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MEMS Vibratory Gyroscopes Structural Approaches to Improve Robustness [Hardcover]

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  • Category: Books (Mathematics)
  • Author:  Acar, Cenk, Shkel, Andrei
  • Author:  Acar, Cenk, Shkel, Andrei
  • ISBN-10:  0387095357
  • ISBN-10:  0387095357
  • ISBN-13:  9780387095356
  • ISBN-13:  9780387095356
  • Publisher:  Springer
  • Publisher:  Springer
  • Pages:  260
  • Pages:  260
  • Binding:  Hardcover
  • Binding:  Hardcover
  • Pub Date:  01-Feb-2008
  • Pub Date:  01-Feb-2008
  • SKU:  0387095357-11-SPRI
  • SKU:  0387095357-11-SPRI
  • Item ID: 100224155
  • List Price: $199.99
  • Seller: ShopSpell
  • Ships in: 5 business days
  • Transit time: Up to 5 business days
  • Delivery by: Jan 01 to Jan 03
  • Notes: Brand New Book. Order Now.

MEMS Vibratory Gyroscopes provides a solid foundation in the theory and fundamental operational principles of micromachined vibratory rate gyroscopes, and introduces structural designs that provide inherent robustness against structural and environmental variations. In the first part, the dynamics of the vibratory gyroscope sensing element is developed, common micro-fabrication processes and methods commonly used in inertial sensor production are summarized, design of mechanical structures for both linear and torsional gyroscopes are presented, and electrical actuation and detection methods are discussed along with details on experimental characterization of MEMS gyroscopes. In the second part, design concepts that improve robustness of the micromachined sensing element are introduced, supported by constructive computational examples and experimental results illustrating the material.

This detailed book provides a solid foundation in the theory and fundamental operational principles of micromachined vibratory rate gyroscopes. It introduces structural designs that provide inherent robustness against structural and environmental variations.

MEMS Vibratory Gyroscopes provides a solid foundation in the theory and fundamental operational principles of micromachined vibratory rate gyroscopes, and introduces structural designs that provide inherent robustness against structural and environmental variations. In the first part, the dynamics of the vibratory gyroscope sensing element is developed, common micro-fabrication processes and methods commonly used in inertial sensor production are summarized, design of mechanical structures for both linear and torsional gyroscopes are presented, and electrical actuation and detection methods are discussed along with details on experimental characterization of MEMS gyroscopes. In the second part, design concepts that improve robustness of the micromachined sensing element are introduced, sl³e

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