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Arkansas Power Electronics International, Inc.

Company Information
Address
535 W. Research Center Blvd.
Fayetteville, AR 72701-6559
United States


http://www.apei.net

Information

UEI: QZMVB44SHW19

# of Employees: 49


Ownership Information

HUBZone Owned: No

Socially and Economically Disadvantaged: No

Woman Owned: No



Award Charts




Award Listing

  1. Silicon Carbide (SiC) Power Processing Unit (PPU) for Hall Effect Thrusters

    Amount: $99,939.00

    In this SBIR project, APEI, Inc. is proposing to develop a high efficiency, rad-hard 3.8 kW silicon carbide (SiC) Power Processing Unit (PPU) for Hall Effect thrusters. In Phase I of the project, APEI ...

    SBIRPhase I2010National Aeronautics and Space Administration
  2. High Temperature Silicon Carbide (SiC) Gate Driver

    Amount: $119,899.00

    The objective of this proposal is to develop and commercialize a high temperature gate driver for silicon carbide (SiC) FET switches to enable the development of the next generation of high-efficiency ...

    SBIRPhase I2010Department of Defense Army
  3. High Power Density, High Efficiency, Fast Transient Response Silicon Carbide (SiC)-Based Power Supplies For the Next-Generation of Radars

    Amount: $599,979.00

    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 protot ...

    SBIRPhase II2010Department of Defense Navy
  4. SiC-Based Solid-State Fault Current Control System for Vulnerability Reduction of Power Distribution Networks

    Amount: $749,998.00

    This STTR project seeks to develop high-voltage, high-performance Solid-State Fault Current Controller (SSFCC) technology utilizing Silicon Carbide (SiC) super gate-turn-off thyristors (SGTOs). Due to ...

    STTRPhase II2009Department of Energy
  5. High-Power-Density, Rad-hard, SiC Based, Intelligent Multi Module DC/DC Converter PMAD System For Optimal Energy Utilization

    Amount: $99,996.00

    Increasing power density and efficiency, reducing size and weight, and introducing standardization of electronics systems are all goals of the STSS program. The performance of Power Management and Dis ...

    SBIRPhase I2009Department of Defense Missile Defense Agency
  6. Photonically-Controlled SiC based Device Technology for Power Electronic Applications

    Amount: $100,000.00

    This Small Business Innovation Research Phase I project seeks the development of an optically-triggered silicon carbide based power device technology that will enable the next-generation of EMI/EMP-re ...

    SBIRPhase I2009Department of Defense Air Force
  7. Very Low Profile Non-Intrusive Data Acquisition Systems for Turbine High Temperature Bearing Sensors

    Amount: $1,050,000.00

    The terminal objective of this Phase II work will be the development of a harsh environment non-intrusive self-powered wireless sensor-transmitter capable of operation to 225 °C and survivable to 300 ...

    SBIRPhase II2009Department of Defense Air Force
  8. Very Low Profile Non-Intrusive Data Acquisition Systems for Turbine High Temperature Bearing Sensors

    Amount: $99,984.00

    APEI, Inc. is proposing to develop a low profile, non-intrusive, high temperature (300 °C) bearing data transmitter system that will allow the in-situ monitoring and diagnostic of bearing health. Th ...

    SBIRPhase I2008Department of Defense Air Force
  9. High Power Density, High Efficiency, Fast Transient Response Silicon Carbide (SiC)-Based Power Supplies For the Next-Generation of Radars

    Amount: $99,928.00

    Advances in radar systems are pushing the limits of present radar power supply technology. To enable new concepts, such as active array radar systems, significant improvements (i.e., power densities > ...

    SBIRPhase I2008Department of Defense Navy
  10. High Reliablility, High Power Density, Silicon Carbide (SiC) Based Solid-State Circuit Breakers for Next Generation Military Weapons Platforms

    Amount: $99,980.00

    This Small Business Innovation Research (SBIR) Phase I project seeks to develop an advanced flexible self-powered robust high power density solid-state circuit breaker (SSCB) through the incorporation ...

    SBIRPhase I2008Department of Defense Army
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