Liquid crystal devices and systems using such devices
First Claim
1. A system for measuring the retardance of a liquid crystal device, said system includinga liquid crystal device having a selected alignment layer axis;
- at least one retardance sensor positioned at a selected region of said liquid crystal device, said retardance sensor comprisinga source of light for producing a light beam having a fixed intensity and a selected wave length or a range of wavelengths;
first polarizing means having an axis of polarization which is at a selected angle with respect to the alignment layer axis of said liquid crystal device and being responsive to said light beam for supplying a first polarized light beam for transmission through said liquid crystal device;
second polarizing means having an axis of polarization at a selected angle with respect to the axis of polarization of said first polarizing means and responsive to said transmitted polarized light beam for selectively transmitting said light beam; and
means for detecting the intensity of said selectively transmitted light beam; and
means responsive to the detected intensity for providing an output representing the retardance of said liquid crystal device.
3 Assignments
0 Petitions
Accused Products
Abstract
A liquid crystal device which uses parallel transparent plates having a nematic crystal material which is free of chiral or twisting additives positioned therebetween. The device applies an AC carrier modulated signal to establish an electric field across the material, the modulation level thereof controlling the state of the directors thereof over a range from a selected partially driven state to a fully driving state. The device can be used in a system to measure and to control the retardance of the device and in systems for controlling the intensity of light being transmitted through the device. The devices can further be used in a system to provide a birefringent filter.
66 Citations
12 Claims
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1. A system for measuring the retardance of a liquid crystal device, said system including
a liquid crystal device having a selected alignment layer axis; -
at least one retardance sensor positioned at a selected region of said liquid crystal device, said retardance sensor comprising a source of light for producing a light beam having a fixed intensity and a selected wave length or a range of wavelengths; first polarizing means having an axis of polarization which is at a selected angle with respect to the alignment layer axis of said liquid crystal device and being responsive to said light beam for supplying a first polarized light beam for transmission through said liquid crystal device; second polarizing means having an axis of polarization at a selected angle with respect to the axis of polarization of said first polarizing means and responsive to said transmitted polarized light beam for selectively transmitting said light beam; and means for detecting the intensity of said selectively transmitted light beam; and means responsive to the detected intensity for providing an output representing the retardance of said liquid crystal device. - View Dependent Claims (2, 3, 4, 5)
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6. An instrument for measuring the retardance of a liquid crystal device having a selected alignment layer axis comprising
at least first and second systems for measuring the retardance of a liquid crystal device, said first system including at least one retardance sensor positioned at a first selected region of said liquid crystal device, said retardance sensor comprising a first source of light for producing a light beam having a fixed intensity and a first selected wavelength; -
first polarizing means having an axis of polarization which is at a selected angle with respect to the alignment layer axis of said liquid crystal device and being responsive to said light beam for supplying a first polarized light beam for transmission through said liquid crystal device; second polarizing means having an axis of polarization at a selected angle with respect to the axis of polarization of said first polarizing means and responsive to said transmitted first polarized light beam for selectively transmitting said first polarized light beam; and means for detecting the intensity of said selectively transmitted first polarized light beam; said second system including at least one retardance sensor positioned at a second selected region of said liquid crystal device, said retardance sensor comprising a second source of light for producing a light beam having a fixed intensity and a second selected wavelength, first polarizing means having an axis of polarization which is at a selected angle with respect to the alignment layer axis of said liquid crystal device and being responsive to said second light beam for supplying a second polarized light beam for transmission through said liquid crystal device; second polarizing means having an axis of polarization at a selected angle with respect to the axis of polarization of said first polarizing means and responsive to said transmitted second polarized light beam for selectively transmitting said second polarized light beam; and means for detecting the intensity of said selectively transmitted second polarized light beam; means for storing predetermined values of retardance as a function of a plurality of selected light intensities at a plurality of wavelengths of light, including at least said first and second wavelengths; means responsive to the intensities detected by said at least first and second systems at said at least first and second wavelengths and for comparing the predetermined values of the retardances at said intensities in said storage means and for selecting as the retardance of said liquid crystal device the lowest value of retardance for which such values are the same at said at least first and second wavelengths. - View Dependent Claims (7)
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8. A system for controlling the intensity of a polarized light beam, said system including
a liquid crystal device having a selected alignment layer axis and wherein the alignment of the liquid crystal molecule directors therein is substantially free of twist, said device including means for establishing an electric field across the liquid crystal material therein; -
a polarizing means responsive to the light beam transmitted through said liquid crystal device for providing a polarized output light beam therefrom; beam splitting means for providing a first substantial output portion of said polarized light beam and a second sample portion of said polarized light beam; means for detecting the intensity of said sample portion of said polarized light beam to produce a sampled output representative of said intensity; control means responsive to said sampled output and to a reference intensity value and for providing a first control signal as a function of the difference therebetween; means for establishing an electric field across the liquid crystal material of said liquid crystal device, said means being responsive to said first control signal for changing the retardance of said liquid crystal device so as to minimize said difference whereby the intensity of said output portion of said polarized light beam is maintained at a stable level represented by said reference intensity value - View Dependent Claims (9, 10)
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11. A birefringent filter responsive to incoming light and comprising
one or more systems for measuring the retardance of a liquid crystal device,, each said system being positioned in series with and responsive to said incoming light and including a liquid crystal device having a selected alignment layer axis and in which the alignment of the liquid crystal molecule directors therein is substantially free of twist, said device including means for establishing an electric field across the liquid crystal material therein; -
said electric field establishing means includes means for applying an AC carrier modulated signal to said liquid crystal material, the modulation level of which controls the state of said directors in a continuous manner over a range from a selected partially driven state to a fully driven state; at least one retardance sensor positioned at a selected region of said liquid crystal device, said retardance sensor comprising a source of light for producing a light beam having a fixed intensity and a selected wavelength or a range of wavelengths; first polarizing means having an axis of polarization which is at a selected angle with respect to the alignment layer axis of said liquid crystal device and being responsive to said light beam for supplying a first polarized light beam for transmission through said liquid crystal device; second polarizing means having an axis of polarization at a selected angle with respect to the axis of polarization of said first polarizing means and responsive to said transmitted polarized light beam for selectively transmitting said light beam; means for detecting the intensity of said selectively transmitted light beam and for providing an output representing the retardance of said liquid crystal device; control means responsive to said output representing the retardance of said liquid crystal device and to a reference input for producing a control signal; said AC carrier modulated signal applying means being responsive to said control signal for changing the modulation level of said AC carrier modulated signal so as to change the retardance of said liquid crystal device in a manner such as to minimize the difference between said retardance output and said reference input; two or more polarizer means alternatingly positioned in series with said one or more systems; the reference input of each of said systems being selected for controlling the spectral transmission characteristics of said filter. - View Dependent Claims (12)
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Specification