In this circuits microwave crystal detectors is adopted for the sampling gate.
设备采用了普通的漂移晶体管和微波晶体检波器。
The picosecond transient sampling gate is mainly applied in laser fusion and high energy physics experiments for single high-speed pulse real-time sampling.
皮秒级瞬态取样门主要应用于激光聚变实验和高能物理实验中,对单次高速脉冲进行实时取样。
At the end of the counting period, the main gate is closed and counter reset for the next sampling period.
在计数阶段的最后,主控门关闭,然后计数器复位,开始下一个采样阶段。
The design method for the efficient time-varying network architecture of the fractional multiple sampling rate converter is presented and its field programmable gate array (FPGA) is implemented.
提出了分数倍抽样率转换器的高效时变网络结构的设计方法,并用现场可编程门阵列(FPGA)实现。
Computer-based virtual sampling with the appropriate gate time decided for the single-molecular photons timestamps is processed, and the ideal detection result was obtained.
利用理论分析单分子光子源最佳信噪比与采样门的对应关系,应用计算机虚拟采样测量单分子光辐射信号,获得了较理想的测量结果。
Computer-based virtual sampling with the appropriate gate time decided for the single-molecular photons timestamps is processed, and the ideal detection result was obtained.
利用理论分析单分子光子源最佳信噪比与采样门的对应关系,应用计算机虚拟采样测量单分子光辐射信号,获得了较理想的测量结果。
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