K. Buddharaju, N. Singh, S. Rustagi, S. Teo, L. Wong, L. Tang, C. Tung, G. Lo, N. Balasubramanian, D. Kwong
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引用次数: 28
摘要
我们首次采用自顶向下的方法,将栅极环(GAA)硅纳米线场效应管集成到CMOS逻辑中。n - mos和P-MOS晶体管的驱动电流采用不同数量的通道进行匹配,以获得对称的上拉和下拉特性。在纳米线和碳纳米管逆变器中,获得了具有高电压增益(高达-45)的快速开关转换。逆变器在低至0.2 V的VDD值范围内保持良好的传输特性和噪声裕度。在0.2 V VDD时的短路电流为~6 pA,表明这些器件在低压和超低功耗应用中具有优异的潜力。这些结果优于文献中报道的纳米线和FinFET(非经典CMOS)逆变器。
Gate-all-around Si-nanowire CMOS inverter logic fabricated using top-down approach
We present, for the first time, the monolithic integration of Gate-Ail-Around (GAA) Si-nanowire FETs into CMOS logic using top-down approach. The drive currents for N-and P-MOS transistors are matched using different number of channels for each to obtain symmetric pull-up and pull-down characteristics. Sharp ON-OFF transitions with high voltage gains (up to -45) are obtained which are best reported among the nanowire and carbon nanotube inverters. The inverters maintain their good transfer characteristics and noise margins for a wide range of VDD values, down to 0.2 V. Short circuit current at 0.2 V VDD is ~6 pA indicating excellent potential of these devices for low voltage and ultra low power applications. These results excel those reported in the literature for nanowire as well as FinFET (non-classical CMOS) inverters.
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