A Scalable Reconfigurable Intelligent Surface with 3 Bit Phase Resolution and High Bandwidth for 3.6 GHz 5G/6G Applications

TL;DR

This paper introduces a scalable, high-bandwidth reconfigurable intelligent surface operating at 3.6 GHz with 3-bit phase resolution, designed for advanced 5G/6G wireless applications, featuring innovative low-cost fabrication and broadband phase control.

Contribution

The work presents a novel RIS design with 3-bit phase resolution, broadband operation, and simplified manufacturing, advancing practical deployment for next-generation wireless networks.

Findings

Achieved phase tunability across the n78 band

Demonstrated competitive reflection performance

Enabled efficient large-area array assembly

Abstract

Reconfigurable Intelligent Surfaces enable active control of wireless propagation channels, which is crucial for future 5G and 6G networks. This work presents a scalable RIS design operating at 3.6 GHz with both 1 bit and 3 bit phase resolution, supporting wideband applications. The unit cells employ low-cost printed circuit board technology with an innovative spring-contact feeding structure, enabling efficient assembly and reduced manufacturing complexity for large-area arrays. The design achieves broadband phase control, low power consumption, and high scalability, with experimental results demonstrating phase tunability across the n78 frequency band and competitive reflection performance compared to existing solutions. This RIS architecture provides a practical platform for experimental studies of smart radio environments, beam steering, and sensing applications in next-generation wireless networks.