Patent application number | Description | Published |
20090230815 | MICRO ELECTRO MECHANICAL SYSTEM, SEMICONDUCTOR DEVICE, AND MANUFACTURING METHOD THEREOF - The present invention provides a MEMS and a sensor having the MEMS which can be formed without a process of etching a sacrifice layer. The MEMS and the sensor having the MEMS are formed by forming an interspace using a spacer layer. In the MEMS in which an interspace is formed using a spacer layer, a process for forming a sacrifice layer and an etching process of the sacrifice layer are not required. As a result, there is no restriction on the etching time, and thus the yield can be improved. | 09-17-2009 |
20090272321 | MANUFACTURING APPARATUS OF SEMICONDUCTOR DEVICE AND PATTERN-FORMING METHOD - The present invention provides a manufacturing apparatus of a semiconductor device, having a pattern-forming apparatus using a droplet-discharging method that is suitable for a large substrate in mass production. A plurality of pattern-forming apparatuses using a droplet-discharging method and a plurality of heat-treatment chambers are provided, and each of which is connected to one transfer chamber, which is a multi-chamber system. Discharging and baking are conducted efficiently to improve productivity. A gas is blown in the same direction as the scanning direction (or a scanning direction of a discharging head) on a substrate just after a droplet is landed, by providing a blowing means in the pattern-forming apparatus, and a heater is provided in a gas-flow path for local baking. | 11-05-2009 |
20100006846 | LIGHT-EMITTING DEVICE AND METHOD FOR MANUFACTURING THE SAME - The present invention provides a display device and a manufacturing method thereof that can simplify manufacturing steps and enhance efficiency in the use of materials, and further, a manufacturing method that can enhance adhesiveness of a pattern. One feature of the invention is that at least one or more patterns needed for manufacturing a display panel, such as a conductive layer forming a wiring or an electrode or a mask for forming a desired pattern is/are formed by a method capable of selectively forming a pattern, thereby manufacturing a display panel. | 01-14-2010 |
20100285209 | CHEMICAL SOLUTION APPLICATION APPARATUS AND CHEMICAL SOLUTION APPLICATION METHOD - An object is to provide a chemical solution application apparatus capable of applying a chemical solution evenly and without irregularity by a spin coating method. A plurality of nozzles are provided for applying a chemical solution to an application object that is fixed over a stage. Each of the nozzles is individually mobile in vertical and horizontal directions. For this reason, controlling a discharging point or pattern is possible, and application responding to a wider viscosity range of chemical solutions is possible. By implementing the present invention, a chemical solution application apparatus equipped with a discharging method of a chemical solution by which a coating film having a small film thickness distribution over an entire substrate and an even thickness can be obtained, as well as for which use efficiency is improved by cutting down on waste of a chemical solution to be discharged. | 11-11-2010 |
20100285627 | MICRO-ELECTRO-MECHANICAL DEVICE AND MANUFACTURING METHOD FOR THE SAME - It is an object of the present invention to provide a micro-electro-mechanical-device having a microstructure and a semiconductor element over one surface. In particular, it is an object of the present invention to provide a method for simplifying the process of forming the microstructure and the semiconductor element over one surface. A space in which the microstructure is moved, that is, a movable space for the microstructure is formed by procecssing an insulating layer which is formed in a process of forming the semiconductor element. The movable space can be formed by forming the insulating layer having a plurality of openings and making the openings face each other to be overlapped each other. | 11-11-2010 |
20110006784 | TEST METHOD OF MICROSTRUCTURE BODY AND MICROMACHINE - It is an object to provide a test method of a process, an electric characteristic, and a mechanical characteristic of a structure body in a micromachine without contact. A structure body including a first conductive layer, a second conductive layer provided in parallel to the first conductive layer, and a sacrifice layer or a space provided between the first conductive layer and the second conductive layer is provided; an antenna connected to the structure body is provided; electric power is supplied to the structure body wirelessly through the antenna; and an electromagnetic wave generated from the antenna is detected as a characteristic of the structure body. | 01-13-2011 |
20110012111 | MANUFACTURING METHOD OF MICRO-ELECTRO-MECHANICAL DEVICE - A method of forming a microstructure body and a semiconductor element for controlling the microstructure body over the same substrate to reduce manufacturing cost, for mass-production of micromachines having a microstructure. In manufacturing a micromachine, a sacrifice layer is formed using a mask material for forming a pattern of a film, and removal of the mask in a region for forming a semiconductor element and removal of the sacrifice layer and the mask in a region for forming a microstructure body are performed by the same step. Specifically, a manufacturing method of a micro-electro-mechanical device is provided wherein a sacrifice layer is selectively formed over an insulating substrate, a semiconductor layer is formed to cover the sacrifice layer, a mask is formed over the semiconductor layer, the semiconductor layer is etched using the mask, and the mask and the sacrifice layer are removed by the same step. | 01-20-2011 |
20120043594 | Micro-Electro-Mechanical Device And Manufacturing Method For The Same - It is an object of the present invention to provide a micro-electro-mechanical-device having a microstructure and a semiconductor element over one surface. In particular, it is an object of the present invention to provide a method for simplifying the process of forming the microstructure and the semiconductor element over one surface. A space in which the microstructure is moved, that is, a movable space for the microstructure is formed by procecssing an insulating layer which is formed in a process of forming the semiconductor element. The movable space can be formed by forming the insulating layer having a plurality of openings and making the openings face each other to be overlapped each other. | 02-23-2012 |
20120202324 | MANUFACTURING APPARATUS OF SEMICONDUCTOR DEVICE AND PATTERN-FORMING METHOD - The present invention provides a manufacturing apparatus of a semiconductor device, having a pattern-forming apparatus using a droplet-discharging method that is suitable for a large substrate in mass production. A plurality of pattern-forming apparatuses using a droplet-discharging method and a plurality of heat-treatment chambers are provided, and each of which is connected to one transfer chamber, which is a multi-chamber system. Discharging and baking are conducted efficiently to improve productivity. A gas is blown in the same direction as the scanning direction (or a scanning direction of a discharging head) on a substrate just after a droplet is landed, by providing a blowing means in the pattern-forming apparatus, and a heater is provided in a gas-flow path for local baking. | 08-09-2012 |
20130341630 | LIGHT-EMITTING DEVICE AND METHOD FOR MANUFACTURING THE SAME - The present invention provides a display device and a manufacturing method thereof that can simplify manufacturing steps and enhance efficiency in the use of materials, and further, a manufacturing method that can enhance adhesiveness of a pattern. One feature of the invention is that at least one or more patterns needed for manufacturing a display panel, such as a conductive layer forming a wiring or an electrode or a mask for forming a desired pattern is/are formed by a method capable of selectively forming a pattern, thereby manufacturing a display panel. | 12-26-2013 |
20140370639 | MICRO ELECTRO MECHANICAL SYSTEM, SEMICONDUCTOR DEVICE, AND MANUFACTURING METHOD THEREOF - The present invention provides a MEMS and a sensor having the MEMS which can be formed without a process of etching a sacrifice layer. The MEMS and the sensor having the MEMS are formed by forming an interspace using a spacer layer. In the MEMS in which an interspace is formed using a spacer layer, a process for forming a sacrifice layer and an etching process of the sacrifice layer are not required. As a result, there is no restriction on the etching time, and thus the yield can be improved. | 12-18-2014 |