Noise shaping technique for spread spectrum communications
First Claim
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1. A single sideband modulator for frequency translating a data signal prior to spread spectrum encoding within a spread spectrum bandwidth comprising:
- means for converting said data signal into I and Q components;
means for modulating said I and Q components; and
means for adding said modulated I and Q components to provide a frequency translated data signal to be spread at the edge of the spread spectrum bandwidth.
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Abstract
A spread spectrum noise shaper uses a modulation technique to achieve a greater signal-to-noise or signal-to-interference ratio (SNR or SIR). The technique doubles the system SIR, in principle. This doubling yields a doubling in system capacity. SNR is increased by receiving the spread spectrum signal in the presence of less noise near the edge of the spread spectrum bandwidth. The technique requires only small additions to a conventional spread spectrum system, in the form of an extra modulator at the transmitter, and an extra demodulator and filter at the receiver.
9 Citations
7 Claims
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1. A single sideband modulator for frequency translating a data signal prior to spread spectrum encoding within a spread spectrum bandwidth comprising:
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means for converting said data signal into I and Q components; means for modulating said I and Q components; and means for adding said modulated I and Q components to provide a frequency translated data signal to be spread at the edge of the spread spectrum bandwidth. - View Dependent Claims (2, 3)
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4. A single sideband modulator for frequency translating a data signal prior to spread spectrum encoding within a spread spectrum bandwidth comprising:
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a first phase shift network for receiving a PCM data sequence and converting the PCM data sequence into an I component and a Q component; a second phase shift network for generating a sinusoidal carrier signal and a cosinusoidal carrier signal; a first modulator for receiving said I component from said first phase shift network and said sinusoidal carrier signal from said second phase shift network, and modulating said I component with said sinusoidal carrier signal; a second modulator for receiving said Q component from said first phase shift network and said cosinusoidal carrier signal from said second phase shift network, and modulating said Q component with said cosinusoidal signal; and an adder for adding the modulated I component and the modulated Q component to produce a frequency translated signal for spreading at the edge of the spread spectrum bandwidth.
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5. A method for frequency translating a data signal prior to spread spectrum encoding within a spread spectrum bandwidth comprising:
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converting said data signal into I and Q components; modulating said I and Q components; and adding said modulated I and Q components to provide a frequency translated data signal for spreading at the edge of the spread spectrum bandwidth. - View Dependent Claims (6, 7)
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Specification
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Current AssigneeInterdigital Technology Corporation (InterDigital, Inc.)
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Original AssigneeInterdigital Technology Corporation (InterDigital, Inc.)
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InventorsMoore, Timothy F. III
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Primary Examiner(s)Chin, Wellington
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Assistant Examiner(s)Tran, Congvan
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Application NumberUS08/696,195Time in Patent Office736 DaysField of Search375/200, 375/206, 375/208, 375/235, 375/240, 375/241, 375/242, 375/259, 375/295, 375/298, 370/93, 332/106, 332/103, 455/130, 455/205, 455/209US Class Current375/130CPC Class CodesH04B 1/707 using direct sequence modul...H04L 27/02 Amplitude-modulated carrier...
