Showing results: 4696 - 4710 of 7326 items found.
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Teledyne e2v
Quantum gravity measurement is emerging as a new frontier in sensing, bringing the ability to passively detect objects and voids, through difficult to penetrate materials such as soil, rock, lead and water. Gravity measurement using cold atom interferometers is set to revolutionise nearly all industries from civil to oil and gas, mining to maritime, and medical to defence.
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T-Ray® 5000 Series -
Luna Innovations Inc.
The T-Ray® Server Software is the most versatile terahertz waveform processing software available today. Built as a modular software platform, T-Ray® Server collects, analyzes, and serves terahertz waveforms and measurement data for a broad range of customer applications.
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ODiSI 6000 Series -
Luna Innovations Inc.
The ODiSI 6000 Series is a powerful measurement system specifically designed to address the modern test challenges of advanced materials and systems. The ODiSI system delivers the highest definition distributed sensing of strain and temperature available, giving you maximum insight and visibility into your component or process.
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HYPERION -
Luna Innovations Inc.
Luna’s HYPERION platform delivers reliable and high-performance measurement and monitoring solutions. Utilizing sensors based on Fiber Bragg Grating (FBG) or Fabry-Perot (FP) sensors, Luna’s HYPERION systems have been deployed in hundreds of challenging applications all over the world, delivering reliable, long-term monitoring with dense sensor installations.
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ODiSI -
Luna Innovations Inc.
Luna’s ODiSI system provides the world’s highest resolution distributed fiber optic sensing solution for strain and temperature measurement. Using low-profile optical fiber as sensors, the ODiSI system maps strain and temperature fields with sub-millimeter spatial resolution, providing unprecedented detail and data insight.
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Hydra3D+ -
Teledyne e2v
Hydra3D+ is a 832 x 600 pixel resolution Time-of-Flight (ToF) CMOS image sensor, designed with Teledyne e2v’s proprietary CMOS technology, and is tailored for versatile 3D detection and measurement.
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EX1629 -
AMETEK VTI Instruments
48-Channel High Performance Strain Gauge Measurement InstrumentSupports quarter-bridge (120, 350Ω or user defined), half-bridge or full-bridge24-bit ADCs, sampling rates up to 25 kSa/sBuilt in programmable differential excitation -8V to 8VBuilt in selectable bridge completionConfigure signal conditioning excitation and bridge completion on a per channel basisSimple, low-cost wiring using RJ-45 telecom connectorsSupports TEDS for easy transducer detection and setupRJ-45 input connector reduces setup cost and timeBuilt in self-calibration and shunt calibrationSupports voltage, ratiometric and linear measurements other than strain measurements.
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Compass Technology Group, llc
Compass Technology Group offers a wide range of lab-grade conventional measurement methods including free space measurement systems, resonant cavities, and waveguides. Several of our free space devices are portable and bring the lab out into the field. Like with most of our products, each is customizable to fit your specific needs. From oddly shaped samples to wide band frequency ranges, we handle it all.
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Compass Technology Group, llc
CTG is a pioneer in the use of Computational ElectroMagnetic (CEM) methods for converting measured S-parameters into desired intrinsic properties (permittivity, permeability, impedance). In fact only CTG carries commercially available devices using this inversion principle. These cutting edge material measurement devices can measure in ways that are not possible using conventional waveguide or free space methods. CTG is continuing to develop new CEM-based measurement devices so check back often as the list of available devices and capabilities will continue to grow…
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Compass Technology Group, llc
Incorporated into a number of CTG products are specialized antennas or probes that enable measurement of materials in various environments. These probes can be purchased as part of a system or separately for your own application. The spot probe technology we developed is called AMMP, or Advanced Microwave Mapping Probe. It is a significant improvement over traditional dielectrically loaded horns because the metal radiating elements and dielectric loading and shape were optimized together using the latest in CEM tools.