Title :
Bit rate and wavelength transparent all-optical clock recovery scheme for NRZ-coded PRBS signals
Author :
Slovak, J. ; Bornholdt, C. ; Kreissl, J. ; Bauer, S. ; Biletzke, M. ; Schlak, M. ; Sartorius, B.
Author_Institution :
Integration Technol. Dept., Fraunhofer Inst. for Telecommun., Berlin, Germany
fDate :
4/1/2006 12:00:00 AM
Abstract :
All-optical clock recovery from 40-Gb/s nonreturn-to-zero (NRZ) pseudorandom binary sequence data streams based on self-pulsating lasers is presented. A compact preprocessing circuit is utilized to convert an NRZ signal to a pseudoreturn-to-zero sequence before injecting into the optical clock. It comprises a semiconductor optical amplifier followed by a periodical wavelength-division-multiplexing demultiplexer filter. A stable sinusoidal clock signal with a root-mean-square jitter below 700 fs is detected at the output of the self-pulsating laser within data dynamic range of more than 8 dB. The performance of the all-optical clock recovery scheme is investigated by varying the bit rates between 39.81 and 43.02 Gb/s as well as for various wavelengths in the C-band.
Keywords :
binary sequences; demultiplexing equipment; optical communication equipment; optical fibre communication; optical filters; semiconductor optical amplifiers; synchronisation; timing jitter; transparency; wavelength division multiplexing; 39.81 to 43.02 Gbit/s; 4 to 8 GHz; C-band; NRZ-coded signals; PRBS signals; all-optical clock recovery; bit rate recovery scheme; compact preprocessing circuit; data dynamic range; demultiplexer filter; nonreturn-to-zero data streams; optical clock; periodical wavelength-division-multiplexing; pseudo-return-to zero sequence; pseudorandom binary sequence; root-mean-square jitter; self-pulsating lasers; semiconductor optical amplifier; stable sinusoidal clock signal; wavelength transparent recovery scheme; Binary sequences; Bit rate; Circuits; Clocks; Jitter; Optical filters; Optical signal processing; Semiconductor lasers; Semiconductor optical amplifiers; Stimulated emission; All-optical processing; optical clock recovery; self-pulsating laser; semiconductor optical amplifier (SOA);
Journal_Title :
Photonics Technology Letters, IEEE
DOI :
10.1109/LPT.2006.871834
