Radio frequency transformer winding coil structure

The invention claimed is: 1. A radio-frequency (RF) transformer, comprising: a ferrite core having an outer surface; a winding structure comprising a pair of conductive wires wound about a portion of the outer surface; and a spacer positioned at least partially between the ferrite core and the winding structure and configured to provide a gap between the ferrite core and the winding structure, wherein: the pair of conductive wires comprises a first wire and a second wire, the pair of conductive wires forms a first twisted wire pair placed as a middle turn of the winding structure, and including a first plurality of consecutive windings disposed over the outer surface, for frequencies of signals rising through approximately 300 MHz, the placement of the first twisted wire pair on the ferrite core is configured to decrease effectiveness of magnetic coupling between the first twisted wire pair and the ferrite core, and to provide a dominant capacitive coupling among the first plurality of consecutive windings, a first turn of the second wire, but not the first wire, is formed through the center of the ferrite core and around an outside portion of the ferrite core, a second turn of the second wire, but not the first wire, is formed through the center of the ferrite core and around the outside portion of the ferrite core, the first twisted wire pair is positioned as the middle turn between the first and second turns of the second wire, the pair of conductive wires forms a second twisted wire pair including a second plurality of consecutive windings placed at a center of the winding structure and extending from the first twisted wire pair, and for signals in the winding structure having frequencies from about 5 MHz to about 1700 MHz, the placement of the second twisted wire pair at the center of the winding structure is configured to increase high frequency coupling. 2. The RF transformer of claim 1 , wherein: the first twisted wire pair comprises a first portion of the first wire of the pair of conductive wires twisted with a first portion of the second wire of the pair of conductive wires; and the winding structure further comprises: a third turn of the second wire, but not the first wire, formed through the center of the ferrite core, around the outside portion of the ferrite core, wherein the third turn is formed across the first twisted wire pair; a fourth turn of the second wire, but not the first wire, formed through the center of the ferrite core; and the second twisted wire pair is formed by twisting a second portion of the first wire with a second portion of the second wire. 3. The RF transformer of claim 1 , wherein the second twisted wire pair is orthogonal to the first twisted wire pair. 4. The RF transformer of claim 1 , wherein the ferrite core is a toroidal shaped member defining a ring disposed in a radial plane; the first plurality of consecutive windings comprises a number of consecutive twists along the first twisted wire pair; and the first twisted wire pair is substantially coplanar with the radial plane of the toroidal shaped member. 5. The RF transformer of claim 1 , wherein: the ferrite core is a toroidal shaped member defining a ring disposed in a radial plane; the toroidal shaped member defines a ring-shaped outer surface and a central opening; the pair of conductive wires include a pair of untwisted wire portions between the first twisted wire pair and the second twisted wire pair; and at least one of the untwisted wire portions comprise a wire lead that wraps around the ring-shaped outer surface, and that crosses over the first twisted wire pair upon a subsequent revolution of the wire lead. 6. The RF transformer of claim 5 , wherein the wire lead wraps around the ring-shaped outer surface to each side of the first twisted wire pair. 7. The RF transformer of claim 6 , wherein: a first wire of the pair of untwisted wire portions crosses over the first twisted wire pair of the winding structure. 8. The RF transformer of claim 6 , wherein: the pair of conductive wires includes a first untwisted wire lead and a second untwisted wire lead extending from the first twisted wire pair; and the first untwisted wire lead wraps around the ring-shaped outer surface of the toroidal shaped member and crosses over the first twisted wire pair upon a subsequent revolution of the first untwisted wire lead around the ring-shaped outer surface of the toroidal member. 9. The RF transformer of claim 1 , wherein the winding structure comprises a ground wire wrapped around the outer surface of the ferrite core. 10. The RF transformer of claim 1 , wherein: the first twisted wire pair and the second twisted wire pair are solely placed over the outer surface of the ferrite core; and the second twisted wire pair extends from the first twisted wire pair at an angle that is orthogonal to the first twisted wire pair. 11. The RF transformer of claim 1 , wherein the winding structure is solely comprised of a single pair of conductive wires forming the first twisted wire pair and the second twisted wire pair. 12. A radio-frequency (RF) transformer, comprising: a ferrite core; a winding structure formed around the ferrite core; and a spacer positioned at least partially between the ferrite core and the winding structure and configured to provide a gap between the ferrite core and the winding structure, wherein: the winding structure comprises a first wire and a second wire, at least a portion of the first wire and the second wire are twisted to form a twisted wire pair comprising a plurality of consecutive twists configured to couple high bandwidth signals across the first wire of the twisted wire pair and the second wire of the twisted wire pair through a combination of magnetic coupling and capacitive coupling, the twisted wire pair is at a center of the winding structure and configured to increase the capacitive coupling among the plurality of consecutive twists as signal frequency rises, a first turn of the second wire, but not the first wire, is formed through the center of the ferrite core and around the outside portion of the ferrite core, and a second turn of the second wire, but not the first wire, is formed through the center of the ferrite core and around the outside portion of the ferrite core. 13. The RF transformer of claim 12 , wherein the winding structure further comprises: a third turn of the second wire, but not the first wire, formed through the center of the ferrite core and around the outside portion of the ferrite core, wherein the third turn is formed across the twisted wire pair; a fourth turn of the second wire formed through the center of the ferrite core; and a second twisted wire pair formed by twisting another portion of the first wire with another portion of the second wire. 14. The RF transformer of claim 12 , wherein the ferrite core is configured to couple low bandwidth signals across the first wire and the second wire such that the magnetic coupling decreases as a signal frequency of the signals rises through approximately 300 MHz. 15. The RF transformer of claim 12 , wherein the winding structure further comprises a second twisted wire pair orthogonal to the first twisted wire pair, the second twisted wire pair comprises another portion of the first wire twisted with another portion of the second wire. 16. The RF transformer of claim 12 , wherein the twisted wire pair is positioned between the first turn and the second turn. 17. The RF transformer of claim 16 , wherein neither the first turn