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How Vibration Monitoring Enhances Machinery Life and Factory Automation

30 Jan
13

Predictive Precision: How Vibration Monitoring and Targeted Maintenance Extend Machinery Life Predictive Precision: How Vibration Monitoring and Targeted Maintenance Extend Machinery Life

Maximizing Machinery ROI Through Predictive Maintenance

Rotating equipment, including pumps, compressors, turbines, and gearboxes, represents a major capital investment for manufacturers.Industrial automation systems such as PLCs, DCS, and factory control systems can leverage vibration monitoring to reduce unplanned downtime. Predictive maintenance driven by vibration data prolongs equipment life and lowers operating costs.

Limitations of Traditional Maintenance Approaches

Traditional strategies like run-to-failure and routine preventive maintenance can be costly and inefficient.Run-to-failure risks cascading damage to machinery, while preventive schedules often lead to over-maintenance. Both approaches limit equipment longevity and increase operational costs, particularly in automated factory environments.

Condition-Based Maintenance with Vibration Monitoring

Vibration monitoring enables maintenance teams to act at the right time, targeting interventions only when needed.By using sensors and handheld analyzers, teams can monitor machinery continuously or periodically, detecting early warning signs and planning maintenance during scheduled downtime. This approach optimizes PLC and DCS-controlled processes and reduces unnecessary interruptions.

Tailoring Strategies for Different Components

Not all machinery components require identical monitoring approaches. High-value assets like steam turbines or critical pump bearings benefit from continuous monitoring, while less critical equipment may only need periodic checks.Industrial automation teams should align vibration strategies with equipment criticality, failure history, and operational conditions for optimal ROI.

Getting Started with Vibration Monitoring Programs

Effective implementation requires understanding both equipment needs and team capabilities.Companies can start small with targeted sensors, outsourcing analysis if in-house expertise is limited. Training programs, both online and in-person, can upskill teams in vibration data interpretation and predictive maintenance practices.

From Data to Actionable Maintenance Insights

Vibration monitoring provides actionable insights beyond basic trend analysis. Experienced teams can identify issues such as imbalance, misalignment, looseness, and bearing defects.Addressing these problems early prevents costly repairs, maintains machine alignment, and ensures control system performance in automated production lines.

Realizing Long-Term Benefits for Industrial Automation

Condition-based maintenance powered by vibration monitoring reduces unplanned failures, lowers maintenance costs, and maximizes production uptime.Integrating vibration data into factory automation systems enhances predictive maintenance capabilities, improves operational efficiency, and increases the lifetime of critical machinery components.

Practical Applications and Solution Scenarios

  • Factory Automation: Use vibration sensors with PLC and DCS systems to optimize production and prevent downtime.
  • Rotating Machinery: Monitor pumps, compressors, and turbines to extend service life and reduce emergency repairs.
  • Predictive Maintenance: Apply condition-based maintenance strategies for cost savings and operational efficiency.
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Categories: News

U.S. Machinery Orders Show Strong Yearly Growth Amid July Slowdown

29 Jan
16

Machinery Orders Dip Against Stronger Year-Over-Year Gains Machinery Orders Dip Against Stronger Year-Over-Year Gains

July Machinery Orders Dip, Yet Year-Over-Year Gains Remain Strong

New U.S. orders for metalworking machinery totaled $387.3 million in July 2025, marking a 9.5% decrease from June but a 20.1% increase from July 2024.Industrial automation, including PLCs, DCS, and factory control systems, continues to drive capital equipment demand. Despite a monthly slowdown, manufacturers are investing in automation to improve productivity and operational efficiency.

Year-to-Date Machinery Orders Maintain Momentum

Through July 2025, cumulative machinery orders reached $2.91 billion, a 14.4% increase compared to the same period in 2024.This sustained growth demonstrates robust industrial automation adoption, especially in factories and metalworking facilities where automation enhances production precision and process control.

Order Values vs. Units: Automation Remains Key

Although the total order value is nearly 20% above a typical July, the number of units ordered fell 13% below average.This indicates that manufacturers are increasingly investing in high-value automation systems and factory control technologies rather than simply increasing unit counts. Such trends highlight the ongoing importance of digital solutions and control systems in industrial automation.

Sector Analysis: Contract Shops and Agriculture

Orders from contract machine shops fell nearly 14% from June but rose slightly under 10% from last year, signaling early signs of softness in the largest customer segment.Meanwhile, agricultural equipment manufacturers have shown declining orders since April 2025. However, recent announcements, such as John Deere’s expansion in U.S. operations, suggest potential order upticks in the coming months. These trends impact supply chains for industrial automation components and factory control systems.

Economic Outlook and Automation Investment

Despite expectations of a potential Federal Reserve rate reduction, forecasts predict slowing industrial activity in late 2025. This could soften capital equipment purchases, particularly for automation machinery.Industry conferences, including AMT’s MTForecast (Oct. 15–17, Schaumburg, Illinois), will explore potential downturns and highlight sectors where automation investment and factory upgrades remain strong opportunities.

Expert Insights: What Machinery Orders Reveal About Automation Trends

The divergence between order value and unit numbers reflects a shift toward intelligent, high-tech industrial automation systems. Manufacturers increasingly prefer investing in PLCs, DCS, robotics, and smart factory technologies that enhance process efficiency and reduce downtime.As a result, understanding machinery order trends provides early insights for automation vendors, factory integrators, and industrial operators seeking strategic investment opportunities.

About the USMTO Report

The United States Manufacturing Technology Orders (USMTO) Report aggregates real orders from participating companies, covering domestic and imported machine tools and equipment. This report serves as a leading economic indicator, reflecting manufacturing capacity expansion and technology adoption.

About AMT and IMTS

AMT–The Association For Manufacturing Technology represents U.S. manufacturers of advanced machinery, automation, robotics, and digital equipment. It also organizes IMTS, North America’s premier manufacturing technology show, attracting global exhibitors and attendees to explore innovations in CNC machining, factory automation, and industrial IoT solutions.

Practical Application Scenarios

  • Factory Automation: Leverage rising machinery order trends to integrate PLC and DCS systems for higher productivity.
  • Predictive Maintenance: Upgrade machinery with sensors and automation to reduce downtime and improve process control.
  • Smart Manufacturing: Use market insights to plan automation investments and optimize production lines.
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Categories: News

Tronics Microsystems Expands into Industrial Vibration Monitoring for Smart Factory Automation

27 Jan
17

TDK Announces Tronics Is Entering Machine and Asset Health Monitoring Market With Vibration Sensor Solutions TDK Announces Tronics Is Entering Machine and Asset Health Monitoring Market With Vibration Sensor Solutions

Driving Digital Transformation with Industrial Vibration Sensors

TDK Corporation’s subsidiary, Tronics Microsystems, is entering the vibration sensor market for industrial automation and asset health monitoring. The company leverages decades of MEMS inertial sensor expertise to deliver high-precision vibration solutions for predictive maintenance and process monitoring.Vibration monitoring enhances factory automation and control systems, enabling real-time condition tracking, early fault detection, and improved operational reliability. This development strengthens digital transformation across industrial, energy, and transportation sectors.

Mission and Vision Focused on Precision and Condition Monitoring

Tronics aims to provide MEMS-based inertial and vibration sensor solutions for accurate motion sensing, positioning, navigation, and industrial asset monitoring.Its vision is to accelerate digital transformation by delivering smart, data-driven sensors that integrate seamlessly into industrial automation, PLC, and DCS systems. These sensors allow companies to optimize factory automation, reduce downtime, and enhance energy efficiency.

From MEMS Motion Sensors to Vibration Monitoring

For over 20 years, Tronics has delivered high-performance inertial MEMS sensors for aerospace, rail, and energy applications. Building on this experience, the company now offers vibration sensors designed specifically for industrial process and asset monitoring.Rather than using basic off-the-shelf accelerometers, Tronics engineers innovative MEMS vibration solutions with precision and reliability equal to its inertial sensor line. These products address the growing demand for condition-based maintenance and predictive monitoring.

First-Generation Vibration Sensors for Industrial Automation

Tronics is finalizing its first-generation vibration sensor solution. The sensors enable manufacturers to implement highly accurate predictive maintenance, quality control, and process optimization strategies.By integrating these sensors into PLC, DCS, and other control systems, factories can enhance automation reliability and reduce unplanned downtime. As a result, operational efficiency improves while maintenance costs decrease.

Industry Showcases and Technology Demonstrations

Tronics will demonstrate its vibration sensor solutions at electronica India (September 17–19, Bengaluru, TDK booth D01, Hall 3) and SPS–Expo (November 25–27, Nuremberg, TDK booth 334, Hall 10).Innovation Marketing Manager Emmanuel Bercier will present real-world applications, showcasing how smart IoT sensors improve machine health monitoring and factory automation processes. These live demonstrations offer industrial operators and integrators a practical view of the technology’s potential.

Author Insights: Transforming Industrial Automation

The entry of Tronics into vibration monitoring is a strategic move that complements industrial automation and factory control systems. By providing high-precision MEMS sensors, factories gain actionable insights for predictive maintenance and process optimization.Moreover, integrating vibration data with PLCs, DCS, and IoT platforms enables smart automation solutions. This trend is critical for manufacturers seeking to enhance equipment reliability, optimize production lines, and reduce energy consumption.

Practical Applications and Use Cases

  • Factory Automation: Integrate vibration sensors with PLCs and DCS for real-time condition monitoring and predictive maintenance.
  • Energy Systems: Monitor turbines, motors, and transformers to prevent failures and optimize operational efficiency.
  • Industrial IoT: Enable data-driven decisions for smart manufacturing and digital twin applications.

About Tronics Microsystems

Tronics Microsystems, a TDK Group company, specializes in MEMS inertial sensors for motion, positioning, navigation, and condition monitoring. Founded in 1997 in Crolles, France, Tronics operates EN 9100-certified MEMS wafer fabs, assembly, and test facilities. The company provides accelerometers, gyroscopes, vibration sensors, and MEMS foundry services for industrial, transportation, and energy markets.

About TDK Corporation

TDK Corporation, headquartered in Tokyo, Japan, has been a global technology leader for over 90 years. Its products include advanced sensors, energy solutions, and electronic components. Through innovation and sustainability, TDK enables digital transformation and smarter industrial automation worldwide.
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Categories: News

NEMA and Industry Leaders Propose Tariff Incentives to Boost U.S. Industrial Automation and Energy Infrastructure

26 Jan
30

NEMA and Allied Associations Release Tariff Incentive Proposal NEMA and Allied Associations Release Tariff Incentive Proposal

Strengthening Domestic Production in Electrical and Automation Systems

The National Electrical Manufacturers Association (NEMA), together with key industry associations representing data centers and electrical infrastructure, has introduced a strategic tariff incentive proposal. This plan aims to accelerate domestic manufacturing, industrial automation, and energy infrastructure development, keeping U.S. industries competitive in energy and AI sectors.Industrial automation technologies—including PLCs, DCS, and factory control systems—play a vital role in supporting grid upgrades and expanding data center capacity. Producing these systems domestically enhances reliability, reduces supply chain risks, and aligns with national energy objectives.

Tariff Incentives for U.S. Manufacturing Investments

NEMA’s framework offers targeted tariff offsets for capital investments in domestic manufacturing facilities. Companies expanding or establishing new plants can receive relief for up to three years after operations begin.This approach directly supports manufacturers of industrial automation equipment, including programmable logic controllers (PLCs) and distributed control systems (DCS). As demand for automation rises, these incentives ensure operational continuity and financial stability.

Advancing Grid Infrastructure for Automation Systems

The proposal includes tariff reductions for essential power infrastructure materials and equipment. Covered items include substations, distribution networks, on-site generation units, and electrical systems for data centers.With U.S. energy demand expected to rise by 50% by 2050, modernizing the grid with domestically produced components strengthens industrial automation reliability. This approach reduces reliance on imported materials, enabling seamless deployment of factory control systems and automation networks.

Encouraging Domestic Content in Automation Equipment

NEMA emphasizes rewards for products meeting federal domestic content requirements. Manufacturers producing control systems and automation hardware in the U.S. benefit from additional tariff offsets.This strategy encourages onshoring critical PLCs, DCS modules, and control components, enhancing long-term competitiveness while supporting industrial policy objectives.

Industry Endorsement and Stakeholder Support

Key stakeholders, including data center operators, electrical contractors, and distributors, strongly support the initiative. Josh Levi, President of the Data Center Coalition, noted that predictable tariffs accelerate the construction of digital infrastructure and automation deployments.NECA CEO David Long added that aligning tariffs with domestic investment ensures timely project delivery and reliable integration of industrial automation systems. NAED also highlighted that this approach maintains a steady supply of components vital to factories, data centers, and energy systems.

Author Insights: Implications for Industrial Automation

These tariff incentives could reshape the U.S. industrial automation landscape. By lowering costs for domestic production, manufacturers can expand PLC, DCS, and factory control deployments more rapidly.Moreover, linking trade policy with energy and automation priorities fosters innovation in AI-enabled control systems, predictive maintenance, and smart grid technologies. Companies investing in automation now can secure faster ROI and stronger supply chain resilience.

Practical Applications and Use Cases

  • Data Centers: Domestic production of electrical distribution systems and control modules shortens construction timelines.
  • Factory Automation: Manufacturers gain tariff relief on PLCs and DCS modules, reducing operational costs.
  • Grid Modernization: Onshored substations and automation components support resilient, AI-enabled power distribution.
 
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Categories: News

myNORD Digital Platform Simplifies Drive Ordering for Industrial Automation Professionals

22 Jan
18

Drive Selection and Ordering Are Fast and Easy With myNORD Online Tools Drive Selection and Ordering Are Fast and Easy With myNORD Online Tools

Digital Ordering Tools for Industrial Automation

On September 5, 2025, NORD DRIVESYSTEMS highlighted ongoing investments in digital customer solutions. Through the myNORD online portal, NORD enables faster, clearer, and more efficient purchasing for industrial automation projects. Therefore, engineers, buyers, and service teams can manage drive ordering with greater confidence and transparency.

myNORD as a Central Hub for Factory Automation

The myNORD portal has evolved into a full e-commerce environment serving more than 26,500 users worldwide. It provides continuous access to customer data, unit documentation, and sales support. Moreover, the platform supports collaboration across teams involved in factory automation, control systems, and drive engineering.

Advanced Product Search and Configuration Tools

The Product Search Tool helps users identify suitable drives using parameters such as input power, output speed, and torque. As a result, selecting motors, gear units, and drive electronics becomes faster and more accurate. The configurator includes plausibility checks that automatically adjust available options, reducing configuration errors in PLC- and DCS-based systems.

Dashboard Visibility Improves Project Efficiency

The myNORD Dashboard offers a clear overview of recent quotes, configurations, and order history. Users can configure drives for new factory automation projects or quickly replace existing units. In addition, completed configurations can be converted into formal quotes with account-specific pricing and shared internally for review.

Integrated Documentation and Technical Support

myNORD allows direct access to operating manuals, spare parts lists, certificates, and 2D or 3D drawings. Documentation retrieval works through serial numbers, order numbers, or QR codes. Moreover, users can contact NORD support directly through the portal, which improves response times during commissioning or maintenance.

Fast and Accurate Spare Parts Ordering

The Spare Parts Shop within myNORD supports online ordering of motors, gear units, frequency inverters, and replacement components. Registered users benefit from free standard shipping on portal orders. Therefore, maintenance teams can reduce downtime by sourcing parts quickly and verifying availability across U.S. facilities.

Unit Identification Enhances Maintenance Accuracy

The Unit Identification tool displays interactive diagrams with complete bills of materials. Users can select parts, review pricing, and confirm ship dates before ordering. As a result, spare parts planning becomes more reliable for industrial automation and control system maintenance.

Continuous Platform Development and ERP Integration

NORD continues to enhance myNORD with new features and design improvements. Planned updates include real-time product availability and tighter ERP integration. Moreover, these improvements aim to accelerate order processing and support authorized service and sales partners more effectively.

Author’s Perspective on Digitalization in Drive Technology

From an industry perspective, platforms like myNORD reflect a broader shift toward digital procurement in industrial automation. Engineers increasingly expect configuration accuracy, transparent pricing, and fast documentation access. Therefore, integrated tools that link drive technology with factory automation workflows deliver measurable operational value.

Application Scenarios and Practical Use Cases

Typical use cases include configuring decentralized drives for conveyor systems, sourcing spare parts for variable frequency drives, and downloading drawings for control system integration. As a result, myNORD supports the full lifecycle of drive systems, from design through operation and maintenance.
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Categories: News

What to Expect at the 2025 ISA Automation Summit & Expo: Industrial Automation, OT Security, and Practical Innovation

20 Jan
27

What to Expect at the 2025 ISA Automation Summit & Expo What to Expect at the 2025 ISA Automation Summit & Expo

Industrial Automation Leaders Gather at ISA ASE 2025

From October 5–7, 2025, the International Society of Automation will host the 2025 ISA Automation Summit & Expo at Disney’s Coronado Springs Resort in Lake Buena Vista, Florida. This annual event brings together professionals focused on industrial automation, control systems, and industrial cybersecurity. Therefore, it serves as a strategic meeting point for engineers, plant managers, and OT security leaders.

A Program Designed for Operational Excellence and OT Security

The 2025 program targets real operational challenges across factory automation and process industries. Sessions address safety, compliance, and resilience in modern control systems. Moreover, the agenda reflects growing concerns around PLC, DCS, and ICS/OT security as digital transformation accelerates across industrial environments.

The ISA Expo: From Automation Concepts to Production Floors

A core highlight is the ISA Expo, delivered in partnership with the ISA Tampa Bay Section. The Expo features 74 automation vendors showcasing solutions for both discrete and process manufacturing. As a result, attendees can see how industrial automation technologies move from design concepts into live production use.

Exploring Control Systems, AI, and IT/OT Convergence

On the Expo floor, vendors demonstrate advanced process control, edge analytics, and AI-assisted diagnostics under realistic conditions. In addition, exhibitors highlight IT/OT convergence, ISA standards–based solutions, and reliability technologies. These demonstrations help visitors evaluate how modern control systems perform beyond theoretical use cases.

Student Simulation Showdown and Workforce Development

The Student Simulation Showdown introduces an immersive VR experience focused on critical infrastructure scenarios. This interactive environment connects students with industry professionals. Moreover, it supports workforce development by simulating real operational incidents and collaborative problem-solving in industrial automation contexts.

Keynote Sessions Shaping the Future of Automation

The keynote program connects strategic vision with practical execution. Speakers address innovation, emerging threats, and leadership in automation and cybersecurity. Notable keynotes include Douglas Hurley of NASA and Tom Liston of Bad Wolf Security. Therefore, attendees gain perspectives spanning aerospace innovation and real-world OT security threats.

Industry Voices from Global Enterprises

Additional speakers represent organizations such as Lockheed Martin, Shell, Amazon, Eli Lilly, and Walt Disney World. Their sessions link macro trends like AI adoption with daily realities in factory automation, workforce training, and secure system deployment. As a result, discussions remain grounded in operational experience.

Honors and Awards Gala Recognizing Automation Excellence

The ISA Honors and Awards Gala celebrates professional achievement across engineering, education, and leadership. Held on October 6 at Pandora – The World of Avatar in Disney’s Animal Kingdom, the event honors ISA Fellows, award recipients, and scholarship winners. This recognition reinforces the profession’s commitment to technical excellence and mentorship.

ICS4ICS Workshop: Practical Cyber Defense for Industry

The ICS4ICS workshop focuses on hands-on incident response for industrial control systems. Participants practice using a structured framework aligned with real plant scenarios. Moreover, attendees leave with templates and assessment tools to strengthen OT cybersecurity programs within their own organizations.

Author’s Perspective: Why ASE 2025 Matters

From an industry standpoint, ISA ASE 2025 reflects a shift toward applied knowledge over theory. Automation leaders increasingly demand actionable insights across PLC, DCS, and cybersecurity domains. Therefore, events that combine technical depth with real-world experience deliver the highest value for industrial teams.

Application Scenarios and Practical Outcomes

Typical takeaways include improved incident response planning, clearer IT/OT integration strategies, and better vendor evaluation for factory automation projects. As a result, organizations can translate conference insights into safer operations, stronger control systems, and measurable performance gains.
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Categories: News

Wauseon Machine and Kawasaki Robotics Demonstrate Advanced Tube Forming Automation at FABTECH 2025

19 Jan
15

Wauseon Machine, Kawasaki Robotics to Showcase Tube Forming Products at FABTECH 2025 Wauseon Machine, Kawasaki Robotics to Showcase Tube Forming Products at FABTECH 2025

Industrial Automation Collaboration at FABTECH 2025

On September 5, 2025, Wauseon Machine, Inc. announced its participation at FABTECH 2025 in Chicago. From September 8–11, visitors at FABTECH will see how industrial automation and tube forming integrate seamlessly. At booth #B15001 in McCormick Place, Wauseon Machine will present a live solution developed with Kawasaki Robotics.

Factory Automation Meets Tube Forming Technology

This joint showcase highlights how robotic automation supports modern tube forming processes. The system demonstrates flexible production for high-mix, variable-volume manufacturing. Therefore, manufacturers can respond faster to changing orders while maintaining consistent quality. The solution reflects current factory automation trends across PLC, DCS, and integrated control systems.

Flexible Automation for High-Mix Manufacturing

The automation cell focuses on adaptability and collaborative operation. Operators can manage multiple part types with minimal changeover time. Moreover, the system supports stable throughput without sacrificing precision. Such flexibility aligns with Industry 4.0 goals, where smart control systems enable efficient resource utilization.

Combining Robotic Expertise and Process Know-How

Kawasaki Robotics contributes advanced industrial robots known for accuracy and reliability. Meanwhile, Wauseon Machine applies decades of tube forming and turnkey automation experience. As a result, the combined solution addresses real-world challenges in automotive, HVAC, and industrial equipment manufacturing. This partnership demonstrates how automation integrators and robot manufacturers can jointly reduce integration risk.

Live Demonstrations and Practical Insights

Visitors to booth #B15001 can observe live demonstrations and discuss system design with engineering specialists. In addition, experts will explain how control systems coordinate robots, forming tools, and safety devices. These discussions provide practical insight into deploying industrial automation on the factory floor.

About Wauseon Machine

Founded in 1983, Wauseon Machine began as a contract machine shop and evolved into a full-service automation partner. The company now offers tube forming technologies, precision machining, fabrication, and integrated control systems. With facilities in Ohio and South Carolina, Wauseon Machine supports North American manufacturers seeking reliable automation solutions.

Author’s Industry Perspective

From an automation standpoint, partnerships like this reflect a broader shift toward modular, scalable factory automation. Manufacturers increasingly demand systems that balance robotics, PLC-based control, and human collaboration. Therefore, demonstrations at FABTECH provide valuable benchmarks for companies planning automation upgrades or new production lines.

Application Scenarios and Use Cases

A typical application includes automated tube loading, robotic forming, and in-line inspection managed through centralized control systems. Such solutions improve repeatability, reduce labor strain, and support data-driven production monitoring. As a result, manufacturers gain higher efficiency while maintaining process control and product quality.
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Categories: News

NEMA Strengthens Industrial Automation Leadership with Four New Members

17 Jan
16

NEMA Welcomes Four New Members, Elevating Electroindustry Leadership in the Manufacturing Sector NEMA Welcomes Four New Members, Elevating Electroindustry Leadership in the Manufacturing Sector

Expanding Membership to Enhance Industrial Automation Influence

The National Electrical Manufacturers Association (NEMA) welcomed four new members, expanding its network of over 300 companies. These members contribute to the reliability and efficiency of industrial automation, PLC, DCS, and control systems across manufacturing, energy, and transportation sectors.

Hyosung HICO: Driving Reliable Power Infrastructure

Hyosung HICO, Ltd. joins NEMA as a key manufacturer of high-voltage transformers and T&D equipment. Their solutions support safe, efficient electric grids, including energy storage, flexible AC transmission systems, and gas-insulated switchgear. For industrial automation and factory control systems, such infrastructure ensures uninterrupted power delivery and operational stability.

Milwaukee Tool: Innovating Industrial and Construction Tools

Milwaukee Tool, known for heavy-duty power tools and lithium-ion battery technology, strengthens NEMA’s influence in industrial automation. Their products enhance productivity, safety, and reliability for manufacturing and maintenance professionals, providing robust support for automated production lines and factory automation applications.

SWARCO McCain: Advancing Smart Mobility and Traffic Control

SWARCO McCain produces advanced traffic control systems, including controllers, signals, and smart signage. These solutions optimize transportation safety and flow, integrating with industrial IoT and automated monitoring systems. Their expertise highlights the growing intersection of infrastructure automation and industrial control technologies.

Integrated Power Services: Enhancing Electrical System Reliability

IPS, Inc. joins NEMA as an associate member, offering comprehensive services for critical electrical infrastructure. Through in-shop manufacturing, engineering, and field support, IPS helps maintain system reliability. Their capabilities are particularly relevant for industrial control systems, PLC networks, and factory automation maintenance.

Leadership Insights: Driving Electrification and Industrial Standards

NEMA’s expanded membership underscores a broader trend toward electrification and smart industrial systems. As more manufacturers adopt PLC, DCS, and automated control solutions, collaboration among industry leaders becomes essential for advancing standards, improving reliability, and supporting sustainable energy and automation initiatives.

Strategic Impact for Industrial Automation

By welcoming Hyosung HICO, Milwaukee Tool, SWARCO McCain, and IPS, NEMA strengthens its role in industrial automation innovation. Members benefit from shared expertise in power systems, control technologies, and manufacturing automation, while promoting safer, smarter, and more resilient industrial infrastructures.

Application Scenarios

  • Factory Automation: Leveraging Milwaukee Tool and IPS technologies for reliable production line operations.
  • Energy and Grid Systems: Hyosung HICO’s transformers and T&D equipment support industrial PLC and DCS systems.
  • Smart Traffic and Infrastructure Automation: SWARCO McCain solutions integrate with automated monitoring and industrial IoT.
  • Maintenance and Lifecycle Management: IPS services ensure consistent uptime for industrial control and automation systems.
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Categories: News

ISA100 Wireless: Expanding Industrial Automation Applications with Reliable Field-Level Connectivity

15 Jan
19

ISA100 Wireless: Mature Technology Expands Its Application Portfolio ISA100 Wireless: Mature Technology Expands Its Application Portfolio

ISA100 Wireless: A Mature Industrial Standard

Since 2005, the ISA100 Committee has developed standards for wireless industrial automation, focusing on field-level control and monitoring. ISA100.11a addresses low-energy field devices, tolerating latencies around 100 ms while supporting mesh, star, and hybrid network topologies. This flexibility enables robust Industrial Internet of Things (IIoT) applications and scalable factory automation.

Global Recognition and Standardization

ISA100 Wireless gained ANSI approval in 2012 and international recognition as IEC 62734 and EN 62734 in 2014. As the only IPv6 over Low-Power Wireless Personal Area Network (6LoWPAN) protocol for industrial automation, it remains a stable and mature technology. Its longevity demonstrates reliability, interoperability, and suitability for critical control systems.

Expanding Safety-Critical Applications

Recent developments have broadened ISA100 Wireless use to safety-critical systems, including gas detection, corrosion monitoring, and valve control. SIL2-certified field devices ensure mission-critical reliability. Combining process control with wireless safety applications offers manufacturers enhanced flexibility while meeting stringent industrial standards.

Modern Integrations: BLE, OPC-UA, and PA-DIM

ISA100 now supports Bluetooth Low Energy (BLE) and OPC-UA, providing efficient device configuration and seamless data access. Integration with PA-DIM and IPv6 improves network identification, transport, and cybersecurity. As a result, ISA100 facilitates real-time monitoring of devices such as steam traps, PRVs, and gas detection systems while maintaining industrial-grade reliability.

Comparing ISA100 Wireless and WirelessHART

While both ISA100 and WirelessHART serve industrial wireless needs, key differences exist. WirelessHART primarily supports non-time-critical monitoring using mesh networks. ISA100, however, offers multi-protocol tunneling (Modbus, OPC, Profinet/ProfiSafe), full latency control, and redundancy. This enables SIL2-level safety communication and integration with modern DCS and control systems.

ISA100 versus Other Wireless Technologies

ISA100 complements other protocols rather than directly competing. LoRa excels at long-range, low-power monitoring but lacks real-time control. BLE suits short-range device provisioning and edge data collection. Wi-Fi provides high bandwidth but lacks determinism. Emerging 5G networks offer promise for private industrial networks but are still in early adoption. ISA100’s strength lies in mission-critical reliability and multi-protocol flexibility, making it ideal for complex industrial automation environments.

Market Insights and Adoption Trends

ISA100 adoption has grown significantly in recent years, especially in safety and predictive maintenance applications such as vibration and corrosion monitoring. Manufacturers increasingly integrate ISA100 Wireless with factory automation, PLCs, and DCS systems to optimize processes, reduce downtime, and ensure compliance with international safety standards.

Author Insights: Why ISA100 Matters

From an industrial automation perspective, ISA100 Wireless bridges legacy instrumentation with modern IIoT solutions. Its reliability, flexibility, and standards compliance make it an essential tool for engineers seeking scalable, secure, and interoperable wireless networks. Companies adopting ISA100 can achieve faster deployment, improved safety monitoring, and better data-driven decision-making.

Applications and Use Cases

  • Gas Detection: SIL2-certified ISA100 devices ensure safety in chemical plants and refineries.
  • Corrosion Monitoring: Real-time wireless sensors help prevent equipment failure and downtime.
  • Valve Control: Integrated with DCS, ISA100 enables remote control of critical process equipment.
  • Predictive Maintenance: Wireless vibration and pressure monitoring improve maintenance scheduling.
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Categories: News

Trilogic Systems Expands Industrial Automation Capabilities with New Iowa Facility

15 Jan
16

Trilogic Systems Establishes New Facility to Meet Systems Integration Demands Trilogic Systems Establishes New Facility to Meet Systems Integration Demands

New Systems Integration Facility Supports Advanced Industrial Control Systems

Trilogic Systems, a leader in embedded computing for industrial automation, defense, and aerospace, has inaugurated a new integration facility in Iowa. This site focuses on high-mix, low-to-medium volume production, supporting modern PLC, DCS, and factory automation programs. By combining design expertise with hands-on assembly, the facility strengthens Trilogic’s ability to deliver complex, multi-vendor solutions efficiently.

Advanced VPX and Rugged Server Integration for Industrial Applications

The Iowa facility specializes in VPX systems and rugged 19-inch rack servers, addressing the performance needs of industrial control and defense applications. Moreover, it integrates small form-factor modules like COM Express and COM-HPC alongside rugged edge AI platforms, such as NVIDIA, offering maximum flexibility for automation and robotics deployments. These capabilities ensure seamless integration from component level to full system racks.

Configuration Control and Lifecycle Management Ensures Reliability

Trilogic Systems emphasizes complete traceability and lifecycle management, essential for modern factory automation and DCS environments. Each system is monitored from bare components through final integration, ensuring that configuration control aligns with industry standards. This approach reduces errors, improves reliability, and simplifies future upgrades or maintenance.

Scalable Production with Export-Controlled Compliance

The facility operates in collaboration with U.S.-based, ITAR-certified partners, providing scalable production for export-controlled applications. By leveraging this partner network, Trilogic can accelerate timelines and minimize supply chain disruptions. Consequently, industrial automation integrators can rely on consistent quality for small-lot or medium-lot production.

Expertise in Multi-Vendor Industrial Solutions

Trilogic Systems’ Engineering Center of Excellence coordinates over 20 technology partners, enabling multi-vendor integration across PLC, DCS, and embedded control systems. This platform-agnostic approach allows clients to adopt open standards like MOSA or SOSA while maintaining strict configuration control. Such expertise is particularly valuable in complex factory automation projects where system interoperability is critical.

Strategic Expansion Enhances Industrial Automation Service Offerings

The new facility represents a strategic move to strengthen Trilogic Systems’ service portfolio. By investing in technical staff, advanced processes, and high-mix assembly capabilities, the company ensures that every build—from individual modules to complete server systems—flows seamlessly from engineering to production. This expansion also reduces risk for industrial automation customers seeking reliable, scalable solutions.

Author Insight: Trends in Industrial Automation Integration

As industrial control systems evolve, companies increasingly demand open-standard solutions and flexible integration services. Trilogic’s approach addresses these trends by providing both hands-on assembly and rigorous lifecycle management. For industrial automation engineers, this model demonstrates how vendor collaboration and process optimization can reduce deployment delays and improve overall system reliability.

Application Scenarios

  • Defense and Aerospace PLC Systems: Rapid integration of rugged servers and VPX modules for mission-critical control.
  • Factory Automation Lines: Multi-vendor control systems managed with complete lifecycle oversight.
  • Robotics Integration: Small form-factor and edge AI platforms deployed for flexible industrial robotics solutions.
  • Industrial IoT Projects: Scalable, traceable assembly for connected sensors and distributed control systems.
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Categories: News
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