Title :
Tuned front-end design for heterodyne optical receivers
Author :
Jacobsen, G. ; Kan, J.-X. ; Garrett, I.
Author_Institution :
Telecommun. Res. Lab., Copenhagen, Denmark
Abstract :
A theoretical analysis of the noise performance of optical receivers with front-end tuning, suitable for wideband coherent systems, is presented. An algorithm for choosing the values of the tuning components in the front end so as to minimize the thermal noise output power has been developed. This theory is applied to the well-known simple parallel and serial tuning configurations and also to three more advanced designs. It is shown that any tuning is better than none in the wide-bandwidth designs considered and that the more advanced designs yield up to 12-dB reduction in thermal noise power. Two of the designs can be implemented with discrete components and should yield shot-noise-limited detection with 50-100 mu W of local oscillator power in receivers with 5-GHz bandwidth. The practical problem of equalizing the front-end response is considered, and it is shown that good performance can be expected using realizable components.<>
Keywords :
demodulation; noise; optical communication equipment; receivers; 5 GHz; 50 to 100 muW; heterodyne optical receivers; noise performance; shot-noise-limited detection; thermal noise output power; tuned front-end design; wideband coherent systems; Bandwidth; Local oscillators; Noise reduction; Optical design; Optical noise; Optical receivers; Optical tuning; Performance analysis; Power generation; Wideband;
Journal_Title :
Lightwave Technology, Journal of
