Filter assembly and method

What is claimed is: 1. An electronic filter assembly comprising: a magnetically conductive outer annular body extending around a center axis; a magnetically conductive inner annular body extending around the center axis between the outer annular body and the center axis; a first set of magnetically conductive prongs radially extending from the inner annular body toward the outer annular body, wherein the prongs in the first set are directly coupled with the inner annular body but are separated from the outer annular body by one or more first separation gaps; a second set of magnetically conductive prongs radially extending from the outer annular body toward the inner annular body, wherein the prongs in the second set are directly coupled with the outer annular body but are separated from the inner annular body by one or more second separation gaps; and conductive windings extending around the prongs in the first set. 2. The electronic filter assembly of claim 1 , wherein the first set of the magnetically conductive prongs is positioned relative to the conductive windings and the outer annular body such that the first set of the magnetically conductive prongs magnetically conduct a magnetic flux to the outer annular body, the magnetic flux being induced in the first set of the magnetically conductive prongs by an electric current being conducted through the conductive windings. 3. The electronic filter assembly of claim 1 , wherein the magnetically conductive prongs in the first set are symmetrically separated from each other around the center axis. 4. The electronic filter assembly of claim 1 , wherein the inner annular body extends around a gap through which the center axis passes such that the center axis does not pass through the inner annular body. 5. The electronic filter assembly of claim 1 , wherein the prongs in the second set do not include any conductive windings extending around the prongs in the second set. 6. The electronic filter assembly of claim 1 , wherein the first set of the magnetically conductive prongs is positioned such that the prongs in the first set magnetically conduct a magnetic flux during a differential mode of operation of the filter assembly and the second set of the magnetically conductive prongs is positioned such that the prongs in the second set magnetically conduct the magnetic flux during a common mode of operation of the filter assembly. 7. The electronic filter assembly of claim 1 , wherein the magnetically conductive prongs in the first set are symmetrically separated from each other around the center axis and the magnetically conductive prongs in the second set are symmetrically separated from each other around the center axis. 8. The electronic filter assembly of claim 1 , wherein the annular body and the magnetically conductive prongs in the first set are positioned to magnetically conduct the magnetic flux during a differential operational mode while the magnetically conductive prongs in the second set are positioned to not magnetically conduct the magnetic flux to prevent the magnetic flux from leaking outside of the annular body and the magnetically conductive prongs in the first set. 9. The electronic filter assembly of claim 1 , wherein the outer annular body does not include any conductive windings extending around the outer annular body. 10. An electronic filter assembly comprising: a magnetically conductive outer annular body extending around a center axis; a magnetically conductive inner annular body extending around the center axis between the center axis and the outer annular body; a first set of magnetically conductive prongs radially extending from the center axis toward the outer annular body, the prongs in the first set being separated from the outer annular body by first separation gaps but directly coupled with the inner annular body; and a second set of magnetically conductive prongs radially extending from the center axis toward the outer annular body, the prongs in the second set being directly coupled with the outer annular body but separated from the inner annular body by second separation gaps, and wherein the first set of the magnetically conductive prongs are positioned to magnetically conduct a magnetic flux during a differential mode of operation of the filter assembly and the second set of the magnetically conductive prongs are positioned to magnetically conduct the magnetic flux during a common mode of operation of the filter assembly. 11. The electronic filter assembly of claim 10 , wherein the magnetically conductive prongs in the first set are symmetrically separated from each other around the center axis and the magnetically conductive prongs in the second set are symmetrically separated from each other around the center axis. 12. The electronic filter assembly of claim 10 , wherein the magnetically conductive prongs in the first set and in the second set are positioned to magnetically conduct the magnetic flux during conduction of a three phase electric current through the conductive windings. 13. The electronic filter assembly of claim 10 , wherein the outer annular body and the magnetically conductive prongs in the first set are positioned to magnetically conduct the magnetic flux during the differential mode and during the common mode to prevent the magnetic flux from leaking outside of the outer annular body and the magnetically conductive prongs. 14. An electronic filter assembly comprising: a magnetically conductive outer annular body extending around a center axis; a magnetically conductive inner annular body extending around the center axis between the outer annular body and the center axis; a first set of magnetically conductive prongs radially extending from the center axis toward the outer annular body, the first set of prongs directly coupled with the inner annular body but not directly coupled with the outer annular body; and a second set of magnetically conductive prongs radially extending from the center axis toward the outer annular body, the second set of prongs directly coupled with the outer annular body but not directly coupled with the inner annular body, wherein the first set of the magnetically conductive prongs is positioned to magnetically conduct a magnetic flux during a differential mode of operation of the filter assembly and the second set of the magnetically conductive prongs is positioned to magnetically conduct the magnetic flux during a common mode of operation of the filter assembly; and wherein the magnetically conductive prongs in the first set are symmetrically separated from each other around the center axis and the magnetically conductive prongs in the second set are symmetrically separated from each other around the center axis. 15. The electronic filter assembly of claim 14 , wherein the magnetically conductive prongs in the first set and in the second set are positioned to magnetically conduct the magnetic flux during conduction of a three phase electric current through the conductive windings. 16. The electronic filter assembly of claim 14 , wherein the outer annular body and the magnetically conductive prongs are positioned to magnetically conduct the magnetic flux during the differential mode and during the common mode to prevent the magnetic flux from leaking outside of the annular body and the magnetically conductive prongs. 17. The electronic filter assembly of claim 1 , wherein the one or more first separation gaps and the one or more second separation gaps are entirely filled with air. 18. The electronic filter assembly of cla