Abstract: A switching regulator is disclosed that is able to operate with low power consumption and able to prevent variation of an output voltage. The switching regulator operates in a PWM control mode and a PFM control mode, and includes a switching unit; an error amplification circuit for amplifying an error voltage between an output voltage and a first reference voltage; a slope circuit for generating a slope signal; a reference voltage generation circuit for generating a second reference voltage for determining a time interval of an ON state in the PFM control mode; a multiplexer for outputting one of the second reference voltage and an output voltage from the error amplification circuit; a comparison circuit for comparing an output voltage from the slope circuit to an output voltage from the multiplexer; and an oscillation circuit for determining a timing of the ON state in the PWM control mode.

Abstract: A switching power supply circuit for generating an output voltage at an output node based on an input voltage at an input node includes a reference voltage generating circuit configured to generate a reference voltage such that during an initial start-up period of the reference voltage a voltage rise rate of the reference voltage within a first predetermined period from a start point of the initial start-up period and a voltage rise rate thereof within a second predetermined period immediately preceding an end point of the initial start-up period are smaller than a voltage rise rate thereof in a period between the first predetermined period and the second predetermined period, a coil disposed between the input output nodes, and a switch circuit configured to switch on and off to control current through the coil in response to comparison between the reference voltage and a voltage proportional to the output voltage.

Abstract: A switching regulator including an inductor and a switching transistor and having a normal operational mode and a light-load operational mode is disclosed. The switching regulator includes an operational mode switching part configured to switch the normal operational mode and the light-load operational mode, and a light-load detection part configured to detect the light-load state of a load. The light-load detection part is configured to detect the light-load state of the load by a change in the voltage at the connection of the switching transistor and the inductor when the switching transistor is OFF. The operational mode switching part is configured to switch the normal operational mode to the light-load operational mode in response to the detection of the light-load state of the load by the light-load detection part.

Abstract: In a step-down switching regulator, a switching element is a high-voltage NMOS transistor, turned on and off based on a control signal generated by a controller, and charges an inductor with an input voltage input to an input terminal. A first drive circuit is a low-voltage MOS transistor and turns on and off the switching element based on the control signal. A voltage generator generates a predetermined first power supply voltage not greater than a withstand voltage of the low-voltage MOS transistor. A capacitor is connected in parallel with the first drive circuit and stores charge from the voltage generator to supply power to the first drive circuit. One end of the capacitor is connected to a junction node between the switching element and the inductor, and the other end of the capacitor is supplied with the first power supply voltage generated by the voltage generator.

Abstract: A current-mode controlled switching regulator and control method therefor. The switching regulator includes input and output terminals, a switching device to switch in accordance with a control signal, an inductor to store charge from an input voltage at the input terminal based on the switching device, a rectifying device to discharge the charge stored in the inductor, an error amplifier to amplify a voltage difference between a divided voltage generated by dividing an output voltage at the output terminal and a predetermined reference voltage, a slope voltage generator to generate and output a slope voltage having a slope angle corresponding to the input voltage, and a switching controller to compare a voltage output from the error amplifier with the slope voltage, generate a pulse signal with a duty cycle corresponding to a comparison result, and control the switching of the switching device according to the pulse signal.

Abstract: A control circuit for a synchronous rectification switching regulator including an output terminal, a switching transistor, an inductor, and a synchronous rectification transistor has a control part configured to control switching of the switching transistor to charge the inductor to and set a voltage output from the output terminal to a predetermined voltage, which causes the synchronous rectification transistor to switch reversely to the switching transistor and discharge the inductor, and backflow prevention part configured to block a current flowing in the synchronous rectification transistor to prevent a backflow current that flows in a direction from the output terminal to the synchronous rectification transistor.

Abstract: A switching regulator is disclosed that is able to operate with low power consumption and able to prevent variation of an output voltage. The switching regulator operates in a PWM control mode and a PFM control mode, and includes a switching unit; an error amplification circuit for amplifying an error voltage between an output voltage and a first reference voltage; a slope circuit for generating a slope signal; a reference voltage generation circuit for generating a second reference voltage for determining a time interval of an ON state in the PFM control mode; a multiplexer for outputting one of the second reference voltage and an output voltage from the error amplification circuit; a comparison circuit for comparing an output voltage from the slope circuit to an output voltage from the multiplexer; and an oscillation circuit for determining a timing of the ON state in the PWM control mode.

Abstract: A switching regulator including an inductor and a switching transistor and having a normal operational mode and a light-load operational mode is disclosed. The switching regulator includes an operational mode switching part configured to switch the normal operational mode and the light-load operational mode, and a light-load detection part configured to detect the light-load state of a load. The light-load detection part is configured to detect the light-load state of the load by a change in the voltage at the connection of the switching transistor and the inductor when the switching transistor is OFF. The operational mode switching part is configured to switch the normal operational mode to the light-load operational mode in response to the detection of the light-load state of the load by the light-load detection part.