Showing results: 31 - 37 of 37 items found.
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SPECS Surface Nano Analysis GmbH
As Scanning Probe Microscopy (SPM) is a key tool for nanotechnology, SPECS offers dedicated solutions for highly demanding requirements.In UHV, strong emphasis lies on spectroscopic methods such as scanning tunneling spectroscopy and inelastic tunneling spectroscopy as well as single atom and molecule manipulation. With the invention of a Joule-Thomson cryostat by Prof. Wulf Wulfhekel, SPECS now offers the JT-STM , operating sample and sensors in thermal equilibrium below 1K with optional high magnetic field.
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Ranger HRC -
Teledyne FLIR
The Ranger HRC is a high-resolution mid-wave thermal imaging system built around a large format 640x480 array and a choice of powerful continuous-zoom telescopes. While the Ranger HRC is available in its standalone, environmentally hardened enclosure, it can also include and optional high-magnification CCD-TV camera, laser rangefinder, digital magnetic compass and an integrated, gyro-stabilized, pan/tilt mechanism that provides precise target geo-location capability. Operators can field Ranger HRC as a portable stand-alone system, or integrate it into a network of fixed-site sensors via its suite of plug-and-play interface options.
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Barben Analytical
The analyzer is suitable for direct field installation (NEMA 4X) in hazardous area (Class I, Division 2). The optical fiber sensor platform allows small inline sensors to be installed into sample tubing lines (1/4”), flow cells using NPT fittings, or directly into tanks or process lines using our retractable “hot tap” sensor design. BOS optical oxygen sensors are impervious to typical O2 poisons (H2S) and interferences (combustibles, magnetic, CO2 and H2) with high accuracy and long-term stability measurements without the need for complex or advanced sample conditioning systems. The threaded version of the optical sensor has optional Dual Seal (ANSI/ISA 12.27.01) classification for high pressure applications up to 1200 PSIG (82.7 BAR).
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INFINITY-Deep AEMD-USB -
JFE Advantech Co., Ltd.
INFINITY-Deep is an autonomously deployable data logger for current speed measurements in the deep oceans. The currents in the deep oceans are very weak. It is too hard to accurately measure the deep water currents by some ADVs (Acoustic Doppler Velocimeters) that detect the Doppler-effect by scatter with the suspended particles in the water, because the concentration is very low. INFINITY-Deep measures 2-D current data through a magnetic field according to Faraday's law. Therefore, even if the suspended particles do not exist around the sensor, it can provide the accurate current data. The depth rating is 6,000m. Compared to INFINITY-EM, the instrument has a depth and a tilt sensors to monitor mooring status. Also, the battery capacity doubles for long-term current velocity measurements.
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Varcorder -
SensorLink
The Varcorder measures and records Amps and Power Factor. A voltage constant is then applied in software to calculate VARs. The Varcorder uses the same current sensor technology as the original Ampstik. This patented amp sensor does not use magnetic materials and has no moving parts. The opening of the sensor is electronically closed, and external currents are electronically rejected. The accuracy, external current reject, and range of currents measured by the patented amp sensor substantially exceed the performance of the best clamp-on sensors. The true power factor is calculated by measuring the electric field in comparison with the current reported from the amp sensor. The key feature of the unit is the ability to leave it deployed on the line to record readings every 15 minutes for 90+ days. It easily attaches to the line with a standard shotgun style hotstick. Once on the line, it immediately begins to collect and record the current and power factor on the line.
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SystematIC
On basis of extensive experience in Hall Sensor readout and related intellectual property SystematIC has developed several customer-specific and application-specific Hall IC products.For isolated current sensing at DC and low frequencies the Hall sensing technique is a valuable technique. It allows full integration of the sensor elements (Hall plates) and the readout electronics in standard CMOS technology. SystematIC succeeded in combining the full integration with good accuracy parameters and high bandwidth. With a compact die containing magnetic field sensors and programmable readout amplifiers SystematIC contributed to the customers fully integrated current sensor product.SystematIC did the full integrated circuit development and supported in wafer and final test programming. As a result of cooperation with our customer a current-sensor-IC with low offset, high gain accuracy, low TC's and excellent isolation properties has been released for production.
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MR3 -
Alpha Lab, Inc.
The MR3 Magnetoresistive Milligauss Meter measures and displays the three vectorcomponents (X, Y, Z) as well as the magnitude (M) of the static magnetic field. Update is two times per second. The three sensors are in a 25 mm (1") cube at the end of a flexible 100 cm (40") cable. It can be powered by 4 AA batteries (included) or a Worldwide AC adaptor (included). It can collect and store data (X, Y, Z and M) for later download or stream data live via USB connector. Both the instantaneous values of X, Y, Z and M, and their peak values, are displayed on the meter screen. "Peak" values are the highest values seen since the peak reset button was pressed. Maximum error of sensitivity is +/- 0.5 % of the reading, and the maximum error of the offset is +/- 0.50 milligauss. Range is +/- 1999.99 milligauss with resolution 0.01 milligauss (or 1 nT) over the full range, displayed simultaneously for X, Y, Z and M.
