Investigation of CMOS Image Sensor dark current reduction by optimizing Interface defect

Wuzhi Zhang, Zhengying Wei, Yansheng Wang, W. Zhou, Chang Sun, Jun Qian, Yuhang Zhao
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引用次数: 1

Abstract

Dark current (DC) was one of the most critical parameters of CMOS image sensors (CIS), and interface defects during semiconductor fabrication process dominate the DC performance. The research investigated Tx Negative-Bias / P-Well and P+ IMP in this paper, and achieved extreme low DC at high temperature of 60 °C. Firstly, Tx negative bias was used to restrict the Poly/Gate OX/Si substrate interface defects. The DC reduced 83.9% while −0.7 V Negative-Bias implemented on Tx. Secondly, P-Well IMP conditions were studied for reducing the Interface defects of shallow trench isolation (STI). The DC could decrease 39.8 mV/s by increasing Boron dosage of P-Well. Thirdly, photodiode surface IMP (P+) was researched. The suppression of DC induced by PD surface interface defects would decrease 20 mV/s with experimental condition.
优化接口缺陷降低CMOS图像传感器暗电流的研究
暗电流(DC)是CMOS图像传感器(CIS)最关键的参数之一,而半导体制造过程中的接口缺陷决定了其直流性能。本文研究了Tx负偏置/ P-阱和P+ IMP,并在60℃高温下实现了极低直流。首先,利用Tx负偏置抑制Poly/Gate OX/Si衬底界面缺陷;在- 0.7 V负偏置下,直流降低83.9%。其次,研究了p阱IMP条件,以减少浅沟隔离(STI)的接口缺陷。增加P-Well的硼用量可使DC降低39.8 mV/s。第三,研究了光电二极管表面IMP (P+)。在实验条件下,PD表面界面缺陷对直流的抑制可降低20 mV/s。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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