Rotation detection for ring-shaped user input member of smart-home device

What is claimed is: 1. A thermostat configured for controlling an HVAC system to condition an environment within a building or structure, the thermostat comprising: a rear member; a front member couplable with the rear member, the front member including a display for displaying information to a user; a rotatable ring operationally coupled with the front member and rotatable relative thereto, the rotatable ring being configured to be rotated by a user to enable the user to provide input to the thermostat; and a rotation detection system that is configured to sense user rotation of the rotatable ring, the rotation detection system comprising: a strip of magnetic material that is coupled with the inner surface of the rotatable ring so as to wrap circumferentially around the inner periphery of the rotatable ring, the strip of magnetic material being magnetized so as to have a plurality of alternating north and south magnetic regions; a sensor that is positioned adjacent the strip of magnetic material, the sensor being configured to detect polarity changes in the strip of magnetic material as the strip of magnetic material is rotated relative to the sensor; and a processor that is communicatively coupled with the sensor and configured to determine rotation of the rotatable ring based on polarity change input received from the sensor; wherein the strip of magnetic material is coupled with the inner surface of the rotatable ring such that a gap exists between opposing ends of the strip of magnetic material. 2. The thermostat of claim 1 , wherein the opposing ends of the strip of magnetic material are angled so that the gap between the opposing ends is also angled. 3. The thermostat of claim 2 , wherein the opposing ends have the same polarity and one of the opposing ends has a surface area that is greater than ½ of a surface area of a centrally positioned magnetic region. 4. The thermostat of claim 1 , wherein the sensor is coupled with a circuit board of the thermostat, the sensor being positioned on a portion of the circuit board that radially extends toward the strip of magnetic material. 5. The thermostat of claim 1 , wherein the rotatable ring includes a recessed portion on the inner surface of the rotatable ring, the strip of magnetic material being disposed in the recessed portion. 6. A smart home device comprising: a main body having an interior region that houses a plurality of internal components; a rotatable input component that is rotatably coupled with the main body so as to be rotatable relative thereto, the rotatable input component being configured to be rotated by a user to enable the user to provide input to the smart home device; and a rotation detection system that is configured to sense user rotation of the rotatable input component, the rotation detection system comprising: a magnetic component that is positioned on an inner surface of the rotatable input component, the magnetic component being magnetized so as to have a plurality of alternating north and south magnetic regions; and a sensor that is positioned within the interior region of the main body so as to be adjacent the magnetic component, the sensor being configured to detect polarity changes as the rotatable input component and magnetic component are rotated relative to the sensor such that the rotation of the rotatable input component is determinable based on the sensor sensing polarity changes due to relative movement of the magnetic component; wherein the magnetic component is positioned on the inner surface of the rotatable input component so as to extend circumferentially around the inner surface of the rotatable input component with a gap between opposing ends of the magnetic component such that the magnetic component does not extend fully around the inner surface of the rotatable input component. 7. The smart home device of claim 6 , further comprising a processing unit that is positioned within the interior region of the main body and communicatively coupled with the sensor, the processing unit being configured to determine a rotation of the rotatable input component based on the polarity change sensed by the sensor. 8. The smart home device of claim 6 , wherein the opposing ends of the magnetic component are angled so that the gap between the opposing ends is also angled. 9. The smart home device of claim 6 , wherein each of the alternating north and south magnetic regions between the opposing ends has a roughly equivalent surface area, and wherein a surface area of one of the opposing ends is greater than ½ the surface area of a centrally positioned magnetic region. 10. The smart home device of claim 6 , wherein the rotatable input component includes a recessed portion on its inner surface, and wherein the magnetic component is disposed within the recessed portion of the magnetic component. 11. The smart home device of claim 6 , wherein the rotatable input component is coupled with the main body so as to define an outer periphery of the smart home device. 12. The smart home devices of claim 6 , wherein the smart home device comprises a thermostat. 13. A method of sensing rotation of a rotatable input component of a smart home device comprising: providing a smart home device that includes: a main body having an interior region that houses a plurality of internal components including a sensor and a processor; and a rotatable input component that is rotatably coupled with the main body so as to be rotatable relative thereto, the rotatable input component including a magnetic component that is positioned on an inner surface of the rotatable input component, the magnetic component being magnetized so as to have a plurality of alternating north and south magnetic regions; detecting, via the sensor, a polarity change as the rotatable input component and magnetic component are rotated relative to the sensor; and determining, via the processor, rotation of the rotatable input component based on polarity change input received from the sensor; wherein the magnetic component is positioned on the inner surface of the rotatable input component so as to extend circumferentially around the inner surface of the rotatable input component with a gap between opposing ends of the magnetic component such that the magnetic component does not extend fully around the inner surface of the rotatable input component. 14. The method of claim 13 , wherein the opposing ends of the magnetic component are angled so that the gap between the opposing ends is also angled. 15. The method of claim 13 , wherein the rotatable input component includes a recessed portion on its inner surface, and wherein the magnetic component is disposed within the recessed portion of the rotatable input component. 16. The method of claim 13 , wherein the rotatable input component is coupled with the main body so as to define an outer periphery of the smart home device. 17. The method of claim 16 , wherein the smart home device comprises a thermostat.