Compensation system and methods for a linear power amplifier
First Claim
1. In a LINC power amplifier in which an input transmission signal is separated into component signals that are amplified along respective amplification chains and then combined by a signal combiner to form an output transmission signal, and in which circuitry is provided for monitoring the output transmission signal, a method of generating a numeric model of the amplification chains and combiner so that imperfections therein can be corrected during normal operation of the amplifier, the method comprising:
- (a) providing the numeric model with an initial set of model parameters;
(b) applying a stimulation sequence to the amplification chains to generate an observed output sequence at an output of the combiner;
(c) applying the stimulation sequence to the model to calculate a predicted output sequence, and comparing the predicted output sequence to the observed output sequence; and
(d) iteratively refining the model parameters and repeating step (c) until a difference between the predicted and observed output sequences is substantially minimized.
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Accused Products
Abstract
A LINC amplifier of a radio frequency transmitter provides substantially linear amplification from two nonlinear amplifiers by decomposing the original signal into two constant amplitude envelope, phase varying signals, which, when combined, constructively and destructively interfere to re-form the original signal. The output of the LINC amplifier, which is to be transmitted via an antenna, is an amplified form of the original signal. The LINC amplifier uses a digital control mechanism to control and adapt a digital compensation network that directly compensates for the imperfections of the analog RF environment, including the amplifiers. The mechanism monitors the combined amplifier output and adjusts the signal components in order to precisely compensate for any differences in the characteristics of the separate signal paths which would cause the combination not to accurately represent the original signal. The mechanism also corrects the component signals using information which can be applied to the amplifiers independent of the signal to be transmitted.
213 Citations
31 Claims
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1. In a LINC power amplifier in which an input transmission signal is separated into component signals that are amplified along respective amplification chains and then combined by a signal combiner to form an output transmission signal, and in which circuitry is provided for monitoring the output transmission signal, a method of generating a numeric model of the amplification chains and combiner so that imperfections therein can be corrected during normal operation of the amplifier, the method comprising:
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(a) providing the numeric model with an initial set of model parameters; (b) applying a stimulation sequence to the amplification chains to generate an observed output sequence at an output of the combiner; (c) applying the stimulation sequence to the model to calculate a predicted output sequence, and comparing the predicted output sequence to the observed output sequence; and (d) iteratively refining the model parameters and repeating step (c) until a difference between the predicted and observed output sequences is substantially minimized. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
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14. In a LINC amplifier system in which an input transmission signal is separated into component signals that are amplified along respective amplification chains and then combined by a signal combiner to form an output transmission signal, and in which the component signals are modified by compensation processors, based on sets of compensation parameters, to compensate for differences in the amplification chains, a method of adaptively adjusting the compensation parameters, comprising:
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(a) generating a numeric model which represents the amplification chains and the combiner; (b) applying a test sequence to a compensation module which includes or represents the compensation processors, and applying a resulting output of the compensation module to the numeric model, to simulate the operation of the amplifier system; and (c) during step (b), adaptively updating the compensation parameters until an error in an output signal generated by the numeric model falls to within a predetermined threshold. - View Dependent Claims (15, 16, 17, 18, 19, 20)
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21. In a LINC amplifier system in which an input transmission signal is separated into component signals that are amplified along respective amplification chains and then combined by a signal combiner to form an output transmission signal, a method of compensating for a difference between the amplification chains, comprising, during a transmission event:
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(a) separating the input transmission signal into first and second component signals of substantially constant amplitude and varying phase; (b) modifying at least one of the first and second component signals using a compensation processor, based on a set of compensation parameters, to compensate for the difference; (c) applying the first and second component signals as modified in step (b) to respective amplification chains; (d) monitoring an observed output sequence at an output of the signal combiner; (e) comparing the observed output sequence to a predicted output sequence, the predicted output sequence based on the input transmission signal; and (f) adaptively adjusting the compensation parameters to reduce a difference between the observed output sequence and the predicted output sequence. - View Dependent Claims (22, 23, 24, 25, 26, 27)
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28. A linear power amplifier system for radio frequency transmissions, comprising:
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a signal separator circuit which separates an input transmission signal into first and second component signals; first and second signal processing chains which process the first and second component signals, respectively, at least one of the signal processing chains including a compensation processor which modifies the respective component signal based on a set of compensation parameters to compensate for differences between the first and second processing chains; a signal combiner circuit which combines the components signals for transmission following processing along the signal processing chains; a signal monitoring circuit which captures and stores within a computer memory sequences of digital signal samples that represent an expected and an actual output of the signal combiner circuit during transmission events; and a compensation estimation circuit which reads the samples from the computer memory and processes the samples in a non-real-time mode to generate updates to the compensation parameters. - View Dependent Claims (29, 30, 31)
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Specification