Keywords
Citation
(2003), "Fibre, Ethernet, serial and wireless protocols – which way next for process", Sensor Review, Vol. 23 No. 2. https://doi.org/10.1108/sr.2003.08723baf.001
Publisher
:Emerald Group Publishing Limited
Copyright © 2003, MCB UP Limited
Fibre, Ethernet, serial and wireless protocols – which way next for process
Fibre, Ethernet, serial and wireless protocols – which way next for process
Keywords: Communications, Wireless, Fibre optics
The emergence of Ethernet, together with fibre optic and wireless technologies, is increasing the number of connections available to the operators of process plants. As data integrity is paramount and software re-engineering is expensive, more and more process engineers are now turning to new technology that converts data from one transport medium to another (Table I).
For many years the control strategy of the process industries has been based on serial wiring which was simple to implement. This is why many of today's process products, from chemicals and crisps to oil and textiles, rely on automation using the RS232, RS422 or RS485 protocols.
While serial communications such as these remain hugely important in industrial automation, another technology is rapidly gaining ground. This is the TCP/IP communication protocol, running on Ethernet cabling.
Alongside this new protocol, the automation scene is being further complicated by two other emerging technologies – fibre optics and wireless.
| Convert from | Convert to | Benefits |
| Serial cable | Ethernet cable | Enables greater distance and providesmultiple messaging over one cable. Multipledevices can be monitored centrally. |
| Serial over copper | Serial over fibre | Great for improving distance and speed.Fibre cables are not affected by electro-magnetic interference. |
| Ethernet cable | Multi-mode fibre cable | Speeds up the whole network when network traffic is heavy.Maximum distance about 2km |
| Ethernet cable | Single-mode fibre cable | Enables distances of up to 100km atthe speed of light. |
| Serial output | Wireless serial or Ethernet | Makes equipment easily portable withoutthe need for recabling. Removes wiring tangles. |
Table I Conversion table
Fibre optic cable can transport serial data or TCP/IP data. As fibre optics can send signals over distances, this is a very useful technology for linking process plants and sites that are many kilometres apart. There are also other advantages with this technology. Firstly, huge amounts of data can be sent and received at the speed of light. Secondly, the data travels as light waves and is not affected by the electromagnetic noise that is a particular problem associated with process plants in the utility sector.
Then there are the new wireless technologies. In a way these parallel the ''hardwired'' world and include wireless serial connections such as the much-heralded Blue tooth and also wireless Ethernet.
For process engineers, this produces an increasingly complex range of options at the interfaces where the different systems interconnect. And each combination will have its own particular benefit. For example, a conversion from serial communication using copper cables to serial over a fibre link would be useful where speed and distance are important issues. If a whole process plant network needs speeding up when traffic is heavy and the distance involved is not more than 2 km, then changing from an Ethernet cable to a multi-mode fibre cable would be a sensible option to consider. Choosing a single-mode fibre cable instead would increase the useful distance to 100 km.
A straight swap from a serial cable to an Ethernet cable would enable greater distances and provide multiple messaging over one cable. If the option were to change from a wireless serial link to an Ethernet link, equipment would become more easily portable without the time and expense associated with recabling.
While the options are many and often appear confusing, the process industries are primarily concerned with two issues – data integrity and the cost associated with any re-engineering of its existing software.
This is the driving force behind the development of Digi's range of Connect ware.
More and more process companies are now realising that Connect ware is a vital tool in their automation strategies. It includes a whole range of options for converting from one data transport medium to another while maximising the speed, integrity and benefits from data and control networks. For example, fibre transceivers and converters, serial to Ethernet concentrators, and hubs are available across a wide variety of operating system platforms. These can connect virtually any equipment into a cohesive information and management network for the modern process plant, while at the same time ensuring that the data remains unchanged as it travels from instrument to server.
For more information, please contact: Peter Brearley, Entrix Computing Limited, Lakeview Court, Ermine Business Park, Huntingdon, Cambridgeshire PEI8 6XY. Tel: 01480 414131; Fax: 01480 414134; E-mail: peter@entrix.co.uk; Web site: http://www.entrix.co.uk