Patent application number | Description | Published |
20080231246 | Current Detection Circuit, Load Drive Circuit, and Memory Storage - A stable high-precision current detection circuit capable of continuously detecting load current through a load with extremely reduced power loss. The current detection circuit has a power transistor and a current detection transistor that are fed with a common power supply voltage and a common switching signal. A buffer circuit is provided for supplying an idling current to the output node of the current detection transistor while realizing the same virtual potential at the output terminals of these transistors. Thus, the buffer circuit always functions as a class-A amplifier. | 09-25-2008 |
20080252240 | MOTOR DRIVE CIRCUIT AND METHOD - A motor drive method which supplies a drive current in a pulse form to a multiphase motor, to drive the motor. The motor drive method includes the steps of: generating a pulse signal having a duty ratio in accordance with torque, alternately repeating an ON time-period and an OFF time-period in accordance with the pulse signal, to supply a drive current in a pulse form to a phase coil currently driving, interpolating back electromotive voltage of the OFF time-period (Toff), using a back electromotive voltage (Vu) of the ON time-period (Ton), with respect to the back electromotive voltage (Vu) occurring in at least one coil of the multiphase motor, to generate an interpolated virtual back electromotive voltage (Vu′), detecting a zero-cross point, by comparing the interpolated virtual back electromotive voltage (Vu′) with a midpoint voltage (Vcom) of the coil, to generate a BEMF detection signal (BEMF_EDGE), and switching a phase to be driven, based on the BEMF signal (BEMF_EDGE). | 10-16-2008 |
20090284197 | MOTOR DRIVING CIRCUIT AND LOAD DRIVING APPARATUS WITH PULSE WIDTH MODULATION - When the bit number of an error signal ERR2 is n and the magnitude of the error signal ERR2 is “a” (a is an integer) in decimal notation, a pulse-width modulator generates a PWM signal Spwm as a set of k (k is an integer of 2 or more) continuous sub-pulses. Further, the pulse-width modulator generates k sub-pulses in such a manner that the average value of the duty ratios of the sub-pulses becomes approximately a/2 | 11-19-2009 |
20100007395 | PULSE GENERATOR - At an occasion of a level transition when a second periodic voltage becomes equal to a main reference voltage a first periodic voltage generating circuit starts a first monotonically changing time-period in which a voltage value of a first periodic voltage increases monotonically from 0, which is an initial value, towards a voltage value of the main reference voltage. At an occasion of a level transition of a first main switching signal when the first periodic voltage becomes equal to the main reference voltage, a second periodic voltage generating circuit starts a second monotonically changing time-period in which a voltage value of the second periodic voltage increases monotonically from 0, which is an initial value, towards a voltage value of the main reference voltage. | 01-14-2010 |
20130141154 | OUTPUT CIRCUIT - A low-side off-detection signal compares the gate signal of a low-side transistor with a predetermined first level to generate a low-side off-detection signal indicating that the low-side transistor is off. The low-side detection transistor is of the same type as the low-side transistor, with the source connected to the ground terminal, and the gate receiving the low-side transistor gate signal. A first resistor is arranged between the drain of the low-side detection transistor and the power supply terminal. A first bypass circuit is arranged in parallel with the first resistor, and is configured to switch to the conduction state when a control signal is a level which instructs the low-side transistor to switch off, and to switch to the cut-off state when the control signal level instructs the low-side transistor to switch on. The drain signal of the low-side detection transistor is output as the low-side off-detection signal. | 06-06-2013 |
20130307453 | VARIABLE GAIN AMPLIFIER, CURRENT DETECTING CIRCUIT USING THE SAME, MOTOR DRIVING CIRCUIT AND ELECTRONIC APPARATUS - A variable gain amplifier includes: a first input terminal, a second input terminal and an output terminal; an operational amplifier; a first resistor interposed between the first input terminal and an inverted input terminal of the operational amplifier; second and third resistors interposed between the inverted input terminal and the output terminal; and a fourth variable resistor having a first terminal connected to a node between the second resistor and the third resistor and a second terminal connected to the non-inverted input terminal, wherein the fourth variable resistor includes a resistance pass including a resistor and a switch. | 11-21-2013 |
20130314020 | BRIDGE OUTPUT CIRCUIT, MOTOR DRIVING DEVICE USING THE SAME, AND ELECTRONIC APPARATUS - A bridge output circuit includes an output terminal, a high side transistor, a low side transistor, a high side driver for controlling a gate voltage of the high side transistor, a low side driver for controlling a gate voltage of the low side transistor, and a controller for controlling the high side and low side drivers. The low side driver includes a first current source, a second current source, and a first assist circuit. The controller is configured to control the turning-on and turning-off states of the first current source, the second current source and the first assist circuit. | 11-28-2013 |
20130320902 | MOTOR DRIVING CIRCUIT AND ELECTRONIC APPARATUS USING THE SAME - A motor driving circuit for driving a motor, includes: a detecting circuit configured to detect a detection signal indicative of a current state of the motor; a command value generating unit configured to generate a command value indicative of a target state of the motor; an error amplifier configured to generate an error signal by amplifying an error between the detection signal and the command value; a pulse width modulator configured to generate a pulse signal; and an output circuit. The command value generating unit is configured to provide a variation to the command value. | 12-05-2013 |
20140368949 | CLASS-AB AMPLIFIER, MOTOR DEVICE, MAGNETIC DISK STORAGE DEVICE, AND ELECTRONIC APPARATUS - A class-AB amplifier has upper side and lower side transistors, a linear driver, upper side and lower side idlers, upper side and lower side detection current generators, and an off driver. The upper side and lower side idlers bias upper side and lower side gate voltages by generating upper side and lower side bias currents so as to turn on the upper side and the lower side transistors at the same time in the crossover region between an input voltage and a reference voltage respectively. The upper side detection current generator and the lower side detection current generator generates upper side and lower side detection currents in accordance with upper side and lower side bias currents respectively. The off driver controls the lower side gate voltage so as to reduce a degree of conduction of the lower side transistor as the upper side detection current is larger, and controls the upper side gate voltage so as to reduce a degree of conduction of the upper side transistor as the lower side detection current is larger. | 12-18-2014 |
Patent application number | Description | Published |
20080247734 | MOTOR DRIVING CIRCUIT - A motor driving circuit drives a motor on receipt of an error signal having a digital value corresponding to a deviation between a current rotation speed of the motor, which is the subject to be driven, and its target value. A digital filter eliminates a high-frequency component of the error signal. A driving unit controls an electric current flowing through the motor in accordance with the digital value of the error signal from which the high-frequency component is eliminated by the digital filter. An upper-limit value setting unit sets an upper limit value to the digital value of the error signal input to the digital filter. The upper-limit value setting unit is configured to be capable of changing the upper limit value in accordance with a setting signal from the outside. | 10-09-2008 |
20110031918 | Output circuit - A power transistor is arranged between an output terminal and a power supply terminal. A pre-driver includes a high-side transistor and a low-side transistor connected in series between the power supply terminal and a second terminal, and the ON/OFF operations of which are controlled in a complementary manner according to a control signal. The electric potential at a connection node between the two transistors is output to a control terminal of the power transistor. A constant voltage circuit stabilizes the second terminal to a predetermined voltage. An output transistor for the constant voltage circuit is provided between the second terminal and the ground terminal. A differential amplifier adjusts the voltage applied to the control terminal of the output transistor such that the electric potential at the second terminal approaches a predetermined target value. A feedback capacitor is provided between the second terminal and the control terminal of the output transistor. | 02-10-2011 |
20110187302 | SEMICONDUCTOR DEVICE - Multiple pads are provided to a semiconductor chip of a semiconductor device. A first pad is arranged on a path for a first signal set to a voltage that corresponds to a first level in the active state. The first signal is input to the semiconductor chip from outside the semiconductor device, or is output to outside the semiconductor device from the semiconductor chip. A second pad is provided in order to receive a setting voltage. A first pin is connected to a first pad via a connection member, and receives the first signal from outside the semiconductor device, or from the semiconductor chip via the first pad. A second pin receives, from outside, a second signal set to a voltage that corresponds to the first level or a second level which is the complement of the first level. | 08-04-2011 |
20110187439 | OUTPUT CIRCUIT - A low-side off-detection signal compares the gate signal of a low-side transistor with a predetermined first level to generate a low-side off-detection signal indicating that the low-side transistor is off. The low-side detection transistor is of the same type as the low-side transistor, with the source connected to the ground terminal, and the gate receiving the low-side transistor gate signal. A first resistor is arranged between the drain of the low-side detection transistor and the power supply terminal. A first bypass circuit is arranged in parallel with the first resistor, and is configured to switch to the conduction state when a control signal is a level which instructs the low-side transistor to switch off, and to switch to the cut-off state when the control signal level instructs the low-side transistor to switch on. The drain signal of the low-side detection transistor is output as the low-side off-detection signal. | 08-04-2011 |
20110285331 | OSCILLATOR CIRCUIT WITH FREQUENCY SWEEP FUNCTION - With an oscillator circuit with a frequency sweep function, a first counter counts a reference clock for a number of counts that corresponds to a digital first setting signal, and generates a first count completion signal which is asserted on completion of the count. A D/A converter converts a digital second setting signal into an analog control voltage. A VCO oscillates with a frequency according to the control voltage. When the first count completion signal is asserted, the VCO is reset. An output combining unit receives the output signal of the VCO, generates the output signal of the oscillator circuit, and generates the first setting signal and the second setting signal. | 11-24-2011 |
Patent application number | Description | Published |
20110181753 | IMAGE CAPTURE APPARATUS AND ZOOMING METHOD - An image capture apparatus comprises an X-Y address scan type image sensor; a flicker detector configured to detect a flicker of a light source; a switch configured to switch the image sensor between a first state in which the image sensor is driven by a first driving method which comprises reading out a pixel signal within a range of a first angle of view and a second state in which the image sensor is driven by a second driving method which comprises reading out a pixel signal within a range of a second angle of view narrower than the first driving method; and a controller configured to control the switch so as to drive the image sensor by the first driving method while the flicker detector is detecting the flicker and to drive image sensor by the second driving method when the flicker detector has completed flicker detection. | 07-28-2011 |
20120274827 | IMAGING APPARATUS AND METHOD FOR CONTROLLING THE SAME - An imaging apparatus receives an instruction to recapture an image last captured in a multiple exposure shooting mode after a first number of images in the multiple exposure shooting mode are acquired. The imaging apparatus generates an image into which an image captured in the multiple exposure shooting mode and a second number of images are multiple combined, the second number of images being the first number of images excluding the image last captured. The imaging apparatus displays, on a display unit, a first image obtained by multiple combining the first number of images and a second image obtained by multiple combining the second number of images after the first number of images are acquired in the multiple exposure shooting mode and before the instruction to recapture the image is received. | 11-01-2012 |
20130194393 | IMAGING APPARATUS AND METHOD FOR CONTROLLING SAME - An imaging element is configured by arranging a plurality of light receiving elements with respect to each micro lens. A second PD selecting/composing unit has a mode for generating right-eye image data and left-eye image data from the output signal of the imaging element. A phase difference detecting unit detects a phase difference from right-eye image data and left-eye image data. A movement detecting unit detects the movement of an object from right-eye image data or left-eye image data. A CPU calculates an object position based on both the result of phase difference detection and the result of movement detection and drives a focus lens via a driving unit to thereby control focus adjustment. | 08-01-2013 |
20140125861 | IMAGING APPARATUS AND METHOD FOR CONTROLLING SAME - An imaging apparatus including an imaging element that includes a pixel portion sets a first readout area and then performs detection processing for detecting the phase difference of an image signal read out from the area to thereby output the reliability of the phase difference. If the imaging apparatus determines that phase difference detection has been successful, the imaging apparatus executes focus adjustment processing based on the detected phase difference. If the imaging apparatus determines that the phase difference has failed to be detected, the imaging apparatus sets a second readout area having a range wider than that of the first readout area as a readout area, and then sets an area other than an area which is included in the first readout area from the second readout area and is used for generating a display image as a trimming target. | 05-08-2014 |
20140333800 | IMAGING APPARATUS, CONTROL METHOD, AND PROGRAM - Included is an imaging unit that outputs images by imaging a subject, a light amount adjustment unit that drives a light amount adjustment member to adjust the amount of light input to the imaging unit, a control unit that controls the imaging unit so that after a first image is output by the imaging unit, a second image having an exposure amount different from that of the first image is output, and a setting unit that sets the difference in the exposure amount between the first image and the second image. The first image and the second image are images used for compositing. The setting unit sets the difference in the exposure amount between the first image and second image so that the relative relationship in the exposure amount between the first image and the second image imaged when the light amount adjustment unit is operating is the same as the relative relationship in the exposure amount between the first image and the second image imaged when the light amount adjustment unit is not operating. | 11-13-2014 |
20150015774 | IMAGE CAPTURING APPARATUS, CONTROL METHOD, and PROGRAM THEREOF - An image capturing apparatus includes an image capturing unit which captures an image of an object and outputs an image, a switching unit which switches modes between a first mode in which the image capturing unit outputs a first image and then outputs a second image having an exposure value different from the first image, and a second mode in which the image capturing unit continuously outputs an image not used for compositing, an exposure control unit which controls an exposure value for capturing an image of an object, following change in object luminance, when a parameter related to change in object luminance exceeds a predetermined range in which an exposure value for capturing an image of the object is not controlled to follow the change in object luminance, and a setting unit which sets the predetermined range. | 01-15-2015 |
Patent application number | Description | Published |
20080241686 | Lead Storage Battery - A lead storage battery of the present invention has an electrode plate pack comprising a plurality of negative electrode plates in each of which a negative electrode active material layer is retained by a negative electrode grid, a plurality of positive electrode plates in each of which a positive electrode active material layer is retained by a positive electrode grid, and a plurality of separators separating the positive electrode plate and the negative electrode plate; a positive electrode connecting member connected to each positive electrode plate of the electrode plate pack, and a negative electrode connecting member connected to each negative electrode plate of the electrode plate pack. The positive and negative electrode grids, and the positive and negative electrode connecting members comprise a Pb alloy including at least one of Ca and Sn; the negative electrode active material layer includes Sb; and the separator includes silica. | 10-02-2008 |
20100181828 | ELECTRIC POWER SOURCE DEVICE FOR VEHICLE - An electric power source device is used in a vehicle equipped with a generator and a battery. The device includes a current detector for detecting a first current flowing in the battery, a DC-DC converter, a capacitor connected to the generator via the DC-DC converter, and a controller. The controller determines the state of charge of the battery based on a first input current detected by the current detector, and detects the running condition of the vehicle. When the vehicle decelerates, the controller controls, based on the determined state of charge of the battery, a second input current input to the capacitor via the DC-DC converter. Thereby, a regenerative electric power generated by the generator is used during the deceleration of the vehicle according to the SOC, thus utilizing the energy that is not conventionally. | 07-22-2010 |
20110300434 | LEAD-ACID BATTERY - [Purpose] It is a purpose of the present invention to provide a lead-acid battery for use in idle reduction operation in which both excellent life characteristics and suppression of corrosion of negative-electrode grid ears are achieved by suppressing variations in SOC between cells. | 12-08-2011 |
20150180040 | LEAD-ACID STORAGE BATTERY GRID AND LEAD-ACID STORAGE BATTERY - A lead-acid battery grid used for an electrode of a lead-acid battery, wherein the lead-acid battery grid is made of a Pb alloy containing at least one of Sn or Ca, and includes an upper frame constituting an upper side of the lead-acid battery grid, a lower frame constituting a lower side of the lead-acid battery grid, and a meshed part being present between the upper frame and the lower frame and including intersecting strands, a ratio Wu/W of a mass Wu of an upper half of the meshed part to a total mass W of the meshed part is 62.5% or higher and 67% or lower, and a cover layer containing a larger amount of Sn than the strands is formed on at least part of a surface of the strands, and the cover layer is not formed on a surface of the lower frame. | 06-25-2015 |
Patent application number | Description | Published |
20120241137 | COOLING UNIT - A cooling unit includes a tank having an inlet port and a discharge port for refrigerant, first and second radiators connected to the tank, the first and second radiators each having a flow path, an inlet chamber defined in the tank for supplying the refrigerant flowing therein from the inlet port to the first radiator, a discharge chamber defined in the tank for discharging the refrigerant cooled in the second radiator to the discharge port, and a reservoir in which bubbles generated in the refrigerant are collected, the reservoir being provided between the inlet chamber and the discharge chamber in the tank. | 09-27-2012 |
20130020057 | COOLING UNIT - A cooling unit includes: a flow path that circulates coolant; and a tank that stores the coolant, the tank including a plurality of side walls, an inlet that is provided in a first side wall of the plurality of side walls and through which the coolant is caused to flow in, an outlet that is provided in a second side wall other than the first side wall and located below the inlet and through which the coolant is discharged, and an overhanging portion provided on the inner wall surface of the second side wall and located above the outlet. | 01-24-2013 |
20130020058 | COOLING UNIT - A cooling unit includes: at least one pump that circulates coolant; a tank having a first inlet through which coolant is caused to flow in and at least one first outlet through which the coolant is expelled to the at least one pump; and an air bubble accumulating portion provided in an upper part of the tank, wherein the first inlet is disposed at a position such that the coolant is caused to flow into the air bubble accumulating portion, and the at least one first outlet is provided below the air bubble accumulating portion. | 01-24-2013 |
20140078698 | ELECTRONIC APPARATUS - An electronic apparatus includes: a casing; a conductive film disposed on an inner surface of the casing, the conductive film having a recess in a surface thereof; a circuit board accommodated in the casing; a semiconductor device disposed on the circuit board; and a conductive frame fixed around the semiconductor device on the circuit board, the conductive frame being fitted in the recess. | 03-20-2014 |
20140324380 | INFORMATION PROCESSING APPARATUS AND COOLING PERFORMANCE EVALUATION METHOD - A calculating unit calculates, using information indicating temperatures of a fluid mixture at individual locations across a space, heat quantities transferred to the fluid mixture at the individual locations. The fluid mixture is a blend of a plurality of fluids allowed to flow in by a plurality of cooling apparatuses. The calculating unit calculates heat quantities transferred to each of the fluids at the individual locations based on the heat quantities transferred to the fluid mixture at the individual locations, a velocity distribution of the fluid mixture, and flow rate distributions of the individual fluids. The calculating unit evaluates, using the heat quantities transferred to each of the fluids at the individual locations, the degree of contribution of each of the cooling apparatuses to cooling of an object disposed in the space. | 10-30-2014 |
Patent application number | Description | Published |
20090175010 | Method of repair of electronic device and repair system - A repair system which prevents heating of weakly heat resistant devices together and causing deterioration of the quality when preheating a first surface of the circuit board, wherein an electromagnetic induction material is buried in advance inside the circuit board near a specific electronic device envisioned as needed repair when becoming a defective electronic device in a production process and an electromagnetic coil emitting electromagnetic waves to an electromagnetic induction member in the vicinity of the repair device is provided and the heat generated by the electromagnetic induction member due to the electromagnetic waves enables the repair device to be heated and detached from the circuit board. | 07-09-2009 |
20110272121 | COOLING JACKET AND ELECTRONIC DEVICE HAVING THE SAME - A cooling jacket includes: first and second pipe portions through which a coolant flows; and a main portion connected with side surfaces of the first and second pipe portions, defining, with a single member, a flow path through which the coolant flows, and cooling an object to be cooled. | 11-10-2011 |
20110272128 | RADIATOR AND ELECTRONIC DEVICE HAVING THE SAME - A radiator includes: a tube through which a coolant flows; and a single tank including: a supplying chamber communicating with an end of the tube, for supplying the tube with the coolant; and a collecting chamber communicating with the other end of the tube, partitioned to the supplying chamber, and for collecting the coolant discharged from the tube. | 11-10-2011 |
20120033382 | HEAT SINK, LIQUID COOLING UNIT, AND ELECTRONIC APPARATUS - A heat sink for absorbing heat which is generated by an electronic module by using a coolant which flows in its internal portion, comprises a housing which is provided with, in its internal portion, a first surface which is located in the vicinity of the electronic module and a second surface which faces the first surface and comprises fins which extend from the first surface toward the second surface, wherein a projecting portion projecting from the second surface toward the first surface is formed at the second surface, between the top edges of the fins on the second surface side and the second surface. | 02-09-2012 |
20120055654 | Radiator and electronic apparatus having coolant pathway - A radiator includes a core unit, which includes a flow inlet which coolant enters, a flow outlet from which the coolant exits, a plurality of coolant pathways including at least an outer coolant pathway, an inner coolant pathway, a branching point, and a merging point, the outer coolant pathway being disposed to surround the inner coolant pathway, the coolant being divided at the branching point and merging at the merging point, and a connecting pathway to connect between the merging point of the outer coolant pathway and the branching point of the inner coolant pathway, wherein the flow inlet is in communication with a branching point of an outermost one of the plurality of coolant pathways, and the flow output is in communication with a merging point of an innermost one of the plurality of coolant pathways. | 03-08-2012 |
20120055655 | HEAT SINK, LIQUID COOLING UNIT, AND ELECTRONIC APPARATUS - A heat sink for absorbing heat which is generated by an electronic module by a coolant which flows through its internal portion, provided with a first heat sink part which is contiguous with the electronic module, a second heat sink part which is contiguous with the electronic module, and a heat discharger which is arranged spaced from the first heat sink part and second heat sink part at an opposite side from the electronic module and which is arranged in a flow path between the first heat sink part and second heat sink part. | 03-08-2012 |
20140334095 | RADIATOR AND ELECTRONIC DEVICE HAVING THE SAME - A radiator includes: a tube through which a coolant flows; and a single tank including: a supplying chamber communicating with an end of the tube, for supplying the tube with the coolant; and a collecting chamber communicating with the other end of the tube, partitioned to the supplying chamber, and for collecting the coolant discharged from the tube. | 11-13-2014 |
Patent application number | Description | Published |
20100195345 | VEHICLE LIGHTING DEVICE - A vehicle lighting device is provided, and includes a mount member, a semiconductor-type light source, a reflector, and screws. Mounting boss portions in which the screws are to be threaded are provided at the mount member. At the reflector, through holes into which the screws are to be inserted are provided for the mounting boss portions. A hollow axle portion, which rotatably engages with one of the mounting boss portions from the outside, is provided at an edge of one of the through holes of the reflector. As a result, this vehicle lighting device allows the reflector to be mounted on the mount member having the semiconductor-type light source mounted thereon, without the semiconductor-type light source and the reflector interfering with each other. | 08-05-2010 |
20110249461 | VEHICLE HEADLAMP - A vehicle headlamp according to the present invention is provided with: a semiconductor-type light source | 10-13-2011 |
20110280030 | VEHICLE LIGHTING DEVICE - According to the present invention, additional reflection surfaces | 11-17-2011 |
20110286231 | VEHICLE LIGHTING DEVICE - It is important to securely fix a semiconductor-type light source | 11-24-2011 |
20130070469 | VEHICLE LIGHTING DEVICE - The vehicle lighting device includes a heat sink, a light emitting element, a reflection plate, and a light leakage processing plate. The light leakage processing plate is disposed at a peripheral edge part on a side of the first direction of the reflection plate, and is configured so as to scatter light leakage that is not reflected on the reflection plate from among beams of the light from the light emitting element. The light leakage processing plate is disposed so as to have a gap T with respect to the peripheral edge part of the reflection plate, and is configured so as to be extended over the peripheral edge part of the reflection plate on a side of the second direction and on a side of an opposite direction to the second direction. | 03-21-2013 |
Patent application number | Description | Published |
20080264362 | ELECTROMAGNETICALLY DRIVEN VALVE - An electromagnetically driven valve operated by electromagnetic force includes a stem, a driven valve, a swing member, and a first and second electromagnet. The first electromagnet and the second electromagnet include: a first and second core made of magnetic material, respectively; and a first and second coil, respectively, which are wound around the first core and the second core, respectively. The first coil and the second coil have the same number of turns, and are connected with each other. A magnetic path width of the second core is larger than a magnetic path width of the first core. When the swing member is located at a neutral position at which the swing member is in contact with neither the first electromagnet nor the second electromagnet, the distance between the second core and the swing member is smaller than the distance between the first core and the swing member. | 10-30-2008 |
20080308052 | Electromagnetically-driven valve - An electromagnetically-driven valve includes: intake valves that are arranged side by side; a disk that pivots using applied electromagnetic force to reciprocate the intake valves in a predetermined direction; and a connection member that connects the intake valves to each other. The connection member is provided with a needle bearing into which the pivot motion of the disk is input. The pivot motion of the disk causes a displacement between the needle bearing and the disk in a direction that intersects with the predetermined direction. An oil passage through which oil is supplied to the needle bearing is formed in the connection member. | 12-18-2008 |
20080314341 | Electromagnetically-driven valve - An electromagnetically-driven valve includes intake valves that are provided in a gasoline engine and that are arranged side by side; a valve plate that connects the intake valves to each other, wherein driving force that is generated by electromagnetic force is transferred to the valve plate; and a changing mechanism that is fitted to the valve plate. The changing mechanism changes the valve drive state between the two-valve drive state, in which both of the intake valves are driven, and the one-valve drive state, in which one of the intake valves is driven and the other intake valve is stopped. | 12-25-2008 |
20110042437 | WEB CONVEYING APPARATUS AND WEB CONVEYING CONTROL METHOD - A web conveying apparatus that conveys a web, includes: a transverse position displacement detection unit that detects a transverse position displacement of the web; a transverse position correction unit that corrects a transverse position of the web by a guide roller; width detection units that detect a width size in a left-right direction of the web; and a control unit that controls the transverse position correction unit in accordance with the transverse position displacement detected by the transverse position displacement detection unit and performs feedback control to position the web in a target position. The control unit changes a correction amount in the feedback control in accordance with the width size of the web detected by the width detection units. | 02-24-2011 |
20130260019 | LAYER-ON-LAYER COATING DEVICE AND DOUBLE-SIDED COATING DEVICE, METHOD FOR PRODUCING ELECTRODE PLATES, AND METHOD FOR PRODUCING BATTERIES - The layer-on-layer coating device of an embodiment of the invention that conveys band-shaped substrates in the longitudinal direction thereof and coats two kinds of coating materials successively on the substrate comprises: a first coating unit that coats a first coating material on one surface of the substrate; a second coating unit that coats, without drying the first coated material in a drying furnace, a second coating material by a contactless method on the first coating material coated on the one surface by the first coating unit; and a feed roller that is disposed on the downstream side, in the direction of substrate conveyance, of the second coating unit and is driven by a driving source. It is thereby possible to apply a stable tension on the substrate while stably coating two layers of coating materials layer-on-layer using respective coating units and to produce electrode plates and batteries of stable properties. | 10-03-2013 |