External speech processor unit for an auditory prosthesis

What is claimed is: 1. A speech processor unit for a system, the speech processor unit comprising a signal processor for processing incoming auditory signals and for forwarding processed signals to a component of the system that converts the signals into an output to evoke a hearing percept, and comprising circuitry controllable by the signal processor for assisting the signal processor in placing the speech processor unit in a power down mode with the signal processor still being powered in said power down mode, wherein there is no dedicated mechanical switch for turning the unit on or off. 2. The speech processor unit of claim 1 , further comprising a microphone for receiving external auditory signals and for feeding these signals to the signal processor. 3. The speech processor unit of claim 1 , wherein the signal processor is a digital signal processor. 4. The speech processor unit of claim 1 , wherein the signal processor periodically sends an interrogation signal to determine if the signal processor is proximate a recipient thereof. 5. The speech processor unit of claim 1 , wherein the unit further comprises a motion-detector. 6. The speech processor unit of claim 1 , wherein the speech processor unit is configured to monitor a value of reflected impedance and enter the power down mode and a power up mode based on the value of the reflected impedance. 7. The speech processor unit of claim 1 , wherein the speech processor unit is configured to determine whether the speech processor unit is proximate another component completely separate from the speech processor unit that is placeable in signal communication with the speech processor unit and enter the power down mode and a power up mode based on the determination. 8. The speech processor unit of claim 1 , wherein the speech processor unit is configured to monitor a parameter indicative of whether the unit is proximate another component completely separate from the speech processor unit that is placeable in signal communication with the speech processor unit and enter a power mode relative to another power mode based on the monitored parameter, one of the power modes being the power down mode. 9. The speech processor unit of claim 1 , wherein the speech processor unit is configured to monitor a parameter associated with operation of the speech processor unit and enter a power mode relative to another power mode based on the monitored parameter, one of the power modes being the power down mode. 10. The speech processor unit of claim 1 , wherein the speech processor unit is configured to monitor a variable parameter related to reflected impedance and enter a power mode relative to another power mode based on the variable parameter, one of the power modes being the power down mode. 11. The speech processor unit of claim 1 , wherein the speech processor unit is configured to determine whether the speech processor unit is proximate another component completely separate from the speech processor unit that is placeable in signal communication with the speech processor unit and enter a power mode relative to another power mode based on the determination, one of the power modes being the power down mode. 12. A speech processor unit for a system, the speech processor unit comprising a signal processor for processing incoming auditory signals and for forwarding processed signals to a component of the system that converts the signals into an output to evoke a hearing percept, and comprising circuitry controllable by the signal processor for assisting the signal processor in placing the speech processor unit in a power down mode with the signal processor still being powered in said power down mode. 13. The speech processor unit of claim 12 , wherein there is no mechanical switch directly manipulateable via human dexterity for turning the unit on or off. 14. The speech processor unit of claim 12 , wherein there is no mechanical switch associated with a casing of the speech processor unit for turning the unit on or off. 15. The speech processor unit of claim 12 , wherein the speech processor unit includes a casing, and wherein the casing and other components of the speech processor unit are configured to enable a recipient thereof to use the speech processor unit when showering. 16. The speech processor unit of claim 12 , wherein there is no recipient body interface switch for turning the unit on or off. 17. The speech processor unit of claim 12 , wherein the speech processor unit is a behind-the-ear (BTE) device. 18. The speech processor unit of claim 12 , wherein the speech processor unit is configured to monitor a parameter associated with operation of the speech processor unit and enter the power down mode and a power up mode based on the monitored parameter. 19. The speech processor unit of claim 12 , wherein the speech processor unit is configured to monitor a parameter indicative of whether the unit is proximate another component completely separate from the speech processor unit that is placeable in signal communication with the speech processor unit and enter a power mode relative to another power mode based on the monitored parameter, one of the power modes being the power down mode. 20. The speech processor unit of claim 12 , wherein there is no conventional user on-off switch. 21. A speech processor unit for a system, the speech processor unit comprising a signal processor for processing incoming auditory signals and for forwarding processed signals to a component of the system that converts the signals into an output to evoke a hearing percept, wherein the speech processor unit is configured to determine whether the speech processor unit is proximate another component completely separate from the speech processor unit that is placeable in signal communication with the speech processor unit and enter a power state relative to another power state based on the determination. 22. The speech processor unit of claim 21 , wherein the signal processor is a digital signal processor, and wherein the determination that the speech processor unit is proximate another component is based on signal communication between the speech processor unit and the another component. 23. The speech processor unit of claim 21 , wherein the signal processor unit periodically sends an interrogation signal to determine if the signal processor unit is proximate a recipient thereof. 24. The speech processor unit of claim 21 , wherein the speech processor unit is configured to monitor a parameter associated with operation of the speech processor unit and enter a power state relative to another power state based on the monitored parameter. 25. The speech processor unit of claim 21 , wherein the speech processor unit is configured to monitor a variable parameter related to reflected impedance and enter a power state relative to another power state based on the variable parameter. 26. The speech processor unit of claim 21 , wherein the power state is a reduced power state, and the another power state is a power state higher than the reduced power state. 27. The speech processor unit of claim 21 , wherein: the speech processor unit is configured so that, upon determining that the speech processor unit is not proximate the another component, the speech processor unit starts a shut-down routine, leading to the entering of the power state. 28. The speech processor