TCAD analysis of HCS degradation in LDMOS devices under AC stress conditions

Author

Monti, F. ; Reggiani, S. ; Barone, G. ; Gnani, Elena ; Gnudi, A. ; Baccarani, G. ; Poli, S. ; Chuang, M.-Y. ; Tian, Wei ; Varghese, Dany ; Wise, R.

Author_Institution

DEI, Univ. of Bologna, Bologna, Italy

fYear

2014

fDate

22-26 Sept. 2014

Firstpage

333

Lastpage

336

Abstract

Different AC pulsed stress signals have been applied to an n-type LDMOS with shallow-trench isolation (STI). The HCS degradation curves have been measured on wafer by varying frequency and duty-cycle under a high-VDS stress for both low and high Vgs biases. The linear drain current drifts have been also investigated through TCAD predictions under AC stress conditions for the first time. A quantitative explanation of the dependence on frequency and duty cycle has been obtained using the new approach based on physical models. An extended analysis of the HCS degradation in a real switching application through a resistive load has been reported to gain an insight on the role played by the peak-HCS rates during the rising/falling edges.

Keywords

MOSFET; technology CAD (electronics); HCS degradation curves; STI; TCAD analysis; ac pulsed stress signals; duty cycle; falling edges; frequency cycle; lateral double-diffused MOS transistors; linear drain current drifts; n-type LDMOS; peak-HCS rates; physical models; quantitative explanation; real switching application; resistive load; rising edges; shallow-trench isolation; Degradation; Logic gates; Mathematical model; Stress; Switches; Time-frequency analysis; Transistors;

fLanguage

English

Publisher

ieee

Conference_Titel

Solid State Device Research Conference (ESSDERC), 2014 44th European

Conference_Location

Venice

ISSN

1930-8876

Print_ISBN

978-1-4799-4378-4

Type

conf

DOI

10.1109/ESSDERC.2014.6948828

Filename

6948828