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Covers advanced topics in MEMS technology, including design, packaging, device categories, historical perspective, market trends, and the role of startups.
Explores gas conduction, radiative heat transfer, temperature fluctuations, and heat losses in micromachined devices, emphasizing the impact of small gaps on thermal conductivity.
Explores stochastic modeling of inertial sensors for optimal fusion with other devices, emphasizing precise sensor stochastics for improved navigation solutions.
Explains the working principles of capacitive MEMS sensors, differential capacitors, MEMS microphones, and the impact of MEMS technology on consumer products.
Covers signal conditioners for resistive and capacitive sensors, including measurement methods, voltage dividers, Wheatstone bridges, and sensor interfaces.
