DEVICE FOR THE POLARIZATION OF A VIDEO SEQUENCE TO BE VIEWED IN STEREOSCOPY
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Abstract
A device for polarization of a video sequence to be stereoscopically viewed has a beam splitter, cells, mirrors, and a control circuit. The beam splitter receives an incident beam and separates it into two beams with perpendicular polarizations. It has four prisms, each with perpendicular faces. The first face of each prism has a phase-delaying plate, and the second face of each prism has a layer that reflects the first polarization and transmits the second. The prisms are arranged such that a first face of each prism is next to a second of an adjacent prism. The cells have variable polarization rotation and are crossed by the beams. Each mirror reflects a beam. The control circuit defines a polarization rotation of the cells such that the beams, after having crossed corresponding cells, have a common polarization that alternates between two perpendicular states.
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20 Claims
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1-10. -10. (canceled)
- 11. An apparatus for use in stereoscopic viewing, said apparatus comprising a device for polarization of a video sequence to be stereoscopically viewed, said device comprising a beam splitter, first and second cells, first and second mirrors, and a control circuit, wherein said beam splitter is configured to receive an incident light beam and to separate said incident light beam into a first beam and a second beam, wherein said first beam has a first polarization and said second beam has a second polarization, wherein said first and second polarizations are perpendicular, wherein said beam splitter comprises four prisms, wherein each prism has first and second perpendicular faces, wherein said first face of each prism comprises a phase-delaying plate, wherein said second face of each prism has a layer that reflects light of said first polarization and that transmits light of said second polarization, wherein said four prisms are arranged such that a first face of each prism is placed next to a second face of an adjacent prism, wherein said first and second cells have variable polarization rotation, wherein said first and second cells are crossed by said first and second beams, which are output by said beam splitter, wherein said first mirror reflects said first beam, which is output by said beam splitter, wherein said second mirror reflects said second beam, which is output by said beam splitter, wherein said control circuit defines a polarization rotation of said first and second cells such that said first and second beams, after having crossed said corresponding first and second cells, have a common polarization, and wherein said control circuit is further configured to cause said common polarization to alternate between two perpendicular states.
Specification