Patent application number | Description | Published |
20120242313 | SWITCHING REGULATOR, METHOD OF OPERATING THE SWITCHING REGULATOR, AND ELECTRONIC DEVICES HAVING THE SWITCHING REGULATOR - The switching regulator includes a voltage-to-current converter to convert a noise voltage into a noise current and output the noise current; and a sawtooth generator to output a sawtooth voltage signal having a frequency that varies in response to the noise current output from the voltage-to-current converter. | 09-27-2012 |
20120313606 | METHOD FOR OPERATING SOFT START CIRCUIT AND DEVICES USING THE METHOD - A soft start circuit is disclosed. The soft start circuit includes a reference voltage generator configured to generate a reference voltage, a switch connected between an output node of the reference voltage generator and an output node of the soft start circuit and configured to selectively provide an output signal in response to a switch control signal, a capacitor connected between the switch and a ground, and a current source configured to generate a current having a different level in each of a plurality of intervals to charge the capacitor. | 12-13-2012 |
20130234682 | SIGNAL GENERATION CIRCUIT AND METHOD OF OPERATING THE SAME - A signal generation circuit includes: a clock signal generator configured to generate a clock signal and to change a frequency of the clock signal in response to a select signal; a transmission control circuit configured to control transmission of the clock signal based on the select signal; and a counter configured to perform an operation among a count operation and a count stop operation based on an output signal of the transmission control circuit and to output the select signal based on a result of performing the operation. When the counter performs the count operation in response to the clock signal output from the transmission control circuit, the counter outputs a most significant bit (MSB) among its count bits as the select signal. | 09-12-2013 |
20150180338 | HYSTERETIC SWITCHING REGULATOR - A switching regulator includes a power converting unit and a switch driving unit. The power converting unit is configured to generate a direct current (DC) output voltage based on a switch driving signal and a DC input voltage. The switch driving unit is configured to generate a ripple voltage having information of an inductor current flowing through the power converting unit, add the ripple voltage to a reference voltage to generate a first voltage having a ripple, generate a feedback voltage based on the DC output voltage, compare the first voltage with the feedback voltage in a hysteresis mode to generate a comparison output, and generate the switch driving signal based on the comparison output. | 06-25-2015 |
20150263615 | SWITCHING REGULATORS, POWER MANAGEMENT DEVICES AND SYSTEMS INCLUDING THE SAME - A switching regulator includes a DC-DC converter and a dynamic voltage positioning circuit. The DC-DC converter includes an inductor connected between an input port and an output port. The dynamic voltage positioning circuit includes a sensing circuit and a mirroring circuit. The sensing circuit is configured to sense an inductor current flowing through the inductor, and to convert a voltage applied to a direct current resistance (DCR) of the inductor into a droop current using a variable resistor. The mirroring circuit is configured to cause a voltage drop at the output port of the DC-DC converter based on a current corresponding to a difference between a bias current and the droop current. | 09-17-2015 |
20150357916 | BUCK-BOOST CONVERTER AND OPERATING METHOD - A method of operating a buck-boost converter including an inductor and a capacitor includes; operating the buck-boost converter in boost mode until a level of an input voltage applied at an input node of the buck-boost converter reaches a desired level of an output voltage apparent at an output node of the buck-boost converter, and after the level of an input voltage reaches the desired level of the output voltage, operating the buck-boost converter in buck mode, wherein operating the buck-boost converter in buck mode and operating the buck-boost converter in boost mode overlap at least in part temporally proximate a point at which the level of the input voltage exceeds the level of the output voltage. | 12-10-2015 |
20160036327 | BUCK CONVERTER USING VARIABLE PULSE - A buck converter using a variable pulse includes a switching unit configured to convert a supply voltage supplied from an external device into an internal voltage, and a pulse controller configured to variably control a driving time of the switching unit according to a result obtained by detecting a difference between the supply voltage and an output voltage which is the internal voltage. | 02-04-2016 |
20160036328 | VOLTAGE CONVERTER AND A VOLTAGE CONVERSION METHOD OF THE VOLTAGE CONVERTER - A voltage converter includes first and second charging elements, first and second switches, and first and second switch controllers. The first switch controller adjusts a first activation timing of a first control signal in response to a pulse width modulation signal, a switch signal, and a first control signal. The first control signal is a signal for controlling the first switch. The second switch controller adjusts a second activation timing of a second control signal in response to the pulse width modulation signal, the first control signal, and a second control signal. The second control signal is a signal for controlling the second switch. | 02-04-2016 |