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Microelectronics, Volume. 51, Issue 4, 546(2021)

A Compact Time-to-Amplitude Converter for Single-Photon Time-of-Flight Measurement

MA Zhiqiang1, XU Yue1,2, ZHU Sihui1, and WU Zhong1
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    [1] [1] TAKAI I, MATSUBARA H, SOGA M, et al. Single-photon avalanche diode with enhanced NIR-sensitivity for automotive LIDAR systems [J]. Sensors, 2016, 16(4): 459-462.

    [5] [5] PERENZONI M, PERENZONI D, STOPPA D. A 64×64-pixels digital silicon photomultiplier direct TOF sensor with 100-M photons/s/pixel background rejection and imaging/altimeter mode with 014% precision up to 6 km for spacecraft navigation and landing [J]. IEEE J Sol Sta Circ, 2017, 52(1): 151-160.

    [6] [6] GERSBACH M, MARUYAMA Y, TRIMANANDA R, et al. A time-resolved, low-noise single-photon image sensor fabricated in deep-submicron CMOS technology [J]. IEEE J Sol Sta Circ, 2012, 47(6): 1394-1407.

    [7] [7] VILLA F, LUSSANA R, BRONZI D, et al. CMOS imager with 1024 SPADs and TDCs for single-photon timing and 3-D time-of-flight [J]. IEEE J Selec Top Quan Elec, 2014, 20(6): 3804810.

    [8] [8] YOSHIOKA K, KUBATA H, FUKUSHIMA T, et al. A 20ch TDC/ADC hybrid SoC for 240×96-pixel 10%-reflection <0125%-precision 200 m-range imaging LiDAR with smart accumulation technique [C] // Proceed IEEE ISSCC. San Francisco, CA, USA. 2018: 92-94.

    [9] [9] XIMENES A R, PADMANABHAN P, LEE M, et al. A 256×256 45/65 nm 3D-stacked SPAD-based direct TOF image sensor for LiDAR applications with optical polar modulation for up to 186 dB interference suppression [C] // Proceed IEEE ISSCC. San Francisco, CA, USA. 2018: 96-98.

    [10] [10] PARMESAN L, DUTTON N A W, CALDER N J, et al. A 98 μm sample and hold time to amplitude converter CMOS SPAD pixel [C] // Proceed ESSDERC. Venice Lido, Italy. 2014: 290-293.

    [11] [11] PARMESAN L, DUTTON N A W, CALDER N J, et al. A 256×256 SPAD array with in-pixel time to amplitude conversion for fluorescence lifetime imaging microscopy [C] // Proceed IIWV. Vaals, The Netherlands. 2015: 1-4.

    [12] [12] STOPPA D, BORGHETTI F, RICHARDSON J, et al. A 32×32-pixel array with in-pixel photon counting and arrival time measurement in the analog domain [C] // Proceed ESSDERC. Athens, Greece. 2009: 204-207.

    [13] [13] ACCONCIA G, CROTTI M, ANTONIOLI S, et al. High-performance time-to-amplitude converter array [C] // Proceed IEEENoMe TDC. Perugia, Italy. 2013: 1-5.

    [14] [14] XU Y, WU Z, LI D. Behavioral modeling of photon arrival time for time-of-flight measurement circuit simulation [J]. IEEE Photon J, 2019, 11(1): 6800509.

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    MA Zhiqiang, XU Yue, ZHU Sihui, WU Zhong. A Compact Time-to-Amplitude Converter for Single-Photon Time-of-Flight Measurement[J]. Microelectronics, 2021, 51(4): 546

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    Paper Information

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    Received: Nov. 5, 2020

    Accepted: --

    Published Online: Feb. 21, 2022

    The Author Email:

    DOI:10.13911/j.cnki.1004-3365.200513

    Topics

    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology