Add to ORKGAn accurate analytical model to predict via coupling within rectangular power-return plane structures is developed. Loss mechanisms, including radiation loss, dielectric loss, and conductor loss, are considered. The radiation loss is incorporated into a complex propagating wavenumber as an artificial loss mechanism. The quality factors associated with the three loss mechanisms are calculated and compared. The effects of radiation loss on input impedances and reflection coefficients are investigated for both high-dielectric-loss and low-dielectric-loss PCBs. Measurements are performed to validate the effectiveness of the model
Abstract Design and manufacturing techniques of printed circuit boards (PCB's) have advanced from e...
Parasitic inductance in printed circuit board (PCB) geometries can detrimentally impact the electrom...
Power/ground partitioning has been used to supply multivoltage levels and to isolate power/ground no...
An accurate analytical model to predict via coupling within rectangular power-return plane structure...
Power-return plane pairs in printed circuit boards are often modeled as resonant cavities. Cavity mo...
Power-return plane pairs in printed circuit boards are often modeled as resonant cavities. Cavity mo...
The maximum coupling between printed circuit board components connected to the same power-ground pla...
In multilayer printed circuit boards, the noise on the power bus is influenced by the impedance betw...
When a high-speed signal transits through a via that penetrates a plane pair, parallel-plane resonan...
Signal vias are commonly used in multilayer printed circuit board (PCB) design. For a signal via tra...
An analytical mode analysis of vias in the multilayered printed-circuit-board periphery is developed...
The returning displacement currents of vias transiting multilayered stack-ups in electronic packages...
Because modern electronic systems are likely to be exposed to high intensity radiated fields (HIRF) ...
The Conference program's website is located at http://www.2014apsursi.org/Papers/ViewPapers.asp?Pape...
This paper analyzes the fundamental behavior of PCB power bus structures using the modal expansion m...
Abstract Design and manufacturing techniques of printed circuit boards (PCB's) have advanced from e...
Parasitic inductance in printed circuit board (PCB) geometries can detrimentally impact the electrom...
Power/ground partitioning has been used to supply multivoltage levels and to isolate power/ground no...
An accurate analytical model to predict via coupling within rectangular power-return plane structure...
Power-return plane pairs in printed circuit boards are often modeled as resonant cavities. Cavity mo...
Power-return plane pairs in printed circuit boards are often modeled as resonant cavities. Cavity mo...
The maximum coupling between printed circuit board components connected to the same power-ground pla...
In multilayer printed circuit boards, the noise on the power bus is influenced by the impedance betw...
When a high-speed signal transits through a via that penetrates a plane pair, parallel-plane resonan...
Signal vias are commonly used in multilayer printed circuit board (PCB) design. For a signal via tra...
An analytical mode analysis of vias in the multilayered printed-circuit-board periphery is developed...
The returning displacement currents of vias transiting multilayered stack-ups in electronic packages...
Because modern electronic systems are likely to be exposed to high intensity radiated fields (HIRF) ...
The Conference program's website is located at http://www.2014apsursi.org/Papers/ViewPapers.asp?Pape...
This paper analyzes the fundamental behavior of PCB power bus structures using the modal expansion m...
Abstract Design and manufacturing techniques of printed circuit boards (PCB's) have advanced from e...
Parasitic inductance in printed circuit board (PCB) geometries can detrimentally impact the electrom...
Power/ground partitioning has been used to supply multivoltage levels and to isolate power/ground no...