Intermodulation distortion reduction method and apparatus
First Claim
1. A multi-frequency communications system of the type having a head-end system that generates a composite signal, the composite signal comprising a plurality of harmonically related, receivable signals that span an in-band frequency spectrum, said harmonically related receivable signals having an initial phase relationship with respect to each other to minimize distortion products produced by nonlinear components acting on the composite signal for in-band and out-of-band frequencieswherein said initial phase relationship between said carriers produces a second order distortion spectrum of said composite signal that is substantially an impulse at zero frequency having minimum side lobes, and wherein said side lobes have a magnitude of no more than fifty percent of the magnitude of said zero frequency impulse.
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Accused Products
Abstract
A method and apparatus for providing spectral control of intermodulation products in communications systems to reduce the distorting and interfering effects of system nonlinearities. The method provides a technique which controls the phases of video carriers in order to minimize second and third order intermodulation distortion products both in-band and out-of-band.
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Citations
17 Claims
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1. A multi-frequency communications system of the type having a head-end system that generates a composite signal, the composite signal comprising a plurality of harmonically related, receivable signals that span an in-band frequency spectrum, said harmonically related receivable signals having an initial phase relationship with respect to each other to minimize distortion products produced by nonlinear components acting on the composite signal for in-band and out-of-band frequencies
wherein said initial phase relationship between said carriers produces a second order distortion spectrum of said composite signal that is substantially an impulse at zero frequency having minimum side lobes, and wherein said side lobes have a magnitude of no more than fifty percent of the magnitude of said zero frequency impulse.
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8. In a multicarrier communications system wherein a plurality of modulated carrier signals are combined to form a composite signal, said composite signal spanning an in-band frequency spectrum, a method for reducing both in-band and out-of-band distortion related to said composite signal comprising the steps of:
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a. causing said plurality of carrier signals to be combined such that a harmonically related frequency relationship is established among said plurality of carrier signals; and b. controlling phases of said combined plurality of carrier signals in a manner to establish a predetermined relationship among said carrier signal phases such that a second order distortion spectrum of said composite signal is substantially an impulse at zero frequency having minimum side lobes, and wherein said side lobes have a magnitude of no more than fifty percent of the magnitude of said zero frequency impulse. - View Dependent Claims (9)
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10. A CATV communications system of the type having a head-end system that generates a composite signal, the composite signal comprising a plurality of harmonically related, receivable signals that span an in-band frequency spectrum, said harmonically related receivable signals having an initial phase relationship with respect to each other so that distortion of the composite signal for the in-band and out-of-band frequencies is minimized
wherein said initial phase relationship between said carriers produces a second order distortion spectrum of said composite signal that is substantially an impulse at zero frequency having minimum side lobes, and wherein said side lobes have a magnitude of no more than fifty percent of the magnitude of said zero frequency impulse.
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11. A method of reducing in-band and out-of-band distortion in a multi-carrier communication system in which a plurality of the carriers is individually modulated and then combined to form a composite signal, the method further comprising the steps of:
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a. causing said plurality of carriers to be combined such that a harmonically related frequency relationship is established among said plurality of carriers; and b. controlling phases of said combined plurality of carriers in a manner to establish a predetermined relationship among said carrier phases such that a second order distortion spectrum of said composite signal is substantially an impulse at zero frequency having minimum side lobes, and wherein said side lobes have a magnitude of no more than fifty percent of the magnitude of said zero frequency impulse.
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12. In a multi-carrier communication system having a composite signal formed from the combination of a plurality of harmonically related carrier signals, the improvement comprising:
said harmonically related carrier signals having phasing controlled in a manner to establish a predetermined relationship among respective carrier signal phases such that a second order distortion spectrum of said composite signal is substantially an impulse at zero frequency having minimum side lobes, and wherein said side lobes have a magnitude of no more than fifty percent of the magnitude of said zero frequency impulse. - View Dependent Claims (13, 14, 15)
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16. A multicarrier communications system, comprising:
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a signal combiner for combining a plurality of harmonically related carriers into a composite signal, said carriers having frequencies that are integral multiples of each other; a circuit for setting the phase of each carrier so that said carriers have an initial phase relationship with respect to each other, said phase relationship being such that a second order distortion spectrum of said composite signal is substantially an impulse at zero frequency having minimum side lobes, and wherein said side lobes have a magnitude of no more than fifty percent of the magnitude of said zero frequency impulse; a feedback circuit for periodically adjusting said carrier phases to maintain said initial phase relationship over time.
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17. A method of reducing the effects of intermodulation distortion in a multifrequency communication system having a plurality of harmonically related frequency channels, said channels being combined into a composite signal and spanning an in-band frequency spectrum, comprising the steps of:
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a. setting the phase of each in-band frequency channel to establish an initial phase relationship between said frequency channels so that a second order distortion spectrum of said composite signal is substantially an impulse at zero frequency having minimum side lobes, and wherein said side lobes have a magnitude of no more than fifty percent of the magnitude of said zero frequency impulse; and b. periodically adjusting said channel phases to maintain said initial phase relationship over time.
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Specification