Title :
EMI Coupling Paths and Mitigation in a Board-to-Board Connector
Author :
Jing Li ; Xiao Li ; Toor, Sukhjinder ; Hongmei Fan ; Bhobe, Alpesh U. ; Jun Fan ; Drewniak, James L.
Author_Institution :
Electromagn. Compatibility Lab., Missouri Univ. of Sci. & Technol., Rolla, MO, USA
Abstract :
Cage connectors for optical subassembly I/O modules have been identified as one of the main coupling paths in an optical link at the front-end of switches and routers. In the study presented herein, the simulation model used to study electromagnetic interference coupling physics and mitigation of the optical cage connector was corroborated by comparing the measured and simulated results for the total radiated power (TRP). Currents on the adjacent ground references to the differential signal conductors caused half-wave resonant peaks in the TRP response in the frequency range of 4-18 GHz. At frequencies from 18 to 28 GHz, both full-wave simulation and analytical formulas indicate that the radiation results primarily from the currents on the signal traces. The radiation from the optical cage connector was suppressed with absorbing materials, and the coupling path was verified, together with the optical cage and module enclosure.
Keywords :
electromagnetic interference; optical couplers; optical interconnections; optical links; EMI coupling paths; EMI mitigation; absorbing materials; adjacent ground references; board-to-board connector; differential signal conductors; electromagnetic interference; frequency 4 GHz to 28 GHz; optical cage connector; optical link; optical subassembly I/O modules; total radiated power; Conductors; Couplings; Electromagnetic interference; Optical coupling; Optical fiber communication; Pins; Absorbing material; electromagnetic interference (EMI) coupling path; high frequency; mitigation; optical cage connector; radiation mechanism; total radiated power (TRP);
Journal_Title :
Electromagnetic Compatibility, IEEE Transactions on
DOI :
10.1109/TEMC.2015.2439687
