Induction elements and transformers water cooled

W artykule omówiono wybrane zagadnienia konstrukcyjne i technologiczne stosowane w produkcji elementów indukcyjnych i transformatorów z chłodzeniem wodnym. Przedstawiono wyniki symulacji wpływu rodzaju materiału magnetycznego rdzenia na wymiary dławika filtru sinusoidalnego typu SinECOTM pracującego przy częstotliwości sieciowej oraz dla transformatora mocy typu 1TTFW pracującego przy częstotliwości 10kHz. Przedstawiono również konstrukcję dławika z odczepami typu 1RTFW przeznaczonego do pracy z częstotliwością 25kHz. Parametry obliczeniowe wyznaczono wykorzystując oprogramowanie projektowe firmy RALE Engineering GmbH.In this article selected issues related to the construction and technology of the water cooling transformers and induction elements were discussed. The impact of the magnetic core material type on the size of the SinECOTM type choke working with 50Hz frequency and 1TTFW type power transformer working with 10kHz frequency was simulated. Moreover, the construction of the 1RTFW type choke working with 25 kHz frequency was introduced. The parameters were simulated using design software by RALE Engineering GmbH

Optymalizacja konstrukcji transformatorów w aplikacjach elektromobilnych

W artykule omówiono wybrane zagadnienia optymalizacyjne związane z budową transformatorów pracujących w przetwornicach pojazdów elektromobilnych. Porównano wyniki symulacji wpływu materiału magnetycznego rdzenia na straty i wymiary gabarytowe transformatora. Przedstawiono również optymalizację konstrukcji transformatora w celu zwiększenia skuteczności wymuszonego chłodzenia. Parametry symulowano, wykorzystując oprogramowanie projektowe firmy RALE Engineering GmbH.In this article selected optimizing issues related to the construction of the transformers worked in static converters of electro-mobile vehicles were discussed. The simulation of the effect of core magnetic material on the losses and transformer sizes have been compared. Moreover, the increase of effected – cooling due to solution of transformer construction were performed. The parameters were simulated using design software by RALE Engineering Gmb

Microstructure, Magnetic Properties, and Application of FINEMET-Type Alloys with Co Addition

The choice of materials for cores of electrotechnical devices is currently related to energy saving and global warming problems. Nanocrystalline alloys are emerging as materials for cores in these devices in addition to amorphous materials already commonly used due to their better magnetic properties at high operating frequencies. The thermal stability of the magnetic properties of cores is also an important criterion. Keeping these criteria in mind, a study of microstructure and magnetic properties was carried out in this work, and FeCoNbBCu-type material was selected for use as the core of a choke operating in a DC/DC converter in interleaved topology. On the basis of the conducted studies, it was found that good magnetic properties and the best thermal stability were shown by Fe58Co25Nb3B13Cu1 alloy. Using RALE software, the technical parameters of the choke core were determined and compared with the same parameters for a choke core made of FINEMET-type alloy

Microstructure, soft magnetic properties and applications of amorphous Fe-Co-Si-B-Mo-P alloy

DC thermomagnetic properties of Fe51Co12Si16B8Mo5P8 amorphous alloy in the as-quenched and after annealing below crystallization temperature are investigated. They are related to deviations in the microstructure as revealed by Mössbauer spectrometry. Study of AC magnetic properties, i.e. hysteresis loops, relative permeability and core losses versus maximum induction was aimed at obtaining optimal initial parameters for simulation process of a resonant transformer for a rail power supply converter. The results obtained from numerical analyses including core losses, winding losses, core mass, and dimensions were compared with the same parameters calculated for Fe-Si alloy and ferrite. Moreover, Steinmetz coefficients were also calculated for the as-quenched Fe51Co12Si16B8Mo5P8 amorphous alloy