Low profile kinetic energy harvester

What is claimed as new and desired to be protected by Letters Patent of the United States is: 1. An energy harvesting device comprising: a core portion having an electrical output and being operable to move from a first disposition to a second disposition; a first magnet disposed to provide first magnetic field lines therethrough in a first direction; and a second magnet disposed to provide second magnetic field lines therethrough in a second direction, wherein said core portion, said first magnet and said second magnet are arranged such that externally applied vibrations in a third direction normal to the first direction cause said core portion to oscillate between the first disposition and the second disposition, wherein when traveling from the second disposition to the first disposition, said electrical output is operable to output a first current so as to have a first polarity based on magnetic field lines from a first portion of the first magnetic field lines and a first portion of the second magnetic field lines, the first portion of the first magnetic field lines being greater than the first portion of the second magnetic field lines, and wherein when traveling from the first disposition to the second disposition, said electrical output is operable to output the first current so as to have a second polarity based on magnetic field lines from a second portion of the first magnetic field lines and a second portion of the second magnetic field lines, the second portion of the first magnetic field lines being less than the second portion of the second magnetic field lines. 2. The energy harvesting device of claim 1 , wherein said core portion comprises: a ferrite core; and a conducting winding wrapped around said ferrite core. 3. The energy harvesting device of claim 2 , wherein said core portion further comprises: a first ferrite arm; and a second ferrite arm, wherein said ferrite core has a first end separated from a second end along a longitudinal axis that is parallel with the first direction, wherein said first ferrite arm is disposed at said first end so as to be perpendicular to the longitudinal axis, and wherein said second ferrite arm is disposed at said second end so as to be perpendicular to the longitudinal axis. 4. The energy harvesting device of claim 3 , wherein said core portion is disposed between said first magnet and said second magnet. 5. The energy harvesting device of claim 4 , wherein said core portion is arranged to be non-centrally disposed between the first disposition and the second disposition in the absence of externally applied vibrations in the third direction normal to the first direction. 6. The energy harvesting device of claim 1 , wherein said core portion is disposed between said first magnet and said second magnet. 7. The energy harvesting device of claim 6 , wherein said core portion is arranged to be non-centrally disposed between the first disposition and the second disposition in the absence of externally applied vibrations in the third direction normal to the first direction. 8. The energy harvesting device of claim 1 , wherein said core portion is arranged to be non-centrally disposed between the first disposition and the second disposition in the absence of externally applied vibrations in the third direction normal to the first direction. 9. A method of harvesting energy, said method comprising: a core portion having an electrical output and being operable to move from a first disposition to a second disposition; a first magnet disposed to provide first magnetic field lines therethrough in a first direction; and a second magnet disposed to provide second magnetic field lines therethrough in a second direction, wherein said core portion, said first magnet and said second magnet are arranged such that externally applied vibrations in a third direction normal to the first direction cause said core portion to oscillate between the first disposition and the second disposition, wherein when traveling from the second disposition to the first disposition, said electrical output is operable to output a first current so as to have a first polarity based on magnetic field lines from a first portion of the first magnetic field lines and a first portion of the second magnetic field lines, the first portion of the first magnetic field lines being greater than the first portion of the second magnetic field lines, and wherein when traveling from the first disposition to the second disposition, said electrical output is operable to output the first current so as to have a second polarity based on magnetic field lines from a second portion of the first magnetic field lines and a second portion of the second magnetic field lines, the second portion of the first magnetic field lines being less than the second portion of the second magnetic field lines. 10. The method of claim 9 , wherein said core portion comprises: a ferrite core; and a conducting wire wrapped around said ferrite core. 11. The method of claim 10 , wherein said core portion further comprises: a first ferrite arm; and a second ferrite arm, wherein said ferrite core has a first end separated from a second end along a longitudinal axis that is parallel with the first direction, wherein said first ferrite arm is disposed at said first end so as to be perpendicular to the longitudinal axis, and wherein said second ferrite arm is disposed at said second end so as to be perpendicular to the longitudinal axis. 12. The method of claim 11 , wherein said core portion is disposed between said first magnet and said second magnet. 13. The method of claim 12 , wherein said core portion is arranged to be non-centrally disposed between the first disposition and the second disposition in the absence of externally applied vibrations in the third direction normal to the first direction. 14. An energy harvesting device for use on a surface operable to apply vibrations in a direction normal to the surface, said energy harvesting device comprising: a housing having a bottom and an output port; and an energy harvesting component disposed on said bottom and within said housing, said energy harvesting component operable to output current to said output port, said energy harvesting component including: a core portion having an electrical output and being operable to move from a first disposition to a second disposition; a first magnet disposed to provide first magnetic field lines therethrough in a first direction; and a second magnet disposed to provide second magnetic field lines therethrough in a second direction, wherein said core portion, said first magnet and said second magnet are arranged such that externally applied vibrations in a third direction normal to the first direction cause said core portion to oscillate between the first disposition and the second disposition, wherein when traveling from the second disposition to the first disposition, said electrical output is operable to output a first current so as to have a first polarity based on magnetic field lines from a first portion of the first magnetic field lines and a first portion of the second magnetic field lines, the first portion of the first magnetic field lines being greater than the first portion of the second magnetic field lines, and wherein when traveling from the first disposition to the second disposition, said electrical output is operable to output the first current so as to have a second polarity based on magnetic field lines from a second portion of the first magnetic field lines and a second portion of the second magnetic field lines, the second p