摘要
随着人工智能和无人装备的广泛应用,能量管理问题逐渐成为了一个关键的挑战。为提高全电驱动装备的能量利用效率并优化系统性能,创新性地提出了一种能量管理技术,构建了一种新型可重构电路拓扑结构,并结合现场总线技术,实现了对能量消耗的实时监测和能量供应的动态调配,从而提高了能量利用效率和系统运行稳定性。自主设计了能量管理的执行单元智能管理模块,通过硬件电路与软件功能的创新匹配设计,实现了通道电压、电流以及模块温度实时监控和短路保护,同时具备配电控制、状态信息查询、故障信息查询和参数设置等多种功能。结合具体设计案例进行对比分析,证明所提出的能量管理技术较传统供能具有更高的能量利用率,并且提高了武器装备的智能化水平。
With the widespread application of artificial intelligence and unmanned equipment,energy management technology has gradually become a key challenge.In order to improve the energy utilization efficiency of all-electric driven equipment and optimize system performance,an innovative energy management technology was proposed.A new reconfigurable circuit topology was constructed and the field bus technology was also adopted to realize real-time monitoring of energy consumption and dyna-mic allocation of energy supply,thereby improving energy utilization efficiency and system operational stability.An intelligent management module for energy management was designed independently.The real-time monitoring of channel voltage,current and module temperature and short-circuit protection were realized by innovative matching design of hardware circuits and software functions.The module also had multiple functions such as distribution control,status information inquiry,fault information inquiry and parameters setting.By comparison with specific design cases,the proposed energy management technology has higher energy utilization efficiency than traditional power supply methods and enhances the intelligence level of weapon systems.
作者
王垚雄
李文番
王军雄
崔晓宇
任人
WANG Yaoxiong;LI Wenfan;WANG Junxiong;CUI Xiaoyu;REN Ren(Northswest Institute of Mechanical&Electrical Engineering,Xianyang 712099,Shaanxi,China)
出处
《火炮发射与控制学报》
北大核心
2024年第6期85-91,共7页
Journal of Gun Launch & Control
关键词
能量管理
可重构能量模型
智能控制
智能管理模块
energy management
reconfigurable energy model
intelligent control
intelligent management module
