IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0013118
(2001-12-07)
|
우선권정보 |
JP-0397450 (2000-12-27); JP-0397451 (2000-12-27); JP-0005661 (2001-01-12); JP-0005662 (2001-01-12) |
발명자
/ 주소 |
- Kawashima, Mitsunori
- Suto, Shinji
- Kitazawa, Hirokazu
- Watanabe, Kazuhisa
|
출원인 / 주소 |
- Honda Giken Kogyo Kabushiki Kaisha
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
7 인용 특허 :
13 |
초록
▼
A suspension control method for controlling a suspension which includes respective actuators for left and right wheels of a vehicle, and which can apply forces in the upwards and downwards direction to the left and right vehicle wheels via these actuators. While the vehicle is being driven in a stra
A suspension control method for controlling a suspension which includes respective actuators for left and right wheels of a vehicle, and which can apply forces in the upwards and downwards direction to the left and right vehicle wheels via these actuators. While the vehicle is being driven in a straight line, control is performed by giving priority to ride comfort; and, while the vehicle is being driven around a curve, control is performed by giving priority to roll suppression.
대표청구항
▼
A suspension control method for controlling a suspension which includes respective actuators for left and right wheels of a vehicle, and which can apply forces in the upwards and downwards direction to the left and right vehicle wheels via these actuators. While the vehicle is being driven in a stra
A suspension control method for controlling a suspension which includes respective actuators for left and right wheels of a vehicle, and which can apply forces in the upwards and downwards direction to the left and right vehicle wheels via these actuators. While the vehicle is being driven in a straight line, control is performed by giving priority to ride comfort; and, while the vehicle is being driven around a curve, control is performed by giving priority to roll suppression. e an electromagnetic signal from said solenoid external coil. 8. The transcanal, transtympanic cochlear implant system of claim 1, wherein said insulated receiver coil and said wire mesh electrode are encased in insulation wraps. 9. The transcanal, transtympanic cochlear implant system of claim 1, including means for digitally pulsing said electromagnetic signals transmitted to said receiver coil. 10. The transcanal, transtympanic cochlear implant system of claim 8, wherein said wire mesh of said electrode as a grounding mechanism and is interposed between said second and third bones. 11. The transcanal, transtympanic cochlear implant system of claim 1, wherein said insulated receiver coil is an essentially continuous coil having an opening receiving a mesh within said opening. 12. The transcanal, transtympanic cochlear implant system of claim 11, including a J-shaped electrode integral with said insulated receiver coil. 13. The transcanal, transtympanic cochlear implant system of claim 12, wherein said J-shaped electrode includes a distal tipped end, with said tipped end uninsulated. 14. The transcanal, transtympanic cochlear implant system of claim 7, wherein said receiver is inductively coupled to said solenoid external coil to form an air-core isolation transformer in the signal path bridging said tympanic membrane. 15. A transcanal, transtympanic cochlear implant system to assist a human having impaired hearing, whether for treating deafness or tinnitus, where the human ear consists of an auditory canal, a middle ear space having an intact tympanic membrane with first, second and third bones, a cochlea, a scala tympani forming the lower compartment of the cochlea, with the voids thereof containing perilymph fluids, and auditory nerves connected to the brain, said system comprising: a) a first component for removably positioning within said auditory canal, said first component comprising, iii. a sound processor comprising at least one microphone for receiving sounds, iv. means for demodulating said sound to a radio frequency signal, v. a portable electrical power source; and b) a second component for implantation within said middle ear space, said second component comprising an insulated receiver coil for receiving said radio frequency signal and converting same to an electrical signal for transmission to said cochlea, said receiver coil adapted to be disposed between said second and third bones, and a wire mesh electrode located with said receiving coil functioning as a ground electrode. 16. The transcanal, transtympanic cochlear implant system of claim 15, including an application specific integrated circuit connected to said receiver coil and said wire mesh electrode, where said application specific integrated circuit converts said radio frequency signal into an electrical current to activate said nerves to interpret the information received as sound. 17. The transcanal, transtympanic cochlear implant system of claim 16, wherein said tympanic membrane is between said inner ear and said auditory canal, and said first component further comprises a molded insert in close proximity to said tympanic membrane, said molded insert containing a dual noise microphone system having a first microphone functioning as a condenser microphone element and a second microphone functioning in opposition to said first microphone for noise cancellation. 18. The transcanal, transtympanic cochlear implant system of claim 17, wherein said molded insert further includes means for controlling the volume of said sounds. 19. The transcanal, transtympanic cochlear implant system of claim 17, wberein said molded insert further includes a solenoid external coil to lie in close proximity to said tympanic membrane. 20. The transcanal, transtympanic cochlear implant system of claim 19, further comprising accessible means for retrieving said insert from said auditory canal. 21. The transcanal, transtympanic cochlear implant system of claim 17, wherein said insulated receiver coil and said wire mesh electrode are encased in insulation wraps to eliminate galvanic corrosion therebetween.
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