Filter Results By:

Products

Applications

Manufacturers

Sensors

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

See Also: Measurement, Detectors, Meters, Transducers


Showing recent results 2686 - 2700 of 2820 products found.

  • PXI BRIC4 FIBO Matrix Dual 124x4 2pin Brkout

    40-592A-014 - Pickering Interfaces Ltd.

    The 40-592A FIBO (Fault Insertion Break-Out) Matrix Module is a large-scale high density switching matrix based on the Pickering BRIC format. The fault insertion BRICs are designed for applications requiring the simulation of a variety of faults in complex, high pin count, applications involving sensors and control units. Typical faults that can be simulated are open-circuits, short circuits to ground or battery, or short-circuits between input/output lines. Typical applications are in automotive and aerospace industries which involve safety or mission critical systems that have to behave predictably when cabling or sensor faults occur.

  • PXI BRIC8 FIBO Matrix Dual 248x4 2pin Brkout

    40-592A-118 - Pickering Interfaces Ltd.

    The 40-592A FIBO (Fault Insertion Break-Out) Matrix Module is a large-scale high density switching matrix based on the Pickering BRIC format. The fault insertion BRICs are designed for applications requiring the simulation of a variety of faults in complex, high pin count, applications involving sensors and control units. Typical faults that can be simulated are open-circuits, short circuits to ground or battery, or short-circuits between input/output lines. Typical applications are in automotive and aerospace industries which involve safety or mission critical systems that have to behave predictably when cabling or sensor faults occur.

  • Data Acquisition & Telemetry Buoy System

    LOTUS - MacArtney A/S

    The MacArtney LOTUS buoy system consists of a spherical buoy corpus made from durable GRP, a turbidity sensor with antifouling wiper, a rechargeable battery pack and a data logger with integrated telemetry modem. The buoy is equipped with an “AQUAlogger 210 TYT” turbidity sensor provided with 4 measuring ranges selected automatically. To avoid biological growth on the optical window, the instrument is equipped with an antifouling wiper. The sensor is protected by a cage firmly attached to the buoyant body.The buoy and the data acquisition system has an open architecture that allows for integration of other types of sensors like CTDs, fluorometers, etc.

  • Infrared Gas Analyzers

    Campbell Scientific, Inc.

    Campbell Scientific offers both open-path and closed-path infrared gas analyzers for measuring carbon dioxide and water vapor. Campbell Scientific also offers a closed-path analyzer for measuring methane, nitrous oxide, or isotopologs of carbon dioxide. Designed specifically for eddy-covariance flux measurements, these analyzers offer the following benefits: integrated system design, aerodynamic intake or analyzer body, low power, synchronized measurements with the sonic anemometer, reduced spatial separation between analyzer and sonic anemometer, unrivaled flexibility in data acquisition, and data collection from additional system sensors with Campbell Scientific dataloggers.

  • Counters and Timers

    Orbit Controls AG

    Orbit Controls counters and timers are designed for connection to practically all industrial sensors and pulse sources . They can be used as process monitors to display the process variable to be measured or as process controllers for control and monitoring tasks. The devices display and process pulses and frequencies, as well as quadrature signals from incremental and absolute encoded rotary encoders. In addition to information on the display, the devices also generate data and analog outputs and monitor preselected limit values. The process parameters are entered via the keyboard so that the display is calibrated in the required units and the output signals, serial interfaces and limit values ​​are optimized.

  • 25 kS/s, 24-Bit, 8-Channel PXI Strain/Bridge Input Module

    PXIe-4330 / 781346-01 - NI

    25 kS/s, 24-Bit, 8-Channel PXI Strain/Bridge Input Module—The PXIe‑4330 is a simultaneous input module that provides integrated data acquisition and signal conditioning for bridge-based sensors. The PXIe‑4330 includes increased accuracy, high data throughput, and synchronization features, making it ideal for high-density measurement systems. To remove noise, the PXIe‑4330 offers antialiasing and digital filters per channel. Each channel also features an independent, programmable excitation voltage. Additionally, the PXIe‑4330 provides remote sensing, internal bridge completion, and shunt calibration options per channel.

  • High Quality UCI - And Leeb-measuring Technology

    SONODUR Product Family - Foerster Instruments, Incorporated

    The non-destructive UCI test method (Ultrasonic Contact Impedance) as well as the Leeb test method enable fast and mobile measurement as a supplement to the classical hardness test. Due to the compact measuring probes and sensors of the SONO series, the devices can also be used in difficult test positions and with complex component geometries. Fields of application are e.g. incoming goods inspection, mix-up testing, production control, quality assurance, weld seam testing, cut edge testing, maintenance on installed components as well as the replacement of dynamic hardness testers for small material thicknesses (below 50 mm, e.g. boilers, tubes).

  • 8 AI (14-Bit, 20 kS/s), 2 AO (5 kS/s/ch), 13 DIO USB Multifunction I/O Device

    USB-6001 / 782604-01 - NI

    8 AI (14-Bit, 20 kS/s), 2 AO (5 kS/s/ch), 13 DIO USB Multifunction I/O Device - The USB‑6001 is a low-cost, multifunction DAQ device. It offers analog I/O, digital I/O, and a 32‑bit counter. The USB‑6001 provides basic functionality for applications such as simple data logging, … portable measurements, and academic lab experiments. The device features a lightweight mechanical enclosure and is bus powered for easy portability. You can easily connect sensors and signals to the USB-6001 with screw-terminal connectivity. The included NI‑DAQmx driver and configuration utility simplify configuration and measurements.

  • 8 AI (16-Bit, 100 kS/s), 2 AO (5 kS/s/ch), 13 DIO USB Multifunction I/O Device

    USB-6003 / 782608-01 - NI

    8 AI (16-Bit, 100 kS/s), 2 AO (5 kS/s/ch), 13 DIO USB Multifunction I/O Device - The USB‑6003 is a low-cost, multifunction DAQ device. It offers analog I/O, digital I/O, and a 32‑bit counter. The USB‑6003 provides basic functionality for applications such as simple data logging, … portable measurements, and academic lab experiments. The device features a lightweight mechanical enclosure and is bus powered for easy portability. You can easily connect sensors and signals to the USB‑6003 with screw-terminal connectivity. The included NI‑DAQmx driver and configuration utility simplify configuration and measurements.

  • 8 AI (16-Bit, 50 kS/s), 2 AO (5 kS/s/ch), 13 DIO USB Multifunction I/O Device

    USB-6002 / 782606-01 - NI

    8 AI (16-Bit, 50 kS/s), 2 AO (5 kS/s/ch), 13 DIO USB Multifunction I/O Device - The USB‑6002 is a low-cost, multifunction DAQ device. It offers analog I/O, digital I/O, and a 32‑bit counter. The USB‑6002 provides basic functionality for applications such as simple data logging, … portable measurements, and academic lab experiments. The device features a lightweight mechanical enclosure and is bus powered for easy portability. You can easily connect sensors and signals to the USB‑6002 with screw-terminal connectivity. The included NI‑DAQmx driver and configuration utility simplify configuration and measurements.

  • 8-Channel, 51.2 kS/s/channel, -5 V to 5 V, C Series Sound and Vibration Input Module

    NI-9231 / 783610-01 - NI

    8-Channel, 51.2 kS/s/channel, -5 V to 5 V, C Series Sound and Vibration Input Module - The NI-9231 is a high-density sound and vibration module that can measure signals from integrated electronic piezoelectric (IEPE) and non-IEPE sensors such as accelerometers, tachometers, and … proximity probes. It can perform the high dynamic range measurements necessary for modern measurement microphones and accelerometers and features simultaneous sampling. The NI-9231 incorporates both a TEDS input path and 2 mA of IEPE signal excitation source that can be turned on and off, removing the need for external sensor power and reducing the complexity of the data acquisition system.

  • Non-Enclosed, 10 kS/s/channel, 350 Ω Quarter-Bridge Strain Gage, 8-Channel C Series Strain/Bridge Input Module

    sbRIO-9236 / 781580-01 - NI

    Non-Enclosed, 10 kS/s/channel, 350 Ω Quarter-Bridge Strain Gage, 8-Channel C Series Strain/Bridge Input Module - The sbRIO‑9236 measures dynamic strain on all channels simultaneously, allowing for synchronized, high-speed measurements. This capability is important for … applications, such as impact tests, that require comparison across many channels at a particular instant in time. The sbRIO‑9236 includes built-in voltage excitation for quarter-bridge sensors. It also has 60 VDC isolation and 1,000 Vrms transient isolation, providing high‑common‑mode noise rejection and increased safety. Non-enclosed modules are designed for OEM applications.

  • Non-Enclosed, 10 kS/s/channel, 120 Ω Quarter-Bridge Strain Gage, 8-Channel C Series Strain/Bridge Input Module

    sbRIO-9235 / 781579-01 - NI

    Non-Enclosed, 10 kS/s/channel, 120 Ω Quarter-Bridge Strain Gage, 8-Channel C Series Strain/Bridge Input Module - The sbRIO‑9235 measures dynamic strain on all channels simultaneously, allowing for synchronized, high-speed measurements. This capability is important for applications, … such as impact tests, that require comparison across many channels at a particular instant in time. The sbRIO‑9235 includes built-in voltage excitation for quarter-bridge sensors. It also has 60 VDC isolation and 1,000 Vrms transient isolation, providing high‑common‑mode noise rejection and increased safety. Non-enclosed modules are designed for OEM applications.

  • Solar Tracking and Pyranometers

    Sutron Corporation

    The demand for energy increased rapidly over the past few decades and the trend is not expected to stop in the near future. These made researchers focus on renewable energy sources due to the environmental pollution caused by the existing conventional energy sources. Solar energy is one of the renewable energy that has been under deep research. Unfortunately, the main problem with this solar energy is lack of efficiency. Different positions of the sun throughout the day causing the static photovoltaic modules position inefficient. This paper discusses design of two-axis solar tracking system that considers multiple input parameters such as solar radiation and photovoltaic module output power for more efficient solar tracking algorithm. Some of solar tracking system conducted by other researchers uses various types of sensors including light dependent resistor (LDR) which is not efficient and can be easily affected by external environmental factors. Instead, this paper proposes the usage of pyranometer for measuring solar radiation as one of the input parameters. The solar tracking system controlled by PIC microcontroller that collects multiple input parameters and uses developed algorithm to control stepper motor movement for optimal photovoltaic module positioning. Solar Tracking System Utilizing Pyranometer for Optimal Photovoltaic Module Positioning (PDF Download Available). Available from: http://www.researchgate.net/publication/258106747_Solar_Tracking_System_Utilizing_Pyranometer_for_Optimal_Photovoltaic_Module_Positioning [accessed Dec 2, 2015].

  • Power Cell Power Transducers for Wide Ranging AC/DC Loads

    PH-3A and PH-1000 - Powertek LLC

    You can know the load on an electric motor by measuring the electric current going to the motor (Amps). But, this is not the best way to do it since a lightly-loaded motor doesn't use the electricity very efficiently. (In technical terms, the power factor is low.)A better way to know the load is to measure the motor power. (Power is measured in Horsepower or Watts.) Motor power gives you a straight line so it works well even when the motor is lightly loaded.The Power Sensors that we make measure the motor load (Horsepower or Watts) and send a signal to meters or computers. The operator can see what the status is on the meter or, the computer can make decisions.

Get Help