Inertial MEMS: Principles and PracticeCambridge University Press, 17.02.2011 A practical and systematic overview of the design, fabrication and test of MEMS-based inertial sensors, this comprehensive and rigorous guide shows you how to analyze and transform application requirements into practical designs, and helps you to avoid potential pitfalls and to cut design time. With this book you'll soon be up to speed on the relevant basics, including MEMS technologies, packaging, kinematics and mechanics, and transducers. You'll also get a thorough evaluation of different approaches and architectures for design and an overview of key aspects of testing and calibration. Unique insights into the practical difficulties of making sensors for real-world applications make this up-to-date description of the state of the art in inertial MEMS an ideal resource for professional engineers in industry as well as students looking for a complete introduction to the area. |
Inhalt
| 1 | |
| 13 | |
3 Noninertial forces | 79 |
4 MEMS technologies | 152 |
5 Firstlevel packaging | 205 |
6 Electrical interfaces | 227 |
7 Accelerometers | 283 |
8 Gyroscopes | 364 |
9 Test and calibration | 460 |
Concluding remarks | 466 |
Index | 468 |
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Häufige Begriffe und Wortgruppen
acceleration accelerometer according to Eq amplifier amplitude angle angular applications axes axis bandwidth beam bonding Brownian noise bulk micromachining bulk-micromachined capacitance capacitor cavity changes CMOS coefficients comb components constant coordinate Coriolis force corresponding cross-coupling damping decoupled deflection density deposition devices effects elastic electrodes equation etching fabrication feedback Figure filter flow frame gyro gyroscopes IEEE IEEE Sensors Journal impact in-plane inertial MEMS inertial sensors input instance integration layer linear loop LPCVD material matrix measurement mechanical MEMS gyroscopes MEMS structures Microelectromechanical Systems mode modulation nitride noise nonlinear Op Amp oscillating out-of-plane oxide packaging piezoelectric piezoresistive plate polysilicon pressure proof mass quantization rate signal ratio resistors resonance frequencies rotation sensitivity Sensors and Actuators shear shown in Fig silicon spring stress substrate surface micromachining suspension technologies temperature thermal tion torsional torsional spring transducer transfer typical vector velocity vibrating voltage Vout wafer z-direction zero