CMOS SPAD Sensors for 3D Time-of-Flight Imaging, LiDAR and Ultra-High Speed Cameras

Chao Zhang

doi:10.4233/uuid:f2e8ac06-33c0-423e-9617-6eaa87f7abd8

CMOS SPAD Sensors for 3D Time-of-Flight Imaging, LiDAR and Ultra-High Speed Cameras

Chao Zhang

Research output: Thesis › Dissertation (TU Delft)

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Abstract

In conventional applications, such as bio-imaging and microscopy, SPAD is typically used as a single-photon counter. However, this advantage has been challenged by other photon-counting technologies, especially from CMOS-based QIS. Comparatively, apart from single-photon counting capability, QIS is superior to SPAD in terms of intrinsic multi-photon counting capability, quantum efficiency, dark noise, pixel size and fill factor. All these features indicate a low cost and high resolution photon counting imager can be built with QIS, which can be a great competition to SPADs. Moreover, QIS has been demonstrated with 1Mjot array, 0.175e- rms read noise and 1000 fps at less than 20 mWpower consumption.

Original language	English
Awarding Institution	Delft University of Technology
Supervisors/Advisors	Charbon-Iwasaki-Charbon, E., Supervisor
Award date	13 May 2019
DOIs	https://doi.org/10.4233/uuid:f2e8ac06-33c0-423e-9617-6eaa87f7abd8
Publication status	Published - 2019

Keywords

Single-photon avalanche diode
time-of-flight
LiDAR
image sensor
high-speed sensor

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dissertationFinal published version, 22 MB

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title = "CMOS SPAD Sensors for 3D Time-of-Flight Imaging, LiDAR and Ultra-High Speed Cameras",

abstract = "In conventional applications, such as bio-imaging and microscopy, SPAD is typically used as a single-photon counter. However, this advantage has been challenged by other photon-counting technologies, especially from CMOS-based QIS. Comparatively, apart from single-photon counting capability, QIS is superior to SPAD in terms of intrinsic multi-photon counting capability, quantum efficiency, dark noise, pixel size and fill factor. All these features indicate a low cost and high resolution photon counting imager can be built with QIS, which can be a great competition to SPADs. Moreover, QIS has been demonstrated with 1Mjot array, 0.175e- rms read noise and 1000 fps at less than 20 mWpower consumption.",

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author = "Chao Zhang",

year = "2019",

doi = "10.4233/uuid:f2e8ac06-33c0-423e-9617-6eaa87f7abd8",

language = "English",

type = "Dissertation (TU Delft)",

school = "Delft University of Technology",

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T1 - CMOS SPAD Sensors for 3D Time-of-Flight Imaging, LiDAR and Ultra-High Speed Cameras

AU - Zhang, Chao

PY - 2019

Y1 - 2019

N2 - In conventional applications, such as bio-imaging and microscopy, SPAD is typically used as a single-photon counter. However, this advantage has been challenged by other photon-counting technologies, especially from CMOS-based QIS. Comparatively, apart from single-photon counting capability, QIS is superior to SPAD in terms of intrinsic multi-photon counting capability, quantum efficiency, dark noise, pixel size and fill factor. All these features indicate a low cost and high resolution photon counting imager can be built with QIS, which can be a great competition to SPADs. Moreover, QIS has been demonstrated with 1Mjot array, 0.175e- rms read noise and 1000 fps at less than 20 mWpower consumption.

AB - In conventional applications, such as bio-imaging and microscopy, SPAD is typically used as a single-photon counter. However, this advantage has been challenged by other photon-counting technologies, especially from CMOS-based QIS. Comparatively, apart from single-photon counting capability, QIS is superior to SPAD in terms of intrinsic multi-photon counting capability, quantum efficiency, dark noise, pixel size and fill factor. All these features indicate a low cost and high resolution photon counting imager can be built with QIS, which can be a great competition to SPADs. Moreover, QIS has been demonstrated with 1Mjot array, 0.175e- rms read noise and 1000 fps at less than 20 mWpower consumption.

KW - Single-photon avalanche diode

KW - time-of-flight

KW - LiDAR

KW - image sensor

KW - high-speed sensor

U2 - 10.4233/uuid:f2e8ac06-33c0-423e-9617-6eaa87f7abd8

DO - 10.4233/uuid:f2e8ac06-33c0-423e-9617-6eaa87f7abd8

M3 - Dissertation (TU Delft)

ER -

CMOS SPAD Sensors for 3D Time-of-Flight Imaging, LiDAR and Ultra-High Speed Cameras

Abstract

Keywords

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