C. Andrei¹, R. Doerner², S.A. Chevtchenko², W. Heinrich², M. Rudolph^1,2

Published in:

Proc. 12th European Microwave Integrated Circuits Conf. (EuMIC 2017), Nuremberg, Germany, Oct. 9-10, pp. 244-247 (2017).

Abstract:

GaN low-noise amplifiers need to provide low noise figure, but are also often expected to be highly rugged. This paper addresses the question, how HEMT devices within a certain technology can be optimized only by changing basic geometrical properties. While epitaxial layer structure and gate length usually are not accessible, the circuit designer might be able to choose parameters as gate finger width and gate-source spacing. In this analysis, GaN HEMT samples were fabricated, measured and modeled. The layout of the devices was varied in order to study possibilities to improve noise figure. It is shown that significant improvements in noise performance are to be expected by optimizing gate finger width, while the slight improvement in terms of noise figure resulting from a reduction in gate-source spacing compromises gate breakdown and should be avoided. This work provides the designer of low-noise amplifier MMICs with a qualitative analysis and quantitative examples of a stateof- the art GaN HEMT process how to optimize the layout of the HEMT for low-noise and highly rugged LNA design.

Copyright © 2017 EuMA. Personal use of this material is permitted. However, permission to reprint/republish this material for advertising or promotional purposes or for creating new collective works for resale or redistribution to servers or lists, or to reuse any copyrighted component of this work in other works must be obtained from the EuMA.

Full version in pdf-format.