Dual Metal Gate and Conventional MOSFET at Sub nm for Analog Application
Sonal Aggarwal1 and Rajbir Singh2
1Department of Electronic Science, Kurukshetra university,Kurukshetra
2Department of Electronic Science,Kurukshetra University, Kurukshetra
Abstract.
The use of nanometer CMOS technologies (below 90nm) however brings along significant challenges for circuit design (both analog and digital). By reducing the dimensions of transistors many physical phenomenon like gate leakage, drain induced barrier lowering and many more effects comes into picture. Reducing the feature size in the technology of device with the addition of ever more interconnect layers, the density of the digital as well as analog circuit will increase while intrinsic gate switching delay is reduced . We have simulated conventional and DMG MOSFET at 30nm scale using Silvaco TAD tool and obtained result. A two dimensional device simulation was carried out and observed that DMG MOSFET has a low leakage current as compared to conventional MOSFET and find suitable application in analog circuits.
Keywords
Gate leakage, DMG MOSFET, Silvaco TCAD tool, work function, trans-conductance, gain, Moore’s Law.
Original Source Link : http://aircconline.com/vlsics/V3N1/3112vlsics09.pdf
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