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" A guide to hands-on MEMS design and prototyping / "
Joel Kubby
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BL
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| Record Number
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631419
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dltt
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| Main Entry
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Kubby, Joel A
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| Title & Author
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A guide to hands-on MEMS design and prototyping /\ Joel Kubby
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| Publication Statement
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Cambridge, UK ;New York :: Cambridge University Press,, 2011
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| Page. NO
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xi, 166 p., [16] p. of plates :: ill. (some col.) ;; 24 cm
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| ISBN
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9780521889254 (hardback)
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: 0521889251 (hardback)
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: 9781107645790 (pbk.)
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: 1107645794 (pbk.)
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| Bibliographies/Indexes
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Includes bibliographical references and index
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| Contents
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Machine generated contents note: 1. Introduction; 2. Micro-mechanics; 3. Electrostatics; 4. Optical MEMS; 5. Thermal MEMS; 6. Fluidic MEMS; 7. Package and test; 8. From prototype to product: MEMS deformable mirrors for adaptive optics
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| Abstract
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"Whether you are a student taking an introductory MEMS course or a practising engineer who needs to get up to speed quickly on MEMS design, this practical guide provides the hands-on experience needed to design, fabricate and test MEMS devices. You will learn how to use foundry multi-project fabrication processes for low-cost MEMS projects, as well as computer-aided design tools (layout, modeling) that can be used for the design of MEMS devices. Numerous design examples are described and analysed, from fields including micro-mechanics, electrostatics, optical MEMS, thermal MEMS and fluidic MEMS. There's also a final chapter on packaging and testing MEMS devices, as well and exercises and design challenges at the end of every chapter. Additional resources are provided online, including solutions to the design challenge problems and a selection of case studies of MEMS devices"--
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"Whether you are a student taking an introductory MEMS course or a practising engineer who needs to get up to speed quickly on MEMS design, this practical guide provides the hands-on experience needed to design, fabricate and test MEMS devices. You will learn how to use foundry multi-project fabrication processes for low-cost MEMS projects, as well as computer-aided design tools (layout, modeling) that can be used for the design of MEMS devices. Numerous design examples are described and analysed, from fields including micro-mechanics, electrostatics, optical MEMS, thermal MEMS and fluidic MEMS. There's also a final chapter on packaging and testing MEMS devices, as well and exercises and design challenges at the end of every chapter. Additional resources are provided online, including solutions to the design challenge problems and a selection of case studies of MEMS devices"--
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| Subject
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Microelectromechanical systems
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| Dewey Classification
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621.381
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| LC Classification
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TK7875.K83 2011
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