The improvement of MOSFET prediction in space environments using the conversion model

Author

Shvetzov-Shilovsky, I.N. ; Cherepko, S.V. ; Pershenkov, V.S.

Author_Institution

Moscow Eng. Phys. Inst., Russia

Volume

41

Issue

6

fYear

1994

Firstpage

2631

Lastpage

2636

Abstract

The modeling of MOS device response to a low dose rate irradiation has been performed. The existing conversion model based on the linear dependence between positive oxide charge annealing and interface trap buildup accurately predicts the long time response of MOSFETs with relatively thick oxides but overestimates the threshold voltage shift for radiation hardened MOSFETs with thin oxides. To give an explanation to this fact. We investigate the impulse response function for threshold voltage. A revised model, which incorporates the different energy levels of hole traps in the oxide improves the fit between the model and data and gives an explanation to the fitting parameters dependence on oxide field.<>

Keywords

MOSFET; hole traps; radiation effects; radiation hardening (electronics); semiconductor device models; MOS device response; MOSFET prediction; conversion model; energy levels; extraterrestrial radiation effects; hole traps; impulse response function; interface trap buildup; linear dependence; long time response; low dose rate irradiation; oxide field; positive oxide charge annealing; radiation hardened MOSFETs; relatively thick oxides; space environments; thin oxides; threshold voltage; threshold voltage shift; Annealing; Energy states; MOS devices; MOSFET circuits; Parameter extraction; Physics; Predictive models; Radiation hardening; Threshold voltage; Time factors;

fLanguage

English

Journal_Title

Nuclear Science, IEEE Transactions on

Publisher

ieee

ISSN

0018-9499

Type

jour

DOI

10.1109/23.340624

Filename

340624