@misc{8430, abstract = {{This article highlights the special electrical properties of an industrial DC grid and compares it with other typical DC grids. In this article, the extent of transient overvoltages is presented, which must be assumed to be caused by grid faults and switching operations. Basic measures for the protection of devices are listed and evaluated. The article clarifies that basic protection is necessary for the reliable operation of devices in industrial DC grids, but is easy to implement.}}, author = {{Borcherding, Holger and Austermann, Johann and Puls, Simon}}, booktitle = {{2021 22nd IEEE International Conference on Industrial Technology (ICIT)}}, isbn = {{978-1-7281-5730-6}}, issn = {{2643-2978}}, keywords = {{drive inverters, DC grid, overvoltage protection, DC grid faults}}, location = {{Valencia, Spain; Online}}, pages = {{625--630}}, publisher = {{IEEE}}, title = {{{Potential Hazards of Transient Overvoltages in an Industrial DC Grid and Basic Protective Measures}}}, doi = {{10.1109/ICIT46573.2021.9453597}}, year = {{2021}}, } @misc{4918, abstract = {{An open industrial DC grid has a lot of advantages. Also new challenges arise by coupling several DC link capacitors of inverters. This paper presents an approach and measurements of an active device protection to withstand possible faults that can occur in the DC grid. In particular, robustness in the event of faults plays a key role.}}, author = {{Puls, Simon and Obernolte, Urs and Borcherding, Holger and Ehlich, Martin}}, booktitle = {{2020 22nd European Conference on Power Electronics and Applications (EPE'20 ECCE Europe VIRTUAL)}}, isbn = {{978-1-7281-9807-1}}, issn = {{2325-0313}}, keywords = {{DC grid, fault handling strategy, DC-power supply, active protection, drive inverters}}, location = {{Lyon, France}}, publisher = {{IEEE}}, title = {{{Approach of an Active Device Protection for Drive Inverters against Short Circuit Faults in an Open Industrial DC Grid}}}, doi = {{10.23919/EPE20ECCEEurope43536.2020.9215949}}, year = {{2020}}, } @inproceedings{328, abstract = {{In this paper, concepts for an extended DC network for the main power supply of components from various manufacturers in industrial production are presented. In the first part, detailed requirements for such a network are given from the viewpoint of a customer. Based on those, different concepts for AC/DC conversion and energy management are discussed. As far as AC/DC conversion is concerned, the advantages and drawbacks of several rectifier topologies are listed, as they have a significant impact on the system behavior and EMC properties. An intelligent energy management can improve the energy efficiency and reduce downtimes of a plant, which are major requirements from a customer’s viewpoint. }}, author = {{Borcherding, Holger and Austermann, Johann and Kuhlmann, Timm and Weis, Benno and Leonide, Andre}}, booktitle = {{2017 IEEE Second International Conference on DC Microgrids (ICDCM)}}, keywords = {{AC-DC power convertors, electromagnetic compatibility, energy conservation, energy management systems, rectifiers, main power supply, industrial production, DC network, AC-DC conversion, rectifier topologies, EMC properties, intelligent energy management, energy efficiency improvement, downtime reduction, Rectifiers, Switches, Voltage control, Topology, Network topology, Production, Grounding, industrial DC grid, SMART Grid}}, location = {{Nürnberg}}, number = {{1}}, pages = {{227--234}}, title = {{{Concepts for a DC Network in Industrial Production}}}, doi = {{10.1109/ICDCM.2017.8001049}}, year = {{2017}}, }