Title :
A low-power, capacitively-divided, ring oscillator with digitally adjustable voltage swing
Author :
Jiang, Tao ; Chiang, Patrick Y. ; Hu, Kangmin
Author_Institution :
Sch. of Electr. Eng. & Comput. Sci., Oregon State Univ., Corvallis, OR, USA
Abstract :
A capacitively-divided, injection-locked, ring oscillator is proposed that decreases dynamic power consumption by reducing voltage swing. A feedforward capacitor is placed in series with the load capacitance, effectively AC coupling each inverter stage to the next stage. Simulations are performed using digital programmability of the capacitor weights of both the feedforward and load capacitors, showing a reduction in the power consumption by as much as 36% with a 72% reduction in voltage swing. At the limits of reduced voltage swing, the power consumption is limited by static leakage current. Built in a 1.2V, 90nm CMOS process, the proposed capacitively-coupled, ring oscillator with digital trimming is injection-locked to an off-chip reference clock, with the measurement results verifying the correctness of the simulated performance.
Keywords :
CMOS integrated circuits; capacitors; injection locked oscillators; invertors; low-power electronics; AC coupling; CMOS process; capacitively-divided oscillator; capacitor weights; digital programmability; digital trimming; digitally adjustable voltage swing; feedforward capacitor; injection-locked oscillator; inverter stage; load capacitance; measurement results; off-chip reference clock; power consumption; ring oscillator; size 90 nm; static leakage current; voltage 1.2 V; CMOS integrated circuits; Capacitors; Clocks; Delay; Phase noise; Power demand; Ring oscillators;
Conference_Titel :
VLSI Design, Automation, and Test (VLSI-DAT), 2012 International Symposium on
Conference_Location :
Hsinchu
Print_ISBN :
978-1-4577-2080-2
DOI :
10.1109/VLSI-DAT.2012.6212662
