Wednesday, 20 November 2024

Electronics testing and programming company has new COO.

Peter Fryers is to join the Board of Directors of XTAG® as Chief Operating Officer.

Peter Fryers
Peter Fryers brings extensive strategic business experience gained while working for Motorola Solutions and CMR Surgical. As both a Chartered Engineer and Chartered Manager, Peter brings a wealth of expertise built on his Master’s in Engineering from the University of Cambridge.

Speaking about his appointment, Peter said “I am delighted to join the XJTAG Board and look forward to contributing to its continued success. The company’s dedication to innovation and quality resonates strongly with my values. I have been impressed by XJTAG’s continual growth and with its ongoing investment in client support and new product development. XJTAG has an exciting future with multiple new products being developed and expansion on the horizon.”

Simon Payne, CEO of XJTAG, commented, “We are delighted to welcome Peter to the Board. His knowledge and strategic insight will be invaluable as we continue to drive innovation and expand our global presence."


@XJTAG #TandM

The future of robotics.

The rising potential of human-machine collaborations.

A thought leadership report that looks at the future potential of robotics, resulting in more intuitive, intelligent and interconnected human-machine communications and collaborations has just been published. “The Molex 2024 Robotics Report: How Robotics will Empower Human Potential” contemplates a future where highly advanced robotics systems and multipurpose robots transform fundamental aspects of everyday life — from improving how factories function and students learn to making smart homes more efficient, elevating patient care and other applications.

“As we explore the role of robotics across various industries, it is becoming increasingly apparent that the future will be shaped by the evolving relationship between humans and machines,” said Brian Hauge, SVP and president, Consumer and Commercial Solutions, Molex. “This latest industry report sheds light on a promising future of unprecedented human-machine interactions while underscoring the critical need for enabling technologies and seamless connections between robotics systems and their human counterparts to empower faster, more effective and extremely precise decision making.”

Foundational Technologies Driving Robotics Advancements.
The future of robotics depends in larger part on the continued evolution of core communications and computing technologies that enable autonomous operation in dynamic environments. Topping the list is high-speed connectivity, as robotics systems require low-latency communications and near-instantaneous data transfers to respond with speed and precision. While 5G/6G networks will deliver high bandwidth, low latency communications, it is important to design robotics solutions with multiple connectivity options, including the ability to switch between 5G and Wi-Fi or satellite networks that provide multi-channel redundancy.

Equally important, processing data locally on nearby edge devices ensures uninterrupted, independent operation of robotics systems and robots. With edge computing, for example, these automated solutions can process data instantaneously, which is essential for applications requiring split-second decisions. In most industrial automation or manufacturing environments, robots are always programmed with fail-safe protocols that throttle back power and functionality to a safe operational state if connectivity is disrupted or compromised.

Benefitting from AI/ML and Sensor Fusion Innovations As the biggest engines behind robotic adaptability, advancements in AI and ML are crucial. AI algorithms let robots make informed decisions based on real-time data while adapting quickly to new circumstances, and even predicting future conditions based on past interactions. Through ML, robots can analyze patterns to optimize behavior while increasing efficiency and accuracy by continually learning, adapting and improving performance. Sensor fusion combines data from different sources, such as LiDAR, cameras, along with depth and force sensors, to help multipurpose robots better perceive depth, movement and obstacles in different settings.

Important Factors in Greater Human-Robot Interactions According to Molex’s robotics report, robots that can understand, respond to, and even anticipate human emotional and contextual needs are on the horizon. With Natural Language Processing (NLP), for instance, robots can follow spoken commands, engage in dialogue and adjust actions based on contextual understanding. Additionally, emotional AI enables robots to recognize and respond to emotional cues by analyzing a human’s tone of voice or facial expressions. Molex expects this rise in human-centered interactions to foster a deeper sense of engagement, enabling future robotics systems and autonomous robots to adapt more readily to complex home environments, and take on new roles as personalized educational tutors, indispensable surgery assistants and continuous patient monitors.

With the arrival of Industry 4.0, collaborative robots, or cobots, are gaining traction in handling increasingly complicated duties in industrial settings. Not only can robotics systems and an entire fleet of robots keep production lines running smoothly, but they can also anticipate and fix potential manufacturing bottlenecks while helping engineers design better products. In the future, cobots will redefine precision and personalization in every environment, including operating rooms, classrooms and battlefields.

Critical Enabler of Robotic Transformations Major advances in robotic technologies and greater interaction opportunities will require innovations in connectivity, power management and data processing. Molex’s robust portfolio of resilient and reliable connectors will enable ever-increasing collaboration between humans and machines to support the most demanding applications across diverse industry sectors.


@MolexConnectors @NapierPR #Pauto #Robotics

Support for Ethernet remote I/O modules.

Simplifies cloud connectivity and data sharing across the network.

Acromag’s BusWorks® NT series remote I/O modules now offer a cost-effective solution for Industrial Internet of Things (IIoT) applications. The NT Ethernet I/O modules provide an OPC UA server and MQTT client in addition to the fieldbus protocol stacks (Modbus TCP/IP, Ethernet/IP, and PROFINET). This integrated IIoT functionality offers a standardized data exchange to simplify industrial communication in an increasingly complex environment. Applications for these high-performance Ethernet I/O modules include remote data acquisition, status monitoring, actuator control, predictive maintenance, energy management, and more.

The new OPC UA and MQTT support make data sharing and connecting to the cloud very easy and secure. Users can combine Ethernet protocols with IoT protocols for real time and IoT data transfer over the same network cable. An abstract data object model eliminates hassles with protocol details. The user application simply reads and writes data that is transparently fed into the IoT protocols and information models. Input, output and configuration data objects closely resemble fieldbus I/O tags to simplify data exchanges.

NTE Ethernet I/O models have dual RJ45 ports and a webserver for monitoring or controlling its I/O channels to interface sensors and actuators with system controllers. Each I/O module offers up to 16 input or output signals for voltage, current, temperature, and relay control signals. Connecting up to three NTX expansion I/O modules enables interfacing an additional 48 channels with a mix of I/O functions networked on a single IP address.

“With the addition of OPC UA and MQTT capabilities, NT Series Ethernet I/O modules make data from remote equipment available for sophisticated applications in the cloud or on edge gateways,” explains Robert Greenfield, Acromag’s Director of Business Development.

The NT2000 Series offers a broad variety of I/O signal processing options. Fifteen I/O configurations are available as either NTE Ethernet I/O or NTX expansion I/O models. Analog I/O models feature eight differential or sixteen single-ended inputs for monitoring current or voltage signals. Analog output modules drive eight channels of process current or voltage signals to control various field devices. Discrete I/O models provide 16 tandem input/output channels with either active high/low input and sinking/sourcing output. A six-channel mechanical relay output model is also available. For temperature monitoring, thermocouple and RTD input models support many sensor types, as well as resistance and millivolt ranges. More models will release over the coming months for additional I/O functions.

In addition to the new IIoT protocols, each module will also support all three industrial Ethernet protocols which are selectable using any web browser to configure the network settings and I/O operation. The modules typically function as a network server, but also offer Acromag’s i2o® peer-to-peer communication technology to transfer data between modules directly or multicast without a host or master in between. Conditional logic capabilities let users control operations with IF/THEN/ELSE statements.


@Acromag #PAuto #Comms 

Investment in advanced AI software for rapid production testing of batteries.

Emerson has made a strategic investment through its corporate venture capital arm Emerson Ventures in EECOMOBILITY, a start-up that specialises in advanced battery testing and monitoring software for electric vehicle, energy storage and industrial markets.

EECOMOBILITY builds AI software, rapid battery testing and characterisation systems designed to identify defects that may lead to fires or performance issues. Combining advanced characterisation techniques and AI, their solutions portfolio can be applied at the cell, module or full battery pack level, making the company a key asset in the automotive sector.

“EECOMOBILITY’s AI-driven software for fault detection and battery testing aligns with Emerson's acquisition of NI and growing leadership in test and measurement technologies and expertise across the automotive sector,” said Thurston Cromwell, head of Emerson Ventures and vice president of development and innovation at Emerson. “Our experience in high-volume battery production testing will help accelerate EECOMOBILITY’s product development and market reach, especially in the automotive, energy storage and industrial technology sectors.”

EECOMOBILITY specialises in AI and offers platform-agnostic software that supports both standalone applications and seamless integration into customer solutions, regardless of cloud or hardware infrastructure. The software features rigorously tested, self-learning technology to ensure high speed, accurate results, easy customisation and rapid deployment.

“With this investment from Emerson Ventures and anticipated collaboration with Emerson’s Test and Measurement business, EECOMOBILITY will be better positioned to transform transportation electrification,” said Dr. Saeid Habibi, chief executive officer of EECOMOBILITY. “Given Emerson’s leadership in automation and commitment to sustainability, we are confident their support will help us expand the development and applications of our EECOPower technology, enable strategic partnerships and accelerate our growth.”

Emerson Ventures will co-invest with Automotive Ventures, RISC Capital and a North American OEM (original equipment manufacturer).


@Emerson_News @EmersonExchange @EMR_Automation @HHC_Lewis #PAuto #Canada

Tuesday, 19 November 2024

Energy efficiency across European biorefinery.

ClonBio Group,  the Irish agribusiness company, has announced a multi-year commercial agreement for the Seeq Industrial Analytics and AI platform to be leveraged across ClonBio’s biorefinery assets in Europe and its principal asset in the US to further accelerate digital transformation outcomes.

Through the agreement, ClonBio will implement the Seeq Industrial Analytics & AI Suite to empower its engineering teams to optimize production and improve energy performance across a variety of assets. Initially, the company plans to leverage Seeq to gain a deeper understanding of daily operations at its Pannonia Bio multi-product facility in Hungary, home to Europe’s largest grain biorefinery and largest ethanol production facility. This will enable the company to quickly investigate and discover insights to improve energy efficiency and, ultimately, bottom-line results.

“By leveraging the Seeq platform to provide a holistic view of our time series data sets across assets, the ClonBio team is empowered to collaborate and make the data-backed decisions necessary to drive true digital transformation results, including sustainability progress,” said Ricardo Davi, Division Head of Engineering at ClonBio Group Ltd.

“Continuous improvement plays an essential role in enabling industrial organizations to achieve their business objectives and sustainability initiatives,” said Dr. Lisa Graham, CEO at Seeq. “Seeq is honored to provide our industrial analytics and AI SaaS platform to ClonBio and enable it to leverage its operational data and collective knowledge to drive these efforts.”

Seeq delivers a self-service industrial analytics and AI platform that accesses and leverages vast amounts of historically underused data. By incorporating leading-edge technologies, including AI, machine learning and other capabilities into its platform and leveraging its global partner network, Seeq powers a range of use cases for employees across the enterprise to accelerate digital transformation outcomes such as operational excellence and profitability, workforce upskilling, and sustainability.

IT Vizion, a Seeq-certified partner with deep expertise in the energy industry, is supporting ClonBio’s Seeq implementation, including the prioritization, development, and rollout of use cases to accelerate the company’s time to value with the Seeq platform.


@SeeqCorporation @itvizion #PAuto #Ireland

Display kit bundle.

Immediate availability of a new pre-assembled kit bundle - a Raspberry Pi 5 Board, a 10.1" Capacitive Touch Screen Display, and PowerPRO, a 5.1V Power PCB and USB-C Adaptor designed specifically for the Raspberry Pi 5, has been announced by Inalco Hunter.

The PowerPRO board solves the problem of needing multiple power supplies when integrating the Pi5 with a display. Any additional peripherals can be effortlessly added, consolidating the power management into one convenient hub.

Engineered to streamline the Pi 5 set-up, the PowerPRO is an innovative solution allowing connection of the new Pi 5 to a display using the PowerPRO as the single power source (5v to 18v). Multiple output connections deliver a consistent 6A rating. Inelco Hunter’s new 10.1” TFT (D90101 series) Touch Panel offers a “ready to go” integrated display solution with the Pi 5.

Also included in the kit is a Connector and Cable Accessory Pack and a Mounting Pack for Raspberry Pi board – everything that's needed to get the display up and running. The seamless Pi 5 integration offers an extensive range of application possibilities, such as building management systems, precision in medical laser equipment, efficiency in fleet vehicle tracking systems, or innovation in laser welding equipment.

A versatile range of mounting accessories and cables provides flexibility for placement in various configurations. The PowerPRO features standard RPI mounting hole spacing, and multiple output connections are provided: USB-C, 2.54mm, 6-pin JST. The maximum continuous current is 6A and there is built-in thermal shutdown protection for overcurrent situations. The PowerPRO is UL recognised and RoHS compliant.

The kit offers cost savings compared with purchasing the items individually and is available from the Inelco Hunter warehouse for prompt delivery.


@InelcoHunter @Raspberry_Pi #PAuto

Monday, 18 November 2024

Digitalising manufacturing operations.

New software solution helps manufacturers digitalise and gain insights from data to increase efficiency

Batch Historian, from Honewell, is a software digitalization solution designed to provide manufacturers with contextualized data history for reporting and analytics, leading to more efficient and cost-effective operations. The digitalization of manufacturing operations supports the company's alignment of its portfolio to the automation megatrend.

Manufacturers often encounter complications analyzing data with a lack of batch visualization, which makes it difficult to expand data usage to advanced applications. With Honeywell Batch Historian, manufacturers can now directly capture data with context from batch engines without complex configuration. The new solution leverages simple drag-and-drop tile configuration, eliminating the need for advanced programming skillsets or detailed historian database knowledge to develop reports.

“Honeywell’s full suite of digital manufacturing technologies will help manufacturers improve product quality, regulatory compliance and overall efficiency in order to drive business outcomes,” said Shawn Opatka, Vice President and General Manager of Life Sciences at Honeywell Process Solutions. “Our approach is modular and flexible, helping companies begin their digitalization journey by adopting new technologies as they need them.”

Honeywell Batch Historian supports several industries including specialty chemicals, life sciences, food & beverage, pulp & paper, and mining, materials, and metals (MMM). By leveraging the software, manufacturers can enhance process efficiency and simplify troubleshooting, ultimately improving operational outcomes. The solution’s configuration for batch reporting simplifies the reporting and data analysis process, making it easier for operators to comply with strict industry reporting regulations.

By enabling manufacturers to efficiently capture, analyze, and utilize manufacturing data, this software empowers users to make informed decisions, optimize processes, and drive continuous facility improvement. The software is a standalone application that can be delivered as a module on the Manufacturing Excellence Platform (MXP), or made available as a standard part of every Experion Batch system.


@honeywell @HWusers #Pauto #LifeSciences.