Field sequential liquid crystal display with enhanced brightness
First Claim
1. A display system, comprising:
- source means for providing a sequence of images carried by light of plural wavelengths, the plural wavelengths including a nonzero component of a first primary color, a nonzero component of a second primary color, and a nonzero component of a third primary color;
polarizer means for resolving said light from said source means into a first direction of polarization and a second direction of polarization orthogonal to said first direction by substantially totally absorbing said component of said light of said first primary color which is polarized in said first direction of polarization and transmitting said components of said second and third primary colors which are polarized in said first direction of polarization, and by substantially totally absorbing said component of said light of said second primary color which is polarized in second direction of polarization and transmitting said components of said first and third primary colors which are polarized in said second direction of polarization;
switch means exhibiting a first state in response to a first control signal for absorbing said first primary color of said light while substantially simultaneously transmitting a light output of said second and third primary colors of said light, and switch means exhibiting a second state in response to a second control signal for absorbing said second primary color from said light while substantially simultaneously transmitting a light output of said first and third primary colors of said light; and
control means coupled to said source means and to said switch means for providing said first and second control signals in synchronism with said sequence of images.
1 Assignment
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Accused Products
Abstract
An enchanced luminance field sequential color image display system having an image source for providing a sequence of monochrome images. The monochromatic light images are formed of first, second and third different spectral colors. A liquid crystal switching system having crossed color selective polarizers is used to transmit the second and third colors with a first direction of polarization and to transmit the first and third colors with an orthogonal direction of polarization. A liquid crystal retarder is used to rotate the direction of polarization of light incident from the crossed polarizers by ninety degrees when the retarder is in its OFF state and to transmit the light substantially unchanged when the retarder is in its ON state. The light is then coupled to an analyzing system which in one embodiment is a neutral polarizer that transmits either the second and third colors or the first and third colors, depending on the state of the liquid crystal retarder. In a second embodiment, the analyzing system is one or more color selective (pleochroic) polarizers that transmits both polarizations of the third color, while transmitting only one polarization of the first color or one polarization of the second color depending on the state of the retarder. By transmitting two of the three spectral colors in each of both directions of polarization through the retarder, a significant increase in display luminance is obtained.
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Citations
18 Claims
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1. A display system, comprising:
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source means for providing a sequence of images carried by light of plural wavelengths, the plural wavelengths including a nonzero component of a first primary color, a nonzero component of a second primary color, and a nonzero component of a third primary color; polarizer means for resolving said light from said source means into a first direction of polarization and a second direction of polarization orthogonal to said first direction by substantially totally absorbing said component of said light of said first primary color which is polarized in said first direction of polarization and transmitting said components of said second and third primary colors which are polarized in said first direction of polarization, and by substantially totally absorbing said component of said light of said second primary color which is polarized in second direction of polarization and transmitting said components of said first and third primary colors which are polarized in said second direction of polarization; switch means exhibiting a first state in response to a first control signal for absorbing said first primary color of said light while substantially simultaneously transmitting a light output of said second and third primary colors of said light, and switch means exhibiting a second state in response to a second control signal for absorbing said second primary color from said light while substantially simultaneously transmitting a light output of said first and third primary colors of said light; and control means coupled to said source means and to said switch means for providing said first and second control signals in synchronism with said sequence of images. - View Dependent Claims (2, 3, 4)
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5. In a display system, an apparatus comprising:
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source means for providing a sequence of images carried by light of plural wavelengths, the plural wavelengths including a nonzero component of a first primary color, a nonzero component of a second primary color, and a nonzero component of a third primary color; polarizer means for resolving said light from said source means into a first direction of polarization and a second direction of polarization orthogonal to said first direction by substantially totally absorbing said component of said light of said first primary color which is polarized in said first direction of polarization and transmitting said components of said second and third primary colors which are polarized in said first direction of polarization, and by substantially totally absorbing said component of said light of said second primary color which is polarized in said second direction of polarization and transmitting said components of said first and third primary colors which are polarized in said second direction of polarization; retardation means in response to a first control signal for transmitting substantially unchanged in polarization and color light incident from said polarizer means, and in response to a second control signal for transmitting substantially unchanged in color light incident from said polarization means and for rotating said first and second directions of polarization by substantially 90 degrees; and analyzer means for receiving light transmitted from said retardation means and transmitting an output of light polarized in a direction parallel to said second direction of polarization. - View Dependent Claims (6, 7, 8, 9, 10, 11)
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12. A method of producing a bright display comprising the steps of:
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(a) producing a field-by-field sequence of images carried by light of plural wavelengths, the plural wavelengths including a nonzero component of a first primary color, a nonzero component of a second primary color, and a nonzero component of a third primary color; (b) providing an alternating sequence of first and second control signals in synchronism with said sequence of images, with each control signal corresponding to a field of said sequence of images; (c) selectively absorbing from said light in response to said first control signal, said component of said first primary color and substantially simultaneously transmitting a light output of said components of said second and third primary colors; and (d) selectively absorbing in response to said second control signal said component of said second primary color and substantially simultaneously transmitting a light output of said components of said first and third primary colors. - View Dependent Claims (13, 14, 15, 16)
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17. A field sequential color display system, comprising:
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light source means for emitting a sequence of images carried by light of plural wavelengths that include first, second, and third nonzero primary color components; color selection means optically coupled to said source means for alternately transmitting different selected pairs of said primary color components in synchronization with the sequential emission of said light images by said light source means, said color selection means including a light polarizing system that includes a color selective filter having first and second substantially orthogonally oriented absorption axes, said filter passing a first selected pair of said primary color components linearly polarized along said first absorption axis and a second selected pair of said primary color components linearly polarized along said second absorption axis; and a light analyzing system that includes a polarizing filter passing light of said first, second, and third primary color components linearly polarized along an axis parallel to one of said first and second absorption axes of the color selective filter. - View Dependent Claims (18)
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Specification