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 |
20080283835 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING THE SAME - To reduce variation among TFTs in manufacture of a semiconductor device including n-type thin film transistors and p-type thin film transistors. Further, another object of the present invention is to reduce the number of masks and manufacturing steps, and manufacturing time. A method of manufacturing a semiconductor device includes forming an island-shaped semiconductor layer of a first thin film transistor, then, forming an island-shaped semiconductor layer of the second thin film transistor. In the formation of the island-shaped semiconductor layer of the second thin film transistor, a gate insulating film in contact with the island-shaped semiconductor layer of the second thin film transistor is used as a protection film (an etching stopper film) for the island-shaped semiconductor layer of the first thin film transistor. | 11-20-2008 |
20090101906 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - A first resist pattern is formed by exposure using a first multi-tone photomask, and a first conductive layer, a first insulating layer, a first semiconductor layer, and a second semiconductor layer are etched, so that an island-shaped single layer and an island-shaped stack are formed. Here, sidewalls are formed on side surfaces of the island-shaped single layer and the island-shaped stack. Further, a second resist pattern is formed by exposure using a second multi-tone photomask, and a second conductive layer and the second semiconductor layer are etched, so that a thin film transistor, a pixel electrode, and a connection terminal are formed. After that, a third resist pattern is formed by exposure from a rear side using metal layers of the first conductive layer and the second conductive layer as masks, and the third insulating layer are etched, so that a protective insulating layer is formed. | 04-23-2009 |
20090104723 | METHOD FOR MANUFACTURING DISPLAY DEVICE - Etching is performed using mask layers formed by a multi-tone mask which is a light-exposure mask through which light is transmitted to have a plurality of intensity, in a method for manufacturing a display device including an inverted staggered thin film transistor with a channel-etched structure. Further, a gate wiring layer and a source wiring layer are formed over a substrate in the same step, and the source wiring layer is separated (disconnected) at an intersection of the gate wiring layer and the source wiring layer. The separated source wiring layers are connected to each other electrically through an opening (a contact hole) via a conductive layer formed over a gate insulating layer in the same step as formation of source and drain electrode layers. | 04-23-2009 |
20090111198 | METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - A manufacturing method of the present invention includes a process using a first multi-tone mask, in which a first conductive layer in which a transparent conductive layer and a metal layer are stacked over a substrate, a gate electrode formed of a first conductive layer, and a pixel electrode formed of a single layer of the transparent conductive layer are formed, a process using a second multi-tone mask, in which a contact hole to the pixel electrode, and an island of an i-type semiconductor layer and an n | 04-30-2009 |
20090117691 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - To achieve electro-optical devices typified by active matrix liquid crystal display devices with higher productivity and yield and lower manufacturing cost by reducing the number of steps of manufacturing a terminal portion and a pixel portion having an inverted staggered thin film transistor, specifically by reducing the number of photomasks used in a photolithography process. In view of this object, a photomask (multitone photomask) formed in such a manner that a light-transmitting substrate is provided with a transmitting portion, a partially-transmitting portion having a function of reducing light intensity, and a light-blocking portion is employed. Moreover, a lift-off method which does not require an etching step in patterning of a source electrode and a drain electrode of the pixel portion and a source wiring that extends to the terminal portion is employed. | 05-07-2009 |
20090142867 | METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - The number of photomasks is reduced in a method for manufacturing a liquid crystal display device which operates in a fringe field switching mode, whereby a manufacturing process is simplified and manufacturing cost is reduced. A first transparent conductive film and a first metal film are sequentially stacked over a light-transmitting insulating substrate; the first transparent conductive film and the first metal film are shaped using a multi-tone mask which is a first photomask; an insulating film, a first semiconductor film, a second semiconductor film, and a second metal film are sequentially stacked; the second metal film and the second semiconductor film are shaped using a multi-tone mask which is a second photomask; a protective film is formed; the protective film is shaped using a third photomask; a second transparent conductive film is formed; and the second transparent conductive film is shaped using a fourth photomask. | 06-04-2009 |
20090148970 | METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - To provide a manufacturing method of a highly reliable TFT, by which a more refined pattern can be formed through a process using four or three masks, and a semiconductor device. A channel-etched bottom gate TFT structure is adopted in which a photoresist is selectively exposed to light by rear surface exposure utilizing a gate wiring to form a desirably patterned photoresist, and further, a halftone mask or a gray-tone mask is used as a multi-tone mask. Further, a step of lifting off using a halftone mask or a gray-tone mask and a step of reflowing a photoresist are used. | 06-11-2009 |
20090159885 | DIODE AND DISPLAY DEVICE INCLUDING DIODE - A thin film transistor which includes a microcrystalline semiconductor film over a gate electrode with a gate insulating film interposed therebetween to be in an inner region in which end portions of microcrystalline semiconductor film are in an inside of end portions of the gate electrode, an amorphous semiconductor film which covers top and side surfaces of the microcrystalline semiconductor film, and an impurity semiconductor film to which an impurity element imparting one conductivity is added, and which forms a source region and a drain region, wherein the microcrystalline semiconductor film includes an impurity element serving as a donor is provided to reduce off current of a thin film transistor, to reduce reverse bias current of a diode, and to improve an image quality of a display device using a thin film transistor. | 06-25-2009 |
20090206342 | DISPLAY DEVICE - An object is to reduce an occupied area of a protection circuit. Another object is to increase the reliability of a display device including the protection circuit. The protection circuit includes a first wiring over a substrate, an insulating film over the first wiring, and a second wiring over the insulating film. | 08-20-2009 |
20090242907 | DISPLAY DEVICE AND MANUFACTURING METHOD THEREOF - To achieve enlargement and high definition of a display portion, a single crystal semiconductor film is used as a transistor in a pixel, and the following steps are included: bonding a plurality of single crystal semiconductor substrates to a base substrate; separating part of the plurality of single crystal semiconductor substrates to form a plurality of regions each comprising a single crystal semiconductor film over the base substrate; forming a plurality of transistors each comprising the single crystal semiconductor film as a channel formation region; and forming a plurality of pixel electrodes over the region provided with the single crystal semiconductor film and a region not provided with the single crystal semiconductor film. Some of the transistors electrically connecting to the pixel electrodes formed over the region not provided with the single crystal semiconductor film are formed in the region provided with the single crystal semiconductor film. | 10-01-2009 |
20100032708 | DISPLAY DEVICE AND MANUFACTURING METHOD OF THE SAME - A plurality of wires and electrodes are formed by forming a first conductive film, selectively forming a resist over the first conductive film, forming a second conductive film over the first conductive film and the resist, removing the second conductive film formed over the resist by removing the resist, forming a third conductive film so as to cover the second conductive film formed over the first conductive film, and selectively etching the first conductive film and the third conductive film. Thus, wires using a low resistance material can be formed in a large-sized panel, and thus, a problem of signal delay can be solved. | 02-11-2010 |
20100304538 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING THE SAME - To reduce variation among TFTs in manufacture of a semiconductor device including n-type thin film transistors and p-type thin film transistors. Further, another object of the present invention is to reduce the number of masks and manufacturing steps, and manufacturing time. A method of manufacturing a semiconductor device includes forming an island-shaped semiconductor layer of a first thin film transistor, then, forming an island-shaped semiconductor layer of the second thin film transistor. In the formation of the island-shaped semiconductor layer of the second thin film transistor, a gate insulating film in contact with the island-shaped semiconductor layer of the second thin film transistor is used as a protection film (an etching stopper film) for the island-shaped semiconductor layer of the first thin film transistor. | 12-02-2010 |
20110065221 | Method for Manufacturing an LCD Device Employing a Reduced Number of Photomasks Including Bottom and Top Gate Type Devices - A manufacturing method of the present invention includes a process using a first multi-tone mask, in which a first conductive layer in which a transparent conductive layer and a metal layer are stacked over a substrate, a gate electrode formed of a first conductive layer, and a pixel electrode formed of a single layer of the transparent conductive layer are formed, a process using a second multi-tone mask, in which a contact hole to the pixel electrode, and an island of an i-type semiconductor layer and an n | 03-17-2011 |
20110230015 | Semiconductor Device, Manufacturing Method of Semiconductor Device, and RFID Tag - The present invention provides a semiconductor device which is formed at low cost and has a great versatility, a manufacturing method thereof, and further a semiconductor device with an improved yield, and a manufacturing method thereof. A structure, which has a base including a plurality of depressions having different shapes or sizes, and a plurality of IC chips which are disposed in the depressions and which fit the depressions, is formed. A semiconductor device which selectively includes a function in accordance with an application, by using the base including the plurality of depressions and the IC chips which fit the depressions, can be manufactured at low cost. | 09-22-2011 |
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 |
20120149157 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - A first resist pattern is formed by exposure using a first multi-tone photomask, and a first conductive layer, a first insulating layer, a first semiconductor layer, and a second semiconductor layer are etched, so that an island-shaped single layer and an island-shaped stack are formed. Here, sidewalls are formed on side surfaces of the island-shaped single layer and the island-shaped stack. Further, a second resist pattern is formed by exposure using a second multi-tone photomask, and a second conductive layer and the second semiconductor layer are etched, so that a thin film transistor, a pixel electrode, and a connection terminal are formed. After that, a third resist pattern is formed by exposure from a rear side using metal layers of the first conductive layer and the second conductive layer as masks, and the third insulating layer are etched, so that a protective insulating layer is formed. | 06-14-2012 |
20120176559 | SEMICONDUCTOR DEVICE - When a columnar spacer is provided in a region overlapping with a TFT, there is a concern that pressure will be applied when attaching a pair of substrates to each other, which may result in the TFT being adversely affected and a crack forming. A dummy layer is formed of an inorganic material below a columnar spacer which is formed in a position overlapping with the TFT. The dummy layer is located in the position overlapping with the TFT, so that pressure applied to the TFT in a step of attaching the pair of substrates is distributed and relieved. The dummy layer is preferably formed of the same material as a pixel electrode so that it is formed without an increase in the number of processing steps. | 07-12-2012 |
20120199831 | LIQUID CRYSTAL DISPLAY DEVICE - To provide a liquid crystal display device having high visibility and high image quality by relieving color phase irregularity. A light-shielding layer is selectively provided so as to overlap with a contact hole for electrical connection to a source region or a drain region of a thin film transistor. Alternatively, by providing an opening portion of a colored layer (color filter) with an opening so as to overlap with a contact hole, uneven alignment of liquid crystal molecules does not influence display, and a liquid crystal display having high image quality can be provided. | 08-09-2012 |
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 |
20120299027 | DISPLAY DEVICE AND MANUFACTURING METHOD THEREOF - To achieve enlargement and high definition of a display portion, a single crystal semiconductor film is used as a transistor in a pixel, and the following steps are included: bonding a plurality of single crystal semiconductor substrates to a base substrate; separating part of the plurality of single crystal semiconductor substrates to form a plurality of regions each comprising a single crystal semiconductor film over the base substrate; forming a plurality of transistors each comprising the single crystal semiconductor film as a channel formation region; and forming a plurality of pixel electrodes over the region provided with the single crystal semiconductor film and a region not provided with the single crystal semiconductor film. Some of the transistors electrically connecting to the pixel electrodes formed over the region not provided with the single crystal semiconductor film are formed in the region provided with the single crystal semiconductor film. | 11-29-2012 |
20120329186 | Method For Manufacturing Semiconductor Device - The number of photomasks is reduced in a method for manufacturing a liquid crystal display device which operates in a fringe field switching mode, whereby a manufacturing process is simplified and manufacturing cost is reduced. A first transparent conductive film and a first metal film are sequentially stacked over a light-transmitting insulating substrate; the first transparent conductive film and the first metal film are shaped using a multi-tone mask which is a first photomask; an insulating film, a first semiconductor film, a second semiconductor film, and a second metal film are sequentially stacked; the second metal film and the second semiconductor film are shaped using a multi-tone mask which is a second photomask; a protective film is formed; the protective film is shaped using a third photomask; a second transparent conductive film is formed; and the second transparent conductive film is shaped using a fourth photomask. | 12-27-2012 |
20140256095 | METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - To provide a manufacturing method of a highly reliable TFT, by which a more refined pattern can be formed through a process using four or three masks, and a semiconductor device. A channel-etched bottom gate TFT structure is adopted in which a photoresist is selectively exposed to light by rear surface exposure utilizing a gate wiring to form a desirably patterned photoresist, and further, a halftone mask or a gray-tone mask is used as a multi-tone mask. Further, a step of lifting off using a halftone mask or a gray-tone mask and a step of reflowing a photoresist are used. | 09-11-2014 |