Title :
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
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;
Journal_Title :
Nuclear Science, IEEE Transactions on
DOI :
10.1109/TNS.2009.2033922
