You are here
Wide Temperature, High-Frequency Capacitors for Aerospace Power Conditioning Applications
Title: Vice President
Phone: (505) 342-4437
Email: kslenes@tplinc.com
Title: Director of Administratio
Phone: (505) 342-4439
Email: tmosman@tplinc.com
ABSTRACT: Electrically driven technologies are replacing hydraulic, pneumatic and mechanical systems in new military aircraft designs to improve capability, reliability and maintainability. This transition requires high performance electronic components capable of operating over a wide temperature range. Capacitors, which provide necessary power conditioning, have been identified as a limiting component for these architectures. New dielectric materials and capacitor designs are needed to provide high specific capacitance and operation at high temperature. TPL completed a successful Phase II program to address this need and demonstrated fundamental proof-of-feasibility for a capacitor design using a novel dielectric film technology. A high dielectric constant capacitor film based on fluorinone polyester (FPE) polymer modified with titanate nanopowder was developed. Thermal and electrical performance characteristics of sub-scale FPE nanocomposite capacitors and packaging materials support a significant advance in high temperature operating capabilities. The proposed Phase II will focus on maturing the capacitor technology and transitioning from the laboratory scale demonstration to commercially produced devices for the Air Force"s high temperature inverter-converter controller. The final product of this transition will include production ready material, processes, designs, and manufacturing capabilities for a state-of-the-art capacitor capable of operating from -55 to 250°C with an energy density>1.0µF/cc. BENEFIT: The success of this development program will enable the miniaturization of electrically driven technologies for future aircraft weapons platforms. Similar benefits can also be realized in commercial hybrid electric vehicle applications, where reduction in size and increased efficiency will offer lower fuel consumption and lighter total weight in vehicles. An additional application for high temperature, compact filter capacitors will be in the utility industry for high power converters, where operating temperature and size are also key concerns. Commercial vehicles are expected to experience the most significant impact overall. The sales of light-duty hybrid electric vehicles are projected to advance to more than 2,000,000 in 2016. In addition, heavy-duty bus and truck fleets are systematically being upgraded to hybrid electric drives. Each of these commercial hybrid units will benefit from higher performance capacitors.
* Information listed above is at the time of submission. *