Title :
Multiplexed studio-quality video transmission by multimode fiber systems
Author :
White, Preston A., III
Author_Institution :
Dept. of Electr. & Comput. Eng. Technol., Southern Coll. of Technol., Marietta, GA, USA
Abstract :
A research program was carried out to study fiber-optic link designs leading to the ability to generate a request for quotation for fiber-optic terminal equipment which would: (1) transmit two multiplexed video signals along a fiber-optic link; (2) use the 50/125-μm multimode fiber installed at the Kennedy Space Center; (3) use 1300-nm LED transmitters and PINFET-based receivers; (4) reserve 12-MHz bandwidth for each channel; and (5) meet RS-250B short-haul specifications after reception. Three electrical multiplexing schemes for fulfilling those requirements were studied: (1) FM/FDM (frequency modulation/frequency division modulation); (2) AM/FDM (amplitude modulation/FDM); and (3) quadrature amplitude modulation. It is found that only one of the three electrical multiplexing schemes appears to have a good chance of transmitting two wideband video signals, on one multimode fiber, across the distances encountered at the Kennedy Space Center, meeting RS-250B short-haul standards and doing so relatively inexpensively. This is FM/FDM
Keywords :
frequency division multiplexing; frequency modulation; multiplexing; optical fibres; optical links; video signals; 12 MHz; 125 micron; 1300 nm; AM/FDM; FM/FDM; Kennedy Space Center; LED transmitters; PINFET-based receivers; QAM; RF multiplexing; RS-250B short-haul specifications; amplitude modulation; electrical multiplexing schemes; fiber-optic link designs; frequency division modulation; frequency modulation; multimode fiber systems; multiplexed video signals; optical fibres; quadrature amplitude modulation; studio-quality video transmission; terminal equipment; wideband video signals; Amplitude modulation; Bandwidth; Frequency division multiplexing; Frequency modulation; Light emitting diodes; Optical fiber devices; Quadrature amplitude modulation; Signal design; Signal generators; Transmitters;
Conference_Titel :
Southeastcon '89. Proceedings. Energy and Information Technologies in the Southeast., IEEE
Conference_Location :
Columbia, SC
DOI :
10.1109/SECON.1989.132584
