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The Award database is continually updated throughout the year. As a result, data for the given year is not complete until April of the following year. Annual Reports data is a snapshot of agency reported information for that year and hence might look different from the live data in the Awards Information charts.

  1. Development of a Ruggedized, Drop-in Replaceable QSFP+ Fiber Optic Transceiver Module for Harsh Environment Applications

    SBC: Nanomatronix, LLC            Topic: N181042

    The primary objective of the proposed work is to develop a ruggedized connector for use with commercially available high-speed switches and network interface cards that is low cost, maintains high data rates, operates in harsh environments, and has high mean time between failures to be utilized by Next Generation Architecture (NGA). The topic description continues to define some of the key attribu ...

    SBIR Phase I 2018 Department of DefenseNavy
  2. A Modular High Voltage (> 10 kV), High Power Density SiC Power Package for Extreme Environments

    SBC: Arkansas Power Electronics International, Inc.            Topic: N151065

    A modular high voltage (>10 kV), high power density silicon carbide-based power switch will be designed and developed to withstand the extreme environments associated with military applications in surface and underwater vehicles. This high performance, high reliability power switch will exhibit modularity for ease connecting to the system for a variety of circuit topologies, high reliability to wi ...

    SBIR Phase I 2015 Department of DefenseNavy
  3. High power density power supply for next-generation radar applications utilizing emerging wide-bandap semiconductor devices

    SBC: Arkansas Power Electronics International, Inc.            Topic: N102153

    Next generation Naval warships utilize increasingly powerful and integrated radar systems, such as the next generation Air Missile Defense Radar (AMDR), for their versatile missions. The AMDR system combines a wide variety of functionalities, including: horizon search, missile communication and guidance, volume search, and ballistic missile defense and discrimination. While AMDR enhances critical ...

    SBIR Phase II 2013 Department of DefenseNavy
  4. Intelligent, Fault Tolerant and Robust Silicon Carbide based Power Management Unit for Aircraft Applications

    SBC: Arkansas Power Electronics International, Inc.            Topic: N103203

    Arkansas Power Electronics International, Inc. (APEI, Inc.), and Moog, Inc. have allied to form a team devoted to the development of an intelligent, multi-channel, highly-miniaturized, high-temperature, Silicon Carbide (SiC) based Solid-State Energy Distribution Unit (SSEDU) to support emerging More Electric Aircraft (MEA) platforms. By the end of this proposed SBIR Phase II program, the APEI/Moog ...

    SBIR Phase II 2013 Department of DefenseNavy
  5. Development of a high performance, cost effective GaN power amplifier packaging for transmit/receive modules

    SBC: Arkansas Power Electronics International, Inc.            Topic: N111034

    The basic building block for phased array radar systems is based on a transmit/receive module containing MMICs for control and amplification of both transmit and receive paths. The cost, performance, and reliability of these modules have been plagued due to limitations in power amplifier packaging designs. Currently, a cavity-mount approach is utilized that minimizes parasitics and reduces thermal ...

    SBIR Phase I 2011 Department of DefenseNavy
  6. Intelligent, Fault Tolerant and Robust Silicon Carbide based Power Management Unit for Aircraft Applications

    SBC: Arkansas Power Electronics International, Inc.            Topic: N103203

    In this proposed program, the APEI team will design, build, and test a multi-channel fully-integrated, high-temperature (250 degrees C), high speed (<100 s), SiC-based SSPD demonstrator by the end of the program. The proposed SiC-based SSPD will combine APEI, Inc."s advanced high temperature power packaging technology (which will be capable of operating at junction temperatures in excess ...

    SBIR Phase I 2011 Department of DefenseNavy
  7. High power density power supply for next-generation radar applications utilizing emerging wide-bandap semiconductor devices

    SBC: Arkansas Power Electronics International, Inc.            Topic: N102153

    Present high power density Si-based systems are severely limited by the electrical and thermal performance of active and passive components as well as electronics packaging technology. As a result, the next-generation of radar power supply systems require a new and revolutionary power electronics technology that delivers far superior efficiency, response time, thermal performance, and miniaturizat ...

    SBIR Phase I 2011 Department of DefenseNavy
  8. High Power Density, High Efficiency, Fast Transient Response Silicon Carbide (SiC)-Based Power Supplies For the Next-Generation of Radars

    SBC: Arkansas Power Electronics International, Inc.            Topic: N08169

    The focus of Phase II will be the development, fabrication, and testing of a highly integrated version of this new class of SiC-based high power density radar power supplies. The final Phase II prototype will achieve the stated power density, efficiency, and functionality goals of this program by combining the proposed advanced packaging technology, as well as the high energy density passives and ...

    SBIR Phase II 2010 Department of DefenseNavy
  9. Wireless Sensor Enabling Self Calibration and Condition Based Maintenance

    SBC: ARISETEK, LLC            Topic: N05159

    This SBIR proposal is for development of a ruggedized pressure sensor having capability to monitor its' own health, recalibrate if necessary, and wirelessly report its' status along with measured values. The proposed sensor substantially reduces the need for re-calibration by employing aerospace-proven silicon MEMS technology and digital compensation circuitry. Ongoing comparisons of redundant sen ...

    SBIR Phase I 2006 Department of DefenseNavy
  10. Fast Acting Solid State Silicon Carbide (SiC) based Fault Current Limiters for Electrical Distribution Systems

    SBC: Arkansas Power Electronics International, Inc.            Topic: N06134

    This Small Business Innovation Research Phase I project seeks to develop and prove the feasibility of realizing high-voltage, high-power density Solid-State Fault Current Limiter (SSFCL) technology utilizing Silicon Carbide (SiC) thyristors. The proposed fault current detection and limitation technology will be more efficient, have a higher power density, and be more cost effective for US Navy ap ...

    SBIR Phase I 2006 Department of DefenseNavy

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