What is IEC 61000-4-108:2019 ?

Title: IEC 61000-4-13:2019 - Electromagnetic Compatibility (EMC) Testing and Measurement Techniques

Electromagnetic compatibility (EMC) is a crucial aspect of the development and use of electrical and electronic equipment. EMC refers to the ability of electrical and electronic equipment to operate without being affected by electromagnetic interference (EMI) from other sources, such as radio transmitters, motors, or other electrical equipment. IEC 61000-4-13:2019 is an important international standard that provides guidelines for conducting EMC testing and measurement techniques to ensure that devices can function properly in the presence of electromagnetic interference.

What is IEC 61000-4-13:2019?

IEC 61000-4-13:2019, also known as the "Electromagnetic compatibility (EMC) - Part 4-13: Testing and measurement techniques - Harmonics and interharmonics including mains signalling at a.c. power port, low frequency immunity tests," is an international standard developed by the International Electrotechnical Commission (IEC). This standard focuses on harmonics and interharmonics, which are disturbances caused by non-sinusoidal electrical waveforms that can affect the performance of electronic devices and systems connected to the electric power network.

The Purpose of IEC 61000-4-13:2019

The main purpose of IEC 61000-4-13:2019 is to provide guidelines for conducting EMC testing and measurement techniques to ensure that devices can function properly in the presence of electromagnetic interference. The standard aims to ensure that products are capable of operating without being affected by electromagnetic interference from radio transmitters or other sources.

The Testing Process:

To ensure that their products are EMC-compliant, manufacturers conduct testing to IEC 61000-4-13:201This testing typically consists of a series of procedures to measure the device's immunity to electromagnetic interference from various sources.

The first step in the testing process is to define the test requirements. This involves specifying the type of electromagnetic interference to be simulated, the frequency and voltage of the interference, and the level of interference that is expected.

The next step is to conduct the actual testing. This involves placing the device in an appropriate environment and applying the specified interference.

The testing process typically includes several different types of tests, including immunity tests, vectorization tests, and powerdomain tests. These tests are designed to measure the device's immunity to electromagnetic interference from various sources.

To ensure that the device is EMC-compliant, the manufacturer must perform the testing in accordance with the requirements of IEC 61000-4-13:201The testing process is critical to the performance and reliability of the device. It is important to conduct the testing thoroughly to ensure that the device is EMC-compliant and can operate safely in a variety of environments.

Conclusion:

EMC testing is an essential part of ensuring that electrical and electronic equipment is safe and reliable. IEC 61000-4-13:2019 is an important international standard that provides guidelines for conducting EMC testing and measurement techniques to ensure that devices can function properly in the presence of electromagnetic interference. By conducting thorough testing in accordance with this standard, manufacturers can ensure that their products are EMC-compliant and can operate safely in a variety of environments.