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引用次数: 24
摘要
锁滞环(dll)和锁相环(pll)用于同步数字系统,以改善时序,即尽量减少时钟分配网络中歪斜和抖动的负面影响。本文提出了一种利用线性延迟元件实现的高效DLL架构。线性化是通过修改偏置和电荷泵电路的经典硬件结构来实现的(Y. Moon et al., 2000)。也就是说,在我们的建议中,两个电路,而不是单端使用差分输入/输出结构。这使我们能够实现与工艺无关和温度补偿的DLL电路。通过1.2 /spl mu/m CMOS双聚双金属工艺模型的仿真结果表明,所提出的DLL对电源电压、温度和工艺过程参数变化具有线性延迟调节和稳定锁相,在全范围内进行调节。
Delay locked loops (DLLs) and phase locked loops (PLLs) are used in synchronous digital systems in order to improve timings, i.e. to minimize negative effects of skew and jitter in the clock distribution network. In this paper, we propose an efficient DLL architecture implemented with linear delay element. Linearization is achieved by modifying the classical hardware structures of the bias and charge pump circuits (Y. Moon et al., 2000). Namely, in our proposal both circuits, instead of single ended use differential input/output structure. This allows us to realize process independent and temperature compensated DLL circuit. Simulation results, that relate to models of 1.2 /spl mu/m CMOS double-poly double-metal technology, show that the proposed DLL has linear delay regulation and stable lock-in for supply voltage, temperature, and parameter's technology process variations, in the full range of regulation.
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