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Sungkyung PARK Changsik YOO Sin-Chong PARK
A multiphase low-jitter delay-locked loop (DLL) with harmonic-lock prevention, targeted at a gigabit parallel link interface, is delineated. A three-input four-state dynamic phase detector (PD) is proposed to obviate harmonic locking. Employing a low-jitter delay element and a new type of PD, the DLL is compact and feasible in its nature. The DLL is designed using a 0.35 µm 2P4M CMOS process with 3.3 V supply. Experimental results show that the circuit avoids false locking.
Koichiro MINAMI Masayuki MIZUNO Hiroshi YAMAGUCHI Toshihiko NAKANO Yusuke MATSUSHIMA Yoshikazu SUMI Takanori SATO Hisashi YAMASHIDA Masakazu YAMASHINA
This paper describes a 1-GHz portable digital delay-locked loop (DLL) with 0.15-µm CMOS technology. There are three factors contributing to jitter in digital DLLs. One is supply-noise induced jitter, another is jitter caused by delay time resolution and phase step in the delay line, and the third is jitter caused by the sensitivity of the phase detector. In order to achieve a low jitter digital DLL, we have developed a master-slave architecture that achieves infinite phase capture ranges and low latency, a delay line that improves the delay time resolution, a phase step suppression technique and a dynamic phase detector with increased sensitivity. These techniques were used to fabricate a digital DLL with improved jitter performance. Measured results showed that the DLL successfully achieves 29-ps peak-to-peak jitter with a quiet supply and 0.2-ps/ mV supply sensitivity.