ShapeArray – The Smart Solution for Geotechnical Monitoring... ShapeArray (SAA) is your smart solution for geotechnical monitoring. An integrated, streamlined approach to reducing risk. ShapeArray is an integrated measuring tool that measures deformation in soil and structures in real time. The instrument can be used vertically, horizontally, or in an arc, to measure lateral deformation, settlement, or convergence. ShapeArray’s design—rigid stainless steel sensorized segments connected by flexible joints— is durable and allows for simple installation from its shipping reel. Every segment of ShapeArray contains three MEMS tilt sensors, a microprocessor and digital temperature sensor. To find out more about our range of ShapeArrays, visit: https://lnkd.in/evUzS-YM To download our ShapeArray brochure, visit: https://lnkd.in/eSKzZA4y #shapearray #monitoring #instrumentation #data #geotechnics #tiltsensors #temperaturesensors
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ShapeArray – The Smart Solution for Geotechnical Monitoring... ShapeArray (SAA) is your smart solution for geotechnical monitoring. An integrated, streamlined approach to reducing risk. ShapeArray is an integrated measuring tool that measures deformation in soil and structures in real time. The instrument can be used vertically, horizontally, or in an arc, to measure lateral deformation, settlement, or convergence. ShapeArray’s design—rigid stainless steel sensorized segments connected by flexible joints— is durable and allows for simple installation from its shipping reel. Every segment of ShapeArray contains three MEMS tilt sensors, a microprocessor and digital temperature sensor. To find out more about our range of ShapeArrays, visit: https://lnkd.in/evUzS-YM To download our ShapeArray brochure, visit: https://lnkd.in/eSKzZA4y #shapearray #monitoring #instrumentation #data #geotechnics #tiltsensors #temperaturesensors
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ShapeArray – The Smart Solution for Geotechnical Monitoring... ShapeArray (SAA) is your smart solution for geotechnical monitoring. An integrated, streamlined approach to reducing risk. ShapeArray is an integrated measuring tool that measures deformation in soil and structures in real time. The instrument can be used vertically, horizontally, or in an arc, to measure lateral deformation, settlement, or convergence. ShapeArray’s design—rigid stainless steel sensorized segments connected by flexible joints— is durable and allows for simple installation from its shipping reel. Every segment of ShapeArray contains three MEMS tilt sensors, a microprocessor and digital temperature sensor. To find out more about our range of ShapeArrays, visit: https://lnkd.in/evUzS-YM To download our ShapeArray brochure, visit: https://lnkd.in/eSKzZA4y #shapearray #monitoring #instrumentation #data #geotechnics #tiltsensors #temperaturesensors
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ShapeArray – The Smart Solution for Geotechnical Monitoring... ShapeArray (SAA) is your smart solution for geotechnical monitoring. An integrated, streamlined approach to reducing risk. ShapeArray is an integrated measuring tool that measures deformation in soil and structures in real time. The instrument can be used vertically, horizontally, or in an arc, to measure lateral deformation, settlement, or convergence. ShapeArray’s design—rigid stainless steel sensorized segments connected by flexible joints— is durable and allows for simple installation from its shipping reel. Every segment of ShapeArray contains three MEMS tilt sensors, a microprocessor and digital temperature sensor. To find out more about our range of ShapeArrays, visit: https://lnkd.in/evUzS-YM To download our ShapeArray brochure, visit: https://lnkd.in/eSKzZA4y #shapearray #monitoring #instrumentation #data #geotechnics #tiltsensors #temperaturesensors
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Interested in leakage inductance modelling and the Quasi-3D leakage inductance model that I developed for Frenetic and is used by our Frenetic Simulator? Then check out this webinar! 🚀 It is mostly based on my PhD research at the Laboratory for High Power Electronic Systems (HPE), ETH Zurich. Also, my colleague Lucas Nicieza Moro presents an example of a multiwinding coupled inductor for a Flyback converter simulated with the Frenetic Simulator. This practical example shows the importance of a model scaling well to arbitrary winding positions & dimensions
📣 Our last 𝗣𝗼𝘄𝗲𝗿 𝗘𝗹𝗲𝗰𝘁𝗿𝗼𝗻𝗶𝗰𝘀 𝗪𝗲𝗯𝗶𝗻𝗮𝗿 recording with our Research Specialist Richard Schlesinger is now available! ➡️ Click here to access FREE: https://lnkd.in/dqnPRNi7 💡 Topic: Transformer leakage inductance is crucial in many topologies such as flyback converters, dual active bridge converters, and resonant converters impacting operating parameters such as switching behavior, overvoltage, and losses. Hence, the power electronic designer needs an accurate prediction of the transformer leakage inductance in the design stage, which Frenetic is able to do with a new leakage inductance model added to the online simulator. 📚 Don't miss the opportunity to learn from our experts! #Frenetic #freneticfactory #powerelectronics #leakageinductance #magnetics
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📣 Our last 𝗣𝗼𝘄𝗲𝗿 𝗘𝗹𝗲𝗰𝘁𝗿𝗼𝗻𝗶𝗰𝘀 𝗪𝗲𝗯𝗶𝗻𝗮𝗿 recording with our Research Specialist Richard Schlesinger is now available! ➡️ Click here to access FREE: https://lnkd.in/dqnPRNi7 💡 Topic: Transformer leakage inductance is crucial in many topologies such as flyback converters, dual active bridge converters, and resonant converters impacting operating parameters such as switching behavior, overvoltage, and losses. Hence, the power electronic designer needs an accurate prediction of the transformer leakage inductance in the design stage, which Frenetic is able to do with a new leakage inductance model added to the online simulator. 📚 Don't miss the opportunity to learn from our experts! #Frenetic #freneticfactory #powerelectronics #leakageinductance #magnetics
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💡 #Gas_sensing, #spectroscopy and #leak_detection are the basic applications where an appropriate detector is necessary. During the #PhotonicsWest at #booth_363, you will have the opportunity to talk directly to our Engineers and learn more about miniature and cost-effective #MWIR InAsSb #Detection_Modules. 🔎 The AMS3140-01 and AMS6140-01 are designed for #high_volume_applications. Built-in amplifier and temperature controller provide constant responsivity over a wide range of ambient temperatures. Wide bandwidth and low 1/f noise corner provide efficient measurements with generally available sources of radiation, including MEMS heaters, and pulsed LEDs or lasers. 📋 Features: 🔹 Spectral range: - 2.5 to 5.7 µm (AMS3140-01) - 1.7 to 7.0 µm (AMS6140-01) 🔹 Active area: 1 mm × 1 mm 🔹 Built-in temperature controller 🔹 Bandwidth: - DC up to 4 MHz (AMS3140-01) - DC up to 2.6 MHz (AMS6140-01) 🔹 Single low voltage power supply: 3.3 V 👉 See more: https://lnkd.in/dRVNVGUp 📌 The AMS detection module series have dedicated accessories that we designed for easy integration, rapid prototyping and proof-of-concept development. They include: 🔹 electrical adapter, 🔹 external amplifiers, 🔹 external low-pass filter, 🔹 semi-flex board, 🔹 heatsink. 👉 See more: https://lnkd.in/dDD7X57d See you soon in San Francisco!
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#Galvanometer #Current_Detection Brief History 1820s: A.M. Ampere introduced galvanometer for detecting electric current. 1880s: Moving-coil galvanometers were developed. 1920s: Refinements, including damping mechanisms, enhance practicality. 1980s: Integration of digital technology and microprocessors improved precision A galvanometer is a device used for detection and measurement of small electric currents. It typically consists of a coil of wire, often wound around a movable needle or pointer, placed within the magnetic field of a permanent magnet. Galvanometers are fundamental components in various instruments, such as ammeters and voltmeters, providing a means to measure electrical currents accurately. The galvanometer, originating from André-Marie Ampère's 1821 experiments, evolved with enhancements by Ányos Jedlik in the 1830s and William Thomson's mirror galvanometer in 1867. Integral to telegraphy in the late 19th century, further refinements in the early 20th century set the stage for its application in electronic test equipment, marking continuous progress. #Science_Safari #Model_Club
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Check out this GaN PA bias solution! Auto calibration with a simple I2C command.
Explore how PMICs can be used to make the design of a phased array radar system easier. While at the same time, the implementation of these PMICs can help designers create a more optimized, robust and self-calibrating radar system with superior performance.
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🌟 Introducing the High-Precision Single-Axis Inertial Navigation Test Rotary Table (No. BE-INS-23C17) 🌟 🔧 This advanced rotary table is a game-changer for the development, production, in-process testing, calibration, and final inspection of inertial components, instruments, and MEMS sensors. With its exceptional angular position accuracy, repeatability, and angular velocity stability, it's the perfect choice for both laboratory and production line settings. 🔄 Key Features: High angular position accuracy and repeatability Wide rotation angle range Excellent angular velocity stability Whether you're working on the cutting edge of technology in a lab or ensuring quality on the production line, the BE-INS-23C17 offers the precision and reliability you need. Explore the capabilities and see how it can enhance your testing and calibration processes. 🔗 Learn more about the BE-INS-23C17:https://lnkd.in/gBMc6-uP #InertialNavigation #MEMSSensors #Calibration #HighPrecision #TechInnovation #InertialComponents #TestingEquipment #EngineeringExcellence #QualityControl #ProductionLine #LaboratoryEquipment
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🌟 Introducing the High-Precision Single-Axis Inertial Navigation Test Rotary Table (No. BE-INS-23C17) 🌟 🔧 This advanced rotary table is a game-changer for the development, production, in-process testing, calibration, and final inspection of inertial components, instruments, and MEMS sensors. With its exceptional angular position accuracy, repeatability, and angular velocity stability, it's the perfect choice for both laboratory and production line settings. 🔄 Key Features: High angular position accuracy and repeatability Wide rotation angle range Excellent angular velocity stability Whether you're working on the cutting edge of technology in a lab or ensuring quality on the production line, the BE-INS-23C17 offers the precision and reliability you need. Explore the capabilities and see how it can enhance your testing and calibration processes. 🔗 Learn more about the BE-INS-23C17:https://lnkd.in/g5dCjh4m #InertialNavigation #MEMSSensors #Calibration #HighPrecision #TechInnovation #InertialComponents #TestingEquipment #EngineeringExcellence #QualityControl #ProductionLine #LaboratoryEquipment
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