Award Data

The heat exchanger in the Nacelle of the V-22 Osprey cools gearbox oils and hydraulic oil. In operation, the current heat exchanger becomes clogged with sand and dust and the engine overheats. Also, the current unit is very difficult to clean. A micro tube heat exchanger with large air passages offers the potential to alleviate this problem. In this program, Mezzo will design and manufacture, and ...

Currently available thermal cameras do not meet the combined weight, power, field-of-view (FOV), and detection requirements necessary for use on nano-UAVs for applications such as Soldier Borne Sensors (SBS). Increasing the angular FOV while maintaining a desired probability of detection under specified conditions typically means increasing pixel count. Once the detector technology is at the minim ...

In phase II work, we will collaborate with Prof. Dennis W. Prather in UD and continue to develop broadband, low VÏ€, high linearity, thin-film lithium niobate on insulator (LNOI) modulators that are fully compatible with silicon photonic integrated circuits (PIC) foundry processes. We will demonstrate a low VÏ€, broadband, small footprint LNOI modulator with hybrid Si/LN or SiN/LN waveguide ...

In phase II work, we will collaborate with Prof. Stefan Preble in RIT and continue to develop large scale hybrid integration and packaging techniques for key active photonic components such as lithium niobate on insulator (LNOI) modulators and modified uni-traveling (MUTC) photodiodes. We will demonstrate a low V, broadband, small footprint LNOI modulator with hybrid Si/LN or SiN/LN waveguide usin ...

This Air Force SBIR project will develop and demonstrate a refrigerant vapor compressor that can provide up to 150 kW nominal cooling capacity.The developed compressor will be dynamically responsive to the needs of the vapor cycle system and can sustain high efficiency while providing cooling over the entire range of operating conditions for next generation aircraft.

S-RAM Dynamics (S-RAM) will design, fabricate, test, and commercialize a high-performance axial piston transcritical CO2 energy recovery compressor (ERC) to support next-generation aircraft thermal management systems for the U.S. Air Force and commercial applications

As the human population grows, it is critical to decrease consumption of materials from the planet and its ecosphere. The world adds 70 million people annually. The UN expects the population to grow to over 9 billion 2050. Climate change, soil degradation, unstable water supply all reduce the ability of traditional farming to satisfy food needs. Population increase and scarcity of resources and fo ...

In this SBIR effort we will develop a balanced detection analog photonic link consisting of a DFB laser, a dual-output high-speed, low-Vp mach-zehnder modulator (MZM) and a high-power, high-linearity balanced photodetector (BPD) using a dual-core, single mode, multicore fiber (MCF) that is supplied by our subcontractor, OFS. We will design, fabricate and characterize (phase I) the MZM and the BPD, ...

To reduce size, weight, power and cost (SWaP-c), military platforms have been evolving towards more integrated platforms that utilize all available space. For radiating systems, this will require exploring innovative design methods, materials and manufacturing approaches to realize cost-effective, customizable and conformal antennas. An attractive solution to this challenge is offered by additive ...

The objective of this program is to develop and demonstrate a flexible and efficient cooling system (FECS) for helicopters and other aircraft. FECS can be used to cool lasers, electronics or other devices in slow or fast-moving aircraft that are operating in high ambient temperatures. It utilizes a modular approach that allows FECS to be quickly and easily modified for various payloads. There are ...