Advanced packaging and manufacturing technology based on adhesion engineering : wafer-level transfer packaging and fabrication techniques using interface energy control method / by Seonho Seok.
2018
TJ241 .S46 2018eb
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Title
Advanced packaging and manufacturing technology based on adhesion engineering : wafer-level transfer packaging and fabrication techniques using interface energy control method / by Seonho Seok.
Author
Seok, Seonho. author.
ISBN
9783319778723 (electronic book)
3319778722 (electronic book)
9783319778716
3319778714
3319778722 (electronic book)
9783319778716
3319778714
Published
Cham : Springer International Publishing , [2018]
Language
English
Description
1 online resource (viii, 115 pages) : illustrations.
Item Number
10.1007/978-3-319-77872-3 doi
Call Number
TJ241 .S46 2018eb
Dewey Decimal Classification
621.381/046
Summary
This book introduces microelectromechanical systems (MEMS) packaging utilizing polymers or thin films - a new and unique packaging technology. It first investigates the relationship between applied load and opening displacement as a function of benzocyclobutene (BCB) cap size to find the debonding behavior, and then presents BCB cap deformation and stress development at different opening displacements as a function of BCB thickness, which is a criterion for BCB cap transfer failure. Transfer packaging techniques are attracting increasing interest because they deliver packaging caps, from carrier wafers to device wafers, and minimize the fabrication issues frequently encountered in thin-film or polymer cap encapsulation. The book describes very-low-loss polymer cap or thin-film-transfer techniques based on anti-adhesion coating methods for radio frequency (RF) (-MEMS) device packaging. Since the polymer caps are susceptible to deformation due to their relatively low mechanical stiffness during debonding of the carrier wafer, the book develops an appropriate finite element model (FEM) to simulate the debonding process occurring in the interface between Si carrier wafer and BCB cap. Lastly, it includes the load-displacement curve of different materials and presents a flexible polymer filter and a tunable filter as examples of the applications of the proposed technology.
Bibliography, etc. Note
Includes bibliographical references.
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Access limited to authorized users.
Digital File Characteristics
text file PDF
Series
Springer series in advanced manufacturing.
Available in Other Form
Advanced packaging and manufacturing technology based on adhesion engineering.
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Table of Contents
Overview of MEMS packaging technologies
Adhesion control techniques for debonding
FEM modeling of debonding
Polymer cap transfer packaging technologies
Thin film cap transfer packaging technology
Other related manufacturing technologies. .
Adhesion control techniques for debonding
FEM modeling of debonding
Polymer cap transfer packaging technologies
Thin film cap transfer packaging technology
Other related manufacturing technologies. .