Elon Musk introduced the Starlink Mini on X recently, and showed off a few of its unique new features.
We’ve updated this article with additional Starlink information such as pricing and mobile data plan.
SpaceX has now officially begun sales of the Starlink Mini to select early customers.
Specs
The Starlink Mini is about the size of a 14” laptop or Macbook, which means it is ultra-portable and can fit inside a backpack for easy carry. While it doesn’t appear to support power over USB-C, it does come with a 12V barrel jack and RJ45 Ethernet jack, as well as built-in Wi-Fi support. As for the Wi-Fi support, expect Wi-Fi 6 with 802.11ax and 3x3 MiMO support on 2.4Ghz and 5Ghz bands. It has also been confirmed to have mesh support, which means you can link multiple Starlink Minis or Starlinks together to create a mesh Wi-Fi network.
The Starlink Mini will be 63% lighter than the standard Starlink dish, and about the size of a piece standard-sized paper.
Price
The most interesting part of this is the fact that it is expected to cost half of what current Starlink dishes cost – so within the $250 to $300 USD price range. Elon Musk, while unclear, also implied that the subscription price would also be lower for the Starlink Mini, enabling more affordable internet access.
For now, the United States limited offering places the price at $599.
SpaceX’s goal is to reduce the forward-looking price of the Mini, especially for regions around the world where connectivity is unaffordable or unavailable. However, in regions with high Starlink saturation - like North America, Starlink Mini places additional demand on the satellite network.
Roam Data Service
The Starlink Mini features a “Mini Roam” service, which is an additional $30/mo for 50GB of Mobile data that can be used anywhere in the United States, and is $1/GB for additional data. The Mini Roam service requires you to continue your regular Residential Starlink Service, even while roaming.
Speed
Of course, with a loss in size also comes a loss in speed – even if it’s still blazing fast. The Starlink Mini seemed to cap out at around 100 Mbps at a latency of 23ms, which is about half as fast as the top speeds for a regular Starlink dish, but with similar latency.
Even with the loss of speed, this is still more than fast enough to play video games and stream 4K video. Perhaps not at the same time, but the Mini is clearly designed for a single user.
Update: The Starlink Mini is indeed capped to 100Mbps max download speeds.
Starlink for Tesla?
The Mini is a good first step for possibly bringing Starlink capabilities to Tesla cars, which Elon Musk confirmed in 2022. Some enterprising users have either suction-cupped or mounted their starlinks to their glass Tesla roofs, or with special mounts for the Cybertruck already. The Mini will be a key item for going camping in your Tesla in the future - perhaps with the new Model Y Air Mattress!
Tesla could one day offer Starlink connectivity in Teslas, either as a backup to cellular connectivity or as a main source. However, Starlink connectivity requires line-of-sight, which likely means that Tesla would still require a cellular connection in their vehicles for times when vehicles don’t have a clear view of the sky. Using Starlink could help lower Tesla’s bandwidth costs and improve connectivity in remote areas.
Interestingly enough, some Superchargers already have Starlink functionality, with a transparent experience of vehicles automatically connecting to Supercharger Wi-Fi for data, including for Software Updates!
Release Dates
Musk mentioned that while the Starlink Mini isn’t available just yet, it will be rolling out to select areas in the next few months. Nothing further has emerged on where these areas are, but we could expect them to be in North America, where Starlink has done most of the new dish testing, such as with the more recent Starlink Flat High-Performance dishes.
Update: Starlink Mini has begun rolling out to early Starlink customers in the United States. No word yet on other regions.
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In just 8 months, Tesla has gone from breaking ground to delivering electrons at its most ambitious Supercharger project to date, just in time to be ready for the busy Fourth of July holiday weekend. Project Oasis, the world’s largest Supercharger site, is now partially open to customers for its first phase in Lost Hills, California.
What makes this remarkable is the speed of execution. In just eight months, Tesla has constructed a site that will eventually feature 168 stalls (84 stalls are now open), supported by 11 MW of solar power and 10 Megapacks of battery storage. That construction speed is pretty impressive, but what is even more impressive is how this new station operates and what it means for future Supercharging infrastructure.
Self-Sufficient Energy Oasis
Not a Tesla App
The first 84 stalls at Lost Hills are now open, and according to the Tesla Charging team, they are currently powered solely by the sun and operate off-grid.
This makes it more than just a new Supercharger site. It serves as a proof of concept for a new type of Supercharger. Unlike nearly every other charging site in the world, which draws power from local utilities, this station generates its own clean electricity from its massive solar array and stores it in its array of on-site Megapacks.
Self-sufficient charging stations are something completely different than what we see today. They are highly resilient since they’re not reliant on the grid. That means that even if there is a local power outage, brownout, or blackout, one can always come to Lost Hills to Supercharge.
If you’ve got a Cybertruck, you could take advantage of the Cybertruck’s Powershare feature and charge up at Lost Hills to help keep your home powered during a blackout, utilizing the Cybertruck as a portable battery charger. Now that’s true independence and self-reliance.
The Future of Charging
Solar-powered Superchargers help avoid massive new loads on already stressed electrical grids, especially during peak afternoon and evening hours, when demand is the highest.
This is Tesla’s vision for the future of charging: a clean, fully closed-loop ecosystem that sustains itself. The sun’s energy is captured, stored, and delivered directly to vehicles on site at any time of day without relying on the electrical grid or fossil fuels.
Largest Supercharger in the World
This opening of 84 stalls is just the first phase of the project. Tesla says that the remaining stalls, as well as a new on-site lounge, are coming later this year. Once complete, the 168-stall site will be the largest Supercharger site in the world.
While the speed of building such a massive project in just eight months is a testament to Tesla’s execution, the true innovation is actually that self-sustainability. Let’s hope we see even more large, self-sufficient Supercharger sites across the world in the near future.
Elon Musk is once again seeking to expand Tesla’s vertical integration in the energy sector, this time focusing squarely on solar power. Following discussions on X that highlighted the massive gap in solar deployments between the US and China, Elon is now discussing the need for a Tesla Solar Gigafactory in the United States.
This potential move is driven by a specific catalyst: the exponential growth of AI is creating an insatiable demand for electricity. For Tesla and xAI, two of Elon’s companies betting their future on AI, building the power generation required is a strategic necessity.
A new factory wouldn’t just be about making panels; it would be about manufacturing the final missing piece in Tesla’s vertically integrated energy ecosystem.
Maybe there should be a solar Gigafactory in America
The context for this renewed focus is pretty stark. In May, China reportedly added a staggering 93 gigawatts (GW) of solar power capacity. In contrast, the United States installed approximately 14 GW over the entire first quarter, roughly 20 times less than China.
The primary driver of this demand is the revolution in AI. Training ever-larger and smarter AI models involves operating vast data centers, which consume staggering amounts of power. Google, Amazon, and Microsoft have turned to small-scale nuclear reactors, with Microsoft petitioning to reopen the infamous Three Mile Island for its AI operations.
For Elon’s companies, whose future products like FSD, Optimus, and Grok are built on a foundation of real-world AI, securing a massive and sustainable energy supply isn’t a side quest. It is part of the main mission, especially in conjunction with grid-scale storage, such as Megapacks and Powerwalls. You can’t power a world of autonomous robots without a world of abundant, clean energy.
The Tesla Ecosystem
A US solar gigafactory would be the final, logical step in completing Tesla’s energy hardware ecosystem. While Tesla already manufactures some solar panels and the Tesla solar roof, the scale is too minuscule to matter.
By mass-producing its own panels, while also increasing Solar Roof production, Tesla would become a true one-stop shop for all things green energy. This would allow the company to supply its own large-scale projects, like the massive solar array for Project Oasis - the world’s largest Supercharger site.
It would also enable more complete residential packages, like the Giga-Small Haus concept home, combining Tesla-made panels and roofs with a Powerwall 3. This level of vertical integration would give Tesla complete control over the technology, cost, and supply of every major component in its energy ecosystem, from generation to storage to mobility.
Building a new Solar Gigafactory is about much more than just simply producing solar panels. It’s a requirement to power Tesla’s future products and make solar panels accessible to everyone.
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