Title :
Physics and Characterization of Various Hot-Carrier Degradation Modes in LDMOS by Using a Three-Region Charge-Pumping Technique
Author :
Cheng, Chih-Chang ; Lin, J.F. ; Wang, Tahui ; Hsieh, T.H. ; Tzeng, J.T. ; Jong, Y.C. ; Liou, R.S. ; Pan, Samuel C. ; Hsu, S.L.
Author_Institution :
Dept. of Electron. Eng., Nat. Chiao Tung Univ., Hsinchu
Abstract :
Degradation of lateral diffused MOS transistors in various hot-carrier stress modes is investigated. A novel three-region charge-pumping technique is proposed to characterize interface trap (N it) and bulk oxide charge Qox creation in the channel and in the drift regions separately. The growth rates of Nit and Qox are extracted from the proposed method. A two-dimensional numerical device simulation is performed to gain insight into device degradation characteristics in different stress conditions. This paper shows that a maximum Ig stress causes the largest drain current and subthreshold slope degradation because of both Nit generation in the channel and Qox creation in the bird´s beak region. The impact of oxide trap property and location on device electrical characteristics is analyzed from measurement and simulation
Keywords :
MOSFET; hot carriers; interface states; semiconductor device models; LDMOS; bulk oxide charge; device electrical characteristics; drain current; hot carrier degradation; interface trap; numerical device simulation; oxide trap property; slope degradation; three region charge pumping; Charge pumps; Degradation; Electric variables; Electric variables measurement; Hot carriers; MOSFETs; Numerical simulation; Performance gain; Physics; Stress; Hot-carrier degradation; lateral diffused MOS (LDMOS); three-region charge pumping (CP);
Journal_Title :
Device and Materials Reliability, IEEE Transactions on
DOI :
10.1109/TDMR.2006.883834
