The Jaguar I-PACE is the electric vehicle drivers have been waiting for. Clean, smart and safe, the I-PACE delivers sustainable sports car performance, next-generation artificial intelligence (AI) technology and five-seat SUV practicality to place Jaguar at the forefront of the EV revolution.
“We set out with a clean sheet approach to harness new battery electric technology with an architecture engineered from the outset to optimise performance, aerodynamics and interior space. The result is the I-PACE – a true Jaguar and a truly driver-focused EV. For I-PACE customers – fuel stations are a thing of the past, after overnight charging they’ll wake up every morning with a ‘full tank of fuel’!” Said Ian Hoban, Vehicle Line Director, Jaguar I-PACE.
With a state-of-the-art 90kWh Lithium-ion battery using 432 pouch cells, the I-PACE delivers a range of 480km (WLTP cycle). Owners will be able to achieve a 0-80 per cent battery charge in just 40 minutes using DC rapid charging (100kW). Home charging with an AC wall box (7kW) will achieve the same state of charge in just over ten hours – ideal for overnight charging.
A suite of smart range-optimising technologies includes a battery pre-conditioning system: when plugged in the I-PACE will automatically raise (or lower) the temperature of its battery to maximise range ahead of driving away.
Two Jaguar-designed electric motors – which feature driveshafts passing through the motors themselves for compactness – are placed at each axle, producing exceptional combined performance of 294kW (400PS) and 696Nm, and all-wheel-drive, all-surface traction. The high torque density and high-energy efficiency characteristics of the motors deliver sports car performance, launching the I-PACE from a standing start to 100km/h in just 4.8 seconds. The instantaneous performance is matched with exceptional ride comfort and engaging driving dynamics.
The bespoke EV aluminium architecture uses advanced riveting and bonding technology to deliver a light, stiff body structure. Together with the structural battery pack, it has a torsional rigidity of 36kNm/degree – the highest of any Jaguar.
The battery is placed centrally between the two axles, and as low down as possible with a seal between the housing and the underfloor. This location enables perfect 50:50 weight distribution and a low centre of gravity: together with the advanced double wishbone front and Integral Link rear axle with (optional) air suspension and configurable Adaptive Dynamics, this delivers agile handling and outstanding ride comfort.
There will be nothing else on the road that looks or drives like the Jaguar I-PACE. It is designed and engineered to take full advantage of its smart electric powertrain and maximise the potential of the packaging benefits it brings. Its sleek, coupe-like silhouette is influenced by the Jaguar C-X75 supercar with a short, low bonnet, aero-enhanced roof design and curved rear screen. This cab-forward design contrasts with its squared-off rear, which helps reduce the drag co-efficient to just 0.29Cd. To optimise the balance between cooling and aerodynamics, Active Vanes in the grille open when cooling is required, but close when not needed to redirect air through the integral bonnet scoop, smoothing airflow.
Inside, the layout optimises space for passengers while sophisticated materials – including the option of a premium textile Kvadrat interior – and exquisite attention to detail identify this as a true Jaguar.
While a mid-sized SUV, I-PACE’s cab forward design and EV powertrain means interior space comparable to large SUVs. In the rear, legroom is 890mm while, with no transmission tunnel, there’s a useful 10.5-litre central storage compartment. In the rear, tablet and laptop stowage is found beneath the seats, while the rear luggage compartment offers a 656-litre capacity – and 1,453-litres with seats folded flat.
I-PACE introduces the Touch Pro Duo infotainment system to Jaguar. Utilising an innovative combination of touchscreens, capacitive sensors and tactile physical controls, Touch Pro Duo is intuitive to use. A new EV navigation system assesses the topography of the route to destination and insights from previous journeys, including driving style, to calculate personalised range and charging status with exceptional accuracy for maximum driver confidence.
The advanced system uses ‘Smart Settings’ technology – driven by AI algorithms – to identify individual driver preferences, and then tailors the I-PACE’s driving and interior settings accordingly. I-PACE will also launch an Amazon Alexa Skill. This means owners will be able to ask an Alexa enabled device for information held in the Jaguar InControl Remote app. For example: Is my car locked? What is the charging level? Do I have enough range to get to work?
To ensure owners always have access to the latest infotainment, telematics and battery energy control software, I-PACE will be the first Jaguar to provide software over-the-air – providing seamless updates.
With competitive whole-life costs and residual values, the I-PACE will be a popular choice for private customers, professionals and companies seeking to reduce their carbon footprint and fleet costs. The I-PACE will be available from 2nd March, in S, SE and HSE derivatives alongside a First Edition, all inspired by the design of the original concept.
As a responsible business Jaguar Land Rover is committed to delivering a cleaner future and has plans to prolong the life of its batteries from its electric vehicle with new recycling partnerships and second life energy storage trials.
The Jaguar I-PACE is available to order now, priced from $119 000 plus on road costs in Australia (I-PACE S)
- Based on European WLTP cycle
- Based on 100kW DC charger
- 8-year battery warranty limited to 160,000km and 70 per cent state of health. Whole vehicle warranty three-years/ 100,000km
A new partnership between Scentre Group and BMW Group Australia will see 40 new Electric Vehicle (EV) charging stations conveniently installed in 10 Westfield shopping centres across NSW, QLD and VIC.
By March 2017, EV drivers will be able to access four charging stations per centre at Westfield Bondi Junction, Chatswood, Miranda, Sydney, Warringah Mall, Carindale, Chermside, Doncaster and Southland. The charging stations can be used by any EV free of charge and will see Westfield centres become the leading shopping destination for EV owners.
There are currently around 8000 Evs in operation in Australia and sales are steadily increasing, with over 35000 EVs expected on Australian roads by 2024. Together, Scentre Group and BMW Group Australia are at the forefront of delivering infrastructure to accommodate this demand.
Tim Roberts, General Manager Leasing, Scentre Group says, “We’re very excited to partner with BMW Group Australia to bring such a comprehensive network of EV charging stations to our customers.
“This is all about convenience for the growing number of EV drivers in our local communities. EV drivers will be able to identify charging station locations in our centres via the ChargePoint app, online or through their BMW navigation system.”
BMW is leading the way when it comes to innovation and future mobility, offering a range of pure electric and plug-in hybrid (PHEV) vehicles in Australia. Marc Werner, Chief Executive Officer of BMW Group Australia, is pleased to be part of a program that facilitates this growth and delivers additional EV infrastructure to Australian customers.
“The new charging stations at Westfield locations is another way BMW is providing mobility solutions to our customers as BMW i electric vehicles gain momentum in the Australian market,” said Werner.
- Westfield Bondi Junction
- Westfield Chatswood
- Westfield Miranda
- Westfield Sydney
- Westfield Warringah Mall
- Westfield Carindale
- Westfield Chermside
- Westfield Doncaster
- Westfield Southland
Honda’s luxury Acura arm in North America will campaign an all-electric NSX-inspired EV Concept in the Electric Modified Class at the 2016 Broadmoor Pikes Peak International Hill Climb. The NSX EV Concept features a further evolution of the experimental, all-electric, 4-motor Super Handling All-Wheel Drive™ (SH-AWD®) powertrain that won last year’s Pikes Peak Challenge Exhibition class.
The supercar-inspired NSX EV Concept will be driven by Tetsuya Yamano, who campaigned in last year’s CR-Z-based electric prototype. The NSX EV Concept is the ultimate embodiment of the all-wheel-drive Electric SH-AWD powertrain featuring a world’s first technology that enables four-wheel independent torque allocation.
The Concept’s Electric SH-AWD powertrain produces three times the total system output of last year’s electric prototype and is mated to the NSX body.
“We’ve been tuning the car for several weeks at Pikes and have advanced its performance significantly,” said Tetsuya Yamano. “We’re honored to be running at Pikes in this historical, anniversary year – an event respected by racing fans all over the world.”
Honda R&D has been developing “super handling” technology for more than 20 years in the pursuit of ideal vehicle handling. By applying separate Twin Motor Units (TMUs), the brains of Sport Hybrid SH-AWD, on each axle, the NSX has achieved independent torque distribution to all four corners – true four-wheel torque vectoring. Based upon the learnings from last year’s race, the team updated the system management of the powertrain for more precise thrust at each wheel.
The NSX’s unique Sport Hybrid SH-AWD technology utilises the highly responsive acceleration characteristics and regeneration capability of electric motors to further advance the torque vectoring systems currently applied to the NSX. The system enables ideal handling characteristics in various driving situations by co-ordinating and managing all dynamic systems, including Electronic Power Steering (EPS), Vehicle Stability Assist™ (VSA®) and Sport Hybrid SH-AWD.
With its high-output electric motors and 4-motor torque vectoring, the Concept is well suited to the demands of the 156 complex corners the driver will encounter on the 19.9 km drive up Pikes Peak, Colorado. Participants start at an altitude of 2862 m and finish the drive at 4302 m.
The Pikes Peak event starts on June 26.
The Renault-Nissan Alliance is installing 90 new charge spots for electric vehicles in and around Paris for the COP21 global summit on climate change. The installation is being done in partnership with French energy provider EDF, Schneider Electric, Aéroports de Paris, Paris City Council and SNCF, France’s national railway company. The charging stations, several of which will be donated by Schneider Electric, will refuel 200 EVs serving as VIP shuttles for negotiators, delegates and media attending the conference. More than 20,000 U.N. participants from 195 countries are expected to attend the 21st annual Conference of Parties (known as COP21), from Nov. 30 to Dec. 11.
“COP21 is a call to action to reduce the impact of climate change--including global warming resulting from personal transportation,” said Renault-Nissan Chairman and CEO Carlos Ghosn. “Electric vehicles are the only existing, practical and affordable transportation solution to our planet’s environmental challenges – and they are available today. Expanding the EV infrastructure is mandatory for any city or state that’s serious about environmental stewardship.”
The quick and standard EV charging stations will use renewable and extremely low-carbon electricity from EDF, enabling the Renault-Nissan fleet to cover more than 400,000 km in two weeks. The quick charging stations will recharge EVs from 0 to 80% capacity in about 30 minutes. EVs consume any form of electricity used in the power grid, including hydropower, solar and wind energy. As countries reduce dependence on fossil fuels and increase reliance on renewable resources, EVs become even greener.
The COP21 charging stations in the Paris region will use electricity with a small carbon footprint. The French power grid distributes electricity with a very low average of CO2 emissions per kWh: less than 40 g in 2014, compared to the European average of 325 g of CO2 emissions per kWh. Renewable energy accounted for about 19% of France’s electricity last year.
“EDF supports the development of electric mobility, which is a cornerstone of countries' efforts to minimize urban pollution. EDF produces extremely low-carbon electricity in France, which enables a significant reduction in greenhouse gas emissions and thus reinforces the favorable ecological footprint of this new generation of transport,”said EDF Chairman and CEO Jean-Bernard Levy. In addition, EDF is offsetting the remaining CO2 emissions through carbon credits generated by projects certified by the United Nations. That means the Renault-Nissan EV fleet will use electricity considered fully “decarbonized.”
Fourteen of the 27 quick chargers installed will remain after the climate change conference and will be available for the public to use. These include two at Charles de Gaulle Airport, two on the Paris périphérique highway and one at Orly Airport. France already has about 10,000 quick and standard charging spots. In the Paris region alone, there are more than 4,000 spots, making Paris one of the most “plugged in” cities in Europe.
Nissan Motor Co., Ltd. unveiled a concept vehicle that embodies Nissan's vision of the future of autonomous driving and zero emission EVs: the Nissan IDS Concept. Presenting at the show, Nissan president and CEO Carlos Ghosn said: "Nissan's forthcoming technologies will revolutionize the relationship between car and driver, and future mobility." After leading the development and expansion of EV technology, Nissan once again stands at the forefront of automotive technology. By integrating advanced vehicle control and safety technologies with cutting-edge artificial intelligence (AI), Nissan is among the leaders developing practical, real-world applications of autonomous drive technology.
In August 2013, Ghosn said that by 2020 Nissan plans to equip innovative autonomous drive technology on multiple vehicles. Progress is well on track to achieve this goal. Nissan Intelligent Driving is Nissan's concept of autonomous drive technology and represents what Nissan believes next-generation vehicles should be. "Nissan Intelligent Driving improves a driver's ability to see, think and react. It compensates for human error, which causes more than 90 per cent of all car accidents. As a result, time spent behind the wheel is safer, cleaner, more efficient and more fun," continued Ghosn.
By the end of the next decade, expect to see Nissan Intelligent Driving technology deployed on cars in cities around the world.
Some have compared a future with autonomous drive to living in a world of conveyer belts that simply ferry people from point A to B, but the Nissan IDS Concept promises a very different vision of tomorrow. Even when the driver selects Piloted Drive and turns over driving to the vehicle, the car's performance - from accelerating to braking to cornering - imitates the driver's own style and preferences. In Manual Drive mode, the driver has control. The linear acceleration and cornering are pure and exhilarating. Yet behind the scenes, the Nissan IDS Concept continues to provide assistance.
Sensors continually monitor conditions and assistance is available even while the driver is in control. In the event of imminent danger, Nissan IDS Concept will assist the driver in taking evasive action. In addition to learning, the Nissan IDS Concept's AI communicates like an attentive partner. From information concerning traffic conditions, the driver's schedule to personal interests, Nissan IDS Concept's AI has what is needed to help create a driving experience that is comfortable, enjoyable and safe.
"A key point behind the Nissan IDS Concept is communication. For autonomous drive to become reality, as a society we have to consider not only communication between car and driver but also between cars and people. The Nissan IDS Concept's design embodies Nissan's vision of autonomous drive as expressed in the phrase together, we ride," says Mitsunori Morita, Design Director.
Together, we ride is clearly demonstrated in the interior design. "The Nissan IDS Concept has different interiors depending on whether the driver opts for Piloted Drive or Manual Drive. This was something that we thought was absolutely necessary to express our idea of autonomous drive," says Morita. Even though it is a hatchback, the Nissan IDS Concept's long wheelbase enables comfortable seating space for four adults. But the cabin becomes even more spacious when the driver selects Piloted Drive. In this mode, the steering wheel recedes into the center of the instrument panel and a large flat screen comes out. Various driving-related operations are handled by AI, voice and gestures from the driver. The interior, which is comprised of natural materials such as mesh leather, is illuminated by soft light. All four seats rotate slightly inward, facilitating easier conversation. It's like relaxing in a living room.
When the driver selects Manual Drive, the roomy interior transforms to put the driver in control. All seats face forward. The steering wheel, which takes styling cues from reins for horse riding, appears along with driving meters and a heads-up display that shows route and other driving information. Interior lighting switches to blue, stimulating the ability to concentrate. Nissan's use of hollow-structure A-pillars helps ensure excellent visibility by reducing blind spots and also contributes to the feeling of open space. "In every situation, it is about giving the driver more choices and greater control. And the driver will remain the focus of our technology development efforts," Ghosn said at the show. The transformation to Manual Drive can be carried out with ease through a switch between the front seats called the PD Commander. This is the only control the driver can physically operate when the car is in Piloted Drive: when the driver is ready to take over driving, a physical action should initiate the change.
For autonomous drive to be widely accepted, people need to fully trust the technology. Through its innovative communication capabilities, the Nissan IDS Concept promotes confidence and a sense of harmony for those outside the car as well. Various exterior lights and displays convey to pedestrians and others the car's awareness of its surroundings and signal its intentions. The car's side body line, for example, is actually an LED that Nissan calls the Intention Indicator. When pedestrians or cyclists are nearby, the strip shines white, signaling that the car is aware of them. Another electronic display, which faces outside from the instrument panel, can flash messages such as "After you" to pedestrians. This natural, harmonious system of communication signals a new future with cars.
Design Director Mitsunori Morita says: "By the time Nissan Intelligent Driving technology is available on production cars, EVs will be able to go great distances on a single charge. Getting to this point will, of course, require the further evolution of batteries, but aerodynamic performance is also very important. We incorporated our most advanced aerodynamic technology in the design of the Nissan IDS Concept."
The height of the full carbon fibre body was constrained to 1,380 mm, sharply minimising aerodynamic drag (Cd). Positioning the tyres close to the corners of the body maximises interior space while enabling a wrap-around cabin design. Nissan selected large-diameter wheels for high-performance and sportiness, but used very thin 175-size tires to minimise air and roll resistance. The wheels have a layered design suggestive of thin fins that create tiny vortexes of air flow on the wheel's surface. This design further contributes to smooth air flow.
The icicle pattern on the Nissan IDS Concept's grille symbolizes a pure and clean design - perfect for an EV. Shaped like a stack of ice blocks, the grille pattern appears transparent. The car's bluish satin silver body color heightens the impression of a comfortable and secure cabin space.
At Nissan's annual shareholders meeting in June, Executive Vice President Hideyuki Sakamoto said: "Our zero emission strategy centres on EVs. We are pursuing improved electric powertrain technologies, such as motors, batteries and inverters, which will enable us to mass produce and market EVs that equal or surpass the convenience of gasoline-powered cars."
The Nissan IDS Concept is fitted with a high-capacity 60 kWh battery, and thanks to its outstanding aerodynamics, low stance, flowing form and reduced weight due to its full-carbon-fibre body, the vehicle is designed to also meet the need to drive long distances. Other technologies on the Nissan IDS Concept include Piloted Park that can be operated by smartphone or tablet, and wireless charging technologies. Through these, the driver can leave parking and charging to the car. In order for our car-based society to be sustainable, complex issues ranging from sustainable energy supplies to climate change, air pollution and traffic safety must be addressed. At Nissan, we have set zero fatalities and zero emissions as aspirational targets in our mission to help create a sustainable car-based society.
Over 90% of traffic accidents are caused by human error. Nissan IDS Concept's extensive system of sensors and AI are designed to provide enhanced safety performance compared to a human driver. This technology brings us a step closer to the goal of zero traffic fatalities. EVs produce no CO2 emissions and their batteries can store energy from renewable sources and turn it into electricity for homes and buildings. As the number of EVs increases, entire communities will be able to harness their power as part of a sustainable energy plan. Then, as EVs come to play a central role in energy supply, we will come that much closer to becoming a zero emission society.
Nissan believes that the Nissan IDS Concept will evolve into a leading innovation for next generation mobility and our quest for making these "two zeroes" a reality. Featuring Nissan's most advanced safety, driving-control and EV technology—all taken to a new level by AI—the Nissan IDS Concept is a compelling showcase of a promising future.