Makihara, JP
Hiroko Makihara, Hyogo JP
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20150173975 | NONWOVEN, SHEET FOR ABSORBENT ARTICLE, AND ABSORBENT ARTICLE USING THE SAME - The present invention relates to a nonwoven comprising: a first fiber layer comprising a first core/sheath composite fiber having three-dimensional crimp, which is composed of a sheath component comprising linear low density polyethylene, and a core component comprising thermoplastic resin having a high melting point, and the center of gravity of the core component being offset from the center of gravity of the fiber; a second fiber layer comprising a second core/sheath composite fiber having three-dimensional crimp, which is composed of a sheath component comprising high density polyethylene, a core component comprising thermoplastic resin having a high melting point, the center of gravity of the core component being offset from the center of gravity of the fiber; wherein at least a portion of the first and the second core/sheath composite fibers is thermal bonded via the sheath components of the first and the second core/sheath composite fibers | 06-25-2015 |
Jun Makihara, Yokohama JP
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20100246978 | DATA VERIFICATION METHOD, DATA VERIFICATION DEVICE, AND DATA VERIFICATION PROGRAM - A data verification method includes extracting a first graphic and a second graphic from a first circuit pattern, extracting a third graphic and a fourth graphic from a second circuit pattern, the second circuit pattern being in a layer different than a layer including the first circuit pattern; performing transformation on the first graphic; comparing the first graphic having undergone the transformation with the second graphic; performing the transformation on the third graphic; comparing the third graphic having undergone the transformation with the fourth graphic; when the first graphic having undergone the transformation matches the second graphic, and the third graphic having undergone the transformation matches the fourth graphic, performing grouping for the first and second graphics and setting the first graphic as a first representative graphic; and verifying a shape of the first circuit pattern based on the first representative graphic. | 09-30-2010 |
Jun Makihara, Kasugai JP
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20080228439 | Method and apparatus for measuring distance with graphic data - A computer-implemented method for facilitating measurement of the distance between edges graphically shown on a display device according to graphic data. The method includes setting a ruler including a first end point and a second end point on the edges, calculating the distance between the first end point and the second end point, moving the ruler on the display device in response to an input of a coordinate, and calculating the distance between the first end point and the second end point for the moved ruler. | 09-18-2008 |
Jun Makihara, Tokyo JP
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20100062935 | THERMOSENSITIVE RECORDING MEDIUM - The present invention presents a thermosensitive recording medium having excellent color development, image quality and preservation properties as well as excellent stamp receptivity, anti-scratching ability, printability and water blocking resistance. | 03-11-2010 |
20100099557 | Thermosensitive Recording Medium - The present invention provides a thermosensitive recording medium, which is excellent in stamping ability, anti-scratching ability, and water and plasticizer resistance of image area as well as in recording sensitivity, image quality and storage stability. The present invention is a thermosensitive recording medium having a thermosensitive recording layer containing at least a colorless or pale colored basic leuco dye and an electron accepting developing agent as a coating layer on a substrate, wherein at least an outermost layer among the thermosensitive recording layer and other optionally prepared coated layers contains powdered cellulose, wherein the powdered cellulose is prepared by a dry grinding process at ambient temperature. The thermosensitive recording medium preferably contains a condensate composition comprising 2,2′-methylenebis(4-t-butylphenol) as an electron accepting developing agent, and a cross-linked diphenylsulfone compound such as 2,2′-bis[4-(4-hydroxyphenylsulfone) phenoxy]diphenylether as a stabilizer. | 04-22-2010 |
Katsunori Makihara, Hiroshima JP
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20090236584 | LIGHT-EMITTING DEVICE WITH ENHANCED LUMINOUS EFFICIENCY AND METHOD OF PRODUCING THE SAME - A light-emitting device comprises first and second dot members. The first dot member is formed so that it makes contact with the second dot member. The first dot member comprises a plurality of first quantum dot layers. Each of the plurality of first quantum dot layers comprises a plurality of first quantum dots and a silicon dioxide film. The first quantum dot comprises an n-type silicon dot. The second dot member comprises a plurality of second quantum dot layers. Each of the plurality of second quantum dot layers comprises a plurality of second quantum dots and a silicon dioxide film. The second quantum dot comprises a p-type silicon dot. | 09-24-2009 |
20100006921 | SEMICONDUCTOR MEMORY, SEMICONDUCTOR MEMORY SYSTEM USING THE SAME, AND METHOD FOR PRODUCING QUANTUM DOTS APPLIED TO SEMICONDUCTOR MEMORY - A semiconductor memory includes a composite floating structure where an insulation film is formed on a semiconductor substrate, Si-based quantum dots covered with an extremely thin Si oxide film is formed on the insulation film, silicide quantum dots covered with a high dielectric insulation film are formed on the extremely thin Si oxide film, and Si-based quantum dots covered with a high dielectric insulation film are formed on the high dielectric insulation film. Multivalued memory operations can be conducted at a high speed and with stability by applying a certain positive voltage to a gate electrode to accumulate electrons in the silicide quantum dots and by applying a certain negative voltage and weak light to the gate electrode to emit the electrons from the silicide quantum dots. | 01-14-2010 |
Katsunori Makihara, Higashihiroshima-Shi JP
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20100155808 | SEMICONDUCTOR MEMORY, SEMICONDUCTOR MEMORY SYSTEM USING THE MEMORY, AND METHOD FOR MANUFACTURING QUANTUM DOT USED IN SEMICONDUCTOR MEMORY - A semiconductor memory has a composite floating structure in which quantum dots composed of Si and coated with a Si oxide thin film are deposited on an insulating film formed on a semiconductor substrate, quantum dots coated with a high-dielectric insulating film are deposited on the quantum dots, and quantum dots composed of Si and coated with a high-dielectric insulating film are further deposited. Each of the quantum dots includes a core layer and a clad layer which covers the core layer. The electron occupied level in the core layer is lower than that in the clad layer. | 06-24-2010 |
20100176824 | MEASURING APPARATUS AND MEASURING METHOD - A measuring unit applies a dc voltage causing an inversion layer to be formed on an interface between a semiconductor substrate and an insulating film to the semiconductor substrate while changing a change speed of a level of the dc voltage, and measures a current flowing through the insulating film. An arithmetic unit obtains a straight line showing a relationship between the current flowing through the insulating film and the change speed of the dc voltage on the basis of a relationship between the current measured by the measuring unit and the dc voltage, and calculates a slope of the obtained straight line as surface capacitance of the insulating film. The arithmetic unit calculates permittivity of the insulating film on the basis of the calculated surface capacitance, an area of contact between a probe and the insulating film and a thickness of the insulating film. | 07-15-2010 |
20100308328 | SEMICONDUCTOR DEVICE - A semiconductor device has a floating gate structure in which charge storage layers are stacked on a SiO | 12-09-2010 |
Kazumasa Makihara, Kanagawa JP
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20090152475 | Analyzer, Authenticity Judging Device, Authenticity Judging Method, and Underground Searching Method - The present invention relates to an analyzing apparatus and the like having a structure for enabling spectrometry and the like up to a longer frequency region while being excellent in practicality. The analyzing apparatus comprises a light source section and a light-detecting section. The light source section includes a seed light source emitting laser light, and a solid highly nonlinear optical fiber generating SC light in response to the input of the laser light, and thereby emitting the SC light as irradiation light to an object. The light-detecting section detects light to be detected from the object irradiated with the irradiation light. Here, the seed light source in the light source section emits pulsed light having a center wavelength within the range of 1.3 μm to 1.8 μm. | 06-18-2009 |
Kazumasa Makihara, Yokohama-Shi JP
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20100284658 | Optical fiber, optical transmission line, optical module, and optical transmission system - The present invention relates to an optical fiber which has a structure for further increasing an FOM (=|dispersion|/loss) and which can be applied to a dispersion compensation module. The optical fiber is mainly composed of silica glass and has a core region including a center of an optical axis, a depressed region surrounding the core region, a ring region surrounding the depressed region, and a cladding region surrounding the ring region and doped with F. As compared with the refractive index of pure silica glass, a relative refractive index difference of the core region is greater than 2% but less than 3%, a relative refractive index difference of the depressed region is −1% or more but −0.5% or less, a relative refractive index difference of the ring region is 0.01% or more but 0.24% or less, and a relative refractive index difference of the cladding region is −0.3% or more but −0.1% or less. The FOM at the wavelength of 1550 nm is 250 ps/nm/dB or more. | 11-11-2010 |
Kouji Makihara, Kitakyushu-Shi JP
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20130289166 | RESIN COMPOSITION AND SEMICONDUCTOR DEVICE - The invention provides a resin composition that is excellent in terms of coating workability and can supply reliability, including the soldering reflow resistance, to a semiconductor device when being used as a die attach material or an adhesive for a heat dissipation member. The resin composition of the invention contains a polymer or copolymer of a conjugated diene compound having at least one functional group, a thermosetting resin and a (meth)acryl polymer or copolymer having a reactive functional group that can react with other reactive groups. | 10-31-2013 |
Kouji Makihara, Kitakyushu-City JP
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20130143983 | LIQUID RESIN COMPOSITION AND SEMICONDUCTOR DEVICE - According to the invention, a liquid resin composition which has favorable wet spreadability after mounting of a chip and exhibits excellent solder cracking resistance even in a high-temperature solder reflow process at about 260° C., i.e., even when being used in lead-free solder, and a semiconductor package using the liquid resin composition are provided. In the liquid resin composition of the invention, an acrylic copolymer having a radical polymerizable functional group contains alkyl(meth)acrylate as a constituent monomer having a linear or branched alkyl group having 6 to 9 carbon atoms in an amount of 10 wt % to 40 wt % of the entire constituent monomers. | 06-06-2013 |
Masaki Makihara, Okazaki-Shi JP
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20150240732 | ENGINE SYSTEM AND CONTROL METHOD FOR ENGINE SYSTEM - An engine system includes an internal combustion engine, a forced induction device, an ejector device, a blow-by gas passage, and a controller. The ejector device has an ejector and a drive gas passage connected to an intake passage of the engine in a manner bypassing a compressor of the forced induction device. The controller is adapted to execute a temperature raising control when the controller determines that condensate water is likely to freeze in the ejector device. In the temperature raising control, the controller raises intake air pressure in a downstream portion of the intake passage with respect to the compressor compared to when the controller determines that the condensate water is unlikely to freeze and adjusts an intake air amount of the engine to restrain increase of the intake air amount that would be caused by increase in the intake air pressure. | 08-27-2015 |
20150337771 | EXHAUST GAS RECIRCULATION DEVICE - An exhaust gas recirculation device for an engine including a plurality of cylinders and intake branch passages is provided. The exhaust gas recirculation device includes an exhaust chamber and distribution passages for the respective cylinders. The exhaust chamber is connected to an exhaust passage of the engine, and exhaust gas from the exhaust passage is introduced into the exhaust chamber. The distribution passages connect the exhaust chamber to the intake branch passages for the respective cylinders so as to recirculate the exhaust gas back into the intake branch passages. The flow passage area of a first portion of each of the distribution passages is smaller than the flow passage area of a second portion of each of the distribution passages. The first portion is connected to the corresponding intake branch passage, and the second portion is connected to the exhaust chamber. | 11-26-2015 |
Masamichi Makihara, Anjo-City JP
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20080247135 | Battery unit with cooling device - A battery unit includes a module assembly, a housing that houses the module assembly, and a blower. The module assembly includes a stack of battery modules, and defines a first surface and a second surface opposite to the first surface. The blower is disposed at an end of the module assembly. A rotation shaft of the blower is located between a first plane that includes the first surface and a second plane that includes the second surface. The blower is configured to supply air toward the first surface of the module assembly in a direction perpendicular to a stacking direction of the battery modules. The air is supplied over a range that is substantially equal to a dimension of the module assembly in the stacking direction. | 10-09-2008 |
20100100266 | Thermal management system for vehicle - A thermal management system for a vehicle includes a switching power supply device, an electronic member configured to output an electrical power adjusted by the switching power supply device, and a control device configured to control operation of the switching power supply device. When the control device receives a heating request from at least one of devices that include a drive device used for driving the vehicle and an air conditioning device used for performing an air conditioning in a vehicle compartment, the control device causes the switching power supply device to be operated in a heat increasing operation in which heat generated from the electronic member is increased more than that in a general operation state, and supplies the generated heat to the at least one of the drive device and the air conditioning device. | 04-22-2010 |
20150258875 | THERMAL MANAGEMENT SYSTEM FOR VEHICLE - A thermal management system for a vehicle includes a first pump and a second pump, temperature adjustment target devices, heat exchangers, numerous flow paths including a first pump arrangement flow path, a second pump arrangement flow path, and device arrangement flow paths, a first switching portion for allowing the numerous flow paths to selectively communicate with each other, a second switching portion for allowing the numerous flow paths to selectively communicate with each other, and a reserve tank for storing therein heat medium. The reserve tank is configured to set the pressure of the liquid surface of the stored heat medium to a predetermined pressure (e.g., atmospheric pressure), and is connected to one flow path of the numerous flow paths. | 09-17-2015 |
Masamichi Makihara, Kariya-City JP
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20160101666 | VEHICULAR HEAT MANAGEMENT SYSTEM - A vehicular heat management system includes: a refrigerant circuit; a first heat medium circuit in which a heat medium circulates and exchanges heat with a low-pressure side refrigerant of the refrigerant circuit; a second heat medium circuit in which a heat medium circulates and exchanges heat with a high-pressure side refrigerant of the refrigerant circuit; and a switching device configured to switch a mode between a communicating mode in which the first heat medium circuit and the second heat medium circuit are coupled and a non-communicating mode in which the first heat medium circuit and the second heat medium circuit are not coupled on the basis of a temperature of the heat medium in the first heat medium circuit. | 04-14-2016 |
20160109163 | VEHICLE AIR CONDITIONING APPARATUS - A vehicle air conditioning apparatus includes: a heat exchanger adjustment unit which adjusts the flow rate of at least one of a heat medium and outside air flowing through a heat medium-to-outside air heat exchanger in such a way that a temperature related to a surface temperature of an air-cooling heat exchanger approaches a first target temperature, and a refrigerant flow rate adjustment unit which adjusts the flow rate of a refrigerant discharged from the compressor in such a way that a temperature related to a temperature of blast air, which has been adjusted in at least one of the air-cooling heat exchanger and an air-heating heat exchanger and which is blown out into a vehicle interior, approaches a second target temperature. Accordingly, a surface temperature of the air-cooling heat exchanger and the temperature of the blast air into the vehicle interior can be properly controlled. | 04-21-2016 |
Mitsuhiro Makihara, Kanagawa JP
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20110013256 | MEMS DEVICE AND METHOD OF MANUFACTURING THE SAME - A MEMS device includes a mirror substrate ( | 01-20-2011 |
Mitsuru Makihara, Nishinomiya-City JP
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20090201106 | HARMONIC SUPPRESSION RESONATOR, HARMONIC PROPAGATION BLOCKING FILTER, AND RADAR APPARATUS - A harmonic suppression resonator comprises a plurality of waveguide resonators that resonate in TE mode, in which harmonic suppression resonator, adjoining resonators are coupled via a plurality of coupling windows. Four coupling windows | 08-13-2009 |
Nobuyuki Makihara, Anjo-Shi JP
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20090253821 | Polyurethane foam with water absorbency and yellowing resistance - A polyurethane foam is obtained by reacting raw materials containing a polyisocyanate, a polyol, a water-absorbency-imparting agent, a catalyst, and a blowing agent, foaming the reaction mixture, and curing the foamed product. The polyol is a polyester polyol. The water-absorbency-imparting agent is a polyoxyalkylene compound having a molecular weight of 100 to 1000 and having a hydroxy group at an end of the molecular chain, or an alcohol with 1 to 8 carbon atoms. The amount of the water-absorbency-imparting agent is from 0.5 to 8 parts by mass per 100 parts by mass of the polyester polyol. The polyisocyanate is an aliphatic polyisocyanate, an alicyclic polyisocyanate, or an aromatic polyisocyanate in which the isocyanate groups are not directly attached to an aromatic ring. The foam has a water absorption ratio of 10 to 30 and a color difference ΔYI of 7 or less. The time required until water dropped onto a surface of the foam is completely absorbed into the foam is 20 seconds or less. | 10-08-2009 |
Shinichiro Makihara, Kamagori-Shi, Aichi JP
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20100182154 | BATTERY MANAGEMENT SYSTEM FOR ELECTRIC VEHICLE - The invention provides a battery management system which can reliably and easily manage a power unit of an electric vehicle. The power unit includes a plurality of battery modules. The battery management system includes: a power source for a motor, the power source being constituted by a plurality of battery modules having battery cells; battery module status sensors mounted on the battery modules on the one to one basis, detecting voltages and temperatures of the battery modules; and a control unit judging statuses of the battery modules on the basis of data detected by the battery module status sensors. The battery module status sensors are mutually connected in series by a communication line for transmitting numbering data, and each battery module status sensor assigning itself with an ID code on the basis of ID information received from an upstream battery module status sensor, and transmitting the ID information as well as the ID code to a downstream battery module status sensor. The control unit is connected to the battery module status sensors via the communication line for transmitting the numbering data and a communication line for transmitting various data except for the numbering data, and locates an abnormal battery module on the basis of detection information received via the communication line for transmitting the numbering data and the communication line for transmitting various data except for the numbering data. | 07-22-2010 |
Shinya Makihara, Anjo JP
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20090255501 | Intake duct for vehicle - An intake duct for a vehicle having an inlet port formed so that the open side faces obliquely upward. The intake duct includes an inlet part formed in a flat shape expanding in the lateral direction crossing an air stream direction and a deflector provided in an air stream passage of the inlet part and extending in the left-and-right direction of the air stream passage. The intake duct further includes a first support member, which is provided between the deflector and the lower wall portion of the inlet part, and a second support member, which is provided between the deflector and the upper wall portion of the inlet part. | 10-15-2009 |
Tadashi Makihara, Anjo-Shi JP
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20130025893 | ELECTRIC POWER TOOL POWERED BY BATTERY PACK AND ADAPTER THEREFOR - An adapter for an electric power tool couples battery packs with the electric power tool. The adapter is provided with a voltage regulator circuit interposed between the battery packs and the electric power tool. The voltage regulator circuit regulates a supply voltage from the battery packs to the electric power tool to a level corresponding to a rated voltage of the electric power tool. The voltage regulator is capable of raising the supply voltage higher than nominal voltages of the battery packs. | 01-31-2013 |
Takahiro Makihara, Aichi JP
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20120111103 | DETECTING APPARATUS - The objective of the present invention is to provide an unexpected detecting apparatus enabled to evaluate an evenness of a compound coated on an electrode of a battery. The detecting apparatus ( | 05-10-2012 |
Tetsuya Makihara, Nukata-Gun JP
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20090167582 | Sample and hold circuit, multiplying D/A converter having the same, and A/D converter having the same - A sample and hold circuit includes an op-amp, inverting-side capacitors, and non-inverting-side capacitors paired with the inverting-side capacitors. At least one capacitor pair serves as a feedback capacitor in a holding phase. A total capacitance of the inverting-side capacitors to which an input voltage is applied in a sampling phase is α, a total capacitance of the non-inverting-side capacitors to which the input voltage is applied in the sampling phase is β, a total capacitance of the inverting-side capacitors to which the input voltage is applied in a holding phase is γ, and a total capacitance of the non-inverting-side capacitors to which the input voltage is applied in the holding phase is η. α is substantially different from β. A total capacitance of a feedback capacitor pair is substantially equal to (α−β−γ+η)·(N/2), where N is a positive number. | 07-02-2009 |
20110234441 | CYCLIC A/D CONVERTER - A control circuit connects a capacitor to an input terminal and an output terminal of an operational amplifier and applies a signal charge to charge the capacitor with a switch being turned off. Thus, a conversion voltage corresponding to the signal charge is outputted from the operational amplifier. The control circuit then sets charges, which correspond to the conversion voltage, in capacitors and reallocates the charges among the capacitors by connecting non-common electrodes of the capacitors to either one of a plurality of reference voltage lines in accordance with a conversion result of an A/D conversion circuit with the capacitor being connected to the input terminal and the output terminal of the operational amplifier. The control circuit thereafter performs, a number of times, charge setting, initialization and subsequent charge reallocation in accordance with a residual voltage outputted from the operational amplifier. | 09-29-2011 |
20110241780 | AMPLIFIER CIRCUIT, SIGNAL PROCESSOR CIRCUIT, AND SEMICONDUCTOR INTEGRATED CIRCUIT DEVICE - An amplifier circuit is provided to be switchable between a single end output configuration and a differential output configuration without increasing a circuit area. When first and fourth switches are turned off and a second switch is turned on, a load circuit functions as an active load on a differential pair and a first output terminal is internally disconnected. The amplifier circuit is provided with a single end output configuration and differentially amplifies input voltages inputted to input terminals and outputs an imbalanced signal from a second output terminal. When the first and fourth switches are turned on and the second switch is turned off, the load circuit functions as a load on the differential pair and the first output terminal is internally connected. The amplifier circuit is provided with a differential output configuration and differentially amplifies the input voltages inputted to the input terminals and outputs balanced signals from the output terminals. | 10-06-2011 |
20110254716 | A/D CONVERTER DEVICE AND SIGNAL PROCESSING UNIT - An A/D converter device is provided, which has a D/A conversion function and changes a resolution of A/D conversion and D/A conversion. The A/D converter device is configured to selectively execute an A/D conversion operation and a D/A conversion operation, by the operation of a control circuit controlling switching of switches according to an ADC/DAC function switching signal supplied from an external side. The A/D conversion operation performs A/D conversion of an input signal voltage inputted via a signal input terminal from an external side and outputs an A/D conversion value of 12 bits. The D/A conversion operation outputs, via a signal output terminal, an analog voltage produced by performing D/A conversion of a digital value supplied from the external side. | 10-20-2011 |
20120139545 | VOLTAGE DETECTION DEVICE FOR ASSEMBLED BATTERY - An operational amplifier has an input biased at a predetermined reference voltage. A control unit opens both second switches and third switches corresponding to unit batteries being non-detection object, closes fourth switch. The control unit further closes both one of first switches and one of third switches corresponding to one unit battery being a detection object to charge corresponding one of first capacitors. Thereafter, the control unit opens the fourth switch. The control unit further closes one of the second switches corresponding to the one unit battery being the detection object, instead of the one of the first switches. Thus, the control unit detects a voltage of each of the unit batteries. | 06-07-2012 |
20120250203 | VOLTAGE DETECTION APPARATUS AND COMBINATION CIRCUIT - A voltage detection apparatus includes an operational amplifier, first and second switches coupled between a terminal of a detection target voltage source and a common node, a first capacitor including a plurality of capacitor elements coupled in series between the common node and an inverting input terminal of the operational amplifier, a third switch and a second capacitor, which are coupled between the inverting input terminal and an output terminal of the operational amplifier, a reference voltage selection circuit which applies one of a first reference voltage and a second reference voltage differing from one another to a non-inverting input terminal of the operational amplifier, and a controller which is capable of selecting a voltage detection mode and a self-diagnostic mode. | 10-04-2012 |
20130207687 | LOGIC SIGNAL TRANSMISSION CIRCUIT WITH ISOLATION BARRIER - A logic signal transmission circuit includes a driving circuit, an isolation section, and a latch section. The driving circuit converts an input digital signal to a differential digital signal. The isolation section blocks direct current and passes the differential digital signal. The latch section has even numbers of inverters which are connected in a loop and output a logic signal by turning ON and OFF a power supply voltage in a complementary manner. An input impedance of the latch section is set so that when a logic level of the differential digital signal changes, a transient voltage inputted through the isolation section to the latch section changes across a threshold voltage of the latch section. When the transient voltage changes across the threshold voltage, a logic level of the logic signal changes. | 08-15-2013 |
20140176148 | VOLTAGE DETECTING DEVICE FOR ASSEMBLED BATTERY - In a voltage detecting device, a control unit turns on first switches and fifth switches corresponding to a plurality of unit batteries of an assembled battery to charge electric charge to first capacitors. The control unit simultaneously turns off at least one of the first switches or the fifth switches to hold the electric charge in the first capacitors. While selecting one of the unit batteries in a predetermined order as a target unit battery for voltage detection, the control unit temporarily turns off a fourth switch to reset electric charge of a second capacitor, and then turns of second switches and third switches in a state where one of the first switches and one of the fifth switches corresponding to the target unit battery are kept in an off state, thereby to detect a voltage of the target unit battery. | 06-26-2014 |
20150054519 | ROUTE SWITCHING CIRCUIT AND VOLTAGE DETECTION DEVICE - A route switching circuit includes: a pair of normal detection routes that output voltages of a positive side connection point and a negative side connection point, which are different from each other, in multiple batteries for constituting an assembled battery; and a pair of diagnosis detection routes that output the voltages of the positive side connection point and the negative side connection point, and confirm a connection state of the normal detection routes by using the normal detection routes, which output at least one of a voltage of a positive side battery connected to a positive side from the positive side connection point and a voltage of a negative side battery connected to a negative side from the negative side connection point. | 02-26-2015 |
20150153422 | VOLTAGE DETECTION DEVICE - A first part circuit and an operational amplifier form a level shift circuit, which selects either one of battery cells forming an assembled battery and extracts and holds a voltage representing an inter-terminal voltage of a selected battery cell. A second part circuit and the operational amplifier form a residual voltage generation circuit, which generates a residual voltage by amplifying a differential voltage between a conversion subject voltage and an analog voltage corresponding to a conversion result of an A/D conversion circuit and applies the residual voltage to the A/D conversion circuit as a conversion subject voltage. A switchover circuit operates the operational amplifier as either one of the level shift circuit and the residual voltage generation circuit and switches over a connection-state to apply a voltage held by the level shift circuit to the A/D conversion circuit and the residual voltage generation circuit as a conversion subject voltage. | 06-04-2015 |
Yasushi Makihara, Osaka JP
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20130094759 | MOVING OBJECT DETECTION DEVICE - A moving object detection device includes a window setting unit configured to set a window having a predetermined volume in a video, an orientation of spatial intensity gradient calculation unit configured to calculate, for each pixel included in the window, an orientation of spatial intensity gradient, a spatial histogram calculation unit configured to calculate a spatial histogram that is a histogram of the orientation of spatial intensity gradient within the window, an orientation of temporal intensity gradient calculation unit configured to calculate, for each pixel included in the window, an orientation of temporal intensity gradient, a temporal histogram calculation unit configured to calculate a temporal histogram that is a histogram of an orientation of temporal intensity gradient within the window, and a determination unit configured to determine whether or not the moving object is included within the window based on the spatial histogram and the temporal histogram. | 04-18-2013 |