Engineer monitoring data from an industrial robot
Engineer monitoring data from an industrial robot

ADI at SPS 2021 ADI at SPS 2021

23-25 November

We are leading the digital transformation in smart manufacturing – Visit ADI at SPS

Discover Analog Devices’ cutting-edge technologies and platforms, learn how our products and solutions can enhance and accelerate your digital transformation. Our industry-leading sensing and connectivity solutions are driving the transformation to Digital Industry delivering increased productivity and enhanced efficiency for more sustainable manufacturing. Visit us at booth 5-129, talk with our expert team and gain exclusive insights into how ADI’s market-leading technologies are enabling the transition to smart manufacturing.

Hear What Our Experts Have To Say

Maurice O’Brien : Intelligent Motion Control Accelerating Digital Transformation in Smart Manufacturing

Intelligent motion control is the core building block of smart manufacturing, enabling highly flexible and efficient manufacturing. Digital transformation is being accelerated by the deployment of intelligent, connected assets that share motion insights in real-time, these insights are used to increase productivity and eliminate unplanned downtime. This session will introduce Analog Devices technologies and platforms for intelligent motion control and how we are helping our customers and partners accelerate higher value motion control solutions.

Fiona Treacy: The Connecting Future of Process and Factory Automation with Ethernet-APL/10BASE-T1L

To realize the goal of highly connected, intelligent, and flexible process automation systems, a new frontier in industrial connectivity has emerged. The launch of Ethernet-APL solutions based on the 10BASE-T1L physical layer will provide long reach, robust Ethernet connectivity to edge nodes in remote and hazardous locations. In this talk, ADI will explore the new single pair Ethernet technology and discuss the use cases in Process and Factory Automation applications. By unifying communication across infrastructures, Ethernet connectivity to field devices will increase your productivity and drive efficiencies. Join the conversation to learn how to enabling seamless communication across all hierarchy levels and revolutionize your plant by accessing new data and insights.

Aengus Gorey: Intelligent Management and Mapping of OT Network Space Accelerates Value of IT/OT Convergence

IT/OT convergence creates tension between the OT desire to have a focused network with low “management” intrusion & IT’s need to actively manage network configuration & devices. ADI’s security primitives can augment an OT network’s relatively simple identification mechanism allowing OT networks to better manage & maintain network devices - from device adoption, registration, remote configuration & isolation of unknown devices.

Anders Frederiksen: Autonomous and Safety Sensing Solutions for the Collaborative and Mobile Robotics Market

Global labor shortages and supply chain changes are driving a significant growth in collaborative and autonomous mobile robots. This session will introduce Analog Devices technologies and solutions - such as 3DToF depth sensing and inertial measurement- that will help solve the safety and autonomous sensing challenges in this market space.

Sebastien Christian: Use Cases for AI: AI for Quality Control in Manufacturing

While AI holds significant promise in the advancement of industrial automation, its adoption has been challenged by the ability to deploy AI as a production-grade solution that can scale across the manufacturing environment. One key application where this is changing is in Quality Control for asset manufacturing. AI Quality Control applications such as End-of-Line testing and predicting quality issues before more units are manufactured, are saving manufacturers millions of dollars in scrap, while improving the quality of the products shipped.

AI is enhancing existing quality control solutions by incorporating sensor data, such as vibration and acoustics, and helping to solve the challenge of processing large amounts of this data along with relevant environmental, test and production information, to provide the quality and performance of an asset in real-time, speeding up decision making at the production level, while reducing the burden on quality and manufacturing teams who typically have to analyze large amounts of data to extract conclusive information.

Automotive manufacturing -- specifically, compressor and compressor-based systems -- is one area where AI is having a significant impact on quality control testing of mechanical systems. AI that is capable of creating models specific to each compressor, quickly measuring and processing high bandwidth sensor data during production and providing quality scores that identify suboptimal products provides manufacturers of these assets an enhanced quality control solution that supports testing of a wide range of assets and scales across multiple production lines, further reducing defective and subpar quality assets from being shipped to key customers.

This presentation will provide more insights into AI for Quality Control solutions along with detailed examples where these solutions are being used in production applications.

Review of our Demonstrations

A Complete Ethernet Process Automation Network with 10Base-T1L

Access new data streams, additional process variables, and auxiliary measurements with 10BASE-T1L connectivity from ADI. Featuring the ADIN1100 physical layer devices and the ADIN1100 MAC PHY, see how long reach, robust single-pair Ethernet, is proving a game changer on the road to realizing the Industry 4.0 vision of seamless connectivity. Enabling optimized system power budgets for Field Instrument designs and flexible architectures for Field Switch’s, ADI is extending connectivity to hazardous locations and remote corners of process plants.


Accelerating the Transition to Industry 4.0 with Industrial Ethernet Connectivity

Ethernet-APL: Optimization of Process Automation with Actionable Insights

New Data, New Insights - 10BASE-T1L Connected Edge Sensors Improve Outcomes (PDF)

Industrial Ethernet Solutions

The Connected Factory: Industrial Connectivity Accelerates Industry 4.0

AMR Based High Performance Encoder Technology

This demo shows ADI's latest technology in magnetic position sensing. In most systems this technology can easily replace a standard high performance optical encoder, allowing a more robust design and easier manufacturing process. Due to the technology’s design scalability, ADI delivers a better total cost of ownership, allowing larger assembly tolerances while delivering best in class encoder performance in the end applications.


Dual AMR Motor Position Sensor for Safety Critical Applications

Contactless Angle Position Sensing using AMR Technology

Analog Devices High Precision AMR 360 Degree Angle Sensor

Magnetic Field Sensors

Galileo: Wired Condition Monitoring Over 10BaseT1L

The Galileo condition monitoring platform showcases a new vibration monitoring solution from Analog Devices with 10BASE-T1L single-pair Ethernet connectivity that enables access to asset health and powering the sensors over two wires for distances up to 1 km. The ADXL359 MEMS vibration sensor provides a low power, low noise multi-axis sensing solution and ADIN1110 10BASE-T1L MAC-PHY provides single-pair Ethernet connectivity to a low power processor via a simple SPI interface, removing the need for the processor to have an integrated MAC by providing more flexibility on the choice of processor for edge processing. The combination of the ADXL359 and ADIN1110 will enable new condition monitoring sensors for vibration sensing that are lower power, have a smaller form factor, are remotely powered, and can be deployed in remote, harsh industrial applications.


Condition-Based Monitoring: Complete System-Level Solutions from Sensing to Artificial Intelligence (PDF)

Why MEMS Accelerometers Are Becoming the Designer’s Best Choice for CbM Applications

New Single Pair Ethernet: High Quality Asset Health Insights and Power on Two Wires for Condition Monitoring Applications

Industrial Ethernet Solutions

High Performance Perception Sensing Using 3D-ToF

This demo will showcase ADI’s design structure and capability in ToF Depth sensing that enable and enhance performance for ToF systems and cameras. ADI have developed a new ToF CMOS imaging solution (1 Megapixel), that is enabling a better system solution for a broad range of end imaging applications.

The internal, or global partner network expertise, are offering design service using ADIs sensor solutions, processing, laser drivers, power management, and high- class development tools (software/firmware), that all in all sets a new and faster standard for time-to-revenue.


ToF System Design— Part 2: Optical Design for Time of Flight Depth Sensing Cameras

Analog Devices 3D Time of Flight Development Platform

Analog Devices 3D Time of Flight (ToF)

3DToF Box Dimensioning

Advanced Predictive Maintenance Solutions for Electric Motors

We will demonstrate the ADI OtoSense™ Smart Motor Sensor, a comprehensive hardware and software solution that enables predictive maintenance of electric motors by providing detailed tracking of motor health characteristics. Regular tasks required for reliable operation of industrial electric motors, such as bearing replacement, can be carried out on a planned basis rather than waiting for failure. These capabilities enable operators to forecast and schedule corrective maintenance to minimize disruption in production processes, increase machinery productivity, reduce downtime and maintenance costs, and extend asset life cycles.


World leader in predictive maintenance for electric motors

Making Sense of Sounds, or How Analog Devices’ AI Can Boost Your Machine Uptime

Advanced Predictive Maintenance Software

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