Title :
A physically based, scalable MOS varactor model and extraction methodology for RF applications
Author :
Victory, James ; Yan, Zhixin ; Gildenblat, Gennady ; McAndrew, Colin ; Zheng, Jie
Author_Institution :
Jazz Semicond., Newport Beach, CA, USA
fDate :
7/1/2005 12:00:00 AM
Abstract :
A physically based scalable model for MOS varactors, including analytical surface potential based charge modeling and physical geometry and process parameter based parasitic modeling, is proposed. Key device performances of capacitance and quality factor Q are validated over a wide voltage, frequency, and geometrical space. The model, implemented in Verilog-A for simulator portability, provides for robust and accurate RF simulation of MOS varactors.
Keywords :
MOS capacitors; Q-factor; semiconductor device models; surface potential; varactors; MOS varactor model; RF applications; RF simulation; Verilog-A; capacitance; charge modeling; parasitic modeling; physical geometry; quality factor; surface potential; CMOS technology; Frequency dependence; Geometry; Parasitic capacitance; Radio frequency; Semiconductor device modeling; Solid modeling; Tuning; Varactors; Voltage; MOS varactors; VVCs; surface potential;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2005.850693
