Title :
Range Unlimited Delay-Interleaving and -Recycling Clock Skew Compensation and Duty-Cycle Correction Circuit
Author :
Yi-Ming Wang ; Shih-Nung Wei
Author_Institution :
Dept. & Grad. Inst. of Electr. Eng., Nat. Chi Nan Univ., Nantou, Taiwan
Abstract :
A clock skew-compensation and duty-cycle correction circuit (CSADC) is used as the second-level clock distributing circuit to align a system global clock while maintaining a 50% duty cycle. A power-efficient, range-unlimited, and accuracy-enhanced CSADC, designed mainly with a new delay-interleaving and -recycling technique that mitigates operating frequency limitations while keeping overhead costs low, is proposed in this paper. Our preliminary research results prove the feasibility of the proposed technique and show that the operating frequency ranges from 110 MHz to 1.75 GHz, with the corrected duty cycle varying from 51.2% to 48.9% based on 0.18-μm CMOS technology. Meanwhile, the lock-in time, static phase error, and power consumption are, respectively, 26 clock cycles, 4.2 ps, and 5.58 mW at 1.75 GHz.
Keywords :
CMOS integrated circuits; UHF integrated circuits; clock distribution networks; CMOS technology; accuracy-enhanced CSADC; corrected duty cycle; duty-cycle correction circuit; frequency 110 MHz to 1.75 GHz; lock-in time; overhead costs; power 5.58 mW; power consumption; power-efficient CSADC; range unlimited delay-interleaving clock skew compensation; range unlimited delay-recycling clock skew compensation; range-unlimited CSADC; second-level clock distributing circuit; size 0.18 mum; static phase error; system global clock; time 4.2 ps; Clocks; Delay lines; Delays; Logic gates; Recycling; Synchronization; Clock skew; delay interleaving; deskewing; duty cycle distortion; fast lock-in; low power; low power.;
Journal_Title :
Very Large Scale Integration (VLSI) Systems, IEEE Transactions on
DOI :
10.1109/TVLSI.2014.2320761
