Embedded magnetic component transformer device

1 . An embedded transformer device, comprising: an insulating substrate including a first side and a second side opposite the first side, and including a cavity therein, the cavity including an inner and an outer periphery; a magnetic core housed in the cavity; a primary winding extending through the insulating substrate and around a first side of the magnetic core; a secondary winding extending through the insulating substrate and around a second side of the magnetic core; and an auxiliary winding extending through the insulating substrate and around the first side of the magnetic core so as not to overlap with the primary winding; wherein each of the primary, secondary, and auxiliary windings includes: upper conductive traces; lower conductive traces; inner conductive connectors extending through the insulating substrate adjacent an inner periphery of the magnetic core, the inner conductive connectors respectively define electrical connections between respective upper conductive traces and respective lower conductive traces; and outer conductive connectors extending through the insulating substrate adjacent an outer periphery of the magnetic core, the outer conductive connectors respectively define electrical connections between respective upper conductive traces and respective lower conductive traces; the primary winding is spaced from the auxiliary winding so that electrical isolation is provided by a gap between the primary and auxiliary windings; a conductive element is provided in the gap between the primary and auxiliary windings and on a same layer of the insulating substrate as the upper or lower conductive traces. 2 . The embedded transformer device of claim 1 , wherein the conductive element at least partially shields an electric field on one of the primary and auxiliary windings from an electric field on the other primary and auxiliary windings. 3 . The embedded transformer device of claim 1 , wherein the conductive element is provided at least between the inner conductive connectors of the primary winding and the inner conductive connectors of the auxiliary winding. 4 . The embedded transformer device of claim 1 , wherein the conductive element includes a conductive plane. 5 . The embedded transformer device of claim 4 , wherein the conductive plane is parallel or substantially parallel to the first and second surfaces of the insulating substrate. 6 . The embedded transformer device of claim 1 , further comprising; a first printed circuit board located on the first side of the insulating substrate, the first printed circuit board including the upper conductive traces; and/or a second printed circuit board located on the second side of the insulating substrate, the second printed circuit board including the lower conductive traces. 7 . The embedded transformer device of claim 6 , wherein the conductive element is located on the first and/or second printed circuit boards. 8 . The embedded transformer device of claim 7 , wherein the conductive element includes a ground plane on the first and/or second surface of the first and/or second printed circuit boards. 9 . The embedded transformer device of claim 8 , wherein the ground plane extends over substantially all of the surface of the first and/or second printed circuit boards that is not occupied by connections to the conductive connectors or the conducting traces. 10 . The embedded transformer device of claim 1 , wherein the conductive element is arranged orthogonal or substantially orthogonal to the first and second surfaces of the substrate. 11 . The embedded transformer device of claim 10 , wherein the conductive element extends from the first side of the insulating substrate to the second side of the insulating substrate. 12 . The embedded transformer device of claim 10 , wherein the conductive element includes a conductive plane. 13 . The embedded transformer device of claim 10 , wherein the conductive element includes one or more conductive vias or pins provided in the gap. 14 . The embedded transformer device of claim 1 , wherein the conductive element is grounded when the embedded transformer is in operation. 15 . The embedded transformer device of claim 1 , wherein the conductive element is provided in the gap in a width direction of the insulating substrate. 16 . An embedded transformer device, comprising: an insulating substrate including a first side and a second side opposite the first side, and including a cavity therein, the cavity including an inner and an outer periphery; a magnetic core housed in the cavity; a primary winding extending through the insulating substrate and around a first side of the magnetic core; a secondary winding extending through the insulating substrate and around a second side of the magnetic core; and an auxiliary winding extending through the insulating substrate and around the first side of the magnetic core so as not to overlap with the primary winding in a thickness direction of the insulating substrate; wherein each of the primary, secondary, and auxiliary windings includes: upper conductive traces; lower conductive traces; inner conductive connectors extending through the insulating substrate adjacent an inner periphery of the magnetic core, the inner conductive connectors respectively define electrical connections between respective upper conductive traces and respective lower conductive traces; and outer conductive connectors extending through the insulating substrate adjacent an outer periphery of the magnetic core, the outer conductive connectors respectively define electrical connections between respective upper conductive traces and respective lower conductive traces; the primary winding is spaced from the auxiliary winding so that electrical isolation is provided by a gap between the primary and secondary windings; and a conductive element is provided in the gap between the primary and secondary windings. 17 . An embedded transformer device, comprising: an insulating substrate including a first side and a second side opposite the first side, and including a cavity therein, the cavity including an inner and an outer periphery; a magnetic core housed in the cavity; a primary winding extending through the insulating substrate and around a first side of the magnetic core; a secondary winding extending through the insulating substrate and around a second side of the magnetic core; and an auxiliary winding extending through the insulating substrate and around the first side of the magnetic core so as not to overlap with the primary winding; wherein each of the primary, secondary, and auxiliary windings includes: upper conductive traces; lower conductive traces; inner conductive connectors extending through the insulating substrate adjacent an inner periphery of the magnetic core, the inner conductive connectors respectively define electrical connections between respective upper conductive traces and respective lower conductive traces; and outer conductive connectors extending through the insulating substrate adjacent an outer periphery of the magnetic core, the outer conductive connectors respectively define electrical connections between respective upper conductive traces and respective lower conductive traces; either: the upper conductive traces of the primary winding are on the same layer of the insulating substrate as the upper conductive traces of the auxiliary winding; or the lower conductive traces of the primary winding are on the same layer of the insulating substrate as the lower conductive