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Demand for supplying contactless or wireless power for various applications, ranging from low-power biomedical implants to high-power battery charging systems, is on the rise. Inductive power transfer (IPT) is a well recognized technique through which power can be transferred from one system to another with no physical contacts. This paper presents a novel bidirectional IPT system, which is particularly...
Vehicle-to-grid (V2G) or G2V systems essentially require an interface between the electric vehicle (EV) and the grid to facilitate the V2G concept. This paper presents a wireless power interface for the grid integration of EVs. The proposed bi-directional wireless power interface is based on the Inductive Power Transfer (IPT) Technology, and comprises a high frequency IPT system and a low frequency...
This paper describes a communications system through which a user of a Distributed Generation (DG) system can interrogate and control its constituent energy converters and storage units depending on the user's specific needs. The system outlined in the paper includes a full web interface and integrated communications system based on the industry standard Controller Area Network (CAN) bus protocol...
This paper presents a Green Energy system that has a novel grid interface. The Green Energy system comprises of a wind turbine, a solar panel, a battery storage system, a residential load and an electric vehicle (EV); and is grid integrated wirelessly using a novel matrix converter based bi-directional power interface. The wireless power interface is implemented using Inductive Power Transfer (IPT)...
Inductive Power Transfer (IPT) is a technique for transferring power from one system to another with no physical contacts. Until now this technique has been widely used only for unidirectional power delivery in numerous applications over a wide power range. As bi-directional and contactless power transfer is advantageous for applications such electric vehicles and moving appliances, this paper presents...
Inductive Power Transfer (IPT) is an efficient and well established technique for contactless or wireless power transfer, and has numerous applications over a wide power range. Although the demand for high power IPT systems is growing, the implementation of such IPT systems is severely hampered by the limitations of voltage and current ratings of available semiconductor devices. This paper presents...
Inductive power transfer (IPT) technology is gaining popularity as an efficient wireless power transfer mechanism in numerous applications, ranging from microwatt bio-engineering implants to high power battery charging systems. A typical IPT system employs two separate controllers on both powering and receiving sides of the system to facilitate contactless power transfer in an efficient and controllable...
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