I really like the look of the car, but from the title it sounds like a Mustang has been converted into an FSD Tesla ("teslafied" Mustang) - but Tesla suspension, Tesla interior... this smells like a Mustang body fitted onto a Tesla chassis ("mustangified" Tesla).
I suspect that this might be more of a "Mustang body kit" on a Tesla chassis and not retrofitting the Tesla tech into a Mustang chassis + body. Still cool, but maybe misleading.
Yep, that's exactly what it is. Still a cool project. For a split-second after reading the headline my brain thought they had gotten the Tesla software (with a lot of hackery) to control an ICE vehicle drive-train.
> The team grafted three sections of the 2024 Tesla Model 3’s floor and seats into the Mustang’s body, shortening the battery case to fit without altering the car’s original dimensions. The result is a classic Mustang shell sitting on top of a Model 3 dual-motor setup
I used to work at a company that did self driving. The sensor setup was more complicated than Tesla (cameras, lidar, etc), but the fact that FSD can still work on this car despite the cameras being in a different place is really impressive to me. Our sensors were pretty sensitive to accurate calibration, and iirc any time we tried to move our sensor array to a new car it took a ton of work to reconfigure it to make the sensor fusion output work.
I’m not sure this has much to do with vision as opposed to fancy self-calibration software. At least a few years ago, Tesla cars would be in self-calibration mode for a while after delivery while they calibrated their cameras. I think the idea is that it’s cheaper to figure out in software where everything is than to calibrate the camera mounts and lenses at the factory.
I see no reason that LiDAR couldn’t participate in a similar algorithm.
A bigger issue would be knowing the shape of the car to avoid clipping an obstacle.
It would be cool if we saw the separation of drivetrain from body in the automobile market. This happens with heavy trucks, you can buy a "glider" which is a completely new, finished rolling chassis and you provide your own engine. Originally done (I think) to skirt emissions laws but it would be cool to be able to buy the body and the EV drivetrain (and maybe battery packs?) from different vendors, and for EV drivetrains to be more easily fittable to older chassis.
This was very common in the early days of the automobile, at least for luxury cars. Bentley or Rolls-Royce would deliver a chassis with the entire drivetrain, and a coachbuilder like Mulliner would add a body to the customer's liking.
that's what Waymo is doing, in their implementation of this idea the "waymo driver" is software intended to be licensed out to vehicles or vehicle chassis with applicable hardware
so if you thought the waymo car rollout was fast and sudden, wait until companies no longer need their own training data, it'll be like a switch got flipped
From the article it sounds like the inverse, they took a Tesla and stuck a classic car exterior shell on it, not transplant the electric car parts into a mustang frame. It is still kind of neat but is not the same thing to me. You don't normally upgrade a classic car by chopping out the entire frame and sticking the body panels onto a modern car.
Here's one of a fully custom Toyota 4x4 truck getting a Tesla Model 3 motor that I enjoyed. I would love to have a small electric pickup like this, but I don't want to invest $100k to get it done
Retro-electric stuff makes so little sense since it's the worst of all worlds. Part of why Teslas get decent range is the slippery body. I wince every time I see people clamoring for the VW Scout reboot. Rivian too with their 140kwh batteries just to give people that nostalgic body-on-frame SUV look with usable range.
You don't take on projects like this because you're on a mission to make the most efficient vehicle. Lots of people are paid good money to do that and produce the slip-slugs we have today.
A project like this is to have a fun experience in a vehicle that was never designed to drive with electric qualities. I don't need the most efficient vehicle for my use so I could afford to trade some of that for fun. I'd probably try a Subaru Impreza STi because it would just be a blast to have a car of that size and stature with an electric powerplant under the hood (or trunk, or wherever it fits)
Mainly size and driving position. The charm of the AWD and live adjustments would need to be kept around but even without the ol turbo you'll still have a small, nimble, darty car to toss around. Something would be lost in the conversion but balancing turbo lag isn't the entire car. The Model 3 is long, wide, with a big wheelbase compared to, especially the older, STi's.
I wouldn't call STIs darty. They're nose heavy and need heavy coaxing with the left foot to rotate. The big wheelbase in the Model 3 is a fair point though. Apparently there are TC/DSC defeat devices and mechanical LSDs available for them now, so I'd expect Model 3s to be rallied more and more as they age out.
EVs are still far more efficient than any combustion engine per unite of energy. It doesn't have the density of gasoline, but you're paying a lot less per mile driven no matter how boxy it is.
This sort of conversion gets coverage every once in a while and it's been neat to see old frames getting chopped onto new electric drivetrains. I spoke with one of the people interviewed in this article[1] a couple years back about converting an old truck I have sitting around into an EV.
The Model 3 approach takes their unified rear axle (motor,axle,wheels) and mounts it into an existing frame. Then you just need to find a place to stuff the batteries, retrofit some high-voltage electronics, and you're off to the races. One of the drawbacks of that approach is that it changes the stance of the vehicle, but for this Mustang that doesn't seem to matter much - it still looks classic.
Other converters either go for the high end with a model S and fit the motor into a traditional drivetrain for a sleeper build, or they go for the low end and take an old forklift motor and batteries and build what is effectively a street-legal golf cart. Prices range from $5-100k depending on your level of DIY and how dangerous of a classic car you want on the other side of the process.
> It’s likely the first non-Tesla vehicle to run FSD, and it achieves 258 Wh/mi — roughly matching the efficiency of an actual Model 3.
This claim is implausible, right? The Mustang is unambiguously less aerodynamic than the Model 3; there's no way it is achieving similar efficiency, especially at highway speeds.
The Mustang is from before modern safety laws (and feature expectations) and therefore weighed a lot less than your average modern car.
A stock '66 Mustang hardtop had a curb weight below 3000lb, in the lightest configuration close to 2500lb.
Less mass to move will do a lot for efficiency just like aerodynamics will.
Of course, you will also die or be horrifically maimed in an accident in a 1966 Mustang that you might walk away without any serious injuries from in a modern vehicle.
A lot of people use Leaf batteries/powertrains for this type of conversion. Probably would be cheaper than using Tesla parts if you don't need as much range.
That's really cool, though I confess I would have preferred the interior to have been more Mustang and less Model 3. Just a quibble, though, the effort is fantastic.
Neat. I would have preferred the original interior over Tesla's, but I guess it would then just be an electric conversion and not a "Tesla" conversion with "FSD".
Whatever happened to the electric delorean reboot?
EDIT: at one point whoever owned the name also owned a warehouse of spare parts and was going to produce an electric retrofit kit for the old vehicle, and hinting at manufacturing new ones a la retromod. Whoever owns the name now just has concept rendering on their site and a Solana token, so, little more than a meme coin now :(
I've been waiting for someone to do something like this as long as I've known electric cars to be a thing. I hope they just start making them like this.
That would be a pretty shortsighted move from a PR standpoint. Nobody is going to blame a restomod FSD wreck on Tesla. But turning off FSD remotely just reminds everyone that Tesla can and will take control of your car.
It is basically a Mustang body on a tesla chasis... which misses the point of having a classic car.
While there is nothing wrong with converting your classic car to electric, if the powertrain is shot (they are harder to maintain as they age), but IMO, it looses the charm of the point of having a classical car.
Few years ago, there was a trend to do these conversions, but that stopped as people realised the car loses its charm and the feel of having old classic car, and most of them are not being used as dailies anyways.
You are entitled to your opinion, obviously, as is anyone else. Restomods have been around since forever, and this is hardly the first EV conversion (almost certainly not the first classic Mustang EV restomod either).
Personally I think it's pretty damn cool. But I have always been a Mustang fan, and I know that this era of Mustang is not especially collectable. They made quite a large number of them and plenty are still running.
To be fair though, this is beyond typical restomod territory. This isn’t an LS swap with modern wheels and suspension. This most certainly changes the spirit of the car.
There's no question the first generation of Mustangs are the most collectible.
I know this is not the way the industry or regulations work, but I wish electric car platforms let you pick body styles without waiting for a whole model to come out. I'd love an electric Suzuki Jimny body, and could care less about the driving platform.
There was a shop in Dallas back about 20 years ago that did an electric conversion of a H1 Humvee. Since then there’s been lots more conversions like that and to me that is a valid recycling business.
> It demonstrates that Tesla’s hardware and software stack is more portable than the company’s licensing struggles would suggest.
Unless I missed something, this is a completely unsupported claim by the article. Passion projects and retrofits are nothing at all like manufacturing.
The article claims that the whole project only cost $40,000, and then compares that to electric conversion offerings that cost $75,000 (and mentions that the global conversion market in 2024 was $5.9 billion). I think the implication is that there could be a large market for FSD conversions that goes beyond passion projects because it is not only possible but affordable.
I would be surprised however if this project only cost $40,000, when you factor in the cost of labor and maintaining a facility to do this work.
It's specifically talking about the "FSD" model under the hood being able to run on this retrofit even though the cameras don't align 100% like they originally would.
I suspect that this might be more of a "Mustang body kit" on a Tesla chassis and not retrofitting the Tesla tech into a Mustang chassis + body. Still cool, but maybe misleading.
People can easily adapt to different vehicles in a similar manner.
I see no reason that LiDAR couldn’t participate in a similar algorithm.
A bigger issue would be knowing the shape of the car to avoid clipping an obstacle.
so if you thought the waymo car rollout was fast and sudden, wait until companies no longer need their own training data, it'll be like a switch got flipped
However, Tesla hasn't achieved anywhere near the autonomy of Waymo, so that may be the main sticking point.
https://www.youtube.com/watch?v=siEhd4Z-6Ts
A project like this is to have a fun experience in a vehicle that was never designed to drive with electric qualities. I don't need the most efficient vehicle for my use so I could afford to trade some of that for fun. I'd probably try a Subaru Impreza STi because it would just be a blast to have a car of that size and stature with an electric powerplant under the hood (or trunk, or wherever it fits)
> it achieves 258 Wh/mi — roughly matching the efficiency of an actual Model 3.
The Model 3 approach takes their unified rear axle (motor,axle,wheels) and mounts it into an existing frame. Then you just need to find a place to stuff the batteries, retrofit some high-voltage electronics, and you're off to the races. One of the drawbacks of that approach is that it changes the stance of the vehicle, but for this Mustang that doesn't seem to matter much - it still looks classic.
Other converters either go for the high end with a model S and fit the motor into a traditional drivetrain for a sleeper build, or they go for the low end and take an old forklift motor and batteries and build what is effectively a street-legal golf cart. Prices range from $5-100k depending on your level of DIY and how dangerous of a classic car you want on the other side of the process.
[1] https://coloradosun.com/2023/06/25/classic-cars-electric-veh...
This claim is implausible, right? The Mustang is unambiguously less aerodynamic than the Model 3; there's no way it is achieving similar efficiency, especially at highway speeds.
A stock '66 Mustang hardtop had a curb weight below 3000lb, in the lightest configuration close to 2500lb.
Less mass to move will do a lot for efficiency just like aerodynamics will.
Of course, you will also die or be horrifically maimed in an accident in a 1966 Mustang that you might walk away without any serious injuries from in a modern vehicle.
EDIT: at one point whoever owned the name also owned a warehouse of spare parts and was going to produce an electric retrofit kit for the old vehicle, and hinting at manufacturing new ones a la retromod. Whoever owns the name now just has concept rendering on their site and a Solana token, so, little more than a meme coin now :(
While there is nothing wrong with converting your classic car to electric, if the powertrain is shot (they are harder to maintain as they age), but IMO, it looses the charm of the point of having a classical car.
Few years ago, there was a trend to do these conversions, but that stopped as people realised the car loses its charm and the feel of having old classic car, and most of them are not being used as dailies anyways.
Personally I think it's pretty damn cool. But I have always been a Mustang fan, and I know that this era of Mustang is not especially collectable. They made quite a large number of them and plenty are still running.
There's no question the first generation of Mustangs are the most collectible.
Unless I missed something, this is a completely unsupported claim by the article. Passion projects and retrofits are nothing at all like manufacturing.
I would be surprised however if this project only cost $40,000, when you factor in the cost of labor and maintaining a facility to do this work.