Light control device
First Claim
1. An electrically operated light control device comprising an array of a plurality of electrostatically actuated elements, each element comprising;
- a planar stationary electrode,an electrode moveable between a position overlying the stationary electrode and a position removed from the stationary electrode, andnon-conductive means between the electrodes for keeping the electrodes electrically separated,the moveable electrode being in the form of a sheet of flexible material having one end fixed with respect to the stationary electrode and the opposite end free with respect to the stationary electrode,the sheet having a permanent mechanical stress which biases the sheet into a curl away from the stationary electrode to remove the moveable electrode from the stationary electrode in the absence of applied force,the stationary electrode having, in linear arrangement separated into along the path of movement, at least three discrete conductive regions arranged as a series progressing from the vicinity of the fixed end of the moveable electrode,the conductive regions most remote from the fixed end of the moveable electrode of each element of the array being connected together and connectable to a source of electrical potential,the mechanical stress being insufficient to overcome the electrostatic force created when an electrical potential is applied between the moveable electrode and a conductive region adjacent the moveable electrode to cause the moveable electrode to overlie the conductive region.
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Accused Products
Abstract
An electromechanical display element is provided for use in light reflective and light transmissive display arrays. The display element has a moveable electrode electrostatically controllable between a curled position removed from a stationary electrode, and an uncurled position overlying the stationary electrode to modify the light reflective or transmissive character of the display element. Embodiments of the moveable electrodes are provided which readily can be manufactured for use in either type of array. Stationary electrodes having a plurality of discrete conductive regions are provided to facilitate the control of display elements in an array. Embodiments of dielectric insulators and external circuitry are provided which avoid operating problems and manufacturing complexities associated with residual electric polarization.
43 Citations
5 Claims
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1. An electrically operated light control device comprising an array of a plurality of electrostatically actuated elements, each element comprising;
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a planar stationary electrode, an electrode moveable between a position overlying the stationary electrode and a position removed from the stationary electrode, and non-conductive means between the electrodes for keeping the electrodes electrically separated, the moveable electrode being in the form of a sheet of flexible material having one end fixed with respect to the stationary electrode and the opposite end free with respect to the stationary electrode, the sheet having a permanent mechanical stress which biases the sheet into a curl away from the stationary electrode to remove the moveable electrode from the stationary electrode in the absence of applied force, the stationary electrode having, in linear arrangement separated into along the path of movement, at least three discrete conductive regions arranged as a series progressing from the vicinity of the fixed end of the moveable electrode, the conductive regions most remote from the fixed end of the moveable electrode of each element of the array being connected together and connectable to a source of electrical potential, the mechanical stress being insufficient to overcome the electrostatic force created when an electrical potential is applied between the moveable electrode and a conductive region adjacent the moveable electrode to cause the moveable electrode to overlie the conductive region. - View Dependent Claims (2)
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3. An electrically operated light control device comprising an array of a plurality of electrostatically actuated elements arranged in columns and rows, each element comprising
a planar stationary electrode, an electrode moveable between a position overlying the stationary electrode and a position removed from the stationary electrode, and non-conductive means between the electrodes for keeping the electrodes electrically separated, the moveable electrode being in the form of a sheet of flexible material having one end fixed with respect to the stationary electrode and the opposite end free with respect to the stationary electrode, the sheet having a permanent mechanical stress which biases the sheet into a curl away from the stationary electrode to remove the moveable electrode from the stationary electrode in the absence of applied force, the stationary electrode being separated into at least four discrete conductive regions arranged in a series progressing from the vicinity of the fixed end of the moveable electrode, the conductive regions most proximate and most remote from the fixed end of the moveable electrode of each element of the array all being connected together and connectable to a source of electrical potential, the conductive regions intermediate the proximate and remote regions being independently connectable to a source of electrical potential, the mechanical stress being insufficient to overcome the electrostatic force created when an electrical potential is applied between the moveable electrode and a conductive region adjacent the moveable electrode to cause the moveable electrode to overlie the conductive region.
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4. A method of operating an electrically controlled light control device comprising an array of a plurality of electrostatically actuated elements, each element comprising;
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a member moveable by the attraction of an electrostatic force field, a stationary member along which the moveable member can advance, the stationary member having, in linear arrangement along the path of movement, a plurality of independently energizable electrode regions for generating electrostatic force fields, said method comprising the sequential steps of; (1) for a first group of elements within the array, energizing all electrode regions located in a first position in the linear arrangement to cause all moveable members in that group to advance to overlie the electrode regions located in the first position, (2) for a second group, having at least one element in common with the first group, energizing all electrode regions located in a second position in the linear arrangement, adjacent the first position, to cause the moveable member of the common elements to advance to overlie the electrode region located in the second position, and (3) for all elements within the array, at any time prior to step
4), energizing all electrode regions located in a third position in the linear arrangement, adjacent the second position, and(4) de-energizing all electrode regions located in the first and second positions to allow the retreat of all moveable members, except those of the common elements.
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5. An electrically operated light control device comprising an array of a plurality of groups of plural electrostatically actuated elements, each element comprising;
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a member moveable by the attraction of an electrostatic force field, a stationary electrode member along which the moveable member can advance, the stationary member having, in linear arrangement along the path of movement, at least three independently actuatable conductive regions for generating electrostatic force fields, the moveable member being advanceable to overlie an electrode region only when the moveable member previously has been positioned adjacent the actuated region, the first group of elements in the array having connected together all of the conductive regions located in a first position in the linear arrangement, the second group of elements, having at least one element in common with the first group, and having connected together all of the conductive regions located in a second position adjacent the first position, and wherein for all groups all of the conductive regions located in a third position adjacent the second position are connected together.
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Specification