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The Award database is continually updated throughout the year. As a result, data for FY24 is not expected to be complete until March, 2025.

Download all SBIR.gov award data either with award abstracts (290MB) or without award abstracts (65MB). A data dictionary and additional information is located on the Data Resource Page. Files are refreshed monthly.

The SBIR.gov award data files now contain the required fields to calculate award timeliness for individual awards or for an agency or branch. Additional information on calculating award timeliness is available on the Data Resource Page.

  1. Printable Materials with Embedded Electronics and Radio Frequency Components

    SBC: Delux Advanced Manufacturing, LLC            Topic: A16006

    To reduce size, weight, power and cost (SWaP-c), military platforms have been evolving towards a more integrated design approach that efficiently utilizes all available space. In fact, to accommodate limited space constraints many commercial off-the-shelf (COTS) systems will need to be replaced by custom designed and fabricated components. For radiofrequency (RF) electronic systems, this will requ ...

    SBIR Phase II 2017 Department of DefenseArmy
  2. Dense Arrays for High-Fidelity, Optically-Sampled Passive Millimeter-wave Imaging

    SBC: PHASE SENSITIVE INNOVATIONS INC            Topic: A13040

    Under the proposed effort, PSI will continue to develop a novel pmmW imaging technology developed under a prior Navy program to realize dense form factor arrays. This technology is based on an optical upconverted distributed aperture technology that can make large effective apertures in low SWaP form factors thereby maximizing achievable resolution. This sensor technology has already reached TRL 6 ...

    SBIR Phase II 2017 Department of DefenseArmy
  3. ATCOM SHARP Box for Real-Time Turbulence Mitigation

    SBC: EM PHOTONICS INC            Topic: NASAA402

    When imaging over long distances, atmospheric turbulence between the camera and subject degrades the collected data limiting the effective resolution, regardless of the quality of the optic and sensor used. This reduction in image quality can have serious impacts on the ability to carry out missions by reducing situational awareness and preventing target identification. EM Photonics has been worki ...

    SBIR Phase II 2017 Department of DefenseSpecial Operations Command
  4. Compact Passive Millimeter Wave Sensor for GPS-denied Navigation

    SBC: PHASE SENSITIVE INNOVATIONS INC            Topic: AF15AT26

    Under the proposed effort, PSI will leverage a novel pmmW imaging technology developed under a prior Navy program to realize the low size, weight, and power sensors required for UAV implementation. This technology is based on an optical upconverted distributed aperture technology that can make large effective apertures in low SWaP form factors thereby maximizing achievable resolution. This sensor ...

    STTR Phase II 2017 Department of DefenseAir Force
  5. Locality Scanner for Helicopter Pilotage and Hazard Avoidance

    SBC: PHASE SENSITIVE INNOVATIONS INC            Topic: A15070

    Degraded visual environment (DVI) presents a challenge for helicopter pilotage, particularly in close proximity to potential hazards such as vegetation, poles, wires, buildings, vehicles, personnel, equipment, nearby terrain, other aircraft, or ship superstructures. To safely negotiate these hazards, the aircrew must maintain a continuous awareness of the environment that can include both static a ...

    SBIR Phase II 2017 Department of DefenseArmy
  6. Multi-Sensor Radar Processing for Unmanned Convoys

    SBC: PHASE SENSITIVE INNOVATIONS INC            Topic: A15073

    During the Phase I effort, Phase Sensitive Innovations has made great progress in reducing the risk in developing a novel liquid crystal polymer (LCP) based automotive radar technology, which is capable of meeting the needs set forth by this solicitation. During this effort, PSI designed and simulated the proposed antenna array which yields a 0.1 degree angular resolution and uses the 77-81 GHz fr ...

    SBIR Phase II 2017 Department of DefenseArmy
  7. RF Polymer

    SBC: SPECTRUM MAGNETICS LLC            Topic: AF06T015

    Based on multiple technology platforms, innovative nanomaterials with much improved magnetodielectric properties have been developed in the Phase I program. Following Edison’s model of product and process development for technology innovations, Phase-II will pursue further incremental improvement in material properties upon the concept-proving material platforms to achieve high and matched die ...

    STTR Phase II 2008 Department of DefenseAir Force
  8. Efficient Arrays for Generating Light Emission (EAGLE)

    SBC: Chip Design Systems Inc.            Topic: AF16AT22

    With today's IRLED devices, >99.4% of input electrical power is converted into parasitic/waste heat. Moreover, as the local temperatures of the pixels increase due to the generated heat, IRLED optical efficiency is further reduced. Overall this severely limits the number and intensity of array pixels that can be simultaneously operated at high apparent temperatures. In Phase 2, we focus on develop ...

    STTR Phase II 2017 Department of DefenseAir Force
  9. Improved Radio Frequency (RF) Polymer Substrates for Antennas

    SBC: SPECTRUM MAGNETICS LLC            Topic: AF071134

    Based on multiple technology platforms and theoretical analyses, in the Phase I program we have demonstrated the feasibility that RF polymers with desirable high frequency properties can be achieved. Following Edison¡¯s model of product and process development for technology innovations, Phase-II will pursue further incremental improvement in material properties upon the concept-proving materi ...

    SBIR Phase II 2008 Department of DefenseAir Force
  10. Enhancing FPGA Performance Through Integrated Optical Interconnects

    SBC: EM PHOTONICS INC            Topic: AF06T006

    FPGAs have attracted a great deal of attention over the past decade because of their performance, scalability, and cost relative to traditional hardware platforms. However, one of the most significant disadvantages of FPGAs is based on the underlying architecture on which they are built. Specifically, routing delay through the chip is one of the largest bottlenecks in developing FPGA-based appli ...

    STTR Phase II 2008 Department of DefenseAir Force
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