REGISTER NOW To achieve that, Clarke set out to create a new culture seeded by talent from Formula 1 and companies like Apple, Lucid Motors, Rivian, and Tesla, as well as Auto Motive Power, a startup acquired by Ford in 2023. The team, which includes about 450 people at its base in Long Beach, California, and 200 people in an office in Palo Alto, also adopted a bounty program to help engineers understand how their day-to-day decisions impact the customer and the end product, Clarke said in an interview with reporters. The focus of the bounty program was efficiency. Numerical metrics were assigned to every aspect of the UEV, including vehicle mass, aerodynamic drag, and even specific vehicle parts. In practice, this meant Ford might decide to use a more expensive part if it helped decrease the weight of the EV, thereby making it more efficient and cost-effective. “We’ve been very focused on making sure that the cost that we’re moving from the product doesn’t remove value,” Clarke said. One example is that even the base trim of the EV truck will have a power-folding mirror, a premium feature on most vehicles, because it decreases aerodynamic drag, according to Clarke. The company saved money by using one motor, instead of two, to handle the mirror adjustment and the folding. Image Credits:Ford That obsession with efficiency included a team of ex-Formula 1 engineers who worked closely with Ford’s design team. The result, according to Ford, is a midsized EV truck that is 15% more aerodynamically efficient than any other pickup truck on the market today. This team of former F1 engineers used 3D-printed and machined parts to create a Lego-like build for its test vehicle. Thousands of 3D-printed components, which are accurate within fractions of a millimeter of Ford’s simulations and could be swapped out in minutes, were used to measure aerodynamics. These Lego-like prototypes were used in wind tunnel testing early on — and often — to measure aerodynamics, a process that Ford traditionally used only when the design of a vehicle was nearly complete. A natural place to focus was on the battery, which can account for about 40% of a vehicle’s total expense. A lighter, more efficient vehicle allows Ford to use a smaller battery, which reduces cost. The end result, according to Clarke, will be an EV truck with about 15% more range, or 50 miles, than an equivalent pickup powered by gas. The efficiency push also led the team to adopt manufacturing tactics adopted and popularized by Tesla, including the use of aluminum unicastings and moving from a 12-volt system to a 48-volt power system that will be used for some vehicle functions. Ford also upended the electric vehicle architecture of the UEV, taking a zonal approach similar to Tesla and Rivian. Instead of scattering dozens of electronic control units (ECUs), or computers, throughout the vehicle, Ford has integrated multiple vehicle functions into five main modules. This reduces complexity, cost, and copper usage and helped make the EV truck’s wire harness 4,000 feet shorter and 22 pounds lighter than one of its first-generation electric vehicles, according to Luccas Di Tullio, a software engineer at Ford who previously worked at Auto Motive Power. Di Tullio said the company carried the same philosophy to the power electronic components, finding ways to share components and reduce parts with a single module that manages power distribution and battery management and provides AC power back to a customer’s home during an outage. Ford also developed its own software for those five main ECUs, down to the application layer, according to Clarke. Because Ford owns the software — to the lowest level — it becomes very portable, Clarke said. “Other than being able to control the infotainment, what shows up on the screens, [and] how you interact with the vehicle, all of the body controls then are directly coupled,” he said. “So you can imagine that many of the experiences that can only be created by coupling all the different sensors around the vehicle are now at our fingertips and under our own control.” Topics