Modeling of Hot-Carrier Degradation in nLDMOS Devices: Different Approaches to the Solution of the Boltzmann Transport Equation

Author

Sharma, Prateek ; Tyaginov, Stanislav ; Wimmer, Yannick ; Rudolf, Florian ; Rupp, Karl ; Bina, Markus ; Enichlmair, Hubert ; Jong-Mun Park ; Minixhofer, Rainer ; Ceric, Hajdin ; Grasser, Tibor

Author_Institution

Christian Doppler Lab., Tech. Univ. Wien, Vienna, Austria

Volume

62

Issue

6

fYear

2015

fDate

Jun-15

Firstpage

1811

Lastpage

1818

Abstract

We propose two different approaches to describe carrier transport in n-laterally diffused MOS (nLDMOS) transistor and use the calculated carrier energy distribution as an input for our physical hot-carrier degradation (HCD) model. The first version relies on the solution of the Boltzmann transport equation using the spherical harmonics expansion method, while the second uses the simpler drift-diffusion (DD) scheme. We compare these two versions of our model and show that both approaches can capture HCD. We, therefore, conclude that in the case of nLDMOS devices, the DD-based variant of the model provides good accuracy and at the same time is computationally less expensive. This makes the DD-based version attractive for predictive HCD simulations of LDMOS transistors.

Keywords

Boltzmann equation; MOSFET; hot carriers; semiconductor device models; Boltzmann transport equation; LDMOS transistors; carrier energy distribution; carrier transport; hot carrier degradation; n-laterally diffused MOS transistor; nLDMOS devices; nLDMOS transistor; spherical harmonics expansion; Computational modeling; Degradation; Logic gates; Mathematical model; Silicon; Stress; Transistors; Drift-diffusion (DD) scheme; hot-carrier degradation (HCD); n-laterally diffused MOS (nLDMOS); spherical harmonics expansion (SHE); spherical harmonics expansion (SHE).;

fLanguage

English

Journal_Title

Electron Devices, IEEE Transactions on

Publisher

ieee

ISSN

0018-9383

Type

jour

DOI

10.1109/TED.2015.2421282

Filename

7097657