| Popis: |
Forward body biasing is a promising approach for realizing optimum threshold-voltage (V TH) scaling in the era when gate dielectric thickness can no longer be scaled down. This is confirmed experimentally and by simulation of a 10-nm gate length MOSFET. Because forward body bias (VF) decreases the depletion width (X DEP) in the channel region, it reduces V TH rolloff significantly. MOSFET performance is maximized under forward body bias with steep retrograde channel doping, and such channel doping profiles are required to accomplish good short-channel behavior (small X DEP ) at low V TH notwithstanding body bias; therefore, the combination of forward body biasing with steep retrograde channel doping profile can extend the scaling limit of conventional bulk-Si CMOS technology to 10-nm gate length MOSFET. Considering forward biased p-n junction current, parasitic bipolar transistor, and CMOS latch-up phenomena, the upper limit for |VF| should be set at 0.6-0.7 V, which is sufficient to realize significant advantages of forward body biasing. |
