Latest news with #sensors
Yahoo
2 hours ago
- Business
- Yahoo
Water Quality Sensor Market to Hit USD 9.47 Billion by 2032, Owing to the Growing Need for Real-Time Water Quality Monitoring and Regulatory Compliance
Rapid urbanization, rising environmental regulations, and the global emphasis on safe drinking and industrial water have spurred unprecedented demand for water quality sensor technologies, driving extensive deployment of IoT-enabled and real-time monitoring solutions across industries, municipalities, and agricultural sectors. Austin, June 29, 2025 (GLOBE NEWSWIRE) -- The water quality sensor market size was valued at USD 5.72 billion in 2024 and is expected to reach USD 9.47 billion by 2032, growing at a CAGR of 6.51 % over the forecast period of 2025–2032. The surge in industrial water discharge and frequent contamination events has accelerated the adoption of advanced sensors for continuous monitoring. With the increasing need to detect contaminants like heavy metals, pathogens, and chemicals, stakeholders are turning to high-precision TOC, pH, and multi-parameter sensors. The U.S. water quality sensor market is projected to grow from USD 1.83 billion in 2024 to USD 2.94 billion by 2032, at a CAGR of 6.14 %. This acceleration is being driven by stricter regulations on wastewater discharge, rising instances of waterborne illnesses prompting real-time detection, and the integration of sensor data with cloud analytics for predictive maintenance and early contamination PDF Sample of Water Quality Sensor Market @ Key Players: Atlas Scientific LLC Eksoy Ltd. TriOS Mess- und Datentechnik GmbH Thermo Fisher Scientific Inc. Endress+Hauser Group OTT Hydromet (Hach Company) Thames Water Utilities Limited Libelium Comunicaciones Distribuidas S.L. Xylem Inc. Honeywell International Inc. Water Quality Sensor Market Report Scope: Report Attributes Details Market Size in 2024 USD 5.72 Billion Market Size by 2032 USD 9.47 Billion CAGR CAGR of 6.51% From 2025 to 2032 Base Year 2024 Forecast Period 2025-2032 Historical Data 2021-2023 Report Scope & Coverage Market Size, Segments Analysis, Competitive Landscape, Regional Analysis, DROC & SWOT Analysis, Forecast Outlook Key Drivers • Rising Water Pollution Fuels Demand for Real-Time Monitoring Solutions. If You Need Any Customization on Water Quality Sensor Market Report, Inquire Now @ TOC Sensors Dominate by Type and Industrial Applications Lead End-Use Segment, Owing to the High Demand for Real-Time Monitoring, Regulatory Compliance, and Smart Integration By Type The TOC (Total Organic Carbon) Sensor segment holds the leading position in the water quality sensor industry, capturing 32% of the market share in 2024. Its capacity to measure organic pollution in various kinds of water sources, including drinking water, industrial effluent, and municipal wastewater, accounts for its wide range of applications. Through the precise, real-time reporting of organic pollutants, TOC Sensors are essential to environmental preservation and regulatory compliance. They are improved for automated use by their compatibility with digital platforms and sophisticated monitoring systems. By End-Use The Industrial segment dominates the market for water quality sensors, which accounts for 36% of the overall market share in 2024. The enormous need for water quality testing in the petrochemical, food and beverage processing, pharmaceutical, and power generating sectors is what drives this supremacy. To ensure product safety, improve process efficiency, and adhere to environmental standards, these sectors require accurate water quality data. Frequent monitoring is necessary since industrial enterprises typically face issues with wastewater discharge, chemical contamination, and water reuse. North America Leads in Water Quality Sensor Adoption, While Asia Pacific Emerges as the Fastest-Growing Region Driven by Urbanization and Pollution Control Needs North America held the largest share in the water quality sensor market in 2023, accounting for more than 42%. This leadership is the result of significant investments made to upgrade infrastructure and water monitoring systems. The region has been forced to act due to dated water facilities, stricter Clean Water Act regulations, and public concerns over water safety. Utilities and localities across the United States and Canada have started deploying advanced sensor networks that monitor real-time measurements of heavy metals, TOC, chlorine, turbidity, and pH. These technologies make it possible to identify issues early and carry out necessary maintenance. Federal and state-level incentive programs and grants have also been significant factors in driving usage. The Asia Pacific region is experiencing the fastest growth in the water quality sensor market. Rapid industrialization and urbanization have led to serious problems with water pollution. Countries like China, India, and Southeast Asia are dealing with increasing levels of contamination in their surface and groundwater, mostly due to industrial waste and agricultural runoff. In response, governments and urban planners are putting extensive water monitoring programs into place. Critical characteristics, including pH, conductivity, dissolved oxygen, and nutrient levels, are being monitored in rivers, cities, and treatment facilities using Internet of Things-based sensors. At the same time, a number of infrastructure projects are increasing investment in municipal water treatment facilities. The market is also being driven by an increase in local R&D, with a focus on creating smaller, less expensive Full Research Report on Water Quality Sensor Market 2025-2032 @ About Us: SNS Insider is one of the leading market research and consulting agencies that dominates the market research industry globally. Our company's aim is to give clients the knowledge they require in order to function in changing circumstances. In order to give you current, accurate market data, consumer insights, and opinions so that you can make decisions with confidence, we employ a variety of techniques, including surveys, video talks, and focus groups around the world. CONTACT: Jagney Dave - Vice President of Client Engagement Phone: +1-315 636 4242 (US) | +44- 20 3290 5010 (UK)
Yahoo
4 days ago
- Automotive
- Yahoo
Questex's Sensors Converge and Fierce Electronics Announce 2025 Best of Sensors Awards Winners
Honors Innovation, Leadership, and Excellence Driving the Future of Sensors, Electronics, and AI SANTA CLARA, Calif., June 25, 2025 (GLOBE NEWSWIRE) -- Today at an awards ceremony, Questex's Sensors Converge and Fierce Electronics unveiled the 2025 Best of Sensors Awards winners. The awards recognize the most cutting-edge technologies, pioneering leaders, and innovative companies across the sensors, electronics, and embedded systems landscape. The awards program is an integral part of Sensors Converge 2025, taking place June 24-26 at the Santa Clara Convention Center. Winners were selected from an outstanding number of submissions and evaluated by a panel of industry judges. David Drain, Show Director, Sensors Converge said, 'For over three decades, our awards program has been the premier recognition program for groundbreaking achievements in the sensors industry. Today we recognized the game-changing technologies, visionary leaders, and innovative companies shaping the future of sensing, connectivity and automation - defining the next era of innovation. We applaud them on their success.' The Best of Sensors Awards program winners include: Product Innovation AwardsRecognizing groundbreaking advancements in sensor technology and the electronics ecosystem: Best Agricultural & Environmental Solution: Shinsor – Verbio, SoftBank and Aizip Best AI & Edge Computing Solution: eIQ® Time Series Studio - NXP Semiconductors Best Automotive & Mobility Solution: SMP290 – tire-pressure sensor module with integrated Bluetooth Low Energy interface - Robert Bosch GmbH Best Healthcare & Wearable Solution: Neuranics Multi-Channel TMR Sensor Solution - Neuranics Ltd Best Imaging & Optical Sensing Solution: AS5920M Photon Counting Module - ams OSRAM Best Industrial & IIoT Solution: Dextro™ collaborative robot - Lam Research Best Instrumentation & Test Solution: Rosemount™ 3408 Level Transmitter, Non-Contacting Radar – Emerson Best IoT & Connectivity Solution: Bluetooth Low Energy 6.0 / IEEE 802.15.4 / NFC Tag Wireless Module for Secured IoT Edge Devices - Murata Electronics Best MEMS Solution: XMC-2400 µCooling fan-on-a-chip - xMEMS Labs, Inc. Best Power & Sustainability Solution: Battery Safety Electrolyte Detector (BES LITE) - Honeywell Best Smart Infrastructure Solution: WiSNET - Wireless Super Network - Slice Wireless Solutions, Inc. Individual & Community Excellence FinalistsCelebrating the individuals and companies shaping the industry: Company of the Year: SiTime Executive of the Year: Kurt Busch, CEO, Syntiant Corp. Startup of the Year: xMEMS Labs, Inc. Woman of the Year: Catherine Liao, Chief Strategy & Commercial Officer, CardieX Lifetime Achievement Award: Roger H. Grace, President, Roger Grace Associates View all of the winners on website here. In addition to the Best of Sensors Award winners, honorees from the Fierce Electronics 40 Under 40 Program were celebrated on stage. View all 40 Under 40 Honorees here. Sensors Converge also took the time to recognize long standing exhibitors in celebration of the 40th Anniversary of the event. Exhibitors of 10+ years include: Analog Devices, Baystar Electrumnet, Bosch, Boston Electronics, Dexter Research Center, DOWA International, Electro Optical Components, Embedded Works, Excelitas Technologies, Fraunhofer IIS, Hamamatsu, JUMO Process Control, Mensor Corporation, Microchip Technologies, Micronor Sensors, Mouser Electronics, Multi Dimension, Murata Electronics, Powercast Corporation, Silicon Designs Inc., Specialty Coating Systems, STMicroelectronics, and Tadiran Batteries. The awards were judged by an exemplary panel of industry experts, including Azita Arvani, Kunal Bajaj, Melanie Daniels, Roger Grace, Abhay Gulati, Leonard Lee, James Odeyinka, Charlotte Savage, Jatinder Singh Bajwa, and Zachary Whitman-Allen. Stay connected with Sensors Converge on Facebook, LinkedIn, X, and TikTok. About Sensors ConvergeSensors Converge ( formerly known as Sensors Expo & Conference, got its start 40 years ago bringing together the design engineering community to network, share ideas, and define the future roadmap for the sensors industry. Sensors Converge is part of the Fierce Technology Group, a division of Questex, which also produces the Best of Sensors Awards, Fierce Electronics and Fierce Sensors, as well as daily content and newsletters on Fierce Electronics at About QuestexQuestex helps people live better and longer. Questex brings people together in the markets that help people live better: hospitality and wellness; the industries that help people live longer: life science and healthcare; and the technologies that enable and fuel these new experiences. We live in the experience economy – connecting our ecosystem through live events, surrounded by data insights and digital communities. We deliver experience and real results. It happens here. Media ContactCharlene SoucySensors Convergecsoucy@
Yahoo
4 days ago
- Automotive
- Yahoo
Trimble, TDK's advanced navigation solution to enhance automotive positioning
Trimble and InvenSense, a TDK group company, have partnered to deliver an advanced navigation solution to provide enhanced accuracy and reliability in positioning and navigation for automotive and IoT applications. The navigation solution integrates the Trimble ProPoint Go engine and RTX correction service with TDK's SmartAutomotive inertial measurement units (IMUs) from InvenSense. The Trimble ProPoint Go positioning engine is designed to offer high-accuracy position and orientation data. It leverages quad-frequency GNSS signal support and is the first to market with Automotive Safety Integrity Level-C (ASIL-C) certified correction data. This development is set to improve the capabilities of automated driving and IoT applications, such as field robotics, with a strong emphasis on safety. Trimble advanced positioning vice president Olivier Casabianca said: "Together with TDK we are bringing the power of high-accuracy and precise positioning along with state-of-the art ASIL-certified sensors to help our customers build innovative solutions for automotive and IoT markets. "As we continue to expand our positioning services with TDK and other tier one companies, we are powering the connected world while ensuring the safety and accuracy of connected systems." TDK's IMUs, which combine a triaxal accelerometer and a triaxal gyroscope within a compact module, can identify linear acceleration and angular velocity with a high degree of precision. TDK's six-axis and MEMS fabrication platform allows these inertial sensors to offer high performance in a small size with low power consumption, broadening the scope for application in various fields. The collaboration between Trimble's positioning engine and RTX correction with TDK's modules is poised to deliver significant benefits. These include superior positioning accuracy in diverse conditions, reliable orientation and navigation data critical for autonomous vehicles, drones, and industrial machinery, and versatility across a multitude of applications such as ADAS, C-V2X, field robotics, and UAVs. The advanced navigation solution comprising Trimble's ProPoint Go engine and RTX correction service, along with TDK's IMUs module, is currently available for testing through the Trimble Evaluation Kit. TDK automotive motion vice president and general manager Stefano Zanella said: "Inertial and positioning data have become critical in enabling automation, improving efficiency and monitoring conditions. "Building on almost a decade of collaboration with Trimble, we are delighted to take our efforts to the next level: by offering an integrated solution, we empower customers to accelerate deployment, streamline integration and maximize the value of this transformative technology." Earlier this year, Trimble expanded its collaboration with Qualcomm Technologies to offer precise positioning solutions for automated vehicles, ranging from passenger cars to heavy trucks. "Trimble, TDK's advanced navigation solution to enhance automotive positioning" was originally created and published by Just Auto, a GlobalData owned brand. The information on this site has been included in good faith for general informational purposes only. It is not intended to amount to advice on which you should rely, and we give no representation, warranty or guarantee, whether express or implied as to its accuracy or completeness. You must obtain professional or specialist advice before taking, or refraining from, any action on the basis of the content on our site.
National Post
5 days ago
- Business
- National Post
Mitutoyo Increases Inspection Accuracy and Range with the Launch of New SurfaceMeasure-S Series SM0303S and 2929S In-Line Laser Sensors
Article content AURORA, Ill. — Mitutoyo America Corporation, the leading manufacturer of precision metrology instruments and solutions, announces the release of the SurfaceMeasure-S Series. The SM0303S and 2929S sensors join the SM1008S sensor to complete the innovative collection of line-laser sensors engineered for in-line inspection. Article content Article content The SurfaceMeasure-S line is a series of smart sensors that use Mitutoyo's unique optical system in addition to our conventional sensor technology. The series delivers measurable advancements in quality and operational efficiency. Article content Inspect and measure with high accuracy in-line scanning and build a customizable inspection routine with the SurfaceMeasure-S Series. The system features integrated web-based software and offers 2D and 3D scanning, intuitive inspection tools and capabilities to perform operations and dimensional inspections ranging from 2D profile to 3D surface measurements. Article content The SM0303S, is the high-resolution model in the SurfaceMeasure-S Series. It offers an accuracy of 9 micrometers and a resolution of 13 to 17 micrometers in the X direction. The 2929S features the series' largest field of view and working distance — 292 millimeters wide by 290 millimeters deep — while achieving a scanning accuracy of 65 micrometers. Article content 'The SurfaceMeasure-S Series sensors can seamlessly integrate into existing infrastructure or serve as the foundation to achieve precision in your inspection systems by supporting digital transformation and smart manufacturing initiatives,' said Michael Browner, Sensor Product Manager at Mitutoyo America Corp. Article content Key features of the SurfaceMeasure-S Series: Article content At Article content Mitutoyo Article content , precision is our profession. We are the leader in metrology instruments, solutions and support. With the largest product portfolio of any commercial metrology provider and the highest-performing A2LA-accredited calibration laboratories (A2LA Certificate No. 0750.01) in the nation. Article content Article content Article content Article content Article content Contacts Article content
Yahoo
6 days ago
- Automotive
- Yahoo
Industrial 3-axis accelerometer has high offset stability
KYOTO, Japan, June 24, 2025--(BUSINESS WIRE)--Murata Manufacturing Co., Ltd. (TOKYO: 6981) (ISIN: JP3914400001) has introduced a 3-axis accelerometer for the industrial market that combines high offset stability over temperature and time, good linearity, low noise density, and excellent robustness. The SCA3400-D01 XYZ accelerometer is meant for use in industrial applications such as structural health monitoring (SHM), machine control, inertial measurement units, and construction tools and systems. This product will be exhibited at Sensors Converge 2025 to be held at the Santa Clara Convention Center (Booth #716), California from 24 to 26 June 2025. The offset stability of an accelerometer refers to the consistency of its output when at rest, but subject to varying temperatures or the effects of aging. Ideally, this output should be zero, but it is often not, and so equipment makers need to calibrate their designs to account for this. The more stable the offset is, the greater the accuracy of the sensor's measurements. Also, high offset stability enables equipment makers to calibrate their designs for the product's lifetime, rather than expecting users to regularly recalibrate to maintain accuracy. In the case of the SCA3400-D01, the offset drift over lifetime 0.5 mg for the X and Y axes and 2 mg for the Z axis. The offset error introduced by varying its operating temperature is 2 mg on the X and Y axes and 3 mg on the Z axis. The Murata SCA3400-D01 offers exceptional performance in terms of accuracy. It exhibits a linearity error figure of 1 mg over a 1.2 g range and a noise density of 20 µg/√Hz, both of which contribute to more precise measurements. Another feature of the 3-axis accelerometer that should appeal to industrial equipment makers is the user-selectable dynamic range and low-pass filtering, which enables designers to configure the part for the best combination of resolution, linearity, and noise performance for the application. The part also has self-diagnostic features that enable it to detect when a measured signal is reliable. The SCA3400-D01 (8.6 × 7.6 × 3.3 mm; 0.34" × 0.30" × 0.13") is built on the latest version of Murata's proven 3D MEMS process and uses the company's latest ASIC design and processes. It will be available as single parts on an evaluation PCB, sample bags of four parts, and reels containing either 100 or 1,000 pieces. For more details, please visit the product page, or for inquiries regarding this product, please contact us. About Murata Murata Manufacturing Co., Ltd. is a worldwide leader in the design, manufacture and sale of ceramic-based passive electronic components & solutions, communication modules and power supply modules. Murata is committed to the development of advanced electronic materials and leading edge, multi-functional, high-density modules. The company has employees and manufacturing facilities throughout the world. View source version on Contacts For more information, please contact:Murata Manufacturing Co., Tsuboi, prsec_mmc@ Corporate Communications Department Error in retrieving data Sign in to access your portfolio Error in retrieving data Error in retrieving data Error in retrieving data Error in retrieving data
