Steve McHugh scite author profile

SBIR's family of MIRAGE infrared scene projection systems is undergoing significant growth and expansion. The first two lots of production IR emitters have completed fabrication at Microelectronics Center of North Carolina/Research and Development Institute (MCNC-RDI), and the next round(s) of emitter production has begun. These latest emitter arrays support programs such as Large Format Resistive Array (LFRA), Optimized Array for Space-based Infrared Simulation (OASIS), MIRAGE 1.5, and MIRAGE II. We present the latest performance data on emitters fabricated at MCNC-RDI, plus integrated system performance on recently completed IRSP systems. Teamed with FLIR Systems/Indigo Operations, SBIR and the Tri-Services IRSP Working Group have completed development of the CMOS Read-In Integrated Circuit (RIIC) portion of the Wide Format Resistive Array (WFRA) program -to extend LFRA performance to a 768 x 1536 "wide screen" projection configuration. WFRA RIIC architecture and performance is presented. Finally, we summarize development of the LFRA Digital Emitter Engine (DEE) and OASIS cryogenic package assemblies, the next-generation Command & Control Electronics (C&CE).

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Ultra high temperature (UHT) infrared scene projector system development status

Sparkman

LaVeigne

McHugh

et al. 2012

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High-temperature MIRAGE XL (LFRA) IRSP system development

McHugh

Franks

LaVeigne

2017

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LWIR NUC using an uncooled microbolometer camera

LaVeigne

Franks

Sparkman

et al. 2010

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Performing a good non-uniformity correction is a key part of achieving optimal performance from an infrared scene projector. Ideally, NUC will be performed in the same band in which the scene projector will be used. Cooled, large format MWIR cameras are readily available and have been successfully used to perform NUC, however, cooled large format LWIR cameras are not as common and are prohibitively expensive. Large format uncooled cameras are far more available and affordable, but present a range of challenges in practical use for performing NUC on an IRSP. Santa Barbara Infrared, Inc. reports progress on a continuing development program to use a microbolometer camera to perform LWIR NUC on an IRSP. Camera instability and temporal response and thermal resolution are the main difficulties. A discussion of processes developed to mitigate these issues follows.

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Steve McHugh

Large format resistive array (LFRA) infrared scene projector (IRSP) performance and production status

MIRAGE: developments in IRSP systems, RIIC design, emitter fabrication, and performance

Ultra high temperature (UHT) infrared scene projector system development status

High-temperature MIRAGE XL (LFRA) IRSP system development

LWIR NUC using an uncooled microbolometer camera

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