Electromagnetic Compatibility (EMC) chambers are specially designed and shielded environments aimed at minimizing or preventing electromagnetic interference. These chambers are used in various industries and applications where precise electronic measurements, tests, or other sensitive electronic processes need to be carried out. The primary goal of an EMC chamber is to create a controlled electromagnetic environment free from external disturbances. Characteristics of EMC chambers include shielding that blocks external electromagnetic fields while minimizing internal interference. The walls, floors, and ceilings of such rooms are equipped with special shielding materials that absorb or reflect electromagnetic waves. This shielding prevents external electromagnetic fields from entering the chamber and affecting internal processes. EMC chambers are particularly important in fields such as telecommunications, medical technology, the automotive industry, aerospace, and the electronics industry. In these industries, precise measurements must be conducted where even minor electromagnetic interference could impact the results. The shielding of EMC chambers can be achieved through a combination of various technologies, including conductive coatings, metal shields such as copper, special seals, and filter systems. Additionally, EMC chambers are often designed with shielded zones and specific arrangements for sensitive equipment to ensure optimal conditions. The construction of EMC chambers requires careful planning and implementation to ensure that the shielding effectiveness meets the required standards. These chambers are not only critical for precise measurements and tests but also help ensure compliance with EMC standards and regulations. Overall, EMC chambers play a crucial role in ensuring electromagnetic compatibility in sensitive environments where precise electronic processes must take place. EMC tents, EMC cabins, and EMC test boxes are designed for test environments with the highest demands.