Bi-stable electrowetting optical element and driving method therefor
First Claim
1. An optical element comprising a closed cell, containing a first fluid and a second fluid, wherein the first fluid is conductive and the second fluid coloured and immiscible with the first fluid, a first electrode, covered with a first hydrophobic, insulating layer and located at a first wall the cell, a voltage between the first electrode and the first fluid being controllable in order to control an area of the first hydrophobic layer that contacts the first fluid, and thereby an amount of light that is transmitted through the cell in a direction perpendicular to the first wall, wherein the cell comprises a second electrode covered by a second hydrophobic, insulating layer, and the optical element comprises means for applying a voltage between the first fluid and, alternately, the first electrode or the second electrode, wherein the first electrode is planar and parallel with the first wall, and wherein the second electrode extends substantially perpendicular to the first electrode.
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Accused Products
Abstract
An optical element used, e.g., in an electrowetting display device having a number of pixels, is arranged in an array. Each optical element includes a cell filled with a polar conductive fluid, such as a water solution, and a non-polar fluid, such as an oil. The cell further includes first and second planar electrodes covered with first and second hydrophobic layers. By applying a voltage between the first fluid and alternately the first or second electrodes, the oil is forced to migrate between the first and second hydrophobic layers. Thus a bi-stable, energy efficient optical element is provided.
28 Citations
9 Claims
- 1. An optical element comprising a closed cell, containing a first fluid and a second fluid, wherein the first fluid is conductive and the second fluid coloured and immiscible with the first fluid, a first electrode, covered with a first hydrophobic, insulating layer and located at a first wall the cell, a voltage between the first electrode and the first fluid being controllable in order to control an area of the first hydrophobic layer that contacts the first fluid, and thereby an amount of light that is transmitted through the cell in a direction perpendicular to the first wall, wherein the cell comprises a second electrode covered by a second hydrophobic, insulating layer, and the optical element comprises means for applying a voltage between the first fluid and, alternately, the first electrode or the second electrode, wherein the first electrode is planar and parallel with the first wall, and wherein the second electrode extends substantially perpendicular to the first electrode.
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6. An optical element comprising a closed cell, containing a first fluid and a second fluid, wherein the first fluid is conductive and the second fluid is coloured and immiscible with the first fluid, a first electrode, covered with a first hydrophobic, insulating layer and located at a first wall in the cell, a voltage between the first electrode and the first fluid being controllable in order to control an area of the first hydrophobic layer that contacts the first fluid, and thereby an amount of light that is transmitted through the cell in a direction perpendicular to the first wall, wherein the cell com rises a second electrode covered by a second hydrophobic, insulating layer, and the optical element comprises means for applying a voltage between the first fluid and, alternately, the first electrode or the second electrode, and at least one hydrophobic material bridge between the first hydrophobic layer and the second hydrophobic layer.
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8. A display device, comprising a plurality of picture elements, each picture element comprising an optical element, the optical element comprising a closed cell, containing a first fluid and a second fluid, wherein the first fluid is conductive and the second fluid is coloured and immiscible with the first fluid, a first electrode, covered with a first hydrophobic, insulating layer and located at a first wall in the cell, a voltage between the first electrode and the first fluid being controllable in order to control an area of the first hydrophobic layer that contacts the first fluid, and thereby an amount of light that is transmitted through the cell in a direction perpendicular to the first wall, wherein the cell comprises a second electrode covered by a second hydrophobic, insulating layer, and the optical element comprises means for applying a voltage between the first fluid and, alternately, the first electrode or the second electrode.
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9. A method for providing driving signals to an optical element, comprising a closed cell, containing a first fluid and a second fluid, wherein the first fluid is conductive and the second fluid is coloured and immiscible with the first fluid, a first electrode, covered with a first hydrophobic, insulating layer and located at a wall in the cell, the voltage between the first electrode and the first fluid being controllable in order to control the area of the first hydrophobic layer that contacts the first fluid, and thereby the amount of light that is transmitted through the cell, wherein each cell comprises a second electrode covered by a second hydrophobic, insulating layer, the method comprising the acts of:
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applying a voltage between the first fluid and the first electrode in order to obtain a first cell transmittance, and applying a voltage between the first fluid and the second electrode in order to obtain a second cell transmittance wherein the first electrode is planar and parallel with the wall, and wherein the second electrode extends substantially perpendicular to the first electrode.
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Specification