Synopses & Reviews
Synopsis
MEMS are rapidly moving from the research laboratory to the mar- ketplace. Many market studies indicate not only a tremendous market potential of MEMS devices; year by year we see the actual market grow as the technology matures. In fact, these days, many large silicon foundries have a MEMS group exploring this promising technology, including such giants as INTEL and Motorola. Yet MEMS are fundamentally different from microelectronics. This means that companies with an established track record in these branches need to adapt their skills, whereas companies that want to enter the "miniaturization" market need to establish an entirely new set of capabil- ities. The same can be said of engineers with classical training, who will also need to be educated toward their future professional activity in the MEMS field. Here are some questions that a company or technologist may ask: I have an existing product with miniaturization market poten- tial. Which technology should I adopt? What are the manufacturing options available for miniaturiza- tion? What are the qualitative differences? How do we maintainamarketleadforproductsbased onMEMS? Is there CAD support?Can we outsource manufacturing? Which skills in our current capability need only adaptation? What skills need to be added? Professors Jan Korvink and Oliver Paul have set out to answer these questions in a form that addresses the needs of companies, commercial practitioners, and technologists.
Synopsis
Microtransducer Operation.- Material Properties: Measurement and Data.- MEMS and NEMS Simulation.- System-Level Simulation of Microsystems.- Thermal-Based Microsensors.- Photon Detectors.- Free-Space Optical MEMS.- Integrated Micro-Optics.- Microsensors for Magnetic Fields.- Mechanical Microsensors.- Semiconductor-Based Chemical Microsensors.- Microfluidics.- Biomedical Systems.- Microactuators.- Micromachining Technology.- LIGA Technology for R&D and Industrial Applications.- 17 Interface Circuitry and Microsystems.
Synopsis
The void created by a lack of industry standards has been filled with the arrival of this cohesive guide on the design and analysis of micro-electro-mechanical systems (MEMS). Earlier MEMS books have comprehensively covered fabrication techniques, but this book's eighteen chapters written by leading experts from across the world cover a broad range of topics from transducer operations to interface circuitry, microacutators and microchanining. Issues addressed include alternative designs, reliability and cost effectiveness in the context of appropriate applications. The book satisfies a demand for literature on analysis and design of microsystems and will interest engineering and research scientists in industry and academia.
Synopsis
A new generation of MEMS books has emerged with this cohesive guide on the design and analysis of micro-electro-mechanical systems (MEMS). Leading experts contribute to its eighteen chapters that encompass a wide range of innovative and varied applications. This publication goes beyond fabrication techniques covered by earlier books and fills a void created by a lack of industry standards. Subjects such as transducer operations and free-space microsystems are contained in its chapters. Satisfying a demand for literature on analysis and design of microsystems the book deals with a broad array of industrial applications. This will interest engineering and research scientists in industry and academia.