Patent application number | Description | Published |
20100195104 | MICROSCOPE AND AN OBSERVATION METHOD IN THE MICROSCOPE - In a cavity mode of a cavity, a diameter of a mode waist is decreased so that the diameter is similar to a wavelength of an electromagnetic wave resonant with the cavity mode, when a material is located in the cavity. The material includes a physical system having two quantum states. A relative position between the material and the mode waist is scanned along three-directions unparallel mutually. A laser coupled with the cavity mode is input to the cavity. An intensity of at least one of a reflected light and a transmitted light of the laser from the cavity is measured. | 08-05-2010 |
20100251049 | QUANTUM COMPUTING METHOD AND A QUANTUM COMPUTER - In an operation of two qubit gate having failure information related to success or failure, by using a code to concatenate N-error-correcting code transversally executing a Pauli gate, a Hadamard gate and a CNOT gate, an error-correction is executed by an error-correcting teleportation, and the CNOT gate is executed to an encoded qubit by the error-correcting teleportation. In Bell measurement of the error-correcting teleportation, when a measurement result of non-encoded qubit is processed, by suitably defining failure information of the encoded qubit of level (l+1) from the failure information of encoded qubits of level l, the measurement result of the encoded qubit of each level is determined, and the failure information of the encoded qubit of each level is defined. As a result, a measurement result of a logical qubit as the encoded qubit of the highest level is determined. | 09-30-2010 |
20120069414 | OPERATING METHOD FOR STIMULATED RAMAN ADIABATIC PASSAGE AND OPERATING METHOD FOR PHASE GATE - An operating method for stimulated Raman adiabatic passage to change probability amplitude in a three-level system including states of |0>, |1> and |e>, includes the following two steps. One is to direct a first laser beam and a second laser beam which have frequencies in the vicinity of resonance frequencies corresponding to energy differences between |0> and |e> and between |1> and |e>, respectively. The other is to change temporally two-photon detuning to be a difference between first detuning and second detuning. The first detuning is a difference between a first energy difference and a frequency of the first laser beam. The first energy difference is a difference between energy of |0> and energy of |e>. The second detuning is a difference between a second energy difference and a frequency of the second laser beam. The second energy difference is a difference between energy of |1> and energy of |e>. | 03-22-2012 |
20120268824 | MIRROR - According to one embodiment, a mirror includes a plurality of dielectric layers stacked in a first direction. A thickness along the first direction of each of the dielectric layers is half a design wavelength. The dielectric layers include a first dielectric layer. The first dielectric layer includes a first portion with a thickness being ⅛ of the design wavelength, a second portion stacked with the first portion with a thickness being ⅛ of the design wavelength, and a third portion provided between the first and second portions with a thickness being ¼ of the design wavelength. The second portion has a refractive index lower than that of the first portion. The third portion has a refractive index gradually decreasing from a side of the first portion toward a side of the second portion. | 10-25-2012 |
Patent application number | Description | Published |
20100026259 | DC-DC CONVERTER INTEGRATED CIRCUIT AND DC-DC CONVERTER - A DC-DC converter integrated circuit includes: a switching terminal; a feedback terminal; a high-side transistor operable to output a voltage through the switching terminal in ON state; a voltage sensor operable to compare voltage at the switching terminal with a first reference voltage; an error amplifier operable to generate an error signal from voltage at the feedback terminal and a second reference voltage; and a control circuit on detecting the voltage at the switching terminal higher than the first reference voltage in OFF state of the high-side transistor using the voltage sensor, operable to make the high-side transistor turn off in a next period after detecting the voltage at the feedback terminal higher than the second reference voltage using the error signal, and turn on in a next period after detecting the voltage at the feedback terminal lower than the second reference voltage using the error signal. | 02-04-2010 |
20110012576 | POWER SUPPLY CIRCUIT AND RECEIVING APPARATUS - A power supply circuit includes: a DC-to-DC converter outputting a first voltage dropped from an input supply voltage; and a series regulator outputting a second voltage dropped from an output of the DC-to-DC converter, the series regulator including: an output transistor supplied with the output of the DC-to-DC converter and outputting the second voltage, and a first control circuit operated by the input supply voltage and controlling the output transistor. | 01-20-2011 |
20110156678 | SEMICONDUCTOR DEVICE AND DC-TO-DC CONVERTER - In general, according to one embodiment, a semiconductor device includes a device main body, a semiconductor substrate. The device main body includes a semiconductor substrate mounting part and a first conductor provided around the semiconductor substrate mounting part. The semiconductor substrate includes a DC-to-DC converter control circuit having a detector to detect at least one of a current flowing through the first conductor and a voltage supplied to the first conductor. The semiconductor substrate is disposed on the semiconductor substrate mounting part so that the detector comes close to the first conductor. | 06-30-2011 |
20120062191 | DC-TO-DC CONVERTER - In general, according to one embodiment, a DC-to-DC converter includes a high-side switch, a low-side switch, a diode, a high-side controller and a low-side controller. The low-side switch is connected in series with the high-side switch. The diode is connected in parallel with the low-side switch. The high-side controller has a detector for detecting a current of the high-side switch and controls the high-side switch to be turned on or off in accordance with an output of the detector. The low-side controller controls the low-side switch to be turned off when the high-side switch is ON and controls the low-side switch to be turned on or off in accordance with a peak value of the output of the detector when the high-side switch is OFF. | 03-15-2012 |
20120176108 | DC-TO-DC CONVERTER - According to one embodiment, a DC-to-DC converter includes a high-side switch, a low-side switch, a high-side controller, and a low-side controller. The low-side switch is connected to the high-side switch in series. The high-side controller is configured to control the high-side switch. The low-side controller includes a first detector and an offset canceller. The first detector is configured to detect a current of the low-side switch. The offset canceller is configured to hold an output of the first detector as an offset voltage when the low-side switch is off and compensate an output of the first detector by the offset voltage when the low-side switch is on. The low-side controller is configured to compare a compensated output of the first detector with a reference voltage and turn off the low-side switch. | 07-12-2012 |
20120242305 | SWITCHING CIRCUIT AND DC-TO-DC CONVERTER - According to one embodiment, a switching circuit includes a high-side switch, a low-side switch, and a driver. The high-side switch is connected between a power supply terminal and an output terminal. The low-side switch is connected between the output terminal and a ground terminal. The driver is configured to turn off any one of the high-side switch and the low-side switch according to a control signal. The driver is configured to supply a first voltage to a control terminal of one other switch in a first period to turn on the one other switch, and supply a second voltage higher than the first voltage to the control terminal of the one other switch after the first period. | 09-27-2012 |
20120313600 | SWITCHING CIRCUIT AND DC-TO-DC CONVERTER - According to one embodiment, a switching circuit includes a high-side switch, a rectifier, and a driver. The high-side switch is connected between a high potential terminal and an output terminal. The rectifier is connected between the output terminal and a low potential terminal, forward direction of the rectifier is a direction from the low potential terminal to the output terminal. The driver is connected between the high potential terminal and the output terminal. The driver switches a high-side switch ON based on a high-side control signal. The driver switches the high-side switch OFF when a first short detector detects shorts of the output terminal with the low potential terminal after a first period longer than a backward recovery time of the rectifier until the high-side control signal changing. | 12-13-2012 |
20130010199 | SEMICONDUCTOR DEVICE, DC-TO-DC CONVERTER, AND RECEIVER - According to one embodiment, a semiconductor device includes a semiconductor element mounting unit, a first conductor, a semiconductor element, a first connection and a second connection. The first conductor is provided around the semiconductor element mounting unit. The semiconductor element is provided on the semiconductor element mounting unit and includes a first switch element and a second switch element provided parallel to the first switch element. The first connection and the second connection are provided on the first switch element side of an imaginary boundary line obtained by extending a boundary between the first switch element and the second switch element. The first connection and the second connection are electrically connected to the first switch element and the second switch element, respectively, and electrically connected to the first conductor. | 01-10-2013 |
20130038307 | SWITCHING CIRCUIT AND DC-TO-DC CONVERTER - According to one embodiment, a switching circuit includes a high-side switch, a rectifier, and a driver. The high-side switch is connected between a high potential terminal and an output terminal. The rectifier is connected between the output terminal and a low potential terminal, and forward direction of the rectifier is the direction from the low potential terminal to the output terminal. The driver supplies a first voltage to a control terminal of the high-side switch in accordance with a high-side control signal and turns the high-side switch on. The driver supplies a second voltage being higher than the first voltage to the control terminal of the high-side switch when the voltage of the output terminal increases to not less than a predetermined value. | 02-14-2013 |
20130229160 | OPERATION CONTROLLER, DC-DC CONVERTER CONTROLLER, AND DC-DC CONVERTER - An operation controller has a reference voltage generator, a starter circuit, and a switch element. The reference voltage generator is connected to an enable terminal to which an enable signal is supplied. After the enable signal is supplied and a start signal is generated, the reference voltage generator generates a reference voltage up to a stable value. After the reference voltage rises to the stable value, it generates a stop signal. When the enable signal is supplied, the starter circuit generates the start signal, and supplies it to the reference voltage generator. When the enable signal is no longer supplied or the stop signal is generated, the start signal is terminated. The switch element has one end connected to the enable terminal and the other end supplied with a prescribed voltage; it turns on when the start signal is generated, and turns off when the start signal is terminated. | 09-05-2013 |
20130249294 | REGULATOR - The regulator has a differential circuit that generates a comparison signal corresponding to the difference between an input voltage and a voltage related to the output voltage, a first transistor that adjusts the output voltage in accordance with the comparison signal, a first current mirror circuit connected to a pair of differential output lines of the differential circuit, a second transistor that amplifies the high frequency signal superposed on the output voltage and sends the amplified signal to one of the differential output lines, a second current source that feeds current for amplifying the high frequency signal to the second transistor, a first capacitor, which accumulates charge therein as a result of the high frequency signal and controls the current flowing to one the pair of differential output lines via the second transistor in accordance with the charge quantity, and a second capacitor connected to the output voltage line. | 09-26-2013 |
20130249512 | SEMICONDUCTOR DEVICE AND DC-TO-DC CONVERTER - In general, according to one embodiment, a semiconductor device includes a device main body, a semiconductor substrate. The device main body includes a semiconductor substrate mounting part and a first conductor provided around the semiconductor substrate mounting part. The semiconductor substrate includes a DC-to-DC converter control circuit having a detector to detect at least one of a current flowing through the first conductor and a voltage supplied to the first conductor. The semiconductor substrate is disposed on the semiconductor substrate mounting part so that the detector comes close to the first conductor. | 09-26-2013 |
20140062432 | POWER SUPPLY APPARATUS - According to one embodiment, the voltage divider circuit divides the output voltage, and generates a feedback voltage. The output voltage switching transistor has one end connected to a feedback voltage side, and operates based on an output voltage switching signal. The first condenser has one end connected to the one end of the output voltage switching transistor, and the other end connected to a control terminal of the output voltage switching transistor. | 03-06-2014 |
20140210435 | Regulator - A regulator includes a first transistor, a first bias circuit, a second bias circuit, a differential circuit having second to fifth transistors, and a current mirror circuit. The first transistor outputs an output voltage lower than the input voltage. The first bias circuit generates a first bias voltage lower than a reference voltage. The second bias circuit generates a second bias voltage lower than a feedback voltage relating to the output voltage. The second transistor into which the reference voltage is inputted and the third transistor into which the feedback voltage is inputted are a pair of differential transistors. The fourth transistor is complementarily connected to the second transistor. The fifth transistor is complementarily connected to the third transistor. The differential circuit outputs a comparison signal to the first transistor. The current mirror circuit is connected to the second and third transistors. | 07-31-2014 |
20160036331 | SEMICONDUCTOR DEVICE AND DC-TO-DC CONVERTER - In general, according to one embodiment, a semiconductor device includes a device main body, a semiconductor substrate. The device main body includes a semiconductor substrate mounting part and a first conductor provided around the semiconductor substrate mounting part. The semiconductor substrate includes a DC-to-DC converter control circuit having a detector to detect at least one of a current flowing through the first conductor and a voltage supplied to the first conductor. The semiconductor substrate is disposed on the semiconductor substrate mounting part so that the detector comes close to the first conductor. | 02-04-2016 |