Title :
Fast wafer level reliability assessment of ultra thick oxides under impact ionization conditions
Author_Institution :
ELMOS Semicond. AG, Dortmund
Abstract :
The ramp rate dependent effect of impact ionization on the MOS-C IV-characteristic of ultra thick oxides during linear voltage ramp dielectric breakdown measurements is investigated. The results obtained open an extension to a recent proposed fast wafer level reliability (fWLR) technique with special attention to compensating for impact ionization (ii) effects. Once the compensation is achieved mathematically, time-dependent dielectric breakdown (TDDB) data can be generated/calculated and used for further lifetime calculations. The basic idea behind the method extension is that the Fowler-Norheim (FN) theory is valid, but the applied electrical field is not the oxide field. Using Eox + DeltaEox (due to positive charge trapping) instead of Vg/tox yields a stress profile that accounts for impact ionization effects.
Keywords :
MOS capacitors; compensation; impact ionisation; semiconductor device breakdown; semiconductor device measurement; semiconductor device reliability; wafer-scale integration; Fowler-Norheim theory; MOS-capacitor IV-characteristic; fast wafer level reliability assessment; impact ionization compensation; linear ramp voltage; time-dependent dielectric breakdown measurements; Acceleration; Breakdown voltage; Data mining; Dielectric breakdown; Dielectric measurements; Impact ionization; MOS capacitors; Semiconductor device reliability; Thermal stresses; Thickness measurement;
Conference_Titel :
Integrated Reliability Workshop Final Report, 2007. IRW 2007. IEEE International
Conference_Location :
S. Lake Tahoe, CA
Print_ISBN :
978-1-4244-1771-9
Electronic_ISBN :
1930-8841
DOI :
10.1109/IRWS.2007.4469235
