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Advanced Engineering 2021

NEC Birmingham(B40 1NT)

03/11/2021 - 04/11/2021

Join us in our 12th and most important edition to date, as we invite engineers and management from all (more)

Cyber security meets real-time control

Cyber security meets real-time control

An integrated-systems approach to factory automation promises much, but also opens the industrial environment to challenges already familiar in the IT space.

The technologies that comprise what has come to be known as “Industry (or ‘Industrie’) 4.0” have been the subject of much attention, coverage and comment – almost as much, it might be said, as that other overworked expression, “Internet of Things”. Unlike some previous “buzz-word” topics, however, this is not a futuristic, months- or years-away matter but is happening “for real” at impressive, and accelerating, speed.

Factory owners and managers are being driven in this direction by several distinct forces. There is the ever-present demand to increase efficiency and productivity, and set against that is the realisation that the era of low-cost, labour-intensive, offshore (from the Western perspective) manufacturing is drawing to a close. This should not have come as a surprise; in societies that have been industrialising at a faster rate than ever before seen, the personal aspirations of those workforces were sure to follow the same trajectory. Willingness to perform repetitive tasks for low rates of reward quickly disappears. At the same time, the – most welcome – increase in prosperity drives demand for manufactured goods, and for more product versions specific to new markets.

Increasing levels of automation are essential, to meet demands for manufactured goods from established and emerging markets: at the same time, available technologies make feasible an entirely new level of automation, compared to what has gone before. Industry 4.0 promises agile production that delivers greater output, flexible manufacturing that can seamlessly build different product variants without interrupting operations, safe co-working between skilled human operators and tireless robotics (“cobots”), fully instrumented facilities that are immune to shutdowns due to unexpected machine failures, and much more.

The most agile factory equipment manufacturers will thrive in this fast-changing environment, as they develop increasingly connected and intelligent systems which help factories to become more flexible and safer while maintaining security as they extend connectivity.

Semiconductor technology is at the heart of this new generation of industrial automation equipment, providing the processing, control and sensing functions required to operate effectively in connected environments. Semiconductors provide affordable MEMS devices that make pervasive sensing possible and the connectivity that makes the totally-connected factory a reality. They provide the interfaces between the real and the electronic, the analog and the digital domains, and the processing power to make sense, in real time, of the torrents of data thus gathered.

Analog Devices (ADI), which has always thrived at the intersection of the analogue and digital worlds, has a close-up view of the technology changes that new factory automation equipment calls for. Its expertise in the fields of sensing, signal conditioning, digital signal processing, wired and wireless connectivity and software exactly match the challenges that its industrial customers face, enabling it to develop application-oriented solutions that help customers innovate through technology while offering the guaranteed long-term availability of parts vital for the industrial marketplace.

There is now more potential than ever for rich new applications of data analytics, such as machine health monitoring and preventive maintenance. At the same time, the increasing use of programmable hardware and software-defined electronics functions enables rapid reconfigurations of factory processes and tools. So which technologies in the analogue and digital semiconductor worlds are going to enable this new model of factory automation?

The key to machine health monitoring

MEMS sensor technology is enabling the development of new sensor types that are small, robust, able to precisely measure vibration and motion – and deployable in large numbers. For instance, low-noise, wide-bandwidth accelerometers offer the high precision and accuracy required to identify subtle changes in the vibration signature of a machine.

Coupled with sensor analytics software, these devices enable equipment operators to pinpoint the source of a potential failure long before it occurs, and to apply preventive maintenance measures in good time. Sometimes termed condition monitoring, the concept is not itself new, but as with many other aspects of Industry 4.0, mass deployment and universal connectivity open up entirely new ways of working.

Machine health monitoring is an application that is not confined to conventional factory settings. Mobile or remote industrial equipment may use a wireless connection to report diagnostic information and operating status to a central controller. Running on battery power or intermittent power sources such as solar energy, this kind of application requires a very low-power sensing solution.

High-speed connectivity on the factory floor

The proliferation of sensors throughout factories and process plants is generating vast flows of real-time data. Legacy communication protocols between sensor nodes and PLCs, such as 4-20mA control loops, are giving way to ultra-fast industrial variants of the Ethernet protocol, enabling increasing integration of Operational Technology (OT) infrastructure in the factory with Information Technology (IT) in the enterprise. With connectivity comes the need to ensure that the future factory’s networks are secure against attack – see panel “Cyber security….”

OEMs need to future-proof their system implementations, so that they support not only industrial Ethernet protocols in use today, but also the emerging Time-Sensitive Networking (TSN) Ethernet standard, which is likely to become the standard wired networking technology for real-time industrial communications. Analog Devices provides a solution that supports multiple Ethernet protocols without the need for hardware re-design.

Robust, wireless sensor network technologies are also required for connecting sensor nodes in locations that are hard to reach with physical wiring. Wireless network technologies such as SmartMesh and WirelessHart, which are designed to operate in tough IoT applications, provide a proven and high-performance method of connecting industrial automation equipment without wires.

Safety systems for autonomous machines

Autonomous vehicles and ‘cobots’ offer huge scope for widening the application of automation in factories and warehouses. The challenge for industry is to guarantee safety, ensuring that autonomous machines are fully environment-aware. Advanced radar and LiDAR technologies are raising the standard of accuracy and precision in object and proximity detection and 3D mapping applications.

Configurable production processes

The factory of the future must be capable of quick adaptation to new demands and new workflows. The key is to build flexibility into industrial automation technology products at the architecture level. One approach which can support this need for flexibility is ‘software-defined I/O’ which can be configured as analogue or digital, and input or output, without altering wiring. Pushing at the boundaries of today’s technology, Analog Devices already supplies a robust and flexible industrial output solution which enables full software configurability of the analogue output to support a variety of industrial standards.

Integrating analogue, digital and software

The development and production of industrial automation equipment is becoming an increasingly high-tech undertaking, with the every-present pressure to get to market quickly with new, more sophisticated designs.  Analog Devices’ response is to provide customers with an integrated offering, providing market-oriented solutions for applications including, among others, machine health monitoring, high-speed connectivity, safety and security systems.

It will do so by combining analogue, mixed-signal and digital components with firmware and software, enabling automation systems makers to respond rapidly and effectively to the intensifying technological and economic challenges of today and tomorrow.

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