BS EN 55016-2-5:2016, also known as CISPR 16-2-5, is an international standard for electromagnetic compatibility (EMC) testing. It specifies the measurement method and limits for radio disturbance characteristics in the frequency range of 9 kHz to 1 GHz for equipment intended for industrial environments.
Scope of BS EN 55016-2-5:2016
This standard applies to all electronic and electrical devices that generate RF emissions within the specified frequency range. It provides a framework for evaluating the level of radiated disturbances generated by these devices and sets maximum limits for electromagnetic emissions. By complying with BS EN 55016-2-5:2016, manufacturers can ensure that their products are not causing harmful interference to other electronic or electrical equipment.
Measurement Methodology
The BS EN 55016-2-5:2016 standard outlines specific test setups, measurement procedures, and instruments to be used for conducting EMC tests. These tests are typically performed in specialized laboratories equipped with anechoic chambers and calibrated measurement equipment.
During the testing process, the device under evaluation is subjected to various RF fields at different frequencies. The radiated emissions from the device are measured and compared against the predefined limits specified in the standard. The measurements are carried out using antennas placed at specific distances from the device, following detailed procedures specified in the standard.
Benefits and Importance
Compliance with BS EN 55016-2-5:2016 is crucial for manufacturers, as it ensures that their products meet the necessary requirements for electromagnetic compatibility in industrial environments. By conforming to this standard, manufacturers prevent potential issues such as interference with other equipment, malfunctions, or safety hazards caused by excessive electromagnetic emissions.
Besides regulatory compliance, meeting the requirements of BS EN 55016-2-5:2016 also instills confidence in customers and end-users regarding the quality and reliability of the product. It demonstrates a commitment to producing devices that can operate in industrial environments without causing disruptions or compromising the performance of other nearby equipment.