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VW reveals three-row ID. Buzz for North America, sales start 2024 [Updated]
VW has revealed the much-anticipated long wheelbase version of its ID. Buzz electric microbus, with an extra row of seats and starting deliveries next year in the US.
Update: we’ve added some more information we gathered today at the reveal event this morning in Huntington Beach, CA.
The new ID. Buzz version is much like the two-row European spec, but with a little more of just about everything. It has 282hp as opposed to 201hp (plus an available 330hp dual-motor configuration) with a top speed of 99 mph instead of 90 mph, 91kWh instead of 82kWh of battery, and is a full 10 inches longer. It also gets an openable rear window, unlike the two-row version.
Those additional 10 inches all come in the form of a 10-inch-longer wheelbase. At 192.4 inches long, the three-row ID. Buzz is actually a full 2 feet longer than VW’s original 168-inch-long microbus. This all means more space for humans and cargo compared to the two-row version. The extra row of seats takes up some of that space, but the 2nd row folds flat and 3rd row can be removed (and Canada will get a unique long-wheelbase, two-row version, without the third row of seats for those who just want more room).
Sitting in the car at the reveal event, there was no shortage of space. At 6′ tall in the 2nd row and with a 6’3″ VW dealer representative behind me, both of us had no shortage of room in any dimension. 6 adults should have no problem here, and probably 7 as long as at least one of them is skinny. VW is planning a 6-seat option, but we haven’t seen it yet.
The longer wheelbase also means room for an extra 9kWh of battery. VW hasn’t yet announced the range of the three-row version, though the European spec has 263 miles on the WLTP cycle. While the NA-spec has a larger battery, it’s also a longer and heavier vehicle, and EPA mileage estimates are significantly lower than WLTP estimates, so we can’t be sure what the final number will shake out as. All VW would tell is that it will be somewhere between 200-300 miles.
As for charging capability, the two-row bus has 170kW charging, but a VW rep told us that the larger battery will likely enable faster charging, perhaps as high as “around” 200kW.
The only solid efficiency-related answer VW provided in writing, though, is that the Buzz has a drag coefficient of .29, which it calls “very good for a vehicle of this shape” (i.e., a brick).
The North American model also comes in three new colors that aren’t available on the European spec: Cabana Blue, Metro Silver, and Indium Grey.
VW hasn’t yet specified a price for the US version of the ID.Buzz, but it starts in the $65K-$70K range in Europe after taxes. While the 3-row version is larger, VW hinted to us at the event that US pricing might even come in below European pricing, but that’s obviously not a promise as nothing is officially announced yet.
A lower price might be necessary because the ID.Buzz will be built in Germany and imported to the US, which means it won’t get access to tax credits like the US-built ID.4 does. This also means the US won’t get the cargo van – it would be subject to the “chicken tax” which keeps foreign trucks out of the US. VW says domestic production could happen, but that’s contingent on sales going well (we at Electrek think VW is underestimating the market for this car), and on production timelines.
Regardless, this puts the price near the high-end of the electric SUV market, nowhere near the entry level. We mention electric SUVs because there isn’t really another vehicle like this. There’s one plug-in hybrid minivan, the Pacifica Hybrid, and some commercial electric vans like the eSprinter and E-Transit. The ID. Buzz sits somewhere adjacent to a van and a minivan, with more character than either, so it’s hard to really find a direct competitor for it.
But the closest thing is probably minivans, and this will be much higher price than the gas-powered entry-level of that market, which is in the ~$35K range. That said, the Buzz may access some state and local incentives and will have lower running costs from energy and maintenance.
And, as the first all-electric entry into the market, VW probably thinks it can justify a higher price. Anecdotally, there does seem to be significant demand out there for a cool minivan-esque electric vehicle – especially one that could enable interesting conversion/adventure options.
VW didn’t give us any more news about the upcoming California camper van that it’s planning, but the long wheelbase gives VW room to work with. With all that space and built-in electricity, there should be some really cool options out there for van-lifers (perhaps even ones who want to stay off the grid with solar panels).
Electrek’s Take
We got a little hands-on time with the ID.Buzz at today’s reveal event in Huntington Beach, and crowds were pretty excited about the new electric bus.
As someone whose family had a VW Vanagon Westfalia camper growing up, the VW bus has special significance to me. My family went on a lot of adventures in that bus, and for all its quirks, it was an awesome vehicle.
And when I got into electric vehicles, I constantly thought about what a great platform a bus would be for an EV, with plenty of room under the floor for batteries which could power various camping accessories (stoves, lights, entertainment, etc.).
So when Voltswagen showed off its original ID. Buzz concept and leaned hard into the cool retro style of it all, I was immediately sold on the idea. I, and many others, thought it was just too cool.
Then reality set in, and the car ended up looking a little less “cute” than the original retro concept. The finalized version got a little more boxy shape, lost the characteristic old multi-window look, and the commercial/cargo version even lost the rear windows to just look like a normal van.
But still, between the two-tone paint job and short overhangs (though a less-forward driving position than classic buses, a result of modern safety requirements), the ID. Buzz remains more “fun” than a normal van. And it does have more character than most minivans, and is less boxy than other vans like the Sprinter and Transit.
At the event today, VW invited bus owners to show up, and there was a huge swath of them filling the parking lot. Many of them were excited to see the bus coming back, but, like me, wished it carried over more of the original spirit of the classic bus. That said, VW’s presentation leaned hard into that classic bus culture, so we hope it can continue to cultivate that and incorporate that spirit into the Buzz.
I do question, however, why North America can’t have the two-row version. It seems like everyone is releasing a three-row EV this year, as if suddenly every American family gained two or three extra members that their European counterparts did not.
Somehow, my family’s 180-inch camper slept my whole American family comfortably, despite being a foot shorter than today’s offering – and it even had a kitchen, too. And a Westfalia owner I spoke to, who owned the same vehicle I grew up in, said the same thing: he wished they’d have brought the smaller version here, and earlier.
VW of America told us that they could pick either the short or long wheelbase for NA, and they chose the long one. They think it would fit the market better, and its myriad customer types.
We have a strange obsession with bigger vehicles here, despite their enormous costs to society (e.g., thousands of pedestrian lives). Some would say that Americans simply demand larger vehicles, but the problem is more complex than that – it’s largely driven by poor regulation that incentivizes the upsizing of cars. Thankfully the EPA has shown signs that it would like to bend the needle back, but somewhat slowly.
Until then, we still get a neat, retro-esque bus that looks like it could get some awesome camper capabilities. But some of us may still wait for a more micro-version of the classic microbus, instead of the maxi-micro-bus America is getting now.
And there are still some questions that are yet unanswered (price, range), but I’m excited to see what VW does with this bus anyway – and to see what kind of cool modifications people get up to in offering potential camper versions and the like.
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Japanese equipment giant Kubota brought 22 new or updated machines to the 2025 bauma expo earlier this year, but tucked away in the corners was a new retrofit kit that can help existing customers decarbonize more quickly, and more affordably.
No matter how badly a fleet may want to electrify, harsh economic realities and the greater up-front costs typically associated with battery electric remain high hurdles to overcome, but new retrofit options from major manufacturers are popping up to help lower those obstacles.
The latest equipment maker to put its name on the retrofit list is Kubota, who says its kit can be installed by a trained dealer in a single day.
That’s right! By this time tomorrow, your diesel-powered Kubota KX019 or U27-4 excavator (shown) could be fitted with an 18 or 20 kWh li-ion battery pack and electric drive motors and ready to get to work in a low-noise or low-vibration work environment where emissions are a strict no-no. Think indoor precision demolition or historic archeological excavation.
Then, if necessary, it can go right back to diesel power.
From diesel to electric and back again
If that sounds familiar, that’s because we’ve talked about a similarly flexible power solution from ZQUIP. The battery packs and diesel engines are much larger in that application, but the basic sales pitch remains the same: electric when it benefits your operation, diesel it doesn’t.
Kubota says its modular retrofit kits is a response to the increasing global demand for sustainable alternatives by focusing on making machinery that’s flexible and repairable enough to be “reusable,” and offer construction fleet managers a longer operational lifespan, superior ROI (return on investment), and lower TCO (total cost of ownership) than the competition.
Kubota’s solution also notably reduces maintenance costs and operational overheads. With no engine and associated components, servicing time and expenses are considerably reduced, saving customers both time and money. Additionally, with electricity costing far less than fossil fuels, it offers a highly economical advantage.
International Rental News reports that other changes to the excavators include a more modern cab controls with a digital instrument cluster, a 60 mm wider undercarriage for more stability, and an independent travel circuit allows operators to use the boom, dipper, bucket, and auxiliary functions without an impact on tracking performance.
Kubota’s new kit, first shown at last year’s Hillhead exhibition in the UK, will officially be on sale this summer – any day now, in fact – though pricing has yet to be announced.
Electrek’s Take
If you’re wondering how it is that we’re still talking about bauma 2025 a full quarter after the show wrapped up, then I haven’t done a good enough job of explaining how positively massive the show was. Check out this Quick Charge episode (above) then let us know what you think of Kubota’s modular power kits in the comments.
SOURCE | IMAGES: Kubota, via International Rental News.
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Elon Musk isn’t happy about Trump passing the Big Beautiful Bill and killing off the $7,500 EV tax credit – but there’s a lot more bad news for Tesla baked into the BBB. We’ve got all that and more on today’s budget-busting episode of Quick Charge!
We also present ongoing coverage of the 2025 Electrek Formula Sun Grand Prix and dive into some two wheeled reports on the new electric Honda Ruckus e:Zoomer, the latest BMW electric two-wheeler, and more!
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Environment
FERC: Solar + wind made up 96% of new US power generating capacity in first third of 2025
Solar and wind accounted for almost 96% of new US electrical generating capacity added in the first third of 2025. In April, solar provided 87% of new capacity, making it the 20th consecutive month solar has taken the lead, according to data belatedly posted on July 1 by the Federal Energy Regulatory Commission (FERC) and reviewed by the SUN DAY Campaign.
Solar’s new generating capacity in April 2025 and YTD
In its latest monthly “Energy Infrastructure Update” report (with data through April 30, 2025), FERC says 50 “units” of solar totaling 2,284 megawatts (MW) were placed into service in April, accounting for 86.7% of all new generating capacity added during the month.
In addition, the 9,451 MW of solar added during the first four months of 2025 was 77.7% of the new generation placed into service.
Solar has now been the largest source of new generating capacity added each month for 20 consecutive months, from September 2023 to April 2025.
Solar + wind were >95% of new capacity in 1st third of 2025
Between January and April 2025, new wind provided 2,183 MW of capacity additions, accounting for 18.0% of new additions in the first third.
In the same period, the combination of solar and wind was 95.7% of new capacity while natural gas (511 MW) provided just 4.2%; the remaining 0.1% came from oil (11 MW).
Solar + wind are >22% of US utility-scale generating capacity
The installed capacities of solar (11.0%) and wind (11.8%) are now each more than a tenth of the US total. Together, they make up almost one-fourth (22.8%) of the US’s total available installed utility-scale generating capacity.
Moreover, at least 25-30% of US solar capacity is in small-scale (e.g., rooftop) systems that are not reflected in FERC’s data. Including that additional solar capacity would bring the share provided by solar + wind to more than a quarter of the US total.
With the inclusion of hydropower (7.7%), biomass (1.1%), and geothermal (0.3%), renewables currently claim a 31.8% share of total US utility-scale generating capacity. If small-scale solar capacity is included, renewables are now about one-third of total US generating capacity.
Solar is on track to become No. 2 source of US generating capacity
FERC reports that net “high probability” additions of solar between May 2025 and April 2028 total 90,158 MW – an amount almost four times the forecast net “high probability” additions for wind (22,793 MW), the second-fastest growing resource. Notably, both three-year projections are higher than those provided just a month earlier.
FERC also foresees net growth for hydropower (596 MW) and geothermal (92 MW) but a decrease of 123 MW in biomass capacity.
Taken together, the net new “high probability” capacity additions by all renewable energy sources over the next three years – i.e., the bulk of the Trump administration’s remaining time in office – would total 113,516 MW.
FERC doesn’t include any nuclear capacity in its three-year forecast, while coal and oil are projected to contract by 24,373 MW and 1,915 MW, respectively. Natural gas capacity would expand by 5,730 MW.
Thus, adjusting for the different capacity factors of gas (59.7%), wind (34.3%), and utility-scale solar (23.4%), electricity generated by the projected new solar capacity to be added in the coming three years should be at least six times greater than that produced by the new natural gas capacity, while the electrical output by new wind capacity would be more than double that by gas.
If FERC’s current “high probability” additions materialize, by May 1, 2028, solar will account for one-sixth (16.6%) of US installed utility-scale generating capacity. Wind would provide an additional one-eighth (12.6%) of the total. That would make each greater than coal (12.2%) and substantially more than nuclear power or hydropower (7.3% and 7.2%, respectively).
In fact, assuming current growth rates continue, the installed capacity of utility-scale solar is likely to surpass that of either coal or wind within two years, placing solar in second place for installed generating capacity, behind only natural gas.
Renewables + small-scale solar may overtake natural gas within 3 years
The mix of all utility-scale (ie, >1 MW) renewables is now adding about two percentage points each year to its share of generating capacity. At that pace, by May 1, 2028, renewables would account for 37.7% of total available installed utility-scale generating capacity – rapidly approaching that of natural gas (40.1%). Solar and wind would constitute more than three-quarters of installed renewable energy capacity. If those trend lines continue, utility-scale renewable energy capacity should surpass that of natural gas in 2029 or sooner.
However, as noted, FERC’s data do not account for the capacity of small-scale solar systems. If that’s factored in, within three years, total US solar capacity could exceed 300 GW. In turn, the mix of all renewables would then be about 40% of total installed capacity while the share of natural gas would drop to about 38%.
Moreover, FERC reports that there may actually be as much as 224,426 MW of net new solar additions in the current three-year pipeline in addition to 69,530 MW of new wind, 9,072 MW of new hydropower, 202 MW of new geothermal, and 39 MW of new biomass. By contrast, net new natural gas capacity potentially in the three-year pipeline totals just 26,818 MW. Consequently, renewables’ share could be even greater by mid-spring 2028.
“The Trump Administration’s ‘Big, Beautiful Bill’ … poses a clear threat to solar and wind in the years to come,” noted the SUN DAY Campaign’s executive director, Ken Bossong. “Nonetheless, FERC’s latest data and forecasts suggest cleaner and lower-cost renewable energy sources may still dominate and surpass nuclear power, coal, and natural gas.”
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