Title :
Radio-frequency common-mode noise propagation model for power-line cable
Author :
See, K.Y. ; So, P.L. ; Kamarul, A. ; Gunawan, E.
Author_Institution :
Network Technol. Res. Center, Nanyang Technol. Univ., Singapore
Abstract :
Electromagnetic-interference (EMI) radiation from a power-line communications (PLC) network has been a major concern for the widespread use of broadband PLC technology. It is also well known that the dominant radiation mode of the PLC network is common mode (CM) by nature. Therefore, for electromagnetic-compatibility planning purposes, knowledge of the CM noise propagation path of the power line in the frequency range of 1 to 30 MHz is essential to provide insight of EMI radiation emitted by the power line. Based on a two-current-probe measurement approach, the CM noise propagation model for a three-wire power-line cable can be derived and represented by an equivalent two-wire CM transmission line. The equivalent CM noise propagation model allows us to predict the CM noise current on the power line with reasonable accuracy. The model will serve as a valuable tool in the future to identify effective ways to suppress EMI radiation from the PLC network.
Keywords :
carrier transmission on power lines; electromagnetic interference; 1 to 30 MHz; EMI radiation; electromagnetic compatibility planning; electromagnetic interference radiation; equivalent two-wire transmission line; noise propagation path; power line cable; radiofrequency common-mode noise propagation; three-wire power-line cable; two-current-probe-measurement approach; Electromagnetic interference; Electromagnetic measurements; Electromagnetic propagation; Electromagnetic radiation; Noise measurement; Path planning; Power cables; Programmable control; Radio frequency; Transmission line measurements; Broadband communication; electromagnetic compatibility; electromagnetic interference; impedance measurement;
Journal_Title :
Power Delivery, IEEE Transactions on
DOI :
10.1109/TPWRD.2005.852268
