The need for reduced system size and weight while increasing performance for military and commercial systems will require high-temperature electronics capable of running the actuators, high-speed motors and generators of the future. Of the many passive devices necessary to satisfy the need for a complete high temperature system, perhaps none has been more problematic than that of the capacitor, particularly for larger devices requiring values of several micro- to milli-farads. In this paper we introduce an ionic polymer metal composite (IPMC) we have recently developed that can operate well above the standard 125°C. These capacitors have the potential to meet all other typical aerospace and automotive design constraints of high reliability, robustness, and light weight as well as having additional features of being flexible, scalable, and customizable in shape. Our recent discovery of the capacitive behavior in specially treated perfluorinated sulfonic acid polymers sandwiched between metal electrodes has lead to the exciting development of high temperature capable high-density passive storage components. These composites exhibit capacitance per unit planar area of ~1.0 mF cm-₂ or 40 mF/g for a ~100 μm thick polymer substrate, with only a minor decrease in capacitance observed after heating above 125°C followed by constant capacitance up to 300°C. The simple microfabrication process for depositing high surface metal electrodes onto these polymers allows for easy and low cost integration of other systems. Here we present one application of these polymer capacitors integrated with organic (i.e., polymer) photovoltaic cells in a 2D design and discuss how this could be incorporated in a seamless monolithic 3D fabrication to provide a single power supply, conditioning and storage unit.
High Temperature Capable Ionic Polymer-Metal Composite Capacitors and Power Storage Systems
Sae Technical Papers
Power Systems Conference ; 2010
2010-11-02
Conference paper
English
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