Electromagnetic Interference (EMI) refers to the disturbance caused by electromagnetic fields on electronic devices or systems, resulting in unwanted effects. These disturbances can lead to malfunctions, data corruption, or even complete failure of the affected equipment. EMI can occur in both wired and wireless communication systems.
The fundamental principle behind EMI is the generation of electromagnetic waves when electric currents flow through conductive materials or when electric and magnetic fields change. When these waves encounter other electronic devices or systems, they can induce currents or voltages in them, disrupting their normal operation.
There are two primary types of EMI:
Conducted EMI: This type of interference occurs through direct physical contact, such as electrical connections or cables. When unwanted signals travel along conductive paths, they can couple with other circuits and cause disruptions.
Radiated EMI: Radiated EMI is the interference caused by electromagnetic waves that propagate through the air or other mediums. These waves can be emitted by various sources, such as electronic devices, power lines, or radio frequency transmitters.
EMI is a significant concern in modern technology, as electronic devices are prevalent in various environments. It is especially critical in sensitive applications like medical devices, aviation, telecommunications, and military systems, where malfunctions or disturbances can have severe consequences.
To mitigate EMI, electronic devices and systems are designed with shielding and filtering techniques to minimize the impact of external electromagnetic fields. Regulatory bodies also impose standards and guidelines for electromagnetic compatibility (EMC) to ensure that devices meet acceptable EMI levels and can coexist without causing harmful interference.