Title :
The effect of STI and active length on dual gate oxide reliability
Author_Institution :
X-FAB Sarawak Sdn. Bhd., Kuching, Malaysia
Abstract :
Wafer Level Reliability Gate Oxide Integrity tests such as voltage-ramped and constant current stress have been conducted on area plate-type, poly edge and STI edge intensive test structures. The WLR tests are required for qualifying the process of integrating 3.3 nm and 12.5 nm dual gate oxide operated under the bias of 1.8V and 5V respectively on a single chip. It has been found that the Qbd value of nMOS STI edge intensive capacitors for 12.5 nm oxide was nearly one order lower than the rest of the test structure design. Failure analysis using emission microscopy and SEM showed that the oxide breakdown occurred near STI shoulder. The STI effect was evaluated using various active lengths of test structures. The appropriate STI edge intensive test structure for 12.5 nm oxide GOI qualification was designed and verified.
Keywords :
MOS integrated circuits; capacitors; electron device testing; failure analysis; integrated circuit reliability; integrated circuit testing; isolation technology; scanning electron microscopy; SEM; STI edge intensive test structure; STI effects; active length effects; constant current stress; dual gate oxide; emission microscopy; failure analysis; nMOS STI edge intensive capacitors; oxide GOI qualification; plate-type intensive test structure; poly edge intensive test structure; shallow trench isolation; size 12.5 nm; size 3.3 nm; voltage 1.8 V; voltage 5 V; voltage-ramped test; wafer level reliability gate oxide integrity tests; Capacitors; Design for quality; Electric breakdown; Failure analysis; MOS devices; Qualifications; Scanning electron microscopy; Stress; Testing; Voltage;
Conference_Titel :
Electronic Manufacturing Technology Symposium (IEMT), 2008 33rd IEEE/CPMT International
Conference_Location :
Penang
Print_ISBN :
978-1-4244-3392-6
Electronic_ISBN :
1089-8190
DOI :
10.1109/IEMT.2008.5507827
