최소 단어 이상 선택하여야 합니다.
최대 10 단어까지만 선택 가능합니다.
다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
NTIS 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
DataON 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
Edison 바로가기다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
Kafe 바로가기국가/구분 | United States(US) Patent 등록 |
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국제특허분류(IPC7판) |
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출원번호 | US-0007705 (2001-12-06) |
발명자 / 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 | 피인용 횟수 : 261 인용 특허 : 20 |
The invention provides sensors that comprise a transducer that converts between mechanical energy and electrical energy. The transducer comprises an electroactive polymer in electrical communication with at least two electrodes. When a relatively small voltage difference is applied between the elect
The invention provides sensors that comprise a transducer that converts between mechanical energy and electrical energy. The transducer comprises an electroactive polymer in electrical communication with at least two electrodes. When a relatively small voltage difference is applied between the electrodes, deflection of the polymer results in a measurable change in electrical energy for the transducer. The change in electrical energy may correspond to a change in resistance, capacitance, or a combination thereof. Sensing electronics circuits in electrical communication with electrodes detect the electrical energy change.
1. A sensor for detecting a change in a parameter, the sensor comprising:a transducer including at least two electrodes in electrical communication with an electroactive polymer wherein the electroactive polymer has an elastic modulus below about 100 MPa, the transducer configured such that a portio
1. A sensor for detecting a change in a parameter, the sensor comprising:a transducer including at least two electrodes in electrical communication with an electroactive polymer wherein the electroactive polymer has an elastic modulus below about 100 MPa, the transducer configured such that a portion of the electroactive polymer deflects in response to the change in the parameter and the portion deflection produces an electrical change in the transducer; andsensing electronics in electrical communication with the at least two electrodes and designed or configured to detect the electrical change. 2. The sensor of claim 1 further comprising a logic device in electrical communication with the sensing electronics, the logic device configured to quantify the portion deflection using the electrical change received by the sensing electronics. 3. The sensor of claim 2 wherein the logic device is further configured to quantify the change in the parameter. 4. The sensor of claim 1 wherein the portion deflection produces an electrical impedance change in the transducer. 5. The sensor of claim 1 wherein the portion deflection produces a capacitance change in the transducer. 6. The sensor of claim 1 wherein the portion deflection produces a resistance change in the transducer. 7. The sensor of claim 1 further comprising a coupling mechanism that is a adapted for receiving input energy associated with the change in the parameter and transferring a portion of the input energy to the electroactive polymer. 8. The sensor of claim 7 wherein the coupling mechanism comprises a stiff member attached to the polymer and mechanically coupled to an object that produces the input energy associated with the change in the parameter. 9. The sensor of claim 7 wherein the coupling mechanism is a conductor in electrical communication with the transducer, the conductor providing electrical communication between the transducer and an object that produces a change in an electrical property. 10. The sensor of claim 9 wherein the portion deflection is produced as a result of a change in one of current, voltage, and resistance of the object. 11. The sensor of claim 1 wherein the transducer is configured to measure mechanical deflection of an object that the transducer is mechanically coupled to. 12. The sensor of claim 1 wherein the deflection of the portion of the electroactive polymer is a result of a change in at least one of strain, pressure, force, load, torque, displacement and temperature. 13. The sensor of claim 1 wherein the change in the parameter comprises a change in a physical property of the polymer. 14. The sensor of claim 13 wherein the change in the physical property of the polymer is the size of the polymer. 15. The sensor of claim 1 wherein the transducer is a monolithic transducer. 16. The sensor of claim 1 wherein the electroactive polymer is a dielectric elastomer. 17. The sensor of claim 1 wherein one or more of the at least two electrodes is compliant. 18. The sensor of claim 17 wherein the at least two electrodes comprise one of a colloidal suspension, a conductive grease, and a mixture of ionically conductive materials, a textured electrode, a high aspect ratio carbon material, and a conductive polymer. 19. The sensor of claim 1 further comprising a resistor that controls rate of charge moved to and from the polymer. 20. The sensor of claim 1 further comprising a voltage source in electrical communication with the at least two electrodes and configured to apply a voltage to the at least two electrodes. 21. The sensor of claim 1 wherein the sensing electronics communicate with the at least two electrodes using a wireless communication. 22. The sensor of claim 1 wherein the electroactive polymer is pre-strained. 23. A method of using an electroactive polymer transducer which comprises at least two electrodes in electrical communication with an electroactive polymer, the method comprising:applying a voltage difference between the at least t wo electrodes;deflecting the electroactive polymer wherein the electroactive polymer has an elastic modulus below about 100 MPa from a first position to a second position; anddetecting an electrical change in the transducer resulting from the deflection from the first position to the second position. 24. The method of claim 23 further comprising quantitatively converting the electrical change to the deflection from the first position to the second position. 25. The method of claim 23 wherein an initial voltage applied between the at least two electrodes is less than the voltage required to actuate the electroactive polymer from the first position to the second position. 26. The method of claim 23 further comprising removing charge from the at least two electrodes during the deflection from the first position to the second position. 27. The method of claim 23 wherein the deflection from the first position to the second position is associated with a change in a parameter of an object that the transducer is coupled to. 28. The method of claim 27 further comprising quantitatively converting the electrical change to the change in the parameter. 29. The method of claim 27 wherein the parameter is a mechanical property of the object. 30. The method of claim 23 further comprising controlling rate of moving charge to and from the polymer. 31. The method of claim 23 wherein the voltage applied between the at least two electrodes is an AC voltage. 32. The method of claim 31 wherein the voltage applied between the at least two electrodes is between about 1 mV and about 10,000 V. 33. The method of claim 23 wherein detecting the electrical change comprises detecting one of a capacitance change and a resistance change in the transducer. 34. The method of claim 23 further including pre-straining the polymer before applying the voltage. 35. The method of claim 23 wherein the electroactive polymer is a dielectric elastomer. 36. The method of claim 23 wherein detecting the electrical change comprises transmitting the electrical change to sensing electronics in electrical communication with the at least two electrodes. 37. The method of claim 36 wherein the sensing electronics detect a resistance change in one of the at least two electrodes. 38. The method of claim 23 wherein the sensing a electronics detect a resistance change in the polymer resulting from the deflection. 39. The method of claim 38 wherein the sensing electronics detect a capacitance change in the polymer. 40. The method of claim 23 further comprising removing charge from the at least two electrodes during deflection from the first position to the second position. 41. A sensor for detecting a change in a parameter, the sensor comprising:a transducer including at least two electrodes in electrical communication with an electroactive polymer wherein the electroactive polymer has an elastic modulus below about 100 MPa, the transducer configured such that a portion of the electroactive polymer deflects in response to the change in the parameter and the portion deflection produces a capacitance change in the transducer, andsensing electronics in electrical communication with the at least two electrodes and designed or configured to detect the capacitance change. 42. The sensor of claim 41 wherein the capacitance change is produced in the electroactive polymer. 43. The sensor of claim 41 wherein the at least two electrodes have a resistance approximately less than about 10% of the electroactive polymer resistance. 44. The sensor of claim 41 further comprising a voltage source in electrical communication with the at least two electrodes and configured to apply a voltage to the at least two electrodes. 45. The sensor of claim 41 wherein the sensing electronics are configured to operate in an AC mode. 46. The sensor of claim 41 further comprising a logic device in electrical communication with the sensing electronics, the logic device configured to quantify the portion deflection using t he electrical change received by the sensing electronics. 47. The sensor of claim 41 wherein the sensing electronics comprise a high resistance resistor in series with the at least two electrodes. 48. The sensor of claim 41 wherein one of the at least two electrodes is compliant. 49. A sensor for detecting a change in a parameter, the sensor comprising:a transducer including at least two electrodes in electrical communication with an electroactive polymer wherein the electroactive polymer has an elastic modulus below about 100 MPa, the transducer configured such that a portion of the electroactive polymer deflects in response to the change in the parameter and the portion deflection produces a resistance change in the transducer, andsensing electronics in electrical communication with the at least two electrodes and designed or configured to detect the resistance change. 50. The sensor of claim 49 wherein the portion deflection produces a resistance change in one of the at least two electrodes. 51. The sensor of claim 49 wherein the portion deflection produces a resistance change in the electroactive polymer resulting from the deflection. 52. The sensor of claim 51 wherein the at least two electrodes have a conductance greater than the electroactive polymer. 53. The sensor of claim 49 further comprising a voltage source in electrical communication with the at least two electrodes configured to apply a voltage to the at least two electrodes. 54. The sensor of claim 49 further comprising a resistor that controls rate of moving charge to and from the polymer. 55. The sensor of claim 54 wherein the resistor produces an RC time constant with the polymer that is at least faster than the rate of change of the parameter being measured. 56. The sensor of claim 49 wherein the sensing electronics detect a voltage change in response to the resistance change in the transducer. 57. The sensor of claim 56 further comprising a logic device in electrical communication with the sensing electronics, the logic device configured to quantify the portion deflection using the voltage change received by the sensing electronics. 58. The sensor of claim 56 wherein the sensing electronics operate in a DC mode. 59. The sensor of claim 49 wherein one of the at least two electrodes is compliant. 60. A sensor for detecting a change in a parameter, the sensor comprising:a transducer including at least two electrodes in electrical communication with an electroactive polymer wherein the electroactive polymer has an elastic modulus below about 100 MPa, the transducer configured such that a portion of the electroactive polymer deflects in response to the change in the parameter and the portion deflection produces a resistance change in the electroactive polymer; andsensing electronics in electrical communication with the at least two electrodes and designed or configured to detect the resistance change. 61. The sensor of claim 60 wherein the at least two electrodes have a conductance greater than the electroactive polymer. 62. The sensor of claim 60 wherein the sensing electronics communicate with the at least two electrodes using a wireless communication. 63. The sensor of claim 60 further comprising a voltage source in communication with the at least two electrodes and configured to apply a voltage to the at least two electrodes. 64. The sensor of claim 63 wherein the voltage source provides a high frequency AC signal. 65. The sensor of claim 60 further comprising a logic device in electrical communication with the sensing electronics, the logic device configured to quantify the portion deflection using the electrical change received by the sensing electronics. 66. The sensor of claim 60 wherein one of the at least two electrodes is compliant. 67. The sensor of claim 60 wherein the electroactive polymer is a dielectric elastomer. 68. The sensor of claim 60 further comprising a coupling mechanism that is designed or configured to receive input energy associated with the change in the parameter and transfer a portion of the input energy to the electroactive polymer. 69. A sensor for detecting a change in a parameter, the sensor comprising:a transducer including at least two electrodes in electrical communication with an electroactive polymer wherein the electroactive polymer has an elastic modulus below about 100 MPa, the transducer configured such that a portion of the electroactive polymer deflects in response to the change in the parameter and the portion deflection produces a resistance change in one of the at least two electrodes; andsensing electronics in electrical communication with the at least two electrodes and designed or configured to detect the resistance change. 70. The sensor of claim 69 wherein the one of at least two electrodes comprise carbon fibrils. 71. The sensor of claim 70 wherein the at least two electrodes comprise one of a colloidal suspension, a conductive grease, a mixture of ionically conductive materials, a textured electrode, a high aspect ratio carbon material, and a conductive polymer. 72. The sensor of claim 69 further comprising a voltage source in communication with the at least two electrodes configured to apply a voltage to the at least two electrodes. 73. The sensor of claim 72 wherein the voltage source provides a high frequency AC signal. 74. The sensor of claim 69 wherein one of the at least two electrodes is compliant. 75. A sensor for detecting a change in a parameter, the sensor comprising:a transducer including at least two electrodes in electrical communication with an electroactive polymer wherein the electroactive polymer has an elastic modulus below about 100 MPa, the transducer configured such that a portion of the electroactive polymer deflects in response to the change in the parameter and the portion deflection produces an impedance change in the transducer; andsensing electronics in electrical communication with the at least two electrodes and designed or configured to detect the impedance change. 76. The sensor of claim 75 wherein the impedance change comprises a resistance change in the electroactive polymer. 77. The sensor of claim 75 wherein the impedance change comprises a resistance change in one of the at least two electrodes. 78. The sensor of claim 75 wherein the impedance change comprises a capacitance change in the electroactive polymer. 79. The sensor of claim 75 further comprising a voltage source in electrical communication with the at least two electrodes configured to apply a voltage to the at least two electrodes. 80. The sensor of claim 75 wherein the sensing electronics detect a voltage change in response to the resistance change in the transducer. 81. The sensor of claim 75 wherein the electroactive polymer is a dielectric elastomer. 82. The sensor of claim 75 wherein one of the at least two electrodes is compliant. 83. A sensor array for detecting a change in one or more parameters, the sensor array comprising:at least one transducer comprising, at least two electrodes coupled to a first portion of at least one electroactive polymer wherein first portion the one electroactive polymer has an elastic modulus below about 100 MPa, the at least one transducer configured such that the first portion deflects in response to a first change in the one or more parameters and the first portion deflection produces a first electrical change in the at least one transducer;at least two electrodes coupled to a second portion of the at least one electroactive polymer, the at least one transducer configured such that the second portion deflects in response to a second change in the one or more parameters and the second portion deflection produces a second electrical change in the at least one transducer; andsensing electronics in electrical communication with the at least two electrodes coupled to the first portion and in electrical communication with the at least two electrodes coupled to the second portion, the sensing electr onics designed or configured to detect the first and second electrical change. 84. The sensor array of claim 83 wherein the at least one electroactive polymer is a monolithic electroactive polymer and the first portion and the second portion are both portions of the monolithic polymer. 85. The sensor array of claim 83 wherein the first portion of the at least one electroactive polymer responds to the first change independently to response of the second portion to the second change. 86. The sensor array of claim 83 further comprising a logic device in electrical communication with the sensing electronics, the logic device configured to quantify the first and second change using the electrical change received by the sensing electronics. 87. The sensor array of claim 83 further comprising a coupling mechanism that is designed to configured to receive adapted for receiving input energy associated with the first change in the one or more parameters and for transferring a portion of the input energy to the at least one electroactive polymer. 88. The sensor array of claim 83 wherein the at least one transducer is configured to measure mechanical deflection of an object that the transducer is mechanically coupled to. 89. The sensor array of claim 83 wherein the array comprises two transducers, and the first portion is included in a first electroactive polymer of the first transducer and the second portion is included in a second electroactive polymer of the second transducer. 90. The sensor array of claim 83 wherein the sensing electronics are configured to provide electrical energy to the at least two electrodes coupled to the first portion without providing electrical energy to the at least two electrodes coupled to the second portion. 91. The sensor array of claim 83 wherein the portion deflection produces a capacitance change in the transducer. 92. A sensor for detecting a change in a parameter, the sensor comprising:a transducer including at least two electrodes in electrical communication with an electroactive polymer, the transducer configured such that a portion of the electromotive polymer deflects in response to the change in the parameter and the portion deflection produces an electrical change in the transducer;sensing electronics in electrical communication with the at least two electrodes and designed or configured to detect the electrical change;a coupling mechanism adapted for receiving input energy associated with the change in the parameter and for transferring a portion of the input energy to the electroactive polymer wherein the coupling mechanism is a conductor in electrical communication with the transducer, the conductor providing electrical communication between the transducer and an object that produces a change in an electrical property. 93. A method of using an electroactive polymer transducer which comprises at least two electrodes in electrical communication with an electroactive polymer, the method comprising:applying a voltage difference between the at least two electrodes;deflecting the electroactive polymer from a first position to a second position; anddetecting an electrical change in the transducer resulting from the deflection from the first position to the second position wherein the deflection from the first position to the second position is associated with a change in a parameter of an object that the transducer is coupled to. 94. A sensor for detecting a change in a parameter, the sensor comprising:a transducer including at least two electrodes in electrical communication with an electroactive polymer wherein the at least two electrodes have a resistance approximately less than about 10% of the electroactive polymer resistance, the transducer configured such that a portion of the electroactive polymer deflects in response to the change in the parameter and the portion deflection produces a capacitance change in the transducer; andsensing electronics in electrical communication with the at leas t two electrodes and designed or configured to detect the capacitance change. 95. A sensor for detecting a change in a parameter, the sensor comprising:a transducer including at least two electrodes in electrical communication with an electroactive polymer, the transducer configured such that a portion of the electroactive polymer deflects in response to the change in the parameter and the portion deflection produces at least one of i) a capacitance change in the transducer, ii) a resistance change in the transducer; iii) an impedance change in the transducer or iv) combinations thereof;sensing electronics in electrical communication with the at least two electrodes and designed or configured to detect at least one of the capacitance change, the resistance change; the impedance change or combinations thereof anda voltage source in electrical communication with the at least two electrodes and configured to apply a voltage to the at least two electrodes. 96. The sensor of claim 95, wherein the resistance change of the transducer comprises a resistance change in one of the electroactive polymer, one or more of the at least two electrodes or combinations thereof. 97. A sensor array for detecting a change in one or more parameters, the sensor array comprising:at least one transducer comprising,at least two electrodes coupled to a first portion of at least one electroactive polymer, the at least one transducer configured such that the first portion deflects in response to a first change in the one or more parameters and the first portion deflection produces a first electrical change in the at least one transducer;at least two electrodes coupled to a second portion of the at least one electroactive polymer, the at least one transducer configured such that the second portion deflects in response to a second change in the one or more parameters and the second portion deflection produces a second electrical change in the at least one transducer;sensing electronics in electrical communication with the at least two electrodes coupled to the first portion and in electrical communication with the at least two electrodes coupled to the second portion, the sensing electronics designed or configured to detect the first and second electrical change; anda logic device in electrical communication with the sensing electronics, the logic device configured to quantify the first and second change using the electrical change received by the sensing electronics. 98. A sensor array for detecting a change in one or more parameters, the sensor array comprising:at least one transducer comprising,at least two electrodes coupled to a first portion of at least one electroactive polymer, the at least one transducer configured such that the first portion deflects in response to a first change in the one or more parameters and the first portion deflection produces a first electrical change in the at least one transducer;at least two electrodes coupled to a second portion of the at least one electroactive polymer, the at least one transducer configured such that the second portion deflects in response to a second change in the one or more parameters and the second portion deflection produces a second electrical change in the at least one transducer; andsensing electronics in electrical communication with the at least two electrodes coupled to the first portion and in electrical communication with the at least two electrodes coupled to the second portion, the sensing electronics designed or configured to detect the first and second electrical change wherein the array comprises two transducers, and the first portion is included in a first electroactive polymer of the first transducer and the second portion is included in a second electroactive polymer of the second transducer. 99. A sensor for detecting a change in a parameter, the sensor comprising:a transducer including at least two electrodes in electrical communication with an electroactive polymer, the transdu cer configured such that a portion of the electroactive polymer deflects in response to the change in the parameter and the portion deflection produces an electrical change in the transducer wherein the electroactive polymer is pre-strained; andsensing electronics in electrical communication with the at least two electrodes and designed or configured to detect the electrical change. 100. The sensor of claim 1 wherein one of a linear strain or an area strain is generated in the electroactive polymer by the deflection of the portion of the electroactive polymer. 101. The sensor of claim 100, wherein the strain is greater than about 1%. 102. The sensor of claim 100, wherein the strain is greater than about 10%. 103. The sensor of claim 1, wherein the sensor is integrated into or coupled to an object. 104. The sensor of claim 103, wherein the sensor is integrated into the object and is an inherent part of a structure of the object. 105. The sensor of claim 103, wherein the sensor is conformal to a surface of the object. 106. The sensor of claim 103, wherein the object is a textile or a fabric. 107. The sensor of claim 103, wherein the object is worn by a person. 108. The sensor of claim 103, wherein the object is a belt, glove or a piece of clothing. 109. The sensor of claim 103, wherein the object is a seat for a person. 110. The sensor of claim 109 wherein the sensor is adapted for detecting when a person is sitting in the seat. 111. The sensor of claim 109, wherein the seat is located in an automobile. 112. The sensor of claim 103, wherein the object is a medical device. 113. The sensor of claim 103, wherein the object is one of a toy, a doll, an animated device or a robotic device. 114. The sensor of claim 113, wherein the change in the parameter detected by the sensor is for triggering an action in the toy, the doll, the animated device or the robotic device. 115. The sensor of claim 1, wherein the sensor is adapted for measuring a biological property of a biological substance or a biological tissue. 116. The sensor of claim 115, wherein the biological substance or the biological tissue is one of bone, muscle, skin, a blood vessel, an organ or combinations thereof. 117. The sensor of claim 1, wherein the sensor is adapted for providing haptic feedback.
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