Adaptive Predistortion Using a $\Delta\Sigma$ Modulator for Automatic Inversion of Power Amplifier Nonlinearity

Boo, Hyun H.; Chung, Suk Bum; Dawson, Joel L.

doi:10.1109/tcsii.2009.2035269

Cited by 14 publications

(14 citation statements)

References 14 publications

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“…Then the real and imaginary part of distorted amplitude and gain are extracted Fig. 9 shows the normalized output of polynomial vs. the input for a range of coefficients as given in Table (2). This figure illustrates the ability of the proposed 5 th order polynomial circuit in adapting to the behavior of distinct PAs by simply configuring the currents (b1 to b5), which controls the polynomial coefficients.…”

Section: Validation Of Proposed Modelmentioning

confidence: 98%

“…A number of different linearization methods including the feed-forward [3], [4], feedback [5], digital PD [6] and analog PD [7], [8] have been widely employed to improve the linear characteristic of the PA. As for implementation, the digital PD will no longer be the optimum candidates. This is because of their bandwidth limitations and the need for high power supply [1], [2]. The challenge in analog PD methods is in designing a circuit that will accurately produce an inverse characteristic of the original PA's distortion [9], see Fig.…”

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confidence: 99%

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A Polynomial Analog Baseband Predistorter for Compensation of Wireless Amplifier’s Distortion

Kouhini

Jarchlo

Khademi

et al. 2020

2020 12th International Symposium on Communication Systems, Networks and Digital Signal Processing (CSNDSP)

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This paper presents a new analog polynomial pre-distortion circuit using 350nm CMOS technology to reduce the distortion of power amplifier in wireless communication systems. The proposed pre-distortion circuit uses the polynomial approach. The coefficients of the polynomial are controlled by multiplying them with sufficient digit defined through indirect learning process to provide best practice linearization. Circuit level simulation of the proposed circuit is using Cadence DFW II is used as proof of concept. The simulation set-up comprises a power amplifier, excited with a four carrier GSM signal, pre-distorted by the proposed circuit. Simulation results show that using the pre-distortion circuit the inter-modulation distortion is reduced on average by 16 dB.

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Section: Validation Of Proposed Modelmentioning

confidence: 98%

mentioning

confidence: 99%

A Polynomial Analog Baseband Predistorter for Compensation of Wireless Amplifier’s Distortion

Kouhini

Jarchlo

Khademi

et al. 2020

2020 12th International Symposium on Communication Systems, Networks and Digital Signal Processing (CSNDSP)

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“…The filter output is coupled by a directional coupler and used by adaptive digital predistortion subsystem to characterize the transmitter nonlinearity whose impact is different for each frequency band; therefore two quadrature demodulators separately capture each frequency band. Although digital predistortion can be integrated within delta-sigma modulation using a feedback predistortion technique [8], the feedback predistortion requires extra delay to apply digital predistortion on the CMB-DSM signal, which limits the modulation bandwidth. Hence, the digital pre distortion in the proposed architecture is directly applied to the baseband signals.…”

Section: Inter-band Ca Digital Transmitter Architecturementioning

confidence: 99%

Inter-band carrier aggregation digital transmitter architecture with concurrent multi-band delta-sigma modulation using out-of-band noise cancellation

Chung¹,

Ma²,

Shinjo

et al. 2015

2015 IEEE MTT-S International Microwave Symposium

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Concurrent multi-band delta-sigma modulation (CMB-DSM) with out-of-band noise cancellation is presented for the first time. A scaled replica modulator creates anti-phased quantization noise for multi-band noise cancellation, consequently reducing adjacent channel leakage and significantly relaxing the design of a multi-band RF filter to suppress undesirable out-of-band emission. A prototype digital transmitter is designed with 6th-order CMB-DSM using a loop filter with stability compensation. Experimental results show that the proposed noise cancellation technique achieves more than 15-dB suppression on the out-of-band quantization noise with LTE inter-band carrier aggregation (CA) on 856 MHz and 1450 MHz bands with 40-MHz aggregated channel bandwidth.

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“…In order to implement and analyze adaptation algorithms in practice, due to the high cost in equipment and time required for designing a complete closed loop system, two approaches have been taken. One approach has been to develop adaptation techniques with LUT-based DPDs in either the direct path [9]- [12], or both the direct and feedback paths [13]- [15]. These approaches suffer from the huge increase in size of LUTs needed to compensate for the different drifts in PA behavior.…”

Section: Introductionmentioning

confidence: 99%

Investigation of Parameter Adaptation in RF Power Amplifier Behavioral Models

Tehrani¹,

Chani²,

Eriksson³

et al. 2014

Preprint

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This paper presents an investigation into parameter adaptation in behavioral model-based digital predistortion for radio frequency power amplifiers. A novel measurement setup framework that emulates real-time adaptation in transmitters is developed that allows evaluation of different parameters, configurations and adaptation algorithms. This setup relieves the need for full feedback loops for parameter adaptation while providing the flexibility needed in the design process of parameter adaptation.Issues such as convergence speed, sensitivity to quantization noise in the feedback loop and predistortion performance are investigated for some different parameter update algorithms using the proposed measurement setup. The approach presented in this paper allows the possibility to analyze different aspects of digital predistortion adaptation algorithms, and is an important enabling step for further research on parameter adaptation before the real-time hardware is implemented for use.

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Adaptive Predistortion Using a $\Delta\Sigma$ Modulator for Automatic Inversion of Power Amplifier Nonlinearity

Cited by 14 publications

References 14 publications

A Polynomial Analog Baseband Predistorter for Compensation of Wireless Amplifier’s Distortion

A Polynomial Analog Baseband Predistorter for Compensation of Wireless Amplifier’s Distortion

Inter-band carrier aggregation digital transmitter architecture with concurrent multi-band delta-sigma modulation using out-of-band noise cancellation

Investigation of Parameter Adaptation in RF Power Amplifier Behavioral Models

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