逆变器仿真器作为航天电力系统多用途测试系统

Q3 Engineering

AUS Pub Date : 2023-03-29 DOI:10.1109/ESARS-ITEC57127.2023.10114810

S. Deda, Oliver König, Thomas Haidinger, Gernot Pammer

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引用次数: 0

摘要

电气化大大增加了航空航天电力系统(EPS)的复杂性，因为从传统飞机到更电动飞机(MEA)和全电动飞机(AEA)的过渡[1]。本出版物展示了一种使用基于电源硬件在环(PHIL)的逆变器仿真器(PHIL- ie)作为产品生命周期有效测试工具的新方法。在早期的研发阶段，phili - ie已经可以完全模拟未来目标逆变器在现实生活条件下的全功率。同样的PHIL-IE加上修改后的HIL模型可以用来测试目标逆变器。最后，具有更复杂HIL模型的PHIL-IE可以作为测试单元，在铁鸟中模拟电池，h2系统，机器等。此外，该方法完全适用于真实电子元件和数字孪生的联合仿真。

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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Inverter Emulator as Multi-Purpose Test System for Aerospace Electric Power Systems

Electrification significantly increases the complexity of aerospace electric power systems (EPS), as there is a transition from conventional aircraft to more electric aircraft (MEA) and all electric aircraft (AEA) [1]. This publication shows a novel method to use Power Hardware-in-the-Loop (PHIL) based inverter emulator (PHIL-IE) as an efficient test tool along the product life cycle. In early R&D phase the PHIL-IE can already fully emulate the future target inverter with full power under real life conditions. The same PHIL-IE with a modified HIL model can be used to test the target inverter. Finally, the PHIL-IE with a more complex HIL model can function as test unit to emulate batteries, H2-Systems, machines and more within an iron bird. In addition, this method is perfectly suitable for co-simulations of real electric components and digital twins.

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来源期刊

AUS Engineering-Architecture

CiteScore

0.40

自引率

0.00%

发文量

期刊介绍： Revista AUS es una publicación académica de corriente principal perteneciente a la comunidad de investigadores de la arquitectura y el urbanismo sostenibles, en el ámbito de las culturas locales y globales. La revista es semestral, cuenta con comité editorial y sus artículos son revisados por pares en el sistema de doble ciego. Periodicidad semestral.