Category: Tesla

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Tesla’s Model X ‘Signature’ with 762 hp starts at $132,000

Some future buyers of Tesla Motors Inc.’s Model X are configuring their vehicles this week, as details about the electric-car maker’s much-awaited SUV emerge.

Among the highlights: A Model X “Signature” edition will cost $132,000 and as much as $144,000 with upgrades such as the “ludicrous speed” mode. The car will be able to go 385 km (240 miles) between charges, 7 miles more than a Model S P85D, the sedan’s top of the line, which starts at $108,000 but can also go north of $140,000 with upgrades.

With AWD via a 190 kw (259 hp) front motor and 370 kw (503 hp) rear motor giving an 'insane' total output of 560 kw (762 hp), the Model X Signature can accelerate to 100 km/h (60 mph) in 3.8 seconds, a tad slower than the Model S P85D’s 3.1 seconds. The Model X top speed of 155 mph is the same as the Model S P85D and others.

Tesla fans have posted several screenshots of their invitation-only Model X configuration Web pages on the Tesla Motors Club blog, a forum for Tesla enthusiasts that is independent of the company.

These future Model X owners were the first to put down a deposit on the Model X, which is expected to roll out of the Fremont, Calif., factory on 29th September. People reserving their Model X now would get the car in early 2016.

Here’s what else is known about the Model X:

The car’s rear-door falcon wings, which differ from the gull wings of yesteryear as they are better at negotiating tight spaces, will have sensors so they won’t bump into ceilings.

Accessories like a hitch for bikes or skis are standard. Also standard are parking sensors and blind-spot warning.

The Signature series will offer autopilot with self parking and automatic lane steering, and flat-folding third-row seats. The series’ second-row seats — which Tesla Chief Executive Elon Musk called “a sculptural work of art” — will be “independently operable,” although it is not clear what that meant.

See also: Tesla lower deliveries forecast irks Wall Street

The $10,000 “ludicrous” speed upgrade is also available for the Model X, as Musk had said. Other upgrades include a $1,000 subzero package, which comes with a heated steering wheel and a wiper-blade defroster, among other equipment, although Tesla warns that choosing that package could delay the car’s delivery by a month.

Those upgrades plus a $750 tow package push the price of the Model X Signature to $144,000.

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Consumer Reports Tesla P85D Test Results [VIDEO]

Consumer Reports put the electric Model S P85D through the same tests other cars undergo at its track as part of its overall assessment of Tesla's performance sedan.

Watch the above video to see how it fared in three key tests, along with its fuel efficiency figure.

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Tesla rolls out destination charging in Australian hotels, malls

Tesla Motors has introduced its ‘destination charging’ program into Australia, with over 10 sites established. Model S owners who frequent longer trips will benefit from the destination charging program, where owners can charge at no cost.

Tesla destination charging program provides ‘high power wall units’ at key destinations for Model S owners to charge while away from home for long periods.

The wall units can provide as much as 40 amp of power to Model S and are also provided with Model S for home installation, making the device familiar to owners.

With up to 500 km of rated range, the majority of charging with Model S is done at the home, but now the destination charging will provide locations where there are longer or overnight stops.

Locations include key hotels such as Park Hyatt Sydney, The Darling, Hotel Realm Canberra, The Observatory in Port Macquarie and to fulfil the winter snow travelers Rundells Alpine Lodge Dinner Plain.

In addition, key shopping centres such as Westfield Chatswood and Chadstone have been utilised, with premium parking locations and wall units available to Model S owners.

Tesla Motors has also partnered with Secure Parking to enable a safe location for Model S owners to park and charge whilst at work or out in town. These locations are located across Brisbane, Sydney and Melbourne.

“This expanding network of destination charging is a great replication of the convenience our owners receive when charging at home. Along with the developing Supercharger network, our owners will be able to cover long distances with the knowledge they have a charging solution,” says Australian Tesla spokesperson, Heath Walker.

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Bosch test robotic Tesla Model S around German test track [VIDEO]

Bosch's engineers took a pair of Model S and fitted them with autonomous technology to allow them to drive themselves.

That technology consisted of 50 new components, including (brace yourselves) a front stereo video camera to watch the road markings and identify obstacles, six (non-Bosch) LiDAR laser scanners for 360º coverage around the car, two long-range (200m) and four mid-range (120m) radar sensors facing forwards and backwards, inertial sensors, a GNSS GPS navigation antenna, backup braking (both Bosch’s iBooster and ESP boxes) and ECU systems and a massive great PC in the back to hold hi-res maps and crunch the incoming data via bespoke algorithms.

In total, 1400 human-hours, 1300 metres of cable and an estimated €200,000 went into the car.

The result looks almost like a normal Model S - no pirhouetting Velodyne ‘Christmas tree’ on the roof here, just a few dark panels, a flying saucer GNSS antenna on the back and some industrial-looking buttons - and it’s so effective that it’s almost prosaic.

At the winding Boxberg test track, a Ford Fiesta drove around in front of us to show how smart the Tesla now is. Stopping quickly, driving at snail’s pace, accelerating into the distance: the Tesla reacted to the lot in a considered, sedate, measured manner. (Bosch tells us it can also swap lanes, overtake and merge with traffic on its own, but we didn’t get to check that out.)

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Bosch choose Tesla Model S for autonomous drive testing [VIDEO]

As we reported a month ago, Bosch has confirmed they are working with Tesla to develop automated driving systems for production vehicles.

Spotting a test vehicle, equipped as they are with measurement devices, sensors, and instruments, is usually pretty easy. But that’s not the case for the new Model S Teslas that recently joined the Bosch fleet. Both these test vehicles are helping engineers further refine automated driving. But at first glance, it’s hard to tell them apart from production models. “Bosch is developing automated driving for production vehicles of all kinds,” says Dr. Dirk Hoheisel, member of the Bosch board of management. The new test vehicles are evidence of the progress Bosch has already made in integrating the necessary systems and components. Those attending the 62nd International Automotive Press Briefing can see this for themselves in Boxberg, Germany, from May 19 to 21, 2015

Fit for highly automated driving after 1,400 hours of work

To make the test vehicles ready for automated driving, they first had to be retrofitted. Fifty new Bosch components were installed in each car. They included a stereo video camera (SVC), which the car uses to recognize lanes, traffic signs, and clear spaces. The Bosch SVC is the smallest stereo camera system for automotive applications currently available in the market. Its compact design makes it easy to integrate into vehicles. In addition to the camera, 1,300 meters of cable were laid in each car and fixed in place with 400 cable ties. “After some 1,400 hours of work on each of them, the test vehicles are ready for highly automated driving,” Hoheisel says. Thanks to Bosch technology, the two Teslas can now autonomously drive from on-ramp to off-ramp without the driver needing to constantly monitor them.

This transfer of responsibility from the driver to the vehicle explains why so much time and effort is necessary for the retrofit. Highly automated vehicles must be capable of operating safely even if a component fails. The only way to achieve such operational reliability is by a design strategy that includes redundancy in safety-critical systems such as braking and steering. For example, both test vehicles feature both the iBooster electromechanical brake booster and the ESP braking control system. These Bosch components can brake the car independently of each other, without any need for driver intervention. “For Bosch, the principle here is safety first,” Hoheisel says. Back-up systems are also available for the two test vehicles’ power supply and vital ECUs.

Several thousand test kilometers driven without a hitch

Since 2011, Bosch has had two teams – on two continents – working on automated driving. At the Abstatt location in Germany, Bosch engineers are working on system integration. Their colleagues at Palo Alto in California’s Silicon Valley are driving forward work on function development. The two teams receive support from roughly 2,000 driver-assistance engineers who work for Bosch around the world. To make it as easy as possible for the two teams to share their results, Bosch uses identical test vehicles. Hoheisel explains why Bosch opted for two all-electric Model S vehicles made by the U.S. automaker Tesla: “They combine two automotive industry trends: electrification and automation.” This presents a particular challenge, he says, but one that Bosch relishes.

Bosch started testing automated driving on public roads at the beginning of 2013. So far, it has been using test vehicles based on the BMW 325d Touring. Engineers have successfully driven them for several thousand kilometers on freeways – both the A81 near Stuttgart and the I280 in California. Before the first test drives, the German certification authority TÜV Süd reviewed the safety concept that Bosch had prepared specially for the purpose. And even though the technology on board the vehicles is designed to handle any situation in freeway traffic, the drivers at the wheel have been specially trained. Bosch’s test drivers not only know the safety precautions inside out, but have also completed a multi-day training course.