| Patent application number | Description | Published |
|---|
| 20090057875 | Semiconductor device - A highly reliable semiconductor device which is not damaged by local pressing force from the outside and in which unevenness of a portion where an antenna and an element overlap with each other is reduced. The semiconductor device includes a chip and an antenna. The chip includes a semiconductor element layer including a thin film transistor; a conductive resin electrically connected to the semiconductor element layer; and a sealing layer. The sealing layer in which a fiber body is impregnated with an organic resin covers the semiconductor element layer and the conductive resin, and has a thickness of 10 to 100 μm. The antenna has a depressed portion and is electrically connected to the semiconductor element layer through the conductive resin. The chip is embedded inside the depressed portion. The thickness of the chip is equal to the depth of the depressed portion. | 03-05-2009 |
| 20090065590 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING THE SAME - A separation layer and a semiconductor element layer including a thin film transistor are formed. A conductive resin electrically connected to the semiconductor element layer is formed. A first sealing layer including a fiber and an organic resin layer is formed over the semiconductor element layer and the conductive resin. A groove is formed in the first sealing layer, the semiconductor element layer, and the separation layer. A liquid is dropped into the groove to separate the separation layer and the semiconductor element layer. The first sealing layer over the conductive resin is removed to form an opening. A set of the first sealing layer and the semiconductor element layer is divided into a chip. The chip is bonded to an antenna formed over a base material. A second sealing layer including a fiber and an organic resin layer is formed so as to cover the antenna and the chip. | 03-12-2009 |
| 20090166896 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - Objects are to reduce damage to a semiconductor integrated circuit by external stress and to increase the manufacturing yield of a thinned semiconductor integrated circuit. A single crystal semiconductor layer separated from a single crystal semiconductor substrate is used for a semiconductor element included in the semiconductor integrated circuit. Moreover, a substrate which is formed into a thin shape and provided with the semiconductor integrated circuit is covered with a resin layer. In a separation step, a groove for separating a semiconductor element layer is formed in the supporting substrate, and a resin layer is provided over the supporting substrate in which the groove is formed. After that, the resin layer and the supporting substrate are cut in the groove so as to be divided into a plurality of semiconductor integrated circuits. | 07-02-2009 |
| 20090174023 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - A semiconductor element is formed on a first surface of the substrate. A resin layer is formed over a second surface of the substrate which is opposite to the first surface of the substrate and on a part of the side surface of the substrate. A step is formed on the side surface of the substrate. The width of the upper section of the substrate with a step is narrower than the lower section of the substrate with a step. Therefore, the substrate can also be a protrusion. | 07-09-2009 |
| 20090183766 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - A semiconductor device in which the damage such as cracks, chinks, or dents caused by external stress is reduced is provided. In addition, the yield of a semiconductor device having a small thickness is increased. The semiconductor device includes a light-transmitting substrate having a stepped side surface, the width of which in a portion above the step and closer to one surface is smaller than that in a portion below the step, a semiconductor element layer provided over the other surface of the light-transmitting substrate, and a stack of a first light-transmitting resin layer and a second light-transmitting resin layer, which covers the one surface and part of the side surface of the light-transmitting substrate. One of the first light-transmitting resin layer and the second light-transmitting resin layer has a chromatic color. | 07-23-2009 |
| 20090267173 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - A semiconductor device includes a plurality of semiconductor integrated circuits bonded to a structure body in which a fibrous body is impregnated with an organic resin. The plurality of semiconductor integrated circuits are provided at openings formed in the structure body and each include a photoelectric conversion element, a light-transmitting substrate which has stepped sides and in which the width of the projected section on a first surface side is smaller than that of a second surface, a semiconductor integrated circuit portion provided on the second surface of the light-transmitting substrate, and a chromatic color light-transmitting resin layer which covers the first surface and part of side surfaces of the light-transmitting substrate. The plurality of semiconductor integrated circuits include the chromatic color light-transmitting resin layers of different colors. | 10-29-2009 |
| 20110032684 | TERMINAL STRUCTURE AND MANUFACTURING METHOD THEREOF, AND ELECTRONIC DEVICE AND MANUFACTURING METHOD THEREOF - A conductor having a projecting portion is formed which forms a terminal portion. An uncured prepreg including a reinforcing material is closely attached to the conductor and the prepreg is cured to form an insulating film including the reinforcing material. When the prepreg is closely attached, the prepreg is stretched by the projecting portion, so that a region of the prepreg, which is closely attached to the conductor, can be thinner than the other region of the prepreg. Then, by reducing the thickness of the entire insulating film, an opening can be formed in the portion having a smaller thickness. The step of reducing the thickness can be performed by etching. Further, it is preferable not to remove the reinforcing material in this step. The strength of a terminal and an electronic device can be increased by leaving the reinforcing material at the opening. | 02-10-2011 |
| 20110090656 | TERMINAL STRUCTURE, ELECTRONIC DEVICE, AND MANUFACTURING METHOD THEREOF - A method for manufacturing an electronic device comprising a terminal provided with a conductor which penetrates a cured prepreg is provided. At least one opening is formed in the prepreg. The prepreg is attached to a substrate over which an electronic element is formed so that the conductor included in the terminal overlaps with the opening. A conductive paste is provided in a region of the prepreg where the opening is provided. Part of the conductive paste flows into the opening to be in contact with the conductor included in the terminal. Then, heat treatment is performed so that the conductive paste and the prepreg are cured. In the process for manufacturing the terminal, it is not necessary to perform a step of forming an opening with a laser beam after the prepreg is cured. Thus, an adverse effect of a laser beam on the electronic element can be eliminated. | 04-21-2011 |
