Abstract: An agricultural machine includes a vehicle body, an obstacle detector to detect obstacles, an autonomous travel controller to perform autonomous travel of the vehicle body, the autonomous travel controller being configured or programmed to, when performing the autonomous travel, stop the vehicle body based on detection information about an obstacle detected by the obstacle detector, and a mode switch to switch a mode during the autonomous travel in an agricultural field between an effective mode in which the stopping of the vehicle body based on the detection information is allowed and an ineffective mode in which the stopping of the vehicle body based on the detection information is not allowed.

Abstract: Disclosed is a motor unit that includes: a rotary electrical machine that has a cylindrical stator, a rotor disposed coaxially with the stator, a shaft disposed coaxially with the rotor, and a cylindrical case that houses the stator and the rotor; and a drive unit that has a swell swelling toward the case and is fixed to a circumferential surface that is located in a radial direction of the rotor and is the case. The case has a recess that corresponds to the swell.

Abstract: A shift mechanism of an outboard motor has an electric actuator having a movable rod, and a guide structure for guiding a linear motion of a sliding body connected to the movable rod. In addition, the shift mechanism includes a link rod connected to the sliding body and bent to extend in a direction different from the direction of the linear motion of the sliding body. Furthermore, the shift mechanism includes a shift shaft part which is connected to the link rod, performs a rotational motion on the basis of a displacement of the link rod, and switches a range of a transmission mechanism provided below on the basis of the rotational motion.

Abstract: A motor control device includes an optimal voltage calculation part configured to calculate an input voltage that is a lowest total of electric power losses generated by an inverter, a motor and a converter, a lowest voltage calculation part configured to calculate a lowest value of the input voltage required at a motor operating point, and a target value setting part configured to set any one of the optimal input voltage and the lowest input voltage as the target input voltage, and the target value setting part sets the lowest input voltage lower than the optimal input voltage to the target value when the element temperature of the inverter and the converter is equal to or greater than a predetermined value.

Abstract: A motor unit includes: a first rotating electric machine which includes a cylindrical first stator, a first rotor disposed coaxially with the first stator, a first shaft disposed coaxially with the first rotor, and a cylindrical first casing accommodating the first stator and the first rotor; a second rotating electric machine which includes a cylindrical second stator, a second rotor disposed coaxially with the second stator, a second shaft disposed coaxially with the second rotor, and a cylindrical second casing accommodating the second stator and the second rotor; a single drive device which is integrally fixed across a peripheral surface in a diameter direction of the first rotor in the first casing and a peripheral surface in a diameter direction of the second rotor in the second casing; and a surface-matching fixing portion which is fixed by a fixing member while an axial end surface of the first casing comes into contact with an axial end surface of the second casing.

Abstract: A motor control device includes an optimal voltage calculation part configured to calculate an input voltage that is a lowest total of electric power losses generated by an inverter, a motor and a converter, a lowest voltage calculation part configured to calculate a lowest value of the input voltage required at a motor operating point, and a target value setting part configured to set any one of the optimal input voltage and the lowest input voltage as the target input voltage, and the target value setting part sets the lowest input voltage lower than the optimal input voltage to the target value when the element temperature of the inverter and the converter is equal to or greater than a predetermined value.

Abstract: A motor unit includes: a first rotating electric machine which includes a cylindrical first stator, a first rotor disposed coaxially with the first stator, a first shaft disposed coaxially with the first rotor, and a cylindrical first casing accommodating the first stator and the first rotor; a second rotating electric machine which includes a cylindrical second stator, a second rotor disposed coaxially with the second stator, a second shaft disposed coaxially with the second rotor, and a cylindrical second casing accommodating the second stator and the second rotor; a single drive device which is integrally fixed across a peripheral surface in a diameter direction of the first rotor in the first casing and a peripheral surface in a diameter direction of the second rotor in the second casing; and a surface-matching fixing portion which is fixed by a fixing member while an axial end surface of the first casing comes into contact with an axial end surface of the second casing.

Abstract: Disclosed is a motor unit that includes: a rotary electrical machine that has a cylindrical stator, a rotor disposed coaxially with the stator, a shaft disposed coaxially with the rotor, and a cylindrical case that houses the stator and the rotor; and a drive unit that has a swell swelling toward the case and is fixed to a circumferential surface that is located in a radial direction of the rotor and is the case. The case has a recess that corresponds to the swell.

Abstract: The disclosure provides for a method for treating a fatty liver disorder in a subject in need thereof, comprising selecting a subject having or suspected of having a fatty liver disease or disorder, wherein the subject is non diabetic, pre-diabetic, mildly diabetic, or has normal or substantially normal biliary tract function; and administering a therapeutically effective amount of a pharmaceutical composition comprising ethyl eicosapentanoate (EPA-E). In some cases EPA-E present may be at least 40% by weight in total of the fatty acids and their derivatives.

Abstract: The disclosure provides for a method for treating a fatty liver disorder in a subject in need thereof, comprising selecting a subject having or suspected of having a fatty liver disease or disorder, wherein the subject is non diabetic, pre-diabetic, mildly diabetic, or has normal or substantially normal biliary tract function; and administering a therapeutically effective amount of a pharmaceutical composition comprising ethyl eicosapentanoate (EPA-E). In some cases EPA-E present may be at least 40% by weight in total of the fatty acids and their derivatives.

Abstract: A connector includes a connector housing that includes a plurality of terminal accommodation chambers, a terminal that is accommodated in the terminal accommodation chamber, a retainer portion that holds the accommodated terminal in the terminal accommodation chamber, a short circuit terminal that makes at least two of the accommodated terminals be in a short-circuited state by coming into contact with the two accommodated terminals, and a sub-housing on which the short circuit terminal is mounted. The connector housing includes a fitting portion to which the sub-housing is fitted in a direction orthogonal to a fitting direction of the connector housing to a counterpart connector housing, and the retainer portion is formed at a position of holding the terminal and the short circuit terminal is mounted at a position at which the short circuit terminal comes into contact with the terminals.

Abstract: Compositions and method are disclosed comprising ethyl icosapentate for use in treatment of non-alcoholic steatohepatis (NASH).

Abstract: A spinning die for producing ultrafine fiber nonwoven fabric is made miniaturized and its productivity thereof is enhanced. The spinning die has a substantial cuboid shape and a plurality of nozzle holes is disposed in a longitudinal direction. A slit for jetting hot air is disposed only in one side of the nozzle holes. Thermoplastic polymer is melt blown from the nozzle of the spinning die to obtain ultrafine fibers. Hot air is jetted from the slit disposed at only one side of the nozzle holes. The result is that the ultrafine fibers melt blown in a direction inclined with respect to an axis direction of the nozzle. The blown ultrafine fibers are accumulated by sucking to downward to obtain ultrafine fiber nonwoven fabric.

Abstract: A network test method includes acquiring information of a type of each of a plurality of terminals and a coupling relationship of the plurality of terminals in a network, creating a test item of a communication test and a network path which becomes the target of the test, acquiring setting information including a switching time period of a terminal or terminals related to a redundant configuration, predicting a result of a communication test, requesting the result which carried out in the network, evaluating communication in the network by performing comparison between a result of the prediction and the test result which carried out in the network.

Abstract: A connector includes a connector housing that includes a plurality of terminal accommodation chambers, a terminal that is accommodated in the terminal accommodation chamber, a retainer portion that holds the accommodated terminal in the terminal accommodation chamber, a short circuit terminal that makes at least two of the accommodated terminals be in a short-circuited state by coming into contact with the two accommodated terminals, and a sub-housing on which the short circuit terminal is mounted. The connector housing includes a fitting portion to which the sub-housing is fitted in a direction orthogonal to a fitting direction of the connector housing to a counterpart connector housing, and the retainer portion is formed at a position of holding the terminal and the short circuit terminal is mounted at a position at which the short circuit terminal comes into contact with the terminals.

Abstract: The disclosure provides for a method for treating a fatty liver disease or disorder in a subject in need thereof, comprising selecting a subject having or suspected of having a fatty liver disease or disorder, wherein the subject is non diabetic, pre-diabetic, mildly diabetic; has normal or substantially normal biliary tract function; or has non or early stage hepatocyte apoptosis; and administering a therapeutically effective amount of a pharmaceutical composition comprising EPAs.

Abstract: Provided is a power semiconductor module wherein stress generated at a soldering section of a relay terminal is relaxed. A power semiconductor module (1) is provided with a substrate (2), relay terminals (9, 10), external connecting terminals (13, 14) and a relay terminal holding member (6). The relay terminals (9, 10) are connected to the substrate (2) with a solder (4) therebetween. The external connecting terminals (13, 14) are bonded to the relay terminals (9, 10), respectively. The non-conductive relay terminal holding member (6) holds end portions of the relay terminals (9, 10) said end portions being on the side bonded to the solder (4).

Abstract: Compositions and method are disclosed comprising ethyl icosapentate for use in treatment of non-alcoholic steatohepatis (NASH).

Abstract: Compositions and method are disclosed comprising ethyl icosapentate for use in treatment of non-alcoholic steatohepatitis (NASH).

Abstract: Compositions and methods for the treatment of non-alcoholic steatohepatitis and related disorders are provided herein, for example in women under 50 or pre-menopausal women.