Title :
Simulation and modeling of the low-frequency base resistance of bipolar transistors and its dependence on current and geometry
Author :
Schroter, Michael
Author_Institution :
Ruhr-Univ., Bochum, Germany
fDate :
3/1/1991 12:00:00 AM
Abstract :
The current and geometry dependence of the low-frequency base resistance of high-speed bipolar transistors was investigated by means of quasi-three-dimensional numerical device simulations. It is shown that the total base resistance can be separated into a current- and geometry-dependent internal part and an only geometry-dependent external part. Both of these parts can be accurately approximated by simple analytical formulas which are well suited for compact transistor modeling. The investigations are based on sheet resistances and dimensions the values of which are typical for self-aligned double-polysilicon technology
Keywords :
bipolar transistors; semiconductor device models; semiconductor technology; bipolar transistors; compact transistor modeling; current; external part; geometry; internal part; low-frequency base resistance; quasi-three-dimensional numerical device simulations; self-aligned double-polysilicon technology; sheet resistances; Bipolar transistors; Circuit synthesis; Design optimization; Fitting; Geometry; Numerical simulation; Power dissipation; Silicon; Solid modeling; Voltage;
Journal_Title :
Electron Devices, IEEE Transactions on
