System and method for reducing power losses for magnetics integrated in a printed circuit board

We claim: 1 . A magnetic component, comprising: a circuit board having at least three consecutive layers and an opening extending through the circuit board; and a coil defined by a plurality of traces, wherein: the at least three consecutive layers of the circuit board include a first layer, a second layer, and a third layer, the plurality of traces includes at least one trace on each of the at least three consecutive layers of the circuit board, the at least one trace on each layer extends around the opening extending through the circuit board to define a plurality of loops on each layer, the plurality of loops on each of the at least three consecutive layers define an inner trace proximate the opening through the circuit board, an outer trace distal from the opening through the circuit board, and at least one intermediate trace located between the inner trace and the outer trace, the inner trace on each layer has a first axis that extends through the inner trace on each of the at least three consecutive layers, the at least one intermediate trace on each layer has a second axis that extends through the at least one intermediate trace on each of the at least three consecutive layers, the outer trace on each layer has a third axis that extends through the outer trace on each of the at least three consecutive layers, at least one of the first axis, the second axis, or the third axis for the inner trace, the at least one intermediate trace, or the outer trace on the second layer is offset from the first axis, the second axis, or the third axis for a corresponding inner trace, a corresponding intermediate trace, or a corresponding outer trace on the first layer, at least one of the first axis, the second axis, or the third axis for the inner trace, the at least one intermediate trace, or the outer trace on the third layer is offset from the first axis, the second axis, or the third axis for a corresponding inner trace, a corresponding intermediate trace, or a corresponding outer trace on the second layer, wherein the first axis, the second axis, or the third axis offset between the first layer and the second layer is offset in a common direction as the first axis, second axis, or third axis is offset between the second layer and the third layer, the inner trace, the at least one intermediate trace, or the outer trace on the first layer has a first sectional profile, the inner trace, the at least one intermediate trace, or the outer trace on the second layer has a second sectional profile, different than the first sectional profile, and the inner trace, the at least one intermediate trace, or the outer trace on the third layer has a third sectional profile, different than the first sectional profile and the second section profile. 2 . The magnetic component of claim 1 , wherein: the circuit board includes a top layer and a bottom layer, the top layer is closest to a first surface of the circuit board, the bottom layer is closest to a second surface of the circuit board, and the second surface of the circuit board is opposite the first surface of the circuit board. 3 . The magnetic component of claim 1 , wherein: the first axis of the inner trace on the first layer is at a first position, the second axis of the at least one intermediate trace on the first layer is at a second position, the third axis of the outer trace on the first layer is at a third position, the first axis of the inner trace on the second and third layers are offset from the first position away from the opening extending through the circuit board, the second axis of the at least one intermediate trace on the second and third layers are offset from the second position away from the opening extending through the circuit board, and the third axis of the outer trace on the second and third layers are offset from the third position away from the opening extending through the circuit board. 4 . The magnetic component of claim 1 wherein: a first width of the inner trace is less than a second width of the at least one intermediate trace, and a second width of the at least one intermediate trace is less than a third width of the outer trace. 5 . The magnetic component of claim 1 , wherein each trace on one layer of the circuit board has a different sectional profile in a first portion of the coil than in a second portion of the coil. 6 . The magnetic component of claim 1 , wherein: a plane of symmetry extends through the circuit board parallel with the plurality of layers, the first axis, the second axis, and the third axis on a first side of the plane of symmetry are offset from a corresponding axis on adjacent layers in a first pattern, and the first axis, the second axis, and the third axis on a second side second side of the plane of symmetry are offset from a corresponding axis on adjacent layers in a second pattern symmetrical to the first pattern. 7 . The magnetic component of claim 1 , further comprising: a core material, wherein: the core material extends over the opening through the circuit board and laterally over at least a portion of the circuit board, a portion of the core material extends through the opening in the circuit board, a first portion of the coil located on the circuit board between the opening and a first side of the circuit board is under the core material, a second portion of the coil located on the circuit board between the opening and a second side of the circuit board is under the core material, a third portion of the coil located on the circuit board proximate a first end of the circuit board defines a first end turn of the coil and is beyond a first end of the core material, and a fourth portion of the coil located on the circuit board proximate a second end of the circuit board defines a second end turn of the coil and is beyond a second end of the core material. 8 . The magnetic component of claim 7 , wherein each trace on one layer of the circuit board has a different sectional profile in the first portion of the coil than in the second portion of the coil. 9 . The magnetic component of claim 2 , further comprising a shield located between the top layer and the coil to induce eddy currents in the shield and, thereby, reduce eddy currents induced in the coil. 10 . The magnetic component of claim 2 , further comprising a shield located between the bottom layer and the coil to induce eddy currents in the shield and, thereby, reduce eddy currents induced in the coil. 11 . A method of integrating a magnetic component in a circuit board, the method comprising the steps of: defining a plurality of traces for a circuit board, the circuit board including at least three consecutive layers and an opening extending therethrough, wherein: the at least three consecutive layers of the circuit board include a first layer, a second layer, and a third layer, the plurality of traces includes at least one trace on each of the at least three consecutive layers of the circuit board, the at least one trace on each layer extends around the opening through the circuit board to define a plurality of loops on the respective layer, the plurality of loops on each of the at least three consecutive layers define an inner trace proximate the opening through the circuit board, an outer trace distal from the opening extending through the circuit board, and at least one intermediate trace located between the inner trace and the outer trace, the inner trace on each layer has a first axis that extends through the inner trace on each of the at least three consecutive layers, the at least one intermediate trace on each layer has a second axis that extends through