Design of a microcamera using a silicon based closed-loop microdeployable structure

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Title Design of a microcamera using a silicon based closed-loop microdeployable structure
Publication Type thesis
School or College College of Engineering
Department Mechanical Engineering
Author Boutte, Ronald Wayne
Date 2007-11-12
Description The ability of a MEMS device to stretch a flexible lens (similar to a crystalline lens of the human eye) has far reaching consequences in the miniaturization of current commercial optical systems. A closed-loop mierodeployable structure was designed and surface micromachined in Sandia's SUMMiT-Vâ„¢ process as a proof-of-concept for conversion of rotational to radial motion. This same basic mierodeployable concept was then modified to produce two key components in a microscale camera: a microautofocus mechanism and a microaperture. The inicroautofocus component couples a polymer lens to the closed-loop mierodeployable; as it deploys open, it stretches the polymer lens radially, at eight fixed areas, around the circumference of the lens. The lens deformation in turn causes a focal plane change. The ability to change the focal plane is advantageous to portable digital imaging devices such as the cell phone camera and the mini-digital camera. Further adaptation of the original mierodeployable by the placement of solid plates instead of bar linkages produces a microaperture, which has a stop range of 7/2.8 to / / 5 . 6 . Each of these components is integrated at the die level with a digital imaging sensor to produce a mieroeamera of dimensions 1.8mm x 2.0mm x 2.0mm.
Type Text
Publisher University of Utah
Subject Micromechanics; Miniature cameras
Dissertation Institution University of Utah
Dissertation Name MS
Language eng
Relation is Version of Digital reproduction of "Design of a microcamera using a silicon based closed-loop microdeployable structure" J. Willard Marriott Library Special Collections TA7.5 2007 .B68
Rights Management © Ronald Wayne Boutte
Format application/pdf
Format Medium application/pdf
Format Extent 8,989,211 bytes
Source Original: University of Utah J. Willard Marriott Library Special Collections
Conversion Specifications Original scanned on Epson GT-30000 as 400 dpi to pdf using ABBYY FineReader 9.0 Professional Edition.
ARK ark:/87278/s6ff46wp
Setname ir_etd
ID 192986
Reference URL https://collections.lib.utah.edu/ark:/87278/s6ff46wp
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