Showing results: 76 - 84 of 84 items found.
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Narda Safety Test Solutions
Real-Time Outdoor Remote Analyzer for the Detection, Analysis, Classification and Localization of RF Signals between 8 kHz and 8 GHz. Supports automatic direction finding and localization via AoA and TDOA. For fixed installation or semi-static use on demand. Solves complex measurement and analysis tasks reliably and quickly with outstanding RF performance. Windows 10-based open platform for third-party applications. The "SignalShark 3330 Outdoor Unit" series is characterized by a robust and weatherproof die-cast aluminum housing with IP65 protection class, which is also used as a heat sink. The compact size allows the receiver to be mounted close to the antennas, keeping the antenna cables short and the resulting sensitivity high.
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MicroSafe 500 & 600 Series -
Teledyne Gas & Flame Detection
MicroSafe 500 and 600 Series gas detectors feature a non-intrusive operator interface. Calibration and programming instructions appear in simple intuitive and sequential script on a 16-character backlit display. The transmitter design incorporates extensive fault diagnostics with each condition conveniently identified on the transmitter display.The 500 Series comes standard with a linear 4-20 mA output, one-man remote calibration, self-adjusting zero and span, and LED indicators for fault and calibration status.The 600 Series includes the same features as the 500 with the addition of 3 alarm relays and an RS-485 serial communications port.Electrical Classification - Explosion proofClass I, Div 1, Groups B, C, D
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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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SUMIT360™ -
Teledyne FLIR
The SUMIT360™ provides military armored vehicle operators with an innovative, 360 degree view of the environment around the vehicle utilizing advanced sensor technology to improve threat and obstacle detection that could pose a threat to ground forces, and their mission. Equipped with powerful multi-spectral sensors in each module, the system uses on-board processing to form seamless, stitched images to provide a full field of view in any terrain, and virtually any conditions, day or night. With additional target detection and identification capability, the system can also be paired with advanced analytics and Artificial Intelligence (AI) to provide vehicle crew, and transported troops a threat detection and classification to provide critical decision support before opening the hatch. The system also provides the ability to support remote or optionally manned configurations.
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MCX-32 -
Teledyne Gas & Flame Detection
The MCX-32 controller features a flexible design that allows the user to customize a system by choosing from a selection of individually addressable field devices or use addressable input and output modules. Detcon’s full range of gas sensors (purchased separately) can be used to create a gas detection system consisting of toxic gas, combustible gas, and/or oxygen deficiency. A wide range of field devices such as liquid level, temperature, pressure, flow, etc., can also be configured for input to the control system. Four standard I/O modules are available: a 4-channel 4-20mA input module (DA-4), a 4-alarm relay output module (RL-4), a 4-channel 4-20mA output module (AO-4), and a 4-relay contact input module (DI-4). I/O modules are din-rail mounted and stackable allowing for seamless system expansion. The I/O modules may be mounted within the main system enclosure or in separate enclosures suitable for the area classification where installation will occur. In many cases using distributed I/O nodes can significantly reduce wiring and installation costs.
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IBEKO Power AB
Making a product “safe” requires an understanding of “hazards” that exist in each electrical product. Electrical shock is one of the four fundamental hazards. Because of that, it must be a part of any product electrical safety evaluation. Even though a product requires an electrical power source and uses electrical or electronic components, it should not present an electrical shock hazard to the user.Ground bond or earth continuity testing prevents electrical shock hazards. Similarly to a fault to earth, test instruments generate a high current. The standard requires that the resistance between protective earth and any conductive surface on the equipment does not exceed 0,1 Ohm. The test is performed by applying a DC current between the conductive surface and protective earth. By measuring the voltage drop, it calculates the resistance.RMO-E instruments are ideal for testing the protective bonding (grounding) of equipment following the standard IEC 61010-1. Applying current up to the value of 100 A and the ability to provide in the Contin menu (continuous operation) test current for the pre-set test duration (equal or exceeding 1 min) gives a user a possibility to easily check the protective bonding/grounding of the equipment. The full load voltage of 12 V assures proper measurement and accurate result. Finally, an instrument displays pass/fail classification according to user-preset parameters.
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AIE500-901-FL -
Axiomtek Co., Ltd.
The AIE500-901-FL is an advanced Artificial Intelligence embedded system for edge AI computing and deep learning applications. The high-performance embedded system employs an NVIDIA Jetson™ TX2 module which has a powerful 64-bit ARM® A57 processor; NVIDIA® Pascal™ GPU with 256 CUDA cores; and 8GB of 128-bit LPDDR4 memory. To withstand the rigors of day-to-day operation, the AIE500-901-FL has an extended operating temperature range of -30°C to +60°C and vibration of up to 3 Grms with its strong construction. This fanless Artificial Intelligence edge system is dedicated to achieving operational excellence, efficiency, reliability in smart manufacturing and intelligent edge applications. The edge computing device provides solutions as Edge AI embedded system, specifically designed for video analysis, object classification, computer vision, quality control and more. Under the ultra-compact enclosure design, the AIE500-901-FL comes with 32GB eMMC onboard and is equipped with one M.2 Key M 2280 SSD slot with PCIe and SATA signal and one Micro SD slot for massive data processing and AI applications. Besides, this reliable embedded system has one full-size PCI Express Mini Card slot and one SIM slot for 3G/4G, GPS, Wi-Fi and Bluetooth connections.
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Cincinnati Sub-Zero Products
We supply a variety of test chambers for testing small battery cells to large lithium ion battery packs. Battery test chambers are supplied to a variety of industries including telecommunications, computer and automotive. With the goal of reducing automobile emissions and the development of electric vehicles, the need for lithium ion battery testing is even more critical. Our proven experience provides the most cost-effective solutions. Each test chamber is built according to specific test requirements and may be interfaced with battery cyclers, control & monitoring data acquisitions systems and other test equipment for a complete integrated test solution. All environmental chambers are designed with safety in mind. A variety of safety features are provided for reliability and abuse testing of batteries. These features may be incorporated into CSZ test chambers and tailored to the various hazard levels of EUCAR (European Council for Automotive R&D), a consortium of European car manufacturers. To better assess the hazard potential of tests, EUCAR has investigated hazardous situations and divided them into eight risk classes. The development of the safety equipment of our battery test systems is also based on this classification. For each hazard level, we recommend specific safety options that can be included with your chamber to meet your specifications to safety test your product. Together with our customers, we assess which safety devices are necessary for the respective test chambers.
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B&W Tek, Inc.
We offer a full suite of software for spectroscopic data collection and analysis designed for users at all levels, and varying applications. Our standard BWSpec® spectral data acquisition software allows for easy collection of data from our Raman systems and modular spectrometers. It includes tools for instrument control for data collection and spectral manipulation. The raw data and corrected data are stored and can be easily viewed. Data manipulation tools include smoothing, baseline correction and derivatives. Data can be saved in different formats for use in additional application software. For spectral identification against Raman spectral libraries with a simple interface for immediate identification for verification with a pass/fail result, our BWID® software provides qualitative analysis. Users of BWID software can create their own Raman spectral libraries, or select from our numerous ready to use libraries. For identification with portable Raman in regulated environments, the US FDA 21 CFR part 11- complaint version of BWID can be used. B&W Tek’s unique see-through identification using the STRam® can also be done using the BWID software operating on the embedded tablet computer of the STRam system. For quantitative analysis, data collected with BWSpec or other packages can be imported into the BWIQ® multivariate data analysis software, offering a full suite of data preprocessing, regression and classification analysis algorithms. PLS regression models from the BWIQ software an be used in rel-time in our BWAnalyst software, for use with the QTRam , as well as in Metrohm’s Vision® software. The i-Raman series portable Raman instruments can also be operated for single acquisition, or for real-time analysis in the Routine Analysis mode of the Vision software.
