Motorized tape measure

What is claimed is: 1. A tape measure comprising: a housing; a tape reel rotatably mounted within the housing; a rotational axis defined by the tape reel around which the tape reel rotates; an elongate tape blade wound around the tape reel; a spiral spring coupled to the tape reel, wherein when the elongate tape blade is unwound from the tape reel to extend from the housing the spiral spring stores energy, wherein the spiral spring releasing energy drives rewinding of the elongate tape blade on to the tape reel, and wherein the spiral spring is made of a first material that is electrically-conductive; a detector made of a second material that is electrically-conductive; and a sensor that measures a capacitance of the detector. 2. The tape measure of claim 1 , wherein the sensor generates a first signal as a result of measuring the capacitance of the detector, wherein the first signal indicates a configuration of the spiral spring. 3. The tape measure of claim 1 , wherein the detector is a first detector and the sensor performs a first measurement of the capacitance of the first detector, the tape measure further comprising a second detector, the sensor performs a second measurement of the capacitance of the second detector. 4. The tape measure of claim 3 , wherein the sensor generates a first signal based on the first measurement of the capacitance of the first detector and the second measurement of the capacitance of the second detector, wherein the first signal indicates a configuration of the spiral spring. 5. The tape measure of claim 3 , wherein the first detector circumferentially extends around the rotational axis and the second detector circumferentially extends around the rotational axis. 6. The tape measure of claim 1 , wherein the detector is a first detector and the sensor performs a first measurement of the capacitance of the first detector, the tape measure further comprising a second detector and a third detector, the sensor performs a second measurement of a capacitance of the second detector and a third measurement of a capacitance of the third detector, and wherein the first detector, the second detector, and the third detector are concentrically arranged around the rotational axis. 7. The tape measure of claim 1 , wherein the detector is a first detector and the sensor performs a first measurement of the capacitance of the first detector, the tape measure further comprising a second detector, the sensor performs a second measurement of a capacitance of the second detector, wherein the sensor generates a signal based on a comparison of the first measurement and the second measurement. 8. The tape measure of claim 1 , the tape measure further comprises a motor that adjusts an amount of tension in the spiral spring in response to receiving the first signal. 9. A tape measure comprising: a housing; a tape reel rotatably mounted within the housing; a rotational axis defined by the tape reel around which the tape reel rotates; an elongate tape blade wound around the tape reel; a spiral spring located within the housing, wherein when the elongate tape blade is unwound from the tape reel to extend from the housing the spiral spring stores energy, wherein the spiral spring releasing energy drives rewinding of the elongate tape blade on to the tape reel, and wherein the spiral spring is made of a first material that is electrically-conductive; a magnet that emits a magnetic field; and a detector that measures a change in the magnetic field caused by a repositioning of the spiral spring in response to a portion of the tape blade being extended from or retrieved into the housing. 10. The tape measure of claim 9 , wherein the detector generates a first signal as a result of measuring the change in the magnetic field, and wherein the first signal indicates a configuration of the spiral spring. 11. The tape measure of claim 9 , wherein the magnet is a first magnet and the detector is a first detector, the tape measure comprising: a plurality of magnets including the first magnet; and a plurality of detector including the first detector, each of the plurality of detector measuring one or more changes to one or more magnetic fields emitted by the plurality of magnets. 12. The tape measure of claim 11 , wherein the plurality of magnets are arranged at a plurality of radii with respect to the rotational axis. 13. The tape measure of claim 11 , wherein the plurality of detectors are arranged at a plurality of radii with respect to the rotational axis. 14. The tape measure of claim 11 , wherein each of the plurality of detectors are arranged proximate one of the plurality of magnets. 15. A tape measure comprising: a housing defining an interior surface; a tape reel rotatably mounted within the housing; a rotational axis defined by the tape reel around which the tape reel rotates; an elongate tape blade wound around the tape reel; a spiral spring located within the housing, wherein when the elongate tape blade is unwound from the tape reel to extend from the housing the spiral spring stores energy, wherein the spiral spring releasing energy drives rewinding of the elongate tape blade on to the tape reel; an axle rotatably mounted within the housing, the axle defining a first end and an opposing second end; a motor shaft rotatably mounted within the housing, the motor shaft defining a first end and an opposing second end, wherein the first end of the motor shaft interfaces with the first end of the axle; and a sensor that measures a position of the second end of the motor shaft. 16. The tape measure of claim 15 , further comprising: a length defined between the second end of the motor shaft and the interior surface of the housing; wherein the sensor measures the position of the second end of the motor shaft by measuring the length. 17. The tape measure of claim 15 , wherein the length varies as a result of the interface between the first end of the motor shaft and the first end of the axle. 18. The tape measure of claim 15 , further comprising a spring that extends between the second end of the motor shaft and the interior surface of the housing, wherein the spring exerts a biasing force on the motor shaft that pushes it towards the axle. 19. The tape measure of claim 15 , wherein the sensor generates a first signal as a result of measuring the position of the second end of the motor shaft, wherein the first signal indicates a configuration of the spiral spring. 20. The tape measure of claim 19 , the tape measure further comprises a motor that adjusts an amount of tension in the spiral spring in response to receiving the first signal.