Patents Assigned to Semiconductor Energy Laboratory Co., Ltd., Japanese corporation
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Publication number: 20020121640Abstract: A resin material having a small relative dielectric constant is used as a layer insulation film 114. The resin material has a flat surface. A black matrix or masking film for thin film transistors is formed thereon using a metal material. Such a configuration prevents the problem of a capacity generated between the masking film and a thin film transistor.Type: ApplicationFiled: April 30, 2002Publication date: September 5, 2002Applicant: Semiconductor Energy Laboratory Co., Ltd., a Japanese corporationInventor: Shunpei Yamazaki
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Publication number: 20020117736Abstract: A semiconductor device includes TFTs designed in accordance with characteristics of circuits. In a first structure of the invention, the TFT is formed by using a crystalline silicon film made of a unique crystal structure body. The crystal structure body has a structure in which rod-like or flattened rod-like crystals grow in a direction parallel to each other. In a second structure of the invention, growth distances of lateral growth regions are made different from each other in accordance with channel lengths of the TFTs. By this, characteristics of TFTs formed in one lateral growth region can be made as uniform as possible.Type: ApplicationFiled: March 26, 2002Publication date: August 29, 2002Applicant: Semiconductor Energy Laboratory Co. Ltd. a Japanese corporationInventors: Shunpei Yamazaki, Hisashi Ohtani
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Publication number: 20020111040Abstract: In forming various types of insulating films in manufacture of a semiconductor device, carbon is gasified into CHx, COH etc. during film formation by adding active hydrogen and nitrogen oxide to reduce the carbon content during the film formation, and the effect of blocking impurities such as alkali metals is improved.Type: ApplicationFiled: October 24, 2001Publication date: August 15, 2002Applicant: Semiconductor Energy Laboratory Co., Ltd., a Japanese CorporationInventors: Shunpei Yamazaki, Mitsunori Sakama, Takeshi Fukada
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Publication number: 20020100937Abstract: A semiconductor device having performance comparable with a MOSFET is provided. An active layer of the semiconductor device is formed by a crystalline silicon film crystallized by using a metal element for promoting crystallization, and further by carrying out a heat treatment in an atmosphere containing a halogen element to carry out gettering of the metal element. The active layer after this process is constituted by an aggregation of a plurality of needle-shaped or column-shaped crystals. A semiconductor device manufactured by using this crystalline structure has extremely high performance.Type: ApplicationFiled: December 19, 2001Publication date: August 1, 2002Applicant: Semiconductor Energy Laboratory Co., Ltd., a Japanese corporationInventors: Shunpei Yamazaki, Hisashi Ohtani, Jun Koyama, Takeshi Fukunaga
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Publication number: 20020089755Abstract: There is provided an improvement on homogeneity of annealing performed utilizing radiation of a laser beam on a silicon film having a large area. In a configuration wherein a linear laser beam is applied to a surface to be irradiated, optimization is carried out on the width and number of cylindrical lenses forming homogenizers 103 and 104 for controlling the distribution of radiation energy density in the longitudinal direction of the linear beam. For example, the width of the cylindrical lenses forming the homogenizers 103 and 104 is set in the range from 0.1 mm to 5 mm, and the number of the lenses is chosen such that one lens is provided for every 5 mm-15 mm along the length of the linear laser beam in the longitudinal direction thereof. This makes it possible to improve homogeneity of the radiation energy density of the linear laser in the longitudinal direction thereof.Type: ApplicationFiled: December 18, 2001Publication date: July 11, 2002Applicant: Semiconductor Energy Laboratory Co., Ltd., a Japanese corporationInventors: Shunpei Yamazaki, Satoshi Teramoto, Naoto Kusumoto, Koichiro Tanaka
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Publication number: 20020061634Abstract: A little amount of nickel is introduced into an amorphous silicon film formed on a glass substrate to crystallize the amorphous silicon film by heating. In this situation, nickel elements remain in a crystallized silicon film. An amorphous silicon film is formed on the surface of the crystallized silicon film and then subjected to a heat treatment. With this heat treatment, the nickel elements are diffused in the amorphous silicon film, thereby being capable of lowering the concentration of nickel in the crystallized silicon film.Type: ApplicationFiled: October 24, 2001Publication date: May 23, 2002Applicant: Semiconductor Energy Laboratory Co., Ltd., a Japanese corporationInventors: Shunpei Yamazaki, Hisashi Ohtani, Akiharu Miyanaga, Satoshi Teramoto
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Publication number: 20020053672Abstract: A semiconductor device includes a substrate having an insulating film on its surface, and ac active layer made of a semiconductive thin film on the substrate surface. The thin film contains a mono-domain region formed of multiple columnar and/or needle-like crystals parallel to the substrate surface without including crystal boundaries therein, allowing the active layer to consist of the mono-domain region only. The insulating film underlying the active layer has a specific surface configuration of an intended pattern in profile, including projections or recesses. To fabricate the active layer, form a silicon oxide film by sputtering on the substrate. Pattern the silicon oxide film providing the surface configuration. Form an amorphous silicon film by low pressure CVD on the silicon oxide film. Retain in the silicon oxide film and/or the amorphous silicon film certain metallic element for acceleration of silicon film to a crystalline silicon film.Type: ApplicationFiled: November 27, 2001Publication date: May 9, 2002Applicant: Semiconductor Energy Laboratory Co., Ltd., a Japanese corporationInventors: Shunpei Yamazaki, Jun Koyama, Akiharu Miyanaga, Takeshi Fukunaga
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Publication number: 20020045288Abstract: Laser annealing is performed by irradiating, while scanning, a semiconductor thin-film with laser light. The laser light that is linear on the irradiation surface is moved in its line-width direction and applied non-continuously. The laser light has, in its line-width direction, an energy density profile that assumes a step-like form in which the energy density varies in a step-like manner. In particular, the scanning pitch D and the step widths Ln are so set as to satisfy a relationship Ln≧D.Type: ApplicationFiled: August 15, 2001Publication date: April 18, 2002Applicant: Semiconductor Energy Laboratory Co., Ltd, a Japanese corporationInventors: Shunpei Yamazaki, Koichiro Tanaka, Naoto Kusumoto
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Publication number: 20020041341Abstract: In a projection type color display unit having three optical shutters formed on substrates corresponding to three primary colors, a color separation circuit and a digitalizing circuit are provided on each substrate having the optical shutter, and signals corresponding to the respective colors which are outputted from those three digitalizing circuits are compared with each other and arithmetically operated, to thereby reduce a noise.Type: ApplicationFiled: December 11, 2001Publication date: April 11, 2002Applicant: Semiconductor Energy Laboratory Co., Ltd., a Japanese corporationInventor: Shunpei Yamazaki
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Publication number: 20020036294Abstract: A matrix type liquid-crystal display unit includes: a plurality of pixel portions which are arranged in the form of a matrix; a plurality of signal lines through which a display signal is supplied to the pixel portions; a plurality of scanning lines through which a scanning signal is supplied to the pixel portions; a signal-line drive circuit for driving the signal lines; a scanning-line drive circuit for driving the scanning-lines; a plurality of first thin-film transistors that form the signal-line drive circuit; a plurality of second thin-film transistors that form the scanning-line drive circuit; and a threshold value control circuit being connected to the signal-line drive circuit and the scanning-line drive circuit, for commonly controlling threshold values of the first and second thin-film transistors.Type: ApplicationFiled: October 29, 2001Publication date: March 28, 2002Applicant: Semiconductor Energy Laboratory Co. Ltd., a Japanese corporationInventors: Jun Koyama, Shunpei Yamazaki
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Publication number: 20020017649Abstract: An amorphous semiconductor film is etched so that a width of a narrowest portion thereof is 100 &mgr;m or less, thereby forming island semiconductor regions. By irradiating an intense light such as a laser into the island semiconductor regions, photo-annealing is performed to crystallize it. Then, of end portions (peripheral portions) of the island semiconductor regions, at least a portion used to form a channel of a thin film transistor (TFT), or a portion that a gate electrode crosses is etched, so that a region that the distortion is accumulated is removed. By using such semiconductor regions, a TFT is produced.Type: ApplicationFiled: August 28, 2001Publication date: February 14, 2002Applicant: Semiconductor Energy Laboratory Co., Ltd., Japanese corporationInventors: Naoto Kusumoto, Shunpei Yamazaki
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Publication number: 20020018157Abstract: To provide a technology for fabricating a high image quality liquid crystal display device, a set range of a cell gap for holding a liquid crystal layer is limited in accordance with a distance of a pixel pitch in which specifically, the cell gap is set to be a distance of one tenth of the pixel pitch, whereby the high image quality liquid crystal display device with no occurrence of image display failure caused by disturbances of an electric field such as disclination, can be realized.Type: ApplicationFiled: September 24, 2001Publication date: February 14, 2002Applicant: Semiconductor Energy Laboratory Co., Ltd., a Japanese corporationInventors: Hongyong Zhang, Takeshi Fukunaga
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Publication number: 20020019147Abstract: In a process of forming a silicon oxide film 116 that constitutes an interlayer insulating film with TEOS as a raw material through the plasma CVD method, the RF output is oscillated at 50 W, and the RF output is gradually increased from 50 W to 250 W (an output value at the time of forming a film) after discharging (after the generation of O2-plasma). A TEOS gas is supplied to start the film formation simultaneously when the RF output becomes 250 W, or while the timing is shifted. As a result, because the RF power supply is oscillated at a low output when starting discharging, a voltage between the RF electrodes can be prevented from changing transitionally and largely.Type: ApplicationFiled: July 26, 2001Publication date: February 14, 2002Applicant: Semiconductor Energy Laboratory Co., Ltd., a Japanese corporationInventors: Shunpei Yamazaki, Mitsunori Sakama, Masaaki Hiroki
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Publication number: 20020014626Abstract: There are provided a substrate of a semiconductor device and a fabrication method thereof which allow to suppress impurity from turning around from a glass or quartz substrate in fabrication steps of a TFT. An insulating film is deposited so as to surround the glass substrate by means of reduced pressure thermal CVD. It allows to suppress the impurity from infiltrating from the glass substrate to an active region of the TFT in the later process.Type: ApplicationFiled: September 14, 2001Publication date: February 7, 2002Applicant: Semiconductor Energy Laboratory Co., Ltd. a Japanese corporationInventors: Setsuo Nakajima, Shunpei Yamazaki, Hisashi Ohtani, Satoshi Teramoto, Toshiji Hamatani
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Publication number: 20020014623Abstract: An amorphous semiconductor film is etched so that a width of a narrowest portion thereof is 100 &mgr;m or less, thereby forming island semiconductor regions. By irradiating an intense light such as a laser into the island semiconductor regions, photo-annealing is performed to crystallize it. Then, of end portions (peripheral portions) of the island semiconductor regions, at least a portion used to form a channel of a thin film transistor (TFT), or a portion that a gate electrode crosses is etched, so that a region that the distortion is accumulated is removed. By using such semiconductor regions, a TFT is produced.Type: ApplicationFiled: August 28, 2001Publication date: February 7, 2002Applicant: Semiconductor Energy Laboratory Co., Ltd. Japanese corporationInventors: Naoto Kusumoto, Shunpei Yamazaki
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Publication number: 20020011598Abstract: Semiconductor devices based on thin film transistors formed over substrates. In one embodiment, a semiconductor device comprises at least two thin film transistors formed over a substrate, each of said thin film transistors having a crystalline semiconductor film comprising silicon formed on an insulating surface as an active region thereof, wherein said crystalline semiconductor film of each of said two thin film transistors has substantially no grain boundary therein, and a crystal axis of said crystalline semiconductor film in one of said two thin film transistors deviates from a crystal axis of the crystalline semiconductor film of the other, and the deviation of the crystal axis is within ±10°.Type: ApplicationFiled: August 27, 2001Publication date: January 31, 2002Applicant: Semiconductor Energy Laboratory Co., Ltd., Japanese corporationInventors: Shunpei Yamazaki, Akiharu Miyanaga, Satoshi Teramoto
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Publication number: 20020005516Abstract: A practical operational amplifier circuit is formed using thin film transistors.Type: ApplicationFiled: September 4, 2001Publication date: January 17, 2002Applicant: Semiconductor Energy Laboratory Co., Ltd. a Japanese corporationInventors: Shunpei Yamazaki, Jun Koyama, Hisashi Ohtani
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Publication number: 20020006711Abstract: A method of manufacturing a semiconductor device that forms laminate layers includes the steps of reducing contamination containing the single bond of carbon on at least one part of a surface on which the laminate films are formed by activated hydrogen before the laminate films are formed, and forming the laminate films on the surface on which the laminate films are formed.Type: ApplicationFiled: May 8, 2001Publication date: January 17, 2002Applicant: Semiconductor Energy Laboratory Co., Ltd. Japanese corporationInventors: Shunpei Yamazaki, Mitsunori Sakama, Takeshi Fukada
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Publication number: 20020003666Abstract: There are disposed two homogenizers for controlling an irradiation energy density in the longitudinal direction of a laser light transformed into a linear one which is inputtted into the surface to be irradiated. Also, there is disposed one homogenizer for controlling an irradiation energy density in a width direction of the linear laser light. According to this, the uniformity of laser annealing can be improved by the minimum number of homogenizers.Type: ApplicationFiled: August 16, 2001Publication date: January 10, 2002Applicant: Semiconductor Energy Laboratory Co., Ltd., a Japanese corporationInventors: Shunpei Yamazaki, Koichiro Tanaka, Satoshi Teramoto
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Publication number: 20010053030Abstract: A beam homogenizer at least includes a first optical lens for dividing a light beam into N(n′−1) beams in a vertical direction, a second optical lens for dividing the light beam into (2n+1) beams in a horizontal direction, a third optical lens for recombining the beams that are divided in the vertical and horizontal directions into (n′−1) beams while superimposing the (n′−1) beams so that they are deviated from each other in the horizontal direction, and a fourth optical lens for recombining the beams that are divided in the vertical direction.Type: ApplicationFiled: July 23, 2001Publication date: December 20, 2001Applicant: Semiconductor Energy Laboratory Co., Ltd. Japanese CorporationInventor: Koichiro Tanaka