TY  - JOUR
T1  - Multi-gigabit-rate clock and data recovery based on blind oversampling.
JF  - IEEE Communications magazine
A1  - Kim, Jaeha
LA  - English
UL  - https://tuklas.up.edu.ph/Record/UP-99796217608899847
AB  - This article addresses issues with designing a blind oversampling clock and data recovery unit (CDR) that meets jitter tolerance specifications. Asymptotic limits on jitter tolerance are derived assuming ideal phase detection based on a priori statistics of the received signal, proving that the coarse timing resolution of blind oversampling CDR relies on a phase detection algorithm that makes good estimates of the signal's statistics with a finite number of discrete samples and at reasonable hardware costs. The statistical simulation methodology outlined here enables quick verification of the bit error rate and comparisons between the jitter tolerances of various blind oversampling CDR architectures.
KW  - CDR.
KW  - A priori statistics.
KW  - Blind oversampling.
KW  - Coarse timing resolution.
KW  - Discrete samples.
KW  - Hardware costs.
KW  - Ideal phase detection.
KW  - Jitter tolerance specifications.
KW  - Multigigabit-rate clock/data recovery.
KW  - Phase detection algorithm.
KW  - Statistical simulation methodology.
ER  -