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This paper presents a capacitor-less 1T DRAM cell transistor with high scalability and long retention time. It adopts gate to source/drain non-overlap structure to suppress junction leakage, which results in 80 ms retention time at 85degC with gate length of 55 nm. Compared to the previous reports, proposed cell transistor shows twice longer retention time even though the gate length shrinks to the...
Ultra Thin Body Si-On-ONO (UTB SOONO) transistors with ultra thin spacer are successfully demonstrated and evaluated. They have shown increased driving current more than 30% compared with conventional UTB SOONO transistors with thick spacer due to reduced source/drain resistance without short channel effect degradation by using thin spacer. In this paper, it is shown that thin spacer technology is...
As DRAM cell pitch size scales, the DRAM cells have required characteristics of high performance transistors. In this paper, we proposed and successfully demonstrated high performance silicon-on-ONO (SOONO) cell array transistors (SCATs) for 512Mb DRAM cell array application. They have advantages of SOI substrate and 3-D hi-gate as well as process simplicity. From those advantages, they have low Ioff...
In this study, we compared sensing margin according to the back gate bias and body doping concentration. We achieved large sensing margin of 62 uA/um at LG = 87 run and demonstrated sensing margin of 45 uA/um with LG = 47 nm that is the smallest device ever reported for the floating body RAM. For the scaling down to the sub 50 nm gate length, we should reduce the body thickness for the SCE with optimum...
We completed the demonstration of three key functions of SOONO devices by demonstrating the DRAM characteristics of FD and PD SOONO devices successfully, together with the previously reported logic transistor and flash memory characteristics. Floating body SOONO DRAM cells implemented on electrically thin buried insulator shows the large sensing margins more than 5??A in FD device with long data retention...
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