摘要
为解决传统频谱分析系统存在测试速度慢、对瞬态信号侦测分析不精确、实时性差的问题,提出了频率模板触发技术结合可重构计算,实现系统的超高速数据捕获、侦测与分析。频谱显示采用数字荧光显示技术,信号频谱展现更加实时、直观、精确。实测结果表明:该系统在可接受的性能损失范围内,提高了对信号的分析精确度。可重构计算使系统运行更高效,降低了传统频谱分析方法的能量消耗,使系统在大带宽情况下仍可实现对瞬态信号和复杂信号的实时精准分析。
In order to solve the problems of low test speed,inaccurate analysis of transient signal detection and poor real-time performance of traditional spectrum analysis systems,a Frequency Mask Triggering(FMT)technology combined with reconfigurable computing is proposed to achieve ultra-high speed data capture,detection and analysis.The digital fluorescent display technology is adopted to make the displayed signal spectrum more real-time and intuitive.The measured results show that the system has improved the accuracy of signal analysis within the acceptable performance loss range.The reconfigurable calculation makes the system run more efficiently,reduces the energy consumption,and enables the system to achieve real-time and accurate analysis on the transient signals and complex signals even under large bandwidth conditions.
作者
陈国通
刘琪
孙敬
CHEN Guotong;LIU Qi;SUN Jing(School of Electronic and Information Engineering,Hebei University of Science and Technology,Shijiazhuang Hebei 050000,China)
出处
《太赫兹科学与电子信息学报》
北大核心
2020年第6期1020-1024,共5页
Journal of Terahertz Science and Electronic Information Technology
基金
国家自然科学基金资助项目(61561010)
河北省科技支撑资助项目(18210803D)
河北省科技计划攻关资助项目(17210401D)。
关键词
瞬变信号
信号捕获
频谱分析
频率模板触发
可重构计算
频谱视图
数字荧光显示
transient signal
signal capture
spectrum analysis
Frequency Mask Trigger
reconfigurable calculation
spectrum view
digital fluorescent display
