The second edition of the Tesla Roadster was initially slated for production and delivery in 2020, but two years later, the car still has not been produced, and details are still slim. Here’s what we know about the next-gen Tesla Roadster.
Tesla CEO Elon Musk unveiled the next-gen Tesla Roadster in 2017 during the reveal event of the Tesla Semi. It was not expected, and Musk surprised everyone in the room when the new design was released to spectators. Since then, various details have been released but it still remains unclear when the vehicle will actually enter production.
The Roadster might be able to hover
Musk unveiled a potential SpaceX package for the Roadster in 2018, which would utilize SpaceX cold-gas thrusters to enable short-term hovering abilities. Tesla has reiterated this potential on several occasions, describing a potential 1.1-second 0-60 MPH acceleration time. It is still unclear whether the FAA will have anything to say about the vehicle’s potential hovering capability, but the 1.1-second 0-60 time would be Tesla’s fastest by a considerable margin, and one of the fastest on Earth.
The new Roadster will actually do something like this https://t.co/fIsTAYa4x8
— Elon Musk (@elonmusk) January 9, 2019
You can still reserve a Tesla Roadster
Tesla Roadster reservations are still available on Tesla.com. “Roadster reservations require an initial $5,000 credit card payment, plus a $45,000 wire transfer payment due in 10 days. Reservations are not final until the wire transfer payment is received,” Tesla describes. Founders Series Roadster reservations are closed.
Credit: Tesla
Production of the Tesla Roadster was expected to start in 2019, 2020, 2021, 2022, and now 2023
Production dates of the Tesla Roadster have shifted several times in the vehicle’s history. After production was expected to begin in 2019 with deliveries in 2020, Tesla shifted production to “the next 12 to 18 months” during the Q2 2020 Earnings Call. This pushed production to mid-2021 as the pandemic raged on and limited production output across the industry.
In January 2021, Musk once again delayed production to 2022, stating engineering on the vehicle was set to be completed late last year.
Finishing engineering this year, production starts next year. Aiming to have release candidate design drivable late summer. Tri-motor drive system & advanced battery work were important precursors.
— Elon Musk (@elonmusk) January 28, 2021
In late 2021, Musk once again delayed production to 2023 as long as Tesla could avoid “mega drama” with the supply chain in 2022. It is relatively unknown if 2022’s supply chain was “mega drama,” as the description is objective. However, there are a lot of indications Tesla could be ready to introduce some new products to its lineup next year.
The Cybertruck is ready to begin production early next year, and a low-volume vehicle like the Roadster could be a great test of Tesla’s resilience and supply chain health if it can begin manufacturing the supercar in 2023.
The Tesla Roadster will likely be built in California
Tesla will likely build the vehicle in California.
“We think, probably, also the Tesla Roadster, a future program, would also make sense in California,” Musk said during the company’s Q2 2020 Earnings Call.
Fremont is the only plant that currently builds all four Tesla models, and it continues to manufacture low-volume vehicles like the Model S and Model X, which only make up a small percentage of the company’s overall deliveries each quarter. Fremont is space-confined, but filings and other plans have indicated Tesla is expanding the plant to make room for more projects.
Unexpectedly, the automaker will produce Cybertruck battery packs at the Fremont factory, and the 4680 battery is built down the street at Tesla’s Kato Road facility.
Gigafactory Texas will be reserved for mass Model Y, Cybertruck, and potentially Semi production in the future.
If you want to see the Roadster today, it is currently on display at the Petersen Automotive Museum in Los Angeles as part of the “Inside Tesla: Supercharging the Electric Revolution” exhibit.
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Elon Musk
SpaceX targets 150Mbps per user for upgraded Starlink Direct-to-Cell
If achieved, the 150Mbps goal would represent a significant jump from the current performance of Starlink Direct-to-Cell.
SpaceX is targeting peak download speeds of 150Mbps per user for its next-generation Direct-to-Cell Starlink service. The update was shared by SpaceX Spectrum & Regulatory Affairs Lead Udrivolf Pica during the International Telecommunication Union’s Space Connect conference.
“We are aiming at peak speeds of 150Mbps per user,” Pica said during the conference. “So something incredible if you think about the link budgets from space to the mobile phone.”
If achieved, the 150Mbps goal would represent a significant jump from the current performance of Starlink Direct-to-Cell.
Today, SpaceX’s cellular Starlink service, offered in partnership with T-Mobile under the T-Satellite brand, provides speeds of roughly 4Mbps per user. The service is designed primarily for texts, low-resolution video calls, and select apps in locations that traditionally have no cellular service.
By comparison, Ookla data shows median 5G download speeds of approximately 309Mbps for T-Mobile and 172Mbps for AT&T in the United States, as noted in a PCMag report. While 150Mbps would still trail the fastest terrestrial 5G networks, it would place satellite-to-phone broadband much closer to conventional carrier performance, even in remote areas.
Pica indicated that the upgraded system would support “video, voice, and data services, clearly,” moving beyond emergency connectivity and basic messaging use cases.
To reach that target, SpaceX plans to upgrade its existing Starlink Direct-to-Cell satellites and add significant new capacity. The company recently acquired access to radio spectrum from EchoStar, which Pica described as key to expanding throughput.
“More spectrum means a bigger pipeline, and this means that we can expand what we can do with partners. We can expand the quality of service. And again, we can do cellular broadband basically, cellular broadband use cases, like AI or daily connectivity needs,” he stated.
SpaceX has also requested regulatory approval to deploy 15,000 additional Direct-to-Cell satellites, beyond the roughly 650 currently supporting the system. The upgraded architecture is expected to begin rolling out in late 2027.
News
Tesla seeks approval to test FSD Supervised in new Swedish city
Tesla has applied to conduct local Full Self-Driving (Supervised) testing in the city of Jönköping, Sweden.
Tesla has applied to conduct local Full Self-Driving (Supervised) testing in the city of Jönköping, Sweden.
As per local outlet Jönköpings-Posten, Tesla has contacted the municipality with a request to begin FSD (Supervised) tests in the city. The company has already received approval to test its Full Self-Driving (Supervised) software in several Swedish municipalities, as well as on the national road network.
Sofia Bennerstål, Tesla’s Head of Public Policy for Northern Europe, confirmed that an application has been submitted for FSD’s potential tests in Jönköping.
“I can confirm that we have submitted an application, but I cannot say much more about it,” Bennerstål told the news outlet. She also stated that Tesla is “satisfied with the tests” in the region so far.
The planned tests in Jönköping would involve a limited number of Tesla-owned vehicles. Trained Tesla safety drivers would remain behind the wheel and be prepared to intervene if necessary.
Tesla previously began testing in Nacka municipality after receiving local approval. At the time, the company stated that cooperation between authorities, municipalities, and industry enables technological progress and helps integrate future transport systems into real-world traffic conditions, as noted in an Allt Om Elbil report.
If approved, Jönköping would become the latest Swedish municipality to allow local Full Self-Driving (Supervised) testing.
Tesla’s Swedish testing program is part of the company’s efforts to validate its supervised autonomous driving software in everyday traffic environments. Municipal approvals allow Tesla to gather data in urban settings that include roundabouts, complex intersections, and mixed traffic conditions.
Sweden has become an increasingly active testing ground for Tesla’s driver-assistance software in Europe, with regulatory coordination between local authorities and national agencies enabling structured pilot programs.
Elon Musk
Microsoft partners with Starlink to expand rural internet access worldwide
The update was shared ahead of Mobile World Congress.
Microsoft has announced a new collaboration with Starlink as part of its expanding digital access strategy, following the company’s claim that it has extended internet connectivity coverage to more than 299 million people worldwide.
The update was shared ahead of Mobile World Congress, where Microsoft detailed how it surpassed its original goal of bringing internet access to 250 million people by the end of 2025.
In a blog post, Microsoft confirmed that it is now working with Starlink to expand connectivity in rural and hard-to-reach regions.
“Through our collaboration with Starlink, Microsoft is combining low-Earth orbit satellite connectivity with community-based deployment models and local ecosystem partnerships,” the company wrote.
The partnership is designed to complement Microsoft’s existing work with local internet providers and infrastructure companies across Africa, Latin America, and India, among other areas. Microsoft noted that traditional infrastructure alone cannot meet demand in some regions, making low-Earth orbit satellite connectivity an important addition.
Kenya was cited as an early example. Working with Starlink and local provider Mawingu Networks, Microsoft is supporting connectivity for 450 community hubs in rural and underserved areas. These hubs include farmer cooperatives, aggregation centers, and digital access facilities intended to support agricultural productivity and AI-enabled services.
Microsoft stated that 2.2 billion people globally remain offline, and that connectivity gaps risk widening as AI adoption accelerates.
Starlink’s expanding constellation, now numbering more than 9,700 satellites in orbit, provides near-global coverage, making it one of the few systems capable of delivering broadband to remote regions without relying on terrestrial infrastructure.
Starlink is expected to grow even more in the coming years as well, especially as SpaceX transitions its fleet to Starship, which is capable of carrying significantly larger payloads compared to its current workhorse, the Falcon 9.
SpaceX targets 150Mbps per user for upgraded Starlink Direct-to-Cell
Tesla seeks approval to test FSD Supervised in new Swedish city
