Audio driver assembly, headphone including such an audio driver assembly, and related methods

What is claimed is: 1. An audio driver assembly, comprising: a driver housing; and an audio driver secured within the driver housing and comprising: a magnet assembly exhibiting an aperture extending therethrough; a flexible diaphragm overlying the magnet assembly and exhibiting another aperture extending therethrough; and a spacer between the magnet assembly and the flexible diaphragm and exhibiting at least one lateral projection extending across an upper surface of the magnet assembly and a lower surface of the flexible diaphragm, the spacer discrete from the magnet assembly and the flexible diaphragm and longitudinally projecting into the aperture in the magnet assembly and the another aperture in the flexible diaphragm. 2. The audio driver assembly of claim 1 , wherein the magnet assembly comprises: a permanent magnet; a voice coil circumscribing the permanent magnet; and a yoke cup at least partially surrounding the permanent magnet and the voice coil. 3. The audio driver assembly of claim 2 , wherein the yoke cup comprises: a lower portion underlying a lower surface of the permanent magnet; an upper portion overlying an upper surface of the permanent magnet and at least partially extending over and surrounding peripheral sidewalls of each of the permanent magnet and the lower portion of the yoke cup. 4. The audio driver assembly of claim 3 , wherein at least portion of the voice coil is located within a cavity at least partially defined by inner sidewalls of the upper portion of the yoke cup and the peripheral sidewalls of each of the permanent magnet and the lower portion of the yoke cup. 5. The audio driver assembly of claim 1 , wherein the spacer directly physically contacts an upper surface of the magnet assembly and a lower surface of the flexible diaphragm. 6. The audio driver assembly of claim 1 , wherein the spacer is located adjacent central portions of each of the magnet assembly and the flexible diaphragm. 7. The audio driver assembly of claim 1 , wherein the spacer comprises at least one of a metal material and a polymer material. 8. The audio driver assembly of claim 1 , wherein a longitudinal projection of the spacer terminates proximate an upper surface of a permanent magnet of the magnet assembly. 9. The audio driver assembly of claim 1 , wherein less than an entirety of the at least one lateral projection directly physically contacts each of the upper surface of the magnet assembly and the lower surface of the flexible diaphragm. 10. The audio driver assembly of claim 9 , wherein the at least one lateral projection exhibits elevated regions and recessed regions, only the elevated regions in direct physical contact with each of the upper surface of the magnet assembly and the lower surface of the flexible diaphragm. 11. The audio driver assembly of claim 1 , wherein an inner rim of the flexible diaphragm defined by the another aperture extending through the flexible diaphragm is attached to the spacer, and an outer rim of the flexible diaphragm is attached to the driver housing. 12. A headphone, comprising: an ear-cup housing; and an audio driver assembly disposed at least partially within the ear-cup housing, the audio driver assembly comprising: a driver housing; a flexible diaphragm suspended from the driver housing and exhibiting an aperture extending therethrough; a magnet assembly underlying the diaphragm and exhibiting another aperture extending therethrough, the magnet assembly comprising: a permanent magnet; a voice coil circumscribing the permanent magnet; and a yoke cup at least partially surrounding the permanent magnet and the voice coil; and a spacer between the flexible diaphragm and the magnet assembly and exhibiting at least one lateral projection extending across an upper surface of the magnet assembly and a lower surface of the flexible diaphragm, the spacer discrete from the flexible diaphragm and the magnet assembly and longitudinally projecting into the aperture in the flexible diaphragm and the another aperture in the magnet assembly. 13. The headphone of claim 12 , wherein the spacer directly physically contacts central portions of each of the flexible diaphragm and an upper portion of the yoke cup of the magnet assembly. 14. The headphone of claim 12 , wherein a portion of the spacer extends into an aperture in the magnet assembly and another portion of the spacer extends into another aperture in the flexible diaphragm substantially aligned with the aperture in the magnet assembly. 15. The headphone of claim 12 , wherein the spacer comprises plastic. 16. The headphone of claim 12 , wherein the spacer is centrally located relative to a width of each of the magnet assembly and the flexible diaphragm. 17. The headphone of claim 12 , wherein the driver housing exhibits at least one aperture substantially aligned with at least one aperture in the magnet assembly. 18. A method of forming a headphone, comprising: forming an audio driver assembly, the audio driver assembly comprising: a driver housing; a flexible diaphragm suspended from the driver housing and exhibiting an aperture extending therethrough; a magnet assembly underlying the diaphragm and exhibiting another aperture extending therethrough, the magnet assembly comprising: a permanent magnet; a voice coil circumscribing the permanent magnet; and a yoke cup at least partially surrounding the permanent magnet and the voice coil; and a spacer between the flexible diaphragm and the magnet assembly and exhibiting at least one lateral projection extending across an upper surface of the magnet assembly and a lower surface of the flexible diaphragm, the spacer discrete from the flexible diaphragm and the magnet assembly and longitudinally projecting into the aperture in the flexible diaphragm and the another aperture in the magnet assembly; and attaching the audio driver assembly within an ear-cup housing.