McLaren’s 577-hp M640 V-6 will go in the Artura, while Ferrari’s new 654-hp F163 engine will be in the 296GTB.
Ferrari
The hot-V layout is a turbocharging setup that allows short and direct exhaust plumbing out of an engine’s center valley to improve turbo efficiency and response. Applying that approach to your standard 60-degree V-6 leads to fitment problems, because there’s not enough room in the valley of the V to efficiently mount turbochargers. It also won’t work with a 180-degree (flat) six, as in a Porsche 911, because packaging a turbo close to the engine and exhaust manifolds would mean mounting the engine higher, negatively affecting the car’s center of gravity. But consider the 120-degree V-6. Both McLaren and Ferrari have, and soon we’ll be seeing the outcome in the McLaren Artura and Ferrari 296GTB.
McLaren M640
The McLaren M640 neatly cradles two turbochargers in the valley between widely spaced cylinder heads in a hot-V setup.
McLaren
Two turbochargers fit nicely into the wide V of the M640, McLaren’s 120-degree V-6. But that’s not the configuration’s only advantage. Compared with McLaren’s V-8, the new V-6 is more compact in length, width, and height, plus it’s 110 pounds lighter. Just as with the V-8, each cylinder displaces about 500 cc, but the V-6’s bore size is now smaller than the stroke (84.0 and 90.0 mm, as opposed to the V-8’s 93.0 and 73.5 mm). Reducing the bore size, moving the camshafts’ chain drive to the rear of the engine, and omitting wet cylinder liners allow the cylinders to be closer together, leading to a dimensionally smaller engine.
Like all V-6s, the McLaren six is essentially two three-cylinder engines set across from each other. Inline-threes have a natural tendency toward vibration. To quell bad vibes, a balance shaft is mounted just above the crankshaft in the M640. “It has less vibration than the V-8s,”says Richard Jackson, McLaren’s powertrain chief engineer.
Compared with the V-8 in the 720S, the V-6 uses slightly more boost pressure and a higher compression ratio to generate higher specific power—192.8 versus 177.8 horsepower per liter—but its 577 horses are still 133 shy of the V-8’s output. To help close that gap, McLaren employs a 94-hp electric motor.
Ferrari F163
Ferrari went for cooling and power, with widely spaced large cylinder bores. The F163 makes a combined 819 horses with the 165-hp electric motor.
Ferrari
Ferrari also has a new 120-degree V-6, the F163, which differs from McLaren’s in several key areas. This new V-6 is only about two inches shorter than Ferrari’s V-8, yet is almost 66 pounds lighter and boasts a 0.4-inch-lower center of gravity. Unlike the method at McLaren, Ferrari engineers kept the 88.0-mm bore and 82.0-mm stroke of the SF90’s 4.0-liter V-8. Moreover, Ferrari increased the space between the cylinders, going from a distance of 12 mm in the V-8 to 20 mm in the V-6. “We needed larger water jackets to cope with the higher thermal loads in the V-6,” says Alessandro Marchetti, Ferrari’s powertrain concept manager. In the interest of saving about eight pounds, Ferrari chose to forgo a balance shaft. “We use four carefully tuned hydraulic mounts to absorb vibration,” he says.
To reduce turbo lag, Ferrari uses a bolted-on short plastic castings that combine with cavities in the cylinder heads to directly feed the engine’s intake parts. “It’s important to minimize intake manifold displacement to reduce time to boost,” Marchetti says.
Compared with the V-8 in the 488, power jumps from 169.4 to 218.6 horsepower per liter (hence the need for the generous cooling jackets). On its own, the 654-hp V-6 is less than 10 ponies short of the 33 percent larger V-8. The additional 165 horsepower the electric motor provides is pure gravy. So, tell everyone the world isn’t flat—it’s banked 120 degrees.
Car and Driver
Keyword: Why Ferrari and McLaren Debuted 120-Degree V-6s at the Same Time