Virtual technology for RF process and device development

Abstract: The increasing complexity of modern technologies has made semiconductor process and device development challenging. A reduction in the number of experimental tests and a detailed internal insight opens the way to a more optimized process in a shorter time at reduced costs and development time. This has largely increased the use of virtual technology platforms for technology development and circuit optimization in e.g. RF BiCMOS applications. The capability of accurate predictions and directly linking basic tec… Show more

“…Even though this is consistent with the small-signal model of the intrinsic transistor, such model ceases to be valid at higher frequencies [10], [11]. An improved version of this method [12] replaced the intrinsic small-signal circuit by a 1-D Technology Computer Aided Design device simulation. Nevertheless, still a simplified uncorrelated noise model for the intrinsic transistor was used, inconsistent with the smallsignal model of the intrinsic transistor.…”

Lumped Models for Assessment and Optimization of Bipolar Device RF Noise Performance

“…Even though this is consistent with the small-signal model of the intrinsic transistor, such model ceases to be valid at higher frequencies [10], [11]. An improved version of this method [12] replaced the intrinsic small-signal circuit by a 1-D Technology Computer Aided Design device simulation. Nevertheless, still a simplified uncorrelated noise model for the intrinsic transistor was used, inconsistent with the smallsignal model of the intrinsic transistor.…”

Lumped Models for Assessment and Optimization of Bipolar Device RF Noise Performance

Fast noise prediction for process optimization using only standard DC and S-parameter measurements

RF technology optimization by a fast method for linearity determination