Echo cancellation for a broadband distribution system
First Claim
1. A wideband signal distribution system for receiving a plurality of inputs and having a plurality of outputs, the distribution system being characterized by:
- a first distribution unit having a first combiner, a second combiner and a phase shifting combiner;
said first combiner being connected to a first subset of the plurality of inputs and having a first output terminal to which is applied a first combined signal which is an additive combination of said first subset of the plurality of inputs;
said second combiner being connected to a second subset of the plurality of inputs and having a second output terminal to which is applied a second combined signal which is an additive combination of said second subset of the plurality of inputs;
said phase shifting combiner having inputs each connected to the first and second output terminals of the first and second combiners, respectively, wherein the phase shifting combiner applies a non-zero phase shift to said first combined signal, and the phase shifting combiner combines the first combined signal having the non-zero phase shift with the second combined signal having a zero phase shift to provide a third combined signal at an output of said phase shifting combiner, said output of said phase shifting combiner being connected to a splitter, said splitter being connected to a plurality of first distribution unit outputs; and
a second distribution unit cascaded with the first distribution unit such that at least one of the signal distribution unit outputs from the first distribution unit is coupled to an input of the second distribution unit.
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Accused Products
Abstract
A wideband signal distribution unit for receiving a plurality of inputs and having a plurality of outputs is provided. The distribution unit features a first combiner having an output and being connected to a first subset of the plurality of inputs. A second combiner having an output is connected to a second subset of the plurality of inputs. A phase shifting combiner having inputs each connected to the outputs of the first and second combiners supplies a combined signal to an output connected to a splitter which is connected to the plurality of signal distribution unit outputs. The phase shifting combiner is designed to apply a phase shift to one of its inputs.
70 Citations
3 Claims
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1. A wideband signal distribution system for receiving a plurality of inputs and having a plurality of outputs, the distribution system being characterized by:
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a first distribution unit having a first combiner, a second combiner and a phase shifting combiner;
said first combiner being connected to a first subset of the plurality of inputs and having a first output terminal to which is applied a first combined signal which is an additive combination of said first subset of the plurality of inputs;
said second combiner being connected to a second subset of the plurality of inputs and having a second output terminal to which is applied a second combined signal which is an additive combination of said second subset of the plurality of inputs;
said phase shifting combiner having inputs each connected to the first and second output terminals of the first and second combiners, respectively, wherein the phase shifting combiner applies a non-zero phase shift to said first combined signal, and the phase shifting combiner combines the first combined signal having the non-zero phase shift with the second combined signal having a zero phase shift to provide a third combined signal at an output of said phase shifting combiner, said output of said phase shifting combiner being connected to a splitter, said splitter being connected to a plurality of first distribution unit outputs; and
a second distribution unit cascaded with the first distribution unit such that at least one of the signal distribution unit outputs from the first distribution unit is coupled to an input of the second distribution unit. - View Dependent Claims (2)
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3. A wideband signal distribution system, the distribution system comprising:
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(a) a first distribution unit including (i) a plurality of input ports each adapted to be connected to a respective one of a plurality of cables;
(ii) a plurality of impedance matching devices each having its balanced end connected to a respective one of said input ports;
(iii) a first combiner having a first plurality of input terminals each connected to the unbalanced end of one of a first subset of said plurality of impedance matching devices and having an output terminal to which is applied a first combined signal which is an additive combination of all signals appearing at said first plurality of input terminals;
(iv) a second combiner having a second plurality of input terminals each connected to the unbalanced end of one of a second subset of said plurality of impedance matching devices and having an output terminal to which is applied a second combined signal which is an additive combination of all signals appearing at said second plurality of input terminals;
(v) a phase shifting combiner having input terminals each connected to the respective output terminals of the first and second combiners, the phase shifting combiner applying a non-zero phase shift to the first combined signal and combining the first combined signal having the non-zero phase shift with the second combined signal having a zero phase shift to provide a third combined signal at an output of said phase shifting combiner;
(vi) a splitter having an input terminal coupled to the output of the phase shifting combiner by a transmission path, and a plurality of output terminals to all of which is applied the third combined signal appearing at the splitter input terminal;
(vii) a second plurality of impedance matching devices each having its unbalanced end connected to a respective one of said splitter output terminals;
(viii) a plurality of output ports each connected to the balanced end of a respective one of said second plurality of impedance matching devices;
(b) a second distribution unit cascaded with the first distribution unit such that at least one of the output ports from the first distribution unit is coupled to an input of the second distribution unit.
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Specification