{"title":"用于电动汽车无线充电的标准化差分感应定位系统","authors":"Mike Boettigheimer, Philip Grabherr","doi":"10.4271/2024-01-2987","DOIUrl":null,"url":null,"abstract":"To shape future mobility MAHLE has committed itself to foster wireless charging for electrical vehicles. The standardized wireless power transfer of 11 kW at a voltage level of 800 V significantly improves the end user experience for charging an electric vehicle without the need to handle a connector and cable anymore. Combined with automated parking and autonomous driving systems, the challenge to charge fleets without user interaction is solved.Wireless charging is based on inductive power transfer. In the ground assembly’s (GA) power transfer coil, a magnetic field is generated which induces a voltage in the vehicle assembly (VA) power transfer coil. To transfer the power from grid to battery with a high efficiency up to 92% the power transfer coils are compensated with resonant circuits.In this paper the Differential-Inductive-Positioning-System (DIPS) to align a vehicle on the GA for parking will be presented. This system utilizes five standardized magnetic fields which are generated within the GA. On the VA induced voltages by the standardized magnetic fields are measured with two crossed coils. A dedicated coil in the GA provides the (magnetic) field for the steering and braking information. The stop signal for the vehicle is provided by an array of four coils in the GA. Additionally to private garages, the DIPS is designed for multi-GA parking spots as well. The special differential signal processing makes the procedure extremely robust against metallic foreign objects. The high accuracy of the DIPS allows the driver to align the vehicle at the first attempt. The automized pairing process enables a charging process without interaction of the driver.","PeriodicalId":510086,"journal":{"name":"SAE Technical Paper Series","volume":"355 7","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2024-07-02","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Standardized Differential Inductive Positioning System for Wireless Charging of Electric Vehicles\",\"authors\":\"Mike Boettigheimer, Philip Grabherr\",\"doi\":\"10.4271/2024-01-2987\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"To shape future mobility MAHLE has committed itself to foster wireless charging for electrical vehicles. The standardized wireless power transfer of 11 kW at a voltage level of 800 V significantly improves the end user experience for charging an electric vehicle without the need to handle a connector and cable anymore. Combined with automated parking and autonomous driving systems, the challenge to charge fleets without user interaction is solved.Wireless charging is based on inductive power transfer. In the ground assembly’s (GA) power transfer coil, a magnetic field is generated which induces a voltage in the vehicle assembly (VA) power transfer coil. To transfer the power from grid to battery with a high efficiency up to 92% the power transfer coils are compensated with resonant circuits.In this paper the Differential-Inductive-Positioning-System (DIPS) to align a vehicle on the GA for parking will be presented. This system utilizes five standardized magnetic fields which are generated within the GA. On the VA induced voltages by the standardized magnetic fields are measured with two crossed coils. A dedicated coil in the GA provides the (magnetic) field for the steering and braking information. The stop signal for the vehicle is provided by an array of four coils in the GA. Additionally to private garages, the DIPS is designed for multi-GA parking spots as well. The special differential signal processing makes the procedure extremely robust against metallic foreign objects. The high accuracy of the DIPS allows the driver to align the vehicle at the first attempt. 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引用次数: 0
摘要
为了塑造未来的移动性,马勒致力于推动电动汽车无线充电的发展。在 800 V 的电压水平下,11 kW 的标准化无线功率传输大大改善了最终用户为电动汽车充电的体验,而无需再处理连接器和电缆。结合自动泊车和自动驾驶系统,无需用户交互即可为车队充电的难题迎刃而解。在地面总成(GA)的电力传输线圈中,会产生一个磁场,该磁场会在车辆总成(VA)的电力传输线圈中感应出一个电压。为了以高达 92% 的效率将电能从电网传输到电池,功率传输线圈采用谐振电路进行补偿。本文将介绍差分感应定位系统 (DIPS),该系统用于将车辆对准 GA 进行停放。该系统利用 GA 内部产生的五个标准化磁场。通过两个交叉线圈测量标准化磁场在 VA 上产生的感应电压。自动导航仪中的专用线圈为转向和制动信息提供(磁)场。车辆停止信号由 GA 中的四个线圈阵列提供。除私人车库外,DIPS 还设计用于多 GA 停车场。特殊的差分信号处理使该程序对金属异物具有极强的抵抗力。DIPS 的高精确度使驾驶员在第一次尝试时就能对准车辆。自动配对过程可实现充电过程,而无需与驾驶员互动。
Standardized Differential Inductive Positioning System for Wireless Charging of Electric Vehicles
To shape future mobility MAHLE has committed itself to foster wireless charging for electrical vehicles. The standardized wireless power transfer of 11 kW at a voltage level of 800 V significantly improves the end user experience for charging an electric vehicle without the need to handle a connector and cable anymore. Combined with automated parking and autonomous driving systems, the challenge to charge fleets without user interaction is solved.Wireless charging is based on inductive power transfer. In the ground assembly’s (GA) power transfer coil, a magnetic field is generated which induces a voltage in the vehicle assembly (VA) power transfer coil. To transfer the power from grid to battery with a high efficiency up to 92% the power transfer coils are compensated with resonant circuits.In this paper the Differential-Inductive-Positioning-System (DIPS) to align a vehicle on the GA for parking will be presented. This system utilizes five standardized magnetic fields which are generated within the GA. On the VA induced voltages by the standardized magnetic fields are measured with two crossed coils. A dedicated coil in the GA provides the (magnetic) field for the steering and braking information. The stop signal for the vehicle is provided by an array of four coils in the GA. Additionally to private garages, the DIPS is designed for multi-GA parking spots as well. The special differential signal processing makes the procedure extremely robust against metallic foreign objects. The high accuracy of the DIPS allows the driver to align the vehicle at the first attempt. The automized pairing process enables a charging process without interaction of the driver.