An amplification circuit for RF power amplifiers is provided. The circuit includes two PMOS amplification modules and two NMOS amplification modules; each module includes a CSCG structure composed of a stack of K transistors. The first PMOS module and the first NMOS module are connected in series between a supply voltage and ground; gates of main amplification transistors of the first PMOS module and the first NMOS module are connected to a non-inverting input, and outputs of the first PMOS module and the first NMOS module are connected together to form an inverting output. The second PMOS module and the second NMOS module are similarly connected. Both the first and the second modules will be connected side-by-side as a pseudo differential structure to provide double push-pull function to the load. The present disclosure simultaneously achieves high power efficiency, and high linearity.

An amplification circuit for RF power amplifiers is provided. The circuit includes two PMOS amplification modules and two NMOS amplification modules; each module includes a CSCG structure composed of a stack of K transistors. The first PMOS module and the first NMOS module are connected in series between a supply voltage and ground; gates of main amplification transistors of the first PMOS module and the first NMOS module are connected to a non-inverting input, and outputs of the first PMOS module and the first NMOS module are connected together to form an inverting output. The second PMOS module and the second NMOS module are similarly connected. Both the first and the second modules will be connected side-by-side as a pseudo differential structure to provide double push-pull function to the load. The present disclosure simultaneously achieves high power efficiency, and high linearity.

A reference generation circuit includes a reference circuit and a local supply regulation circuit connected between an input supply and the reference circuit to supply a local regulated input to the reference circuit. The local supply regulation circuit comprises an error amplifier and a pass device, and wherein the error amplifier senses an output voltage of the pass device and an output voltage of the reference generation circuit to generate an output to control a gate terminal of the pass device. The error amplifier uses a feedback network to sense the output voltage of the pass device for comparison with the output voltage of the reference generation circuit to generate the output to control the pass

An amplifier circuit for a microphone, a microphone circuit and an electronic device are provided. The amplifier circuit includes a voltage regulator having an output terminal, a first constant current source having an input terminal connected to the output terminal of the voltage regulator, a first transistor having a gate serving as an input terminal of the amplifier circuit and a source serving as an output terminal of the amplifier circuit, a second transistor having a source connected to an output terminal of the first constant current source, a gate connected to the source of the first transistor and a drain connected to ground, a first driver configured to achieve high power supply rejection ratio of the amplifier circuit and a second driver configured to achieve high acoustic overload point of the amplifier circuit.