摘要
针对长距离条件下武器系统对能量和信息的高效同步传输要求,为解决感应装定传输距离短以及射频装定和激光装定中能量传输效率低等问题,结合磁共振耦合理论,建立了磁共振装定模型。同时,利用公式推导论证了磁共振技术的可行性。设计了基于磁共振技术的引信无线能量与信息同步传输工作系统。最后,利用OrCAD软件对传输系统进行了频域和时域的仿真分析。
In order to meet the requirements that energy and information should be transmitted synchronously with high-efficiency for long-distance weapon system,and to solve the problem of short transmission in electromagnetic inductive setting mode and the matter of the low efficiency in RF or laser transmission,a new transmission model is established combining with the theory of coupled magnetic resonance.Meanwhile,the feasibility of this technology is verified by derivation of the formulas.Based on the technology of magnetic resonance,the working system is designed for achieving wireless power and information synchronous transmission between setter and fuze.At last,transmission characteristics of the system in frequency domain and time domain are analyzed by the simulation of OrCAD.
出处
《现代电子技术》
2012年第1期20-22,26,共4页
Modern Electronics Technique
关键词
长距离
磁共振
引信
同步传输
仿真
long-distance
magnetic resonance
fuze
synchronous transmission
simulation