EMP - Electromagnetic Pulse Testing


An Electromagnetic Pulse (EMP) is defined as a high amplitude, short duration, and broadband pulse of electromagnetic energy.


EMP is the electromagnetic effect resulting from the detonation of a nuclear device at high altitudes (also known as HEMP, HAEMP and HNEMP). EMP is a serious matter because it can have devastating effects on unprotected electronic equipment.


MIL-STD-461 provides radiated (RS 105) and conducted (CS 116) test methods and test levels for determining a device’s immunity to EMP. The coupling modes into the equipment enclosure and its interconnecting cabling can be complex and are, therefore, evaluated separately.


The RS 105 test method addresses the risk of radiated exposure to an EMP event. Testing is generally applicable to equipment installed in exposed and partially exposed environments on aircraft, surface ships, submarines and ground vehicles.


The CS116 test method addresses the effects of EMP coupling onto interconnecting wiring harnesses. The goal of this test is to ensure the equipment’s immunity to damped sinusoidal transients induced on the equipment’s cables. Testing is generally applicable to all applications with limited applicability to submarine equipment.


The MIL-STD-188-125 establishes minimum requirements and design objectives for high-altitude electromagnetic pulse (HEMP) hardening of fixed, ground-based facilities that perform critical, time-urgent command, control, communications, computer, and intelligence (C4I) missions. Similar to the approach described in MIL-STD-461, this standard provides both radiated and conducted test methods and test levels.


Dayton T. Brown can perform all the EMP test methods described above. In fact, DTB now owns and operates the largest RS 105 EMP simulator of its kind in any U.S. non-government test facility!


Electronic Magnetic Pulse Testing and Evaluation


Get a Free Quote Now

DTB e-Library

DTB Quality Certifications and Accreditations

Like us on FacebookWatch us on YouTubeFollow us on TwitterView our LinkedIn profile