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Main Authors: Kayraklık, Sefa, Baş, Recep, Çalışkan, Hasan Oğuzhan, Şahinoğlu, Samed, Erdoğan, Sercan, Ünal, İlhami, Hökelek, İbrahim, Nurdan, Kıvanç, Görçin, Ali
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2509.24355
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author Kayraklık, Sefa
Baş, Recep
Çalışkan, Hasan Oğuzhan
Şahinoğlu, Samed
Erdoğan, Sercan
Ünal, İlhami
Hökelek, İbrahim
Nurdan, Kıvanç
Görçin, Ali
author_facet Kayraklık, Sefa
Baş, Recep
Çalışkan, Hasan Oğuzhan
Şahinoğlu, Samed
Erdoğan, Sercan
Ünal, İlhami
Hökelek, İbrahim
Nurdan, Kıvanç
Görçin, Ali
contents Reconfigurable intelligent surface (RIS), capable of dynamically controlling wireless propagation characteristics using reflecting antenna elements, is a promising technology for enhancing signal coverage and improving end-user connectivity in next-generation wireless networks. This paper presents a complete design flow of a modular RIS prototype operating at the n78 frequency band, starting from the simulations to the prototype development and testing. An RIS prototype includes one master and up to sixteen slave blocks, each of which has an identical hardware structure with $8\times 8$ reflecting surface elements and a controller board. The phase shift response of each unit element is controlled with a PIN diode to form a $180^\circ$ phase difference between the ON and OFF states. The measurement experiment using two RIS blocks, horn antennas, and a vector network analyzer showed that the improvement of the received signal power is more than $15$ dB across the n78 frequency band for a given placement.
format Preprint
id arxiv_https___arxiv_org_abs_2509_24355
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle N78 Frequency Band Modular RIS Design and Implementation
Kayraklık, Sefa
Baş, Recep
Çalışkan, Hasan Oğuzhan
Şahinoğlu, Samed
Erdoğan, Sercan
Ünal, İlhami
Hökelek, İbrahim
Nurdan, Kıvanç
Görçin, Ali
Signal Processing
Reconfigurable intelligent surface (RIS), capable of dynamically controlling wireless propagation characteristics using reflecting antenna elements, is a promising technology for enhancing signal coverage and improving end-user connectivity in next-generation wireless networks. This paper presents a complete design flow of a modular RIS prototype operating at the n78 frequency band, starting from the simulations to the prototype development and testing. An RIS prototype includes one master and up to sixteen slave blocks, each of which has an identical hardware structure with $8\times 8$ reflecting surface elements and a controller board. The phase shift response of each unit element is controlled with a PIN diode to form a $180^\circ$ phase difference between the ON and OFF states. The measurement experiment using two RIS blocks, horn antennas, and a vector network analyzer showed that the improvement of the received signal power is more than $15$ dB across the n78 frequency band for a given placement.
title N78 Frequency Band Modular RIS Design and Implementation
topic Signal Processing
url https://arxiv.org/abs/2509.24355