Towing has become the battle cry against electric trucks, but is this issue as pertinent as it sounds?
With the release of electric trucks to the market (Rivian R1T, Hummer EV, F-150 Lighting), towing, in particular, has become the albatross around the necks of EV truck manufacturers. Is the issue accurately portrayed by angry Facebook commenters, journalists, and YouTubers alike? I’ll give you one guess.
To start, electric trucks offer an amazing set of benefits to recreational and commercial consumers alike. They offer supercar-like specifications, they offer new use cases to a utilitarian and active market segment, and they do both of these things while remaining cheap to operate. Yet, despite these advantages, there is no denying that EVs face a set of new and daunting challenges regarding towing.
First of all, towing is very energy intensive. There is a reason an MPG estimate isn’t placed on the window tag of a new F250, RAM2500, or Silverado 2500. Not only is the vehicle tasked with overcoming an added thousand pounds or more, but it must do so while also battling increased air resistance. EVs are not unique in this aspect, but they must also deal with both limited charging infrastructure in many rural areas, as well as decreased range compared to gas and diesel alternatives. Compounding this issue, available chargers are often not designed for trailer-mounted vehicles, sometimes forcing the driver to detach the trailer, charge, and reattach, a task not required for ICE-powered counterparts. This combined set of problems can mean that some areas of the country are unreachable by electric towing vehicles.
Rivian R1T’s first real-world towing test shows 62% range loss
Even electric truck manufacturers are acknowledging these issues. On Ford’s most recent earnings call, the company stated that they would continue to sell and develop new gas and diesel Super Duty vehicles; the vehicles often tasked with towing the largest trailers, boats, and the like.
The Fast Lane Truck did a fantastic video covering these exact issues with an F-150 Lightning, a test where they were only able to achieve a range of close to 100 miles and were not able to reach their intended destination due to lack of charging infrastructure.
However, and this is an important question, how important is this problem? This is not to say that people should not have the ability to tow, but perhaps towing can be more accurately placed on their list of needs/wants when deciding on a vehicle to own.
To start, according to a poll of 250,000 full-size truck owners conducted by Strategic Vision, only 75% of owners towed between 0 and 1 time per year, with only the remaining 25% towing more frequently than once per year. And while mileage and towing weight were not included in the poll, it seems as though there may be a vast contingent of truck owners who don’t tow at all.
Furthermore, there are many use cases of towing that would involve traveling less than 100miles; local carpenters and construction workers moving within city limits, a truck towing an incapacitated vehicle to the closest repair shop, or even people towing their boats to the local lake or waterway. These use cases would not only fit even the limited range of 100 miles, but each could find many benefits from unique features such as onboard generators offered on many electric trucks, running power tools, running appliances, etc.
Overall, consumers should be more mindful of their actual needs and more carefully weigh the countless benefits offered by new electric offerings. For many, the conclusion may be that they still need the range and capability of an ICE truck to best suit their leisure activities and/or their livelihoods, but to say that this group is more than a minority is, at least somewhat, a fallacy. For manufacturers and infrastructure planners, this should be a wake-up call; there is a contingent of people who, despite the amazing advances of EV technology, are unable to use them to achieve certain tasks. These should be some of the first things addressed in efforts to expand EV adoption.
What do you think of the article? Do you have any comments, questions, or concerns? Shoot me an email at william@teslarati.com. You can also reach me on Twitter @WilliamWritin. If you have news tips, email us at tips@teslarati.com!
News
Tesla aims to combat common Full Self-Driving problem with new patent
Tesla writes in the patent that its autonomous and semi-autonomous vehicles are heavily reliant on camera systems to navigate and interact with their environment.
Tesla is aiming to combat a common Full Self-Driving problem with a new patent.
One issue with Tesla’s vision-based approach is that sunlight glare can become a troublesome element of everyday travel. Full Self-Driving is certainly an amazing technology, but there are still things Tesla is aiming to figure out with its development.
Unfortunately, it is extremely difficult to get around this issue, and even humans need ways to combat it when they’re driving, as we commonly use sunglasses or sun visors to give us better visibility.
Cameras obviously do not have these ways to fight sunglare, but a new patent Tesla recently had published aims to fight this through a “glare shield.”
Tesla writes in the patent that its autonomous and semi-autonomous vehicles are heavily reliant on camera systems to navigate and interact with their environment.
The ability to see surroundings is crucial for accurate performance, and glare is one element of interference that has yet to be confronted.
Tesla described the patent, which will utilize “a textured surface composed of an array of micro-cones, or cone-shaped formations, which serve to scatter incident light in various directions, thereby reducing glare and improving camera vision.”
The patent was first spotted by Not a Tesla App.
The design of the micro-cones is the first element of the puzzle to fight the excess glare. The patent says they are “optimized in size, angle, and orientation to minimize Total Hemispherical Reflectance (THR) and reflection penalty, enhancing the camera’s ability to accurately interpret visual data.”
Additionally, there is an electromechanical system for dynamic orientation adjustment, which will allow the micro-cones to move based on the angle of external light sources.
This is not the only thing Tesla is mulling to resolve issues with sunlight glare, as it has also worked on two other ways to combat the problem. One thing the company has discussed is a direct photon count.
CEO Elon Musk said during the Q2 Earnings Call:
“We use an approach which is direct photon count. When you see a processed image, so the image that goes from the sort of photon counter — the silicon photon counter — that then goes through a digital signal processor or image signal processor, that’s normally what happens. And then the image that you see looks all washed out, because if you point the camera at the sun, the post-processing of the photon counting washes things out.”
Future Hardware iterations, like Hardware 5 and Hardware 6, could also integrate better solutions for the sunglare issue, such as neutral density filters or heated lenses, aiming to solve glare more effectively.
Elon Musk
Delaware Supreme Court reinstates Elon Musk’s 2018 Tesla CEO pay package
The unanimous decision criticized the prior total rescission as “improper and inequitable,” arguing that it left Musk uncompensated for six years of transformative leadership at Tesla.
The Delaware Supreme Court has overturned a lower court ruling, reinstating Elon Musk’s 2018 compensation package originally valued at $56 billion but now worth approximately $139 billion due to Tesla’s soaring stock price.
The unanimous decision criticized the prior total rescission as “improper and inequitable,” arguing that it left Musk uncompensated for six years of transformative leadership at Tesla. Musk quickly celebrated the outcome on X, stating that he felt “vindicated.” He also shared his gratitude to TSLA shareholders.
Delaware Supreme Court makes a decision
In a 49-page ruling Friday, the Delaware Supreme Court reversed Chancellor Kathaleen McCormick’s 2024 decision that voided the 2018 package over alleged board conflicts and inadequate shareholder disclosures. The high court acknowledged varying views on liability but agreed rescission was excessive, stating it “leaves Musk uncompensated for his time and efforts over a period of six years.”
The 2018 plan granted Musk options on about 304 million shares upon hitting aggressive milestones, all of which were achieved ahead of time. Shareholders overwhelmingly approved it initially in 2018 and ratified it once again in 2024 after the Delaware lower court struck it down. The case against Musk’s 2018 pay package was filed by plaintiff Richard Tornetta, who held just nine shares when the compensation plan was approved.
A hard-fought victory
As noted in a Reuters report, Tesla’s win avoids a potential $26 billion earnings hit from replacing the award at current prices. Tesla, now Texas-incorporated, had hedged with interim plans, including a November 2025 shareholder-approved package potentially worth $878 billion tied to Robotaxi and Optimus goals and other extremely aggressive operational milestones.
The saga surrounding Elon Musk’s 2018 pay package ultimately damaged Delaware’s corporate appeal, prompting a number of high-profile firms, such as Dropbox, Roblox, Trade Desk, and Coinbase, to follow Tesla’s exodus out of the state. What added more fuel to the issue was the fact that Tornetta’s legal team, following the lower court’s 2024 decision, demanded a fee request of more than $5.1 billion worth of TSLA stock, which was equal to an hourly rate of over $200,000.
Delaware Supreme Court Elon Musk 2018 Pay Package by Simon Alvarez
News
Tesla Cybercab tests are going on overdrive with production-ready units
Tesla is ramping its real-world tests of the Cybercab, with multiple sightings of the vehicle being reported across social media this week.
Tesla is ramping its real-world tests of the Cybercab, with multiple sightings of the autonomous two-seater being reported across social media this week. Based on videos of the vehicle that have been shared online, it appears that Cybercab tests are underway across multiple states.
Recent Cybercab sightings
Reports of Cybercab tests have ramped this week, with a vehicle that looked like a production-ready prototype being spotted at Apple’s Visitor Center in California. The vehicle in this sighting was interesting as it was equipped with a steering wheel. The vehicle also featured some changes to the design of its brake lights.
The Cybercab was also filmed testing at the Fremont factory’s test track, which also seemed to involve a vehicle that looked production-ready. This also seemed to be the case for a Cybercab that was spotted in Austin, Texas, which happened to be undergoing real-world tests. Overall, these sightings suggest that Cybercab testing is fully underway, and the vehicle is really moving towards production.
Production design all but finalized?
Recently, a near-production-ready Cybercab was showcased at Tesla’s Santana Row showroom in San Jose. The vehicle was equipped with frameless windows, dual windshield wipers, powered butterfly door struts, an extended front splitter, an updated lightbar, new wheel covers, and a license plate bracket. Interior updates include redesigned dash/door panels, refined seats with center cupholders, updated carpet, and what appeared to be improved legroom.
There seems to be a pretty good chance that the Cybercab’s design has been all but finalized, at least considering Elon Musk’s comments at the 2025 Annual Shareholder Meeting. During the event, Musk confirmed that the vehicle will enter production around April 2026, and its production targets will be quite ambitious.
Tesla aims to combat common Full Self-Driving problem with new patent
Delaware Supreme Court reinstates Elon Musk’s 2018 Tesla CEO pay package
