Real-time network analyzer and applications

What is claimed is: 1. A network analyzer, comprising: at least one generator configured and operable to produce a wideband time periodic signal; a plurality of receivers operably connected to the at least one generator to receive the wideband time periodic signal, wherein each of said plurality of receivers comprises: a wideband sampling data converter configured and operable to sample and convert the received wideband time periodic signal to digital data; a correlator unit configured to correlate the digital data with a template waveform; and an impulse response extraction unit connected to the correlator configured and operable to yield a time domain impulse response; a network parameters calculating unit configured and operable to process the time domain impulse responses of said plurality of receivers to yield network parameters, wherein the network parameters calculating unit is configured and operable to calculate Fourier coefficients of said time domain impulse responses. 2. The network analyzer of claim 1 , wherein the network parameters calculating unit is configured and operable to compute the ratio of Fourier coefficients to yield said network parameters. 3. The network analyzer of claim 1 , wherein the wideband periodic signal spectrum covers all of a frequency range of interest. 4. The network analyzer of claim 1 , wherein the wideband periodic signal is a multi-tone signal. 5. The network analyzer of claim 1 , wherein the wideband sampling data converter is a sub-sampling data converter. 6. The network analyzer of claim 1 , wherein the network parameters calculating unit comprises a Fourier transform processor configured to calculate the Fourier coefficients. 7. The network analyzer of claim 1 , wherein the network analyzer is a vector network analyzer (VNA). 8. The network analyzer of claim 1 , comprising a transmitter configured and operable to generate a wideband signal at an appropriate frequency and with periodicity T 1 . 9. The network analyzer of claim 1 , further comprising a local oscillator configured and operable to generate a wideband signal at an appropriate frequency and with periodicity T 2 for down-conversion of a plurality of signals. 10. A method for processing a wideband signal to determine network parameters, the method comprising: sampling and converting said wideband signal to digital data by a wideband sampling data converter; storing at least one period of said digital data in a non-transitory storage memory; correlating the digital data with a template waveform, yielding a time domain impulse response; calculating Fourier coefficients of said time domain impulse response; sampling at least two wideband signals of the network analyzer, the at least two wideband signals comprising a reference signal and one or more incoming sampled signals; and computing a ratio between the Fourier coefficients of the first signal and the Fourier coefficients of one or more incoming sampled signals to yield said network parameters. 11. The method of claim 10 , wherein said parameters are Scattering parameters. 12. The method of claim 10 , further comprising reducing the processed signal bandwidth. 13. The method of claim 12 , wherein reducing said processed signal bandwidth comprise using a wideband baseband signal as a local oscillator of a receiver frequency down-converter. 14. The method of claim 10 , wherein the wideband sampling data converter is a sub-sampling data converter configured and operable to reduce the processed signal bandwidth. 15. The method of claim 14 , further comprising reordering the Fourier coefficients by a deinterleaver. 16. The method of claim 14 , further comprising deinterleaving the time domain sub-samples of said signals into an order which represents the sequential order of the wideband signal samples.