Temperature compensation using least mean squares for fast settling all-digital phase-locked loop

Abstract

This paper presents a temperature compensation technique for a digitally controlled oscillator (DCO) using least means square (LMS) filtering. The proposed scheme contributes to reduction of the start-up settling time of all-digital phase-locked loop (ADPLL). The proposed method estimates the temperature using the output frequency of DCO because it is affected by temperature fluctuation. An optimal value of oscillation tuning word (OTW) for DCO can be estimated using the LMS algorithm because a linear relation exists between the output frequency of maximum OTW and the output frequency of other OTWs. These characteristics are confirmed using measurement results of the DCO, which is fabricated in 65-nm CMOS process. We modeled the ADPLL with the proposed temperature compensator in MATLAB using the measurement results of DCO. The simulation results show that the ADPLL with proposed temperature compensator achieves more than 53% settling time reduction and less than 10-MHz frequency error.