Patent application number | Description | Published |
20090298361 | BOAT PROPULSION UNIT - A boat propulsion unit has a construction that prevents a structure near a drive shaft from becoming complicated and increased in size. The boat propulsion unit preferably in the form of an outboard motor includes a front propeller that is rotated together with a front propeller drive shaft during both forward travel and reverse travel of the boat, a rear propeller that is rotated together with a rear propeller drive shaft in an opposite direction of the front propeller during both of the forward travel and the reverse travel of the boat, and a forward-reverse drive that is arranged on an axis of the front propeller drive shaft and the rear propeller drive shaft, and that can be switched between a direction in which the front propeller drive shaft and the rear propeller drive shaft are rotated during the forward travel of the boat and a direction in which the front propeller drive shaft and the rear propeller drive shaft are rotated during the reverse travel of the boat. | 12-03-2009 |
20090298362 | BOAT PROPULSION UNIT - A boat propulsion unit minimizes a shock upon switching of an engagement state of a clutch mechanism. The boat propulsion unit includes an upper clutch mechanism that is arranged on an axis of a lower drive shaft and that can be switched between an engagement state (first engagement state) in which driving force of an engine is transmitted to a downstream side, and a half clutch state in which the driving force of the engine is reduced and then is transmitted; and an advance-reverse drive that is disposed on an axis of a front propeller drive shaft and a rear propeller drive shaft and that can be switched between a forward travel engagement state and a reverse travel engagement state (second disengagement state) in which the driving force of the engine is transmitted to a front propeller and a rear propeller in order to propel a boat, and a disengagement state (second disengagement state) in which the driving force of the engine is disengaged. | 12-03-2009 |
20100267571 | NOVEL METHOD FOR SPECIMEN PREPARATION, WHICH ENSURES PRESERVATION OF TISSUE MORPHOLOGY AND NUCLEIC ACID QUALITY - The present invention aims to develop a method for specimen preparation, which ensures the maintenance of both tissue morphology and nucleic acid quality (particularly RNA quality). The present invention further aims to prepare a specimen by this method, from which desired cells are then collected by microdissection and analyzed for gene expression. A method for specimen preparation from various frozen or unfrozen organs or tissues (excluding hard tissues) of the whole body, which comprises the following steps: 1) fixing a target organ or tissue with PFA fixative; and 2) embedding the same in paraffin by the AMeX method. | 10-21-2010 |
20110091907 | METHOD FOR DETECTION OF LIVER CANCER CELL USING ANTI-GLYPICAN-3 ANTIBODY - The present invention relates to an in-vitro immunoassay method for detecting the presence of liver cancer cells in a subject. In the method of the present invention, antigen retrieval treatment based on heat-induced epitope retrieval method and antigen retrieval treatment based on protease-induced epitope retrieval method can be combined in the detection of glypican 3 antigen expression in liver cancer tissues to thereby detect the difference in the expression level or expression pattern of the glypican 3 antigen by immunohistochemical staining method. This enables samples, which has been determined by the conventional HIER method as highly expressing glypican 3, to be graded according to the expression level of glypican 3. | 04-21-2011 |
20120015402 | Method of Proliferating Plasma Cells - An objective of the present invention is to facilitate the acquisition of antibody-producing cells that are infiltrating virus-infected cells, cancer cells, abnormal cells forming a benign hyperplasia, and the like, and to improve the efficiency of the production of antibodies as well as nucleic acids encoding them from the antibody-producing cells. | 01-19-2012 |
20130019327 | METHOD FOR SEARCHING AND SCREENING FOR TARGET OF ANTI-CANCER AGENT USING NON-HUMAN ANIMAL MODEL HAVING NOG ESTABLISHED CANCER CELL LINE TRANSPLANTED THEREINAANM Suzuki; MasamiAACI ShizuokaAACO JPAAGP Suzuki; Masami Shizuoka JPAANM Matsubara; KoichiAACI HeliosAACO SGAAGP Matsubara; Koichi Helios SGAANM Kato; AtsuhikoAACI ShizuokaAACO JPAAGP Kato; Atsuhiko Shizuoka JPAANM Kato; ChieAACI ShizuokaAACO JPAAGP Kato; Chie Shizuoka JPAANM Kobayashi; ShintaAACI HeliosAACO SGAAGP Kobayashi; Shinta Helios SGAANM Chen; Yu JauAACI HeliosAACO SGAAGP Chen; Yu Jau Helios SGAANM Yamazaki; MasakiAACI HeliosAACO SGAAGP Yamazaki; Masaki Helios SG - An objective of the present invention is to provide non-human animal models of cancer pathology, which mimic the hierarchical organization, cancer progression process, or biological property of human cancer tissues, and uses thereof. To achieve the objective described above, first, the present inventors transplanted cells of NOG-established cancer lines into NOG mice and morphologically observed the resulting tissue organization. As a result, the non-human animal models were demonstrated to exhibit pathologies (the hierarchical organization, cancer progression process, or biological properties of the cancer cells) similar to that of human cancer. Specifically, the present inventors succeeded in preparing non-human animal models exhibiting pathologies more similar to a human cancer, and cell culture systems using NOG-established cancer cell lines where the in vitro cell morphology is more similar to that of human cancer. | 01-17-2013 |
20130288248 | CANCER STEM CELL MASS AND PROCESS FOR PRODUCTION THEREOF - The purpose of the present invention is to provide: a cancer stem cell mass from which cells incapable of forming cancer are substantially removed and which has a characteristic property of reproducing a layered structure of a cancer tissue; a process for producing the cancer stem cell mass; and use of the cancer stem cell mass. For achieving the purpose, the present inventors grew a human cancer tissue repeatedly in a NOG mouse, separated cancer cells from the grown cancer tissue, and made a comparison of various cancer cell culture processes with each other. As a result, a cancer stem cell composition which is homogeneous and is substantially free of the coexistence of cells capable of forming cancer and cells incapable of forming cancer in a mixed state can be produced successively by employing an attached culture process using a serum-free stem cell culture medium rather than a generally employed floating culture process, and consequently the present invention has been accomplished. | 10-31-2013 |
20140302511 | CANCER STEM CELL-SPECIFIC MOLECULE - An objective of the present invention is to obtain two types of substantively homogeneous cancer stem cell populations which can be characterized using the cell surface marker Lgr5, and to provide cancer therapeutics using an antibody against a cell membrane molecule specifically expressed in these cancer stem cells by identifying said cell membrane molecule. A further objective of the present invention is to provide, using an antibody against a cell membrane molecule specifically expressed in cancer stem cells, a reagent for detecting cancer stem cells, and a method for diagnosing and sorting cancer patients. The present inventors discovered that highly pure large intestine cancer stem cells (CSC) can be obtained in a large quantity, and identified the two types of conditions of large intestine CSCs distinguishable through Lgr5 expression. Moreover, the present inventors discovered that an antibody against a cell membrane molecule specifically expressed in said cancer stem cells can damage said cells. | 10-09-2014 |
20140314675 | CANCER STEM CELL ISOLATION - An objective of the present invention is to provide: a cancer stem cell isolated using a cell marker; a substantively homogeneous cancer stem cell population including said cancer stem cell; and a method of preparing said cancer stem cell population. Another objective of the present invention is to provide: a method for separating cancer stem cells with a high proliferative potential and those with a low proliferative potential; a method for inducing cancer stem cells to have a different proliferative potential; and cancer stem cells separated or induced by these separation or induction methods. A further objective of the present invention is to provide: a method of screening for pharmaceuticals using said cancer stem cell or cancer stem cell population; a method for detecting the presence of said cancer stem cell or cancer stem cell population and for identifying or quantifying the same. The present inventors discovered that highly pure colon cancer stem cells (CSC) can be obtained in a large quantity, and identified two types of states of colon CSCs distinguishable through Lgr5 expression. | 10-23-2014 |
20150110793 | Humanized Anti-Epiregulin Antibody, and Cancer Therapeutic Agent Comprising Said Antibody as Active Ingredient - The inventors successfully produced anti-Epiregulin antibodies showing cross-species reactivity between cynomolgus monkey (non-human animals) and human, anti-Epiregulin antibodies with suppressed chemical degradation, anti-Epiregulin antibodies with lowered isoelectric point, anti-Epiregulin antibodies with increased thermal denaturation midpoint temperature, and anti-Epiregulin antibodies with reduced amount of aggregate by performing appropriate amino acid residue substitutions in the variable-region sequences of the humanized EP27 antibody which inhibits growth of cancer cells by exhibiting cytotoxic activity and neutralizing activity against human Epiregulin-expressing cancer cells. | 04-23-2015 |
20150226322 | CONTROL DEVICE OF AUTOMATIC TRANSMISSION AND METHOD OF CONTROLLING AUTOMATIC TRANSMISSION - A control device of an automatic transmission that controls the automatic transmission including a friction engagement element capable of continuously changing a transmission torque includes: a first heat load estimation unit configured to estimate a heat load state in the friction engagement element based on an indication value of the transmission torque; and an estimation stop unit configured to stop the estimation of the heat load state based on a state where the indication value of the transmission torque differs from an actual value of the transmission torque actually transmitted by the friction engagement element. | 08-13-2015 |
Patent application number | Description | Published |
20090318264 | CONTROL SYSTEM FOR AUTOMATIC TRANSMISSION - A control system for an automatic transmission includes a downshift control section configured to increase an engaging capacity of an engaging-side engaging element to engage the engaging-side engaging element and decrease a first engaging capacity of a disengaging-side engaging element to disengage the disengaging-side engaging element when a parameter representing a progressing condition of the downshift reaches a value, thereby carrying out the downshift in a power-on condition. Additionally, the downshift control section is configured to decrease the engaging capacity of the disengaging-side engaging element to a second engaging capacity smaller than the first engaging capacity to continue the downshift which is currently progressing and to cause the engine control section to continue controlling the engine speed when a power-off condition is detected upon an accelerator pedal being returned to a position representing an operating amount during the downshift. | 12-24-2009 |
20090319141 | AUTOMATIC TRANSMISSION CONTROL APPARATUS AND METHOD - During control of a shift of a first friction engagement element from an engaged state into a disengaged state and a shift of a second friction engagement element from a disengaged state into an engaged state for a gear shift to a first target gear from a second target gear, a desired torque capacity of the first friction engagement element is set based on an actual transmission gear ratio by interpolation from values of the desired torque capacity corresponding to at least first and second reference transmission gear ratios, wherein the first reference transmission gear ratio is a transmission gear ratio at start of an inertia phase of the shift control. When the first reference transmission gear ratio is between the actual transmission gear ratio and the second reference transmission gear ratio, the desired torque capacity is set to the value corresponding to the first reference transmission gear ratio. | 12-24-2009 |
20090319142 | SPEED CHANGE CONTROL SYSTEM OF AUTOMATIC TRANSMISSION - When it is judged that a vehicle speed detected by a vehicle speed sensor is equal to or lower than a predetermined very low value, that is, for example, 5 km/h, the hydraulic pressure applied to an engaging-side frictional element is sharply increased, sharply reduced and then held higher than a given value capable of effecting a piston stroke of a corresponding piston unit until a time when the piston stroke is completed. Upon completion of the piston stroke, the hydraulic pressure is increased to a 10 maximum value in a time that is smaller or shorter than that set when the detected vehicle speed is higher than the predetermined very low value. | 12-24-2009 |
20100250074 | CONTROL APPARATUS AND METHOD FOR AUTOMATIC TRANSMISSION - A control apparatus includes a shift-pressure learning correction controlling section configured to perform a shift-pressure learning correction in which a physical quantity representing a progress of shift is measured at a time of current downshift, and in which an engagement command pressure for a friction element is corrected at a time of next downshift on the basis of a divergence between the measured physical quantity and a target physical quantity; a shift-torque increase controlling section configured to perform a torque increase control in which a command for temporarily increasing torque of a drive source starts to be outputted when a start estimation timing of torque phase has just come during a transition period given between start and end of the downshift; and a learning convergence judging section configured to judges whether the shift-pressure learning correction has converged, configured to prohibit the torque increase control until it is decided that the shift-pressure learning correction has converged, and configured to permit the torque increase control when it is decided that the shift-pressure learning correction has converged. | 09-30-2010 |
20110118947 | CONTROL SYSTEM OF AUTOMATIC TRANSMISSION - A control system for controlling an automatic transmission that is capable of establishing a given speed stage by engaging a given frictional element. The control system comprises an actual time lag measuring section that measures an actual time lag from the time when a speed change instruction for the given speed stage is issued to the time when a gear ratio of the automatic transmission starts to change for the purpose of establishing the given speed stage, a torque detecting section that detects a torque from an engine, a time lag map that provides a suitable time lag in accordance with the detected torque from the engine, a learning correction section that corrects, by learning control, an instruction value for the hydraulic pressure led to the frictional element in a manner to cause the actual time lag to have the same value as the suitable time lag; and a time lag map correcting section that corrects the suitable time lag in accordance with an operation condition of an associated motor vehicle. | 05-19-2011 |
20120202646 | CONTROL APPARATUS FOR HYBRID VEHICLE - A control apparatus of a hybrid vehicle provided with an engine, a motor, an automatic transmission performing a shift by engaging/disengaging a plurality of engagement elements, a first clutch arranged between the engine and the motor for transmitting/cutting a driving force between the engine and the motor and a second clutch arranged between the motor and driving wheels for transmitting/cutting a driving force from the motor to the driving wheels, has a slip control section that controls the second clutch to a slip state during the shift of the automatic transmission. In a case of a successive shift in which a current shift and a succeeding shift are successively performed, the slip control section gradually increases an engagement pressure of the second clutch when changing the slip state of the second clutch to a fully engaged state after the current shift is completed and before the succeeding shift is completed. | 08-09-2012 |
20120202647 | SPEED CHANGE CONTROL DEVICE OF AUTOMATIC TRANSMISSION - A speed change control device of an automatic transmission comprises a first control section that, upon detecting a speed change instruction for a speed change from a first given speed to a second given speed, carries out the speed change by reducing an engaging pressure of a releasing side frictional element that has established the first given speed and increasing an engaging pressure of an engaging side frictional element that would establish the second given speed; a second control section that carries out a correction processing to increase the engaging pressure of the releasing side frictional element when a throttle open degree is increased during the speed change carried out by the first control section; and a third control section that inhibits the correction processing of the second control section when the engaging pressure of the releasing side frictional element is lower than a given value. | 08-09-2012 |
20130297135 | HYBRID VEHICLE CONTROL DEVICE - A control device of a hybrid vehicle includes an engine, a motor/generator, a first clutch, an automatic transmission, a second clutch, and startup/shifting simultaneous processing section. When engine speed increase control for increasing the engine speed by the motor/generator in order to start up the engine during travel and downshifting control of the automatic transmission are processed in parallel, the startup/shifting simultaneous processing section uses the motor torque of the motor/generator to increase the increase of input speed by the downshifting control to a target input speed while engine speed increase control is being performed by the motor/generator. | 11-07-2013 |
20130297136 | HYBRID VEHICLE CONTROL DEVICE - A hybrid vehicle control device is provided with an engine, a motor/generator, a first clutch, an automatic transmission, a second clutch, and a controller having a simultaneous process selection control section. The simultaneous process selection control section performs engine startup control and downshift control in parallel in cases where the torque outputtable by the motor subsequent to downshifting during overlap of an engine startup request and a downshift request is equal to or greater than the engine startup torque, or performs engine startup control first then downshift control in cases where the torque outputtable by the motor subsequent to downshifting is less than the engine startup torque. | 11-07-2013 |
Patent application number | Description | Published |
20090306262 | Polyamide Resin Composition for Laser Marking and Laser-Marked Polyamide Resin Molded Product - There is provided a polyamide resin composition capable of not only maintaining inherent properties of polyamide resins including moldability, mechanical properties, thermal stability, heat resistance and electrical properties but also exhibiting a good flame retardance and an excellent laser marking property, as well as a resin molded product for laser marking which is molded from the composition. The polyamide resin composition for laser marking according to the present invention includes 100 parts by weight of a polyamide resin and 0.1 to 100 parts by weight of a halogen-containing organic compound and/or an antimony compound, wherein when subjecting a molded product obtained from the composition to laser marking, a color tone of a laser-marked portion of the molded product exhibits a darker color than that of a surface of a laser-non-irradiated portion of the molded product. | 12-10-2009 |
20090309073 | THERMOPLASTIC RESIN COMPOSITION FOR PRODUCING AUTOMOBILE EXTERIOR PARTS - To provide a resin composition having highly balanced properties of fluidity, impact resistance, dimensional stability, rigidity, heat-resistant rigidity, electrical conductivity, coating adhesion and appearance, which properties are required as a thermoplastic resin material for producing automobile exterior parts, and being excellent in retention stability, and a thermoplastic resin composition for producing automobile exterior parts obtained by molding the resin composition followed by electrostatic coating. | 12-17-2009 |
Patent application number | Description | Published |
20090146287 | Semiconductor device having a chip-size package - Disclosed are a semiconductor device, a method for manufacturing the same, and a method for mounting the same. The method for manufacturing a semiconductor device includes the steps of: preparing a package film having a planar configuration whose region is divided into a device-mounting film portion having a device hole forming therein, an external-connection film portion, and a bent portion located between the device-mounting film portion and the external-connection film portion, an external electrode pad being formed on the external-connection film portion on a first surface side of the package film, an inner lead being formed in such a manner as to lead from the device hole to the external electrode pad via the bending portion; mounting a semiconductor chip on the device-mounting film portion on the first surface side by bonding the inner lead to an electrode pad of the semiconductor chip in a region where the device hole is formed; and bending the external-connection film portion at the bending portion 180° toward a second surface side of the package film and fixing the same. The method for mounting a semiconductor device on a mother board in close contact therewith includes the steps of: depositing solder balls on electrode pads of the mother board; and placing the semiconductor device on the mother board and melting the solder balls so as to electrically connect the electrode pads of the mother board and the external electrode pads of the semiconductor device. | 06-11-2009 |
20090200679 | SEMICONDUCTOR APPARATUS AND METHOD FOR MANUFACTURING THE SAME - A semiconductor apparatus including a semiconductor substrate, an insulating layer, a via hole, and a through-hole interconnection is provided. The insulating layer is formed on the semiconductor substrate. The via hole is formed through the semiconductor substrate and the insulating layer. The through-hole interconnection has a conductive layer formed on an insulating layer in the via hole. The surface of the insulating layer formed on the inner surface of the via hole is substantially planarized by filling a recessed portion on a boundary between the semiconductor substrate and the insulating layer formed on the semiconductor substrate. | 08-13-2009 |
20110136342 | SEMICONDUCTOR APPARATUS AND METHOD FOR MANUFACTURING THE SAME - A semiconductor apparatus including a semiconductor substrate, an insulating layer, a via hole, and a through-hole interconnection is provided. The insulating layer is formed on the semiconductor substrate. The via hole is formed through the semiconductor substrate and the insulating layer. The through-hole interconnection has a conductive layer formed on an insulating layer in the via hole. The surface of the insulating layer formed on the inner surface of the via hole is substantially planarized by filling a recessed portion on a boundary between the semiconductor substrate and the insulating layer formed on the semiconductor substrate. | 06-09-2011 |
Patent application number | Description | Published |
20110171510 | NON-AQUEOUS ELECTROLYTE BATTERY - A non-aqueous electrolyte battery using an oxyhalide as an anodic action material, which can improve pulse discharge characteristics and provide a sufficient operating voltage. A non-aqueous electrolyte battery using an oxyhalide such as thionyl chloride, sulfuric chloride and phosphoryl chloride that are liquid at room temperature as an anodic action material, wherein, in place of a conventionally used metal lithium, a lithium alloy containing at least one kind of element selected from a group consisting of Zn, Ga, Cd, In, Sn, Sb and Bi is used as a cathode to thereby reduce the impedance of a battery and prevent a reduction in operating voltage at pulse discharging. Especially, a battery is obtained that gives a significant improvement effect at high temperature and is excellent in pulse discharge characteristics having long discharge duration days. | 07-14-2011 |
20120056292 | SEMICONDUCTOR PACKAGE AND MANUFACTURING METHOD FOR A SEMICONDUCTOR PACKAGE AS WELL AS OPTICAL MODULE - A semiconductor package includes: a supporting substrate; a functioning element and a first joining element formed on a first principal surface of the supporting substrate; a sealing substrate disposed in an opposing relationship to the supporting substrate with the functioning element and the first joining element interposed therebetween; a second joining element provided on a second principal surface of the supporting substrate; a through-electrode provided in and extending through the supporting substrate and adapted to electrically connect the first and second joining elements; and a first electromagnetic shield film coated in an overall area of a side face of the supporting substrate which extends perpendicularly to the first and second principal surfaces. | 03-08-2012 |
20130194464 | IMAGE PICKUP APPARATUS AND CAMERA MODULE - An image pickup apparatus includes an optical device, a transparent conductive film, an electrode pad, and a penetrating electrode. In the optical device, an optical element area for receiving light is formed on a first surface side of a substrate, and an external connection terminal is formed on a side of a second surface opposite to the first surface of the substrate. | 08-01-2013 |
20130240714 | OPTICAL SENSOR, LENS MODULE, AND CAMERA MODULE - An optical sensor is described herein. By way of example, the optical sensor comprises a first light filter on a first light-receiving surface of an image sensor, and a second light filter on a second light-receiving surface of the image sensor. The second light-receiving surface is on an opposite side of the image sensor from the first light-receiving surface. The characteristics of the first light filter are different than characteristics of the second light filter. | 09-19-2013 |
20140191819 | IMPEDANCE MATCHING DEVICE AND CONTROL METHOD - In an impedance matching device, a storage unit stores a control value representing a load value and a value equivalent to input impedance in advance. The control value identifies inductance and capacitance values matching a predetermined impedance value by use of either a first or second matching circuit. An impedance estimation unit estimates input impedance of the power transmission antenna. The load value estimation unit estimates load value of a circuit connected to a power reception antenna and consuming transmitted electric power. A circuit selection unit electrically connects the first matching circuit, the second matching circuit, or a through circuit per the load value and the input impedance equivalent value. A control value output unit reads out the control value stored in the storage unit based on the load value and the input impedance equivalent value, and outputs the control value to the circuit selected by the circuit selection unit. | 07-10-2014 |
20150130271 | WIRELESS POWER TRANSMITTING APPARATUS AND CONTROL METHOD FOR SUCH APPARATUS - A wireless power transmitting apparatus ( | 05-14-2015 |
20150130272 | WIRELESS POWER RECEIVING APPARATUS AND CONTROL METHOD FOR SUCH APPARATUS - A wireless power transmitting apparatus ( | 05-14-2015 |
20150130294 | WIRELESS POWER TRANSMITTING APPARATUS, WIRELESS POWER RECEIVING APPARATUS, AND WIRELESS POWER FEEDING SYSTEM - A wireless power transmitting apparatus ( | 05-14-2015 |
Patent application number | Description | Published |
20140175896 | IMPEDANCE MATCHING DEVICE AND CONTROL METHOD - In an impedance matching device between a power transmission circuit and a power transmission antenna, a storage unit stores tables associated with a load value, each storing control values of a coupling coefficient between the power transmission and reception antennae. A selection unit selects a table corresponding to the load value estimated by the load value estimation unit. An adjustment direction determination unit determines the direction of a position for reading out one of the control values from the selected table. A readout position determination unit determines the position for reading out the control value from the selected table based on the direction and a predetermined step width for shifting the position for reading out the control value. A circuit selection unit electrically connects a matching circuit or the through circuit. A control value output unit outputs the control value at the determined position to the selected circuit. | 06-26-2014 |
20150229137 | IMPEDANCE MATCHING DEVICE, POWER RECEPTION-SIDE DEVICE, AND CONTROL METHOD - In an impedance matching device, a storage unit stores a control value representing a load value and a value equivalent to input impedance in advance. The control value identifies inductance and capacitance values matching a predetermined impedance value by use of either a first or second matching circuit. An impedance estimation unit estimates input impedance of the power transmission antenna. The load value estimation unit estimates load value of a circuit connected to a power reception antenna and consuming transmitted electric power. A circuit selection unit electrically connects the first matching circuit, the second matching circuit, or a through circuit per the load value and the input impedance equivalent value. A control value output unit reads out the control value stored in the storage unit based on the load value and the input impedance equivalent value, and outputs the control value to the circuit selected by the circuit selection unit. | 08-13-2015 |
20150229289 | IMPEDANCE MATCHING DEVICE AND CONTROL METHOD - In an impedance matching device, a storage unit stores a control value representing a load value and a value equivalent to input impedance in advance. The control value identifies inductance and capacitance values matching a predetermined impedance value by use of either a first or second matching circuit. An impedance estimation unit estimates input impedance of the power transmission antenna. The load value estimation unit estimates load value of a circuit connected to a power reception antenna and consuming transmitted electric power. A circuit selection unit electrically connects the first matching circuit, the second matching circuit, or a through circuit per the load value and the input impedance equivalent value. A control value output unit reads out the control value stored in the storage unit based on the load value and the input impedance equivalent value, and outputs the control value to the circuit selected by the circuit selection unit. | 08-13-2015 |