Ignition coil

The invention claimed is: 1. An ignition coil, comprising: a ground terminal; an output terminal; a first coil; a second coil; a third coil; and a capacitor, wherein said second coil is electromagnetically coupled with said first coil, a first end of said second coil is electrically conductively connected to said ground terminal, a second end of said second coil is electrically conductively connected to a first end of said third coil, a second end of said third coil is electrically conductively connected to said output terminal, a first contact of said capacitor is electrically conductively connected to said second end of said second coil, and said first contact is electrically conductively connected to said second end of said third coil. 2. The ignition coil of claim 1 , comprising: an input terminal, wherein a first end of said first coil is electrically conductively connected to said ground terminal, and a second end of said first coil is electrically conductively connected to said input terminal. 3. The ignition coil of claim 1 , wherein: said third coil is electromagnetically coupled with said first coil. 4. The ignition coil of claim 1 , wherein: said third coil is substantially orthogonal to said first coil and said second coil. 5. The ignition coil of claim 1 , wherein: an electromagnetic coupling of said third coil to said first coil is substantially less than an electromagnetic coupling of said second coil to said first coil. 6. The ignition coil of claim 1 , wherein: said first coil comprises a first number of windings, and said second coil comprises a second number of windings that is at least 10 times said first number of windings. 7. The ignition coil of claim 1 , comprising: a magnetic core, wherein said first coil comprises first windings wound around said magnetic core, and said second coil comprises second windings wound around said magnetic core. 8. The ignition coil of claim 7 , wherein: said third coil comprises third windings wound around said magnetic core. 9. The ignition coil of claim 7 , comprising: a housing; and a dielectric resin inside said housing, wherein said dielectric resin encases said magnetic core, said first coil, said second coil, said third coil and said capacitor. 10. The ignition coil of claim 7 , wherein: at least part of said third coil is situated within an imaginary, minimally-sized rectangular parallelepiped cuboid enclosing said magnetic core, said first coil, and said second coil. 11. A system, comprising: a magnetic core; a first, primary-side coil; a second, secondary-side coil; a third coil; and a capacitor, wherein said first coil comprises first windings wound around said magnetic core, said second coil comprises second windings wound around said magnetic core, said second coil and said third coil constitute at least part of a first electrical path from a first node to a second node, a first contact of said capacitor is connected to said first electrical path at a common node intermediate said second coil and said third coil, and said capacitor does not constitute part of said first electrical path. 12. The system of claim 11 , wherein: said capacitor and said third coil constitute at least part of a second electrical path from a second contact of said capacitor to said second node. 13. The system of claim 11 , comprising: a spark plug that constitutes at least part of a third electrical path from said second node to ground. 14. The system of claim 11 , comprising: a high-frequency signal generator that generates an AC signal having a frequency greater than 100 kHz, wherein an output node of said high-frequency signal generator is connected to a second contact of said capacitor. 15. The system of claim 11 , comprising: a spark plug; and a high-frequency signal generator, wherein said high-frequency signal generator generates an AC signal having a frequency greater than 100 kHz, and said high-frequency signal generator, said capacitor, said third coil, and said spark plug are connected in series. 16. The system of claim 15 , wherein: said spark plug and said first electrical path are connected in series. 17. The system of claim 11 , comprising: a DC voltage source; and a switch, wherein said DC voltage source, said switch, and said first coil are connected in series. 18. The system of claim 11 , comprising: a dielectric resin that encases said magnetic core, said first coil, said second coil, said third coil and said capacitor. 19. The system of claim 11 , wherein: at least part of said third coil is situated within an imaginary, minimally-sized rectangular parallelepiped cuboid enclosing said magnetic core, said first coil, and said second coil. 20. A method, comprising: energizing a magnetic core using a flow of DC current through a first coil at least partially wound around said magnetic core, creating a voltage pulse in a second coil at least partially wound around said magnetic core by ceasing said flow of DC current, superimposing an AC signal onto said voltage pulse using a bandpass filter, and feeding said voltage pulse superimposed with said AC signal to a spark plug, wherein said spark plug comprises a first electrode and a second electrode, said bandpass filter comprises a third coil and a capacitor, said second coil, said third coil, said first electrode, and said second electrode are connected in series, and said capacitor, said third coil, said first electrode, and said second electrode are connected in series.