新型6GHz/ 573µwatt/ 30ps动态比较器,采用65nm CMOS技术,具有互补差分输入

R. Ghasemi, A. Ahmadi, Hossein Ghasemian, M. Salehi, E. Abiri
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引用次数: 3

摘要

本文提出了一种新型的高速动态比较器,与传统的动态比较器相比,该比较器的延时时间大大降低。在建议的比较器中,利用了互补的微分对。因此,延迟时间减少,失调电压得到改善。此外,延迟和功耗对输入共模电压电平变化的敏感性较低。在复位阶段,在差分输出节点之间使用NMOS开关来减少延迟时间。推导了该结构的延迟时间和输入参考偏置电压的相关方程,并确定了减小它们的有效参数。在65nm CMOS工艺下的布局后仿真结果表明,该动态比较器的时钟频率可达6GHz,延迟时间为30ps。当提供1.2V的比较器时,功耗为573µW。占地面积为86.1µm2(10.63µm*8.1µm)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A novel 6GHz/ 573µwatt/ 30ps Dynamic Comparator with complementary differential input in 65nm CMOS Technology
In this paper, a novel high speed dynamic comparator is presented, which its delay time is decreased compared to conventional dynamic comparators. In the suggested comparator, a complementary differential pair is utilized. As a result, the delay time is reduced and the offset voltage is improved. Furthermore, the delay and power consumption has less sensitivity to the variations of the input common mode voltage level. In the reset phase, an NMOS switch is utilized between the differential outputs nodes to reduce the delay time. The equations related to the delay time and input referred offset voltage of the proposed structure are derived and the effective parameters to reduce them are identified. The post-layout simulation results in 65nm CMOS technology demonstrate that the clock frequency of the proposed dynamic comparator can be 6GHz while the delay time is 30ps. The power consumption is 573µW when the proposed comparator is supplied with 1.2V. Also, the occupied area is 86.1 µm2 (10.63µm*8.1µm).
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