Patent application number | Description | Published |
20100026220 | Driving apparatus for multi-phase AC synchronous motor - An inverter control circuit controls transistors based on comparison of a voltage command wave with a carrier wave, when a magnitude of a voltage vector is equal to or less than a peak value of the carrier wave. The voltage command wave is a wave, which is offset to a maximum value side from a reference potential of the carrier wave so that a maximum value of the voltage command wave equals a peak value of the carrier wave. The inverter control circuit makes an on-period of the transistor on a positive bus side longer than that of the transistor on a negative bus side by using the command voltage. The amount of electricity charged in a capacitor is reduced in comparison with a case in which the voltage command wave is used. Thus, thermal loss of a stator coil and a diode on the positive bus side is reduced. | 02-04-2010 |
20100231153 | Driving apparatus for three-phase AC synchronous motor - In a driving apparatus for a three-phase synchronous motor, in which a battery is connected between a neutral point of a stator coil and a negative-pole bus, a control circuit acquires three-phase AC currents. The control circuit checks whether a neutral-point electric current is contained in an electric current detected by an electric current detecting section. Based on the check result, the control circuit checks whether electric current values for three-phases containing the neutral-point electric current are set together or electric current values for three-phases excluding the neutral-point electric current are set together to acquire the three-phase AC currents for driving the motor. | 09-16-2010 |
20110031922 | ELECTRIC MOTOR DRIVE DEVICE, CONTROL METHOD OF ELECTRIC MOTOR DRIVE DEVICE, AND ELECTRICALLY DRIVEN DEVICE - An electric motor drive device has an inverter adjusting the voltage applied to an AC electric motor so as to drive the AC electric motor, a capacitor which is charged by a current supplied from a DC power supply supplying DC voltage between a neutral point at which a plurality of coils of the AC electric motor are connected and a positive rail or negative rail of an inverter and passing through the inverter, and a control circuit controlling the inverter so that the AC electric motor turns at a designated speed. Further, the control circuit selectively uses field weakening control and voltage boosting control for control of the inverter according to the conditions of the induced voltage generated at the AC electric motor, DC power supply, and voltage of the capacitor. | 02-10-2011 |
20110050136 | Driving apparatus for a vehicle-mounted electric motor - An inverter circuit for a motor outputs three-phase AC currents, which are outputted from common connection points to stator coils, based on output voltage of a DC power source and a power supply capacitor by a switching operation of transistors. An inverter control circuit determines that a system main relay is turned off, upon receiving a main relay-off signal from an electronic control unit. The inverter control circuit turns on the low-side transistors, while turning off the high-side transistors. A discharge current flows from the positive electrode to the negative electrode of the power supply capacitor through the stator coil and the low-side transistors, so that electric charge stored in the power supply capacitor is discharged. | 03-03-2011 |
20120292985 | VEHICULAR ELECTRIC SYSTEM - In a vehicular electric system, a first motor driver device and a second motor driver device are connected in parallel to a DC power source. A first capacitor is provided to suppress variations in a voltage developed between the DC power source and the first motor driver device. A second capacitor is provided to suppress variations in a voltage developed between the DC power source and a second motor driver device. A resistor is connected in series to the second capacitor. A filter circuit is thus suppressed form resonance even when a frequency included in a ripple current outputted from an inverter circuit of the first motor driver device overlaps a resonance frequency of the filter circuit. | 11-22-2012 |
20150155804 | MOTOR DRIVING DEVICE - A motor driving device includes an inverter circuit having switching elements; and a control device controlling the switching of the switching elements. The control device sets a carrier frequency to f1 when a two-phase modulation scheme is selected, and sets the carrier frequency to f0, which is half of the carrier frequency f1, when a three-phase modulation scheme is selected. Thereby, the frequency of the secondary component of a current flowing in a filter circuit of when selecting the three-phase modulation scheme may be deviated from the resonance frequency of the filter circuit. Accordingly, the current ripple generated in the filter circuit may be reduced even when selectively switching the modulation scheme for the PWM modulation among a plurality of modulation schemes. | 06-04-2015 |
20150292511 | HIGH VOLTAGE ELECTRIC DEVICE AND ELECTRIC COMPRESSOR - A high voltage electric device attached to a cooling unit includes heating components, an electric circuit board, a case, and an insulating member. The heating components are used at high voltage and are different in size. The heating components are fixed via lead wires respectively to the electric circuit board. The case accommodates the heating components and the electric circuit board. The insulating member seals the heating components and the electric circuit board in the case. An outermost peripheral surface of the insulating member on the cooling unit-side cooled by refrigerant is referred to as a reference surface. Respective shortest distances from the reference surface to the heating components are the same as each other. An electric compressor includes the high voltage electric device, an electric motor that is operated by electric power supplied by the high voltage electric device, and a compression mechanism that is driven by the electric motor and is applied to a refrigeration cycle. The cooling unit is cooled by the refrigerant drawn into the compression mechanism. | 10-15-2015 |
20150295532 | ELECTRIC COMPRESSOR - A controller for an electric compressor sets a temperature rise region A, a temperature drop region B, and a steady region C from change in temperature of switching elements, and sets a carrier frequency for each of the set regions. In the region A, the carrier frequency is changed according to the element temperature so that the carrier frequency decreases with increase of the element temperature at startup of a motor. In the region B and the region C, the carrier frequency is changed according to the number of revolutions of a compression mechanism, so that the carrier frequency decreases with increase of the number of revolutions of the compression mechanism, regardless of the element temperature. | 10-15-2015 |
20150303859 | MOTOR DRIVE APPARATUS - A motor drive apparatus includes multiple inverter circuits provided corresponding, respectively, to multiple motors, a controller configured to control the inverter circuits using switching signals, a detector configured to detect a current ripple generated by switching operations of the inverter circuits. The controller operates in a first mode and a second mode. In the first mode, carrier wave frequencies of reference carrier waves used to generate the switching signals for all the motors are set to the same basic frequency. In the second mode, the carrier frequency of the motor having a higher priority is set to the basic frequency, and the carrier frequency of the motor having a lower priority is set to a preset shift frequency. When the current ripple is not less than a predetermined value, a transition occurs from the first mode to the second mode. | 10-22-2015 |
20150338143 | ELECTRIC COMPRESSOR - A motor unit, which drives a compressor unit, includes a stator, which generates a rotating magnetic field, and a rotor, which is rotated about a rotational axis by the rotating magnetic field at an inner side of the stator. A drive circuit unit is placed at the inner side of the stator such that a position of the drive circuit unit in a direction of the rotational axis overlaps with the stator. | 11-26-2015 |
Patent application number | Description | Published |
20110019058 | CONDITION CHANGING DEVICE - A condition change unit of the present invention changes operating conditions of a device. The condition change unit comprises a display section for displaying images, a touch panel provided on the display section, a detection section for detecting input operations to the touch panel, a change condition setting section for setting types of change conditions, based on form of the input operations detected by the detection section, an operation guide image display section for displaying guidance images, for setting specific parameters of the change conditions, on the display section, in accordance with the type of change condition that has been set, and a parameter change section for changing parameters of the change condition based on an input operation to a screen on which the operation guidance operation images are displayed that has been detected by the detection section. | 01-27-2011 |
20130271401 | CONDITION CHANGING DEVICE - A condition change unit of the present invention changes operating conditions of a device. The condition change unit comprises a display section for displaying images, a touch panel provided on the display section, a detection section for detecting input operations to the touch panel, a change condition setting section for setting types of change conditions, based on form of the input operations detected by the detection section, an operation guide image display section for displaying guidance images, for setting specific parameters of the change conditions, on the display section, in accordance with the type of change condition that has been set, and a parameter change section for changing parameters of the change condition based on an input operation to a screen on which the operation guidance operation images are displayed that has been detected by the detection section. | 10-17-2013 |
20140205778 | POLYVINYL CHLORIDE RESIN COMPOSITION - PURPOSE: The present invention provides a polyvinyl chloride resin composition which is superior in heat stability and processability and has less elution from the composition. | 07-24-2014 |
20150237249 | IMAGING APPARATUS, COMMUNICATION DEVICE, IMAGING METHOD, AND INFORMATION NOTIFICATION METHOD - An imaging apparatus includes: an imaging unit that generates image data; a feature information generation unit that generates feature information smaller in data amount than the image data, the feature information indicating features of a subject image included in an image corresponding to the image data; an imaging-side first and second communication units; a communication status determination unit that determines the status of communication between an external communication device and the imaging-side first communication unit; and an imaging-side communication control unit that transmits the feature information to the communication device via the imaging-side second communication unit when the status of communication between the communication device and the imaging-side first communication unit is not favorable. | 08-20-2015 |
20150334306 | IMAGE PICKUP DISPLAY APPARATUS, IMAGE PICKUP DISPLAY METHOD, AND RECORDING MEDIUM - An image pickup display apparatus includes: a communication section that is capable of receiving a picked-up image from an image pickup unit; a display section that displays the picked-up image received by the communication section; an operation section for controlling image pickup by the image pickup unit; a state determination section that determines a state of a case in which the communication section, the display section and the operation section are housed; and a control section that receives a result of determination performed by the state determination section, to change a user interface provided by the display section and the operation section based on whether or not the case is arranged on another object. | 11-19-2015 |
Patent application number | Description | Published |
20080279304 | DATA TRANSMITTING DEVICE, DATA TRANSMITTING METHOD, DATA TRANSMITTING AND RECEIVING SYSTEM, DATA TRANSMITTING COMPUTER PROGRAM AND STROAGE MEDIUM THEREFOR, DATA RECEIVING DEVICE, DATA RECEIVING METHOD, AND DATA RECEIVING COMPUTER PROGRAM AND STORAGE MEDIUM THEREFOR - A plurality of connection frames are transmitted which differ from each other in at least either modulation scheme or transfer rate. Accordingly, a receiving-end device can properly receive a connection frame even in an environment where the connection frame is likely to be affected by noise. | 11-13-2008 |
20080279560 | Communication Device, Communication System, Communication Method, Communication Program, and Communication Circuit - A transmitter ( | 11-13-2008 |
20080279561 | TRANSMITTING SYSTEM AND TRANSMITTING DEVICE - Protocol conversion based on a communication protocol and data modulation based on a communication method are performed, in advance, on desired transmission data by a host device, which is an external device. Then, the converted data will be written to a memory in a transmitting device. According to a transmission command from an input section, a logical device reads out the converted data stored in the memory, and then outputs the read data from a transmitting section. | 11-13-2008 |
20080279562 | Transmitter, Receiver, Communication System, Communication Method, Communication Program - A communication system includes a transmitter and a receiver that establish mutual connections of a plurality of their communication layers for communication. The transmitter has a request generating part for generating a connection request including data and commands required to connect the plurality of adjacent communication layers, and a request transmitting part for transmitting the connection request to the receiver. The receiver has a request receiving part for receiving the connection request from the transmitter, and a connection establishing pant for extracting the data and commands from the connection request and establishing, based on the extracted data and commands, the connections of the communication layers. In this way, the time required for establishing the connections can be shortened. Thus, even if a data exchange is interrupted, a reconnection can be made in a short time to resume the data exchange. | 11-13-2008 |
20080291941 | Communication Device, Communication System, Communication Method, Communication Program, and Communication Circuit - In a client device ( | 11-27-2008 |
20090262661 | DATA TRANSMISSION DEVICE AND METHOD OF CONTROLLING SAME, DATA RECEIVING DEVICE AND METHOD OF CONTROLLING SAME, DATA TRANSFER SYSTEM, DATA TRANSMISSION DEVICE CONTROL PROGRAM, DATA RECEIVING DEVICE CONTROL PROGRAM, AND STORAGE MEDIUM CONTAINING THE PROGRAMS - A content transmission device ( | 10-22-2009 |
20120283242 | DI - SUBSTITUTED PYRIDINE DERIVATIVES AS ANTICANCERS - The present invention provides a novel compound having an excellent antitumor effect. The compound of the present invention is represented by the following general formula (1) wherein R | 11-08-2012 |
Patent application number | Description | Published |
20080311857 | Receiver, transmitter, communication system, method for controlling receiver, and communication method - A receiver establishes a communication between the receiver and a transmitter that transmits data by a directional wireless communication. While a connection request command which is information for requesting a connection is transmitted from the transmitter to the receiver at a predetermined period, a packet group corresponding to the connection request command is transmitted from the transmitter to the receiver. The receiver includes a receiver connection establishment control section which controls a communication device so that a connection between the transmitter and the receiver is established in accordance with the connection request command, in a case where the connection request information is received from the transmitter while the communication with the transmitter and the receiver is released. This allows the receiver to naturally reproduce streaming data with the use of a directional wireless communication. | 12-18-2008 |
20110285937 | BACKLIGHT UNIT AND LIQUID CRYSTAL DISPLAY DEVICE - A backlight unit comprising: a light guide plate for causing light to exit in a planar manner from an upper surface of the light guide plate, the light having entered the light guide plate from an LED; a substrate provided along an end surface of the light guide plate and having an LED mounted on a counter surface of the substrate, the counter surface facing the end surface of the light guide plate; a frame provided along the substrate and attached to the substrate on a rear surface of the substrate, the rear surface being opposite to the counter surface; and one or a plurality of insulating members arranged in such a manner that the one or the plurality of insulating members and the frame sandwich the substrate, the one or the plurality of insulating members each fixing a screw point of a screw inserted from the frame into a through-hole provided through the frame and the substrate. | 11-24-2011 |
20130160659 | NOODLE STRING TREATMENT APPARATUS AND TREATMENT METHOD - To provide a noodle string treatment apparatus and treatment method capable of manufacturing instant noodles that are short noodle strings. The noodle string treatment apparatus of the present invention has: a cutting device having a rotary blade and cutting a batch of noodle strings into a predetermined length; and a control device for controlling a blade edge peripheral speed of the rotary blade, wherein the control device changes the blade edge peripheral speed of the rotary blade during rotation thereof. | 06-27-2013 |
Patent application number | Description | Published |
20140298715 | GRAVITATIONAL SETTLING TANK AND ASH-FREE COAL PRODUCTION METHOD USING THE SAME - Provided is a gravitational settling tank capable of detecting a boundary surface of a solids-enriched fluid. A pressure vessel | 10-09-2014 |
20140305034 | ASH-FREE COAL PRODUCTION METHOD - Provided is an ash-free coal production method that can produce an ash-free coal efficiently with a higher solvent recovery rate. The ash-free coal production method includes an extraction step of mixing coal with a solvent to give a slurry and heating the slurry to extract a solvent-soluble coal component; a separation step of separating a solution containing the coal component from the slurry containing the extracted coal component; and an ash-free coal obtaining step of separating and recovering the solvent from the separated solution to give an ash-free coal. The ash-free coal obtaining step includes a pressure-reducing substep of reducing a pressure to a level lower than the solvent vapor pressure to evaporatively separate the solvent from the solution to thereby give a solid ash-free coal; and a heating substep of heating the solid ash-free coal to evaporatively separate a residual solvent from the ash-free coal. | 10-16-2014 |
20140311024 | ASH-FREE COAL PRODUCTION METHOD - Provided is a meted that controls and uniformizes fluidity of ash-free coal. The method includes the steps of obtaining an ash-free coal by removing a solvent from a solution containing a coal component dissolved therein (ash-free coal obtaining step (solvent recovering unit | 10-23-2014 |
20140325901 | ASH-FREE COAL PRODUCTION METHOD - Provided is an ash-free coal production method without the need to once re-liquefy and form an ash-free coal. The ash-free coal production method includes an extraction step of mixing coal with a solvent to prepare a slurry and heating the slurry to extract a solvent-soluble coal component; a separation step of separating a solution containing the solvent-soluble coal component from the slurry obtained from the extraction step; an ash-free coal obtaining step of evaporatively separating the solvent from the solution separated in the separation step to obtain an ash-free coal. The ash-free coal obtaining step in the production method is performed so that the solvent is evaporatively separated from the solution to give a liquid ash-free coal, and the liquid ash-free coal is brought into contact with a solidifier (e.g., water) to solidify into a predetermined shape. | 11-06-2014 |
20150013215 | SOLVENT SEPARATION METHOD - A method for separating solvent-containing water, which is generated in the process for producing an ashless coal, into a solvent and water readily without using any adsorbent or the like (a solvent separation method). The solvent separation method comprises: a solvent-containing water supply step of supplying the solvent-containing water into a pressure vessel for solvent separation purposes; and a temperature retention step of retaining the temperature of the solvent-containing water that has been supplied into the pressure vessel for solvent separation purposes at a predetermined temperature (e.g., 100 to 180 DEG C. inclusive). In the pressure vessel for solvent separation purposes, water in the liquid form moves downward and the solvent moves upward due to the difference between the density of water and the density of the solvent at the predetermined temperature. In this manner, the solvent-containing water can be separated into the solvent and water. | 01-15-2015 |