Title :
An adaptive multi-modulus frequency divider
Author :
Yuan Hengzhou ; Ma Zhuo ; Guo Yang
Author_Institution :
Coll. of Comput. Sci., Nat. Univ. of Defense Technol., Changsha, China
Abstract :
The demand for high-speed low-power multi-modulus frequency divider is increasing in Phase-Locked Loop (PLL) design. In this paper, by combining the merits of traditional Johnson counter and Pulse-swallow frequency divider, we proposed a novel two-stage divider which can improve the operating frequency and decrease the power dissipation enormously. An adaptive component is built to set the divider in best power-saving mode. Based on the 40nm CMOS process, the frequency of this two-stage divider can reach 4GHz. The minimum power dissipation in divide-by-49 mode is 63μW@1GHz, or 156μW@4GHz. Compared with typical Johnson counter frequency divider, the frequency of the two-stage divider is improved about 1.6 times, while the power optimization ratio is 51.19%.
Keywords :
CMOS integrated circuits; MMIC frequency convertors; UHF frequency convertors; UHF integrated circuits; field effect MMIC; frequency dividers; low-power electronics; CMOS process; Johnson counter; PLL; adaptive component; adaptive multimodulus frequency divider; frequency 1 GHz; high-speed low-power multimodulus frequency divider; phase-locked loop design; power dissipation; power-saving mode; pulse-swallow frequency divider; size 40 nm; two-stage divider; Frequency control; Frequency conversion; Frequency synthesizers; Phase locked loops; Power demand; Power dissipation; Radiation detectors;
Conference_Titel :
ASIC (ASICON), 2013 IEEE 10th International Conference on
Conference_Location :
Shenzhen
Print_ISBN :
978-1-4673-6415-7
DOI :
10.1109/ASICON.2013.6811984
