A New Accurate Volterra-Based Model for Behavioral Modeling and Digital Predistortion of Rf Power Amplifiers

Du, Tianjiao; Yu, Cuiping; Gao, Jinchun; Liu, Yuanan; Li, Shulan; Wu, Yongle

doi:10.2528/pierc12032707

Cited by 13 publications

(13 citation statements)

References 16 publications

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“…Although the generalized memory polynomial (GMP) [6] model including the cross-band modulation terms is proposed for its high accuracy, a high model complexity is unavoidable when the values of memory depth and nonlinearity order are high. This is because all memory depths have the same nonlinearity order as many predistortion models [7][8][9][10].…”

Section: Introductionmentioning

confidence: 96%

A Modified Generalized Memory Polynomial Model for Rf Power Amplifiers

Sun¹,

Yu²,

Liu³

et al. 2014

PIER Letters

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Abstract-A modified generalized memory polynomial model (MGMP) is proposed for RF power amplifiers (PAs). The MGMP model is derived by applying complexity-reduced technique to the generalized memory polynomial model (GMP), and the least square (LS) algorithm is used for coefficient extraction. The proposed MGMP model is assessed using a GaN Class-F PA driven by two modulated signals (a WCDMA 1001 signal and a single carrier 16QAM signal with 20 MHz bandwidth). The experimental results demonstrate that the MGMP model outperforms the memory polynomial (MP) model and the generalized memory polynomial (GMP) model. Compared with MP model, the MGMP model shows a normalized mean square error (NMSE) improvement of 2.13 dB in forward modeling, average adjacent channel power ratio (ACPR) improvement of 2.62/2.11 dB in the DPD application with almost identical number of model coefficients. In contrast with the GMP model, the MGMP model can achieve comparable forward modeling and linearization performance results, but reduces approximately 40% of coefficients.

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Section: Introductionmentioning

confidence: 96%

A Modified Generalized Memory Polynomial Model for Rf Power Amplifiers

Sun¹,

Yu²,

Liu³

et al. 2014

PIER Letters

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“…The research on the behavioral model of power amplifiers (PAs) yields many helpful results due to the development of wireless communication technology in the last decade [1][2][3][4][5]. Many new nonlinear memory models, such as general memory polynomial (GMP) [3,4,6], are introduced to describe the output characteristic of power amplifier, and experiment results show that these models exhibit very good performance for the description the characteristic of the wide-band power amplifiers.…”

Section: Introductionmentioning

confidence: 99%

“…Many new nonlinear memory models, such as general memory polynomial (GMP) [3,4,6], are introduced to describe the output characteristic of power amplifier, and experiment results show that these models exhibit very good performance for the description the characteristic of the wide-band power amplifiers. However, in those works, only the stable characteristic of power amplifiers has been discussed, and the transient characteristic, which is often influenced by a new physical phenomenon called electrothermal memory [7], is ignored in analysis.…”

Section: Introductionmentioning

confidence: 99%

A Multi-Status Behavioral Model for the Elimination of Electrothermal Memory Effect in DPD System

Wang¹,

Ma²,

Chen³

2014

PIER C

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Abstract-In this paper, a behavioral model with multi-status is represented to describe electrothermal memory of power amplifiers. In the model, a multi-point linearity approximation method is introduced to estimated the model coefficients at random status. The parameters of the new model can be identified by traditional identification algorithms such as recursive least square (RLS) with the input and feedback data at predetermined status points captured by the digital predistortion (DPD) system. Compared with traditional models, the coefficients estimation speed for the new model at new status is very fast. The final experiment result proves that the multi-status model can efficiently ameliorate the performance deterioration caused by electrothermal memory in the the DPD system, and at the same time it still keeps very high DPD performance.

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“…Volterra series can accurately describe the nonlinearity of PA, but it involves a great number of coefficients [6,7] and is undesirable in practice. Therefore, Volterra-based pruning of the items [8][9][10][11][12][13][14][15][16][17] is essential to practical application. The Memory Polynomial (MP) model [13] contains the diagonal terms of Volterra series.…”

Section: Introductionmentioning

confidence: 99%

“…The Generalized Memory Polynomial (GMP) [15] combines the MP model with cross items between the signal and lagging and/or leading exponentiated envelope terms. The new simplified Volterra (SV) [16] series combines the GMP model with cross terms between the conjugate signal and lagging and/or leading exponentiated envelope terms. Compared with MP model.…”

Section: Introductionmentioning

confidence: 99%

An Accurate Complexity-Reduced Simplified Volterra Series for Rf Power Amplifiers

Sun¹,

Yu²,

Liu³

et al. 2014

PIER C

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Abstract-An accurate complexity-reduced simplified Volterra (ACR-SV) series is introduced for RF power amplifiers (PAs). Based on the conventional simplified Volterra (SV) series, it takes memoryless nonlinearity and memory effect into consideration separately, while connected with a nonlinear memory effect (NME) in order to increase accuracy of the model. The proposed ACR-SV model is assessed using a GaN Class-F PA driven by two modulated signals (a WCDMA 1001 signal and a single carrier 16QAM signal with 40 MHz band width). The experimental results in forward modeling and DPD application demonstrate that the proposed ACR-SV model outperforms the memory polynomial (MP) model, the augmented complexity-reduced generalized memory polynomial (ACR-GMP), and the SV model. Compared with the MP model, the ACR-SV model shows a normalized mean square error (NMSE) improvement of 2.61 dB in forward modeling, average adjacent channel power ratio (ACPR) improvement of 3.7/4.2 dB in the DPD application with less 13% number of model coefficients. In comparison with the ACR-GMP model, the ACR-SV model shows NMSE improvement of 1.39 dB, ACPR improvement of 0.7/0.6 dB with comparable number of model coefficients. In contrast with the SV model, the ACR-SV model achieves similar model accuracy, but reduces approximately 53% of coefficients.

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A New Accurate Volterra-Based Model for Behavioral Modeling and Digital Predistortion of Rf Power Amplifiers

Cited by 13 publications

References 16 publications

A Modified Generalized Memory Polynomial Model for Rf Power Amplifiers

A Modified Generalized Memory Polynomial Model for Rf Power Amplifiers

A Multi-Status Behavioral Model for the Elimination of Electrothermal Memory Effect in DPD System

An Accurate Complexity-Reduced Simplified Volterra Series for Rf Power Amplifiers

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