Author:
Barlik Roman,Nowak Mieczysław,Grzejszczak Piotr,Zdanowski Mariusz
Abstract
Abstract
This paper presents the implementation of a thermal camera for the quantitative estimation of power losses in a high frequency planar transformer (100 kHz/ 5600 VA). The methodology is based on the observation of the transient temperature rise and determination of the power losses by means of curves representing the derivative of temperature as a function of power losses dissipated in the transformer. First, the thermal calibration characteristics had to be obtained from a simple experiment, where power losses are generated by DC current in the ferrite core and windings. Next, experimental investigations focused on the determination of the transformer power losses for a short circuit and no load, with a resistive load and with the rectifier as a load were carried out. Finally, to verify the obtained results, analytical calculations based on Dowell’s and modified Steinmetz’s equations were additionally made, which showed a good convergence. The proposed method is easy to implement and can be used as an alternative to the calorimetric method which is time-consuming and requires a complicated measurement setup.
Reference24 articles.
1. Hero de Haan Reaching high power density in multikilowatt DC - DC converters with galvanic isolation IEEE Transaction on;Pavlovsky;Power Electronics,2009
2. Closed form solution for minimum conduction loss modulation of DAB converters IEEE Transaction on;Krismer;Power Electronics,2012
3. Opitimized transformer design : inclusive of high - frequency effects Pow;Hurlley;IEEE Trans,1998
4. Simple methods to calculate IGBT and Diode conduction and switching losses European Conf on and Applications Barcelona pp;Feix;Proc Power Electronics,2009
5. Measurement of magnetic losses by thermal method applied to power ferrites at high level of induction and frequency of;Loyau;Review Scientific Instruments,2009
Cited by
15 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献