Title :
Experience with the new compact MEXTRAM model for bipolar transistors
Author :
de Graaff, H.C. ; Kloosterman, W.J. ; Geelen, J.A.M. ; Koolen, M.C.A.M.
Author_Institution :
Philips Res. Lab., Eindhoven, Netherlands
Abstract :
The improved performance of the compact bipolar transistor model MEXTRAM is demonstrated by comparison with Gummel-Poon (GP) model calculations and measured DC and high-frequency data. The MEXTRAM model contains extended modeling of the collector epilayer and the inactive region of the base-collector epilayer and the parasitic pnp. It has five internal nodes, whereas the GP model has three. The advantage is a more accurate prediction of the DC behavior and the ft fall-off at high currents. The AC small-signal behavior at frequencies ⩾ft is dominated by the inactive part of the device. If unphysical fit parameters are accepted, the GP model can obtain in the forward mode up to the top of the ft nearly as good a fit as MEXTRAM does; the predictive capability, especially for down-scaled devices, however, will remain inferior. This is a very important point for circuit optimization MEXTRAM has been used successfully in this area, e.g. for ECL gates
Keywords :
bipolar transistors; semiconductor device models; AC small-signal behavior; DC behavior; ECL gates; Gummel-Poon model; base-collector epilayer; bipolar transistors; circuit optimization; collector epilayer; compact MEXTRAM model; down-scaled devices; extended modeling; forward mode; high-frequency data; inactive region; internal nodes; parasitic pnp; predictive capability; Bipolar transistors; Equations; Equivalent circuits; Frequency measurement; Laboratories; Physics; Predictive models; Proximity effect; Semiconductor process modeling; Voltage;
Conference_Titel :
Bipolar Circuits and Technology Meeting, 1989., Proceedings of the 1989
Conference_Location :
Minneapolis, MN
DOI :
10.1109/BIPOL.1989.69501
