NONLINEAR PARASITICS IN MODFETS AND MODFET-I-V CHARACTERISTICS

A large-signal analysis of the source and drain resistance of MODFETs is reported. Velocity saturation in the two-dimensional electron gas (2DEG) and hypothetical rectifying effects in the n +-AlGaAs-i-GaAs interface are accounted for. Rectifying effects are found to be either absent or negligible. Current limitations in the 2DEG lead to the observed compression of the transconductance at large gate voltages, and an improved fit of the MODFET I-V characteristics is demonstrated using an approximate analytic formulation of the current-limited parasitic resistance. The high-frequency dependence of the source and drain resistance is also reported. A decrease of the source impedance for frequencies increasing from 1-30 GHz is predicted and can reach 30%, depending on the device structure. Such a frequency decrease of the parasitics is consistent with the reported increase of the effective transconductance of MODFETs at microwave frequencies. The reported frequency and current-limited parasitic models rely on parameters that can either be measured or calculated and are therefore appropriate for CAD applications.