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C8 Corvette Secrets: The 2020 Corvette Has a Flying Car Mode

C8 Corvette Secrets: The 2020 Corvette Has a Flying Car Mode


As we continue to digest all the new information that came out of last week’s First Drive Event with the 2020 Corvette Stingrays in Las Vegas, there is a new “Mode” to discuss that most Corvette enthusiasts have never heard of.

The 2020 Corvette Stingray has several “modes” that help drivers get the most out of their cars. We are already familiar with the regular driving modes that feature settings for Weather, Touring, Sport and Track, as well as the two customizable modes called MyMode and Z-Mode. But what you may not be aware of is that the 2020 Corvette Stingray’s equipped with Magnetic Ride Control also features a “Flying Car” mode.

Well, it is the 21st century after all!

Corvette’s Vehicle Performance Manager Alex MacDonald is responsible for the chassis tuning of the new Corvette and he was tasked with explaining much of the on-track performance capabilities of the new Corvette to those at Spring Mountain last week.

For the C8 Corvette, engineers have rolled out version 4.0 of Magnetic Ride Control with the biggest change to the system is the use of accelerometers rather than position sensors that measured wheel height. Here is the slide that was offered on the new Mag Ride for the C8 Corvette:

C8 Corvette Secrets: The 2020 Corvette Has a Flying Car Mode


The Magnetic Ride Control is tied into the Corvette’s Performance Traction Management system and that’s where the Flying Car Mode comes into play.

When your crest an incline and the Corvette’s wheels are off the ground, they will spin faster like they are on ice or another slippery surface because there is no resistance. The performance traction control senses that and sends commands to slow the wheels. But that’s not the best reaction when on the track. The system now senses when the car’s front wheels leave the ground (and assumes that the rears will be leaving as well), and the system tells the performance traction control to ignore it because it knows that it’s temporary and that all four wheels will be back on the ground momentarily.

Here is Alex talking about the Flying Car Mode:


“The other interesting note about MR is that it communicates with the performance traction system and it tells that performance traction system that if the front wheels have just gone over a big crest that we know that one wheel-base later the rear is about to go over that same crest, we can adapt the traction control to work in that situation and we call that Flying Car Mode, which is a cool name for it, because it does detect when the car is airborne and we can alter the chassis controls to deal what happens when the car lands.”


Source:
Video by Keith Cornett


Tech We Would Like to See on the C8 Corvette: Active Aero

Tech We Would Like to See on the C8 Corvette: Active Aero


With the highest performance versions of the seventh generation Corvette, customers were forced to make a choice. Did they want their car to have the highest possible top speed, or did they want to sacrifice some of that by bolting a slew of aerodynamic aids to their car for maximum cornering ability?

We would love for Chevrolet to take that decision out of the ordering equation for buyers of the upcoming Z models and the Grand Sport. They could give buyers the best of both worlds with the incorporation of Active Aerodynamics.

Active Aerodynamics can take many forms, from grille vents that close at high speeds to streamline a car, to suspension that lowers at speed to reduce lift. We know that the Corvette team would build a fully functional system that integrates several of these technologies into a cohesive package, just like they did on the C7 ZR1’s chassis-mounted wing and innovative balancing front underwing, but what we mostly want to focus on here is the most visible piece of such a system, the rear wing.

This unit would elevate both the performance and even the prestige of GM’s looming halo car. There are several benefits of an active rear wing that accompany their off-the-charts cool factor.

1. An active rear wing can be lowered, causing it, for all intents and purposes, to disappear, along with any drag that it was creating. Top-end General Motors Products have become so fast that the most track-worthy editions have suffered at the dragstrip because of massive fixed wings. The effects of the C7 Z06/Z07’s wickerbill spoiler have been well documented. Chevrolet officially listed the top speed of ZR1’s with the “big-wing” ZTK package as 10 MPH lower than their stock counterparts, and the Camaro ZL1 with the 1LE package has proven slower than the car it is based on, even in distances as short as a quarter-mile. Allowing these serious track performers to retract their wing, and the ZTK/Z07/1LE models become the best version of their respective model-line with no excuses or asterisks, which is what buyers that dole out more funds expect.

Causes of Aerodynamic Drag

Photo Credit: https://www.sciencelearn.org.nz


2. Just as these wings can retract to reduce drag and improve top speed, they can be “actively” placed in full “attack mode” for maximum downforce in the corners. This increases cornering speed, stability, and driver confidence which can lead to drastically lower lap times.

3. Upon hard braking, an active wing can also go vertical, transforming into an air brake. This assists the actual brakes, resulting in shorter stopping distances. It also keeps more weight in the rear of the car, again helping with stability and, especially in a rear-wheel drive car, improved corner exit speeds.

Car Magazine (UK)

Photo Credit: Car Magazine (UK)


All three of these traits brought to the table by an active wing radically assist the driver and make the car faster in all aspects. The coolest thing is that, with the right programming, the wing does all three automatically with seamless transitions, and, did we mention how awesome they also look?

There has been speculation about Active Aero coming to the Corvette for several years now. These rumors were fueled by GM’s own patent filings which showed a sketch of a C7 fitted with advanced aerodynamic trickery. We think the top dog mid-engine offerings are the perfect place for the General to finally deploy this technology that can already be found on the majority of the world’s supercars.

Corvette Blogger


Watch These Multiple C8 Corvettes Utilize Launch Control

For the last two days we’ve been in Corvette Heaven as we were invited by Chevrolet to come out to Las Vegas and test drive the 2020 Corvette Stingray. The test consisted of two parts that included a route through the Valley of Fire state park and then today we drove the new mid-engine sports cars at Spring Mountain Motor Resort & Country Club.

Today’s driving session culminated with the very talented instructors from the Ron Fellows Performance Driving School offering hot laps around the track. Each driver gave their passenger a demonstration of the capabilities of the new Corvette and those two fast laps started with engaging launch control as each car took to the track.

With 60% of the weight of the 2020 Corvette residing over the back wheels, the Launch Control demonstration shows just how quick these cars are able to put power to the pavement as those Michelin Pilot Sport 4S summer tires quickly hook up to send the car on the track.

We will be traveling from Las Vegas to home in Tampa on Wednesday, but keep checking back as we got a lot of great photos and videos from our 2020 Corvette drive on deck!


Source:
Video by Keith Cornett


A Le Mans Winner Ripped The C8 Corvette Around The Nürburgring In 7 Minutes 29.9 Seconds

When you’re Chevrolet and you have access to five-time Le Mans winner Oliver Gavin, it’s a smart idea to shove him behind the wheel of a new C8 Corvette with the Z51 performance package and point him out for a flying lap of the Nordschleife. These lap times are largely irrelevant as they absolutely do not correlate to driving enjoyment or real-world usable performance, but it’s a slightly abstract way to compare the relative abilities of sports cars.

With ideal conditions and an incredibly capable driver, Chevrolet managed a lap time of 7 minutes and 29.9 seconds. That’s quicker than a recent independent test Porsche 992 time, and Chevrolet’s own high-powered Camaro ZL1. That said, it’s 16 seconds off the pace of the C7-generation Corvette Z06. Interesting? Maybe. 

Chevrolet confirmed to RoadShow that this was the lap time, as hidden (below) in a teaser video for its upcoming documentary on the development of the C8.

Are you and I capable of this lap time? Hell no. But the car is capable of it in the right hands, and I guess that has bragging rights of some kind.

Obviously this is still just the base model Corvette with its 495 horsepower V8 mounted in the middle. The Z51 pack adds aero bits, better tires, better suspension, and better cooling for the entire car. There will be more powerful, better, and faster Corvettes coming, but for now you can rest assured knowing a C8 Corvette is slightly faster around the ‘ring than the big bad supercharged Camaro. That is, unless the ZL1 was of the 1LE variety (which ran a 7:16.04).

Bradley Brownell for Jalopnik