Digital mirror device projector and method of correcting...

Optics: image projectors – Color filter

Reexamination Certificate

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Details

C353S122000, C348S771000, C348S743000

Reexamination Certificate

active

06733137

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a projector device using a digital mirror device (hereinafter may be referred simply to as a “DMD”) having a plurality of mirror elements and a method for correcting a video signal being used in the digital mirror device projector, and more particularly to the DMD projector that makes effective use of light being reflected while each of the mirror elements is turned OFF and a method for correcting the video signal being used in the digital mirror device projector.
The present application claims priority of Japanese Patent Application No. 2002-080853 filed on Mar. 22, 2002, which is hereby incorporated by reference.
2. Description of the Related Art
A DMD (Digital Mirror Device) projector is generally known which uses a DMD panel having several hundreds of thousand of mirror elements each being able to control an inclination for being mounted being placed on a semiconductor memory cell and which controls a reflection state by exerting control on the inclination of each of the mirror elements to form an image, which is disclosed in, for example, Japanese Patent Application Laid-open No. Hei 10-78550.
In the disclosed DMD projector, light emitted from a light source is configured to be condensed as a spot on a color wheel, being made up of a plurality of kinds of color filters adapted to selectively let any one of red, green, and blue color light pass and light having passed through any one of the color filters is applied, in a form of a parallel luminous flux, on the DMD panel and image light being light reflected off the DMD panel is projected through a zoom projection lens onto a screen.
However, the conventional DMD projector has problems. That is, in the above-described conventional DMD projector, light which passes through the color filters making up the color wheel and is reflected off a surface of the DMD panel towards the screen is used as image light. As a result, a wavelength component of each color light serving a source of image light is made different depending on variations in performance of the color filters making up the color wheel. Moreover, even when performance of the color filter is uniform between different filters, if light itself emitted from the light source has variations in wavelength or in intensity, the wavelength component of each color light is also made different and, even if image light is made up of a same video signal, it is difficult to calibrate image light so as to have same chromaticness (tint) among different devices.
SUMMARY OF THE INVENTION
In view of the above, it is an object of the present invention to provide a DMD projector using a DMD (Digital Mirror Device) panel which is capable of individually measuring intensity of each light of color being reflected while a mirror element is turned OFF and of correcting a video signal based on a result of the measurement, thus enabling each projector to provide an image having the same chromaticness (tint).
It is another object of the present invention to provide a method for correcting a video signal being used in the DMD projector.
According to a first aspect of the present invention, there is provided a digital mirror device projector including:
a light source;
a color wheel configured by combining a plurality of kinds of color filters for making image light of a plurality of colors;
a digital mirror device panel having a plurality of mirror elements each being controlled so as to be put in a first inclination state and in a second inclination state and reflecting light fed from the light source and passed through any one of the color filters making up the color wheel while being put in the first inclination state, as the image light, in a first direction and reflecting light fed from the light source and passed through any one of the color filters making up the color wheel while being put in the second inclination state in a second direction being different from the first direction;
a driving unit to control so as to put each of the mirror elements in the digital mirror device panel in the first inclination state or the second inclination state according to a corresponding video signal and a revolution state of the color wheel;
a photoelectric conversion device being placed as a photosensor in such a position where light reflected from at least one of the mirror elements is incident when the at least one of the mirror elements is in the second inclination state and, whereby the photoelectric conversion device receives the reflected light and converts the received light to a voltage;
a correcting unit to receive a video signal and the voltage obtained by the photoelectric conversion device, to correct the video signal, based on the received voltage and to output the corrected video signal to the driving unit.
In the foregoing first aspect, a preferable mode is one wherein the color wheel is configured by combining a red color filter, a green color and a blue color filter for making image light of the plurality of colors.
Also, a preferable mode is one wherein the driving unit controls so as to put the at least one of the mirror elements in the digital mirror device panel in the first inclination state or the second inclination state according to the corrected video signal and a revolution state of the color wheel.
Also, a preferable mode is one wherein the correcting unit calculates a relative intensity of light of color having passed through each of the color filters making up the color wheel, based on the voltage output from the photoelectric conversion device occurring when the at least one of the mirror elements of the digital mirror device panel is put in the second state, determines a weighted value to the light of color having passed through each of the color filters so that the relative intensity of the light of color is matched to a predetermined reference value, corrects a luminance signal for each color of a video signal using the weighted value and outputs the corrected luminance signal to the driving unit.
According to a second aspect of the present invention, there is provided a digital mirror device projector including:
a light source;
a color wheel configured by combining a plurality of kinds of color filters for making image light of a plurality of colors;
a digital mirror device panel having a plurality of mirror elements each being controlled so as to be put in a first inclination state and in a second inclination state and reflecting light fed from the light source and passed through any one of the color filters making up the color wheel while being put in the first inclination state, as the image light, in a first direction and reflecting light fed from the light source and passed through any one of the color filters making up the color wheel while being put in the second inclination state in a second direction being different from the first direction;
a driving unit to control so as to put each of the mirror elements in the digital mirror device panel in the first inclination state or the second inclination state according to a corresponding video signal and a revolution state of the color wheel;
a photoelectric conversion device being placed as a photosensor in such a position where light reflected from each of the mirror elements is incident when each of the mirror elements is in the second inclination state and, whereby the photoelectric conversion device receives the reflected light and converts the received light to a voltage;
a correcting unit to receive a video signal and the voltage obtained by the photoelectric conversion device, to correct the video signal, based on the received voltage and to output the corrected video signal to the driving unit.
According to a third aspect of the present invention, there is provided a method for correcting a video signal to be used in a digital mirror device projector made up of a light source, a color wheel configured by combining a plurality of kinds of color filters for making image light of a plurality of colors, a digital mirror dev

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