Patent application number | Description | Published |
20100036203 | ENDOSCOPE SYSTEM - It is possible to acquire a fluorescence distribution image for each fluorescent agent from a fluorescence image acquired in a mixed state, thus improving the diagnostic performance of cancer cells. There is provided an endoscope system ( | 02-11-2010 |
20100094136 | ENDOSCOPE SYSTEM - A fluorescence distribution image of each fluorescent agent can be acquired from a fluorescence image that has been captured in a mixed state so as to improve the diagnosability of cancer cells. An endoscope system comprises: a light source section for selectively irradiating two or more types of excitation lights having different spectral characteristics so as to excite two or more types of fluorescent agents having different optical characteristics; an imaging section provided on a part to be inserted into a body cavity, and having a light-receiving sensitivity in the wavelength bands of the two or more types of fluorescence radiated from the observation target by respective types of excitation lights; a storage section for storing relation information between the fluorescence intensity and the concentration of each of the fluorescent agents; a concentration information computing section for computing concentration information of each of the fluorescent agents on the basis of the fluorescence intensities of two or more images captured by the imaging section and the relation information stored in the storage section, and outputting the concentration information; and a mode switching section capable of switching between a first fluorescence observation mode in which at least one of the fluorescence intensity images acquired by the imaging section is presented, and a second fluorescence observation mode in which the concentration information of each of the fluorescent agents computed by the concentration information computing section is presented. | 04-15-2010 |
20100234739 | SPECTROSCOPIC OBSERVATION DEVICE, ENDOSCOPE SYSTEM, AND CAPSULE ENDOSCOPE SYSTEM - A spectroscopic observation device enables proper observation by respectively meeting the observation condition where easy-to-observe image with high S/N ratio is preferable and the observation condition where it is preferable to restrain interfusion of any other fluorescent components, even when fluorescence of the same wavelength is to be observed. The spectroscopic observation device comprises: an excitation light source ( | 09-16-2010 |
Patent application number | Description | Published |
20090028771 | METHOD FOR MANUFACTURING LITHIUM-IRON-PHOSPHORUS COMPOUND OXIDE CARBON COMPLEX AND METHOD FOR MANUFACTURING COPRECIPITATE CONTAINING LITHIUM, IRON, AND PHOSPHORUS - A method for manufacturing a lithium-iron-phosphorus compound oxide carbon complex includes the steps of adding a solution containing lithium ions (Solution B) to a solution containing phosphate ions (Solution C) while a solution containing divalent iron ions (Solution A) is added to Solution C so as to produce a coprecipitate containing lithium, iron, and phosphorus in a first step, mixing the coprecipitate and an electrically conductive carbon material so as to produce a raw material mixture for calcining in a second step, and calcining the raw material mixture for calcining in an inert gas atmosphere so as to produce the lithium-iron-phosphorus compound oxide carbon complex in a third step. | 01-29-2009 |
20090028772 | METHOD FOR MANUFACTURING LITHIUM-IRON-PHOSPHORUS COMPOUND OXIDE CARBON COMPLEX AND METHOD FOR MANUFACTURING COPRECIPITATE CONTAINING LITHIUM, IRON, AND PHOSPHORUS - A method for manufacturing a lithium-iron-phosphorus compound oxide carbon complex includes the steps of allowing a solution containing lithium ions, divalent iron ions, and phosphate ions (Solution A) to contact with a solution containing an alkali (Solution B) while pH is controlled at 5.5 to 9.5 so as to produce a coprecipitate containing lithium, iron, and phosphorus in a first step, mixing the coprecipitate and an electrically conductive carbon material so as to produce a raw material mixture for calcining in a second step, and calcining the raw material mixture for calcining in an inert gas atmosphere so as to produce the lithium-iron-phosphorus compound oxide carbon complex in a third step. | 01-29-2009 |
20090039307 | METHOD FOR MANUFACTURING LITHIUM-IRON-PHOSPHORUS COMPOUND OXIDE CARBON COMPLEX AND METHOD FOR MANUFACTURING COPRECIPITATE CONTAINING LITHIUM, IRON, AND PHOSPHORUS - A method for manufacturing a lithium-iron-phosphorus compound oxide carbon complex includes the steps of adding a solution containing lithium ions (Solution B) to a solution containing lithium ions and phosphate ions (Solution C) while a solution containing divalent iron ions (Solution A) is added to Solution C so as to produce a coprecipitate containing lithium, iron, and phosphorus in a first step, mixing the coprecipitate and an electrically conductive carbon material so as to produce a raw material mixture for calcining in a second step, and calcining the raw material mixture for calcining in an inert gas atmosphere so as to produce the lithium-iron-phosphorus compound oxide carbon complex in a third step. | 02-12-2009 |
20090194746 | COMPOSITE CARBONATE AND METHOD FOR PRODUCING THE SAME - The present invention provides a nickel atom-, manganese atom- and cobalt atom-containing composite carbonate that is high in specific surface area and large in tap density, and useful as a raw material for producing a lithium nickel manganese cobalt composite oxide to be used in a positive electrode active material for use in a lithium secondary battery, and provides a method for industrially advantageously producing the composite carbonate. The composite carbonate includes nickel atoms, manganese atoms and cobalt atoms, and has an average particle size of 5 μm or more and less than 20 μm, a BET specific surface area of 40 to 80 m | 08-06-2009 |
20090197173 | COMPOSITE CARBONATE AND METHOD FOR PRODUCING THE SAME - The present invention provides a nickel atom-, manganese atom- and cobalt atom-containing composite carbonate that is high in specific surface area and large in tap density, and useful as a raw material for producing a lithium nickel manganese cobalt composite oxide to be used in a positive electrode active material for use in a lithium secondary battery, and provides a method for industrially advantageously producing the composite carbonate. The composite carbonate includes nickel atoms, manganese atoms and cobalt atoms, and has an average particle size of 20 μm or more and 40 μm or less, a BET specific surface area of 50 to 130 m | 08-06-2009 |
20110114900 | COMPOSITE CARBONATE AND METHOD FOR PRODUCING THE SAME - The present invention provides a method for producing a nickel atom-, manganese atom- and cobalt atom-containing composite carbonate that is high in specific surface area and large in tap density, and useful as a raw material for producing a lithium nickel manganese cobalt composite oxide to be used in a positive electrode active material for use in a lithium secondary battery. The composite carbonate includes nickel atoms, manganese atoms and cobalt atoms, and has an average particle size of 5 μm or more and less than 20 μm, a BET specific surface area of 40 to 80 m | 05-19-2011 |
Patent application number | Description | Published |
20110096584 | SEMICONDUCTOR DEVICE HAVING OPEN BIT LINE ARCHITECTURE - When an I/O number is 8 bit, a semiconductor device includes a first memory mat that is selected when X | 04-28-2011 |
20110103123 | SEMICONDUCTOR DEVICE - Disclosed is a semiconductor device including: a first switch controlling connection between a first data line pair a second data line pair; a first amplifier connected to the first data line pair; a second switch controlling the connection between the second data line pair and a third data line pair; a second amplifier amplifying data on the second data line pair and delivering the amplified data to the third data line pair; a third amplifier connected to the third data line pair; and a switch control circuit controlling the second switch. Based upon a first control signal that controls precharging and equalization of the first data line pair, the switch control circuit renders the second switch conductive when precharging and equalization of the first data line pair is not carried out, and renders the second switch non-conductive when precharging and equalization of the first data line pair is carried out. | 05-05-2011 |
20110107005 | SEMICONDUCTOR DEVICE - A renewal of an internal address generated by an internal address generator that is used for a refresh operation of information in a memory unit including a plurality of memory cells is preformed during a refresh operation before an activated word line connected to the memory cell corresponding to the internal address is inactivated in the refresh operation. | 05-05-2011 |
20130163361 | SEMICONDUCTOR MEMORY DEVICE - A semiconductor device comprises a first pair of signal lines and a first control circuit. The first control circuit precharges each of the first pair of signal lines to a first voltage in response to a precharge signal, and changes the voltage level of each of the first pair of signal lines to a second voltage different from the first voltage when a deep power down signal is input. | 06-27-2013 |