Electrophoretic light modulator
First Claim
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1. An electrophoretic light modulator, comprising:
- an optically transparent upper electrode through which light can pass;
a lower electrode;
an enclosed volume between the upper electrode and the lower electrode;
an optically transparent electrophoretic fluid within the enclosed volume;
a voltage source coupled to the upper electrode and the lower electrode, the voltage source operable to apply a bias between the upper electrode and the lower electrode and further operable to switch between a first bias state and a second bias state;
a plurality of electrophoretic particles suspended in the electrophoretic fluid, the electrophoretic particles configured to absorb the light and responsive to the bias applied between the upper electrode and the lower electrode; and
a plurality of substantially parallel reflecting surfaces comprising a high index of optical refraction, each parallel reflecting surface is substantially parallel to at least one other parallel reflecting surface and to the upper electrode, at least one of the reflecting surfaces is between the upper electrode and the lower electrode and at least one of the parallel reflecting surfaces is electrically coupled to the lower electrode the plurality of reflecting surfaces arranged so that when the first bias state is applied between the upper electrode and the lower electrode the plurality of electrophoretic particles obscure the plurality of reflecting surface from the light to absorb at least portion of the light and when the second bias state is applied between the upper electrode and the lower electrode the plurality of electrophoretic particles expose the plurality of reflecting surfaces to the light to reflect at least a portion of the light.
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Abstract
An electrophoretic light modulator includes a plurality of similarly charged particles comprising a first optical characteristic. The electrophoretic light modulator also includes at least one reflecting surface comprising a second optical characteristic different that the first optical characteristic. The electrophoretic light modulator further includes a pair of electrodes that create an electric field that causes the plurality of charged particles to obscure or expose the reflecting surface based on the polarity of the electric field.
28 Citations
24 Claims
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1. An electrophoretic light modulator, comprising:
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an optically transparent upper electrode through which light can pass; a lower electrode; an enclosed volume between the upper electrode and the lower electrode; an optically transparent electrophoretic fluid within the enclosed volume; a voltage source coupled to the upper electrode and the lower electrode, the voltage source operable to apply a bias between the upper electrode and the lower electrode and further operable to switch between a first bias state and a second bias state; a plurality of electrophoretic particles suspended in the electrophoretic fluid, the electrophoretic particles configured to absorb the light and responsive to the bias applied between the upper electrode and the lower electrode; and a plurality of substantially parallel reflecting surfaces comprising a high index of optical refraction, each parallel reflecting surface is substantially parallel to at least one other parallel reflecting surface and to the upper electrode, at least one of the reflecting surfaces is between the upper electrode and the lower electrode and at least one of the parallel reflecting surfaces is electrically coupled to the lower electrode the plurality of reflecting surfaces arranged so that when the first bias state is applied between the upper electrode and the lower electrode the plurality of electrophoretic particles obscure the plurality of reflecting surface from the light to absorb at least portion of the light and when the second bias state is applied between the upper electrode and the lower electrode the plurality of electrophoretic particles expose the plurality of reflecting surfaces to the light to reflect at least a portion of the light. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. An electrophoretic light modulator, comprising:
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a pair of electrodes comprising a space there between; an optically transparent electrophoretic fluid within the space between the pair of electrodes; a plurality of electrically charged particles suspended in the electrophoretic fluid and configured to absorb light; a voltage source coupled to the pair of electrodes and operable to; generate a first bias attracting the charged particles towards a first electrode of the pair of electrodes; and generate a second bias attracting the charged particles towards a second electrode of the pair of electrodes; and a plurality of substantially parallel reflecting surfaces comprising a high index of optical refraction, each parallel reflecting surface is substantially parallel to at least one other parallel reflecting surface and to the upper electrode, at least one of the reflecting surfaces is between the upper electrode and the lower electrode and at least one of the parallel reflecting surfaces is electrically coupled to the lower electrode wherein the plurality of reflecting surfaces are obscured by the charged particles when the voltage source generates the first bias and the plurality of reflecting surfaces are exposed when the voltage source generates the second bias. - View Dependent Claims (11, 12, 13, 14, 15)
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16. An electrophoretic light modulator, comprising:
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an optically transparent electrophoretic fluid; a plurality of similarly charged particles each configured to absorb light, the particles suspended in the optically transparent electrophoretic fluid; a plurality of substantially parallel reflecting surfaces comprising a high index of optical refraction; and a pair of electrodes that create an electric field that causes the plurality of charged particles to obscure or expose the plurality of reflecting surfaces based on the polarity of the electric field, wherein each parallel reflecting surface is substantially parallel to at least one other parallel reflecting surface and to the pair of electrodes, at least one of the reflecting surfaces is between the pair of electrodes and at least one of the parallel reflecting surfaces is electrically coupled to one of the pair of electrodes. - View Dependent Claims (17, 18, 19, 20, 21)
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22. A method of modulating light, comprising:
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receiving light from a light source; attracting a plurality of charged electrophoretic particles towards a first electrode of two electrodes by applying a first bias between the two electrodes, the plurality of charged electrophoretic particles suspended in an optically transparent fluid and configured to absorb the light; obscuring a plurality of substantially parallel reflecting surfaces having a high index of optical refraction and that are substantially parallel to at least one other parallel reflecting surface and to first electrode, at least one of the reflecting surfaces is between the first electrode and a second electrode and at least one of the parallel reflecting surfaces is electrically coupled to the second electrode, the plurality of reflecting surfaces are obscured from the received light by attracting the charged electrophoretic particles to the first electrode; attracting the plurality of charged electrophoretic particles towards the second electrode of the two electrodes by applying a second bias between the two electrodes; and exposing the reflecting surface to the received light by attracting the particles to the second electrode. - View Dependent Claims (23)
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24. An electrophoretic light modulator, comprising:
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an optically transparent upper electrode through which light can pass; a lower electrode; an enclosed volume between the upper electrode and the lower electrode; an optically transparent electrophoretic fluid within the enclosed volume; a voltage source coupled to the upper electrode and the lower electrode, the voltage source operable to apply a bias between the upper electrode and the lower electrode and further operable to switch between a first bias state and a second bias state; a plurality of electrophoretic particles suspended in the electrophoretic fluid, the electrophoretic particles configured to absorb the light and responsive to the bias applied between the upper electrode and the lower electrode; and a plurality of substantially parallel reflecting surfaces comprising a high index of optical refraction, the reflecting surfaces arranged so that when the first bias state is applied between the upper electrode and the lower electrode the plurality of electrophoretic particles obscure the reflecting surfaces from the light to absorb at least portion of the light and when the second bias state is applied between the upper electrode and the lower electrode the plurality of electrophoretic particles expose the reflecting surface to the light to reflect at least a portion of the light, wherein; each parallel reflecting surface is substantially parallel to at least one other parallel reflecting surface; each parallel reflecting surface is substantially parallel to the upper electrode and the lower electrode; each parallel reflecting surface is between the upper electrode and the lower electrode; each parallel reflecting surface comprises a plurality of perforations; and a first plurality of perforations of a first reflecting surface of the plurality of reflecting surfaces are offset from a second plurality of perforations of a second reflecting surface of the plurality of reflecting surfaces such that light passing through a perforation of the first reflecting surface at a substantially perpendicular angle to the first reflecting surface will be reflected by the second reflecting surface.
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Specification