IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0586524
(2004-12-27)
|
등록번호 |
US-7660633
(2010-04-02)
|
우선권정보 |
AU-2003907138(2003-12-24) |
국제출원번호 |
PCT/US2004/043288
(2004-12-27)
|
§371/§102 date |
20061023
(20061023)
|
국제공개번호 |
WO06/071210
(2006-07-06)
|
발명자
/ 주소 |
- Darley, Derek I.
- Goorevich, Michael
- Single, Peter
|
출원인 / 주소 |
|
대리인 / 주소 |
Connolly Bove Lodge & Hutz LLP
|
인용정보 |
피인용 횟수 :
16 인용 특허 :
10 |
초록
▼
A speech processor module is disclosed. The speech processor module is configured to be implemented in more than one mode of operation of a hearing prosthesis including as a component of a stand-alone speech processing unit, and as a component of a body-worn speech processing unit, wherein said body
A speech processor module is disclosed. The speech processor module is configured to be implemented in more than one mode of operation of a hearing prosthesis including as a component of a stand-alone speech processing unit, and as a component of a body-worn speech processing unit, wherein said body-worn speech processing unit comprises a case that protects the speech processor module from environmental conditions which can damage said speech processor module implemented in said stand-alone operating mode.
대표청구항
▼
What is claimed is: 1. An external component of a cochlear implant hearing system, comprising: a speech processor module operable in a stand-alone mode of operation and a body-worn mode of operation, and comprising an internal microphone, wherein said speech processor module receives signals from s
What is claimed is: 1. An external component of a cochlear implant hearing system, comprising: a speech processor module operable in a stand-alone mode of operation and a body-worn mode of operation, and comprising an internal microphone, wherein said speech processor module receives signals from said internal microphone when operable in said stand-alone mode of operation; a protective case configured to have said speech processor module removably mounted therein; an external microphone positioned external to said protective case, wherein said case enables electrical connection between said speech processor and said external microphone when said speech processor is mounted in said case; and an operational mode controller configured to determine when said speech processor module is mounted in said case and to place said speech processor module in said body-worn mode of operation when said module is mounted in said case, wherein said module receives signals from said external microphone when operable in said body worn mode of operation. 2. The external component of claim 1, wherein said case comprises: a base member; and a cover member matable with said base member to form an enclosure around said speech processor module when said module is mounted therein, wherein when said cover member and said base member are attached to each other, said case is at least resistant to fluid ingress. 3. The external component of claim 2, wherein said case is adapted to prevent all fluid ingress when said cover member is closed relative to said base member. 4. The external component of claim 2, wherein said case is adapted to at least substantially prevent dust ingress when said cover member and said base member are mated to each other. 5. The external component of claim 2, wherein said case further comprises: a sheath with a gasket around the perimeter thereof, wherein said sheath overlies said speech processor module when said speech processor module is mounted in said base member, and wherein said gasket and said sheath, when in position, can seal with a perimeter wall of said base member. 6. The external component of claim 1, wherein said case further comprises an on board power supply, and wherein said case electrically connects said on board power supply to said speech processor module when said speech processor module is mounted in said case. 7. The external component of claim 6, wherein said operational mode controller is configured to determine when said speech processor module is mounted in said case based on identification information supplied by said on board power supply to said operational mode controller. 8. The external component of claim 6, wherein said operational mode controller is configured to determine when said speech processor module is mounted in said case based on a value of a resistor in said on board power supply. 9. The external component of claim 1, wherein said speech processor module comprises a cable connector for receiving a cable, and wherein said case comprises an orifice configured to interface with said cable inserted in said cable connector, and wherein a grommet is provided to prevent fluid from entering said orifice. 10. The external component of claim 1, further comprising: an externally-accessible switch, and wherein said operational mode controller is configured to determine when said speech processor module is mounted in said case based on the configuration of said switch. 11. The external component of claim 1, wherein said operational mode controller is configured to determine when said speech processor module is not mounted in said case and to place said speech processor module in said stand-alone mode of operation when said module is not mounted in said case. 12. The external component of claim 11, further comprising: a power supply configured to be detachably secured to said speech processor module when said module is not mounted in said case, and wherein said operational mode controller is configured to determine when said speech processor module is not mounted in said case based on information received from said detachable power supply. 13. A cochlear implant system, comprising: an external component comprising a speech processor module operable in a stand-alone mode of operation and a body-worn mode of operation, and comprising an internal microphone, wherein said speech processor module receives signals from said internal microphone when operable in said stand-alone mode of operation; a protective case configured to have said speech processor module removably mounted therein; an external microphone positioned external to said protective case, wherein said case enables electrical connection between said speech processor and said external microphone when said speech processor is mounted in said case; and an operational mode controller configured to determine when said speech processor module is mounted in said case and to place said speech processor module in said body-worn mode of operation when said module is mounted in said case, wherein said module receives signals from said external microphone when operable in said body worn mode of operation an implantable internal component that receives signals from the external component and provides stimulation. 14. The implant system of claim 13, wherein said case comprises: a base member; and a cover member matable with said base member to form an enclosure around said speech processor module when said module is mounted in said case, wherein when said cover member and said base member are attached to each other, said case is at least resistant to fluid ingress. 15. The implant system of claim 14, wherein said case is adapted to prevent all fluid ingress when said cover member is closed relative to said base member. 16. The implant system of claim 14, wherein said case is adapted to at least substantially prevent dust ingress when said cover member and said base member are mated to each other. 17. The implant system of claim 14, wherein said case further comprises: a sheath with a gasket around the perimeter thereof, wherein said sheath overlies said speech processor module when said speech processor module is mounted in said base member, and wherein said gasket and said sheath, when in position, can seal with a perimeter wall of said base member. 18. The implant system of claim 13, wherein said case further comprises an on board power supply, and wherein said case electrically connects said on board power supply to said speech processor module when said speech processor module is mounted in said case. 19. The external component of claim 18, wherein said operational mode controller is configured to determine when said speech processor module is mounted in said case based on a value of a resistor in said on board power supply. 20. The implant system of claim 13, wherein said speech processor module comprises a cable connector for receiving a cable, and wherein said case comprises an orifice configured to interface with said cable inserted in said cable connector, and wherein a grommet is provided to prevent fluid from entering said orifice. 21. The implant system of claim 13, wherein said operational mode controller is configured to determine when said speech processor module is mounted in said case based on identification information supplied by said on board power supply to said operational mode controller. 22. The implant system of claim 13, further comprising: an externally-accessible switch, and wherein said operational mode controller is configured to determine when said speech processor module is mounted in said case based on the configuration of said switch. 23. The implant system of claim 13, wherein said operational mode controller is configured to determine when said speech processor module is not mounted in said case and to place said speech processor module in said stand-alone mode of operation when said module is not mounted in said case. 24. The implant system of claim 23, further comprising: a power supply configured to be detachably secured to said speech processor module when said module is not mounted in said case, and wherein said operational mode controller is configured to determine when said speech processor module is not mounted in said case based on information received from said detachable power supply.
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