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Woodward Unveils Next-Gen Digital Control Module 8440-1713/D to Drive Industrial and Aerospace Innovation

Fort Collins, Colorado – [03-02-2023] – Woodward, Inc. (NASDAQ: WWD), a global leader in precision control systems for aerospace, energy, and industrial markets, announced today the launch of its Model 8440-1713/D, an ultra-reliable digital control module engineered to optimize performance in mission-critical applications ranging from gas turbines to unmanned aerial systems (UAS).

Product Overview

The 8440-1713/D is a fully digital, software-configurable control unit designed to deliver unparalleled accuracy in managing complex hydraulic, fuel, and electromechanical systems. Key applications include:

• Aerospace: Flight control actuation and engine health monitoring for commercial aircraft and drones.
• Energy: Turbine governing and load management in combined-cycle power plants.
• Industrial: Automation of heavy machinery in oil, gas, and mining operations.

Technical Advancements

• Robust Performance:
  • Operates in extreme conditions (-40°C to +85°C) with MIL-STD-810H shock/vibration resistance.
  • Real-time processing via dual-core ARM Cortex-R52 processors.
• Smart Diagnostics:
  • Embedded AI algorithms for predictive fault detection, reducing unplanned downtime by up to 25%.
  • Wireless firmware updates via Woodward CloudConnect™ platform.
• Sustainability Integration:
  • Supports hydrogen and synthetic fuel compatibility, aligning with net-zero emission goals.
  • 30% reduction in energy consumption compared to legacy analog systems.

Market Relevance

As industries face escalating demands for automation and decarbonization, the 8440-1713/D provides a scalable solution. “This module bridges the gap between digital transformation and operational safety,” said Dr. Emily Carter, Woodward’s Chief Technology Officer. “Its cybersecurity framework, compliant with NIST 800-171, ensures resilience against evolving threats.”

Early adopters in the aviation sector have validated the module’s capabilities, achieving 15% faster response times in flight control systems during high-altitude testing. The energy industry also stands to benefit, with pilot projects demonstrating a 20% improvement in turbine load-following efficiency.

Availability and Support

• Release: Available for pre-order in Q3 2024, with bulk order discounts for OEM partners.
• Certifications: FAA EASA.21G, IEC 61508 SIL 2, ATEX/IECEx for hazardous environments.
• Customization: Optional redundancy configurations and SAE AS6802 time-triggered Ethernet support.

Woodward Launches Advanced Fuel System Control Module 8290-191 to Enhance Aerospace and Energy Reliability

Fort Collins, Colorado – [DATE] – Woodward, Inc. (NASDAQ: WWD), a global innovator in aerospace, energy, and industrial control technologies, today unveiled its next-generation Model 8290-191, a high-precision fuel system control module engineered to optimize performance and reliability in jet engines, gas turbines, and hybrid power systems.

Product Overview

The 8290-191 is a compact, ruggedized control unit designed to manage complex fuel metering, pressure regulation, and combustion dynamics in extreme environments. Leveraging Woodward’s patented Adaptive Fuel Logic (AFL™) technology, the module dynamically adjusts fuel flow rates to maximize efficiency while minimizing emissions. Key applications include:

• Aerospace: Fuel delivery optimization for next-gen turbofan engines.
• Energy: Stability control for gas turbines in power plants.
• Industrial: Integration with hydrogen-compatible systems for decarbonization initiatives.

Technical Innovations

• Precision Engineering:
  • Operates at temperatures ranging from -55°C to 125°C and withstands 15g vibration loads.
  • 0.1% fluid measurement accuracy via embedded MEMS sensors.
• Digital Twin Integration:
  • Real-time health monitoring through Woodward’s PrognosticIQ™ cloud platform, enabling predictive maintenance.
• Sustainability Focus:
  • Reduces NOx emissions by up to 18% in gas turbines.
  • Compatible with Sustainable Aviation Fuels (SAF) and hydrogen blends.

Industry Impact

The 8290-191 addresses growing demand for resilient, low-carbon energy solutions. “This module is a game-changer for operators balancing performance and ESG mandates,” said Mark Reynolds, Woodward’s Director of Advanced Energy Systems. “Its modular design cuts retrofit costs by 30%, accelerating the transition to cleaner fuels.”

Early adopters include a leading European aerospace manufacturer, which reported 12% fuel savings during trials for narrow-body aircraft engines. The module also aligns with U.S. Department of Energy goals to achieve net-zero aviation by 2050.

Availability and Support

• Release Date: Available for pre-order starting Q4 2024.
• Compliance: Meets DO-160G (aviation) and API 670 (energy) standards.
• Customization: Optional CANbus, ARINC 825, or Ethernet interfaces.

Woodward Introduces Cutting-Edge Industrial Control System Model 9907-838 to Optimize Operational Efficiency

Loveland, Colorado – [DATE] – Woodward, Inc. (NASDAQ: WWD), a global leader in industrial control systems and energy solutions, today announced the launch of its next-generation control system, Model 9907-838, designed to revolutionize precision and reliability in aerospace, energy, and transportation applications.

The 9907-838 system integrates advanced real-time monitoring, predictive diagnostics, and adaptive algorithms to optimize performance in critical infrastructure. Engineered for high-stakes environments, the system features enhanced cybersecurity protocols, reduced energy consumption, and compatibility with renewable energy grids. Its modular architecture allows seamless integration into existing industrial frameworks, minimizing downtime and operational costs.

“Model 9907-838 represents a milestone in intelligent control technology,” said Dr. Sarah Collins, Woodward’s Vice President of Engineering. “By leveraging machine learning and IoT connectivity, we’re empowering industries to achieve unprecedented efficiency while reducing their carbon footprint.”

The release comes as global industries face increasing pressure to meet sustainability goals and adapt to evolving regulatory standards. Woodward’s 9907-838 addresses these challenges by enabling operators to dynamically adjust energy use, predict maintenance needs, and mitigate system failures. Early adopters in the aviation sector have reported a 20% reduction in fuel consumption during testing phases.

Woodward, founded in 1870 and headquartered in Fort Collins, Colorado, has pioneered control innovations for aerospace, power generation, and transportation systems. The 9907-838 is slated for commercial availability in Q1 2024, with pre-orders now open to strategic partners.

Industry Impact: Analysts anticipate rapid adoption of the 9907-838 across wind energy farms, smart grid networks, and hybrid-electric aircraft, positioning Woodward to capture a significant share of the $45 billion industrial automation market.

Woodward Unveils Cutting-Edge 9907-018 Avionics Control Module to Elevate Aerospace Safety and Performance

FORT COLLINS, Colorado — Woodward, Inc. (NASDAQ: WWD), a pioneer in aerospace and industrial control technologies, has announced the global launch of its 9907-018 Avionics Control Module, a state-of-the-art solution engineered to enhance flight safety, operational efficiency, and system interoperability in next-generation aircraft. The innovation, debuted at the Paris Air Show, aligns with escalating demand for advanced avionics in commercial and defense aviation.

The 9907-018 represents a breakthrough in aviation control systems, integrating AI-driven predictive diagnostics and cyber-resilient firmware to address critical challenges in flight control, fuel management, and engine performance. Designed to meet DO-178C and DO-254 aerospace standards, the module reduces system latency by 40% while ensuring compliance with global aviation regulations, including FAA and EASA certifications.

“The 9907-018 is a game-changer for modern aircraft,” stated James Carter, Woodward’s Chief Technology Officer for Aerospace. “Its ability to process real-time data streams while preemptively identifying system anomalies positions our customers at the forefront of safety and operational excellence.”

Key Innovations of the 9907-018

• AI-Powered Predictive Maintenance: Leverages machine learning to forecast component wear, slashing unscheduled maintenance by up to 35%.
• Cross-Platform Compatibility: Seamlessly integrates with existing avionics architectures, including legacy military systems and next-gen electric aircraft.
• Enhanced Cybersecurity: Features multi-layered encryption and FIPS 140-2 validated security protocols to counter evolving cyber threats.
• Ultra-Lightweight Design: Constructed with advanced composites, reducing weight by 22% compared to conventional modules.

A leading U.S.-based aerospace manufacturer, currently testing the 9907-018 in its hybrid-electric regional jet prototype, reported a 15% improvement in fuel efficiency during preliminary trials. Woodward has secured partnerships with major airlines and defense contractors, with full-scale production slated for mid-2025.

Industry analysts highlight the module’s strategic importance. “As aviation pivots toward sustainable and autonomous technologies, Woodward’s 9907-018 fills a vital niche in ensuring reliability amid complex system integrations,” said Dr. Elena Marquez of Aerospace Analytics Group.

Market Implications

The release comes as global aviation faces mounting pressure to adopt greener technologies while maintaining stringent safety standards. Woodward’s 9907-018 not only supports hybrid-electric and hydrogen-powered aircraft initiatives but also aligns with NATO’s next-generation defense aviation roadmap.

Availability and Customization

The 9907-018 will be available for pre-order starting Q4 2024, with tailored configurations for unmanned aerial systems (UAS) and urban air mobility (UAM) vehicles under development.

Woodward Launches Next-Generation 8290-185 Industrial Control System to Revolutionize Automation

By [lucky], [Shenzhen Changxin]
[11-06-2025]

Loves Park, Illinois – Woodward, Inc., a global leader in industrial control and energy solutions, has unveiled its latest innovation, the 8290-185 Advanced Control System, designed to redefine efficiency and reliability in automation across manufacturing, energy, and aerospace sectors. The announcement, made today at the International Automation Expo in Chicago, marks a significant leap forward in smart industrial technology.

Engineered to thrive in demanding environments, the 8290-185 integrates cutting-edge machine learning algorithms and real-time data analytics, enabling predictive maintenance and reducing downtime by up to 30%. With enhanced cybersecurity protocols and compatibility with legacy systems, Woodward’s new solution addresses critical challenges faced by industries transitioning to Industry 4.0 standards.

“The 8290-185 isn’t just an upgrade—it’s a transformational tool for our clients,” said Karen Reynolds, Woodward’s Vice President of Industrial Systems. “By bridging the gap between operational technology and IT infrastructure, we’re empowering businesses to achieve unprecedented productivity while minimizing risks.”

Key features of the 8290-185 include:

• Adaptive Thermal Management: Ensures optimal performance in extreme temperatures (-40°C to 70°C).
• Scalable Architecture: Supports modular expansion for evolving operational needs.
• Energy-Efficient Design: Reduces power consumption by 25% compared to previous models.

Early adopters, including a leading European wind turbine manufacturer, report a 20% increase in energy output efficiency during pilot testing. Woodward plans to roll out the system globally by Q1 2024, with tailored solutions for aviation and renewable energy sectors already in development.

Analysts predict the 8290-185 will strengthen Woodward’s market position amid rising demand for automation in sustainable energy projects. “This launch underscores Woodward’s commitment to driving the digital transformation of industrial ecosystems,” noted industry expert Dr. Michael Tran of TechInsights.

For more details, visit Woodward’s official website or attend their webinar on [01-10-2025].

About Woodward, Inc.:
Woodward, Inc. (NASDAQ: WWD) is a worldwide leader in aerospace and industrial control systems, dedicated to innovating solutions that enhance performance, safety, and sustainability. Headquartered in Fort Collins, Colorado, the company operates in over 15 countries.

YOKOGAWA Launches PW702 Precision Power Analyzer to Drive Industrial Energy Efficiency

Tokyo, Japan – December 5, 2023 – YOKOGAWA Electric Corporation, a global innovator in industrial automation and energy management solutions, today unveiled the PW702 Precision Power Analyzer, a next-generation instrument designed to optimize energy consumption and support global decarbonization efforts across industries.

The PW702 sets a new benchmark for high-accuracy power measurement, boasting a 0.03% basic accuracy and a bandwidth of 10 MHz, making it ideal for analyzing complex waveforms in renewable energy systems, electric vehicle (EV) manufacturing, and smart grid applications. Equipped with 8-channel simultaneous sampling, the device enables real-time monitoring of voltage, current, and harmonic distortion, even in ultra-high-frequency environments.

Featuring a lightweight, modular design and seamless integration with YOKOGAWA’s Energy IoT Suite, the PW702 supports predictive maintenance and carbon footprint tracking through cloud-based analytics. Its proprietary PowerAITM algorithms automatically detect inefficiencies in motor drives, solar inverters, and battery storage systems, providing actionable insights to reduce energy waste.

“The PW702 isn’t just a measurement tool—it’s a catalyst for sustainable innovation,” said Ms. Aya Nakamura, YOKOGAWA’s Director of Energy Systems. “By coupling unmatched precision with AI-driven diagnostics, we’re empowering industries to meet net-zero targets while maintaining operational competitiveness.”

Key Applications:

• EV Powertrain Testing: Accurately quantify energy losses in high-voltage battery and charging systems.
• Wind/Solar Farm Optimization: Analyze grid-tie inverter performance under fluctuating load conditions.
• Industrial IoT Integration: Streamline energy audits with compliance-ready reports for ISO 50001 and ISO 14064 standards.

During field trials, a European automotive manufacturer reported a 22% reduction in energy waste during EV motor testing cycles using the PW702. Meanwhile, a Japanese semiconductor fab achieved 15% lower peak demand charges by identifying harmonic distortions in real-time.

The analyzer’s 8.4-inch multitouch display and compatibility with Python scripting allow engineers to customize workflows, while its ruggedized IP52 enclosure ensures reliability in harsh environments.

YOKOGAWA plans to debut the PW702 at CES 2024 in Las Vegas, with commercial availability starting in Q2 2024. The product will be offered in three configurations, including a portable variant for on-site diagnostics and a rack-mounted version for continuous plant monitoring.

Market analysts at BloombergNEF predict the PW702 will capture significant market share in the $3.1 billion power analytics sector, particularly as industries face tightening regulations on energy efficiency and emissions.

YOKOGAWA Launches ASI133-H00/SA3S0 Advanced Sensor for Harsh Industrial Environments

Tokyo, Japan – November 7, 2023 – YOKOGAWA Electric Corporation, a pioneer in industrial automation and measurement technologies, has introduced the ASI133-H00/SA3S0, a next-generation intelligent sensor designed to deliver unparalleled reliability in extreme operational conditions. Targeting sectors such as oil and gas, chemical processing, and power generation, the device promises to revolutionize real-time monitoring and predictive maintenance in mission-critical applications.

The ASI133-H00/SA3S0 integrates YOKOGAWA’s proprietary DualSense™ technology, combining high-pressure tolerance with immunity to electromagnetic interference (EMI) and corrosive media. Its ruggedized housing meets IP68/IP69K standards, ensuring functionality in temperatures ranging from -40°C to 85°C (-40°F to 185°F). The sensor also features built-in self-diagnostic capabilities and wireless connectivity via ISA100 or Wi-Fi 6E, enabling seamless integration into IoT-driven industrial networks.

“With the ASI133-H00/SA3S0, we’re addressing the growing demand for sensors that thrive where others fail,” said Mr. Hiroshi Tanaka, YOKOGAWA’s Vice President of Industrial Automation. “This innovation not only enhances operational safety but also reduces unplanned downtime by up to 30% through predictive analytics powered by our [i³] Platform.”

Key applications include:

• Pipeline integrity monitoring for detecting leaks and pressure anomalies.
• Turbine health assessment in power plants to optimize maintenance schedules.
• Chemical reactor safety through real-time temperature and viscosity tracking.

The sensor’s modular design allows rapid field calibration, while its extended 10-year battery life minimizes lifecycle costs. Early adopters, such as a leading LNG facility in Norway, reported a 25% improvement in data accuracy during pilot testing compared to legacy systems.

Slated for global release in Q1 2024, the ASI133-H00/SA3S0 will be showcased at the 2023 Hannover Messe Industrial Fair. Customizable configurations, including explosion-proof variants (ATEX/IECEx certified), are available for hazardous zone deployments.

ZYGO Corporation Unveils Revolutionary 7702 Optical Profiler for Precision Metrology

San Diego, CA – October 18, 2023 – ZYGO Corporation, a global leader in optical metrology solutions, announced today the launch of its groundbreaking 7702 Optical Profiler, a cutting-edge instrument designed to redefine precision surface measurement across industries such as semiconductor manufacturing, aerospace, and advanced optics.

The ZYGO 7702 combines state-of-the-art interferometry technology with advanced automation capabilities, enabling nanometer-level accuracy for surface characterization. Featuring a modular design and user-friendly interface, the system caters to both high-volume production environments and research laboratories. Key innovations include real-time data processing, enhanced environmental stability, and compatibility with ZYGO’s proprietary MetroPro® software for seamless analysis.

“The 7702 represents a paradigm shift in optical profiling,” said Dr. Lisa Carter, ZYGO’s Chief Technology Officer. “By integrating machine learning algorithms with our legacy expertise in interferometry, we’ve created a tool that not only measures surfaces but also predicts process deviations, empowering manufacturers to achieve unprecedented quality control.”

Engineered to address challenges in next-gen technologies like EUV lithography and compound semiconductor fabrication, the 7702 supports measurements across substrates ranging from super-polished optics to textured materials. Its multi-wavelength capability minimizes measurement ambiguity, while vibration-resistant hardware ensures reliability in dynamic industrial settings.

Early adopters, including a tier-1 semiconductor foundry, reported a 40% reduction in inspection cycle times during beta testing. ZYGO plans to commence shipments in Q1 2024, with customized configurations available for specialized applications.

The unveiling coincides with ZYGO’s 50th anniversary, underscoring the company’s commitment to innovation in precision measurement. Industry analysts anticipate the 7702 to strengthen ZYGO’s market leadership amid growing demand for metrology tools in the AI-driven Industry 4.0 era.

1. Product Overview
Type: PFTL101B 5kN 3BSE004191R1
Type: Force Sensor/Weighing Sensor
Brand: ABB
Range: 5kN (kilonewtons, approximately equivalent to 510 kilograms of force)
Usage: Used for measuring tension or pressure, widely used in industrial automation, production lines, testing equipment and other fields.
2. Main features
High precision: providing accurate force measurement, suitable for industrial scenarios with high precision requirements.
Durable and sturdy: Designed for harsh industrial environments, it has high resistance to impact and vibration.
Easy to integrate: Standardized interfaces and signal outputs make it easy to integrate with PLC, DCS, or other control systems.
Multiple device methods: Support multiple device methods and adapt to different application requirements.
Signal output: Generally provides analog signal output (such as 4-20mA or 0-10V) for easy connection with the control system.
3. Technical parameters
Range: 5kN
Precision: High precision (specific values need to be referred to the product manual)
Output signal: Analog signal (such as 4-20mA or 0-10V)
Working temperature range: generally -20 ° C to+80 ° C (specific to manual)
Protection level: generally IP67 or higher, suitable for harsh environments.
Electrical connection: Standardize cable or connector interfaces.
4. Application scope
Industrial automation: used for force monitoring and control on production lines.
Testing and measurement: used for data testing, mechanical performance testing, etc.
Mechanical equipment: used for force monitoring of equipment such as cranes and hydraulic presses.
Quality control: used for force detection and quality control in the production process.
5. Installation and maintenance
Device: The device should be installed according to the instructions in the product manual to ensure the correct direction of force on the sensor.
Calibration: Regular calibration to ensure measurement accuracy.
Maintenance: Keep the sensor clean to avoid overload or mechanical damage.
6. Related products
If you require force sensors of other ranges or types, ABB also offers multiple types of sensors, such as:
PFTL1101A (different ranges)
Other types of PFTL series.