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Ever since the 1990s, Malaysians have come to appreciate the usefulness of the pick-up truck, a vehicle that is fine for town use, for weekend adventures off-road as well as workhorse duties. There have been many choices and among the popular ones today is the Isuzu D-MAX which officially goes into its third generation in the Malaysian market today.

To suit different budgets and requirements, there are no less than seven variants to choose – with double cab or single cab bodystyles, and two engine sizes. It’s all-new from the tyres up, incorporating new technologies for greater strength, reliability, efficiency and longevity… all the qualities that have made the D-MAX so popular.

2021 Isuzu D-MAX 4th Generation

“Isuzu engineers set out to create a stronger, more able and durable machine with this new model. They invested years in development and over 4 million kilometres in testing the new model to achieve the best Isuzu D-Max they have ever created. They then added the soft touches and high-tech features to satisfy the discerning owners who desire comfort and sophistication in their modern-day vehicles,” said the CEO of Isuzu Malaysia, Koji Nakamura.

Isuzu Dynamic Drive Platform
Built on a new Isuzu Dynamic Drive Platform, the all-new Isuzu D-Max employs a new ladder frame that offers improved stiffness and strength to ensure and durability. The integration of the body structure, chassis, powertrain and suspension is balanced to work together as one for better handling. The new suspension configuration and a longer wheelbase allows the engine mass to be located further behind the front wheels, resulting in more dynamic handling and a comfortable ride.

All variants have a new distinctively bold and sporty outlook that has a more SUV appeal. The stylish appearance is functional too as aerodynamic efficiency – not usually talked about with such vehicles – is improved for the new D-MAX.

X-Terrain – the flagship
For those who want the most stylish pick-up truck, the new D-MAX X-Terrain variant will be the one to get. It stands out from the rest of the range with the Valencia Orange or Sapphire Blue body colour.

This new flagship variant comes with a revised 3-litre engine that has been re-engineered and refined with numerous advancements to improve performance and engine response while reducing noise and vibration. The engine produces 190 ps/450 Nm, with peak torque starting from as low as 1,600 rpm and available up to 2,600 rpm. The revised torque curve, together with a new 6-speed automatic transmission, optimises power delivery for any condition and demand.

Exclusive features with the X-Terrain include remote engine start, rear differential lock, wet wiper system, brown leather upholstery for the seats (which have 8-way electronic adjustment including lumbar support), and a 9-inch infotainment touchscreen panel with Android Auto/wireless Apple Carplay for easy smartphone connectivity.

Advanced Driver Assist Systems
The D-MAX X-Terrain also has Advanced Driver Assist Systems (ADAS) to make driving safer and less tiring. The active systems installed are similar to those found in the latest passenger cars. These include Forward Collision Warning, Autonomous Emergency Braking, Lane Departure Warning, Turn Assist, Pedal Misapplication Mitigation, Blind Spot Monitor, Rear Cross Traffic Alert, Manual Speed Limiter, and a Multi-Collision Brake system that applies the brakes should any of the seven airbags be deployed.

Adaptive Cruise Control maintains a safe gap with the vehicle ahead.

For less driving fatigue on long distances or at night, there’s  also Adaptive Cruise Control with stop & go function and Automatic High Beams. The Adaptive Cruise Control maintains a safe gap with other vehicles ahead and can function down to standstill, reactivating when the vehicle ahead moves off. Automatic High Beams will automatically switch to low beams when there is an oncoming vehicle to avoid dazzling the driver, so the driver of the D-MAX does not need to think about it.

Two engine choices
Customers can have style and comfort without sacrificing the proven qualities of the D-MAX which is now not only quieter and more comfortable but also a tougher, more capable and dependable as well. The Premium 4×4 Auto variants – available with either a 1.9-litre Blue Power turbodiesel or the 3-litre turbodiesel – are ideal for those who spend significant hours behind the wheel. The new comfort features and safety equipment in the cabin will ensure that even if there are many hours of motoring, it will be fatigue-free.

Two turbodiesel engine choices for the new D-MAX – 1.9 litres or 3.0 litres, both tuned to run efficiently and reliably on Malaysian B7 or B10 biodiesel.

For workhorse duties
For the price conscious, the two Standard models offer lower running costs with their good operating efficiency. Powered by the capable 1.9-litre turbodiesel engine with 150 ps/350 Nm and a choice of 6-speed manual or 6-speed automatic transmissions, these variants will be highly effective workhorses in any business.

Also available are two Single Cab variants for those who have significant load-carrying requirements and want a go-anywhere, do-anything truck. There are two engine options – 1.9-litres or 3.0-litres – and like the rest of the range, safety is assured as the latest D-MAX has qualified for ASEAN NCAP’s 5-star rating.

All D-Max variants come with a 5-year/150,000 km warranty (whichever comes first) but for the X-Terrain, Isuzu Malaysia is giving an additional 2 years – and no limit on mileage travelled after registration. This class-leading warranty shows that there is great confidence in the long-term durability of the vehicle.

“This all-new Isuzu D-Max has found many new fans in all the markets it has been launched. It appears to be the case here too in Malaysia where we have received over 1,000 bookings – even before its official launch today. With the strong interest in the all-new Isuzu D-Max, I believe that our target of 6,400 units this year will be achievable,” said the COO, Light Commercial Vehicle Division of Isuzu Malaysia, Masayuki Suzuki.

Prices shown are for private registration in Peninsular Malaysia. Insurance is not included.

Experience the all-new D-MAX
Until May 31, 2021, all authorized Isuzu dealerships will be having ‘The all-new Isuzu D-Max Breaking Boundaries Test Drive’ campaign. This is a great opportunity to experience the vehicle and during the campaign period, there will be exclusive Isuzu merchandise giveaways and a chance to win cash prizes. To locate a showroom in Malaysia, visit pickuptruck.isuzu.net.my/.

Mercedes-EQ’s Nyck de Vries took the chequered flag first in one of the craziest E-Prix in Formula E history, leading home Nico Mueller (DRAGON/PENSKE AUTOSPORT) and his Mercedes teammate, Stoffel Vandoorne. Energy management is central to the racing in Formula E, and with the incident-packed, rain-hit race at the Circuit Ricardo Tormo seeing 5 appearances for the MINI Electric Pacesetter Safety Car, the teams’ carefully calculated energy management strategies were thrown off with the round running a lap longer than had been expected.

De Vries had been happy to sit behind long-time leader Antonio Felix da Costa (DS TECHEETAH) and conserve energy for a late attack. As it happened, that attack turned into a 2-lap sprint following the final spell under the Safety Car. However, only those who’d gone long as contingency, and conserved their usable energy, had enough power left in their cells to complete the extended race distance.

2021 Formula E Rome

Longer race time than anticipated
Dutchman de Vries drove by da Costa as the Portuguese and many around him slowed with the race running beyond its anticipated finish. Mueller and Vandoorne followed – the man stripped of Julius Baer Pole Position on a technicality and sent to the back of the grid incredibly getting his hands on silverware, making the final step on the podium.

Nick Cassidy (Envision Virgin Racing), Rene Rast (Audi Sport ABT Schaeffler), Robin Frijns (Envision Virgin Racing), da Costa, Alexander Lynn (Mahindra Racing), Sam Bird (Jaguar Racing) and Lucas di Grassi (Audi Sport ABT Schaeffler) rounded out the top 10. Jake Dennis (BMW i Andretti Motorsport) and Jean-Eric Vergne (DS TECHEETAH) were the only other drivers who were classified.

With the rain falling and the MINI Electric Pacesetter leading the pack away, da Costa pulled a gap on Maximilian Guenther (BMW i Andretti Motorsport) and Lynn with the pack cleanly away as the race went green, for a lap or two at least. Andre Lotterer and Sebastien Buemi collided at the hairpin – the Porsche man collecting the Nissan e.dams driver – leaving the Swiss stuck in the gravel.

2021 Formula E Rome

ATTACK MODE activations
This brought out the Safety Car for a lengthy spell while recovery of Buemi’s Nissan was underway, with leader da Costa leading the pack away when racing resumed. He was able to get the jump on the rest once again to the tune of 2 seconds once the green flags waved.

Through the first ATTACK MODE activations, it was the young German who pounced first – smart as Guenther had been slipping back down the order. He managed to hold on to fourth with Rowland just behind, and the rest of the top six followed with their initial jump through the ATTACK MODE loop a lap later.

With 25 minutes plus one lap to run, things looked calm and collected for da Costa with the Portuguese firmly in his groove. De Vries held second, 3three seconds back but still 2 seconds clear of Lynn in third. Rowland, Guenther, Sims, Nato, Pascal Wehrlein (TAG Heuer Porsche), Cassidy and Edo Mortara (ROKiT Venturi Racing) rounded out the top 10.

2021 Formula E Rome

Wet and slippery conditions
Guenther’s race came to a sticky end on Lap 10 as the Bavarian’s iFE.21 left the track in tricky, slippery conditions. The BMW snapped under braking as he clipped a white line and despite an armful of opposite lock, Guenther couldn’t prevent the inevitable and ended up trapped in the gravel.

The MINI Electric Pacesetter made another appearance while the BMW was cleared and da Costa shot off early when the race went green once again – with Mercedes’ de Vries all over his diffuser. The Mercedes driver was content to have the Dutchman remain in the DS’ slipstream, though, with energy management looking likely to come to a head towards the final minutes of the race. This would force da Costa into punching a hole in the air and use more energy in doing so, as de Vries let the Portuguese do all the hard work.

5 laps later, Sergio Sette Camara (DRAGON/PENSKE AUTOSPORT) and Mitch Evans (Jaguar Racing) clashed with the Brazilian sent off into the gravel and out of the race and the Kiwi forced to retire in the pits. Yet another spell (the fourth) under the Safety Car followed, while Mercedes informed de Vries he had energy in-hand to push leader da Costa with 13 minutes plus one lap to run.

2021 Formula E Rome

The pack was once again let loose with less than 10 minutes to run, and da Costa controlled things at the restart, though de Vries had a couple of per cent of usable energy in-hand over those around him – the leader still needing to use his second dose of ATTACK MODE. Da Costa intelligently combatted this with FANBOOST used to create the gap needed to jump through the activation zone and stay ahead of de Vries.

Energy management was crucial
By the time the MINI Electric Pacesetter peeled off the circuit after its latest outing, the race had become a straight 2-lap sprint. However, with the Safety Car so busy, and the race running to an extra lap not planned for, only a handful of drivers looked like they’d enough energy to make the finish.

De Vries had worked it best, to take the race win from Mueller and Vandoorne, sending the Dutchman to the top of the standings from teammate Vandoorne and Mercedes-EQ to the summit of the Teams’ pile. Robin Frijns (Envision Virgin Racing) secured the point for TAG Heuer Fastest Lap.

2021 Formula E Rome

Full Season 7 calendar finalised

Formula E and the FIA have also revealed the full calendar for the 2020/21 ABB FIA Formula E World Championship. It has a new race venue and updates to previously scheduled events. The Season 7 calendar is set to host more races than ever before in a single season, comprising 15 races in 8 cities, covering 3 continents.

The final set of races to be announced starts with a new location for the all-electric racing series, with the Puebla E-Prix in Mexico on June 19/20. This replaces the Autodromo Hermanos Rodriguez in Mexico City which has previously hosted 5 Formula E races. It cannot be used now because the circuit is still a temporary field hospital.

The Marrakesh E-Prix and Santiago E-Prix, scheduled for in May and June, respectively, have been removed from the calendar this season due to the ongoing COVID-19 pandemic. Events in Santiago, Sanya and Seoul will be rescheduled for Season 8, with fans in attendance. However, the running of races will still depend on travel restrictions, as well as local government protocols, and the organisers will continue to monitor the ongoing COVID-19 pandemic and communicate changes if any are required.

Visit www.bhpetrol.com.my for more information.

‘Mobility’ is a word that automakers like to use today, some explaining that they are transforming themselves from just being vehicle manufacturers to ‘mobility companies’. Honda too sees itself as a mobility company and indeed, over the 73 years it has been in business, it has developed products that provide mobility for the masses. In fact, it’s the world’s largest power unit manufacturer, making products from power generators used at pasar malams to motorized transport and even jet aircraft.

Honda would like to be regarded as a company that society wants to exist, because of the good things it does and can do. And as a responsible corporate citizen, it also has to consider important global issues concerning the environment and road safety, the latter related to the vehicles it provides.

With reduction of carbon emissions as a priority, Honda has made a firm commitment to achieve carbon neutrality for all its products and corporate activities by 2050. In this way, its business will have zero environmental impact and this will require the use of clean energy and resource recirculation.

In order to achieve this carbon-free goal on a ‘tank-to-wheel’ basis, Honda has decided that by 2040 – just 19 years from now – it will sell only battery-electric vehicles (BEVs) and fuel cell electric vehicles (FCVs). It will no longer sell vehicle with internal combustion engines (ICE) that generate pollution, even if much has been done in past decades to bring pollution from exhaust emissions down (Honda’s CVCC system being one of the ways).

Of course, between now and 2040, the phasing out of ICE vehicles has to be progressive and will start with the more advanced markets where there is already a trend of electrification. In fact, Norway has already reported that sales of fully electric vehicles have overtaken ICE vehicles in that country. The ratio of electrified vehicles will be 40% by 2030 and then doubled to 80% by 2035.

The company has identified North America as one of the regions where it will pursue the targets and has formed an alliance with GM to achieve electrification in North America efficiently. The two companies are jointly developing two large EV models using GM’s Ultium batteries which will enter the market in 2024 under both the Honda and Acura brands.

Starting from the second half of the 2020s, Honda will launch a series of new EV models which adopt e:Architecture, a completely new EV platform developed by the company. These EV models will first be introduced to the North American market, and then to other regions of the world.

China, the world’s largest automobile market, will also see a similar progression to EVs and during the next 5 years, at least 10 Honda-brand models will be introduced. In fact, the first of these will be the SUV e:prototype which is scheduled to go on sale in early 2022.

SUV e:prototype, unveiled in Shanghai this week, will go on sale in 2022 as the symbolic first Honda-brand EV in China.

Japan, Honda’s home market, will see a sales ratio of 20% EVs by 2030, 80% by 2035 and 100% by 2040. However, if including hybrid models, 100% of automobile sales in Japan can be electrified by 2030. There will also be a K-car EV in 2024 as well.

It will be interesting to see how Honda deals with markets which do not have firm policies concerning EVs. Obviously the company won’t want to stop selling altogether but conditions could be difficult if prices of EVs do not come down sufficiently for the masses to afford. Right now, in countries like Malaysia, the fact that EVs have to be imported in CBU form makes them very expensive and low numbers will not be encouraging for companies, even less so to consider local assembly that could help offset the high production costs. Even then, a poor recharging infrastructure will be a discouraging factor to consumers and this would need government support to establish comprehensively and extensively.

Cruise Origin self-driving vehicle.

In the area of mobility services (MaaS), Honda will introduce the Cruise Origin, an electric self-driving vehicle. The company is currently developing jointly the vehicle with GM and Cruise, for the Japanese MaaS market in the mid-2020s.  On a broader scale, Honda will continue to work on the concept of Honda eMaaS (mobility services) by connecting electrified mobility products and energy service. Honda eMaaS will have three core areas: Expansion of the utilization of Mobile Power Packs; utilization of large-capacity batteries for electrified vehicles; and application and implementation of fuel cell systems.

Regarding fuel cell systems, hydrogen is expected to be popularized as a renewable energy source and Honda has a long history of R&D in hydrogen fuel cell vehicles (FCVs). It was one of the first carmakers to produce a FCV which was successfully used on a commercial basis and its collaboration with GM will see reduced costs and expansion of its line-up of FCVs and also using FC systems for a wide range of applications.

Honda has many years of experience in developing fuel cell vehicles (FCVs). In 2008, it introduced the FCX Clarity which had a hydrogen fuel cell to generate electrical power.

Honda will strive for zero traffic collision fatalities involving Honda motorcycles and automobiles globally by 2050. The major challenge we will face as we work toward this goal is how to eliminate motorcycle collision fatalities, especially in emerging countries. As a company that has both motorcycle and automobile businesses, we will continue to strengthen our research on safety technologies that enable motorcycles and automobiles to safely coexist and lead the way in realizing a collision-free society from the standpoint of both hardware and software.

As for road safety and the 2050 objective of zero traffic collision fatalities involving motorcycles and cars, Honda will apply omnidirectional ADAS (advanced driver-assistance system) to all new automobile models on sales in developed countries by 2030. However, the high accident rates occur in less developed or emerging markets where there are very high numbers of motorcycles. In such areas, particularly in emerging markets, there are many collisions that can be prevented through traffic safety education activities and by approaching the issue from the perspective of infrastructure and government policies. Therefore, Honda will focus also on such areas including strengthening of educational programs and government/industry relations activities.

Future Honda models will have sensors that can scan all round the vehicle to reduce collisions with other road-users, especially motorcyclists.

In order for Honda to keep making progress in its environmental and safety initiatives, it will be necessary for the company to invest in the R&D. This investment will not be influenced by fluctuations in sales revenues and Honda declares that it will invest a total of approximately 5 trillion yen as R&D expenses over the next 6 years.

Honda has been actively developing EV models since the 1990s, some of which have gone on sale in selected markets. By 2040, its range will consist entirely of EVs.

“As of last fiscal year, we enabled Honda R&D to focus on the research of advanced technologies, and we are conducting research on leading-edge environmental and safety technologies for the realization of a society that aims for zero environmental impact and a collision-free society. Also, we are making progress with research on technologies which will expand mobility into the 3rd and 4th dimensions, into the skies, the ocean, outer space and the area of robotics. We will strengthen our original research of technologies by ensuring optimal allocation of resources into the area of advanced and cutting-edge technologies,” said Toshihiro Mibe, Honda Motor’s new President and Representative Director who took over the position from Takahiro Hachigo at the beginning of this month.

“My hope is to hear people saying, ‘We are glad Honda exists’ or ‘Honda will definitely do it’. Honda wants to continue to be a company that people want to exist. That is what we want to achieve,” Mr. Mibe said during his inaugural speech as new President.

Visit www.bhpetrol.com.my for more information.

The built-in headlights in every car today have been around for about 100 years and over the decades, the lighting systems have evolved to make the illumination stronger, giving a better view of the road or ground ahead. From making headlights more powerful, the engineers have also been making them operate ‘intelligently so that optimum illumination is achieved with changing conditions.

Driving in the dark can be stressful, especially on unfamiliar, winding roads. Ford is therefore working on a new technology to increase comfort and safety when driving after sunset. The company has already done pioneering work in the camera-based recognition of traffic signs and lane markings to optimize headlights in order to better illuminate streets in the dark, especially at intersections.

Now, engineers from Ford Research and Advanced Engineering Europe are testing technology that uses real-time location data to effectively show the car the way to go. The predictive ‘smart’  headlight system directs beams into upcoming corners – even before drivers may have seen them, illuminating hazards and other road-users more quickly and effectively.

How it works
The prototype advanced lighting system uses GPS location data, advanced technologies and highly accurate street geometry information to accurately identify turns in the road ahead. An algorithm calculates the trajectory and speed of the vehicle to proactively adjust the direction of its headlights, providing optimal light coverage of bends, junctions – and even hazards lurking around the corner.

If the vehicle encounters a stretch of road where location data is not available, the system will work alongside camera and steering‑based dynamic headlight-bending technologies to continue to intelligently light the road until the location data improves.

Researchers have made extensive use of ‘digital twin’ simulation that recreates the physical world in a virtual environment. The simulator accurately calculates how light falls and reflects in the real world, enabling researchers to better visualise and optimise the technology for drivers. The Ford researchers used a simulation that reproduces the real world in a virtual environment. The simulation environment calculates the correct reflection of the headlights as in the real world, so that the researchers can visualize the lighting technology realistically and optimize it in terms of traffic safety.

“The predictive lighting technology we are now developing could one day make driving in the dark so easy that the driver basically just has to follow his headlights,” said Michael Koherr, Lighting Research Engineer, Ford of Europe. “This new map and location-based system is the next step in our search for how we can make driving at night as easy as it is during the day.”

Road Edge Detection – available today
The advanced lighting technology will complement another new technology that Ford has developed which can be especially useful on rural roads at night – Road Edge Detection. Roads in rural areas can be tricky as they may not only lack proper lane markings but also give way to open land, muddy ditches and sheer drops.

Ford’s new technology can help make rural driving easier as Road Edge Detection scans the road ahead and can gently steer the vehicle back on track when needed. Designed for use at speeds of 70 – 110 km/h, Road Edge Detection relies on a camera located below the rearview mirror to monitor road edges 50 metres in front of the vehicle and 7 metres to the side.

How it works
Where a paved road becomes a soft side, gravel hard shoulder or grass, the system provides gentle steering support as required to prevent the vehicle from drifting off the carriageway. The system features an advanced algorithm that determines when there are clear structural changes from the road to the area beside the road. It can also provide steering support on marked roads when the lane marking is obscured or hidden by snow, leaves or rain.

If the driver is still close to the edge following initial steering support, the system vibrates the steering wheel, to prompt the driver to steer. At night, the system uses the illumination from the headlights and functions as effectively as during the day.

While predictive lighting technology is still under development, Road Edge Detection is already available in Europe on certain models and will be offered in more models in future the way advanced safety systems like Pre-Collision Assist and Automatic Emergency Braking have been progressively included in almost all models.

To experience Ford’s safety technologies, ask any authorised Ford dealer for a test-drive. To locate a dealership in Malaysia, visit www.sdacford.com.my.

Cycle & Carriage was the company that brought Mercedes-Benz to Malaysia 70 years ago; in fact, it was one of the first official importers of the German cars in Asia. While it is no longer the distributor in Malaysia, it continues to have a strong and dominant presence in the retail and aftersales side and has continued to upgrade the facilities in its Autohaus network.

C&C Bintang JB showroom

C&C Bintang JB showroom

Largest Mercedes-Benz Autohaus in the south
The latest example of its investments is in Johor Bahru where its outlet has been upgraded to become the largest Mercedes-Benz Autohaus in the southern region. The built-up area covers 142,000 square feet on a site that is over 224,000 square feet located along Jalan Skudai in the Tampoi area.

As with every Autohaus, the environment offers the luxurious automotive retail experience that would be expected from the brand. State-of-the-art technology and systems are incorporated to presents a retail experience that addresses the customer’s individual needs. Designed with a large open space and supplemented with custom daylight-emitting spotlights allows the customer to experience the true colours of the cars, all intentionally arranged in an arc to maximise visibility of every model displayed. Customers are invited to explore freely and fully immerse themselves in a journey across various touchpoints supported by digital tools and the latest in multimedia.

C&C Bintang JB showroom

More than just ‘a point of sales’
The new retail experience allows for more face-time interactions between customers and the service team, making it more than just ‘a point of sales’ and instead, a point of experience. Even beginning the journey of owning a Mercedes-Benz is an experience of its own. Designed as a “black box” concept, the vehicle delivery room enables an experience-oriented journey of the hand-over process that is personal and memorable.

Mercedes-Benz Certified Body & Paint Centre
Besides the enhanced showroom, the Autohaus also has the only accredited and authorised Mercedes-Benz Certified Body & Paint Centre in the southern region. It is equipped with the latest automotive innovation and technologies as well as expertise to conduct structural repairs while upholding global safety standards specified by the manufacturer. With 35 work bays, up to 850 vehicles can be serviced each month, with owners enjoying the convenience of ‘Drop & Go’ and ‘Door-to-Door’ services as well.

C&C Bintang JB showroom

“For more than 26 years, Cycle & Carriage has brought the Mercedes-Benz brand and experience to the southern region through our Johor Bahru Autohaus. Today, we unveil the latest manifestation of the Mercedes-Benz’s definition of luxury and all its accoutrements. This milestone could not have happened without the outstanding support from our partner, Mercedes-Benz Malaysia, and our remarkable team here. We are honoured to continue being entrusted to complement every vehicle bearing the world-renowned 3-pointed star with our Cycle & Carriage brand of exceptional service to our customers,” said Wilfrid Foo, CEO of Cycle & Carriage Bintang, at the recent opening of the facility.

“The future of automotive retail represented here is a concept that weaves the key elements of our design philosophy – sensual purity and spaciousness; it is more than just architecture. It creates an experience that seamlessly blends simplicity and craftsmanship that are unique to the brand,” said Dr. Claus Weidner, President & CEO of Mercedes-Benz Malaysia.

The National Vaccination Program in Malaysia is free of charge.

With electrification in the auto industry accelerating, it’s only a matter of time before motorsports sees an increased presence of electrically-powered cars. In fact, the first all-electric championships are already running, the longest to date being Formula E for single-seaters which began in 2014. This year, Extreme E has started as an electric version of the Dakar Rally.

However, Formula E and Extreme E are like Formula 1 in that the racing cars are very different from road-legal cars. Now, the FIA has announced the creation of all-new technical regulations for electric-powered GT cars, featuring several technical innovations, including fast charging.

Formula E and Extreme E are already creating interest in electrically-powered motorsports.

“The market for high-performance electric road supercars is on a constant rise, hence a platform to allow manufacturers to develop and showcase their technology was much needed. Creating these technical regulations has been a key project for the FIA GT Commission over the last 18 months. We’ve held regular discussions with GT manufacturers through our Technical Working Groups and there’s keen interest in this new category. It also widens the FIA’s GT portfolio, coexisting alongside with GT3 which will remain the focus of the customer racing market worldwide for the time being,” said Leena Gade, FIA GT Commission President.

FIA Electric GT category

This pioneering concept embodies a unique combination of innovations never before seen in motorsport to date and is intended to serve manufacturers as a platform to develop technology relevant to their high-performance roadcars. The cars built to this set of technical regulations will compete at full-length permanent circuits and will set new standards for electric vehicles in motorsport in terms of performance and range.

This new breed of racing cars will operate in a similar performance window to the current generation of GT3 cars but will exceed their combustion engine-powered counterparts in areas such as acceleration and qualifying pace.

Cutting edge tech with cost control
The new class is based on direct manufacturer involvement, with the technical regulations prepared to achieve the right balance between permitting the carmakers and constructors to express themselves in terms of creativity and developing cutting-edge technology while, at the same time, preventing cost escalation.

FIA Electric GT category

The category will be open to both specialists in electric vehicle construction without previous combustion engine motorsport experience as well as manufacturers already committed to the GT3 class, who will be able to utilise the architecture and certain design elements of their existing cars and convert them to electric power.

Depending on the base model, the minimum weight of the cars will vary from 1,490 to 1,530 kgs, with maximum power reaching 430kW (equivalent to 585 bhp). Setting the weight threshold higher than it is for the GT3 class will limit the use of expensive materials.

Fast charging
The new class will be the first in electric-powered motorsport not to rely on standardised batteries. It will accommodate cars of vastly different architectures with different spaces available to install key components.

FIA Electric GT category

Through partnership with industry-leading firm Saft, a subsidiary of Total, the category will allow the manufacturers to build their own bespoke battery layouts based on Saft-supplied cells. Relying on Saft’s 100 years of experience in areas such as aeronautics, space programmes, defence and motor sport, Saft has developed bespoke lithium-ion pouch cells optimised for the needs of the new class.

The cells are designed to allow for 700 kW peak regen and 700 kW fast recharging that will enable them to replenish to 60% of their capacity within a few minutes during a mid-race pit stop. The charging network will be developed to meet the fast charging requirements and, depending on the venue, will include elements of permanent and temporary infrastructure.

Road relevance
In addition to fast charging, the category will feature several other innovations relevant from a technology transfer standpoint. All of the manufacturers will have the freedom of choosing their own powertrain set-ups – either two or four electric motors – with both 2 and 4-wheel-drive configurations allowed.

FIA Electric GT category

The cars will also feature dynamic vehicle control that will automatically adjust the torque of each wheel independently based on speed, acceleration, traction and steering angle, thus ensuring that can have supreme handling characteristics.

Sustainable long-term vision
The introduction of this new concept is in line with the FIA’s long-term vision for the implementation of sustainable energy sources across its portfolio of motorsport disciplines, thus setting an example in the approach to the reduction of CO₂ emission while, at the same time, reflecting the latest trends in the automotive industry and responding to the demands of the market.

FIA Electric GT category

“The role of electric propulsion in automotive industry is ever-increasing; as we want motorsport to be relevant to our industry, more and more competitions are going in this direction. The main technical challenges are battery development, battery integration in the cars and fast charging technology. This is crucial to the manufacturers who want to develop road-relevant technology rather than relying on standard components. Also, being able to utilise and adapt GT3 platform ensures that costs are under control,” said Xavier Mestelan Pinon, FIA Technical Director.

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