Patent application number | Description | Published |
20120106600 | ANALOG SIGNAL PROCESSOR FOR NONLINEAR PREDISTORTION OF RADIO-FREQUENCY SIGNALS - RF predistortion apparatus for making linear the output signal of non-linear components such as RF power amplifiers. The apparatus comprises an RF input line for carrying an RF signal connected to an envelop detector for finding the envelop of the RF signal, a power detector for finding the power of the RF signal and a quadrature modulator. The apparatus also comprises a coefficient vector input line for carrying an input signal that carries one or more coefficients to a digitally controlled analog subsystem (DCAS). The DCAS having circuitry for processing both the output of the envelop detector and the output of the power detector by selecting one or more coefficients from the coefficient vector input line for generating a weighted summation of the power of the RF signal and a weighted summation of the envelop voltage of the RF signal that are output to the quadrature modulator. The quadrature modulator has circuitry for mixing the RF input signal with the output of the DCAS to generate a signal for predistorting the RF input signal feeding the power amplifier. | 05-03-2012 |
20130082773 | LINEARIZATION OF POWER AMPLIFIERS THROUGH DIGITAL IN-BAND PREDISTORTION FOLLOWED BY ANALOG PREDISTORTION - A system for implementing linearization of a radio frequency (RF) power amplifier (PA) in a base station, as well as various component circuitry for implementing said system. By means of a smart partitioning of the signal processing for predistortion between the analog domain and the digital domain, a more linear relationship between the digital input data and the output RF signal is achieved. Linearization of the PA's output signal is obtained using a mixed-signal apparatus. The digital baseband signal enters the RF signal source. The RF signal source comprises an in-band predistortion circuit, a micro-controller and digital modulator. The output of the digital modulator is an RF signal that enters the PA module. The PA module is composed of the PA and the RF power amplifier linearizer (RFPAL). The RFPAL comprises an RF predistortion circuit, and RF signal analyzer and a microcontroller. | 04-04-2013 |
20130099862 | LINEARIZATION OF BROADBAND POWER AMPLIFIERS - An RF linearizer and an associated method are provided for linearizing a power amplifier. The RF linearizer may include: (a) a quadrature up-converter for up-converting a baseband input signal that is to be transmitted by the power amplifier; (b) an RF analog predistorter controlled by a set of coefficients for predistorting the up-converted input signal; (c) a down-converter for down-converting an output signal of the power amplifier; (d) an error monitor receiving the down-converted output signal and the input signal for providing an error signal; and (e) a signal analyzer receiving the error signal, the signal analyzer using an out-of-band power spectrum of the error signal to optimize the set of coefficients. The input signal may have an in-phase component and a quadrature component. | 04-25-2013 |
20130342271 | LINEARIZATION OF POWER AMPLIFIERS THROUGH DIGITAL IN-BAND PREDISTORTION FOLLOWED BY ANALOG PREDISTORTION - A system for implementing linearization of a radio frequency (RF) power amplifier (PA) in a base station, as well as various component circuitry for implementing said system. By means of a smart partitioning of the signal processing for predistortion between the analog domain and the digital domain, a more linear relationship between the digital input data and the output RF signal is achieved. Linearization of the PA's output signal is obtained using a mixed-signal apparatus. The digital baseband signal enters the RF signal source. The RF signal source comprises an in-band predistortion circuit, a micro-controller and digital modulator. The output of the digital modulator is an RF signal that enters the PA module. The PA module is composed of the PA and the RF power amplifier linearizer (RFPAL). The RFPAL comprises an RF predistortion circuit, and RF signal analyzer and a microcontroller. In addition, a backward data interface connects the RF signal source with the RFPAL. | 12-26-2013 |
20140009229 | INTEGRATED SIGNAL ANALYZER FOR ADAPTIVE CONTROL OF MIXED-SIGNAL INTEGRATED CIRCUITS - A mixed-signal adaptive integrated circuit may comprise a primary function circuit, a digitally controlled analog sub-system cooperatively connected with the primary function circuit, and an on-chip signal analyzer. The on-chip signal analyzer may be arranged to analyze RF signals. The signal analyzer may comprise at least one multiplexor for selecting selected RF signals for comparison and analysis, and may comprise a digital signal processor (DSP) for analyzing the selected RF signals and adjusting at least one operational parameter of the digital controlled analog sub-system responsive to the analysis. | 01-09-2014 |
20140341316 | CREST FACTOR REDUCTION FOR BAND-LIMITED MULTI-CARRIER SIGNALS - A crest factor reduction (CFR) circuit reduces the peak-to-average (PAR) power of a digitally modulated signal in a complex baseband is achieved by post-processing the input signal, with negligible increase in out-of-band emissions. The CFR circuit takes advantage of a procedure that solves for an optimum CFR using a constraint-optimization approach. In one embodiment, the CFR circuit, which receives an input signal and provides an output signal, includes: (a) an error generation circuit that receives the input signal and provides an error signal representative of a measure of circuit-induced distortion and a delayed input signal, the delayed input signal being the input signal delayed by a predetermined value; (b) a linear-phase filter receiving the error signal to provide a correction signal; and (c) a summer that subtracts the correction from the delayed input signal to provide the output signal. This circuit can achieve near optimal CFR for arbitrary multi-carrier signals without incurring high computational complexity. | 11-20-2014 |
20150078226 | FILTER ENHANCER AND METHOD - A filter enhancer provides greater performance in a passive filter. The passive filter has an input terminal for receiving a signal in a first frequency band and an output terminal for providing a signal in a second frequency band. The filter enhancer includes: (a) a first canceller circuit coupled between input terminal and output terminal, the first canceller circuit including a first finite impulse response (FIR) filter for attenuating signals in the first frequency band; and (b) a control circuit coupled to output terminal and first canceller circuit for providing adaptive coefficients for configuring the first FIR filter. The first FIR filter may be implemented by either a digital FIR filter or an analog FIR filter. The filter enhancer may further include a second canceller circuit coupled between input terminal and output terminal, the second canceller circuit including a second FIR filter for attenuating signals in the second frequency band. | 03-19-2015 |
20150214987 | ADAPTIVELY CONTROLLED DIGITAL PRE-DISTORTION IN AN RF POWER AMPLIFIER USING AN INTEGRATED SIGNAL ANALYZER WITH ENHANCED ANALOG-TO-DIGITAL CONVERSION - A pre-distortion circuit for a power amplifier may include: (a) a digital interface for receiving a complex-value digital baseband signal; (b) a mixed-signal pre-distortion circuit adaptively controlled by a set of parameter values, receiving the complex-value digital baseband signal to provide a pre-distorted signal for input to the power amplifier, the mixed-signal pre-distortion circuit may include: (i) digital pre-distortion circuit that transforms the complex-value digital baseband signal to a pre-distorted complex-value digital baseband signal by applying to the complex-value digital baseband signal a memory-less non-linear gain and a polynomial function based on the complex-value digital baseband signal one or more delayed copies of the complex-value digital baseband signal; and (ii) up-converter that converts the pre-distorted complex-value digital baseband signal to the pre-distorted signal; and (c) a signal analyzer receiving an output signal from the power amplifier to provide the parameter values from time to time to the mixed-signal pre-distortion circuit. | 07-30-2015 |