Claims
- An electronic display comprising an electro-optic material having a plurality of pixels, and separate first, second and third sets of addressing means for addressing said pixels, each of said pixels being associated with one addressing means in each of said three sets, such that any specific pixel of the display can be addressed by application of signals within predetermined ranges to each of the three addressing means associated with said specific pixel.
- An electronic display according to claim 1 wherein the pixels are arranged in a plurality of sub-arrays, each pixel within any specific sub-array being associated with one of the first and second sets of addressing means, the third set of addressing means having the form of a plurality of switching means, at least one of said switching means being associated with each of said sub-arrays, the switching means associated with each sub-array having an off state, in which signals on at least one of the first and second sets of addressing means are prevented from reaching the associated sub-array, and an on state, in which signals from both the first and second sets of addressing means are permitted to reach and address the associated sub-array.
- An electronic display according to claim 2 further comprising control means arranged to control the switching means so that only the switching means associated with one sub-array is in its on state at any given moment.
- An electronic display according to claim 2 wherein each sub-array comprises a discrete page, the pages formed by the plurality of sub-arrays being stacked on top of each other so that the entire display forms a multi-page electronic book.
- An electronic display according to claim 4 further comprising conductive vias extending between adjacent pages and connecting at least one of the first and second sets of addressing means on said adjacent pages.
- An electronic display according to claim 1 wherein the first second and third sets of addressing devices all have the form of electrical conductors and/or electronic devices.
- An electronic display according to claim 1 wherein at least one of the sets of addressing devices comprises a photoconductor.
- An electronic display according to claim 7 further comprising a light source associated with the photoconductor and selectively operable to switch the photoconductor between a conductive and a non-conductive state.
- An electronic display according to claim 7 further comprising a light source associated with the photoconductor and a light valve disposed between the light source and the photoconductor and arranged to control transmission of light from the light source to the photoconductor.
- An electronic display according to claim 9 wherein the light valve comprises a polymer-dispersed liquid crystal.
- An electronic display according to claim 9 wherein the light source comprises an electroluminescent material.
- An electronic display according to claim 9 comprising a plurality of light sources arranged as a series of elongate rows, and a plurality of light valves arranged as series of elongate columns crossing said elongate rows, said light sources and light valves together defining a two-dimensional array of pixels in said photoconductor.
- An electronic display according to claim 9 having the form of a plurality of pages stacked on top of one another to form a multi-page electronic display, and wherein each page has a single light source and a single light valve, so that the page or pages to be written at any given moment are selected by controlling the state of the light valves.
- An electronic display according to claim 9 wherein the first addressing means comprises a plurality of electrical conductors and means for applying potentials selectively to said conductors, the second addressing means comprises a plurality of light emitting devices and means for generating light selectively from said light emitting devices, and said third addressing means comprises a plurality of light valves and means for selectively setting said light valves to their transmissive or non-transmissive states.
- An electronic display according to claim 1 having three sets of pixels arranged to display different colors, and wherein the third set of addressing means is arranged to select one of said three sets of pixels to be addressed at any given moment.
- An electronic display according to claim 1 further comprising a fourth set of addressing means for addressing said pixels, said fourth set being separate from said first, second and third sets of addressing means, each of said pixels of said display being associated with one addressing means in each of said four sets, such that any specific pixel of the display can be addressed by application of signals within predetermined ranges to each of the four addressing means associated with said specific pixel.
- An electronic display according to claim 1 wherein the electro-optic material comprises an electrophoretic medium.
- An electronic display according to claim 17 wherein said electrophoretic medium is an encapsulated electrophoretic medium.
- An electronic display according to claim 1 wherein the electro-optic material comprises a rotating bichromal object material.
- An electronic display according to claim 1 wherein the electro-optic material operates by principle of one of the following: rotating bichromal objects, electrochromics, or suspended particles.
- An electronic display comprising an electro-optic material having a plurality of separately addressable pixels wherein the number of driver outputs to the pixel array is less than the square root of the number of pixels.
- A method of addressing an electronic display, the method comprising:
- A method of addressing a bistable electronic display having a plurality of pixels arranged in an array comprising a plurality of rows and plurality of columns, the method comprising selecting a plurality of rows or columns and applying a simultaneous and equivalent switching impulse to all selected rows and columns.
- A method of addressing a bistable electronic display having a plurality of pixels arranged in a plurality of rows, the method comprising:
- A method according to claim 24 further comprising any one or more of the following steps:
- A method of addressing a bistable electronic display having a plurality of pixels, each of said pixels having a first display state, a second display state differing in at least one optical characteristic from the first display state, and a plurality of intermediate states having values of said optical characteristic intermediate those of said first and second display states, the method comprising:
- A method according to claim 26 wherein the intermediate state to which all the pixels are driven is such that substantially the same size of impulse is necessary to drive any pixel from said intermediate state to said first and second display states.
- A method of addressing a bistable electronic display having a plurality of pixels arranged in a plurality of rows and columns, the method comprising:
- A method of addressing a bistable electronic display having a plurality of pixels, the method comprising:
- A method of addressing a bistable electronic display having a plurality of pixels, which method comprises:
Cross Reference to Related Applications
[0001] This application claims priority from Provisional Application Serial No. 60/253,892 filed November 29, 2000, the entire disclosure of which is herein incorporated by reference.
Provisional Applications (1)
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Number |
Date |
Country |
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60/253,892 |
Nov 2000 |
US |