What is the difference between MIL-STD-461 and 464?
MIL-STD-461 is written to perform testing on components and subsystems which are installed on platforms. An example of this would be a display that is installed within the cockpit of an aircraft. MIL-STD-464 however is written to perform testing on entire platforms.
What is MIL-STD-464?
MIL-STD-464 is the requirement set for procurement of complete or modified integrated platform of one type or another such as launch vehicle, submarine, ship, spacecraft, ground vehicle or air vehicle. equipment within the system and with environments caused by electromagnetic effects external to the system.
What is MIL 461G?
MIL-STD-461, currently MIL-STD-461G, is an electromagnetic compatibility testing standard published and maintained by the United States Department of Defense (U.S. DoD). Its official title is Requirements for the Control of Electromagnetic Interference Characteristics of Subsystems and Equipment.
What is RE102 test?
MIL-STD-461 RE102 is a test method for evaluating electric field radiated emissions from systems and subsystems enclosures and cabling designed for U.S. military applications. Requirements and testing vary for intended platform of intended installation.
What is the latest version of MIL STD 461?
2015
The latest revision (as of 2015) is known as “MIL-STD-461G”. While MIL-STD-461 compliance is technically not required outside the US military, many civilian organizations also use this document.In 1999, MIL-STD-462 was combined with MIL-STD-461D into MIL-STD-461E.
WHAT IS HERO testing?
HERO (Hazard of Electromagnetic Radiation to Ordnance) testing is an essential component of achieving MIL-STD-464 compliance. HERO testing is used to determine that the ordnance safety margins required are met when the unit under test is exposed to the high levels of electric fields required by MIL-STD-464.
What is CE106?
MIL-STD-461G CE106 is a military test standard procedure that applies to the antenna ports of transmitters, receivers, and amplifiers over the frequency range of 10 kHz to 40 GHz. The equipment will be tested to an upper-frequency limit based on the highest frequency generated or received by the EUT.