The new Ludicrous Mode enabled Tesla Model S P90D apparently managed to do 0–60 mph in just 2.6 seconds during recent testing by Motor Trend, according to reports.
The news was apparently noteworthy enough that Tesla CEO Elon Musk himself felt the need to share a link to the article via Twitter. Going from a dead standstill to 60 mph in just 2.6 seconds is rather ridiculous, to be fair. So why not brag about it?
Model S Ludicrous Mode achieves 2.6 sec 0-60 mph and 10.9 sec 1/4 mile in Motor Trend test https://t.co/IpgTF6s9M8
— Elon Musk (@elonmusk) October 29, 2015
The Motor Trend coverage of the new Tesla offering is rather fun overall, so I recommend heading over there if you have time to read the full article. If not, here are some of the highlights (in my opinion):
Stop what you’re doing right now. Stop texting. Get off YouTube, close Facebook, and pause for a moment so you can truly appreciate the times we’re living in, a world where if you have the means you can go out and buy an American-made, 762-hp, all-wheel-drive electric car that’s as capable of driving itself as it is smoking supercars off the line. That car is the new Ludicrous-enhanced 2015 Tesla Model S P90D.
As fabulous as Tesla’s new semi-autonomous autopilot feature is, the 762-hp Model S P90D is a car that begs to be driven. The P90D starts life as an already-insane Model S P85D but with the P85D’s 221-hp front and 470-hp rear (691 hp combined) motors swapped for a front motor that makes 259 hp and 244 lb-ft of torque and a rear motor that produces 503 hp and 469 lb-ft of torque. Total output is 762 hp and 713 lb-ft of torque.
Hold those horses, though; to get the most out of your P90D — and to get something less Insane and a little more Ludicrous — you’ve got to drop a cool $10,000 on the Ludicrous Speed upgrade. The upgrade adds a couple of pieces of hardware to the P90D, including main battery pack contacts made of Inconel (a “space-grade super alloy”) that allows Tesla to increase the current flow rate from 1,300 to 1,500 amps, and an advanced new fuse for the 90-kW-hr battery. This fuse has its own electronics and a tiny lithium-ion battery built into it that allows Tesla to better bridge the gap between a Model S’ normal operating current and max current. In plain English, it gives the motors access to more of the battery’s power and does it faster, without risk of the fuse being blown.
As noted in the coverage, amongst all of the many, many vehicles tested by Motor Trend, only two can beat the P90D outright at 0–60 miles per hour — the Porsche 918 Spyder ($845,000 starting price when it was being produced) and Ferrari LaFerrari (~$2 million).
One final note: as tested by Motor Trend, the P90D very reliably does a quarter-mile in just 10.9 seconds. That’s quite an advertising statement on its own, isn’t it? Here’s a final quote:
Although the Tesla specializes in short sprints perfectly suited for metered freeway on-ramps, it’s also a capable drag racer. With a full charge, the P90D reliably rips through the quarter mile in 10.9 seconds, hitting 122.7 mph. Those numbers make the EV the fastest four-door sedan we’ve ever tested, besting both the mighty 707-hp Dodge Charger SRT Hellcat and the Audi RS 7 at the strip. The P90D is a supercar beater, too, beating the Porsche 911 Turbo S and Nissan GT-R NISMO (among others) through the quarter mile, though in sprints much longer than that, the Porsche will walk away as the Model S nears its 155 mph top speed.
For a first sedan of a young company with relative new technology that have been in the market for only three years, I’m very worry for mainstream car companies with decades of experiences, more money than Tesla would ever dream and more engineers each than Tesla total personal. What will happen few years for now with Model S 100 kWh version, better cooling system and better drive train, not to speak about new battery chemistry 5 or 6 year from now which would be able to make a Model S P120 DL destroying every ICE car, and only be beaten by the forthcoming new Tesla Roadster (2019?)!
Just think about what the Model S could do – if they put the 503 Hp Motor in Front, and TWO of them in Back – and move the Electronics Module aside so they could fit the second motor back there!! Likely going to need new tires that can handle 1.5 G’s or more in acceleration! Already at 1.1 G’s!
That – combined with Higher Power Capable Batteries, and more running time energy – like the 120 – 150 kWh level of capacity! Wow! Halo Car no doubt! You would need them watching over you, for sure!
Haha, indeed. 😀