Title :
Analysis and modeling of layout scaling in silicon integrated stacked transformers
Author :
Biondi, Tonio ; Scuderi, Angelo ; Ragonese, Egidio ; Palmisano, Giuseppe
Author_Institution :
Comput.-Aided Design & Design Solutions Group, STMicroelectronics, Catania, Italy
fDate :
5/1/2006 12:00:00 AM
Abstract :
The analysis and modeling of monolithic stacked transformers fabricated in a high-speed silicon bipolar technology is addressed. On-wafer experimental measurements are employed to investigate the effect of layout scaling on transformer performance parameters (i.e., self-resonance frequency, magnetic coupling coefficient, and insertion loss). Based on this analysis, a wideband lumped model is developed, whose parameters are related to layout and technological data through closed-form expressions. Model accuracy is demonstrated by comparing simulated and measured S-parameters, coil inductance, magnetic coupling coefficient, and maximum available gain of several transformers with scaled layout geometry. The self-resonance frequency is also employed as a figure-of-merit to demonstrate model accuracy at very high frequency.
Keywords :
S-parameters; integrated circuit layout; monolithic integrated circuits; radiofrequency integrated circuits; transformers; RF integrated circuits; S-parameters; coil inductance; high-speed bipolar technology; integrated stacked transformers; layout scaling; lumped modeling; magnetic coupling coefficient; on-wafer measurements; Couplings; Frequency measurement; Insertion loss; Loss measurement; Magnetic analysis; Performance loss; Silicon; Solid modeling; Transformers; Wideband; Integrated transformers; RF integrated circuits (ICs); layout scaling; lumped modeling; on-wafer measurements;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
DOI :
10.1109/TMTT.2006.872788
