Cars

Daimler Truck Starts Series Production of Battery Electric Freightliner eM2

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Daimler Truck AG (“Daimler Truck”) announces the start of production of the Freightliner eM2 at their subsidiary Daimler Truck North America LLC (“DTNA”). The battery electric medium-duty truck is designed for pick-up and delivery applications and represents one of now ten battery electric vehicles from Daimler Truck in series production worldwide.

Daimler Freightliner Em2 Front Quarter Right

The Freightliner eM2 is being manufactured at DTNA’s truck manufacturing plant in Portland, Oregon. It is built on the well-established Freightliner M2 106 Plus platform and follows the introduction of the battery electric Freightliner eCascadia in 2022, thereby extending CO2-neutral transportation to the medium-duty segment.

The eM2 features a proprietary, fully integrated, battery electric Detroit ePowertrain. Its streamlined design places electric motors and a 2-speed transmission directly on the drive axles, resulting in minimized energy cost per mile. The driving range varies based on the two available battery capacity options for the eM2.

Daimler Freightliner Em2 Front Quarter Left

The class 6 single-motor model provides up to 190 continuous horsepower, a 194 kWh battery, and a typical range of 180 miles (290 kilometers) on a single charge. In contrast, the class 7 dual-motor variant offers up to 255 continuous horsepower, supported by a 291 kWh battery, providing a typical range of 250 miles (400 kilometers) on a single charge.

Thanks to its proprietary battery side impact protection and the Detroit Assurance suite of safety systems, the eM2 upholds Daimler Trucks’s high safety standards. Standard safety features now include Active Brake Assist 5 (ABA5), Tailgate Warning, Adaptive Cruise Control (ACC) down to 0 mph, Lane Departure Warning, Intelligent High-Beams, Automatic Wipers/Headlamps, and Side Guard Assist.

The eM2 is further enhanced by Detroit Connect, a state-of-the-art connected vehicle solution that facilitates real-time monitoring of battery health, charging status, and energy usage. This connectivity enables efficient route planning, energy optimization, and post-trip data analysis to improve overall energy efficiency.

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