Method and apparatus for carrier phase tracking
First Claim
1. A telecommunications system comprising:
- (A) a transmitter for transmitting a modulated carrier into a channel, including;
(i) an adder for adding a pilot signal to the inphase component of a data signal, said data signal comprised of data symbols having a symbol interval with a midpoint, said pilot signal having a frequency equal to the inverse of two times the symbol interval, a first zero crossing point located at a first symbol interval midpoint, and a second zero crossing located at a next symbol interval midpoint, and (ii) a modulator for modulating the data signal and pilot signal on to a carrier sinusoid to produce the modulated carrier; and
(B) a receiver for receiving from the channel the modulated carrier transmitted by the transmitter, said receiver including;
(i) a demodulator for demodulating the received modulated carrier to produce a demodulated signal, having an inphase component and a quadrature component;
(ii) a phase estimator for recovering the pilot tone from the demodulated signal produced by the demodulator to produce a phase error estimate, of the pilot tone, calculated using the outputs of a pair of phase locked-loops, which when combined, said outputs produce a phase error estimate; and
(iii) a phase adjuster for adjusting the phase of the demodulated signal based on the phase error estimate which is applied to a complex data signal to produce an inphase component estimate and a quadrature component estimate, adjusted for phase error.
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Accused Products
Abstract
A method and telecommunication system for tracking the carrier phase of a received signal includes the addition of a pilot signal to the data component of the signal prior to modulation and transmission. The pilot signal is specified to have a frequency equal to the inverse of twice a data symbol interval with zero crossings positioned at the midpoint of each symbol interval to avoid interference with the data. The received signal is demodulated to produce a complex data signal from which the pilot signal is detected to provide an estimate of the phase error in the complex data signal. The elimination of the phase error from the complex data signal is accomplished through a corrective phase shift that is equal and opposite to the estimated phase error. A sample timing estimate may also be obtained in a similar manner.
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Citations
16 Claims
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1. A telecommunications system comprising:
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(A) a transmitter for transmitting a modulated carrier into a channel, including;
(i) an adder for adding a pilot signal to the inphase component of a data signal, said data signal comprised of data symbols having a symbol interval with a midpoint, said pilot signal having a frequency equal to the inverse of two times the symbol interval, a first zero crossing point located at a first symbol interval midpoint, and a second zero crossing located at a next symbol interval midpoint, and (ii) a modulator for modulating the data signal and pilot signal on to a carrier sinusoid to produce the modulated carrier; and
(B) a receiver for receiving from the channel the modulated carrier transmitted by the transmitter, said receiver including;
(i) a demodulator for demodulating the received modulated carrier to produce a demodulated signal, having an inphase component and a quadrature component;
(ii) a phase estimator for recovering the pilot tone from the demodulated signal produced by the demodulator to produce a phase error estimate, of the pilot tone, calculated using the outputs of a pair of phase locked-loops, which when combined, said outputs produce a phase error estimate; and
(iii) a phase adjuster for adjusting the phase of the demodulated signal based on the phase error estimate which is applied to a complex data signal to produce an inphase component estimate and a quadrature component estimate, adjusted for phase error. - View Dependent Claims (2, 3, 4, 5, 6, 7)
a sample timing estimator, receiving the output from the phase estimator, for generating a sample timing estimate having periodic points of zero phase relative to the pilot tone contained in the received signal, said demodulator including means in synchronism with said points of zero phase to produce the demodulated signal.
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3. The telecommunications system of claim 1 wherein the phase estimator is comprised of a pair of filters for tracking the inphase and the quadrature components of the pilot tone to produce the phase error estimate.
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4. The telecommunications system of claim 1 wherein the modulation is quadrature modulation.
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5. The telecommunications system of claim 1 wherein the modulation is trellis-coded modulation.
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6. The telecommunications system as defined in claim 1, wherein said
phase estimator includes at least a pair of phase-locked loops, a first phase-locked loop having an output which is the sum of said pilot tone'"'"'s phase and a phase error introduced by said channel or other reference, and the second phase-locked loop being the sum of the negative of the pilot tone'"'"'s phase and said phase error introduced by said channel or other reference; - and
an adder circuit, which combines the two, outputs of the phase-locked loops and uses the resulting sum to produce an estimate of the phase error.
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7. The telecommunications system as defined in claim 6 further comprising:
a phase error correction circuit which has as an input the phase error estimate produced by said phase estimator and which removes phase error present in demodulated data in a received signal by multiplying a representation of the phase error computed against the complex data signal to produce an estimate of the in-phase portion and an estimate of the quadrature portion of the received signal.
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8. A method for carrier phase tracking in a telecommunications system comprised of a transmitter and a receiver,
said transmitter performing the steps of: -
adding a pilot signal to a data signal, said data signal comprised of data symbols having a symbol interval with a midpoint, said pilot signal having a frequency equal to the inverse of two times the symbol interval, a first zero crossing point located at a first symbol interval midpoint, and a second zero crossing located at a next symbol interval midpoint, modulating the data signal and pilot signal on to a carrier sinusoid, and transmitting the modulated carrier into a channel; and
said receiver performing the steps of receiving from the channel the modulated carrier transmitted by the transmitter;
demodulating the received modulated carrier to produce a demodulated signal, having an inphase component and a quadrature component;
recovering the pilot signal from the demodulated signal produced by the demodulator to produce a phase error estimate, of the pilot tone, calculated using the outputs of a pair of phase locked-loops, which when combined, said outputs produce a phase error estimate;
sampling the inphase component and the quadrature component of the recovered pilot signal to calculate a phase-error estimate from said samples; and
adjusting the phase of the demodulated signal based on the phase error estimate which is applied to a complex data signal to produce an inphase component estimate and a quadrature component estimate, adjusted for phase error. - View Dependent Claims (9, 10, 11)
generating a sample timing estimate having periodic points of zero phase, and aligning sampling points of a sampling clock with the zero phase points of the estimate, said sampling clock being used in the demodulating step for sampling the received modulated carrier to produce the demodulated signal.
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10. The method of claim 8 wherein the modulation is quadrature modulation.
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11. The method of claim 8 wherein the modulation is trellis coded modulation.
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12. A receiver for receiving from a channel a signal comprising a carrier modulated with periodic data symbols and with a pilot signal having a frequency equal to the symbol the inverse of two times the symbol interval, said pilot signal having zero crossings coinciding with the midpoints of the symbol intervals, said receiver comprising:
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(i) a demodulator for demodulating the received modulated carrier to produce a demodulated signal, having an inphase component and a quadrature component;
(ii) a phase estimator for recovering the pilot tone from the demodulated signal produced by the demodulator to produce a phase error estimate, of the pilot tone, calculated using the outputs of a pair of phase locked-loops, which when combined, said outputs produce a phase error estimate; and
(iii) a phase adjuster for adjusting the phase of the demodulated signal based on the phase error estimate which is applied to a complex data signal to produce an inphase component estimate and a quadrature component estimate, adjusted for phase error. - View Dependent Claims (13, 14, 15, 16)
a sample timing estimator, receiving the output from the phase estimator, for generating a sample timing estimate having periodic points of zero phase, said sample timing estimate for aligning sampling points of a sampling clock with the zero phase points of the sample timing estimate;
said demodulator sampling the received signal with the sampling clock to produce the demodulated signal.
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14. The receiver of claim 12 wherein the phase estimator is comprised of a pair of filters for tracking separate components of the pilot tone to produce the phase error estimate.
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15. The receiver of claim 12 wherein the modulation of the data symbols is quadrature modulation.
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16. The receiver of claim 12 wherein the modulation of the data symbols is trellis coded modulation.
Specification