Design of a Low-Cost, Lightweight, Passively Cooled, Narrowband, SWIR Camera for Space-Based Imaging

Design of a Low-Cost, Lightweight, Passively Cooled, Narrowband, SWIR Camera for Space-Based Imaging

This document describes the conceptual design for a spaceborne imager operating in the short-wave infrared (SWIR). The instrument was designed to image a single emission line of OH from the night sky from a satellite in low Earth orbit, but much of the design is relevant to other imaging application...

Ausführliche Beschreibung

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Bibliographische Detailangaben
Hauptverfasser: Rudy, R J, Dotan, Y, Hecht, J H, Mabry, D J, Sivjee, M G, Warren, D W
Format: Report
Sprache:eng
Schlagworte:
Astronautics
FOCAL PLANE ARRAYS
IMAGE PROCESSING
INFRARED CAMERAS
INFRARED DETECTION
Infrared Detection and Detectors
LIGHTWEIGHT
LOW COSTS
NARROWBAND
Optics
RADIOMETRY
SHORT WAVELENGTHS
SPACE BASED
SWIR(SHORT-WAVE INFRARED)
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Beschreibung
Zusammenfassung:This document describes the conceptual design for a spaceborne imager operating in the short-wave infrared (SWIR). The instrument was designed to image a single emission line of OH from the night sky from a satellite in low Earth orbit, but much of the design is relevant to other imaging applications. The imager has a 23.40 FOV in the crosstrack direction with a resolution of 1.6 mrad. It functions like a line scanner but incorporates a two-dimensional (256 x 256) InGaAs focal-plane array (FPA) to attain high signal-to-noise. It employs a set of telecentric foreoptics to accommodate narrowband imaging, but a simpler design would serve for broadband measurements. It uses a small radiator to passively cool the FPA to 200K and direct radiation by the support assembly to reduce the temperature of the optics. A novel approach that accomplishes TDI (time, delay, integrate) off of the focal plane obviates the need for a step/stare mirror. The design has no moving parts, weighs less than 6 kg, and consumes less than 15 W of power. The original document contains color images. All DTIC reproductions will be in black and white.