Integrated common mode and differential mode inductors with low near magnetic field emission

The invention claimed is: 1. An integrated common mode and differential mode inductor, comprising: a first core comprising a first center leg, a first left leg, and a first right leg; a second core comprising a second center leg, a second left leg, and a second right leg; a first center winding on the first center leg; a second center winding on the second center leg; a left winding on the first left leg and the second left leg; and a right winding on the first right leg and the second right leg, wherein the first center leg is spaced apart from the second center leg, wherein the first right leg and the second right leg form a right leg defining a right leg reluctance, the first left leg and the second left leg form a left leg defining a left leg reluctance that is substantially equal to the right leg reluctance, and the first center leg and the second center leg form a center leg defining a center leg reluctance, wherein the right winding comprises a first number of windings and the left winding comprises a second number of windings, the first number of windings being equal to the second number of windings, wherein the first center winding comprises a third number of windings and the second center winding comprises a fourth number of windings, the third number of windings being equal to the fourth number of windings, wherein the first number of windings and the third number of windings are configured such that a ratio of the first number of windings to the right leg reluctance is substantially equal to a ratio of the third number of windings to the center leg reluctance, wherein each current direction of the first center winding and the second center winding is configured such that both a common mode flux and a differential mode flux flow through the first left leg, the second left leg, the first right leg, and the second right leg and only one of either (a) the common mode flux or (b) the differential mode flux flows through the first center leg and the second center leg, and wherein the current direction of a differential mode current through the first center winding defines a first direction and (a) when the common mode flux flows through the first center leg and the second center leg, the current direction of a common mode current through the second center winding is in the first direction, and (b) when the differential mode flux flows through the first center leg and the second center leg, the current direction of the differential mode current through the second center winding is in the first direction. 2. The integrated common mode and differential mode inductor according to claim 1 , wherein the first center leg is spaced apart from the second center leg by a center air gap, wherein the first left leg is spaced apart from the second left leg by a left air gap and the first right leg is spaced apart from the second right leg by a right air gap. 3. The integrated common mode and differential mode inductor according to claim 2 , wherein the left air gap, the right air gap, and the center air gap have the same thickness. 4. The integrated common mode and differential mode inductor according to claim 1 , wherein the left winding and the first center winding are configured to be connected to a positive line, and the right winding and the second center winding are configured to be connected to a negative line. 5. The integrated common mode and differential mode inductor according to claim 4 , wherein each current direction of the left, right, first center, and second center windings is configured such that a differential mode flux flows through the first left, second left, first right, and second right legs, and a common mode flux flows through the first left, second left, first right, second right, first center, and second center legs. 6. The integrated common mode and differential mode inductor according to claim 4 , wherein each current direction of the left, right, first center, and second center windings is configured such that a common mode flux flows through the first left, second left, first right, and second right legs, and a differential mode flux flows through the first left, second left, first right, second right, first center, and second center legs. 7. The integrated common mode and differential mode inductor according to claim 1 , further comprising: a first left winding wound around the first left leg and a second left winding wound about the second left leg; a first right winding wound about the first right leg and a second right winding wound about the second right leg. 8. The integrated common mode and differential mode inductor according to claim 7 , wherein the first left leg is directly connected to the second left leg. 9. The integrated common mode and differential mode inductor according to claim 8 , wherein the first right leg is directly connected to the second right leg. 10. The integrated common mode and differential mode inductor according to claim 9 , wherein the first left winding, the first right winding, and the first center winding are configured to be connected to a positive line and wherein the second left winding, the second right winding, and the second center winding are configured to be connected to a negative line. 11. The integrated common mode and differential mode inductor according to claim 10 , wherein each of the first left winding and the first right winding has a first winding number, each of the second left winding and the second right winding has a second winding number, and the first winding number is the same as the second winding number. 12. The integrated common mode and differential mode inductor according to claim 11 , wherein the first center winding has a third winding number, the second center winding has a fourth winding number, and the third winding number is the same as the fourth winding number. 13. The integrated common mode and differential mode inductor according to claim 12 , wherein each winding current direction of the first left winding, the first right winding, the first center winding, the second left winding, the second right winding, and the second center winding is configured such that a common mode flux flows through the first and second left legs and the first and second right legs, and a differential mode flux flows through the first and second left leg, the first and second right leg, the first center leg, and the second center leg. 14. An integrated common mode and differential mode inductor, comprising: a first core comprising a first left leg, a first center leg, and a first right leg; a second core comprising a second left leg, a second center leg, and a second right leg; a left winding wrapping the first left leg and the second left leg; a right winding wrapping the first right leg and the second right leg; a first center winding wrapping the first center leg; and a second center winding wrapping the second center leg, wherein the first right leg and the second right leg form a right leg defining a right leg reluctance, the first left leg and the second left leg form a left leg defining a left leg reluctance that is substantially equal to the right leg reluctance, and the first center leg and the second center leg form a center leg defining a center leg reluctance, wherein the right winding comprises a first number of windings and the left winding comprises a second number of windings, the first number of windings being equal to the second number of windings, wherein the first center winding comprises a third number of windings and the second center winding comprises a fourth number of windings, the third number of windings being equal