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Quantitative Interpretation of Electromagnetic Interference Shielding Efficiency: Is It Really a Wave Absorber or a Reflector?

Uiseok Hwang, Junyoung Kim, Mina Seol, Bumhee Lee, In‐Kyung Park, Jonghwan Suhr, Jae‐Do Nam

2022ACS Omega112 citationsDOIOpen Access PDF

Abstract

As electromagnetic (EM) pollution continues to increase, electromagnetic interference (EMI) shielding materials have been intensively evaluated in terms of two main shielding mechanisms of reflection and absorption. Since the shielding effectiveness (SE) is represented in the logarithmic scale and in a coupled way of transmission (SET), absorption (SEA), and reflection (SER), often there is a misinterpretation that the EM wave reflectors are regarded as EM wave-absorbing materials. Surprisingly, we found that many materials reported as an EM wave absorber in the literature provide, in fact, less than 50% of EM wave-absorbing capability, i.e., over 50% of EM wave-reflecting feature. According to the theory and definition of EMI SE, the absorption-dominant EMI shielding materials should have the ratio of absorption to incident energy (A) as A > 0.5, which corresponds to a necessary condition that SER < 3.01 dB. The SER subsequently gives SEA in relation to SET. Using this criterion, we classified the EMI shielding materials with their shielding mechanism. The proposed methodology provides significant insight into the evaluation and development of EMI shielding materials.

Topics & Concepts

Electromagnetic shieldingEMIElectromagnetic interferenceElectromagnetic radiationReflection (computer programming)Absorption (acoustics)Reflector (photography)Interference (communication)Conducted electromagnetic interferenceElectromagnetic compatibilityOpticsAcousticsPhysicsElectrical engineeringComputer scienceEngineeringLight sourceQuantum mechanicsProgramming languageChannel (broadcasting)Electromagnetic wave absorption materialsAdvanced Antenna and Metasurface Technologies