Bias dependent and scalable small-signal modeling of pseudomorphic HEMTs

Results of small-signal modeling of 0.5 um gate length pseudomorphic HEMTs are presented here. Modeling included scalability with respect to number of gate fingers, gate width and gate bias dependence of Equivalent Circuit Parameters (E.C.Ps). p-HEMTs with gate widths of 100 mum and 150 mum, each with varying number of gate fingers (2, 4, 6) keeping all other structural parameters constant were fabricated for this study. To find small-signal E.C.Ps we used method proposed by Dambrine et.al. and White-Healy. On-wafer measurement of S-parameters for all devices was done from 100 MHz to 40 GHz under different bias-conditions. Using this data, all the E.C.Ps were then extracted for each device, at various gate-biases and V_ds = 3 V. Finally we have a model that can give the E.C.Ps of any device we fabricated, given the gate-bias, number of gate-fingers and gate-width. This equivalent circuit can be used to generate S-parameters of devices with good accuracy in the whole frequency range of measurement.