Conducted emissions (CE) generated by the inverter and propagating along the high-voltage dc power bus in electric vehicles are predicted via a circuit model implemented in SPICE. Through extensive simulations, the impact of different functional operating points (in the typical torque-speed characteristic used to drive the motor) is put in evidence. Additionally, the role of radio-frequency noise propagation in the shielded cables of the dc power bus (electrically long at the wavelengths of interest) is investigated.
Generation and Propagation of Radio Frequency Noise Currents in the Powertrain of Electric Vehicles
SPADACINI, GIORDANO;GRASSI, FLAVIA;PIGNARI, SERGIO AMEDEO
2016-01-01
Abstract
Conducted emissions (CE) generated by the inverter and propagating along the high-voltage dc power bus in electric vehicles are predicted via a circuit model implemented in SPICE. Through extensive simulations, the impact of different functional operating points (in the typical torque-speed characteristic used to drive the motor) is put in evidence. Additionally, the role of radio-frequency noise propagation in the shielded cables of the dc power bus (electrically long at the wavelengths of interest) is investigated.File in questo prodotto:
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VPPC2016_reprint.pdf
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