ENGLISH · ORIGINAL
In 2025, we launched 11 of 12 National Security Space Launch ("NSSL") medium and heavy lift missions and all five U.S. crew and cargo missions to the International Space Station for NASA.
Connectivity.
Our Connectivity business includes Starlink Consumer Broadband, Enterprise Solutions, Government Solutions, and Starlink Mobile.
Starlink Consumer Broadband. We operate the world's largest and most advanced space-based internet broadband service. We provide fiber-like download speeds—at a median of 225 Mbps during peak hours for residential users as of March 31, 2026—and the technological capability to provide service everywhere on Earth, including the poles. This service quality is enabled by our vast network of approximately 9,600 Starlink broadband and mobile satellites in Low-Earth Orbit, which accounted for approximately 75% of all active maneuverable satellites in orbit as of March 31, 2026. We expect to commence deploying our next-generation V3 satellites, designed to offer one Tbps of downlink capacity per satellite, using Starship in the second half of 2026. We expect that a single Starship launch will be capable of deploying up to 60 V3 satellites to LEO, representing a potential twenty-fold increase in Starlink downlink capacity deployed relative to a Falcon 9 launch.
Enterprise Solutions. SpaceX is a critical partner to a wide array of enterprises.
中文翻译
2025 年:
我们承接了美国"国家安全航天发射"(NSSL)计划中 12 次中重型发射任务里的 11 次;
我们承接了 NASA 全部 5 次往返国际空间站(ISS)的美国载人/货运任务。
通信(Connectivity)业务
我们的通信业务包括 4 块:Starlink 消费宽带、企业方案、政府方案、Starlink Mobile。
• Starlink 消费宽带(Starlink Consumer Broadband)
"Mbps / Tbps":Mbps = 兆比特每秒(10⁶ bit/s),Tbps = 太比特每秒(10¹² bit/s)。
"可机动卫星(maneuverable satellites)":能主动调整轨道的卫星(避免和其他卫星/太空碎片相撞)。SpaceX 之外,全球大部分卫星是没有机动能力的"死卫星"或简单轨道维持。
原图来源:SEC EDGAR · Elon 引言
想参与互动?打开法量小程序体验完整功能
V3卫星单颗1Tbps的容量加上Starship一次性部署60颗,这个迭代幅度确实惊人。如果2026年下半年能顺利开始部署,Starlink的全球覆盖能力和服务质量将再上一个台阶。不过好奇的是,V3卫星的功耗和散热需求相比前代提升多少?Starship的部署方式会不会对卫星的轨道部署精度提出更高要求?
V3卫星单颗1Tbps容量、一次Starship能部署60颗,这提升确实惊人。不过好奇的是,随着卫星数量继续激增,SpaceX在轨道碰撞规避和频率协调方面有没有什么新的应对策略?毕竟现在90%以上的可机动卫星都是星链了,责任和风险都很大。