Headphones with increased back volume

What is claimed is: 1. An earpiece comprising: an earpiece housing comprising a back wall and side walls that cooperatively define an interior volume; a speaker assembly disposed within the interior volume, the speaker assembly comprising: a first permanent magnet configured to generate a first magnetic field and defining a channel extending there through; a second permanent magnet surrounding the first permanent magnet; a diaphragm; and an electrically conductive coil coupled to the diaphragm and configured to generate a second magnetic field that interacts with the first magnetic field emitted by the first permanent magnet to induce oscillation of the diaphragm; and a speaker frame member extending across a portion of the back wall of the earpiece housing to further define a rear volume of air that extends through the channel. 2. The earpiece as recited in claim 1 wherein the speaker frame member defines the rear volume of air such that it extends to a peripheral portion of the earpiece housing that defines an air vent. 3. The earpiece as recited in claim 1 wherein the portion of the back wall is a majority of the back wall. 4. The earpiece as recited in claim 1 wherein an average distance between the speaker frame member and the back wall of the earpiece housing is about 1 mm. 5. The earpiece as recited in claim 4 wherein a width of a portion of the rear volume of air defined by the speaker frame member is about 20 mm. 6. The earpiece as recited in claim 1 wherein portions of the speaker frame member are glued to the back wall of the earpiece housing and wherein the rear volume of air is routed around the portions of the speaker frame member glued to the back wall. 7. The earpiece as recited in claim 6 wherein the earpiece housing defines a narrow vent connected to the rear volume of air of the speaker assembly that augments performance of the speaker assembly. 8. The earpiece as recited in claim 1 wherein the first and second permanent magnets cooperatively form a channel shaped to accommodate the electrically conductive coil. 9. The earpiece as recited in claim 1 wherein the speaker assembly further comprises a mesh layer extending across the channel of the first permanent magnet. 10. A portable listening device, comprising: a headband assembly; an earpiece housing defining an interior volume, the earpiece housing being coupled to the headband assembly; a speaker assembly disposed within the interior volume, the speaker assembly comprising: a diaphragm; a first permanent magnet configured to generate a first magnetic field and defining a channel extending there through that connects a rear volume of air disposed directly behind the diaphragm to another volume of air extending radially outward from the diaphragm; a second permanent magnet surrounding the first permanent magnet; and an electrically conductive coil coupled to the diaphragm and configured to generate a second magnetic field that interacts with the first magnetic field emitted by the first permanent magnet to induce oscillation of the diaphragm. 11. The portable listening device as recited in claim 10 wherein the other volume of air extends across a majority of a rear wall of the earpiece housing. 12. The portable listening device as recited in claim 10 further comprising a speaker frame member that defines the other volume of air extending radially outward from the diaphragm. 13. The portable listening device as recited in claim 10 wherein the other volume of air extending radially outward from the diaphragm extends connects the rear volume of air to a vent defined by the earpiece housing. 14. The portable listening device as recited in claim 13 wherein the other volume of air has a width of about 20 mm and a height of about 1 mm. 15. A portable listening device comprising: a headband assembly; an earpiece housing defining an interior volume, the earpiece housing being coupled to the headband assembly; a speaker assembly disposed within the interior volume, the speaker assembly comprising: a diaphragm; a permanent magnet defining a channel extending therethrough that connects a rear volume of air disposed directly behind the diaphragm to another volume of air extending radially outward from the diaphragm; capacitive sensors disposed within the interior volume, wherein the earpiece housing defines a cavity sized to accommodate an ear of a user, the capacitive sensors being disposed between the speaker assembly and the cavity. 16. The portable listening device as recited in claim 15 wherein a capacitive sensor of the capacitive sensors defines a plurality of openings that facilitate the passage of audio waves through the capacitive sensor. 17. Headphones comprising: a first earpiece; a second earpiece; headband assembly electrically and mechanically coupling the first and second earpieces; and a speaker assembly disposed within the first earpiece, the speaker assembly comprising: a diaphragm; a first permanent magnet configured to generate a first magnetic field and defining a channel extending there through that connects a rear volume of air disposed directly behind the diaphragm to another volume of air extending radially outward from the diaphragm; a second permanent magnet surrounding the first permanent magnet; and an electrically conductive coil coupled to the diaphragm and configured to generate a second magnetic field that interacts with the first magnetic field emitted by the first permanent magnet to induce oscillation of the diaphragm. 18. The headphones as recited in claim 17 wherein the speaker assembly is a first speaker assembly and the headphones further comprises a second speaker assembly disposed within the second earpiece. 19. The headphones as recited in claim 17 wherein the speaker assembly comprises a speaker frame member extending across a portion of a back wall of an earpiece housing of the first earpiece to define the other volume of air that extends radially outward from the diaphragm.