Patent ID: 9020077
Filing Date: 2015-04-28
Classification: H03D,H04B,H04L

Abstract:
1. A complex intermediate frequency (IF) mixer for frequency translating a received complex IF signal, wherein the received complex IF signal comprises at least two frequency bands located at upper-side and lower-side of 0 Hz, the complex IF mixer comprising: a first-phase path input for receiving a first-phase signal of the received complex IF signal; a second-phase path input for receiving a second-phase signal of the received complex IF signal; a first mixer configured to be driven by a first-phase local oscillator signal and connected to the first-phase path input, the first mixer having a first mixer output; a second mixer configured to be driven by a second-phase local oscillator signal and connected to the first-phase path input, the second mixer having a second mixer output, wherein the first-phase local oscillator signal and the second-phase local oscillator signal are in quadrature phase; a third mixer configured to be driven by the second-phase local oscillator signal and connected to the second-phase path input, the third mixer having a third mixer output; a fourth mixer configured to be driven by the first-phase local oscillator signal and connected to the second-phase path input, the fourth mixer having a fourth mixer output; wherein the first mixer is configured to down-convert the first-phase signal of the received complex IF signal from a received frequency of the first-phase signal to a baseband frequency, using the first-phase local oscillator signal, to form a first signal to be output from the first mixer output; wherein the second mixer is configured to down-convert the first-phase signal of the received complex IF signal from the received frequency of the first-phase signal to a baseband frequency, using the second-phase local oscillator signal, to form a second signal to be output from the second mixer output; wherein the third mixer is configured to down-convert the second-phase signal of the received complex IF signal from a received frequency of the second-phase signal to a baseband frequency, using the second-phase local oscillator signal, to form a third signal to be output from the third mixer output; wherein the fourth mixer is configured to down-convert the second-phase signal of the received complex IF signal from the received frequency of the second phase signal to a baseband frequency, using the first-phase local oscillator signal, to form a fourth signal to be output from the fourth mixer output; a first gain adjusting component having a first gain input, a first gain output, and a first gain control input for adjusting gain of the first gain adjusting component; wherein the first gain input is connected to the first mixer output; a second gain adjusting component having a second gain input, a second gain output, and a second gain control input for adjusting gain of the second gain adjusting component; wherein the second gain input is connected to the second mixer output; a third gain adjusting component having a third gain input, a third gain output, and a third gain control input for adjusting gain of the third gain adjusting component; wherein the third gain input is connected to the third mixer output; a fourth gain adjusting component having a fourth gain input, a fourth gain output, and a fourth gain control input for adjusting gain of the fourth gain adjusting component; wherein the fourth gain input is connected to the fourth mixer output; a first summing unit having a first summing input and a first summing output, the first summing input connected to: a second summing unit having a second summing input and a second summing output, the second summing input connected to: wherein the first and second summing units are configured to output a first baseband complex signal of the received complex IF signal.