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| 20100327428 | PACKAGE MANUFACTURING METHOD AND SEMICONDUCTOR DEVICE - A method for manufacturing a package comprises a first step of forming a metal pattern including a frame and a plurality of leads extending inward from the frame, a second step of molding a resin pattern including a first resin portion which holds the plurality of leads from an inner side thereof, and second resin portions which cover bottom surfaces of peripheral portions, adjacent to portions to be removed, in the plurality of leads while exposing bottom surfaces of the portions to be removed in the plurality of leads, so as to hold the plurality of leads from a lower side thereof, and a third step of cutting the plurality of leads into a plurality of first leads and a plurality of second leads by removing the portions to be removed in the plurality of leads while the resin pattern keeps holding the peripheral portions in the plurality of leads. | 12-30-2010 |
| 20110058077 | SOLID-STATE IMAGING APPARATUS AND DIGITAL CAMERA - The solid-state imaging apparatus illustrates a solid-state imaging element having a light receiving portion; a package which contains the solid-state imaging element; a light-transmissive member which is provided above the solid-state imaging element; and a partitioning member which is fixed to the package to isolate the light receiving portion of the solid-state imaging element from the surrounding portion of the light receiving portion of the solid-state imaging element. | 03-10-2011 |
| 20110089544 | PACKAGE, MANUFACTURING METHOD THEREOF, AND SEMICONDUCTOR DEVICE - A package for mounting a semiconductor chip is provided. The package includes a frame member including an aperture, a first lead including a portion connectable to the semiconductor chip and a portion projecting outside from an outer sidewall of the frame member, and a second lead including a portion connectable to the semiconductor chip and a portion projecting inside the aperture from an inner sidewall of the frame member. | 04-21-2011 |
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| 20080286891 | Wiring and manufacturing method thereof, semiconductor device comprising said wiring, and dry etching method - A dry etching method for forming tungsten wiring having a tapered shape and having a large specific selectivity with respect to a base film is provided. If the bias power density is suitably regulated, and if desired portions of a tungsten thin film are removed using an etching gas having fluorine as its main constituent, then the tungsten wiring having a desired taper angle can be formed. | 11-20-2008 |
| 20090035922 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - There are provided a structure of a semiconductor device in which low power consumption is realized even in a case where a size of a display region is increased to be a large size screen and a manufacturing method thereof. A gate electrode in a pixel portion is formed as a three layered structure of a material film containing mainly W, a material film containing mainly Al, and a material film containing mainly Ti to reduce a wiring resistance. A wiring is etched using an IPC etching apparatus. The gate electrode has a taper shape and the width of a region which becomes the taper shape is set to be 1 μm or more. | 02-05-2009 |
| 20090101901 | Semiconductor device and manufacturing method thereof - By providing appropriate TFT structures arranged in various circuits of the semiconductor device in response to the functions required by the circuits, it is made possible to improve the operating performances and the reliability of a semiconductor device, reduce power consumption as well as realizing reduced manufacturing cost and increase in yield by lessening the number of processing steps. An LDD region of a TFT is formed to have a concentration gradient of an impurity element for controlling conductivity which becomes higher as the distance from a drain region decreases. In order to form such an LDD region having a concentration gradient of an impurity element, the present invention uses a method in which a gate electrode having a taper portion is provided to thereby dope an ionized impurity element for controlling conductivity accelerated in the electric field so that it penetrates through the gate electrode and a gate insulating film into a semiconductor layer. | 04-23-2009 |
| 20090148963 | Metal Wiring and Method of Manufacturing the Same, and Metal Wiring Substrate and Method of Manufacturing the Same - A metal wiring suitable for a substrate of large size is provided. The present invention is characterized in that at least one layer of conductive film is formed on an insulating surface, a resist pattern is formed on the conductive film, and the conductive film having the resist pattern is etched to form a metal wiring while controlling its taper angle α in accordance with the bias power density, the ICP power density, the temperature of lower electrode, the pressure, the total flow rate of etching gas, or the ratio of oxygen or chlorine in etching gas. The thus formed metal wiring has less fluctuation in width or length and can satisfactorily deal with an increase in size of substrate. | 06-11-2009 |
| 20110024757 | Semiconductor Device and Fabrication Method Thereof - For forming a gate electrode, a conductive film with low resistance including Al or a material containing Al as its main component and a conductive film with low contact resistance for preventing diffusion of Al into a semiconductor layer are laminated, and the gate electrode is fabricated by using an apparatus which is capable of performing etching treatment at high speed. | 02-03-2011 |
| 20110210336 | Semiconductor Device and Fabrication Method Thereof - For forming a gate electrode, a conductive film with low resistance including Al or a material containing Al as its main component and a conductive film with low contact resistance for preventing diffusion of Al into a semiconductor layer are laminated, and the gate electrode is fabricated by using an apparatus which is capable of performing etching treatment at high speed. | 09-01-2011 |
| 20110254008 | Semiconductor Device and Manufacturing Method Thereof - By providing appropriate TFT structures arranged in various circuits of the semiconductor device in response to the functions required by the circuits, it is made possible to improve the operating performances and the reliability of a semiconductor device, reduce power consumption as well as realizing reduced manufacturing cost and increase in yield by lessening the number of processing steps. An LDD region of a TFT is formed to have a concentration gradient of an impurity element for controlling conductivity which becomes higher as the distance from a drain region decreases. In order to form such an LDD region having a concentration gradient of an impurity element, the present invention uses a method in which a gate electrode having a taper portion is provided to thereby dope an ionized impurity element for controlling conductivity accelerated in the electric field so that it penetrates through the gate electrode and a gate insulating film into a semiconductor layer. | 10-20-2011 |
| 20120043580 | Semiconductor Device and Manufacturing Method Thereof - There are provided a structure of a semiconductor device in which low power consumption is realized even in a case where a size of a display region is increased to be a large size screen and a manufacturing method thereof. A gate electrode in a pixel portion is formed as a three layered structure of a material film containing mainly W, a material film containing mainly Al, and a material film containing mainly Ti to reduce a wiring resistance. A wiring is etched using an IPC etching apparatus. The gate electrode has a taper shape and the width of a region which becomes the taper shape is set to be 1 μm or more. | 02-23-2012 |
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| 20080230682 | METHOD FOR MANUFACTURING A SEMICONDUCTOR DEVICE - A semiconductor device is manufactured through steps in which a photoelectric conversion element and an amplifier circuit are formed over a first substrate with a release layer interposed therebetween, and the photoelectric conversion element and the amplifier circuit are separated from the first substrate. Output characteristics of the amplifier circuit are improved and the semiconductor device with high reliability is obtained. A manufacturing method of such semiconductor device includes steps of forming a metal layer having an opening portion over a substrate, forming an insulating layer over the entire surface of the substrate including the opening portion and the metal layer, forming a photoelectric conversion layer in a region which overlaps with the metal layer and is a layer over the insulating layer, forming an amplifier circuit, which amplifies an output current of the photoelectric conversion element by using a thin film transistor, in the opening portion in the metal layer, forming a protective layer over the photoelectric conversion element and the amplifier circuit, and separating the photoelectric conversion element and the amplifier circuit, together with the insulating layer, from the substrate through laser irradiation to the metal layer. | 09-25-2008 |
| 20100282947 | METHOD FOR MANUFACTURING A SEMICONDUCTOR DEVICE - A semiconductor device is manufactured through steps in which a photoelectric conversion element and an amplifier circuit are formed over a first substrate with a release layer interposed therebetween, and the photoelectric conversion element and the amplifier circuit are separated from the first substrate. Output characteristics of the amplifier circuit are improved and the semiconductor device with high reliability is obtained. A manufacturing method of such semiconductor device includes steps of forming a metal layer having an opening portion over a substrate, forming an insulating layer over the entire surface of the substrate including the opening portion and the metal layer, forming a photoelectric conversion layer in a region which overlaps with the metal layer and is a layer over the insulating layer, forming an amplifier circuit, which amplifies an output current of the photoelectric conversion element by using a thin film transistor, in the opening portion in the metal layer, forming a protective layer over the photoelectric conversion element and the amplifier circuit, and separating the photoelectric conversion element and the amplifier circuit, together with the insulating layer, from the substrate through laser irradiation to the metal layer. | 11-11-2010 |
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| 20100006854 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - In a semiconductor device, typically an active matrix display device, the structure of TFTs arranged in the respective circuits are made suitable in accordance with the function of the circuit, and along with improving the operating characteristics and the reliability of the semiconductor device, the manufacturing cost is reduced and the yield is increased by reducing the number of process steps. A semiconductor device has a semiconductor layer, an insulating film formed contacting the semiconductor layer, and a gate electrode having a tapered portion on the insulating film, in the semiconductor device, the semiconductor layer has a channel forming region, a first impurity region for forming a source region or a drain region and containing a single conductivity type impurity element, and a second impurity region for forming an LDD region contacting the channel forming region, a portion of the second impurity region is formed overlapping a gate electrode, and the concentration of the single conductivity type impurity element contained in the second impurity region becomes larger with distance from the channel forming region. | 01-14-2010 |
| 20110272718 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - In a semiconductor device, typically an active matrix display device, the structure of TFTs arranged in the respective circuits are made suitable in accordance with the function of the circuit, and along with improving the operating characteristics and the reliability of the semiconductor device, the manufacturing cost is reduced and the yield is increased by reducing the number of process steps. A semiconductor device has a semiconductor layer, an insulating film formed contacting the semiconductor layer, and a gate electrode having a tapered portion on the insulating film, in the semiconductor device, the semiconductor layer has a channel forming region, a first impurity region for forming a source region or a drain region and containing a single conductivity type impurity element, and a second impurity region for forming an LDD region contacting the channel forming region, a portion of the second impurity region is formed overlapping a gate electrode, and the concentration of the single conductivity type impurity element contained in the second impurity region becomes larger with distance from the channel forming region. | 11-10-2011 |
