Patent application number | Description | Published |
20100286989 | RECORDING/REPRODUCTION DEVICE - An audio data processor ( | 11-11-2010 |
20100296676 | SOUND REPRODUCING DEVICE - A sound reproducing device includes a decoder section ( | 11-25-2010 |
20110316996 | CAMERA-EQUIPPED LOUDSPEAKER, SIGNAL PROCESSOR, AND AV SYSTEM - An AV system includes a camera-equipped loudspeaker provided with a camera. The camera is united with a loudspeaker body, and captures an image in a direction in which the loudspeaker body outputs a sound. The recognition unit recognizes a location of a listener from an image of the camera, and detects an orientation of the loudspeaker body relative to the listener. The sound control unit performs signal processing on a given sound signal for generating an output signal, and outputs the output signal as an acoustic signal to the loudspeaker body. | 12-29-2011 |
20130144631 | AUDIO SIGNAL PROCESSING APPARATUS AND AUDIO SIGNAL PROCESSING METHOD - An audio signal processing apparatus that processes a bit stream generated by coding an audio signal on a frame-by-frame basis, the bit stream including, for each frame, coded data representing the audio signal, additional data and attribute information, the audio signal processing apparatus including a decoding unit configured to decode the coded data to generate a decoded signal, a processing unit configured to process the decoded signal, a detection unit configured to detect whether or not there has been a change in the attribute information, and a storage unit, wherein the processing unit is configured to, when the change is not detected, process the decoded signal by using at least two pieces of additional data stored, and when the change is detected, process the decoded signal by using only either additional data before detection of the change or additional data after detection of the change. | 06-06-2013 |
Patent application number | Description | Published |
20100152600 | NON-CONTACT PHYSIOLOGIC MOTION SENSORS AND METHODS FOR USE - A radar-based physiological motion sensor is disclosed. Doppler-shifted signals can be extracted from the signals received by the sensor. The Doppler-shifted signals can be digitized and processed subsequently to extract information related to the cardiopulmonary motion in one or more subjects. The information can include respiratory rates, heart rates, waveforms due to respiratory and cardiac activity, direction of arrival, abnormal or paradoxical breathing, etc. In various embodiments, the extracted information can be displayed on a display. | 06-17-2010 |
20100249630 | SYSTEMS AND METHODS FOR RESPIRATORY RATE MEASUREMENT - A radar-based physiological motion sensor is disclosed. Doppler-shifted signals can be extracted from the signals received by the sensor. The Doppler-shifted signals can be digitized and processed subsequently to extract information related to the cardiopulmonary motion in one or more subjects. The information can include respiratory rates, heart rates, waveforms due to respiratory and cardiac activity, direction of arrival, abnormal or paradoxical breathing, etc. In various embodiments, the extracted information can be displayed on a display. | 09-30-2010 |
20100292568 | SYSTEMS AND METHODS FOR MEASUREMENT OF DEPTH OF BREATH AND PARADOXICAL BREATHING - A radar-based physiological motion sensor is disclosed. Doppler-shifted signals can be extracted from the signals received by the sensor. The Doppler-shifted signals can be digitized and processed subsequently to extract information related to the cardiopulmonary motion in one or more subjects. The information can include respiratory rates, heart rates, waveforms due to respiratory and cardiac activity, direction of arrival, abnormal or paradoxical breathing, etc. In various embodiments, the extracted information can be displayed on a display. | 11-18-2010 |
Patent application number | Description | Published |
20090040190 | INFORMATION EQUIPMENT - In an information equipment including: a display device having display memory properties, which displays information by a passive drive or an active drive, in which scan electrodes are sequentially addressed; and a position detector for detecting a position of an input means; wherein a display information is updated in accordance with an input of the position detector, a plurality of scan electrodes are selected simultaneously, when the display information is to be changed. Hereby, even in the case of using a display device, which displays information by a passive drive or an active drive, in which scan electrodes are sequentially addressed, the information equipment, in which display speed is not slow, can be provided. | 02-12-2009 |
20100277456 | INFORMATION DISPLAY PANEL DRIVING METHOD AND INFORMATION DISPLAY PANEL - A method of driving an information display panel: in which display media constituted by particles including charged particles are sealed between two substrates, at least one substrate being transparent; in which the display media, to which an electrostatic field is applied, are made to move so as to display an information image; and in which, after an erasing wherein a color is displayed on a whole screen is performed, a rewriting of an information display is performed in such a manner that a color at the erasing is changed by applying a voltage forming electrostatic field in a reverse direction as that at the erasing, is characterized in that, after the rewriting of the information display is finished, a voltage forming electrostatic field in the same direction as that at erasing is applied. Thereby, providing a method of driving an information display panel, in which the particles constituting the display media are not stuck and disable to the substrate if information such as an image is left for a long time as it is, and a previous display image does not remain when a new display image is to be displayed after a long time left, and to provide an information display panel. | 11-04-2010 |
20110242081 | METHOD OF DRIVING INFORMATION DISPLAY PANEL - Provided is a method of driving an information display panel in which: at least two types of display media comprised of particle groups containing chargeable particles are sealed between opposed two substrates, at least one substrate being transparent; a voltage is applied across a pair of opposed pixel electrodes formed such that conductive films provided to the respective substrates face each other to move the display media, thereby displaying an information image, wherein, at the time of deleting the information image displayed on the information display panel, application of an alternating voltage and application of positive or negative voltage two or more cycles in a row are combined to delete the information image. With this method of driving an information display panel, it is possible to sufficiently delete a history of a previously displayed information image without causing the decrease in lifetime of display-rewriting and increase in power consumption. | 10-06-2011 |
20110316842 | METHOD OF DRIVING INFORMATION DISPLAY PANEL - Provided is a method of driving an information display panel in which at least two types of display media comprised of particle groups containing chargeable particles are sealed between two opposed substrates, at least one substrate being transparent, and a voltage is applied across a pair of opposed pixel electrodes formed by providing conductive films to the respective substrates to move the display media, thereby displaying an information image, wherein, in a series of alternating voltage pulses applied at the time of deleting the information image displayed on the information display panel, there is provided an OFF time, which is a period during which application voltage of 0 volt is maintained during change of polarity of each pulse voltage. With this configuration, it is possible to provide a method of driving an information display panel capable of achieving the longer lifetime of a battery at the time when the panel is driven by the battery and of preventing drop of the voltage from a power supply, by reducing a peak value of the electric current occurring at the time of deleting with the alternating voltage. | 12-29-2011 |
Patent application number | Description | Published |
20100196251 | Method for Production of Iodine Heptafluoride - [Task] To provide, in an industrial scale production of iodine heptafluoride, a method for producing it easily and continuously, with a single reactor, efficiently and stably by putting iodine and fluorine directly into the reactor. | 08-05-2010 |
20110230671 | Hafnium Amide Complex Manufacturing Method and Hafnium-Containing Oxide Film - Disclosed is a method of producing a hafnium amide complex represented by general formula: Hf(NR | 09-22-2011 |
20140339321 | PRESSURE FEED CONTAINER, STORAGE METHOD USING THE PRESSURE FEED CONTAINER, AND METHOD FOR TRANSFERRING LIQUID USING THE PRESSURE FEED CONTAINER - The present invention provides a pressure feed container capable of ensuring the cleanliness of a liquid such as a protective film-forming liquid chemical or a protective film-forming liquid chemical kit for preparing the liquid chemical even after long-term storage, and also capable of suppressing electrostatic charge in the liquid. The present invention provides a pressure feed container configured to store a protective film-forming liquid chemical or a protective film-forming liquid chemical kit that is mixed into the protective film-forming liquid chemical, and to transfer a liquid upon application of pressure to the inside of the container, the protective film-forming liquid chemical being for forming a water-repellent protective film on at least surfaces of recessed portions of an uneven pattern formed on a surface of a wafer containing a silicon element at least at a part of the uneven pattern. The protective film-forming liquid chemical contains a nonaqueous organic solvent, a silylation agent, and an acid or a base; the protective film-forming liquid chemical kit includes a treatment liquid A containing a nonaqueous organic solvent and a silylation agent, and a treatment liquid B containing a nonaqueous organic solvent and an acid or a base; the pressure feed container includes a container body configured to contain a liquid selected from the protective film-forming liquid chemical, the treatment liquid A, and the treatment liquid B, and a liquid flowing nozzle configured such that the liquid flows therethrough to be introduced into the container body and/or to be extracted from the container body; the container body includes a metal can body in which a portion configured to contact the liquid is formed from a resin material; the liquid flowing nozzle is provided with a neutralization mechanism configured to reduce electrostatic potential in the liquid; and a liquid contact portion of the liquid flowing nozzle excluding the neutralization mechanism is formed from a resin material. | 11-20-2014 |
Patent application number | Description | Published |
20090005584 | Processes for Producing Hafnium Complexes - Disclosed are first to sixth processes for respectively producing hafnium tetra-tertiary-butoxide, tetrakis(acetylacetonato)hafnium, tetrakis(1-methoxy-2-methyl-2-propanolato)hafnium, hafnium tetra-tertiary-amyloxide, tetrakis(3-methyl-3-pentoxy)hafnium, and tetrakis(hexafluoroacetylacetonato)hafnium. The first process includes the steps of (a) adding a compound A(O | 01-01-2009 |
20120017934 | Liquid Chemical for Forming Protecting Film - Disclosed is a liquid chemical for forming a water-repellent protecting film at least on a surface of a recessed portion of an uneven pattern at the time of cleaning a wafer having a finely uneven pattern at its surface and containing silicon at least a part of the uneven pattern. This liquid chemical contains a silicon compound A represented by the general formula: R | 01-26-2012 |
20130056023 | Chemical for Forming Protective Film - Disclosed is a liquid chemical for forming a water repellent protective film on a wafer that has at its surface a finely uneven pattern and contains silicon element at least at a part of the uneven pattern, the water repellent protective film being formed at least on surfaces of recessed portions of the uneven pattern at the time of cleaning the wafer. The liquid chemical contains: a silicon compound (A) represented by the general formula R | 03-07-2013 |
20130255534 | Method of Preparing Liquid Chemical for Forming Protective Film - Disclosed herein is a method for preparing a liquid chemical for forming a water-repellent protective film, the liquid chemical being for forming the water-repellent protective film at the time of cleaning a wafer having at its surface an uneven pattern and containing silicon element at least at a part of the uneven pattern at least on surfaces of recessed portions of the uneven pattern, the liquid chemical containing a nonaqueous organic solvent, a silylation agent, and an acid or a base. The method includes (i) adjusting a water content of the nonaqueous organic solvent to 200 mass ppm or less by dehydration; and (ii) mixing the nonaqueous organic solvent, the silylation agent, and the acid or the base after the adjusting step. | 10-03-2013 |
20140311379 | Method for Preparing Liquid Chemical for Forming Water Repellent Protective Film - A method for preparing a liquid chemical for forming a water-repellant protective film, the liquid chemical having a solvent and an agent for forming a water-repellant protective film, the liquid chemical being for forming a water-repellent protective film at least on surfaces of recessed portions of an uneven pattern of a wafer having the uneven pattern at its surface, the method including: a first refinement step for eliminating the elements (metal impurities) Na, Mg, K, Ca, Mn, Fe, Cu, Li, Al, Cr, Ni, Zn and Ag in a solvent by distilling the solvent or by a particle-eliminating membrane and an ion exchange resin membrane; a mixing step for mixing the solvent after the first refinement step and an agent for forming a water-repellant protective film; and a second refinement step for eliminating particles in a liquid chemical after the mixing step by a particle-eliminating membrane. | 10-23-2014 |