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Wireless Power Transfer for Electric Vehicles by Alicia Triviño-Cabrera , José M. González-González , José A. Aguado Book Details
| Book Name | Wireless Power Transfer for Electric Vehicles |
| Author | Alicia Triviño-Cabrera , José M. González-González , José A. Aguado |
| Category | Electronics & Communication Engineering, Education Books |
| Book Language | English |
| Pages | 175 |
| Country | India |
| Book Size | 7 MB |
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About Wireless Power Transfer for Electric Vehicles by Alicia Triviño-Cabrera , José M. González-González , José A. Aguado Book
Wireless Power Transfer (WPT) for Electric Vehicles (EVs) is a technology that enables electric vehicles to charge their batteries without the need for physical connectors or cables. Instead, power is transferred wirelessly from a charging pad on the ground to a receiver on the vehicle. This technology offers convenience, automation, and reduced wear and tear on charging connectors. Here's an overview of wireless power transfer for electric vehicles:
How Wireless Power Transfer for EVs Works:
Wireless charging for EVs is typically based on electromagnetic induction or resonant coupling. Here's how the process generally works:
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Charging Pad Installation: Charging pads, also known as charging stations, are installed in parking spaces or roadways. These pads contain coils of wire that generate a magnetic field.
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Vehicle Receiver Installation: Electric vehicles are equipped with a receiver coil installed underneath the vehicle, usually in the undercarriage.
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Power Transmission: When an EV is parked over a charging pad, an alternating current (AC) is passed through the pad's coils, generating a magnetic field.
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Inductive or Resonant Coupling: The magnetic field induces an electric current in the receiver coil of the EV through either inductive coupling (transformer-like interaction) or resonant coupling (tuned resonance).
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Power Conversion: The induced current in the vehicle's receiver coil is converted back into direct current (DC) by the vehicle's power electronics to charge the battery.
Benefits and Advantages:
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Convenience: Wireless charging eliminates the need for manual plugging and unplugging, providing a more seamless and user-friendly charging experience.
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Reduced Wear and Tear: Wireless charging reduces mechanical wear on connectors and cables, potentially increasing the lifespan of charging equipment.
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Automated Charging: Wireless charging can be integrated into parking spaces or roadways, enabling automated charging while the vehicle is parked.
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Weather Resistance: Wireless charging is less susceptible to weather-related wear and damage compared to traditional connectors.
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Future Mobility: Wireless charging could support dynamic charging scenarios, such as charging while driving on electrified roadways.
Challenges and Considerations:
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Efficiency: Wireless power transfer is generally less efficient than plug-in charging due to energy losses during conversion and transmission.
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Standardization: The lack of standardized wireless charging systems may limit interoperability and compatibility among different vehicle models and charging infrastructure.
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Cost: Initial installation costs for wireless charging infrastructure can be higher than traditional plug-in stations.
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Power Levels: Current wireless charging technology is best suited for slower charging scenarios, making it more suitable for overnight charging than rapid charging.
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Foreign Object Detection: Ensuring the safety of the charging process requires systems that can detect foreign objects on the charging pad.
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Regulatory Approval: Wireless charging systems must meet regulatory safety standards before widespread adoption.
Wireless power transfer for electric vehicles is an evolving technology with the potential to revolutionize the way we charge our EVs. As research and development continue, advancements in efficiency, interoperability, and cost-effectiveness are likely to address many of the current challenges, making wireless charging a viable option for future electric vehicle charging infrastructure.
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