Detecting unintentional motor motion and infusion device incorporating same

What is claimed is: 1. A system comprising: a motor; a sensing arrangement coupled to the motor to provide output indicative of a detected characteristic of the motor when the sensing arrangement is enabled; and a module coupled to the sensing arrangement to: periodically enable the sensing arrangement to consume current while the motor is idle and disable the sensing arrangement after each enabling; and detect potential unintended motion of the motor based on the output from the sensing arrangement while periodically enabling the sensing arrangement. 2. The system of claim 1 , wherein: the motor includes a rotor; the sensing arrangement includes one or more sensors to detect a characteristic of the rotor; and the module detects potential unintended rotation of the rotor based on outputs from the one or more sensors while periodically enabling the sensing arrangement. 3. The system of claim 2 , wherein: the motor includes a magnet coupled to the rotor; and the one or more sensors detect a magnetic field of the magnet. 4. The system of claim 3 , wherein the module detects the potential unintended rotation of the rotor by: obtaining an initial sensor output state from the one or more sensors in response to initially enabling the sensing arrangement while the motor is idle; and determining a difference between a subsequent sensor output state from the one or more sensors and the initial sensor output state is not indicative of alignment of a boundary of the magnetic field of the magnet with a first sensor of the one or more sensors. 5. The system of claim 1 , wherein the module continuously enables the sensing arrangement for a finite duration in response to detecting the potential unintended motion, determines whether the potential unintended motion exceeds a threshold based on the output from the sensing arrangement while continuously enabling the sensing arrangement, and initiates a remedial action in response to determining the potential unintended motion exceeds the threshold. 6. The system of claim 5 , wherein the module determines a number of unintended rotations of a rotor of the motor while the sensing arrangement is continuously enabled and determines the potential unintended motion exceeds the threshold when the number of unintended rotations exceeds a threshold number. 7. The system of claim 5 , wherein the module determines a rotational displacement of a rotor of the motor while the sensing arrangement is continuously enabled and determines the potential unintended motion exceeds the threshold when a magnitude of the rotational displacement exceeds a threshold value. 8. The system of claim 5 , wherein the module determines a number of sudden rotations of a rotor of the motor while the sensing arrangement is continuously enabled and initiates the remedial action when the number of sudden rotations exceeds a threshold number. 9. The system of claim 1 , further comprising an energy source coupled to the sensing arrangement, wherein: the sensing arrangement consumes current from the energy source when the sensing arrangement is enabled; and the sensing arrangement is disabled prior to periodically enabling the sensing arrangement. 10. The system of claim 9 , further comprising a motor driver module coupled between the energy source and the motor to provide current from the energy source to the motor to operate the motor, wherein the module determines the motor driver module is idle prior to periodically enabling the sensing arrangement. 11. The system of claim 1 , wherein the module detects the potential unintended motion by: obtaining a reference output state from the sensing arrangement in response to periodically enabling the sensing arrangement; and identifying the potential unintended motion when a difference between the reference output state and a subsequent output state from the sensing arrangement while periodically enabling the sensing arrangement is not attributable to a boundary error. 12. The system of claim 1 , wherein: the motor includes stator windings and a magnet coupled to the rotor; and the detected characteristic comprises a magnetic field of the magnet; current does not flow through the stator windings of the motor when the motor is idle; and the sensing arrangement does not consume current while disabled. 13. A method of detecting potential unintended motion of a motor, the method comprising: periodically enabling a sensing arrangement while the motor is idle, the sensing arrangement providing output indicative of a detected characteristic of the motor when the sensing arrangement is enabled, wherein periodically enabling the sensing arrangement comprises: enabling the sensing arrangement to consume current on a periodic basis; and disabling the sensing arrangement after each enabling; and detecting the potential unintended motion based on outputs from the sensing arrangement when periodically enabling the sensing arrangement. 14. The method of claim 13 , the motor including a rotor, the sensing arrangement including one or more sensors to provide the output indicative of the detected characteristic of the rotor, wherein detecting the potential unintended motion comprises detecting unintended rotation of the rotor while the motor is idle based on the outputs from the one or more sensors. 15. The method of claim 14 , further comprising: obtaining one or more reference sensor output states from the one or more sensors in response to the periodic enabling; and detecting the potential unintended motion when a difference between a subsequent sensor output state from the one or more sensors during the periodic enabling is not equal to the one or more reference sensor output states. 16. The method of claim 15 , wherein obtaining the one or more reference sensor output states comprises: identifying an initial sensor output state from the one or more sensors as a first reference sensor output state of the one or more reference sensor output states; and when a difference between a second sensor output state from the one or more sensors and the first reference sensor output state corresponds to an incremental rotation of the rotor, identifying the second sensor output state as a second reference sensor output state of the one or more reference sensor output states. 17. The method of claim 16 , further comprising obtaining the subsequent sensor output state from the one or more sensors after identifying the second sensor output state as the second reference sensor output state. 18. The method of claim 13 , further comprising: continuously enabling the sensing arrangement for a finite duration while the motor is idle in response to detecting the potential unintended motion; and initiating a remedial action based on outputs from the sensing arrangement while continuously enabling the sensing arrangement. 19. The method of claim 18 , further comprising: determining whether the potential unintended motion is greater than a threshold based on outputs from the sensing arrangement when continuously enabling the sensing arrangement; and adjusting subsequent operation of the motor to compensate for the potential unintended motion when the potential unintended motion is less than the threshold, wherein initiating the remedial action comprises initiating the remedial action in response to determining the potential unintended motion is greater than the threshold. 20. An infusion device comprising the system of claim 1 , wherein: the motor includes a rotor having