摘要:
It is possible to control a welding in a high speed and a high precision large electric current, and consumption electric power is also reduced. In the welding transformer, a loop magnetic core 25, a wound primary coil 12, plural positive side coils 14 and plural negative side coils 16 that are alternately sandwiched between respective gaps 12a of the primary coil 12, are comprised. A coil is fixed on the other surface of a contact base member 62. On the other surface of the contact base member 62, a first connection polar board 44 is electrically connected to a positive side electric conductor 30 through the first connection polar board 44. A negative side coil 16 is electrically connected to a negative side electric conductor 32. The connecting part of the positive side coil 14 and the negative side coil 16 is electrically connected to the third connection polar board 48. By sandwiching a thin insulation layer 31, a positive side electric conductor 30, a rectifying device 18 and a first polar board 34 are arranged on one side; A negative side electric conductor 32, a rectifying device 20 and a second polar board 36 are arranged on the other side; and the first polar board 34 and the second polar board 36 are electrically connected to a third polar board 38. It is possible to use by combining plural units and by connecting an output side in parallel in a small size and a large capacity.
摘要:
The present invention provides a novel (meth)acrylic silicone-based graft copolymer that is preferably used for cosmetics and the like. The (meth)acrylic silicone-based graft copolymer of the present invention is a copolymer obtained by reacting the following radically polymerizable monomers (a) to (d): (a) a compound represented by the following general formula (I); (b) at least one selected from a compound represented by the following general formula (II) and a compound represented by the following formula (III); (c) a compound represented by the following general formula (IV); and (d) a compound represented by the following general formula (V), wherein the copolymer is dissolved at a level of 50 mass % or more in 99.5% ethanol at 25° C.
摘要:
A controller (10) for controlling a process nozzle (20) and a laser oscillator (22) includes: an analyzer (12); a calculator (13) for calculating angle of a virtual corner part formed by two main process paths; a determining unit (14) for determining whether distance between the two main process paths corresponding to the circular-arc process path(s) is smaller than a first predetermined value, and determining whether the calculated angle is smaller than a second predetermined value; and a changing unit (15) for changing a laser process condition in the circular-arc process path(s) from a laser process condition in the main process paths when it is determined that the linear distance is smaller than the first predetermined value and the angle is smaller than the second predetermined value.
摘要:
An optical element according to an embodiment includes: a lens array including a plurality of convex shaped lenses provided on a first surface thereof and taking a flat shape at a second surface which is opposite from the first surface; a lens holder comprising concave portions formed to correspond to respective lenses in the lens array, at a surface opposed to the lens array, each of the concave portions having a size which makes it possible for one of the convex shaped lenses corresponding to the concave portion to fit therein; and a drive unit configured to drive at least one of the lens array and the lens holder to bring the convex shaped lenses in the lens array and the concave portions in the lens holder into an isolation state or a contact state.
摘要:
The present invention provides a novel (meth)acrylic silicone-based graft copolymer that is preferably used for cosmetics and the like. The (meth)acrylic silicone-based graft copolymer of the present invention is a copolymer obtained by reacting the following radically polymerizable monomers (a) to (d): (a) a compound represented by the following general formula (I); (b) at least one selected from a compound represented by the following general formula (II) and a compound represented by the following formula (III); (c) a compound represented by the following general formula (IV); and (d) a compound represented by the following general formula (V), wherein the copolymer is dissolved at a level of 50 mass % or more in 99.5% ethanol at 25° C.
摘要:
Provided are a mobile information terminal, an information management device, and an information management system for mobile information terminals comprising the mobile information terminal and the information management device, with which it is possible to flexibly display also information that is voluntarily provided, for example, by a user, on map information. A navigation system of a vehicle acquires, by wireless communication, location information and post information that has been posted together with the location information, from an information management device of a management center in a state where the location information and the post information are associated. The navigation system controls the display of the acquired post information by a display device to be displayed in superposition in a location that is displayed upon the map information by the acquired location information.
摘要:
According to one embodiment, an imaging device includes a substrate, a photodetecting portion, a circuit portion and a through interconnect. The substrate has a first major surface, a second major surface on a side opposite to the first major surface, a recess portion provided on the first major surface and retreated in a first direction going from the first major surface to the second major surface, and a through hole communicating with the first major surface and the second major surface and extending in the first direction. The photodetecting portion is provided above the recess portion and away from the substrate. The circuit portion is electrically connected to the photodetecting portion and provided on the first major surface. The through interconnect is electrically connected to the circuit portion and provided inside the through hole. The recess portion has a first inclined surface. The through hole has a second inclined surface.
摘要:
Certain embodiments provide a solid-state imaging device including: a plurality of pixels provided on a semiconductor substrate, each of the pixels having a semiconductor region that converts incident light from a side of a first face of the semiconductor substrate into signal charges and stores the signal charges; a readout circuit provided on a side of a second face that is the opposite side from the first face, and reading out the signal charges stored in the pixels; and a pixel separation structure provided between adjacent ones of the pixels in the semiconductor substrate, the pixel separation structure including a stack film buried in a trench extending from the first face, the stack film including a first insulating film provided along side faces and a bottom face of the trench, and a fixed charge film provided in the trench to cover the first insulating film and retaining fixed charges that are non-signal charges.
摘要:
According to one embodiment, a solid imaging device includes an imaging substrate, a light-shielding member and a AD conversion circuits. The imaging substrate is two-dimensionally arranged with a plurality of pixels. The plurality of pixels have a top face formed with an optoelectronic conversion element for converting incident light into an electric charge and storing it and a back face opposite to the top faces. The imaging substrate is formed with a top face by the top face of the plurality of pixels and formed with a back face by the back face of the plurality of pixels. The light-shielding member is provided on the top face side of the imaging substrate. The AD conversion circuits is formed on the back face of the pixels shielded from the light.
摘要:
According to one embodiment, a solid imaging device includes an imaging substrate, an imaging lens, a microlens array substrate and a polarizing plate array substrate. The imaging substrate has a plurality of pixels formed on an upper side thereof. The imaging lens is provided above the imaging substrate. The optical axis in the imaging lens intersects with the upper side of the imaging substrate. The microlens array substrate is provided between the imaging substrate and the imaging lens. A surface in the microlens array substrate has a plurality of microlenses arranged two-dimensionally. The surface of the microlens array intersects with the optical axis. The polarizing plate array substrate is provided between the imaging substrate and the imaging lens. The plurality of kinds of polarizing plates in the polarizing plate array substrate having polarization axes in mutually different directions are arranged two dimensionally.