UHF2: a 0.6-um 25-GHz BiCMOS technology for mixed-signal wireless communications applications

Don Hemmenway; Frank Baldwin; John D. Butler; Clay Crouch; Jose Delgado; Mike Jayne; Jeffrey M. Johnston; Rex Lowther; Michael Netzer; Susan Richmond; Anthony Rivoli; George Rouse; Ron Santi; Yun Yue

doi:10.1117/12.360571

1 September 1999 UHF2: a 0.6-μm 25-GHz BiCMOS technology for mixed-signal wireless communications applications

Don Hemmenway, Frank Baldwin, John D. Butler, Clay Crouch, Jose Delgado, Mike Jayne, Jeffrey M. Johnston, Rex Lowther, Michael Netzer, Susan Richmond, Anthony Rivoli, George Rouse, Ron Santi, Yun Yue

Author Affiliations +

Proceedings Volume 3881, Microelectronic Device Technology III; (1999) https://doi.org/10.1117/12.360571
Event: Microelectronic Manufacturing '99, 1999, Santa Clara, CA, United States

Abstract

A 0.6 micrometers RF BiCMOS technology was developed by the modular integration of a 25 GHz f_T, 35 GHz f_MAX NPN transistor and high-quality passive components into an existing 0.6 micrometers analog CMOS process. The resultant process technology supports low-cost, mixed-signal RF applications up to 2.5 GHz.

Citation Download Citation

Don Hemmenway, Frank Baldwin, John D. Butler, Clay Crouch, Jose Delgado, Mike Jayne, Jeffrey M. Johnston, Rex Lowther, Michael Netzer, Susan Richmond, Anthony Rivoli, George Rouse, Ron Santi, and Yun Yue "UHF2: a 0.6-μm 25-GHz BiCMOS technology for mixed-signal wireless communications applications", Proc. SPIE 3881, Microelectronic Device Technology III, (1 September 1999); https://doi.org/10.1117/12.360571

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