An amplification interface includes a drain of a first FET connected to a first node, a drain of a second FET connected to a second node, and sources of the first and second FETs connected to a third node. First and second bias-current generators are connected to the first and second nodes. A third FET is connected between the third node and a reference voltage. A regulation circuit drives the gate of the third FET to regulate the common mode of the voltage at the first node and the voltage at the second node to a desired value. A current generator applies a correction current to the first and/or second node. A differential current integrator has a first and second inputs connected to the second and first nodes. The integrator supplies a voltage representing the integral of the difference between the currents received at the second and first inputs.

An amplifier device includes an amplifier circuitry, a controller circuitry, and an offset cancellation circuitry. The amplifier circuitry is configured to amplify a first input signal and a second input signal, in order to generate a first output signal and a second output signal. The controller circuitry is configured to generate a first control signal and a second control signal according to the first output signal and the second output signal. The offset cancellation circuitry is configured to provide a negative capacitor to the amplifier circuitry, and to adjust at least one current flowing through a circuit, which provides the negative capacitor, of the offset cancellation circuitry according to the first control signal and the second control signal, in order to cancel an offset of the amplifier circuitry.

An operational amplifier comprises a front stage and an output stage. The front stage comprises a first input transistor, a second input transistor, a first node, a second node, and a first current mirror. A first voltage based on a first current through the first input transistor is generated on the first node. A second voltage based on a second current through the second input transistor is generated on the second node. The output stage is configured to output an output voltage based on at least one of the first voltage and the second voltage. The first current mirror comprises a first transistor having a drain connected to the first node, a second transistor having a drain connected to the second node, and a first offset canceling capacitor connected between gates of the first transistor and the second transistor.

The present disclosure relates to a differential input circuit, an amplifier circuit, and a display device. The differential input circuit comprises: a first power module, a second power module, a first shunt module, a second shunt module, a first output module, and a second output module. The first power module is controlled to output a first signal, a second signal, and a third signal through a first bias signal, and the second power module receives the first signal, and outputs a fourth signal and a fifth signal through a differential input signal. The first shunt module, the second shunt module, the first output module, and the second output module are controlled by the differential input signal so that the first output module and the second output module output signals under the control of the differential input signal.

A system includes a pixel that emits light based on a signal provided to the pixel. The system may also include a buffer circuit having a differential pair stage, a cascade stage, and an output stage. The differential pair stage may receive a common mode voltage signal via a first switch in response to the first switch receiving a first signal that causes the first switch to close. The differential pair stage may couple a capacitor to the output stage via a second switch that operate based on a second signal, such that the capacitor reduces an offset provided by one or more circuit components in the differential pair stage, the cascade stage, the output stage, or any combination thereof. The differential pair stage may output the common mode voltage to the pixel via the output stage in response to the first signal being present.

An amplifier circuit comprises a differential input stage configured to receive a differential input signal, wherein the differential input stage is susceptible to an offset error that includes a linear offset error portion and a nonlinear offset error portion; and an offset error correction circuit coupled to the differential input stage and configured to apply a second order error correction signal to the differential input stage to reduce the nonlinear portion of the offset error.

An amplifier device includes an amplifier circuitry, a controller circuitry, and an offset cancellation circuitry. The amplifier circuitry is configured to amplify a first input signal and a second input signal, in order to generate a first output signal and a second output signal. The controller circuitry is configured to generate a first control signal and a second control signal according to the first output signal and the second output signal. The offset cancellation circuitry is configured to provide a negative capacitor to the amplifier circuitry, and to adjust at least one current flowing through a circuit, which provides the negative capacitor, of the offset cancellation circuitry according to the first control signal and the second control signal, in order to cancel an offset of the amplifier circuitry.

A half-power buffer amplifier is disclosed. The amplifier includes an amplification unit configured to differentially amplify differential input signals, the amplification unit including nodes configured to output differentially amplified first to fourth output signals, a first output buffer unit including first and second transistors, and an output node to which the first and second transistors are connected, a second output buffer unit including third and fourth transistors, wherein the third and fourth transistors are connected to the output node, a first control switch between the first output node and the second transistor and controlled by a polarity control signal, and a second control switch between the second output node and the third transistor and controlled by a complement of the polarity control signal.

An amplifier includes an amplification circuit including an input circuit receiving an input signal and configured to output an output signal by amplifying the input signal; and an offset cancelling circuit configured to cancel offset by controlling the input circuit according to activation control signal and offset control signal, wherein the offset cancelling circuit cancels the offset according to the offset control signal after the activation control signal is activated.

The present disclosure relates to a differential input circuit, an amplifier circuit, and a display device. The differential input circuit comprises: a first power module, a second power module, a first shunt module, a second shunt module, a first output module, and a second output module. The first power module is controlled to output a first signal, a second signal, and a third signal through a first bias signal, and the second power module receives the first signal, and outputs a fourth signal and a fifth signal through a differential input signal. The first shunt module, the second shunt module, the first output module, and the second output module are controlled by the differential input signal so that the first output module and the second output module output signals under the control of the differential input signal.