Near-optimal PLL design for decision-feedback carrier and timing recovery

A new design method is presented for the design of PLL loop filters for carrier recovery, bit timing, or other synchronization loops given the phase noise spectrum and noise level. Unlike the conventional designs, our design incorporates a possible large decision delay and S-curve slope uncertainty....

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Veröffentlicht in:	IEEE transactions on communications 2001-09, Vol.49 (9), p.1669-1678
Hauptverfasser:	Yaniv, O., Raphaeli, D.
Format:	Artikel
Sprache:	eng
Schlagworte:	Carriers Decoding Delay Design methodology Filters Lasers Noise level Noise levels Optical receivers Phase error Phase locked loops Phase noise Recovery Synchronization Time measurements Timing Uncertainty
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container_title	IEEE transactions on communications
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creator	Yaniv, O. Raphaeli, D.
description	A new design method is presented for the design of PLL loop filters for carrier recovery, bit timing, or other synchronization loops given the phase noise spectrum and noise level. Unlike the conventional designs, our design incorporates a possible large decision delay and S-curve slope uncertainty. Large decision delays frequently exist in modern receivers due to, for example, a convolutional decoder or an equalizer. The new design also applies to coherent optical communications where delay in the loop limits the laser linewidth. We provide an easy-to-use complete design procedure for second-order loops. We also introduce a design procedure for higher order loops for near-optimal performance. We show that using the traditional second-order loop is suboptimal when there is a delay in the loop, and also shows large improvements, either in the amount of allowed delay, or the phase error variance in the presence of delay.
doi_str_mv	10.1109/26.950353
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subjects	Carriers Decoding Delay Design methodology Filters Lasers Noise level Noise levels Optical receivers Phase error Phase locked loops Phase noise Recovery Synchronization Time measurements Timing Uncertainty
title	Near-optimal PLL design for decision-feedback carrier and timing recovery
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