Regulating device

What is claimed is: 1. A magnetic device to regulate the relative angular velocity of a wheel and of at least one magnetic dipole integral with an oscillating device, said wheel or said dipole being driven by a driving torque, said wheel including a periodic, ferromagnetic pole path which alternates according to a center angle and said at least one dipole being arranged to permit magnetic coupling with said ferromagnetic path and oscillation of said dipole at a natural frequency of an oscillating element during a relative motion of the wheel and of the magnetic dipole to regulate said relative angular velocity, wherein said wheel further includes an assembly to dissipate kinetic energy of said at least one dipole when the dipole moves away from said ferromagnetic path, and said assembly include non-ferromagnetic, electrically conductive sectors. 2. The regulating device according to claim 1 , wherein said assembly are arranged adjacent to said ferromagnetic path on at least one of sides of said ferromagnetic path. 3. The regulating device according to claim 1 , wherein said sectors extend substantially in a plane of said ferromagnetic path. 4. The regulating device according to claim 1 , wherein non-ferromagnetic, electrically conductive sectors are disposed on both sides of said ferromagnetic path. 5. The regulating device according to claim 1 , wherein said non-ferromagnetic, electrically conductive sectors are electrically insulated from said ferromagnetic path. 6. The regulating device according to claim 5 , wherein electrical insulation is achieved by an air gap or galvanic assembly. 7. The regulating device according to claim 1 , wherein the ferromagnetic path includes through slots extending substantially perpendicularly to a plane of the ferromagnetic path. 8. The regulating device according to claim 1 , wherein the ferromagnetic path is formed by a concentric lamination of ferromagnetic material. 9. The regulating device according to claim 1 , wherein the non-ferromagnetic electrically conductive sectors are made of a material chosen from a group including gold, silver, copper, aluminum, platinum, palladium, titanium and nickel. 10. The regulating device according to claim 1 , wherein the ferromagnetic path is made of a material chosen from a group including soft iron, mu-metal and Supermalloy. 11. The regulating device according to claim 1 , wherein said at least one dipole is a permanent magnet. 12. The regulating device according to claim 1 , wherein said at least one magnetic dipole has a direction of magnetization perpendicular to a plane of the ferromagnetic path. 13. The regulating device according to claim 12 , wherein said at least one magnetic dipole includes an open structure defining a closed magnetic circuit and an air gap in which the wheel can move perpendicularly to a direction of magnetic flux generated by said at least one magnetic dipole, free ends of said structure extending substantially facing said ferromagnetic path when said oscillating element is at rest. 14. The regulating device according to claim 13 , wherein said wheel is driven in rotation by said driving torque and in that said oscillating element is integral with a fixed frame. 15. The regulating device according to claim 12 , wherein said at least one magnetic dipole is integral with at least one arm, one of poles of said dipole extending substantially facing said ferromagnetic path when said oscillating element is at rest. 16. The regulating device according to claim 15 , wherein said at least one arm is integral with a balanced rotor driven by said driving torque, and said at least one dipole is driven by the driving torque and said wheel is integral with a fixed frame. 17. The regulating device according to claim 1 , wherein the ferromagnetic path is continuous. 18. The regulating device according to claim 1 , wherein the ferromagnetic path is oriented perpendicularly to the axis of revolution of said wheel. 19. The regulating device according to claim 1 , wherein said wheel includes an insulating substrate, and said ferromagnetic path and said non-ferromagnetic, electrically conductive sectors are arranged on at least one face of the insulating substrate. 20. A timepiece movement for a timepiece including a regulating device to regulate a relative angular velocity of a wheel and of at least one magnetic dipole integral with an oscillating device, said wheel or said dipole being driven by a driving torque, said wheel including a periodic, ferromagnetic pole path which alternates according to a center angle and said at least one dipole being arranged to permit magnetic coupling with said ferromagnetic path and oscillation of said dipole at a natural frequency of an oscillating element during a relative motion of the wheel and of the magnetic dipole to regulate said relative angular velocity, wherein said wheel further includes an assembly to dissipate kinetic energy of said at least one dipole when the dipole moves away from said ferromagnetic path, and said assembly include non-ferromagnetic, electrically conductive sectors. 21. A timepiece including a timepiece movement for a timepiece including a regulating device to regulate a relative angular velocity of a wheel and of at least one magnetic dipole integral with an oscillating device, said wheel or said dipole being driven by a driving torque, said wheel including a periodic, ferromagnetic pole path which alternates according to a center angle and said at least one dipole being arranged to permit magnetic coupling with said ferromagnetic path and oscillation of said dipole at a natural frequency of an oscillating element during a relative motion of the wheel and of the magnetic dipole to regulate said relative angular velocity, said device being wherein said wheel further includes an assembly to dissipate kinetic energy of said at least one dipole when the dipole moves away from said ferromagnetic path, and said assembly include non-ferromagnetic, electrically conductive sectors.