National_Catalogues: MEMS Extraction

Title: MEMS Extraction
Identifier: ADA500898
STOAbstractExternal: Surface micromachined structures are composed of atomic elements like anchors, beams, and fingers, which can further be grouped into functional elements like springs, comb drives and plates. Automatic recognition of these atomic and functional elements is crucial for a structured design methodology for MicroElectroMechanical Systems (MEMS). In the structured design methodology, the schematic design is followed by a transcription of the design into a layout description. Ensuring that the description is a correct spatial realization of the schematic requires the extraction of the atomic micromechanical elements. An extraction module has been developed which starts with a layout description file and generates the netlist of the schematic corresponding to the layout. An ordinary differential equation solver combined with models of atomic and functional elements can then be used for efficient behavioral verification of the layout by simulating the extracted netlist. Atomic elements are recognized by their shape, size and position and are classified into anchors, plate masses, beams, cantilever beams (fingers), joints and holes. This is followed by the extraction of functional elements such as springs, and electromechanical comb sensors and actuators. Comb drives are extracted using similarity in shape, inter-finger gap, electrical connectivity and locality of region of fingers. Springs are detected using a finite state machine type algorithm. A library of springs is written in a library file which is used to generate the graphs needed to match groups of beams and joints in order to recognize a spring. The utility of the extractor is demonstrated for a variety of MEMS devices composed of different types of springs and electrostatic actuators and sensors. Simulation time for the extracted netlist decreased by a factor of 10 when functional element extraction and functional element models were used compared to a netlist of only atomic elements.

STOAuthorExternal: CARNEGIE-MELLON UNIV PITTSBURGH PA DEPT OF ELECTRICAL AND COMPUTER ENGINEERING Baidya, Bikram
STOClassificationExternal: N
STOKeywordsExternal: FUNCTIONAL ELEMENTS, ATOMIC ELEMENTS, ELECTROMECHANICAL COMBS
STOPublisher: USA
Language: English
STOReportSource: http://www.dtic.mil/docs/citations/ADA500898
Published: 5/3/1999

Created at 11/9/2016 3:26 PM by System Account
Last modified at 11/9/2016 3:26 PM by System Account
 
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