Display apparatus with two polarization compensators
First Claim
1. A display apparatus comprising:
- (a) a light source for forming a beam of light;
(b) a wire grid pre-polarizer for polarizing said beam of light to provide a polarized beam of light;
(c) a wire grid polarization beamsplitter for receiving said polarized beam of light, for transmitting said polarized beam of light having a first polarization, and for reflecting said polarized beam of light having a second polarization, wherein sub-wavelength wires on said wire grid polarization beanisplitter face a reflective liquid crystal device;
(d) wherein said e reflective liquid crystal device selectively modulates said polarized beam of light having a first polarization to encode image data thereon in order to form a modulated beam, and then reflects said modulated beam back to said wire grid polarization beamsplitter;
(e) a first compensator located between said wire grid polarization beamsplitter and said reflective liquid crystal device, for conditioning the polarization states of oblique and skew rays of said modulated beam to provide a compensated modulated beam;
(f) a wire grid polarization analyzer which removes residual light of the opposite polarization;
(g) a second compensator for conditioning the polarization states of oblique and skew rays of said wire grid polarization beamsplitter relative to said wire grid polarization analyzer or said wire grid pre-polarizer;
(h) image-forming optics for forming an image from said compensated modulated beam; and
wherein said first compensator and said second compensator each comprise one or more birefringent layers, wherein said birefringent layers comprise at least one of the following;
an A-plate film, a C-plate film, or a biaxial film.
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Accused Products
Abstract
A projection display apparatus (10) uses a modulation optical system (200) that includes a liquid crystal device (210) in combination with a wire grid polarization beamsplitter (240), a wire grid polarization analyzer (270) and a projection lens (285) to form an image. In order to achieve high contrast and maintain high brightness levels, a compensator (260) is provided for minimizing leakage light for pixels in the black (OFF) state. A number of configurations are possible, such as with the compensator (260) disposed in the optical path between the liquid crystal device (210) and the wire grid polarization beamsplitter (240) and with a secondary compensator (265) disposed between wire grid polarization analyzer (270) and the wire grid polarization beamsplitter (240).
69 Citations
4 Claims
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1. A display apparatus comprising:
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(a) a light source for forming a beam of light;
(b) a wire grid pre-polarizer for polarizing said beam of light to provide a polarized beam of light;
(c) a wire grid polarization beamsplitter for receiving said polarized beam of light, for transmitting said polarized beam of light having a first polarization, and for reflecting said polarized beam of light having a second polarization, wherein sub-wavelength wires on said wire grid polarization beanisplitter face a reflective liquid crystal device;
(d) wherein said e reflective liquid crystal device selectively modulates said polarized beam of light having a first polarization to encode image data thereon in order to form a modulated beam, and then reflects said modulated beam back to said wire grid polarization beamsplitter;
(e) a first compensator located between said wire grid polarization beamsplitter and said reflective liquid crystal device, for conditioning the polarization states of oblique and skew rays of said modulated beam to provide a compensated modulated beam;
(f) a wire grid polarization analyzer which removes residual light of the opposite polarization;
(g) a second compensator for conditioning the polarization states of oblique and skew rays of said wire grid polarization beamsplitter relative to said wire grid polarization analyzer or said wire grid pre-polarizer;
(h) image-forming optics for forming an image from said compensated modulated beam; and
wherein said first compensator and said second compensator each comprise one or more birefringent layers, wherein said birefringent layers comprise at least one of the following;
an A-plate film, a C-plate film, or a biaxial film. - View Dependent Claims (2, 3, 4)
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Specification