Title | Hysteresis Effect Induces the Inductor Power Loss of Converter during the Voltage Conversion |
Publication Type | Conference Paper |
Year of Publication | 2021 |
Authors | Lee, Jian-Hsing, Nidhi, Karuna, Hung, Chung-Yu, Liao, Ting-Wei, Liu, Wu-Yang, Su, Hung-Der |
Conference Name | 2021 IEEE International Symposium on the Physical and Failure Analysis of Integrated Circuits (IPFA) |
Keywords | composability, compositionality, conversion efficiency, converter, Current measurement, hysteresis, Inductance, Loading, Loss measurement, magnetic hysteresis, Magnetic Remanence, Magnetization, pubcrawl, resilience, Resiliency, Voltage measurement |
Abstract | A new methodology to calculate the hysteresis induced power loss of inductor from the measured waveforms of DC-to-DC converter during the voltage conversion is presented. From this study, we find that the duty cycles (D) of the buck and boost converters used till date for inductance current calculation are not exactly equal to VOUT/VIN and 1-VIN/VOUT as the inductance change induced by the hysteresis effect cannot be neglected. Although the increase in the loading currents of the converter increases the remanence magnetization of inductor at the turn-off time (toff), this remanence magnetization is destroyed by the turbulence induced vortex current at the transistor turn-on transient. So, the core power loss of inductor increases with the loading current of the converter and becomes much larger than other power losses and cannot be neglected for the power efficiency calculation during power stage design. |
DOI | 10.1109/IPFA53173.2021.9617451 |
Citation Key | lee_hysteresis_2021 |