摘要
针对复杂干扰环境中传统引信目标探测系统无法稳定工作的问题,探讨了一种新型目标探测体制.基于静电感应基本理论,建立了静电引信探测传感器模型,设计和制作了高灵敏度的静电引信探测传感器和微弱信号检测电路.在实验室环境条件下对探测系统进行实验研究,结果表明:理论分析和实验结果趋于一致;输出电压与系统增益、目标电荷、相对速度和距离相关;所设计电路能够满足引信的探测要求,可对静电引信目标探测系统在复杂环境下的工程化设计提供参考.
In order to solve the problem that target-detect system of tradition fuze can not work stablely under complex interference circumstances,a novel target detection system is discussed.The mode of electrostatic fuze detection sensor is constructed,a high sensitivity electrostatic fuze detection sensor and a weak signal detection circuit are designed and fabricated.based on the basic theory of electrostatic induction.Under laboratory environment,detection system is studied experimentally.The results show that theoretic analysis is consistent with the experimental result.The output voltage is related to system gain,target charge,relative velocity as well as distance.The designed circuit satisfies the detection requirement of fuze and provides reference for engineering design of electrostatic fuze target detection system under complex circumstance.
出处
《测试技术学报》
2016年第4期341-346,共6页
Journal of Test and Measurement Technology
基金
总装预研基金资助项目(9140A05020515HT82001)
上海市科委工程技术研究中心建设基金资助项目(15DZ2250800)
关键词
静电感应
方位探测
引信
传感器
静电场
electrostatic induction
direction detection
fuze
sensor
electrostatic field