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Chapter 15 Transformer Design

Fundamentals of Power ElectronicsChapter 15: Transformer design1 Chapter 15 Transformer DesignSome more advanced Design issues, not considered in previouschapter: Inclusion of core loss Selection of operating fluxdensity to optimize total loss Multiple winding Design : as inthe coupled-inductor case,allocate the available windowarea among several windings A Transformer designprocedure How switching frequencyaffects Transformer sizen1 : n2: nkR1R2Rk+v1(t) +v2(t) +vk(t) i1(t)i2(t)ik(t)Fundamentals of Power ElectronicsChapter 15: Transformer design2 Chapter 15 Transformer Transformer Design : Basic A step-by-step Transformer Design AC inductor SummaryFundamentals of Power ElectronicsChapter 15: Transformer Transformer Design :Basic ConstraintsCore lossTypical value of for ferrite materials: or B is the peak value of the ac component of B(t), , the peak ac fluxdensitySo increasing B causes core loss to increase rapidlyThis is the first constraintPfe=Kfe( B) AclmFundamentals of Power ElectronicsChapter 15: Transformer design4 flux densityConstraint #2 flux density B(t) is related to theapplied windi

2. Evaluate peak ac flux density At this point, one should check whether the saturation flux density is exceeded. If the core operates with a flux dc bias Bdc, then B + Bdc should be less than the saturation flux density Bsat. If the core will saturate, then there are two choices: • Specify B using the Kg method of Chapter 14, or

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  Density, Flux, Saturation, Saturation flux density, Flux density

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