Title :
A 1.3-mW, 1.6-GHz digital delay-locked loop with two-cycle locking time and dither-free tracking
Author :
Kyunghoon Kim ; Seuk Son ; Sigang Ryu ; Hwanseok Yeo ; Yunju Choi ; Jaeha Kim
Author_Institution :
Inter-Univ. Semicond. Res. Center, Seoul Nat. Univ., Seoul, South Korea
Abstract :
An all-digital DLL with 2-cycle lock time and 47-mUIpp jitter without dithering is presented. Implemented in 65nm CMOS, the DLL consumes only 1.3-mW at 1.6-GHz and occupies 0.016-mm2, making it suitable for low-cost clock deskewing and data alignment circuits in large-scale 3D ICs. A set of custom-designed, serially-connected control registers whose propagation delay is matched to that of the delay stages acquires the initial lock setting by propagating a set signal for a duration equal to the delay error. Subsequently, an adaptive phase-interval detector (APID) that finds the delay interval enclosing the optimal delay value with a minimal number of samples keeps the DLL in lock without causing dithering or sacrificing bandwidth.
Keywords :
CMOS digital integrated circuits; clocks; delay lock loops; integrated circuit design; integrated circuit noise; jitter; three-dimensional integrated circuits; 2-cycle lock time; APID; CMOS; adaptive phase-interval detector; all-digital DLL; custom-designed control registers; data alignment circuit; delay error; delay interval; digital delay-locked loop; dither-free tracking; frequency 1.6 GHz; jitter; large-scale 3D ICs; lock setting; low-cost clock deskewing; optimal delay value; power 1.3 mW; propagation delay; serially-connected control registers; set signal propagation; size 65 nm; two-cycle locking time; Clocks; Delay lines; Delays; Detectors; Jitter; Phase detection; Registers;
Conference_Titel :
VLSI Circuits (VLSIC), 2013 Symposium on
Conference_Location :
Kyoto
Print_ISBN :
978-1-4673-5531-5
