A Multiphase Traction/Fast-Battery-Charger Drive for Electric or Plug-in Hybrid Vehicles
Communication avec acte
Résumé
For Electric Vehicles (EV), the charger is one of the main technical and economical weaknesses. This paper focuses on an original electric drive [1]-[3] dedicated to the vehicle traction and configurable as a battery charger without need of additional components. This cheap solution can outfit either electric or plug-in hybrid automotive vehicles, without needing additional mass and volume dedicated to the charger. Moreover, it allows a high charging power, for short duration charge cycles. However, this solution needs specific cares concerning the electrical machine control. This paper deals with the control of this drive [1], focusing on traction mode. In introduction, a review is done about topologies of combined on-board chargers. Then, the studied topology is introduced; using a 3-phase brushless machine supplied with a 6-leg Voltage Source Inverter (VSI). A model for its control is defined in the generalized Concordia frame, considering the traction mode. Then, an analysis of this model is established using a multimachine theory and a graphical formalism (the Energetic Macroscopic Representation denoted EMR). Using EMR, a description of energy flows shows specific control constraints. Indeed, numerical simulations illustrate the perturbations on the currents and the torque when controlling the machine with standard control methodologies. An improved control, deduced from the previous analysis, shows good performances, strongly reducing currents and torque ripples.
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BrevetBRUYERE, Antoine; MEINGUET, Fabien; SANDULESCU, Paul; SEMAIL, Eric; KESTELYN, Xavier (VALEO SYSTEMES DE CONTROLE MOTEUR, 2013)Le système d’entraînement rotatif comporte : - une source de tension continue (102) ; - un moteur électrique (104) présentant un axe de rotation (A), et comportant des phases indépendantes (a, b, c) présentant des directions ...
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Article dans une revue avec comité de lectureSANDULESCU, Paul; MEINGUET, Fabien; BRUYERE, Antoine; SEMAIL, Eric; KESTELYN, Xavier (Institute of Electrical and Electronics Engineers, 2014)This paper presents and compares control strategies for three-phase open-end winding drives operating in the flux-weakening region. A six-leg inverter with a single dc-link is associated with the machine in order to use a ...
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Flux-weakening operation of open-end winding drive integrating a cost effective high-power charger Article dans une revue avec comité de lectureIn this paper, a three-phase drive with a six-leg Voltage Source Inverter (VSI) and an open-end winding Interior Permanent Magnet Synchronous Machine (IPMSM) designed for the traction of an electric vehicle is studied in ...
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Communication avec acteSANDULESCU, Paul; IDKHAJINE, Lahoucine; CENSE, Sébastien; COLAS, Frédéric; BRUYERE, Antoine; SEMAIL, Eric; KESTELYN, Xavier (IECON 2011 - 37th Annual Conference on IEEE Industrial Electronics Society, 2011)A general algorithm of a Space Vector approach is implemented on a 6-leg VSI controlling a PM synchronous machine with three independent phases. In this last case, the necessity of controlling the zero-sequence current ...
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Communication avec acteMEINGUET, Fabien; SANDULESCU, Paul; ASLAN, Bassel; LU, Li; SEMAIL, Eric; KESTELYN, Xavier; NGUYEN, Ngac Ky (IEEE - Institute of Electrical and Electronics Engineers, 2012)A method for fault detection and isolation is proposed and applied to inverter faults in multi-phase drives. An analysis of simulations in faulty conditions leads to the derivation of suitable fault indices. These are based ...