Award Data

The proposal would provide the design and basic product development work to augment the power generation efficiency of fuel cells developed by Acumentrics Corp. by converting waste heat into electricity by highly efficient thermoelectric (TE) power generation. Three paths will be explored in Phase I to add a TE generator to the SOFC. The first will explore the use of a material that is used in co ...

The Small Business Technology Transfer Research (STTR) Phase I project will address the need for an advanced process control system for improved manufacturing of photovoltaic cells. Thin film silicon photovoltaic modules offer a potentially lower cost alternative to crystalline silicon modules through reduced materials utilization and lower processing temperatures if improvements in conversion ef ...

This Small Business Technology Transfer (STTR) Phase I project is focused on the development of a unique diamond carbon coated graphite-copper composite material. The composite material will be used to produce low thermal resistance packaging components for use in RF power amplifiers. Under the Phase I effort, a low-cost diamond carbon coating process will be demonstrated. There is a critical need ...

An innovative concept for a scalable true time delay (TTD) array for digital beamforming is proposed. The concept is photonics and fiber optic wavelength division multiplexing (WDM) based and will support transmit/receive applications over the 1 to 20 GHz, extendable up to V bands. The design provides a digitally controlled true time delay array for beamforming effectively adaptive to Navy phased ...

Based on Agiltron’s extensive experience of design and fabrication of UV LED cure systems that are currently employed in the fiber optics field, we propose to construct a new cost-effective UV LED-based cure system and epoxy resin for the rapid cure epoxy impregnated fiberglass for galvanic barrier ply applications. Our novel optical design enables this UV cure system to deliver sufficient and ...

Agiltron proposes to develop a new class of multi-channel FORJ, which meets the demanding aerospace communication rotary link requirement of ultra-reliability, light weight, compact size, and high performance. Our approach is based on an optical wavelength division multiplexing (WDM) platform which enables a single light beam to carry multi-channel signals and pass through the rotary joint. The un ...

Agiltron has developed and demonstrated fabrication capability for a new category of uncooled photomechanical IR imagers that convert infrared radiation into visible images using a conventional visible-light CMOS camera. This breakthrough thermal image technology potentially offers next generation thermal camera performance attributes of: Large Pixel Array, Uncooled Operation, High Sensitivity, F ...

Agiltron and StockerYale team proposes to develop a new class of multimode fiber that is more durable, reliable, and tight-bending to replace the current mil-spec qualified fibers used in aerospace. Our approach is a combination of a proven trench assistant design principle optimization and effective carbon coating. The new class of multimode fiber has attributes that is 100 times more bendable t ...

An innovative concept for a scalable Digital Beamformer that can be applied to the full range of Navy radars/RF communication is proposed. The concept is photonics based and will support transmit/receive applications over the 0.1 to 40 GHz, and V bands. The design provides a digitally controlled True Time Delay based Beamformer effectively adaptive to a phased array in any portion of the spectral ...

This Small Business Innovation Research (SBIR) Phase I project addresses a method to achieve low-cost, high performance multiple-layer organic light emitting devices (OLEDs) by solution process. OLED is emerging as a next-generation display and lighting technology, they have a number of intrinsic advantages over liquid crystal displays including brighter and clearer displays, large viewing angles, ...