The IRS has released which Tesla models will qualify for the 2023 tax credit
Tesla
As of January 1, 2023, Americans can claim a $7,500 tax credit when buying a Tesla (and other electric vehicles). The Inflation Reduction Act allows eligible buyers the opportunity to claim a clean vehicle tax credit of up to $7,500 under Internal Revenue Code Section 30D.
We knew this was coming, and it slowed demand as shoppers were delaying their purchases until the new year. However, Tesla introduced an end-of-year sale, discounting their vehicles by $7,500 to encourage people not to wait.
Tesla Models That Qualify for the Tax Credit
The Tesla discount disappears on December 31, 2022, and the new government tax credit kicks in. But it is important to note that not all Teslas qualify for the clean vehicle tax credit. Model S and Model X are not on the list of eligible vehicles due to price, but the rear wheel and long-range versions of the Model 3 did make the list if the manufacturer's suggested retail price is below $55,000.
Six versions of the Model Y also made the list. They include the all-wheel drive, long-range and performance versions in the five-seat and seven-seat variations. Interestingly, Tesla does not produce a Model Y Performance in the seven-passenger setup, but it’s available for credit.
The IRS appears to work closely with vehicle manufacturers to determine eligible models. This could be telling of what Tesla plans to offer in 2023.
We may not only see a seven-seater performance Model Y, but we may also see Tesla reintroduce the Long Range Model 3 or Model Y for under $55,000 in 2023.
The Model Y all-wheel drive, long-range and performance five-seat variants do not currently qualify for the tax rebate according to the IRS since their MSRP is above the $55,000 threshold. We'll have to see if Tesla makes any changes to these models to get them under the $55,000 MSRP limit.
Model Year
Vehicle Description
Applicable MSRP Limit
2023
Tesla Model 3 Rear Wheel Drive
$55,000
2023
Tesla Model 3 Long Range
$55,000
2023
Tesla Model Y All-Wheel Drive - 7 seat variant (3-rows)
$80,000
2023
Tesla Model Y Long Range - 7 seat variant (3-rows)
$80,000
2023
Tesla Model Y Performance - 7 seat variant (3-rows)
$80,000
2023
Tesla Model Y All-Wheel Drive - 5 seat variant (2-rows)
$55,000
2023
Tesla Model Y Long Range - 5 seat variant (2-rows)
$55,000
2023
Tesla Model Y Performance - 5 seat variant (2-rows)
$55,000
Older EVs also Qualify
The tax credits are not just for vehicles purchased in 2023. According to the IRS’ website, purchases made between August 17 (when the legislation was announced) and December 31, 2022, may also qualify for a tax break. There is also a used EV tax credit allowing consumers tax credits for up to $4,000 or 30% of the cost of a used EV that’s at least two years old.
To check if your vehicle meets requirements, use the vehicle identification number decoder on the Department of Energy’s website.
What is the Inflation Reduction Act?
The government says the Inflation Reduction Act is “the most significant climate legislation in U.S. history.” It includes $739 billion aimed at “green power, lower costs through tax credits, reduce emissions, and advance environmental justice.” When announced, the government said, “It will offer new access to tax credits as well as grants and incentives to reduce air pollution.”
The Inflation Reduction Act also has several credits available for EV charging. There is a property credit for companies that install EV chargers. The IRS will offset up to 30 percent of the total costs of purchase and installation of charging equipment, up to $100,000 per charger. Experts believe this new legislation will help the U.S. reduce emissions by 40% by 2030.
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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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