A semi-digital delay-locked loop using an analog-based finite state machine

Rhee W.; Parker B.; Friedman D.

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A semi-digital delay-locked loop using an analog-based finite state machine

机译：使用基于模拟的有限状态机的半数字延迟锁定环

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This brief describes a low-power full-rate semi-digital delay-locked loop (DLL) architecture using an analog-based finite state machine (AFSM) and a polyphase filter. The AFSM architecture uses low-power analog blocks to map high-frequency loop feedback information to low frequency, thus reducing the total power required for digital signal processing and for the macro as a whole. The polyphase filter generates full-rate multiphase outputs for a phase rotator, hence a reference clock of the semi-digital DLL can be generated by any reference source including a phase-locked loop with an LC voltage-controlled oscillator. The prototype semi-digital DLL in 0.12-μm CMOS exhibits less than 10-12 bit error rate at 3.2 Gb/s consuming 60 mW.

机译：本简介描述了使用基于模拟的有限状态机（AFSM）和多相滤波器的低功耗全速率半数字延迟锁定环（DLL）架构。 AFSM架构使用低功耗模拟模块将高频环路反馈信息映射到低频，从而减少了数字信号处理以及整个宏所需的总功耗。多相滤波器为相位旋转器生成全速率多相输出，因此半数字DLL的参考时钟可以由任何参考源生成，包括具有LC压控振荡器的锁相环的任何参考源。 0.12-μmCMOS中的原型半数字DLL在3.2 Gb / s时的耗电量为60 mW，具有不到10-12的误码率。

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《IEEE transactions on circuits and systems. II, Express briefs》 |2004年第11期|p.635-639|共5页
作者
Rhee W.; Parker B.; Friedman D.;
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正文语种 eng
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CMOS analogue integrated circuits; clocks; delay lock loops; filters; finite state machines; integrated circuit design; low-power electronics; voltage-controlled oscillators; 0.12 micron; 3.2 Gbits/s; 60 mW; CMOS; LC voltage-controlled oscillator; analog-based finite;

机译：CMOS模拟集成电路;时钟;延迟锁定环;滤波器;有限状态机;集成电路设计;低功耗电子设备;压控振荡器;0.12微米;3.2 Gbits / s;60 mW;CMOS;LC压控振荡器;基于模拟的有限;

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A semi-digital delay-locked loop using an analog-based finite state machine

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