Design of a Monolithic 3dof Mems Capacitive Accelerometer: Utilizing Surface Micromachining Technology Using Polymumps Process - Muhammad Shuja Khan - Books - LAP LAMBERT Academic Publishing - 9783845409528 - July 7, 2011
In case cover and title do not match, the title is correct

Design of a Monolithic 3dof Mems Capacitive Accelerometer: Utilizing Surface Micromachining Technology Using Polymumps Process

Price
NZ$ 80.50
excl. VAT

Ordered from remote warehouse

Expected delivery Aug 4 - 14
Get notified about new Muhammad Shuja Khan releases
Add to your iMusic wish list

Not rated yet

Sensors and devices, based on micromachining technology, known as micro-electro-mechanicalsystems or MEMS, have been received increasing attention so far in recent years. Micromachined inertial sensors, consisting of accelerometers and gyroscopes, are one of the most important types of silicon-based sensor. MEMS capacitive accelerometers have been extensively used in automobiles, inertial navigation systems, earth quake detection and many other bio-medical applications. This book deals with the design of a monolithic 3DOF MEMS capacitive accelerometer using both analytical and numerical techniques. Monolithic accelerometer is a single structure having three individual single axis Accelerometers on a single substrate and utilizes a surface micromachining technology using standard PolyMUMPs process. The designed accelerometer is 3mm×3.1mm in size, has low mechanical noise floor, high sense capacitance and high sensitivity along in-plane (x and y) and out-of-plane (z) axes. Performing a detailed finite element analysis in ANSYS 11.o, physical level simulation has been done to verify the deflection for x, y and z axes with respect to the applied acceleration (g).

Media Books     Paperback Book   (Book with soft cover and glued back)
Released July 7, 2011
ISBN13 9783845409528
Publishers LAP LAMBERT Academic Publishing
Pages 92
Dimensions 150 × 6 × 226 mm   ·   155 g
Language German