@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{8434, abstract = {{An open industrial DCgrid for energy supply has many benefits. Also new challenges arise by coupling the DClink capacitors of all devices, e.g. inverters. This paper presents the effects of component failures causing short circuit faults in combination with electrically coupled and charged DClink capacitors. Resulting energy flows are shown, which arise in the DCgrid in case of faults. In addition, measurements of short circuit tests and two solutions are shown, which enable the safe and simple operation of an open industrial DCgrid.}}, author = {{Borcherding, Holger and Blank, Frederic and Grünberg, Olaf and Höflsauer, Josef and Puls, Simon}}, booktitle = {{2021 23rd European Conference on Power Electronics and Applications (EPE’21 ECCE Europe)}}, isbn = {{978-1-6654-3384-6}}, issn = {{2325-0313}}, keywords = {{DC power supply, Fault handling strategy, Short circuit, Grid-connected inverter, DC machine}}, location = {{Virtuell}}, publisher = {{IEEE}}, title = {{{EFFECTS OF COMPONENT FAILURES IN DRIVE INVERTERS DURING PARALLEL OPERATING ON AN OPEN INDUSTRIAL DC GRID}}}, doi = {{10.23919/EPE21ECCEEurope50061.2021.9570706}}, year = {{2021}}, } @book{8414, abstract = {{Die Gleichstromfabrik Die Energiewende hat viele Facetten. Eine davon ist die Stromversorgung von Fabriken. Hier liegt der Ursprung des Umbruchs in der Antriebstechnik, die heute bereits gleichstrombasiert ist, während das Netz Wechselstrom liefert. In diesem Buch erfahren Sie, welche Vorteile es hat ein umfassendes Gleichstromfabriknetz aufzubauen, in das alle Stromerzeuger ihre Energie einspeisen und aus dem alle Verbraucher direkt versorgt werden. Alle damit verbundenen konzeptionellen, wirtschaftlichen, technischen und organisatorischen Fragestellungen werden in diesem Buch behandelt, z. B.: - Potenziale und wirtschaftliche Abschätzung der Gleichstromfabrik im Vergleich mit einer heutigen wechselstromversorgten Fabrik - Systemkonzeptentwurf für die notwendigen System- und Geräteanpassungen mit konkreten Lösungen für die Umsetzung - Detaillierte Behandlung aller relevanten technischen Themen, wie Topologie, Spannungsniveau, Versorgungskonzepte, Erdung und Netzformen, EMV, Vorladung - Kennlinienbasierte Regelung eines Gleichstromnetzes mit unterschiedlichen Versorgungsgeräten und Lasten - Gewährleistung der Netzstabilität, auch bei hochdynamischer Belastung und ohne zusätzliche Kommunikation - Behandlung wesentlicher Sicherheitsaspekte - Planung und Auslegung eines Gleichstromnetzes in der eigenen Fabrik, inklusive Darstellung der Planungsaufgaben und Hinweise für den Anwender Das Buch zeigt darüber hinaus vier reale Anwendungen, die mit dem beschriebenen, herstelleroffenen Gleichstromnetz realisiert wurden. Dabei werden jeweils unterschiedliche konzeptionelle Schwerpunkte erläutert, um die mögliche Bandbreite des Einsatzes zu demonstrieren.}}, author = {{Borcherding, Holger and Austermann, Johann and Sauer, Alexander}}, editor = {{Sauer, Alexander}}, isbn = {{978-3-446-46581-7}}, pages = {{228}}, publisher = {{Hanser}}, title = {{{Die Gleichstromfabrik}}}, year = {{2020}}, } @misc{8439, abstract = {{The Paper presents the concept of an experimental plant, which is to be built within the framework of the research project DC-INDUSTRIE2. This system consists of a multitude of electrical drives, various uni- and bidirectional rectifiers, several decentralized energy suppliers and several energy storage units. All devices in this system are coupled via a common DC Grid. DC Grids allow a very simple bidirectional energy exchange between the connected devices. Therefore, braking energy in electric drives, for example, can be used without additional effort and the integration of decentralized energy supplier systems such as photovoltaic (PV) or combined heat and power plants (CHP) as well as energy storage systems is much easier than in AC Grids. The purpose of the experimental plant is to electrically emulate a typical production machine or process and to investigate the real occurring currents and energy flows in the DC Grid. A total of 11 drive sets are available for this purpose, each consisting of a test machine and a load machine. The modeling of the actual production machine is done in MATLAB/Simulink. Speed and torque curves are calculated here and transmitted to the drive inverters via fieldbus. Thus, not only real mechanical quantities are obtained at the shaft, but also the currents in the DC Grid correspond to those of a real plant. Therefore it can be investigated, for example, how a production machine converted from AC to DC power would behave without having to build it. Furthermore, the effects of storage connections and grid disturbances can be realistically investigated.}}, author = {{Warkentin, Slavi and Austermann, Johann and Borcherding, Holger}}, booktitle = {{NEIS 2020 Conference on Sustainable Energy Supply and Energy Storage Systems}}, editor = {{Schlz, Detlef}}, isbn = {{978-3-8007-5359-8}}, location = {{Hamburg}}, pages = {{197--202}}, publisher = {{VDE Verlag}}, title = {{{Modular Experimental Plant for Industrial DC Grid with Controlled Electrical Drives}}}, year = {{2020}}, } @misc{4905, author = {{Borcherding, Holger and Austermann, Johann}}, title = {{{Verfahren und Schaltung für den mehrphasigen Betrieb eines Elektomotos}}}, year = {{2020}}, } @misc{4909, author = {{Koch, Jan-Niklas and Stuckmann, Tim and Borcherding, Holger}}, booktitle = {{PCIM Europe 2020}}, isbn = {{978-3-8007-5245-4}}, location = {{Nürnberg }}, publisher = {{VDE Verlag}}, title = {{{Cascade control of a two-stage isolated DC/DC converter with wide input voltage range for optimal efficiency}}}, year = {{2020}}, } @misc{4910, author = {{Stuckmann, Tim and Koch, Jan-Niklas and Borcherding, Holger}}, booktitle = {{PCIM Europe 2020}}, isbn = {{978-3-8007-5245-4}}, location = {{Nürnberg}}, publisher = {{VDE Verlag}}, title = {{{Design and Analysis of Highly Efficient SiC-based Phase-Shift Full-Bridge Converter for Industrial DC-Grids}}}, year = {{2020}}, } @misc{4911, author = {{Puls, Simon and Borcherding, Holger}}, booktitle = {{PCIM Europe digital days 2020 : International Exhibition and Conference for Power Electronics, Intelligent Motion, Renewable Energy and Energy Management Proceedings}}, isbn = {{978-3-8007-5245-4}}, publisher = {{VDE Verlag}}, title = {{{Approach of an Active Device Protection for Drive Inverters against Device Faults in an Open Indstrial DC Grid}}}, year = {{2020}}, } @misc{4912, author = {{Ting Helmholdt-Zhu, T. and Knebusch, B. and Borcherding, Holger}}, booktitle = {{PCIM Europe digital days 2020 : International Exhibition and Conference for Power Electronics, Intelligent Motion, Renewable Energy and Energy Management Proceedings}}, isbn = {{978-3-8007-5245-4}}, publisher = {{VDE Verlag}}, title = {{{High-Frequency Models for the Prediction of Transient Effects in Motor Windings Under Fast Rising Impulse Voltages}}}, year = {{2020}}, } @misc{4913, author = {{Puls, Simon and Hegerfeld, Jan and Austermann, Johann and Borcherding, Rainer}}, booktitle = {{PCIM Europe digital days 2020 : International Exhibition and Conference for Power Electronics, Intelligent Motion, Renewable Energy and Energy Management Proceedings}}, isbn = {{978-3-8007-5245-4}}, location = {{Online ; fand aufgrund von Covid-19 nicht vor Ort statt }}, publisher = {{VDE Verlag}}, title = {{{Transient Overvoltage Protection Solutions for Drive Inverters Operating on an Open Industrial DC Grid}}}, year = {{2020}}, } @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}}, } @misc{4284, abstract = {{In diesem Beitrag wird das Konzept einer Versuchsanlage für industrielle Gleichspannungs-netze vorgestellt. Diese besteht aus mehreren elektrischen Antriebssätzen (Prüfling und Last-maschine), aus verschiedenen uni- und bidirektionalen Gleichrichtern, aus dezentralen Ener-gieerzeugern (PV und BHKW) und mehreren Energiespeichern. Alle Geräte sind über ein ge-meinsames Gleichspannungsnetz gekoppelt. Gleichspannungsnetze ermöglichen einen sehr einfachen bidirektionalen Energieaustausch zwischen den angeschlossenen Geräten. Daher kann beispielsweise Bremsenergie bei elektrischen Antrieben ohne zusätzlichen Aufwand ge-nutzt werden und auch die Integration von dezentralen Energieerzeugungsanlagen wie Photo-voltaik (PV) oder Blockheizkraftwerden (BHKW) sowie von Energiespeichern ist deutlich einfa-cher als bei AC-Netzen. Das Besondere an dieser Anlage ist, dass die mechanischen Belastun-gen der Antriebe einer Produktionsmaschine realitätsnah nachgebildet werden können. In einem Echtzeit-Modell, umgesetzt in Matlab/Simulink, werden Sollwerte der Drehzahl- und Drehmomentenverläufe berechnet und mittels Feldbus an die jeweiligen Lastantriebswechsel-richter übermittelt. Dadurch ergeben sich an der Welle nicht nur reale mechanische Größen, sondern auch die sich im Gleichspannungsnetz einstellenden Ströme entsprechen denen einer realen Anlage. Somit kann z.B. untersucht werden, wie sich eine von AC- auf DC-Netz umge-rüstete Produktionsmaschine verhalten würde, ohne diese bauen zu müssen. Weiterhin können die Auswirkungen von Speichereinbindungen und Netzstörungen realitätsnah untersucht wer-den.}}, author = {{Warkentin, Slavi and Austermann, Johann and Borcherding, Holger}}, booktitle = {{AALE 2020 Automatisierung und Mensch-Technik-Interaktion 17. Fachkonferenz}}, editor = {{Jäkel, Jens and Thiel, Robert}}, isbn = {{978-3-8007-5180-8}}, location = {{Leipzig}}, pages = {{51--60}}, publisher = {{VDE-Verlag}}, title = {{{Modulare Versuchsanlage für ein industrielles Gleichspannungsnetz mit gesteuerten elektrischen Antrieben}}}, year = {{2020}}, } @misc{10402, abstract = {{In diesem Beitrag wird das Konzept einer Versuchsanlage für industrielle Gleichspannungsnetze vorgestellt indem alle Geräte über ein gemeinsames Gleichspannungsnetz gekoppelt sind. In einem Echtzeit-Modell, umgesetzt in Matlab/Simulink, werden Sollwerte der Drehzahl- und Drehmomentenverläufe berechnet und mittels Feldbus an die jeweiligen Lastantriebswechselrichter übermittelt. Dadurch ergeben sich an der Welle nicht nur reale mechanische Größen, sondern auch die sich im Gleichspannungsnetz einstellenden Ströme entsprechen denen einer realen Anlage. Somit kann beispielsweise untersucht werden, wie sich eine von AC- auf DC-Netz umgerüstete Produktionsmaschine verhalten würde, ohne diese bauen zu müssen. Weiterhin können die Auswirkungen von Speichereinbindungen und Netzstörungen realitätsnah untersucht werden.}}, author = {{Warkentin, Slavi and Austermann, Johann and Borcherding, Holger}}, booktitle = {{atp magazin}}, issn = {{2364-3137 }}, number = {{10}}, pages = {{54--59}}, publisher = {{Vulkan-Verlag GmbH}}, title = {{{ Modulare Versuchsanlage für ein industrielles DC-Netz : Potenziale industrieller Gleichstromanlagen }}}, volume = {{62}}, year = {{2020}}, } @misc{4900, author = {{Borcherding, Holger}}, booktitle = {{Computer & Automation}}, issn = {{1615-8512}}, number = {{3}}, publisher = {{WEKA Fachmedien GmbH}}, title = {{{Das DC-Netz für die Produktion}}}, year = {{2019}}, } @book{4902, author = {{Führer, Arnold and Heidemann, Klaus and Nerreter, Wolfgang and Borcherding, Holger and Meier, Uwe}}, isbn = {{978-3-446-45953-3}}, publisher = {{Carl Hanser Verlag}}, title = {{{Stationäre Vorgänge}}}, volume = {{1}}, year = {{2019}}, } @book{4903, author = {{Führer, Arnold and Heidemann, Klaus and Nerreter, Wolfgang and Borcherding, Holger and Meier, Uwe}}, isbn = {{978-3-446-46203-8}}, publisher = {{Carl Hanser Verlag}}, title = {{{Elektrotechnik für das Studium in 2 Bänden}}}, year = {{2019}}, } @book{4904, author = {{Führer, Arnold and Heidemann, Klaus and Nerreter, Wolfgang and Borcherding, Holger and Meier, Uwe}}, isbn = {{978-3-446-45954-0 }}, pages = {{320}}, publisher = {{Carl Hanser Verlag}}, title = {{{ Zeitabhängige Vorgänge}}}, volume = {{2}}, year = {{2019}}, } @misc{4914, abstract = {{This article deals with the determination of the lifetime of electrolytic capacitors operating in industrial DC micro grids, which are characterized by a particular large number of electrical drives. In addition to the advantages of such a DC grid, a test setup is proposed as a solution that allows an easy device testing. The paper shows with the help of simulations and practical measurements that if every device passes this test, it can be ensured that no capacitor in the DC grid is overloaded at all.}}, author = {{Puls, Simon and Austermann, Johann and Borcherding, Holger}}, booktitle = {{PCIM Europe 2019; International Exhibition and Conference for Power Electronics, Intelligent Motion, Renewable Energy and Energy Management}}, isbn = {{978-3-8007-4938-6}}, location = {{Nürnberg}}, publisher = {{VDE-Verlag}}, title = {{{Dimensioning and Lifespan Estimation of Electrolytic Capacitors in Industrial DC micro Grids}}}, year = {{2019}}, } @misc{4246, author = {{Puls, S. and Austermann, Johann and Borcherding, Holger}}, booktitle = {{AALE 2019 : Autonome und intelligente Systeme in der Automatisierungstechnik 16. Fachkonferenz}}, editor = {{Bauer, Benedict and Wittenberg, Carsten}}, isbn = {{978-3-8007-4860-0}}, location = {{Heilbronn}}, pages = {{153 -- 160}}, publisher = {{VDE-Verlag}}, title = {{{Systemkonzept für ein industrielles Gleichspannungsnetz}}}, year = {{2019}}, } @inproceedings{4247, author = {{Mambetow, Artur and Vogt, Marvin and Jerwan, Benjamin and Borcherding, Holger}}, booktitle = {{AALE 2019 : Autonome und intelligente Systeme in der Automatisierungstechnik 16. Fachkonferenz}}, editor = {{Bauer, Benedict and Wittenberg, Carsten}}, isbn = {{978-3-8007-4860-0}}, location = {{Heilbronn}}, pages = {{231 -- 234}}, publisher = {{VDE-Verlag}}, title = {{{Hardware eines Bidirektionalen Gleichstromstellers für Praktikumsanwendungen mit Implementierungsmöglichkeit von Regelmodellen aus Matlab/Simulink}}}, year = {{2019}}, } @misc{4285, author = {{Puls, Simon and Austermann, Johann and Borcherding, Holger}}, booktitle = {{EPE 19 ECCE Europe : CFP19850-USB}}, location = {{Genova, Italy}}, publisher = {{IEEE}}, title = {{{The Influence on Drive Inverters under the Effects of Short Circuits in an Open Industrial DC grid}}}, doi = {{10.23919/EPE.2019.8915437}}, year = {{2019}}, } @inproceedings{4288, abstract = {{This article deals with the determination of the lifetime of electrolytic capacitors operating in industrial DC micro grids, which are characterized by a particular large number of electrical drives. In addition to the advantages of such a DC grid, a test setup is proposed as a solution that allows an easy device testing. The paper shows with the help of simulations and practical measurements that if every device passes this test, it can be ensured that no capacitor in the DC grid is overloaded at all.}}, author = {{Puls, S. and Austermann, Johann and Borcherding, Holger}}, booktitle = {{2019 IEEE Third International Conference on DC Microgrids (ICDCM)}}, location = {{Matsue, Japan}}, publisher = {{IEEE}}, title = {{{Lifetime Calculation for Capacitors in Industrial Micro DC grids}}}, doi = {{10.1109/ICDCM45535.2019.9232854}}, year = {{2019}}, } @misc{4289, author = {{Borcherding, Holger}}, booktitle = {{Computer & Automation}}, issn = {{1615-8512}}, publisher = {{WEKA Fachmedien GmbH}}, title = {{{ DC statt AC im Produktionsnetz. Projekt „DC-Industrie“ – Teil 1 }}}, year = {{2019}}, } @phdthesis{411, author = {{Austermann, Johann}}, isbn = {{978-3-8440-5885-7}}, keywords = {{Energierückgewinnung, Bremsenergie, Einspeisestromrichter, Frequenzumrichter, Zwischenkreisumrichter, Stromregelung, Phasenregelkreis, Abwärtsumsetzer, Antrieb , Wirkungsgrad}}, pages = {{217}}, publisher = {{Shaker Verlag}}, title = {{{Rückspeisestromrichter mit geregeltem Zwischenkreisstrom}}}, volume = {{1}}, year = {{2018}}, } @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}}, } @inproceedings{4272, 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)}}, isbn = {{9781509044795}}, location = {{Nuremburg, Germany}}, title = {{{Concepts for a DC network in industrial production}}}, doi = {{10.1109/icdcm.2017.8001049}}, year = {{2017}}, } @inproceedings{327, author = {{Austermann, Johann and Borcherding, Holger and Mallwitz, R.}}, location = {{Freiburg}}, title = {{{Einsatz eines SiC - MOSFETs in einem Energierückspeisungsmodul für Frequenzumrichter}}}, year = {{2016}}, } @misc{332, abstract = {{The invention relates to a circuit and to a method for operating an electrical machine (M) connected to at least three phases (L1, L2, L3) of a power supply network by means of a frequency converter (1) that has a DC link (3), wherein, by means of a synchronous inverter (7) that is actuated by a DC chopper (6) and comprises two bridge halves switching the positive and the negative half-waves respectively, the energy generated by said machine (M) is fed back into the power supply network. According to the invention, the synchronous inverter (7) has an asymmetrical design such that, to switch the potential tapped from the DC link (3) by the DC chopper (6), switching is carried out by a first bridge half (8) that consists of thyristors (S1, S3, S5) as electronic switches, and such that the second bridge half (9) comprises reverse-blocking electronic switches (S2, S4, S6) able to be switched off.}}, author = {{Austermann, Johann and Borcherding, Holger}}, pages = {{6}}, title = {{{Circuit and Method for Multiphase Operation of an Electrical Machine}}}, year = {{2016}}, } @inproceedings{272, author = {{Austermann, Johann and Stuckmann, Tim and Borcherding, Holger}}, booktitle = {{PCIM Europe 2016 : International Exhibition and Conference for Power Electronics, Intelligent Motion, Renewable Energy and Energy Management : Nuremberg, 10-12 May 2016, proceedings / organizer: Mesago PCIM GmbH, Stuttgart }}, isbn = {{978-3-8007-4186-1}}, keywords = {{Leistungselektronik, Erneuerbare Energien, Energiemanagement, Antrieb }}, pages = {{1639--1646}}, publisher = {{VDE Verlag }}, title = {{{ High Efficient Flyback Converter with SiC-MOSFET}}}, year = {{2016}}, } @inproceedings{273, abstract = {{This paper introduces an efficient modular solution kit for intralogistic drives, which reduces the total energy consumption of all drives in an automated warehouse by more than 15%. The reduction of energy consumption results from the interaction of optimized components (motors, control techniques and regeneration units), which are described in detail in this paper. Different motor concepts like the induction motor, the synchronous reluctance motor and the permanent magnet synchronous machine are compared according to the special requirements for intralogistics applications. Different control techniques are presented in order to achieve sensorless and efficient-optimal operation of these motors. The sensorless control technique uses signal injection to detect the rotor position sufficiently exact also in case of speed near standstill. Efficient-optimal operation is achieved by reducing the motor current with regard to the torque (MTPA-control). Furthermore this paper introduces a regeneration unit that can be connected between the DC link of frequency inverters and the mains to feed back regenerative energy. The regeneration unit consisting of a buck converter, a synchronous inverter and a line-filter can work in parallel to commonly used uncontrolled rectifiers. Its functioning is shown with the help of measurement results of a 1kW laboratory prototype. The last section shows a demonstrator in which a conventional conveyer system (with induction motor and braking resistor) is compared with an optimized one using the presented components. Power versus time measurements show specific energy savings resulting from the interaction of the optimized components.}}, author = {{Austermann, Johann and Borcherding, Holger and Stichweh, H. and Grabs, Volker}}, booktitle = {{2016 18th European Conference on Power Electronics and Applications (EPE'16 ECCE Europe)}}, isbn = {{978-3-8007-4186-1}}, keywords = {{electric current control, induction motors, invertors, permanent magnet motors, reluctance motors, sensorless machine control, torque control, modular solution kit, intralogistic drives, automated warehouse, energy consumption reduction, optimized components interaction, induction motor, synchronous reluctance motor, permanent magnet synchronous machine, sensorless control technique, signal injection, rotor position, motor current, MTPA-control, regeneration unit, DC link, frequency inverters, buck converter, synchronous inverter, line-filter, Induction motors, Reluctance motors, Permanent magnet motors, Rotors, Torque, Inverters, intralogistics, reluctance motor, sensorless control, regeneration unit, braking energy}}, location = {{Karlsruhe}}, pages = {{1639--1646}}, publisher = {{VDE Verlag}}, title = {{{High Efficient Modular Drive System - An Ideal Approach for Green Intralogistics Applications}}}, doi = {{10.1109/EPE.2016.7695687}}, year = {{2016}}, } @inproceedings{4260, author = {{Austermann, Johann and Stuckmann, Tim and Borcherding, Holger}}, booktitle = {{PCIM Europe 2016}}, isbn = {{978-3-8007-4186-1}}, location = {{Nuremberg}}, pages = {{1639 -- 1646}}, publisher = {{VDE-Verlag}}, title = {{{High Efficient Flyback Converter with SiC-MOSFET}}}, year = {{2016}}, } @inproceedings{271, author = {{Austermann, Johann and Cepin, Simon and Borcherding, Holger}}, booktitle = {{PCIM Europe : International Exhibition and Conference for Power Electronics, Intelligent Motion, Renewable Energy and Energy Management, Nuremberg, 19-21 May 2015 : proceedings / organizer: Mesago PCIM GmbH, Stuttgart, pcim-europe.com }}, isbn = {{978-3-8007-3924-0}}, keywords = {{Leistungselektronik, Erneuerbare Energien, Energiemanagement, Antrieb }}, location = {{Nürnberg}}, pages = {{1519--1526}}, title = {{{Compact and Cost-Efficient Power Regeneration System for Voltage Source Converters}}}, year = {{2015}}, } @article{4241, author = {{Mambetow, Artur and Neufeld, Ruben and Borcherding, Holger}}, issn = {{1868-5919}}, journal = {{Ingenieur-Spiegel}}, number = {{April}}, pages = {{41}}, publisher = {{Public Verlagsgesellschaft und Anzeigenagentur mbH}}, title = {{{Drehzahlvariabler Betrieb von Blockheizkraftwerken – Ein Konzept mit vielen Vorteilen}}}, year = {{2015}}, } @article{4242, author = {{Borcherding, Holger}}, issn = {{1612-6475}}, journal = {{automation}}, number = {{3}}, pages = {{34 -- 35}}, publisher = {{Heinrich Publikationen GmbH}}, title = {{{Holzbearbeitung 4.0}}}, year = {{2015}}, } @article{4243, author = {{Borcherding, Holger}}, issn = {{1614-6514}}, journal = {{Holz- und Möbelindustrie Deutschland : Informationen für die Wirtschaft}}, number = {{März}}, pages = {{19}}, publisher = {{Kuhn}}, title = {{{Besser bohren - Projekt optimiert Bohrprozess in der Holzbearbeitung}}}, year = {{2015}}, } @article{4244, author = {{Borcherding, Holger}}, journal = {{antriebstechnik}}, number = {{08}}, pages = {{42 -- 45}}, publisher = {{Vereinigte Fachverlage}}, title = {{{Auf dem Weg zum "mitdenkenden" Antrieb}}}, year = {{2015}}, } @article{4245, author = {{Borcherding, Holger}}, issn = {{0016-4232}}, journal = {{Galvanotechnik : das Innovationsmagazin }}, number = {{09}}, pages = {{1808 -- 1812}}, publisher = {{Leuze}}, title = {{{Ostwestfalen-Lippe: Elektronikprototypen von der Hochschule}}}, year = {{2015}}, } @article{4250, author = {{Ehlich, M. and Borcherding, Holger}}, journal = {{MASCHINENMARKT}}, number = {{KW 15}}, title = {{{Selbstoptimierende Fertigung wird Real}}}, year = {{2015}}, } @inproceedings{4262, author = {{Austermann, Johann and Cepin, Simon and Borcherding, Holger}}, booktitle = {{PCIM Europe 2015 : High voltage module with low internal inductance for next chip generation - next High Power Density Dual (nHPD2)}}, isbn = {{978-3-8007-3924-0}}, location = {{Nuremberg}}, pages = {{1519 -- 1526}}, publisher = {{VDE-Verlag}}, title = {{{Compact and Cost-efficient Power Regeneration System for Voltage Source Converters}}}, year = {{2015}}, } @book{4283, abstract = {{IEC TS 62578:2015 describes the operation conditions and typical characteristics of active infeed converters (AIC) of all technologies and topologies which can be connected between the electrical power supply network (lines) a.c. side and a constant current or voltage type d.c. side and which can convert electrical power (active and reactive) in both directions (generative or regenerative). The following is excluded from the scope: - Requirements for the design, development or further functionality of active infeed applications. - Probability of interactions or influences of the AIC with other equipment caused by parasitic elements in an installation or caused by poor electronic design as well as their mitigations. - 'Overhead line' power supply networks because of lack of information (measurements) of their three phase impedances. This edition includes the following significant technical changes with respect to the previous edition: a) IEC TS 62578, in its revised version includes observed values out of practical applications for emission values below 150 kHz. b) Therefore the document has been extended compared to the first edition, several detailed analysis results are given in the extended Annexes. c) Design recommendations have been derived from the international working group by an assessment of the power supply impedances between 2 kHz and 9 kHz, a comprehensive analysis of the withstand capability of power capacitors against harmonic currents injected by AIC, immunity tests of equipment and considerations about shifted resonances in the power supply network with increased population of undamped filter capacitors. }}, author = {{Borcherding, Holger}}, pages = {{240}}, publisher = {{VDE-Verlag}}, title = {{{IEC TS 62578: 2015 }}}, year = {{2015}}, } @misc{9135, abstract = {{In diesem Beitrag wird die Konstruktion einer IEC62578 ed. 2 konformen Netznachbildung für die Messung der leitungsgeführten Störaussendung von Active Infeed Convertern zwischen 2 und 9 kHz beschrieben. Die Auswirkungen durch Streuung von Bauteilwerten konnte durch Simulationen als unkritisch beurteilt werden. Durch gezielte Anpassung von Parametern konnte die Entkopplung von der lokalen Netzimpedanz verbessert und der zu betrachtende Frequenzbereich an die geforderten Grenzen angepasst werden. Nach der Montage der Netznachbildung belegten Messungen am realen Netz die Funktion. Um Erfahrung mit der Netznachbildung zu gewinnen, sollen im Lauf des Jahres 2014 in Kooperation mit Industriefirmen verschiedene AIC vermessen werden, um weitere Erfahrung zu gewinnen.}}, author = {{Mambetow, Artur and Borcherding, Holger}}, booktitle = {{ Elektromagnetische Verträglichkeit emv : Internationale Fachmesse und Kongress für Elektromagnetische Verträglichkeit. Düsseldorf, 11.-13.03.2014.}}, editor = {{Garbe, Heyno}}, location = {{Düsseldorf}}, pages = {{ 645--653}}, publisher = {{VDE-Verlag}}, title = {{{Erstellung einer IEC 62578 konformen Netznachbildung und Erfahrung in der Auslegung und Anwendung}}}, doi = {{https://doi.org/10.15488/5457}}, year = {{2014}}, } @inproceedings{249, author = {{Austermann, Johann and Borcherding, Holger and Koch, Jan-Niklas}}, booktitle = {{Tagungsband / AALE 2014 : das Forum für Fachleute der Automatisierungstechnik aus Hochschulen und Wirtschaft ; 11. Fachkonferenz, Regensburg ; [mit interaktivem e-Book] / [OTH, Ostbayerische Technische Hochschule Regensburg ; Verein der Freunde und Förderer der Angewandten Automatisierungstechnik. Red.: Anne Purschwitz ; Aljona Hartstock}}, editor = {{Purschwitz, Anne}}, isbn = {{978-3-8356-7142-3}}, keywords = {{Automatisierungstechnik}}, location = {{Regensburg}}, pages = {{103--112}}, publisher = {{ Dt. Industrieverl. }}, title = {{{Numerische Berechnung von Stromoberschwingungen nichtlinearer Verbraucher}}}, year = {{2014}}, } @inproceedings{268, author = {{Austermann, Johann and Studen, C. and Borcherding, Holger and Böcker, J.}}, booktitle = {{Proceedings / PCIM Europe / International Exhibition and Conference for Power Electronics, Intelligent Motion, Renewable Energy and Energy Management, Nuremberg, 20 - 22 May 2014. Organizer: Mesago PCM GmbH Stuttgart }}, isbn = {{978-3-8007-3603-4}}, keywords = {{Leistungselektronik, Erneuerbare Energien, Energiemanagement, Antrieb }}, location = {{Nürnberg}}, pages = {{1529--1536}}, title = {{{Indirect Current Source Inverter with Regenerative Snubber Circuit}}}, year = {{2014}}, } @inproceedings{269, author = {{Borcherding, Holger and Austermann, Johann}}, location = {{München}}, title = {{{ Energieeffiziente Intralogistik – Optimale Nutzung generatorischer Energie durch neuartiges modulares Netzrückspeisekonzept}}}, year = {{2014}}, } @article{270, author = {{Austermann, Johann and Borcherding, Holger}}, issn = {{1615-8512}}, journal = {{Computer & Automation}}, number = {{11}}, pages = {{90--94}}, publisher = {{WEKA Fachmedien}}, title = {{{Die energieeffiziente Intralogistik}}}, year = {{2014}}, } @inproceedings{4248, author = {{Borcherding, Holger}}, location = {{Hannover}}, title = {{{Energieeffiziente Antriebs- und Steuerungstechnik für die Intralogistik}}}, year = {{2014}}, } @article{4249, author = {{Austermann, Johann and Borcherding, Holger}}, issn = {{1615-8512}}, journal = {{Computer & Automation}}, number = {{11}}, pages = {{90 -- 94}}, publisher = {{WEKA Fachmedien GmbH }}, title = {{{Die energieeffiziente Intralogistik}}}, year = {{2014}}, } @inproceedings{4263, author = {{Austermann, Johann and Studen, C. and Borcherding, Holger and Böcker, J.}}, booktitle = {{PCIM Europe 2014 : 1200V 4H-SiC Trench Devices}}, isbn = {{978-3-8007-3603-4}}, location = {{Nürnberg}}, pages = {{1529 -- 1536}}, publisher = {{VDE-Verlag}}, title = {{{Indirect Current Source Inverter with Regenerative Snubber Circuit}}}, year = {{2014}}, } @book{4273, author = {{Gausemeier, J. and Trächtler, A. and Schäfer, W. and Borcherding, Holger}}, isbn = {{978-3446436305}}, pages = {{309}}, publisher = {{Hanser}}, title = {{{Semantische Technologien im Entwurf mechatronischer Systeme: Effektiver Austausch von Lösungswissen in Branchenwertschöpfungsketten}}}, year = {{2014}}, } @inproceedings{4274, author = {{Borcherding, Holger and Austermann, Johann}}, booktitle = {{Smarter world : solutions for a smarter world }}, isbn = {{978-3-645-50133-0}}, location = {{München}}, publisher = {{WEKA Fachmedien GmbH}}, title = {{{Energieeffiziente Intralogistik – Optimale Nutzung generatorischer Energie durch neuartiges modulares Netzrückspeisekonzept}}}, year = {{2014}}, } @inproceedings{247, author = {{Austermann, Johann and Borcherding, Holger and Böcker, J.}}, booktitle = {{Proceedings / PCIM Europe / International Exhibition and Conference for Power Electronics, Intelligent Motion Renewable Energy and Energy Management, Nuremberg, 14 - 16 May 2013. Organizer: Mesago PCM GmbH Stuttgart }}, isbn = {{978-3-8007-3505-1}}, keywords = {{Automatisierungstechnik}}, location = {{Nürnberg}}, publisher = {{VDE-Verl.}}, title = {{{ Design and Practical Evaluation of a Power Regeneration System for Voltage Source Converters}}}, year = {{2013}}, } @inproceedings{248, author = {{Austermann, Johann and Borcherding, Holger and Böcker, J.}}, booktitle = {{Tagungsband / AALE 2013 : das Forum für Fachleute der Automatisierungstechnik aus Hochschulen und Wirtschaft ; 10. Fachkonferenz, Stralsund. [Fachhochschule Stralsund ; Verein der Freunde und Förderer der Angewandten Automatisierungstechnik. Red.: Anne Hütter}}, editor = {{Hütte, Anne}}, location = {{Stralsund}}, publisher = {{Dt. Industrieverl. }}, title = {{{Energierückspeisung bei Frequenzumrichtern mittels neuartiger Leistungselektronik}}}, year = {{2013}}, } @misc{4239, author = {{Borcherding, Holger}}, title = {{{Verfahren und Schaltung für den mehrphasigen Betrieb eines Elektromotors}}}, year = {{2013}}, } @misc{4240, author = {{Borcherding, Holger}}, title = {{{Verfahren zum Erzeugen eines digitalen Signals}}}, year = {{2013}}, } @book{4275, author = {{Baum, Gerhard and Borcherding, Holger and Broy, Manfred and Huber, Anton S. and Eigner, Martin and Kohler, Herbert and Russwurm, Siedfried}}, editor = {{Sendler, Ulrich}}, isbn = {{978-3-642-36916-2 }}, publisher = {{Springer Vieweg Verlag}}, title = {{{Industrie 4.0 : Beherrschung der industriellen Komplexität mit SysLM}}}, year = {{2013}}, } @inproceedings{4276, abstract = {{In the presented work, the detection of anomalous energy consumption in hybrid industrial production systems is investigated. A model-based approach with a timed hybrid automaton as overall system model is employed for anomaly detection. The approach is based on the assumption of several system modes, i.e. phases with continuous system behavior. Transitions between the modes are attributed to discrete control events such as on/off signals. The underlying discrete event system which comprises both system modes and transitions is modeled as finite state machine. The focus of this paper is set on the modeling of the energy consumption in the particular system modes. Sequences of stochastic state space models are employed for this purpose. Model learning and anomaly detection for this approach are considered. The proposed approach is further evaluated in a small model factory. The experimental results show significant improvements compared to existing approaches to anomaly detection in hybrid industrial systems.}}, author = {{Windmann, Stefan and Jiao, Shuo and Niggemann, Oliver and Borcherding, Holger}}, booktitle = {{11th International IEEE Conference on Industrial Informatics}}, location = {{Bochum}}, pages = {{194 -- 199}}, publisher = {{IEEE}}, title = {{{A Stochastic Method for the Detection of Anomalous Energy Consumption in Hybrid Industrial Systems}}}, year = {{2013}}, } @misc{4238, author = {{Borcherding, Holger}}, title = {{{Schaltungsanordnung für einen Gleichspannungszwischenkreis}}}, year = {{2012}}, } @inproceedings{4277, author = {{Balzer, E. and Borcherding, Holger and Garbe, H.}}, location = {{York, Groß-Britannien}}, title = {{{The influence of the control of an Active Front End on the conducted emission}}}, year = {{2011}}, } @inproceedings{4278, author = {{Borcherding, Holger and Hohnsbein, T.}}, booktitle = {{SPS/IPC/DRIVES 2011 : Elektrische Automatisierung - Systeme und Komponenten}}, editor = {{Bender, K.}}, isbn = {{978-3800733798}}, location = {{Nürnberg}}, pages = {{491 -- 500}}, publisher = {{VDE-Verlag}}, title = {{{Energieeffizienz : Getriebebehafteter oder -loser Antrieb in der Fördertechnik}}}, year = {{2011}}, } @misc{4231, author = {{Borcherding, Holger}}, title = {{{Verfahren zur Temperaturüberwachung eines Elektromotors}}}, year = {{2003}}, } @misc{4237, author = {{Borcherding, Holger}}, title = {{{Kühlkörper für einen Frequenzumrichter}}}, year = {{2002}}, }