Tesla Cybertruck to Receive Additional Features in Upcoming Update

Tesla frequently introduces new models or trim levels before all the software features are available. This situation also applies to the Cybertruck, where several features are still in development.

In the 2024.8 update, Tesla added a handful of features to help the Cybertruck catch up in the software department, adding features such as Reset Tire Mileage, Rear Passenger Headphones, Auto Wipers and others. Tesla also added a Cybertruck exclusive feature that sets off the truck’s alarm if the trailer is unhitched from the vehicle.

However, Tesla continues to improve Cybertruck’s software. The company is planning an upcoming update that will let the truck charge faster and add Tesla’s convenient cabin overheat protection feature.

According to Tesla’s SVP of powertrain and energy, Drew Baglino, the Cybertruck’s charging speed is about to be upgraded. This software update, slated for release later this quarter, is set to substantially improve the Cybertruck’s charging curve and unlock faster charging times for owners. Baglino said the update will “let the Cybertruck get 154 miles of charge in just 15 minutes.” That’s a 20% increase over the truck’s current 128 miles in 15 minutes.

Early reports on the Cybertruck’s 4680 cells revealed a somewhat disappointing charging curve. The truck’s charging speed would start at about 250kW, then drop off to about 150kW at ~40%. It would then level off at 75-80kW for the remainder of the charge.

It seems Tesla was being careful with the Cybertruck’s new battery pack, but now, the company is ready to unlock additional throughput.

This fits Tesla’s usual approach. The company likes to start conservatively and then improve its vehicles over time.

Cabin Overheat Protection

Another feature that’s set to arrive on the Cybertruck is Cabin Overheat Protection (COP), according to the Cybertruck’s program manager. This feature which keeps the cabin from overheating has been available in other models for several years, but it has yet to be made available for the Cybertruck.

In 2022, Tesla added the ability to customize the temperature at which COP would turn on. Users can now choose COP to activate at 90, 95 or 100º Fahrenheit. The Cybertruck’s COP is expected to match the same features available in other models.

Given that Tesla’s SVP and program manager have officially commented on these upcoming features, it may not be long before we see them available in an upcoming update.

Tesla has been on a roll recently since releasing FSD v12. Yesterday, Tesla started rolling out update 2024.3.15, which includes the latest version of FSD, v12.3.4. While this update is available for all vehicles currently on FSD v12, it finally adds support for the legacy Model S and Model X, as well as the new Model 3.

The Cybertruck is now the last consumer vehicle (Semi excluded) that currently doesn’t have access to FSD v12. In fact, the Cybetruck doesn’t have access to any version of FSD yet, although that shouldn’t be surprising given that the Cybertruck is a brand-new vehicle and Tesla is still ramping up production.

This FSD update follows Tesla’s recent release of FSD v12.3.3, which changed FSD from “Beta” to “Supervised”—a precondition which, in hindsight, foreshadowed that it would soon be ready for older cars.

Autopark

We were hoping also to see improvements with the new Autopark feature, or see it expanded to vehicles with ultrasonic sensors (USS), but it looks like Tesla was focused on bringing FSD v12 to additional vehicles with this update.

Vehicles with USS are not only waiting on the new Autopark but also the new high-fidelity park assist that was rolled out to vehicles without USS late last year.

In December, Tesla’s Autopilot lead, Ashok Elluswamy said that the feature would come to models with USS “eventually.” It’s possible the feature may be tied to the latest Autopark feature and users will receive both at the same time.

FSD v12.3.4 Roll Out

Please note that this update hasn’t yet reached all the eligible vehicles yet and is being rolled out slowly over time as Tesla monitors these vehicles. If your car becomes eligible, you’ll receive a push notification, or sometimes it’s helpful to check in the Tesla app or in the vehicle manually.

If you’re interested in the rollout, check out our statistics page for FSD v12.3.4.

A century ago, Henry Ford revolutionized automobile production by introducing the moving assembly line, a concept that changed manufacturing forever and made cars accessible to the masses. Today, we stand at the brink of another manufacturing revolution, this time led by Tesla. The company is reinventing the assembly line for the electric age with its forthcoming $25,000 car, also referred to as Redwood.

Unboxing the Future: Tesla’s Modular Manufacturing

At the heart of Tesla’s innovative production approach is the “unboxed” manufacturing system. This new method breaks from the century-old linear assembly process by adopting a modular, more flexible framework. Unlike traditional manufacturing lines where vehicles inch forward on a conveyor belt to have parts added sequentially, Tesla’s unboxed system assembles cars in a manner reminiscent of assembling Lego blocks. Components are pieced together in dedicated subassembly areas, only coming together in the final stages.

Tesla’s $25,000 car means tossing out Henry Ford’s 100-year-old assembly line – Autonews

“Instead of a large, rectangular car moving along a linear conveyer belt, parts are assembled simultaneously in dedicated areas and then all put together at the end. Tesla says the change… pic.twitter.com/heaxn4oS91

— Sawyer Merritt (@SawyerMerritt) March 28, 2024

This modular approach is not just about breaking away from tradition; it’s a strategic move to outmaneuver stiff competition from Chinese EV startups, which benefit from robust government support and an efficient local supply chain. By adopting a method that echoes the assembly techniques of the consumer electronics industry, Tesla aims to reduce its manufacturing footprint by over 40%, promising faster and more cost-effective factory construction.

Robotic Precision and Reducing Costs

The unboxed system is set to dramatically lower vehicle production costs. Estimates suggest that manufacturing costs could be slashed by as much as 50%, enabling the construction of vehicles in significantly smaller factories. This efficiency is partly attributed to advanced robotics, like the Optimus Bot, which enhances operational efficiency and safety while providing unprecedented flexibility in manufacturing.

Tesla’s introduction of the unboxed manufacturing system is not merely a technical evolution; it’s a strategic adaptation designed to cement Tesla’s position in a rapidly evolving automotive landscape. By drastically reducing costs and enhancing production efficiency, Tesla is not just aiming to compete with Chinese EV manufacturers but is also setting a new standard for vehicle production worldwide.

Embracing Manufacturing’s Electric Future

Tesla’s approach could serve as a blueprint for the future of manufacturing, challenging established norms and encouraging other industries to reconsider their own production methods. Just as Ford’s assembly line became a hallmark of industrial manufacturing, Tesla’s unboxed system may become synonymous with the next production era, characterized by flexibility, efficiency, and sustainability.

In essence, Tesla is doing for the electric vehicle what Henry Ford did for the gasoline car: making it accessible, affordable, and adaptable to the needs of the modern world. As we witness this new chapter in manufacturing history unfold, it’s clear that Tesla’s innovative spirit is not just about creating cutting-edge vehicles; it’s also about reshaping automotive production for the 21st century.