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 |
20090065588 | Semiconductor Device, Manufacturing Method Thereof, and Manufacturing Method of Antenna - An element group having a transistor is formed over a substrate and a conductive film to be a dummy pattern is formed over the element group by pushing out a paste including conductive particles from a first opening portion, and then a conductive film functioning as an antenna is formed continuously thereafter so as to electrically connect with the transistor, by pushing out a paste including conductive particles from a second opening portion. Therefore, an element group having a transistor, provided over a substrate; a first conductive film functioning as an antenna provided over the element group and is electrically connected to the transistor; a second conductive film to be a dummy pattern provided to be adjacent to the first conductive film and is not electrically connected to the transistor; are included. | 03-12-2009 |
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 |
20090102055 | Semiconductor device - It is an object of the invention to provide semiconductor devices which can protect privacy of consumers or holders of commercial products and control the communication range according to use, even when the semiconductor device which can exchange data without contact is mounted on the commercial products. A semiconductor device of the invention includes an element group including a plurality of transistors over a substrate; a first conductive film functioning as an antenna over the element group; a second conductive film surrounding the first conductive film; an insulating film covering the first and second end portions; and a third conductive film over the insulating film. The first conductive film is provided in the shape of a coil, and each end portion of the first conductive film is connected to the element group. First and second end portions of the second conductive film are not connected to each other. | 04-23-2009 |
20090302457 | WIRING SUBSTRATE, MANUFACTURING METHOD THEREOF, SEMICONDUCTOR DEVICE, AND MANUFACTURING METHOD THEREOF - A wiring substrate is provided, including an insulating resin layer which is provided on both surfaces of a sheet-like fibrous body and with which the sheet-like fibrous body is impregnated, and a through wiring provided in a region surrounded by the insulating resin layer. The through wiring is formed using a conductive material, the conductive material is exposed on both surfaces of the insulating resin layer, the sheet-like fibrous body is positioned in the conductive material, and the sheet-like fibrous body is impregnated with the conductive material. A manufacturing method of the wiring substrate is also provided. | 12-10-2009 |
20100126681 | PAPER INCLUDING SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - Paper embedded with a semiconductor device capable of communicating wirelessly is realized, whose unevenness of a portion including the semiconductor device does not stand out and the paper is thin with a thickness of less than or equal to 130 μm. A semiconductor device is provided with a circuit portion and an antenna, and the circuit portion includes a thin film transistor. The circuit portion and the antenna are separated from a substrate used during manufacturing, and are interposed between a flexible base and a sealing layer and protected. The semiconductor device can be bent, and the thickness of the semiconductor device itself is less than or equal to 30 μm. The semiconductor device is embedded in a paper in a papermaking process. | 05-27-2010 |
20110039373 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD OF SEMICONDUCTOR DEVICE - The present invention provides a thin and bendable semiconductor device utilizing an advantage of a flexible substrate used in the semiconductor device, and a method of manufacturing the semiconductor device. The semiconductor device has at least one surface covered by an insulating layer which serves as a substrate for protection. In the semiconductor device, the insulating layer is formed over a conductive layer serving as an antenna such that the value in the thickness ratio of the insulating layer in a portion not covering the conductive layer to the conductive layer is at least 1.2, and the value in the thickness ratio of the insulating layer formed over the conductive layer to the conductive layer is at least 0.2. Further, not the conductive layer but the insulating layer is exposed in the side face of the semiconductor device, and the insulating layer covers a TFT and the conductive layer. In addition, a substrate covering an element formation layer side is a substrate having a support on its surface is used in the manufacturing process. | 02-17-2011 |
20110068385 | SEMICONDUCTOR DEVICE - It is an object of the invention to provide semiconductor devices which can protect privacy of consumers or holders of commercial products and control the communication range according to use, even when the semiconductor device which can exchange data without contact is mounted on the commercial products. A semiconductor device of the invention includes an element group including a plurality of transistors over a substrate; a first conductive film functioning as an antenna over the element group; a second conductive film surrounding the first conductive film; an insulating film covering the first and second end portions; and a third conductive film over the insulating film. The first conductive film is provided in the shape of a coil, and each end portion of the first conductive film is connected to the element group. First and second end portions of the second conductive film are not connected to each other. | 03-24-2011 |
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 |
20110101366 | PAPER INCLUDING SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - Paper embedded with a semiconductor device capable of communicating wirelessly is realized, whose unevenness of a portion including the semiconductor device does not stand out and the paper is thin with a thickness of less than or equal to 130 μm. A semiconductor device is provided with a circuit portion and an antenna, and the circuit portion includes a thin film transistor. The circuit portion and the antenna are separated from a substrate used during manufacturing, and are interposed between a flexible base and a sealing layer and protected. The semiconductor device can be bent, and the thickness of the semiconductor device itself is less than or equal to 30 μm. The semiconductor device is embedded in a paper in a papermaking process. | 05-05-2011 |
20110309904 | ANTENNA, SEMICONDUCTOR DEVICE, AND METHOD OF MANUFACTURING ANTENNA - In an antenna and a semiconductor device including the antenna, an object is to reduce the distance between electrodes of a capacitor as much as possible, reduce the area of the electrode of the capacitor as much as possible, and prevent the suppression of response sensitivity and a response range of the semiconductor device. The present invention relates to an antenna including an antenna coil provided over a first region of a base and a capacitor which uses a second region of the base as a dielectric body and which has electrodes provided for opposite planes of the second region of the base, wherein the second region of the base is thinner than the first region of the base, and also relates to a semiconductor device including the antenna. | 12-22-2011 |
20120080810 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD OF SEMICONDUCTOR DEVICE - The present invention provides a thin and bendable semiconductor device utilizing an advantage of a flexible substrate used in the semiconductor device, and a method of manufacturing the semiconductor device. The semiconductor device has at least one surface covered by an insulating layer which serves as a substrate for protection. In the semiconductor device, the insulating layer is formed over a conductive layer serving as an antenna such that the value in the thickness ratio of the insulating layer in a portion not covering the conductive layer to the conductive layer is at least 1.2, and the value in the thickness ratio of the insulating layer formed over the conductive layer to the conductive layer is at least 0.2. Further, not the conductive layer but the insulating layer is exposed in the side face of the semiconductor device, and the insulating layer covers a TFT and the conductive layer. | 04-05-2012 |
20130228885 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD OF SEMICONDUCTOR DEVICE - The present invention provides a thin and bendable semiconductor device utilizing an advantage of a flexible substrate used in the semiconductor device, and a method of manufacturing the semiconductor device. The semiconductor device has at least one surface covered by an insulating layer which serves as a substrate for protection. In the semiconductor device, the insulating layer is formed over a conductive layer serving as an antenna such that the value in the thickness ratio of the insulating layer in a portion not covering the conductive layer to the conductive layer is at least 1.2, and the value in the thickness ratio of the insulating layer formed over the conductive layer to the conductive layer is at least 0.2. Further, not the conductive layer but the insulating layer is exposed in the side face of the semiconductor device, and the insulating layer covers a TFT and the conductive layer. | 09-05-2013 |
20130270720 | 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. | 10-17-2013 |
20130313329 | ANTENNA, SEMICONDUCTOR DEVICE, AND METHOD OF MANUFACTURING ANTENNA - In an antenna and a semiconductor device including the antenna, an object is to reduce the distance between electrodes of a capacitor as much as possible, reduce the area of the electrode of the capacitor as much as possible, and prevent the suppression of response sensitivity and a response range of the semiconductor device. The present invention relates to an antenna including an antenna coil provided over a first region of a base and a capacitor which uses a second region of the base as a dielectric body and which has electrodes provided for opposite planes of the second region of the base, wherein the second region of the base is thinner than the first region of the base, and also relates to a semiconductor device including the antenna. | 11-28-2013 |