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- Michael Eull | MPLab - Columbia University
He is currently a Research and Development Engineer in power electronics at the Power Networks Demonstration Centre, University of Strathclyde, United Kingdom, and is serving as the Treasurer for the 2022 IEEE AIAA ITEC+EATS conference
- Michael Eulls research works | CUNY Graduate Center, New York (CUNY . . .
Michael Eull's 20 research works with 204 citations and 20,209 reads, including: Modular Model Predictive Control with Regulated Third Harmonic Injection for Zero-Sequence
- Michael Eull - Tau Motors - LinkedIn
PhD in electrical engineering with an interest in renewable energies and electrified… · Experience: Tau Motors · Education: Columbia University in the City of New York · Location: Redwood City ·
- Bus Bar Design for High-Power Inverters - Columbia University
Abstract—This paper presents a comprehensive analysis about bus bar design procedure Some applications in terms of rated power and shape are investigated regarding their particular requirements and challenges The DC-link capacitor selection is one of the first and most important steps
- Robust Control Design for Ride-Through Trip of . . . - ResearchGate
A transformerless electric vehicle (EV) onboard charger is designed for robust grid fault ride-through trip capabilities and the attenuation of leakage current ( $< $ 20 mA) with high efficiency
- Michael Eull | IEEE Xplore Author Details
Author Bio: Michael Eull (S’12) photographs and biographies not available at the time of publication
- Michael Eull (0000-0003-1042-4109) - ORCID
Columbia University: New York, New York, US 2016-09 to 2021-07 | Graduate Michael Eull; Benjamin Danen; Jason Gibson; Matthias Preindl; Berker Bilgin; Ali Emadi Show more detail Source: Michael Eull A stochastic optimization technique for discrete DC capacitor bank design 2017 IEEE Transportation Electrification Conference and Expo
- 用于高性能、低成本软件定义电力电子的基于优化的估计和 . . .
开发了基于优化的估计 (OBE) 与模型预测控制 (MPC) 相结合的技术,以提高基于 LC 的可重构电源模块的动态性能,同时降低成本和减少噪声 振荡。 开发的OBE-MPC技术和相应的电源模块基于软件定义的电力电子概念,可以重构为不同的拓扑并应用于各种负载 源应用,例如dc dc转换器、dc ac单 三三相并网逆变器和交流 交流电机牵引逆变器,提高能量转换性能。 软件定义的电力电子器件采用通用方式设计,通过操纵不同数量的 OBE-MPC 电源模块,为广泛的应用提供整体高级控制功能。 与 MPC 对称镜像,OBE 被配置为约束有限时间最优估计 (CFTOE) 问题,以基于过去的采样信息求解二次成本函数。 通过设计的 OBE,可以减少传感器数量并减少噪声 振荡。
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