红外与激光工程
紅外與激光工程
홍외여격광공정
INFRARED AND LASER ENGINEERING
2014年
4期
1025-1031
,共7页
苏晓锋%潘胜达%龚学艺%杨育周%陈凡胜
囌曉鋒%潘勝達%龔學藝%楊育週%陳凡勝
소효봉%반성체%공학예%양육주%진범성
DTDI%红外面阵%BBD%信噪比%非均匀性
DTDI%紅外麵陣%BBD%信譟比%非均勻性
DTDI%홍외면진%BBD%신조비%비균균성
DTDI%IRFPA%BBD%SNR%non-uniformity
戽链(BBD)结构的CMOS红外模拟TDI探测器,由于其兼容普通CMOS工艺,并可以提高系统的信噪比,因而在空间遥感领域得到了广泛的应用。而基于焦平面面阵的数字TDI(Digital Time Delay and Integration)技术的研究与应用尚在起步阶段。利用中国生产的320×256中波面阵红外探测器进行DTDI研究,对比分析了模拟TDI探测器的电子转移效率、BBD噪声、动态范围等方面的性能,突出了DTDI在结构和性能上的优势,并通过理论推导了DTDI对面阵探测器本身信噪比的提高,非均匀性的改善,同时分析了DTDI过程中盲元对性能的影响。最后,通过实验得到了16级DTDI的信噪比增加为2.5倍,非均匀性减少到1.68%,验证了DTDI技术对系统性能的改善,为DTDI技术的应用提供了理论参考。
戽鏈(BBD)結構的CMOS紅外模擬TDI探測器,由于其兼容普通CMOS工藝,併可以提高繫統的信譟比,因而在空間遙感領域得到瞭廣汎的應用。而基于焦平麵麵陣的數字TDI(Digital Time Delay and Integration)技術的研究與應用尚在起步階段。利用中國生產的320×256中波麵陣紅外探測器進行DTDI研究,對比分析瞭模擬TDI探測器的電子轉移效率、BBD譟聲、動態範圍等方麵的性能,突齣瞭DTDI在結構和性能上的優勢,併通過理論推導瞭DTDI對麵陣探測器本身信譟比的提高,非均勻性的改善,同時分析瞭DTDI過程中盲元對性能的影響。最後,通過實驗得到瞭16級DTDI的信譟比增加為2.5倍,非均勻性減少到1.68%,驗證瞭DTDI技術對繫統性能的改善,為DTDI技術的應用提供瞭理論參攷。
호련(BBD)결구적CMOS홍외모의TDI탐측기,유우기겸용보통CMOS공예,병가이제고계통적신조비,인이재공간요감영역득도료엄범적응용。이기우초평면면진적수자TDI(Digital Time Delay and Integration)기술적연구여응용상재기보계단。이용중국생산적320×256중파면진홍외탐측기진행DTDI연구,대비분석료모의TDI탐측기적전자전이효솔、BBD조성、동태범위등방면적성능,돌출료DTDI재결구화성능상적우세,병통과이론추도료DTDI대면진탐측기본신신조비적제고,비균균성적개선,동시분석료DTDI과정중맹원대성능적영향。최후,통과실험득도료16급DTDI적신조비증가위2.5배,비균균성감소도1.68%,험증료DTDI기술대계통성능적개선,위DTDI기술적응용제공료이론삼고。
The CMOS TDI of infrared detector based on bucket-brigade device (BBD) structure, has been widely used in the field of space remote sensing, it can compatible with the general CMOS process, and improve the signal-to-noise ratio (SNR) of the system. Compare with the analog TDI, the Digital Time Delay and Integration (DTDI) based on the infrared focal plane array is still in the initial stage. In this paper, the 320×256 MWIR FPA was used to do the DTDI research, and the electron transfer efficiency, the BBD noise and the dynamic range of the analog TDI was in a detail analysis to compare with DTDI. And the NU and blind pixel were also taken into consideration to analysis the DTDI performance. Finally in the experiment, the SNR can be increased to 2.5 times and the NU can be reached 1.68% after the 16-stage DTDI was used, which verify the improvement of the system performance by using DTDI technique.
