Touch panel having deformable electroactive polymer actuator
First Claim
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1. A touch panel comprising:
- an electroactive polymer (EAP) actuator which is deformable when protruded or depressed locally at a part to which a driving voltage is applied;
a flexible touch sensor which is disposed on the EAP actuator, is deformable locally in correspondence with a deformation of the EAP actuator, and senses an input according to a contact or pressing operation; and
a bumpy member disposed on the flexible touch sensor and formed of plastic or metal, the bumpy member being deformable locally in correspondence with a deformation of the flexible touch sensor,wherein the bumpy member comprises a plurality of unit bumpy members that are separated and arranged in a matrix form,wherein the EAP actuator comprises a plurality of layers which are stacked together to form a multi-layered EAP actuator, each layer of the plurality of layers comprising;
a polymer thin film formed from an electro-active polymer (EPA); and
a plurality of driving electrodes which are formed on a surface of the polymer thin film, and are configured to apply driving voltages to the polymer thin film, andwherein the EAP actuator is deformed in the same direction as the plurality of layers are stacked in layers.
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Abstract
A touch panel is provided. The touch panel includes an electroactive polymer (EAP) actuator which is deformable when protruded or depressed locally at a part to which a driving voltage is applied; and a flexible touch sensor which is disposed on the EAP actuator. The flexible touch sensor is deformable locally in correspondence with a deformation of the EAP actuator, and senses an input according to a contact or pressing operation.
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Citations
15 Claims
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1. A touch panel comprising:
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an electroactive polymer (EAP) actuator which is deformable when protruded or depressed locally at a part to which a driving voltage is applied; a flexible touch sensor which is disposed on the EAP actuator, is deformable locally in correspondence with a deformation of the EAP actuator, and senses an input according to a contact or pressing operation; and a bumpy member disposed on the flexible touch sensor and formed of plastic or metal, the bumpy member being deformable locally in correspondence with a deformation of the flexible touch sensor, wherein the bumpy member comprises a plurality of unit bumpy members that are separated and arranged in a matrix form, wherein the EAP actuator comprises a plurality of layers which are stacked together to form a multi-layered EAP actuator, each layer of the plurality of layers comprising; a polymer thin film formed from an electro-active polymer (EPA); and a plurality of driving electrodes which are formed on a surface of the polymer thin film, and are configured to apply driving voltages to the polymer thin film, and wherein the EAP actuator is deformed in the same direction as the plurality of layers are stacked in layers. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A touch panel comprising:
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a multi-layered electroactive polymer (EAP) actuator body comprising a plurality of polymer thin films that are formed with EAP and have a stacked structure, and a plurality of driving electrodes disposed between each of the polymer thin films; a flexible touch sensor which is disposed on the multi-layered EAP actuator body, and comprises a piezoelectric layer formed from a piezoelectric polymer, and a plurality of sensing electrodes formed on the piezoelectric layer, wherein current generated when the piezoelectric layer is pressed flows through the sensing electrodes; a bumpy member disposed on the flexible touch sensor and formed of plastic or metal, the bumpy member being deformable locally in correspondence with a deformation of the flexible touch sensor; a driving unit which is electrically connected to the driving electrodes and applies a driving voltage to the driving electrodes to form an electric field locally in the polymer thin films; and a sensing unit which is electrically connected to the sensing electrodes and senses current flowing through the sensing electrodes to detect an input location at which the piezoelectric layer is pressed, wherein the bumpy member comprises a plurality of unit bumpy members that are separated and arranged in a matrix form, wherein the multi-layered EAP actuator body comprises a plurality of unit layers having a stacked structure, and each of the unit layers comprises; a first polymer thin film formed from an EAP; a first driving electrode including a plurality of first electrode lines which are formed on the first polymer thin film and extend in a first direction; a second polymer thin film which is formed from an EAP and is formed on the first polymer thin film on which the first driving electrode is formed; and a second driving electrode comprising a plurality of second electrode lines which are formed on the second polymer thin film and extend in a second direction perpendicular to the first direction, wherein the driving unit applies different driving voltages to the first driving electrode and the second driving electrode, respectively, so that the first and second driving electrodes have opposite voltages, and wherein the EAP actuator is deformed in the same direction as the plurality of layers are stacked in layers. - View Dependent Claims (9, 10, 11, 12, 13, 14, 15)
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Specification