Patent application number | Description | Published |
20080204105 | Power supply device, signal output apparatus and power supply method - A power supply device capable of suitably reducing a loss even in a case where power is supplied to an output device which outputs a high-frequency signal, a signal output apparatus in which a loss is suitably reduced, and a power supply method capable of suitably reducing a loss. The power supply device has a power supply section which supplies a power supply voltage to an output device which is supplied with the power supply voltage and outputs an output signal, and a voltage control section which controls the power supply section so that the power supply voltage follows the envelope of the output signal from the output device. | 08-28-2008 |
20090256605 | PHASE CONTROLLING APPARATUS, PHASE-CONTROL PRINTED BOARD, AND CONTROLLING METHOD - In response to an input signal, in a first delay line, a delay amount is added to a phase of the input signal by each delay unit. In a DLL circuit, in response to an external signal that can be externally switched to a signal different in frequency is accepted, in a second delay line, a delay amount is added to the phase of the external signal by each delay unit. The phase of a delay signal delayed by all delay units of the second delay line and the phase of the external signal to which no delay amount added are compared to output a phase difference. A control voltage value that is a value for synchronizing the delay signal to be compared by the phase comparator and is generated from the phase difference output from the phase comparator is input to each of the delay units. | 10-15-2009 |
20090295490 | DDS CIRCUIT AND ELECTRONIC DEVICE HAVING THE SAME - A circuit includes a DDS unit deriving a sine wave from a tuning word using a frequency of a reference clock, a first frequency divider dividing the frequency of the reference clock, a second frequency divider dividing a frequency of the sine wave output by the DDS unit, and a mixer mixing the sine wave of a divided frequency with the reference clock of a divided frequency to thus produce the sine wave of a mixed frequency. | 12-03-2009 |
20100052801 | TEMPERATURE CONTROL DEVICE - A thermostatic-chamber temperature control device includes: a heating element for heating a thermostatic chamber; a bridge circuit having a temperature sensitive element whose resistance value varies in accordance with the temperature of the heating element; a detection circuit for detecting an unbalanced voltage of the bridge circuit; a PWM signal generating circuit for generating a PWM signal corresponding to the unbalanced voltage detected by the detection circuit; and a switching element that has a current output terminal connected to the heating element and a current input terminal connected to a power supply circuit and is driven on the basis of the PWM signal generated by the PWM signal generating circuit. | 03-04-2010 |
20100109786 | POWER SUPPLY VOLTAGE OUTPUT CIRCUIT - a power supply voltage output circuit includes: a power supply voltage generation unit generating a power supply voltage to be supplied into a ring oscillator; a reference clock oscillator oscillating a reference clock with respect to a clock oscillated by the ring oscillator; a phase difference detection unit detecting a phase difference between the clock from the ring oscillator and the reference clock from the reference clock oscillator; a filter unit smoothing an output of the phase difference detection unit; and a PWM signal generation unit generating a PWM signal based on an output of the filter unit such that the phase difference approaches zero. | 05-06-2010 |
20100171477 | Power supply device and electronic apparatus - A power supply device includes a first supply section that supplies power according to an extent of a collective load of processing in a processing apparatus for the whole of the processing apparatus which processes data, and further includes a second supply section that supplies, at a place on a supply path through which power is supplied from the first supply section to the processing apparatus, power according to an extent of a load of processing in local in a portion of the processing apparatus to the portion, and supplies power smaller than supplying power of the first supply section. | 07-08-2010 |
20100176779 | Power supply device and electronic apparatus - A power supply device includes: a power supply plane to which a processing circuit is electrically connected to supply electrical power to the processing circuit and in which the processing circuits are connected to each supply place; plural OBP's each of which applies a voltage to the power supply plane to supply electrical power to the processing circuits via the power supply plane; and a power supply control section which controls an application voltage in individual one of the OBP's by reflecting a status of power supplying in other OBP's other than the individual one out of the plural OBP's to uniform a dispersion of voltages between the supply places. | 07-15-2010 |
20100176780 | Power supply device and electronic apparatus - A power supply device includes: a power supply connector which receives supply of power and supplies the power to the outside thereof; plural OBPs which apply voltages to supply power, to each of processing devices to perform processing and to include different types of application voltages planned to be applied, and each of the plural OBPs is supplied with power directly or indirectly from the power supply connector; and a power supply control section that increases and decreases supplying power which each of the OBPs supplies to one processing device out of the plural processing devices according to an extent of a processing load in the one processing device as well as according to an extent of a processing load in another processing device whose application voltage is different from that of the one processing device. | 07-15-2010 |
20100176781 | Power supply device and electronic apparatus - A power supply device includes: a first supply section that supplies power in accordance with an extent of a load in processing in a processing device by applying a voltage to the processing device which processes data; and a second supply section that supplies, to the processing device, power smaller than the supplying power by the first supply section, in accordance with an extent of a load in processing in the processing device to increase and decrease a voltage with respect to the application voltage by the first supply section. | 07-15-2010 |
20100231789 | ANALOG-DIGITAL CONVERTING APPARATUS AND CLOCK SIGNAL OUTPUT APPARATUS - An apparatus includes a voltage controlled oscillator for outputting a clock signal having an oscillation frequency in accordance with an input voltage; a convertor for converting the analog video signal inputted from the exterior into the digital video signal synchronizing with the clock signal outputted from the voltage controlled oscillator; a phase difference detector for detecting a phase difference between the composite synchronizing signal in the analog video signal and a feedback signal which corresponds to the clock signal from the voltage-controlled oscillator; and a voltage control unit for controlling the input voltage of the voltage controlled oscillator to change in response to the phase difference detected by the phase difference detector when the phase difference is within the certain range, and to maintain the input voltage intact when the phase difference is in exceed of the certain range. | 09-16-2010 |
20110018601 | PHASE CONTROL DEVICE, PHASE-CONTROL PRINTED BOARD, AND CONTROL METHOD - A DLL circuit includes a delay line that adds, when receiving a reference signal, a delay amount to the phase of the reference signal by using each delay element and outputs a delay signal for each delay element. The DLL circuit includes a phase detector that compares the phase of a delay signal delayed by all the delay elements and the phase of the reference signal to obtain a phase difference by using the delay signal adjusted by a phase adjustment circuit and the reference signal. The DLL circuit includes a delay element control circuit that inputs a value, by which the delay signal to be compared by the phase detector is synchronized with the reference signal to be compared by the phase detector and which is a control voltage value generated from the phase difference output from the phase detector, into the delay elements of the delay line. | 01-27-2011 |
20110136450 | POWER CIRCUIT AND RADIO COMMUNICATION CIRCUIT USING SAME AND METHOD OF OPERATING A CIRCUIT - A power circuit and method thereof are provided. The power circuit includes an output circuit having an alternating current-coupling element and that supplies an output signal of the output circuit to an amplifier as a driving voltage. The power circuit includes an envelope signal-extracting unit extracting an envelope signal from a carrier wave, a simulation signal-waveform generating unit generating a simulation signal including a fluctuation component occurring when the envelope signal is transmitted to the output circuit, a fluctuation component-extracting unit extracting the fluctuation component included in the simulation signal, and an inverted component-generating unit generating an inverted component obtained by performing phase inversion for the fluctuation component, where the fluctuation component occurring in the output circuit is canceled out through the inverted component. | 06-09-2011 |
20120242386 | DIGITAL PLL CIRCUIT AND CLOCK GENERATING METHOD - A digital PLL circuit includes: a digital phase comparator to detect a phase difference between a master clock and a slave clock and output a phase difference detection value; a correction circuit to correct the phase difference detection value to a phase value in accordance with a comparison result between the phase difference detection value and a threshold; and a slave clock generation circuit to generate the slave clock in accordance with the phase value. | 09-27-2012 |
20130063183 | SIGNAL GENERATING APPARATUS AND METHOD OF GENERATING SIGNAL - A signal generating apparatus includes: a direct digital synthesizer configured to generate an output signal of a frequency according to first control data based on a reference clock; and a controller configured to provide the direct digital synthesizer with the first control data at a timing synchronized with the reference clock, wherein the controller includes a table which stores second setting data for controlling the frequency of the output signal based on jitter information and provides the direct digital synthesizer with the second setting data in the table as the first control data at the timing. | 03-14-2013 |
20130241610 | PLL CIRCUIT, METHOD OF CONTROLLING PLL CIRCUIT, AND DIGITAL CIRCUIT - A PLL circuit includes a digital PLL circuit and an analog PLL circuit, wherein the digital PLL circuit includes a first digital phase detector configured to detect a first phase difference between a reference clock signal and a first feedback clock signal, and a phase accumulator configured to generate, as the first feedback clock signal, a digital oscillating signal having oscillating frequency that changes in response to the detected first phase difference, and wherein the analog PLL circuit includes a second digital phase detector configured to detect a second phase difference between the digital oscillating signal generated by the phase accumulator and a second feedback clock signal, and a voltage controlled oscillator configured to receive a voltage value changing in response to the detected second phase difference and to generate the second feedback clock signal that oscillates at frequency responsive to the voltage value. | 09-19-2013 |
20130307597 | SEMICONDUCTOR DEVICE AND INFORMATION PROCESSING APPARATUS - A semiconductor device includes a delay part configured to assign a delay to an input signal, a phase detector configured to detect a phase of an output signal output from the delay part, a setting part configured to set a stable operations range of the phase of the output signal based on phase information output from the phase detector, and an error detector configured to set an acceptable range corresponding to the stable operations range, determine whether a phase of the output signal falls within the acceptable range, and change the acceptable range based on an extraneous factor of an input signal of the delay part. | 11-21-2013 |