Patent application number | Description | Published |
20080230871 | SEMICONDUCTOR DISPLAY DEVICE AND METHOD OF MANUFACTURING THE SAME - A semiconductor display device with an interlayer insulating film in which surface levelness is ensured with a limited film formation time, heat treatment for removing moisture does not take long, and moisture in the interlayer insulating film is prevented from escaping into a film or electrode adjacent to the interlayer insulating film. A TFT is formed and then a nitrogen-containing inorganic insulating film that transmits less moisture compared to organic resin film is formed so as to cover the TFT. Next, organic resin including photosensitive acrylic resin is applied and an opening is formed by partially exposing the organic resin film to light. The organic resin film where the opening is formed, is then covered with a nitrogen-containing inorganic insulating film which transmits less moisture than organic resin film does. Thereafter, the gate insulating film and the two layers of the nitrogen-containing inorganic insulating films are partially etched away in the opening of the organic resin film to expose the active layer of the TFT. | 09-25-2008 |
20080311748 | Semiconductor integrated circuit, semiconductor device, and manufacturing method of the semiconductor integrated circuit - A chip with increased impact resistance, attractive design and reduced cost, and a manufacturing method thereof are provided. A semiconductor integrated circuit is formed on a large glass substrate, and a part of data of a ROM included therein is determined by an ink jet method or a laser cutting method. Accordingly, the cost can be reduced without requiring a photomask, resulting in an inexpensive ID chip. Further, depending on the application, the semiconductor integrated circuit is transposed to a flexible substrate, thereby an ID chip with improved impact resistance and more attractive design can be achieved. | 12-18-2008 |
20090201269 | SEMICONDUCTOR DEVICE - As for a “system on panel” in which a control circuit and a driver circuit as well as a display device are integrally formed over a substrate such as a glass substrate, more sophistication is expected by fabricating an input unit over the same substrate. Input of a semiconductor device is generally performed by pushing or touching a button like input unit with fingers or the like. In that case, glass is often used for a counter substrate; however, it is difficult to form a button from glass and to provide it directly on the substrate due to the nature of the material. It is an object of the present invention to provide a semiconductor device at a lower price, in which the input operation can be performed without employing an external input unit. | 08-13-2009 |
20090261173 | SECURITIES, CHIP MOUNTING PRODUCT, AND MANUFACTURING METHOD THEREOF - The invention provides an ID chip with reduced cost, increased impact resistance and attractive design, as well as products and the like mounting the ID chip and a manufacturing method thereof. In view of the foregoing, an integrated circuit having a semiconductor film with a thickness of 0.2 μm or less is mounted on securities including bills, belongings, containers of food and drink, and the like (hereinafter referred to as products and the like). The ID chip of the invention can be reduced in cost and increased in impact resistance as compared with a chip formed over a silicon wafer while maintaining an attractive design. | 10-22-2009 |
20110049522 | SEMICONDUCTOR DISPLAY DEVICE - It is an object of the present invention to provide a semiconductor display device having an interlayer insulating film which can obtain planarity of a surface while controlling film formation time, can control treatment time of heating treatment with an object of removing moisture, and can prevent moisture in the interlayer insulating film from being discharged to a film or an electrode adjacent to the interlayer insulating film. An inorganic insulating film containing nitrogen, which is less likely to transmit moisture compared with an organic resin, is formed so as to cover a TFT. Next, an organic resin film containing photosensitive acrylic resin is applied to the organic insulting film, and the organic resin film is partially exposed to light to be opened. Thereafter, an inorganic insulting film containing nitrogen, which is less likely to transmit moisture compared with an organic resin, is formed so as to cover the opened organic resin film. Then, in the opening part of the organic resin film, a gate insulating film and the two layer inorganic insulating film containing nitrogen are opened partially is by etching to expose an active layer of the TFT. | 03-03-2011 |
20110089426 | Integrated Circuit, Semiconductor Device Comprising the Same, Electronic Device Having the Same, and Driving Method of the Same - An integrated circuit mounting a DRAM which can realize high integration without complicated manufacturing steps. The integrated circuit according to the invention comprises a DRAM in which a plurality of memory cells each having a thin film transistor are disposed. The thin film transistor comprises an active layer including a channel forming region, and first and second electrodes overlapping with each other with the channel forming region interposed therebetween. By controlling a drain voltage of the thin film transistor according to data, it is determined whether to accumulate holes in the channel forming region or not, and data is read out by confirming whether or not holes are accumulated. | 04-21-2011 |
20110089427 | SECURITIES, CHIP MOUNTING PRODUCT, AND MANUFACTURING METHOD THEREOF - The invention provides an ID chip with reduced cost, increased impact resistance and attractive design, as well as products and the like mounting the ID chip and a manufacturing method thereof. In view of the foregoing, an integrated circuit having a semiconductor film with a thickness of 0.2 μm or less is mounted on securities including bills, belongings, containers of food and drink, and the like (hereinafter referred to as products and the like). The ID chip of the invention can be reduced in cost and increased in impact resistance as compared with a chip formed over a silicon wafer while maintaining an attractive design. | 04-21-2011 |
20110241008 | SEMICONDUCTOR DISPLAY DEVICE AND METHOD OF MANUFACTURING THE SAME - A semiconductor display device with an interlayer insulating film in which surface levelness is ensured with a limited film formation time, heat treatment for removing moisture does not take long, and moisture in the interlayer insulating film is prevented from escaping into a film or electrode adjacent to the interlayer insulating film. A TFT is formed and then a nitrogen-containing inorganic insulating film that transmits less moisture compared to organic resin film is formed so as to cover the TFT. Next, organic resin including photosensitive acrylic resin is applied and an opening is formed by partially exposing the organic resin film to light. The organic resin film where the opening is foamed, is then covered with a nitrogen-containing inorganic insulating film which transmits less moisture than organic resin film does. Thereafter, the gate insulating film and the two layers of the nitrogen-containing inorganic insulating films are partially etched away in the opening of the organic resin film to expose the active layer of the TFT. | 10-06-2011 |
20110309364 | SEMICONDUCTOR DISPLAY DEVICE - It is an object of the present invention to provide a semiconductor display device having an interlayer insulating film which can obtain planarity of a surface while controlling film formation time, can control treatment time of heating treatment with an object of removing moisture, and can prevent moisture in the interlayer insulating film from being discharged to a film or an electrode adjacent to the interlayer insulating film. An inorganic insulating film containing nitrogen, which is less likely to transmit moisture compared with an organic resin, is formed so as to cover a TFT. Next, an organic resin film containing photosensitive acrylic resin is applied to the organic insulating film, and the organic resin film is partially exposed to light to be opened. Thereafter, an inorganic insulating film containing nitrogen, which is less likely to transmit moisture compared with an organic resin, is formed so as to cover the opened organic resin film. Then, in the opening part of the organic resin film, a gate insulating film and the two layer inorganic insulating film containing nitrogen are opened partially by etching to expose an active layer of the TFT. | 12-22-2011 |
20120074481 | SECURITIES, CHIP MOUNTING PRODUCT, AND MANUFACTURING METHOD THEREOF - The invention provides an ID chip with reduced cost, increased impact resistance and attractive design, as well as products and the like mounting the ID chip and a manufacturing method thereof. In view of the foregoing, an integrated circuit having a semiconductor film with a thickness of 0.2 μm or less is mounted on securities including bills, belongings, containers of food and drink, and the like (hereinafter referred to as products and the like). The ID chip of the invention can be reduced in cost and increased in impact resistance as compared with a chip formed over a silicon wafer while maintaining an attractive design. | 03-29-2012 |
20120139872 | SEMICONDUCTOR DEVICE - A variable capacitor is formed from a pair of electrodes and a dielectric interposed between the electrodes over a substrate, and an external input is detected by changing capacitance of the variable capacitor by a physical or electrical force. Specifically, a variable capacitor and a sense amplifier are provided over the same substrate, and the sense amplifier reads the change of capacitance of the variable capacitor and transmits a signal in accordance with the input to a control circuit. | 06-07-2012 |
20120205658 | SEMICONDUCTOR DISPLAY DEVICE AND METHOD OF MANUFACTURING THE SAME - A semiconductor display device is formed including an interlayer insulating. Specifically, a TFT is formed and then a nitrogen-containing inorganic insulating film that transmits less moisture compared to organic resin film is formed so as to cover the TFT. Next, organic resin including photosensitive acrylic resin is applied and an opening is formed by partially exposing the organic resin film to light. The organic resin film where the opening is formed, is then covered with a nitrogen-containing inorganic insulating film which transmits less moisture than organic resin film does. Thereafter, the gate insulating film and the two layers of the nitrogen-containing inorganic insulating films are partially etched away in the opening of the organic resin film to expose the active layer of the TFT. | 08-16-2012 |
20130148041 | SEMICONDUCTOR DEVICE - A variable capacitor is formed from a pair of electrodes and a dielectric interposed between the electrodes over a substrate, and an external input is detected by changing capacitance of the variable capacitor by a physical or electrical force. Specifically, a variable capacitor and a sense amplifier are provided over the same substrate, and the sense amplifier reads the change of capacitance of the variable capacitor and transmits a signal in accordance with the input to a control circuit. | 06-13-2013 |
20130221361 | SEMICONDUCTOR DISPLAY DEVICE - It is an object of the present invention to provide a semiconductor display device having an interlayer insulating film which can obtain planarity of a surface while controlling film formation time, can control treatment time of heating treatment with an object of removing moisture, and can prevent moisture in the interlayer insulating film from being discharged to a film or an electrode adjacent to the interlayer insulating film. An inorganic insulating film containing nitrogen, which is less likely to transmit moisture compared with an organic resin, is formed so as to cover a TFT. Next, an organic resin film containing photosensitive acrylic resin is applied to the organic insulting film, and the organic resin film is partially exposed to light to be opened. Thereafter, an inorganic insulting film containing nitrogen, which is less likely to transmit moisture compared with an organic resin, is formed so as to cover the opened organic resin film. Then, in the opening part of the organic resin film, a gate insulating film and the two layer inorganic insulating film containing nitrogen are opened partially by etching to expose an active layer of the TFT. | 08-29-2013 |