Abstract
We used variational calculus, the trial function, and the iterative procedure method to evaluate the optimum base doping concentration profile that will yield the minimum base transit time /spl tau//sub B/. All methods were extended to include the velocity saturation at the base collector junction, and the dependence of mobility and bandgap narrowing on the base doping concentration. We showed that all methods produce almost the same /spl tau//sub B/, although the profiles differ. Among them, the iterative method always produces the minimum /spl tau//sub B/ and variational calculus clearly shows the dependence of /spl tau//sub B/ on physical parameters.
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