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The Extreme E series, which is the off-road version of Formula E, will enter its second season this year after an exciting inaugural season in 2021. Although 3 of the original venues on the calendar could not be used due to concerns about the COVID-19 pandemic, the organisers still managed to finish the season with 5 rounds in different parts of the world.

This year, there will again be 5 rounds with 7 teams taking part; last year, 9 teams took part. Each team has to have one male and one female, with both taking turns to drive on the competitive stages.

Abt CUPRA Tavascan XE all-electric rallycar in action during the 2021 Extreme E series.

Two Dakar Rally veterans
The Abt CUPRA XE team, which finished 5th overall last year, is among the entrants and its drivers will be Nasser Al-Attiyah and Jutta Kleinschmidt. Both drivers are veterans in off-road events, with Qatari Al-Attiyah having won the Dakar Rally 4 times, his most recent win being this year’s event. German driver Kleinschmidt, who drove for the team in 4 rounds last year, is also a Dakar Rally (2001) winner and is still the only woman to win the world’s toughest rally.

Updated rallycar
The duo will use the new CUPRA Tavascan XE which was shown in concept form about 5 months ago. It is an updated version of the 2021 rallycar and is powered by a 54 kWh battery pack, placed behind the cockpit which contributes to an optimal vehicle weight distribution. It can accelerate from 0 to 100 km/h in around 4 seconds.

The CUPRA Tavascan XE is more sustainable and environmentally-focussed than before. It comes equipped with 3D-printed parts to improve adaptability and make repairing the vehicle far easier and quicker, a crucial consideration when the event venues are in remote areas.

While the bodywork of the all-electric racing vehicle hints at the design language that will be seen on the future series production CUPRA Tavascan, the platform is similar to that used by other teams. Known as ODYSSEY 21, it has a common package of standardised parts and is manufactured by Spark Racing Technology. This encompasses a niobium-reinforced steel alloy tubular frame, as well as crash structure and roll cage, whilst the tyres are designed especially for the extreme conditions by Continental Tyres, a founding partner of the series.

“I’m very excited,” said Al-Attiyah, 51, who has won over 60 rallies and 13 titles. “I believe this is going to be a massive experience for me as the Extreme E Championship is a step forward towards a better future. I’m proud to have joined the CUPRA tribe for this adventure, and I know we can do a great job. The team’s background, combined with the experience of Jutta and me, can consolidate all the great work so far. We are really determined, and the goal is to win. I can’t wait to be sat in the car and start having fun. Let’s make the most of this opportunity!”

First round in Saudi Arabia again
The first round of the 2022 Extreme E series will be on February 19 and 20 in Neom, Saudi Arabia, which should be familiar territory to Al-Attiyah and Kleinschmidt. His closest rival in the desert would be Sebastian Loeb, who has won the World Rally Championship 9 times and is familiar with the Dakar Rally. Loeb’s team mate in the X44 Team, Cristina Gutierrez, has also participated in the Dakar Rally and Extreme E last year. Another veteran off-road driver with experience in Saudi Arabia is Carlos Sainz, who will be in the Acciona | Sainz XE team.

A ship is used to transport the vehicles and equipment to each location, reducing the carbon footprint of the Extreme E series.
At each venue, the participants learn about the environmental issues that need to be addressed and help to create awareness. Researchers also accompany the organisers to conduct studies and collect information, with a Science Laboratory on board the ship for them to use.

The other side of Extreme E
As in the first season, transportation of the vehicles and other equipment to each location is by ship. This is to minimise the carbon footprint Extreme E and though slower, travel by sea is a less carbon-intensive equivalent compared to using aircraft. The ship, called the St. Helena, has been re-engineered to be more efficient and includes a Science Laboratory for use by the researchers who follow the series and conduct environmental studies at each location.

Apart from providing the excitement of motor racing, Extreme E will also be used to raise awareness of environmental and climatic challenges that the world faces, particularly looking at the ecosystems selected for the races. In the case of Saudi Arabia, where the first round will be held, focus will be on the desertification there which epitomises the challenges of the global climate crisis and the importance of regreening and encouraging resilient ecosystems.

If Sir Alec Issigonis was designing the original Mini today, chances are it would have an electric motor. When it was launched in 1959, it was not just a little car but one which saved fuel at a time when there was an oil shortage caused by the Suez Crisis. Within its small footprint, creative use was made of the available space to accommodate four persons with their luggage.

The original Mini showed creative use of space in a small car.

Living on in a sustainable way
Although the original Mini was retired and its succeeding generations have charted a new course for the model, many units still exist around the world. With the MINI Recharged project which converts classic Minis to electric drive, the Mini legacy continues in the 21st century in a sustainable way.

The conversion of classic Minis to an electric drive combines traditional values with future-oriented technology. The idea was born even before the carmaker had a fully electric car. As a one-off, a classic Mini Electric was built in 2018 and presented at the New York Auto Show. The reactions were so positive that a dedicated team from MINI Plant Oxford set to work and developed the plan to offer a conversion to those who had the original Mini.

Changes are ‘reversible’ later on
To experience traditional go-kart handling with an emission-free drivetrain, the original petrol engine of the classic Mini is replaced by a modern electric drive. Only reversible changes are made to the substance of the car during the conversion as part of MINI Recharged. Careful handling of the historical heritage is an important part of the concept.

This makes it possible to restore the classic Mini to its original condition at a later date. During the conversion, the original engine of each vehicle is marked and stored so it can be reused in the event of a future retrofit of the classic Mini.

The MINI Recharged project means a vehicle’s life can be extended in a sustainable way. A classic Mini can now be given a new lease of life, accompanying its owner into the future, whilst maintaining its much-loved heritage. The drive is a modern electric motor that generates a continuous output of up to 90 kW and accelerates the electrified classic Mini from 0 to 100 km/h in approximately 9 seconds.

Classic Mini dashboard with meters positioned in the middle but look closely at the meters (below) and you’ll see that they show drive temperature, the selected gear, range and of course, speed.

The energy is supplied by a high-voltage battery pack, which can be charged with an output of up to 6.6 kW for a range estimated to be around 160 kms. In addition, every electrified classic Mini from MINI Recharged receives the characteristic central instrument cluster, familiar since the early days of the model, but with displays showing the drive temperature, the selected gear, range and speed.

A whole new driving experience
The Mini has been well known as loved for its go-kart character and with the MINI Recharged, that zippiness will still be available with instant acceleration and an almost silent drivetrain. And while original Minis with combustion engines cannot enter the electric or low-emission driving zones of many large cities in Europe, this electrified Mini will be allowed to do so. Thus its owners will be able to drive along the streets of London just like the original owners in the Swinging Sixties and once again be part of the cityscape, without the driver having to pay an environmental tax (congestion charge) beforehand.

The original fuel filler point for petrol (inset) is replaced by a charging port on the Mini Recharged.

In addition, the converted car does not need a new registration (such a conversion is not allowed in Malaysia, which the JPJ has made clear). This, in a way, fits in the aspect of circular economy which the BMW Group promotes. For this project, no new vehicles are being produced and are created from much-loved, existing cars. It allows an original Mini to carry on in a second, more sustainable life.

Today, one in five new MINI models has an electrified drive and now the MINI Recharged project will allow the love of the brand’s classic vehicles to become an experience combining the past and the future.

The modern MINI Electric has been available in Malaysia since 2020 and can be purchased tax-free for the next few years.

These days, it seems that the fully electric Porsche Taycan is setting a new record every few months. Many are speed-related and demonstrate the performance that would be expected of a Porsche. Recently, a Taycan Cross Turismo set another new record which has gone into the the Guinness World Record book and it’s one which sets a new benchmark.

The Taycan Cross Turismo, on its journey, made the greatest altitude change ever achieved by an electric car – 4,842.967 metres – going from inside a mine to the top of the famous Pikes Peak that is at the end of an annual hillclimb event.

Porsche Taycan Cross Turismo

A ‘what if?’ project
The sportscar was driven by a J.F. Musial and his team who are usually behind the camera, creating automotive films and TV shows. Motivated by curiosity, they decided to take the Porsche from the lowest point they could access in America to one of the highest. Their journey covered more than 2,250 kms between the two points.

“It started as a ‘what if?’ – a passion project, mixing our love for cars and travel and taking it to extremes,” explained Musial. “We wanted to drive from the lowest point in America to one of the highest, Pikes Peak – where we’ve spent countless hours filming the famous hillclimb. The project relied on a lot of goodwill, and a car that’s pretty much unique in its mix of abilities.”

Going deep underground
The lowest point in America is Badwater Basin in Death Valley -t 86 metres below sea level. To go any deeper, you have to go underground. And so the team did exactly that, with the cooperation of Eagle Mine in the state of Michigan. The nickel and copper mine is the only mine in America where a car can be driven to sufficient depths, down a ramp usually used by specialist mining vehicles.

Porsche Taycan Cross Turismo

Porsche Taycan Cross Turismo

Due to the Taycan Cross Turismo being a pure battery electric vehicle (BEV) as well as being capable off-road with its raised ride height and all-wheel drive, it met Eagle Mine’s criteria for being allowed to drive through the portal and into the tunnel itself and down to 540.8 metres below sea level.

The Taycan Cross Turismo was an ideal choice as it is one of very few cars in the world with the right mix of capabilities to be able to attempt the trip. It needed no modification and even used  completely standard road tyres.

Porsche Taycan Cross Turismo

Porsche Taycan Cross Turismo

“It was fitting to have the Porsche Taycan drive to the bottom of our nickel and copper mine, as both elements are essential to electric vehicles. After numerous risk assessments, safety discussions, and detailed planning, our mine team was up to the challenge. We are proud to have worked with Porsche to safely execute and complete a new world record,” said Darby Stacey, Managing Director of Eagle Mine.

Climbing almost 5 kms vertically
With their precise depth measured and verified by specialist surveyors, the team emerged from the mine just after dawn and began their journey to Pikes Peak in the state of Colorado. The journey was among the most demanding the car and team had ever experienced. It would take them across 6 states, and would ascend 4,842.967 metres – without ever leaving the ground.

The oxygen available to them at the start of the journey fell by 40% by the time they reached the top of the mountain. However, the electric powertrain – unlike a combustion engine – did not suffer from the effects of thinner air. Nevertheless, the varied conditions, including snow and ice, gave the Taycan Cross Turismo a strong challenge.

Porsche Taycan Cross Turismo

In total, 3 groups of drivers working in tandem took on the driving duties. They conducted the whole attempt by the book, with separate, sealed GPS devices monitoring their route and altitude throughout – along with an analogue altimeter and witness logs to satisfy the strict Guinness World Records requirements.

Fittingly it was Dai Yoshihara – class winner at the 2020 Pikes Peak International Hill Climb – behind the wheel for the final, record-breaking stage of the drive. The team of record-breakers had covered a total of nearly 5 kms straight up, and 2,274 kms along the ground, in 33 hours and 48 minutes.

Porsche Taycan Cross Turismo

Car manufacturers are constantly introducing new technology in their models, often (but not always) starting at the top end due to the high initial cost. The innovative technology may be unique to the manufacturer and is described in detail but gets lost as the model it is in may also be significant as well. But over time, the innovative technology starts to spread to other models and becomes a standard feature. Two examples would be the Mercedes-Benz MBUX and Peugeot’s i-Cockpit which can be found in every new model each manufacturer launches.

Renault too has a new breakthrough in on-board technology that it is now introducing, and it would be worthwhile remembering that it first appeared at the beginning of 2022. It’s called OpenR and takes the touchscreen to a new level. In time, it will surely start to appear in other new models to come.

Renault OpenR

Evolution of displays over 35 years
The first production car with a touchscreen was the Buick Riviera some 35 years ago. Since then, in-vehicle electronics have come a long way, with the hardware becoming more efficient, the experience smoother, and screens getting larger and having higher resolution. Navigation is now effortless and intuitive, and the applications can be easily updated ‘over the air’, so they always perform at their best.

And one thing hasn’t changed much recently: multimedia systems in vehicles are looking more and more like smartphones. The main challenge for Renault when developing its new Megane E-TECH Electric was to offer an even better interface enabling customers to find everything they need very fast and intuitively.

Totally new electronic architecture
To achieve this, an electronic architecture like nothing the market has seen before was developed. It modernises driver assistance systems and enhances viewing comfort, and the Megane E-TECH Electric is the first car to get it.

From where the driver is sitting, the striking feature of Open R is its sweeping digital display made of up two screens forming an ‘L’. The vertical 12-inch screen is on the car’s centre console, with a horizontal 12.3-inch screen is built into the dashboard, behind the steering wheel.

Renault OpenR

Together, the two screens span 774 sq. cm. and maximise the display area to provide an immersive experience. They are the biggest screens Renault has ever built into a vehicle, with the glass panels blending into the cockpit’s lines. They are in the best position for the driver to see it and operate easily, to take full advantage of the multimedia capabilities without taking their eyes off the road.

CMF-EV platform
The technical feat overlaps with the arrival of the all-new CMF-EV platform for electric vehicles. Thanks to it offering new design flexibility, the engineers were able to move the air-conditioning unit into what used to be called the ‘engine bay’ (but now has only an electric motor). This freed up more space in the cockpit which, in turn, allowed the centre console to have a large and flush screen. The shifter and MULTI-SENSE interface are also transferred to the steering wheel, improving ergonomics and opening up more space in the middle of the passenger compartment and on the centre console.

While touchscreens and digital displays have allowed many functions to be placed on the screens, Renault’s designers have not been ‘excessive’ in this trend. They maintain some physical buttons – for example, to adjust the air-conditioning – in a subtle way beneath the central screen. This line of chrome-plated buttons looks natural in the cockpit and avoids the ‘fake’, unused buttons beneath the console that previous vehicle generations often had.

Renault OpenR

Like the latest smartphones, the OpenR screen (made by Continental) uses aluminosilicate-based Gorilla-type glass. It is tempered, ultra-resistant to shocks, scratch-proof and estimated to last 15 years. It comes with anti-reflective and anti-smudge coating. The ultra-fine contouring protects the screen’s edges. The HD quality of the TFT panel and finish combine to yield crystal-clear images.

The dashboard screen also has anti-reflective coating, and uses advanced micro-blinds technology (the technology that privacy screens for computers use). This means the ‘visor’ that usually shields the meters from sunlight is no longer needed – so the interior design is even sleeker. As for brightness, the panels adapt to outdoor light levels, so they are easier to read and don’t tire the eyes of the driver.

Renault OpenR

With OpenR, the user experience is said to be a lot like having a smartphone built into the car. This is a good approach since most people would be very familiar with their smartphone. That way, they don’t have to learn to use a whole new system.

Linked to Google ecosystem
Android Auto and Apple CarPlay are available but the interface is designed to avoid having to use a phone altogether. All the features are at users’ fingertips, and the OpenR Link system runs on the Android OS, so all the familiar apps are there. Being associated with the Google ecosystem means that drivers can have all the classic and favourite apps brought into the car, and they also enjoy customisation like on their smartphone. And being plugged into Google’s ecosystem also means that the car can be part of their ‘digital life’.

These include the popular Google Maps which, on a screen that is 6 times bigger than an average smartphone screen, will give a much better user experience. Google Maps has also been optimised for electric cars and includes a route planner specifically for such zero emission vehicles. The planner can factor in real-time vehicle data, weather information and other variables to suggest a stop at a charging station, tell the driver what the battery charge level will be on arrival at that charging station, and tell them how long it will take to charge the battery. It can also estimate the battery charge level when the car reaches its destination.

2022 Renault Megane E-TECH Electric

Renault OpenR

As many drivers have found, using Google Maps means that they can get updated maps as millions of users help contribute and improve Google’s database. So unlike earlier on-board navigation systems where owners had to periodically obtain new digital maps (for a fee), Google Maps is constantly updated – and it’s free.

On the hardware side, Renault chose American specialist Qualcomm which has supplied its third-generation Snapdragon Automotive Cockpit platform. This is built around an ultra efficient processor that has plenty of extra capacity to handle future applications. As a result, the motion on the screen is 7 times smoother than with the previous generation. Qualcomm will also offer its expertise in connectivity, digital cockpits and visualisation, its service platform, as well as driver assistance – including autonomous driving.

Renault OpenR

However, the screens, computing power and system also require some form of ‘intelligence’ behind the human-machine interface (HMI). For that, Renault approached South Korea’s LG Electronics, which developed the software platform to pair the two screens so the driver can display the navigation maps on the display behind the steering wheel.

The new Renault Megane E-TECH Electric.

The future of the auto industry is electric and Proton does not intend to be left behind. Soon, electric vehicles may appear in Proton showrooms although they may not be Proton products. The Malaysian carmaker has signed a Memorandum of Agreement (MOA) with China’s smart Automobile Company (smart) which is a joint-venture company between Mercedes-Benz AG and Zhejiang Geely Holding Group, the parent company of Proton.

The agreement will see Proton collaborating via Proton Edar with smart to introduce the latter’s range of New Energy Vehicles (NEV) into the ASEAN automotive market. For a start, Proton Edar will be appointed as the importer, distributor and dealer for smart in Malaysia and Thailand. smart Automobile (Nanning) Sales Co. Ltd. (a  fully owned subsidiary of smart Automobile), will fulfil the role of a gateway for smart to the region.

NEVs are battery electric vehicles (BEVs) which are a new generation of vehicles that will be designed by the Mercedes-Benz Design network and developed by the Geely global engineering network. Production is in China for global markets. As part of the vehicle-development program, the smart product portfolio will be extended into the fast-growing B-segment that are in line with smart’s brand positioning with a focus on pure premium electric and connected vehicles.

“With the signing of the MoA, Proton is taking its first steps on its New Energy Vehicle strategic journey. By  collaborating with smart, we will be able to gain experience in the selling, servicing, and charging of NEVs and build up the skill sets we require to be a force in ASEAN’s rapidly expanding NEV sector. This is also an opportunity to tap on smart’s customer base, which will open up more opportunities for the Proton brand,” said Dato’ Sri Syed Faisal Albar, Chairman of Proton.

Marketing in Malaysia and Thailand
The MoA with Proton Edar is for the company to establish a multi-level sales and service network in Malaysia and Thailand, as well as a brand experience centre and a number of sales locations, providing the two markets with sales and aftersales services for smart vehicles.

From the description of the MoA, it does not appear that there is any technical collaboration such as transfer of technology or product development and the statement also stresses that ‘currently, there are no plans to collaborate beyond the tenets of the agreement’. This would mean that smart vehicles will be imported and distributed by Proton Edar as an additional business activity, and the vehicles will also not use the Proton brand.

However, as mentioned by the Proton Chairman, it will be an opportunity for the carmaker to gain experience and knowledge about electrification and BEVs which it would also have to offer at some point in the future. Whether the relationship with smart evolves into something broader (eg joint product development) remains to be seen.

The Proton EMAS city car concept by Giugiaro in 2010 was proposed with a hybrid electric powertrain.

Electrically-powered cars are not unknown at Proton. In the 1990s, the first known project was initiated with a company in California to develop electric Wiras, but it never went far. Then, eleven years ago, the company’s EMAS prototype city car proposed by Giugiaro had a hybrid electric powertrain. It has also done R&D on electric powertrains over the past 10 years but has not brought a model to the market.

Proton Saga EV prototype displayed in 2012.

History of smart brand
As for smart, the name may be familiar to some Malaysians as the original smart cars were sold in the mid-2000s, imported by DaimlerChrysler Malaysia (now Mercedes-Benz Malaysia). The smart company (which was founded by the man who created the Swatch watches) had been acquired by Mercedes-Benz which invested heavily to make city cars. However, it may have been a bit ahead of its time and though having a clever design (the vehicles used combustion engines), the relatively high prices and compact size were not so appealing globally. Perhaps the Japanese would have appreciated it but they already had their own kei cars.

Mercedes-Benz tried to make the smart business work and even tried to offer a larger model called the smart forfour that sat on a Mitsubishi Colt platform. That too didn’t sell too well and smart as a company was closed down, with the products being placed under the Mercedes-Benz division up to 2019. To try to keep the brand going, Mercedes-Benz formed a partnership with Geely which would see smart-branded vehicles – using electric powertrains – being developed and produced in China for sale globally.

The original smart cars were sold in Malaysia in the mid-2000s by DaimlerChrysler Malaysia (now Mercedes-Benz Malaysia).

“The smart brand has a unique value and global influence, it has grown to be a leader in urban mobility. Geely Holding will fully support the smart brand with its full advantages in R&D, manufacturing, supply chain and other fields into the joint venture and support its development in China and globally. We will work together with Mercedes-Benz to transform the smart brand into a leading player in urban premium, electric and connected vehicles to successfully develop the brand’s global potential,” said Li Shufu, Geely Holding Chairman.

Like most Italian carmakers, Maserati has motorsport in its long history. Twelve years after its founding by the Maserati brothers, Alfieri, Ernesto and Ettore, the first racing car to bear the Trident logo was the Tipo 26 which was entered in the 1926 Targa Florio in Italy. It won first place in its class with Alfieri at the wheel.

During the 1920s and 1930s, the Maserati garage built racing cars for sale all over the world, while also producing road cars with the high performance demonstrated on the racetracks. 31 years after Alfieri’s first victory, Juan Manuel Fangio won the Formula 1 World Championship with a Maserati in 1957. The last time Maserati entered a single-seater was with Maria Teresa De Filippis, the first woman to qualify in F1, who drove a 250F.

Maserati’s last appearance in racing was during the first decade of the 21st century with the MC12. Its teams won 22 races and 14 Championship titles across Constructors’ Championships, Drivers’ Championships and Teams’ Championships in the FIA GT from 2004 to 2010.

In 2023, the brand will again be seen on the starting grid of races as it joins the ABB FIA Formula E World Championship in 2023 for Season 9. It will be the first Italian brand to compete in Formula E, the all-electric single-seater world championship that will be the 8th season this year.

Maserati will be the second brand in the Stellantis Group to participate in Formula E, the other being DS from the Citroen affiliate which has been racing since 2018. The company’s racing team is now developing a new racing car which conforms to the Gen3 regulations which will see the fastest, lightest and most powerful Formula E racing car ever. The Gen3 is the world’s most efficient racing car featuring a series of industry-leading design, production and technological innovations.

Maserati’s entry into Formula E is in line with its move and commitment to electric mobility. This strategy will see the introduction of Folgore, a new sub-brand that will have a range of battery electric vehicles (BEVs). Folgore versions will be available for the Grecale, GranTurismo and GranCabrio, as well as the MC20.

“We are very proud to be back where we belong as protagonists in the world of racing. We are powered by passion and innovative by nature. We have a long history of world-class excellence in competition and we are ready to drive performance in the future. In the race for more performance, luxury, and innovation, Folgore is irresistible and it is the purest expression of Maserati. That’s why we decided to go back to racing in the ABB FIA Formula E World Championship, meeting our customers in the city centers of the world, taking the Trident forward into the future,” said Davide Grasso, CEO of Maserati.

Maserati’s confirmed entry is good news for the event’s organizers with Audi, BMW and Mercedes-Benz ending their participation. McLaren has also indicated its interest in taking part in Formula E but has not given details of when they might start. With the accelerating impetus of electrification, some other brands might also see it useful to be in Formula E to show their strengths in the EV field.

Since inception in 2014, Formula E has provided dramatic racing action on the streets of cities around the world such as New York, Monaco, Berlin, Mexico City, London and Rome. For manufacturers like Nissan, Porsche, NIO, Mahindra, Jaguar, DS, BMW, Mercedes-Benz and Audi, developing cars for racing has led to finding new solutions in increasing energy efficiency, enhancements in battery range and advances in powertrain development.

Subaru Tecnica International, the carmaker’s motorsports division which Subaru fans know more as ‘STI’, is looking ahead to the era of electrified vehicles, and inevitably a time will come when motorsports will go fully electric. As it is, there is already a single-seater all-electric series (Formula E) and in the recently-ended Dakar Rally in Saudi Arabia, Audi entered three electrically-powered rallycars.

To prepare for the new era, STI has initiated  the E-RA Challenge Project as a near-future motorsport study project. This project (‘E-RA’ stands for ‘Electric-Record-Attempt’) has the aim of gaining experience and training of new technologies in the world of motorsports in the carbon-neutral era. The insights gained from this project will help Subaru contribute to the future electrified society.

2022 Subaru STI E-RA Concept EV

To complement the studies that will be carried out, STI has developed the STI E-RA concept car which is on display at the Tokyo Auto Salon this weekend. The first goal of this model is to try to record a lap time of 400 seconds (6 minutes 40 seconds) in a time attack at Germany’s Nurburgring circuit from 2023 onwards. Before then, driving tests will be conducted at circuits in Japan during 2022 as part of the development program.

Subaru’s strength and long experience in in all-wheel control technology will be used to develop systems for the control of the high outputs. With 4 motors, these will reach maximum system output level of 800 kW (1,088 ps) and reach the road using proprietary 4-wheel torque vectoring technology

The unique torque vectoring system is a technology that equalizes the balance to the grip limit of each of the 4 wheels with a driver-focused control system. It raises the grip level to the maximum and stabilizes car body position.

2022 Subaru STI E-RA Concept EV

In order to obtain the maximum effect, the best way is to independently apply the optimum drive torque to the 4 wheels as the load shifts. To realize this, the system calculates the signals from sensors in wheel speed, vehicle speed, steering angle, g-force, yaw rate, brake pressure, and wheel load, determines the drive/braking torque of each wheel to gain a target stability factor, and provides instructions to the inverter.

For the motors, a high-torque high-revolution type with an integrated inverter and a gear for hyper EVs, which were developed and supplied by Yamaha Motor have been adopted. This motor is driven by a lithium-ion battery with a storage capacity of 60 kWh.

2022 Subaru STI E-RA Concept EV

The structure where the motors are directly attached to the 4 wheels enables a high level of responsiveness and a direct control of the yaw of the car body. Since this is considered to be a system which can maximize a vehicle’s kinetic performance, and is included in the regulations for future motorsport (FIA E-GT), STI will follow the direction for development.

For those who have not followed the changes in Cadillac, the quintessential American automobile brand, their products are no longer the huge and heavy ‘aircraft carriers’ they once were. In fact, since the 1980s, the General Motors subsidiary has been ‘downsizing’ in response to energy concerns and the need to look for socially acceptable.

It now has to transform again for the electrified era and future personal mobility. With the vast resources of General Motors to draw on for development of entirely new electrically-powered models, Cadillac will soon be coming out with new cars that maintain its reputation of premium luxury travel.

2022 Cadillac InnerSpace concept

Vision of personal autonomous future mobility
At CES 2022 this week, the company showed one vision of personal autonomous future mobility with the InnerSpace concept. This is a futuristic 2-passenger fully electric and autonomous luxury vehicle which is part of the brand’s Halo Concept Portfolio. This portfolio represents future possibilities with a range of personal autonomous options and advanced connected vehicle features. Leveraging cutting-edge technologies designed to enhance the passenger experience along with the increased personal time enabled by fully autonomous mobility, the InnerSpace grows the Halo Concept Portfolio.

“The vehicles of the Cadillac Halo Concept Portfolio are designed to provide effortless travel through extraordinary means,” said Bryan Nesbitt, GM Executive Director, Global Advanced Design and Global Architecture Studio. “They are visions for the next decade and beyond, showing the possibilities enabled by General Motors’ comprehensive approach to autonomous drive technology with the goal of a world with zero crashes, zero emissions and zero congestion.”

Cadillac Halo Concept Portfolio
Cadillac introduced the first two Halo concepts last year at CES: the PersonalSpace, a single-seat, personal vertical take-off and landing concept designed to literally move its passenger above the din and congestion of ground traffic; and the SocialSpace, a roomy, autonomous vehicle for up to six, designed to help passengers relax and recharge.

Conceptually, the portfolio repurposes how passengers use their time while traveling, providing a space for solace and respite. Full autonomy relinquishes the responsibility of vehicle control while dramatic design and advanced technologies maintain the sensation of arriving in a Cadillac.

2022 Cadillac InnerSpace concept

In fact, technologies such as biometric input and AI machine learning are harnessed and complement Cadillac’s luxury environment to support unique wellness experiences. Through software-defined features and advanced vehicle connectivity, the Concept Halo Portfolio could offer each passenger a truly personalized experience made possible by GM’s Ultifi software platform. The experiences showcased within the Halo Portfolio demonstrate the potential as both Ultifi and autonomous technology continue to evolve.

“Electrification and autonomous driving will fundamentally change the role of vehicles and the experiences customers have with them,” said Nesbitt. “We’re exploring where that will go with these innovative concepts, envisioning mobility as an ally of wellness, giving customers the ultimate luxury, more personal time rather than taking it.”

Reimagining the luxury experience
Early in Cadillac’s history, compact and personal Runabout models enabled customers to explore new and wider horizons. The new InnerSpace concept reimagines that as a vision, with a fully autonomous experience that allows the two occupants to focus on their journey rather than driving.

2022 Cadillac InnerSpace concept

The vehicle’s fully autonomous capability means they can give more attention to the world around them. Inside too, they will have more personal and tailored experiences that add new dimensions to motoring. AI-driven biometric input and interfaces, accessible via a large, immersive and panoramic SMD LED display, will allow passengers to select from Augmented Reality Engagement, Entertainment and Wellness Recovery themes for their drive. Thanks to Ultifi, Cadillac engineers and authorized third parties will be able to innovate additional themes and features that can be added over the air.

With the Ultium Platform’s wireless battery management system, the battery modules are spread about the concept vehicle, which allowed designers to optimize the cabin for spaciousness and serenity. This design freedom also allowed for a low-profile floor, providing an extremely low, sports car-like seating position.

2022 Cadillac InnerSpace concept

The InnerSpace design features expansive, panoramic glass on the roof and part of the body sides for almost unimpeded views. The roof opens with the doors for more comfortable entry and egress, and the seats also pivot outward when the doors are opened, enhancing the effect.

Even the tyres are designed to contribute to its solace. Specially developed by Goodyear for electrified vehicles, they feature SoundComfort technology designed to help mitigate soundwave resonance within the tyre for a quiet ride, while soybean oil and rice husk-based silica replaces petroleum-based oil as a key ingredient in their construction. And because autonomous driving takes away some of the driver’s connection with the road, Goodyear SightLine, Goodyear’s tyre intelligence technology, conveys important information about pressure, temperature, load and other performance factors.

2022 Cadillac InnerSpace concept

For the brands that sell high-performance cars, going electric has added challenges. They need to not only ensure that the electrically-powered cars offer the same sort of performance levels their customers expect from their brand but also new requirements like charging times and range. The latter especially was not so important before as customers are okay with high fuel consumption and can refuel as needed. With an electric car, you cannot ‘refuel’ as easily and at this time, it still takes a while to recharge battery packs (although that time is getting shorter),

For a company like BMW M, which has built up a reputation producing cars with superlative performance, going electric meant that they had also to be able to offer the same kind of performance. Drawing on the BMW Group’s expertise in the field, BMW M also had its own specialized skills to develop electric cars worthy of the M badge.

2022 BMW iX M60

3.8 seconds from 0 to 100 km/h
The first BMW M automobile designed for purely electric mobility from the outset – the new iX M60 – should provide reassurance to fans of M. With an output of 455 kW/619 ps and maximum torque of up to 1.015 Nm, it has a claimed standstill to 100 km/h time of 3.8 seconds and can go over 250 km/h but is limited to that top speed. With a fully charged battery pack, factory tests have shown it to be able to travel up to 566 kms.

The 111.5-kWh battery pack can be recharged using a DC fast-charger and add 150 kms of range within 10 minutes. Leave it connected to the charger longer and after 35 minutes, the energy content can be up to 80% from 10%.

2022 BMW iX M60

The suspension technology of the iX M60 includes a double-wishbone front axle, a 5-link rear axle and electric steering with Servotronic function and variable ratio. In addition, there’s adaptive dual- axle air suspension with electronically-controlled shock absorbers. The dual axle air suspension ensures the optimum vehicle height at any speed, regardless of the load. The air supply to the suspension is regulated individually for each wheel and can thus also compensate for uneven loading.

The damper forces are adaptively controlled with an M-specific characteristic via continuously adjustable valves, which take into account longitudinal and lateral acceleration, road speed and steering angle as well as body and wheel acceleration on the front axle in order to activate the required damper force within a few milliseconds.

BMW IconicSounds Electric
Like all BMW i models, the iX M60 will have BMW IconicSounds Electric with specific characteristics for its M exclusivity. The emotional soundtrack that the occupants will hear was created in a collaboration between film music composer and Academy Award winner Hans Zimmer and BMW Group Creative Director Sound Renzo Vitale.

2022 BMW iX M60

Even pressing the START/STOP button is acknowledged with an inspiring acoustic signal. While driving, the BMW IconicSounds Electric provide authentic feedback to every movement of the accelerator pedal. The sound of the drive is characterized by a particularly energy-charged sound development. The sound characteristics are based on the setting selected with the Driving Experience Control Switch.

Milestone for BMW M
The debut of the iX M60 marks a milestone in the history of BMW M, 50 years old this year, as it enters the segment of electrified performance cars. Like all recent BMW fully electric models, the architecture is completely new and designed for electric powertrains. So the full benefits are exploited and performance can be optimized. The iX M60’s performance, efficiency and range also benefit from its optimized aerodynamics which give it a Cd of 0.26 (in Sport Mode).

2022 BMW iX M60

Lightweight construction principles
The vehicle concept of the iX provides an ideal basis for an all-electric SAV with high-performance characteristics. Both the body structure and the design principle as well as suspension set-up are geared towards combining ride comfort with sporty handling characteristics. The aluminium spaceframe concept and the carbonfibre cage with carbonfibre reinforced plastic (CFRP) in the roof, side and rear sections are an intelligent mix of materials that combines increased rigidity with optimized weight.

The use of CFRP to reduce weight has a long tradition at BMW M. The particularly lightweight high-tech material already achieved great results in combining engine performance and weight in the M3 CSL which was introduced in 2003. In fact, BMW M pioneered the use of CFRP in large-scale automotive production and today uses it in numerous current models as part of the intelligent lightweight construction principle.

The high-voltage battery is located deep down in the underbody, lowering the vehicle’s centre of gravity for agile handling as well as balanced axle load distribution. Like the other models, the iX M60 also has an extensive range of driver assistance systems. A new generation of sensors, a new software stack and a powerful computing platform also provide considerable potential for consistently advancing automated driving and parking functions – with level 3 functionality in the medium term.

2022 BMW iX M60

Future modular system
The iX M60 combines its typical M performance characteristics with the exceptionally advanced technology of the BMW Group’s new future modular system in the areas of automated driving, operation, connectivity and digital services. This creates an experience of premium mobility that is unique in the competitive environment. The completely redeveloped interior architecture also contributes to this, creating an exceptionally generous feeling of space.

 

Before 2020, flying had become commonplace with low-cost carriers making it possible for almost anyone to fly. For Malaysians, heading off the Penang or the East Coast for the weekend was replaced by quick trips to Phuket in Thailand or Bali in Indonesia. Then COVID-19 attacked the planet and that changed things. People are flying again but it’s no longer the same and with the strict procedures and quarantines in different countries, it is also not enjoyable.

So Car Design Research (CDR — a UK based agency) has come up with the idea of the Budget Airline Car. No, it’s not another flying car but it is aimed at providing alternative to flying, short-haul in particular, by using a large super-efficient low-cost electric car. Such a car might be appealing for people who don’t want to be close to hundreds of others in airports and aircraft cabins, or who want to help save the planet by not using the most environmentally damaging form of transport: the short-haul flight.

Budget Airline Car by CDR 2022

Conceived during the lock-down in Britain last year, the Budget Airline Car is a concept for a new type of car design that would produce only 2% of the emissions per passenger compared to a short-haul flight. The core concept was developed closely with CDR design associates Yichen Shu in China and Aditya Jangid in India, both of whom then designed subtly different exterior design themes.

Today, an increasing number of new cars are electrified, full of connected services, with increasing autonomous capabilities. But. in design. they are not so different to cars from 20, even 50, years ago.  Almost all still seat the driver and passenger on separate seats up front, and two or three behind, with one separate space at the rear for luggage accessed from outside.

It’s a formula that works, so why change it? Well, there are two big reasons: because the way people live has changed since this design pattern was established 100 years ago; and because new technologies are unlocking the potential for design change. There’s a third and fourth reason to change too: because globally we are facing a climate emergency, and because we are in the midst of a pandemic — both huge imperatives for truly new types of car design.

Budget Airline Car by CDR 2022

The CDR team looked at this context of a fast-changing world and saw opportunities for car design. They came up with 6 new car types that would be enabled by new technologies, and that would be part of uniquely pertinent future scenarios. One of these focused on being an alternative to the short-haul flight — the form of transport most at the heart of today’s imperatives to change because it creates an increasingly untenable level of environmental damage. COVID-19 concerns also make being in airport queues and airplane cabins less desirable.

So, the core concept for the Budget Airline Car is for a shared super-efficient car to be offered by budget airlines or hire car brands as an alternative service to short-haul flights. A short-haul flight is defined as a journey of up to 3 hours, or up to 1,100 kms. That’s the flying distance from Kuala Lumpur to Bangkok or Jakarta.

Budget Airline Car by CDR 2022

The car would seat 6 people in 3 rows and as passengers may not know each other (just as on a flight), each would have a dedicated seat with their cabin baggage securely stored within easy reach. This would have greater privacy and space than afforded by existing cars’ second and third row seats.

This three-seat row layout can be realised within an overall length of 5 metres, despite each seat space being equally large, because of the benefits of compact electric motors. The 2-person wide layout also contributes to a reduced frontal area compared to a car designed to seat three people side-by-side.

Budget Airline Car by CDR 2022

The electric powertrain would be developed for long-distance mid-speed cruising, rather than high performance, and the design would prioritise aerodynamics. The length of 5 metres would make the Budget Airline Car as long as a current Volvo XC90, but its 1.8-metre width and 1.5-metre height would give it 20% less frontal area. This, along with a more slippery shape/lower drag coefficient, would make it markedly more aerodynamic and thus more energy-efficient.

Budget Airline Car by CDR 2022

Passengers could share the driving, with good driving incentivised by the shared-economy digital platform that they access the service through (akin to eBay, Airbnb, and other shared service platforms). A suite of advanced driver assistance systems (ADAS) would aid safety, with fully autonomous drive also becoming available over time.

While the idea may not be as useful in Malaysia, other than going from Kuala Lumpur to Bangkok (and places in between), the design would still offer possibilities for domestic travel around the peninsular. The highway network is already quite well developed so journeys can be smooth and quick. Perhaps instead of being positioned in comparison the a ‘budget airline’, the car could be a premium form of transport that is an alternative to a bus or taxi.

Budget Airline Car by CDR 2022

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