Tesla Model S: 0-60 In 4.5 Seconds

thecarchik writes "We already know a lot about the all-electric 2012 Tesla Model S sedan — but at a press event ahead of tonight's exclusive VIP event at the former Toyota NUMMI facility in Fremont, California, Tesla CEO Elon Musk announced Tesla was making a faster Model S for those with a sporty side. Cutting the brisk 0-60 time of the standard Model S from 5.6 second to under 4.5 seconds, the sportier version features the same 85 kilowatt-hour, 300 miles-per-charge battery pack found in the 2012 Model S Signature series. 'That's quicker than a [Porsche] 911 [Carrera],' joked Musk. 'Not bad for an electric luxury sedan.' But if you thought 300 miles was the maximum range a Tesla Model S could do, you'd be wrong."

Re:How about a Model T?

[Osgeld]

I was looking at a 10,000$ Kia, sure that didnt have AC, power anything or even an AM radio, that car had the highest safety rating of that year, 40MPG. I ended up getting a 15 grand model and that even had a MP3 player.

Meanwhile at the GM dealership I could get a lower quality car, with less features, less gas mileage, less power and a much lower safety rating for damn near 10 grand more than the IMPORT. So its not impossible to make a low cost car, sure not 3 grand like the OP suggests but the American companies are not even trying.

Its been over a decade since I bought a domestic car, and now that almost all the imports are being made in the USA, I get to have a quality product for a reasonable price without hearing the "dey took our jobs" horse shit.

Re:The imporant question

[Rei]

Well, the Volt's pack is going to be *warrantied* for ten years, soo.... Plus, A) EV battery packs can often have parts of them replaced individually, and B) evne a reduced-capacity pack still has value (say, on grid load balancing)

Battery life is always going to be limited by *design*. You can have any sort of lifespan you want out of a battery, from nanoseconds to tens of thousands of years. It's all about tradeoffs. The better the chemistry, the better the temperature regulation. the gentler the charge/discharge curve, the better the charge management, and the lower the depth of discharge range, the longer the lifespan, by orders of magnitude. As for Tesla's design approach:

  * Chemistry: nothing special -- same as in laptops
  * Temperature regulation: top notch -- a far cry from an unregulated battery pack sitting right next to your CPU.
  * Charge management: very good -- detailed computer monitoring and balancing of hundreds of individual subcomponents.
  * Charge curve: The most common case (~3.5 hours per full charge) is a little gentler than an average laptop charge. The mild case (a 120V socket) is exceedingly gentle. The rare case (fast charging on a long trip, ~1 hour) is worse than for most laptops.
  * Discharge curve: Unless the vehicle is being put through track duty, gentler than a laptop.
  * Depth of discharge: It's hard to generalize between laptops. Telsa does not charge to 100%, nor allow down to 0%, and the most common discharge case usually only uses a few tens of percents charge before recharging. So in general, well gentler than for a laptop.

Different vehicles vary. The Leaf uses a better chemistry, but poorer temperature regulation. The Volt uses both a better chemistry and good temperature regulation.

Automation

[oberhaus]

Another big part of the Tesla story is automation. Check out today's post by Robert Scoble:

This is the future of American manufacturing. They can make anything. It's almost 100% vertically integrated, which means everything from plastics and metals to batteries, electronics, motors and component assembly is done here, with flexible multi-purpose robots. Every car can be different, with no retooling, because the robots can do anything. It's just software.