Holographic backlight for flat panel displays
First Claim
1. A holographic backlight comprising:
- a white light source for emitting white light;
a light pipe;
light injecting means for injecting the white light from the white light source into the light pipe;
a phase retarding layer disposed on a first surface of the light pipe; and
a double-layer reflection/transmission hologram disposed on an output surface of the light pipe, wherein the double-layer reflection/transmission hologram produces quasi-collimated s-polarized light having well-defined spectral colors that is transmitted in an array of red, green, and blue patches of light.
4 Assignments
0 Petitions
Accused Products
Abstract
An improved holographic backlight and liquid crystal display system. The holographic backlight comprises a cold cathode fluorescent tube for providing white light, and a light pipe disposed to receive the white light. A phase retarding film layer is attached to a first surface of the light pipe. A double-layer reflection/transmission hologram is disposed on an output surface of the light pipe opposite the film layer. Light from the cold cathode fluorescent tube is injected into the light pipe, and is diffracted off of the double-layer hologram. This produces quasi-collimated s-polarized light having well-defined spectral colors that is transmitted by the hologram in an array of red, green, and blue patches of light corresponding to the clear apertures of the red, green, and blue elements of an active matrix liquid crystal display. The result is a liquid crystal display with high display brightness, reduced battery power requirements, increased battery lifetime, and high contrast over a wide viewing angle.
86 Citations
15 Claims
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1. A holographic backlight comprising:
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a white light source for emitting white light; a light pipe; light injecting means for injecting the white light from the white light source into the light pipe; a phase retarding layer disposed on a first surface of the light pipe; and a double-layer reflection/transmission hologram disposed on an output surface of the light pipe, wherein the double-layer reflection/transmission hologram produces quasi-collimated s-polarized light having well-defined spectral colors that is transmitted in an array of red, green, and blue patches of light. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A holographic backlight for use with a liquid crystal display, said backlight comprising:
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a cold cathode fluorescent tube for emitting white light; a non-imaging concentrator for concentrating the white light emitted by the fluorescent tube; a substantially flat tapered light pipe for receiving concentrated light provided by the concentrator and for providing an emitting surface that emits white light of substantially uniform brightness; a phase retarding film layer disposed on a first surface of the tapered light pipe; and a double-layer reflection/transmission hologram disposed on a second, output surface of the tapered light pipe; and wherein light emitted by the cold cathode fluorescent tube is injected into the tapered light pipe and is diffracted off of the double-layer hologram so that quasi-collimated s-polarized light having well-defined spectral colors is transmitted thereby as an array of red, green, and blue patches of light corresponding to the clear apertures of the red, green, and blue elements of the liquid crystal display. - View Dependent Claims (10, 11)
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12. A liquid crystal display system comprising:
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a cold cathode fluorescent tube for emitting white light; a non-imaging concentrator for concentrating the white light emitted by the fluorescent tube; a light pipe for receiving the white light transmitted by the non-imaging concentrator; a phase retarding film layer disposed on a first surface of the light pipe; a double-layer reflection/transmission hologram disposed on a second, output surface of the light pipe for diffracting the light emitted from the light pipe to produce quasi-collimated s-polarized light having well-defined spectral colors; a liquid crystal display disposed adjacent the hologram for receiving the quasi-collimated s-polarized light transmitted by the hologram; and a diffusing screen to spread the light into a desired angular viewing zone; wherein light emitted by the cold cathode fluorescent tube is injected into the light pipe and is diffracted off of the double-layer hologram to produce the quasi-collimated s-polarized light having well-defined spectral colors which is transmitted as an array of red, green, and blue patches of light corresponding to the clear apertures of the red, green, and blue elements of the liquid crystal display. - View Dependent Claims (13, 14, 15)
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Specification