The mixer circuit includes a differential rf input driver; a differential local oscillator input circuit coupled to the differential rf input driver; a non-linear load coupled to the differential local oscillator input circuit wherein the non-linear load compensates for non-linearity of the differential rf input driver. The non-linear load has a V-I (voltage-current) transfer function the inverse of the input driver. This improves the mixer linearity without sacrificing the Gain or Noise Figure.
A current mode multiplier circuit is provided based on the square root voltage-current relationship of an MOS transistor. The circuit includes first, second and third MOS transistors with a common aspect ratio, and first and second current sources that respectively provide first and second input currents that represent first and second factors to be multiplied. The first and second MOS transistors produce first and second voltages as a function of the first and second input currents, and the third MOS transistor produces a third current as a function of the first and second voltages. In response to the third current, the circuit produces a product signal that represents a product of the first and second factors.
A mixer capable of detecting or controlling a common mode voltage thereof, includes at least: a mixing module for mixing a first set of differential signals and a second set of differential signals to generate at least one mixed signal; and a compensation module for compensating at least one operation point of the mixing module.
