Abstract
In this paper, a model for a prediction of conducted emission from vehicular PMSM-drive braking system is presented. The proposed model is based on the high-frequency circuit model combined with EM simulation. The parameter for high-frequency circuit modeling is derived from the measurement as well as 3D EM simulation based on FEM. To establish meaningful high-frequency parameters, the lumped parameters concerning the three-phase motor coil, motor busbar, heatsink, LISN, harness wire, meshed strap wire, and the passive-EMI filters including parasitics are either electromagnetically simulated or directly measured through an impedance analyzer. The distributed parameters of the PCB’s, connector, and motor housing are calculated via the 3D EM simulation. Eventually, the presented high-frequency parameters were integrated with PWM inverter circuit for the system-level analysis, and the model was verified through the correlation between the measurement and simulation with the EMI filters installed in the system. Moreover, the EMI characteristics with/without particular noise propagation path were analyzed in the model. The calculated conducted emission of the proposed model showed a very good agreement with the experimental data, which proves the validness of the proposed model.
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Abbreviations
- I c :
-
common mode current, A
- R s :
-
resistance of motor stator coil, Ω
- L s :
-
inductance of motor stator coil, H
- C p :
-
capacitance of coil-to-coil distributed coupling, F
- C g :
-
capacitance from stator coil to motor housing, F
- R p :
-
eddy current loss, Ω
- L b :
-
inductance of motor busbar, H
- C u :
-
capacitance of busbar-to-busbar neighbor coupling, F
- C b :
-
capacitance from busbar to motor housing, F
- ε r :
-
relative permittivity
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Lee, J., Ha, J., Kim, M. et al. Prediction of Conducted Emission in a PMSM-Drive Braking System Using a Circuit Model Combined with EM Simulation. Int.J Automot. Technol. 20, 487–498 (2019). https://doi.org/10.1007/s12239-019-0046-3
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DOI: https://doi.org/10.1007/s12239-019-0046-3