Transconductance degradation in thin-Oxide MOSFET's
- 1 October 1983
- journal article
- Published by Institute of Electrical and Electronics Engineers (IEEE) in IEEE Transactions on Electron Devices
- Vol. 30 (10) , 1295-1304
- https://doi.org/10.1109/t-ed.1983.21290
Abstract
In this work we investigate the transconductance degradation effect which occurs in thin-oxide FET's due to the finite inversion-layer capacitance and to the decrease of the electron mobility as the electric field increases. Experimental capacitance and charge measurements are performed at room and at liquid-nitrogen temperature on 10-nm oxide FET's, and the data are compared with a classical and a quantum-mechanical model extended to take into account the non-uniform doping profile in the silicon substrate. Accurate mobility determinations are performed accounting for the nonuniform distribution of the mobile charge along the channel, and a mobility expression against the average normal field is incorporated in a generalized Pao-Sah double-integral formula for the FET drain current. Design trade-offs for submicrometer FET's are finally discussed.Keywords
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