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引用次数: 8
摘要
提出了一种新的逐次逼近快锁数字锁相环,并利用VHDL-AMS进行了行为建模。DPLL工作包括两个阶段:(1)用于频率跟踪的新型粗调谐阶段,采用类似于SAR a /D转换器(adc)中使用的逐次逼近算法;(2)用于相位跟踪的微调阶段,类似于传统DPLL。粗调谐阶段包括一个频率比较器、一个逐次逼近寄存器、一个数模转换器(DAC)和控制逻辑。本文介绍了设计考虑和实现。使用VHDL-AMS和Ansoft simplover进行设计和仿真。与传统的DPLL相比,快速锁定DPLL可以节省50%的锁定时间。
A novel SAR Fast-locking digital PLL: Behavioral modeling and simulations using VHDL-AMS
A novel successive-approximation fast-locking digital phase-locked loop (SAR DPLL) is presented and behaviorally modeled using VHDL-AMS. The DPLL operation includes two stages: (1) a novel coarse-tuning stage for frequency tracking which employs a successive-approximation algorithm similar to the one employed in SAR A/D converters (ADCs) and (2) a fine-tuning stage for phase tracking which is similar to conventional DPLLs. The coarse-tuning stage includes a frequency comparator, a successive-approximation register, a D/A converter (DAC), and control logic. Design considerations and implementation are presented in this paper. VHDL-AMS and Ansoft Simplorer are used to design and perform simulations. The fast-locking DPLL saves about 50% of the lock time as compared to its conventional DPLL counterpart.
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