Chevrolet-FNR autonomous EV concept

Chevrolet has created a vision of what it thinks a full autonomous all-electric vehicle of the future might look like.

Created by GM’s Pan Asia Technical Automotive Center the Chevrolet-FNR is an autonomous electric concept vehicle that boasts a futuristic capsule design. It has crystal laser headlights and taillights, dragonfly dual swing doors.

The Chevrolet-FNR features an extremely aero design focused on low drag powered by AWD magnetic hubless electric wheel motors along with autonomous wireless charging. A laundry list of imaginary specification like range and power output has been provided.

The Chevrolet-FNR is loaded with a range of sensors like roof-mounted radar that can map out the environment to enable driverless operation, Chevy Intelligent Assistant and iris recognition start. The Chevrolet-FNR can also serve as a “personal assistant” to map out the best route to the driver’s preferred destination.

In self-driving mode, the vehicle's front seats can swivel 180 degrees to face the rear seats, creating a more intimate setting. The driver can switch to manual mode through the gesture control feature.

GM will build Chevy Bolt in Michigan in late 2016

General Motors Co plans to begin building its new Chevrolet Bolt electric car in October 2016 at an underused small-car plant north of Detroit, two supplier sources said.

Despite the hype surrounding the car's unveiling last month at the Detroit auto show, the sources said, GM's production target for the Bolt is relatively modest, at about 25,000-30,000 cars a year.

Last year, GM sold 18,800 Chevrolet Volt hybrid electric cars. The Volt, priced from around $35,000, uses a small gasoline engine to increase range.

GM has said the Bolt's target price was $30,000. A GM source familiar with Chevrolet's plans said the price would actually be "in the mid-$30,000s" but federal and state incentives to purchase "green cars" would reduce the consumer's final cost to $30,000.

The Bolt is expected to go on sale in early 2017 and will have a range between charges of more than 200 miles.

The Bolt will compete with Tesla Motors Inc's similarly priced Model 3, planned to debut in calendar 2017, as well as the Nissan Leaf, which sold just over 30,000 last year.

The supplier sources said the Bolt and a companion model for GM's Opel subsidiary in Europe will be assembled at GM's plant in Orion Township. The GM source said the company has not yet reached a final decision on whether the Opel model will be assembled in Orion Township.

The factory now makes the Chevrolet Sonic and Buick Verano and has been operating at well below capacity as small-car sales have suffered from falling gasoline prices.

The Bolt is being developed on GM's Gamma global small-car platform, according to the supplier sources. The same basic set of components will provide the base for the next-generation Sonic, also due in late 2016, they said.

The GM source asked not to be named and an official company spokesman declined to comment.

GM developing a high-performance electric AWD system for next-gen Cadillacs

According to Edmunds, General Motors is developing a high performance electric all-wheel drive system for next-gen V-Series Cadillac models and maybe their crossovers. This system could make its way into other GM Alpha-platform-based vehicles such as the Cadillac ATS and Chevrolet Camaro, and possibly a Corvette derivative.

All-wheel drive has become a must-have for high-performance luxury car buyers, and Audi, BMW, Mercedes-Benz and Porsche are ahead of the game with their AWD-equipped vehicles. Cadillac, however, lags behind this trend, having just introduced the 455-horsepower ATS-V and 640-hp CTS-V, both rear-wheel-drive sedans. Cadillac is also lagging in its offering of electrified fuel-efficient models.

An electric all-wheel-drive system, known in the industry by the acronym e-AWD, can potentially boost fuel economy in many future vehicles and help expand their plug-in hybrid offerings, however, the system GM desires is many years in the future.

Joe Slenvak, director of powertrain electrification for North America at Robert Bosch, told Edmunds that adding electric all-wheel drive to the front wheels of a rear-drive car has challenges.

"When you put the electric axle drive in the front, you have a lot of crossmembers and things that are in the cradle that you have to work around. It would be a little bit hard to do (but) I think you could do it," Slenvak said.

Sounds like an application perfectly suited to in-wheel motors.

Slenvak said a vehicle could be retrofitted to add that system. He would not say if Bosch is developing an electric all-wheel-drive system for GM's rear-drive cars.

Source: Edmunds

Chevrolet unveils Bolt EV Concept; 320 km range for $30,000

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:

  • Allow a smartphone to perform as the key fob
  • Allow ride-sharing management, including reservations, vehicle location, digital key and even payment processing via the smartphone
  • Incorporate the concept automatic park-and-retrieval technology, which enables the driver to exit the vehicle and tell the Bolt EV concept to park itself – and when errands are completed, the Bolt EV concept can be summoned to return to the owner’s location.

    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.

  • Chevrolet Introduces All-New 2016 Volt

    Chevrolet today unveiled the all-new 2016 Volt electric car with extended range, showcasing a sleeker, sportier design that offers 50 miles of EV range, greater efficiency and stronger acceleration.

    The Volt’s new, efficient propulsion system will offer a General Motors’-estimated total driving range of more than 400 miles and with regular charging, owners are expected to travel more than 1,000 miles on average between gas fill-ups.

    “The 2016 Chevrolet Volt provides our owners with a no-compromise electric driving experience,” said Alan Batey, president of GM North America. “We believe our engineering prowess combined with data from thousands of customers allows us to deliver the most capable plug-in vehicle in the industry.”

    The 2016 Chevrolet Volt’s technology and range advancements are complemented by a design that blends sculpted, muscular proportions with aerodynamic efficiency, and an all-new interior with seating for five and improved functionality.

    Everything from charging the battery and checking the charge status, to the intuitiveness of instrument panel controls were designed for easier use.

    “According to independent surveyors, Volt owners are the most satisfied in the industry and they were our compass for developing the next-generation model,” said Batey.

    New Voltec propulsion system

    An all-new, second-generation Voltec extended range electric vehicle (EREV) propulsion system is the power behind the 2016 Volt’s increased all-electric driving range, greater efficiency and stronger acceleration. It was engineered based on the driving behaviors of first-gen Volt owners.

    “Volt owners complete more than 80 percent of their trips without using a drop of gasoline and they tell us they love the electric driving experience. Putting that experience at the center of the new Voltec system’s development helped us improve range, while also making the new Volt more fun to drive,” said Andrew Farah, vehicle chief engineer. “We established a precedent when the original Voltec propulsion system debuted and this newest iteration sets the EV technology bar even higher.”

    The Voltec system includes the battery, drive unit, range-extending engine and power electronics.

    GM’s industry-leading battery technology has been reengineered for the next-generation Volt. The 2016 Volt will use an 18.4 kWh battery system featuring revised cell chemistry developed in conjunction with LG Chem. While overall system storage capacity has increased, the number of cells have decreased from 288 to 192 as the result of a revised chemistry. The cells are positioned lower in the pack for an improved (lower) center of gravity and the overall mass of the pack is 21 pounds (9.8 kg) lighter.

    Like the battery system, the next-generation Volt’s two-motor drive unit delivers increased efficiency and performance along with reduced noise and vibration. The drive unit operates up to 12 percent more efficiently and weighs 100 pounds (45 kg) less than the current system.

    Both motors operate together in more driving scenarios, in both EV and extended-range operation. The ability to use both motors helps deliver a 19 percent improvement in electric acceleration from zero to 30 mph (2.6 seconds) and a 7 percent improvement from zero to 60 mph (8.4 seconds). GM engineers designed the Voltec electric motors to use significantly less rare earth materials. One motor uses no rare earth-type magnets.

    The 2016 Volt goes on sale in the second half of 2015.

    Source: GM

    GM to Study Vehicle Sharing with Shanghai Jiao Tong University

    General Motors China has signed a memorandum of understanding with Shanghai Jiao Tong University to collaborate on a vehicle sharing program featuring the Chevrolet EN-V 2.0 starting next year.

    A fleet of EN-V 2.0 vehicles will be integrated with a multi-modal transportation system alongside bicycles, cars and shuttle buses at the university’s Minhang campus in Shanghai to evaluate the benefits and challenges of a vehicle sharing transportation model.

    “The vehicle sharing program with Shanghai Jiao Tong University will allow us to assess the real-world application of the EN-V 2.0 as part of a vehicle sharing system,” said Matt Tsien, GM executive vice president and president of GM China. “We will apply these learnings to the development of future urban mobility transportation solutions, not just for China but for the world.”

    "Electric vehicles represent the transportation mode of the future, but the big topic now is how to develop them," according to Yin Chengliang, vice president of the Shanghai Jiao Tong University Automotive Engineering School. "This project will explore a model that integrates electric vehicles with the transportation network and intelligent transportation system."

    The Chevrolet EN-V 2.0 is the next generation of GM’s original Electric Networked-Vehicle (EN-V), which made its global debut at Expo 2010 in Shanghai. It can travel up to 40 kilometers on a single charge.

    The Shanghai Jiao Tong University collaboration is a continuation of GM’s vision for sustainable urban mobility announced at Expo 2010. Shanghai Jiao Tong University is a comprehensive research-oriented university and one of China’s leading educational institutions. GM and Shanghai Jiao Tong University have collaborated on many automotive, training and development projects over the past two decades.

    Next-Generation Chevrolet Volt Features All-New Voltec Powertrain

    When the next-generation Chevrolet Volt debuts at the North American International Auto Show in January, it will feature an all-new Voltec extended range electric vehicle (EREV) propulsion system substantially developed from Volt owners including data collected on their driving behaviors.

    The Voltec system includes the battery, drive unit, range-extending engine and power electronics. The new system will be more efficient and offer greater EV range and fuel economy compared to the current generation.

    "Our Volt owners truly love the EV driving experience, with more than 80 percent of all trips being completed without using any gasoline. We've used their real-world experiences to define the next generation Chevrolet Volt," said Alan Batey, head of global Chevrolet. "By putting our Volt owners at the center of what we do and leveraging our electrification engineering leadership, we've been able to raise the bar and will exceed their expectations with the new Volt."

    Enhanced Battery System Capability

    General Motors' industry-leading battery technology has been improved for the next-generation Volt. Revised cell chemistry, developed in conjunction with LG Chem, increases storage capacity by 20 percent on a volume basis when compared to the original cell, while the number of cells decreases from 288 to 192. The cells are positioned lower in the pack for improved (lower) center of gravity and the overall mass of the pack has decreased by almost 30 pounds (13 kg).

    Approximately 20 million battery cells have been produced for the more than 69,000 Chevrolet Volts on the road today with industry-leading quality levels of less than two problems per million cells produced.

    The battery system continues to use the Volt's industry-leading active thermal control system that maintains electric range over the Volt's life.

    "The current generation Volt's battery has proven to provide our owners exceptional performance when it comes to quality and reliability," said Larry Nitz, executive director of GM Powertrain's electrification engineering team.

    Based on a GM study of more than 300 model year 2011 and 2012 Volts in service in California for more than 30 months, many owners are exceeding the EPA-rated label of 35 miles of EV range per full charge, with about 15 percent surpassing 40 miles of range. Current generation Volt owners have accumulated more than 600 million EV miles.

    "It would have been simple for us to tweak our existing battery to provide nominally increased range, but that's not what our customers want," said Nitz. "So our team created a new battery system that will exceed the performance expectations of most of our owners."

    EV range estimates will be revealed in January at the North American International Auto Show in Detroit.

    GM will manufacture the Volt battery pack at its battery assembly plant in Brownstown, Mich.

    Drive Unit Focused On Improved Efficiency

    Like the battery system, the next-generation Volt's drive unit was reengineered with a focus on increased efficiency and performance, improved packaging and reduced noise and vibration characteristics. The two-motor drive unit operates approximately 5 to 12 percent more efficiently and weighs 100 pounds (45 kg) less than the current system.

    The Traction Power Inverter Module, which manages power flow between the battery and the electric drive motors, has been directly built into the drive unit to reduce mass, size and build complexity while further improving efficiency.

    The boost in performance comes from both motors operating together in more driving scenarios, in both EV and extended-range operation. The ability to use both motors helps deliver more than 20 percent improvement in electric acceleration. GM engineers designed the Voltec electric motors to use significantly less rare earth materials. One motor uses no rare earth-type magnets at all.

    The new drive unit will be manufactured at GM's Powertrain plant in Warren, Mich.

    New 1.5L Range Extender

    Energy for extended-range operation comes from an all-new, high-efficiency 1.5L 4-cylinder engine. The engine features a direct injection fuel system, high-compression ratio of 12.5:1, cooled exhaust gas recirculation and a variable displacement oil pump. The Voltec range extender runs on regular unleaded fuel.

    "Using the 1.5L engine as the range extender assures owners they can go anywhere, anytime without having to worry about whether they have enough power to go through the Rocky Mountains or on a spontaneous weekend getaway," Nitz said. "It's all about keeping the promise that the Volt is a no-compromise electric vehicle."

    The 1.5L engine will be manufactured at GM's Toluca, Mexico engine plant for the first year of production, then shift to the Flint, Mich. engine plant.

    Camouflaged 2016 Chevy Volt shots released by GM

    The styling of the next-generation Chevrolet Volt is one of the automotive world’s best-kept secrets. Keeping customers and media eager to see the successor to the groundbreaking original at bay until the new Volt debuts at the North American International Auto Show in Detroit in January is tricky business.

    First, it is engineers, not designers, who are charged with creating camouflage that balances styling secrecy with the need to validate the Volt and its systems in public.

    “If it were up to me it would be a shoebox driving down the road,” said Lionel Perkins, GM camouflage engineer. “The design team wants us to cover more of the vehicle and the engineering team needs to have enough of the vehicle’s weight and aero exposed so that the tests in the development process are consistent with the product that will come to market.”

    The engineers responsible for the “cool” designs covering the car might deserve style points but their efforts are intended strictly to hide the metal beneath.

    The camouflage package on the next-generation Volt was started six months in advance of early development. Every vehicle is different and tricks are constantly updated to keep spy photographers and the curious guessing.

    “Each car is unique. We are like a dress maker, and the car is our model,” said Perkins. “No two models are the same. We need to make the right dress that fits the body we are dealing with.”

    Next Generation Volt to debut at 2015 @ Detroit Auto Show

    The next generation Chevrolet Volt will debut at the 2015 North American International Auto Show in Detroit, Global Chevrolet Chief Marketing Officer Tim Mahoney said today.

    The 2016 Volt will build on the award-winning original's strong foundation of technology innovation. Volt sales were up 13 percent in July and more than 65,000 have been sold since it was introduced – making it the best-selling plug-in passenger car in the U.S. market.

    "Volt is the perfect example of the ingenuity that drives everything we do at Chevrolet," Mahoney said at the Center for Automotive Research Management Briefings. "Volt fully delivers on the promises of Find New Roads and will continue to provide consumers with the transportation solutions they need and deserve in the future."

    Volt owners are driving more than 63 percent of their overall miles in electric vehicle mode, collectively logging more than 500 million gas-free miles since the Volt's retail debut in 2010. That has saved more than 25 million gallons of gasoline.

    While the driving range in EV mode can be affected by temperature, driving technique and terrain, the ease with which Volt drivers are avoiding gasoline use demonstrates the Volt's suitability for almost any lifestyle.

    Volt owners who charge regularly typically drive more than 970 miles between fill-ups and visit the gas station less than once a month.

    The Volt has received multiple customer satisfaction awards from leading third-parties. According to a recent leading independent satisfaction survey, the Volt is the highest-rated compact car under $55,000. Owners are showing their satisfaction as well. For the past three years, a leading customer publication has reported survey results showing more than 90 percent of Volt owners said they would definitely buy a Volt again.

    The Volt continues to draw buyers from non-General Motors' products. In the 2013 calendar year, nearly seven of 10 new Volt buyers traded in a non-GM vehicle, the majority of which were Toyota Priuses.

    Among its accolades, the 2014 Volt has been recognized for its safety, most recently receiving the Insurance Institute for Highway Safety 2014 Top Safety Pick+ designation for vehicles equipped with an available Forward Collision Alert system.