Comparison of different electrical HVDC-architectures for aircraft application

2012 Electrical Systems for Aircraft, Railway and Ship Propulsion Pub Date : 2012-12-24 DOI:10.1109/ESARS.2012.6387380

J. Brombach, A. Lucken, B. Nya, M. Johannsen, D. Schulz

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引用次数: 59

Abstract

This paper deals with an integration of High Voltage DC (HVDC1) in the onboard power supply system. Conventional aircraft grids have a main voltage of 115 V AC (star voltage) with a variable frequency of 360...800 Hz. Newer aircraft try to integrate 230 V AC generators in the grid to save cable weight. With the “More Electric Aircraft”- concept HVDC grids could be integrated in future airplanes. In all concepts the airport infrastructure has to be considered. The ground power supply is based on mobile Ground Power Units (GPUs) or an inverter supplied by the airport grid (Fig. 1). The ground supply allocates 115 V AC with a fixed frequency of 400 Hz and a maximum power of 90 kVA per unit. Changing to an HVDC-grid has a lot of advantages. Higher voltage means lower cable weight. Furthermore, the electrical converter architecture can be optimized. Especially the converters inside the loads can be built much lighter when using a DC supply. This paper compares different possibilities of HVDC integration. Ancillary conditions like carbon fiber reinforced plastic fuselages and a possible ground power supply with conventional technology are taken into consideration. The attention is focused on an efficient cabin power supply. But to make a global assessment, the entire onboard power supply system is analyzed.

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飞机应用中不同电气hvdc架构的比较

本文研究了高压直流(HVDC1)在车载电源系统中的集成。传统的飞机电网主电压为115 V AC(星电压)，变频为360…800赫兹。较新的飞机尝试在电网中集成230伏交流发电机，以节省电缆重量。有了“更多的电动飞机”概念，HVDC电网可以集成到未来的飞机上。在所有概念中都必须考虑机场基础设施。接地电源采用移动gpu (ground power unit)或机场网逆变器供电(如图1所示)，配置交流115v，固定频率400hz，最大功率90kva /台。改为高压直流电网有很多优点。电压越高，电缆重量越轻。此外，还可以优化电转换器的结构。特别是当使用直流电源时，负载内部的转换器可以建造得更轻。本文比较了高压直流一体化的不同可能性。辅助条件，如碳纤维增强塑料机身和可能的地面电源与传统技术进行了考虑。人们的注意力集中在高效的客舱电源上。但为了进行全局评估，对整个机载电源系统进行了分析。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2012 Electrical Systems for Aircraft, Railway and Ship Propulsion

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