大画幅17μm高端VOx μ-测热红外探测器

Defense, Security, and Sensing Pub Date : 2013-06-11 DOI:10.1117/12.2015653

U. Mizrahi, N. Argaman, S. Elkind, A. Giladi, Y. Hirsh, M. Labilov, I. Pivnik, N. Shiloah, M. Singer, A. Tuito, M. Ben-Ezra, I. Shtrichman

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引用次数: 17

摘要

远程瞄准具和瞄准系统需要高空间分辨率、低时间NETD和宽视场的组合。在实际的光电系统中，很难同时满足这些约束条件。此外，用相对低成本的非冷却μ-辐射热计技术来实现这些需求是设计和实现辐射热计像素和读出集成电路(ROIC)的主要挑战。在这项工作中，我们展示了一种新的大格式(1024×768)探测器阵列的测量结果，其间距为17μm。该探测器具有高分辨率和大画幅的特点，且NETD小于35mK (F/ 1,30 hz)，满足了典型装甲车瞄准具的要求。我们估计在所有相关大气条件下，北约目标的识别距离优于4公里，优于标准的第二代扫描阵列冷却探测器。探测器封装的新设计提高了非均匀性校正(NUC)对环境温度漂移的稳定性。

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Large-format 17μm high-end VOx μ-bolometer infrared detector

Long range sights and targeting systems require a combination of high spatial resolution, low temporal NETD, and wide field of view. For practical electro-optical systems it is hard to support these constraints simultaneously. Moreover, achieving these needs with the relatively low-cost Uncooled μ-Bolometer technology is a major challenge in the design and implementation of both the bolometer pixel and the Readout Integrated Circuit (ROIC). In this work we present measured results from a new, large format (1024×768) detector array, with 17μm pitch. This detector meets the demands of a typical armored vehicle sight with its high resolution and large format, together with low NETD of better than 35mK (at F/1, 30Hz). We estimate a Recognition Range for a NATO target of better than 4 km at all relevant atmospheric conditions, which is better than standard 2nd generation scanning array cooled detector. A new design of the detector package enables improved stability of the Non-Uniformity Correction (NUC) to environmental temperature drifts.

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Defense, Security, and Sensing

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