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In this paper, we propose glass-interposer (GI) electromagnetic bandgap (EBG) structure with defected ground plane (DGP) for efficient and broadband suppression of power/ground noise coupling. We designed, fabricated, measured, and analyzed a GI-EBG structure with DGP for the first time. The proposed GI-EBG structure with DGP is thoroughly analyzed using the dispersion characteristics and estimated...
In this paper, we compare and analyze power/ground noise coupling in silicon, organic and glass interposers. We first compare the power/ground noise coupling of each interposer by analyzing transfer impedances of power distribution networks (PDNs). Due to low loss of the organic and glass substrates, at certain frequencies, transfer impedances increase dramatically and. In order to analyze the effects...
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