Optimization analysis on the bandwidth algorithm for the phase-locked loop (PLL) in OTU

Yuan, Jinying; He, Qingping; Hu, Yue; Li, Hao; Wang, Lin; Liu, Wenlong; Xie, Y. H.

doi:10.1016/j.ijleo.2011.08.056

Cited by 2 publications

(1 citation statement)

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“…Studies oriented towards optimizing the bandwidth of the PLL raise the importance of the internal fluctuations of the device as a pending problem in applications that increasingly demand more precise synchronization.…”

Section: Introductionmentioning

confidence: 99%

A new computational method to improve the synchronization of PLLs

Clarià

Solsona

Vilaplana

2020

Int Trans Electr Energ Syst

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Summary Capacitive sensors are widely used in industrial, commercial, and weather telemetry applications. However, their practical usefulness is conditioned by the fidelity of the signal generated in the measurement from the physical parameter. This fidelity must be preserved through appropriate synchronization procedures. This work focuses on the study of synchronization of sinusoidal signals, whose instantaneous frequency varies over time, through nonlinear feedback provided by a phase‐locked‐loop (PLL). The study of this behavior is done comparatively with a 3rd‐order PLL. We study the behavior of an analog PLL when making changes in the low‐pass filter in relation to the synchronization margins in the tracking and acquisition phases, the accuracy during the synchronized state and also the stability related to the delay of the phase of the modified filter. It also shows the limitation imposed by the phase delay of the filter on the stability of the PLL. We present a procedure to tune the basic low‐pass filter (LF) to optimize the behavior of the PLL. It first obtains the highest phase delay where PLL is stable. The phase delay is then used as a reference to design a filter to increase accuracy by eliminating the higher frequencies generated by the phase detector of the PLL.

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Section: Introductionmentioning

confidence: 99%