Monday, October 31, 2016

Henrik Fisker’s Next Electric Car Will Have Almost Twice the Range of a Tesla Model 3

Car designer Henrik Fisker says the first car to come out of his newly launched company Fisker Inc. will be a luxury electric sedan that will be able to travel 400 miles on a single charge, reach a top speed of 161 miles per hour, and be equipped with hardware that will allow fully autonomous driving.

The new company did not offer any specifics about what self-driving hardware it will use or if it's even started testing it on a prototype. In its Monday announcement, the company did say the fully autonomous driving capability would not be available until it meets regulatory approval. The company says it will announce its self-driving car technology supplier "soon" without providing further details.

The new car, called the Fisker EMotion, will be shown sometime in mid-2017, Fisker said in an announcement today. The car will be produced in an existing facility in the U.S., Fisker said without providing more details.

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If Fisker is successful the car would surpass the electric range capabilities of every electric vehicle on or about to hit the market. General Motor's new Chevy Bolt electric vehicle, which is going into production this quarter, has a 238-mile range. Tesla will begin production of its $35,000 Model 3 electric car next year. The Model 3 will have at least a 215-mile range.

Essentially doubling GM and Tesla's battery range numbers is a high bar for any car company, let alone a startup that has yet to produce any cars. Of course, just because the car will be unveil sometime next year doesn't mean it will be produced anytime soon.

Fisker is the original founder of the now defunct Fisker Automotive, the buzzy electric car company that famously imploded after raising a staggering $1.2 billion from public and private funds. Fisker resigned as executive chairman in March 2013. The following year Wanxiang Group, China's largest automotive parts company, snapped up Fisker's assets for $149.2 million in a bankruptcy auction.

Wanxiang and its subsidiary named Karma Automotive is now producing a reincarnation of the original Fisker Karma car. Wanxiang's $130,000 car was unveiled in September.

Tesla's Third Quarter Deliveries Rise 70%

The new Fisker Inc. was short on many of the important details that would help discern whether the company will be able to pull this off. However, there was some information about the car's design and its battery.

The new car will have a composite, carbon fiber, and aluminum structure with large curved front windshield that will be pushed forward to lower its height and make it more aerodynamic. The rear of the car will have an integrated spoiler.

The electric powertrain will use battery packs produced by a joint venture between Fisker Inc. and Nanotech Energy Inc. The layout of the powertrain has allowed designers to increase the interior space, according to Fisker.


Source: Henrik Fisker's Next Electric Car Will Have Almost Twice the Range of a Tesla Model 3

Sunday, October 30, 2016

GOING ALL-ELECTRIC | Toyota charges up its battery options

Toyota Prius. Reuters file photo Toyota Prius. Reuters file photo

TOYOTA CITY, Japan — Engineers at Toyota Motor Corp say they have tamed volatile lithium-ion battery technology, and can now safely pack more power at no significant extra cost, giving the Japanese automaker the option to enter the growing all-electric car market.

While rivals including Tesla Motors and Nissan Motor Co began adopting lithium-ion battery technology nearly a decade ago, Toyota has largely held back due to concerns over cost, size and safety.

Lithium-ion batteries can be unstable and have been blamed for incendiary Samsung smartphones and smoking Dreamliner airplanes.

Having Toyota endorse lithium-ion will be a fillip for the developing technology, and gives the automaker the option to produce for an all-electric passenger car market which it has avoided, preferring to put its heft behind hydrogen fuel-cell vehicles (FCVs).

Toyota says its Prius Prime, a soon-to-be-launched plug-in electric version of the world's top-selling gasoline hybrid, will use lithium-ion batteries, with enough energy to make the car go around 60 kms (37.3 miles) when fully charged before the gasoline engine kicks in. Because of different methodology in measuring a car's electric mode range, the Prime's 60 km range will be listed in the United States as around 25 miles (40.2 kms).

"Safety, safety, safety"

Many lithium-ion car batteries use a chemical combination of nickel, cobalt and manganese. These store more energy, take a shorter time to charge, and are considered safer than other Li-ion technologies.

But they can still overheat and catch fire if not properly designed, manufactured and controlled.

"It's a tall order to develop a lithium-ion car battery which can perform reliably and safely for 10 years, or over hundreds of thousands of kilometers," said Koji Toyoshima, the chief engineer for the Prius.

"We have double braced and triple braced our battery pack to make sure they're fail-safe … It's all about safety, safety, safety," he told Reuters.

Toyota has mainly used the more mature nickel-metal hydride batteries to power the motor in the conventional Prius, widely regarded as the forefather of the 'green' car, though it did use some lithium-ion batteries from 2009 in its first plug-in hybrid Prius, around the time the first all-electric cars powered by lithium-ion batteries – such as the Tesla Roadster and Nissan Leaf – came on to the mass market.

Toyota's confidence in its battery's safety and stability comes from improved control technology that precisely monitors the temperature and condition of each of the 95 cells in its new battery pack.

"Our control system can identify even slight signs of a potential short-circuit in individual cells, and will either prevent it from spreading or shut down the entire battery," said Hiroaki Takeuchi, a senior Toyota engineer involved in the development.

Working with battery supplier Panasonic Corp – which also produces Li-ion batteries for Tesla – Toyota has also improved the precision in battery cell assembly, ensuring battery chemistry is free of impurities.

The introduction of even microscopic metal particles or other impurities can trigger a short-circuit, overheating and potential explosion.

"The environment where our lithium-ion batteries are produced is not quite like the clean rooms where semiconductors are made, but very close," Takeuchi said.

Battery experts say increasingly sophisticated systems that can track individual cell conditions are becoming closely-held trade secrets.

"State of charge management, safety management and algorithm development is becoming one of the higher tiers of proprietary internal development," said Eric Rask, principal research engineer at Argonne National Laboratory, a U.S. Department of Energy facility outside Chicago.

"It's very internal, very strategic, and companies are seeing management algorithms as a competitive advantage."

Falling prices

Toyota has also been able to shrink the size of each cell, for example, closing the distance between the anode and cathode, where active ions travel when charging and discharging.

This has doubled battery capacity to around 8.8 kilowatt hours, while only increasing the battery pack size by around two-thirds and its weight by a half.

Battery experts say lithium-ion battery cell prices have fallen by about 60 percent in five years to around $145 (119.00 pounds) per kilowatt hour as larger-scale production has made them cheaper to make.

Falling battery prices have enabled Toyota to develop its more compact, efficient battery, while also adding more sophisticated controls into its battery pack, Toyoshima said. Toyota declined to say more on its costs.

While Toyota sees FCVs as the ultimate 'green' car, the United States and China are encouraging automakers to make more all-electric battery cars as they push alternative energy strategies.

"Developing lithium-ion batteries for both hybrids and plug-ins will enable us to also produce all-electric cars in the future," said Toyoshima said. "It makes sense to have a range of batteries to suit different powertrains."


Source: GOING ALL-ELECTRIC | Toyota charges up its battery options

Saturday, October 29, 2016

Getting the green light on electric cars

in a jam: Traffic grinds to a halt on Phahon Yothin Road during the evening rush hour. Chronic traffic jams across Bangkok are one of the reasons drivers have been reluctant to adopt electric cars. (Photo by Patipat Janthong)

As of Sept 30, Thailand had 52 electric sedans on the road. There are roughly 1.3 million electric cars on the roads worldwide, but with fears batteries will flatten in traffic or flooding will lead to lasting damage, Thai drivers have been slow on the uptake.

This could be about to change. The government has launched a plan to boost the number of electric vehicles to 1.2 million in the next two decades, with a focus on industrial adoption and the first charging stations to start rolling out by the end of this year.

It's considered an ambitious target even though the industry is expanding rapidly. The worldwide number of electric vehicles has doubled since 2014, and in 2005 they were still measured in the hundreds.

This year could be remembered as a turning point, as new models made big impressions through the media.

Tesla's Model 3 -- which can travel for 344km on a single charge and sprint from 0-100kph in less than six seconds -- was launched in the US as a high volume car that comes at an affordable price, starting from about 1.3 million baht. The company last week reported its first quarterly profit in three years.

Mercedes-Benz Thailand released a nine-minute short film named Loopbreaker starring Thai-British actress Araya A Hargate and directed by well-known Thai filmmaker Pen-Ek Ratanaruang. It glamorously depicts a woman breaking through the humdrum of the day after driving Mercedes-Benz's GLE 500e plug-in hybrid electric car.

The switch to electric comes at a critical time for the environment, with the Mauna Loa Observatory in Hawaii recording atmospheric carbon dioxide at more than 400 parts per million last month -- typically the time of year when the level is at its lowest -- and scientists fearing it may not fall below that mark again.

The safe level is 350ppm, according to a study led by Johan Rockstrom from the Stockholm Resilience Centre and Will Steffen from the Australian National University. The number is based on planetary boundaries, and is another bad sign for the climate that has spurred moves to shift the worldwide economy away from fossil fuel. The rise of EVs is part of the solution.

As one of the world's major automotive producers, Thailand also needs to make a move. Increasing the proportion of EV units on the roads, and being part of the supply chain on the manufacturing side, are on the government's to-do list. But the greatest challenge could be changing the mindset of Thai consumers and the automotive industry. EVs must first win their hearts.

PLUGGED IN POLICY

There are four types of EV. Hybrid electric vehicles (HEV) and plug-in hybrid electric vehicles (PHEV) were first developed with two systems, electricity/petrol and electricity/diesel. Battery electric vehicles (BEV) were developed later, which are fuelled purely by electricity. Fuel-cell electric vehicles (FCV) represent the latest technology.

Man people electric car vehicle traffic eco friendly mobility transportation photo: 123rf

"State policy determines whether [the prevalence of EV units and manufacturers] will happen or not," said Thawarat Sutabutr, director of the Ministry of Energy's Energy Policy and Planning Office. "We can't resist that EV technology is coming. The Thai automotive industry will need to adapt and come up with new innovations so it can have a position on the world stage."

The government's strategy to increase the number of and investment in EVs is divided into four parts.

Phase one covers this year and next, and aims to open the market and drive consumer interest in EV. Measures include the introduction of 20 electric public buses in Bangkok by the end of next month, rising to 200 next year.

A quota of 5,000 imported EVs will receive a tax exemption, which will likely help keep the price down. Kasikorn Research Centre estimates that the tax exemption will make the BEV price (not include marketing cost) 15-85% higher than fuel cars; without the measure they would be 65-260% more expensive.

By the end of next year, the government plans to have 100 charging stations located across Thailand.

Phase two, covering 2018 to 2020, focuses on advancing research on efficient battery usage and increasing the number of EV units. Measures include introducing incentives to encourage the private sector to invest in EV plants.

Phase three, from 2021 to 2035, involves the government's promotion of electric cars and the improvement of the electricity grid.

From 2036 onwards, the final phase sees 1.2 million registered units of hybrid and electric battery sedans, a projection making up less than 10% of vehicles on the road. The number of charging stations would total 690.

On the infrastructure side, state-owned gas and fuel company PTT Plc and six carmakers have already agreed to develop EV charging stations and promote EV usage.

PTT has four EV charging stations in Bangkok and its outskirts.

The company plans to add value to its core businesses through biochemical and engineering polymer ventures as well as EV batteries.

The Ministry of Energy is also funding research into battery technology, with the aim of reducing the cost of EVs. For now, more than half the price of an electric car is the battery.

Mr Thawarat said state policy will drive market competition by increasing the number of EV manufacturers. The development of more effective batteries will in turn decrease EV prices and encourage Thai consumers to buy electric cars.

EV production is one of 10 industries the government is targeting for economic growth.

Mr Thawarat said this is why the private sector has turned its attention to supporting the growth of EV production.

The Thai automotive industry is expected to become a major hub for electric cars, serving a rising global and national demand.

FOR THE ENVIRONMENT

The Paris climate agreement aims to keep the global average temperature well below 2C above pre-industrial levels. With reports from the Intergovernment Panel on Climate Change stating that the transport sector generated about 23% of total energy-related carbon emissions in 2010, the government says there is a strong incentive to support EV manufacturing.

Not so fast: TV host Pattanadesh Asasappakij isn't sure how quickly EVs will take off. PHOTO: SUPPLIED

In addition, promoting EVs overlaps with the state policy of reducing energy use by 30% in 2036.

The Organisation Internationale des Constructeurs d'Automobiles ranked Thailand as the world's 12th largest automotive producer. More than 1.9 million vehicle units were produced last year, after peak production of 2.4 million in 2013.

Thailand is a production base for over 60 of the world's car parts producers, with more than 2,400 manufacturers in the production chain. Over 80% of auto parts in fossil-fuel cars and 40% in BEVs are produced in the country.

The strong production base has led government policymakers to assert that shifting from petrol-powered vehicles will be easy.

However, some critics have taken issue with this approach. The government needs to "slow down", said Thanawat Koomsin, president of the Thai Automotive Industry Association.

"The industrial sector is not against EV technology. However, [EV growth] must take place gradually. We don't want to force the industry to make a quick turn."

Mr Thanawat said he does not have a specific transition time frame in mind, but that 20 years is definitely not long enough for a variety of reasons.

The automotive industry is shaped by consumer demand. If consumers aren't ready to buy new products, the industry cannot start manufacturing them. Promoting EVs without incentives for the consumers could lead to the collapse of the industrial sector, Mr Thanawat said.

"EVs aren't popular yet because they are not the right choice for Thai consumers at this time," said Mr Thanawat. "New technology will eventually overtake old technology by itself, without the support of state policy."

The increased number of female drivers is an example of a trend taking shape naturally over time, he said. This prompted the industry to employ more female car designers.

Cars are now being manufactured to appeal specifically to women by using certain materials and colours, and installing additional special functions.

According to the Department of Land Transport, 1,502 EV units are now registered in Thailand -- 64 buses and trucks, and 1,438 personal vehicles. The latter includes 1,372 motorcycles, 52 sedans, eight vans or pickups, three microbuses, two tuk-tuks and one three-wheeled motorcycle.

Nearly half of all EV units and 49 of the sedan units are registered in Bangkok.

HIGH VOLTAGE FOR THE HIGH END

"The first group to try EVs will be a premium group -- technophiles, Ferrari buyers and high-end customers. It won't be the first car to belong to any household," said Pattanadesh Asasappakij, a car guru and TV show host.

"There's no doubt that EV technology is on the rise. But whether or not it will be popular in Thailand remains uncertain."

Pattanadesh drives a Porsche Cayenne plug-in hybrid but uses an Isuzu when travelling outside of Bangkok. He said EVs are not yet adequate for such trips.

He sees consumer behaviour as the most important factor in shaping the future of EVs in Thailand.

One factor which makes Thai consumers unusual is how they see cars as financial assets and aesthetic objects. This differs from places like Europe and Japan where cars are bought primarily for their technical specifications and usefulness while travelling.

Thais further tend to consider the resale price of their car in the second-hand market, and selling a "used" electric car isn't seen as profitable.

Bangkok's traffic jams also influence interest. Drivers often struggle to estimate how long it takes to travel from one place to another. For example, a 30-minute drive can easily turn into a two-hour drive in bad traffic.

Flash floods can also reach knee-height in Bangkok during the wet season. This uncertainty makes drivers, especially in Bangkok, hesitant about investing in battery-powered EVs, Pattanadesh said.

Still, he believes the popularity of electric cars will grow in Thailand, but only in the long term. Large companies like Toyota, Isuzu and Honda -- each with a major share of the Thai market -- are yet to heavily promote their electric models.

"They [the government] have the wrong approach in using a top-down strategy. Promoting EVs must start from the bottom up," Pattanadesh said, offering the example of providing financial incentives or tax deductions.

In August, Kasikorn Research Centre released a study called "BEV Tech Spawns New Vehicle Segment for High-End Customers", stating Thailand's BEV market would face many obstacles in appealing to consumers. Among those listed were the high prices of the vehicles, limitations in technology performance, limited and costly equipment maintenance, an insufficient number of charging stations and low resale values.

Despite this, the study offers the optimistic outlook that car companies will respond to state policy, especially those which have already produced BEVs for foreign markets from a production base in Thailand.

High-end American and European car brands, such as Mercedes-Benz and BMW, have begun to import BEVs into Thailand's luxury market.

Companies which own major shares in fuel vehicle markets, such as Toyota and Honda, might import BEVs. However, these aren't marketed to the same extent as their other more competitive vehicles.

BEV manufacturers with smaller market shares, including those from China and South Korea, can take the opportunity to build a Thai consumer base in the high- to medium-end markets, selling vehicles at a relatively affordable price.

As electric vehicles gain a greater share of the global market, the study suggests that Thailand needs to adapt to enhance its competitive edge while also maintaining its status as a major manufacturing base.

Five years will be needed to prepare investment promotion plans, adjust the technology and parts supply chain, update infrastructure, shape personnel skills and create maintenance centres to accommodate future EV demand.

THE RIGHT CONDITIONS

The success of EVs will depend on more than the availability of the vehicles themselves.

Somporn Chui-Aree, an academic at Prince of Songkla University, said driving EV interest demands a holistic approach. This includes everything from road maintenance and traffic reduction to making electricity consumption more sustainable by increasing solar power.

The KRC study estimates that every 10,000 EV units will increase 15,000 megawatts of electricity consumption per year, equal to 0.01% of national electricity use in 2016.

The new Power Development Plan covers electricity consumed by 1.2 million units.

However, Mr Somporn suggests the capacity of variable renewable energy sources, especially solar power from unpolluted sunlight, must be improved to serve the long-term growth of the EV market.

The International Energy Agency's "Global EV Outlook 2016" report said the Paris Declaration on Electro-Mobility and Climate Change and Call to Action sets a global target of having 100 million electric cars and 400 million electric two- and three-wheelers by 2030.

The paper projects an energy system consistent with the emissions trajectory, offering a 50% chance of limiting the average global temperature increase to 2C. It also outlines an even more ambitious deployment pathway for 150 million electric cars by 2030.

"The ambitious greenhouse gas emissions reduction required to limit global warming to less than 2C is unlikely to be achieved without a major contribution from the transport sector," the paper said.

Mr Somporn said, "Technology develops quickly. As a major car producer, Thailand can't avoid this [EV] trend."

A big obstacle facing the government is making EVs more accessible to regular Thai consumers.

They must also create a physical environment conducive to EV growth, including the improvement of urban infrastructure to reduce travel distances.

Education must be developed to create supportive human resources and change consumer behaviour.

"We don't let obstacles block our imagination," said Mr Somporn. "We must keep looking for solutions on how to fix them."

Along for the ride: PM Prayut Chan-o-cha tries out an electric motorcycle at Government House during an EV exhibition. PHOTO: Thanarak Khunton

Charged up: An electric car is charged at a PTT Plc charging station, one of four in Bangkok and its outskirts. The company has joined forces with six carmakers to promote EV development. PHOTO: REUTERS

Take your pick: The electric vehicles exhibition at Government House showcases the latest EV innovations. EVs are being promoted as the eco-friendly alternative the car industry needs. PHOTO: Thanarak Khunton

Steering change: A demonstration of an electric public bus, an alternative to the NGV fuel bus. PHOTO: Wichan Charoenkiatpakul

Press go: A test run of the Japanese-made electric bus prototype. PHOTO: Chanat Katanyu

Manufacturing hub: An assembly line at Honda's new car factory in Prachin Buri, which can build up to 120,000 vehicles a year. Despite a weak first quarter, Honda expects sales to pick up this year. photo: Pattanapong Hirunard

Get smart: A Smart ForTwo Electric Drive is displayed at a Paris car show. photo: reuters


Source: Getting the green light on electric cars

Friday, October 28, 2016

First Official Look At Faraday Future’s Prototype Electric Car – Video

First Official Look At Faraday Future's Prototype Electric Car - Video

15 hours ago by Eric Loveday

Faraday Future Electric Car

Faraday Future Electric Car

It's just a brief glimpse, but this is the first official look we get at Faraday Future's prototype electric car.

Faraday Future states:

"Electric performance; a first look at our prototype in action. Things are moving fast."

From the video, it appears as though Faraday's upcoming electric car based upon this prototype will be a large-sized hatchback / CUV. If true, this is a relatively untouched segment for plug-ins and Faraday could grab hold of most of the segment.

Here's what else we know of Faraday Future's upcoming electric car:

Faraday Future Electric Car

Faraday Future Electric Car

Tags: faraday, Faraday Future, featured, ff

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Source: First Official Look At Faraday Future's Prototype Electric Car – Video

Thursday, October 27, 2016

Mahindra e20 Plus revealed, new five-door electric city car

The Indian Mahindra e20 Plus has been fully revealed following a teaser earlier this month, showcasing an eco-friendly electric powertrain and quirky styling.

mahindra-e2o-plus

The design is far more practical than the regular three-door e20, based on the old Reva electric car that Mahindra acquired rights to. There is a tidier rear end with a BMW i3-inspired window treatment. The front-end treatment is more in line with the rest of Mahindra's range.

Although these cars are not capable of freeway speeds, they are part of a push into the European market, particularly at crowded metro areas with legislation that is hostile to internal combustion cars.

The e20 Plus features a Blaupunkt touch-screen infotainment system, reversing camera and a digital instrument display.

mahindra-e20-plus-interior

Ranging from 5.46lakh rupees (about AU$10,724) to 8.46lakh ($16,616), there are two powertrain options with either a 19kW or 30kW electric motor. Top speed is 80 and 85km/h respectively while 0-60km/h ranges between 14.1 seconds to 9.5 seconds. Fast-charging is available, where the entire battery can be recharged in as little as 90 minutes, with conventional outlet time at six hours.

Mahindra also makes an electric sedan and a small electric van called the e-Supro, which was launched at the same time as the regular e20. It has 25kW of power and 90Nm of torque for a 60km/h top speed, with a range of up to 115km.

A small crossover codenamed 'S107' is planned before the end of the decade, promising highway capability and far superior range.

  • mahindra-e2o-plus

    mahindra-e2o-plus

  • mahindra-e20-plus

    mahindra-e20-plus

  • mahindra-e20-plus-top

    mahindra-e20-plus-top

  • mahindra-e20-plus-rear

    mahindra-e20-plus-rear

  • mahindra-e20-plus-interior

    mahindra-e20-plus-interior


  • Source: Mahindra e20 Plus revealed, new five-door electric city car

    Wednesday, October 26, 2016

    Electric car range winners and losers

    It is now historical fact that 100 miles/ 160km range was only attractive to a minority of car buyers because they could not buy and park a second car for the long range that almost all of them needed sometimes. The BMW i3 partly bridged the gap by offering a get-you-home range extender. Now all serious mainstream pure electric car manufacturers are offering at least 200 miles/ 320km range by the rather primitive approach of stuffing in twice the amount of battery and taking heavier trading losses as they gamble on battery prices tumbling. The subcompact C Category car with over 30kWh of battery is becoming the norm.

    Certainly battery costs are dropping steadily thanks to redesign, such as silicon anodes with higher capacity cathodes and the building of gigafactories. It is even possible that small cars will become cheaper in pure electric form than equivalent internal combustion vehicles within five years just as that is already true for golf cars today.

    However, there could be a temporary shortage of safe, large lithium-ion batteries with acceptable performance as they appear in buses, ships and much else besides and the car demand is by no means uniform in nature. It spans from those that will buy very cheap Chinese city cars with short range to the heavy duty autonomous city taxi cars being designed. We therefore see a place for many approaches and even a niche for a modernised form of the old battery trailer approach as now proposed by EP Tender in France using a petrol generator or, when viable, a fuel cell or post-lithium battery. It would give 500km extra range and be rented on demand. It has a top storage box and will not knifejack. However, it will not obtain more than a small niche in the market in our opinion. As many will lack the parking space, it should perhaps be delivered on demand and that has a cost. It could be a useful adjunct to the autonomous unmanned taxis likely to dominate cities as private cars, autonomou s or not, are increasingly banned or discouraged. Other valuable niche approaches of various sizes include gas turbine jet engines (MACK, a Chinese car etc), rotary combustion engines (Diamond Aircraft etc) and on-board fuel cells (Toyota, Honda, Hyundai, Nicola etc - though most are heavily backing other options too). Mainstream range extension is currently two and three cylinders four stroke internal combustion engines - nothing cleverer - and pure electric cars are coming in fast.

    The Proposed Service

  • Range extending service for Electric Vehicles
  • Through an energy module
  • Rented on demand: Tender'Lib network in order to satisfy the occasional need of long distance trips
  • Pay per use
  • Convenience is key - attached in one go, manoeuvres without knife jacking, luggage rack/trop box, crash safety
  • EP Tender's analysis is founded on extensive real life data of trips in the US published in this research. It shows that a vehicle with 100 miles range can satisfy 100% of the needs of 9% of the population only. But, if an alternate solution is available during two "adjustment" days (for long distance trips), then 19% of the population is 100% satisfied. The figure jumps to 30% satisfied with 6 alternate days. With a 200 miles EV, 75% of the population can satisfy 100% of their needs with 6 alternate days only.

    So, with EVs having a range of 100 to 200 miles, the usage of EP Tender from 2 to 6 times in the year can satisfy 100% of the needs of 75% of car users. And a corollary to this conclusion: carrying a much heavier and much more expensive energy storage on board the EV (battery or REX) is an overkill, making it non-competitive as compared to ICE vehicles, and requires unsustainable subsidies.

    Another angle with similar conclusions comes from a research published in August 2016 in Nature Energy. We have extracted the chart on the right, showing the statistical distribution (from real usage data) of the energy demand per day of a car, assuming it has an electric powertrain.

    A battery of 19 kWh (Zoe is 22 kWh) satisfies 87% of driving days of the whole population in a year. Adding 20kWh, to reach 40 kWh, satisfies 9% more days. Adding another 20 kWh, to 60 kWh, satisfies 1.5% more days, while going to 80kWh will satisfy another 0.5%, etc. In other words, the marginal utility of a larger battery is massively decreasing, while its cost and weight remains linear, with a major impact on the base platform as well.

    We have here a further confirmation that a range of 100-200 miles (batteries of 30-60 kWh) will remain the optimal balance between marginal cost and marginal utility.

    The remaining 2.5% to 1% must be satisfied by other means, which is the purpose of EP Tender.

    The powertrain modularity we are proposing is a way to increase massively the number of electric miles driven by the whole population, at an affordable cost, and with a much accelerated rate of EV adoption.

    Credit and top image: EP Tender


    Source: Electric car range winners and losers

    Tuesday, October 25, 2016

    Henrik Fisker Reveals Frontal Image Of New Electric Car

    15 hours ago by Mark Kane

    Teaser image of Fisker all-electric car

    Teaser image of Fisker all-electric car

    Henrik Fisker is apparently using time-honored tradition of gradually revealing his new all-electric car for maximum exposure.

    Henrik Fisker: A Breakthrough: Innovative new butterfly doors in our new Fisker model, for easier ingress/egress. More next week...

    Henrik Fisker: A Breakthrough: Innovative new butterfly doors in our new Fisker model, for easier ingress/egress. More next week…

    After announcing its 400-mile range, thanks to a breakthrough battery, and presenting a side profile with butterfly doors just a few days ago, it's time for a showing of the face of the car.

    And you know what? There is a front facing radar and camera system in the prototype, even though we just reported on Fisker saying it was staying away from developing autonomous driving systems on its own.

    The image above was posted to Twitter via Fisker (@FiskerOfficial) with this description:

    "Fisker Front End. An electric car does not need a large front air intake. Aerodynamic low front with small trapezoid center radar & camera. Adaptive LED lights."

    Tags: featured, fisker, Fisker 400 mile EV, Fisker new EV, Henrik Fisker

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    Source: Henrik Fisker Reveals Frontal Image Of New Electric Car

    Monday, October 24, 2016

    Electric Cars Pose “Serious Threat To The Oil Industry”

    Chevrolet Bolt, An Electric Car For The Masses

    The Chevrolet Bolt, An Electric Car For The Masses

    Fitch is a ratings agency that publishes highly influential financial ratings. Although we have been hearing for some time now that electric cars will eventually threaten the oil industry, Financial Times has cited Fitch's recent report claiming that an oil industry "death spiral" is imminent, due to the rise of electric vehicles.

    We Are Seeing Increased Growth Of Solar Fields And Wind Turbines In Many Areas

    We Are Seeing Increased Growth Of Solar Fields And Wind Turbines In Many Areas

    Many people continue to side with "Big Oil" and aren't yet willing to admit that this is bound to happen, sooner than later. The Fitch report reads:

    "An acceleration of the electrification of transport infrastructure would be resoundingly negative for the oil sector's credit profile … In an extreme scenario where electric cars gained a 50 per cent market share over 10 years about a quarter of European gasoline demand could disappear."

    The report goes on to emphasize phrases such as "investor death spiral", "serious threat", and "resoundingly negative" impacts.

    This is all in reference to the scenario that Fitch provides; a scenario in which investors pull monies from oil-related companies, making loans more expensive. It would result in a downward spiral, during which even having gas powered vehicles still on the road would make no difference.

    Not only would big oil companies suffer, but also utility companies relying on fossil fuel. Furthermore, energy storage systems, much like the batteries in EVs, could take the worry out of the inconsistency of solar and wind power. Thus, driving oil down even further.

    Keep in mind that the report poses such a situation as a worst-case scenario. However, the direction that it follows and the provided explanation, all make perfect sense. Not only does it make sense, but it obviously leads to sustainability, is environmentally conscious, and in the end, will be more financially sound. We have known all of this for a long time, but it is nice to see that a company with some leverage and impact is taking notice and disseminating the information.

    Oil companies still believe that electric vehicles are too expensive, gas prices are staying low, and ICE cars are reaching breakthroughs in fuel efficiency. This may all be true. But all are temporary. EV prices are coming down and this will continue. Gas prices never stays low forever. While ICE vehicles are more efficient than they once were, they are not very efficient. Without electricity as a factor, there is only so much that automakers can do to make cars any more efficient.

    Source: Financial Times


    Source: Electric Cars Pose "Serious Threat To The Oil Industry"

    Sunday, October 23, 2016

    New energy vehicle output, sales gear down in China

    China saw a drastic slowdown in new energy vehicle output and sales in September after authorities cracked down on subsidy scams, the latest industry data showed.

    A total of 43,000 new energy vehicles -- pure electric cars and hybrid electric cars -- were produced in September, up 25.7 percent year on year, while sales increased 43.8 percent to 44,000, according to figures from the China Association of Automobile Manufacturers (CAAM).

    The growth rates were markedly lower than in August, when new energy vehicle output and sales soared 81.5 percent and 92.2 percent, respectively.

    The slowdown came after regulators announced punishments for five new energy vehicle producers in September for illegally obtaining government subsidies.

    China has been encouraging the use of new energy vehicles to upgrade the industry and ease pressure on the environment, offering tax exemptions and subsidies for car purchases and requiring government agencies to buy more new energy cars.

    Thanks to government incentives, the number of new energy cars sold in 2015 more than tripled year on year to 331,100.

    In the first nine months of this year, 302,000 new energy vehicles were produced and 289,000 were sold, up 93 percent and 100.6 percent respectively, according to the CAAM

      


    Source: New energy vehicle output, sales gear down in China

    Saturday, October 22, 2016

    Trudeau Liberals set to join Wynne Liberals in helping rich people buy electric cars

    What is it with our governments and public subsidies for electric vehicles?

    Federal Climate Change Minister Catherine McKenna told The Canadian Press this month the Trudeau government is working on "creating incentives" for Canadians to buy electric vehicles.

    This as part of its overall climate change strategy, in addition to imposing a national carbon price on the provinces.

    In other words, the Justin Trudeau Liberals in Ottawa will follow the Kathleen Wynne Liberals in Ontario in throwing more public money at one of the most expensive and least efficient ways of reducing industrial greenhouse gas emissions linked to climate change.

    In Ontario, the Wynne government is giving public subsidies of up to $14,000 for electric vehicles, plus $1,000 for installing a home charging station.

    Plus four years of free electricity for overnight charging.

    It's also promised to work with Ottawa to eliminate the 13% HST on electric vehicles by 2018, spend $80 million on workplace and apartment charging stations and $20 million for 250 charging stations across Ontario.

    All in, these subsidies mean, according to an analysis by the Fraser Institute, that the public will pay about $250 million to lower emissions by 0.03% in 2020 compared to 2014.

    The emission cuts are so low because few people buy electric cars, with good reason.

    Last year 6,933 electric vehicles were sold in Canada compared to 1.9 million in total sales. It's not hard to see why.

    Electric vehicles are more expensive than conventional ones and have limited range, which decreases in cold weather.

    Who buys them? Rich people.

    As reported by CBC News, Ontario taxpayers recently paid five millionaires an average of $5,538 each towards their purchase of the Porsche 918 Spyder, which retails for about $1.1 million and is one of the most expensive cars ever made.

    They also paid $362,032 to 64 Ontarians to buy the BMW i8, retailing at about $150,000; $212,500 to 25 drivers to buy the Fisker Karma, selling for about $130,000; and $170,000 to 20 buyers of the Tesla Roadster Convertible, selling for about $138,000.

    (The government has now limited subsidies to electric cars costing up to $150,000. An upper limit of $50,000 would at least be more reasonable.)

    Originally Wynne said her government would pay for electric vehicle subsidies and other climate programs out of the $1.9 billion annually it expects to make starting next year by joining the California and Quebec cap-and-trade market.

    First, that $1.9 billion, if it comes, will come from Ontario consumers having to pay more for almost all goods and services under cap-and-trade.

    Second, the California/Quebec carbon market crashed in its last two auctions of carbon allowances, bringing those governments only a fraction of the money they anticipated to fund green energy programs.

    If that happens to Ontario, Wynne will have to raise taxes or go deeper into debt to subsidize electric vehicles sales.

    And now the federal government, according to McKenna, plans to buy into this madness. 


    Source: Trudeau Liberals set to join Wynne Liberals in helping rich people buy electric cars

    Friday, October 21, 2016

    Electric 5D Simulator 3DOF / 6DOF Motion Platform With Car Driving Simulator Model

    Guangzhou Shuqee Digital Tech. Co.,Ltd

    Guangzhou Shuqee Digital Tech. Co., Ltd adopts advanced video imaging technology, citing the international forefront of innovative design concepts, gathering many senior professional technicians. We are fully implementing the ISO9001: 2008 quality Management Implementation of Standards. A technological, cultural and creative company which realizing a set of 4DM/XD Theater system development, equipment production, planning and construction, operation and maintenance to form a whole industry chain.

    Shuqee Tech. integrate the latest scientific and technological achievements, and has invested heavily in independent research and development of digital, intelligent, immersive 4D cinema six systems, with many patents. The main businesses are 4DM Theater building, 5D & XD Cinema. Company's products through a global marketing network, not only meet the domestic market demand, but also have been exported to more than thirty countries. Our products widely used in Cinema, Scenic, Commercial Centers, Theme Parks, Science Hall, Education and Scientific Research etc. Except 4DM Theater, also focus on the development of related diversified industries like the digital home theater, the center control system development, interactive simulation systems etc, with the joint development of the main businesses.

    Shuqee Tech.'s team is committed to creating boutique theater, apply for "the details determine success of the attitude" service concept ,attempt to provide customers with high quality products, beautiful theater environment, warm and professional service, personalized creative design, perfect after-sale maintenance etc, supply whole competitiveness solution, continuing to enhance the customer experience and create maximum value for customers.

    Shuqee Tech. will follow several cinema market changes in order to "Embellish experience of innovation, Technology into the ideal" as the development of innovative ideas, work together to create value for consumers viewing movies environment.

    Digital, Legendary, Start from here!


    Source: Electric 5D Simulator 3DOF / 6DOF Motion Platform With Car Driving Simulator Model

    Thursday, October 20, 2016

    Start-up Lucid Motors launches with 300-mile plus premium electric sedan

    A new automaker pulled aside the curtain in Silicon Valley, revealing its name as Lucid Motors and showing off its prototype car, a premium electric sedan. The company previously existed under the name of Atieva, where it got its start developing battery packs for electric vehicle applications.

    Impressively, in just two years of development the company is so far along with its first vehicle that it already has a body-in-white, an automotive term for a welded sheetmetal body.

    Lucid Motors came out of stealth mode, but only issued a few detail photos of its car.

    Lucid Motors

    As part of a limited media gathering where photos were prohibited, I visited the company's Menlo Park, California headquarters, where it has secretly been developing its launch model. Along with seeing the body-in-white and a 90 to 95 percent complete version of the car, Lucid Motors showed off the car's components, from the electric drivetrain to interior design concepts.

    Greeting me at Lucid Motors were two of the company's luminaries, Chief Technology Officer Peter Rawlinson who includes Tesla and Jaguar on his resume, and Vice President of Design Derek Jenkins. In Jenkins previous position at Mazda, he designed the latest generation of the MX-5 Miata. Other members of Lucid Motors' staff came over from Tesla.

    When I asked for the name of Lucid Motors' electric sedan, Rawlinson demurred, saying that would be announced at a later date.

    Lucid Motors builds on Atieva's battery research. The company's patented lithium-ion ba ttery chemistry shows significant resistance to degradation over high power charging cycles, an important ingredient for electric cars. It also claims 20 percent greater energy density in its batteries than competitors, due to its cooling and power control technologies.

    With its battery technology and a dual motor system developed for the launch car, Rawlinson said it will get well over 300 miles of range, and the company is considering a 400-mile version as well, much as Tesla sells models with different ranges. He also said the car, which will use a motor at each axle, could likely get to over 200 mph, although the production vehicle will have its speed limited.

    Under the name Atieva, the company has released video of its test mule van, which it calls Edna. This van uses the dual motor system, with total horsepower adding to 1,200, although for stability reasons that amount it been restricted to 900 horsepower. Still, it gets to 60 mph in 2.69 seconds. Rawlinson says that the sedan will weigh about 1,000 pounds less and have much better aerodynamics, so is likely to be even quicker.

    During my visit, I got a ride in Edna and experienced its breathtaking acceleration on a freeway on-ramp.

    Lucid Motors isn't ready to release charging times for its upcoming sedan, although Rawlinson said it will accept DC fast charging, as the car is being developed with the idea it might be used in a sharing economy, getting the kind of use seen by taxis and car services today. The question of which fast charging standard to use, CHAdeMO or J1772 Combo, remains unresolved at the moment.

    The launch car shown by Lucid Motors has a glass canopy, which would be electrochromic in production, allowing for different tint levels at the touch of a button.

    Lucid Motors

    In designing the sedan, Jenkins said that he wanted something with a mid-size footprint, similar to a BMW 5-series or Mercedes-Benz E-Class, but with cabin space equaling that of a full-size car, such as a 7-series or S-Class. The electric drivetrain, which is less restrictive on space than a combustion engine and transmission, allowed him to realize that goal.

    The car has a low, short front-end, as it does not need to house an engine. A glass canopy covers the roof, allowing a tremendous view of the sky, while front and rear passengers enjoy copious leg and head room. Rather than a four-door hatchback, like the Tesla Model S, Lucid Motors' car shows more of a sedan stance with a modern edge.

    Taking advantage of modern technologies, the car has a LED headlights up front, but these are unique in that each light uses what Rawlinson calls micro-lenses, 6,000 of them on each side. This lighting array allows minute adjustment and fi ne shaping of the light field.

    Lucid Motors has already come up with three schemes for the interior design, inspired by early morning in Santa Monica, mid-day in Santa Cruz and midnight in the Mojave desert. In fact, Jenkins has embraced what he calls a California DNA for the car, defining that in relation to national reputations for car brands from the UK, Germany and Italy. That move seems reasonable, as California has a reputation distinct from the US and globally known.

    Lucid Motors if far along in the development of its first car, even showing an infotainment system with four OLED screens.

    Lucid Motors

    Along with all the development described above, Lucid Motors has also gone a a long ways towards developing other aspect of its car. For example, the infotainment system will have four OLED screens and have natural language voice command. It will also support Android Auto and Apple CarPlay, and have a built-in data connection the company can use to send out over-the-air software updates.

    Similarly, Level 5 autonomy, which means full self-driving capability, is being built into the car, although how it will be enabled depends on what the laws allow when it reaches production. The sensor suite includes solid state LIDAR, Radar and cameras.

    Lucid Motors intends to do its own manufacturing in the US, and is currently scouting sites, narrowing it down to a few states. Rawlinson said the company will need another round of funding to get manufacturing up. As for sales, it will follow Tesla's model, taking orders on its web site and pos sibly opening showrooms in different locations.

    When I ask if Lucid Motors will be challenging Tesla for customers, Rawlinson points out that electric cars make up a tiny percentage of the luxury market. There should be plenty of room to take customers from the likes of BMW and Mercedes-Benz.


    Source: Start-up Lucid Motors launches with 300-mile plus premium electric sedan

    Wednesday, October 19, 2016

    Tesla to build self-driving tech into all cars

    San Francisco (AFP) - Tesla will build self-driving technology into all the electric cars it makes, running it in "shadow" mode to gather data on whether it is safer than having people in control.

    "Every car that Tesla produces from here on out will have the full autonomy capability," said Tesla co-founder and chief executive Elon Musk.

    A new onboard computer with 40 times the processing power of the previous generation will run a new "neural net" for vision, sonar and radar sensors, he said.

    During a conference call with reporters, Musk referred to the hardware as "basically a super-computer in a car," different from auto-pilot technology to date.

    It will be up to regulators and the public as to when the self-driving capabilities will actually be put to use on roads, according to Musk.

    Meanwhile, the system will run in "shadow mode" to gather data regarding when it might have avoided or caused accidents if it was in command.

    Musk hoped that Tesla would one day be able to impress regulators with a statistically significant amount of data showing the autonomous driving technology would avoid crashes and save lives.

    "Then we are at a point where we can allow it to take action," Musk said of amassing data showing the system's merits.

    Upgrading existing cars with the autonomous driving hardware was not practical, according to Tesla.

    "It would be like giving someone a spinal cord transplant; not advisable," Musk said on the call.

    - Millions of miles -

    Tesla planned to calibrate the system using feedback from millions of miles of real-world driving before enabling the new hardware.

    In the meantime, Teslas with the first-generation Autopilot technology will lack some standard safety features such as automatic breaking and collision warnings.

    As features are validated, they will be enabled with over-the-air software updated.

    The United States last month unveiled a sweeping new regulatory framework for the unexpectedly rapid rise of self-driving automobile technology, just days after Uber broke ground with its first driverless taxis.

    US Transportation Secretary Anthony Foxx said the federal government intends to set the safety standards for cars of the future where no human is involved in the driving, even while individual states still regulate cars with humans behind the wheel.

    Announcing a 15-point safety assessment for driverless car systems, Foxx stressed that the government wants to work with developers -- which include most large automakers as well as tech giants such as Uber and Alphabet (Google) -- without stifling their efforts.

    A Self-Driving Coalition for Safer Streets boasts founding members including Ford, Google, Lyft, Uber and Volvo.

    The coalition supports guidelines that standardize self-driving regulations across the country, avoiding confusion and lost industry momentum.

    - Expectations -

    Meanwhile, Germany wants Tesla to stop advertising the "autopilot" function on its cars because it leads to false customer expectations, as the system comes under scrutiny following two fatal crashes.

    Transport regulator KBA has written to the company, telling it: "In order to prevent misunderstandings and false expectations from clients, we are asking that the misleading term 'Autopilot' no longer be used in advertisements for the system."

    The KBA letter cited in Bild am Sonntag was confirmed to AFP by the transport ministry.

    Germany has been conducting an investigation into the autopilot system in vehicles made by electric carmaker Tesla, which has been available with its Model S series since October 2015.

    Questions have been raised over the system after two fatal crashes, one in northern China in January and another in the US state of Florida in May.

    In September, a Tesla electric car crashed into a tourist bus on a motorway in northern Germany, lightly injuring the driver who said he had activated the vehicle's autopilot system.

    At the time, Tesla said the driver had confirmed the autopilot was "functioning properly and... was unrelated to the accident."


    Source: Tesla to build self-driving tech into all cars

    Tuesday, October 18, 2016

    Mini Execs Reveal Details On Automakers First Plug-In Hybrid Vehicle

    Mini Execs With Prototype PHEV Mini

    Mini Execs With Prototype PHEV Mini

    Just a week ago, BMW Group CEO Harald Krueger confirmed that Mini was indeed working on a plug-in vehicle for eventual production.

    Now we what Mini has in the works.

    Mini Countryman PHEV

    Mini Countryman PHEV

    Unfortunately, it's not a pure electric car that Mini is developing, but rather a plug-in hybrid.

    At least it seems the Mini PHEV will be capable of running at high speeds in pure electric mode, but there's no official word on range for now, so we'll wait until that's reveal before passing judgement on Mini's first PHEV.

    The details on the PHEV performance of the Mini, as provided in the press release:

    "The hybrid MINI makes full use of the electric motor's entire torque, which is available right from standstill, allowing for catapult-like acceleration. Even after leaving the slower pace of the city, this vehicle maintains its zero-tailpipe emissions at motorway speeds. The high-voltage battery under the rear seats provides power for long-lasting electric driving. AUTO eDRIVE standard mode permits speeds of up to 80 km/h, whilst in MAX eDRIVE mode speeds of up to 125 km/h are possible. For Mackensen this is a question of character: "In a hybrid MINI model, driving electrically must also be an exhilarating experience. This means that entirely electric driving is not limited to speeds of 30 or 40 km/h, but to speeds well beyond city traffic pace."

    Mini Countryman PHEV Prototype

    Mini Countryman PHEV Prototype

    The press release is purposely vague, but we do believe that the vehicle being discussed is a PHEV Countryman with these previously reported specs:

  • Plug-in hybrid system overall output of 165 kW (224 hp)
  • Maximum electric range is ~41 kilometers (25 miles) on the NEDC test cycle
  • Acceleration is rated at 0-100 km/h (0-62 MPH) in 6.7 seconds
  • 7.6 kWh battery
  • And just in case you were wondering, Mini says that this PHEV car retains all of the characteristics expected of the Mini brand, including go kart-like handling:

    "Testing the vehicle himself, Mackensen puts the car through its paces and demonstrates that you need to step on the accelerator peddle very firmly indeed to activate the second power source. Then things really start happening. With the combined output of both drives, the first MINI hybrid vehicle demonstrates unparalleled acceleration performance when compared with its combustion-only siblings."

    "However, MINI's go-kart driving characteristics consists of more than just fast acceleration. Above all, this hybrid MINI has to prove how precisely it handles when taking bends on the most exciting, twisting roads. This is where MINI's plug-in hybrid concept plays its next trump card. "As far as the chassis and suspension are concerned, nothing changes from the conventionally driven model variants", says Wolf, "and the set-up benefits a lot from the hybrid concept". Thanks to the eDrive components, which are positioned very low down at the rear, the car's centre of gravity is lowered and the weight is evenly balanced between the front and rear axle – ideal for achieving an even higher level of legendary MINI agility."

    If previous reports prove to be true, then Mini will launch this PHEV Countryman in 2018. No pricing information is known at this point in time.

    Check out the full press blast below for additional details on Mini's first plug-in hybrid.

    Charging ahead – The MINI goes electric.

    Head of MINI brand management Sebastian Mackensen and Head of MINI series management Peter Wolf preview the first plug-in hybrid model by the British premium brand.

    Munich. Hallmark MINI driving fun combined with zero tailpipe emissions. With the introduction of the first plug-in hybrid model by the British premium brand, this will soon be a reality. The series development process for this car has almost been completed. It features a combustion engine and an electric motor enabling purely electric propulsion for the first time in a MINI. This marks the beginning of a new phase for MINI, and offers a glimpse into a future that is charged with excitement for MINI customers and those drivers yet to experience the thrill of a hybrid.

    Head of MINI brand management Sebastian Mackensen and Head of MINI series management Peter Wolf offer insight into this new near-series test vehicle, and explain how it retains go-kart feeling in the true spirit of a MINI during a test drive of this model.

    "With this model we want to convince MINI customers of the benefits of hybrid drive", says Mackensen, "and impress everyone who already has hybrid driving experience with MINI's unique go-kart driving feel." The key to achieving this lies in intelligent energy management which is used to control how the combustion engine and electric motor operate together. For this reason, the first MINI plug-in hybrid model is not solely focused on efficiency, but uncompromising in pursuit of driving fun.

    At first glance, you wouldn't recognise the test car as a hybrid model. And that's not because of the camouflage foil used. The charging socket for the high-voltage battery is discreetly integrated in the left Side Scuttle. Everything also looks familiar in the cockpit. The start/stop button in the centre of the dashboard glows yellow instead of red. As usual, you simply press the button to start the car – this vehicle, however, remains silent as the hybrid model always starts in electric mode. The rpm counter in the instrument cluster on the steering column has been replaced with a power display. Keeping a close eye on this display is particularly worthwhile for the first few kilometres as it informs the driver about the electric motor's power reserves before the combustion engine fires up. When exactly the combustion engine starts varies depending upon on the vehicle's speed and the intensity with which the driver operate the accelerator pedal.

    "After a short time, the driver gets a feel for this", promises Wolf. And this new driving experience promises a lot of driving fun. The hybrid MINI makes full use of the electric motor's entire torque, which is available right from standstill, allowing for catapult-like acceleration. Even after leaving the slower pace of the city, this vehicle maintains its zero-tailpipe emissions at motorway speeds. The high-voltage battery under the rear seats provides power for long-lasting electric driving. AUTO eDRIVE standard mode permits speeds of up to 80 km/h, whilst in MAX eDRIVE mode speeds of up to 125 km/h are possible. For Mackensen this is a question of character: "In a hybrid MINI model, driving electrically must also be an exhilarating experience. This means that entirely electric driving is not limited to speeds of 30 or 40 km/h, but to speeds well beyond city traffic pace."

    Testing the vehicle himself, Mackensen puts the car through its paces and demonstrates that you need to step on the accelerator peddle very firmly indeed to activate the second power source. Then things really start happening. With the combined output of both drives, the first MINI hybrid vehicle demonstrates unparalleled acceleration performance when compared with its combustion-only siblings.

    However, MINI's go-kart driving characteristics consists of more than just fast acceleration. Above all, this hybrid MINI has to prove how precisely it handles when taking bends on the most exciting, twisting roads. This is where MINI's plug-in hybrid concept plays its next trump card. "As far as the chassis and suspension are concerned, nothing changes from the conventionally driven model variants", says Wolf, "and the set-up benefits a lot from the hybrid concept". Thanks to the eDrive components, which are positioned very low down at the rear, the car's centre of gravity is lowered and the weight is evenly balanced between the front and rear axle – ideal for achieving an even higher level of legendary MINI agility.

    The Hybrid concept provides yet another benefit: the electric motor transmits its power to the rear wheels, the combustion engine to the front wheels. Since the intelligent energy management is linked to the Dynamic Stability Control (DSC), traction and drive stability are optimised via the drive system. "As soon as there is any risk of drive slip, the second drive unit is activated to provide additional traction when starting off or ensuring a high level of steering precision when cornering", explains Wolf.

    Intelligent energy management offers a further opportunity for both power sources to work together effectively. Driving on the motorway, Mackensen activates a third mode with the eDrive toggle switch: SAVE BATTERY. In this mode, the combustion engine powers the car whilst at the same time, the high voltage battery can retain charge at a constant level or indeed increase charge via a generator. Extended driving in SAVE BATTERY mode enables enough power generation for purely electric driving later.

    After driving in SAVE BATTERY mode, the MINI drives back into town in silence at the end of the test drive. The status display in the cockpit reminds the driver to recharge the battery via wallbox or power socket. Refuelling is not necessary yet because the MINI plug-in hybrid model merely took a small sip from the fuel tank. Yet another new dimension of MINIMALISM.


    Source: Mini Execs Reveal Details On Automakers First Plug-In Hybrid Vehicle

    Monday, October 17, 2016

    Lexus Hybrids Take Jab At Electric Cars With New “Always Charged, Always Ready” Slogan

    8 hours ago by Eric Loveday

    Note Lexus' New Slogan For Its Hybrids

    Note Lexus' New Slogan For Its Hybrids

    Lexus continues to take cheap shots at plug-in electric car, despite being criticized for this approach on numerous occasions now.

    Previous Lexus anti-EV ads include this one in which a charging station is shown with the words "Reserved for someone with four hours to kill" and this other one featuring a BMW i3 in which charge time is again the focus. Both of those ads were eventually removed by Lexus due to what we assume was lots of hate directed towards the luxury automaker, yet Lexus is back at it again and this time it's on the automaker's main hybrid website.

    Lexus' hybrid website now features the slogan "Always Charged. Always Ready," a clear jab directed at electric cars. And in the print below you'll notice another shot directed at plug-ins

    "…all with nothing to plug in."

    lexus 2

    Enough already Lexus. Yes, conventional hybrid sales are down and we get it that you're trying to find a way to boost sales, but the future is with the plug-in, so instead of knocking electric cars, why not join the fray?

    via Green Car Reports

    Tags: lexus, lexus ad, lexus advertisement, lexus hybrid

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    Source: Lexus Hybrids Take Jab At Electric Cars With New "Always Charged, Always Ready" Slogan

    Sunday, October 16, 2016

    Volkswagen Debuts Electric Vehicle Concept with 373-Mile Range

    Volkswagen Debuts Electric Vehicle Concept with 373-Mile Range

    Skip to comments.

    Volkswagen Debuts Electric Vehicle Concept with 373-Mile RangeEngineering ^ | October 4, 2016

    Posted on 10/16/2016 7:16:50 PM PDT by 2ndDivisionVet

    Volkswagen has unveiled the I.D., an automated electric car the company says will be able to cover a distance of 249 to 373 miles on a single battery charge. The production version of the I.D. is due to be launched in 2020 at a price on a par with comparable Golf models. In "I.D. Pilot" mode, the car is capable of fully automated driving, a technology the company expects to be ready for series production in 2025. Volkswagen has also set itself the goal of selling a million electric cars a year by 2025, with the production version of the I.D. intended to make a decisive contribution toward this ramp-up of e-mobility.

    The First MEB Vehicle

    The I.D. is Volkswagen's first compact concept car based on the company's new MEB vehicle architecture. MEB stands for Modularer Elektrifizierungsbaukasten ("Modular Electric Drive kit") and it was conceived for pure electric vehicles.

    The MEB is designed as a purely electric vehicle architecture. The I.D.'s zero-emissions drive system consists primarily of the electric motor, power electronics and transmission integrated in the rear axle, a space-saving high-voltage flat battery in the floor of the car and ancillary equipment integrated in the front of the car.

    The electric motor has a power output of 168 horsepower (125 kW), giving the I.D. zero to 62 mph acceleration in less than 8 seconds and a top speed of 99 mph. Subsequent production versions could also be offered with more or less powerful electric motors.

    In parallel, the concept also hints that it will be possible to configure the I.D. with different battery capacities. This would allow the drive system to be modified to suit the owner's individual needs. The I.D. will have a range of between 249 and 373 miles on a single charge, under European test conditions.

    The high-voltage battery used in the I.D. is located in the chassis. As a crucial link, the power electronics control the flow of high-voltage power between the motor and the battery, converting the direct current (DC) stored in the battery into alternating current (AC), while a DC/DC converter supplies the on-board electronics with 12-volt power. Power is transferred from the motor to the rear axle via a single-gear transmission. The motor, power electronics and transmission form one compact unit. The position of the battery has a positive effect as it gives the I.D. a very low center of gravity, like a racing car's, and neutral handling. The I.D. is also characterized by an optimal weight distribution of 48:52 percent, front to rear.

    The battery can be charged by cable or using an inductive charging interface in the front of the car. To charge by cable, a separate charging plug is needed to connect the car to an electrical outlet. For inductive charging, all the driver needs to do is park the I.D. over a so-called charging plate, with a little help from the electronics to make sure it is in exactly the right position.

    Over and above that it will be possible to send the car to an inductive charging station, too. Volkswagen has stated that, thanks to the rapid charging system, the battery is 80 percent charged after just 30 minutes.

    "The electric powertrain gives our designers far greater freedom," said Klaus Bischoff, head of design, Volkswagen brand. "We have shrunk the cooling grilles to a minimum, shifted the axles far outwards and created breathtaking proportions, as demonstrated by the I.D. —an icon of the future. We had the unique opportunity to guide Volkswagen into a new era, and with the I.D we have taken this opportunity."

    I.D. Automated Driving

    I.D. is the first Volkswagen capable of fully automated driving. In fully automated driving mode the four roof-mounted laser scanners are active. They protrude from the roof of the I.D. in "I.D. Pilot" mode, but are also visible thanks to indirect blue lighting, like the diffusers and side sills, indicating that the I.D. is in fully automated mode. The I.D. is capable of detecting other road users not only using its laser sensors, but also with ultrasonic sensors, radar sensors, side area view cameras and a front camera. Traffic data is also constantly collected and compared with the vehicle data via the cloud.

    The I.D. doesn't only drive itself or be driven. It can find a space in a parking structure, all of its own. All the driver has to do is stop the I.D. in a specially marked zone in the entrance to a structure that has the necessary infrastructure and activate the "Pilot for multi-storey car park" using the Volkswagen app. As with the fully automated "I.D. Pilot" mode it is able to detect other cars as well as pedestrians. To ask the I.D. to leave the parking space again, all the driver has to do is tell the Volkswagen to return to its starting zone again via the app. For more news from the Paris Motor Show, check out Renault's autonomous electric GT concept car.

    TOPICS: Business/Economy; TravelKEYWORDS: electric; volkswagen

    To: FReepers; FRiends; Patriots

    To: 2ndDivisionVet

    And the cost of elecrricity will go through the the roof as the demand kicks in and it will be no better than a gasoline powered engine in the long run ...

    To: jsanders2001

    What's the range if I want to carry 5 sheets of 3/4 inch plywood, some 4x4 posts and a few bags of cement? Probably 0 mile range. It won't even budge with a tiny horsepower output.

    3 posted on 10/16/2016 7:26:54 PM PDT by roadcat

    To: jsanders2001

    And the batteries will probably explode when you try to charge them a little extra to get the 373 miles!

    4 posted on 10/16/2016 7:27:55 PM PDT by RetiredTexasVet (The Mofia is a private crime family; whereas, the DOJ is the gov't's political crime family.)

    To: 2ndDivisionVet

    Top speed like my 68 bug, 60 downhill with a following wind.

    5 posted on 10/16/2016 7:29:03 PM PDT by Rembrandt (Part of the 51% who pay Federal taxes)

    To: 2ndDivisionVet

    After 372 miles on your trip to LA, you wait 6 damned hours for a refill, Total joke. The Hybrids work great but these plug ins are history . No place to fill up.

    6 posted on 10/16/2016 7:30:23 PM PDT by WENDLE (Hillary provided Weapons to ISIS!! There is no doubt.)

    To: WENDLE

    I think that's part of the point. Keep the drones confined to the city centers where they're easily controlled.

    7 posted on 10/16/2016 7:34:16 PM PDT by chrisser

    To: chrisser

    Oh I see. Good observation. My big duelly truck don't stop at 373— not even off road.

    8 posted on 10/16/2016 7:36:09 PM PDT by WENDLE (Hillary provided Weapons to ISIS!! There is no doubt.)

    To: WENDLE

    That's not there yet.

    But they're making progress. I can drive maybe 750 miles on a good day, before I'm through for the day.

    This seems to be at 50% of that. So they're not there yet.

    But it's a start.

    9 posted on 10/16/2016 7:41:37 PM PDT by cba123 ( Toi la nguoi My. Toi bay gio o Viet Nam.)

    To: 2ndDivisionVet

    Does it have any fake gauges? lol.

    10 posted on 10/16/2016 7:42:35 PM PDT by \/\/ayne (I regret that I have but one subscription cancellation notice to give to my local newspaper.)

    To: roadcat

    Turn on the AC and watch the power reserve drop dramatically.

    Adding load and terrain reduces it even faster.

    11 posted on 10/16/2016 7:46:57 PM PDT by Vendome (Don't take life so seriously-you won't live through it anyway - "Enjoy Yourself" ala Louis Prima)

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    Source: Volkswagen Debuts Electric Vehicle Concept with 373-Mile Range

    Friday, October 14, 2016

    Tesla rival Atieva’s first electric car looks a lot like a Model S

    Atieva, the troubled Silicon Valley startup that began by making batteries for Chinese buses, is expected to unveil a rival to Tesla's Model S in early December, Recode has learned. Using public records requests, Recode has also obtained exclusive images of the car's design and initial manufacturing facility: An electric bike company in rural China.

    The documents, which were filed with the state of California late last year, say that Atieva's first vehicle will be called Atvus. The design render shows a conventionally streamlined, four-door sedan much like a Model S.

    Over the summer, Atieva has been raising its profile with a series of videos showing a van equipped with an electric battery and drivetrain outperforming a variety of high-end cars, including a Ferrari, a Dodge Viper and even a Model S. The van, called Edna, has about the same range and acceleration as a mid-range Tesla, including a 2.74 second 0-60mph dash.

    In September, Zhang Xin, Atieva's deputy general manager in China, told Chinese reporters that the car will have fully independent front and rear electric motors, and will be able to accelerate from zero to 100km/h (about 62mph) in under three seconds.

    According to an executive who has since left the company, Atieva's vehicle will also come with "some elements of autonomous drive baked in." The firm's co-founder, Sam Weng, said, "We are creating an experience that is personalized and liberating, erasing [the] constraints of modern transportation." That suggests a semi-autonomous highway driving system, along the lines of Tesla's Autopilot.

    Atieva has two facilities in Silicon Valley, one just 10 miles from Tesla's own factory. Both have laboratories and workshops for vehicle development, although the company has yet to announce the location of its full-scale factory. In an interview with Reuters in June, Atieva's manufacturing director said he wanted a U.S.-based assembly plant that would build 20,000 cars a year at first, eventually rising to 130,000 annually.

    Until then, the company seems to be relying on a Chinese electric bike company for manufacturing. When asked by California officials to provide a photo of its manufacturing facility, Atieva submitted a picture of the Dayang Motorcycle company in Luoyang. Dayang makes a range of electric scooters and motorbikes, as well as a tiny two-seater micro-car called Chok with a top speed of 49mph. The Chok is so small it is even allowed in bike lanes in China. Atieva already has some presence in Asia, with a Taiwanese research hub and a facility in Shanghai.

    Atieva was formed in 2007 by Weng and two co-founders, Bernard Tse and Sheaupyng Lin. The company initially worked to develop batteries and electric drivetrains, filing more than 100 patents and delivering battery packs for electric buses in China. That all changed in 2014, when two Chinese firms invested around $100 million for a nearly 50 percent stake in the firm.

    One was BAIC, a Chinese state-owned carmaker, the other LeEco (then called LeTV), a technology company making televisions, smartphones and electric bikes. Atieva went on a hiring spree and pivoted to developing a complete, autonomous electric car to compete with Elon Musk's Teslas.

    Vehicle development progressed well through 2015, according to former executives, but there was growing friction among investors. Jia Yueting, the billionaire owner of LeEco, had quietly started his own electric vehicle startup, Faraday Future, in 2014, without informing the Atieva board. Then LeEco announced its own plans to develop a luxury, connected EV called the LeSEE.

    Meanwhile, BAIC was attempting to get access to Atieva's battery and drivetrain technology, and wanted to shift the company to focus on Chinese buyers. In November 2015, co-founder Bernard Tse was abruptly ousted as CEO. Then in early 2016, according to former executives, BAIC sold its stake in the company. According to several sources close to Atieva, the buyer of BAIC's shares was Jia Yueting.

    Neither Atieva nor LeEco replied to requests for a comment on this article, although Faraday Future said that it has no direct relationship to Atieva.

    While the company still officially lacks a CEO, Atieva's Chief Technical Officer Peter Rawlinson, a former Tesla VP, is understood to be running the company day to day. Atieva's current marketing strategy seems designed to keep both its U.S. staff and Chinese investors happy.

    "In 2018, Atieva new models will officially go on sale first in the United States, and then extended to the Chinese market," said Zhang in September. "Although many parts … are still in the prototype stage, we will strive to complete the vehicle off the assembly line in two years' time."

    It is difficult to overstate just how ambitious that goal is, given that Atieva has never produced a complete vehicle, does not currently have an assembly plant — or even a site for one — and seems to be relying on an obscure e-bike company for manufacturing assistance.

    If the Atvus does emerge in 2018, it will certainly have more competition than just the Model S — if only from its sister companies. LeEco is having an official U.S. launch next week that may include details of its LeSEE luxury electric car, and earlier this year Faraday Future broke ground on a billion dollar factory in Nevada that it hopes will also be building cars within two years.

    The ownership and organizational relationship of Atieva, Faraday Future and LeEco remains extremely murky. However, if Jia is serious about building an automotive empire, Atieva's hoard of patents could be invaluable to his other companies. LeEco and Faraday Future's vehicles will certainly share some core technologies, particularly around connectivity and autonomous drive.

    The scale of Jia's manufacturing vision is breathtaking. Along with Atieva's 130,000 cars, Faraday Future hopes its Nevada facility will produce 140,000 annually, and a $2 billion LeEco assembly plant in China 400,000 more. Together, that would dwarf even Elon Musk's promise that his California factory will produce 500,000 mass-market Model 3 electric cars each year, as soon as 2018.

    Whether Atieva ends up as a stablemate or a competitor to LeEco and Faraday Future, one thing seems certain: Tesla Motors will be watching December's launch of its first Chinese rival very closely indeed.

    Mark Harris is an investigative technology reporter based in Seattle. In 2014, he was Knight Science Journalism Fellow at MIT, and in 2015 he won the AAS Kavli Science Journalism Gold Award. Follow him at @meharris.


    Source: Tesla rival Atieva's first electric car looks a lot like a Model S