Title :
Broadcast digital video delivered over WDM passive optical networks
Author :
Iannone, P.P. ; Reichmann, K.C. ; Frigo, N.J.
Author_Institution :
Crawford Hill Lab., AT&T Bell Labs., Holmdel, NJ, USA
fDate :
7/1/1996 12:00:00 AM
Abstract :
A robust broadcast digital video upgrade for high-performance WDM passive optical networks is demonstrated. The video format is derived from a commercially available direct satellite TV service. We broadcast 81 high-quality digital video channels and 29 audio channels, while simultaneously demonstrating error-free bidirectional transmission over two types of WDM PONs: the first is an entry-level system, which uses low-cost broad-band LED sources; the second ("RITE-Net") is a high-performance network, which shares a single 1.5-μm tunable laser source among all subscribers to provide virtual point-to-point connectivity. The broadcast upgrade is implemented by adding a directly modulated 1.3-μm uncooled LED transmitter at the central office and an ac-coupled receiver at each subscriber\´s optical network unit. The outside fiber plant remains unaltered.
Keywords :
direct broadcasting by satellite; laser transitions; laser tuning; light emitting diodes; optical fibre subscriber loops; optical receivers; optical transmitters; television broadcasting; television networks; video signals; wavelength division multiplexing; /spl mu/m tunable laser source; 1.3 mum; 1.5 mum; WDM PONs; WDM passive optical networks; ac-coupled receiver; audio channels; broadcast digital video; direct satellite TV service; entry-level system; error-free bidirectional transmission; high-performance WDM passive optical networks; high-performance network; high-quality digital video channels; low-cost broad-band LED sources; outside fiber plant; robust broadcast digital video upgrade; subscriber optical network unit; uncooled LED transmitter; video format; virtual point-to-point connectivity; Digital audio broadcasting; Digital video broadcasting; Light emitting diodes; Passive optical networks; Robustness; Satellite broadcasting; TV broadcasting; Video sharing; WDM networks; Wavelength division multiplexing;
Journal_Title :
Photonics Technology Letters, IEEE
