Abstract: A method of manufacturing a liquid discharge head, which includes a pressure generating chamber, a discharge port, and a piezoelectric element formed of a pair of electrode films sandwiching a piezoelectric material film, includes steps of preparing a structure with a single crystal Si layer accumulated above a front surface of an Si substrate through an etching stop layer; forming a buffer layer on the single crystal Si layer; forming, above the buffer layer, the piezoelectric material film which is directed in a preferential orientation to a direction of the polarization through one of the pair of electrode films; forming the pressure generating chamber on the piezoelectric material film; and etching a location corresponding to the piezoelectric material film of the Si substrate from a rear surface of the Si substrate to reach the etching stop layer.

Abstract: An electric power steering apparatus for reducing disturbances caused by loads on a rack shaft is disclosed. The electric power steering apparatus performs compensation so as to obtain a value of zero for the deviation between a target rack travel distance computed by a target rack travel distance computation unit and an actual rack travel distance computed by a rack travel distance computation unit. Bringing the deviation close to zero reduces disturbances originating in the loads on the rack shaft.

Abstract: A steering system includes: an electric power steering device which includes a steering unit of front wheels having an electric motor for generating an auxiliary torque in accordance with at least a steering torque and for transmitting the auxiliary torque to the steering unit; toe angle changers for changing toe angles of rear wheels in accordance with at least a front wheel turning angle and a vehicle speed; and a steering controller for controlling the electric power steering device and the toe angle changer. The steering system further includes a toe angle changer anomaly detection unit and/or an electric power steering device anomaly detection unit, and when a toe angle changer abnormal state is detected, an auxiliary torque target value and/or a viscosity in the electric power steering device is controlled, and when an electric power steering device abnormal state is detected, the toe angle changer is controlled.

Abstract: A method of measuring a quantity of a substrate contained in sample liquid is provided. This method can reduce measurement errors caused by a biosensor. The biosensor includes at least a pair of electrodes on an insulating board and is inserted into a measuring device which includes a supporting section for supporting detachably the biosensor, plural connecting terminals to be coupled to the respective electrodes, and a driving power supply which applies a voltage to the respective electrodes via the connecting terminals. One of the electrodes of the biosensor is connected to the first and second connecting terminals of the measuring device only when the biosensor is inserted into the measuring device in a given direction, and has a structure such that the electrode becomes conductive between the first and second connecting terminals due to a voltage application by the driving power supply.

Abstract: A liquid discharge head according to the present invention comprises plural pressure chambers for applying pressure to liquid, which communicate with liquid discharge openings for discharging liquid respectively; and plural piezoelectric elements, arranged corresponding to the plural pressure chambers, respectively, which respectively include lower electrodes, piezoelectric layers and upper electrodes layered in order from the pressure chambers, the lower electrodes being extended to areas corresponding to areas between the plural pressure chambers, and wherein an insulating layer is provided so as to cover at least all the lower electrodes located in the areas corresponding to areas between the plural pressure chambers.

Abstract: Provided is a light control device including: a thin film transistor; and a light control element including an electrode electrically connected to the thin film transistor, in which a semiconductor region of the thin film transistor and an pixel electrode are composed of the same semiconductor layer, and the same semiconductor layer is an amorphous oxide layer including at least one of In, Ga, and Zn.

Abstract: A biosensor, a measuring instrument for biosensor, and a method of quantifying a substrate contained in specimen liquid to reduce a measurement error by the biosensor; a biosensor, comprising at least a pair of electrodes formed on an insulation substrate; a measuring instrument, comprising a supporting part for detachably supporting the biosensor, a plurality of connection terminals electrically connected to the electrodes, and a drive power supply for applying a voltage to the electrodes through the connection terminals; wherein the biosensor is inserted into the measuring instrument, either one of the electrodes of the biosensor is connected to first and second connection terminals fined to the measuring instrument only when the biosensor is inserted into the support part of the measuring instrument in a specified direction and has an electrode structure to allow the first connection terminal to conduct with the second connection terminal when a voltage is applied by the drive power supply.

Abstract: A method for producing an ink jet head including, on a substrate, a piezoelectric element for discharging an ink from a discharge port, and an ink flow path communicating with the discharge port so as to correspond to the piezoelectric element, the method comprising in this order a step of providing, on the substrate, a mold material corresponding to the ink flow path, a step of providing a wall material of the ink flow path so as to cover the mold material, a step of eliminating a portion of the substrate corresponding to the piezoelectric element thereby forming a space in the substrate, and a step of eliminating the mold material thereby forming the ink flow path.

Abstract: A method for producing an ink jet head including, on a substrate, a piezoelectric element for discharging an ink from a discharge port, and an ink flow path communicating with the discharge port so as to correspond to the piezoelectric element, the method comprising in this order a step of providing, on the substrate, a mold material corresponding to the ink flow path, a step of providing a wall material of the ink flow path so as to cover the mold material, a step of eliminating a portion of the substrate corresponding to the piezoelectric element thereby forming a space in the substrate, and a step of eliminating the mold material thereby forming the ink flow path.

Abstract: A glucose sensor system comprising the steps of using as a sample discriminating parameter a ratio (I/?I) of a measured current value I to the time-differential value of the current value ?I, defining a discrimination function that discriminates whether a sample is blood or control fluid and uses the discriminating parameter as an independent variable, quantitating as a discriminating index a numeric value obtained by substituting a discriminating parameter value into this discrimination function, and automatically discriminating, based on this index, whether the sample is blood or a control fluid, whereby a kind of the sample can be automatically quantitated by measuring electric current when a sensor system is used for quantitating the concentration of an analysis object in the sample.

Abstract: Provided is a method of manufacturing an electronic circuit. The method includes the steps of: forming a nucleus comprising thermo-expandable particles on a conductive layer provided on an insulating substrate; forming an insulating film on the conductive layer having the nucleus-formed thereon; forming an opening by heating the substrate to expand the thermo-expandable particles and form a cleavage in the insulating film; and forming another conductive layer comprising a conductive material on the opening and the insulating film such that the upper and lower conductive layers are electrically connected to each other via the conductive material through the insulating film. This allows formation of a through hole in an electric circuit with ease without photolithographic processes such as exposure, development, and etching.

Abstract: A method of measuring a quantity of a substrate contained in sample liquid is provided. This method can reduce measurement errors caused by a biosensor. The biosensor includes at least a pair of electrodes on an insulating board and is inserted into a measuring device which includes a supporting section for supporting detachably the biosensor, plural connecting terminals to be coupled to the respective electrodes, and a driving power supply which applies a voltage to the respective electrodes via the connecting terminals. One of the electrodes of the biosensor is connected to the first and second connecting terminals of the measuring device only when the biosensor is inserted into the measuring device in a given direction, and has a structure such that the electrode becomes conductive between the first and second connecting terminals due to a voltage application by the driving power supply.

Abstract: A method of measuring a quantity of a substrate contained in sample liquid is provided. This method can reduce measurement errors caused by a biosensor. The biosensor includes at least a pair of electrodes on an insulating board and is inserted into a measuring device which includes a supporting section for supporting detachably the biosensor, plural connecting terminals to be coupled to the respective electrodes, and a driving power supply which applies a voltage to the respective electrodes via the connecting terminals. One of the electrodes of the biosensor is connected to the first and second connecting terminals of the measuring device only when the biosensor is inserted into the measuring device in a given direction, and has a structure such that the electrode becomes conductive between the first and second connecting terminals due to a voltage application by the driving power supply.

Abstract: There is provided an organic transistor having a bottom gate structure, composed of a substrate, a gate electrode, a gate insulating layer, source and drain electrodes and an organic semiconductor layer, wherein the gate insulating layer is formed so as to have a low surface energy in a portion thereof in proximity to the source and drain electrodes and a relatively high surface energy in a portion in proximity to the gate electrode, and consist of different compositions in a layer thickness direction, whereby an organic transistor has a short channel and high electric characteristics; as well as a method of manufacturing the organic semiconductor.

Abstract: A polishing apparatus comprises a polishing plate (24), an abrasive cloth (25) attached to the surface of the polishing plate (24), a chuck (19) for holding and pressing one surface of a wafer (39) against the abrasive cloth (25), and a circular retaining ring (23) concentrically arranged on the periphery of the chuck (19). The retaining ring (23) is rotatable and vertically movable with respect to the chuck (19), and is pressed against the abrasive cloth (25) during the lapping step. The retaining ring (23) is lifted upward during the final polishing step, thereby preventing lapping grains from being brought into the final polishing stage. Accordingly, lapping and final polishing can be successively conducted using the same polishing head. With this structure, cost cutting of the apparatus can be realized, since lapping and final polishing are successively conducted using the same polishing head without bringing the lapping grains used for lapping into the final polishing stage.

Abstract: A producing method for a liquid discharge head having a pressure generation chamber communicating with a discharge port for discharging a liquid, a piezoelectric element provided corresponding to the pressure generation chamber, and a vibration plate provided between the pressure generation chamber and the piezoelectric element, the method including: a preparation step of preparing a flat plate-shaped substrate having a recess on a main surface thereof, a piezoelectric element forming step of forming the piezoelectric element in the recess, a vibration plate forming step of-forming the flat vibration plate on the main surface of the substrate and the piezoelectric element, a pressure generation chamber forming step of forming the pressure generation chamber on the vibration plate, and a removing step of removing the substrate in at least a peripheral portion of the piezoelectric element.

Abstract: A method of manufacturing a liquid discharge head including a pressure generating chamber communicated to a discharge port for discharging liquid and a piezoelectric element which is provided corresponding with the pressure generating chamber and includes a piezoelectric material film and a pair of electrode films sandwiching the piezoelectric material film, including: a step of preparing a structure with a single crystal Si layer being accumulated above a front surface of an Si substrate through an etching stop layer; a step of forming a buffer layer on the above described single crystal Si layer; a step of forming, above the above described buffer layer, the above described piezoelectric material film consisting of a single crystal thin film or a thin film which is directed in a preferential orientation to a direction of the polarization through one of the above described pair of electrode films; a step of forming the above described pressure generating chamber on the above described piezoelectric material

Abstract: According to the standard solution and the determination method of the present invention, in a case where a voltage is applied by a drive voltage of a measurement apparatus to an electrode portion of a biosensor comprising an electrode portion including a counter electrode and a measuring electrode formed on an insulating substrate, and a reagent layer which reacts with a sample solution supplied to the electrode portion, and a current value which flows at the application is measured, thereby determining a substrate contained in the sample solution, a reducing substance is contained in the standard solution used for controlling a precision of measurement of the measurement apparatus. Therefore, when the standard solution is measured, a large change occurs in a current waveform between time t0 and t1 shown in FIG. 6 due to the reducing substance, thereby discriminating whether the analyte liquid being measured is the standard solution or the sample solution and easily identifying the kind of analyte liquid.

Abstract: In a biosensor for measuring a specific substance in a liquid sample, one or a combination of sugar alcohol, metallic salt, organic acid or organic acid salt which has at least one carboxyl group in a molecule, and organic acid or organic acid salt which has at least one carboxyl group and one amino group in a molecule, is included in a reagent layer provided on electrodes, thereby providing a highly-accurate biosensor which is excellent in stability and has high response (sensitivity, linearity) of the sensor to the substrate concentration.

Abstract: In a biosensor for measuring a specific substance in a liquid sample, one or a combination of sugar alcohol, metallic salt, organic acid or organic acid salt which has at least one carboxyl group in a molecule, and organic acid or organic acid salt which has at least one carboxyl group and one amino group in a molecule, is included in a reagent layer provided on electrodes, thereby providing a highly-accurate biosensor which is excellent in stability and has high response (sensitivity, linearity) of the sensor to the substrate concentration.