Title :
A novel timing recovery circuit with high tracking ability for burst-mode multi-level QAM transmission
Author :
Shirato, Yushi ; Yoshioka, Hiroshi ; Watanabe, Kazuji
Author_Institution :
NTT Access Network Service Syst. Labs., NTT Corp., Kanagawa, Japan
Abstract :
Since the proposed timing recovery circuit can handle relatively large frequency offsets, manufacturing costs are quite low. To achieve both accurate timing synchronization and high tracking ability, a 2-stage timing recovery circuit is proposed, composed of an acquisition circuit and a tracking circuit. The proposed circuit has the two major features: (1) half-operation rate of the "square-type" acquisition circuit (corresponds to the Nyquist rate); (2) high performance tracking circuit. Even if the timing frequency offset is as much as ±100 ppm, the proposed circuit achieves overall timing error (mean error + RMS error) of 6°, which holds the C/N degradation to only 0.3 dB for 64QAM transmission and required BER of 3×10-4. The proposed circuit shows sufficient performance for the target 64QAM 40-Mbaud system.
Keywords :
networks (circuits); quadrature amplitude modulation; radio equipment; signal detection; synchronisation; tracking; BER; Nyquist rate; accurate timing synchronization; acquisition circuit; burst-mode multilevel QAM transmission; fixed wireless access system; frequency offset; half-operation rate; square-type acquisition circuit; timing frequency offset; timing recovery circuit; tracking ability; tracking circuit; wireless terminal; Circuits; Degradation; Electronic mail; Frequency estimation; Frequency synchronization; Laboratories; Manufacturing; Oscillators; Quadrature amplitude modulation; Timing;
Conference_Titel :
Wireless Communications and Networking Conference, 2005 IEEE
Print_ISBN :
0-7803-8966-2
DOI :
10.1109/WCNC.2005.1424565
