Planar CMOS analog SiPMs: design, modeling, and characterization

Silicon photomultipliers (SiPMs) are large area detectors consisting of an array of single-photon-sensitive microcells, which make SiPMs extremely attractive to substitute the photomultiplier tubes in many applications. We present the design, fabrication, and characterization of analog SiPMs in standard planar 0.35 μm CMOS technology, with about 1 mm × 1 mm total area and different kinds of microcells, based on single-photon avalanche diodes with 30 μm diameter reaching 21.0% fill-factor (FF), 50 μm diameter (FF = 58.3%) or 50 μm square active area with rounded corner of 5 μm radius (FF = 73.7%). We also developed the electrical SPICE model for CMOS SiPMs. Our CMOS SiPMs have 25 V breakdown voltage, in line with most commercial SiPMs and higher gain (8.8 × 106, 13.2 × 106, and 15.0 × 106, respectively). Although dark count rate density is slightly higher than state-of-the-art analog SiPMs, the proposed standard CMOS processing opens the feasibility of integration with active electronics, for switching hot pixels off, drastically reducing the overall dark count rate, or for further on-chip processing.

[1]  W. Brockherde,et al.  CMOS SPADs with up to 500 μm diameter and 55% detection efficiency at 420 nm , 2014 .

[2]  Matteo Perenzoni,et al.  A Fully Digital 8$\,\times\,$16 SiPM Array for PET Applications With Per-Pixel TDCs and Real-Time Energy Output , 2014, IEEE Journal of Solid-State Circuits.

[3]  R. Gassert,et al.  Silicon photomultipliers for improved detection of low light levels in miniature near-infrared spectroscopy instruments , 2013, Biomedical optics express.

[4]  Guo-Qiang Lo,et al.  Novel Silicon Photomultiplier With Vertical Bulk-Si Quenching Resistors , 2013, IEEE Electron Device Letters.

[5]  Federica Villa,et al.  Large-area CMOS SPADs with very low dark counting rate , 2013, Photonics West - Optoelectronic Materials and Devices.

[6]  K. Suzuki,et al.  Position sensitive SiPM detector for Cherenkov applications , 2011, 1111.3491.

[7]  Jin-Wei Shi Photodiodes : communications, bio-sensings, measurements, and high-energy physics , 2011 .

[8]  Heping Zeng,et al.  Two-bit quantum random number generator based on photon-number-resolving detection. , 2011, The Review of scientific instruments.

[9]  Florian Schopper,et al.  SiMPl—An avalanche diode array with bulk integrated quench resistors for single photon detection , 2010 .

[10]  A. Dalla Mora,et al.  Single-photon avalanche diode arrays and CMOS microelectronics for counting, timing, and imaging quantum events , 2010, OPTO.

[11]  Alberto Del Guerra,et al.  Advances in position-sensitive photodetectors for PET applications , 2009 .

[12]  A. Tosi,et al.  Single-Photon Avalanche Diode Model for Circuit Simulations , 2007, IEEE Photonics Technology Letters.

[13]  B. Vojnovic Advanced Time‐Correlated Single Photon Counting Techniques , 2006 .

[14]  A. Lacaita,et al.  Avalanche photodiodes and quenching circuits for single-photon detection. , 1996, Applied optics.