A device for increasing a slew rate of a driving amplifier includes a driving amplifier, a slew rate improvement circuit, and a controller. The driving amplifier is configured to amplify an input voltage and output an output voltage. The slew rate improvement circuit is configured to provide or receive a current to increase the slew rate of the driving amplifier. The controller is configured to control an operation of the slew rate improvement circuit based on a difference between a first code corresponding to the input voltage of the driving amplifier during a current horizontal line time and a second code corresponding to the input voltage during a next horizontal line time.

A device for increasing a slew rate of a driving amplifier includes a driving amplifier, a slew rate improvement circuit, and a controller. The driving amplifier is configured to amplify an input voltage and output an output voltage. The slew rate improvement circuit is configured to provide or receive a current to increase the slew rate of the driving amplifier. The controller is configured to control an operation of the slew rate improvement circuit based on a difference between a first code corresponding to the input voltage of the driving amplifier during a current horizontal line time and a second code corresponding to the input voltage during a next horizontal line time.

A radio frequency receiver device comprises: a receiver input arranged to receive signals having one or more frequency components within a frequency spectrum; a filter having a filter output impedance; and an amplifier comprising: an amplifier input (134a, 134b) connected to the filter output; an amplifier output 72a, 72b); at least one radio frequency input transistor (144a, 144b); and a feedback circuit including at least one feedback resistor (146a, 146b). The device is arranged to be selectably operable in: a first mode wherein the amplifier has first feedback resistance and transconductance values respectively such that the amplifier input impedance and the filter output impedance are substantially the same; and a second mode having second feedback resistance and transconductance values such that upon connection of a predetermined external impedance matching circuit (160) between the filter and the amplifier, the amplifier input impedance and the filter output impedance are substantially the same.

A radio frequency receiver device comprises: a receiver input arranged to receive signals having one or more frequency components within a frequency spectrum; a filter having a filter output impedance; and an amplifier comprising: an amplifier input (134a, 134b) connected to the filter output; an amplifier output 72a, 72b); at least one radio frequency input transistor (144a, 144b); and a feedback circuit including at least one feedback resistor (146a, 146b). The device is arranged to be selectably operable in: a first mode wherein the amplifier has first feedback resistance and transconductance values respectively such that the amplifier input impedance and the filter output impedance are substantially the same; and a second mode having second feedback resistance and transconductance values such that upon connection of a predetermined external impedance matching circuit (160) between the filter and the amplifier, the amplifier input impedance and the filter output impedance are substantially the same.