Ear presence detection in noise cancelling earphones

What is claimed is: 1. Earphones, comprising: speakers; noise cancellation circuitry; ear presence sensor structures, wherein the ear presence sensor structures comprise light-based sensor structures having at least one light source that emits infrared light and at least one light detector that detects the infrared light emitted by the at least one light source; control circuitry configured to gather information from the ear presence sensor structures indicating whether the speakers are present at the ears of a user and configured to adjust the noise cancellation circuitry in response to the information from the ear presence sensor structures; housing structures in which the speakers are mounted, wherein at least one light-based sensor structure is mounted in the housing structures; and a headband that connects the housing structures, wherein at least one light-based sensor structure is mounted in the headband, and wherein the control circuitry adjusts the noise cancellation circuitry in response to the information from the light-based sensor structures in the housing structures and the light-based sensor structures in the headband. 2. The earphones defined in claim 1 further comprising a battery, wherein the control circuitry is configured to adjust the noise cancellation circuitry to reduce power consumption of the battery. 3. A method for operating a pair of earphones having noise cancellation circuitry and configured to play audio content for a user comprising: with control circuitry in the earphones, gathering information from ear presence sensor structures in the earphones on whether the earphones are present at the ears of the user; and in response to the information from the ear presence sensor structures, adjusting the noise cancellation circuitry in the earphones, wherein the ear presence sensor structures comprise an accelerometer-based sensor that detects changes in acceleration, wherein gathering information from the ear presence sensor structures comprises gathering earphone movement information from the accelerometer-based sensor, and wherein adjusting the noise cancellation circuitry comprises deactivating the noise cancellation circuitry in response to the earphone movement information indicating that the earphones are in motion. 4. The method defined in claim 3 wherein the information indicates that the earphones are not present at the ears of the user based on the detected motion of the earphones and wherein adjusting the noise cancellation circuitry comprises deactivating the noise cancellation circuitry in response to determining that the earphones are not present at the ears of the user. 5. The method defined in claim 4 wherein the audio content is played through a pair of speakers, the method further comprising: adjusting the audio content that is played through the speakers in response to determining that the earphones are not in the ears of the user. 6. The method defined in claim 5 wherein adjusting the audio content that is played through the speakers comprises pausing the audio content that is played through the pair of speakers. 7. The method defined in claim 3 wherein the information indicates that the earphones are present at the ears of the user and wherein adjusting the noise cancellation circuitry comprises activating the noise cancellation circuitry in response to determining that the earphones are present at the ears of the user. 8. An electronic device operable to receive information from ear presence sensor structures in earphones coupled to the electronic device, comprising: noise cancellation circuitry; and control circuitry configured to gather information from the ear presence sensor structures indicating whether speakers in the earphones are present at the ears of a user and configured to adjust the noise cancellation circuitry in response to the information from the ear presence sensor structures, wherein adjusting the noise cancellation circuitry comprises deactivating the noise cancellation circuitry while continuing to play audio content through the speakers. 9. The electronic device defined in claim 8 wherein the ear presence sensor structures comprise an accelerometer-based sensor and wherein the control circuitry is configured to gather earphone movement information from the accelerometer-based sensor. 10. The electronic device defined in claim 8 further comprising a battery, wherein the control circuitry is configured to adjust the noise cancellation circuitry to reduce power consumption of the battery. 11. The electronic device defined in claim 8 wherein the control circuitry is configured to adjust audio playback to the earphones based on the information from the ear presence sensor structures. 12. The electronic device defined in claim 8 wherein the control circuitry is configured to pause audio playback to the earphones based on information from the ear presence sensor structures indicating that the speakers in the earphones are not present at the ears of the user. 13. A method for operating an electronic device having noise cancellation circuitry and configured to play audio content for a user through a pair of earphones, comprising: with control circuitry in the electronic device, gathering information from ear presence sensor structures in the earphones on whether the earphones are present at the ears of the user of the electronic device; and in response to the information from the ear presence sensor structures, adjusting the noise cancellation circuitry in the electronic device, wherein the ear presence sensor structures comprise an accelerometer-based sensor that detects changes in acceleration, wherein gathering information from the ear presence sensor structures comprises gathering earphone movement information from the accelerometer-based sensor, and wherein adjusting the noise cancellation circuitry comprises deactivating the noise cancellation circuitry in response to the earphone movement information indicating that the earphones are in motion. 14. The method defined in claim 13 wherein the information indicates that the earphones are not present at the ears of the user based on the detected motion of the earphones and wherein adjusting the noise cancellation circuitry comprises deactivating the noise cancellation circuitry in response to determining that the earphones are not present at the ears of the user. 15. The method defined in claim 14 further comprising: adjusting the audio content that is played through the earphones in response to determining that the earphones are not present at the ears of the user. 16. The method defined in claim 15 wherein adjusting the audio content that is played through the earphones comprises pausing the audio content that is played through earphones. 17. The method defined in claim 13 wherein the information indicates that the earphones are present at the ears of the user and wherein adjusting the noise cancellation circuitry comprises activating the noise cancellation circuitry in response to determining that the earphones are present at the ears of the user.