China’s Ministry of Industry and Information Technology has announced that the 6GHz spectrum will be opened for use by 5G and 6G systems starting July 1, according to a revised regulation published on June 27. This move positions China as a pioneer in allocating a contiguous block in the mid‑band to support next generation wireless technology and to foster broader global spectrum coordination.
The newly published regulation clarifies that the 6GHz band, spanning 6.425 to 7.125 GHz or portions of it, is suitable for international mobile telecommunications services. The decision aims to sustain ongoing efforts to harmonize spectrum allocation across regions and to ensure a robust mid‑band resource pool for future mobile networks, including 5G and 6G deployments. By making these frequencies available, China seeks to balance domestic demand with international standards, enabling smoother cross‑border interoperability and more scalable network infrastructure.
The 6GHz spectrum is highlighted as a high‑quality mid‑band option, offering ample bandwidth that supports strong coverage and capacity. The Ministry notes that this band is particularly well‑suited to future 5G and 6G deployments, where mid‑band performance is critical for delivering reliable high‑speed data, low latency, and diverse use cases across urban and rural areas. The choice reflects a strategic emphasis on mid‑band resources as a foundation for advanced wireless services that require consistent performance over large geographic areas.
The ministry emphasizes that this policy will help align the expectations of the 5G and 6G industries, providing mid‑band frequencies to fuel ongoing development and innovation in mobile communications technology. The regulation is designed to stimulate investment, encourage research and development, and accelerate the rollout of more capable network architectures. By expanding the mid‑band spectrum pool, China aims to support new applications such as high‑definition streaming, immersive media, advanced IoT connectivity, and mission‑critical communications that benefit from stable, wide‑area coverage.