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具有集成正交绕组的高功率密度解耦磁性器件
Higher Power Density Decoupled Magnetic Device With Core Integrated Orthogonal Windings for Power Converters
| 作者 | Shamroze Fayyaz · Umair Munir · Mohamed Atef Tawfik · Kyoung-Tak Kim · Jong-Kwon Jeon · Ashraf Ahmed |
| 期刊 | IEEE Transactions on Power Electronics |
| 出版日期 | 2024年12月 |
| 技术分类 | 储能系统技术 |
| 技术标签 | 储能系统 |
| 相关度评分 | ★★★★★ 5.0 / 5.0 |
| 关键词 | 集成磁器件 三平板结构 功率密度 解耦电感 有限元模拟 |
语言:
中文摘要
本文提出了一种用于集成磁器件的无腿三板磁结构,以提高电力电子变换器的功率密度。该设计理念可用于在同一磁芯中集成任何磁器件,如解耦电感、解耦变压器或电感与变压器的组合。本文给出了一个使用两个正交绕组在同一磁芯中集成两个解耦电感的实例。所提出的磁器件包含两个绕制在单个磁芯上的电感线圈,它们在三维空间中相互垂直排列。这种特殊的结构确保了线圈之间的磁耦合几乎为零,有效地将集成磁器件转变为两个具有更高功率密度的独立电感。三板结构能更均匀地分布磁通量,减轻了结构内的磁集中现象。磁通量的均匀分布使器件在达到饱和之前能够承受更强的磁场,从而提高了器件的功率密度。该设计在各种直流 - 直流变换器应用中具有广阔前景,有望在提高功率密度的同时降低成本和减小体积。本文通过详细的有限元方法仿真,对所提出磁器件的磁性能进行了全面分析,并将其与最近提出的二板方形腿结构的磁性能进行了对比。在相同负载条件下,采用三板设计使磁通量密度降低了 25%,使器件能够比方形腿结构多承受 60% 的电流。通过一个 250 W 两相交错式升压变换器对样机进行测试,并与分立磁芯电感进行对比,结果表明,所提出的器件在不影响系统效率的情况下,使系统磁元件的体积减少了 50%,分立磁芯电感和所提出的磁器件的系统效率均保持在 94%。
English Abstract
This article proposes a three-plate, leg-less magnetic structure for integrated magnetic device to enhance the power density of the power electronics converters. The main idea could be used to integrate any magnetic device, such as decoupled inductors, decoupled transformers, or decoupled inductor with transformer, in the same core. In this article, a case of two decoupled inductors integrated in the same core using two orthogonal windings is presented. The proposed magnetic device features two inductive coils, wound on a single magnetic core, arranged perpendicularly in three-dimensional space. This specific configuration ensures nearly zero magnetic coupling between the coils, effectively transforming the integrated magnetic device into two independent inductors with higher power density. The three-plate structure distributes the magnetic flux in a more uniform manner, mitigating magnetic concentration within the structure. The uniform distribution of magnetic flux enables the device to handle stronger H-fields before reaching saturation, thus increasing the power density of the device. The design holds promise for various dc–dc converter applications, potentially leading to cost and size reduction with higher power density. The article provides a comprehensive analysis of the magnetic performance of the proposed magnetic device through detailed finite element method simulations. The magnetic performance of the proposed device is compared with that of the recently proposed two-plate, quadratic-legs structure. The adoption of the three-plate design led to a 25% reduction in the magnetic flux density, for the same load conditions, enabling the device to handle 60% higher current than the quadratic-legs structure. A prototype, tested using a 250 W 2-phase interleaved boost converter and compared with discrete core inductors, revealed that the proposed device achieved a 50% reduction in the volume of the magnetic component of the system without compromising system efficiency, which remained consistent at 94% for both discrete core inductors and the proposed magnetic device.
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SunView 深度解读
从阳光电源的业务视角来看,这项三板无腿磁性结构的集成磁器件技术具有显著的战略价值。该技术通过正交绕组设计实现磁耦合接近零的双电感集成,在250W双相交错升压变换器测试中实现了磁性元件体积减少50%而效率保持94%不变,这与我司在光伏逆变器和储能变流器领域追求高功率密度的产品战略高度契合。
技术优势方面,三板结构相比传统方案使磁通密度降低25%,电流承载能力提升60%,这对于我司大功率组串式逆变器和储能PCS产品的小型化、轻量化具有直接价值。特别是在户用光伏和工商业储能系统中,设备体积和重量的降低能显著改善安装便利性和降低物流成本。该技术的解耦特性还可应用于多相交错并联拓扑,与我司在高效率变换器设计上的技术积累形成良好协同。
然而,技术应用仍面临实际挑战。论文仅验证了250W功率等级,而我司主流产品功率范围从数千瓦到兆瓦级,大功率场景下的磁芯损耗、热管理和机械强度需要深入验证。三维正交绕组结构的制造工艺复杂度较高,可能增加生产成本和质量控制难度。此外,在宽输入电压范围和复杂环境条件下的长期可靠性数据尚不充分。
建议我司技术团队关注该技术在中小功率储能变流器和车载充电模块中的应用潜力,可考虑与学术机构合作开展功率等级扩展和成本优化研究,探索在新一代高功率密度产品平台中的集成可能性。