利用用户友好的损耗图实现电力电子激励下的标准化磁性元件

IF 5 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Navid Rasekh;Jun Wang;Xibo Yuan
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引用次数: 0

摘要

如今,在电力电子系统中,大多数元件,如电力电子器件(MOSFET、IGBT 等)和电容器都是标准化的,即作为具有不同数值和额定值的整体标准件出售。然而,磁性元件,特别是高频变压器(HFT)和电感器,仍主要由最终用户使用磁芯和磁线等分立元件进行设计和制造。如果没有制造商多年的经验和先进的设计工具,最终用户的这种定制设计和制造方法可能无法实现整体最佳性能,如效率、功率密度、可靠性和准确的损耗估计。此外,如果将磁性元件标准化并大量销售,就可以降低制造成本,并在多年的使用过程中改进设计和可靠性。正如电阻器、电容器和功率器件的销售方式一样,作者希望用户也能从制造商的产品目录中购买到能准确估算功率损耗的标准化磁性元件。因此,本文旨在为磁性元件的标准化铺平道路,并提供一种实用、准确的功率损耗估算方法,嵌入电力电子激励下标准化磁性元件的数据表中。本文探讨了在磁性元件设计中使用完整损耗数据集(即磁芯和绕组损耗)的目的和必要性,以及如何实现这些数据集。用时域电气变量代替磁变量,可以直接进行损耗映射/估算,并为损耗图中包含更多参数(如 HFT 的负载条件)做好准备。用户友好型损耗图可以方便地发布有关功率磁学损耗的信息,并可作为全新版本的数据表实际应用于电力电子应用中。本文还提供了未来用于标准化磁性元件矩形(PWM)电压激励的数据表示例。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Towards Standardized Magnetic Components Under Power Electronics Excitation With User-Friendly Loss Maps
Nowadays, in a power electronics system, most components such as power electronics devices (MOSFETs, IGBTs, etc.) and capacitors are standardized, i.e., sold as a whole standard item with various values and ratings. However, magnetic components, in particular, high-frequency transformers (HFTs) and inductors, are still primarily designed and built by the end users using discrete components such as magnetic cores and wires. This customized design and built approach by the end users may not achieve the overall best performance, as efficiency, power density, reliability, and accurate loss estimation, without the manufacturers' years of experience and advanced design tools. In addition, if the magnetic components are standardized and sold in large quantities, they can reduce manufacturing costs and improve design and reliability over the years. In the same way as resistors, capacitors, and power devices are sold, it is the authors' hope that the users can buy standardized magnetic components from manufacturers' product catalogues with power loss accurately estimated as well. Therefore, this article aims to pave the way for standardizing magnetic components and provides a practical and accurate power loss estimation method embedded in the datasheets of the standardized magnetic components under power electronics excitation. The presented work explores the purpose and necessity of using a complete loss dataset (i.e., core and winding losses) for one magnetic component design and how to implement them. Replacing magnetic variables with time-domain electrical variables makes it possible to perform a straightforward loss mapping/estimation and prepare for more parameters to be included in the loss map, such as HFTs' load conditions. User-friendly loss maps can conveniently release information about power magnetics losses and can be applied practically to power electronics applications as a brand-new version of the datasheets. This article also provides an example of a future datasheet for rectangular (PWM) voltage excitation of standardized magnetic components.
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来源期刊
CiteScore
8.60
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