Charged with Electric Vehicle News and Views
Youtuber Juan del Real shot this video of a Tesla Model X being tested at the former naval air station in Alameda California about 30 miles north of Tesla's factory in Fremont.
Based on the size of the Model S in the background, Jalopnik think the camouflaged prototype looks too small to be a Model X and believe this may in fact be the first sighting of a Model 3.
Following closely on the heals of BMW and Volkswagen announcing a 100 station CCS fast charger network last week, Nissan have plans to install up to 1,700 CHAdeMO fast chargers in the US by 2016.
Since the launch of the Nissan LEAF in late 2010, Nissan has reinforced its commitment to zero emission mobility with investments in EV charging infrastructure to serve the needs of LEAF drivers in markets across the U.S.
Nissan has a multi-pronged strategy to invest with charging partners to install quick charging for owners in the communities where they live and work, as well as at corporate workplaces and Nissan dealerships.
Timeline of (CHAdeMO) quick charging rollout:
"Access to quick chargers that can provide about 80 percent charge to a Nissan LEAF battery in less than 30 minutes has proved to increase our owner satisfaction and get more buyers to consider the benefits of an all-electric car," said Brendan Jones, Nissan's director of Electric Vehicle Sales and Infrastructure Deployment. "Nissan continues to invest heavily with our charging partners to ensure that LEAF owners have easy access to convenient public charging as they seek to maximize the benefits of their cars."
For reference there are currently 140 Tesla Supercharger locations in the USA.
At the 2015 Washington Auto Show, two of the top automakers, BMW of North America and Volkswagen of America, together with ChargePoint, the largest electric vehicle charging network, announced an initiative to create express charging corridors along heavily-traveled routes on the East and West Coasts. Designed to increase the number of fast charging locations, the initiative will help meet the large and growing demand for convenient, publicly available electric vehicle fast chargers, including direct current (DC) Fast charging locations, and support the adoption of electric vehicles in the United States. In the initial phase, the aim is to install nearly 100 DC Fast charging ports across both coasts, with plans to expand the program to increase access to fast charging across the country. These newly installed DC Fast chargers will be added to the growing ChargePoint network of more than 20,000 charging spots in North America.
With more than 280,000 electric vehicles sold in the United States, EV owners need more charging flexibility while on the go. The express charging corridors will provide electric vehicle drivers access to DC Fast chargers along the most heavily populated and highly-trafficked regions on Interstate 95 on the east coast, from Boston to Washington, D.C., and on the west coast covering and connecting the metropolitan areas of Portland, San Francisco, Los Angeles, and San Diego. The installations will occur both within and between relevant metro areas, strategically-spaced at a maximum of 50 miles apart, making it even easier to take long road trips in an EV.
"A robust network of conveniently located DC Fast charging stations will go a long way toward increasing electric vehicle adoption and making electric vehicle ownership even more enjoyable," said Robert Healey, Head of EV Infrastructure at BMW of North America. "The express charging corridors are another important step in the development of the U.S. e-mobility infrastructure that makes longer distance travel a real option for consumers, particularly along the most heavily trafficked portions of both coasts-making the BMW i3 and other electric vehicles even more appealing."
"Volkswagen believes in a holistic approach to e-mobility in order to create a seamless experience for the consumer," said Jörg Sommer, vice president, product marketing and strategy, Volkswagen of America. "The investment in the express charging corridor will provide e-Golf and other electric vehicle owners with the added support to travel their day-to-day and popular long distance routes."
Each fast charging location along the express charging corridors is expected to include up to two 50 kW DC Fast chargers, or 24 kW DC Combo Fast chargers with the SAE Combo connector, used in both BMW and Volkswagen electric vehicles as well as many other electric vehicles that incorporate a DC Fast Charging capability. When charging at a 50 kW station, both the BMW i3 and the Volkswagen e-Golf can charge up to 80 percent in 20 minutes. Both vehicles can charge up to 80 percent in 30 minutes at a 24 kW station. Locations will also include Level 2 chargers, currently the most commonly available public charging stations, which are compatible with all electric vehicles. Level 2 stations can dispense up to 25 miles of range per hour of charging, providing a full charge for the BMW i3 and the VW e-Golf within 3.5 to 4 hours.
The DC Fast charging stations will be part of the ChargePoint network and can be easily accessed with a ChargePoint or ChargeNow card or with the ChargePoint mobile app.
"Our goal at ChargePoint is to get everyone behind the wheel of an EV and provide EV charging everywhere they go," said Pasquale Romano, ChargePoint CEO. "With strategically-placed stations where drivers need them, these express charging corridors will give EV drivers the freedom to go farther and have an EV as their only car without limitation."
Installations have already begun on the west coast, with the first location in San Diego County. There is a target of nearly 100 DC Fast charging ports in the first phase, available by the end of 2015. DC Fast chargers along the express charging corridors are expected to be installed in convenient locations such restaurants, shopping centers, rest stops, and more. ChargePoint will leverage its existing customer base and knowledge on usage to pick strategic locations either where drivers currently charge, or to fill in spaces where there is currently a lack of infrastructure.
With the investment, BMW, Volkswagen and ChargePoint are providing drivers with the ability and confidence to enjoy longer distance driving and recharge their electric vehicles quickly, ultimately leading to greater electric vehicle adoption.
Announced last year, the second sedan manufacturered by Porsche will not be sold until 2018. A source quoted by the German magazine Auto Motor & Sport says the small Panamera could become the first electric car from the German manufacturer.
Apparently, Porsche believe that in four years time battery technology will advance to allow ranges from at least 350 to 400 kilometers.
The E-Pajun is expected to be a four-seater significantly smaller than the Panamera.
Around 17,800 customers have taken delivery of a BMW i vehicle in 2014. Global deliveries of the BMW i3 total 16,052; nearly three-quarters of those sales occurred in the second half of the year, following the vehicle’s late-spring market launch in several major markets including the USA. The keys to a total of 1,741 BMW i8s have been handed over to customers since it went on sale in the summer.
Due to the success of the BMW i vehicles, their production continues to ramp up. Harald Krüger, Member of the Board of Management of BMW AG responsible for Production said,
“Our production lines in Leipzig are highly flexible and we have switched more production to the i8 to reduce customer waiting times to a better level. Meanwhile, more than 100 BMW i3’s leave the plant each day. The BMW Group is the first automotive company to manufacture using significant quantities of carbon fibre in series production and the success of these cars speaks for itself.”
BMW plans to offer plug-in hybrid versions of all their main models including Mini and Rolls Royce brands.
Source: BMW
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Chevrolet today made a significant statement on its commitment to electrification with the introduction of the Bolt EV concept – a vision for an affordable, long-range all-electric vehicle designed to offer more than 200 miles of range starting around $30,000.
“The Bolt EV concept is a game-changing electric vehicle designed for attainability, not exclusivity,” said General Motors CEO Mary Barra. “Chevrolet believes electrification is a pillar of future transportation and needs to be affordable for a wider segment of customers.”
Leveraging the electrification prowess established by Volt and Spark EV, the Bolt EV concept is designed to offer long-range performance in all 50 states and many global markets.
Drivers will be able to select operating modes designed around preferred driving styles such as daily commuting and spirited weekend cruising, for uncompromising electric driving. The modes adjust accelerator pedal mapping, vehicle ride height and suspension tuning. The Bolt EV concept is also designed to support DC fast charging.
“We have made tremendous strides in technologies that make it easier and more affordable for Chevrolet customers to integrate an all-electric vehicle in their daily lives,” said Barra. “The Bolt EV concept demonstrates General Motors’ commitment to electrification and the capabilities of our advanced EV technology.”
The Bolt EV concept also pushes the envelope for crossover aesthetics. Its unique proportion, with practically no front or rear overhang, makes the most of interior space and was designed to create a roomy environment for four that feels expansive. Lightweight materials, including aluminum, magnesium, carbon fiber and even woven mesh, complement the design, while driving down the curb weight to help maximize range. Aero-optimizing features such as vented rear fenders also help contribute to range.
“Form and function have never meshed so well together,” said Ed Welburn, vice president, GM Global Design. “No compromises were made when it came to aesthetics and the elements that contribute to the Bolt EV concept’s range, resulting in a unique proportion that’s sleek, efficient and obviously a Chevrolet.”
The Bolt EV concept’s airy interior ambience is enhanced with bold use of glass all around – as well as a full-length, frosted glass roof with unique, faceted design elements. A high beltline sweeps upward with the D-pillar, culminating in an integrated roof spoiler, for a lean, athletic stance. An advanced nano-composite rear hatch and wraparound rear window give the Bolt EV concept a distinctive appearance and flood the interior with more natural light.
High-intensity, efficient light-emitting diode (LED) headlamp and taillamp elements are housed behind jewel-like faceted lenses in which translucent elements illuminate evenly to create the signature lighting effect.
Inside, the Bolt EV concept has a large feel reinforced by generous headroom and legroom dimensions. A flat, flow-through floor adds to the roominess, while a contemporary, light color scheme adds to the feeling of an open, airy cabin and conveys warmth.
The cabin’s airy, high-tech environment is reinforced with lightweight, slim-architecture seats mounted on exposed aluminum pedestals that create a floating effect. The minimalist center console “floats,” too, suspended from the front seats.
“The Bolt EV concept’s interior is intended as a sanctuary, with materials and technologies that reinforce the airy ambience and help contribute to the vehicle’s overall efficiency,” said Welburn. “It also incorporates technology in a subtler and simpler manner, for a more soothing driving experience – particularly in busy, urban environments.”
Chevrolet’s signature dual-cockpit interior layout incorporates easy-to-use technology designed to make the driving experience easier and more enjoyable. It wraps into the door panels and features a frosted and translucent appearance – and a subtle glow at night.
The concept’s technological intuitiveness can be accessed via a smartphone with the concept Bolt EV Connect app, which is designed to:
A large, color 10-inch-diagonal capacitive-touch screen, with interface features, complements the concept Bolt EV Connect app. It even allows the projection of all the application and other smartphone data onto the screen.
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At CES this week, BMW is showing cars that can stop you from crashing and park themselves using a smartwatch.
Source: The Verge
Australian bus manufacturer, Bustech has been chosen as the lead design and manufacturing partner for a $170 million electric bus project.
Announcing the project, Bustech CEO Michael McGee said the project would position Bustech as an innovative regional leader in the use of renewable energy for buses.
“The E-Bus project is an international research and development project co-funded by the Malaysian and Australian players and governments, which aims to develop an electric bus for trial operations in Malaysia,” he said.
Bustech, part of Transit Australia Group, has partnered with the Malaysia Automotive Institute (MAI) (a Malaysian government body), Swinburne University of Technology and AutoCRC and a private Malaysian company to develop and test the E-Bus project in Malaysia.
Swinburne University is providing the electric bus technology to the project and will work closely with Bustech throughout the trials of the prototype vehicle.
On the Gold Coast to inspect the Bustech facility, Malaysian Automotive Institute CEO M Madani Sahari said if successful, the electric bus could be exported to other countries.
“This partnership is a win-win for both Australia and Malaysia because it develops opportunities that have benefits for both countries,” he said.
Mr Sahari said that Malaysian industry was spending 500 million ringgit ($AUD170 million) on establishing an electric bus public transport system, including infrastructure such as charging stations.
Transit Australia Group is working closely with a Malaysian manufacturer in exploring opportunities to commercialise the technology.
AutoCRC, whose role it is to identify and develop opportunities for the Australian automotive industry, helped broker the deal by bringing the MAI and Bustech together.
AutoCRC research director Gary White said Bustech was well-suited to the project, with high-end capabilities in the manufacturing process.
“Our long-term vision at AutoCRC is to re-build manufacturing in Australia and this project is a perfect illustration, with Bustech’s manufacturing facility capable of delivering high-quality, innovative products,” Dr White said.
The first bus is planned to roll off the production line in July 2015, with trials to begin in September.
Volkswagen's premium Audi division aims to bring two purely electric vehicles to market by 2018 as it tries to catch up with rivals such as Tesla Motors and BMW.
Audi's Chief Executive Rupert Stadler told German daily Frankfurter Allgemeine Zeitung (FAZ) in an interview to be published on Saturday that the launch of an electric sports car and a sports activity vehicle (SAV) were under way.
The SAV would be a four-wheel drive with a range of more than 500 km (310 miles) per battery load, Stadler said.
He also told FAZ that Audi's push to develop electronic drive and digital technologies would mean the division adding 2 billion euros ($2.4 billion) to its investments by 2019. Audi's investment budget through 2018 amounts to 22 billion.
Tesla Motors have announced a new extended-range upgrade for the Roadster — the Lotus-based two-door that preceded the Model S sedan.
The upgrade includes a battery swap, a retrofit aerodynamics kit to reduce drag by 15% plus new tires and wheel bearings to decrease rolling resistance by 20%. The upgrades are expected to yield a 40 to 50 percent improvement in range, breaking the 400-mile mark.
Battery technology has continued a steady improvement in recent years, as has Tesla's experience in optimizing total vehicle efficiency through Model S development. Tesla have long been excited to apply this learning back to their first vehicle, and aim to do just that with the prototype Roadster 3.0 package. It consists of three main improvement areas.
1. Batteries
The original Roadster battery was the very first lithium ion battery put into production in any vehicle. It was state of the art in 2008, but cell technology has improved substantially since then. Tesla have identified a new cell that has 31% more energy than the original Roadster cell. Using this new cell they have created a battery pack that delivers roughly 70 kWh in the same package as the original battery.
2. Aerodynamics
The original Roadster had a drag coefficient (Cd) of 0.36. Using modern computational methods Tesla engineers 'expect' to make a 15% improvement, dropping the total Cd down to 0.31 with a retrofit aero kit.
3. Rolling Resistance
The original Roadster tires have a rolling resistance coefficient (Crr) of 11.0 kg/ton. New tires for the Roadster 3.0 have a Crr of roughly 8.9 kg/ton, about a 20% improvement. They are also making improvements in the wheel bearings and residual brake drag that further reduce overall rolling resistance of the car.
Combining all of these improvements Tesla 'expect to achieve a predicted 40-50% improvement on range between the original Roadster and Roadster 3.0. There is a set of speeds and driving conditions where we can confidently drive the Roadster 3.0 over 400 miles (640 km). Tesla will be demonstrating this in the real world during a non-stop drive from San Francisco to Los Angeles in the early weeks of 2015.
Appointments for upgrading Roadsters will be taken this spring once the new battery pack finishes safety validation. Tesla are confident that this will not be the last update the Roadster will receive in the many years to come.
