Patent application number | Description | Published |
20110129362 | WATER-INJECTION TYPE SCROLL AIR COMPRESSOR - Disclosed is a water-injection type scroll air compressor whose pre-stopping operation time for drying can be reduced while enhancing compressor efficiency. The compressor body | 06-02-2011 |
20110194963 | Water Injected Scroll Air Compressor - A high reliability water injected scroll air compressor is provided. In the scroll air compressor provided with: an orbiting scroll; a fixed scroll corresponding the orbiting scroll; a motor that generates driving force for making the orbiting scroll orbit the fixed scroll; a compressing path from a suction port to a discharge port; and a portion for injecting water into the compressing path, the operation is controlled by switching operation in which water is injected into the compressing path and operation in which no water is injected. Corrosion, the failure of activation and a touch to the wrap respectively worried when water is injected into an air end are avoided by switching the operation with water injection and the operation without water injection as described above so as to prevent water from remaining in the air end. | 08-11-2011 |
20110274574 | Water Injected Scroll Air Compressor - As pressure in a water tank rapidly rises when water inside a compressor is evaporated by the high temperature of compressed air and this situation makes the operation unstable, an object of the present subject matter is to address this problem. A water injected scroll air compressor is provided with: an air end of the scroll air compressor; a driving unit that generates driving force for the air end; a compressing path from a suction port to a discharge port; a portion to inject water into the compressing path; a discharge piping of air discharged from the air end; a tank provided on a path of the discharge piping for storing water separated from the compressed air; and a cooler that is provided on the path of the discharge piping between the tank and the air end and cools the compressed air discharged from the air end. | 11-10-2011 |
20140147325 | Water Injected Scroll Air Compressor - A high reliability water injected scroll air compressor is provided with an orbiting scroll, a fixed scroll corresponding to the orbiting scroll, a motor that generates driving force for making the orbiting scroll orbit the fixed scroll, a compressing path from a suction port to a discharge port, and a portion for injecting water into the compressing path. The operation is controlled by a switching operation in which water is injected into the compressing path and then no water is injected. Corrosion, failure of activation, and concerns about wrap contact when water is injected into an air end are avoided by switching the operation with water injection and the operation without water injection so as to prevent water from remaining in the air end. | 05-29-2014 |
Patent application number | Description | Published |
20100028165 | OIL-FLOODED SCREW COMPRESSOR, MOTOR DRIVE SYSTEM, AND MOTOR CONTROL DEVICE - When an oil-flooded screw compressor is started up in a cold environment after a long halt, start-up torque increases due to the increased viscosity of the oil that has long stayed inside the working chambers of the compressor. This has necessitated drive means with a larger capacity than that required for normal operation. | 02-04-2010 |
20100158733 | OIL-FREE SCROLL COMPRESSOR - An oil-free scroll compressor prevents wraps from being broken and provides improved reliability. The oil-free scroll compressor includes an orbiting scroll member and fixed scroll members, and has compression channels into which water is injected each formed between the intake port and exhaust port provided in the fixed scroll member. The oil-free scroll compressor includes temperature sensors each of which detects temperature in the compression channel, regulating valves each of which controls ratio of the amount of the water to be injected into the respective compression channels to the total amount of the water to be injected into the compression channels, and controller which controls the opening degrees of the regulating valves such that a difference between the detected temperatures from the compression channels is small. | 06-24-2010 |
20130294932 | OIL-FLOODED SCREW COMPRESSOR, MOTOR DRIVE SYSTEM, AND MOTOR CONTROL - An oil-flooded screw compressor drives a pair of rotors at a rotational speed which is low enough not to increase torque for a short amount of time after start-up and accelerates the pair of rotors up to a normal-operation rotational speed after oil discharge. Alternatively, the oil-flooded screw compressor rotates the pair of rotors for a short amount of time after the remaining compressed gas is discharged after a halt, thereby allowing the oil accumulated inside the working chambers to be discharged and ensuring smooth start-up after the halt. | 11-07-2013 |
Patent application number | Description | Published |
20100166106 | DISCRETE FOURIER TRANSFORM PROCESSING APPARATUS AND RADIO COMMUNICATION APPARATUS - An arithmetic processing apparatus includes a shift section configured to shift, by (N+1)/2 bit data, a data signal x(n) (n=0, . . . , N−1), which has a data length of N, where N is an odd number, and which has left-right symmetry with respect to ((N−1)/2)th bit data, so as to obtain a data signal x′(n), and an arithmetic operation section configured to obtain a data signal X(k) (k=0, . . . , N−1) by performing a discrete Fourier transform operation on the data signal x′(n). | 07-01-2010 |
20100329373 | RECEIVER, SIGNAL PROCESSING APPARATUS AND RECEIVING METHOD - A receiver for receiving a signal including a series of symbols, the signal being performed Time Window processing at portions including a boundary of adjacent symbols by a transmitter so as to eliminate a discontinuity between the symbols, the receiver includes: a receiving unit that receives the signal; and a processor extracts the series of symbols and performing an inverse processing of the Time Window processing at the portions performed the Time Window processing by the transmitter. | 12-30-2010 |
20110122938 | COMMUNICATION DEVICE AND METHOD - A communication device including: mapping frequency domain signals including phase information onto, of a band of subcarriers for transmitting the frequency domain signals, a band in which a twiddle factor for shifting the band of the subcarriers to a specified band is an integer power of an imaginary unit; performing inverse fast fourier transform on the subcarriers on which the frequency domain signals are mapped, to transform the subcarriers into time domain signals; increasing the number of samples by up-sampling the time domain signals; and executing, when the twiddle factor is an integer power of the imaginary unit, interchange processing for interchanging a real number component and an imaginary number component of each of the samples up-sampled or sign-reversal processing for reversing a sign of the real number component or the imaginary number component to shift the band of the frequency-domain-mapped subcarriers to the specified band. | 05-26-2011 |
20120220253 | WIRELESS COMMUNICATIONS APPARATUS AND FREQUENCY-CHARACTERISTIC COMPENSATING APPARATUS - A wireless communications apparatus includes a setup-value storage storing therein setup information that includes a compensation coefficient that is used in frequency-characteristic compensation of a subcarrier signal that results from separating frequency components from a multicarrier modulated signal, an operation category indicating the type of handling of the compensation coefficient, and a category condition; a subcarrier-signal input unit that receives input of the subcarrier signal; an address generator that in conjunction with the input timing of the subcarrier signal, generates an address that corresponds to the subcarrier signal; an operation category selector that determines a category condition that the generated address satisfies, and selects the operation category that corresponds to the category condition; frequency-characteristic compensating unit uses the compensation coefficient that corresponds to the selected operation category and performs the frequency-characteristic compensation on the input subcarrier signal; and an output unit that outputs the frequency-characteristic compensated signal. | 08-30-2012 |
20130039165 | DISCRETE FOURIER CALCULATION DEVICE, RADIO COMMUNICATION DEVICE, AND DISCRETE FOURIER CALCULATION METHOD - A discrete Fourier calculation device includes a twiddle factor table storage unit that stores therein a twiddle factor table that associates twiddle factors with phases of the corresponding twiddle factors; a correction value specifying unit that specifies first and second correction values for correcting a phase of an input signal in accordance with an amplitude of the input signal; a generating unit that corrects the phase of the input signal by using the specified first and second correction values to generate first and second phases; an addition unit that adds an arbitrary phase corresponding to an arbitrary twiddle factor stored in the twiddle factor table, to each of the generated first and second phases; and a rotation calculation unit that acquires, from the twiddle factor table, first and second twiddle factors corresponding to the first and second phases and sums the acquired first and second twiddle factors. | 02-14-2013 |
20130039439 | MULTICARRIER TRANSMITTING APPARATUS AND MULTICARRIER TRANSMITTING METHOD - A multicarrier transmitting apparatus includes a subcarrier mapping unit, an IFFT unit, and a signal transformation value separation unit. When the subcarrier mapping unit transmits first reference signals and second reference signals continuous in the time axis direction, the subcarrier mapping unit outputs a multicarrier signal in which the first reference signals and the second reference signals are allocated to subcarriers continuous in the frequency axis direction. The IFFT unit performs an inverse Fourier transformation on the multicarrier signal output from the subcarrier mapping unit to output signal transformation values in the time axis direction. The signal transformation value separation unit separates the signal transformation values output from the IFFT unit into signal transformation values associated with subcarriers to which the first reference signals are allocated and signal transformation values associated with the subcarriers to which the second reference signal are allocated. | 02-14-2013 |
Patent application number | Description | Published |
20110074525 | COMMON MODE FILTER - To pass an ultra high-speed differential signal and make it difficult to pass a common mode noise. Lamped-constant differential delay line DL is formed by arranging inductors Lo, being passive series elements, and capacitors Co, being passive parallel elements, in a differential four terminal network of a ladder shape composed of the passive series elements and the passive parallel elements arranged in differential lines | 03-31-2011 |
20110279197 | COMMON MODE FILTER - To sufficiently attenuate a common mode signal by passing an ultra-high speed differential signal through an ultra-high speed differential transmission line. A common mode filter comprises: a pair of conductive lines formed on a first dielectric layer to transmit a differential signal; a plurality of first divided floating grounds in a state of being separated from an external ground potential, and facing the conductive lines, with the first dielectric layer interposed between them, and formed by being divided into a plurality of numbers in a length direction of the conductive lines, and forming a distribution constant type differential transmission line for the differential signal, together with the conductive lines; and a first passive two-terminal network connected between the first divided floating grounds located at least at an input side or an output side of the first divided floating grounds, and the external ground potential. | 11-17-2011 |
20120098627 | COMMON MODE FILTER - To pass an ultrahigh speed differential signal and sufficiently attenuate a common mode signal on an ultrahigh speed differential transmission line. A pair of conductor lines | 04-26-2012 |
Patent application number | Description | Published |
20130344526 | Method of Analyzing L-Tryptophan in Biological Samples, and Kit Used Therein - Disclosed is a method for quantifying L-tryptophan involving a step for mixing a specimen, L-tryptophan oxidase, and water, a step for allowing the obtained reaction solution to stand a predetermined period of time in the presence of oxygen, and a step for measuring the reaction product resulting from action of enzymes present in the reaction solution after allowing to stand. The L-tryptophan oxidase has a given amino acid sequence and has oxidase activity that generates hydrogen peroxide and ammonia by acting on the L-tryptophan in the presence of oxygen and water. The oxidase activity of the L-tryptophan oxidase on the L-phenylalanine is in the range of 0-3% of the oxidase activity thereof on the L-tryptophan, and the L-tryptophan oxidase does not have oxidase activity on protein-constituting amino acids other than L-tryptophan and L-phenylalanine. Also disclosed are a kit used to quantify the L-tryptophan containing L-tryptophan oxidase, and an enzyme sensor using the L-tryptophan oxidase. This method, kit and enzyme sensor use an L-tryptophan-specific enzyme, so are capable of quantifying L-tryptophan even in the presence of other amino acids. | 12-26-2013 |
20140357524 | Method for Quantifying Subject Substance - There is provided a method for quantifying a subject substance, of which typical examples are amino acids. The method of the present invention comprises the following steps: the step of allowing an enzyme that can generate pyrophosphate by using adenosine triphosphate (ATP) as a substrate with converting the subject substance to act on the subject substance to generate pyrophosphate; the step of allowing pyruvate pyrophosphate dikinase (PPDK) to act on the generated pyrophosphate in the presence of adenosine monophosphate (AMP) and phosphoenolpyruvate (PEP) to generate ATP, phosphoric acid, and pyruvate; and the step of quantifying the generated pyruvate, and amount of the subject substance is determined on the basis of the obtained amount of pyruvate. According to the present invention, an amino acid in a biological sample containing a lot of various kinds of contaminants such as inorganic phosphoric acid and urea can be conveniently and quickly quantified without being influenced by the contaminants. | 12-04-2014 |
Patent application number | Description | Published |
20090021597 | IMAGING CIRCUIT AND IMAGE PICKUP DEVICE - An imaging circuit includes a photoelectric conversion section and a transferring section. The photoelectric conversion section in which pixels each having a color filter attached thereto are arranged in an oblique direction in a lattice manner. The color filter is formed of: a GR line on which G and R pixels are alternately arranged in a horizontal direction; a GB line on which the G and B pixels are alternately arranged in a horizontal direction; and a G line on which only the G pixel is arranged in a horizontal direction, and having a combination of: the GR and G lines; and the GB and G lines being placed alternately in a vertical direction to arrange the G pixel at a position adjacent to the R and B pixels. The transferring section for transferring only an electrical signal associated with pixels included on the GR line and the GB line. | 01-22-2009 |
20090244303 | IMAGER, IMAGING CIRCUIT, AND IMAGE PROCESSING CIRCUIT - The number of channels is changed in accordance with an operation mode in an image pickup apparatus. An image-pickup control unit | 10-01-2009 |
20100149376 | Information processing apparatus, buffer control method, and computer program - An information processing apparatus is provided which includes a buffer for holding image data output line by line from an image pickup device, a write enable generator for generating a write enable signal which indicates a timing by which the image data is written to the buffer line by line, an adder for adding per reference clock a read frequency set value which determines readout frequency of the image data written in the buffer, and a write enable generator for generating a read enable signal which indicates a timing by which the image data written in the buffer is read out line by line based on an added value of the read frequency set values. | 06-17-2010 |
20110188758 | IMAGE PROCESSING DEVICE AND METHOD, AND PROGRAM THEREFOR - There is provided an image processing device that specifies a region including a specific subject on each input image of a plurality of continuous frames. The image processing device includes: subject map generation means that, from feature maps corresponding to features of respective pixels of the input image and representing feature amounts in respective regions of the input image, selects one feature amount of any of the feature maps for each pixel so as to thereby generate a subject map representing similarities of the respective regions of the input image to the subject; and subject region specification means that, on the basis of the subject map, specifies a subject region, which is a region most similar to the subject, in the subject map so as to thereby specify a region which includes the subject on the input image. | 08-04-2011 |
20120062769 | IMAGE PROCESSING DEVICE AND METHOD, AND PROGRAM - The present invention relates to an image processing device and method, and a program whereby a subject can be imaged in a simpler manner with a desired imaging range. | 03-15-2012 |
20120121173 | IMAGE PROCESSING APPARATUS AND METHOD, AND PROGRAM - The present invention relates to an image processing apparatus and method, and a program that are capable of more easily identifying an area of a subject in an image. | 05-17-2012 |
20130027579 | IMAGE PROCESSING APPARATUS, METHOD, AND COMPUTER PROGRAM STORAGE DEVICE - An image processing apparatus, method and non-transitory computer program storage device cooperate to process successive images. Respective frames are created and positioned within the successive images, where each frame has a border. When changes between the frame borders are detected, a controller triggers the capturing of an image. This approach results in the capturing of interesting moments, even if the subject is not a human subject. The change in frame boundaries may be categorized in a variety of ways, including change in aspect ratio, shape, orientation, and position, for example. By detecting the changes in this way, an imaging device can capture images of interesting events automatically. | 01-31-2013 |