Development of a Radiation-Hardened Lateral Power MOSFET for POL Applications

Author

Dodd, P.E. ; Shaneyfelt, M.R. ; Draper, B.L. ; Young, R.W. ; Savignon, D. ; Witcher, J.B. ; Vizkelethy, G. ; Schwank, J.R. ; Shen, Z.J. ; Shea, P. ; Landowski, M. ; Dalton, S.M.

Author_Institution

Sandia Nat. Labs., Albuquerque, NM, USA

Volume

56

Issue

6

fYear

2009

Firstpage

3456

Lastpage

3462

Abstract

The radiation response of lateral power MOSFETs in total dose and energetic particle environments is explored. Results indicate that lateral power MOSFETs can be quite susceptible to single-event burnout. Tradeoffs involved in developing radiation hardened lateral power MOSFETs for point-of-load applications are studied using experiments and device simulations. Both design and fabrication process techniques can be used to significantly improve the single-event effect performance of lateral power MOSFETs, but the trade space between electrical and radiation performance must be carefully considered to produce an optimized design for point-of-load applications.

Keywords

power MOSFET; radiation hardening; semiconductor device models; POL; device simulations; electrical performance; energetic particle environments; fabrication process techniques; point-of-load applications; radiation-hardened lateral power MOSFET; single-event burnout; Cables; Connectors; Laboratories; Low voltage; MOSFET circuits; Power MOSFET; Power conversion; Power systems; Radiation hardening; Satellites; Point of load (POL) power conversion; power MOSFET; radiation effects; radiation hardening; single-event burnout; single-event effects; single-event gate rupture; total ionizing dose;

fLanguage

English

Journal_Title

Nuclear Science, IEEE Transactions on

Publisher

ieee

ISSN

0018-9499

Type

jour

DOI

10.1109/TNS.2009.2033922

Filename

5341381