Regulator circuitry configured to manage power supply ripple using an adaptive loop gain that offers ripple rejection performance related to the ripple magnitude for a negative closed loop of the regulator circuitry. The power supply regulator circuitry of this disclosure includes an error amplifier in the closed loop and an adaptive loop gain circuitry. The adaptive loop gain circuit removes a DC component of the sensed output and feeds the sensed output, including the output ripple, to peak detector circuitry to obtain a Vpeak signal. The Vpeak signal output from the peak detector circuitry is a continuous signal that tracks the wave peak. The circuit arrangement multiplies the output of the error amplifier by the signal Vpeak resulting in improved power supply ripple rejection as the ripple amplitude increases. To avoid control signal with zero value during times that the peak-to-peak value of the sensed voltage.

Disclosed herein is a voltage regulator having a capacitive feed-forward ripple cancellation circuit, which includes a pass unit configured to transfer, in response to a control signal, an input voltage provided from an input terminal to an output voltage of an output terminal, an error amplification unit configured to output a comparison signal on the basis of a magnitude comparison result between the output voltage and a reference voltage, and a capacitive feed-forward ripple cancellation unit configured to remove a ripple included in the input voltage using the reference voltage and the comparison signal in order to generate the control signal. In accordance with the present invention, a circuit capable of removing power supply noise while consuming a low quiescent current through a capacitive feed-forward ripple cancellation technique can be provided.

A regulator includes a pre-regulator circuit, a pump circuit, an output stage circuit, and a tracking circuit. The pre-regulator circuit is configured to generate a pre-regulated voltage according to a power voltage. The pump circuit is configured to generate a pumped voltage according to the pre-regulated voltage and a tracking voltage. The output stage circuit is configured to generate an output voltage according to the pumped voltage and the power voltage. The tracking circuit is configured to track the output stage circuit to generate the tracking voltage and transmit the tracking voltage to the pump circuit.