Quality: Elite is ISO17025 accredited by two organizations and ISO Guide 65 accredited for certification of wireless devices in the US and Canada. Our HIRF capabilities extend to 5,000V/m, we offer lightning tests up to level 5 for all DO-160 waveforms, and we can provide high altitude EMP testing at 50,000V/m. We carry more high power amplifiers, spectrum analyzers, receivers, scopes, antennas, horns, and other specialized equipment than any other lab. We also have three reverberation chambers, our largest having a uniform test area of 8Ft x 16Ft.Įquipment: With over 2,500 pieces of calibrated test equipment, our EMI/EMC testing labs are the best-equipped lab in the industry, helping you achieve compliance quicker. What’s more, 17 of our staff members are iNARTE credentialed and many Elite personnel are active in important industry standards committees – they’re at the ground level of understanding and contributing to new regulations and technology.įacilities: We have an expansive suite of absorber-lined test chambers including five rooms configured for Automotive CISPR 25 testing, two 3-meter chambers configured for CISPR 22, and two chambers configured for whole-vehicle testing (see below). Personnel: Our testing services are handled by 24 full-time engineers, eight senior personnel, and two full-time software engineers, all of whom provide unrivaled technical support and make us one of the industry’s most trusted EMI/EMC testing labs. Our unrivaled expertise, in tandem with state-of-the-art test equipment, is helping products across a wide range of applications and industries meet product safety standards through EMI and EMC compliance. He and his students have worked on the development, analysis and testing of a wide range of products for commercial, automotive and military applications.For over 60 years, Elite has been a recognized leader in both electromagnetic compatibility (EMC) and electromagnetic interference (EMI) testing. He has over 35 years of experience with EMC testing first with IBM, then at the University of Missouri-Rolla, and Clemson. Hubing is a Professor Emeritus of Electrical and Computer Engineering at Clemson University and former Director of the Clemson Vehicular Electronics Laboratory. Calibration with Known Sources and Set-upsĭr.Diagnosing a Conducted Emissions Problem.Differences in Methods of Inducing EFT Transients.TEM cell, GTEM, Tri-Plate, WOG and Far-Field Tests.Dielectric Breakdown in Air and Elsewhere.Set-up Parameters That Affect Measurement Results.Biconical, Log-Periodic, Horn and Rod Antennas.Spectrum Analysis (Time and Frequency Domains).The course can also benefit product engineers who are responsible for negotiating EMC test plans and/or ultimately ensuring that their designs will comply with EMC requirements.Ĭontinuing Education Credit: 0.6 CEUs, 6.0 PDHs People who might benefit from taking this course include engineers and technicians that are new to the field of EMC and want to become familiar with EMC test procedures as well people who have been conducting EMC tests for many years that want to develop a better understanding of the physics involved. These models illustrate how sometimes seemingly minor decisions related to the test set-up can significantly affect the results of a measurement. Basic models of the measurements are presented that help test engineers and technicians understand exactly what is being measured. While the course will refer to industry standard tests, the focus is on the general physics, not the specific requirements of any given standard.įor each EMC test, the course reviews the test equipment, test settings and set-up parameters that affect the measurement results. Commercial, automotive and military EMC test procedures in each of these categories will be reviewed. Other EMC tests such as Lightning Immunity, Magnetic Field Emissions and Power Disturbance tests will also be discussed. The primary EMC tests covered by this course are Conducted and Radiated Emissions, Radiated Immunity, Bulk Current Injection, Electrical Fast Transient testing and Electrostatic Discharge testing. The goal of the course is to provide a basic understanding of the physics involved in order to make better, more meaningful and more repeatable measurements. In a radiated electromagnetic emissions measurement, does it make a difference whether the excess cable is bundled neatly or coiled on the floor? Does it matter where an ESD simulator is grounded? Why do products that fail to meet EMC requirements in Laboratory A tend to do much better in Laboratory B? This course reviews the equipment, test set-ups and primary coupling mechanisms associated with each of the major electromagnetic compatibility tests. The Physics of Electromagnetic Compatibility Measurements Description
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