Immunity by Conductivity

Immunity by Conductivity

Conducted Immunity Test, one of the Electromagnetic Compatibility Tests, is carried out to detect the performance deterioration that may occur in the device when electromagnetic energy is coupled to the device cables during the operation of a device.

Electrical Fast Transients and Burst Test is applied to determine the performance deterioration that may occur in the device if the device is exposed to repeated changes in a short time due to faults or switching in the electrical network.

Voltage Dips and Short Interruptions (Voltage Dips, Short Interruptions and Voltage Variations) Test, on the other hand, is applied to determine the performance deterioration that may occur in the device in case of decrease, short interruption or fluctuation in the mains voltage values ??during the operation of the device.

Conducted Immunity Test is carried out to determine the performance deterioration that may occur in the device if electromagnetic energy is coupled to the device cables during the operation of a device.
Professional services for EMC Test processes such as "Radiated Emission (Emission), Conductive Emission (Emission), Radiation Immunity (Altitude), Conductivity Immunity (Susceptibility)" for electrical and electronic products within this scope in terms of BELCERT Certification electromagnetic compatibility tests (EMC Tests). offers.

While examining the physical behavior of materials, various electrical, magnetic, optical, thermal and elastic properties are determined. These properties are generally related to the atomic structure, the arrangement of the atoms, and the crystal structure of the material. In atomic structure, conduction bands determine the transitions between electrons and allow materials to be conductors, semiconductors or insulators. In addition, properties such as magnetic behavior, diffusion and transparency are directly dependent on the atomic structure of the material.

Material ion and use for electrical and electronic devices and equipment depends on the knowledge of properties such as electrical conductivity and electrical permeability.

Electrons or ions emitting under the influence of the forces created by the electric field provide electrical conductivity by moving a certain distance in the material. Materials with this property are called conductive materials. Pure metals, especially those containing many free electrons, are very conductive.

Materials with an ionic bonding structure do not contain free electrons and are therefore normally considered insulators. However, if an electric field is applied to some of them, a sufficient number of electrons will be activated and released.

“As BELCERT Certification Firm, we are pleased to support you in all processes. You can contact us for detailed information.”

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