In this investigation we study different readout possibilities if using a metal-oxide-semiconductor capacitor (MOS-C) as a photodetector in a standard 0.5µm twin-well CMOS process. The pixel readout principles are intended to be used in high-speed near-infra red (NIR) 3-D CMOS imaging, based on Time-of-Flight (TOF) measurements. We discuss various issues and present an extensive study of the MOS-C based photodetector structure. Also, we propose a novel CMOS imaging pixel: the time-compression charge-injection photogate (CMOS TC-PG), fabricated in the same process
In this thesis, a 3D CMOS imager based on time-of-flight (TOF) has been developed and successfully t...
A CMOS imager that combines single photon sensitivity with photon timing capabilities has been devel...
A novel time-to-first-spike CMOS imager is presented, in which the timing of a single spike from eac...
In this investigation we examine different pixel structures and readout principles to be used in ima...
Concept and experimental results obtained from a pixel detector based on CMOS Time-Compression Charg...
An experimental comparison between Time-Compression (TC) photogate pixel detectors fabricated in bot...
Concept, theoretical analysis, and experimental results obtained from a charge-injection photogate (...
The interest in high performance three-dimensional (3D) imaging has grown in recent years due to imm...
A pixel architecture for providing not only normal 2-D images but also depth information by using a ...
In this investigation we show how a standard 0.5µm twin-well CMOS process can be used for CMOS imagi...
Photogate based active pixel sensors (PG APS) are often used in CMOS imaging. In advanced applicatio...
Time of Flight (TOF) range imaging is performed by sensing the delay time, TD of a known modulated l...
In this work, theoretical modeling and simulations of a 'time compression' parametric amplification ...
A novel time-of-flight (ToF) 3D-image sensor based on photogate (PG) active pixel structures fabrica...
The design of a CMOS image sensor based on single-photon avalanche-diode (SPAD) array with in-pixel ...
In this thesis, a 3D CMOS imager based on time-of-flight (TOF) has been developed and successfully t...
A CMOS imager that combines single photon sensitivity with photon timing capabilities has been devel...
A novel time-to-first-spike CMOS imager is presented, in which the timing of a single spike from eac...
In this investigation we examine different pixel structures and readout principles to be used in ima...
Concept and experimental results obtained from a pixel detector based on CMOS Time-Compression Charg...
An experimental comparison between Time-Compression (TC) photogate pixel detectors fabricated in bot...
Concept, theoretical analysis, and experimental results obtained from a charge-injection photogate (...
The interest in high performance three-dimensional (3D) imaging has grown in recent years due to imm...
A pixel architecture for providing not only normal 2-D images but also depth information by using a ...
In this investigation we show how a standard 0.5µm twin-well CMOS process can be used for CMOS imagi...
Photogate based active pixel sensors (PG APS) are often used in CMOS imaging. In advanced applicatio...
Time of Flight (TOF) range imaging is performed by sensing the delay time, TD of a known modulated l...
In this work, theoretical modeling and simulations of a 'time compression' parametric amplification ...
A novel time-of-flight (ToF) 3D-image sensor based on photogate (PG) active pixel structures fabrica...
The design of a CMOS image sensor based on single-photon avalanche-diode (SPAD) array with in-pixel ...
In this thesis, a 3D CMOS imager based on time-of-flight (TOF) has been developed and successfully t...
A CMOS imager that combines single photon sensitivity with photon timing capabilities has been devel...
A novel time-to-first-spike CMOS imager is presented, in which the timing of a single spike from eac...