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Proceedings Paper

Novel photovoltaic Hg1-xCdxTe readout architecture for remote sensing applications
Author(s): Larry C. Dawson; Arvind I. D'Souza
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Paper Abstract

Focal plane arrays used for remote sensing applications are required to operate at high temperatures and are subject to high terrestrial background fluxes. Typical remote sensing applications like cloud/weather imagery, sea-surface temperature measurements, ocean color characterization, and land-surface vegetation indices also require FPA's that operate from the visible through the LWIR portion of the spectrum. This combination of harsh requirements have driven the design of a unique LWIR FPA, that operates at 80K under 300K background conditions, with an operating spectral range from 11.5μm to 12.5μm, and a spectral cutoff of 13.5μm. The FPA consists of 2 side by side arrays of 1×60 HgCdTe, (grown by molecular beam epitaxy) photovoltaic, detector arrays bump bonded to a custom CMOS Si readout. The 2 arrays are completely independent, and can be operated as such. The readout unit cell uses two, current-mode, analog building blocks; a Current Conveyor (CC1) and a dynamic current mirror. The CC1 has input impedance below 300 Ω and an injection efficiency that is independent of the detector characteristics. This combination extracts high performance and excellent sensitivity from detectors whose average RoA values are approximately 1.7 Ω-cm2 at T=80K. The dynamic current mirror is used to subtract high background photocurrent while preserving excellent dynamic range. In addition to the performance enhancing readout, the detectors are manufactured with integral microlenses and operated in reverse bias to take advantage of their increased dynamic impedance. The dark currents associated with reverse bias operation are subtracted along with the background photocurrents by the dynamic current mirror. Analysis of this unique ROIC architecture will be presented along with modeled performance. Measurements were performed on a LWIR FPA. Expected and measured FPA results are shown in the table below. The expected data are calculated from FPA models and compared to the measured values.

Paper Details

Date Published: 18 December 2002
PDF: 11 pages
Proc. SPIE 4818, Infrared Spaceborne Remote Sensing X, (18 December 2002); doi: 10.1117/12.458136
Show Author Affiliations
Larry C. Dawson, DRS Sensors and Targeting Systems, Inc. (United States)
Arvind I. D'Souza, DRS Sensors and Targeting Systems, Inc. (United States)


Published in SPIE Proceedings Vol. 4818:
Infrared Spaceborne Remote Sensing X
Marija Strojnik; Bjorn F. Andresen, Editor(s)

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