Patent application number | Description | Published |
20080197791 | Control device for vehicular drive system - A control device for a vehicular drive system controls an engine rotation speed (N | 08-21-2008 |
20100022346 | CONTROL DEVICE FOR VEHICULAR DRIVE SYSTEM - A control device for a vehicular drive system having (i) an engine, (ii) an electrically controlled differential portion operative to control an operating state of an electric motor connected to a rotary element of a differential mechanism for power-transmissive state for thereby controlling a differential state between a rotation speed of an input shaft connected to the engine, and a rotation speed of an output shaft, and (iii) a shifting portion forming a part of a power-transmitting mechanism between the electrically controlled differential portion and drive wheels, the control device including high-speed rotation preventing means for preventing high-speed rotations of each rotary elements of both the differential mechanism and the shifting portion, when a drop occurs or drop occurrence is predicted, in a supplied hydraulic pressure applied to a hydraulically operated frictional engaging device of the shifting portion, to a level less than a given value, wherein the high-speed rotation preventing means reduces torque or rotation speed of an input shaft of the shifting portion by controlling the engine or the electric motor. | 01-28-2010 |
20100069196 | Control apparatus for vehicular drive system - A control apparatus for a vehicular drive system, including an engine speed limiting device configured to limit operating speed of engine to an upper limit determined according to speed ratio of automatic transmission portion, so as to prevent a rise of operating speed of first electric motor into excessive rise range, so that the excessive rise of the first electric motor speed due to a shifting action of the automatic transmission portion is prevented to improve the durability of the first electric motor. For example, the speed of the engine is limited to the upper limit when the automatic transmission portion is shifted to a failure gear position established as a result of a failure of the automatic transmission portion to perform a shifting action following a shifting boundary line map, so that the vehicle can be driven upon the failure of the automatic transmission portion, while preventing an excessive rise of the first electric motor speed. | 03-18-2010 |
20110093173 | VEHICLE GEAR SHIFT CONTROL DEVICE AND GEAR SHIFT CONTROL METHOD - In a gear shift control device for a vehicle that shifts a transmission having a plurality of gears based on a shift line set in a shift map, an upshift line for shifting to the highest gear, and a downshift line that is located in a high vehicle speed region on the side of a higher vehicle speed than the upshift line are set in the shift map. The downshift line is used when shifting from the highest gear to a prescribed gear that has a larger gear ratio than the highest gear. | 04-21-2011 |
20110160947 | CONTROL DEVICE OF A HYBRID VEHICLE - A control device of a hybrid vehicle includes: a map defined by an accelerator opening degree and a vehicle speed and in which an infinite variable speed mode and a fixed speed change mode are set; and a control means which switches the speed change mode in accordance with the movement of the vehicle operation point on the map. The fixed speed change mode area includes: a first fixed speed change mode area in which the reaction torque becomes equal to or smaller than the maximum rating torque of the motor generator, and a second fixed speed change mode area in which the reaction torque becomes larger than the maximum rating torque. The control means differentiates the speed change mode switching method in accordance with which one of the first and the second fixed speed change mode areas the vehicle operation point locates in or moves to. | 06-30-2011 |
20120077639 | CONTROL DEVICE FOR VEHICULAR DRIVE SYSTEM - A control device for a vehicular drive system is disclosed as including reverse drive for suppression means operative to preclude output member, such as an output shaft and drive wheels, of an automatic transmission portion from inputting a reverse drive force to a differential portion. This prevents a power transmitting member from rotating in a direction opposite to a rotational direction of the same with a running position being set. This suppresses a first electric-motor rotation speed, determined with an engine rotation speed and a power transmitting member rotation speed based on the relationship on mutually relative rotation speeds in the differential portion, from increasing to a high level. This results in improved durability of a first electric-motor. | 03-29-2012 |
Patent application number | Description | Published |
20100245427 | IMAGE FORMING DEVICE AND IMAGE FORMING METHOD - An image forming device is provided. The image forming device includes: a liquid drop jetting head having liquid chambers including jetting ports that jet liquid drops onto a recording medium, and a flow path that supplies or recovers liquid to or from the respective liquid chambers; and a control component controlling the liquid drop jetting head so that, among a plurality of and at least some of the jetting ports at a same flow path, jetting ports that jet liquid drops so that there becomes a suppressed recording rate that is suppressed as compared with a predetermined standard recording rate in accordance with image information expressing an image to be formed on the recording medium, and jetting ports that jet liquid drops so that there becomes a promoted recording rate that is promoted as compared with the standard recording rate, are neighboring. | 09-30-2010 |
20110242159 | IMAGE FORMING DEVICE - An image forming device has: a droplet ejecting head that ejects droplets with respect to a recording medium and can form dots of plural diameters; and a control unit that, on the basis of image data expressing a tone value of each pixel in an image to be formed on the recording medium, controls sizes of droplets ejected from the droplet ejecting head such that, in a case in which the tone value is within a predetermined tone range, first dots, whose diameter is greater than a predetermined diameter, are formed at a recording rate that satisfies a predetermined formula, and second dots, whose diameter is less than or equal to the predetermined diameter, are formed between the first dots at a recording rate corresponding to the tone value. | 10-06-2011 |
20140184696 | METHOD FOR ADJUSTING HEAD MODULE, METHOD FOR MANUFACTURING INKJET HEAD,AND INKJET HEAD - A method for adjusting a head module of an inkjet head in which a plurality of head modules having nozzles capable of ejecting droplets are connected and linked together is disclosed. The inkjet head has an overlapping region in which an arrangement sequence of the head modules corresponding to the ejected droplets is alternate between adjacent head modules. The method includes the steps of: obtaining, among intervals between the droplet ejected by one of the head modules and the droplet ejected by another one of the head modules in the overlapping region, a largest interval between the droplets in a direction of alignment of the head modules based upon movement of the droplets caused by a landing interference; and adjusting the adjacent head modules in a direction to decrease the largest interval between the droplets. | 07-03-2014 |
20150290930 | IMAGE PROCESSING DEVICE, METHOD, AND PROGRAM, AS WELL AS INKJET RECORDING DEVICE - The image processing device divides image data into regions corresponding to a first pixel row, a second pixel row, a third pixel row, and a fourth pixel row, and generate output data, in which a generation rate of an ink droplet with a relatively large size, a generation rate of an ink droplet with a relatively small size, and the amount of ink discharged per unit area vary depending on a gradation value of the image data, for each of the divided regions. At the time of the generation of the output data, different output data items are generated for a third nozzle corresponding to the third pixel row when the first gradation value indicates a relatively high gradation and when the first gradation value indicates a relatively low gradation. | 10-15-2015 |
Patent application number | Description | Published |
20100106631 | BATTERY CHARGER - The present invention provides a battery charger capable of charging a plurality of secondary batteries which are used in different types of apparatuses, such as an electric vehicle and a mobile power supply unit, in a simultaneous or concurrent manner without largely occupying an installation space on the ground. A DC power supply section 22 includes a plurality of DC stabilized power supply circuits each operable to supply an output according to required electric power, therefrom in an independent manner. Specifically, based on information from each of a plurality of secondary batteries, and information set up/input through a setup/input section, one of or a combination of two or more of the DC stabilized power supply circuits is selected for each of the secondary batteries. Then, an electric power supply line between the selected one of or the selected combination of two or more of the DC stabilized power supply circuits and each of the secondary batteries to be charged is configured, and an output of the selected one of or the selected combination of two or more of the DC stabilized power supply circuits is adjusted. This makes it possible to configure respective electric power supply lines for the secondary batteries to allow the secondary batteries to be concurrently charged, and adjust respective electric power amounts to be supplied to the secondary batteries, individually. | 04-29-2010 |
20110221394 | SECONDARY CELL CONTROL SYSTEM - A secondary cell control system includes a plurality of cells; a charging circuit section and a discharging circuit section. The charging circuit section charges cells selected from among said plurality of cells, and the discharging circuit section discharges cells selected from among said plurality of cells. | 09-15-2011 |
Patent application number | Description | Published |
20120229549 | IMAGE PROCESSING APPARATUS, IMAGE PROCESSING METHOD, AND IMAGE FORMING APPARATUS - An image processing apparatus includes a multiple value conversion device which carries out quantization processing of original image data having multiple tones (M values) to convert the original image data to image data of N values having fewer tones than the original image data (where M and N are integers satisfying M>N≧2), wherein: the recording head has a two-dimensional nozzle arrangement where the nozzle rows are arranged in a first direction which is a direction of the relative movement between the recording head and the recording medium, and the multiple value conversion device generates the image data of N values representing a dot pattern having blue noise characteristics in the first direction and green noise characteristics in a second direction which is a direction perpendicular to the first direction on the recording medium to achieve tonal representation based on the dot pattern having these frequency characteristics. | 09-13-2012 |
20150042717 | IMAGE PROCESSING METHOD, IMAGE PROCESSING DEVICE, IMAGE FORMING DEVICE AND INKJET RECORDING DEVICE - An image processing method includes: applying mask processing to an abnormal recording element based on abnormal recording element information; converting input image data such that a pixel to be formed by the abnormal recording element is excluded; applying quantization processing that converts the converted input image data to image data having a gradation number less than a gradation number of the converted input image data; and assigning each pixel forming image data after quantization processing to a normal recording element. | 02-12-2015 |
20150043836 | IMAGE PROCESSING METHOD, IMAGE PROCESSING DEVICE, IMAGE FORMING DEVICE AND INKJET RECORDING DEVICE - An image processing method includes: storing a threshold matrix for quantization processing of input image data, applying mask processing to an abnormal recording element based on abnormal recording element information, correcting a correspondence relationship between a recording element and a threshold such that processing of a pixel to be formed by the abnormal recording element subjected to mask processing is excluded and the continuity of a pattern of the threshold matrix is maintained, and performing quantization processing using a corrected threshold matrix. | 02-12-2015 |
20150049366 | QUANTIZATION METHOD, IMAGE PROCESSING APPARATUS, AND RECORDING MEDIUM - A quantization method according to an aspect of the present invention includes the steps of quantizing a first image data by the use of a basic pattern and converting the first image data into a second image data that represents a binary or multi-level quantized pattern having a gray level smaller than that of the first image data. The basic pattern according to this aspect of the present invention presents high frequent occurrence of the basic tone patterns and a mostly uniform-distributed pattern of the clusters of different kinds of the basic tone patterns in the image with the long-distance autocorrelation (periodicity) of the basic tone patterns suppressed. Quantization by the use of this basic pattern provides a quantized pattern that reflects pattern characteristics of the basic pattern. | 02-19-2015 |
20150286908 | IMAGE PROCESSING DEVICE AND METHOD, PROGRAM, AND IMAGE FORMING DEVICE - An image processing method corrects the image concentration of pixel rows adjacent to a pixel row corresponding to a masked defective recording element. Different quantization methods are performed for a first image region including the pixel row corresponding to the masked defective recording element and the pixel rows adjacent to the pixel row and a second image region other than the first image region. For at least some gradations, a first quantization pattern which is obtained by the first quantization method applied to the first image region has a pattern characteristic in which a spatial frequency component in a first direction parallel to the moving direction of a recording medium relative to the recording head is suppressed with respect to all spatial frequency components in a second direction perpendicular to the first direction, as compared to a second quantization pattern applied to the second image region. | 10-08-2015 |
Patent application number | Description | Published |
20130109523 | HYBRID VEHICLE DRIVE DEVICE | 05-02-2013 |
20140284169 | PARKING DEVICE - A parking device includes a drive cam disposed around an MG shaft that transmits a drive force of a second motor generator by being coupled with a parking gear, a driven cam disposed around an MG shaft so as to be able to rotate integrally with the MG shaft and capable of moving in the axial direction of the MG shaft by a relative rotation generated between the driven cam and the drive cam when the parking gear is locked by a pilot clutch, and a dog type brake that engages the parking gear with the MG shaft and a transaxle case accommodating the parking device by the movement of the driven cam. With the configuration, a shock load at the time of operation can be suppressed and the parking device can be reduced in size. | 09-25-2014 |
20140342871 | CONTROLLER OF HYBRID SYSTEM - In a controller of a hybrid system including an engine, a motor/generator, an automatic clutch to which engine torque is input, a gear group configured to transmit input torque to a driving wheel side, and a differential device provided with plural rotary elements to which a torque input side of the gear group, a rotating shaft of the motor/generator, and an output side of the automatic clutch are individually connected respectively, wherein at the time a vehicle is started by causing the motor/generator be in charge of a reaction force of the engine torque and transmitting the engine torque to the driving wheels via the differential device and the gear group, the automatic clutch is slip controlled in a semi-engaged state. | 11-20-2014 |
20150031503 | HYBRID SYSTEM CONTROL DEVICE - A control device of a hybrid system includes an engine; a motor/generator; an automatic clutch to a first engaging unit side of which an engine rotary shaft is connected; a differential device provided with a plurality of rotational elements to each of which an MG rotary shaft and a second engaging unit side of the automatic clutch are separately connected; a first transmission a rotary shaft of which is connected to the rotational element to which the second engaging unit is connected; a second transmission a rotary shaft of which is connected to another rotational element; and an output shaft connected to a driving wheel side, wherein at the time of EV driving, transmission control is performed and the automatic clutch is disengaged such that the first transmission and the second transmission can perform torque transmission between the input shaft and the output shaft. | 01-29-2015 |
20150039170 | VEHICLE DRIVING DEVICE - A vehicle driving device includes: a rotating electrical machine; a first shaft and a second shaft respectively connected to a drive shaft; and a differential mechanism including a rotation component connected to the rotating electrical machine, a rotation component connected to the first shaft, and a rotation component connected to the second shaft. The vehicle driving device includes a predetermined mode in which a transmission of a power through the second shaft is disconnected, a differential operation of the differential mechanism is regulated, and the rotating electrical machine and the drive shaft are connected to each other through the first shaft. Each of the first shaft and the second shaft may include a transmission mechanism. | 02-05-2015 |
20150105205 | DRIVE UNIT FOR VEHICLES - A downsized drive unit for vehicles having an SOWC is provided. A motor | 04-16-2015 |
20150119190 | DRIVING DEVICE FOR VEHICLE - A first shaft and a second shaft configured to connect the engine to the driving shaft and connectable/disconnectable to/from the engine, and a differential mechanism configured to connect the first shaft, the second shaft, and a rotating electrical machine to one another are provided, wherein, at the time of upshift to a gear shift stage of the second shaft from a state in which the engine is connected to the driving shaft through a gear shift stage of the first shaft, power transmission to the driving shaft through the second shaft is blocked, the second shaft is connected to the engine, power of the engine is transmitted to the second shaft by output control of the rotating electrical machine, the first shaft is disconnected from the engine, and the engine is connected to the driving shaft through the gear shift stage of the second shaft. | 04-30-2015 |
20150151627 | POWER TRANSMISSION DEVICE FOR A HYBRID VEHICLE AND HYBRID SYSTEM - A power transmission device for a hybrid vehicle includes: a transmission device that includes a carrier to which an engine rotation shaft is connected; a differential device that includes a plurality of rotation components individually connected to a drive wheel, an MG | 06-04-2015 |
20150197244 | POWER TRANSMISSION DEVICE FOR A HYBRID VEHICLE AND HYBRID SYSTEM - A power transmission device for a hybrid vehicle includes a transmission device that includes a carrier to which an engine rotation shaft is connected; a differential device that includes a plurality of rotation components individually connected to a ring gear of the transmission device, an MG | 07-16-2015 |
20160059849 | ENGAGEMENT DEVICE AND POWER TRANSMISSION DEVICE - An engagement device includes: an engaged portion disposed rotatably about a rotating shaft and configured to rotate in conjunction with the rotating shaft; an engaging portion disposed coaxially with the engaged portion and configured to perform engagement with the engaged portion and release from the engagement with the engaged portion by shifting in an axial direction; a control unit configured to control rotation of the engaged portion and shifting of the engaging portion in the axial direction; and a one-way clutch disposed on a power transmission path from the rotating shaft to a coupling member coupled to the engaging portion. The control unit is configured to rotate the engaged portion in an idling direction of the one-way clutch, at a time of performing engagement or release of the engaging portion with or from the engaged portion. | 03-03-2016 |