Abstract: A charge pump provides an output voltage with reduced voltage ripple. The charge pump includes a first capacitor, a second capacitor, and a control circuit. The control circuit charges the first capacitor to one of a first voltage and a second voltage and the second capacitor to the other one of the first and second voltages using differential clock signals and an input voltage during each clock phase and outputs the higher one of the first and second voltages as an output voltage.

Abstract: A power path controller included in a system-on-chip (SoC) is provided. The power path controller is coupled to a first power source and a second power source. The power path controller includes a first switch located between the first power source and a memory core included in the SoC, a second switch located between the second power source and the memory core, a comparator configured to compare a first power supply voltage supplied from the first power source with a second power supply voltage supplied from the second power source, and a switch controller configured to selectively activate the first switch or the second switch according to a comparison result of the comparator.

Abstract: A charge pump provides an output voltage with reduced voltage ripple. The charge pump includes a first capacitor, a second capacitor, and a control circuit. The control circuit charges the first capacitor to one of a first voltage and a second voltage and the second capacitor to the other one of the first and second voltages using differential clock signals and an input voltage during each clock phase and outputs the higher one of the first and second voltages as an output voltage.

Abstract: A power path controller included in a system-on-chip (SoC) is provided. The power path controller is coupled to a first power source and a second power source. The power path controller includes a first switch located between the first power source and a memory core included in the SoC, a second switch located between the second power source and the memory core, a comparator configured to compare a first power supply voltage supplied from the first power source with a second power supply voltage supplied from the second power source, and a switch controller configured to selectively activate the first switch or the second switch according to a comparison result of the comparator.

Abstract: A method of controlling a load current is provided. By the method, a battery voltage control operation is begun when a battery voltage becomes lower than a first threshold value, whether a gradient of the battery voltage is a positive gradient or a negative gradient is determined at an interval of a reference or, alternatively, predetermined control time, the load current is controlled based on the gradient of the battery voltage at an interval of the reference or, alternatively, predetermined control time, and the battery voltage control operation is finished when the battery voltage becomes higher than a second threshold value.

Abstract: A voltage regulator comprises a power source terminal configured to supply a power source voltage; an output terminal configured to output a load current; a first transistor which is connected between the power source terminal and the output terminal, is enabled by a signal applied from an amplifier in a first mode to generate a first current, and outputs the first current to the output terminal; and a second transistor which is connected between the power source terminal and the output terminal, is enabled by a signal applied from the amplifier in a second mode to generate a second current different from the first current, and outputs the second current to the output terminal, wherein the first transistor is enabled in the second mode, and the second transistor is disabled in the first mode.

Abstract: A method of controlling a load current is provided. By the method, a battery voltage control operation is begun when a battery voltage becomes lower than a first threshold value, whether a gradient of the battery voltage is a positive gradient or a negative gradient is determined at an interval of a reference or, alternatively, predetermined control time, the load current is controlled based on the gradient of the battery voltage at an interval of the reference or, alternatively, predetermined control time, and the battery voltage control operation is finished when the battery voltage becomes higher than a second threshold value.

Abstract: A voltage regulator comprises a power source terminal configured to supply a power source voltage; an output terminal configured to output a load current; a first transistor which is connected between the power source terminal and the output terminal, is enabled by a signal applied from an amplifier in a first mode to generate a first current, and outputs the first current to the output terminal; and a second transistor which is connected between the power source terminal and the output terminal, is enabled by a signal applied from the amplifier in a second mode to generate a second current different from the first current, and outputs the second current to the output terminal, wherein the first transistor is enabled in the second mode, and the second transistor is disabled in the first mode.

Abstract: A voltage converter includes a compensation unit, first and second control units, and an output voltage generation unit. The compensation unit selects compensation feedback voltage or output feedback voltage depending on an operation mode, and generates a compensation voltage based on the selected feedback voltage and a first reference voltage, the compensation feedback voltage corresponding to the compensation voltage, and the output feedback voltage corresponding to an output power supply voltage. The first control unit generates a first control signal based on the compensation voltage and a second reference voltage. The second control unit generates a second control signal based on the first reference voltage and the output feedback voltage. The output voltage generation unit selects one of the first control signal and the second control signal depending on the operation mode, and generates the output power supply voltage based on the selected control signal and an input voltage.