Ethernet switch, Industrial ethernet – ICP DAS USA TDRS4050601 User Manual

Industrial Redundant Ring Switch

– RS Series User Manual

TDRS4050601

5

Ethernet Switch

Ethernet is an ideal medium to transport large volumes of data, at speed, across great
distances. Previously, multiple networks carrying specific protocols were installed side by

side to carry out unique tasks. This inevitably led to project costs increasing as additional

fiber optic or copper cables were installed to deal with the increasing volume of data.

Using Ethernet a single fiber optic cable can carry multiple protocols. Furthermore,

manufacturers are exporting their legacy protocols onto Ethernet, designing new IP
based communication protocols and providing embedded Web-Pages within devices that

offer real-time information using simple tools like Internet Explorer and Netscape

Navigator.

Unfortunately, although network hardware has dramatically increased in speed and

technology over the past decade the poor perception of Ethernet has remained; namely

as being difficult to fault-find and critically being a non-deterministic network. A key
development that overcame some of these issues was the advent of the Ethernet Switch.

Early Ethernet networks were based on a hub or repeater. These units have no

intelligence and therefore are unable to identify any information contained within the

Header frame of an Ethernet packet. This means that it is not capable of determining

which port to send the frame to. Therefore, every frame is sent to every port. A network of
repeaters and hubs is called a „Shared Ethernet‟ or „Collision Domain‟. Various devices
will all compete with each other before sending data using „Carrier Sense Multiple Access
/ Collision Detect‟ (CSMA/CD) protocol. This means that only one system is allowed to
proceed with a transmission of a frame within a Collision Domain at any one time. This is

a major disadvantage when using Hubs and Repeaters within a network.

A switch, like a hub, has to forward and receive packets from one network or device to
another. The switch could forward all packets, but if this was the case it would have

similar behaviour to a hub. It would be more intelligent if the switch only forwarded

packets which needed to travel from one network or device to another. To do this, the

switch must learn which devices or networks are connected to each port. In simplistic

terms; it needs to learn the destination and source ports of each and every packet

received on each individual Switch port. Once learnt, any identically addressed packet
will be automatically be forwarded. With today‟s enhanced processing power the
introduction of a Switch has significantly increase network bandwidth.

Industrial Ethernet

Industrial rated Switches are intended to be installed in both harsh climatic environments
and noisy electrical installations. Such Switches are an excellent example of true

industrial design principles

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very high operating temperatures (down to -30°C and up to 75°C)

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dual input power supplies

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wide DC operating voltages

In Roadside and tunnel applications distances between cabinets with a suitable power
supply can be challenging. Naturally, fiber optic cable is the preferred solution. Using

single mode fiber, runs of up to 85km are possible. Even using standard CAT5e copper

cable the Industrial Switch supports the long cable specification and distances of up to

185m are viable. However, the domain of Ethernet has always been controlled by the IT

department who normally configured office networks with an iron fist and dictated to the

organisation how the network would be designed. Complex network recovery protocols