对电爆炸丝进行了详细的仿真分析,在充电电压为5kV时,电爆炸金属丝两端电压峰值提高至27.2kV。并在电爆炸金属丝仿真模型的基础上,以爆炸磁通量压缩发生器为前端初始脉冲源,以电磁脉冲天线为末端负载,对脉冲调制电路进行了整体仿真计算,输出峰值功率提高约16倍,能量输出输入占比约为8.25%。
最后对关键器件电爆炸金属丝进行了电爆炸实验研究,在充电电压为5kV时,电爆炸金属丝的切断时间约为15.5 ,两端电压峰值提高至24.5kV,爆炸电阻约为初始阻值的236倍。实验结果与仿真结果相近,电压峰值误差在11%左右,验证了电爆炸金属丝仿真模型的合理性。
本文的仿真模型与实验结果可为应用到电磁脉冲弹药中的电感中间储能脉冲调制方案研究提供参考。
关键词 电磁脉冲弹 高功率 脉冲调制 电感储能 电爆炸丝 毕业论文设计说明书外文摘要
Title The research of pulse modulation network that
applies to Electromagnetic pulse cannonball
Abstract
Pulse modulation system is an important part of the electromagnetic pulse warhead, but the traditional pulse modulation system is heavy and has large volume.These have restricted the development of the electromagnetic pulse warhead.In this thesis,tudy the pulse modulation of network which is applicable to electromagnetic pulse ammunition,through theoretical analysis,numerical calculation, simulation modeling and experimental study method.
First,electromagnetic pulse ammunition environment on pulse modulation system is analyzed in the aspects of reliability, mass and volume requirements, and on this basis, compares the different pulse modulation mode in the applicability of the ammunition environment, demonstrate the inductance energy storage pulse modulation method is suitable for application in electromagnetic pulse ammunition.
Second, establish the PSpice model of the electric exploding opening switch(EEOS) which is the key component in inductive energy storage pulse modulation mode , analyze the simulation of EEOS in detail, When the charging voltage is 5kV, the peak voltage of both ens are up to 27.2 kV. And on the basis of the simulation model ,simulate and calculate the whole pulse modulation circuit with explosive flux compression generator being the initial pulse source in the front, electromagnetic pulse antenna as the load at the end, Simulation result is: the initial pulse modulated by the modulation circuit, the output peak power by about 16 times, energy output input ratio is about 8.25%.
Finally, do the electrical explosion experiment study of EEOS.When the charging voltage is 5kV, the cut off time of EEOS is about 15.5 , the peak voltage of both ens are up to 24.5 kV, explosion resistance is about 236 times of the initial value.Experimental results and the simulation results are similar , the error of peak voltage is about 11%, the rationality of the EEOS simulation model is verified.
Simulation model and experimental results of this thesis can be the reference to the electromagnetic pulse ammunition’s pulse modulation scheme which uses inductance as energy storing element.