Accessory button controller assembly

What is claimed is: 1. An accessory button controller, comprising: wiring having a plastic jacket; a printed circuit board comprising at least one switch coupled to the wiring; a plastic structure overmolded over the printed circuit board; a strain relief structure overmolded over: an end region of the plastic structure; and a portion of the plastic jacket; and a first outer housing member forming a first portion of an external surface of the accessory button controller; and a second outer housing member forming a second portion of the external surface of the accessory button controller, the first and second portions aligned on symmetrically opposite sides of the printed circuit board, wherein: the first and second outer housing members enclose the printed circuit board and the plastic structure; the first and second outer housing members are configured to move toward one another in response to an applied force; and the movement of the first and second outer housing members toward one another causes an actuation of the at least one switch. 2. The accessory button controller of claim 1 , wherein the first and second housing members partially enclose the strain relief structure. 3. The accessory button controller of claim 1 , further comprising a metal clip interposed between one of the first or second housing members and the plastic structure. 4. The accessory button controller of claim 3 , wherein the printed circuit board comprises at least one trace; and the metal clip comprises a portion that is shorted to the trace. 5. The accessory button controller of claim 4 , wherein the first outer housing member and the second outer housing member are separated by a gap. 6. The accessory button controller of claim 1 further comprising: a microphone on the printed circuit; a conductive mesh covering the microphone; and conductive adhesive configured to attach the conductive mesh to the printed circuit over the microphone. 7. An accessory, comprising: an earbud comprising: a speaker driver enclosure portion; and a hollow neck portion; wires coupled to the earbud, the wires comprising a knot to retain the wires in the hollow neck portion; a bead threaded onto the wires to prevent compression of the knot; and an accessory button controller coupled to the wires, wherein the accessory button controller comprises: a printed circuit comprising at least one switch mounted to the printed circuit; a plastic structure that is overmolded over the printed circuit; and a housing assembly comprising first and second outer housing members positioned on opposite sides of the printed circuit board; and an overmolded strain relief structure that is coupled to the plastic structure at an end region and surrounds the wires, wherein: at least one of the first or second outer housing members is configured to translate toward the printed circuit board; the at least one switch is configured to generate an electrical response in response to the translation of the at least one of the first or second outer housing members; and the knot of the wires is tied to the bead. 8. The accessory of claim 7 wherein: the wires comprise a plastic jacket; and a portion of the plastic structure is overmolded over the wires and bonds to the plastic jacket to retain the wires within the accessory button controller. 9. The accessory of claim 7 , wherein the first outer housing member and the second outer housing member are separated by a gap. 10. The accessory of claim 9 , further comprising: at least one trace on the printed circuit; a metal structure comprising: an opening that engages a protrusion in the plastic structure; at least one spring that shorts the metal structure to the trace; and a portion that receives electrostatic charge through the gap formed between the first outer housing member and the second outer housing member. 11. An accessory button controller, comprising: a printed circuit having a least one conductive trace; a switch on the printed circuit; a housing having a first portion positioned along a top surface of the printed circuit board and a second portion positioned along a bottom surface of the printed circuit board, thereby enclosing the printed circuit within the housing; a plastic structure that is overmolded over the printed circuit, the plastic structure includes at least one protrusion and defines an end region; a strain relief structure coupled to, and overlapping the end region of, the plastic structure and extending beyond a perimeter of the housing; and a clip coupled to the housing, the clip comprising an opening that mates with the protrusion of the plastic structure; wherein: the housing surrounds the plastic structure and a portion of the strain relief structure: at least one of the first or second portions is configured to move toward the plastic structure and the portion of the strain relief structure in response to a user input; and the switch is configured to detect the user input using the movement of the first or second portions. 12. The accessory button controller of claim 11 , wherein: the accessory button controller further comprises a wiring that is coupled to the printed circuit; the wiring comprises a plastic jacket; the plastic structure is configured to bond with the plastic jacket to retain the wiring within the housing; and the strain relief structure surrounds the wiring. 13. The accessory button controller of claim 11 , wherein the first portion of the housing is coupled to the clip; and the second portion of the housing is coupled to the plastic structure, the first and second portions are separated by a gap and the clip has a protrusion that is configured to receive electrostatic charge through the gap. 14. The accessory button controller of claim 13 , wherein the clip comprises a spring portion that is shorted to the conductive trace on the printed circuit board to discharge electrostatic charge. 15. A method, comprising: forming metal traces on a printed circuit board; placing the printed circuit board in a molding tool having a set of injection molding shutoff structures with a recess that accommodates the metal traces by holding the printed circuit board while the recess overlaps the metal traces without crushing the metal traces; injection molding a first plastic into a first cavity formed by the molding tool and one of the set of injection molding shutoff structures, the injection molded first plastic forming a plastic structure that covers the printed circuit board; and injection molding a second plastic into a second cavity formed by the molding tool and another of the set of injection molding shutoff structures, the injection molded second plastic forming a strain-relief structure surrounding a portion of the plastic structure at an end region, positioning a first outer housing member along a first surface of the printed circuit board, the injection molded plastic, and the portion of the strain relief structure; positioning a second outer housing member along a second surface of the printed circuit board, the injection molded plastic, and the portion of the strain relief structure, opposite the first surface; coupling the first and second outer housing members such that the first and second outer housing members are configured to move toward one another in response to an applied force, wherein the movement of the first and second outer housing members toward one another is configured to cause an actuation of at least one switch positioned on the printed circuit board. 16. The met