A single-lens 2D/3D camera has a light valve placed in relationship to a lens module to control the light beam received by the lens module for forming an image on an image sensor. The light valve has a light valve area positioned in a path of the light beam. The light valve has two or more clearable
A single-lens 2D/3D camera has a light valve placed in relationship to a lens module to control the light beam received by the lens module for forming an image on an image sensor. The light valve has a light valve area positioned in a path of the light beam. The light valve has two or more clearable sections such that only one section is made clear to allow part of the light beam to pass through. By separately making clear different sections on the light valve, a number of images as viewed through slightly different angles can be captured. The clearable sections include a right section and a left section so that the captured images can be used to produce 3D pictures or displays. The clearable sections also include a middle section so that the camera can be used as a 2D camera.
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1. A camera comprising: a lens module having a focal plane, the lens module configured for receiving an incoming light beam for forming an image at the focal plane; an image sensor located substantially at the focal plane for sensing the image, the image sensor configured for providing electrical si
1. A camera comprising: a lens module having a focal plane, the lens module configured for receiving an incoming light beam for forming an image at the focal plane; an image sensor located substantially at the focal plane for sensing the image, the image sensor configured for providing electrical signal indicative of the image to a storage device; and a light valve located in relationship to the lens module, the light valve comprising a valve area positioned in a path of the light beam, wherein the light valve is operable at least in a first state and in a second state, the light valve area comprising a layer of electro-optical material disposed between a first electrode layer and a second electrode layer, the first and second electrode layer configured to apply an electric field on the electro-optical material, wherein at least one of the first and second electrode layers is patterned such that when the light valve is operated in the first state, a first section of the light valve area is clear while the light valve area outside the first section is opaque so as to allow only a part of the light beam to reach the image sensor through the first section to form a first image on the image sensor, and when the light valve is operated in a second state, a different second section of the light valve area is clear while the light valve area outside the second section is opaque so as to allow a different part of the light beam to reach the image sensor to form a second image; wherein the light valve is configured to operate in the first state and the second state in an alternate fashion in a time cycle and the image sensor is configured for providing the electrical signal to the storage device in the time cycle so as to allow the storage device to record a series of recorded images representative of the first and second images in the alternate fashion in a video mode, and wherein the light valve is further operable in a third state, and said at least one of the first and second electrode layers is patterned such that when the light valve is operated in the third state, a third section of the light valve area is clear while the light area outside the third section is opaque so as to allow only a part of the light beam to reach the image sensor through the third section to form a third image on the image sensor in a single-shot mode, the third section located between the first section and the second section, said camera further comprising: a user interface for allowing a user to choose between the video mode or the single-shot mode. 2. A camera according to claim 1, wherein the light valve is configured to operate in the first state and the second state in an alternate fashion in a time cycle and the image sensor is configured for providing the electrical signal to the storage device in the time cycle so as to allow the storage device to record a series of recorded images representative of the first and second images in the alternate fashion. 3. A camera according to claim 1, wherein the light valve is further operable in a third state, and said at least one of the first and second electrode layers is patterned such that when the light valve is operated in the third state, a third section of the light valve area is clear while the light area outside the third section is opaque so as to allow only a part of the light beam to reach the image sensor through the third section to form a third image on the image sensor, the third section located between the first section and the second section. 4. A camera according to claim 1, further comprising: a controller for providing a timing signal; anda light-valve driver, responsive to the timing signal, for applying the electric field on the electro-optical material, the image sensor providing the electrical signal also based on the timing signal. 5. A camera according to claim 1, wherein said light valve comprises a liquid crystal device and the electro-optical material comprises a layer of liquid crystal molecules. 6. A camera according to claim 1, wherein the light valve is located between the lens module and the image sensor. 7. A camera according to claim 1, wherein the lens module has a first module end and an opposing second module end facing the image sensor, and wherein the light valve is located outside the lens module near the first module end further away from the second module end. 8. A camera according to claim 1, wherein the lens module comprises a first lens sub-module and a second lens sub-module along an optical axis spaced from the first lens sub-module, and wherein the light valve is located between the first lens sub-module and the second lens sub-module. 9. A camera according to claim 1, wherein the image is rectangular defined by image height and image width greater than the image height, and wherein the camera is operable in a first picture taking mode for taking pictures such that the image width is substantially along a horizontal axis, the first section and the second section of the light valve area are arranged in a direction substantially parallel to the image width; and a second picture taking mode for taking pictures such that the image width is substantially along a vertical axis, the first section and the second section of the light valve area are arranged in a direction substantially parallel to the image height. 10. A camera according to claim 1, wherein the first section and the second section define an inter-section distance, and wherein the inter-section distance is adjustable. 11. A method for use in a camera, the camera comprising a lens module having a focal plane, the lens module configured for receiving an incoming light beam for forming an image at the focal plane; and an image sensor located substantially at the focal plane for sensing the image, the image sensor configured for providing electrical signal indicative of the image to a storage device, said method comprising: disposing a light valve located in relationship to the lens module, the light valve comprising a valve area positioned in a path of the light beam, wherein the light valve is operable at least in a first state and in a second state, the light valve area comprising a layer of electro-optical material disposed between a first electrode layer and a second electrode layer, the first and second electrode layer configured to apply an electric field on the electro-optical material; and patterning at least one of the first and second electrode layers such that when the light valve is operated in the first state, a first section of the light valve area is clear while the light valve area outside the first section is opaque so as to allow only a part of the light beam to reach the image sensor through the first section to form a first image on the image sensor, and when the light valve is operated in a second state, a different second section of the light valve area is clear while the light valve area outside the second section is opaque so as to allow a different part of the light beam to reach the image sensor to form a second image; wherein the light valve is configured to operate in the first state and the second state in an alternate fashion in a time cycle and the image sensor is configured for providing the electrical signal to the storage device in the time cycle so as to allow the storage device to record a series of recorded images representative of the first and second images in the alternate fashion in a video mode, and wherein the light valve is further operable in a third state, and said at least one of the first and second electrode layers is patterned such that when the light valve is operated in the third state, a third section of the light valve area is clear while the light area outside the third section is opaque so as to allow only a part of the light beam to reach the image sensor through the third section to form a third image on the image sensor in a single-shot mode, the third section located between the first section and the second section, said camera further comprising: a user interface for allowing a user to choose between the video mode or the single-shot mode. 12. A method according to claim 11, wherein the light valve is configured to operate in the first state and the second state in an alternate fashion in a time cycle and the image sensor is configured for providing the electrical signal to the storage device in the time cycle so as to allow the storage device to record a series of recorded images representative of the first and second images in the alternate fashion. 13. A method according to claim 11, wherein the light valve is further operable in a third state, and said at least one of the first and second electrode layers is patterned such that when the light valve is operated in the third state, a third section of the light valve area is clear while the light area outside the third section is opaque so as to allow only a part of the light beam to reach the image sensor through the third section to form a third image on the image sensor, the third section located between the first section and the second section. 14. A method according to claim 11, wherein the light valve is disposed between the lens module and the image sensor. 15. A method according to claim 11, wherein the lens module has a first module end and an opposing second module end facing the image sensor, and wherein the light valve is disposed outside the lens module near the first module end further away from the second module end. 16. A method according to claim 11, wherein the lens module comprises a first lens sub-module and a second lens sub-module along an optical axis spaced from the first lens sub-module, and wherein the light valve is disposed between the first lens sub-module and the second lens sub-module. 17. A method according to claim 11, wherein the first section and the second section define an inter-section distance, and wherein the inter-section distance is adjustable.
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