电磁推进

基于FPGA的电磁推进装置同步触发系统的优化设计

Design of the Trigger Used in Electromagnetic Propulsion Based on FPGA

同步控制系统作为电磁推进装置中重要的设备之一，起着精确控制的作用，其同步性能和可靠性对推进装置的运行效果将产生深远的影响。

As one of the important equipment the synchronous control system controls electromagnetic propulsion device .

本文利用可见光二极管激光器设计了激光光电传感器，并把这种传感器应用于超导电磁推进（MHDP）试验船的航行试验中，开发了一种经济实用的激光测速系统。

In this paper a kind of photoelectric sensor is designed using the diode of visible laser generator . With this kind of sensor , a velocity measuring system is developed for the use of the experiment of the navigation of a MHDP trial ship .

历史性的推进防御武器的新发展&电磁推进武器评介

New development of defensive weapon & electromagnetically propelled weapons in prospect

本文比较全面地介绍了国际电磁推进技术的历史发展过程、当前的发展状况、研制成果以及今后的发展方向。

This paper gives a comprehensive account of the past , present and future development of the electromagnetic propulsion technology in the world .

随着各种先进技术的发展，电子、磁流体等技术已经应用于船舶推进装置中，先后出现了电力推进、超导电磁推进、喷水推进、液力推进等推进方式。

Afterwards , ship electric propulsion , superconducting electromagnetic propulsion , water-jet propulsion and hydraulic propulsion are proposed , where electronic technology and magnetic fluid technology are applied into shipping propulsion devices .

作者认为，随着电磁推进技术的成熟和广泛应用，其历史意义将不亚于火箭技术的应用。

The author believes that , along with its maturity and wide application , the electromagnetic propulsion technology will have a considerable significance not inferior to the use of the rocket propulsion technology .

文中对电磁推进技术的特点和国内外发展现状进行了阐述，分析了感应型线圈推进的原理，对不同的同步控制方案进行了对比研究，提出了一种改进的简化方案。

The paper illuminates the points and the domestic & overseas actuality of electromagnetic propulsion technology , gives the analysis of propulsion principle of synchronous induction coil , discusses different synchronous control projects and brings up a simplified one .

本文首先介绍了同轴线圈电磁推进技术的基本原理，利用该原理并根据克希荷夫定律对实验模型建立了系统方程。

In this paper , the basic principle of coaxial coil electromagnetic propulsion technology is introduced at first , and then , based on this principle and Kirchhoff Law , the mathematical model of the electromagnetic launcher model was established .

电磁推进技术的出现是近年来推进技术领域的一次飞跃，它为解决人们对超高速、大质量的推进要求开辟了一条新途径。

The technology of electromagnetic propulsion is a leap in the fields of the propulsion technology in recent years . It has opened up a new avenue to meet the special requirements of propulsion , such as ultra high speed and big mass .

超导螺旋式电磁流体推进试验船（HEMS-1）

A Superconduction Helical MHDP Experimental Ship ( HEMS-1 )

针对传统水中电磁流体推进效率低、实现难的问题，将等离子体推进与水介质中爆炸丝现象相结合，研制出了实验用水中脉冲等离子体推进模型。

According to the problem that electromagnetic hydrodynamic propeller in the past is inefficient and hardly realized , this paper proposes the design that combines the plasma propulsion with exploding wires phenomenon in water medium .

电磁流体推进是用于将导电流体（如海水、液态金属等）进行增压，输送和推进的一种电工新技术。

Magnetohydrodynamic ( MHD ) propulsion , as a new technology , can be used to pressurize , transport and propel conductive fluid , such as sea water , blood , liquid metal , and so on .

三角贴片模型（TPM）常用于研究电磁散射的时域推进算法中。

Triangular patch model ( TPM ) is usually employed in marching-on-in-time algorithm to analyze the scattered electromagnetic fields .

船舶电磁流体动力泵推进的研究

On the study of magnetohydrodynamic pump ship propulsion

电磁发射技术是利用电磁力推进弹体获得高速度的先进发射技术。

Electromagnetic launch technology utilizes strong electromagnetic force to promote the projectile to achieve high speed .