B.F. Aug, A. Loomis, D. Young, A. Stern, B. Felton, P. Daniels, D. J. Landers, D. Rathman, R. Heinrichs, R. Marino, D. G. Fouche, D. G. Kocher, J. Mooney, M. O'Brien, B. E. Player, B. Willard, J. Zayhowski
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引用次数: 47
摘要
林肯实验室开发了32 x 32像素的雷达焦平面,包括硅盖革模式雪崩光电二极管和每个像素的高速全数字CMOS时序电路。在盖革模式下,APD可以检测到一个光子,产生一个数字cmos兼容的电压脉冲。该脉冲用于阻止像素电路中的高速计数器,从而将光脉冲的到达时间数字化。这种“光子到数字转换”同时实现了单光子灵敏度和0.5 ns定时。我们讨论了这些焦平面的发展,并介绍了使用它们的雷达系统的图像。
Three-dimensional imaging with arrays of geiger-mode avalanche photodiodes
Lincoln Laboratory has developed 32 x 32-pixel ladar focal planes comprising silicon geiger-mode avalanche photodiodes and high-speed all-digital CMOS timing circuitry in each pixel. In Geiger mode operation, the APD can detect as little as a single photon, producing a digital CMOS-compatible voltage pulse. This pulse is used to stop a high-speed counter in the pixel circuit, thus digitizing the time of arrival of the optical pulse. This "photon-to-digital conversion" simultaneously achieves single-photon sensitivity and 0.5-ns timing. We discuss the development of these focal planes and present imagery from ladar systems that use them.
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