Signal receiver including digital image signal separation

What is claimed is: 1. A method of frequency-converting a received radio frequency (RF) signal, comprising: frequency mixing the received RF signal with a first local oscillator (LO) signal to generate a first intermediate frequency (IF) signal, the first IF signal being a mixed signal of a desired signal and an image signal; frequency mixing the RF signal with a second LO signal to generate a second IF signal, the second LO signal have a same frequency as the first LO signal, and the second LO signal having a 90 degree phase shift relative to the first LO signal; analog-to-digital converting the first IF signal to a first digital signal and the second IF signal to a second digital signal; down-converting the first digital signal to a first digital baseband signal and the second digital signal to a second digital baseband signal; and calibrating the first and second digital baseband signals for the 90 degree phase shift, and separating the calibrated first and second digital baseband signals to obtain the desired signal and the image signal. 2. The method of claim 1 , wherein the received RF signal is input to a two-channel configuration, wherein a first mixer generates the first IF signal and a first analog-to-digital converter (ADC) of a first channel generates a first digital signal, and wherein a second mixer generates the second IF signal and second analog to digital (ADC) of a second channel generates the second digital signal. 3. The method of claim 1 , wherein the received RF signal is input to a single channel configuration, wherein a mixer of the single channel configuration is timeinterleaved to generate the first and the second IF signals and an analog-to-digital converter (ADC) of the single channel configuration is time-interleaved to generate a first and a second digital IF signals. 4. The method of claim 1 , wherein the down-converting is characterized by: x 1=exp(− j 2π f IF t n ) d 1 x 2=exp(− j 2π f IF t n ) d 2 where x 1 denotes the first baseband signal, x 2 denotes the second baseband signal, d 1 denotes the first digital signal, d 2 denotes the second digital signal, f IF denotes the frequency of the first and second IF signals, and t n denotes a time interval. 5. The method of claim 4 , wherein the separating is characterized by: y 1= x 1+ jx 2 y 2= x 1− jx 2 where y 1 is the one of the desired signal and the image signal, and y 2 denotes the other of the desired signal and the image signal. 6. A radio frequency (RF) signal receiver, comprising: a first mixer configured to mix a radio frequency (RF) signal and a first local oscillator (LO) signal to generate a first intermediate frequency (IF) signal, the first IF signal being a mixed signal of a desired signal and an image signal; a second mixer configured to mix the radio frequency (RF) signal and a second local oscillator (LO) signal to generate a second intermediate frequency (IF) signal, the second LO signal have a same frequency as the first LO signal, and the second LO signal having a 90 degree phase shift relative to the first LO signal; a first analog-to-digital converter (ADC) configured to convert the first IF signal to a first digital signal; a second analog-to-digital converter (ADC) configured to convert the second IF signal to a second digital signal; and a digital signal processor (DSP) configured to down-convert the first digital signal to a first digital baseband signal and the second digital signal to a second digital baseband signal, to calibrate the first and second digital baseband signals for the 90 degree phase shift, and to separate the first and second baseband signals to obtain the desired signal and the image signal. 7. The RF signal receiver of claim 6 , wherein the down-converting is characterized by: x 1=exp(− j 2π f IF t n ) d 1 x 2=exp(− j 2π f IF t n ) d 2 where x 1 denotes the first baseband signal, x 2 denotes the second baseband signal, d 1 denotes the first digital signal, d 2 denotes the second digital signal, f IF denotes the frequency of the first and second IF signals, and t n denotes a time interval. 8. The RF signal receiver of claim 7 , wherein the separating is characterized by: y 1= x 1+ jx 2 y 2= x 1− jx 2 where y 1 is the one of the desired signal and the image signal, and y 2 denotes the other of the desired signal and the image signal. 9. A radio frequency (RF) signal receiver, comprising: a mixer configured during a first time-interleaved interval to mix a radio frequency (RF) signal and a first local oscillator (LO) signal to generate a first time-interleaved intermediate frequency (IF) signal, the first time-interleaved IF signal being a mixed signal of a desired signal and an image signal; the mixer further configured during a second time interleave interval to mix the RF signal and a second local LO signal to generate a second time-interleaved intermediate frequency (IF) signal, the second LO signal have a same frequency as the first LO signal, and the second LO signal having a 90 degree phase shift relative to the first LO signal; an analog-to-digital converter (ADC) configured to convert the first time-interleaved IF signal to a first time-interleaved digital signal, to convert the second time-interleaved IF signal to a second time-interleaved digital signal; and a digital signal processor (DSP) configured to down-convert the first time-interleaved digital signal to a first time-interleaved baseband signal and the second time-interleaved digital signal to a second time-interleaved baseband signal, to calibrate the first and second time-interleaved digital baseband signals for the 90 degree phase shift, and to separate the calibrated first and second time-interleaved baseband signals to obtain the desired signal and image signals. 10. The RF signal receiver of claim 9 , wherein the down-converting is characterized by: x 1=exp(− j 2π f IF t n ) d 1 x 2=exp(− j 2π f IF t n ) d 2 where x 1 denotes the first time-interleaved baseband signal, x 2 denotes the second time-interleaved baseband signal, d 1 denotes the first digital signal, d 2 denotes the second digital signal, f IF denotes the frequency of the first and second time-interleaved IF signals, and t n denotes a time interval. 11. The RF signal receiver of claim 10 , wherein the separating is characterized by: y 1= x 1+ jx 2 y 2= x 1− jx 2 where y 1 is the one of the desired signal and the image signal, and y 2 denotes the other of the desired signal and the image signal.