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Dezentrale Stromerzeugungsanlagen, Energiespeicher und Steuerungseinrichtungen für Erzeuger und Verbraucher sind die Grundbausteine eines virtuellen Kraftwerks, welches im Stromnetz der Zukunft, dem Smart Grid, eine wichtige Rolle spielt. Im Rahmen des Demonstrationsprojekts Virtuelles Kraftwerk Neckar-Alb soll an der Hochschule Reutlingen eine Demonstrationsanlage aufgebaut werden, die diese Grundbausteine vernetzt und funktional integriert. Damit entsteht eine flexible Testumgebung für Forschung und Lehre, in der sich das Zusammenspiel der Komponenten untersuchen lässt. Zudem wird eine Besichtigungsmöglichkeit für interessierte Unternehmen geschaffen. Damit sollen Akzeptanz und Verständnis für die Thematik gefördert werden.
This paper describes a new method for condition monitoring of a roller chain. In contrast to conventional methods, no additional accelerometers are used to measure and interpret frequency spectra but the chain condition is evaluated using an easy to interpret similarity measure based on correlation functions using the driving motor torque. An additional clustering of current data and reference measurements yields an easy to understand representation of the chain condition.
The increasing slew rate of modern power switches can increase the efficiency and reduce the size of power electronic applications. This requires a fast and robust signal transmission to the gate driver of the high-side switch. This work proposes a galvanically isolated capacitive signal transmission circuit to increase common mode transient immunity (CMTI). An additional signal path is introduced to significantly improve the transmission robustness for small duty cycles to assure a safe turn-off of the power switch. To limit the input voltage range at the comparator on the secondary side during fast high-side transitions, a clamping structure is implemented. A comparison between a conventional and the proposed signal transmission is performed using transistor level simulations. A propagation delay of about 2 ns over a wide range of voltage transients of up to 300V/ns at input voltages up to 600V is achieved.
This paper addresses the turn-on switching process of insulated-gate bipolar transistor (IGBT) modules with anti-parallel free-wheeling diodes (FWD) used in inductive load switching power applications. An increase in efficiency, i.e. decrease in switching losses, calls for a fast switching process of the IGBT, but this commonly implies high values of the reverse-recovery current overshoot. To overcome this undesired behaviour, a solution was proposed which achieves an independent control of the collector current slope and peak reverse recovery current by applying a gate current that is briefly turned negative during the turn-on process. The feasibility of this approach has already been shown, however, a sophisticated control method is required for applying it in applications with varying currents, temperature and device parameters. In this paper a solution based on an adaptive, iterative closed-loop ontrol is proposed. Its effectiveness is demonstrated by experimental results from a 1200 V/200A IGBT power module for different load currents and reverse-recovery current overshoots.