Title :
BiCMOS embedded RF-MEMS switch for above 90 GHz applications using backside integration technique
Author :
Kaynak, M. ; Wietstruck, M. ; Scholz, R. ; Drews, J. ; Barth, R. ; Ehwald, K.E. ; Fox, A. ; Haak, U. ; Knoll, D. ; Korndörfer, F. ; Marschmeyer, S. ; Schulz, K. ; Wipf, C. ; Wolansky, D. ; Tillack, B. ; Zoschke, K. ; Fischer, T. ; Kim, Y.S. ; Kim, J.S. ;
Author_Institution :
IHP, Frankfurt (Oder), Germany
Abstract :
We demonstrate a novel back-side processed, back to front self-aligned BiCMOS embedded RF-MEMS switch for the 90 to 140GHz frequency band. The switch integration is very simple, adding only one mask step to the underlying high-performance BiCMOS process. Moreover, it offers low cost, wafer level packaging. The insertion loss of the switch is less than 0.5dB up to 140GHz, and isolation is better than 15dB in the frequency range of 90 to 140GHz. The switch-on time is measured as 10μs. No performance degradation was observed after 5 billion cold switching cycles demonstrating the high reliability of the switch. An on-chip charge-pump (CP) circuit is realized using enhanced PMOS transistor to excite the switch with an output voltage of up to 50V and a rise time of 2μs.
Keywords :
BiCMOS integrated circuits; charge pump circuits; microswitches; wafer level packaging; BiCMOS embedded RF-MEMS switch; backside integration technique; insertion loss; on-chip charge-pump circuit; wafer level packaging;
Conference_Titel :
Electron Devices Meeting (IEDM), 2010 IEEE International
Conference_Location :
San Francisco, CA
Print_ISBN :
978-1-4424-7418-5
Electronic_ISBN :
0163-1918
DOI :
10.1109/IEDM.2010.5703488
