90nm CMOS低功耗多模32/33/39/40/47/48预分频器，基于METSPC逻辑

2013 Third International Conference on Advances in Computing and Communications Pub Date : 2013-08-29 DOI:10.1109/ICACC.2013.102

V. M. Zackriya, H. Kittur

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引用次数: 4

摘要

预分频器主要用于锁相环(PLL)中，为锁相环提供更高的参考频率，从而在单位时间内为鉴相器提供更多的采样，从而获得更好的频率稳定性。本文首先提出了一种基于2/3预分频器的改进扩展真单相时钟(METSPC)设计。METSPC-FF的功耗和延迟及其GHz操作功能在所有工艺环节都进行了全面调查。将ETSPC和METSPC进行比较，发现METSPC的PDP比ETSPC高64.96%。因此，使用METSPC可以提高预分频器的工作性能。提出了一种多模32/33/39/40/47/48预分频器，并在所有PVT变化中进行了最大操作验证。频率为6GHz。仿真采用台积电90nm工艺，采用CADENCE SPECTRE模拟器，电源电压为1.1V。

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90nm CMOS Low Power Multimodulus 32/33/39/40/47/48 Prescaler with METSPC Based Logic

The prescaler is primarily used in phased locked loop (PLL) to generate higher reference frequency for the loop, which supplies more samples per unit time to the phase detector to attain better frequency stability. This paper is first to present a Modified Extended True Single Phase Clock (METSPC) based 2/3 prescaler design. The METSPC-FF is fully investigated across all the process corners for power consumption and delay along with its functionality for GHz operations. Both ETSPC and METSPC are compared to find that the PDP of METSPC is 64.96% better than ETSPC. Thus using METSPC enhances the operating performance of the prescaler. A multimodulus 32/33/39/40/47/48 prescaler is proposed and its operation is verified over all PVT variations with a max. frequency of 6GHz. Simulation is performed in TSMC 90 nm technology using CADENCE SPECTRE simulator at supply voltage of 1.1V.

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2013 Third International Conference on Advances in Computing and Communications

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