WASHINGTON D.C. — In a significant regulatory milestone for the commercial space sector, the Federal Communications Commission (FCC) issued a partial grant on Friday, January 9, 2026, authorizing SpaceX to deploy and operate an additional 7,500 second-generation (Gen2) Starlink satellites.
This decision effectively doubles the company’s authorized Gen2 fleet to 15,000 spacecraft, providing the regulatory foundation for the company to offer symmetrical gigabit-per-second broadband speeds to rural and underserved regions worldwide.
The order, released by the FCC’s Space Bureau, addresses a portion of SpaceX’s broader 2020 application for nearly 30,000 next-generation satellites. While the Commission deferred a decision on the remaining 14,988 proposed satellites—specifically those intended for orbits above 600 kilometers—the current approval allows for immediate expansion of network capacity to meet rising consumer and enterprise demand.
Technical Upgrades and Frequency Coordination
The newly authorized hardware is designed with advanced form factors and increased throughput compared to the first-generation network. To support these higher data rates, the FCC has permitted SpaceX to operate across a broader range of frequencies, including the Ku- and Ka-bands for user links, and the V-, E-, and W-bands for gateway operations. This expansion into higher frequency bands is a critical component of the company’s strategy to achieve fiber-like service levels from an orbital platform.
A central element of the technical authorization involves the use of lower orbital shells. The satellites are permitted to operate at altitudes ranging from 340 kilometers to 485 kilometers. These lower orbits are strategically selected to reduce signal latency and ensure that offline satellites deorbit more rapidly due to atmospheric drag, thereby enhancing the long-term sustainability of the low Earth orbit (LEO) environment.
Direct-to-Cell Connectivity and Orbital Safety
Beyond traditional broadband, the FCC order grants SpaceX the authority to provide direct-to-cell connectivity outside the United States. Within the U.S., the company is authorized to provide supplemental coverage in cellular-adjacent frequencies, a service that utilizes spectrum through a partnership with T-Mobile. This capability allows standard smartphones to access text and emergency services in remote locations where terrestrial cellular towers are unavailable.
To address concerns regarding orbital debris and radio interference, the FCC has imposed several operational conditions. SpaceX is required to maintain its ongoing coordination with NASA and the National Science Foundation to mitigate the impact of satellite brightness on optical and radio astronomy. Furthermore, the company must launch 50% of the newly approved satellites by December 1, 2028, and the remainder by December 1, 2031, to maintain its licensing rights.
Strategic Impact on Global Broadband Competition
The authorization has been described as a pivotal moment for the U.S. space economy. FCC Chairman Brendan Carr noted in a statement following the decision that the move would strengthen competition and help ensure that no community is left behind by enabling faster and more advanced internet services. The decision aligns with broader national efforts to prioritize high-speed infrastructure and restore American leadership in wireless and space technology.
This move reinforces the dominant position of the Starlink Gen2 constellation in the global market. While rival geostationary and LEO operators have raised concerns regarding potential radio interference, the FCC’s order includes provisions requiring SpaceX to cease operations if harmful interference occurs. Moving forward, the industry anticipates that this expanded capacity will allow SpaceX to capture a larger share of the $42 billion Broadband Equity, Access, and Deployment (BEAD) program, particularly in high-cost rural areas where satellite solutions offer the most immediate path to connectivity.