Showing results: 241 - 255 of 264 items found.
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SNAPTrack® -
Rycom Instruments, Inc.
Built on a proven design, and with Pathfinder SAF Technology™ at its core, the SnapTRACK® offers RYCOM’s most advanced signal acquisition and filtering technology. The SnapTRACK® cable & pipe locator offers utility locators FrequencyFlex™ allowing users to adapt the system to their specific needs. Multiple active frequencies allow the user to accurately locate with a minimum of interference while maintaining the ability continue locating past faults and around conduit bends. Passive frequencies identify "live" and charged lines by their naturally occurring electromagnetic fields. The SnapTRACK® offers multiple passive frequencies -- 50Hz, 60Hz, Radio Frequency, Cathodic Protection Rectifier & CATV -- allowing line locating without the use of a transmitter.
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M40/M58 Series -
Smiths Interconnect
M40 and M58 series are qualified for heavy drive and high power applications in mechanical engineering, tooling machines, robotics, mechatronics, printing, packaging, conveyors and marine. Both series features outstanding protection against electromagnetic interference through a full 360° screen shielding.
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National Technical Systems
At NTS, our experience encompasses more than 50 years of electromagnetic compatibility testing for clients in the aerospace, aviation and other related industries. We maintain fully equipped electromagnetic interference testing facilities in Illinois, Arizona, California, Massachusetts, Texas and New Jersey. With the combined expertise of our team, it’s easy to identify the regulatory challenges your organization faces, and develop a comprehensive testing program that ensures your challenges are met.
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Aero Nav Laboratories, Inc.
Electromagnetic interference (also known as radio frequency interference) tests are used to determine the electromagnetic characteristics of electrical, electronic, and electro-mechanical equipment. Electromagnetic interference, both radiated or conducted, can affect the performance of equipment. Electromagnetic interference tests are specified as follows: conducted emission, radiated emission, conducted susceptibility, and radiated susceptibility.
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Aero Nav Laboratories, Inc.
Electromagnetic interference (also known as radio frequency interference) tests are used to determine the electromagnetic characteristics of electrical, electronic, and electro-mechanical equipment. Electromagnetic interference, both radiated or conducted, can affect the performance of equipment. Electromagnetic interference tests are specified as follows: conducted emission, radiated emission, conducted susceptibility, and radiated susceptibility.
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Aero Nav Laboratories, Inc.
Electromagnetic interference (also known as radio frequency interference) tests are used to determine the electromagnetic characteristics of electrical, electronic, and electro-mechanical equipment. Electromagnetic interference, both radiated or conducted, can affect the performance of equipment. Electromagnetic interference tests are specified as follows: conducted emission, radiated emission, conducted susceptibility, and radiated susceptibility.
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Carl Zeiss AG
Does your product send or receive electromagnetic data? This can be analyzed using various tests. We investigate the interference immunity and emitted interference of simple electrical devices and complex machinery. Our EMC measurements and tests conducted in accordance with standards recognize all activity in the electromagnetic field and ascertain how immune to interference a piece of equipment is. We will also offer guidance on optimizing the product in terms of its EMC properties during the development phase.
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Eurofins E&E
FCC Part 15 is the section of Title 47 of the Code of Federal Regulations that sets limitations on the amount of electromagnetic interference allowed from digital and electronic devices. FCC Part 15 also covers technical specifications, administrative requirements and other conditions relating to the marketing of FCC Part 15 devices.
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Bourns
Bourns Miltilayer chip inductors offer high frequency, nickel barrier, monolithic construction for high reliability, and magnetically shielded construction providing low radiation. They are well-suited for DC-DC converters, and prevention of electromagnetic interference to signals on the secondary side of electronic equipment, among many applications.
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SICK Sensor Intelligence
Sometimes you need to know what is hidden beneath a surface. Behind a wall, for example, inside a storage container, inside a shipping container, or behind a cover. Capacitive proximity sensors are ideal for level and feed monitoring. From solid material, such as paper or wood, to granules or liquids, they can be relied upon to detect what is happening in the production process and during final inspection. Is there something behind that cover? Is the finished package really full? How much paint is still left in the tank? For capacitive proximity sensors, these are easy questions to answer. SICKs capacitive proximity sensors are never far from the action. Sensing ranges between 1 and 25 mm allow them to be used in nearly all installation situations, making them extremely adaptable for a wide range of applications. These sensors are also remarkably resistant to interference. Impurities, contamination, dust, and airborne spray particles have little effect on them, nor does electromagnetic interference. No wonder they are installed in a wide range of industries, such as food and automotive, or in storage and conveyor systems.
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Axiomtek Co., Ltd.
Axiomtek’s DIN-rail fanless embedded systems are suitable for intelligent computing and communication solutions in mission critical environments, such as power plant automation and facility monitoring systems. Axiomtek’s DIN-rail fanless embedded PCs are rugged and have passed heavy industrial EMI/EMS (Electro-Magnetic Susceptibility/ Electro-Magnetic Interference) tests for reliability in hazardous environments.
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WTEM-2Q -
Langeo Co., Ltd.
WTEM-2Q time domain shallow TEM system is one of our latest researchers, with all functions and advantages of domestic and oversea shallow transient electromagnetic survey systems, integrated with WTEM-1J/GPS TEM system receiver and WTEM-1X low-power transmitter. It features high transmitting power, short turn-off time, high reliability, strong anti-interference performance (atmospherics, 50Hz or 60Hz industrial frequency interference), lightweight and low power consumption.
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LF1 set -
Langer EMV-Technik GmbH
The LF1 near-field probe set consists of 4 shielded near-field probes used during the development process for emission measurement of longwave, medium wave, and shortwave frequencies on electronic devices. The probe heads of the LF1 set are designed for incremental detection of sources of electromagnetic interference on assemblies. First, the electromagnetic interference of the assembly is detected by the LF-R 400 probe from up to 10 cm. Then probes with higher resolution like the LF-B 3, LF-U 5 and LF-U 2.5 are used to more precisely detect any source of interference. The probe heads are designed for taking measurements at single pins and larger components. Near-field probes are small and handy. They have a current attenuating sheath and, therefore, are electrically shielded. They can be connected to a spectrum analyzer or an oscilloscope with a 50 Ω input. The H-field probes do not have an internal terminating resistance of 50 Ω.
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EMAG Technologies Inc..
EM.Cube® is an industry-recognized simulation suite for electromagnetic modeling of RF system engineering problems. It features several distinct simulation engines that can solve a wide range of modeling problems such as electromagnetic radiation, scattering, wave propagation in various media, coupling, interference, signal integrity, field interactions with biological systems, etc. Using EM.Cube, you can solve problems of different sizes and length scales, varying from a few microns in MEMS devices to several miles in large urban propagation scenes.
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CRY436 -
CRYSOUND
CRY436 Accelerometer is an industrial-grade accelerometer. It offers high reliability, wide temperature design, internal shielding, and floating isolation. It is suitable for applications in complex electromagnetic environments and is commonly used for online monitoring of vibration status in industrial equipment. It can be used with armored shielded cables to measure vibration parameters such as acceleration, velocity, and displacement in industrial and power environments with strong interference conditions.
