Showing results: 2281 - 2295 of 2760 items found.
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AIM GmbH
AIM’s > ARINC 429 test, simulation, monitoring and analysis modules use our field proven Common Core hardware design giving you the best performance, best feature set and highest functional integration on the market. The use of SoC (System on Chip) based core designs with multiple processors for real time bus protocol and application support, massive memory and IRIG-B time code encoder/decoder functions are standard. The latest versions also support avionics discrete I/O.
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NI
LIN Interface Devices are bus interfaces for developing applications with the NI-XNET driver. The NI-XNET device-driven DMA engine couples the LIN bus to host memory to minimize message latency. You can import, edit, and use signals from LDF databases in integrated LIN databases. LIN Interface Devices work well for applications requiring real-time, high-speed manipulation of many LIN frames and signals, such as hardware-in-the-loop simulation, rapid control prototyping, bus monitoring, and automation control.
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NI
PXI FlexRay Interface Modules provide two fully functional FlexRay interfaces, allowing an individual electronic control unit (ECU) to be connected to the interface when other cold-start nodes are not available. You also can use the interfaces individually to connect two separate FlexRay networks while maintaining full performance on each interface. PXI FlexRay Interface Modules work well in applications such as hardware-in-the-loop (HIL) simulation, rapid control prototyping, bus monitoring, and automation control.
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780587-25 -
NI
64‐Channel, 2 A, Multibank, 2‐Wire PXI Multiplexer Switch Module —The PXIe‑2525 is a high‐density PXI multiplexer switch module that is ideal for routing signals within automated test systems. It uses electromechanical relays to perform immediate switch operations in one of the following 2‑wire multiplexer configurations: 16 bank 4x1, octal 8x1, quad 16x1, dual 32x1, and 64x1. The PXIe‑2525 also features onboard relay counting for relay monitoring.
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Teledyne Advanced Pollution Instrumentation
Teledyne API produces a wide range of instruments for the measurement of Nitrogen compounds, including those that measure 'True NO2'. All T Series instruments offer two front-panel USB ports, an advanced touch screen full color display, customizable user interface with predictive maintenance alerts, one-touch real-time graphing, and multiple language support. All of our instruments are designed meet the rigorous demands of ambient air quality, stack, or industrial process gas monitoring
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Teledyne Advanced Pollution Instrumentation
Teledyne API’s range of instruments for Oxygen compounds utilize advanced technology to produce some of the most accurate measurements available.All T Series instruments offer two front-panel USB ports, an advanced touch screen full color display, customizable user interface with predictive maintenance alerts, one-touch real-time graphing, and multiple language support. All of our instruments are designed meet the rigorous demands of ambient air quality, stack, or industrial process gas monitoring.
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Teledyne Advanced Pollution Instrumentation
Teledyne API's Sulfur compound analyzers utilize familiar UV Fluorescence technology to produce reliable and accurate gas measurements. All T Series instruments offer two front-panel USB ports, an advanced touch screen full color display, customizable user interface with predictive maintenance alerts, one-touch real-time graphing, and multiple language support. All of our instruments are designed meet the rigorous demands of ambient air quality, stack, or industrial process gas monitoring.
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Blaze -
Larson Davis, Inc.
Blaze software is the ideal data analysis and reporting tool for Industrial Hygiene and Safety professionals. From simple, concise compliance reports to powerful detailed data presentations, Blaze excels in supporting various exposure sampling methods and interfaces with the Spark family of personal Noise Dosimeters, the SoundTrack LxT Sound Level Meter and the HVM100 Human Vibration Meter. From instrument setup to presentation-ready reports to exposure record management, Blaze makes noise and vibration exposure monitoring more convenient and productive
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PCE Instruments
A sound level meter is a measuring instrument used to assess noise or sound levels by measuring sound pressure. Often referred to as a sound pressure level (SPL) meter, decibel (dB) meter, noise meter or noise dosimeter, asound level meter uses a microphone to capture sound. The sound is then evaluated within the sound level meter and acoustic measurement values are shown on the display of the sound level meter. The most common unit of acoustic measurement for sound is the decibel (dB); however, some sound level meter devices also determine the equivalent continuous sound level (Leq) and other acoustic parameters. With a portable sound level meter, industrial hygiene and workplace safety professionals can measure sound levels in multiple locations to ensure environmental conditions fall within recommended exposure limits (RELs). Some sound level meter devices can be permanently installed for continuous monitoring of sound levels at a work or job site. PCE sound level meter products are lightweight, easy-to-use and manufactured in accordance with the highest industrial standards.
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OndoSene reach WA (D) -
OndoSense
Mit seinem breiten Erfassungsbereich eignet sich der OndoSense reach WA (Wide Angle) besonders gut zur Erkennung von Hindernissen wie Fahrzeugen, Personen oder Objekten sowie zur Positionierung von Robotern und Maschinen. Er erfasst statische und bewegte Objekte selbst im Nahbereich ab 0,1 Metern und ist aufgrund seiner sehr kleinen Bauform auch bei beengten Platzverhältnissen problemlos integrierbar. Mit bis zu 4 einstellbaren Sensorzonen ist der OndoSense reach WA ideal für das flexible Monitoring von Sicherheitsbereichen oder die Kollisionsvermeidung mobiler Roboter oder anderer Fahrzeuge geeignet. Dank innovativer Radartechnik detektiert der Radarsensor Objekte jeglicher Beschaffenheit auch im Außenbereich oder in schwierigen Umgebungen mit Schmutz, Rauch, Dampf, Regen oder schlechten Lichtverhältnissen stets verlässlich. Durch seine hohe Messrate von 200 Hz erkennt er Hindernisse auch bei schnellen Bewegungen stets zuverlässig.
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Hawk Radius® -
International Medcom
The Hawk® Radius is a ruggedized solution for monitoring both ambient and elevated levels of ionizing radiation. Like a Hawk with its remarkable vision, the Hawk Radius Probe “sees” things that other probes cannot. The high sensitivity weatherized pancake sensor can provide early warning of changing ambient radiation conditions, while the energy compensated detector can accurately report penetrating gamma radiation dose rate at elevated levels. Radius probes are typically deployed as part of an environmental radiation monitoring program, or for safety and security systems. In its standard configuration the probe detects beta, low energy gamma and x-radiation with one channel and energy compensated penetrating gamma radiation levels with a second channel. It can be configured to detect alpha radiation as well. The Hawk® Radius has been deployed worldwide in demanding conditions for protecting communities and collecting environmental radiation data. It can be deployed easily and requires minimum maintenance. The Radius is compatible with Medcomʻs GeigerLink adapter and the IMI Gateway App for use with personal computers. It can also be used with most data loggers including popular Campbell Scientific models.
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MAXREFDES143# -
Maxim Integrated
The MAXREFDES143# is an Internet of Things (IoT) embedded security reference design, built to protect an industrial sensing node by means of authentication and notification to a web server. The hardware includes a peripheral module representing a protected sensor node monitoring operating temperature and remaining life of a filter (simulated through ambient light sensing) and an mbed shield representing a controller node responsible for monitoring one or more sensor nodes. The design is hierarchical with each controller node communicating data from connected sensor nodes to a web server that maintains a centralized log and dispatches notifications as necessary. The mbed shield contains a Wi-Fi module, a DS2465 coprocessor with 1-Wire® master function, an LCD, LEDs, and pushbuttons. The protected sensor node contains a DS28E15 authenticator, a DS7505 temperature sensor, and a MAX44009 light sensor. The mbed shield communicates to a web server by the onboard Wi-Fi module and to the protected sensor node with I2C and 1-Wire. The MAXREFDES143# is equipped with a standard shield connector for immediate testing using an mbed board such as the MAX32600MBED#. The simplicity of this design enables rapid integration into any star-topology IoT network requiring the heightened security with low overhead provided by the SHA-256 symmetric-key algorithm.
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Herrin Design & Manufacturing Co.
The Herrin Design Model 1644 Well System Pump Control is designed to provide a cost effective means of controlling water system reservoir levels. Through precise monitoring, the Well Control is able to reliably sense reservoir water levels by measuring water pressure at the well head. By monitoring reservoir levels at the well head, it is possible to mount the water system controls in one location, eliminating the costly communications link--leased lines or buried cables--between reservoir level sensors and the pumps. Typically, mechanical sensors at the reservoir deteriorate or are broken frequently due to weather; and communications lines are a large, continued expense.The Well Control tolerates temporary variations in water pressure due to surges and usage. The pump will not start until there is a constant low pressure level for 2-3 (variable) minutes (OFF TIME). This insures the pumps are activated only when necessary. Once the pump is turned on, it remains on for a preset period of time--up to 24 hours (ON TIME). During the pump cycle, the control does not rely on water pressure measurements to indicate if the reservoir is full. This feature eliminates sporadic pumping due to pressure variations created during the pumping cycle.
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Photo Emission Tech., Inc.
PET manufactures and markets non-destructive, non-contact surface contamination and thin film detection models and automated systems (surface quality monitoring system) capable of detecting thin layer contamination, thin films and coating down to the Angstrom level. These systems represent a major breakthrough by providing, for the first time, a quantitative measure of surface cleanliness. As surface cleanliness verification instruments, in a part cleaning environment, these products are capable of validating the cleaning quality of all the part cleaning equipment available in the market. Any of SQM model series is capable of verifying metal contamination; monitoring absence/presence of organic and/or inorganic on virtually on surfaces of all metals. They are, price/performance, the most sufficient product available for testing surface of metals for surface cleanliness. These systems operate in an ambient environment, require no sample preparation or deposit of any agents on the surface. In any parts cleaning environment where the quality and efficiency of part cleaning equipment for removal of surface contamination is highly desired, these systems provide a scientific solution by quantitatively measuring the surface cleanliness. The SQM series has the sensitivity and operational simplicity required to provide fast and cost effective surface evaluation for all metals.
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REA ScanCheck 3 -
REA Elektronik GmbH
The REA ScanCheck 3 is an universal, battery-operated, high-performance barcode verification device which operates in accordance with current standards. The verifications document compliance with quality goals in production and monitoring of barcodes on data storage devices and products of all kinds. The measurement principle is based on a laser scanner optimized for verifications. This makes contact-free measurement, largely independent of handling influences, possible. For mobile use on site, the device operates self-sufficiently, independent of the power network with standard, rechargeable batteries. The operating system and application software support multiple languages.
