• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:

    公开号:AT510122A1
    申请号:T0944104
    申请日:2004-12-22
    公开日:2012-01-15
    发明作者:
    申请人:Cochlear Ltd;
    IPC主号:
    专利说明:

    - 1 -
    Cross-references to related applications
    The present application claims priority to Provisional Patent Application No. 2003907101 filed on Dec. 22, 2003, the contents of which are incorporated herein by reference.
    Field of the invention
    The present invention relates to prostheses, and more particularly to external portable hearing aid components. Background of the invention
    A cochlear implant hearing prosthesis conducts electrical stimulation to the fibers of the auditory nerve, thereby enabling the brain to experience a hearing sensation that mimics the natural hearing sensation normally transmitted by the auditory nerve.
    As shown in FIG. 5 of the prior art drawing, a cochlear implant hearing prosthesis typically includes an external component group 51 and an implantable component group 52.
    The external component group 51 includes a primary signal processor unit in the form of a voice processor unit 56, a transmitter pulp 57 and a microphone unit 58. The primary signal processor unit contains an internal power source, such as a number of batteries, and is connected via cables 59 to both the transmitter coil 57 and the microphone Microphone unit 58 connected.
    The internal component group 52 typically includes a receiver antenna 55, a receiver / stimulator unit 53, and an intracochlear electrode assembly 54.
    In operation, the microphone 58 detects sounds such as speech and ambient noise and converts them into an electrical signal. The electrical signal is then encoded by the electronics of the speech processor in the primary signal processor unit 56. The encoded output signal is then trans-transmitted to the internal component group 52 via a radio frequency (RF) link.
    Recently, the Sprachprozessoreznheit and the
    Microphone unit combined to form a single retainer worn behind the ear. This is called the Hmter-the-Ear (BTE) language processor unit.
    Referring to Figure 6 of Figure 3, the BTE speech processor unit 61 is normally preamp-playing by forming a " 1 "
    Main body and one in this, tangible 3att bergest ei J t. In this arrangement, the saturated bioiTij os can be replaced.
    The BTE speech process unit 61 is relative and must be subsequently ar. di
    Implantation of the implantable
    Component group 52 one. Be subjected to optimization procedures. While the functionality regarding the signa-processing aspects of the BTE speech processor unit may be varied by clinical software during the enhancement procedure, other functionality aspects in the practice of a clinician are usually more limited. This is especially true of external, user-coupled features.
    It is desirable to provide a device to improve on previous proposals or at least to create a useful alternative.
    Summary of the invention
    In a first aspect, the present invention is an auditory prosthesis system comprising: a first housing containing a primary signal processing unit that receives signals output from a microphone; and a plurality of second housings detachably connectable to the first housing; wherein only one of the second housing is connectable to the first housing: and wherein further at least one of the second housing has a user interface for controlling one or more functons! features of the primary S.i gnalprozessors has.
    According to a second aspect, the present invention consists of a prosthesis comprising: a first housing containing a primary signal processor unit which receives signals output from a microphone; and a second housing detachably connectable to the first housing; wherein on the second housing an öenutzerschnittstelle for controlling one or more features of the primary Si gnaiprozessors is provided.
    According to a third aspect, the present invention consists of a prosthesis comprising: a first housing containing a primary signal processing unit receiving signals output from a microphone; and a remote module; wherein a user interface for controlling one or more Funktionsmerkinaie ces primary signal processor is provided on the remote module.
    In another aspect, the present invention is a speech processor unit for a hearing prosthesis recipient, the speech processor unit comprising: a body adapted to be worn behind an ear of the auditory prosthesis receiver, the body comprising a primary signal processor for execution by the voice processor unit contains primary signal processing functions; and an exchangeable portion detachably connectable to the main body and including a user interface for communicating with the primary signal processor.
    According to another aspect, the present invention consists of a voice processor unit for the receiver of a cochlear leaflate, which voice processing unit comprises: a main body adapted to be worn behind an ear of the receiver of the auditory prosthesis, the main body comprising a primary signal processor for carrying out the hearing Speech processing unit associated with primary signal processing functions; and a replaceable part detachably connectable to the body, the replaceable part including a battery compartment and a user interface for communicating with the primary signal processor.
    Brief description of the drawings
    Preferred embodiments of the invention are described by way of example only, with reference to the accompanying drawings, in which:
    FIG. 1 is a side view of an external component of a hearing prosthesis according to the present disclosure; FIG.
    FIG. 2 is a side view of another external component of a hearing prosthesis according to the present disclosure; FIG.
    FIG. 3 is a view of another external component of a prosthesis according to the present disclosure; FIG. 4
    4 is a schematic view of a hearing prosthesis system according to the present disclosure;
    Fig. 5 is an example of an external component group according to the prior art; and
    Fig. 6 is another example of an external component group according to the prior art.
    Detailed description and best way of carrying out the fr-f indunq
    Referring to FIG. 1, a BTE speech processor unit 10 includes a first housing (or body) 11, an earhook 12, and a second housing (or replaceable portion) 13. The first and / or second housing may be made of metal, a ceramic material, a polymeric material or a combination thereof.
    The BTE speech processor unit 10 is connected to a header 37 via a cable 36 leading from the first housing 11.
    The first housing 11 contains primary signal processing electronics for operation of the BTE speech processor unit 10. In this example, a microphone 11a is mounted on the first housing 11. However, the microphone may also be located elsewhere, such as on the headpiece 37, at second housing 13 or on the robe of the receiver to be arranged.
    The headpiece 37 has an antenna coil 38, by means of which signals can be transmitted to a complementary antenna implanted in the receiver. In addition, the antenna coil 38 may receive signals from the implanted antenna. The antenna coil 36 surrounds a magnet 39, which is attracted by a complementary magnet implanted in the receiver. The magnetic attraction serves to hold the antenna coil 38 in use in the desired position on the head of the receiver.
    The BTE speech processor unit 10 further includes a second housing 13 which is separably connected to the first housing 11. The second housing 13 is. normally to be exchanged by the receiver.
    The second housing 13 contains a user interface panel 14 with two pushbuttons 15, 16 and a number switch 17. The pushbutton 15 is used to activate and deactivate the speech processor in the first housing 11 and also to select the voice processor program to be executed in front of the speech processor , The volume and sensitivity of the speech processor can be adjusted with the Mummerr.scha 11er 17, 'while the receiver or caregiver with the push button 16 can choose whether the input to the speech processor by means of microphone, a receiving coil or a mixture of inputs. The user interface control panel 14 is attached to the second housing 13 either detachably or non-detachably.
    The present inventors have realized that the possibility of replacement or replacement of the user interface can bring significant benefits to the recipient compared to the manufacturing cost and end price for an external component group of a hearing prosthesis. For example, older pushbuttons may be desired for older people, while children and toddlers may need controls that are easier to block. Likewise, an experienced user may require a more complicated interface and / or greater flexibility in the internal operation of the speech processor.
    Another advantage is that the recipients can choose the most appropriate interface for themselves and / or their lifestyle. You also have the option of waiting until the voice processor unit has been purchased to make the final decision as to which user interface they want to use. If desired, they can also customize the user interface of their system without having to purchase a new speech processor unit.
    The system also has the advantage that the user can update his interface if so desired. An update can be made if a novel user interface is available and / or if the user interface has defects and therefore needs to be replaced. The user interface to be operated is easily damaged, and the ability to handle the user interface parts without having to immediately replace the voice processor unit is an advantage of the present system.
    Another advantage of the BTE speech processor unit is that the parts that are most easily damaged and / or not so expensive can be easily replaced. 6
    With reference now to Big. 2 is a voice-over-processor unit 20 with an alternative user-5. itts divide-control panel 24 to see. As with the utility shift control panel described with reference to FIG. 1, the service station 24 of FIG. 2 may also be detachably or non-detachably attached to the second housing 23
    The user interface bar field 24 includes two tactile position controls, 2j, 2, 6, which, by their position, provide feedback to the receiver and / or maintainer of setting these controls. Both tactile position controls 25, 26 have a switch that is movable between at least three settings. The switch 25 is a Dre.wegc, switch, with which a receiver and / or caregiver can choose the opraebprogramm to be used. The number switch 2 / lets you adjust the volume and sensitivity of the oprach processor. With the switch 26, a receiver and / or caregiver can set whether the speech processor receives inputs from the microphone, a receive coil, or a mix of such inputs. With the switch 26, the receiver and / or maintainer can also adjust the function of the speech processor to detect relatively quiet sounds such as whispering.
    In Fig. 2, the user interface 24 is housed in a compliant, flexible sleeve 28. The shell 28 protects the user interface 24, but also allows for more precise control of the user interface 24 by the recipient and / or maintainer.
    In the arrangements according to FIGS. 1 and 2, the first housing 11 for the speech processor contains no user interface. Therefore, any change in its operating behavior over the
    User interface of the second. Housing (13 or 23) take place.
    As shown in FIGS. 1 and 2, more than one kind of second housing may be detachably mounted to the first housing 11. The various types of second housings may differ in the nature of the user interface thereon. Thus, a recipient and / or carer can adapt the hearing prosthesis to his needs by selecting the user cut cell to be used at a particular time with the hearing prosthesis. /
    The first housing containing the speech processing unit may be connectable to more than one type of power source.
    In the examples of Figs. 1 and 2, the second housing (13 or 23) contains a power source for supplying the components of the proresis. By attaching the second housing (13 or 23) to the first housing 11, the power source can provide power to the voice processor via an electrical connection. The energy source in the second housing preferably has one or more rechargeable batteries.
    Referring now to Figure 3, the first housing 11 and an ear hook 12 are shown as previously described with reference to Figure 1. In contrast to the arrangement shown in FIG. 1, however, an assembly 300 is provided instead of the second housing 13. The assembly 300 includes a terminal unit 31a and a cable 33 connected
    Remote module 32.
    The first housing 11 is the cable 33 for the data and energy transfer between the remote module 32 and a terminal * 'unit 31 a, which is detachably connectable to the speech processor 31. However, it will be appreciated that the data and control signals may also be transmitted wirelessly between the remote module 32 and the voice processor, or vice versa.
    The remote module 32 contains a user interface operating control 34, which may be removable / interchangeable from the connection unit 31a. A removable / interchangeable interface panel 34 allows the recipient and / or caregiver to further customize the prosthesis by selecting the user interface to use with the auditory prosthesis at a particular time.
    The user interface panel 34 contains two pressure switches and a number switch similar to the one previously described with respect to tig. 1 described Benfzerschnittstelien Bedienststte 14th
    In the example illustrated in FIG. 3, the core module 32 also houses an energy source for at least some of the components of the external component 30 and in particular the speech processor. Preferably, the power source consists of two rechargeable batteries 3a,
    The remote module 32 may be carried on the body of the receiver, e.g. attached to or stored in the pocket of the recipient's robe.
    Referring now to Figure 4, a system of interchangeable parts will now be described.
    The first housing 11 may be provided as part of a hearing prosthesis system 40 that may include a plurality of interchangeable configurations. This gives the receiver or supervisor several choices available, which can be connected to the housing of the speech processor at a given time everything.
    The system 40 provides the ability to connect a second housing 41 to a power source 42 and a radio frequency (RF) receiver circuit that receives and processes RF signals output from the remote module 32. In this arrangement, the remote module 32 includes an RF signal transmission circuit for transmitting signals to the housing 41 in response to adjustments made on the user interface 34 on the remote module.
    The system 40 may also provide the ability to connect a second housing 43 to a power source, an optical display 44, and a user interface 45. The exemplary optical display 44 is a liquid crystal display, but other suitable displays may be used.
    The liquid crystal display 44 provides feedback to the receiver or maintainer regarding the performance of the system 40.
    The system 40 may also include the option of connecting a second housing 46 to a power source and circuitry that not only receives and processes RF signals but may also send signals back to a Fermi module 47. In this case, the remote module 47 includes, in addition to a power source, a user interface 48 and a liquid crystal display (LCD) 49 for providing feedback to the receiver or maintainer regarding the performance of the system 40.
    Optionally, the user interface of the first housing may control some or all of the features that are controllable with the user interface on the second housing 23 and / or on the remote module 32. The user interface of the first housing, if any, may be partially or wholly disabled when a second housing 23 and / or a remote module 32, as defined herein, is used in conjunction with the first housing of the prosthesis. The user interface of the first housing may be detachably or non-detachably attached to the first housing.
    The user interface of the second housing 23 and / or remote module 32 may be selected from a number of different types of user interfaces available for use by the recipient of the hearing prosthesis or the caregiver of the recipient. For example, the user interface of the second. Housing 23 the same as those on a remote module 32 be present or differ from it. When a user interface is provided on the first housing, the user interface of the second housing and / or the remote module may be different than that provided on the first housing.
    In alternative embodiments, a form of user interface may be provided on the first housing 11 for controlling various other features of the auditory prosthesis, rather than being driven by the user interface panel of the second housing 23 and / or the module 32.
    Those skilled in the art will recognize that numerous variations and / or modifications may be made to the invention as illustrated in the specific embodiments without departing from the scope of the invention as generally described. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive.
    The word " having or variations " " as used throughout the specification has " or " having " It should be understood that it is the inclusion of a specified element, in whole or as a part of it, or a group of elements, whole or part, but not the exception of any other element, total, or part Group of elements, in whole or in part, implies.
    Those skilled in the art will recognize that numerous variations and / or modifications may be made to the invention as embodied in the specific embodiments without departing from the spirit or scope of the invention as generally described. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive.
    权利要求:
    Claims (3)
    [1]
    Claims 1. A hearing aid system comprising: a first housing containing a primary signal processor for receiving signals output from a microphone; and a plurality of second housings detachably connectable to the first housing; wherein only one of the second housings is connectable to the first housing, and further wherein at least one of the second housings has a user interface for controlling one or more features of the primary signal processor. The auditory prosthesis system of claim 1, wherein one or more of the plurality of second housings includes an energy source for at least some of the components of the prosthesis. The auditory prosthetic system of claim 1 or 2, wherein one or more of the plurality of second housings includes a power source and a user interface for controlling one or more features of the primary signal processor. 4. auditory prosthesis system according to one of the preceding claims, wherein one or more of the plurality of second housings via an electrically conductive line to a source of energy exhibiting remote module can be connected. 5. auditory prosthesis system according to one of the preceding claims, wherein one or more of the plurality of second housings can be connected via an electrically conductive line to a source of energy exhibiting remote module and wherein a user interface is provided on the remote module. 6. auditory prosthesis system according to any one of the preceding claims, wherein one or more of the plurality of second housings are connected via an electrically conductive line to a remote module and wherein this one or more of the plurality of second housings are provided with a user interface and the remote module one Energy source has. 12. The prosthetic ear system of claim 1, wherein one or more of the plurality of second housings are connectable to a remote module via an electrically conductive lead and wherein the remote module includes a power source and a user interface. The auditory prosthesis system of any of the preceding claims, wherein one or more of the plurality of second housings includes signal receiving means for receiving signals from a remote module having a user interface. 9. A hearing prosthesis system according to claim 8, wherein the signal receiving means comprises a signal receiving circuit for the reception and processing of output from the remote module high frequency signals. 10. A hearing prosthesis system according to claim 8 or 9, wherein the second housing comprises a power source. The auditory prosthetic system of any one of claims 8 to 10, wherein the remote module includes a signal transmission circuit that transmits high frequency signals to the second housing in response to settings on the user interface. 12. A hearing prosthesis system according to any one of the preceding claims, wherein one or more of the plurality of second housings comprise a signal transceiver for receiving and transmitting signals to and from a remote module having a user interface. 13. auditory prosthesis system according to claim 12, wherein the signal transmitting / receiving means comprises a signal transmitting / receiving circuit which receives high-frequency signals from the remote module or sends to the remote module. The auditory prosthesis system of claim 12 or 13, wherein the remote module includes a signal transceiver circuit that receives high frequency signals from the remote module or transmits to the remote module 13 in response to adjustments to the user interface. 15. auditory prosthesis system according to one of the preceding claims, wherein one or more of the plurality of second housings having a visual display. The auditory prosthesis system of claim 15, wherein the one or more of the plurality of second enclosures also includes an energy source and / or a user interface. 17. The auditory prosthesis system according to claim 15 or 16, wherein the optical display comprises one or more light emitting diodes (LED) and / or a liquid crystal display (LCD). The auditory prosthesis system of any one of claims 15 to 17, wherein the visual display provides a receiver of the system or its caregiver with information about the performance of one or more aspects of the prosthetic system. 19. A hearing prosthesis system according to one of the preceding claims, wherein one or more of the second housing having a detachably mounted on the second housing user interface. 20. A hearing prosthesis system according to claim 19, wherein a plurality of different user interfaces are connectable to the second housing. 21. Hearing prosthesis system according to claim 20, wherein only one user interface can be connected to the second housing. 22. The auditory prosthesis system according to any one of claims 4 to 14, wherein the remote module comprises a visual display. 23. The auditory prosthesis system according to claim 22, wherein the visual display comprises one or more light emitting diodes (LED) and / or a liquid crystal display (LCD). The auditory prosthetic system of claim 22 or 23, wherein the visual display provides a receiver of the system or its caregiver with information about the performance of one or more aspects of the prosthetic system. 25. The auditory prosthesis system of claim 1, wherein the first housing containing the primary signal processor has no user interface. 26. The hearing prosthesis system according to claim 1, wherein a user interface is provided on the first housing. 27. auditory prosthesis system according to any one of the preceding claims, wherein the user interface comprises one or more push buttons or switches and / or one or more number switches or knobs. The auditory prosthetic system of claim 27, wherein the user interface comprises a push button that activates and / or deactivates the primary signal processor and / or selects the program of the primary signal processor. The hearing prosthesis system of claim 27 or 28, wherein the user interface comprises a number switch that permits adjustment of the volume and sensitivity of the primary signal processor. The hearing aid system according to any one of claims 27 to 29, wherein the user interface comprises a further pushbutton allowing selection of whether the input to the primary signal processor is by means of a microphone, a receiving coil or a mix of inputs. 31. The auditory prosthesis system according to claim 1, wherein the user interface has at least one tactile position control, which provides by its position a feedback regarding the setting of this control to the receiver and / or the caregiver, 32. The hearing prosthesis system according to claim 31, wherein the tactile position control having a switch movable between at least two settings. The auditory prosthesis system of any one of claims 26 to 26, wherein the user interface parts include a first three-way switch that allows a receiver and / or caregiver to select the speech program to use, a master switch that adjusts the volume and sensitivity of the primary Speech processor allowed, and a second three-way switch, with which a receiver and / or its maintainer can set whether the speech processor receives inputs from the microphone, a receiving coil or a mixture of such inputs. 34. An auditory prosthesis system according to any one of the preceding claims, wherein the user interface is housed substantially in a resilient, flexible sheath. 35. An auditory prosthesis system according to one of the preceding claims, wherein the first housing, which contains the primary signal processor unit, is connectable to more than one type of energy source. 36. hearing prosthesis system according to one of the preceding claims, wherein the second housing is connectable in at least two orientations and / or at least two configurations of the first housing. 37. A hearing prosthesis system according to one of the preceding claims, wherein at least the first housing and the second housing are positionable on the ear of the receiver. 38. auditory prosthesis system according to one of the preceding claims with a cochlear implant system. 39. A hearing prosthesis comprising: a first housing containing a primary signal processor which receives signals output from a microphone; and a second housing detachably connectable to the first housing; wherein on the second housing a user interface is provided for controlling one or more features of the primary signal processor. 40 40. The hearing prosthesis according to claim 39, wherein the second housing has a power source. 41. A hearing prosthesis according to claim 39 or 40, wherein the second housing is connectable to a remote module. 42. The hearing prosthesis according to claim 41, wherein the remote module has a further user interface. 43. A hearing prosthesis according to claim 42, wherein the further user interface of the remote module is detachably or non-detachably mounted on the remote module. The hearing prosthesis according to claim 42 or 43, wherein the further user interface of the remote module controls various features of the auditory prosthesis to the features controlled by the user interface of the second housing. 45. A hearing prosthesis according to claim 42 or 43, wherein the further user interface of the remote module controls some or all of the same features of the hearing prosthesis, which are controlled by the user interface of the second housing. 46. An auditory prosthesis according to any one of claims 41 to 45, wherein the user interface of the second housing is partially or completely disabled when the remote module is in use with the second housing of the hearing prosthesis. 47. hearing prosthesis according to claim 42, wherein the further user interface is attachable to both the remote module and the second housing. 48. An auditory prosthesis according to any one of claims 41 to 47, wherein the remote module comprises a visual display. 49. A hearing prosthesis according to claim 48, wherein the optical display comprises one or more light emitting diodes (LED) and / or a liquid crystal display (LCD). 5C. An auditory prosthesis according to claim 48 or 49, wherein the optical • · · Λ

    Display a receiver of the system or its caregiver with information about the quiet lungs behavior of one or more aspects of the prosthesis. 51. A hearing prosthesis comprising: a first housing containing a primary signal processor which receives signals issued by a microphone; and a remote module; wherein the remote module has a user interface for controlling one or more features of the primary signal processor. 52. A hearing prosthesis according to claim 51 with a one-way or two-way wireless communication between the remote module · and the primary signal processor. 53. A hearing prosthesis according to claim 51, wherein signals are transmitted from the remote module to the primary signal processor and / or from the primary signal processor to the remote module using one or more cables or a radio frequency transmission system. 54. An auditory prosthesis according to any one of claims 51 to 53, wherein the user interface is removably or non-detachably attached to the remote module ·. 55. An auditory prosthesis according to any one of claims 39 to 54, wherein the user interface comprises one or more push buttons or switches and / or one or more number switches or rotary controls. 56. An auditory prosthesis according to claim 55, wherein the user interface comprises a push button that activates and / or deactivates the primary signal processor and / or selects the program of the primary signal processor. 57. An auditory prosthesis according to claim 55 or 56, wherein the user interface comprises a nuramern switch which controls the adjustment of the volume and sensitivity of the primary unit. · · · · · · · · # · * ·· »* * * * ··% * · · * - 18 58. An auditory prosthesis according to any one of claims 56 or 57, wherein the user interface has a further push button, which allows the choice of whether the input to the primary signal processor by means of microphone, a Empfangsspul e or a mixture of inputs. 59. A hearing prosthesis according to any one of claims 39 to 54, wherein the user interface comprises at least one tactile position control, which provides by its position feedback on the setting of this control to the receiver and / or the caregiver. 60. A hearing prosthesis according to claim 59, wherein the tactile position control comprises a switch movable between at least two settings. 61. An auditory prosthesis according to any one of claims 39 to 54, wherein the user interface a first three-way switch, with which a receiver and / or his caregiver can select the language program to be used, a number switch that allows the adjustment of the volume and sensitivity of the primary speech processor , and a second three-way switch, with which a receiver and / or its maintainer can set whether the speech processor receives inputs from the microphone, a receiving coil or a mixture of such inputs. 62. An auditory prosthesis according to any one of claims 39 to 61, wherein the user interface is housed substantially in a resilient, flexible sheath. 63. An auditory prosthesis according to any one of claims 39 to 62, wherein at least the first housing and the second housing are positionable on the ear of the receiver. 64. An auditory prosthesis according to any one of claims 39 to 63 with a cochlear implant.
    [2]
    65. A speech processor unit for the recipient of a hearing prosthesis, the voice processor unit comprising: a body adapted to be worn behind an ear of the recipient of the hearing prosthesis, the body having a primary signal processor for passing through the primary processor associated with the voice processor unit Signa 1 contains processing functions; and an exchangeable portion detachably connectable to the body and including a user interface for communicating with the primary signal processor.
    [3]
    A speech processor unit for the cochlear implant recipient comprising: a body adapted to be worn behind an ear of the cochlear implant receiver, the body containing a primary signal processor for performing primary signal processing functions associated with the speech processor unit; and a replaceable part detachably connectable to the body, the replaceable part including a battery compartment and a user interface for communicating with the primary signal processor.
    类似技术:
    公开号 | 公开日 | 专利标题
    AT510122B1|2012-11-15|HÖRPROTHESENSYSTEM
    DE102006036069B4|2008-09-04|Audiological transmission system
    EP0591791A1|1994-04-13|Programmable hearing-aid
    DE10015421C2|2002-07-04|Partially or fully implantable hearing system
    EP1246503A2|2002-10-02|Completely implantable hearing system
    EP1519623B1|2011-06-29|Remote control for hearing aids
    WO2008009362A1|2008-01-24|System for the transcutaneous stimulation of a nerve of the human body
    EP1471866A1|2004-11-03|Remote-control vibrator
    EP2040488B1|2011-03-16|Tool for inserting an earpiece of a hearing aid into an auditory canal
    DE19600234A1|1997-07-10|Hearing aid adjustment and adapting method and arrangement
    DE102010040930B4|2014-02-06|Hearing aid with a battery charger
    EP2023668B1|2019-11-20|Hearing aid with visualised psycho-acoustic magnitudes and corresponding method
    DE102004009269B4|2007-01-04|pocket hearing aid
    DE10115896C2|2003-12-24|Transmitter and / or receiver unit, which can be releasably connected to a hearing aid, and a programmable hearing aid
    EP1198973A2|2002-04-24|Device for adapting at least one acoustic hearing aid
    EP1933593B1|2012-01-25|Method of side definition when fitting hearing aids
    DE102008060056B4|2011-12-15|Method and hearing aid system for adapting a bimodal supply
    DE19652794B4|2004-04-01|Programmable hearing aid
    DE102008022925A1|2009-06-04|Hearing aid for use with charging device, has housing, programmable signal processing unit, battery box for supporting chargeable battery and programming interface for transferring programming data
    DE102008031581B4|2013-03-21|Hearing aid system with microphone module
    DE102011078675B4|2014-01-02|Impression structure for a hearing device
    DE102005033000A1|2006-11-09|peripheral
    CN104918656B|2017-12-08|Sound processor apparatus with bimodulus tack interface assembly
    DE102013001447A1|2014-07-31|Method for adjusting portable hearing aids connected to e.g. computer, involves connecting hearing aid to mobile transmitting and receiving unit through wireless connection which is connected to computer for adjusting hearing aids
    DE102018207918A1|2019-11-21|A method of charging an ear canal-mounted electrical device, electrical device, charging module and hearing system
    同族专利:
    公开号 | 公开日
    KR20120086751A|2012-08-03|
    WO2005062668A1|2005-07-07|
    US10029095B2|2018-07-24|
    US8788050B2|2014-07-22|
    AT510122B1|2012-11-15|
    US9375572B2|2016-06-28|
    US20190009090A1|2019-01-10|
    US20160296755A1|2016-10-13|
    US10904675B2|2021-01-26|
    US20210219064A1|2021-07-15|
    KR101198055B1|2012-11-06|
    US20080288022A1|2008-11-20|
    KR20060121287A|2006-11-28|
    US20150051667A1|2015-02-19|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    DE3723809A1|1987-07-18|1989-01-26|Bosch Gmbh Robert|Hearing aid to be worn behind the ear|
    DE10228828C1|2002-06-27|2003-10-16|Siemens Audiologische Technik|Modular hearing aid has respective microphones in replaceable microphone module and main hearing aid module|
    EP0298323A1|1987-07-07|1989-01-11|Siemens Aktiengesellschaft|Hearing aid apparatus|
    CA2014960C|1990-04-19|1995-07-25|Horst Arndt|Modular hearing aid|
    US5824022A|1996-03-07|1998-10-20|Advanced Bionics Corporation|Cochlear stimulation system employing behind-the-ear speech processor with remote control|
    US6532295B1|1999-12-10|2003-03-11|Sonic Innovations, Inc.|Method for fitting a universal hearing device shell and conformal tip in an ear canal|
    AU6814201A|2000-06-01|2001-12-11|Otologics Llc|Method and apparatus for measuring the performance of an implantable middle ear hearing aid, and the response of patient wearing such a hearing aid|
    DE10048341C5|2000-09-29|2004-12-23|Siemens Audiologische Technik Gmbh|Method for operating a hearing aid device and hearing device arrangement or hearing aid device|
    US7551894B2|2003-10-07|2009-06-23|Phonak Communications Ag|Wireless microphone|
    AT510122B1|2003-12-22|2012-11-15|Cochlear Ltd|HÖRPROTHESENSYSTEM|US8811643B2|2003-05-08|2014-08-19|Advanced Bionics|Integrated cochlear implant headpiece|
    WO2010056768A1|2008-11-12|2010-05-20|Advanced Bionics, Llc|Modular speech processor headpiece|
    US8270647B2|2003-05-08|2012-09-18|Advanced Bionics, Llc|Modular speech processor headpiece|
    CN102245262B|2008-11-12|2014-03-12|领先仿生有限公司|Integrated cochlear implant headpiece|
    US7599508B1|2003-05-08|2009-10-06|Advanced Bionics, Llc|Listening device cap|
    AT510122B1|2003-12-22|2012-11-15|Cochlear Ltd|HÖRPROTHESENSYSTEM|
    WO2006071210A1|2003-12-24|2006-07-06|Cochlear Americas|Transformable speech processor module for a hearing prosthesis|
    DE102005061795B4|2005-12-23|2008-01-03|Siemens Audiologische Technik Gmbh|hearing aid module|
    DE102006029958A1|2006-06-29|2008-01-03|Siemens Audiologische Technik Gmbh|Modular behind-the-ear hearing aid|
    DE102006062423B4|2006-12-27|2010-11-25|Siemens Audiologische Technik Gmbh|Hearing device with a Schallleitstück or housing part made of injection molding|
    US8437860B1|2008-10-03|2013-05-07|Advanced Bionics, Llc|Hearing assistance system|
    US8750546B2|2008-10-03|2014-06-10|Advanced Bionics|Sound processors and implantable cochlear stimulation systems including the same|
    KR101065018B1|2010-08-11|2011-09-19|현대로템 주식회사|Broadcasting apparatus for a railway car for a user wearing a hearing aid of telecoil type|
    US20120041515A1|2010-08-16|2012-02-16|Werner Meskens|Wireless remote device for a hearing prosthesis|
    US20120078628A1|2010-09-28|2012-03-29|Ghulman Mahmoud M|Head-mounted text display system and method for the hearing impaired|
    WO2012082319A1|2010-12-17|2012-06-21|Advanced Bionics Ag|Sound processor housings, sound processors and implantable cochlear stimulation systems including the same|
    WO2012083202A1|2010-12-17|2012-06-21|Advanced Bionics Ag|Sound processor housings, sound processors and implantable cochlear stimulation systems including the same|
    EP2651509B1|2010-12-17|2016-01-06|Advanced Bionics AG|Sound processor housings, sound processors and implantable cochlear stimulation systems including the same|
    US9774964B2|2010-12-28|2017-09-26|Sonova Ag|PIM housing|
    EP2663362B1|2011-01-11|2016-04-27|Advanced Bionics AG|Sound processors having contamination resistant control panels and implantable cochlear stimulation systems including the same|
    EP2671392B1|2011-02-04|2018-01-24|Advanced Bionics AG|Modular adapter assembly for telecoil and auxiliary audio input device mixing|
    EP2670476B1|2011-02-04|2016-09-14|Advanced Bionics AG|Modular auditory prosthesis system and corresponding method|
    US8923541B2|2011-06-29|2014-12-30|Advanced Bionics Ag|Two-piece sound processor system for use in an auditory prosthesis system|
    US9358389B2|2011-06-29|2016-06-07|Advanced Bionics Ag|Two-piece sound processor system for use in an auditory prosthesis system|
    US9615180B2|2013-01-15|2017-04-04|Advanced Bionics Ag|Sound processor apparatus with dual-mode earhook interface assembly|
    WO2017152975A1|2016-03-09|2017-09-14|Sonova Ag|A hearing device and a method of adapting a hearing device|
    EP3446498A4|2016-04-22|2019-11-13|Cochlear Limited|Microphone placement|
    KR101804237B1|2016-09-20|2017-12-04|경북대학교 산학협력단|A bellows vibrator and a hearing device comprising the same|
    US10665243B1|2016-11-11|2020-05-26|Facebook Technologies, Llc|Subvocalized speech recognition|
    WO2019190374A1|2018-03-27|2019-10-03|Telefonaktiebolaget Lm Ericsson |Signalling of frequency-domain resource assignment|
    US10828489B2|2018-11-30|2020-11-10|Advanced Bionics Ag|Wearable case for hearing device and methods for using the same|
    US11064305B2|2019-09-30|2021-07-13|Sonova Ag|Systems and methods for using a selectively configurable interface assembly to program a hearing device|
    法律状态:
    2020-08-15| MM01| Lapse because of not paying annual fees|Effective date: 20191222 |
    优先权:
    申请号 | 申请日 | 专利标题
    AU2003907101A|AU2003907101A0|2003-12-22|Modular, interchangeable user interface for hearing prostheses|
    PCT/AU2004/001803|WO2005062668A1|2003-12-22|2004-12-22|Hearing system prostheses|
    [返回顶部]