1
Masaki Matsui, Shoichi Yamauchi, Hisayoshi Ohshima, Kunihiro Onoda, Akiyoshi Asai, Takanari Sasaya, Takeshi Enya, Jun Sakakibara: Method for manufacturing a semiconductor substrate. Denso Corporation, Pillsbury Madison & Sutro, February 20, 2001: US06191007 (285 worldwide citation)

Methods for manufacturing semiconductor substrates in which a semiconductor layer for forming semiconductor device therein is formed on a supporting substrate with an insulating film interposed between, with which in forming the semiconductor layer on a substrate on which a buried pattern structure ...


2
Akiyoshi Asai, Jun Sakakibara, Megumi Suzuki, Seiji Fujino: Semiconductor integrated circuit device and manufacturing method for the same. Nippondenso, Pillsbury Madison & Sutro, February 9, 1999: US05869872 (33 worldwide citation)

A semiconductor integrated circuit device having an SOI structure is capable of preventing occurrence of leak current flowing from a diffusion layer even when a semiconductor element having a pn-junction is included in the semiconductor substrate. The semiconductor integrated circuit device having t ...


3
Megumi Suzuki, Akiyoshi Asai, Jun Sakakibara: Semiconductor integrated circuit device. Denso Corporataion, Cushman Darby & Cushman IP Group of Pillsbury Madison & Sutro, May 12, 1998: US05751041 (31 worldwide citation)

In a semiconductor integrated circuit device having an input protection circuit element such as a diode formed in the semiconductor substrate, the leak current is suppressed. An nMOS transistor and a pMOS transistor that constitute a CMOS inverter circuit are formed using a SOI structure. An n-type ...


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Junichi Koseki, Hajime Nakamura, Jun Sakakibara: Integrated circuit with exterior gain control adjustment. Kabushiki Kaisha Toshiba, Foley & Lardner, March 28, 1995: US05402249 (22 worldwide citation)

An integrated circuit for processing an analog image signal obtained from a CCD, etc. and converting the processed image signal to a digital image signal. The integrated circuit includes a circuit for adjusting an offset voltage included in the analog image signal, a circuit for sampling/holding the ...


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Jun Sakakibara, Hajime Nakamura, Junichi Koseki, Katsuya Nagamochi: Image-reading device having a photoelectric transducer. Kabushiki Kaisha Toshiba, Foley & Lardner, April 27, 1993: US05206501 (17 worldwide citation)

An image-reading device, in which the 1-bit signals a CCD line sensor has generated from the light applied from an illumination lamp and reflected from an original are shading-corrected, thereby forming image data. Before scanning the original, a black reference signal, a white reference signal at a ...


7
Hajime Nakamura, Jun Sakakibara: Paper feeding apparatus having a paper separator with a pressure sensitive and electrically-conductive material. Kabushiki Kaisha Toshiba, Foley & Lardner, March 19, 1996: US05499807 (16 worldwide citation)

An automatic paper feeding apparatus is designed to separate and feed originals by means of a separation pad and a feeding roller. A pressure sensitive conductive rubber is used for the separation pad to convert a change in thickness of an original into an electrical signal, thereby detecting a conv ...


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Shoichi Yamauchi, Hitoshi Yamaguchi, Jun Sakakibara, Nobuhiro Tsuji: Semiconductor device having epitaxially-filled trench and method for manufacturing semiconductor device having epitaxially-filled trench. Denso Corporation, Posz & Bethards, December 28, 2004: US06836001 (13 worldwide citation)

A semiconductor device includes a semiconductor substrate and a semiconductor layer. The semiconductor substrate has a main surface that is an Si{100} surface. The substrate has a trench in the main surface. The semiconductor layer is located on surfaces defining the trench to have common ...


10
Jun Sakakibara, Koji Tanimoto, Kenichi Komiya, Toshimitsu Ichiyanagi, Naoaki Ide, Koji Kawai: Image formation apparatus and method of stabilizing the emission level of semiconductor laser source used therein. Toshiba Tec Kabushiki Kaisha, Foley & Lardner, April 15, 2003: US06549265 (12 worldwide citation)

The emission level of a laser source at the non-imaging time when image data “0” is input and the emission level at the imaging time when image data “1” is input are controlled so that each of them becomes a desired level. The light output intensity is stabilized at all times regardless of variation ...



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