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引用次数: 4
摘要
提出了一种基于进位链的FPGA时间-数字转换器(TDC)的温度补偿设计。在不同温度条件下,对普通TDC和Wave Union TDC进行了逐箱校准,表征了温度变化对携带链延迟时间的影响,结果表明所有TDC通道具有相似的温度- lut系数。在此基础上,实现了一种简化的温度补偿方案,即利用专用的校正通道测量系数并对所有TDC通道的精细时间结果进行校正。该方法的仿真和测量误差均小于皮秒。通过这种补偿方法,Cyclone II FPGA在10°C至75°C的宽温度范围内实现了21ps RMS TDC分辨率。本文还介绍了几个设计要点。
A 20-ps temperature compensated Time-to-Digital Converter (TDC) implemented in FPGA
This paper presents a temperature compensation design for carry chain based Time-to-Digital Converter (TDC) in FPGA. The bin-by-bin calibrations under different temperatures are performed for both plain TDC and Wave Union TDC to characterize the influence of temperature variation on the delay time of carry chain which shows all TDC channels have the similar temperature-LUT coefficient. Accordingly, a simplified temperature compensation scheme by using a dedicated correction channel to measure the coefficient and correct fine time result for all TDC channels is implemented and tested. This method shows only few picosecond errors for both simulation and measurement. With this compensation approach, a 21ps RMS TDC resolution has been achieved in Cyclone II FPGA under a wide temperature range from 10°C to 75°C. Several design key points are also described in this paper.
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