Method and apparatus for deadbolt position sensing

What is claimed is: 1. A deadbolt assembly, comprising: a deadbolt housing; a deadbolt slidingly engaged within the deadbolt housing; a final gear having a first magnet and a second magnet attached thereto; a primary sensor operable to sense a magnetic flux of the first magnet and the second magnet; wherein the first magnet indicates a home position for a right handed deadbolt, and wherein the second magnet indicates a home position for a left handed deadbolt; and a switch configured to determine whether the deadbolt is extended or retracted. 2. The deadbolt assembly of claim 1 , wherein the first magnet is fixed to the final gear at a first polarity, and wherein the second magnet is fixed to the final gear with a second polarity opposite the first polarity. 3. The deadbolt assembly of claim 1 , further comprising an electric motor operable to rotate the final gear about an axis of rotation. 4. The deadbolt assembly of claim 3 , further comprising a plurality of gears operably coupled between the electric motor and the final gear to rotate the final gear about the axis of rotation. 5. The deadbolt assembly of claim 1 , further comprising an output shaft connected between the final gear and the deadbolt. 6. The deadbolt assembly of claim 5 , further comprising a cam coupled to the output shaft. 7. The deadbolt assembly of claim 6 , wherein the cam includes cam profile engageable with the switch. 8. The deadbolt assembly of claim 7 , wherein the cam profile includes: a first portion indicating the deadbolt is positioned in an unlocked or retracted position; a second portion indicating the deadbolt is positioned in a locked or extended right hand position; and a third portion indicating the deadbolt is positioned in a locked or extended left hand position. 9. The deadbolt assembly of claim 7 , further comprising a pivot finger extending from the switch, the pivot finger constructed to engage with the cam profile at predetermined locations, wherein the pivot finger pivots counter clockwise when the deadbolt is extended in a right hand configuration, and wherein the pivot finger pivots clockwise when the deadbolt is extended in a left hand configuration. 10. The deadbolt assembly of claim 1 , further comprising a control processor in electrical communication with the switch. 11. The deadbolt assembly of claim 1 , further comprising a secondary sensor operable to detect a tampering magnetic source. 12. The deadbolt assembly of claim 11 , wherein the primary sensor and the secondary sensor are Hall effect sensors. 13. A method, comprising: transmitting a lock command or an unlock command to an electric motor from a controller; rotating a final gear with an electric motor until a deadbolt operably connected thereto has reached a maximum travel based on a threshold motor current; rotating the final gear in a reverse direction until a home position is reached by the final gear, wherein the home position is defined by aligning a home magnet on the final gear with a primary magnetic sensor, wherein the home magnet comprises one of a first magnet and a second magnet, the first magnet indicating the home position for a right handed deadbolt when aligned with the primary magnetic sensor, and the second magnet indicating the home position for a left handed deadbolt when aligned with the primary magnetic sensor; and disengaging a thumb-turn shaft from the final gear when the final gear is rotated to the home position; and manually actuating a thumb-turn to lock or unlock the deadbolt after return to the home position. 14. A method, comprising: transmitting a lock command or an unlock command to an electric motor from a controller; rotating a final gear with an electric motor until a deadbolt operably connected thereto has reached a maximum travel based on a threshold motor current; rotating the final gear in a reverse direction until a home position is reached by the final gear, wherein the home position is defined by aligning a home magnet on the final gear with a primary magnetic sensor; disengaging a thumb-turn shaft from the final gear when the final gear is rotated to the home position; manually actuating a thumb-turn to lock or unlock the deadbolt after return to the home position; and determining whether the deadbolt is extended or retracted based on a pivot angle of a pivot finger extending from a switch. 15. The method of claim 14 , further comprising engaging the pivot finger with a cam associated with an output shaft. 16. The method of claim 13 , further comprising sensing a presence of an external tamper magnet and preventing the deadbolt from unlocking after sensing the external tamper magnet. 17. The method of claim 16 , further comprising sending command signals to the controller through hard wired and/or wireless devices. 18. A method for calibrating an electronic deadbolt assembly, the method comprising: orienting a first magnet on a final gear with either a positive pole or a negative pole facing a primary magnetic sensor; orienting a second magnet on the final gear with an opposite facing pole to that of the first magnet; running a motor in one direction until an end of travel signal is received by a controller, the end of travel signal corresponding to a first threshold motor current; verifying whether the deadbolt is extended or retracted based on a position of a switch relative to a cam on an output shaft; running the motor in an opposite direction until a second end of travel signal is received by the controller, the second end of travel signal corresponding to a second threshold motor current; verifying that the deadbolt is in an opposite state to that of the previous deadbolt position based on the position of the switch; storing the polarity of the first magnet and the second magnet during each of the verifying steps; identifying which of the first magnet and the second magnet is the home magnet; and determining whether the deadbolt is extended or retracted based on a pivot direction of a pivot finger and the current transmitted from the electric motor. 19. An electronic deadbolt sensing system, comprising: a deadbolt configured to extend or retract between a locked position and an unlocked position, respectively; an output shaft connected between a final gear and the deadbolt; a first magnet and a second magnet connected to the final gear; a cam positioned on the output shaft; a switch engageable with the cam; an electric motor operable for rotating the final gear; a primary magnetic sensor configured to sense a location of each of the first magnet and the second magnet during rotation of the final gear; and an electronic controller in electrical communication with the primary magnetic sensor, the switch and the electric motor. 20. The electronic deadbolt sensing system of claim 19 , wherein the first magnet and the second magnet are oriented with opposite polarities facing the primary magnetic sensor. 21. The electronic deadbolt sensing system of claim 19 , wherein the first magnet and the second magnet are positioned on the final gear so as to indicate a home position for either a left hand deadbolt or a right hand deadbolt. 22. The electronic deadbolt sensing system of claim 21 , wherein the output shaft is free to rotate via a thumb-turn when the final gear is in the home position. 23. The electronic deadbolt sensing system of claim 19 , further comprising a secondary magnetic sensor configured