A PLL design based on a standing wave resonant oscillator

2009 IEEE International Conference on Computer Design Pub Date : 2009-10-04 DOI:10.1109/ICCD.2009.5413109

V. Karkala, Kalyana C. Bollapalli, Rajesh Garg, S. Khatri

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引用次数: 12

Abstract

In this paper, we present a new continuously variable high frequency standing wave oscillator, and demonstrate its use in generating the phase locked clock signal of a digital IC. The ring based standing wave resonant oscillator is implemented with a plurality of wires connected in a mobius configuration, with a cross coupled inverter pair connected across the wires. The oscillation frequency can be modulated by two means. Coarse modification is achieved by altering the number of wires in the ring that participate in the oscillation, by driving a digital word to a set of passgates which are connected to each wire in the ring. Fine tuning of the oscillation frequency is achieved by varying the body bias voltage of both the PMOS transistors in the cross coupled inverter pair which sustains the oscillations in the resonant ring. We have validated our PLL design in a 90nm process technology. 3D parasitic RLCs for our oscillator simulations were extracted, with skin effect accounted for. Our PLL has been implemented to provide a frequency locking range from ∼6 GHz to ∼9 GHz, with a center frequency of 7.5 GHz. The oscillator alone consumes about 25 mW of power, and the complete PLL consumes a power of 28.5 mW. The observed jitter of the PLL is 2.56%.

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基于驻波谐振振荡器的锁相环设计

在本文中，我们提出了一种新的连续可变高频驻波振荡器，并演示了它在数字IC中产生锁相时钟信号的用途。环形驻波谐振振荡器是由以莫比乌斯结构连接的多根导线实现的，在导线之间连接一个交叉耦合的逆变器对。振荡频率可以用两种方法调制。粗略的修改是通过改变环中参与振荡的导线的数量来实现的，通过将数字字驱动到连接到环中的每条导线的一组通道中。通过改变交叉耦合逆变器对中两个PMOS晶体管的体偏置电压来实现振荡频率的微调，从而维持谐振环内的振荡。我们已经在90nm工艺技术中验证了我们的锁相环设计。我们提取了用于振荡器模拟的3D寄生rlc，并考虑了皮肤效应。我们的锁相环已实现提供从~ 6 GHz到~ 9 GHz的频率锁定范围，中心频率为7.5 GHz。振荡器本身的功耗约为25mw，整个锁相环的功耗为28.5 mW。锁相环的抖动值为2.56%。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2009 IEEE International Conference on Computer Design

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