The BMW i4, fourth model in the German carmaker’s electric BMW i sub-brand, can now be pre-booked in Malaysia. It was first shown in the country at NEXTGen Malaysia in January this year. The retail price starts from RM389,800 (without insurance) with an Extended Warranty & Service Package included. For those who use BMW Group Financial Services Malaysia’s financing plan, monthly instalments can start from RM4,306 (terms and conditions apply).
Customers can choose from Black Sapphire, Mineral White and Dravit Grey for exterior colours which will be supplemented with Sanremo Green, M Portimao Blue and M Brooklyn Grey later in the year. Interior upholstering is available in Black, Mocha and Tacora Red Leather Vernasca.
The new i4, which went on sale in Europe in late 2021, is part of a comprehensive product offensive by the BMW Group in the field of models with electrified drive. The company currently has the biggest range of battery electric vehicles (BEVs) and plug-in hybrid (PHEV) models and by next year, it expects to have 25 models with electrified drive on sale.
Designed by a team led by Kai Langer, Head of BMW i Design, the i4 is the brand’s first Gran Coupe with electric drive in the classic rear-wheel drive layout. The smoothly contoured panels with a clear surfacing language incorporate aerodynamic details that are vital to keeping wind resistance low, particularly for a BEV.
The powertrain is a 5th generation BMW eDrive system which has an electric motor that can generate a maximum output of 250 kW (340 ps) with peak torque of 430 Nm. This gives it a capability of 0 to 100 km/h within a claimed 5.7 seconds.
The eDrive system has a Combined Charging Unit (CCU) with a built-in 4 kW voltage transformer for flexible battery charging. Recharging can be done a domestic power socket, a BMW i Wallbox or DC fast chargers. Depending on the power source, charging time can be 31 minutes (from 10% to 80%) or up to 8.25 hours. A fully charged lithium-ion battery pack will provide up to 590 kms of range, depending on driving conditions.
The version officially imported by BMW Group Malaysia is the i4 eDrive40 M Sport which is equipped with the M Sport package. This has the M Aerodynamics exterior with M High-gloss Shadow Line, 19-inch M Aerodynamic Wheels 860 M Bicolour with staggered widths, and M Sport brakes. Standard on the i4 are BMW Laserlights with Automatic High-beam Control.
The cabin, appointed with Aluminium Rhombicle Anthracite Interior Trim, also has the BMW M treatment with the M Anthracite Headliner, M Leather-wrapped Steering Wheel, while the instrument panel is in Sensatec. Functional features include variable sports steering, electric seat adjuster with memory function, Interior and Exterior Mirror Package, as well as automatic air conditioning.
For entertainment, information and connectivity, the i4 eDrive40 M Sport has the BMW Live Cockpit Professional and BMW ConnectedDrive Services as standard. Additionally, there’s also BMW Connected Package Professional, Intelligent Emergency Call, Teleservices, Smartphone Integration, and a 17-speaker Harman Kardon surround system.
“Sheer Electric Driving Pleasure with a modern, striking yet elegant silhouette – we are thrilled to bring to Malaysia the First-Ever BMW i4 eDrive40 M Sport that retains the hallmark design characteristics of a contemporary four-door BMW Gran Coupe, while also exemplifying the exceptional sporting prowess and efficiency that the fifth-generation BMW eDrive is capable of delivering,” said Hans de Visser, Managing Director of BMW Group Malaysia.
SUVs makes up the largest market segment today and this is the case in every market in the world, even in India where foreign brands have been introducing new SUV models in recent years. The Indian carmakers also have their own SUVs although most are still the more ‘traditional’ type designed more for ruggedness than style.
But that will soon change if a new SUV concept by Tata Motors is any indication. The concept, called CURVV, has a design more like the crossover SUVs of today. It’s an edgy sporty look with a coupe profile that is typical of modern SUV typology. Presumably, the design has been done in-house and is proposed with an electric powertrain as well as a combustion engine powertrain.
In keeping with its SUV image, there is extra ground clearance so it stands tall, with a large offset for the front and rear ends. Cladding with a grooved pattern below the sills give a a visual sense of ruggedness. At the lower front and rear, the protective panels also have a similar pattern.
The lighting concept at the front is unique and whether it will actually be in the production model remains to be seen. There is a thin line that runs across the edge of the bonnet and is illuminated with ultra slim LEDs. Together with triangular shaped headlamps, there is a visual signature for the model. The same full-width LED feature is used at the rear as well, with the LEDs illuminating in red.
Much thought has gone into aerodynamic efficiency and airflow around the pillars has been made as smooth as possible. The wheels also have ‘aeroblade’ inserts to close off the openings which can cause micro turbulence.
The interior has been kept simple with a clean dashboard although the production model might not be as clean when equipment like the audio system and air-conditioning is added. But what is important, according to Tata, has been the integration of new technologies and the Human-Machine Interface (HMI). Apart from more efficient interior packaging, the designers have also aimed for a more premium feel through the use of high quality materials and finishes. To brighten up the interior, there’s a panoramic sunroof which covers much of the roof.
From statements by senior Tata executives, the concept model seems very much like a preview rather than just a showcar. In fact, it is expected to become a production model within the next two years.
“With this magnificent Electric SUV Concept – CURVV, our focus has been to enable customers with a product option that is the perfect amalgamation of modern functionality and design. With a robust SUV DNA at its core, and a plethora of new age materials, features and interfaces, we are confident that this concept will redefine mainstream SUV design,” said Shailesh Chandra, Managing Director, Tata Motors Passenger Vehicles Ltd., and Tata Passenger Electric Mobility Ltd.
“Furthermore, with the concept CURVV, we now enter the Generation 2 EV architecture which will further enhance the adoption of EVs in India by overcoming the current barriers. With this new architecture, we will strengthen the key pillars of range, performance and technology, while retaining safety and reliability,” he added.
While most carmakers have formed alliances and even merged to face the new challenges of the 21st century, Honda has often chosen to proceed alone with its own resources. It has collaborated with other carmakers from time to time in specific areas, and often, it has been other manufacturers wanting to have access to Honda’s technology or products.
However, with the electrification of the industry which has a degree of urgency (with targets set for the end of this decade), even independent-minded Honda has seen it more practical to have closer working relationships with other carmakers. Other Japanese companies have already formed their own collaborative groups – Nissan and Mitsubishi in the alliance with Renault, and Toyota having joint programs with Mazda, Subaru, Suzuki and of course, Daihatsu and Hino which are within its own group.
With an eye on the US market, Honda has chosen to expand its relationship with General Motors to co-develop a series of affordable electric vehicles. This follows on from the 2020 announcement to jointly develop two all-new electric vehicles for Honda, based on GM’s flexible global EV platform powered by proprietary Ultium batteries. The EVs will be manufactured at GM plants in North America with sales expected to begin in the 2024 model year in North America.
For this new joint venture, the EVs will be based on a new global architecture using GM’s next-generation Ultium battery technology. GM’s Ultium batteries are unique in the industry because the large-format, pouch-style cells can be stacked vertically or horizontally inside the battery pack. This allows engineers to optimize battery energy storage and layout for each vehicle design. The cells use a proprietary low cobalt chemistry and ongoing technological and manufacturing breakthroughs will drive costs even lower.
GM’s Ultium battery pack.
Ultium energy options range from 50 to 200 kWh, which could enable a GM-estimated range up to 640 kms or more on a full. Motors designed in-house will support front-wheel drive, rear-wheel drive, all-wheel drive and even performance all-wheel drive applications.
A joint statement says that there will be ‘global production of millions of EVs starting in 2027’ and these will include compact crossover vehicles which today account for the largest segment in the world, with annual volumes of more than 13 million vehicles.
Honda will use GM’s factories in America to build the new EVs, which will also be built in other markets as well.
Both companies will contribute their technology and design expertise as well as sourcing strategies. By standardizing equipment, it is expected that world-class quality, higher throughput and greater affordability can be achieved. A flexible, modular approach to EV development is expected to enable significant economies of scale for lower production costs.
“Honda is committed to reaching our goal of carbon neutrality on a global basis by 2050, which requires driving down the cost of electric vehicles to make EV ownership possible for the greatest number of customers,” said Toshihiro Mibe, Honda’s President & CEO. “Honda and GM will build on our successful technology collaboration to help achieve a dramatic expansion in the sales of electric vehicles.”
Prototype of Prologue SUV BEV.
“The progress we have made with GM since we announced the EV battery development collaboration in 2018, followed by co-development of electric vehicles including the Honda Prologue, has demonstrated the win-win relationship that can create new value for our customers,” added Shinji Aoyama, Senior Managing Executive Officer at Honda. “This new series of affordable EVs will build on this relationship by leveraging our strength in the development and production of high quality, compact class vehicles.”
Earlier projects involving the two carmakers have focused on electric and autonomous vehicle technologies. In 2013, the two companies began working together on the co-development of a next-generation fuel cell system and hydrogen storage technologies. In 2018, Honda joined GM’s EV battery module development efforts.
They also have an ongoing relationship with Cruise and are working together on the development of the Cruise Origin, one of the first purpose-built fully autonomous vehicles designed for driverless ride-hail and delivery. The Cruise project, which involves Microsoft, is part of Honda’s new mobility business in Japan.
Cruise Origin autonomous vehicle.
GM and Honda will also discuss future EV battery technology collaboration opportunities, to further drive down the cost of electrification, improve performance and drive sustainability for future vehicles. GM is already working to accelerate new technologies like lithium-metal, silicon and solid-state batteries, along with production methods that can quickly be used to improve and update battery cell manufacturing processes. Honda is making progress on its all-solid-state battery technology which the company sees as the core element of future EVs.
“GM and Honda will share our best technology, design and manufacturing strategies to deliver affordable and desirable EVs on a global scale, including our key markets in North America, South America and China,” said Mary Barra, GM Chair & CEO. “This is a key step to deliver on our commitment to achieve carbon neutrality in our global products and operations by 2040 and eliminate tailpipe emissions from light duty vehicles in the USA by 2035. By working together, we’ll put people all over the world into EVs faster than either company could achieve on its own.”
electric exhaust gas turbochargerThe trend of downsizing engines which has been going on for the past 20 years has been apparent in all segments and even sportscars now see engines with smaller displacements, but still able to generate high outputs to maintain high performance. New technologies have helped in this respect, and for companies like Mercedes-AMG, technologies developed for Formula 1 cars are being adapted for road cars.
This is the case with the SL 43, a new entry-level version of the roadster range. In the 70 years of its development history, the SL has evolved from a thoroughbred racing car to an open-top luxury sportscar – and it has typically had large and powerful engines. For this new model, there is a 2-litre 4-cylinder engine which may depart from the norm of V8s but is not new to the SL either. In the 1950s and 1960s, there were also SL models with 1.9-litre engines with 4 cylinders too.
The 2-litre engine in the new SL 43 is a M139 unit and lays claim to being the first in the world with an electric exhaust gas turbocharger for a production model. This technology comes from Formula 1, having been used in the multiple championship-winning racing cars of the Mercedes-AMG Petronas F1 Team for many years.
Electric exhaust gas turbocharger
The electric exhaust gas turbocharger employs an electric motor around 4 cm thin integrated directly on the turbocharger shaft between the turbine wheel on the exhaust side and the compressor wheel on the intake side. Electronically controlled, this drives the shaft of the turbocharger directly and thus accelerates the compressor wheel before the exhaust gas stream starts to drive it conventionally. It works at speeds of up to 170,000 rpm, which enables a very high airflow rate.
The advantage of having this little motor is significantly improved and immediate response from idle and across the entire engine speed range. The combustion engine (similar to the ones used in models like the C-Class) responds even more spontaneously to accelerator pedal input, while the electrification of the turbocharger enables higher torque at low revs. Even when the driver takes their foot off the accelerator or applies the brakes, the technology of the electric turbocharger is able to maintain the boost pressure at all times enhancing response.
The motor, powered via the 48V on-board electrical system, along with the turbocharger and power electronics are connected to the engine’s cooling circuit to ensure an optimal temperature environment at all times. Maximum output is 381 bhp at 6,750 rpm, with 480 Nm of torque available between 3,250 rpm and 5,000 rpm. Depending on the situation, the system can also provide a boost of 14 bhp briefly from the belt-driven starter generator (RSG). The second-generation RSG, in addition to the temporary power boost. enables functions such as gliding mode and energy recovery for greater efficiency.
The electric exhaust gas turbocharger technology comes from the Formula 1 racing cars of the Mercedes-AMG F1 team.
AMG SPEEDSHIFT MCT 9G transmission
Drive to the rear wheels is through the AMG SPEEDSHIFT MCT 9G transmission (MCT = Multi-Clutch Transmission) which is used for the first time. A wet start-off clutch replaces the torque converter, its advantage being reduced weight and, thanks to its lower inertia, optimised response to accelerator pedal input, especially during spurts and load changes. There is also the RACE START function for quicker departures from standstill.
Performance claims show that this entry-level version is no less worthy of the SL badge, wit its ability to go from 0 to 100 km/h in 4.9 seconds and reach a top speed of 275 km/h. Fuel consumption, depending on the driver’s behaviour, can be up to 11.2 kms/litre, it is claimed.
Aluminium composite structure
The latest R232 series SL has a completely new architecture developed by Mercedes‑AMG. The new dimensional concept allows a 2+2 seating configuration for the first time since 1989. Constructed from lightweight aluminium composite, the chassis consists of an aluminium space frame with a self-supporting structure for maximum rigidity. The bodyshell architecture focusses on lateral and longitudinal dynamics while offering comfort and ensuring safety.
In the new SL, the intelligent material mix enables the highest possible rigidity at a low weight. The materials used include aluminium, magnesium, fibre composites and steel, from which the windscreen frame is made, for example. This serves as roll-over protection in conjunction with the roll-bar system behind the rear seats which pops up at lightning speed when needed.
Entry-level model features
While the overall form and SL proportions are similar, the exterior of the SL 43 has some details which differ from the two 8-cylinder models. For example, it has differentiated front and rear aprons as well as round instead of angular double tailpipe trim. 19-inch light-alloy wheels as standard but customers can also opt for aerodynamically optimised light-alloy wheels with diameters of 20 or 21 inches. The 20-inch wheels come with plastic aero rings that save additional weight.
Active aerodynamics
A technical highlight for improving aerodynamics is the AIRPANEL active air control system. The horizontal louvres behind the upper air intake are electronically controlled and can be opened and closed with actuator motors. In this way, the airflow is directed according to demand, thus improving aerodynamic performance.
Normally the louvres are closed to reduce air resistance. Should certain operating temperature levels be exceeded, the louvres will open and allow cooling air to flow to the heat exchangers. This calls for highly intelligent and fast control. When the temperature drops below the defined level, the louvres will automatically close again.
The same applies to another active aerodynamic component – the retractable rear spoiler integrated into the car’s profile. It changes its position depending on driving conditions. Numerous parameters are considered to determine the position – driving speed, the longitudinal and lateral acceleration and steering speed are among the factors. The spoiler can assume 5 different angles when speeds are more than 80 km/h to either optimise handling stability or reduce drag.
Lightweight fabric soft top
The latest SL uses a soft top instead of the previous metal vario-roof, removing 21 kgs of weight. The Z-fold saves space and weight, and makes it possible to dispense with a conventional soft-top compartment cover. For convenience, an electric motor opens and closes (at speeds up to 60 km/h) the soft top within 15 seconds. Switching to a soft top also lowers the centre of gravity, benefitting driving dynamics and handling.
‘Hyperanalogue’ cockpit
The interior of the SL 43 has a combination of analogue geometry and the digital world which the designers refer to as ‘hyperanalogue’. This is exemplified by the fully digital instrument cluster which is integrated into a three-dimensional visor. The symmetrical instrument panel is designed as a powerful wing and structured into an upper and lower section. The highlight on the dashboard are the 4 galvanised turbine nozzles which surfaces merge into the instrument panel in the form of powerful power domes. Despite symmetry, the cockpit design creates a clear focus on the driver.
“In its long history, the SL has repeatedly set technological milestones. For example, while the legendary 300 SL Gullwing in 1954 was the world’s first series-produced passenger car with direct petrol injection, the new Mercedes-AMG SL 43 is now the very first series-produced vehicle with an electric exhaust gas turbocharger. With this technology, the SL also has an outstanding performance range in its entry-level version. This means that our seemingly smallest SL combines the typical AMG Driving Performance with luxury and comfort at the absolute top level. What’s more, with this innovative engine we are undoubtedly also appealing to a wider clientele,” said Philipp Schiemer, Chairman of the Board of Management of Mercedes‑AMG GmbH.
Virgil Abloh may not be a familiar name to many, but he was a collaborator with Mercedes-Benz on various design studies, particularly related to luxury products. Abloh, who passed away last year, was an artist, architect, engineer, creative director, artistic director, industrial designer, fashion designer, musician, DJ and philanthropist. As such, his visions and ideas were of much interest to Gorden Wagener, Mercedes‑Benz Group AG Chief Design Officer.
Together, they worked on projects such as Project Gelandewagen and Project MAYBACH and now, Abloh’s cooperation with Mercedes–Maybach culminates in the launch of a limited-edition bespoke S-Class and capsule collection, inspired by Project MAYBACH. It’s the final chapter of Project MAYBACH and is available in a strictly limited run of 150 units.
The Project MAYBACH electric showcar.
The launch coincides with the release of a capsule collection designed by Abloh and in collaboration with Off‑White. It has been developed in connection to the Project MAYBACH electric showcar and is exclusively available to buy on Off‑White, Farfetch and Maybach Icons of Luxury online stores, as well as Off‑White stores in select markets.
The limited edition Maybach by Virgil Abloh is a fully equipped Mercedes‑Maybach S‑Class S680 which follows the tradition of the ultra-luxury brand that has a history of over a century. It has been created by Mercedes‑Benz’ most specialised customization and craftmanship team. The exterior features the unique two-tone colour combination created for Project MAYBACH, with the upper part lacquered in a glossy obsidian black and the lower part, side flanks and special forged rims painted in a sand hue.
Superlative levels of craftsmanship will be evident throughout the cabin which has an identical two-tone colour scheme. The 4-seat configuration, steering wheel, doors, lower dashboard and ceiling are lined in black and sand-coloured nappa leather, complete with sand-coloured decor trims and strips. The highpile floormats are black with a sand-coloured leather border and embroidered Mercedes‑Maybach logo.
To enhance its monolithic appearance, the window frames are painted, and a special Mercedes-Maybach and Virgil Abloh logo is inscribed on the piano black middle of the centre console, rear cushions, head restraints and door sill panel.
Unique to the limited-edition S‑Class is a bespoke user interface which presents the driver with an even more luxurious variation of the Maybach MBUX suite of cutting-edge technologies. Han picked visual elements are used to enrich the digital content. For example, the home button has a coloured border and brand logo denoting the edition, and profile pictures are decorated with luxurious fashion accessories.
All customers will be given a special custom-made wooden box covered in sand-coloured nappa leather emblazoned with the Mercedes‑Maybach and Virgil Abloh logo. The gift box contains a 1/18 scale replica of the limited-edition car, the two car keys and a carabiner hook. In addition, each car will come with a complimentary and exclusive car cover featuring the Mercedes‑Maybach and Virgil Abloh logo.
“I’m incredibly proud of the work we have created in collaboration with Virgil. From Project Gelandewagen, which set the benchmark for fashion/automotive collaborations with our iconic G‑Class, to Project MAYBACH which brought the distinguished Mercedes‑Maybach heritage into the future, together with Virgil, we truly broke new ground. The limited edition Maybach by Virgil Abloh exemplifies the symbiosis between innovative design and ultimate craftsmanship now available on the road,” said Wagener.
