Title :
Calibration-Kit Design for Millimeter-Wave Silicon Integrated Circuits
Author :
Williams, Dylan F. ; Corson, Phillip ; Sharma, Jaibir ; Krishnaswamy, Harish ; Wei Tai ; George, Zacharias ; Ricketts, David ; Watson, Paul ; Dacquay, Eric ; Voinigescu, S.P.
Author_Institution :
Nat. Inst. of Stand. & Technol., Boulder, CO, USA
Abstract :
We study and present design guidelines for thru-reflect-line vector-network-analyzer calibration kits used for characterizing circuits and transistors fabricated on silicon integrated circuits at millimeter-wave frequencies. We compare contact-pad designs and develop fixed-fill contacts that achieve both repeatable and low contact-pad capacitances. We develop a fill-free and mesh-free transmission line structure for the calibration kit and compare it to similar transmission lines with meshed ground plane. We also develop a gold plating process that greatly improves contact repeatability, permitting the use of redundant multiline calibrations. This in turn simplifies the development of an error analysis. Finally, we apply the technique to state-of-the-art transistor characterization, and present measured results with uncertainties.
Keywords :
MIMIC; elemental semiconductors; error analysis; integrated circuit design; network analysers; silicon; calibration-kit design; circuit characterization; contact repeatability; contact-pad capacitances; contact-pad designs; design guidelines; error analysis; fill-free transmission line structure; fixed-fill contacts; gold plating process; mesh-free transmission line structure; meshed ground plane; millimeter-wave frequencies; millimeter-wave silicon integrated circuits; multiline calibrations; state-of-the-art transistor characterization; thru-reflect-line vector network analyzer calibration kits; transistor characterization; Calibration; measurement; millimeter wave; scattering parameters; silicon; transistor; uncertainty; vector network analyzer;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
DOI :
10.1109/TMTT.2013.2265685
