Coupled inductor winding structure for common-mode noise reduction

Therefore, the following is claimed: 1. A coupled inductor structure, comprising: a magnetic core comprising a first leg, a second leg, and a center leg; and a planar winding structure comprising: a first inductor winding connected in a forward path of a first phase of a power converter between a power source connection and switches of the first phase, the first inductor winding having a number of first leg turns; a second inductor winding connected in a forward path of a second phase of the power converter between the power source connection and switches of the second phase, the second inductor winding having a number of second leg turns; a third inductor winding connected in a return path of the power converter, the third inductor winding having at least one turn interleaved within the number of first leg turns of the first inductor winding; and a fourth inductor winding connected in the return path, the fourth inductor winding connected in series with the third inductor winding, the fourth inductor winding having at least one turn interleaved within the number of second leg turns of the second inductor winding, wherein the first inductor winding and the third inductor winding are configured to achieve unity coupling and the second inductor winding and the fourth inductor winding are configured to achieve unity coupling. 2. The coupled inductor structure of claim 1 , further comprising an added capacitor between an output trace to ground, the added capacitor configured to tune an impedance ratio. 3. The coupled inductor structure of claim 2 , wherein, for a balance condition of the coupled inductor structure for the power converter: a first impedance comprises the first inductor winding; a second impedance comprises the second inductor winding in parallel with the third inductor winding in series connection with the fourth inductor winding; a third impedance comprises a first parasitic capacitor between a first switching node and ground; and a fourth impedance comprises a second parasitic capacitor between a second switching node and ground, a third parasitic capacitor between the output trace and ground, and the added capacitor. 4. The coupled inductor structure of claim 3 , wherein the balance condition is represented by a ratio of the first impedance to the second impedance being equal to a ratio of the third impedance to the fourth impedance. 5. The coupled inductor structure of claim 1 , wherein the planar winding structure comprises at least one winding layer with the first inductor winding having turns about the first leg and the second inductor winding having turns about the second leg, and at least one winding layer with the third inductor winding having turns about the first leg and the fourth inductor winding having turns about the second leg. 6. The coupled inductor structure of claim 5 , wherein the planar winding structure comprises a six-layer winding structure, the six-layer winding structure comprises: five winding layers with the first inductor winding having a number of turns about the first leg and the second inductor winding having a number of turns about the second leg, and one winding layer with the third inductor winding having a number of turns about the first leg and the fourth inductor winding having a number of turns about the second leg. 7. The coupled inductor structure of claim 6 , wherein the number of turns of the third inductor winding about the first leg is one, and the number of turns of the fourth inductor winding about the second leg is one. 8. The coupled inductor structure of claim 1 , wherein the first inductor winding and the second inductor winding are configured for negative coupling. 9. The coupled inductor structure of claim 8 , wherein a direct current (DC) flux generated by the first inductor winding and the second inductor winding are added in the first and second legs and the DC flux generated by the first inductor winding and the second inductor winding are subtracted in the center leg, and wherein an alternating current (AC) flux generated by the first inductor winding and the second inductor winding are subtracted in the first and second legs and the AC flux generated by the first inductor winding and the second inductor winding are added in the center leg. 10. The coupled inductor structure of claim 1 , wherein the first inductor winding and the second inductor winding are configured for positive coupling. 11. The coupled inductor structure of claim 10 , wherein a direct current (DC) flux generated by the first inductor winding and the second inductor winding are subtracted in the first and second legs and the DC flux generated by the first inductor winding and the second inductor winding are added in the center leg, and wherein an alternating current (AC) flux generated by the first inductor winding and the second inductor winding are added in the first and second legs and the AC flux generated by the first inductor winding and the second inductor winding are subtracted in the center leg. 12. The coupled inductor structure of claim 11 , wherein the planar winding structure comprises an eight-layer winding structure, the eight-layer winding structure comprises: six winding layers with the first inductor winding having turns about the first leg and the second inductor winding having turns about the second leg, and two winding layers with the third inductor winding having a number of turns about the first leg and the fourth inductor winding having a number of turns about the second leg. 13. The coupled inductor structure of claim 12 , wherein the two winding layers with the third inductor winding having a number of turns about the first leg and the fourth inductor winding having a number of turns about the second leg are in parallel to form a single turn for the third inductor winding and a single turn for the fourth inductor winding. 14. The coupled inductor structure of claim 1 , wherein the magnetic core is an EI core. 15. The coupled inductor structure of claim 1 , wherein the magnetic core is a PQ core. 16. The coupled inductor structure of claim 1 , wherein CM noise is reduced uniformly up to 20 dB in a switching frequency range from 150 kHz to 30 MHz. 17. The coupled inductor structure of claim 1 , wherein a number of turns of the third inductor winding and a number of turns of the fourth inductor winding are configured to minimize impact from a ground loop resonant. 18. The coupled inductor structure of claim 1 , wherein the first inductor winding and the second inductor winding are configured for positive coupling for high power variable voltage output. 19. The coupled inductor structure of claim 1 , wherein the impedance ratio is fixed up to 90 MHz. 20. A power converter comprising: a power factor correction (PFC) converter; and a coupled inductor structure, comprising: a magnetic core comprising a first leg, a second leg, and a center leg; and a planar winding structure comprising: a first inductor winding connected in a forward path of a first phase of the PFC converter between a first power source connection and switches of the first phase, the first inductor winding having a number of first leg turns; a second inductor winding connected in a forward path of a second phase of the PFC converter between the first power source connection and switches of the second phase, the second inductor winding having a number of second leg turns; a third inductor winding connected in a return path of the PFC converter, the third inductor winding ha