Design and Analysis of Ultra-Wideband Miniaturized Metamaterial Absorbers for Radiation Suppression
This paper presents a novel miniaturized ultra-wideband metamaterial absorber with a
thickness of 0.069 λL thick, engineered to suppress electromagnetic radiation in high …
thickness of 0.069 λL thick, engineered to suppress electromagnetic radiation in high …
EMI Prediction and Optimization for Pinmap Design Using Deep Transfer Learning and an Enhanced Genetic Algorithm
With the rapid increase in the operating frequency and integration density of ball grid array
packages, pin assignment (pinmap) significantly impacts electromagnetic interference (EMI) …
packages, pin assignment (pinmap) significantly impacts electromagnetic interference (EMI) …
A Novel Deep Reinforcement Learning Methodology for EMI Mitigation in Multi-Scenario Pinmap Design
Intelligent pin assignment (pinmap) of ball grid array packages for electromagnetic
interference mitigation is becoming a new trend. A high-performance design methodology …
interference mitigation is becoming a new trend. A high-performance design methodology …
Determining the Highly Susceptible Waveform for Electromagnetic Susceptibility Testing via Reinforcement Learning
J Chen, G Chen, J Zhang, D Su - IEEE Transactions on …, 2024 - ieeexplore.ieee.org
Electromagnetic susceptibility (EMS) testing is critical for ensuring the electromagnetic
compatibility of electronic equipment. While current standards employ fixed waveforms for …
compatibility of electronic equipment. While current standards employ fixed waveforms for …
A Miniaturized Perfect Metamaterial Absorber for EMI Radiation Suppression
This article introduces the design, analysis, and measurement of a miniature resistive film
metamaterial absorber (MMA) designed to mitigate electromagnetic radiation in small …
metamaterial absorber (MMA) designed to mitigate electromagnetic radiation in small …