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Pulsed time-of-flight 3D-CMOS imaging using photogate-based active pixel sensors

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Andreas Spickermann; Daniel Durini; Stefan Brocker; Werner Brockherde; Bedrich J. Hosticka; Anton Grabmaier
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Abstract:

A novel time-of-flight (ToF) 3D-image sensor based on photogate (PG) active pixel structures fabricated in a standard 0.35 mum CMOS process is presented. Distance measure...Show More

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Abstract:

A novel time-of-flight (ToF) 3D-image sensor based on photogate (PG) active pixel structures fabricated in a standard 0.35 mum CMOS process is presented. Distance measurements are performed using a pulsed near-infrared (lambda = 905 nm) laser with pulse widths of 30 ns to 60 ns for distance measurements up to 9 m. The developed ToF pixel consists of a photogate (APG = 30 x 30 mum2) and four floating diffusion (FD) readout nodes, which enable the detection of reflected laser pulse delay and efficient ambient light suppression. Our fabricated sensor contains 4 x 16 pixels and exhibits a dynamic range of 56 dB and a noise equivalent power of 4.46 W/m2 using a single laser pulse.
Published in: 2009 Proceedings of ESSCIRC
Date of Conference: 14-18 September 2009
Date Added to IEEE Xplore: 10 November 2009
ISBN Information:
Print ISSN: 1930-8833
DOI: 10.1109/ESSCIRC.2009.5325991
Conference Location: Athens, Greece
References is not available for this document.
Contents

I. Introduction

Nowadays, three different techniques for optical and contactless 3D distance measurements are well established: those based on interferometry, on triangulation, and on the time-of-flight (ToF) principle. Optical 3D image sensors can be found in many different applications, e.g. in the automotive industry or safety applications. Low-cost 3D image sensors based on standard CMOS technology can generate a huge market for these applications. In this work, we present a 3D image sensor using the time-of-flight principle, fabricated in a standard CMOS process.

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