Large-signal millimeter-wave CMOS modeling with BSIM3

A large-signal modeling methodology based upon a modified BSIM3v3 transistor model is presented which targets MM-wave CMOS applications. The effect of parasitics on the high-frequency operation of CMOS transistors is discussed, and a standard intrinsic BSIM3v3 model card is augmented with lumped elements to model these effects. Core BSIM parameters are extracted to match the measured DC I-V curves of a fabricated common-source NMOS transistor. Measured S-parameters are used to extract external parasitic component values to obtain a bias-dependent small-signal MM-wave frequency fit up to 65 GHz. The large-signal MM-wave accuracy of the model is verified by measuring the output harmonics power under large-signal excitation. Comparisons of measurements with the simulations show good agreement up to 60 GHz.

[1]  Herbert Zirath,et al.  Validation of a nonlinear transistor model by power spectrum characteristics of HEMT's and MESFET's , 1995 .

[2]  J. Wood,et al.  Bias-dependent linear, scalable millimeter-wave FET model , 2000, IMS 2000.

[3]  D.B.M. Klaassen,et al.  RF-distortion in deep-submicron CMOS technologies , 2000, International Electron Devices Meeting 2000. Technical Digest. IEDM (Cat. No.00CH37138).

[4]  Christian Enz,et al.  An MOS transistor model for RF IC design valid in all regions of operation , 2002 .

[5]  Young-Wan Choi,et al.  Numerical analysis of traveling-wave photodetectors' bandwidth using the finite-difference time-domain method , 2002 .

[6]  A. Hajimiri,et al.  A 24GHz CMOS front-end , 2002, Proceedings of the 28th European Solid-State Circuits Conference.

[7]  Songcheol Hong,et al.  A spline large-signal FET model based on bias-dependent pulsed I-V measurement , 2002 .

[8]  Yuhua Cheng,et al.  MOSFET HF distortion behavior and modeling for RF IC design , 2003, Proceedings of the IEEE 2003 Custom Integrated Circuits Conference, 2003..

[9]  R.W. Brodersen,et al.  Design of CMOS for 60GHz applications , 2004, 2004 IEEE International Solid-State Circuits Conference (IEEE Cat. No.04CH37519).

[10]  Xiang Guan,et al.  A 24-GHz CMOS front-end , 2004, IEEE Journal of Solid-State Circuits.