Hearing prosthesis system having interchangeable housings

What is claimed is: 1. A system, comprising: a body worn prosthesis; and a hand held device in wireless communication with the body worn prosthesis, wherein the prosthesis is a hearing prosthesis, and the hand held device is configured to enable a user to remotely select an origin of data input to a speech processor of the hearing prosthesis from a plurality of origins, the data input being data upon which the hearing prosthesis evokes a hearing percept, wherein the body worn prosthesis is configured to be used with a plurality of different modules, including a first module and a second module, at different times, the first module is of a different configuration than the second module, and the body worn prosthesis includes the first module that is in hard-wired signal communication with a transcutaneous inductance coil, wherein the body worn prosthesis is configured to transfer a first signal to a location beneath skin of the recipient to stimulate tissue inside the recipient based on the first signal using the transcutaneous inductance coil. 2. The system of claim 1 , wherein: the hand held device includes a user interface that enables the recipient of the prosthesis and/or a carer of the recipient to adjust the prosthesis remotely. 3. The system of claim 1 , wherein: an origin of the data that is selectable includes at least data from a wireless source and data from a microphone of the hearing prosthesis. 4. A method, comprising: evoking a first hearing percept using a hearing prosthesis including a first module including a first housing by generating a first signal influenced at least in part by functionality of the first module and transferring that first signal to a location beneath skin of a recipient to stimulate tissue inside the recipient based on the first signal; removing the first module from the hearing prosthesis and adding a second module of a different configuration than the first module, the second module having a second housing; and after adding the second module, evoking a second hearing percept by generating a second signal influenced at least in part by functionality of the second module and transferring that second signal to the location beneath skin of the recipient to stimulate tissue inside the recipient based on the second signal, wherein the first module is in hard-wired signal communication with a transcutaneous inductance coil, wherein the action of transferring the first signal to the location beneath skin of the recipient to stimulate tissue inside the recipient based on the first signal is executed using the transcutaneous inductance coil. 5. The method of claim 4 , wherein: a component of the hearing prosthesis implanted beneath skin of the recipient remains present during the action of removing the first module and adding the second module; and the component is used as a conduit for the first signal and the second signal to reach locations beneath skin of the recipient to evoke the hearing percept. 6. The method of claim 4 , wherein: the replacement of the first module with the second module enables the hearing prosthesis to have wireless communication capabilities with a remote component, which capabilities were not present prior to the replacement. 7. The method of claim 4 , wherein: the replacement of the first module with the second module includes removing the first housing from communication with an apparatus of the hearing prosthesis that remains after the replacement and placing the second module into communication with the apparatus. 8. The method of claim 4 , wherein: the replacement of the first module with the second module includes mechanically decoupling the first housing from an apparatus of the hearing prosthesis that remains after the replacement and then coupling the second housing of the second module to the apparatus. 9. The method of claim 8 , wherein: the apparatus of the hearing prosthesis that remains after the replacement and coupling is an apparatus configured to transfer the first and second signals from outside the recipient to inside the recipient. 10. The method of claim 9 , wherein: the replacement of the first module with the second module maintains a functionality of the hearing prosthesis that such had with the first module. 11. The method of claim 4 , wherein: the replacement of the first module with the second module provides functionality of the hearing prosthesis that was not present with the first module. 12. The method of claim 4 , wherein: the first module is entirely supported by a head of the recipient; and the second module is partially supported by the head of the recipient. 13. The method of claim 4 , wherein: the first module includes an exposed cable extending from the first housing. 14. The method of claim 4 , wherein: other than a transcutaneous link, the hearing prosthesis is devoid of wireless communication. 15. The method of claim 4 , further comprising: after evoking the second hearing percept by generating the second signal influenced at least in part by functionality of the second module and transferring that second signal to the location beneath skin of the recipient to stimulate tissue inside the recipient based on the second signal, removing the second module from the hearing prosthesis and adding the first module; and after adding the first module, evoking a third hearing percept by generating a third signal influenced at least in part by functionality of the first module and transferring that third signal to the location beneath skin of the recipient to stimulate tissue inside the recipient based on the third signal. 16. The method of claim 4 , wherein: the first module is entirely supported by a head of the recipient; and the second module is entirely supported by the head of the recipient. 17. A method, comprising: obtaining a hearing prosthesis assembly including a first housing containing a signal processor and a first component attached to the first housing and a cable attached to a headpiece extending from the first housing, the headpiece containing an antenna coil configured to transcutaneously communicate with an implanted component; and removing the first component from the first housing and replacing the first component with a second component at the location where the first component was previously located, the first component having a structurally different configuration than the second component, wherein the first component is a user interface including at least one user input apparatus that enables user input into the hearing prosthesis assembly to adjust a sound processing system of which the signal processor is apart, and with the second component at the location where the first component was previously located, all functionality associated with ability of a user to adjust the signal processor via manual input to the hearing prosthesis assembly is eliminated when the second component is attached to the first housing. 18. The method of claim 17 , wherein: the second component enables wireless input by a user to adjust the signal processor wirelessly; and the method further comprises providing wireless input via a second assembly remote from the hearing prosthesis assembly. 19. The method of claim 17 , further comprising: using the hearing prosthesis assembly to evoke a hearing percept with the second component at the location where the first component was previously located. 20. The method of claim 17 , further comprising: using the hearing prosth