Method of fabricating a miniature device having an acoustic diaphragm

What is claimed is: 1. A method of fabricating a device having a compliant member, comprising: providing an elastomeric layer in an uncured state; pre-curing the elastomeric layer to increase a viscosity of the elastomeric layer; positioning a bobbin and a housing each having an end such that the ends of the bobbin and the housing extend at least partially into the elastomeric layer and such that the bobbin is inside the housing; and curing the elastomeric layer such that the elastomeric layer is secured to the bobbin and the housing. 2. The method of claim 1 wherein the pre-curing of the elastomeric layer comprises applying heat to the elastomeric layer to increase a temperature of the elastomeric layer to a first temperature. 3. The method of claim 2 wherein the curing of the elastomeric layer comprises applying heat to the elastomeric layer to increase the temperature of the elastomeric layer to a second temperature that is greater than the first temperature. 4. The method of claim 3 wherein the pre-curing occurs for a first duration and the curing occurs for a second duration, and wherein the first duration is less than the second duration. 5. The method of claim 1 wherein the pre-curing comprises irradiating the elastomeric layer with ultraviolet light for a first duration. 6. The method of claim 5 wherein the curing comprises irradiating the elastomeric layer with ultraviolet light for a second duration and wherein the second duration is greater than the first duration. 7. The method of claim 1 wherein the pre-curing of the elastomeric layer comprises irradiating the elastomeric layer with ultraviolet light at a first irradiance and the curing of the elastomeric layer comprises irradiating the elastomeric layer with ultraviolet light at a second irradiance, and wherein the second irradiance is greater than the first irradiance. 8. The method of claim 1 wherein the pre-curing comprises applying heat to the elastomeric layer and irradiating the elastomeric layer with ultraviolet light. 9. The method of claim 1 wherein the curing of the elastomeric layer comprises applying heat to the elastomeric layer and irradiating the elastomeric layer with ultraviolet light. 10. The method of claim 1 wherein the elastomeric layer is secured to the bobbin and the housing, the method further comprising removing a portion of the elastomeric layer that extends outside a diameter of the housing. 11. The method of claim 1 wherein the elastomeric layer in an uncured state comprises liquid silicone rubber. 12. A microspeaker device comprising: an acoustic diaphragm having a substantially planar shape and formed of a single layer of a cured elastomeric material; a housing having an end extending at least partially into the single layer, wherein the single layer adheres to a portion of the housing at the end of the housing to form a first meniscus having a height defined along a wall of the housing, wherein the height of the first meniscus is less than a height of a meniscus along the wall of the housing for an uncured state of the elastomeric material; a bobbin disposed inside the housing and having a surface and an end extending at least partially into the single layer, wherein the single layer adheres to a portion of the bobbin at the end of the bobbin to form a second meniscus having a height defined along a wall of the bobbin, wherein the height of the second meniscus is less than a height of a meniscus along the wall of the bobbin for the uncured single layer of the elastomeric material; and a coil wound on the surface of the bobbin. 13. The microspeaker device of claim 12 wherein the first meniscus comprises a first inner meniscus having a height along an inner wall surface of the housing and a first outer meniscus having a height along an outer wall surface of the housing and wherein the second meniscus comprises a second inner meniscus having a height along an inner wall surface of the bobbin and a second outer meniscus having a height along an outer wall surface of the bobbin. 14. The microspeaker device of claim 12 wherein the housing and the bobbin are formed of different materials. 15. The microspeaker device of claim 12 wherein the height of the first meniscus is different from the height of the second meniscus.