Method and apparatus to determine a condition of a door

What is claimed is: 1. A lock assembly for a door, comprising: a deadlatch assembly including a first magnetic field sensor and a second magnetic field sensor spaced from the first magnetic field sensor, wherein the deadlatch assembly is configured to move from an extended position to a retracted position along an axis, and wherein the first magnetic field sensor and the second magnetic field sensor are offset from one another along the axis; a controller operatively connected to the first magnetic field sensor and the second magnetic field sensor wherein the controller is configured to execute stored program instructions to: determine a first magnetic field signal strength provided by a magnetic field based on data generated by the first magnetic field sensor; determine a second magnetic field signal strength provided by the magnetic field based on data generated by the second magnetic field sensor; and determine the status of one of the lock assembly or the door based on the first magnetic field signal strength and the second magnetic field strength, wherein the status includes an open position, a close position, and a fault condition; wherein to determine the status of one of the lock assembly of the door based on the first magnetic field signal strength and the second magnetic field strength comprises determining the fault condition when the first magnetic field signal strength exceeds a first threshold value and the second magnetic field strength signal exceeds a second threshold value; and wherein the first magnetic field signal strength is greater than the second magnetic field signal strength when the door is in the closed position and the fault condition is not present. 2. The lock assembly of claim 1 , wherein the deadlatch assembly includes a deadlatch plunger defining a cavity, wherein the first magnetic field sensor and the second magnetic field sensor are located in the cavity. 3. The lock assembly of claim 2 , further comprising a flexible printed circuit board assembly (PCBA); and wherein the first magnetic field sensor and the second magnetic field sensor are located on the flexible PCBA. 4. The lock assembly of claim 3 , further comprising a current measuring circuit board operatively connected to the flexible PCBA. 5. The lock assembly of claim 4 , wherein the deadlatch assembly includes a first part and a second part, wherein the first part and the second part cooperatively define the cavity. 6. The lock assembly of claim 5 , further comprising a wiring harness, wherein the wiring harness is operatively connected to a current measuring circuit board and extends through an aperture defined by one or both of the first part and the second part. 7. The lock assembly of claim 6 , wherein the flexible PCBA is electrically coupled to the current measuring circuit board with an exposed electrical contact configured to make a contact connection with an exposed conductor located on the current measuring circuit board. 8. The lock assembly of claim 7 , further comprising a magnetic field generating device adapted to provide the magnetic field. 9. The lock assembly of claim 6 , wherein the wiring harness includes a retractable coiled wire. 10. The lock assembly of claim 4 , wherein the current measuring circuit board is located in the cavity. 11. The lock assembly of claim 9 , further comprising spring and an arm operatively connected to the deadlatch plunger, wherein the arm extends through the spring. 12. The lock assembly of claim 11 , further comprising a wiring harness, wherein the wiring harness is operatively connected to the current measuring circuit board and extends through the spring. 13. The lock assembly of claim 1 , wherein to determine the status of one of the lock assembly or the door based on the first magnetic field signal strength and the second magnetic field strength comprises: determining the open position when the first magnetic field signal strength falls below the first threshold value and the second magnetic field strength signal falls below the second threshold value; and determining the closed position when the first magnetic field signal strength exceeds the first threshold value and the second magnetic field strength signal falls below the second threshold value. 14. The lock assembly for a door, comprising: a deadlatch assembly including a first magnetic field sensor and a second magnetic field sensor spaced from the first magnetic field sensor, wherein the deadlatch assembly is configured to move from an extended position to a retracted position; a screw assembly configured to retain a key cylinder, wherein the screw assembly includes a screw defining a channel; a flexible printed circuit board assembly (PCBA) located in the channel of the screw, the flexible PCBA including the first magnetic field sensor located at a first position closest to a screw drive of the screw assembly and the second magnetic field sensor located at a second position further from the screw drive than the first magnetic field sensor; and a controller operatively connected to the first magnetic field sensor and the second magnetic field sensor wherein the controller is configured to execute stored program instructions to: determine a first magnetic field signal strength provided by a magnetic field based on data generated by the first magnetic field sensor; determine a second magnetic field signal strength provided by the magnetic field based on data generated by the second magnetic field sensor; and determine the status of one of the lock assembly of the door based on the first magnetic field signal strength and the second magnetic field strength, wherein the status includes an open position, a closed position, and a fault condition. 15. The lock assembly of claim 14 , wherein the screw assembly includes a conductor and a conductor spring located in the channel of the screw, wherein the conductor spring biases the conductor toward the flexible PCBA to provide an electrical contact. 16. The lock assembly of claim 15 , further comprising a current measuring PCBA disposed outside the screw, wherein the conductor provides an electrical connection with the current measuring PCBA. 17. The lock assembly of claim 16 , wherein the conductor includes a first conductor located in the channel of the screw, a second conductor located at least partially external to the screw, and a second conductor spring disposed between the second conductor and the current measuring PCBA configured to make electrical contact with the current measuring PCBA. 18. A method of determining the position of a door with respect to a door frame, the method comprising: moving a first magnetic field sensor and a second magnetic field sensor simultaneously along an axis defined with respect to a plane of the door, wherein the first magnetic field sensor and the second magnetic field sensor are offset from one another along the axis; identifying a first magnetic field with the first magnetic field sensor and identifying a second magnetic field with the second magnetic field sensor; and providing an indicator based on the identified first magnetic field and the identified second magnetic field, wherein the indicator shows one of an open door position and a close door position; wherein the indicator shows the open door position in response to the first magnetic field falling below a first threshold and the second magnetic field falling below a second threshold; wherein the indicator shows the closed door position in response to the first magnetic field exceeding the