Ishizeki, JP
Hirofumi Ishizeki, Shinagawa-Ku JP
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20100103699 | METHOD FOR MANUFACTURING LIGHT GUIDE PANEL, LIGHT GUIDE PANEL AND LIGHT SOURCE UNIT - The invention provides a light guide panel that improves luminance and reduces uneven luminance and color aberration. The light guide panel of the invention may be formed by irradiating laser light from a laser light source to the surface of an acrylic resin plate made of polymethylmethacrylate whose weight-average molecular weight is 10,000 to 100,000 or of a copolymer of 90 to 99.9% by weight of methyl methacrylate and 0.1 to 10% by weight of acrylic ester and whose weight-average molecular weight is 1,000 to 100,000 to form a light scattering pattern including a large number of concave portions each of which also includes a large number of micro-concavities and convexities therein. | 04-29-2010 |
Hiroshi Ishizeki, Ota-Shi JP
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20100164105 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING THE SAME - An object is to prevent a failure, such as a wiring separation or a crack, in an insulating film under a copper wire, in a semiconductor device formed by wire-bonding the copper wire on a portion above the copper wiring. A semiconductor device according to the present invention includes a copper wiring formed above a semiconductor substrate, a plated layer formed so as to cover a top surface and side surfaces of the copper wiring, and a copper wire which is wire-bonded on the plated layer above the copper wiring. | 07-01-2010 |
Hiroshi Ishizeki, Gunma JP
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20090212426 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - In a semiconductor device, a region under a pad electrode with a bump can be utilized efficiently and a large amount of force is prevented from applying locally to a semiconductor substrate under the bump when the semiconductor device is mounted. A first layer metal wiring is formed on the semiconductor substrate. A pad electrode is formed on the first layer metal wiring through an interlayer insulation film. The pad electrode is connected with the first layer metal wiring through a via hole that is formed in the interlayer insulation film. A protection film is formed on the pad electrode. The protection film has an opening to expose the pad electrode and an island-shaped protection film formed in the opening. An Au bump connected with the pad electrode through the opening in the protection film is formed on the pad electrode. The via hole is formed under the island-shaped protection film, and incompletely filled with a portion of the pad electrode. | 08-27-2009 |
Kazunori Ishizeki, Seta-Gun JP
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20090120436 | POWDER MEDICINE ADMINISTERING APPARATUS - A powder medicine administering apparatus includes: an upper body including a lower surface, and a medicine storage chamber having an upper opening portion opened on the lower surface; a lower body including an upper surface, and a medicine receiving chamber which has a lower opening portion, and which is recessed in a downward direction from the lower opening portion. The lower body is relatively slid with respect to the upper body so that the lower surface of the upper body is slidably moved on the upper surface of the lower body to be switched between a connection state and a non-connection state. The medicine receiving chamber is arranged to be moved in a one section from the standby position to the discharge position so that entire of the lower opening portion of the medicine receiving chamber is within the upper opening portion of the upper body. | 05-14-2009 |
Kazunori Ishizeki, Gunma JP
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20100175696 | Medicine sprayer - A body section | 07-15-2010 |
Kenji Ishizeki, Chiyoda-Ku JP
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20100035166 | PHOTOSENSITIVE COMPOSITION, PARTITION WALLS, BLACK MATRIX AND PROCESS FOR PRODUCING COLOR FILTER - To provide a photosensitive composition with which partition walls (black matrix) having high sensitivity to light and being excellent in liquid repellency, and pixels excellent in the uniformity in the ink layer thickness, can be formed. | 02-11-2010 |
20130266778 | NEGATIVE PHOTOSENSITIVE RESIN COMPOSITION, PARTITION WALLS FOR OPTICAL DEVICE AND PRODUCTION PROCESS THEREOF, PROCESS FOR PRODUCING OPTICAL DEVICE HAVING THE PARTITION WALLS, AND INK REPELLENT SOLUTION - To provide a negative photosensitive resin composition which is excellent in storage stability of silanol groups and which is applicable to preparation of partition walls which can maintain excellent ink repellency even after ink affinity-imparting treatment, and partition walls for an optical device using such a composition. | 10-10-2013 |
Manabu Ishizeki, Hachioji-Shi JP
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20130137377 | WIRELESS IMAGE COMMUNICATION SYSTEM AND WIRELESS IMAGE COMMUNICATION APPARATUS - A wireless image communication system comprises a transmitter that wirelessly transmits image data and a receiver that receives the image data transmitted by the transmitter. The transmitter comprises: a communication channel change instruction unit that accepts, from an operator, an instruction to change a communication channel currently used in the wireless communication with the receiver for the transmission of the image data to a predetermined communication channel different from the currently used communication channel; and a transmitting unit that wirelessly transmits, on the basis of the instruction, information related to the predetermined communication channel to the receiver. The receiver comprises: a receiving unit that receives the information wirelessly transmitted by the transmitter; and a wireless communication control unit that performs a process to change the communication channel currently used in the wireless communication with the transmitter to the communication channel indicated by the received information. | 05-30-2013 |
Masaki Ishizeki, Kiryu-Shi, Gunma JP
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20150357886 | Electric Motor And Electric Pump - This electric motor includes: a brushless motor ( | 12-10-2015 |
Masaki Ishizeki, Kiryu-Shi JP
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20090121566 | BRUSHLESS MOTOR - The brushless motor is provided with: a tubular stator case; a stator core; a rotor; a plurality of teeth which extend radially inward and are integrally formed on an inner peripheral surface of the stator core; a coil bobbin which is mounted between the mutually adjacent teeth; a lead wire which feed power to the coil; and a wiring substrate which relays a connection between the lead wire and the coil, wherein: the coil bobbin has flange portions which protrude outward from peripheral edges of the both ends of the coil bobbin; one of the flange portions of the coil bobbin has an enlarged member which protrudes outward from the surface of the flange portion; the enlarged member has a guide portion which holds the winding end of the coil; and the wiring substrate is connected the coil bobbin while contacting therewith in an axial direction of the stator core. | 05-14-2009 |
20090127953 | BRUSHLESS MOTOR - A brushless motor according to the present invention is provided with: a tubular stator case; a stator core fitted into the stator case; and a rotor rotatably supported via a bearing inside the stator core, wherein: an inner flange portion which extends radially inward is formed at a peripheral edge of an opening of one end of the stator case; and a bracket is fixed to the inner flange portion while contacting therewith so as to close the opening. | 05-21-2009 |
20090127971 | BRUSHLESS MOTOR - A brushless motor according to the present invention is provided with: a tubular stator case; a stator core; and a rotor. The stator core includes a tubular yoke portion and a plurality of split cores. A plurality of dovetail grooves are formed in an inner peripheral surface of the yoke portion; each split core has a coil bobbin which has a mounting hole so as to penetrate in a radial direction, and a split teeth which is mounted into the mounting hole of the coil bobbin. The coil bobbin has a winding portion, and flange portions, and a clearance portion into which a winding starting end of the coil is strayed from the winding portion is formed on the inside of the one of the flange portions by reducing the thickness of the flange portion such that. | 05-21-2009 |
20090127972 | BRUSHLESS MOTOR - A brushless motor according to the present invention is provided with a tubular stator case, a stator core fitted into the stator case, and a rotor rotatably supported via a bearing inside the stator core. The stator core includes a tubular yoke portion and a plurality of split cores which are detachably mounted on the tubular yoke portion. A plurality of commutating-pole teeth which extend radially inward are integrally formed on an inner peripheral surface of the tubular yoke portion at regular intervals in the peripheral direction of the tubular yoke portion; and a root portion of each of the commutating-pole teeth has inclined shoulders which are gradually enlarged radially outward. | 05-21-2009 |
20090134724 | BRUSHLESS MOTOR - A brushless motor is provided with: a tubular stator case; a stator core; a rotor rotatably supported via a bearing inside the stator core; a bracket which closes an opening at one end of the stator case; a coil bobbin around which a coil is wound is mounted on an inner peripheral surface of the stator core; a lead wire which feeds power to the coil; and a wiring substrate which relays a connection between one end of the lead wire and the coil, wherein: a drawn-out hole is formed on the bracket at the position corresponding to the connection point of said one end of the lead wire and the wiring substrate such that the other end of the lead wire is drawn outward; and a harness guide is provided on a peripheral edge of the drawn-out hole such that the drawn lead wire is bent and fixed. | 05-28-2009 |
20140366686 | STARTER - A starter includes a motor unit, a drive shaft configured to receive a rotational force of the motor unit and rotate, a transmission pinion gear installed on the drive shaft, an idle shaft extending in a direction parallel to the drive shaft, an idle gear installed on the idle shaft and configured to mesh with the transmission pinion gear, a driving pinion gear installed on the idle shaft and configured to mesh with a ring gear of an engine, a gear cover configured to rotatably support portions of the drive shaft and the idle shaft and accommodate the transmission pinion gear and the idle gear, and a bracket section installed between the motor unit and the gear cover and configured to rotatably support a first end in an axial direction of the idle shaft. | 12-18-2014 |
Shinichi Ishizeki, Sakai-Shi, Osaka JP
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20160118924 | MOTOR DRIVING APPARATUS - A motor driving apparatus includes a boosting section, a drive voltage output section, a detecting section, a storage section and a determining section. The boosting section generates a post-boosting voltage by boosting an input voltage. The drive voltage output section generates a drive voltage to drive a motor using the post-boosting voltage. The detecting section detects a value of the input voltage or a variation width relative to a reference value of the input voltage as variation power source variation information when there is power source variation. The storage section stores target value association information associating the power source variation information and a boosting target value of the post-boosting voltage. The determining section determines the boosting target value based on the power source variation information and target value association information. The target value association information is determined based on a range of operations of the drive voltage output section. | 04-28-2016 |
Shinichi Ishizeki, Osaka JP
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20120126776 | VOLTAGE SMOOTHING CIRCUIT - A voltage smoothing circuit is configured to smooth a voltage outputted from a power supply portion. The voltage smoothing circuit includes first and second smoothing capacitors, a first balancing resistor, and a second conduction regulating portion. The first smoothing capacitor and the second smoothing capacitor are connected in series to each other and are connected in parallel to the power supply portion. The first balancing resistor is connected in parallel to the first smoothing capacitor. The second conduction regulating portion is connected on a current path in parallel with the second smoothing capacitor and conducts current in one direction on the current path in a case where a voltage equal to or greater than a second predetermined voltage has been applied. | 05-24-2012 |
20150271953 | REFRIGERANT JACKET AND AIR CONDITIONING APPARATUS EQUIPPED THEREWITH - A refrigerant jacket includes a refrigerant cooling member, a cover member and a strength member. The cooling member is constructed of aluminum or aluminum alloy that thermally contacts a heat emitting electrical part, and has a groove portion. A refrigerant tube of a refrigerant circuit fits into the groove portion. The cover member covers the refrigerant cooling member in a state where the refrigerant tube has been fitted into the groove portion. The strength member is higher in strength than the cooling member, and is fixed to the cooling member. The cover member has a cover-side through hole opposing the strength member. The strength member has a cover member fixing screw hole opposing the cover-side through hole. The cover member is fixed to the strength member by a cover member fixing screw that passes through the cover-side through hole and screws into threads of the cover member fixing screw hole. | 09-24-2015 |
Shinichi Ishizeki, Sakai-Shi JP
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20150049526 | INDIRECT MATRIX CONVERTER - A converter receives input of an AC voltage, converts the AC voltage into a DC voltage, and applies the DC voltage between a first power line on a positive electrode side and a second power line on a negative electrode side. A snubber circuit has a capacitor provided between the first and the second power lines, and a diode connected in series with the capacitor between the first and the second power lines, and including an anode on a side close to the first power line on the positive electrode side in a series path with the capacitor. An inverter converts the DC voltage into an AC voltage, and applies the AC voltage to an inductive load. An inverter-side current detection unit detects a current that flows through the first power line on the positive electrode side or the second power line on the negative electrode side between the inverter and the snubber circuit. | 02-19-2015 |
Tetsuya Ishizeki, Isesaki-Shi JP
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20120125025 | Refrigeration Cycle - Provided is a refrigeration cycle wherein, when an orifice is disposed within a refrigeration circuit, and a differential pressure between the upstream side and the downstream side of the orifice is detected using two pressure sensors, the difference between the characteristics of the pressure sensors can be adequately and easily absorbed in software, to accurately determine an actual differential pressure, so that the flow rate of refrigerant and the torque of a compressor can be accurately estimated. The refrigeration cycle wherein the orifice is provided within a refrigerant circuit, and the pressure sensors are respectively provided on the upstream side and the downstream side of the orifice, is characterized in that, with regard to output characteristics representing the relationship between the detected pressure and the sensor output of each pressure sensor, the difference between the output characteristics of one pressure sensor and the output characteristics of the other pressure sensor is determined based on the outputs of both pressure sensors at a condition where the flow of refrigerant is stopped. | 05-24-2012 |
20120125026 | Air Conditioning System for Vehicle - Provided is an air conditioning system for vehicles wherein a flow rate of refrigerant used for estimating a compressor torque can be accurately estimated by accurately detecting a difference between pressures at upstream and downstream sides of an orifice, which has a high correlation with the flow rate of refrigerant, and ultimately, the compressor torque can be accurately estimated, and this estimation can be performed while space saving and cost down can be achieved. The air conditioning system for vehicles having a refrigeration cycle provided with a refrigerant compressor, a condenser, a pressure reduction/expansion mechanism and an evaporator is characterized in that an orifice for throttling a refrigerant flow is disposed in a refrigerant path between the condenser and the pressure reduction/expansion mechanism, a pressure difference detection means capable of detecting a difference between pressures at upstream and downstream positions of the orifice is provided, and provided are a refrigerant flow rate estimation means for estimating a refrigerant flow rate with reference to the detected pressure difference and a compressor torque estimation means for estimating a compressor torque with reference to the estimated refrigerant flow rate. | 05-24-2012 |
20120125041 | Refrigeration Cycle - Provided is a refrigeration cycle suitable for an air conditioning system for vehicles, wherein a flow rate of refrigerant which is used to estimate a torque of a compressor can be precisely estimated by accurately detecting a difference between pressures at upstream and downstream sides of an orifice having a high correlation with the refrigerant flow rate, and ultimately, the torque of the compressor can be precisely estimated, and the estimation can be achieved while achieving space saving and cost down. Disclosed is a refrigeration cycle which has a subcool condenser integrally provided with a condensing part for refrigerant, a liquid receiver and a subcooling part, and wherein an orifice for throttling the flow of refrigerant which has passed through the condensing part of the subcool condenser is disposed, a pressure difference detection means capable of detecting a difference between pressures at upstream and downstream sides of the orifice is provided, and provided are a refrigerant flow rate estimation means for estimating a flow rate of the refrigerant with reference to the detected pressure difference and a compressor torque estimation means for estimating a torque of the compressor with reference to the estimated flow rate of the refrigerant. | 05-24-2012 |
Tetsuya Ishizeki, Isesaki JP
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20130086932 | Vehicle Air-Conditioning Device, and Refrigerant Leakage Diagnosis Method for Vehicle Air-Conditioning Device - In a vehicle air-conditioning device, refrigerant leakage is diagnosed precisely without any restrictions from an operating condition of the air-conditioning device. When the operating condition of the vehicle air-conditioning device is stable, a threshold value Th for determination of refrigerant leakage is set based on an outlet pressure Pd and an inlet pressure Ps of a compressor. Furthermore, a volume flow Gr in that refrigerant pipe running from a condenser to an expansion valve through which the refrigerant circulates in a liquid state is detected. When it is determined that the volume flow Gr exceeds the threshold value Th for determination of refrigerant leakage, a diagnosis result (alarm) indicating that the refrigerant leaks is output. | 04-11-2013 |
Yoshiaki Ishizeki, Kanagawa JP
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20110285407 | IMPEDANCE DETECTION CIRCUIT AND ADJUSTMENT METHOD OF IMPEDANCE DETECTION CIRCUIT - According to the present invention, a small impedance detection circuit capable of accurately detecting the impedance of an object to be measured and an adjustment method of an impedance detection circuit can be provided. In the impedance detection circuit according to the present invention, an AC signal generator outputs an AC signal. A detection circuit, which is connected to a circuit to be measured, applies an AC signal to the circuit to be measured. Further, the detection circuit outputs a first signal corresponding to the composite impedance of the impedance of the circuit to be measured and a parasitic impedance. A correction circuit outputs a second signal in synchronization with the first signal. A subtraction circuit outputs a detection signal obtained by subtracting the second signal from the first signal. | 11-24-2011 |
20130315294 | SERIAL COMMUNICATION APPARATUS - A serial communication apparatus includes a slew rate control circuit, an output circuit, a detection circuit, and a switching circuit. The slew rate control circuit has a predetermined impedance, and supplies a constant current from an output according to an input signal. In the output circuit, first capacitance is charged and discharged by the constant current from the slew rate control circuit. The output circuit outputs a digital signal from an output terminal according to a drive voltage. The noise detection circuit detects noise propagated from the output terminal, and outputs a switching signal according to a detection result. The switching circuit switches an impedance of the slew rate control circuit to a value smaller than the predetermined impedance according to the switching signal. | 11-28-2013 |
20150043663 | SERIAL COMMUNICATION APPARATUS - A serial communication apparatus includes a slew rate control circuit, an output circuit, a detection circuit, and a switching circuit. The slew rate control circuit has a predetermined impedance, and supplies a constant current from an output according to an input signal. In the output circuit, first capacitance is charged and discharged by the constant current from the slew rate control circuit. The output circuit outputs a digital signal from an output terminal according to a drive voltage. The noise detection circuit detects noise propagated from the output terminal, and outputs a switching signal according to a detection result. The switching circuit switches an impedance of the slew rate control circuit to a value smaller than the predetermined impedance according to the switching signal. | 02-12-2015 |