The first Tesla Supercharger station with a “Magic Dock” to allow non-Tesla electric cars to charge has been spotted in the US.
After opening its Supercharger network in Europe last year and indicating that it would do the same in North America by the end of the year, we were a bit disappointed when it didn’t happen.
However, we know that it is still imminent. It could really happen any day, or it might have already happened by way of a “soft launch.”
Unlike in Europe, where Tesla already uses the CCS connector, we knew that Tesla would have a tougher time opening its Supercharger network in North America because it uses its own proprietary connector in the market.
We recently learned that Tesla’s solution is going to be deploying the “Magic Dock,” a new receiver for the Tesla charge connector on the Supercharger station.
When the Magic Dock is locked, the station can be used normally by any Tesla owner, but when it is unlocked through Tesla’s app, both the charger and the Magic Dock get pulled along with the Tesla Supercharger handle to become a CCS adapter – allowing it to be plugged into most electric vehicles.
Now a Redditor spotted what is likely the very first Supercharger station to feature the Magic Dock:
With a faceplate in the ground next to the charger, it looks like Tesla had just updated the Supercharger and is testing it with a Rivian R1T electric pickup truck.
Electrek reader Kenny sent us another picture with a close up of the Magic Dock:
The Supercharger is located in upstate New York – not too far from Buffalo, where Tesla is operating Gigafactory New York – a location used to build Supercharger stations, among other things.
Tesla hasn’t updated the information about this specific Supercharger station to disclose that it is open to non-Tesla EVs, as it appears to still be testing it.
Swedish multinational Sandvik says it’s successfully deployed a pair of fully autonomous Toro LH518iB battery-electric underground loaders at the New Gold Inc. ($NGD) New Afton mine in British Columbia, Canada.
The heavy mining equipment experts at Sandvik say that the revolutionary new 18 ton loaders have been in service since mid-November, working in a designated test area of the mine’s “Lift 1” footwall. The mine’s operators are preparing to move the automated machines to the mine’s “C-Zone” any time now, putting them into regular service by the first of the new year.
“This is a significant milestone for Canadian mining, as these are North America’s first fully automated battery-electric loaders,” Sandvik said in a LinkedIn post. “(The Toro LH518iB’s) introduction highlights the potential of automation and electrification in mining.”
The company says the addition of the new heavy loaders will enable New Afton’s operations to “enhance cycle times and reduce heat, noise and greenhouse gas emissions” at the block cave mine – the only such operation (currently) in Canada.
Electrek’s Take
Battery-powered Scooptram; image by Epiroc
From drilling and rigging to heavy haul solutions, companies like Sandvik are proving that electric equipment is more than up to the task of moving dirt and pulling stuff out of the ground. At the same time, rising demand for nickel, lithium, and phosphates combined with the natural benefits of electrification are driving the adoption of electric mining machines while a persistent operator shortage is boosting demand for autonomous tech in those machines.
European logistics firm Contargo is adding twenty of Mercedes’ new, 600 km-capable eActros battery electric semi trucks to its trimodal delivery fleet, bringing zero-emission shipping to Germany’s hinterland.
With the addition of the twenty new Mercedes, Contargo’s electric truck fleet has grown to 60 BEVs, with plans to increase that total to 90. And, according to Mercedes, Contargo is just the first.
Contargo’s 20 eActros 600 trucks were funded in part by the Federal Ministry for Digital Affairs and Transport as part of a broader plan to replace a total of 86 diesel-engined commercial vehicles with more climate-friendly alternatives. The funding directive is coordinated by NOW GmbH, and the applications were approved by the Federal Office for Logistics and Mobility.
Data centers powering artificial intelligence and cloud computing are pushing energy demand and production to new limits. Global electricity use could rise as much as 75% by 2050, according to the U.S. Department of Energy, with the tech industry’s AI ambitions driving much of the surge.
As leaders in the AI race push for further technological advancements and deployment, many are finding their energy needs increasingly at odds with their sustainability goals.
“A new data center that needs the same amount of electricity as say, Chicago, cannot just build its way out of the problem unless they understand their power needs,” said Mark Nelson, managing director of Radiant Energy Group. “Those power needs. Steady, straight through, 100% power, 24 hours a day, 365,” he added.
After years of focusing on renewables, major tech companies are now turning to nuclear power for its ability to provide massive energy in a more efficient and sustainable fashion.
Google, Amazon, Microsoft and Meta are among the most recognizable names exploring or investing in nuclear power projects. Driven by the energy demands of their data centers and AI models, their announcements mark the beginning of an industrywide trend.
“What we’re seeing is nuclear power has a lot of benefits,” said Michael Terrell, senior director of energy and climate at Google. “It’s a carbon-free source of electricity. It’s a source of electricity that can be always on and run all the time. And it provides tremendous economic impact.”
Watch the video above to learn why Big Tech is investing in nuclear power, the opposition they face and when their nuclear ambitions could actually become a reality.