Title :
Design and Analysis of CMOS Frequency Dividers With Wide Input Locking Ranges
Author :
Chen, Chung-Chun ; Tsao, Hen-Wai ; Wang, Huei
Author_Institution :
Dept. of Electr. Eng., Nat. Taiwan Univ., Taipei, Taiwan
Abstract :
A millimeter-wave (MMW) frequency synthesizer needs a low-power frequency divider (FD) with a wide input locking range to ensure reliability and lower power operation. In this paper, the design and analysis of low-power wide locking range MMW FDs are presented. Proposed are two divide-by-2 (D2) and divide-by-4 (D4) FDs that achieve the widest locking range reported to date by using a dual-mixing technique. Both FDs are fabricated in 90-nm CMOS and are demonstrated to achieve very wide input locking ranges without any tuning mechanism. At an input power of 0 dBm, the D2 FD has a locking range of 51-74 GHz, and that of the D4 FD is 82.5-89 GHz. The power consumption is only 3 mW for both the D2 FD and the D4 FD, from a 0.5 V supply. The proposed D2 and D4 FDs may facilitate incorporation into a product of a MMW phase-locked loop that is smaller, consumes less power, and is more reliable than the conventional approach.
Keywords :
CMOS integrated circuits; frequency dividers; frequency synthesizers; injection locked oscillators; millimetre wave oscillators; phase locked loops; phase locked oscillators; voltage-controlled oscillators; CMOS frequency divider; dual-mixing technique; frequency 51 GHz to 74 GHz; frequency 82.5 GHz to 89 GHz; input locking range; millimeter-wave frequency synthesizer; phase-locked loop; power consumption; size 90 nm; voltage controlled oscillator; CMOS; injection-locked frequency dividers (ILFDs); millimeter-wave (MMW); phase-locked loop (PLL); voltage-controlled oscillator (VCO); wide locking range;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
DOI :
10.1109/TMTT.2009.2033239
