摘要:
Within a reflective display section R, a part of a light that reaches a reflective electrode through a color filter exits to the outside through slits and a part of a light that reaches the reflective electrode through the slits exits to the outside through the color filter. In addition, a light reaching the reflective electrode through the color filter and exiting to the outside through the color filter, and a light having no opportunity to pass through the slits also can be observed. Therefore, a mean film thickness of color filter through which all lights pass during the time in which they travel the associated distance after they are inputted to the inside until they are outputted to the outside becomes nearly equal to that could be observed in the transmissive section T.
摘要翻译:在反射显示部分R内,通过滤色器到达反射电极的光的一部分通过狭缝离开到外部,并且通过狭缝到达反射电极的一部分光通过滤色器离开到外部。 此外,通过滤色器到达反射电极的光并且通过滤色器离开外部,并且可以观察到没有通过狭缝的机会的光。 因此,所有光通过的滤色片的平均膜厚在输入到内部之后行进相关距离的时间内通过,直到它们被输出到外部变得几乎等于在透射部分 T.
摘要:
Within a reflective display section R, a part of a light that reaches a reflective electrode through a color filter exits to the outside through slits and a part of a light that reaches the reflective electrode through the slits exits to the outside through the color filter. In addition, a light reaching the reflective electrode through the color filter and exiting to the outside through the color filter, and a light having no opportunity to pass through the slits also can be observed. Therefore, a mean film thickness of color filter through which all lights pass during the time in which they travel the associated distance after they are inputted to the inside until they are outputted to the outside becomes nearly equal to that could be observed in the transmissive section T.
摘要翻译:在反射显示部分R内,通过滤色器到达反射电极的光的一部分通过狭缝离开到外部,并且通过狭缝到达反射电极的一部分光通过滤色器离开到外部。 此外,通过滤色器到达反射电极的光并且通过滤色器离开外部,并且可以观察到没有通过狭缝的机会的光。 因此,所有光通过的滤色片的平均膜厚在输入到内部之后行进相关距离的时间内通过,直到它们被输出到外部变得几乎等于在透射部分 T.
摘要:
Within a reflective display section R, a part of a light that reaches a reflective electrode through a color filter exits to the outside through slits and a part of a light that reaches the reflective electrode through the slits exits to the outside through the color filter. In addition, a light reaching the reflective electrode through the color filter and exiting to the outside through the color filter, and a light having no opportunity to pass through the slits also can be observed. Therefore, a mean film thickness of color filter through which all lights pass during the time in which they travel the associated distance after they are inputted to the inside until they are outputted to the outside becomes nearly equal to that could be observed in the transmissive section T.
摘要翻译:在反射显示部分R内,通过滤色器到达反射电极的光的一部分通过狭缝离开到外部,并且通过狭缝到达反射电极的一部分光通过滤色器离开到外部。 此外,通过滤色器到达反射电极的光并且通过滤色器离开外部,并且可以观察到没有通过狭缝的机会的光。 因此,所有光通过的滤色片的平均膜厚在输入到内部之后行进相关距离的时间内通过,直到它们被输出到外部变得几乎等于在透射部分 T.
摘要:
Within a reflective display section R, a part of a light that reaches a reflective electrode through a color filter exits to the outside through slits and a part of a light that reaches the reflective electrode through the slits exits to the outside through the color filter. In addition, a light reaching the reflective electrode through the color filter and exiting to the outside through the color filter, and a light having no opportunity to pass through the slits also can be observed. Therefore, a mean film thickness of color filter through which all lights pass during the time in which they travel the associated distance after they are inputted to the inside until they are outputted to the outside becomes nearly equal to that could be observed in the transmissive section T.
摘要翻译:在反射显示部分R内,通过滤色器到达反射电极的光的一部分通过狭缝离开到外部,并且通过狭缝到达反射电极的一部分光通过滤色器离开到外部。 此外,通过滤色器到达反射电极的光并且通过滤色器离开外部,并且可以观察到没有通过狭缝的机会的光。 因此,所有光通过的滤色片的平均膜厚在输入到内部之后行进相关距离的时间内通过,直到它们被输出到外部变得几乎等于在透射部分 T.
摘要:
Within a reflective display section R, a part of a light that reaches a reflective electrode through a color filter exits to the outside through slits and a part of a light that reaches the reflective electrode through the slits exits to the outside through the color filter. In addition, a light reaching the reflective electrode through the color filter and exiting to the outside through the color filter, and a light having no opportunity to pass through the slits also can be observed. Therefore, a mean film thickness of color filter through which all lights pass during the time in which they travel the associated distance after they are inputted to the inside until they are outputted to the outside becomes nearly equal to that could be observed in the transmissive section T.
摘要翻译:在反射显示部分R内,通过滤色器到达反射电极的光的一部分通过狭缝离开到外部,并且通过狭缝到达反射电极的一部分光通过滤色器离开到外部。 此外,通过滤色器到达反射电极的光并且通过滤色器离开外部,并且可以观察到没有通过狭缝的机会的光。 因此,所有光通过的滤色片的平均膜厚在输入到内部之后行进相关距离的时间内通过,直到它们被输出到外部变得几乎等于在透射部分 T.
摘要:
Within a reflective display section R, a part of a light that reaches a reflective electrode through a color filter exits to the outside through slits and a part of a light that reaches the reflective electrode through the slits exits to the outside through the color filter. In addition, a light reaching the reflective electrode through the color filter and exiting to the outside through the color filter, and a light having no opportunity to pass through the slits also can be observed. Therefore, a mean film thickness of color filter through which all lights pass during the time in which they travel the associated distance after they are inputted to the inside until they are outputted to the outside becomes nearly equal to that could be observed in the transmissive section T.
摘要翻译:在反射显示部分R内,通过滤色器到达反射电极的光的一部分通过狭缝离开到外部,并且通过狭缝到达反射电极的一部分光通过滤色器离开到外部。 此外,通过滤色器到达反射电极的光并且通过滤色器离开外部,并且可以观察到没有通过狭缝的机会的光。 因此,所有光通过的滤色片的平均膜厚在输入到内部之后行进相关距离的时间内通过,直到它们被输出到外部变得几乎等于在透射部分 T.
摘要:
Within a reflective display section R, a part of a light that reaches a reflective electrode through a color filter exits to the outside through slits and a part of a light that reaches the reflective electrode through the slits exits to the outside through the color filter. In addition, a light reaching the reflective electrode through the color filter and exiting to the outside through the color filter, and a light having no opportunity to pass through the slits also can be observed. Therefore, a mean film thickness of color filter through which all lights pass during the time in which they travel the associated distance after they are inputted to the inside until they are outputted to the outside becomes nearly equal to that could be observed in the transmissive section T.
摘要:
A LCD unit includes a plurality of LC panels stacked one on another. If a picture to be displayed on the LCD unit is a still picture, one of the LC panels consecutively scans plurality of rows of pixels in a direction opposite to the scanning direction of the rows of pixels in the rest of LC panels. If the picture is a moving picture, all the LC panels consecutively scans in the same direction.
摘要:
A method for manufacturing a transflective type LCD having a first substrate provided thereon with a plurality of scanning lines and a plurality of signal lines which are substantially perpendicular to each other and a switching element arranged near each of intersections between said scanning lines and said signal lines, includes forming a reflection region having a reflection electrode film and a transmission region having a transparent electrode film in each pixel surrounded by said scanning lines and said signal lines, a liquid crystal being sandwiched at a gap between said first substrate and a second substrate which is arranged opposite to said first substrate, and forming an organic film having irregularities thereon below said reflection electrode film and said transparent electrode film to substantially the same film thickness.
摘要:
A method for manufacturing a transflective type LCD having a first substrate provided thereon with a plurality of scanning lines and a plurality of signal lines which are substantially perpendicular to each other and a switching element arranged near each of intersections between said scanning lines and said signal lines, includes forming a reflection region having a reflection electrode film and a transmission region having a transparent electrode film in each pixel surrounded by said scanning lines and said signal lines, a liquid crystal being sandwiched at a gap between said first substrate and a second substrate which is arranged opposite to said first substrate, and forming an organic film having irregularities thereon below said reflection electrode film and said transparent electrode film to substantially the same film thickness.