TY - JOUR
AU - Zhang, Ganggang
AB - Shallow trench isolation (STI) based laterally diffused metal–oxide–semiconductor (LDMOS) devices have become popular with its better tradeoff between breakdown voltage and on-resistance and its compatibility with the standard complementary metal–oxide–semiconductor (CMOS) process. A novel direct current current–voltage (DCIV) technique demonstrated with multiple sharp peak signals is proposed to characterize interface state generation in the channel and in the STI drift regions separately. Degradation of STI-based LDMOS transistors in various hot-carrier stress modes is investigated experimentally by proposed technique. A two-dimensional numerical device simulation is performed to obtain insight into the proposed technique and device degradation characteristics under hot-carrier stress conditions. The impact of interface state location on device electrical characteristics is analyzed from measurement and simulation. Our results show that the maximum Isub stress becomes the worst hot-carrier degradation mode in term of the on-resistance degradation, which is attributed to interface state generation under STI drift region. 
TI - Investigation of Hot Carrier Degradation in Shallow-Trench-Isolation-Based High-Voltage Laterally Diffused Metal–Oxide–Semiconductor Field-Effect Transistors by a Novel Direct Current Current–Voltage Technique
JO - Japanese Journal of Applied Physics
DO - 10.1143/JJAP.51.04DP08
DA - 2012-04-01
UR - https://www.deepdyve.com/lp/iop-publishing/investigation-of-hot-carrier-degradation-in-shallow-trench-isolation-0NtKMAVOWP
SP - 04DP08
VL - 51
IS - 4S
DP - DeepDyve
ER -