Nonlinear pre-distortion modulator and long loop control
First Claim
Patent Images
1. A method for compensation for nonlinear distortions during propagation of a QAM signal in a direct propagation channel;
- said QAM signal including a constellation of at least 16 phasors;
said direct propagation channel further comprising a transmitter/modulator side and a receiver/demodulator side;
said method comprising the steps of;
monitoring an out-of-band power produced by a non-linear amplifier (NLA) located at said transmitter/modulator side of said of said direct propagation channel by using a power detector block located at said receiver/demodulator side of said direct propagation channel;
generating a nonlinear distortion compensation signal using a controller at said receiver/demodulator side of said direct propagation channel;
transmitting said nonlinear distortion compensation signal across said direct propagation channel to an input of a pre-distortion block at said transmitter/modulator side of said direct propagation channel;
deriving a magnitude predistortion component;
deriving a rotation predistortion component by using a plurality of fixed predistortion coefficients based on said NLA backoff power level, wherein said NLA backoff power level ensures that said NLA is in a quasi-linear mode of operation; and
injecting said predistortion component into said input of said NLA in order to linearize an output signal generated by said transmitter/modulator block.
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Abstract
Method for predistortion compensation for nonlinear distortion produced by the non-linear power amplifier of the QAM signal at the transmitter side of the direct digital communication channel. The out-of-band signal power is monitored by the existent receiver at the receive side of the direct propagation channel. The nonlinear distortion compensation signal is generated at the receiver/demodulator side of the direct propagation channel and transmitted across the direct propagation channel to an input of a pre-distortion block at the transmitter/modulator side of the direct propagation channel. The nonlinear distortion compensation signal is used to adjust the set of parameters of the pre-distortion block in order to minimize the out-of-band power produced by the non-linear amplifier (NLA).
130 Citations
13 Claims
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1. A method for compensation for nonlinear distortions during propagation of a QAM signal in a direct propagation channel;
- said QAM signal including a constellation of at least 16 phasors;
said direct propagation channel further comprising a transmitter/modulator side and a receiver/demodulator side;
said method comprising the steps of;monitoring an out-of-band power produced by a non-linear amplifier (NLA) located at said transmitter/modulator side of said of said direct propagation channel by using a power detector block located at said receiver/demodulator side of said direct propagation channel;
generating a nonlinear distortion compensation signal using a controller at said receiver/demodulator side of said direct propagation channel;
transmitting said nonlinear distortion compensation signal across said direct propagation channel to an input of a pre-distortion block at said transmitter/modulator side of said direct propagation channel;
deriving a magnitude predistortion component;
deriving a rotation predistortion component by using a plurality of fixed predistortion coefficients based on said NLA backoff power level, wherein said NLA backoff power level ensures that said NLA is in a quasi-linear mode of operation; and
injecting said predistortion component into said input of said NLA in order to linearize an output signal generated by said transmitter/modulator block.
- said QAM signal including a constellation of at least 16 phasors;
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2. A method for compensation for nonlinear distortions during propagation of a QAM signal in a direct propagation channel;
- said QAM signal including a constellation of at least 16 phasors;
said direct propagation channel further comprising a transmitter/modulator side and a receiver/demodulator side;
said method comprising the steps of;monitoring an out-of-band power produced by a non-linear amplifier (NLA) located at said transmitter/modulator side of said of said direct propagation channel by using a power detector block located at said receiver/demodulator side of said direct propagation channel;
generating a nonlinear distortion compensation signal using a controller at said receiver/demodulator side of said direct propagation channel;
transmitting said nonlinear distortion compensation signal across said direct propagation channel to an input of a pre-distortion block at said transmitter/modulator side of said direct propagation channel;
deriving a magnitude predistortion component;
deriving a rotation predistortion component by using a plurality of predistortion coefficients based on said demodulator;
injecting said predistortion component into said input of said NLA in order to linearize an output signal generated by said transmitter/modulator block; and
adaptively updating said plurality of predistortion coefficients based on said demodulator in order to take into consideration a slow changing external parameter selected from the group consisting of outside temperature, outside humidity, and voltage variations, thus minimizing said nonlinear distortion caused by said NLA in said direct propagation channel. - View Dependent Claims (3, 4, 5)
feeding back said nonlinear distortion compensation signal with a feedback frequency to take into account said slow changing external parameter, wherein said feedback frequency is higher than a frequency of change of said slow changing external parameter.
- said QAM signal including a constellation of at least 16 phasors;
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4. The method of claim 2, wherein said step of adaptively updating said plurality of predistortion coefficients further includes the step of:
periodically feeding back said nonlinear distortion compensation signal at a predetermined time interval.
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5. The method of claim 2, wherein said step of adaptively updating said plurality of predistortion coefficients further includes the step of:
feeding back said nonlinear distortion compensation signal at a variable time interval, wherein said variable time interval depends on said external parameter.
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6. A method for compensation for nonlinear distortions during propagation of a QAM signal in a direct propagation channel;
- said QAM signal including a constellation of at least 16 phasors;
said direct propagation channel further comprising a transmitter/modulator side and a receiver/demodulator side;
said method comprising the steps of;monitoring an out-of-band power produced by a non-linear amplifier (NLA) located at said transmitter/modulator side of said of said direct propagation channel by using a power detector block located at said receiver/demodulator side of said direct propagation channel;
generating a nonlinear distortion compensation signal using a controller at said receiver/demodulator side of said direct propagation channel;
transmitting said nonlinear distortion compensation signal across said direct propagation channel to an input of a pre-distortion block at said transmitter/modulator side of said direct propagation channel;
deriving an inphase amplitude predistortion component;
deriving a quadrature amplitude predistortion component;
injecting said predistortion component into said input of said NLA in order to linearize an output signal generated by said transmitter/modulator block; and
calculating at least two constellation compensation errors for each said phasor, a first said constellation compensation error being an averaged compensation error, and a second said constellation compensation error being a “
selective”
compensation error for a plurality of “
selective”
phasors located within said QAM constellation.
- said QAM signal including a constellation of at least 16 phasors;
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7. A method for compensation for nonlinear distortions during propagation of a QAM signal in a direct propagation channel;
- said QAM signal including a constellation of at least 16 phasors;
said direct propagation channel further comprising a transmitter/modulator side and a receiver/demodulator side;
said method comprising the steps of;monitoring an out-of-band power produced by a non-linear amplifier (NLA) located at said transmitter/modulator side of said of said direct propagation channel by using a power detector block located at said receiver/demodulator side of said direct propagation channel;
generating a nonlinear distortion compensation signal using a controller at said receiver/demodulator side of said direct propagation channel;
transmitting said nonlinear distortion compensation signal across said direct propagation channel to an input of a pre-distortion block at said transmitter/modulator side of said direct propagation channel;
deriving an inphase amplitude predistortion component;
deriving a quadrature amplitude predistortion component;
injecting said predistortion component into said input of said NLA in order to linearize an output signal generated by said transmitter/modulator block; and
calculating at least two constellation compensation errors for each said phasor, a first said constellation compensation error being an averaged compensation error, and a second said constellation compensation error being an “
outside”
compensation error for a plurality of “
outside”
phasors located on a perimeter of said QAM constellation.- View Dependent Claims (8)
calculating a “
blind”
mode error (BME) for each said “
outside”
phasor as a reference error, wherein a QAM phasor is defined as a “
blind”
phasor if said QAM phasor includes a maximum peak power without taking into consideration a phase angle of said QAM phasor;
calculating a decision directed equalization (DDE) error for each said QAM phasor relative to said a “
blind”
mode reference error (BME);
wherein said decision directed equalization (DDE) error for each said QAM phasor indicates an amplitude of error for each said phasor, and indicates a phase angle for said one phasor, and wherein said phase angle for said one phasor is indicative of whether said one phasor is located inside or outside said “
blind”
power circle; and
using a plurality of said “
outside”
phasors located outside said “
blind”
power circle to calculate said predistortion compensation signal.
- said QAM signal including a constellation of at least 16 phasors;
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9. A method for compensation for nonlinear distortions during propagation of a QAM signal in a direct propagation channel;
- said QAM signal including a constellation of at least 16 phasors;
said direct propagation channel further comprising a transmitter/modulator side and a receiver/demodulator side;
said method comprising the steps of;monitoring an out-of-band power produced by a non-linear amplifier (NLA) located at said transmitter/modulator side of said of said direct propagation channel by using a power detector block located at said receiver/demodulator side of said direct propagation channel;
generating a nonlinear distortion compensation signal using a controller at said receiver/demodulator side of said direct propagation channel;
using a reverse feedback service channel to transmit said nonlinear distortion compensation signal; and
adjusting a set of parameters of said pre-distortion block by using said nonlinear distortion compensation signal in order to minimize said out-of-band power produced by said non-linear amplifier (NLA). - View Dependent Claims (10, 11)
using a microwave reverse service channel.
- said QAM signal including a constellation of at least 16 phasors;
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11. The method of claim 9, wherein said step of using said reverse feedback service channel further includes the step of:
using a fiberoptic reverse service channel.
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12. A method for compensation for nonlinear distortions during propagation of a QAM signal in a direct propagation channel;
- said QAM signal including a constellation of at least 16 phasors;
said direct propagation channel further comprising a transmitter/modulator side and a receiver/demodulator side;
said method comprising the steps of;monitoring an out-of-band power produced by a non-linear amplifier (NLA) located at said transmitter/modulator side of said of said direct propagation channel by using a power detector block located at said receiver/demodulator side of said direct propagation channel;
generating a nonlinear distortion compensation signal using a controller at said receiver/demodulator side of said direct propagation channel;
transmitting said nonlinear distortion compensation signal across said direct propagation channel to an input of a pre-distortion block at said transmitter/modulator side of said direct propagation channel;
adjusting a set of parameters of said pre-distortion block by using said nonlinear distortion compensation signal in order to minimize said out-of-band power produced by said non-linear amplifier (NLA); and
separating a plurality of predistortion even samples from a plurality of predistortion odd samples during propagation of said QAM signal in said direct propagation channel, wherein said modulator includes a single stage including a single predistorter of even samples and a single predistorter of odd samples.
- said QAM signal including a constellation of at least 16 phasors;
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13. A method for compensation for nonlinear distortions during propagation of a QAM signal in a direct propagation channel;
- said QAM signal including a constellation of at least 16 phasors;
said direct propagation channel further comprising a transmitter/modulator side and a receiver/demodulator side;
said method comprising the steps of;monitoring an out-of-band power produced by a non-linear amplifier (NLA) located at said transmitter/modulator side of said of said direct propagation channel by using a power detector block located at said receiver/demodulator side of said direct propagation channel;
generating a nonlinear distortion compensation signal using a controller at said receiver/demodulator side of said direct propagation channel;
transmitting said nonlinear distortion compensation signal across said direct propagation channel to an input of a pre-distortion block at said transmitter/modulator side of said direct propagation channel;
adjusting a set of parameters of said pre-distortion block by using said nonlinear distortion compensation signal in order to minimize said out-of-band power produced by said non-linear amplifier (NLA); and
separating a plurality of predistortion even samples from a plurality of predistortion odd samples during propagation of said QAM signal in said direct propagation channel, wherein said modulator includes a plurality of stages, each said stage including a single predistorter of even samples and a single predistorter of odd samples.
- said QAM signal including a constellation of at least 16 phasors;
Specification
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Current AssigneeREMEC Broadband Wireless Networks LLC (Moseley Associates, Inc.)
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Original AssigneeWideband Semiconductors, Inc.
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InventorsIsaksen, David Bruce, Danzer, Byron Esten
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Primary Examiner(s)Tran, Khai
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Assistant Examiner(s)Ghulamali, Qutbuddin
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Application NumberUS09/707,419Time in Patent Office1,394 DaysField of Search375/296, 375/297, 375/285, 375/219, 375/261, 375/358, 375/340, 375/221, 375/259, 329/304, 330/5, 455/63, 455/73, 455/91US Class Current375/284CPC Class CodesH04L 27/34 Amplitude- and phase-modula...H04L 27/3872 Compensation for phase rota...
