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4 - Uncertainties in small-signal equivalent circuit modeling
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- By Christian Fager, Microwave Electronics Laboratory, Chalmers University of Technology, Kristoffer Andersson, Microwave Electronics Laboratory, Chalmers University of Technology, Matthias Ferndahl, Microwave Electronics Laboratory, Chalmers University of Technology
- Edited by Matthias Rudolph, Christian Fager, Chalmers University of Technology, Gothenberg, David E. Root
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- Book:
- Nonlinear Transistor Model Parameter Extraction Techniques
- Published online:
- 25 October 2011
- Print publication:
- 13 October 2011, pp 86-122
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- Chapter
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Summary
Introduction
Almost all computer-aided RF and microwave circuit design work relies on small-signal equivalent circuit models [1] (see Chapters 3 and 5). These models are used to replicate, as accurately as possible, the linearized electrical characteristics of the device under test. However, despite all efforts spent on deriving physically correct model topologies, surprisingly little research has been reported on how to extract the parameters of these models accurately.
There are several sources of uncertainty in the modeling process that contribute to inaccuracies in the models and their parameter estimates. By using a stochastic approach that acknowledges the fact that microwave and RF measurements are, indeed, associated with uncertainties and incorporating this approach with existing model extraction methods, it becomes possible to quantify the uncertainties in the models obtained. The statistical approach adopted in this chapter will be used as a framework for the application of statistical parameter estimation methods that are often used in other applications but not in the context of microwave and RF small-signal modeling. As a consequence, the accuracy of the models obtained is significantly improved when compared to traditionally used methods.
Different simple modeling examples will be used to illustrate how measurement uncertainties propagate to uncertainties in the models and their parameters when different extraction methods are applied. The application to small-signal transistor models will be of particular focus, since they form the basis for large signal transistor modeling and thus indirectly influence the performance when designing complex active circuits (see Chapter 5).