Single sideband quadricorrelator
First Claim
1. A single sideband quadricorrelator frequency difference detector for facilitating the acquisition and tracking of the center frequency ω
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i of a spread spectrum, suppressed-carrier, bi-phase modulated phase shift keyed input signal of the form m(t)sin ω
i t including;
first means for providing first and second in-phase and quadrature signals, respectively, of the form sin(ω
i -ω
o)t and cos(ω
i -ω
o)t, respectively;
second means for differentiating said first and second signals;
third means for phase shifting the first signal by 180°
;
fourth means for multiplying the differentiated first signal by the second signal to obtain a third signal;
fifth means for multiplying the phase shifted first signal by the differentiated second signal to obtain a fourth signal; and
sixth means for summing the outputs of the fourth and fifth means to obtain an output signal equal to (ω
i -ω
o).
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Abstract
A supplementary frequency acquisition circuit in the form of a frequency difference detector called a single sideband quadricorrelator is provided. When used in conjunction with a phase-locked loop of a conventional spread spectrum demodulator, this circuit allows for the rapid acquisition and accurate tracking of the center frequency of a spread spectrum suppressed-carrier bi-phase PSK signal. The invention cancels spurious sum and difference frequency components impulsed at the data rate as well as double difference frequency component and other modulation products without filtering. By eliminating the need for supplementary low pass filtering, the present invention provides rapid acquisition of the suppressed-carrier signal and provides a frequency difference output at twice the amplitude of comparable prior art systems. The tracking error or frequency difference (ωi -ωo) is obtained by differentiating the quadrature signal and multiplying by the in-phase signal component rotated 180° in phase. This product is summed with the output obtained by multiplying the differentiated in-phase signal component with the quadrature signal component.
122 Citations
3 Claims
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1. A single sideband quadricorrelator frequency difference detector for facilitating the acquisition and tracking of the center frequency ω
-
i of a spread spectrum, suppressed-carrier, bi-phase modulated phase shift keyed input signal of the form m(t)sin ω
i t including;first means for providing first and second in-phase and quadrature signals, respectively, of the form sin(ω
i -ω
o)t and cos(ω
i -ω
o)t, respectively;second means for differentiating said first and second signals; third means for phase shifting the first signal by 180°
;fourth means for multiplying the differentiated first signal by the second signal to obtain a third signal; fifth means for multiplying the phase shifted first signal by the differentiated second signal to obtain a fourth signal; and sixth means for summing the outputs of the fourth and fifth means to obtain an output signal equal to (ω
i -ω
o).
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i of a spread spectrum, suppressed-carrier, bi-phase modulated phase shift keyed input signal of the form m(t)sin ω
-
2. A method for processing in-phase and quadrature signals from a quadrature hybrid of the form sin(ω
-
i -ω
o)t and cos(ω
i -ω
o)t to derive an output which represents the difference between the respective frequencies (ω
i -ω
o) where ω
i is the center frequency of the suppressed-carrier input signal m(t)sin ω
i t and ω
o is the center frequency of a locally generated reference oscillator, including the steps of;(1) differentiating the in-phase and quadrature signals; (2) multiplying the differentiated in-phase signal by the quadrature signal to obtain a first product; (3) phase shifting the in-phase signal 180°
;(4) multiplying the phase shifted in-phase signal by the derivative of the quadrature signal to obtain a second product; and (5) summing the first and second products to obtain the frequency difference output.
-
i -ω
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3. A bi-phase demodulator for acquiring and tracking the center frequency ω
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i of the spread spectrum suppressed-carrier bi-phase modulated phase shift keyed input signal including;
quadrature means for receiving a down converted signal of the form m(t)sin ω
i t and providing first and second signals of the form sin(ω
i -ω
o)t and cos(ω
i -ω
o)t, respectively;differentiator means for differentiating the first and second signals respectively; phase shift means for phase shifting the first signal 180°
;first and second multiplier means for multiplying the differentiated first signal by the second signal and for multiplying the phase shifted first signal by the differentiated second signal, respectively; first summing means for summing the outputs of the first and second multipliers to provide a frequency difference term (ω
i -ω
o);second summing means for coupling the output of the first summing means to a voltage controlled reference oscillator; first and second matched low pass filters for filtering said first and second signals; third multiplier means for multiplying said filtered first and second signals; and loop filter means for deriving from said third multiplier means a DC error voltage for controlling said voltage controlled reference oscillator via said second summing means whereby the output of said voltage control oscillator accurately tracks the suppressed-carrier of the input signal via the quadrature hybrid.
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i of the spread spectrum suppressed-carrier bi-phase modulated phase shift keyed input signal including;
Specification
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- Resources
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Current AssigneeHughes Aircraft Company (Rtx Corporation)
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Original AssigneeHughes Aircraft Company (Rtx Corporation)
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InventorsWilliams, Austin M.
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Primary Examiner(s)Safourek, Benedict V.
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Application NumberUS06/401,682Time in Patent Office771 DaysField of Search331/1 A, 375/1, 375/77, 375/97, 375/87, 375/80, 375/84, 329/50, 329/107, 329/124, 455/202, 455/257, 455/260US Class Current375/150CPC Class CodesH03L 7/113 using frequency discriminatorH04B 1/707 using direct sequence modul...H04L 2027/003 at baseband onlyH04L 2027/0069 Loop filtersH04L 27/2273 associated with quadrature ...
