A neural network-based DPD coefficient determination for PA linearization in 5G and beyond-5G mmWave systems

Aravind Tharayil Narayanan; Ludovico Minati; Aran Hagihara; Jun Kobayashi; Toshihiro Shimura; Yoichi Kawano; Parthojit Chakraborty; Jim Bartels; Korkut Kaan Tokgöz; Shiro Dosho; Toshihide Suzuki; Hiroyuki Ito

doi:10.1587/elex.21.20240186

LETTER

A neural network-based DPD coefficient determination for PA linearization in 5G and beyond-5G mmWave systems

Aravind Tharayil Narayanan, Ludovico Minati, Aran Hagihara, Jun Kobayashi, Toshihiro Shimura, Yoichi Kawano, Parthojit Chakraborty, Jim Bartels, Korkut Kaan Tokgöz, Shiro Dosho, Toshihide Suzuki, Hiroyuki Ito

Author information

Aravind Tharayil Narayanan
Institute of Innovative Research, Tokyo Institute of Technology
Ludovico Minati
Institute of Innovative Research, Tokyo Institute of Technology
Aran Hagihara
Institute of Innovative Research, Tokyo Institute of Technology
Jun Kobayashi
Mobile Systems Business Unit, Wireless Product Development Division, Fujitsu Corporation
Toshihiro Shimura
Mobile Systems Business Unit, Wireless Product Development Division, Fujitsu Corporation
Yoichi Kawano
Mobile Systems Business Unit, Wireless Product Development Division, Fujitsu Corporation
Parthojit Chakraborty
Institute of Innovative Research, Tokyo Institute of Technology
Jim Bartels
Institute of Innovative Research, Tokyo Institute of Technology
Korkut Kaan Tokgöz
Institute of Innovative Research, Tokyo Institute of Technology
Faculty of Engineering and Natural Sciences, Sabanci University
Shiro Dosho
Institute of Innovative Research, Tokyo Institute of Technology
Toshihide Suzuki
Mobile Systems Business Unit, Wireless Product Development Division, Fujitsu Corporation
Hiroyuki Ito
Institute of Innovative Research, Tokyo Institute of Technology

Keywords: 5G, DPD, beamforming, transceiver, NN

JOURNAL FREE ACCESS

2024 Volume 21 Issue 10 Pages 20240186

DOI https://doi.org/10.1587/elex.21.20240186

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Abstract

This work presents a neural network DPD for mmWave RF-PAs. Differently from existing neural network-based DPDs, the neural network in the proposed DPD does not reside in the forward data path. Instead, it estimates the polynomial coefficients from the complex Fourier amplitudes of harmonics during a calibration sweep. It can compensate for PA nonlinearity under various operating conditions with lower hardware complexity compared to conventional DPDs. The proposed design is validated on a 28GHz CMOS phased-array transceiver. In 256-QAM 5G-OFDMA-mode, the proposed neural network DPD achieved an improvement in EVM from -28.7dB to -32.0dB, while maintaining an ACLR of -33.4dBc.

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