Patent application number | Description | Published |
20100203389 | POSITIVE ELECTRODE ACTIVE MATERIAL, LITHIUM SECONDARY BATTERY, AND MANUFACTURE METHODS THEREFORE - The positive electrode active material of the invention has an olivine structure, and is represented by Li | 08-12-2010 |
20100310939 | NEGATIVE ELECTRODE ACTIVE MATERIAL, LITHIUM SECONDARY BATTERY USING THE SAME, AND METHOD OF MANUFACTURING NEGATIVE ELECTRODE ACTIVE MATERIAL - A negative electrode active material characterized in that carbonaceous matter essentially consisting of carbon adheres to the surface of a tin particle essentially consisting of tin, with a mixture phase, in which tin and carbon are mixed, interposed between the carbonaceous matter and the tin particle. | 12-09-2010 |
20120280173 | PRODUCTION METHOD OF POSITIVE ELECTRODE ACTIVE MATERIAL FOR LITHIUM SECONDARY BATTERY - The production method for a positive electrode active material according to the present invention is a method of producing a positive electrode active material for a lithium secondary battery mainly composed of an olivine-type lithium manganese phosphate compound, wherein the olivine-type lithium manganese phosphate compound is a compound represented by the general formula Li(Mn | 11-08-2012 |
20140065484 | LITHIUM SECONDARY BATTERY - An object of the present invention is to provide a lithium secondary battery that has a lithium nickel phosphate compound in the positive electrode, is free of collapse of the crystal structure even at high potentials and is resistant to cycle deterioration. The lithium secondary battery according to the present invention has a positive electrode active material. This positive electrode active material contains a lithium nickel phosphate compound that is represented by the general formula LiNi | 03-06-2014 |
Patent application number | Description | Published |
20120113257 | IMAGE CAPTURING APPARATUS, IMAGE CAPTURING METHOD, IMAGE CAPTURING CIRCUIT, AND PROGRAM - Provided is an image capturing apparatus for capturing an image of a target object by optically scanning the target object by moving in a predetermined scanning direction. The apparatus includes light-receiving devices that are arranged on a light-receiving surface of the image capturing apparatus in a direction perpendicular to the scanning direction, where each light-receiving device accumulates an electric charge according to an amount of light received from the target object; and an output device that outputs the electric charge accumulated by each light-receiving device regularly at a predetermined output period which is determined in a manner such that the larger the length in the scanning direction of a light-receiving range for the target object by the light-receiving device, the longer the output period. | 05-10-2012 |
20140085652 | PRINTING CONTROL SYSTEM, PRINTING CONTROL METHOD, AND CONTROL DEVICE OF MULTIFUNCTIONAL PORTABLE TERMINAL - To provide a printing control system capable of efficiently utilizing a printer installed in an event hall or the like. A printing control system | 03-27-2014 |
20140103853 | MOTOR CONTROL DEVICE - Motor drive information is sampled at a regular interval and stored in a storage unit, during a period when a normal operation is performed in accordance with a first command signal received from a controller. When an abnormality occurs, a second command signal with which a motor can be driven is internally generated from the motor drive information stored in the storage unit. When the abnormality occurs, the internally-generated second command signal is input as a command signal to a motor drive unit, and thereby it is possible to achieve a necessary retracting operation without any problem even if the first command signal cannot be obtained from the controller. | 04-17-2014 |
20140171303 | OXIDE CATALYST - An oxide catalyst for use in an oxidation reaction of an olefin and/or an alcohol, the oxide catalyst comprising: the oxide catalyst contains molybdenum, bismuth, iron, cobalt, and cerium; an atomic ratio a of bismuth to 12 atoms of molybdenum is 2≦a≦6, an atomic ratio b of iron to 12 atoms of molybdenum is 2.5 | 06-19-2014 |
20150103025 | INFORMATION PROCESSING DEVICE, METHOD AND PROGRAM - An extended display utilization environment is provided that permits comfortable operation. An information processing device includes: a touch panel | 04-16-2015 |
20150123508 | ROTATING MACHINERY - Rotating machinery of the invention includes a 2n-pole rotor, 72n slots, and three-phase armature windings (n≧1). Each of the slots houses a top coil on an inner radius side of the slots and a bottom coil on an outer radius side thereof. Each of the armature windings is formed by connecting the top and bottom coils and has 2n phase belts per phase. Each of the phase belts includes a first parallel winding and a second parallel winding. The top and bottom coils are formed by arranging the first and second parallel windings in a predefined order when a circumferential mean position of all top coils and bottom coils in each of the phase belts is defined as a phase belt center and an arrangement of the first and second parallel windings in at least one phase belt is viewed in an order of proximity to the phase belt center. | 05-07-2015 |
20150238939 | OXIDE CATALYST AND METHOD FOR PRODUCING THE SAME, AND METHODS FOR PRODUCING UNSATURATED ALDEHYDE, DIOLEFIN, AND UNSATURATED NITRILE - An object of the present invention is to provide an oxide catalyst that prevents the reduction degradation of the catalyst even during industrial operation for a long time and less reduces unsaturated aldehyde yields, diolefin yields, or unsaturated nitrile yields, and a method for producing the same, and methods for producing unsaturated aldehyde, diolefin, and unsaturated nitrile using the oxide catalyst. The present invention provides an oxide catalyst for use in the production of unsaturated aldehyde, diolefin, or unsaturated nitrile from olefin and/or alcohol, the oxide catalyst satisfying the following (1) to (3): (1) the oxide catalyst comprises molybdenum, bismuth, iron, cobalt, and an element A having an ion radius larger than 0.96 Å (except for potassium, cesium, and rubidium); (2) an atomic ratio a of the bismuth to 12 atoms of the molybdenum is 1≦a≦5, an atomic ratio b of the iron to 12 atoms of the molybdenum is 1.5≦b≦6, an atomic ratio c of the element A to 12 atoms of the molybdenum is 1≦c≦5, and an atomic ratio d of the cobalt to 12 atoms of the molybdenum is 1≦d≦8; and (3) the oxide catalyst comprises a disordered phase consisting of a crystal system comprising the molybdenum, the bismuth, the iron, and the element A. | 08-27-2015 |
Patent application number | Description | Published |
20130103835 | RESOURCE MANAGEMENT METHOD, RESOURCE MANAGEMENT DEVICE, AND PROGRAM PRODUCT - Requested processing time of each batch job is complied with. A resource-correction control server calculating an amount of a resource required for setup of a batch application includes an intermediate-process-unit-data acquiring unit that compiles data of completed batch processes as a single data set at a predetermined time point, a resource-correction determining unit that, using the intermediate process unit, determines a process progress rate that is a progress rate of a process at the current time point and whether the process progress rate has reached a required progress rate that is a progress rate required to terminate the batch process within the requested processing time, and an allocation-resource calculating unit that, as a result of the determination, if the required progress rate has not been reached, calculates the amount of the resource required for recovery of the delay based on a delay-recovery-object progress rate and resource information. | 04-25-2013 |
20130290979 | DATA TRANSFER CONTROL METHOD OF PARALLEL DISTRIBUTED PROCESSING SYSTEM, PARALLEL DISTRIBUTED PROCESSING SYSTEM, AND RECORDING MEDIUM - A parallel distributed processing system includes multiple parallel distributed processing execution servers which stores data blocks pre-divided in a storage device and executes tasks processing the data blocks in parallel, and a management computer controlling the multiple parallel distributed processing execution servers. The management computer collects resource use amounts of the multiple parallel distributed processing execution servers, acquires states of data blocks and tasks held by the multiple parallel distributed processing execution servers, selects a second parallel distributed processing execution server transferring a data block to the first parallel distributed processing execution server, based on processing progress situations of the data blocks held by the multiple parallel distributed processing execution servers and the resource use amounts of the multiple parallel distributed processing execution servers, and transmits a command to transfer the data block to the first parallel distributed processing execution server, to the selected second parallel distributed processing execution server. | 10-31-2013 |