2018
DOI: 10.1109/tia.2018.2860561
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Switching Frequency Optimization for a Solid State Transformer With Energy Storage Capabilities

Abstract: Abstract-This paper is focused on establishing a procedure for measuring the efficiency dependency on the switching frequency for a solid state transformer (SST), being one of the ports connected to an energy storage device (Lithium-Ion battery). Multiple contributions for measuring the efficiency/losses for different power converter structures for energy storage applications can be found in the literature. However, there are few references which consider the effects of the high frequency model of the battery … Show more

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Cited by 12 publications
(8 citation statements)
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“…It is interesting to see the reverse trend of the converter efficiency against battery efficiency, which resulted in the optimum operation point when taking the battery losses into consideration. As shown in Figure 15, the optimum operation point has been pushed from 22 to 30 kHz of the built TAB converter [18].…”
Section: Impact Of the Technology On Storage Device Utilizationmentioning
confidence: 99%
“…It is interesting to see the reverse trend of the converter efficiency against battery efficiency, which resulted in the optimum operation point when taking the battery losses into consideration. As shown in Figure 15, the optimum operation point has been pushed from 22 to 30 kHz of the built TAB converter [18].…”
Section: Impact Of the Technology On Storage Device Utilizationmentioning
confidence: 99%
“…The parameters of the battery module have been estimated by a vector fitting method [17], [18]. On obtaining the proposed high frequency model, it has to be mentioned that the impedance spectrum of a battery is dependent on the actual SoC, the temperature and cycling [6], [19], [20].…”
Section: High-frequency Modelmentioning
confidence: 99%
“…This paper proposes the use of a hybrid technique based on the high-frequency model of the battery [16], [17], that is suitable for the calculation of the SoC and that is barely affected by the operating point of the battery. The underpinning idea is to use the harmonics delivered by the power converter needed for the battery interface.…”
Section: Introductionmentioning
confidence: 99%
“…Main objective functions are typically minimum losses [22][23][24][25] and or maximum power density (minimum volume) [26][27][28][29]. Other objectives include minimum dc-link capacitance [30] and minimum heatsink volume [31]. Typical optimisation parameters are flux density, current density, switching frequency, number of converter cells [22,25,26,[28][29][30][31] and types of semiconductor devices [23,27].…”
Section: Introductionmentioning
confidence: 99%