Capacitive position sensing for transducers

What is claimed is: 1. A micro speaker, comprising: a diaphragm having a conductive surface; a motor assembly coupled with the diaphragm, wherein the motor assembly includes a voicecoil and a plurality of magnetic stacks behind the diaphragm configured to move the diaphragm to emit sound forward away from the magnetic stacks, wherein the magnetic stacks are separated from each other by one or more vertical slots filled by a dielectric, and wherein each magnetic stack includes a magnet portion, and a capacitive plate section mounted on the magnet portion, wherein each capacitive plate section includes a respective conductive surface facing the conductive surface of the diaphragm across a gap distance; and a sensing circuit electrically connected with the capacitive plate section. 2. The micro speaker of claim 1 , wherein the plurality of magnetic stacks include at least three capacitive plate sections electrically insulated from each other across the one or more vertical slots. 3. The micro speaker of claim 2 , wherein the one or more vertical slots include a pair of intersecting vertical slots, and wherein the at least three capacitive plate sections includes capacitive plate quadrants separated by the pair of intersecting vertical slots. 4. The micro speaker of claim 3 , wherein each magnetic stack includes an insulating layer between the capacitive plate section and the magnet portion. 5. The micro speaker of claim 4 , wherein the dielectric includes an insulating filler. 6. The micro speaker of claim 4 further comprising an electrical lead extending from a respective capacitive plate section to the sensing circuit, wherein the electrical lead electrically connects the respective capacitive plate section with the sensing circuit. 7. The micro speaker of claim 6 , wherein the sensing circuit is configured to measure a capacitance of the facing conductive surfaces of the diaphragm and the respective capacitive plate section. 8. The micro speaker of claim 7 , wherein the sensing circuit is configured to calculate displacement of the diaphragm based on the measured capacitance. 9. The micro speaker of claim 4 further comprising a housing in front of the diaphragm, the housing including a port configured to pass the sound emitted by the diaphragm. 10. The micro speaker of claim 4 , wherein the gap distance is less than 3 mm. 11. The micro speaker of claim 10 , wherein the gap distance is less than 1 mm. 12. A method, comprising: sensing one or more electrical signals, each electrical signal corresponding to one or more capacitances of facing conductive surfaces of a diaphragm of a micro speaker and one or more capacitive plate sections of a plurality of magnetic stacks of the micro speaker, wherein the diaphragm is configured to emit sound forward away from the magnetic stacks of the micro speaker, wherein the magnetic stacks are behind the diaphragm, wherein each magnetic stack includes a magnet portion and a capacitive plate section, and wherein the magnetic stacks are separated from each other by one or more vertical slots filled by a dielectric; and determining, based on the electrical signals, a relative spatial orientation between the diaphragm and the one or more capacitive plate sections. 13. The method of claim 12 , wherein the one or more vertical slots include a pair of intersecting vertical slots, and wherein the one or more capacitive plate sections includes at least three capacitive plate sections. 14. The method of claim 13 , wherein each capacitive plate section is supported on a respective magnet portion, and wherein the capacitive plate sections and magnet portions are electrically insulated from each other. 15. The method of claim 14 , wherein a distance between the diaphragm and each of the one or more capacitive plate sections is less than 3 mm. 16. The method of claim 15 , wherein the distance is less than 1 mm. 17. The method of claim 16 , wherein determining the relative spatial orientation includes detecting respective distances between the diaphragm and one or more pairs of the one or more capacitive plate sections. 18. The method of claim 17 , wherein determining the relative spatial orientation includes determining, based on the detected distances, whether the diaphragm is rocking relative to the one or more capacitive plate sections. 19. The method of claim 18 further comprising: providing an electrical driving signal to a voicecoil of the micro speaker based on the detected distances to limit a displacement of the diaphragm within an available travel of the diaphragm.