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引用次数: 8
摘要
提出了一种用于多相时钟产生和同步的0.13 μ m CMOS双环数字DLL。十个时钟相位由内环产生并锁定到第一个参考时钟,而外环进一步以更高的频率将所有相位同时对准第二个参考时钟。与通常的双循环dll不同,所建议的体系结构将一个循环完全封闭在另一个循环中,从而导致二阶行为。利用基于窗口的相位检测技术,在不影响抖动性能的前提下,最大限度地降低了电路的复杂度和功耗。无假锁DLL工作在0.2-1.2 GHz的宽频率范围内,测量4.6 ps有效值抖动,在1.2 GHz时消耗6.1 mW。
A 6.1-mW dual-loop digital DLL with 4.6-ps RMS jitter using window-based phase detector
A 0.13-mum CMOS dual-loop digital DLL for multiphase clock generation and synchronization is presented. Ten clock phases are produced and locked to a first reference clock by the inner loop, while the outer loop further aligns all phases simultaneously to a second reference clock at a higher frequency. Unlike usual dual-loop DLLs, the proposed architecture has one loop completely enclosed inside the other, resulting in a second-order behavior. A window-based phase detection technique is exploited to minimize the circuit complexity and power with uncompromised jitter performance. The false-lock-free DLL operates over a wide frequency range of 0.2-1.2 GHz, measures a 4.6-ps rms jitter, and consumes 6.1 mW at 1.2 GHz.
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