Utilities increasingly face pressure to provide reliable communications for critical services. There is a need to maintain low latency end-to-end propagation delays, a need to restore service in the event of a disruption within 10 milliseconds, as well as a continued need to operate within the harsh electrical and environmental conditions of a power substation.
In response to this increasing pressure, GE and Optelian have announced a supply agreement to deliver optical networking solutions for utilities. By combining GE’s SONET, SDH and PDH multiplexers with Optelian Intuitive Packet Optical Networking and Optelian FLEX Architecture, customers can build communication networks that allow them to introduce additional information technology applications while protecting critical operational traffic.
Through pairing Optelian solutions with GE’s JungleMUX and TN1U/Ue multiplexers, utilities facing capacity constraints on existing fiber segments or requiring communications over extended fiber cable lengths now have a cost-effective solution.
“The alignment of Optelian solutions with GE’s multiplexers, switches and routers is a critical step forward to help our customers build next-generation networks,” said Tom Mueller, senior product manager, optical networks, GE’s Digital Energy business. “Until now, critical utility applications have remained isolated on our customers’ private networks to better protect the integrity and quality of these services. With Optelian, we now can improve our capabilities to deliver bandwidth intensive applications like video surveillance and storage area networks over the existing fiber network without impacting critical operational traffic.”
Like GE’s JungleMUX and TN1U/Ue multiplexers, the Optelian FLEX Architecture is modular and allows utilities to selectively scale their network and deploy advanced optical technologies. The Optelian solution can offer muxponding, reconfigurable optical add/drop multiplexers and G.709 optical transport network at strategic locations to achieve a utilities’ critical communications goals. This approach facilitates field-upgradable “scale” to quickly augment capacity, extend reach and provide essential optical retiming, reshaping and amplification for additional cost savings. It also enables service separation specific to each utility’s changing needs.
When combined with GE’s SONET/SDH multiplexers and utility-hardened multilink switches, network engineers can maintain transparent service pipes from 64 kilobits per second to 10 gigabytes per second and beyond from their network edges, without the service-delivery compromises (such as additional latency, inefficient bandwidth usage and network complexity) typically found when protocol conversion is employed. Managed via standards-based simple network management protocol, the combination of the Optelian FLEX Architecture and GE multiplexers improves utility communications with superior traffic segmentation and guaranteed quality of service.