DocumentCode
2867235
Title
Developing a manufacturable process for the deposition of thick polysilicon films for micromachined devices
Author
Nunan, IQeran ; Ready, Glenn ; Garone, Peter ; Sturdy, Graham ; Sledziewski, John
Author_Institution
Analog Devices, Cambridge, MA, USA
fYear
2000
fDate
2000
Firstpage
357
Lastpage
366
Abstract
Current techniques for manufacturing integrated Micro-Electrical-Mechanical Systems (iMEMS(R)) place significant limitations on the time and temperature of anneal during fabrication. This is due to the polysilicon film used for the MEMS structure being deposited after the formation of the P and N junctions for the BiMOS devices. Critical requirements for the polysilicon micro-machined structure include low stress gradient through the thickness of the film and tensile residual stress. The film must have uniform stress through the thickness of the film to provide flat polysilicon beams after release. Residual tensile stress is beneficial for structural stability. A clear understanding of the deposition conditions that affect the residual stress, stress gradient and grain structure of these thick polysilicon films is necessary to provide a robust manufacturable process in high volume production. This presentation outlines how the deposition and anneal conditions effect grain formation, residual stress and stress gradients in polysilicon films. Deposition conditions that provide large grain films, small grain films and mixed phase films are evaluated. The affect of incorporating oxygen and phosphine gases during polysilicon deposition is investigated. A physical model describing grain formation is presented. A final process selection based on process robustness, process integration and device performance is presented
Keywords
chemical vapour deposition; elemental semiconductors; internal stresses; micromachining; micromechanical devices; semiconductor device manufacture; semiconductor thin films; silicon; MEMS structure; Si; deposition conditions; grain formation; grain structure; high volume production; iMEMS; manufacturable process; micromachined devices; mixed phase films; polysilicon deposition; polysilicon films; process integration; process robustness; stress gradient; tensile residual stress; Annealing; Fabrication; Manufacturing processes; Micromechanical devices; Production; Residual stresses; Robustness; Structural engineering; Temperature; Tensile stress;
fLanguage
English
Publisher
ieee
Conference_Titel
Advanced Semiconductor Manufacturing Conference and Workshop, 2000 IEEE/SEMI
Conference_Location
Boston, MA
ISSN
1078-8743
Print_ISBN
0-7803-5921-6
Type
conf
DOI
10.1109/ASMC.2000.902612
Filename
902612
Link To Document