A PHYSICAL MODEL FOR THE HOT‐CARRIER INDUCED DEGRADATION OF LDD‐PMOS TRANSISTOR AND ITS EXPERIMENTAL VERIFICATION
ISSN: 0332-1649
Article publication date: 1 April 1993
Abstract
As the physical dimensions of the devices are reduced to the submicrometer regime, the hot‐carrier reliability has become an important issue in the scaling of the p‐MOSFET as well as the n‐MOSFET. In this paper, we present a unified approach for p‐MOSFET degradation due to the trapping of the hot electrons in the gate oxide layers. A physical analytical model, based on the pseudo two‐dimensional model, is derived for the first time to describe the linear and saturation drain current degradation. The model has been verified by comparing the calculation and the measurement from submicron p‐MOSFET's with different channel lengths and oxide thickness. There are no empirical parameters in the model. Two physical parameters: the capture cross section and the density of states of electron traps, which can be determined independently from the measured degradation characteristics, are valid for both the linear current and the saturation current degradation. The simple expression is very suitable for the predicting of the circuit reliability.
Citation
Pan, Y. (1993), "A PHYSICAL MODEL FOR THE HOT‐CARRIER INDUCED DEGRADATION OF LDD‐PMOS TRANSISTOR AND ITS EXPERIMENTAL VERIFICATION", COMPEL - The international journal for computation and mathematics in electrical and electronic engineering, Vol. 12 No. 4, pp. 541-552. https://doi.org/10.1108/eb051827
Publisher
:MCB UP Ltd
Copyright © 1993, MCB UP Limited