Abstract: A multi-carrier receiver system and method for receiving a transmission frequency multi-carrier signal include a feedforward cancellation loop. A frequency conversion circuit generates an intermediate frequency (IF) multi-carrier signal based on the transmission frequency multi-carrier signal. The feedforward cancellation loop generates an amplitude corrected multi-carrier signal based on the IF multi-carrier signal such that the amplitude corrected multi-carrier signal has a reduced dynamic range with respect to the IF multi-carrier signal. A primary A/D converter having a significantly lower dynamic range requirements can therefore generate a digital multi-carrier signal based on the amplitude corrected multi-carrier signal. The feedforward cancellation loop therefore enables the primary A/D converter to process multi-carrier signals without the need for large dynamic range requirements.

Abstract: A multi-carrier receiver system and method for receiving a transmission frequency multi-carrier signal include a feedforward cancellation loop. A frequency conversion circuit generates an intermediate frequency (IF) multi-carrier signal based on the transmission frequency multi-carrier signal. The feedforward cancellation loop generates an amplitude corrected multi-carrier signal based on the IF multi-carrier signal such that the amplitude corrected multi-carrier signal has a reduced dynamic range with respect to the IF multi-carrier signal. A primary A/D converter having a significantly lower dynamic range requirements can therefore generate a digital multi-carrier signal based on the amplitude corrected multi-carrier signal. The feedforward cancellation loop therefore enables the primary A/D converter to process multi-carrier signals without the need for large dynamic range requirements.

Abstract: A multichannel signal amplitude equalizer (102) includes a multichannel signal input (112) that carries an input signal with an input bandwidth spanning multiple communication channels. The equalizer also includes a multichannel equalizer (114) connected to the multichannel signal input (112) and that includes a signal output (116). The multichannel equalizer (114) connects to an equalizer control input (130) for regulating the multichannel equalizer (114) to attenuate selected frequency bands in the input signal. As a result, the signal output (116) carries, as an output signal, the input signal reduced in dynamic range. The equalizer (102) generally includes an analog to digital (A/D) converter (122) coupled to the multichannel equalizer (114) for digitizing the output signal. The A/D converter (122) is characterized by an A/D converter dynamic range that is at least equal to the output signal dynamic range and a bandwidth at least equal to the input bandwidth.

Abstract: A multichannel dynamic range adaptor (102) includes a multichannel signal input (116) for carrying an input signal with an input bandwidth spanning multiple communication channels, and a multichannel signal attenuator (118) connected to the multichannel signal input (116). The multichannel signal attenuator (118) includes a signal output (120) and a signal attenuation input (134) responsive to an attenuation control signal. The multichannel signal attenuator (118) is adapted to provide, on the signal output (120), an output signal corresponding to the input signal reduced in dynamic range in accordance with the attenuation control signal. The output signal dynamic range is generally constrained to be no greater than the dynamic range capability (e.g., 60 dB or less) of an analog to digital (A/D) converter (122) coupled to the multichannel signal attenuator (118) for digitizing the output signal.