Food Marketing & Technology - India July 2019 | Page 38

Chainflex cables with cleanroom rating: more reliability with IPA certificate New particle-free Ethernet cables with a 36-month guarantee withstand 24 million stroke test No abrasion, no particles - fully durable. The path to the IPA cleanroom rating is not easy, products have to pass a multitude of tests before they receive the offi cial certifi cate from the Fraunhofer Institute. This is same for igus chainfl ex cables. They have to withstand different conditions in the in-house test laboratory over a longer period of time. igus has developed the CFBUS.LB.045 and CFBUS.LB.049 in order to provide users with cleanroom- compatible Ethernet cables. In the test, they successfully completed over 24 million strokes without failure with just 55mm bend radius. An impressive 21,900 hits are returned when you search for bus problems on the internet. This is amazing, because actually bus technology embodies the progress in automation like no other. How can this be explained? As a rule, companies that use fi eldbus cables today have a clear objective: to combine many sensor cables on fi eld devices into one cable that can be easily and quickly routed to a centralised or decentralised control system. The advantage is that the total cost of ownership (TCO) can be reduced, since an integration of all communication functions into a single network already promises signifi cant savings potential during assembly. For many controllers, however, that remains just a theory, over the entire lifecycle. This is often because they tried to save money in the wrong place, that is with connector and cable. Incidentally, this is not a phenomenon that is only found with classic bus cables: forum posts often reveal connectors and cables as the cause of connection problems for Ethernet cabling, network connections or fi bre optic cables. One solution is to buy preassembled cables. The user who selects these bus systems, keeps the installation costs of their manufacturing plant low and ensures long-term optimal transmission qualities. A positive side-effect when buying harnessed bus cables: the signifi cantly leaner storage and spare parts inventory. However, the theory does not necessarily match the practice: incorrect connectors and cables can delay commissioning or repair. Often all the measuring devices are then “on green”, but nothing happens where something should be moving. The consequence is often the replacement of all systemically relevant components. Because, for many companies this is sometimes more effi cient than troubleshooting - which the igus test laboratory undertakes. The objective was to develop products that precisely exclude these problems during installation and maintenance. In thousands of tests in the in-house laboratory, the engineers test cables in motion and in combination with a large number of plug-in connectors, contacts or core end ferrules for functionality and service life. The result: Several hundred harnessed cables, which are used, for example, in energy chains as the bus cable of the chainfl ex family. Sits, fi ts, has no air - faultless contact Whenever Profi net cables or Ethernet connections are exposed to highly dynamic loads, the link between connector and cable is decisive. Because, the biggest weaknesses are to be found in dynamic applications such as robotic production lines. In order to ensure maximum operational safety and error-free data transmission even after thousands of hours of moving operation, two decisive evaluation criteria are required: fi rst, a cable that does not change its electrical behaviour, even after many millions of movements, which means the defi ned attenuation values and characteristic impedances must not shift too much; second, a faultless contact between connector and cable cores, an exact fi xation of the connector to the system and a snug fi t of the terminal brackets in the plug-in connector. And this is exactly where the problems start in most cases: countless companies offer an almost infi nite variety of bus cable and connector combinations. They all have to work together. And this is where theory Picture PM1819-1 Certifi ed and tested: the new chainfl ex cables CFBUS.LB.045 (CAT5e) and CFBUS.LB.049 (CAT6) with cleanroom approval withstand over 24 million strokes. (Source: igus GmbH) and practice diverge, because statistically this is rather unlikely. igus took up this challenge: it focused on the development of bus cables and their long service life in motion. In addition, the focus was placed on tests involving well-known connector manufacturers, who - in addition to the functional reliability of the electrical connection - also had an optimal coordination to each other’s goal. Relaxed bus pairs ensure safety Numerous tests in the igus laboratory showed that the so-called Insulation Displacement Contact (IDC) brings everything that makes the perfect permanent fi t of a conductor in a connector, if the selected conductors and insulation materials match it. Because, here the insulated conductor is fi rst pressed into a gap. This tapers, whereby its fl anks are designed as a cutting edge. If the conductor and clamp are brought together, the blades cut through the insulation and strike the conductor. As a result, a contact is formed, which, due to the long-term stable cold welding, is gas-tight and therefore does not age. Corrosion by the ingress of oxygen as well as chemical reactions are prevented, as they may occur in automated processes of petrochemistry. Keyword automation: igus knows more than anyone else about global regulatory approval requirements. The many certifi ed components and cables secure companies an uncomplicated entry into the digital world and Industry 4.0 anywhere in the world. The fact that stable systems and secure processes are extremely important for the establishment of Industry 4.0 can also be seen from the growing number of industrial robots in use worldwide. An estimated 2.6 million robots will already be in operation next year, many of them with certifi ed chainfl ex cables. At the same time, these are also examples of a successful combination of cable and bus elements of the CF bus families for Ethernet and Profi net. In order to ensure data transmission over a long period of time and in adverse conditions, the elements were stranded with a particularly short pitch length. In addition, they are protected by a gusset-fi lling extruded TPE inner jacket. This relieves the bus pair mechanically and fi xes the cores in a defi ned position. The combination of design details, IDC technology and precisely fi tting (bus) cable altogether ensures stable data transmission in a manufacturing or industrial process. Here it does not matter whether it is the classic manufacturing process in the automotive industry, or use in the harsh environment of the petrochemical industry or safe handling under cleanroom conditions: the core requirements for a cable can be defi ned in detail by a multitude of confi guration parameters. It starts with choosing the right connectors, their design or the manufacturer, then it goes on to details such as travels and ends up with the choice of specifi c requirements, which in many cases call for certifi cation. Stable processes and compliance with regulatory requirements not only keep the total cost of ownership transparent, but they also keep it within limits.