论文信息 - Saturation transconductance of deep-submicron-channel MOSFETs

Saturation transconductance of deep-submicron-channel MOSFETs

Abstract A new method is described for extracting electron and hole saturation velocities from saturation currents of deep-submicron-channel N - and P MOSFET's at room and low temperatures. The extracted results are (7 ± 0.5) × 10 6 cm / s at 300 K and (8 ± 0.5) × 10 6 cm / s at 77 K for electrons; and (7 ± 1) × 10 6 cm / s at both 300 and 77 K for holes. These numbers are used in an analytical model to calculate the MOSFET saturation transconductance as a function of channel length. Excellent agreement is obtained between the experimentally measured saturation transconductance at 300 and 77 K and the model calculations over a wide range of channel length from 10 to 0.15 μm. This also sets up a procedure for identifying the onset of velocity overshoot, which is reflected in the 77 K N MOSFET data below 0.25 μm.

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