0.35µm CMOS SPAD混合淬火电路，在854 nm处实现39.2%的PDP

2022 29th International Conference on Mixed Design of Integrated Circuits and System (MIXDES) Pub Date : 2022-06-23 DOI:10.23919/mixdes55591.2022.9838232

Alija Dervić, H. Zimmermann

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引用次数: 0

摘要

本文提出了一种基于可调阈值逆变器的全集成光传感器，该传感器具有SPAD和混合淬火/复位电路，具有传感级，针对标准0.35µm CMOS技术进行了优化。所提出的淬灭器具有可控制的检测阈值电压和可调的总死区时间。淬火电路5QC达到16.5 V的偏置电压(5倍于电源电压)。死区时间范围为7.5 ~ 51.5 ns，对应的饱和计数速率范围为19.4 ~ 133.3 Mcps。该淬灭器针对spad进行了优化，其电容范围从50 fF到400 fF。利用我们发表的测量光子探测概率(PDP)结果并外推它们，估计VEX = 16.5 V时，652 nm处的PDP峰值为75.6%，854 nm处的PDP峰值为39.2%。据作者所知，在标准CMOS技术中，完全集成的SPAD传感器从未达到过PDP结果。

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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SPAD Mixed-Quenching Circuit in 0.35-µm CMOS for Achieving a PDP of 39.2% at 854 nm

This paper presents a fully-integrated optical sensor with SPAD and mixed quenching/resetting circuit with sensing stage based on a tunable-threshold inverter optimized for the standard 0.35-µm CMOS technology. The presented quencher features a controllable detection threshold voltage and an adjustable total dead time. The quenching circuit 5QC achieves 16.5 V excess bias voltage (five times the supply voltage). The dead time ranges from 7.5 ns to 51.5 ns, which corresponds to a saturation count rate range from 19.4 Mcps to 133.3 Mcps. The quencher is optimized for SPADs with a capacitance ranging from 50 fF up to 400 fF. Using our published measured photon detection probability (PDP) results and extrapolating them, a peak PDP of 75.6% at 652 nm and a PDP of 39.2% at 854 nm is estimated for VEX = 16.5 V. To the authors' best knowledge, the presented PDP result has never been reached before for a fully-integrated SPAD sensor in standard CMOS technology.

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2022 29th International Conference on Mixed Design of Integrated Circuits and System (MIXDES)

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