Fully CMOS analog and digital SiPMs

Photonics West - Optoelectronic Materials and Devices Pub Date : 2015-04-17 DOI:10.1117/12.2077473

Yu Zou, F. Villa, D. Bronzi, S. Tisa, A. Tosi, F. Zappa

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引用次数: 3

Abstract

Silicon Photomultipliers (SiPMs) are emerging single photon detectors used in many applications requiring large active area, photon-number resolving capability and immunity to magnetic fields. We present three families of analog SiPM fabricated in a reliable and cost-effective fully standard planar CMOS technology with a total photosensitive area of 1×1 mm2. These three families have different active areas with fill-factors (21%, 58.3%, 73.7%) comparable to those of commercial SiPM, which are developed in vertical (current flow) custom technologies. The peak photon detection efficiency in the near-UV tops at 38% (fill-factor included) comparable to commercial custom-process ones and dark count rate density is just a little higher than the best-in-class commercial analog SiPMs. Thanks to the CMOS processing, these new SiPMs can be integrated together with active components and electronics both within the microcell and on-chip, in order to act at the microcell level or to perform global pre-processing. We also report CMOS digital SiPMs in the same standard CMOS technology, based on microcells with digitalized processing, all integrated on-chip. This CMOS digital SiPMs has four 32×1 cells (128 microcells), each consisting of SPAD, active quenching circuit with adjustable dead time, digital control (to switch off noisy SPADs and readout position of detected photons), and fast trigger output signal. The achieved 20% fill-factor is still very good.

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全CMOS模拟和数字sipm

硅光电倍增管(sipv)是一种新兴的单光子探测器，用于许多需要大的有效面积、光子数分辨能力和抗磁场的应用中。我们提出了三种模拟SiPM系列，采用可靠且经济高效的全标准平面CMOS技术制造，总光敏面积为1×1 mm2。这三个系列具有不同的活跃区域，其填充系数(21%，58.3%，73.7%)与商业SiPM相当，后者是用垂直(当前流)定制技术开发的。在近紫外顶部的峰值光子检测效率为38%(包括填充因子)，与商业定制工艺的光子检测效率相当，黑暗计数率密度仅略高于同类最佳的商业模拟sipm。由于采用CMOS处理，这些新型sipm可以与微单元内和片上的有源元件和电子元件集成在一起，以便在微单元级别上工作或执行全局预处理。我们还报道了采用相同标准CMOS技术的CMOS数字sipm，基于具有数字化处理的微单元，全部集成在片上。该CMOS数字SiPMs有4个32×1单元(128个微单元)，每个微单元由SPAD、可调死区有源猝灭电路、数字控制(关闭噪声SPAD和读出检测光子的位置)和快速触发输出信号组成。达到20%的填充系数仍然非常好。

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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Photonics West - Optoelectronic Materials and Devices

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