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Professor Ronald L. Carter

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1 Professor Ronald L. Carter ronc@uta.edu http://www.uta.edu/ronc/
Semiconductor Device Modeling and Characterization – EE5342 Lecture 30 – Spring 2011 Professor Ronald L. Carter

2 Ideal 2-terminal MOS capacitor/diode
conducting gate, area = LW Vgate -xox SiO2 y L silicon substrate tsub Vsub x ©rlc L30-18Apr2011

3 Band models (approx. scale)
metal silicon dioxide p-type s/c Eo qcox ~ 0.95 eV Eo Eo qcSi= 4.05eV qfm= 4.1 eV for Al Ec qfs,p Eg,ox ~ 8 eV EFm Ec EFp EFi Ev Ev ©rlc L30-18Apr2011

4 Flat band condition (approx. scale)
SiO2 p-Si q(fm-cox)= 3.15 eV q(cox-cSi)=3.1eV Ec,Ox qffp= 3.95eV EFm Ec Eg,ox~8eV EFi EFp Ev Ev ©rlc L30-18Apr2011

5 Equivalent circuit for Flat-Band
Surface effect analogous to the extr Debye length = LD,extr = [eVt/(qNa)]1/2 Debye cap, C’D,extr = eSi/LD,extr Oxide cap, C’Ox = eOx/xOx Net C is the series comb C’Ox C’D,extr ©rlc L30-18Apr2011

6 Accumulation for Vgate< VFB
-xox SiO2 EOx,x<0 holes p-type Si tsub Vsub = 0 x ©rlc L30-18Apr2011

7 References * Semiconductor Physics & Devices, by Donald A. Neamen, Irwin, Chicago, 1997. **Device Electronics for Integrated Circuits, 2nd ed., by Richard S. Muller and Theodore I. Kamins, John Wiley and Sons, New York, 1986 ©rlc L30-18Apr2011

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