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South Oxfordshire, United Kingdom
11-50 Employees
1991
Exceptional products, customer service and after-sales support are at the forefront of who we are and what we offer. Our customers are extremely important to us and we value the relationships we have built and the positive feedback we continue to receive. VJ Tech recently provided onsite installation and training at Rutgers University in New Jersey for their Dynamic (Cyclic) Simple Shear and Static Triaxial systems.
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External Displacement Transducers
... External Displacement Transducers ...
Eschlikon, Switzerland
1-10 Employees
1995
Bei INTECH-ICS AG verpflichten wir uns, Ihnen die besten Lösungen für Sicherheit und Komfort zu bieten. Wir bieten, beraten, planen, betreuen und unterstützen unsere Kunden in folgenden Bereichen:Physischer Personen- und Objektschutz, Hebe- und Schiebefenster, Schliessfachsysteme, Zutritts undVereinzelungslösungen, Mobile Banksysteme, Smart digital Automation, Automation und Control Solution. Ebenso bieten wir hochsichere Schliessfächer, die perfekt für den Schutz Ihrer wertvollen Gegenstände geeignet sind. Ein weiteres Kernprodukt in unserem Portfolio ist das Objektsicherheitsglas, das optimalen Schutz bei maximaler Transparenz bietet.
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ACT LVDT displacement transducer
... ACT LVDT Displacement Transducer These transducers are used for displacement/position measurement. They perform an accurate position measurement of the movement of the armature (the sliding part) relative to the body of the displacement transducer. This transducer uses ...
Rushden, United Kingdom
11-50 Employees
2004
BOY is a leading producer of fully-hydraulic injection moulding machines with a clamping force up to 1,250 kN that are designed for the fully automatic processing of thermoplastics, elastomers, silicones, PIM, hotmelt and many other plastic materials. BOY stands for maximum economy, best energy efficiency through low energy consumption and reliable quality - Made in Germany. Since 1968, BOY has shipped more than 40,000 injection moulding machines worldwide. KG have manufactured BOY injection Moulding Machines in Germany since 1968. BOY Limited welcomes any customers new or old, existing or prospective to call in at any time to see the machines and meet the staff. With over 4,000 machines sold into the UK, distributors BOY Limited are well placed and suitably experienced as small machine specialists, able to satisfy any machine requirements up to 1,250kN in clamping force. From our prestigious site in Rushden, we can offer an operational showroom that houses up to six machines from the range at any one time. The showroom is to be used in conjunction with our training division to offer hands-on process and maintenance training courses.
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Used Displacement Transducer
... Used Displacement Transducer ...
Verwaltungsgemeinschaft Salem, Germany
51-100 Employees
1976
Die Schienle Magnettechnik + Elektronik GmbH ist ein Unternehmen der HAWE Gruppe. Unsere Produkte finden sich weltweit in einer Vielzahl bekannter Applikationen namhafter Hersteller. Schienle Magnettechnik + Elektronik GmbH In Oberwiesen 3 · 88682 Salem-Neufrach. Seit über 40 Jahren entwickelt und produziert Schienle Antriebslösungen und Sensoren für ein breites Anwendungsspektrum. Branchen – Unsere Erzeugnisse finden sich weltweit in einer Vielzahl bekannter Branchen namhafter Hersteller. Produkte – Unsere Erzeugnisse arbeiten weltweit in einer Vielzahl bekannter Produkte namhafter Hersteller. Unsere Erzeugnisse finden sich weltweit in einer Vielzahl bekannter Produkte namhafter Hersteller.
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Displacement transducer Ex i 3HSP - Schienle Magnettechnik
... Displacement transducer Ex i 3HSP - Schienle ...
51-100 Employees
1946
Established in 1946, Solartron Metrology is a world leader in the innovation and manufacture of linear measurement sensors, and associated instrumentation. All products are assembled in our UK facility, with a worldwide support network.
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Digital Displacement Transducers (Block Gauges/Flexures/Mini Probes/Lever Probes/Linear Encoders) | Gauge Transducers
... Digital Displacement Transducers (Block Gauges/Flexures/Mini Probes/Lever Probes/Linear Encoders) | Gauge ...
Copenhagen, Denmark
11-50 Employees
1917
Our products can be found in many different applications including food, chemical and pharmaceutical industries with high sanitary standards, to marine diesel engines with high temperature and vibration needs, to water level measurement with high precision requirements. We are dedicated to shaping the future of sensor technology for and with our customers. All our products are assembled and tested thoroughly inhouse, which ensures a high quality and reliable end-product for our customers. The primary goal is to provide our customers with the most reliable, durable, and up-to-date sensor products available today. We will continue to employ the latest manufacturing technology, components and materials in the further development of these products. Here at HF Jensen we are proud of our achievements and dedication to make a difference for our customers and employees. Many employees have been with us for decades, and our goal is to provide an environment where everyone can thrive professionally and personally. Many years of experience, coupled with our desire to innovate, has always been the backbone of our value system.
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HF Jensen Displacement Transducer XLWP 16/600 L
... HF Jensen Displacement Transducer XLWP 16/600 L can support different applications in avionics, robotics, electronic motion control, and automation manufacturing. ...
United Kingdom
1-10 Employees
We are a UK based company with over 40 years technical and sales knowledge providing a range of services and products to Civil Engineering and Education. We are UK agents/distributors for quality equipment manufacturers from Italy, Germany, the USA, Sweden and Canada. We are UK agents/distributors for quality equipment manufacturers from Italy, Germany, USA, Sweden and Canada.
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DISPLACEMENT TRANSDUCERS (automatic readings)
... DISPLACEMENT TRANSDUCERS (automatic readings) – Jet ...
Torridge District, United Kingdom
1-10 Employees
Read how our products can be utilized, modified, and customized to meet your specific application. In manufacturing, we are qualification in TIG and laser welding, certification in the highest level of space grade soldering, and certifications in configuration control practices, traceability control, and cleanliness practices. Our service department is designed to repair and calibrate both STI products and similar products from other businesses. We believe we are the only sensor manufacturer in the US with a dedicated field service technician tasked with same day on-site customer support. We are currently one of the only few sensor manufacturers that will create custom sensor configurations that fits customer needs. Stellar Technology is a sensor company focusing on the design, manufacture, and service of pressure transducers, pressure transmitters, force sensors, load cells, torque transducers, and temperature transducers. Located in a suburban technology park in Amherst, New York, our engineering and manufacturing facility is a contemporary 50,000 square foot environmentally-controlled building. We started in 1991 with a focus on the aerospace market, and have since expanded our business into several market sectors including transportation, oil and gas, general test and measurement, defense, subsea, alternative energy, pharmaceutical, process, and many others.
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Subsea LVDT Displacement Transducer, AC-AC, Unguided Armature-Series LWU60X
... The Series LWU60X is a submersible LVDT displacement transducer with an unguided armature energized with AC power. These units are specifically designed for use in seawater and other very demanding environments including some corrosive liquids. ...
Vandœuvre-lès-Nancy, France
11-50 Employees
1986
DOERLER Mesures specializes in the physical measurement offers a wide range of products sensors, signal conditioners and data acquisition systems. Our expertise in the field of stress-strain analysis (by strain gauges and optical fibre) is recognized by our customers.
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Linear position sensors - Linear position sensor - Displacement Transducer
... Linear position sensors - Linear position sensor - Displacement Transducer ...
Cincinnati, United States
11-50 Employees
1999
We are an industry-leading pressure transducer manufacturer and supplier with over 20 years of experience. Transducers Direct was founded in 1999 by pressure sensor business insiders who saw an unserved need in the industry; for customers to have a higher quality product and greater technical customer service. Therefore, we specialize in industrial pressure sensors, custom pressure transmitters, switches, and many more forms of sensing equipment. Contact Transducers Direct, the premier pressure transducer manufacturer, today for high-quality industrial products.
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Compact Linear Displacement Transducer TD592
... The TD592 Compact Linear Displacement Transducer has a Ball Tip and 10 to 50 mm Stroke. The Transducer is Manufactured by Transducers Direct. ...
Technologies which have been searched by others and may be interesting for you:
Some interesting numbers and facts about the results you have just received for Displacement Transducer
Country with most fitting companies | United States |
Amount of fitting manufacturers | 45 |
Amount of suitable service providers | 25 |
Average amount of employees | 11-50 |
Oldest suiting company | 1917 |
Youngest suiting company | 2004 |
A displacement transducer is an electronic device engineered to convert mechanical motion into an electrical signal, directly correlating to the amount of movement or position change of an object it is measuring. This conversion process employs various sensing technologies, including resistive, inductive, capacitive, and optical, each suitable for different applications based on accuracy requirements, environmental conditions, and the nature of the displacement to be measured. In essence, these transducers are pivotal in transforming physical displacements into quantifiable electrical outputs that can be easily monitored, recorded, and controlled by a system. Within its field, the role of a displacement transducer is multifaceted, ranging from ensuring precision in manufacturing processes, enhancing safety in aerospace through accurate position feedback, to enabling sophisticated control in robotics. Its impact extends to improving efficiency and reliability in countless applications, such as material testing, infrastructure monitoring, and automotive engineering. By providing precise measurements of displacement, these transducers allow for the optimization of mechanical performance and contribute significantly to advancements in technology and engineering disciplines. Their ability to deliver accurate and reliable data makes them indispensable tools in the quest for innovation and excellence in various sectors.
1. High Accuracy and Precision
Displacement transducers are known for their exceptional accuracy and precision in measuring linear or angular displacement. This high level of exactitude is crucial in applications where precise measurements are paramount, outperforming alternatives that might not deliver the same degree of reliability.
2. Versatility in Applications
These devices can be employed in a wide range of settings, from engineering and manufacturing to robotics and aerospace. Their ability to adapt to different environments and measuring conditions makes them more versatile than some other types of sensors, which may have more limited applications.
3. Robustness and Durability
Designed to withstand harsh conditions, displacement transducers maintain their accuracy over time, even in environments with high levels of vibration, temperature fluctuations, or electromagnetic interference. This robustness and durability ensure a longer lifespan compared to alternatives that might require frequent replacements or recalibrations.
4. Easy Integration
The compact and adaptable nature of displacement transducers allows for easy integration into existing systems without the need for extensive modifications. This ease of integration, combined with their compatibility with digital interfaces, streamlines the process of incorporating these sensors into various applications, making them a preferred choice over more cumbersome options.
While evaluating the different suppliers make sure to check the following criteria:
1. Accuracy and Resolution
Ensure the displacement transducer offers high accuracy and resolution suitable for your specific application needs.
2. Measurement Range
Consider the measurement range of the transducer. It should adequately cover the range of displacement you intend to measure.
3. Temperature Stability
Check for temperature stability, as variations can significantly affect measurement accuracy.
4. Output Signal Type
Determine the type of output signal required (e.g., analog, digital) and ensure the supplier offers a compatible option.
5. Environmental Resistance
Assess the transducer's resistance to environmental factors like moisture, dust, and extreme temperatures, especially if it will be used in harsh conditions.
6. Customization Options
Inquire about customization options to ensure the transducer can be tailored to meet your specific requirements.
7. Supplier Reputation and Support
Evaluate the supplier's reputation, customer service, and after-sales support to ensure reliable long-term partnership.
Displacement transducers, critical in measuring precise movements, find extensive applications across diverse industrial landscapes. In the manufacturing sector, precision engineering significantly benefits from these devices. They are pivotal in controlling and monitoring the linear displacement of equipment parts, ensuring components adhere to strict manufacturing tolerances for quality assurance. Another critical area of application is in the construction industry, where displacement transducers play a vital role in structural health monitoring. They are used to measure the displacement and deformation of structures over time, providing essential data that can predict potential failures and ensure the longevity and safety of significant constructions like bridges and high-rise buildings. In the realm of automation and robotics, displacement transducers are indispensable for enhancing precision and efficiency. They provide accurate measurements that are crucial for the proper positioning and movement of robotic arms and automated machinery, ensuring high-speed operations are conducted smoothly and with minimal error. The aerospace industry also relies heavily on displacement transducers for the testing and development of aircraft components. They measure the displacement and strain on parts under various conditions, contributing to the safety and reliability of aerospace vehicles by ensuring components can withstand extreme stresses. Each of these use cases underscores the versatility and importance of displacement transducers in driving precision, safety, and efficiency across multiple sectors.
Displacement transducers, devices designed to measure the distance between an object's current position and a reference point, are broadly considered to be at a high Technology Readiness Level (TRL), typically between 8 and 9. This classification stems from their extensive validation in both laboratory settings and real-world applications across various industries, from automotive to aerospace. The high TRL is indicative of the maturity of the technology, underpinned by a robust foundation of research, development, and operational experience. Technically, the precision and reliability of displacement transducers have seen significant advancements through the integration of digital technologies and materials science innovations. These improvements have not only enhanced their accuracy but also extended their durability and applicability in extreme conditions, such as high temperatures and corrosive environments. Furthermore, the advent of miniaturization and wireless communication has facilitated the integration of displacement transducers into complex systems without significantly impacting the system's overall footprint. The culmination of these technical advancements solidifies the displacement transducer's status at the upper echelons of the TRL scale, reflecting its readiness for widespread adoption and integration into existing and future technological solutions.
In the short-term, the development of displacement transducers is focused on enhancing precision and miniaturization. Innovations are primarily aimed at integrating advanced materials like nanocomposites, which contribute to the transducers' sensitivity and durability. Additionally, the integration of IoT (Internet of Things) capabilities is expected, allowing these devices to communicate more effectively within smart systems, thereby improving real-time monitoring and control in industrial applications. Mid-term advancements are projected to pivot around the fusion of AI (Artificial Intelligence) with displacement transducers. This integration will enable predictive analytics, facilitating preemptive maintenance actions in machinery and infrastructure by analyzing data trends. Moreover, the advent of energy-harvesting technologies in this phase will likely lead to the development of self-powered transducers, significantly reducing their dependency on external power sources and enhancing their sustainability. Looking into the long-term, the focus will likely shift towards the development of quantum displacement transducers. These devices will harness quantum mechanics to achieve unprecedented levels of measurement accuracy and sensitivity, far beyond what current technologies permit. This quantum leap will potentially revolutionize fields requiring ultra-precise measurements, such as space exploration, nanotechnology, and advanced scientific research, marking a significant milestone in the evolution of displacement transduction technology.