Radiated Immunity testing evaluates the ability of electrical and electronic equipment to maintain proper functionality when exposed to controlled RF electromagnetic fields. This is essential in today’s rapidly evolving technological landscape, where numerous wireless, industrial, and power-electronic devices generate fields of varying frequencies and intensities. Ensuring adequate immunity is critical for interoperability, safety, and performance, as products must demonstrate resilience against high-level electric and magnetic fields commonly present in real operating environments.
At Stancer Testing-Lab, we leverage our sophisticated test setup including calibrated broadband antennas and high-power RF amplifiers inside a precision-controlled anechoic environment, to carry our radiated immunity testing. The EUT is exposed to swept-frequency electromagnetic fields with defined intensity, polarization, and modulation. Throughout the test, the equipment is continuously monitored to detect any functional degradation, susceptibility thresholds, or operational anomalies. This methodology ensures compliance with immunity standards such as IEC 61000-4-3, ISO 11452-2, DO-160, and MIL-STD-461, confirming reliable operation in demanding electromagnetic environments.
Our radiated immunity services cover a frequency range from 20 MHz to 6 GHz with field strengths up to 30 V/m (200V/m is provided upon request), enabling the evaluation of products intended for automotive, industrial, medical, and aerospace applications. This capability ensures that your devices maintain full performance even under severe RF exposure conditions.
Our procedures follow internationally recognized standards—including IEC/EN 61000-4-3, ISO 11451-2, ISO 11452-1, and UNECE Regulation No. 10 (R10), DO-160, and MIL-STD-461covering a wide range of industries from automotive and aerospace to industrial automation, information and defence technologies.
