Patent application number | Description | Published |
20110096577 | POWER CONVERSION APPARATUS - A power conversion apparatus has a rectification circuit provided for converting AC power supplied from an AC power supply into DC power. The rectification circuit has a configuration in which series circuit whose number corresponds to the number of phases of an input AC are connected in parallel between a positive-side line and a negative-side line. The AC power supply is connected to AC input points, each corresponding to a connection point between a rectifying device and a semiconductor switching device in each of the series circuits, and connected to a point having ground potential through noise suppressing series circuits respectively. In each of the noise suppressing series circuits, a switch unit and a capacitor are connected in series. In this manner, it is possible to provide a power conversion apparatus which can reduce a noise terminal voltage while solving problems in volume and cost simultaneously. | 04-28-2011 |
20120212984 | POWER SUPPLY DEVICE - A power supply device that is able to switch between rectifier circuits in accordance with the voltage of a multi-phase AC power supply, and able to accommodate different power supply voltages. The power supply device has rectifier circuits that include a first circuit that rectifies a line voltage of the AC power supply, converting it into a direct current voltage of a first predetermined value, when the voltage of the AC power supply is a predetermined value or less, and a second circuit that rectifies a phase voltage of the AC power supply, converting it into a direct current voltage of a second predetermined value, when the voltage of the alternating current power supply exceeds the predetermined value. The first and second circuits operate in such a way that the AC input current is of the same phase as the voltage of the AC power supply. | 08-23-2012 |
20140104889 | POWER SUPPLY DEVICE - A power supply device includes a first semiconductor switching device for controlling an alternating input current waveform, a smoothing capacitor to which a rectified voltage is applied, and an inverter that converts the rectified voltage into alternating current via a step-up chopper. The step-up chopper includes an inductor and a diode connected between the smoothing capacitor and inverter, and a second semiconductor switching device connected to the inductor and diode. The power supply device further includes an instantaneous voltage drop compensation function whereby the energy of the smoothing capacitor is supplied by an operation of the step-up chopper to the inverter when there is an instantaneous voltage drop in an alternating current power supply voltage. MOSFETs with a breakdown voltage lower than that of the first semiconductor switching device are connected between terminals of the step-up chopper, thus further reducing loss in comparison with when a bypass diode is used. | 04-17-2014 |
20150180232 | UNINTERRUPTIBLE POWER SUPPLY SYSTEM - Provided is an uninterruptible power supply system. The uninterruptible power supply system includes a power supply unit including a power supply circuit converting alternating current power into direct current voltage to be supplied to a load apparatus. The uninterruptible power supply system includes a battery unit including a battery circuit. The battery circuit stores direct current power and discharges the direct current power to generate direct current voltage to be supplied to the load apparatus. The uninterruptible power supply system includes a rack in which each of the power supply unit and the battery unit is mounted. | 06-25-2015 |
20150180233 | UNINTERRUPTIBLE POWER SUPPLY APPARATUS - An uninterruptible power supply apparatus includes a power supply unit converting AC power to generate a DC voltage to be supplied to a loading device. The uninterruptible power supply apparatus further includes a first battery unit connected to the power supply unit to receive a DC current therefrom, and stores first DC power generated from the DC voltage. The first battery unit generates a DC voltage to be supplied to the loading device from the first DC power. The uninterruptible power supply apparatus includes a second battery unit connected in parallel to the power supply unit and stores second DC power, and generates, from the second DC power stored in the second battery unit, a DC voltage to be supplied to the loading device. The uninterruptible power supply apparatus further includes a controller for controlling operation of the power supply unit, the first battery unit and the second battery unit. | 06-25-2015 |
20150349583 | SOLAR POWER GENERATION SYSTEM - A solar power generation system includes a plurality of solar cell groups, a plurality of chopper units each of which corresponds to one of the plurality of solar cell groups and raises a DC voltage obtained from the corresponding solar cell group. Each of the plurality of chopper units includes a first operating point control unit that respectively controls an output current of the corresponding chopper unit to optimize an operating point of each of the plurality of solar cell groups so as to obtain maximum power from the respective solar cell groups, and an inverter, which receives the DC voltage obtained from the plurality of chopper units and outputs AC power. The inverter includes a second operating point control unit that controls the DC voltage obtained from the plurality of chopper units to optimize the operating point of each of the plurality of solar cell groups. | 12-03-2015 |
20150372614 | AC-DC CONVERTER - An AC to DC converter is provided with: a rectifier circuit that rectifies an AC voltage generated by an AC voltage source; and a plurality of switching units that collectively receive an output voltage of the rectifier circuit through an inductor, and that are connected in series at an input side, each of the switching units having a semiconductor switching device, a diode, and a capacitor, and performing ON/OFF switching of the semiconductor switching device provided therein to step up a voltage received from the rectifier circuit, each of the switching units supplying the stepped-up voltage to the capacitor through the diode so that a resulting DC across the capacitor can be provided, as a DC output voltage of the switching unit, to a respective load to be connected to terminals of the capacitor. | 12-24-2015 |
20160006242 | POWER SOURCE SYSTEM - A power source system for supplying DC (direct current) power to a load, including first and second power source apparatuses and a control apparatus. The first power source apparatus is connected to an alternating current (AC) power source, and configured to convert AC power received from the AC power source to first DC power. The second power source apparatus is connected to a battery, and configured to convert power of the battery to second DC power. The control apparatus is connected to the first and second power source apparatuses, and configured to so control the first and second power source apparatuses that the DC power supplied to the load is the first DC power in a normal mode, the second DC power in a back-up mode, and a combination of the first and second DC power in an assist mode. | 01-07-2016 |
20160028224 | THREE-LEVEL INVERTER - A series circuit of capacitors and a series circuit of semiconductor switches such as SiC-MOSFETs are connected in parallel to a direct current power source, and one end of a bidirectional switch formed of semiconductor switches, such as IGBTs, and diodes, such as SiC-SBDs (Silicon Carbide Schottky Barrier Diodes), is connected to a series connection point (an M point) of the capacitors, while the other end of the bidirectional switch is connected to a series connection point of the semiconductor switches, in a three-level inverter that outputs three voltage levels by operating the semiconductor switches so as to satisfy at least one of the condition that the peak value of an alternating current output voltage V | 01-28-2016 |
Patent application number | Description | Published |
20090141306 | CALIBRATION SYSTEM - A calibration system includes a plurality of printers, a grouping unit, a printer-selecting unit, a corrections data acquiring unit, a group determining units, and a print-data creating unit. A set of condition data is set for each printer. The grouping unit allocates each printer into either one of at least one group, based on the set of condition data for each printer. The printer-selecting unit selects, for each group, a printer among at least one printer belonging to the each group. The correction data acquiring unit acquires, for each group, one set of correction data created by the selected printer. The group determining unit determines one group, to which one of the printers that is desired to perform printing belongs. The print-data creating unit creates a set of print data based on the set of correction data corresponding to the determined group. | 06-04-2009 |
20100033777 | COLOR CONVERSION DEVICE - A color conversion device includes a profile storage unit, a saturation determining unit, a first selecting unit, and a conversion unit. The profile storage unit stores a plurality of profiles, each profile indicating correspondence relationships between input color signals representing values in an input color space defined in an input-side device and output color signals representing values in an output color space defined in an output-side device. The saturation determining unit is configured to determine a saturation of pixel data in input image data, the input image data being represented by input color signals and including a plurality of regions, each region containing at least one set of pixel data. The first selecting unit is configured to select, for each region, one profile among the plurality of profiles as an active profile based on the saturation of the at least one set of pixel data that is contained in the each region. The conversion unit that converts the input image data into print data represented by output color signals, by converting each set of pixel data based on the active profile that is selected for a region that contains the each set of pixel data. | 02-11-2010 |
20100053654 | IMAGE FORMING APPARATUS AND IMAGE FORMING SYSTEM - An image forming apparatus comprises an image data generating unit configured to convert a tone of an input value which indicates a density of a pixel by using a predetermined dither matrix and generate image data. The image forming apparatus further comprises a drive source and a gear configured to transmit a drive force from the drive source to an image carrier. The dither matrix includes a plurality of sub-matrixes arranged in a predetermined rule and a dot in each of the plurality of the sub-matrixes grows from a corresponding original point. The image forming apparatus satisfies a relation of (1) a≧0.24 mm and b/a<0.78, or (2) a<0.24 mm and b/a>1.2, where “a” is a travel distance of a printing medium per tooth of the gear in a secondary scanning direction orthogonal to the primary scanning direction, and “b” is a component in the secondary scanning direction of a distance between the original point of the dot derived from a first sub-matrix and the original point of the dot derived from a second sub-matrix. | 03-04-2010 |
20100053686 | IMAGE FORMING APPARATUS AND IMAGE FORMING SYSTEM - An image forming apparatus comprises an image data generating unit configured to convert a tone of an input value which indicates a density of a pixel by using a predetermined dither matrix and generate image data. The image forming apparatus further comprises a drive source and a gear configured to transmit a drive force from the drive source to an image carrier. The dither matrix includes a plurality of sub-matrixes arranged in a predetermined rule and a dot in each of the plurality of the sub-matrixes grows from a corresponding original point. The image forming apparatus satisfies a relation of (1) a≧0.08 mm and b/a<0.80, or (2) a<0.08 mm and b/a>1.27, where “a” is a travel distance of a printing medium per tooth of the gear in a secondary scanning direction orthogonal to the primary scanning direction, and “b” is a distance between the corresponding original points of a pair of the dots formed on the printing medium apart from each other in the secondary scanning direction on the basis of a pair of the sub-matrixes adjacent to each other in the primary scanning direction in the dither matrix. | 03-04-2010 |
20100157339 | DATA PROCESSING DEVICE - A data processing device is used for a printing device including a printing unit for printing an image based on image data using color material contained in a cartridge. The cartridge is detachably mounted in the printing device and has a storage unit storing processing data. The data processing device includes an original image data acquiring unit, a processing data acquiring unit, a first processing unit, a second processing unit, and a supplying unit. The original image data acquiring unit is configured to acquire original image data. The processing data acquiring unit is configured to acquire the processing data from the storage unit. The first processing unit is configured to generate first image data using the original image data based on the acquired processing data if the processing data acquiring unit acquires processing data. The first image data is used for producing a first image by the printing unit. The second processing unit is configured to generate second image data using the original image data if the processing data acquiring unit does not acquire the processing data. The second image data is used for producing a second image by the printing unit. The second image has a density higher than a density of the first image. The supplying unit is configured to supply one of the first image data and the second image data to the printing unit. | 06-24-2010 |
20100182621 | IMAGE PROCESSING DEVICE - An image processing device includes a storing unit and a creating unit. The storing unit stores a single set of line dither matrices. The single set of line dither matrices includes a first line dither matrix for first color, a second line dither matrix for second color, and a third line dither matrix for third color. Each of the first line dither matrix, the second line dither matrix, and the third line dither matrix includes threshold values that are arranged to make halftone dots grow linearly and including a plurality of n×n sub-matrices. N is set to an integer greater than 1. The first dither matrix has a first screen angle. The second dither matrix has a second screen angle that is different from the first screen angle. The third dither matrix has a third screen angle that is different from the first screen angle and the second screen angle. The creating unit is configured to create binary image data based on input image data using the single set of line dither matrices. A difference between the first screen angle and the second screen angle is set to either one of (π/2−arctan(1/n)) radians and (π/2+arctan(1/n)) radians. A difference between the first screen angle and the third screen angle is set to either one of (π/2−arctan(1/n)) radians and (π/2+arctan(1/n)) radians. | 07-22-2010 |
20110058190 | PROFILE CORRECTING METHOD - A profile correcting method includes: acquiring a device profile indicating correspondence relationships between a plurality of input values and a plurality of sets of first output values, each first output value set corresponding to one of the plurality of input values, each input value representing an achromatic color having a density level, each first output value set including a plurality of chromatic values each representing a chromatic color, the achromatic color being reproduced by mixing the chromatic color; and, performing a process for each input value. The process includes: forming a test patch based on one first output value set corresponding to the each input value; measuring color of the test patch, the color being represented by a set of a*b* values, the a*b* value set including a first a* value and a first b* value which are defined in a CIEL*a*b* color space; determining whether or not the one first output value set is a to-be-corrected first output value set, the to-be-corrected first output value set corresponding to a test patch whose color is represented by an a* b* value set including at least one of the first a* value greater than an a* prescribed value and the first b* value greater than a b* prescribed value, the a* prescribed value and the b* prescribed value being smaller than zero; and correcting, if the one first output value set is the to-be-corrected first output value set, the one first output value set to a second output value set which is to form color that is represented by an a* b* value set including a second a* value and a second b* value, the second a* value being smaller than or equal to the a* prescribed value, the second b* value being smaller than or equal to the b* prescribed value. | 03-10-2011 |
20110116113 | IMAGE PROCESSING DEVICE CAPABLE OF SAVING INK CONSUMPTION - An image processing device includes an acquiring unit, a rendering unit, and a mode determination unit. The acquiring unit acquires an input data including a character in a first size. The rendering unit renders an output image based on the input data. The mode determination unit determines whether or not a prescribed mode in which a consumption of printing material is reduced while printing the output image is designated. If the mode determination unit determines that the prescribed mode is designated, the rendering unit renders the output image of the character in a second size smaller than the first size. | 05-19-2011 |
20110249281 | IMAGE PROCESSOR - A converting unit executes a color conversion process for image data according to a normal profile when a determining unit determines that a prescribed setting is not set for the image data. The converting unit executes the color conversion process for the image data according to a colorant-saving profile configured such that an amount of colorant to be used in the colorant-saving profile is smaller than that in the normal profile when the determining unit determines that the prescribed setting is set for the image data. One of a plurality of input color values of the image data is converted to one of the plurality of output color values according to the colorant-saving profile in the color conversion process. The one of the plurality of input color values has a first hue. The one of the plurality of output color values has a second hue different from the first hue. | 10-13-2011 |
20120092734 | IMAGE PROCESSING DEVICE - In the image processing device, the color conversion part converts the input value to an output value by using a color profile. The correction part corrects the output value to a corrected value by using a correction table. The update part updates the correction table based on a density patch. The first and second amount is an estimated amount of the color material to be consumed when corrected image data corrected by either using the updated correction table or using an initial correction table, respectively, is printed. When the amount determining part determines that the first amount is greater than the second amount, the modifying part modifies the color profile such that the output value in the modified color profile specifies a less amount of color material than an amount of color material specified by the output value in the unmodified color profile. | 04-19-2012 |
20120098995 | IMAGE PROCESSING DEVICE - An image processing device includes a storage unit, a processing unit, and a memory. The storage unit stores a dither matrix. The memory has instructions stored thereon that, when executed by the processing unit, cause the processing unit to function as: an acquiring unit that is configured to acquire an image including a plurality of pixels, each pixel having a color value; an updating unit that is configured to update a color value of at least one pixel by adding a random number to the color value; and a thresholding unit that is configured to convert the updated color value into a binary value by using the dither matrix. | 04-26-2012 |
20130222818 | IMAGE PROCESSING APPARATUS - An image processing apparatus includes: a change processing unit configured to execute change processing of changing a pixel-number ratio S for distortion-free image data expressing a distortion-free image to acquire distorted image data expressing a distorted image having the pixel-number ratio of p×S; and a halftone processing unit configured to execute halftone processing for generating dot data for the distorted image data having the pixel-number ratio of p×S by using a dither matrix so as to generate distorted dot data expressing a distorted dot image having the pixel-number ratio of p×S, wherein a distortion-free dot image is to be obtained by enlarging the distorted dot data in at least the first direction, the distortion-free dot image having the pixel-number ratio S, and wherein a screen angle of the dither matrix is set to be about arctan((tan θ)/p)) when a screen angle in the distortion-free dot image is θ. | 08-29-2013 |
20130223728 | IMAGE PROCESSING APPARATUS - An image processing apparatus includes a reduction unit and a compression unit. The reduction unit is configured to execute color-number reduction processing for each block configured by a plurality of pixels included in a processing target image expressed by processing target image data, the color-number reduction processing including reducing the number of colors expressed by the plurality of pixels in the block to generate image data having the reduced number of colors from the processing target image data, a gradation-number of each color value included in the image data having the reduced number of colors being the same as a gradation-number of each color value included in the processing target image data. The compression unit is configured to execute compression processing using the image data having the reduced number of colors to generate compressed image data. | 08-29-2013 |
20130223765 | IMAGE PROCESSING APPARATUS - An image processing apparatus includes: an acquisition unit configured to acquire original image data expressing an original image that comprises a first type pixel and a second type pixel; and an enlargement processing unit configured to execute enlargement processing for the original image data to generate enlarged image data expressing an enlarged image that is obtained by enlarging the original image in a first direction. The enlargement processing unit includes: a pixel group selection unit configured to select a pixel group extending in a second direction intersecting with the first direction in the enlarge image when a specific pattern configured by the first type pixel and the second type pixel is included in the original image; and a setting unit configured to set a pixel configuring the pixel group in the enlarged image as the second type pixel. | 08-29-2013 |
20150092244 | IMAGE PROCESSING DEVICE SETTING BINARY VALUE WITHOUT USING DITHER MATRIX WHEN PRESCRIBED CONDITION IS SATISFIED - An image processing device includes a controller. The controller specifies an edge pixel based on image data, and sets a target pixel and a reference pixel from among a plurality of pixels. The target pixel is located between the edge pixel and the reference pixel. The controller determines whether a determination condition is satisfied for the target pixel. The determination condition indicates that a pixel value of the edge pixel, a pixel value of the target pixel, and a pixel value of the reference pixel monotonically increase in said order. The controller sets a binary value of the target pixel to a first value without using a dither matrix when the determination condition is satisfied, and sets the binary value of the target pixel to one of the first value and a second value by using the dither matrix when the determination condition is not satisfied. | 04-02-2015 |
Patent application number | Description | Published |
20090195626 | INKJET PRINTER AND PRINTING METHOD - An inkjet printer using solvent ink containing an organic solvent and a colorant. The inkjet printer includes an inkjet head configured to eject the solvent ink to a medium, and a microwave irradiation unit configured to irradiate the medium, to which the solvent ink was ejected, with microwaves. | 08-06-2009 |
20090322841 | INKJET PRINTER, PRINTING METHOD AND INK DRYER - An inkjet printer includes an inkjet head, an electromagnetic-wave supplier, a wave guide, and a ventilator. The inkjet head is configured to eject ink onto a surface of a medium. The electromagnetic-wave supplier is configured to generate electromagnetic waves. The wave guide has an internal space into which the medium is to be fed. The wave guide is connected to the electromagnetic-wave supplier to apply the electromagnetic waves to the medium. The ventilator is configured to flow a gas in the internal space of the wave guide. | 12-31-2009 |
20090322843 | INKJET PRINTER AND INK DRYER - An inkjet printer includes a plurality of guide walls and a plurality of choke portions. Each of the plurality of guide walls is arranged substantially in parallel with a feeding direction of a medium to provide a guide wall clearance between the plurality of guide walls. The wave guide has a first internal space connected to the guide wall clearance and an electromagnetic-wave supplier and configured to apply the electromagnetic wave to the medium which is introduced into the first internal space. Each of the plurality of choke portions includes a second internal space adjacent to each guide wall and an opening from the second internal space to the guide wall clearance. The second internal space is connected to the first internal space via the guide wall clearance. The second internal space has a length of λ/4 relative to wavelength λ of the electromagnetic wave in the feeding direction. | 12-31-2009 |
20100002038 | INKJET PRINTER, PRINTING METHOD AND INK DRYER - An inkjet printer includes an inkjet head, a wave guide, an electromagnetic-wave supplier, and a detector. The inkjet head is configured to eject an ink onto a surface of a recording medium. The recording medium onto which the ink has been ejected is to pass through the wave guide. The electromagnetic-wave supplier is configured to supply electromagnetic waves into the wave guide. The detector is configured to detect a parameter relating to a dryness of the recording medium which has passed through the wave guide. The controller is configured to control the electromagnetic-wave supplier to control an intensity of the electromagnetic waves according to the parameter relating to the dryness of the recording medium. | 01-07-2010 |
20100265294 | INK COMPOSITION FOR INKJET TEXTILE PRINTING AND METHOD OF INKJET TEXTILE PRINTING - A method of inkjet textile printing using an aqueous ink includes ejecting an aqueous ink to a textile medium. The aqueous ink includes water, an anionic dye including an acid dye or a reactive dye, and a compound to promote fixing of coloring agent in the ink to the textile medium when the textile medium is irradiated with microwaves. Microwaves are irradiated to the textile medium to which the aqueous ink was ejected. | 10-21-2010 |
Patent application number | Description | Published |
20110122667 | RECTIFIER CIRCUIT - A high power factor rectifier circuit, provided with switching sections connected to an AC power supply for converting an AC voltage to a DC voltage, is formed with a bypass circuit provided. The bypass circuit, when the voltage of the AC power supply becomes higher than the voltage across a smoothing capacitor provided on the DC output side, makes a charge current flowing from the AC power supply to the capacitor bypass the switching section by making the switching section out of conduction. Thus, a rectifier circuit is provided which can be safely operated without causing any damage, or with minimized damage, even though an inrush current flows at turning-on the power or at recovery from a power interruption. | 05-26-2011 |
20130170268 | POWER CONVERTER - A motor drive system wherein an LC circuit exists between an inverter and a motor is such that switching of semiconductor switching elements Su to Sw and Sx to Sz configuring the inverter is controlled by an on-signal formed of a first on-signal, a second on-signal, and an off-state period of a time the same as the first on-signal provided between the first on-signal and second on-signal, and by an off-signal formed of a first off-signal, a second off-signal, and an on-state period of a time the same as the first off-signal provided between the first off-signal and second off-signal, and surge voltage applied to an input terminal of the motor is suppressed by the time of the first on-signal and the time of the second off-signal being set to one-sixth of a resonance cycle specific to the LC circuit. | 07-04-2013 |
20130235625 | AC-AC CONVERTER - An AC-AC converter configured of a forward converter that converts alternating current to direct current and a reverse converter that converts direct current to alternating current, wherein a first semiconductor switch series circuit, a second semiconductor switch series circuit, and a capacitor series circuit are connected in parallel, a first inductor is connected between one end of an alternating current input and a series connection point of the first semiconductor switch series circuit, a bidirectional switch is connected between the one end of the alternating current input and a series connection point of the second semiconductor switch series circuit, a second inductor is connected between the series connection point of the second semiconductor switch series circuit and one end of an alternating current output, and a series connection point of the capacitor series circuit is connected to the other end of the alternating current input and the other end of the alternating current output. Because of this, it is possible to keep the inductor loss of the rectifier sufficiently small when input voltage is within a specified range. Also, in addition to this, it is possible to reduce switching loss more than in heretofore known circuits when carrying out a compensation action. | 09-12-2013 |
20140268963 | DC VOLTAGE CONVERSION CIRCUIT - Aspects of the invention relates to a DC voltage conversion circuit including: a DC power supply; a switching device which is connected to two ends of the DC power supply through an inductor, and a series circuit which is connected in parallel with the switching device and which includes a diode and a load, so that an input voltage supplied from the DC power supply can be converted into an output voltage with a predetermined magnitude by an operation of the switching device and supplied to the load. The DC voltage conversion circuit can further include: a series circuit which is connected to two ends of the diode and which includes a snubber capacitor and a snubber diode. | 09-18-2014 |
20140346877 | POWER CONVERTER - A power converter can include an inverter including, connected in series, switching elements, the inverter circuit being connected to both ends of a DC power source series circuit resulting from connecting in series a DC power source and a DC power source. Also included can be an AC output terminal that is connected to a connection point of the switching element and the switching element, an AC output terminal that is connected to a connection point of the DC power source and the DC power source, a bidirectional switch element one end of which is connected to the AC output terminal and the other end of which is connected to a terminal of an AC power source and a bidirectional switch element one end of which is connected to the AC output terminal and the other end of which is connected to the AC power source. | 11-27-2014 |
20140346884 | POWER CONVERTER - A power converter that can supply constant voltage to a load even upon fluctuation of voltage of an AC power source includes an inverter circuit resulting from connecting switching elements in series, the inverter circuit being connected to both ends of a DC power source series circuit resulting from connecting in series two DC power sources; an AC output terminal that is connected to a connection point of the switching elements; another AC output terminal that is connected to a connection point of the DC power sources; and a bidirectional switch element including one end connected to the AC output terminal U and another end connected to a terminal of an AC power source. | 11-27-2014 |
20140369100 | RECTIFIER CIRCUIT - A rectifier circuit includes an inductor connected to AC inputs of a diode bridge circuit, a capacitor series circuit connected to a DC output, and bi-directional switches that are connected between the series connection point of the capacitors and the AC inputs of the diode bridge circuit. In order to reduce the loss that would occur if both bi-directional switches were driven at high frequency, one of the bi-directional switches is driven at the frequency of the AC input voltage and the other bi-directional switch is driven at a high frequency, and also general rectifying diodes are used as the diodes connected to the bi-directional switch that is driven at the frequency of the AC input voltage and fast recovery diodes are used as the diodes connected to the bi-directional switch that is driven at high frequency. | 12-18-2014 |
20150042166 | POWER CONVERSION DEVICE - A power conversion device able to supply a constant load voltage even when the voltage of a 3-phase alternating current power supply fluctuates. A series circuit formed of switching element Q | 02-12-2015 |