Patent ID: 6573948
Filing Date: 2003-06-03
Classification: H04L,H04N

Abstract:
A radio receiver as for inclusion in a digital television receiver, said radio receiver receiving digital modulation of a prescribed symbol rate and comprising:a local oscillator for supplying controlled local oscillations at a frequency and phase controlled in response to an automatic frequency and phase control signal; conversion circuitry for heterodyning received signal with said controlled local oscillations to generate a final intermediate-frequency signal; a first finite-impulse-response adaptive digital filter connected for supplying, as its output signal, first finite-impulse-response adaptive digital filter response to its input signal; first filter coefficient update calculation apparatus for generating in response to a first decision feedback signal adaptive parameters for said first finite-impulse-response adaptive digital filter; an analog-to-digital converter for digitizing said final intermediate-frequency signal at a system sampling rate higher than said prescribed symbol rate, to generate an analog-to-digital converter response supplied to said first finite-impulse-response adaptive digital filter as its said input signal; a second finite-impulse-response adaptive digital filter connected for supplying, as its output signal, second finite-impulse-response adaptive digital filter response to its input signal; second filter coefficient update calculation apparatus for generating in response to a second decision feedback signal adaptive parameters for said second finite-impulse-response adaptive digital filter; a first amplitude modulator connected for modulating a digital carrier in accordance with said second finite-impulse-response adaptive digital filter response to generate a digitized first double-sideband amplitude-modulation signal; a first bandpass filter connected for receiving said digitized first double-sideband amplitude-modulation signal as its input signal and for supplying digitized first vestigial-sideband amplitude-modulation signal as its output signal applied as said input signal to said second finite-impulse-response adaptive digital filter; a digital subtractor connected for differentially combining said first finite-impulse-response adaptive digital filter response and said second finite-impulse-response adaptive digital filter response to generate a difference signal that is an overall adaptive filter response to said final intermediate-frequency signal; complex demodulator circuitry for demodulating said difference signal that is an overall adaptive filter response to said final intermediate-frequency signal, thereby to generate an in-phase baseband demodulation result and a quadrature-phase baseband demodulation result; circuitry for generating, in lowpass filter response to said quadrature-phase baseband demodulation result, said automatic frequency and phase control signal for said local oscillator; a rate reduction filter connected to receive as its input signal said in-phase baseband demodulation result from said complex demodulator circuitry and to supply as its output signal said in-phase baseband demodulation result as resampled to symbol rate; a quantizer for generating estimates of transmitted symbols responsive to said in-phase baseband demodulation result as re-sampled to symbol rate; an interpolation filter connected to receive as its input signal said estimates of transmitted symbols and to supply as its output signal said estimates of transmitted symbols as re-sampled to system sample rate, said interpolation filter connected to apply said estimates of transmitted symbols as re-sampled to system sample rate to said second finite-impulse-response adaptive digital filter as said input signal thereof; a second amplitude modulator connected for modulating a digital carrier in accordance with said estimates of transmitted symbols to generate a digitized second double-sideband amplitude-modulation signal; a second bandpass filter connected for receiving said digitized second double-sideband amplitude-modulation signal as its input signal and for supplying digitized second vestigial-sideband amplitude-modulation signal as its output signal; a first error detector for comparing said difference signal that is an overall adaptive filter response to said final intermediate-frequency signal with said digitized second vestigial-sideband amplitude-modulation signal to generate said first decision feedback signal; and a second error detector for comparing said in-phase baseband demodulation result from said complex demodulator circuitry with the output signal of said interpolation filter to generate said second decision feedback signal.