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This is a case study of an early failure analysis on a chip fabricated on the 40nm technology node. A large leakage current was observed in the high voltage (HV) supply after the chip was stressed as a part of an early failure rate (EFR) test. Electrical failure analysis (EFA) using Backside Emission spectroscopy [1] and Optical Beam Induced Resistance Change (OBIRcH) [2] showed the existence of hotspots,...
This paper describes electrical characteristics of bumpless and dual-damascene TSV interconnects for three-dimensional integration (3DI) using Wafer-on-Wafer (WOW) technology. Process optimization counter to integration issues of TSV formation process is demonstrated using test vehicle fabricated with 300-mm wafer and characterized by chain resistance and leakage current in the wafer level.
A direct high-k/Si gate stack has been proposed for gate oxide scaling. With LaCe-silicate, an EOT of 0.64 nm with an average dielectric constant (kav) of 17.4 has been obtained and an extremely low gate leakage current (Jg) of 0.65 A/cm2. The flatband voltage (Vfb) can be controlled by the compositional ratio of La in the LaCe-silicate layer. Furthermore, incorporation of Ge atom into the silicate...
It is well known that the Taiwan Semiconductor industries play the very key roles for the worldwide IC foundry, and the advanced research of nanoelectronics is the lifeline for its long term developments. Professor Huey-liang Hwang effectively integrated the most outstanding research team and resource in Taiwan on the National Project on Nanometer CMOS Transistors for the 21 century, which is sponsored...
Reliabilities of high-k stacked gate dielectrics are discussed from the viewpoint of the impact of initial traps in high-k layer. TDDB reliability can be explained by the generated subordinate carrier injection (GSCI) model. While initial traps increase the leakage current, they do not degrade the TDDB reliability. In contrast, the BTI reliability is strongly degraded by initial traps.
For the first time, we provide mechanistic understanding of high gate leakage current on surface channel SiGe pFET with high-k/metal gate to enable sub 1 nm EOT. The primary mechanism limiting EOT scaling is Ge enhanced Si oxidation resulting in a thick (1.4 nm) SiOx interface layer. A secondary mechanism, Ge doping (ges4%) in high-k, possibly by up diffusion, also results in higher leakage. With...
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