A Voltage-Based Controller for an Electric-Vehicle Charger

Al‐Awami, Ali T.; Sortomme, E.; Akhtar, G. M. Asim; Faddel, Samy

doi:10.1109/tvt.2015.2481712

Cited by 60 publications

(36 citation statements)

References 21 publications

(38 reference statements)

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“…Therefore, to accommodate transportation electrification, the energy costs of charging stations and their impact on the distribution network should be well planned. The impact on power grids of charging EVs, including the use of smart charging methods to reduce energy costs and guarantee system security and integration with renewable energy, is discussed in [2][3][4][5][6][7][8][9][10][11][12][13][14]. While these analytical techniques presented and reviewed [2][3][4][5][6][7][8][9][10][11][12][13][14] could be extended to include EB charging, there are presently only a few studies which discuss the planning of EB charging stations and their impact on the distribution network.…”

Section: Introductionmentioning

confidence: 99%

Optimal Charging Schedule Planning and Economic Analysis for Electric Bus Charging Stations

Leou

Hung

2017

Energies

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Abstract:The battery capacity of electric buses (EB) used for public transportation is greater than that of electric cars, and the charging power is also several times greater than that used in electric cars; this can result in high energy consumption and negatively impact power distribution networks. This paper proposes a framework to determine the optimal contracted power capacity and charging schedule of an EB charging station in such a way that energy costs can be reduced. A mathematical model of controlled charging, which includes the capacity and energy charges of the station, was developed to minimize costs. The constraints of the model include the charging characteristics of an EB and the operational guidelines of the bus company. A practical EB charging station was used to verify the proposed model. The financial viability of this EB charging station is also studied in this paper. The economic analysis model for this charging station considers investment and operational costs, and the operational revenue. Sensitivity analyses with respect to some key parameters are also performed in this paper. Based on actual operational routes and EB charging schemes, test results indicate that the EB charging station investment is feasible, and the planning model proposed can be used to determine optimal station power capacity and minimize energy costs.

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Section: Introductionmentioning

confidence: 99%

Optimal Charging Schedule Planning and Economic Analysis for Electric Bus Charging Stations

Leou

Hung

2017

Energies

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“…The simulation waveforms of AC battery-charging mode with active ripple energy storage circuit are presented in Figure 18. Charging power is selected to be compatible with SAE standard J1772 level 2 charging rate [22]. The method based on one digital signal control leads the auxiliary inductor work in continuous current mode.…”

Section: Simulation Resultsmentioning

confidence: 99%

An Integrated Multifunctional Bidirectional AC/DC and DC/DC Converter for Electric Vehicles Applications

Liwen

Zhang

2016

Energies

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This paper presents an on-board vehicular battery charger that integrates bidirectional AC/DC converter and DC/DC converter to achieve high power density for application in electric vehicles (EVs). The integrated charger is able to transfer electrical energy between the battery pack and the electric traction system and to function as an AC/DC battery charger. The integrated charger topology is presented and the design of passive components is discussed. The control schemes are developed for motor drive system and battery-charging system with a power pulsation reduction circuit. Simulation results in MATLAB/Simulink and experiments on a 30-kW motor drive and 3.3-kW AC/DC charging prototype validate the performance of the proposed technology. In addition, power losses, efficiency comparison and thermal stress for the integrated charger are illustrated. The results of the analyses show the validity of the advanced integrated charger for electric vehicles.

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“…The drawback of the proposed algorithm is that it needs to update the reference set points with each seasonal variation, and the upstream point charges relatively faster than the downstream one. In [68,69], a new voltage based EV chargers was proposed. The controller used local voltage as one of the inputs and the state of charge as the second input.…”

Section: Autonomous Charging Controlmentioning

confidence: 99%

“…Energies 2018, 11, x FOR PEER REVIEW 11 of 20 [37] Fuzzy Control ✗ ✗ [38] Linear Programming ✗ ✓ [39] Receding Horizon Using Linear Programming ✗ ✓ Decentralized Techniques [4] Gradient Optimization ✗ ✓ [40] Fuzzy Control ✓ ✓ [41] Artificail Neural Networks-Wavelet Transform ✓ ✗ [42] Hybrid-PSO& Linear Programming ✗ ✗ [44] Linear Programming ✗ ✗ [45] Linear Programming ✗ ✓ [46] Congestion Pricing Algorithm ✓ ✓ [47] Game Theory ✗ ✗ [48] Non-Cooperative Game Theory ✗ ✗ [49] Game Theory ✗ ✗ [50] Game Theory ✗ ✗ [51] Non-Cooperative Game Theory ✗ ✗ [52] Normalized Nash Game ✗ ✗ [53] Stochastic Mean Field Game Theory ✗ ✗ [54] Additive proposed algorithm is that it needs to update the reference set points with each seasonal variation, and the upstream point charges relatively faster than the downstream one. In [68,69], a new voltage based EV chargers was proposed. The controller used local voltage as one of the inputs and the state of charge as the second input.…”

Section: Real Time and Stochastic Operation Approachesmentioning

confidence: 99%

Charge Control and Operation of Electric Vehicles in Power Grids: A Review

2018

Self Cite

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Electric Vehicles (EVs) and hybrid Electric vehicles (HEVs) are going to reshape the future of the transportation sector. However, adopting large numbers of EVs and HEVs will impact the electric utilities as well. Managing the charging/discharging of substantial numbers of distributed batteries will be critical for the successful adoption of EVs and HEVs. Therefore, this paper presents a review study about the recent control and optimization strategies for managing the charging/discharging of EVs. The paper covers different control and operation strategies reported in the literature as well as issues related to the real time dispatching of EVs in the smart grids. In addition, challenges related to the stochastic nature of the driving characteristics of EVs are considered. Finally, some open problems related to the energy management of EVs will be presented.

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A Voltage-Based Controller for an Electric-Vehicle Charger

Cited by 60 publications

References 21 publications

Optimal Charging Schedule Planning and Economic Analysis for Electric Bus Charging Stations

Optimal Charging Schedule Planning and Economic Analysis for Electric Bus Charging Stations

An Integrated Multifunctional Bidirectional AC/DC and DC/DC Converter for Electric Vehicles Applications

Charge Control and Operation of Electric Vehicles in Power Grids: A Review

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