Principles of MEMs

ki bang lee, PhD, is Director of KB Lab in Singapore. He has made numerous contributions in micro- and nano-electromechanical systems. From 2000 to 2004, Dr. Lee was a researcher at University of California, Berkeley. He worked for Samsung during 1987-2000, most recently holding the position of principal research scientist. He earned his PhD in mechanical engineering at Korea Advanced Institute of Science and Technology (KAIST).

PREFACE. 1 INTRODUCTION. 1.1 Microelectromechanical Systems. 1.2 Coupled Systems. 1.3 Knowledge Required. 1.4 Dimensional Analysis. Problems. 2 MICROFABRICATION. 2.1 Bulk and Surface Micromachining. 2.2 Lithography. 2.3 Layer Deposition. 2.4 Layer Etching. 2.5 Fabrication Process Design. Problems. 3 STATICS. 3.1 Static Equilibrium. 3.2 Stress-Strain Relationship. 3.3 Thermal Stress. 3.4 Beam Behavior Subjected to a Torsional Moment. 3.5 Moment-Curvature Relationship. 3.6 Beam Equation. 3.7 Galerkin's Method. 3.8 Energy Method. 3.9 Energy Method for Beam Problems. Problems. 4 STATIC BEHAVIOR OF MICROSTRUCTURES. 4.1 Elements of Microstructures. 4.2 Stiffness of Commonly Used Beams. 4.3 Trusses. 4.4 Stiffness Transformation. 4.5 Static Behavior of Planar Structures. 4.6 Residual Stress. 4.7 Cubic Force of Structures. 4.8 Potential Energy. 4.9 Analogy Between Potential Energies. Problems. 5 DYNAMICS. 5.1 Cubic Equation. 5.2 Description of Motion. 5.3 Governing Equations of Dynamics. 5.4 Energy Conversion Between Potential and Kinetic Energy. 5.5 Free Vibration of Undamped Systems. 5.6 Vibration of Damped Systems. 5.7 Multidegree-of-freedom systems. 5.8 Continuous Systems. 5.9 Effective Mass, Damping, and Stiffness. 5.10 Systems with Repeated Structures. 5.11 Duffi ng's Equation. Problems. 6 FLUID DYNAMICS. 6.1 Viscous Flow. 6.2 Continuity Equation. 6.3 Navier-Stokes Equation. 6.4 Reynolds Equation. 6.5 Couette Flow. 6.6 Oscillating Plate in a Fluid. 6.7 Creeping Flow. 6.8 Squeeze Film. Problems. 7 ELECTROMAGNETICS. 7.1 Basic Elements of Electric Circuits. 7.2 Kirchhoff's Circuit Laws. 7.3 Electrostatics. 7.4 Force and Moment Due to an Electric Field. 7.5 Electrostatic Forces and Moments Acting on Various Objects / 395 7.6 Electromagnetic Force / 410 7.7 Force Acting on a Moving Charge in Electric and Magnetic Fields / 418 7.8 Piezoresistance. 7.9 Piezoelectricity. Problems. 8 PIEZOELECTRIC AND THERMAL ACTUATORS. 8.1 Composite Beams. 8.2 Piezoelectric Actuators. 8.3 Thermal Actuators. Problems. 9 ELECTROSTATIC AND ELECTROMAGNETIC ACTUATORS. 9.1 Electrostatic Actuators. 9.2 Comb Drive Actuator. 9.3 Parallel-Plate Actuator. 9.4 Torsional Actuator. 9.5 Fixed-Fixed Beam Actuator. 9.6 Cantilever Beam Actuator. 9.7 Dynamic Response of Gap-Closing Actuators. 9.8 Approximation of Gap-Closing Actuators. 9.9 Electromagnetic Actuators. Problems. 10 SENSORS. 10.1 Force and Pressure Sensors. 10.2 Accelerometers. 10.3 Electrostatic Accelerometers. 10.4 Vibratory Gyroscopes. 10.5 Other Issues. Problems. APPENDIX. REFERENCES. INDEX.