Title :
A computationally efficient physics-based compact bipolar transistor model for circuit Design-part I: model formulation
Author :
Schroter, Michael ; Lehmann, Steffen ; Frégonèse, Sébastien ; Zimmer, Thomas
Author_Institution :
Dept. of Electr. Eng. & Inf. Technol., Dresden Univ. of Technol., Germany
Abstract :
A compact bipolar transistor model is presented that combines the simplicity of the SPICE Gummel-Poon model (SGPM) with some major features of HICUM. The new model, called HICUM/L0, is more physics-based and accurate than the SGPM and at the same time, from a computational point of view, suitable for simulating large circuits. The new model has been implemented in Verilog-A and, as compiled code, in various commercial circuit simulators. In Part I, the fundamental model formulation is presented along with a derivation of the most important equations. Experimental results are shown in Part II.
Keywords :
SPICE; analogue integrated circuits; bipolar transistors; circuit simulation; integrated circuit design; semiconductor device models; HICUM/L0; SPICE Gummel-Poon model; Verilog-A; analog high-frequency circuit design; circuit simulation; compact bipolar transistor model; fundamental model formulation; Bipolar transistors; Circuit simulation; Computational geometry; Computational modeling; Equations; Equivalent circuits; Integrated circuit modeling; Physics computing; SPICE; Solid modeling; Analog high-frequency circuit design; HICUM; bipolar transistors; compact transistor modeling;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2005.862241
