仪器仪表学报
儀器儀錶學報
의기의표학보
CHINESE JOURNAL OF SCIENTIFIC INSTRUMENT
2009年
10期
2013-2017
,共5页
屈八一%周渭%王海%李智奇%许建华%张超
屈八一%週渭%王海%李智奇%許建華%張超
굴팔일%주위%왕해%리지기%허건화%장초
时间量化%CMOS%传输延迟%皮秒
時間量化%CMOS%傳輸延遲%皮秒
시간양화%CMOS%전수연지%피초
time-to-digital%CMOS%transmission delay%picosecond
目前的很多仪器设备中需要分辨率优于ns量级的时间量化仪和延迟单元.研究了利用信号在传输时的延迟来进行时间量化的可行性及其特点.实验结果表明基于传输延迟的时间量化技术较国外报道的基于CMOS门延迟的时间量化技术有线性度好、温度稳定性好、结构简单、实现容易等特点.采用导线延迟技术实现了一个分辨率优于300 ps,量化范围优于2 ns的时间量化仪.它的特点是延迟线后级检测电路参数的差异对这种设计有影响,必须经过标定,经过标定之后对某些特殊点的时间量化精度可达12 ps.同时指出了当提高分辨率时面临的问题以及基于ASIC技术的解决方法.
目前的很多儀器設備中需要分辨率優于ns量級的時間量化儀和延遲單元.研究瞭利用信號在傳輸時的延遲來進行時間量化的可行性及其特點.實驗結果錶明基于傳輸延遲的時間量化技術較國外報道的基于CMOS門延遲的時間量化技術有線性度好、溫度穩定性好、結構簡單、實現容易等特點.採用導線延遲技術實現瞭一箇分辨率優于300 ps,量化範圍優于2 ns的時間量化儀.它的特點是延遲線後級檢測電路參數的差異對這種設計有影響,必鬚經過標定,經過標定之後對某些特殊點的時間量化精度可達12 ps.同時指齣瞭噹提高分辨率時麵臨的問題以及基于ASIC技術的解決方法.
목전적흔다의기설비중수요분변솔우우ns량급적시간양화의화연지단원.연구료이용신호재전수시적연지래진행시간양화적가행성급기특점.실험결과표명기우전수연지적시간양화기술교국외보도적기우CMOS문연지적시간양화기술유선성도호、온도은정성호、결구간단、실현용역등특점.채용도선연지기술실현료일개분변솔우우300 ps,양화범위우우2 ns적시간양화의.타적특점시연지선후급검측전로삼수적차이대저충설계유영향,필수경과표정,경과표정지후대모사특수점적시간양화정도가체12 ps.동시지출료당제고분변솔시면림적문제이급기우ASIC기술적해결방법.
Time to digital converter (TDC) and time delay element with a resolution better than nanosecond are in great demand in many instruments and measurements at present. Transmission delay and its application in a Time to digital technology (TDT) are studied in this paper. The relationships between resolution, precision, quality and stability are pointed out in theory; and then experiments are carried out to test the analysis result. Experiment results show that the new TDT is better than traditional TDT based on COMS delay element in resolution, precision, stability and manufacturing. Furthermore, a TDC with a resolution better than 300 ps and a digital range better than 2 ns is designed using this technology. The TDC delay accuracy has relationship with the detection circuits used and as high as 12 ps delay accuracy can be achieved when a calibration is carried out.
