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用于储能系统应用的三相交错双向LLC谐振变换器与垂直集成磁体
Three-Phase Interleaved Bidirectional LLC Resonant Converter With Vertically Integrated Magnetics for Energy Storage System Applications
| 作者 | |
| 期刊 | IEEE Transactions on Power Electronics |
| 出版日期 | 2025年1月 |
| 技术分类 | 储能系统技术 |
| 技术标签 | 储能系统 LLC谐振 |
| 相关度评分 | ★★★★★ 5.0 / 5.0 |
| 关键词 | 双向LLC谐振变换器 三相交错 垂直集成磁件 效率 功率密度 |
语言:
中文摘要
双向 LLC 谐振变换器因其效率高、功率密度高和电磁干扰(EMI)低等显著特性,在储能系统中得到了越来越广泛的应用。为扩大输出功率并降低电流纹波,常用的策略是采用多相交错式变换器并联,实践证明这种方法能提供更高的效率和功率密度。本文介绍了一种采用垂直集成磁件的三相交错式双向 LLC 谐振变换器。通过共享磁板集成变压器和电感器,减小了磁件的体积。这种结构在正向和反向运行模式下均能实现磁通抵消,从而降低了磁芯损耗,提高了变换器效率。采用所提出的磁阻模型来分析零序磁通和励磁电流的影响。通过优化设计流程,制作了一台 400 V/48 V、3.5 kW 的样机,正向和反向运行模式下的峰值效率达到 98.6%,加州能源委员会(CEC)效率分别为 98.32%和 98.25%。该样机的功率密度也达到了 500 W/in³。
English Abstract
The bidirectional LLC resonant converter is increasingly adopted in energy storage systems due to its notable attributes such as high efficiency, high power density, and low electromagnetic interference (EMI). To extend output power and minimize current ripple, a common strategy is paralleling multiple-phase interleaved converters, which has been proved to offer superior efficiency and power density. This article introduces a three-phase interleaved bidirectional LLC resonant converter with vertically integrated magnetics. By integrating transformers and inductors through a shared magnetic plate, the volume of magnetics is reduced. This configuration enables flux cancellation in both forward and backward operation modes, leading to reduced core loss and enhanced converter efficiency. The proposed reluctance model is employed to analyze the impact of zero-sequence magnetic flux and magnetizing current. Through an optimal design procedure, a 400 V/48 V 3.5 kW prototype is implemented, achieving a peak efficiency of 98.6% and California Energy Commission (CEC) efficiencies of 98.32% and 98.25% for forward and backward operation modes, respectively. The prototype also reaches a power density of 500 W/in3.
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SunView 深度解读
从阳光电源储能系统业务视角来看,这项三相交错并联双向LLC谐振变换器技术具有显著的应用价值。该技术针对储能系统中DC-DC变换环节,通过垂直集成磁性元件设计,在400V/48V电压等级下实现了3.5kW功率输出,这与我们储能变流器(PCS)中的关键功率变换模块需求高度契合。
技术优势方面,98.6%的峰值效率和超过98%的CEC效率表明该拓扑在双向能量转换场景下具备优异的全工况性能,这对提升储能系统的往返效率至关重要。500W/in³的功率密度显著优于传统方案,有助于我们在工商业储能和户用储能产品中实现更紧凑的系统设计,降低BOS成本。垂直集成磁性元件通过磁通抵消机制降低了铁芯损耗和EMI干扰,这对满足日益严格的电网并网标准具有实际意义。
从应用成熟度评估,该技术已完成原理样机验证,但向产品化推进仍需关注几个关键点:一是三相交错控制的数字化实现复杂度和成本平衡;二是集成磁性元件在大功率扩展(如10kW以上模块)时的散热和磁饱和管理;三是宽电压范围适应性,因为储能系统需要适配不同电池电压平台。
对阳光电源而言,该技术可作为下一代高效储能变流器的候选方案,特别适用于对效率和体积敏感的应用场景。建议重点评估其在模块化多电平架构中的扩展性,以及与我们现有液冷技术的集成可行性,这将有助于巩固我们在全球储能市场的技术领先地位。