Non-pressure sensitive implantable microphone

What is claimed is: 1. An implantable microphone for use in hearing prosthesis systems, the microphone comprising: a cylindrical microphone housing with opposing circular cylinder ends and having an interior volume containing an incompressible housing liquid; at least one housing membrane on one of the cylinder ends that is in contact with the housing liquid and moveable in response to an acoustic signal outside the housing; an acoustic-electric transducer coupled to the at least one housing membrane for converting movement of the housing membrane into a corresponding electrical microphone signal; an interior membrane within the interior volume of the microphone housing between the at least one housing membrane and the acoustic-electric transducer for coupling the movement of the housing membrane to the acoustic-electric transducer; and a bypass tube providing a fluid passage across the interior membrane. 2. An implantable microphone according to claim 1 , wherein there are housing membranes on each cylinder end, and wherein an acoustic-electric transducer is coupled to each housing membrane. 3. An implantable microphone according to claim 1 , further comprising: a microphone signal module for developing the microphone signal and coupling the microphone signal as an electrical output from the microphone housing. 4. An implantable microphone according to claim 3 , wherein the microphone signal module is located in the incompressible liquid within the interior volume. 5. An implantable microphone according to claim 1 , further comprising: an attachment pad located on the outer surface of the microphone housing for connecting the microphone housing to adjacent bone in the implanted patient. 6. An implantable hearing prosthesis system having an implantable microphone according to any of claims 1 , 2 and 3 - 5 . 7. An implantable microphone for use in hearing prosthesis systems, the microphone comprising: a microphone housing having a double cone shape with opposing circular cone ends and having an interior volume containing an incompressible housing liquid, wherein the double cone shape is narrower in the middle and wider towards the ends; at least one housing membrane on one of the cone ends that is in contact with the housing liquid and moveable in response to an acoustic signal outside the housing; an acoustic-electric transducer coupled to the at least one housing membrane for converting movement of the housing membrane into a corresponding electrical microphone signal; an interior membrane within the interior volume of the microphone housing between the at least one housing membrane and the acoustic-electric transducer for coupling the movement of the housing membrane to the acoustic-electric transducer; and a bypass tube providing a fluid passage across the interior membrane. 8. An implantable microphone according to claim 7 , wherein there are housing membranes on each cone end, and wherein an acoustic-electric transducer is coupled to each housing membrane. 9. An implantable microphone according to claim 7 , further comprising: a microphone signal module for developing the microphone signal and coupling the microphone signal as an electrical output from the microphone housing. 10. An implantable microphone according to claim 9 , wherein the microphone signal module is located in the incompressible liquid within the interior volume. 11. An implantable microphone according to claim 7 , further comprising: an attachment pad located on the outer surface of the microphone housing for connecting the microphone housing to adjacent bone in the implanted patient. 12. An implantable hearing prosthesis system having an implantable microphone according to any of claims 7 , 8 and 9 - 11 .