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非线性等效电感对磁阻驱动器驱动性能的影响 被引量:4

Equivalent Inductance's Influence on the Performance of Reluctance Driver
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摘要 磁阻驱动器是一种新型直线电动机。其工作原理是通过驱动线圈中的电流与抛体中的磁化电流之间的电磁力而加速抛体至预定速度。在给定驱动线圈结构和抛体参数情况下,抛体与驱动线圈组成的等效电感是驱动线圈中电流和抛体位置的非线性函数。通过有限元软件,仿真得到了等效电感数据,联立机电系统电压和功率平衡方程数值求解了磁阻驱动器发射过程中电容器上的电压及抛体出口速度的变化情况。利用铁磁质抛体进行了试验,验证了磁阻驱动器的实验出口速度与数值计算结果较为一致。 Reluctance driver is a new type of linear electromotor. According to the electromagnetic force between the current in driving coil and the magnetic current in projectile, the projectile would be accelerated to a scheduled velocity. In this paper, the theory model and its calculation methods has been introduced. Once the structure of the driving coil and projectile parameters have been given, the equivalent inductance between driving coil and projectile has became the non-linear function of the current in the driving coil and the projectile's position. The equivalent inductance date has been acquired according to the finite element software. According to the voltage and power balance equations of the electromechanical system and the equivalent inductance date, the variable parameters of the launch process such as the voltage on the capacitor and the muzzle velocity of projectile have been numerical calculated. The ferromagnetic projectile has been used for the experiment and the muzzle velocity of experiment is mainly the same as the result from numerical calculation.
作者 支彬安 雷彬 李治源 徐向国
机构地区 解放军军械工程学院 河北省军区通信站
出处 《弹箭与制导学报》 CSCD 北大核心 2011年第1期173-176,共4页 Journal of Projectiles,Rockets,Missiles and Guidance
基金 总装备部预研基金资助
关键词 磁阻 铁磁性 等效电感 非线性 reluctance ferromagnetic equivalent inductance non linear
分类号 TN15 [电子电信—物理电子学]
  • 相关文献

参考文献6

  • 1G William Slade. Fast finite-element solver for a reluctance mass accelerator[J]. IEEE Trans. Magn. , 2006, 42(9) :2184-2192. 被引量:1
  • 2G William Slade. A simple unified physical model for a reluctance accelerator[J]. IEEE Trans. Magn. , 2005, 41(11) :4270-4276. 被引量:1
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同被引文献16

  • 1WILLIAM SLADE G. A simple unified physical model for a reluctance accelerator[J]. IEEE Trans. Magn, 2005,9(8) :4270 - 4276. 被引量:1
  • 2WILLIAM SLADE G. Fast finite-Element solver for a reluctance mass accelerator[J]. IEEE Trans. Magn, 2006,9(42) :2184 - 2192. 被引量:1
  • 3TOMCZUK B,SOBOL M. Field analysis of the magnetic systems for tubular linear reluctance motors [J]. IEEE Trans. Plasma Science, 2005,41 (4) : 1300 - 1305. 被引量:1
  • 4S K Ingram,S B Pratap.A control algorithm for reluctance accelerators[J].IEEE Transactions on Magnetics,1991,27(1):156-159. 被引量:1
  • 5B Tomczuk,M Sobol.Field analysis of the magnetic systems for tubular linear reluctance motors[J].IEEE Transactions Plasma Science,2005,41 (4):1300-1305. 被引量:1
  • 6M Rezal,S J Iqbal,K W Hon.Development of magnetic pulsed launcher system using capacitor banks[C]//The 5th Student Conference on Researchand Development,2007. 被引量:1
  • 7王莹;肖峰.电炮原理[M]北京:国防工业出版社,1995515174-178. 被引量:1
  • 8Slade G W. A Simple Unified Physical Model for a Reluctance Accelerator[J].IEEE Transactions on Magnetics,2005,(11):4270-4276.doi:10.1109/TMAG.2005.856320. 被引量:1
  • 9Slade G W. Fast Finite-element Solver for a Reluctance Mass Accelerator[J].IEEE Transactions on Magnetics,2006,(09):2184-2192.doi:10.1109/TMAG.2006.880395. 被引量:1
  • 10Tomczuk B,Sobol M. Field Analysis of the Magnetic Systems for Tubular Linear Reluctance Motors[J].IEEE Transactions on Plasma Sciences,2005,(04):1300-1305. 被引量:1

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弹箭与制导学报
2011年 第1期

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