Title :
Heating mechanisms of LDMOS and LIGBT in ultrathin SOI
Author :
Leung, Ying-Keung ; Paul, Amit K. ; Goodson, Kenneth E. ; Plummer, James D. ; Wong, S. Simon
Author_Institution :
Center for Integrated Syst., Stanford Univ., CA, USA
Abstract :
Temperature rises due to self-heating in silicon-on-insulator (SOI) power devices may lead to performance degradation and reliability problems. This letter investigates the mechanisms and spatial distribution of heat generation in linearly graded SOI LDMOS and LIGBT devices. While Joule heating dominates in LDMOS devices, hole collection at the p-well-drift region junction contributes strongly to the heating of LIGBT´s. Also, the presence of both Joule and recombination heating makes the heating profile more uniform in LIGBT´s. These effects combine to yield a temperature rise in LIGBT´s that is more uniform and lower on average than that in LDMOS devices.
Keywords :
insulated gate bipolar transistors; integrated circuit reliability; power MOSFET; power integrated circuits; power transistors; semiconductor device reliability; silicon-on-insulator; temperature distribution; thermal analysis; Joule heating; LDMOS; LIGBT; SOI power devices; Si; heat generation; heating mechanisms; heating profile; hole collection; linearly graded SOI devices; p-well-drift region junction; performance degradation; power IC; recombination heating; reliability problems; self-heating; smart power technology; spatial distribution; temperature rise; ultrathin SOI; Cogeneration; Conductive films; Heating; Medical simulation; Radiative recombination; Silicon on insulator technology; Substrates; Temperature; Thermal conductivity; Voltage;
Journal_Title :
Electron Device Letters, IEEE
