Starter system

The invention claimed is: 1. A starter system comprising: a starter configured and arranged to be controlled by an electronic control unit, the starter further comprising: a motor coupled to a circuit; a primary plunger moveably coupled to a pinion; a first solenoid assembly comprising a plunger-return biasing member and at least two solenoid windings including a first set of solenoid windings and a second set of solenoid windings; the at least two solenoid windings at least partially circumscribing the primary plunger and configured and arranged to electromagnetically couple with and move the primary plunger to a position and to substantially retain the primary plunger in a position; a secondary solenoid assembly comprising a third set of solenoid windings at least partially circumscribing a secondary plunger, the secondary plunger being configured and arranged to electrically couple with a set of secondary solenoid assembly contacts; and at least two power isolation switches configured and arranged to be controlled by the electronic control unit, the at least two power isolation switches comprising a first switch configured and arranged to enable current to flow through the first set of solenoid windings and a second switch configured and arranged to be operated independently from the first switch to enable current to flow through the second set of solenoid windings and the third set of solenoid windings; and wherein current can flow through the second set of solenoid windings and the third set of solenoid windings irrespective of the position of the primary plunger. 2. The starter system of claim 1 , wherein the resistance of the second set of solenoid windings is greater than the resistance of the first set of solenoid windings. 3. The starter system of claim 2 , wherein a coupling of the secondary plunger and the set of secondary solenoid assembly contacts enables at least a portion of the circuit to enable current to flow to the motor. 4. The starter system of claim 2 , wherein the secondary solenoid assembly is configured and arranged to be in communication with the electronic control unit. 5. The starter system of claim 1 , wherein the first solenoid assembly is configured and arranged to be in communication with the electronic control unit. 6. The starter system of claim 1 , wherein the circuit further comprises at least one pin coupled to the circuit, the at least one pin configured and arranged to receive a signal from the electronic control unit. 7. The starter of control system of claim 6 , wherein the at least one pin is coupled to the motor. 8. The starter control system of claim 1 , wherein the at least two power isolation switches comprise magnetic switches. 9. The starter system of claim 6 , wherein the at least one pin comprises a first pin and a second pin, wherein the first pin is coupled to the first solenoid assembly and the second pin is coupled to the secondary solenoid assembly. 10. The starter system of claim 9 , wherein the first pin and the second pin are configured and arranged so that the flow of current through the first pin is independent of the flow of current through the second pin and the flow of current through the second pin is independent of the flow of current through the first pin. 11. The starter system of claim 1 , wherein the first set of solenoid windings is configured and arranged to move the primary plunger to a position and the second set of solenoid windings is configured and arranged to substantially retain the primary plunger in the position. 12. The starter system of claim 11 , wherein the second set of solenoid windings is further configured and arranged to move the primary plunger to the position. 13. A starter system comprising: a starter configured and arranged to be controlled by an electronic control unit, the starter further comprising: a motor coupled to a circuit; a primary plunger configured and arranged to be controlled by the electronic control unit and moveably coupled to a pinion; wherein, in response to a signal from the electronic control unit, the primary plunger can be actuated to engage the pinion with a ring gear while the ring gear is coasting; a first solenoid assembly comprising a plunger-return biasing member and at least two solenoid windings including a first set of solenoid windings and a second set of solenoid windings; the at least two solenoid windings at least partially circumscribing the primary plunger and configured and arranged to electromagnetically couple with and move the primary plunger to a position and to substantially retain the primary plunger in a position; a secondary solenoid assembly comprising a third set of solenoid windings at least partially circumscribing a secondary plunger, the secondary plunger being configured and arranged to electrically couple with a set of secondary solenoid assembly contacts; and wherein the electronic control unit is configured and arranged to enable current to flow through the second set of solenoid windings and the third set of solenoid; and wherein the electronic control unit is further configured and arranged to enable current to flow to the first set of solenoid windings independently from the current flow through the second set of solenoid windings and the third set of solenoid windings wherein the current flowing through the second set of solenoid windings and the third set of solenoid windings can occur irrespective of the position of the primary plunger. 14. The starter system of claim 13 , wherein the third set of solenoid windings is configured and arranged to move the secondary plunger to couple with the set of secondary solenoid assembly contacts causing at least a portion of a current to flow to the motor. 15. The starter system of claim 13 , wherein the first set of solenoid windings is configured to move the primary plunger to the position and the second set of solenoid windings is configured to substantially retain the primary plunger in the position. 16. The starter system of claim 13 , further comprising at least two power isolation switches configured and arranged to be controlled by the electronic control unit, the at least two power isolation switches comprising a first switch configured and arranged to enable current to flow through the first set of solenoid windings and a second switch configured and arranged to be operated independently from the first switch to enable current to flow through the second set of solenoid windings and the third set of solenoid windings; and wherein current can flow through the second set of solenoid windings and the third set of solenoid windings irrespective of the position of the primary plunger. 17. The starter system of claim 16 , wherein the electronic control unit is configured and arranged to substantially simultaneously activate the second power isolation switch to enable current flow through the second set of solenoid windings and the third set of solenoid windings and deactivate the first power isolation switch to disable current flow through the first set of solenoid windings. 18. The starter system of claim 17 , wherein the electronic control unit is configured and arranged to activate the second power isolation switch to enable current flow through the second set of solenoid windings and the third set of solenoid windings before the deactivating the first power isolation switch to disable current flow through the first set of solenoid windings. 19. The starter system of claim 16 , wherein the electronic control unit is configure