Expertise
March has been trusted by key UK industries for decades. We understand the challenges that business faces in terms of productivity, competition, cost control, safety, security and compliance.
Our client is one of the largest private utility companies in the UK. March was enlisted to provide a full fibre optic network design and implementation upgrade which required moving from a copper based (DH+) network to a fibre-based Ethernet ring network.
Our client, a nationally known utilities company, serves 15 million customers across the South of England. They approached March to resolve a complex issue causing intermittent network problems on a large sewage treatment works.
The site PLC (programmable logic controllers) communicated via a legacy DH+ (data highway plus) network protocol. The site SCADA also operated on this old system. The stress on the existing network (loading) meant that operators continually saw dropped data packets on the important SCADA system, resulting in spurious alarms
A full network upgrade was required moving from a copper based (DH+) network to a fibre-based Ethernet ring network. This had to be achieved whilst keeping the existing system network operational.
The existing DH+ network was operating at 97% capacity. As such, and given the site growth, March suggested a robust solution that used new equipment and technologies. This would both resolve the immediate issues by securing the site network but would also futureproof for further expansion
The existing site DH+ network operated at 57.6kb. The new fibre optic ring was developed to operate at 1gb/s (2232% quicker) and allow for network redundancy – should the fibre optic ring break, data can transfer on the reverse loop.
Network boxes adjacent to each of the site PLC’s would be installed with managed ethernet switch nodes in each. The intention was that as site PLC’s are upgraded (and can utilise ethernet/fibre communications protocol), they can be tagged into the adjacent switches.
A deep understanding of the sites and the production process means March can support our client to define project standards and then manage roll out including consultancy, FEED (Front End Engineering Design), development and implementation.
March installed seventeen “network node boxes” housing managed fibre/ethernet switch for future adjacent PLC connection. Sub-fed from the network node boxes were 3 DLR’s (Device Level Rings), each providing a secondary network layer to process areas with multiple PLC’s.
In addition, a fully integrated fibre optic network with multiple appropriate network node points was created. An estimated 4.5 kilometres of fibre optic cable was installed as part of the project.
The addition of local fibre optic connection points for all site PLC’s has allowed other separate projects to go ahead, further enhancing the network infrastructure on site. These projects were on hold awaiting an improved network topology.
Site SCADA speed has improved and become more robust. It will continue to do so as more site PLC’s are upgraded from DH+ communications to fibre optic communications protocol. The client has requested that the designed “network node boxes” as delivered on-site through this project are put forward to become the Thames Water standard.
Security considerations and standards have been achieved by using industrial-managed network equipment, configured as per client protocols.