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Der vorliegende Beitrag stellte die beiden Verfahrensklassen parameterbasierte Verfahren und Suchverfahren für eine energieeffiziente Betriebsführung von Asynchronmaschinen im stationären Zustand kurz vor und zeigte das Potential zur Reduktion der Verlustleistung in stationären Arbeitspunkten für zwei Motoren unterschiedlicher Baugröße. Dabei wurde deutlich, dass insbesondere im unteren Teillastbereich eine erhebliche Verringerung der Verlustleistung erzielt werden kann.
Steady state efficiency optimization techniques for induction motors are state of the art and various methods have already been developed. This paper provides new insights in the efficiency optimized operation in dynamic regime. The paper proposes an anticipative flux modification in order to decrease losses during torque and speed transients. These trajectories are analyzed based on a numerical study for different motors. Measurement results for one motor are given as well.
Energy efficient electric control of drives is more and more important for electric mobility and manufacturing industries. Online dynamic optimization of induction machines is challenging due to the computational complexity involved and the variable power losses during dynamic operation of induction machines. This paper proposes a simple technique for sub-optimal online loss optimization using rotor flux linkage templates for energy efficient dynamic operation of induction machines. Such a rotor flux linkage template is given by a rotor flux linkage trajectory which is optimal for a specific scenario. This template is calculated in an offline optimization process. For a specific scenario during real time operation the rotor flux linkage is calculated by appropriately scaling the given template.
In this work, a brushless, harmonic-excited wound-rotor synchronous machine is investigated which utilizes special stator and rotor windings. The windings magnetically decouple the fundamental torque-producing field from the harmonic field required for the inductive power transfer to the field coil. In contrast to conventional harmonic-excited synchronous machines, the whole winding is utilized for both torque production and harmonic excitation such that no additional copper for auxiliary windings is needed. Different rotor topologies using rotating power electronic components are investigated and their efficiencies have been compared based on Finite-Element calculation and circuit analysis.
Die vorliegende Erfindung betrifft ein Verfahren zum Bestimmen einer Fehlspannung eines Stromrichters, an den eine Last, insbesondere in Form einer Drehfeldmaschine wie Asynchronmaschine, angeschlossen ist, bestimmt und ggf. kompensiert wird, wobei eine Ausgangsspannung an dem Stromrichter stufen- oder schrittweise erhöht und der sich hierbei als Sprungantwort einstellende Strom gemessen wird. Die Erfindung betrifft weiterhin eine Drehfeldmaschine beispielsweise in Form einer Asynchronmaschine, mit einer Leistungselektronik umfassend einen tromrichter sowie einer Kompensationseinrichtung zum Kompensieren der Fehlspannung des Stromrichters, sowie weiterhin ein Verfahren zum Betreiben und/oder Steuern einer solchen Drehfeldmaschine, bei dem die Fehlspannung des Stromrichters bestimmt und kompensiert wird.
A novel brushless excitation concept for synchronous machines with a rotating power converter is proposed in this paper. The concept does not need an auxiliary winding or any other modification to the machine structure apart from an inverter with a DC link capacitor and a controller on the rotor. The power required for the rotor excitation is provided by injecting harmonics into the stator winding. Thus, a voltage in the field coil is induced. The rotor inverter is controlled such that the alternating current charges the DC link capacitor. At the same time the inverter supplies the DC field current to the field coil. The excitation concept is first developed in theory, then presented using an analytical model and FEA, and lastly investigated with a prelimininary experimental setup.
In this work design rules for a novel brushless excitation system for externally excited synchronous machines are discussed. The concept replaces slip rings with a fullbridge active rectifier and a controller mounted on the rotor. An AC signal induced from the stator is used to charge the rotor DC link. The DC current for the rotor excitation is provided from this DC link source. Finite element analysis of an existing machine is used to analyze the practicability of the excitation system.
This paper discusses the optimal control problem for increasing the energy efficiency of induction machines in dynamic operation including field weakening regime. In an offline procedure optimal current and flux trajectories are determined such that the copper losses are minimized during transient operations. These trajectories are useful for a subsequent online implementation.
This paper presents an approach for the implementation of a modular and scalable power electronics device for controlling electric drives in the field of electric vehicles using wide bandgap semiconductor devices. The main idea is to achieve the required output currents or voltages by connecting adequately designed hardware modules in parallel or in series. This particular design is based on the fact that the single modules generate a continuous and specified output voltage from a given dc voltage, e.g. an intermediate circuit or battery voltage. The main benefit is, that different current or voltage requirements can be satisfied based on a single module thus decreasing development and production costs. The current paper focuses on the connection in parallel of such modules. A control architecture is illustrated and a first proof of concept is given.