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Battery life is huge problem for today's CE devices and every year the problem gets worse. That is a painful
consequence of the explosion in capability and applications in modern wireless electronics of all types, and is
particularly acute in advanced smartphones. Fuel cells have long been touted as the solution to the battery problem, and
significant programs have been funded at large companies, start-ups, and within academia. Thus far, none of those
efforts have resulted in a commercially successful product for consumer electronics.
Lilliputian Systems has taken a unique approach by leveraging MEMS fabrication methods to enable the use of a fuel
cell known as a solid oxide fuel cell (SOFC). SOFCs provide high efficiency and reliable operation in a very compact
Silicon Power Cell™, and allow the use of high energy density fuels, such as butane. This combination overcomes the
barriers which have prevented other fuel cell efforts from being commercialized. But in order to use SOFCs, the MEMS
structure must operate at elevated temperatures, typically above 600°C, must do so very efficiently, and must be
effectively integrated into a complete system. By overcoming these unusual challenges, Lilliputian has developed a
solution with a run-time 5-10X longer than existing batteries and with instant recharge by inserting a new cartridge. The
absolute safety of the approach is supported by world-wide approval for carry-on and use on airplanes.
Over the past several years, Lilliputian Systems has created the many innovations required to bring this complex system
to high-volume manufacturing. We will discuss the unique challenges in system architecture and high-temperature
MEMS design which have been overcome, enabling Lilliputian to provide long-lasting portable power for consumer
electronics devices.
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