2018 IEEE Transportation Electrification Conference and Expo (ITEC) 2018
DOI: 10.1109/itec.2018.8450132
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Integrated Single-Phase Electric Vehicle Charging Using a Dual-Inverter Drive

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Cited by 15 publications
(3 citation statements)
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“…The auxiliary battery can be bypassed, producing a zero-voltage vector in its connected converter (S7-S12), and it can also be charged from the traction battery while the electric machine is being powered, provided the converter connected to the traction battery (S1-S6) has enough voltage margin to produce the desired torque in the machine and to charge the auxiliary battery. In 2018, S. Semsar et al proposed a similar system, as shown in Figure 17a [35]. This system is capable of charging both batteries from a single-phase ac power grid (terminals a, n), using an additional diode full-bridge single-phase ac-dc converter (D1-D4) and a contactor (K1) that should be closed in battery charging mode.…”
Section: Integrated Battery Chargers Based On Multiple Traction Conve...mentioning
confidence: 99%
“…The auxiliary battery can be bypassed, producing a zero-voltage vector in its connected converter (S7-S12), and it can also be charged from the traction battery while the electric machine is being powered, provided the converter connected to the traction battery (S1-S6) has enough voltage margin to produce the desired torque in the machine and to charge the auxiliary battery. In 2018, S. Semsar et al proposed a similar system, as shown in Figure 17a [35]. This system is capable of charging both batteries from a single-phase ac power grid (terminals a, n), using an additional diode full-bridge single-phase ac-dc converter (D1-D4) and a contactor (K1) that should be closed in battery charging mode.…”
Section: Integrated Battery Chargers Based On Multiple Traction Conve...mentioning
confidence: 99%
“…The other is that the impedance and the turn number of primary windings for the magnetic combination transformer should be identical. Another open-end winding integrated charger system needs only an additional uncontrolled diode-rectifier to charge the battery [55]. No additional switches are used.…”
Section: ) Open-end Winding Motorsmentioning
confidence: 99%
“…However, this system required an additional on-board EVBC. In 2018 [204], a similar solution capable of charging both batteries simultaneously from a single-phase ac electrical grid was proposed, being necessary to add a diode-bridge rectifier to interface the electrical grid. A more complex solution comprising galvanic isolation was proposed in 2016 [205] for interfacing a three-phase ac electrical grid, using a diode bridge rectifier and a full-bridge inverter per phase to connect with each of the three primary windings of a magnetic combination transformer, with the only secondary winding being connected to a diode bridge rectifier which, in turn, was followed by the EV battery.…”
Section: Integrated Battery Chargers For the Vehicle Electrificationmentioning
confidence: 99%