基于线性模增益调制雪崩光电二极管的三维相机

O. Shcherbakova, L. Pancheri, G. Betta, N. Massari, D. Stoppa
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引用次数: 25

摘要

在过去的几年里,科学界和工业界都对距离成像表现出越来越大的兴趣,因为它在机器人、安全和监控、车辆安全、游戏和移动应用等各种应用领域具有潜在的开发潜力。在多种可用的距离检测技术中,飞行时间(ToF)技术具有系统实现紧凑、性能好、计算能力低等优点。最近关于ToF传感器的工作,提出了基于光子混合器件的解调传感器[1,2]和基于单光子雪崩二极管的时间计数传感器[3],已经显示出更高分辨率的趋势,从而减少了像素尺寸,提高了调制频率,以及解调对比度,以实现更好的距离精度。在本文中,我们介绍了一种利用线性模式雪崩光电二极管(APD)作为像素内解调检测器的距离相机概念[4]。由于光电流增益调制,apd可以在单个器件中结合光传感和光信号解调。APD实现的主要优点是可以在高频率下工作,因为它的带宽非常宽。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
3D camera based on linear-mode gain-modulated avalanche photodiodes
In the last few years, both the scientific and industrial communities have shown an increasing interest in range imaging, due to its potential exploitation in various application domains such as robotics, security and surveillance, vehicle safety, gaming, and mobile applications. Among the diversity of techniques available for range detection, Time-of-Flight (ToF) offers advantages in terms of compact system realization, good performance, and low required computational power. The last works on ToF sensors, presenting demodulation sensors based on photon-mixing devices [1, 2], and time-counting sensors based on single-photon avalanche diodes [3], have shown a trend towards higher resolutions, with a consequent reduction of pixel size, higher modulation frequencies, and demodulation contrast to allow better distance precision. In this paper, we introduce a range camera concept that exploits linear-mode avalanche photodiodes (APD) as in-pixel demodulating detectors [4]. Thanks to photocurrent gain modulation, APDs can combine optical sensing and light-signal demodulation in a single device. The main advantage of the APD implementation is the possibility to operate at high frequencies, due to its very wide bandwidth.
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