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Poly-SiGe for MEMS-above-CMOS Sensors: Springer Series in Advanced Microelectronics, cartea 44

Autor Pilar Gonzalez Ruiz, Kristin De Meyer, Ann Witvrouw
en Limba Engleză Hardback – 30 iul 2013
Polycrystalline SiGe has emerged as a promising MEMS (Microelectromechanical Systems) structural material since it provides the desired mechanical properties at lower temperatures compared to poly-Si, allowing the direct post-processing on top of CMOS. This CMOS-MEMS monolithic integration can lead to more compact MEMS with improved performance. The potential of poly-SiGe for MEMS above-aluminum-backend CMOS integration has already been demonstrated. However, aggressive interconnect scaling has led to the replacement of the traditional aluminum metallization by copper (Cu) metallization, due to its lower resistivity and improved reliability.
Poly-SiGe for MEMS-above-CMOS sensors demonstrates the compatibility of poly-SiGe with post-processing above the advanced CMOS technology nodes through the successful fabrication of an integrated poly-SiGe piezoresistive pressure sensor, directly fabricated above 0.13 m Cu-backend CMOS. Furthermore, this book presents the first detailed investigation on the influence of deposition conditions, germanium content and doping concentration on the electrical and piezoresistive properties of boron-doped poly-SiGe. The development of a CMOS-compatible process flow, with special attention to the sealing method, is also described. Piezoresistive pressure sensors with different areas and piezoresistor designs were fabricated and tested. Together with the piezoresistive pressure sensors, also functional capacitive pressure sensors were successfully fabricated on the same wafer, proving the versatility of poly-SiGe for MEMS sensor applications. Finally, a detailed analysis of the MEMS processing impact on the underlying CMOS circuit is also presented.
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Specificații

ISBN-13: 9789400767980
ISBN-10: 9400767986
Pagini: 216
Ilustrații: XVI, 199 p. 144 illus. in color.
Dimensiuni: 155 x 235 x 17 mm
Greutate: 0.48 kg
Ediția:2014
Editura: SPRINGER NETHERLANDS
Colecția Springer
Seria Springer Series in Advanced Microelectronics

Locul publicării:Dordrecht, Netherlands

Public țintă

Research

Cuprins

Acknowledgements.- Abstract.- Symbols and Abbreviations.- Introduction.- Poly-SiGe As Piezoresistive Material.- Design of a Poly-SiGe Piezoresistive Pressure Sensor.- The Pressure Sensor Fabrication Process.- Sealing of Surface Micromachined Poly-SiGe Cavities.- Characterization of Poly-SiGe pressure sensors.- CMOS Integrated Poly-SiGe Piezoresistive Pressure Sensor.- Conclusions And Future Work.- Appendix A.- Appendix B.- Appendix C.- Appendix D.

Notă biografică

Pilar González Ruiz received her M.S. degree in Electrical Engineering from the University of Sevilla, Spain, in 2006. She obtained the PhD degree from the Electrical Engineering Department (ESAT) at the University of Leuven, Belgium in 2012. During her PhD  she worked on the integration of MEMS and CMOS using polycrystalline silicon-germanium, with a focus on pressure sensors, at imec, Leuven, Belgium. Since 2012 she has been working on integrated imagers at imec, Leuven, Belgium. She has authored or co-authored more than 10 technical papers for publication in journals and presentations at conferences and holds various patents.
Kristin De Meyer M.Sc. (1974), PhD (1979) KULeuven. She was holder of an IBM World Trade Postdoctoral Fellowship at the IBM T. J. Watson Research Center, Yorktown Heights, NY. Currently she is the Director of Doctoral Research in imec. Since October 1986, she has also been a Part-Time Professor with ESAT-INSYS, KUL. She was the Coordinator for IMEC in several EEC projects.  Dr. De Meyer is an IIEE fellow ,member of the Belgian Federal Council for Science Policy and (co) author of over 500 publications.
Ann Witvrouw received an MS degree in Metallurgical Engineering in 1986 from the Katholieke Universiteit Leuven, Belgium, and both an MS degree in Applied Physics in 1987 and a Ph.D. degree in Applied Physics in 1992 from Harvard University, USA. In 1992 she joined imec, Belgium where she worked on the reliability of metal interconnects until the end of 1998. In 1998 she switched to research in Micro-electromechanical Systems at imec, focusing on advanced MEMS process technologies. From 2000 to 2013 she has been working on MEMS integration at imec, first as team leader, then as a program manager and last as a principal scientist. Currently she is a guest professor at the KULeuven, teaching part of a course on ‘Nanomaterials for nanoelectronics’.

Textul de pe ultima copertă

Polycrystalline SiGe has emerged as a promising MEMS (Microelectromechanical Systems) structural material since it provides the desired mechanical properties at lower temperatures compared to poly-Si, allowing the direct post-processing on top of CMOS. This CMOS-MEMS monolithic integration can lead to more compact MEMS with improved performance. The potential of poly-SiGe for MEMS above-aluminum-backend CMOS integration has already been demonstrated. However, aggressive interconnect scaling has led to the replacement of the traditional aluminum metallization by copper (Cu) metallization, due to its lower resistivity and improved reliability.
Poly-SiGe for MEMS-above-CMOS sensors demonstrates the compatibility of poly-SiGe with post-processing above the advanced CMOS technology nodes through the successful fabrication of an integrated poly-SiGe piezoresistive pressure sensor, directly fabricated above 0.13 m Cu-backend CMOS. Furthermore, this book presents the first detailed investigation on the influence of deposition conditions, germanium content and doping concentration on the electrical and piezoresistive properties of boron-doped poly-SiGe. The development of a CMOS-compatible process flow, with special attention to the sealing method, is also described. Piezoresistive pressure sensors with different areas and piezoresistor designs were fabricated and tested. Together with the piezoresistive pressure sensors, also functional capacitive pressure sensors were successfully fabricated on the same wafer, proving the versatility of poly-SiGe for MEMS sensor applications. Finally, a detailed analysis of the MEMS processing impact on the underlying CMOS circuit is also presented.

Caracteristici

Provides a unique overview of the functionality of Pressure Sensors The piezoresistive properties of poly-SiGe are investigated in detail The book contains an in-depth discussion about the fabrication and characterization of CMOS-compatible piezoresistive and capacitive pressure sensors with different areas and designs A comprehensive analysis of the MEMS processing impact on the underlying Cu-based CMOS