Title :
MEMS-based RF probes for on-wafer microwave characterization of micro/nanoelectronics
Author :
Marzouk, Jaouad ; Arscott, Steve ; El Fellahi, Abdelhatif ; Haddadi, Kamel ; Lasri, Tuami ; Buchaillot, Lionel ; Dambrine, Gilles
Author_Institution :
Inst. of Electron., Univ. of Lille 1, Lille, France
Abstract :
We demonstrate a radio frequency (RF) probe based on microelectromechanical systems (MEMS) design and processing technologies. The probe responds to the current needs of microelectronics requiring microwave characterization of nanoscale devices and systems having micrometer pad sizes. The use of MEMS technologies enables the probe contact pad area dimensions to be reduced by a three orders of magnitude compared to existing commercial RF probes. On-wafer RF measurements prove the feasibility of the approach to 30 GHz at very low contact resistance ≪1 Ω. A contact aging study demonstrates that the probes are capable of forming this contact for 6000 contact cycles.
Keywords :
contact resistance; micromechanical devices; nanoelectronics; MEMS design; MEMS processing technology; MEMS-based RF probe; contact aging; contact resistance; frequency 30 GHz; microelectromechanical systems; microelectronics; nanoelectronics; nanoscale device; on-wafer RF measurement; on-wafer microwave characterization; probe contact pad area dimension; radio frequency probe; Contact resistance; Micromechanical devices; Microwave FET integrated circuits; Microwave integrated circuits; Probes; Radio frequency; Silicon;
Conference_Titel :
Micro Electro Mechanical Systems (MEMS), 2015 28th IEEE International Conference on
Conference_Location :
Estoril
DOI :
10.1109/MEMSYS.2015.7051133
