Title :
Substrate effects in monolithic RF transformers on silicon
Author :
Ng, Kiat T. ; Rejaei, Behzad ; Burghartz, Joachim N.
Author_Institution :
Microwave Components Group, Delft Inst. of Microelectron. & Submicron. Technol., Netherlands
fDate :
1/1/2002 12:00:00 AM
Abstract :
The effect of substrate RF losses on the characteristics of silicon-based integrated transformers is studied experimentally by using a substrate transfer technique. The maximum available gain is used to evaluate the quality of transformers similarly to that of active devices. The silicon substrate has a pronounced effect on the quality factor and mutual resistive coupling factor of the primary and secondary coils, thereby degrading the maximum available gain of the transformer. A highly structured patterned ground shield is shown to improve the maximum available gain of a transformer at high frequencies, while at low frequencies, it has little effect on the maximum available gain and even degrades the quality factors of the transformer coils. It is shown that the low-frequency degradation of the coil quality factors relates to local eddy currents in the patterned metal shield
Keywords :
MMIC; Q-factor; S-parameters; coils; current density; eddy current losses; impedance matching; transformers; S-parameters; Si; conductive silicon substrate; etching; figure-of-merit; local eddy currents; low-frequency degradation; monolithic RF transformers; mutual resistive coupling factor; ohmic losses; on-chip impedance matching; patterned ground shield; periodic ground pattern; primary coils; quality factor; secondary coils; silicon-based integrated transformers; substrate RF losses; substrate transfer technique; Coils; Degradation; Impedance matching; Inductors; Mutual coupling; Q factor; Radio frequency; Silicon; Spirals; Transformers;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
