Inductor assembly and power supply system using the same

The invention claimed is: 1. An inductor assembly, comprising: a magnetic core with a center leg and a number n of phase legs, wherein n is an integer and n>1, wherein each phase leg is magnetically connected to the center leg by an upper bridge and a lower bridge to form a magnetic main loop, and a midpoint of the phase leg being magnetically connected to a center point of the center leg by a shunt element comprising a gap, wherein each phase leg further comprises an upper inductor coil disposed on an upper phase leg section located between the midpoint and the upper bridge and a lower inductor coil disposed on a lower phase leg section located between the midpoint and the lower bridge, or each phase leg further comprises an upper inductor coil disposed on the upper bridge and a lower inductor coil disposed on the lower bridge, wherein the upper inductor coil comprises a first terminal and a second terminal and wherein the lower inductor coil comprises a third terminal and a fourth terminal, wherein the second terminal of the upper inductor coil and the third terminal of the lower inductor coil are connected to each other in order to form a series connection of the upper inductor coil and the lower inductor coil, and wherein a winding direction of the upper inductor coil relative to a winding direction of the lower inductor coil is such that a current flowing from the first terminal of the upper inductor coil to the fourth terminal of the lower inductor coil generates a magnetic flux for each one of the upper inductor coil and the lower inductor coil that are superposing constructively within the respective phase leg. 2. The inductor assembly of claim 1 , wherein the upper phase leg section of at least one phase leg comprises an upper gap, and the lower phase leg section of the at least one phase leg comprises a lower gap. 3. The inductor assembly of claim 2 , wherein a width of the upper gap is equal to a width of the lower gap. 4. The inductor assembly of claim 2 , wherein a width of the gap comprised of the shunt element of the at least one phase leg is at least five times larger than the width of the upper gap and/or the lower gap of that respective phase leg. 5. The inductor assembly of claim 1 , wherein n is equal to two or three. 6. The inductor assembly of claim 1 , wherein the magnetic core is configured to be assembled from a plurality of core elements wherein a number and shape of the core elements is selected such that the upper and lower inductor coils are placeable onto core elements forming corresponding phase leg sections and/or upper and lower bridges prior to assembly. 7. The inductor assembly of claim 1 , wherein the gap of the shunt element is disposed adjacent to the center leg. 8. The inductor assembly of claim 1 , wherein the gap of the shunt element is disposed adjacent to the phase leg. 9. The inductor assembly of claim 1 , wherein the center leg comprises no gap larger than 500 μm. 10. The inductor assembly of claim 1 , wherein windings of the upper and lower inductor coils are selected from one of a foil-based winding and a wire-based winding.