Title :
VCSE laser transmitters for parallel data links
Author :
Banwell, Thomas C. ; Von Lehmen, Ann C. ; Cordell, Robert R.
Author_Institution :
Bellcore, Red Bank, NJ, USA
fDate :
2/1/1993 12:00:00 AM
Abstract :
The major issues associated with using vertical cavity surface emitting laser (VCSEL)-based transmitter arrays for parallel data links are examined. An assumption is made that only limited optimization of the individual links is permitted, and to the extent that the required circuits are shared by many channels. An analysis of bit-error ratios, based on measured laser parameter variations across the array, and their theoretical effect on noise margins indicates that a 5-dB penalty may be expected. This leads to a tradeoff between laser tolerances and receiver complexity. Experimental work towards a VCSEL-CMOS transmitter is described. A 622-Mb/s operation is demonstrated with a small hybrid transmitter array. Power dissipation and electrical crosstalk problems are assessed. Block coding of data before transmission significantly improves some aspects of laser transmitter performance. A statistical treatment of crosstalk noise is presented and compared to experimental results
Keywords :
CMOS integrated circuits; integrated optoelectronics; laser cavity resonators; optical information processing; semiconductor lasers; 622 Mbit/s; VCSE laser transmitters; VCSEL-CMOS transmitter; bit-error ratios; crosstalk noise; data block coding; electrical crosstalk problems; laser diodes; laser parameter variations; laser tolerances; limited optimization; noise margins; parallel data links; power dissipation; receiver complexity; small hybrid transmitter array; statistical treatment; transmitter arrays; vertical cavity surface emitting laser; Circuit noise; Crosstalk; Laser noise; Laser theory; Noise measurement; Optical arrays; Signal to noise ratio; Surface emitting lasers; Transmitters; Vertical cavity surface emitting lasers;
Journal_Title :
Quantum Electronics, IEEE Journal of
