Jacopo Colussi scite author profile

Jacopo Colussi

4Publications

32Citation Statements Received

86Citation Statements Given

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Affiliations

Polytechnic University of Turin, Ferrari (Italy), Center for Research Resources and Energy Consumption

Publications

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The Fabric ICT Platform for Managing Wireless Dynamic Charging Road Lanes

Cirimele

Ganga

Colussi

et al. 2020

IEEE Trans. Veh. Technol.

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As dynamic inductive power transfer for electric vehicles is growing in relevance, it is important to analyze solutions towards its deployment and integration in the cloudbased services for electric mobility. In this paper we present an Internet-enabling platform for Electric Vehicle Supply Equipment, which features a high-level Charging Station Control Unit and a Power Electronics Controller. The platform is a middleware that controls the charging process taking into account outside world information. Tests were performed in a safe driving track, in Italy, to verify the effectiveness and robustness of the installation, for one year, for a total of 120 drive hours, under various weather conditions. Tests showed the suitability of the platform in terms of ability to authenticate and authorize a vehicle even through a remote service, sequentially control each coil in a lane, monitor the charging process, assist the driver in keeping the vehicle aligned so as to maximize the energy exchange and deliver charging session information to the cloud (e.g. for billing).

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Modelling of a 100 kW-85 kHz Three-Phase System for Static Wireless Charging and Comparison with a Classical Single-Phase System

Cirimele

Colussi

Villa

et al. 2020

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100 kW Three-Phase Wireless Charger for EV: Experimental Validation Adopting Opposition Method

Colussi

Ganga

et al. 2021

Energies

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This paper presents the experimental validation, using the opposition method, of a high-power three-phase Wireless-Power-Transfer (WPT) system for automotive applications. The system under test consists of three coils with circular sector shape overlapped to minimize the mutual cross-coupling, a three-phase inverter at primary side and a three-phase rectifier at receiver side. In fact thanks to the delta configuration used to connect the coils of the electromagnetic structure, a three-phase Silicon Carbide (SiC) inverter is driving the transmitter side. The resonance tank capacitors are placed outside of the delta configuration reducing in this way their voltage sizing. This WPT system is used as a 100 kW–85 kHz ultrafast battery charger for light delivery vehicle directly supplied by the power grid of tramways. The adopted test-bench for the WPT charger consists of adding circulating boost converter to the system under test to perform the opposition method technique. The experimental results prove the effectiveness of the proposed structure together with the validation of fully exploited simulation analysis. This is demonstrated by transferring 100 kW with more than 94% DC-to-DC efficiency over 50 mm air gap in aligned conditions. Furthermore, testing of Zero-Current and Zero-Voltage commutations are performed to test the performance of SiC technology employed.

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Electrical measurements at inductive charging stations for electric vehicles. An outcome from Micev project

Zucca

Bruna

Cirimele

et al. 2020

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Jacopo Colussi

The Fabric ICT Platform for Managing Wireless Dynamic Charging Road Lanes

Modelling of a 100 kW-85 kHz Three-Phase System for Static Wireless Charging and Comparison with a Classical Single-Phase System

100 kW Three-Phase Wireless Charger for EV: Experimental Validation Adopting Opposition Method

Electrical measurements at inductive charging stations for electric vehicles. An outcome from Micev project

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