Abstract:
An object of the present invention is to provide an organic EL module that achieves a reduction in size and thickness, that has a high touch-sensing accuracy, and that is applicable to smart devices, and a smart device equipped with the same. The organic EL module of the present invention includes: an organic EL panel having a connecting electrode; and an electrical connecting unit laminated on the organic EL panel, wherein the electrical connecting unit has a flexible substrate and a capacitive sensing circuit provided on the flexible substrate and having a land, the electrical connecting unit is provided on a light-emitting surface side of the organic EL panel, the electrical connecting unit has a light-permeable part and a bent part formed by making two or more cuts in at least one side of the light-permeable part, and the land constituting the sensing circuit and the connecting electrode of the organic EL panel are electrically connected to each other at the bent part.
Abstract:
An object of the present invention is to provide an organic EL panel having a display pattern that allows low power consumption, high emission uniformity, and high emission luminance ratio and makes it possible to reduce the manufacturing process time and provide high productivity, a method for manufacturing the organic EL panel, an organic EL module, and an information device. The organic EL panel of the present invention includes an organic EL device including an organic EL element having a pattern A including at least a light-emitting part and a non-light-emitting part; and at least one auxiliary member, wherein the organic EL element has an emission luminance ratio of the light-emitting part to the non-light-emitting part of 5:1 to 50:1, and the at least one auxiliary member has a pattern B being geometrically similar to the pattern A and including a light-transmitting part and a light-blocking part.
Abstract:
An optical fingerprint authentication device includes at least a light source and an image sensor and detects diffused light. The light source is an organic electroluminescence panel. The organic electroluminescence panel comprises a light emitting portion region and a light-transmitting non-light emitting portion, the light emitting portion region being shaped by an organic electroluminescence element. A fingerprint information reader having the image sensor arranged at a position adjacent to the non-light emitting portion is provided.
Abstract:
An object of the present invention is to provide an organic EL module which includes an organic EL element of an electrode configuration, having both of a light emitting function and a hovering detection function, has a specific control circuit configuration, is capable of being small formatted and miniaturized, and is capable of simplifying a process, and a smart device and an illuminating device including the organic EL module.An organic EL module of the present invention includes: an electrostatic capacitance type hovering detection circuit unit having a hovering detection function; and a light emitting element driving circuit unit driving an organic EL panel, in which the organic EL panel includes a pair of planar electrodes in internal facing positions, the pair of electrodes is connected to the light emitting element driving circuit unit, any one of the pair of electrodes is a hovering detection electrode, and the hovering detection electrode is connected to the hovering detection circuit unit.
Abstract:
An organic electroluminescent module of the present invention includes an organic EL panel and an electrical connection unit. The electrical connection unit includes a flexible substrate including a body disposed adjacent to a light-emitting surface of the organic EL panel, and a contact piece defined by a cutout in the body and disposed remote from the light-emitting surface of the organic EL panel; a capacitance sensing circuit and drive circuits formed on a surface of the body; lands formed on a surface of the contact piece; and metal layers formed on a surface of the contact piece in portions overlapping with the lands.
Abstract:
An object of the invention is to provide an organic electroluminescence module having light-emitting units capable of keeping power consumption low and to provide an information device having such a module. The organic electroluminescence module of the invention includes a plurality of light-emitting units that are electrically connected to one another and each have a light-emitting region corresponding to a design to be displayed by light emission.
Abstract:
The purpose of the present invention is to provide a surface emitting device in which the light output surface appears black at times that light is not being emitted, and areas in which patterns are formed are not visible at times that light is not being emitted. This surface emitting device (10) is characterized by being provided with: an organic EL element (3) in which an organic functional layer (33) having at least a light-emitting layer is sandwiched between an anode (32) and a cathode (34) formed on a support substrate (31), and in which a predetermined area of the organic functional layer (33) has been patterned through irradiation with light; a fastening substrate (1) facing the support substrate (31), for supporting the organic EL element (3); and a circular polarizing plate (2) situated between the organic EL element (3) and the fastening substrate (1).