Sensorless electric machine

What is claimed is: 1. A rotor component comprising: a rotor core including a plurality of rotor core laminations with a plurality of openings; a permanent magnet disposed in each of the plurality of openings in such a way so as to define a remaining opening at each end of the permanent magnet; and at least two rotor bars inserted into the remaining opening of at each end of the permanent magnet and connected at each end by a connection element so as to define a conductive loop, wherein at least one rotor bar from adjacent conductive loops are co-located in the same opening of the plurality of openings so as to define a shifted-cage configuration. 2. An electric machine comprising: a rotor core comprising magnetic steel and including a plurality of rotor core laminations with a plurality of openings; a stator configured with a plurality of stationary windings therein; a permanent magnet disposed in each of the plurality of openings in such a way so as to define a remaining opening at each end of the permanent magnet; a rotatable shaft inserted through the rotor core; and a rotor circuit including a plurality of rotor connectors inserted into the remaining opening of at each end of the permanent magnet and connected by a plurality of connection elements and configured to introduce saliency based on an orientation of a portion of the rotor circuit in relationship to a pole location of the electric machine, said rotor circuit made of a conductive, non-magnetic material, wherein a midpoint of the rotor circuit substantially aligns with a d-axis of the electric machine. 3. The electric machine of claim 2 , wherein the plurality of permanent magnets are disposed in a plurality of rows. 4. The electric machine of claim 2 , wherein the electric machine is one of an interior permanent magnet (IPM) machine, a permanent magnet (PM) assisted synchronous reluctance machine (SRM), an induction machine, and a SRM. 5. The electric machine of claim 4 , the IPM machine comprising one of a single layer IPM, a multi-layer IPM, and a spoke-type IPM. 6. The electric machine of claim 2 , wherein the electric machine comprises a traction motor. 7. The electric machine of claim 2 , wherein the rotor circuit comprises a plurality of rotor conductors connected to a plurality of connection elements. 8. The electric machine of claim 2 , wherein at least one of the plurality of rotor conductors comprise one of a rotor bar, a multi-stranded bar, a multi-stranded wire, and a litz wire. 9. The electric machine of claim 2 , wherein a cross-sectional shape of the plurality of rotor conductors is contoured to fit a shape of the plurality of openings. 10. The electric machine of claim 2 , wherein the rotor circuit defines a configuration of at least one of a loop, a shifted loop, a cage, a shifted cage, and combinations thereof. 11. The electric machine of claim 2 , the rotor circuit comprising at least one pole circuit. 12. The electric machine of claim 11 , wherein the at least one pole circuit comprises a plurality of pole circuits. 13. The electric machine of claim 11 , wherein a quantity of the at least one pole circuit equals a quantity of poles. 14. The electric machine of claim 11 , wherein a quantity of the at least one pole circuit is less than a quantity of poles. 15. The electric machine of claim 14 , wherein a quantity of the at least one pole circuit is half the quantity of poles. 16. The electric machine of claim 2 , the rotor core further comprising a plurality of laminations. 17. The electric machine of claim 16 , the plurality of openings disposed through the plurality of laminations. 18. The electric machine of claim 2 , wherein the rotor circuit comprises a plurality of loops, wherein the plurality of loops are concentric. 19. A vehicle comprising at least one electric machine of claim 2 thereon, said electric machine configured as a traction motor; and a vehicle support frame connected to said electric machine. 20. The vehicle of claim 19 , wherein the vehicle comprises one of an off-highway vehicle (OHV), a locomotive, a mining vehicle, and an electric-motorized railcar. 21. An electric machine comprising: a rotor core including a plurality of rotor core laminations with a plurality of openings; a stator configured with a plurality of stationary windings therein; a permanent magnet disposed in each of the plurality of openings in such a way so as to define a remaining opening at each end of the permanent magnet; a rotatable shaft inserted through the rotor core; and a rotor circuit structure comprising at least one pole circuit defined by a plurality of rotor connectors inserted into the remaining opening of at each end of the permanent magnet and connected by a plurality of connection elements and extending from about a q-axis to about a d-axis of the electric machine. 22. An electric machine comprising: a rotor core including a plurality of rotor core laminations with a plurality of openings; a stator configured with a plurality of stationary windings therein; a permanent magnet disposed in each of the plurality of openings in such a way so as to define a remaining opening at each end of the permanent magnet; a rotatable shaft inserted through the rotor core; and a rotor circuit structure comprising at least one loop or ring of a conductive, non-magnetic material, wherein said at least one loop or ring is substantially concentric about a d-axis of the electric machine and defined by a plurality of rotor connectors inserted into the remaining opening of at each end of the permanent magnet and connected by a plurality of connection elements. 23. An interior permanent magnet (IPM) machine comprising: a rotor core including a plurality of rotor core laminations with a plurality of openings; a permanent magnet disposed in each of the plurality of openings in such a way so as to define a remaining opening at each end of the permanent magnet; a rotatable shaft inserted through the rotor core; and a rotor circuit configured for use with one of the interior permanent magnet (IPM) machine, the rotor circuit comprising at least one pole circuit defined by a plurality of rotor connectors inserted into the remaining opening of at each end of the permanent magnet and connected by a plurality of connection elements, wherein a midpoint of the rotor circuit substantially aligns with a d-axis of the electric machine.