Title :
Radio-Over-MMF Techniques—Part I: RF to Microwave Frequency Systems
Author :
Gomes, Nathan J. ; Nkansah, Anthony ; Wake, David
Author_Institution :
Wireless Commun. Group, Kent Univ., Canterbury
Abstract :
Recent work on radio-over-multimode-fiber (MMF) transmission, for the support of wireless LANs and current cellular systems operating at below 6 GHz, has shown that excellent performance (e.g., spur-free dynamic range well in excess of 100 dB.Hz2/3) can be achieved. However, it is shown here that for multisystem operation, spurious emissions may be more of a restriction than meeting good signal quality requirements (such as low error vector magnitude). Initial results are reported for error vector magnitude and adjacent channel leakage for UMTS transmission over a radio-over-MMF link with a multisystem remote antenna unit with conformance to standards being demonstrated.
Keywords :
microwave antennas; optical fibre LAN; optical links; radio-over-fibre; wireless LAN; adjacent channel leakage; error vector magnitude; multisystem operation; multisystem remote antenna; radio-over-multimode-fiber transmission; spur-free dynamic range; wireless LAN; Bandwidth; Costs; Microwave frequencies; Optical fiber LAN; Optical fiber communication; Optical fiber devices; Optical network units; Radio frequency; Wireless LAN; Wireless communication; Distributed antenna systems; multimode fiber (MMF); radio over fiber; wireless communications;
Journal_Title :
Lightwave Technology, Journal of
DOI :
10.1109/JLT.2008.925624
