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detect a physical event then translate to a representative analog signal.

See Also: Measurement, Detectors, Meters, Transducers


Showing recent results 1501 - 1515 of 2247 products found.

  • Pressure Sensor Interface

    USB2251 - Validyne Engineering

    The USB2251 Pressure Sensor Interface provides real-world data acquisition for your PC via the USB port. 8 calibrated variable reluctance pressure sensor inputs are accepted by the USB2251. No external signal conditioning is required.The USB2251 includes a connector panel for sensor cables, calibration constants for each sensor , configuration and data acquisition software. The USB2251 produces a floating-point value for all readings, directly in engineering units.The USB2251 can record pressure readings up to 5000 samples per second. Combined with the fast response of the Validyne VR pressure sensors, the USB2251 is ideal for transient pressure studies. The USB2251 is compatible with the following Validyne variable reluctance pressure sensors: AP10, DP103, DP10, DP45, DP15 DP360, DP215, and DP363. Each sensor is calibrated with the USB2251 at the factory and is ready to make measurements.

  • RH With Resistive Temperature Output

    RH/ RESISTIVE TEMP - Automation Components Inc.

    The A/RH Series Relative Humidity Transmitters, convert a resistance change to a linear 4 to 20 mA, 0 to 5 VDC, or 0 to 10 VDC output. The Advanced Ceramic Technology design overcomes the limitations of other resistance-based humidity sensors that utilize water-soluble polymer coatings. The Advanced Ceramic Technology enables these sensors to recover fully from condensation. This also allows the sensor to maintain its accuracy over a longer period of time. This unit is combined with a temperature sensor to provide added installation flexibility. Temperature outputs include a wide variety of thermistors, rtds, semiconductors and temperature transmitters. Please see the cut sheet listed above the comprehensive listing of temperature outputs that are available. Each A/RH Series humidity transmitter is calibrated using a NIST Traceable Temperature and Humidity Chamber.

  • Measurement System

    FSI-RM - Optilab, LLC.

    The Optilab FSI-RM Fiber Bragg Grating (FBG) Sensor Interrogator is designed for numerous indoor, single 1U applications. The FSI-RM is a fully-integrated, high-resolution measurement system, features a high power, high speed swept wavelength laser, state-of-art embedded system for signal processing. The FSI-RM interrogator core employs advanced hardware peak detection, optimized for rapid data processing of many simultaneous FBG sensors. The FSI-RM is focused on providing measurements with higher acquisition rates, moderate dynamic range and continuous lifetime on-board referencing. The combination of high speed and excellent repeatability enables a single FSI-RM to simultaneously monitor dynamic sensors. The FSI-RM responds directly to the user commands and output sensor wavelength data via Ethernet port and our standard protocol.

  • MEMS Foundry Services

    Teledyne DALSA

    Teledyne DALSA is one of the world’s foremost pure-play MEMS foundries. We operate over 41,000 sq ft (3800m2) of clean rooms, 24/7, using both 150mm and 200mm wafers. Our comprehensive MEMS toolbox allows us to manufacture in high volume for a wide range of applications.Across many device types, from micro-mirrors for telecommunication, gyro sensors for game controllers, microfluidic devices for miniaturized medical systems, automotive pressure and inertial sensors for automobiles or microphones for smartphones, Teledyne DALSA has delivered high volume MEMS production for innovations that reduce both size and power consumption even as they increase performance.We are ISO/TS 16949 and ISO 14001 registered and RoHS compliant, well equipped and experienced to meet the demanding requirements of customers that serve all the main MEMS markets including consumer, automotive, industrial and biotech/medical.

  • Luminance Colorimeter

    XYL-VI - Lisun Electronics Inc.

    The XYL-VI Luminance Photoelectric Colorimeter changes the traditional structure thoroughly, employs the digital X(λ), Y(λ), Z(λ) sensors to replace the traditional analogue sensors, employs the digital signal measurement system to replace the traditional analogue measurement system. The instrument has no analogue unit, thus it is very simple to overcome the zero drift that is impossible to be avoided in traditional colorimeter. The digital sensor has a large dynamic range. Moreover, it possesses strong anti-interference ability and it has high accuracy. The XYL-VI Luminance Colorimeter contains internal RS232 computer interface. The calibration is done by software. It is suitable for monitoring and remote applications. The XYL-VI Luminance Colorimeter can be calibrated by XYL-VI Luminance Colorimeter software to sample the data and print out the results. It can also be corrected by other standard light sources to obtain very high measuring accuracy of x, y color coordinates and color temperature. It is a real-time measuring system and run under Windows2000/XP.

  • Fiber Optic Sensor Systems

    Fraunhofer Institute for Telecommunications

    Fiber-optic and photonic measuring systems open up innovative measuring and control technology concepts for a wide variety of applications. They play a major role in optimizing energy efficiency and are important technological innovation drivers for new and future-oriented markets.In the Department of Fiber Optic Sensor Systems of the Fraunhofer Heinrich Hertz Institute, the focus of application-oriented research is on the development of a new generation of photonic sensors. These are characterized by extreme miniaturization, high network and communication capability as well as extremely low power consumption or even a self-sufficient power supply.In the Department of Fiber Optic Sensor Systems at the Fraunhofer Heinrich Hertz Institute is focused applied research on the development of a new generation of photonic sensors. These are characterized by extreme miniaturization, high network and communication skills as well as an extremely low power consumption, or even a self-sufficient energy supply.

  • Fire Suppression/Detection

    Dexter Research Center, Inc.

    Dexter's sensitive yet rugged fire detectors, or fire sensors, serve as the foundation of US combat fire suppression systems on combat aircraft and ground vehicles ranging from the HUMVEE to the Abraham's Tank.  Our fire sensors consume low energy, making them the premier safety component on battery-powered as well as hot-wired systems.  We like to call them "the eye that never sleeps."  How fast are they?  Fast enough to race the fire caused by a rocket hitting a fuel tank and win, triggering fire suppression on the spot to help protect soldier and pilot alike. Rugged missions require rugged equipment.  Intensive MIL-STD-883H testing performed by Trialon Corporation, an independent testing facility, confirm that Dexter Research's silicon-based temperature sensor detectors meet the same rugged requirements of 1,000G's for mechanical shock and 30G's in random vibration for which our thin-film detectors are famous.  Download Dexter's report here (PDF).

  • Flexible Rope-Type Current Probe

    RCT1A and RCT5A - Powertek LLC

    These probes have great bandwidth ensuring accurate measurement even with harmonically distorted wave shapes. For all RCT1A/RCT models, a NIST, NAVLAP, NPL (UKAS) factory traceable calibration certificate and certificate of conformance is supplied. UL/CSA approved materials are used throughout. Three phase and single phase flexible AC current sensors (rope sensors) are available for fast installation in confined spaces, eliminating the need for Electrical Supply Shutdown. Available outputs are 1A @ 2.5VA and 5A @ 0.5VA, this means long cable lengths from current sensor to signal conditioner allow these low VA ratings to be used, even when feeder cable to energy meter distances are large (up to 98 feet / 30 meters)

  • Free floating Buoy

    Tarka-Systems bv

    The buoy has internal space to assemble equipment for all kind of applications. Operating on an integrated battery supply the buoy has been applied for the following projects:Wireless data-transfer from sensors on a submerged wreck to a control office on a nearby ship. Multiple incline and acceleration sensors were placed on the wreck and connected by wire to the bottom of the buoy, the data was gathered and wireless transferred over more than 100 meters.Wireless video transfer from a camera to follow the activities of a diver on a fixed object. Camera was connected by cable to the buoy and video was wireless transferred from the buoy to a video control room at a nearby ship.“Flessenpost” An IRIDIUM transmitter was placed inside a buoy and the buoy was dropped in the Nordsee, a geocaching look-a-like game was initiated to find the buoy.Survey of bottom with a camera on the diver and the buoy following the diver on the surface. Video was transferred to a control room on the quay.

  • 10-Channel Universal Temperature Measurement IC

    LTC2986 - Linear Technology

    The LTC2986 measures a wide variety of temperature sensors and digitally outputs the result, in °C or °F, with 0.1°C accuracy and 0.001°C resolution. The LTC2986 can measure the temperature of virtually all standard (Type B, E, J, K, N, S, R, T) or custom thermocouples, automatically compensate for cold junction temperatures and linearize the results. The device can also measure temperature with standard 2-, 3-, or 4-wire RTDs, thermistors, and diodes. The LTC2986 includes excitation current sources and fault detection circuitry appropriate for each type of temperature sensor. The LTC2986/LTC2986-1 are 10-channel software and pin-compatible versions of the 20-channel LTC2983/LTC2984. Additional features include special modes that enable easy protection in universal multi-sensor applications, custom tables for generic ADC readings, and direct temperature readout from active analog temperature sensors. The LTC2986-1 is the EEPROM version of the LTC2986.

  • MIPI I3C Controller IP

    DesignWare® - Synopsys, Inc.

    Synopsys’ DesignWare® MIPI I3C Controller IP is compliant with the latest I3C specification and delivers high bandwidth and scalability for integration of multiple sensors into mobile, automotive and IoT system-on-chips (SoCs). The support for in-band interrupts within the 2-wire interface provides significantly lower pin count, simplifying board design and reducing power and cost. The IP is backward compatible with I2C, allowing designers to future proof their design, and the master and slave operating modes enable systems with several ICs to efficiently connect to all sensors on a single I3C bus. The standard-based ARM® AMBA® Advanced Peripheral Bus (APB) connects the IP to the rest of the SoC while the bus is connected to the register interface and the Direct Memory Access (DMA) interface, offering easy IP integration.

  • Magnetostrictive Level Transmitter

    DM231 - AMETEK Drexelbrook

    The Drexelbrook DM231 is an explosion proof liquid level transmitter offering high accuracy measurements based on the magnetostrictive sensing technology.The DM231 comes with a Modbus RTU digital output (optional analog output converter available) for total level, interface level and temperature sensor outputs. Sensors are available in 316SS rigid designs with a choice of single or dual NPT mountings. Temperature sensors are evenly distributed over the active length of the rigid 316SS tube.Due to a wide selection of floats and mounting accessories this level transmitter fits virtually any application.The DM231 level transmitter is FM approved for Class 1 Div. 1, Zone 1 Explosion Proof hazardous area installations. It is easy to install and requires no calibration.

  • Modulated Average Power Measurement

    Spanawave Corporation

    *The Spanawave/Giga-tronics 80400A Series Modulated Power Sensors let you measure the average power of amplitude modulated, burst modulated and other complex modulated signals, such as TDMA signals - at bandwidths up to 40 kHz. This sensor works with the 8540B, 8540C, 8650A, 8650B series power meters.*The Spanawave/Giga-tronics 80600A Series Modulated Power Sensors provide bandwidth up to 1.5 MHz to measure the peak and average power of CDMA signals. This sensor works with the 8540C, 8650A, 8650B series power meters. *The Spanawave/Giga-tronics 80701A Modulated Power Sensor provides system bandwidth up to 10 MHz to measure peak and average power of wide band, third-generation CDMA signals over an 80 dB range. This sensor works with the 8650A and 8650B – option 12 required (1 GHz calibrator) series power meters.

  • Thickness Check Calix

    LAP GmbH

    For the manufacturing of a perfect cold strip, many factors are crucial. Our measuring frames specifically check the thickness-related quality parameters of the strip steel or steel sheet. Free of radioactive radiation, laser sensors are used in the cold strip areas that do not require protection measures with laser class 2, or only low precautions when using laser class 3B sensors. The installation of our measurement systems is quick and uncomplicated for our customers. The CALIX is integrated into the line with its C-shaped frame across the material flow. Our solutions with and without traversing determine all important parameters for quality assurance, including strip thickness, edge thickness, wedge or cambering, and measure the complete thickness profile. Thus, you have full process control in the current production.

  • USB Interface

    USB Interface 7Z01200 - Ophir Photonics

    Using the USB Interface, you can connect several sensors to the PC by using one module for each sensor and if necessary, a USB hub. Ophir basic sensor to USB interface for single channel turn your PC or laptop into a full fledged Ophir multi-channel laser power/energy meter. Just install the software, plug the sensor into the interface module and the USB cable from the module to the PC USB port.The basic USB Interface operates with thermal, photodiode and pyroelectric sensors and needs no external power. Just plug Ophir sensor into the USB Interface and run a USB cable from the Interface to your PC or Laptop and your computer becomes a full-fledged laser power/energy meter. System Integrator Tools included: LabVIEW VIs, COM Object Interface.