Matthew Johnson

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Matthew Johnson

Matthew Johnson

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Biography

Texas A&M University Corpus Christi - Life Science


Experience

  • Texas A&M University

    Graduate Research Assistant

    • Dissertation: "Design and Analysis of Axial and Radial Flux Magnetic Gears and Magnetically Geared Machines"
    • Used finite element analysis (FEA), lumped parameter models, and analytical models to evaluate and design magnetic gears and magnetically geared machines
    • Proposed and working on projects funded by the Office of Naval Research, Department of Energy, and various companies
    • Designed, constructed, and experimentally evaluated a new magnetically geared machine
    • Currently in the process of patenting a new magnetically geared machine topology

  • Texas A&M University

    Advanced Electrical Machines and Power Electronics (EMPE) Lab Manager

    • Manage software licenses, lab equipment and lab supplies
    • Assisted with the design of new lab facilities and lab relocation coordination

  • Texas A&M University

    Graduate Teaching Fellow

    • Developed course material, taught, and assigned grades for ECEN 442: DSP Based Electromechanical Motion Control
    • Coordinated team of teaching assistants and grader

  • U.S. Army Research Laboratory

    Electrical Engineer

    Matthew worked at U.S. Army Research Laboratory as a Electrical Engineer

  • Raytheon

    Electrical Engineering Summer Intern

    • Tested key components to determine root cause of higher level product issues
    • Conducted SPICE simulations and performed analyses of analog circuits

  • Knowledge Based Systems, Inc.

    Electrical Engineering Intern

    • Performed video processing analysis of a wave micro-power harvesting system
    • Assisted in electric machine selection and design for a wave micro-power harvesting system

  • Toshiba International Corporation

    R&D Electrical Design Engineer

    • Working on research and development for medium voltage electric motor drives
    • Creating a graphical user interface and diagnostic software for electric motor drives

Education

  • Texas A&M University

    Doctor of Philosophy - PhD

    Electrical Engineering
    Focus: Electrical Machines and Power Electronics Dissertation: Design and Analysis of Axial and Radial Flux Magnetic Gears and Magnetically Geared Machines Advisor: Dr. Hamid A. Toliyat

  • Texas A&M University

    Bachelor’s Degree

    Electrical Engineering
    Minor in Mathematics

  • Texas A&M President’s Endowed Scholarship



  • Graduated Summa Cum Laude



  • Texas A&M Graduate Teaching Fellowship



  • Texas A&M Directors’ Excellence Award



  • National Excellence Fellowship



  • Texas A&M University

    Graduate Research Assistant


    • Dissertation: "Design and Analysis of Axial and Radial Flux Magnetic Gears and Magnetically Geared Machines" • Used finite element analysis (FEA), lumped parameter models, and analytical models to evaluate and design magnetic gears and magnetically geared machines • Proposed and working on projects funded by the Office of Naval Research, Department of Energy, and various companies • Designed, constructed, and experimentally evaluated a new magnetically geared machine • Currently in the process of patenting a new magnetically geared machine topology

  • Texas A&M University

    Advanced Electrical Machines and Power Electronics (EMPE) Lab Manager


    • Manage software licenses, lab equipment and lab supplies • Assisted with the design of new lab facilities and lab relocation coordination

  • Texas A&M University

    Graduate Teaching Fellow


    • Developed course material, taught, and assigned grades for ECEN 442: DSP Based Electromechanical Motion Control • Coordinated team of teaching assistants and grader

  • The Covenant School of Dallas

    High School



Publications

  • Design Comparison of NdFeB and Ferrite Radial Flux Magnetic Gears

    IEEE Energy Conversion Congress and Exposition

  • Design Comparison of NdFeB and Ferrite Radial Flux Magnetic Gears

    IEEE Energy Conversion Congress and Exposition

  • Comparison of Coaxial Radial Flux Magnetic Gears Independently Optimized for Volume, Cost, and Mass

    IEEE International Electrical Machines and Drives Conference

  • Design Comparison of NdFeB and Ferrite Radial Flux Magnetic Gears

    IEEE Energy Conversion Congress and Exposition

  • Comparison of Coaxial Radial Flux Magnetic Gears Independently Optimized for Volume, Cost, and Mass

    IEEE International Electrical Machines and Drives Conference

  • Interior PMSM Double Layer Rotor Core Parametric Design Study

    Annual Conference of the IEEE Industrial Electronics Society

  • Design Comparison of NdFeB and Ferrite Radial Flux Magnetic Gears

    IEEE Energy Conversion Congress and Exposition

  • Comparison of Coaxial Radial Flux Magnetic Gears Independently Optimized for Volume, Cost, and Mass

    IEEE International Electrical Machines and Drives Conference

  • Interior PMSM Double Layer Rotor Core Parametric Design Study

    Annual Conference of the IEEE Industrial Electronics Society

  • Analysis of Axial Field Magnetic Gears with Halbach Arrays

    IEEE International Electric Machines & Drives Conference

  • Design Comparison of NdFeB and Ferrite Radial Flux Magnetic Gears

    IEEE Energy Conversion Congress and Exposition

  • Comparison of Coaxial Radial Flux Magnetic Gears Independently Optimized for Volume, Cost, and Mass

    IEEE International Electrical Machines and Drives Conference

  • Interior PMSM Double Layer Rotor Core Parametric Design Study

    Annual Conference of the IEEE Industrial Electronics Society

  • Analysis of Axial Field Magnetic Gears with Halbach Arrays

    IEEE International Electric Machines & Drives Conference

  • Analysis and Development of an Axial Flux Magnetic Gear

    IEEE Energy Conversion Congress and Exposition

  • Design Comparison of NdFeB and Ferrite Radial Flux Magnetic Gears

    IEEE Energy Conversion Congress and Exposition

  • Comparison of Coaxial Radial Flux Magnetic Gears Independently Optimized for Volume, Cost, and Mass

    IEEE International Electrical Machines and Drives Conference

  • Interior PMSM Double Layer Rotor Core Parametric Design Study

    Annual Conference of the IEEE Industrial Electronics Society

  • Analysis of Axial Field Magnetic Gears with Halbach Arrays

    IEEE International Electric Machines & Drives Conference

  • Analysis and Development of an Axial Flux Magnetic Gear

    IEEE Energy Conversion Congress and Exposition

  • Design and Analysis of an Axial Flux Magnetically Geared Generator

    IEEE Transactions on Industry Applications

  • Design and Analysis of an Axial Flux Magnetically Geared Generator

    IEEE Energy Conversion Congress and Exposition

  • Design Comparison of NdFeB and Ferrite Radial Flux Magnetic Gears

    IEEE Energy Conversion Congress and Exposition

  • Comparison of Coaxial Radial Flux Magnetic Gears Independently Optimized for Volume, Cost, and Mass

    IEEE International Electrical Machines and Drives Conference

  • Interior PMSM Double Layer Rotor Core Parametric Design Study

    Annual Conference of the IEEE Industrial Electronics Society

  • Analysis of Axial Field Magnetic Gears with Halbach Arrays

    IEEE International Electric Machines & Drives Conference

  • Analysis and Development of an Axial Flux Magnetic Gear

    IEEE Energy Conversion Congress and Exposition

  • Design and Analysis of an Axial Flux Magnetically Geared Generator

    IEEE Transactions on Industry Applications

  • Design and Analysis of an Axial Flux Magnetically Geared Generator

    IEEE Energy Conversion Congress and Exposition

  • Integrated torque ripple analysis method for multi-phase motors

    IEEE International Electric Machines & Drives Conference

  • Design Comparison of NdFeB and Ferrite Radial Flux Magnetic Gears

    IEEE Energy Conversion Congress and Exposition

  • Comparison of Coaxial Radial Flux Magnetic Gears Independently Optimized for Volume, Cost, and Mass

    IEEE International Electrical Machines and Drives Conference

  • Interior PMSM Double Layer Rotor Core Parametric Design Study

    Annual Conference of the IEEE Industrial Electronics Society

  • Analysis of Axial Field Magnetic Gears with Halbach Arrays

    IEEE International Electric Machines & Drives Conference

  • Analysis and Development of an Axial Flux Magnetic Gear

    IEEE Energy Conversion Congress and Exposition

  • Design and Analysis of an Axial Flux Magnetically Geared Generator

    IEEE Transactions on Industry Applications

  • Design and Analysis of an Axial Flux Magnetically Geared Generator

    IEEE Energy Conversion Congress and Exposition

  • Integrated torque ripple analysis method for multi-phase motors

    IEEE International Electric Machines & Drives Conference

  • Review of Magnetically Geared Motors and Analysis of Their Potential for Naval Propulsion Applications

    Electric Machines Technology Symposium

  • Design Comparison of NdFeB and Ferrite Radial Flux Magnetic Gears

    IEEE Energy Conversion Congress and Exposition

  • Comparison of Coaxial Radial Flux Magnetic Gears Independently Optimized for Volume, Cost, and Mass

    IEEE International Electrical Machines and Drives Conference

  • Interior PMSM Double Layer Rotor Core Parametric Design Study

    Annual Conference of the IEEE Industrial Electronics Society

  • Analysis of Axial Field Magnetic Gears with Halbach Arrays

    IEEE International Electric Machines & Drives Conference

  • Analysis and Development of an Axial Flux Magnetic Gear

    IEEE Energy Conversion Congress and Exposition

  • Design and Analysis of an Axial Flux Magnetically Geared Generator

    IEEE Transactions on Industry Applications

  • Design and Analysis of an Axial Flux Magnetically Geared Generator

    IEEE Energy Conversion Congress and Exposition

  • Integrated torque ripple analysis method for multi-phase motors

    IEEE International Electric Machines & Drives Conference

  • Review of Magnetically Geared Motors and Analysis of Their Potential for Naval Propulsion Applications

    Electric Machines Technology Symposium

  • A Novel Switching Hysteresis Current Control Method for Torque Ripple Minimization in Multi-Phase Motors

    IEEE Energy Conversion Congress and Exposition

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