Kameta
Kouki Kameta, Yamanashi JP
Patent application number | Description | Published |
---|---|---|
20110006719 | PRESS MACHINE CONTROLLER - A press machine controller ( | 01-13-2011 |
Noahiro Kameta, Ibaraki JP
Patent application number | Description | Published |
---|---|---|
20140147476 | ORGANIC NANOTUBE HAVING HYDROPHOBIZED INNER SURFACE, AND ENCAPSULATED MEDICINAL AGENT PREPARED USING THE NANOTUBE - Provided is an organic nanotube having a hydrophobized inner surface, formed by molecules including an asymmetric bipolar lipid molecule represented by the following General Formula (1) and a derivative thereof represented by the following General Formula (2), wherein the organic nanotube has a hydrophilized outer surface and a hydrophobized inner surface of a hollow cylinder and is formed by binary self-assembly, the organic nanotube encapsulates a hydrophobic guest in the hollow cylinder, has a function of refolding a denatured protein, and has a function of sustainably-releasing a hydrophobic drug according to the change in hydrophobicity of the inner surface of the tube or external stimulus, | 05-29-2014 |
Takahiro Kameta, Fujisawa JP
Patent application number | Description | Published |
---|---|---|
20100064813 | VIBRATORY SENSOR - A vibratory sensor includes a resonator element including (i) a first base portion and a second base portion, each of the first and the second base portions having an upper main surface and a lower main surface, (ii) a resonating arm extended in a beam shape between the first and the second base portions to be vibrated at a predetermined resonance frequency, (iii) a first narrow portion formed by reducing a width of a portion extended from the first base portion to be smaller than a width of the first base portion in a direction orthogonal to an extending direction of the resonating arm, (iv) a second narrow portion formed by reducing a width of a portion extended from the second base portion to be smaller than a width of the second base portion in the direction orthogonal to the extending direction of the resonating arm, (v) a first support portion extended from the first narrow portion in a direction opposite to the first base portion, and (vi) a second support portion extended from the second narrow portion in a direction opposite to the second base portion, a length ratio of the first narrow portion versus the first base portion in the extending direction of the resonating arm and a length ratio of the second narrow portion versus the second base portion in the extending direction of the resonating arm being in a range of 50 to 200% inclusive; and a base supporting the resonator element, the base being connected to one of upper and lower main surfaces of each of the first and the second support portions included in the resonator element. | 03-18-2010 |
Takahiro Kameta, Okaya-Shi JP
Patent application number | Description | Published |
---|---|---|
20120297877 | ACCELERATION SENSOR AND ACCELERATION DETECTION APPARATUS - An acceleration sensor includes an acceleration detector, a first fixed portion and a second fixed portion, and first to fourth beams that connect the first fixed portion and the second fixed portion to the acceleration detector. A support substrate includes a fixed first substrate piece, a movable second substrate piece, and a hinge that connects the first substrate piece and the second substrate piece to each other. The longitudinal direction of the acceleration detector extends along the direction perpendicular to a detection axis thereof, and a central portion of the acceleration detector in the short-side direction overlaps with the hinge in the short-side direction. The length of the second substrate piece along the longitudinal direction of the hinge is greater than the length of the second substrate piece along the short-side direction of the hinge. | 11-29-2012 |
20130167669 | PHYSICAL QUANTITY DETECTOR AND ELECTRONIC APPARATUS - An acceleration detector includes: a plate-like flexible portion which has piezoelectricity and can flex by an inertial force (base portion, joint portion, moving portion); an acceleration detection element loaded on a main surface of the base portion and the moving portion; an electrically conductive mass portion loaded on the moving portion; and a package accommodating the base portion, the joint portion, the moving portion, the acceleration detection element and the mass portion. The acceleration detection element is provided with wirings through which detected acceleration is taken out as an electrical signal, and the mass portion can be maintained at a desired electric potential. | 07-04-2013 |
Takahiro Kameta, Okaya JP
Patent application number | Description | Published |
---|---|---|
20120304769 | METHOD FOR MANUFACTURING PHYSICAL QUANTITY DETECTOR, AND PHYSICAL QUANTITY DETECTOR - A method for manufacturing a physical quantity detector is for a physical quantity detector including a flat frame-like base part, a flat plate-like moving part which is arranged inside the base part and has one end thereof connected to the base part via a joint part, and a physical quantity detection element laid on the base part and the moving part. The method includes: integrally forming the base part, the joint part, the moving part, and a connecting part which is provided on a free end side of the moving part and connects the base part and the moving part to each other; laying and fixing the physical quantity detection element on the base part and the moving part; and cutting off the connecting part. | 12-06-2012 |
Yukihiro Kameta, Kitakami JP
Patent application number | Description | Published |
---|---|---|
20080291403 | IMAGE PROJECTION APPARATUS AND OPERATION METHOD THEREOF - An image projection apparatus controls to vary at least one of current, voltage and power of a discharge lamp for each color segment by means of at least two control signals. When the discharge lamp reaches the stable state after turned on, the discharge lamp exhibits the constant voltage characteristic and an amount of light emitted from the lamp is varied in accordance with current or voltage applied thereto. The light amount of the lamp is varied to at least 3 stages simultaneously in accordance with an image signal in synchronism with color to be emphasized and weakened in each color (e.g. red, blue, green and white). | 11-27-2008 |