Title :
A 2.23 ps RMS jitter 3 μs fast settling ADPLL using temperature compensation PLL controller
Author :
Okuno, Keisuke ; Masaki, Kana ; Izumi, Shintaro ; Konishi, Toshihiro ; Kawaguchi, Hiroshi ; Yoshimoto, Masahiko
Author_Institution :
Kobe Univ., Kobe, Japan
Abstract :
This report describes an all-digital phase-locked loop (ADPLL) with temperature-compensated settling time reduction. The novelty of this work is autonomous oscillation control word estimation without a look-up table or memory circuits. The proposed ADPLL includes a multi-phase oscillator as a digitally controlled oscillator (DCO). Digital timing error correction circuits are integrated to minimize the settling time that is degraded by phase conversion error. The ADPLL is fabricated using a 65 nm CMOS process. The test chip occupies 0.27 × 0.36 mm2. It achieves 2.23 ps RMS jitter and -224 dB FoM at 2.4 GHz output frequency with 8.85 mW power dissipation. Measurement results show that the 47% settling time is reduced by the proposed estimation block The average settling time at 25 °C is 3 μs.
Keywords :
CMOS digital integrated circuits; digital control; digital phase locked loops; error compensation; error correction; estimation theory; oscillators; phase convertors; timing jitter; CMOS process; DCO; FoM; RMS jitter; all-digital phase locked loop; autonomous oscillation control word estimation; digital timing error correction circuits; digitally controlled oscillator; fast settling ADPLL controller; frequency 2.4 GHz; look-up table; memory circuits; multiphase oscillator; phase conversion error; power 8.85 mW; power dissipation; size 65 nm; temperature-compensated settling time reduction; test chip; time 2.23 ps; time 3 mus; Estimation; Latches; Oscillators; Phase frequency detector; Radiation detectors; Temperature; Timing;
Conference_Titel :
Electronics, Circuits and Systems (ICECS), 2014 21st IEEE International Conference on
DOI :
10.1109/ICECS.2014.7049923
