HiPE - High Performance Power Electronics Integrations

HiPE - 高性能电力电子集成

• 批准号: 10057473
• 金额: $ 42.65万
• 依托单位: UNIVERSITY OF SURREY
• 依托单位国家: 英国
• 项目类别: EU-Funded
• 财政年份: 2022
• 资助国家: 英国
• 起止时间: 2022 至 无数据
• 项目状态: 未结题
• 来源: https://gtr.ukri.org/projects?ref=10057473
• 关键词: HiPE; Performance; Power; Electronics; Integrations

HiPE brings together 13 participants covering the whole value chain, to develop a new highly energy-efficient, cost-effective, modular, compact and integrated wide band gap (WBG) power electronics solutions for the next generation of battery electric vehicles (BEV), and to facilitate a significant market penetration of WBG in the automotive sector. The project outputs will include: i) a scalable and modular family of WBG-based traction inverters and DC/DC converters with significantly improved specific cooling performance, suitable for 400V, 800V and 1200V applications, with power ratings from 50 to 250 kW, integrated into electric drives enabling drastic size and weight reductions; ii) a family of integrated WBG-based on-board chargers and DC/DC converters, with optimised innovative topologies, including use of GaN; and iii) integrated, fault-tolerant and cost-effective GaN-based power electronics for high-voltage ancillaries and chassis actuators. The result will be an unprecedented level of functional integration, e.g., the HiPE power electronics solutions will be smart cyber-physical systems, incl. intelligent and predictive controllers to optimise performance, innovative and computationally efficient data-driven approaches to monitor the state-of-health of the relevant hardware, as well as novel digital-twin-based methodologies to tailor the component- and vehicle-level algorithms to the specific condition of the hardware installed on each individual BEV, and actively control the reliability and availability of the relevant parts. This will be achieved while preserving the expected automotive quality level without having to recur to over engineering, thanks to the innovative implementation of data-driven dependability techniques for cyber-physical systems. The extensive simulation analyses running in parallel with the design and experimental activities will further demonstrate the scalability, modularity and wider potential impact of power electronics solutions

HiPE汇集了13个参与者，涵盖整个价值链，为下一代电池电动汽车（BEV）开发新的高能效，成本效益，模块化，紧凑和集成的宽带隙（WBG）电力电子解决方案，并促进WBG在汽车领域的重大市场渗透。项目产出将包括：i)可扩展和模块化的基于wbg的牵引逆变器和DC/DC转换器系列，具有显著改善的特定冷却性能，适用于400V， 800V和1200V应用，额定功率从50到250千瓦，集成到电力驱动器中，可大幅减小尺寸和重量；ii)一系列基于wbg的集成车载充电器和DC/DC转换器，具有优化的创新拓扑结构，包括使用氮化镓；以及iii)用于高压辅助设备和底盘执行器的集成，容错和经济高效的基于gan的电力电子设备。其结果将是前所未有的功能集成水平，例如，HiPE电力电子解决方案将是智能网络物理系统，包括智能和预测控制器，以优化性能，创新和计算高效的数据驱动方法，以监测相关硬件的健康状态。以及新颖的基于数字孪生的方法，根据每辆纯电动汽车上安装的硬件的具体情况定制组件和车辆级算法，并主动控制相关部件的可靠性和可用性。这将在保持预期的汽车质量水平的同时实现，而不必重复进行工程设计，这要归功于数据驱动的网络物理系统可靠性技术的创新实施。与设计和实验活动并行运行的广泛仿真分析将进一步证明电力电子解决方案的可扩展性、模块化和更广泛的潜在影响