Wafer scale integration enables the ability to miniaturize space craft instrument builds. We use the term wafer scale to indicate a packaging concept where the wafer is the substrate eliminating the use of individually packaged microstructures. The key here is the combination of advanced integration and miniaturization. The Johns Hopkins University Applied Physics Laboratory (JHUAPL) in collaboration with the US Air Force Academy is building a wafer integrated plasma spectrometer (WISPER) for mapping missions. The fabrication of the WISPER instrument suite uses a number of Micro Electro Mechanical Systems (MEMS) and micro electronics fabrication technologies. JHUAPL has successfully demonstrated these approaches in the fabrication of the single instrument currently in orbit on the FalconSat-3 mission. This instrument is a Flat Plasma Spectrometer (FlaPS) which includes a sensor-head array, printed circuit board with amplifier array electronics, power supply, and chassis which occupies a volume of approximately 400 cm3 in a 0.5kg, 700mW package. The sensor head array is fabricated and assembled at the wafer-level and stacked in a planar geometry. Together with common electronics to control the array, our design takes advantage of emerging micro-fabrication techniques including deep reactive ion etching, laser machining, and wire electrical discharge machining, as well as advanced electronic die assembly and packaging methods. Innovations in packaging combined with etch process steps from the micro-fabrication industry allow for novel instrument builds which will open up the realm of nano sats and cubesats in mapping missions.
Wafer Scale Integration Enabling Space Science
01.03.2008
826899 byte
Aufsatz (Konferenz)
Elektronische Ressource
Englisch
Wafer scale integration enabling space science
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