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Bibliographic Details
Main Authors: Orellana, Karel Walter Gomez, Chuquimia, Berthyn Rodrigo Tiñini, Condori, Juan Carlos Paredes, Huanca, Rodrigo Apaza, Quispe, Hugo Orlando Condori
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2511.07815
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author Orellana, Karel Walter Gomez
Chuquimia, Berthyn Rodrigo Tiñini
Condori, Juan Carlos Paredes
Huanca, Rodrigo Apaza
Quispe, Hugo Orlando Condori
author_facet Orellana, Karel Walter Gomez
Chuquimia, Berthyn Rodrigo Tiñini
Condori, Juan Carlos Paredes
Huanca, Rodrigo Apaza
Quispe, Hugo Orlando Condori
contents The deployment of 5G millimeter-wave (mmWave) systems poses significant challenges in maintaining power amplifier linearity and efficiency under varying conditions, such as temperature-induced gain variations that degrade error vector magnitude (EVM). This paper presents a comparative study of three control strategies-PID, pure integral, and fuzzy-integral (FI)-for adaptive power management in a 24 GHz mmWave transceiver. The FI controller integrates fuzzy logic for handling nonlinearities with integral action for zero steady-state error. Experimental results show the FI controller outperforms others in settling time, stability, and EVM minimization.
format Preprint
id arxiv_https___arxiv_org_abs_2511_07815
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Experimental Evaluation of Fuzzy-Integral and Classical controls for Power Management in a 24 GHz mmWave 5G Transceiver
Orellana, Karel Walter Gomez
Chuquimia, Berthyn Rodrigo Tiñini
Condori, Juan Carlos Paredes
Huanca, Rodrigo Apaza
Quispe, Hugo Orlando Condori
Systems and Control
The deployment of 5G millimeter-wave (mmWave) systems poses significant challenges in maintaining power amplifier linearity and efficiency under varying conditions, such as temperature-induced gain variations that degrade error vector magnitude (EVM). This paper presents a comparative study of three control strategies-PID, pure integral, and fuzzy-integral (FI)-for adaptive power management in a 24 GHz mmWave transceiver. The FI controller integrates fuzzy logic for handling nonlinearities with integral action for zero steady-state error. Experimental results show the FI controller outperforms others in settling time, stability, and EVM minimization.
title Experimental Evaluation of Fuzzy-Integral and Classical controls for Power Management in a 24 GHz mmWave 5G Transceiver
topic Systems and Control
url https://arxiv.org/abs/2511.07815