Abstract: A method of manufacturing an organic device includes the following steps. The first step is a step of forming a plurality of organic elements in the form of a matrix on a brittle substrate. Each of the organic elements is provided with an electrically connecting portion which electrically connects the organic element to an external circuit. The second step is a step of forming a sealing film on each organic element by a wet process with at least a part of the connecting portion covered with an adhesive masking material. The third step is a step of removing an adhesive deposit after peeling off the adhesive masking material. The fourth step is a step of forming a plurality of scribe lines on the brittle substrate. The fifth step is a step of breaking the brittle substrate along the scribe lines.

Abstract: A lighting unit is installed in an optical reader having a transparent plate and a sensor. The transparent plate can mount a document thereon. The lighting unit includes a light source and a reflective member provided on a light exit side of the light source. The reflective member converges light from the light source on the document. The lighting unit is operable to scan along the transparent plate. The sensor is provided for sensing light reflected from the document.

Abstract: A light guiding plate guides light from a light source and irradiates the light onto a display portion. The light guiding plate has an exit plate facing the display portion, and a reflection-exit plane opposite to the exit plane. The reflection-exit plane has a first end intersecting an incidence plane and a second end intersecting an opposite end plane. An inclination angle, defined by the exit plane and a line that contains the first end and the second end, is greater than 0.20° and less than 0.75°. The reflection-exit plane includes a light admission portion that reflects light entering through or reflected on the incidence plane to the exit plane.

Abstract: A light guiding plate guides light from a light source and irradiates the light onto a display portion. The light guiding plate has an exit plane facing the display portion, and a reflection-exit plane opposite to the exit plane. The reflection-exit plane has a first end intersecting the incidence plane and a second end intersecting the opposite end plane. An inclination angle defined by the incidence plane and a line that contains the first end and the second end is greater than 0.2° and less than 0.75°. The reflection exit plane includes a light admission portion that reflects light entering through or reflected on the incidence plane to the exit plane. This minimizes the parallax to an invisible level to improve the visibility while improving the uniformity of the brightness distribution.

Abstract: A light guiding plate guides light from a light source and irradiates the light onto a display portion. The light guiding plate has an incidence plane, which permits light to enter the light guiding plate, an opposite and plane opposite to the incidence plane an exit plane facing the display portion, and a reflection-exit plane opposite to the exit plane. A plurality of grooves are formed on the reflection exit plane. In any adjacent pair of the grooves, the depth of the groove closer to the opposite end plane is equal to or greater than the depth of the groove closer to the incidence plane. The depth of the grooves substantially increase from the incidence plane toward the opposite end plane. This improves the uniformity of brightness distribution.

Abstract: An optical waveguide according to the present invention has a light exit surface located on a side opposite of a back surface. An incident surface connects the back surface and the light exit surface with each other. A plurality of saw-tooth grooves are formed on the back surface. Surfaces defining the saw-tooth grooves include first guide surfaces that reflect light that enters the optical waveguide through the incident surface so that the light advances toward the first guide surface. A plurality of curved surface prisms are provided on the light exit surface. Each prism has a peak line. An arcuate cross-section groove is provided between the peak lines of each adjacent pair of the prisms. Each arcuate cross-section groove is defined by a section of the light exit surface between the peak lines of the corresponding prisms.

Abstract: A light guiding plate guides light from a light source and irradiates the light onto a display portion. The light guiding plate has an incidence plane, an opposite end plane opposite to the incidence plane, an exit plane facing the display portion, and a reflection-exit plane opposite to the exit plane. A plurality of grooves are formed on the reflection-exit plane. The depth of the grooves monotonously increases from the incidence plane toward the opposite end plane. Each groove is defined by intersecting first and second planes. In each groove, the angle defined by the first plane and the exit plane is substantially equal to that of the other grooves. In each groove, the angle defined by the first plane and the second plane is substantially equal to that of the other grooves. This waveguide increases the brightness and improves the uniformity of brightness distribution.

Abstract: A backlight in a liquid crystal display unit according to the present invention has a transparent substrate and an organic electroluminescent element provided on the transparent substrate. The backlight emits light emitted from the organic electroluminescent element from a light exit surface of the transparent substrate. A plurality of recesses are formed in the light exit surface. A part of the light exit surface between each adjacent pair of the recesses includes a plane that is perpendicular to the thickness direction of the transparent substrate. The backlight permits light emitted from the organic electroluminescent element to be efficiently emitted.

Abstract: An optical waveguide includes light admitting portions and a light emitting portion. Each light admitting portion admits light from a point light source. The light emitting portion emits light admitted by the light admitting portions. Each light admitting portion has an incidence portion. Each incidence portion includes incidence planes each extending in the width direction of the light admitting portions, and V-shaped grooves, which are alternately arranged. Each light admitting portion has a pair of flat reflection planes, which extend between the corresponding incidence portion and the light emitting portion. The distance between the reflection planes in each light admitting portion increases from a side opposite from the light emitting portion toward the light emitting portion. Therefore, the light emitting efficiency of the optical waveguide is improved, and brightness unevenness created the vicinity of each point light source is reduced.

Abstract: An optical element gathers light emitted from a planar luminous element having isotropic light emitting characteristics. The optical element includes an incidence plane and a plurality of protrusions. The incidence plane is formed on one side of the optical element for permitting the light to enter the optical element and faces the planar luminous element. The protrusions are formed on the other side of the optical element and each protrusion has a shape of a frustum.

Abstract: An optical element is arranged between a planar lighting element and a liquid crystal panel for collecting light that exits from the planar lighting element. The optical element has an incidence plane and a plurality of protrusions. The light that exits from the planar lighting element enters into the optical element. A plurality of the protrusions is provided on a surface facing the incidence plane. Substantially all the protrusions are each arranged in a one-to-one correspondence with an opening of a respective pixel of the liquid crystal panel.

Abstract: A light guiding plate guides light from a light source and irradiates the light onto a display portion. The light guiding plate has an incidence plane, an opposite end plane opposite to the incidence plane, an exit plane facing the display portion, and a reflection-exit plane opposite to the exit plane. A plurality of grooves are formed on the reflection-exit plane. The depth of the grooves monotonously increases from the incidence plane toward the opposite end plane. Each groove is defined by intersecting first and second planes. In each groove, the angle defined by the first plane and the exit plane is substantially equal to that of the other grooves. In each groove, the angle defined by the first plane and the second plane is substantially equal to that of the other grooves. This waveguide increases the brightness and improves the uniformity of brightness distribution.

Abstract: A light guiding plate guides light from a light source to illuminate a liquid crystal cell. A reflector reflects light from the light source. A first surface and a second surface selectively transmits or reflects light. A first region is formed on the first surface at a location that is relatively near the light source. The first region includes a first inclined face and a second inclined face. The first inclined face reflects light from the light source to guide light to the reflector. The second inclined face reflects light from the light source to the second surface so that the second surface emits light. A second region is formed on the first surface at a location that is relatively far from the light source. The second region includes a third inclined face and a fourth inclined face. The third inclined face reflects light from the light source to the second surface so that the second surface emits light.

Abstract: A light guiding plate guides light from a light source and irradiates the light onto a display portion. The light guiding plate has an incidence plane, which permits light to enter the light guiding plate, an opposite and plane opposite to the incidence plane an exit plane facing the display portion, and a reflection-exit plane opposite to the exit plane. A plurality of grooves are formed on the reflection exit plane. In any adjacent pair of the grooves, the depth of the groove closer to the opposite end plane is equal to or greater than the depth of the groove closer to the incidence plane. The depth of the grooves substantially increase from the incidence plane toward the opposite end plane. This improves the uniformity of brightness distribution.

Abstract: A light guiding plate guides light from a light source to illuminate a display. A reflector reflects light from the light source. A first surface and a second surface selectively transmits or reflects light. A first region is formed on the first surface at a location that is relatively near the light source. The first region includes a first inclined face and a second inclined face. The first inclined face reflects light from the light source to guide light to the reflector. The second inclined face reflects light from the light source to guide light to the second surface. A second region is formed on the first surface at a location that is relatively far from the light source. The second region includes a third inclined face and a fourth inclined face. The third inclined face reflects light from the light source to guide light to the second surface. The fourth inclined face reflects light reflected by the reflector to guide to the second surface.