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Outdoor or just on site analyzes of photovoltaic modules can offer some advantages in comparison to indoor Lab stud-ies. In this way the electrical performance is monitored and logged under natural operating conditions in full range of irradiation and temperature. The entirety of monitored IV data allows deriving low-light characteristics of electric parameters, temperature coefficients and root cause analysis for possible degradation. We apply so-called self-reference algorithm in order to increase the accuracy of analysis. The improved precision is due to application of effective acting irradiation and effective temperature instead of externally measured data. Effective irradiation is determined in self-referencing scheme: the short circuit current of the module is assigned to the irradiation.
Im Gemeinde- und Landkreiswahlgesetz haben Listenverbindungen eine lange Tradition. Sie sollen bei der Verrechnung von Stimmen in Sitze Verzerrungen dämpfen, die mit dem D’Hondt-Verfahren auftreten können. Da aber die Sitzzuteilung seit 2010 mit dem unverzerrten Hare/Niemeyer-Verfahren vorgenommen wird, haben Listenverbindungen ihre Berechtigung verloren. Wir demonstrieren die Problematik anhand der Kommunalwahlen 2014. In mehreren Kommunen passierte es, dass von zwei Listen diejenige mit mehr Stimmen weniger Sitze erhielt, was mit der Erfolgswertgleichheit der Wählerstimmen unvereinbar ist. Auch kam es vor, dass eine Liste den Einzug in den Gemeinderat nur deshalb verfehlte, weil sie einer Listenverbindung angehörte.
This paper concerns the modelling of sound transmission across a timber-frame wall under mechanical excitation by a point force using Statistical Energy Analysis (SEA). The aim is to develop and experimentally validate a model that would be relevant to machinery such as a heating device or a ventilation system that are often connected to such walls. The prediction is compared against measurements on a wall that forms part of a lightweight test-rig in the Laboratory for Sound Measurement (LaSM) at the University of Applied Sciences Rosenheim. A basic timber frame was built with a single layer of tongue and grooved chipboard on each side of the wall. With this configuration the structure represented a lightweight construction with horizontal junctions in addition to the vertical junctions that are more typical with lightweight constructions formed from plasterboard. A series of SEA models were developed with an increasing degree of complexity regarding the partitioning of the structure into subsystems. Additional experimental work was carried out to determine coupling loss factors across the chipboard joints which were then incorporated in the model. The SEA predictions are compared with measured velocities on both leaves and sound pressure levels in the cavities.