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基于非线性几何控制的直接功率传输电流型双有源桥变换器
Nonlinear Geometric Control of Current-Fed Dual Active Bridge Converter with Direct Power Transfer
| 作者 | Sajjad Goudarzitaemeh · Majid Pahlevani |
| 期刊 | IEEE Journal of Emerging and Selected Topics in Power Electronics |
| 出版日期 | 2025年5月 |
| 技术分类 | 电动汽车驱动 |
| 技术标签 | DC-DC变换器 DAB |
| 相关度评分 | ★★★★★ 5.0 / 5.0 |
| 关键词 | DC - DC转换器 线性控制器 非线性几何SO(2)控制器 高频电流 系统性能 |
语言:
中文摘要
线性控制器在DC–DC变换器性能提升方面存在诸多限制。传统方法通过开关周期平均与线性化建立线性时不变模型,但其在单一工作点附近对非线性系统进行近似,导致宽范围工况下性能欠佳。本文提出一种基于SO(2)非线性几何控制的新方法,用于双向DC–DC变换器,可直接调控高频电流并引导系统轨迹沿环面运动,实现快速动态响应与增强稳定性。通过数学建模、理论分析及实验验证,结果表明所提控制器具有优越性能。
English Abstract
Linear controllers impose many limitations on the performance of DC–DC converters. Typically, the dynamics of these converters are averaged over a switching cycle and then linearized to create a Linear Time-Invariant (LTI) system model, which is subsequently used to design a linear controller. However, this linear approximation of nonlinear systems around a single operating point, combined with averaging, often leads to sub-optimal performance, particularly in applications with a wide range of operating conditions. This paper presents a novel nonlinear geometric-based SO(2) controller for bidirectional DC–DC converters. The proposed controller can directly control the high-frequency current and steer the system trajectory on a surface of a torus to achieve fast dynamics and improved stability. This paper presents the mathematical foundations and analysis, and demonstrates the superior performance of the proposed controller through simulations and experiments.
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SunView 深度解读
该非线性几何控制技术对阳光电源DC-DC变换器产品具有重要应用价值。在ST储能变流器中,DAB拓扑广泛用于电池侧DC-DC变换,所提SO(2)几何控制可突破传统线性化控制在宽电压范围下的性能瓶颈,提升储能系统充放电动态响应速度与电压稳定性。在车载OBC充电机领域,该直接功率传输控制方法可优化宽输入电压范围下的功率传输效率与动态特性。对于光伏MPPT场景,该技术可增强DC-DC变换器在光照剧烈波动时的快速跟踪能力。建议结合阳光电源现有三电平拓扑与SiC器件技术,将该非线性控制算法集成到DSP/FPGA平台,实现全工况高性能控制。