Title :
A Power-Scalable DCO for Multi-Standard GSM/WCDMA Frequency Synthesizers
Author :
Liscidini, Antonio ; Fanori, Luca ; Andreani, Pietro ; Castello, Rinaldo
Author_Institution :
Edward S. Rogers Sr. Dept. of Electr. & Comput. Eng., Univ. of Toronto, Toronto, ON, Canada
Abstract :
A Digitally Controlled Oscillator (DCO) whose power consumption can be reconfigured while maintaining an almost constant phase-noise figure-of-merit (FoM). This is achieved by using either a single-switch-pair or a complementary (i.e., double-switch-pair) oscillator topology, without disturbing the optimized LC tank of the DCO. The optimal power consumption in the complementary (P-N) configuration is reduced by 75% compared to the single-switch-pair (N-only) configuration, while the FoM is kept constant. Measurements on a 55 nm CMOS 4 GHz DCO prototype show a minimum phase noise of -129.3 dBc/Hz at 2 MHz offset from the carrier in the P-N configuration, and of -134.7 dBc/Hz in the N-only configuration, with a phase noise difference very close to the 6 dB expected from theory. The current consumption is 6 mA and 24 mA, respectively, resulting in approximately the same FoM of -185 dBc/Hz.
Keywords :
cellular radio; code division multiple access; frequency synthesizers; network topology; oscillators; phase noise; LC tank; WCDMA frequency synthesizers; complementary oscillator topology; current 24 mA; current 6 mA; digitally controlled oscillator; frequency 2 MHz; frequency 4 GHz; multistandard GSM frequency synthesizers; optimal power consumption; phase noise figure of merit; power scalable DCO; single switch pair oscillator topology; size 55 nm; GSM; Phase noise; Scalability; Topology; Tuning; Voltage-controlled oscillators; DCO; GSM; WCDMA; oscillator; phase noise; power scalable; reconfigurability; reconfigurable oscillator;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.2014.2302292
