Earbud insertion sensing method with infrared technology

What is claimed is: 1. An earbud comprising: a concha portion; a canal portion; a first infrared light transmitter disposed within a channel of the canal portion; a second infrared light transmitter disposed in the concha portion; an infrared light detector disposed in the concha portion; and a controller configured to cause the first infrared light transmitter to transmit pulses of infrared light in a first pattern, to cause the second infrared light transmitter to transmit pulses of infrared light in a second pattern different from the first pattern, and to provide an indication of insertion of the earbud into an ear of a user responsive to the pulses of infrared light having the first pattern ceasing to be detected by the infrared light detector and the pulses of infrared light having the second pattern being detected by the infrared light detector. 2. The earbud of claim 1 , wherein the controller is further configured to cause the infrared light detector to differentiate between the pulses of infrared light transmitted from the first infrared light transmitter and the pulses of infrared light transmitted from the second infrared light transmitter. 3. The earbud of claim 2 , wherein the first pattern and the second pattern comprise signals having frequencies outside of a band of frequencies between about 30 KHz and about 60 KHz. 4. The earbud of claim 1 , wherein the controller is configured to provide the indication of insertion of the earbud into the ear of the user responsive to the pulses of infrared light transmitted by the first infrared light transmitter ceasing to be detected by the infrared light detector subsequent to the pulses of infrared light transmitted by the first infrared light transmitter being detected by the infrared light detector, and a strength of the pulses of infrared light transmitted by the second infrared light transmitter detected by the infrared detector increasing contemporaneous with or subsequent to the pulses of infrared light transmitted by the first infrared light transmitter ceasing to be detected by the infrared light detector. 5. The earbud of claim 1 , wherein the controller is further configured to cause the earbud to transition from an active state to an inactive state responsive to the controller failing to provide the indication of insertion of the earbud into the ear of the user after a set time after the earbud is placed into the active state. 6. The earbud of claim 1 , wherein the controller is further configured to cause the earbud to transition from an active state to an inactive state responsive to the controller ceasing to provide the indication of insertion of the earbud into the ear of the user. 7. The earbud of claim 1 , wherein the controller is further configured to cause an outwardly facing infrared light transmitter of the earbud to emit a locating signal responsive to the controller receiving a location query from an external device. 8. The earbud of claim 1 , wherein the controller is further configured to cause the earbud to provide an audible indication of insertion of the earbud in the ear of the user responsive to the controller providing the indication of insertion of the earbud into the ear of the within a set time after the earbud is placed into an active state. 9. The earbud of claim 1 , wherein the controller is further configured to cause the earbud to provide an audible indication of improper insertion of the earbud in the ear of the user responsive to the controller failing to provide the indication of insertion of the earbud into the ear of the user after a set time after the earbud is placed into an active state. 10. A method of reducing power consumption of an earbud, the method comprising: determining whether the earbud is inserted into the ear of a user by monitoring a pattern of signals between a first infrared light transmitter disposed within a channel of a canal portion of the earbud, a second infrared light transmitter disposed in a concha portion of the earbud, and an infrared light detector disposed in the concha portion of the earbud, the first infrared light transmitter transmitting a first infrared light signal having a first pattern, the second infrared light transmitter transmitting a second infrared light signal having a second pattern different from the first pattern; and causing the earbud to transition from an active state to an inactive state responsive to determining that the earbud is not inserted in the ear of the user for more than a threshold amount of time. 11. The method of claim 10 , further comprising the detector differentiating between the first infrared light signal transmitted from the first infrared light transmitter and the second infrared light signal transmitted from the second infrared light transmitter. 12. The method of claim 10 , comprising transmitting the first infrared signal from the first infrared light transmitter with a first specific pulse frequency and transmitting the second infrared signal from the second infrared light transmitter with a second specific pulse frequency. 13. The method of claim 10 , further comprising determining that the earbud is inserted into the ear of the user responsive to the first infrared light signal from the first infrared light transmitter ceasing to be detected by the infrared light detector subsequent to the first infrared light signal from the first infrared light transmitter being detected by the infrared light detector. 14. The method of claim 10 , further comprising determining that the earbud is inserted into the ear of the user responsive to the first infrared light signal from the first infrared light transmitter ceasing to be detected by the infrared light detector subsequent to the first infrared light signal from the first infrared light transmitter being detected by the infrared light detector, and a strength of the second infrared light signal from the second infrared light transmitter detected by the infrared light detector increasing contemporaneous with or subsequent to the first infrared light signal from the first infrared light transmitter ceasing to be detected by the infrared light detector. 15. The method of claim 10 , further comprising emitting a locating signal from an outwardly facing infrared light transmitter disposed on the earbud responsive to the earbud receiving a location query from an external device. 16. The method of claim 10 , further comprising causing the earbud to transition from the active to the inactive state responsive to failing to determine that the earbud is inserted into the ear of the user after a set time after the earbud is placed into the active state. 17. The method of claim 10 , further comprising causing the earbud to transition from the active to the inactive state responsive to determining that the earbud has transitioned from a state in which the earbud is inserted into the ear of the user to a state in which the earbud is not inserted into the ear of the user. 18. The method of claim 10 , further comprising communicating a signal between the earbud and an external device and, responsive to receiving the signal, one of handing off rendering of audio content from the earbud to the external device or handing off rendering of audio content from the external device to the earbud. 19. A method of detecting insertion of an earbud into an ear of a user, the method comprising: detecting a first infrared light signal transmitted from a first transmitter disposed in a channel of a canal portion of the earbud at an infrared detector disposed i