A low dropout voltage regulator unit includes an error amplifier and a power stage having an output terminal that is looped back onto the error amplifier and is capable of delivering an output current to a load. The unit includes multiple main supply inputs that are intended to potentially receive, respectively, multiple different supply voltages. The power stage includes multiple power paths that are connected, respectively, between the main supply inputs and the output terminal, are individually selectable and each comprise an output transistor. The unit also includes a selector circuit connected to the main supply inputs and configured to select one of the power paths according to a selection criterion. The error amplifier includes an output stage configured to selectively control the output transistor of the selected power path.

A low dropout voltage regulator unit includes an error amplifier and a power stage having an output terminal that is looped back onto the error amplifier and is capable of delivering an output current to a load. The unit includes multiple main supply inputs that are intended to potentially receive, respectively, multiple different supply voltages. The power stage includes multiple power paths that are connected, respectively, between the main supply inputs and the output terminal, are individually selectable and each comprise an output transistor. The unit also includes a selector circuit connected to the main supply inputs and configured to select one of the power paths according to a selection criterion. The error amplifier includes an output stage configured to selectively control the output transistor of the selected power path.

According to an embodiment, a circuit includes a first transistor, a second transistor, and a third transistor. The first transistor includes a first control terminal to receive a first input signal, a first current terminal to output an inverted output signal, and a second current terminal. The second transistor includes a second control terminal to receive a second input signal, a third current terminal to output a non-inverted output signal, and a fourth current terminal connected to the second current terminal. The third transistor includes a third control terminal to receive the inverted output signal, a fifth current terminal electrically connected to the second and fourth current terminals, and a sixth current terminal electrically connected to a first power supply.

A low dropout voltage regulator unit includes an error amplifier and a power stage having an output terminal that is looped back onto the error amplifier and is capable of delivering an output current to a load. The unit includes multiple main supply inputs that are intended to potentially receive, respectively, multiple different supply voltages. The power stage includes multiple power paths that are connected, respectively, between the main supply inputs and the output terminal, are individually selectable and each comprise an output transistor. The unit also includes a selector circuit connected to the main supply inputs and configured to select one of the power paths according to a selection criterion. The error amplifier includes an output stage configured to selectively control the output transistor of the selected power path.

A dynamic amplifier with a bypass design. An input pair of transistors receives a pair of differential inputs Vip and Vin and further provides first, second and third terminals. A load circuit provides a pair of differential outputs Vop and Von with the load circuit connected at a common mode terminal. In an amplification phase, a driver for amplification is coupled to the first terminal and the load circuit is coupled to the second and third terminals. A bypassing circuit is specifically provided. The bypassing circuit is coupled to the second and third terminals during a bypass period within the amplification phase.

An amplification circuit according to the present embodiment includes a first amplifier, a second amplifier, a capacitor, and an adjustment circuit. The first amplifier amplifies an input signal and outputs a first amplified signal. The second amplifier amplifies the first amplified signal input from the first amplifier through a connection line and outputs a second amplified signal. The capacitor is arranged between the connection line and an output line through which the second amplifier outputs the second amplified signal. The adjustment circuit changes a charge/discharge state of the capacitor according to a value of the input signal.