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Award Data

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The Award database is continually updated throughout the year. As a result, data for FY20 is not expected to be complete until September, 2021.

  1. High Performance Heat Spreaders for High Heat Flux Power Electronic Modules

    SBC: Advanced Cooling Technologies, Inc.            Topic: N03055

    The addition of advanced power electronics, radar, armor and weapons systems will significantly increase the thermal load onboard the Navy’s future warships. Advanced Cooling Technologies, Inc. (ACT), supported by Alstom Power Conversion and American Competitiveness Institute (ACI), will develop a high performance oscillating flow heat spreader technology for cooling of high power electronics th ...

    SBIR Phase II 2006 Department of DefenseNavy
  2. VCHP Heat Exchanger for Passive Thermal Management of a Fuel Cell Reforming Process

    SBC: Advanced Cooling Technologies, Inc.            Topic: N05041

    A key component of the Navy fuel cell system is the reformer, which converts diesel fuel into methane for consumption by the fuel cell. Reaction temperatures are critical to proper function of the reformer. Reaction temperatures are currently regulated by valves in the process gas streams. These valves require power, consume space, increase pressure drop, and are hindering tight integration and pa ...

    SBIR Phase II 2006 Department of DefenseNavy
  3. Aerodynamic/Structural Mistuning Technologies for Assessing IBR/Blisk Repairs

    SBC: Blade Diagnostics Corporation            Topic: N06T015

    New technologies for assessing how blending affects structural and aerodynamic mistuning will be developed using the combined strengths of Blade Diagnostics Corporation and Duke University. BDC has developed an approach for identifying aerodynamic mistuning from engine data that will be further developed under this STTR. Duke will develop new methods for computing the effect of blending on the a ...

    STTR Phase I 2006 Department of DefenseNavy
  4. Single Crystal Piezoelectric Tonpilz Elements for Small Footprint, High Power Acoustic Sensors

    SBC: TRS CERAMICS, INC.            Topic: N04T033

    The objective of the Phase II program is to demonstrate that single crystal piezoelectrics are a viable approach for small footprint, broadband and high power acoustic sensors. The objective will begin by down selecting between potential high performance compositions based on the technological merits (likelihood of achieving >100% bandwidth, required source level, electrical power requirements, e ...

    STTR Phase II 2006 Department of DefenseNavy
  5. Expanded Operating Domain Piezoelectric Single Crystals

    SBC: TRS CERAMICS, INC.            Topic: N06T034

    For this Phase I STTR program, TRS proposes to investigate the synthesis of new single crystal piezoelectric compositions that will operate at higher temperature, higher electric field and/or higher stress than current state-of-the-art PMN-PT single crystals. PMN-PT single crystals are readily available for certain applications, however a broader operating range would allow for greater device des ...

    STTR Phase I 2006 Department of DefenseNavy
  6. Cost-Effective Fabrication of Piezoelectric Single Crystals Device Elements

    SBC: TRS CERAMICS, INC.            Topic: N06083

    For the proposed work, TRS Technologies, Inc., in collaboration with The Penn State Electro-optics Center (EOC), and Dr. David J. Quesnel at the University of Rochester will investigate increasing the yield of damage minimized or damage free piezoelectric single crystals by establishing an optimal parameter matrix for PMN-PT crystal machining involved in wafer and element processing (slicing, lapp ...

    SBIR Phase I 2006 Department of DefenseNavy
  7. Cryogenic Power Electronics

    SBC: TRS CERAMICS, INC.            Topic: OSD04EP4

    Recent advances in the area of high temperature superconductors have opened the door to the possibility of developing highly efficient low-temperature power electronics. The most commonly used high-efficiency capacitors are based on high dielectric constant (K ~ 1000–4000) BaTiO3 doped to yield an X7R temperature dependence (±15% change in capacitance from -55C to 125C), but below their minimu ...

    SBIR Phase II 2006 Department of DefenseNavy
  8. Anti-Torpedo Data Fusion and Optimization System (ATDOS)

    SBC: DANIEL H. WAGNER ASSOCIATES, INCORPORATED            Topic: N03226

    Daniel H. Wagner Associates, Inc. will develop a full-scale prototype Anti-Torpedo Data Fusion and Optimization System (ATDOS) which will fuse all available data using multiple hypothesis association, Gaussian sum and non-Gaussian tracking, Bayesian inferential reasoning and non-Gaussian registration techniques to produce a torpedo defense Tactical Picture (TP). Given this TP, ATDOS will optimize ...

    SBIR Phase II 2006 Department of DefenseNavy
  9. Object Avoidance for Unmanned Surface Vehicles (OAUSV)

    SBC: DANIEL H. WAGNER ASSOCIATES, INCORPORATED            Topic: N04219

    In Phase II Daniel H. Wagner Associates, Inc. will develop a full-scale prototype Object Avoidance for Unmanned Surface Vehicles (OAUSV) system that processes all available USV object avoidance data, dynamically generates a Fused Tactical Picture (FTP) and generates optimal routes to minimize the probability of a USV near-miss or collision. A key capability provided by OAUSV will be the ability t ...

    SBIR Phase II 2006 Department of DefenseNavy
  10. Multi-Sensor Data Fusion System (MSDFS), Phase II

    SBC: DANIEL H. WAGNER ASSOCIATES, INCORPORATED            Topic: N05046

    In Phase II, Daniel H. Wagner Associates will build a full-scale prototype Multi-Sensor Data Fusion System (MSDFS) using a modular approach to allow for a straightforward transition of the innovative MSDFS technologies into the DD(X)/Open Architecture Track Management (OATM) architecture and also into other Navy combat and command and control systems, especially Anti-Submarine Warfare (ASW) and To ...

    SBIR Phase II 2006 Department of DefenseNavy
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