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Der vorliegende Beitrag ist Auftakt einer Serie von OSCE-Prüfungen, die Studierende des Bachelorstudiengangs Pflegepädagogik an der KSH München im Rahmen eines Studienprojektes für echte Prüfungssituationen in der Gesundheits- und Krankenpflegeausbildung, der Altenpflegeausbildung oder des dualen Pflegestudiums entwickelt und durchgeführt haben. Zunächst wird das Konzept der OSCE-Prüfung und der Aufbau des Studienprojektes vorgestellt. In den nächsten Ausgaben folgen Auszüge aus den Prüfungen und kurze Erfahrungsberichte. Abgeschlossen wird mit einer Evaluation durch alle beteiligten Lernenden und Lehrenden.
Das Prüfungsformat OSCE (Teil 4). Kommunikationstheorien im dualen Bachelorstudiengang Pflege
(2017)
Experimentelle Bestimmung des Abstrahlgrades und des inneren Verlustfaktors orthotroper Platten
(2017)
To ensure that building regulations are satisfied, the sound pressure level due to machinery has to be predicted at the design stage of a new building.
With the increasing popularity of multistory timber dwellings, prediction becomes an important issue for designers and consultants. At present previous project experience is often used when considering the design of wall and floor constructions and the mounting positions for machinery.
Simple tools to calculate the sound pressure levels in rooms based on machinery data and construction details are not currently available.
The approach involves two stages: firstly the description of the source and secondly the prediction of vibration transmission across the building and sound radiation into the rooms.
In this paper a simple empirical model is proposed for the second stage. This approach is based on measured transmission functions that are defined as the average sound pressure level in a receiving room relative to the injected structure-borne sound power.
This is a logical extension of approaches to characterize structure-borne sound sources that also use a power based descriptor (e.g. prEN15657:2016-02: Acoustic properties of building elements and of buildings - Laboratory measurement of structure-borne sound from building service equipment for all installation conditions) and provides a simple method to estimate the sound pressure level in a room.
Increased productivity in industrial processes can be achieved by dynamic and accurate positioning of servo drives. Therefore, improvement of servo drive dynamics using latest technologies in the key components such as inverter, control system and position measuring device are investigated. Using Gallium Nitride (GaN) or Silicon Carbide (SiC) semiconductors for motor inverters enables energy efficient operation up to pulse width modulation (PWM) frequencies of 500 kHz. This allows motor filters with small component sizes. As a result, high motor efficiency, low torque ripple, high control bandwidth and almost ideal sinusoidal output voltages are achieved. Experiments on a 200 kHz Gallium Nitride inverter with sine wave motor filter show a current control loop bandwidth of 3.2 kHz and almost ideal sinusoidal phase voltages. The achieved bandwidths of the speed and position control loops are 318 Hz and 106 Hz, respectively.
A hybrid current and acceleration control is presented and shown to improve the load disturbance behavior of servo drives significantly without additional sensor effort. The feedback signal of the acceleration control loop is calculated from the position data of the motor encoder. Hence, position measuring errors influence this control loop and lead to speed ripple. Therefore, the presented design of the acceleration control loop considers both load sensitivity and position measuring errors.