Fifty years after the original COPO Camaro special order performance models were introduced, Chevrolet’s eCOPO Camaro Concept demonstrates an electrified vision for drag racing. Developed by General Motors and built in partnership with the pioneering electric drag racing team Hancock and Lane Racing, the concept race car – based on the 2019 COPO Camaro – is entirely electric powered, driven by an electric motor providing the equivalent of more than 700 horsepower and 600 lb-ft of torque. Chevrolet estimates quarter-mile times in the 9-second range. Chevrolet partnered with Hancock and Lane Racing not only because of the team’s success in NHRA drag racing, but also its involvement with Patrick McCue, the driving force behind the record-holding “Shock and Awe” electric drag racing car, and his Seattle-area Bothell High School automotive technology program. With the racing team’s assistance, more than a dozen students participated in the development and assembly of the electrified drag car.
Just as the original 1969 COPO Camaro models relied on creative engineering to make them successful in Stock Eliminator drag racing, the eCOPO breaks new ground with its unique motor and GM’s first 800-volt battery back. The electric motor is based on a pair of BorgWarner HVH 250-150 motor assemblies, each generating 300 lb-ft of torque, and replaces the gas engine. It is connected to a conventional racing-prepared “Turbo 400” automatic transmission that channels the motor’s torque to the same solid rear axle used in the production COPO Camaro race cars. The all-new 800-volt battery pack enables a more efficient power transfer to the electric motor and supports faster recharging, which is important for the limited time between elimination rounds in drag racing.
The battery pack is composed of four 200-volt modules, each weighing approximately 175 pounds, mounted strategically in the car for optimal weight distribution. Two are located in the rear seat area and the other two are in the trunk: one in the spare tire well and the other in the area over the rear axle. A full Battery Management System monitors all critical voltages and temperatures within the pack. It ties into a comprehensive safety system that continuously evaluates all vehicle electrical components for proper function and safe operation. The batteries in the rear compartment are sealed off from the interior and an integrated driveshaft tunnel has been added between the modules for increased protection. Additionally, the roll cage in the trunk area has been expanded to provide additional protection for the rear-mounted modules. With the modules’ strategic positions, the eCOPO Camaro has greater than a 56 percent rear-weight bias, which helps launch the car more efficiently.
The eCOPO Camaro Concept expands Chevrolet and General Motors’ electrification development and supports future product development. It also suggests a potential new avenue for Chevrolet’s crate engine and performance parts portfolio. The eCOPO Camaro’s electric motor has the same bell house mounting pattern and crankshaft flange as the popular LS-family engines in Chevrolet’s crate engine portfolio. That allows it to bolt up to just about any General Motors transmission. In fact, the transmission, driveshaft and other drivetrain components remain in the same locations as in a gasoline-powered COPO Camaro race car, meaning the electric motor simply bolts into the engine compartment in place of the gas engine.
“The possibilities are intriguing and suggest a whole new world for racers,” said O’Blenes. “Chevrolet pioneered the concept of the high-performance crate engine right around the time the original COPO Camaro models were created, and the eCOPO project points to a future that could include electric crate motors for racing, or even your street rod. We’re not there yet, but it’s something we’re exploring.” In the meantime, Chevrolet and Hancock and Lane Racing will continue to develop the eCOPO Camaro and test it on the drag strip, seeking quicker elapsed times with all-new technology.