Light activated light valve with a silicon control element
First Claim
1. A light-activated light valve comprising:
- a liquid crystal layer having first and second opposite sides;
a first electrode arranged on the first side of the liquid crystal layer;
a first diode having a pn junction formed by a region of a first conductivity type in contact with a region of a second conductivity type, the region of the first conductivity type being in electrical contact with the second side of the liquid crystal layer opposite a first part of the first electrode;
a second diode having a pn junction formed by a region of the first conductivity type in contact with a region of the second conductivity type, the region of the first conductivity type being in electrical contact with the second side of the liquid crystal layer opposite a second part of the first electrode, the first and second diodes being spaced from and electrically insulated from each other; and
means for applying an alternating voltage across the second conductivity type regions of the first and second diodes.
2 Assignments
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Accused Products
Abstract
In contrast to existing light addressed light valves for projection displays which use a homogeneous CdS or Se photoconductive layer as the control element for a liquid crystal cell, a silicon photo-diode array is disclosed which makes an effective control element capable of applying a spatially varying AC voltage across a liquid crystal light valve. Writing may be done with a miniature CRT in an optical or electron excitation mode. It is shown that for a video mode the ratio of diode capacitance to liquid crystal cell capacitance associated with the diode, and the frequency of the applied square wave voltage, define the buildup or decay time of the liquid crystal cell voltage. Thus, the frequency of the applied AC voltage can be used to control sensitivity and transient response and there is no lag. The dynamic range of the cell voltage is shown to depend on the ratio of diode capacitance to liquid crystal cell capacitance. The display can be used in a storage mode by erasing with an AC voltage and writing with a constant voltage. The silicon photodiode array is compatible with a CCD frame store using direct minority carrer injection for writing. This light addressed version thus represents a desirable milestone in achieving an all solid-state projection display.
71 Citations
10 Claims
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1. A light-activated light valve comprising:
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a liquid crystal layer having first and second opposite sides; a first electrode arranged on the first side of the liquid crystal layer; a first diode having a pn junction formed by a region of a first conductivity type in contact with a region of a second conductivity type, the region of the first conductivity type being in electrical contact with the second side of the liquid crystal layer opposite a first part of the first electrode; a second diode having a pn junction formed by a region of the first conductivity type in contact with a region of the second conductivity type, the region of the first conductivity type being in electrical contact with the second side of the liquid crystal layer opposite a second part of the first electrode, the first and second diodes being spaced from and electrically insulated from each other; and means for applying an alternating voltage across the second conductivity type regions of the first and second diodes. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A light-activated light valve comprising, in a series electrical circuit:
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a liquid crystal device; a first photodiode arranged in the circuit to conduct in a first direction; a second photodiode arranged in the circuit to conduct in a second direction opposite the first direction; and means for supplying an alternating voltage. - View Dependent Claims (8)
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9. A method of manufacturing a light-activated light valve, said method comprising the steps of:
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providing a substrate of a first conductivity type, said substrate having a surface; forming at the surface of the substrate a first region of a second conductivity type; forming at the surface of the substrate a second region of the second conductivity type, said second region being spaced from and electrically insulated from the first region; forming at the surface of the substrate a first electrode in electrical contact with the first region; forming at the surface of the substrate a second electrode in electrical contact with the second region; forming a liquid crystal layer having first and second opposite sides, the first side of the liquid crystal layer being arranged adjacent the first and second electrodes; and forming a third electrode adjacent the second side of the liquid crystal layer, said third electrode being arranged opposite the first and second electrodes. - View Dependent Claims (10)
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Specification