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https://designers-guide.org/forum/YaBB.pl Modeling >> Semiconductor Devices >> drain current prediction using EKV equations https://designers-guide.org/forum/YaBB.pl?num=1487258809 Message started by lpalocko on Feb 16th, 2017, 7:26am |
Title: drain current prediction using EKV equations Post by lpalocko on Feb 16th, 2017, 7:26am Hello, I try to identify the inversion coefficient, IC, of a MOS devices, which is based on EKV complex model, but PDK uses the BSIM4 model to describe a behavior of the device. When I compare an extracted Ids(BSIM4) with the predisction of a drain current (weak trough strong inversion, no small-geometry effects) defined as: Ids (WI to SI, no VS, no VFMR)=2*n*u0*Cox*Ut^2*(W/L)*[ln(1+exp(Veff/2*n*Ut))]^2 there is big error in weak and moderate inversion (Vgs ~ Vth ~ 0.45V) Obviously, there are short-channel effects (technology 90nm), but: - Velosity Saturation (VS): can be eliminated using a long channel, L >10u. - Verical Field Mobility Reduction (VFMR): contrubution due to thin layer and inperfection of SiO2 (tox~2.1nm), but again at high, vertical electric field between the gate and the channel. - Drain Induced Barier Lowering (DIBL): should be eliminated using long channel length. - Channel Length Modulation (CLM): is always present, but the corection factor of drain current,lp(2-D analysis)=lamda*Lc*(1+(Vds-Vdssat)/Ve), is dominant for strong inversion. where I am wrong? Thanks, Lukas |
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