Abstract: A linear voltage regulator has a regulating transistor with a first channel electrode receiving an input voltage source and a second electrode providing an output voltage. A control electrode of the regulating transistor is controlled by an error amplifying circuit based on comparison between a feedback signal of the output voltage and a reference voltage. An event detecting circuit is coupled to the input voltage source for detecting occurrence of a transient in the input voltage source. In response to the detected transient event, an enable controlling circuit generates an enable signal for determining an effective operation time of a voltage clamping circuit. During such effective operation time, a potential difference between the first channel electrode and the control electrode is limited within a predetermined clamp voltage for preventing the regulating transistor from being dramatically changed in operation.

Abstract: Dual edge modulated charge pumping circuit has an output terminal, a charge pumping conversion circuit, and a dual edge modulated control circuit. The charge pumping conversion circuit has a first capacitor, a second capacitor, and a switch combination circuit. The second capacitor is coupled between the output terminal and a ground potential. The dual edge modulated control circuit controls the switch combination circuit such that the charge pumping conversion circuit operates with a first phase, a second phase, a third phase, and a fourth phase. During the first phase, a first electrode of the first capacitor is floated. During the second phase, the first capacitor is coupled between the ground potential and an input voltage. During the third phase, the first capacitor is coupled between the input voltage and the output terminal. During the fourth phase, the first electrode of the first capacitor is floated.

Abstract: Dual edge modulated charge pumping circuit has an output terminal, a charge pumping conversion circuit, and a dual edge modulated control circuit. The charge pumping conversion circuit has a first capacitor, a second capacitor, and a switch combination circuit. The second capacitor is coupled between the output terminal and a ground potential. The dual edge modulated control circuit controls the switch combination circuit such that the charge pumping conversion circuit operates with a first phase, a second phase, a third phase, and a fourth phase. During the first phase, a first electrode of the first capacitor is floated. During the second phase, the first capacitor is coupled between the ground potential and an input voltage. During the third phase, the first capacitor is coupled between the input voltage and the output terminal. During the fourth phase, the first electrode of the first capacitor is floated.

Abstract: A PFM control circuit generates a pulse control signal for controlling a switching regulator to convert an input voltage into an output voltage. The pulse control signal has a plurality of switch cycles, each of which consists of an ON-time and an OFF-time. The ON-time is applied to turn on a switching circuit of the switching regulator while the OFF-time is applied to turn off the switching circuit. A current detection signal is representative of a current flowing through an inductive device of the switching regulator. The ON-time is prolonged in accordance with an increase of a maximum of the current detection signal. A voltage detection signal is representative of the output voltage. The OFF-time is prolonged in accordance with a reduction of a falling rate of the voltage detection signal.

Abstract: A linear voltage regulator has a regulating transistor with a first channel electrode receiving an input voltage source and a second electrode providing an output voltage. A control electrode of the regulating transistor is controlled by an error amplifying circuit based on comparison between a feedback signal of the output voltage and a reference voltage. An event detecting circuit is coupled to the input voltage source for detecting occurrence of a transient in the input voltage source. In response to the detected transient event, an enable controlling circuit generates an enable signal for determining an effective operation time of a voltage clamping circuit. During such effective operation time, a potential difference between the first channel electrode and the control electrode is limited within a predetermined clamp voltage for preventing the regulating transistor from being dramatically changed in operation.

Abstract: A PFM control circuit generates a pulse control signal for controlling a switching regulator to convert an input voltage into an output voltage. The pulse control signal has a plurality of switch cycles, each of which consists of an ON-time and an OFF-time. The ON-time is applied to turn on a switching circuit of the switching regulator while the OFF-time is applied to turn off the switching circuit. A current detection signal is representative of a current flowing through an inductive device of the switching regulator. The ON-time is prolonged in accordance with an increase of a maximum of the current detection signal. A voltage detection signal is representative of the output voltage. The OFF-time is prolonged in accordance with a reduction of a falling rate of the voltage detection signal.