Patent application number | Description | Published |
20080256781 | Joining method and joined unit - The present invention provides a joining method of metal plates, which can connect two metal plates without a projection in a surface of the metal plates and a gap, and a joined unit having metal plates which are connected without a projection in a surface of the metal plates and a gap between the metal plates. The joined unit has a pair of metal plates. One of the metal plates has a hole, and another metal plate has a projection having a height less than a thickness of the one of the metal plates. The projection passes through the hole, the one of the metal plates is placed on the other of the metal plates each other, and a central part of an end surface of the projection is crushed in the hole. Thereby, the metal plates are joined to each other, and the joined unit can be provided. | 10-23-2008 |
20090068399 | Composite metal sheet, method for joining metal sheets, and device for joining metal sheets - It is an object of the present invention to provide a composite metal sheet having remarkably enhanced electrical property and reliability, a method for preparing the same composite metal sheet, and a device for preparing the same composite metal sheet. Specifically, the present invention provides a composite metal sheet produced by joining two metal sheets together, comprising: a projection formed by cutting the two metal sheets along a cutting line and pressing an area surrounded by the cutting line and a reference line in the two metal sheets, with the two metal sheets overlapping each other, with the reference line remaining uncut, with the cutting line extending from and communicating with both terminals of the reference line while forming a predetermined shape together with the reference line, and with the projection formed at one portion of the area in response to pressure applied to the area; hole generated by forming the projection in the two metal sheets; and a joint disposed between an outer peripheral cutting face of the projection and an inner peripheral cutting face of the hole. | 03-12-2009 |
20110076510 | Metal joint body and apparatus for manufacturing the metal joint body - A miniaturized metal joint body and an apparatus for manufacturing the metal joint body to be improved about strength are provided. By cutting three overlapped metal sheets along a first cutting line and a pair of second cutting lines extending so as to intersect the first cutting line at each end of the first cutting line and pressing areas surrounded with the first cutting line and the pair of second cutting lines and each of a pair of bending lines connecting both ends of the pair of second cutting lines, each of the pairs of projecting members is formed so as to project in a pressing direction of arrow Z. | 03-31-2011 |
Patent application number | Description | Published |
20110128277 | OPERATIONAL AMPLIFIER AND LIQUID CRYSTAL DRIVE DEVICE USING SAME, AS WELL AS PARAMETER SETTING CIRCUIT, SEMICONDUCTOR DEVICE, AND POWER SUPPLY UNIT - The operational amplifier according to the present invention has at least one differential input part for generating a voltage signal corresponding to an electric potential difference between a positive-phase input signal and a negative-phase input signal by using a differential pair configured from a pair of transistors; an output part for generating and outputting an output signal of a logic level corresponding to the voltage signal generated by the differential input part; at least one auxiliary current generator for detecting a sudden change in the positive-phase input signal or the negative-phase input signal and generating an auxiliary current; and a drive current generator for adding together a predetermined reference current and the auxiliary current and generating a drive current of the differential input part. | 06-02-2011 |
20110133711 | SEMICONDUCTOR DEVICE AND SWITCHING REGULATOR USING THE DEVICE - The semiconductor device according to the present invention has an n-channel output transistor wherein an input voltage is impressed on a drain, and a pulsed switching voltage that corresponds to a switching drive of the transistor is brought out from a source; a bootstrap circuit for generating a boost voltage enhanced by a predetermined electric potential above the switching voltage; an internal circuit for receiving a supply of the boost voltage to generate a switching drive signal, and supplying the signal to a gate of the output transistor; an overvoltage protection circuit for monitoring an electric potential difference between the switching voltage and the boost voltage, and generating an overvoltage detection signal; and a switching element for establishing/blocking electrical conduction between the internal circuit and the end impressed with the boost voltage, in accordance with the overvoltage detection signal. | 06-09-2011 |
20110235489 | INFORMATION RECORDING/REPRODUCTION DEVICE AND IMAGE FORMING METHOD - An image formation width calculation circuit and an image formation shift amount determination circuit are provided so that, before a visible image is formed, an effective image formation diameter of an image formation laser spot is measured, and based on the result, a shift amount of the laser spot is adjusted. An optical pickup which forms a plurality of laser spots on an optical disk is also provided. An image formation focus control laser power control circuit and an image formation laser power control circuit are also provided. A focus control laser spot is located ahead of the image formation laser spot. | 09-29-2011 |
20110291626 | SWITCHING POWER SOURCE DEVICE - A switching power source device disclosed in this specification includes a switching power source portion of nonlinear control method to generate an output voltage from an input voltage by performing an ON/OFF control of a switch element according to a comparison result between a feedback voltage and a reference voltage, wherein a ripple component is injected to either one of the feedback voltage and the reference voltage, and an offset control portion to adjust either one of the feedback voltage and the reference voltage for cancelling a DC offset of the output voltage caused by the ripple component. | 12-01-2011 |
20110298780 | REFERENCE VOLTAGE GENERATION CIRCUIT, POWER SOURCE DEVICE, LIQUID CRYSTAL DISPLAY DEVICE - A reference voltage generation circuit of the disclosure includes a first amplifier circuit and a second amplifier circuit. The first amplifier circuit includes a first input stage including two npn transistors or two NMOS transistors having base terminals or gate terminals to which a variable voltage and a predetermined lower limit voltage are inputted. A first output stage includes a pnp transistor or a PMOS transistor having an emitter terminal or a source terminal connected to an output terminal of a reference voltage. A first amplifier stage controls the first output stage for equalizing the higher one of the variable voltage and the lower limit voltage with the reference voltage. The second amplifier circuit includes a second input stage including two npn transistors or two NMOS transistors having base terminals or gate terminals to which the reference voltage and a predetermined higher limit voltage are inputted, a second output stage includes a pnp transistor or a PMOS transistor having an emitter terminal or a source terminal connected to an output terminal for the reference voltage, and a second amplifier stage to control the second output stage for equalizing the reference voltage with the higher limit voltage. | 12-08-2011 |
20120127151 | POWER SUPPLY DEVICE, LIQUID CRYSTAL DRIVE DEVICE, AND LIQUID CRYSTAL DISPLAY DEVICE - The power supply device according to the present invention comprises a first power supply circuit arranged to generate a first output voltage from an input voltage; and a second power supply circuit arranged to generate from the input voltage a second output voltage that is less than the first output voltage, wherein the first power supply circuit performs feedback control of the first output voltage so as to cause a first feedback voltage that corresponds to the first output voltage to match a predetermined reference voltage; and the second power supply circuit performs feedback control of the second output voltage so as to cause a second feedback voltage that corresponds to the second output voltage to match the first feedback voltage. | 05-24-2012 |
20120229707 | DC/DC CONVERTER AND TELEVISION USING SAME - A DC/DC converter | 09-13-2012 |
20120286756 | CONTROL CIRCUIT FOR STEP-UP SWITCHING REGULATOR - A switching transistor is arranged between a switching (SW) terminal and the ground terminal. An error amplifier amplifies the difference between the feedback voltage V | 11-15-2012 |
20130308061 | Switching Power Supply Device - A switching power supply device has a reference voltage generator for generating a reference voltage, a ripple injector for generating a ripple component by use of a pulse voltage indicating the on/off state of a switching element and injecting the ripple component into the reference voltage, an integrated voltage generator for generating an integrated voltage commensurate with the integrated value of the pulse voltage throughout its on- and off-duty periods, a subtractor for lowering according to the integrated voltage the reference voltage before injection of the ripple component or the supply voltage to a buffer that feeds the ripple injector with the pulse voltage after making its pulse height constant, a comparator for comparing a feedback voltage with the reference voltage after injection of the ripple component, and a switching controller for generating an output voltage from an input voltage by non-linear control by turning on and off the switching element according to the output signal of the comparator. | 11-21-2013 |
20130314606 | Switching Power Supply Device - A switching power supply device includes: a non-linear control type switching control unit that, in accordance with a result of a comparison between a feedback voltage and a reference voltage, performs on/off control of a switch element, and thereby generates an output voltage from an input voltage; a backflow current detection unit that, upon detecting a backflow current flowing to the switch element, forcibly switches off the switch element; and an on-time setting unit that sets an on-time of the switch element, in a case of the backflow current not being detected, in accordance with a duty of the switch element, and in a case of the backflow current being detected, in accordance with a switch voltage appearing at one end of the switch element or the output voltage. | 11-28-2013 |
20140036556 | SEMICONDUCTOR DEVICE AND SWITCHING REGULATOR USING THE DEVICE - The semiconductor device according to the present invention has an n-channel output transistor wherein an input voltage is impressed on a drain, and a pulsed switching voltage that corresponds to a switching drive of the transistor is brought out from a source; a bootstrap circuit for generating a boost voltage enhanced by a predetermined electric potential above the switching voltage; an internal circuit for receiving a supply of the boost voltage to generate a switching drive signal, and supplying the signal to a gate of the output transistor; an overvoltage protection circuit for monitoring an electric potential difference between the switching voltage and the boost voltage, and generating an overvoltage detection signal; and a switching element for establishing/blocking electrical conduction between the internal circuit and the end impressed with the boost voltage, in accordance with the overvoltage detection signal. | 02-06-2014 |
20140049237 | SWITCHING POWER SUPPLY DEVICE AND ELECTRONIC APPLIANCE THEREWITH - Provided is a switching power source device in which fluctuation of the switching frequency can be suppressed without impairing the advantages of a non-linear control system. A switching power source device is provided with: switching control units of non-linear control type that generate an output voltage (out) from an input voltage (IN) by performing ON/OFF control of switching elements in accordance with the results of comparing a feedback voltage (FB) and reference voltage (REF); and an ON time setting unit that monitors switching voltage (SW) appearing at one end of the switch terminals, and sets the ON time (Ton) of the switching element in the switching control units based on the duty of the switching voltage (SW). | 02-20-2014 |
20140146238 | SWITCHING POWER SUPPLY DEVICE - A switching power supply device has a switching controller adapted to generate an output voltage from an input voltage by turning on and off a switching device by a non-linear control method according to a comparison signal and a timer signal, a main comparator adapted to generate the comparison signal by comparing a feedback voltage based on the output voltage with a predetermined reference voltage, a timer adapted to output the timer signal as a one-shot pulse when a predetermined fixed period elapses after the switching device is turned from on to off or vice versa, and a reverse current detector adapted to detect a reverse current to the switching device to forcibly turn off the switching device. The timer and the reverse current detector are turned on at a pulse edge in the comparison signal, and are turned off on ending their respective operation. | 05-29-2014 |
20140146426 | OVERVOLTAGE PROTECTION CIRCUIT, POWER SUPPLY DEVICE, LIQUID CRYSTAL DISPLAY DEVICE, ELECTRONIC DEVICE AND TELEVISION SET - An overvoltage protection portion ( | 05-29-2014 |
20160028311 | SWITCHING POWER SUPPLY DEVICE - A power control IC has a switching control circuit of a fixed on-period type which generates an output voltage from an input voltage by driving a coil by turning on and off an output transistor according to a result of comparison between a feedback voltage and a reference voltage, and a quieting circuit which forcibly turns on the output transistor by ignoring the result of comparison when, after an on-timing of the output transistor, a predetermined threshold time elapses without the next on-timing coming. | 01-28-2016 |
Patent application number | Description | Published |
20120006794 | METAL CONNECTING METHOD AND METAL CONNECTING DEVICE - [Problem] To provide a metal connecting method and a metal connecting device to prevent a shot-circuit between the core wire and the shield portion by preventing the insulating inner coat from melting, and to surely connect the shield portion and the conductive member to each other. | 01-12-2012 |
20140086671 | METAL JOINT - Disclosed is a metal joint having improved electrical characteristics and mechanical strength. A center swaged part ( | 03-27-2014 |
20150044495 | COMPOSITE METAL SHEET, METHOD FOR JOINING METAL SHEETS, AND DEVICE FOR JOINING METAL SHEETS - The invention provides a composite metal sheet produced by joining two metal sheets together, comprising: a projection formed by cutting the two metal sheets along a cutting line and pressing an area surrounded by the cutting line and a reference line in the two metal sheets, with the two metal sheets overlapping each other, with the reference line remaining uncut, with the cutting line extending from and communicating with both terminals of the reference line while forming a predetermined shape together with the reference line, and with the projection formed at one portion of the area in response to pressure applied to the area; hole generated by forming the projection in the two metal sheets; and a joint disposed between an outer peripheral cutting face of the projection and an inner peripheral cutting face of the hole. | 02-12-2015 |
20150076116 | METAL CONNECTING METHOD AND METAL CONNECTING DEVICE - The ground terminal is wound around an outer periphery of the coaxial cable. A portion of the ground terminal wound around the coaxial cable is clipped between the pair of electrodes. While the pair of electrodes is pressed in a direction close to each other, a current is applied to the pair of electrodes. The current of a predetermined current value is applied for a predetermined time so that the insulating outer coat | 03-19-2015 |