System and method for high-speed decoding and ISI compensation in a multi-pair transceiver system
First Claim
1. A receiver for demodulating an analog signal transmitted by a remote transmitter over a transmission channel, the analog signal including a first ISI component induced by a characteristic of a pulse shaping filter included in the remote transmitter and a second ISI component induced by a characteristic of the transmission channel, the receiver comprising:
- an analog front end, including an analog-to-digital converter, the analog front end receiving and converting the analog signal to a first digital signal;
an equalizer block coupled to the analog front end to receive the first digital signal, the equalizer block compensating the first ISI component in the first digital signal and outputting a second digital signal; and
a decision feedback sequence estimation block, including an ISI compensation circuit, the ISI compensation circuit receiving the second digital signal outputted by the equalizer block and compensating the second ISI component in the second digital signal;
wherein the equalizer block comprises;
an ISI compensation filter having an impulse response substantially inverse of the impulse response of the pulse shaping filter of the remote transmitter, wherein the ISI compensation filter is an inverse partial response filter; and
an adaptive gain stage.
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Accused Products
Abstract
A method and a system for providing ISI compensation to an input signal in a bifurcated manner. ISI compensation is provided in two stages, a first stage compensates ISI components induced by characteristics of a transmitter'"'"'s partial response pulse shaping filter, a second stage compensates ISI components induced by characteristics of a multi-pair transmission channel. First stage ISI compensation is performed in an inverse response filter having a characteristic feedback gain factor K, during system start-up. Second stage ISI compensation is performed by a single DFE in combination with a MDFE operating on tentative decisions output from a Viterbi decoder. As the DFE of the second stage reaches convergence, the feedback gain factor K of the first stage is ramped to zero.
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Citations
4 Claims
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1. A receiver for demodulating an analog signal transmitted by a remote transmitter over a transmission channel, the analog signal including a first ISI component induced by a characteristic of a pulse shaping filter included in the remote transmitter and a second ISI component induced by a characteristic of the transmission channel, the receiver comprising:
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an analog front end, including an analog-to-digital converter, the analog front end receiving and converting the analog signal to a first digital signal;
an equalizer block coupled to the analog front end to receive the first digital signal, the equalizer block compensating the first ISI component in the first digital signal and outputting a second digital signal; and
a decision feedback sequence estimation block, including an ISI compensation circuit, the ISI compensation circuit receiving the second digital signal outputted by the equalizer block and compensating the second ISI component in the second digital signal;
wherein the equalizer block comprises;
an ISI compensation filter having an impulse response substantially inverse of the impulse response of the pulse shaping filter of the remote transmitter, wherein the ISI compensation filter is an inverse partial response filter; and
an adaptive gain stage. - View Dependent Claims (2)
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3. A method for demodulating an analog signal transmitted by a remote transmitter over a transmission channel, the analog signal including a first ISI component induced by a characteristic of a pulse shaping filter included in the remote transmitter and a second ISI component induced by a characteristic of the transmission channel, the method comprising the operations of:
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(a) receiving the analog signal in an analog front end;
(b) converting the analog signal to a first digital signal;
(c) compensating the first ISI component included in the first digital signal using an equalizer block;
(d) producing a second digital signal, the second digital signal being substantially equal to the first digital signal with the first ISI component substantially compensated;
(e) compensating the second ISI component included in the second digital signal;
(f) producing a third digital signal, the third digital signal being substantially equal to the second digital signal with the second ISI component substantially compensated; and
(g) decoding the third digital signal;
wherein operation (c) comprises the operations of;
filtering the first digital signal using an inverse partial response filter having an impulse response substantially inverse of the impulse response of the pulse shaping filter of the remote transmitter; and
adjusting a gain of the filtered first digital signal using an adaptive gain stage. - View Dependent Claims (4)
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Specification