Systems and methods for assembling an electro-acoustic transducer including a miniature voice coil

What is claimed is: 1. A tool for arranging voice coil leadouts in a microspeaker, comprising: a mandrel having a top surface on which a bobbin and voice coil of the microspeaker are positioned during formation of helicoidal leadout regions of a microspeaker voice coil; a bobbin alignment feature at a top region of, and adjacent the top surface of, the mandrel, the bobbin alignment feature constructed and arranged for positioning at an inner diameter of the bobbin; a sleeve alignment element at a bottom region of the bobbin alignment feature, the sleeve alignment element having a first surface on which a sleeve of the microspeaker is positioned during the formation of the voice coil helicoidal leadout regions; and a gluing ring positioned about the mandrel and on a second surface of the sleeve alignment element, the gluing ring constructed and arranged for providing guide paths for distal ends of the helicoidal leadout regions extending in a direction from the mandrel to the sleeve alignment element. 2. The tool of claim 1 , wherein the bobbin alignment feature, the mandrel, and sleeve alignment element are of a single stock of material. 3. The tool of claim 1 , wherein the bobbin alignment feature is rotatably coupled to the mandrel. 4. The tool of claim 1 , wherein the mandrel is constructed and arranged to form the voice coil helicoidal leadout regions, wherein the bobbin alignment feature is constructed and arranged for centering the bobbin during the formation of the voice coil helicoidal leadout regions, and wherein the sleeve alignment element is constructed and arranged for centering of the sleeve during the formation of the voice coil helicoidal leadout regions. 5. The tool of claim 1 , wherein the mandrel includes a conical sidewall portion for releasing the bobbin from the tool. 6. The tool of claim 1 , wherein the gluing ring includes two insert notches constructed and arranged for receiving the distal ends of the helicoidal leadout regions. 7. The tool of claim 1 , wherein the insert notches include an adhesive for coupling portions of the voice coil helicoidal leadout regions to the gluing ring. 8. The tool of claim 1 , wherein the sleeve alignment element includes: a central portion; two extensions extending from the central portion; and a region of separation between each extension and the central portion, the regions of separation and central portion permitting wire tension to be maintained and forming the guide paths for the distal ends of the helicoidal leadout regions. 9. The tool of claim 1 , wherein the gluing ring has a rotation-locking feature, and the mandrel has a non-circular surface for coupling with the rotation-locking feature to prevent rotation of the gluing ring about the mandrel. 10. The tool of claim 1 , further comprising an ejection device including: a base; first and second base blocks extending from the base for insertion into the regions of separation of the sleeve alignment element; and at least one ejection pin extending from the base for insertion into a corresponding ejection hole of the mandrel for removing the bobbin and voice coil from the tool. 11. A method for assembling an electro-acoustic transducer, comprising: positioning a gluing ring about a tool; positioning a bobbin and voice coil about the tool; aligning the bobbin and voice coil with the tool; forming helicoidal leadout regions by rotating conductive wiring of the voice coil about the tool; extending distal ends of the helicoidal leadout regions through notches in the gluing ring; and positioning a sleeve about the bobbin, voice coil, and gluing ring. 12. The method of claim 11 , further comprising: inserting an ejection device into holes of the tool; and removing the tool from the bobbin, voice coil, sleeve, and gluing ring using the ejection device. 13. The method of claim 11 , further comprising: coupling the gluing ring to an interior of the sleeve. 14. The method of claim 11 , wherein forming the helicoidal leadout regions comprises: positioning the bobbin about a bobbin alignment feature of a tool and resting the bobbin on a top surface of a mandrel below the bobbin alignment feature, the mandrel including a conical sidewall; positioning the gluing ring about the mandrel and on a second surface of the sleeve alignment element; rotating the conductive wiring of the voice coil about the conical sidewall of the mandrel; and coupling the distal ends of the helicoidal leadout regions to the notches in the gluing ring. 15. The method of claim 11 , further comprising: piloting the distal ends of the helicoidal leadout regions down the gluing ring notches; holding the distal ends in place by a clamping mechanism or bonding technique; and coupling distalmost ends of the distal ends to a circuit board at the bottom of the sleeve. 16. The method of claim 15 , wherein the bonding technique includes an adhesive. 17. The method of claim 15 , wherein the clamping mechanism includes the gluing ring notches reduced to clamp about the helicoidal leadout regions. 18. A tool for assembling an electro-acoustic transducer, comprising: a mandrel, comprising: a bobbin alignment feature about which a bobbin and voice coil are positioned during assembly of the electro-acoustic transducer; a sleeve alignment feature below the bobbin alignment feature about which a sleeve is positioned and aligned with the bobbin and voice coil during assembly of the of the electro-acoustic transducer; and a base portion below the sleeve alignment feature, the tool further comprising: a lander core device constructed and arranged for insertion into a tooling apparatus and for removing the electro-acoustic transducer from the mandrel after assembly; and an insulative ring positioned at a lip between the sleeve alignment feature and the bobbin alignment feature for providing guide paths for distal ends of leadout regions of the voice coil, wherein the base portion communicates with the lander core device below the base portion and further communicates with the insulative ring. 19. The tool of claim 18 , wherein the electro-acoustic transducer after assembly includes the sleeve, bobbin, voice coil, and flex circuit. 20. The tool of claim 18 , wherein the lander core device comprises a bottom element constructed and arranged for insertion into the tooling apparatus, a first side pin and a second side pin constructed and arranged for communicating via the mandrel with the insulative ring, and a center pin constructed and arranged for communicating with a top surface of the bobbin. 21. The tool of claim 18 , further comprising a gap between the bottom element of the lander core device and a bottommost surface of the mandrel, wherein a maximum height of the gap is limited by a top region of the center pin of the lander core device. 22. The tool of claim 18 , wherein the base portion of the mandrel has a width greater than a width of the sleeve alignment feature, and further includes a lip that extends from an outermost circumference of the sleeve alignment feature for receiving the sleeve positioned about and aligned with the bobbin and voice coil. 23. The tool of claim 18 , wherein the insulative ring includes two grooved extensions that extend vertically from the insulative ring for receiving and securing leadout wires of the voice coil. 24. A tool for assembling an electro-acoustic transducer, comprising: a mandrel, comprisi