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Why next-generation machines are leveraging high-performance networks
• Reduced cabling costs
Ethernet cable is much less expensive than most other cable choices.
• Fewer wiring mistakes
Pre-terminated Ethernet cables are easier to work with—and less prone to wiring mistakes or improper network power design, reducing inefficiencies that result in delayed machine delivery.
• Standardization of infrastructure
Both EtherNet/IP I/O and PROFINET I/O are designed to coexist with other protocols on an Ethernet infrastructure, so machine builders only need to run one Ethernet network to support remote I/O, HMIs, Safety, Motion and SCADA software. “From my experience, 80 to 85 percent of machine builders are using some sort of distributed, networked I/O solution,” says Hughes. “A host of networks are available, and networked I/O solutions are reducing costs. Reducing labor costs remains paramount to an OEM, so they are finding it a lot less expensive to buy a networked product upfront than spend time wiring a non-networked solution afterwards.”
Other factors include material and physical costs. The cost of copper has increased by almost 70 percent in the last two years, making it more expensive to buy wire. The high cost of wire is driving people to remote networked I/O solutions, enabling them to consolidate numerous I/O wires into a single network cable. Furthermore, the ability to use smaller control panels is significant. Larger panels cost more, and all customers are expecting machines to have a smaller footprint with increased functionality to reduce panel size. Reducing the size of control cabinets is less expensive and uses less of a customer’s floor space as well. Many manufacturing facilities are trying to increase equipment density—get more machines into a given space.
“I’ve seen manufacturers reconfigure gigantic plant floors to get a higher density of machines on the floor,” says Hughes. “These manufacturers are expecting builders to reduce the floor space of machines.”
Product Implications
Ancillary to the movement to remote networked I/O platforms are changes
at the product level. For example, there is a shift from motion control
products (e.g., servo systems, variable frequency drives) being
controlled by digital and analog signals to being controlled on faster
motion control networks such as EtherCAT, Sercos or Mechatrolink. This
change in motion technology provides the machine builder with a number
of advantages:
1. Increases the level of machine/motion performance. The coordinated
motion control that can be accomplished by using a motion control
network allows the machine builder to create a machine with greater
throughput capabilities, as well as reduce product scrap during machine
startup. Greater machine throughput can be achieved with coordinated
motion control over EtherCAT. For example, this Ethernet-based network
is capable of updating 40 motion axes in 276 microseconds with
repeatability of synchronization within one microsecond.
2. Provides better diagnostics. When motion control products are on a
motion network, any warnings, errors, or other anomalies can be
communicated in real time to a local operator, supervisor, maintenance
personnel, or other individuals responsible for machine operation and
upkeep. This notification can be as simple as a message on a local HMI
to an email or text message. Also, if the machine is connected to the
Internet, the machine builder can access their machine from anywhere in
the world. This allows the machine builder to remotely observe a
problem in real time, and even take corrective action from a remote
location.
3. Enables faster setup. Network configuration is streamlined through
automatic node identification, while multiple remote axes are made much
easier to commission, as there is no longer a need to walk around the
machine to plug and unplug cables. Saving the configuration after tuning
each node is now a much faster process.
Positive Factory Level Ramifications
One market segment where the above movements are particularly
pronounced is automotive, where Tier One and Tier Two suppliers are
responding to changes in demand. As the economy continues to recover,
these suppliers are seeing an increase in production volume. During the
economic collapse, major automotive manufacturers slowed down production
considerably; it didn’t cease, but their pre-buying from suppliers
dropped remarkably. Now, orders are increasing significantly.
Another key indicator is the packaging industry, where machine builders are under constant demand for cost reduction on machinery. Upfront costs between distributed I/O solutions and traditional direct-wired ones are scrutinized since hardware for distributed solutions is perhaps a bit more expensive, but manufacturing costs drop considerably to tip the scale in the direction of distributed I/O.
“Among machine builders, we see a reduction of 10 to 15 percent in their cost to manufacture and ship equipment when using distributed I/O and intelligent control of motion products,” says Hughes.
Numbers such as these will undoubtedly fuel the growing momentum for high performance in industrial automation.
Notes:
1. Morse, John (2011) “Industrial Ethernet—Users Have Their Say,” Industrial Ethernet Book, Issue 64/40.
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