New 2021 Range Rover: first prototypes seen testing

p.p1 {margin: 0.0px 0.0px 0.0px 0.0px; font: 12.0px Helvetica} The next generation of Land Rover’s flagship Range Rover isn’t due for another two years, but we’re already seeing prototypes of the new car on British roads. Despite wearing bodywork of the existing model, which has been on sale since 2012, we can clearly see that the body has been adapted to fit over a modified platform with different suspension and exhaust components visible. Alongside this, we can see stretched rear arches and a cutout in the rear bumper, necessary to accommodate the slightly longer wheelbase of the new underpinnings. This prototype is registered as a petrol model, but there’s no indication of what capacity the unit powering it is. It’s safe to assume that Jaguar Land Rover’s all-new Ingenium straight-six will feature in the range, alongside a V8 rumoured to be adapted from BMW’s 4.4-litre unit as production of the outgoing ‘AJ’ 5.0-litre supercharged motor winds down at Ford’s Bridgend factory, closing next year. With competition from the Bentley Bentayga and Rolls-Royce Cullinan as well as upcoming, more mainstream models such as the BMW X8 , Land Rover’s task with the fifth-generation Range Rover is to create a vehicle that surpasses all of these rivals. It will attempt do so using not only its unique heritage but also technological advancements in powertrains, autonomous driving systems and infotainment. Last year the firm revealed that the upcoming Range Rover, alongside the next Range Rover Sport, will use an all-new aluminium-intensive architecture. To prepare for these models, its Solihull plant has gone through a major refit to accommodate the advanced technology that will be used in future Range Rovers. As a result, production of the Discovery has moved from Solihull to Jaguar Land Rover’s new plant in Nitra, Slovakia, also freeing up room for the potential production of the first electric Range Rovers. The new Range Rover platform will be significantly lighter than the current model’s D7u architecture, and the lightest of all Jaguar Land Rover platforms. Called Modular Longitudinal Architecture (MLA), the aluminium platform will be used on all future Jaguar Land Rover models ranging in size from the Jaguar XE to the Range Rover. By the middle of the next decade, next-generation versions of Jaguar Land Rover’s transverse-engined models are even expected to be switched to MLA too. MLA’s weight saving is crucial to allow for the extra heft of battery packs for electric and hybrid models, plus the technology and drivetrains that MLA has been designed to accommodate. It is understood the next Range Rover, codenamed L460, will closely the size of the current car, which is 4999mm long, 1983mm wide and 1920mm tall, with a wheelbase of 2922mm. That is slightly smaller than the Bentayga except in terms of height, where the Bentley SUV sits lower. The exterior design will be evolutionary, given the Range Rover’s iconic look and the company’s keenness to capitalise on this. The current generation is softer and less angular than the third-generation model, and this pattern is set to continue. Luxury rivals such as Rolls-Royce and Lagonda, Aston Martin’s revived marque, are readying electric models for launch, perceiving a perfect synergy between peaceful electric powertrains and luxury motoring. However, even though MLA can accommodate a fully electric drivetrain, as well as petrol, diesel and plug-in hybrid variants, it is understood that the next Range Rover will not initially be offered with one. Instead, Land Rover wants the first electric Range Rover to be a stand-alone model. This will be a tall estate with more car-like qualities than other models in the line-up, and more limited off-road prowes. Electric variants of other Range Rovers will ubsequently be offered as part of normal model line-ups, including a version of the full-size Range Rover set for launch before 2022 and aimed chiefly at Asian megacities. While Land Rover readies an electric Range Rover, the new model will continue with plug-in hybrid technology recently introduced in an update to the existing Range Rover. The MLA’s plug-in hybrid set-up is understood to include an electrified back axle alongside a four-cylinder Ingenium petrol engine, with the electric-only range increased above the 31 miles of the current P400e. There will also be changes to the pure-combustion-engined line-up. Currently, there are 3.0-litre V6 and 4.4-litre V8 diesels and supercharged 5.0-litre V8 and 3.0-litre V6 petrols – all sourced externally and all to be axed. The new straight-six Ingenium petrol and diesel units are being built at its engine plant in Wolverhampton. In the Range Rover, these will be mixed with 48V mild hybrid technology in most versions to improve performance and economy. Real-world testing of the straight-six diesels has shown NOx emissions to be no higher than 80mg/km – well under the limits of new regulations. Even
Origin: New 2021 Range Rover: first prototypes seen testing

400bhp+ Mercedes-AMG GLB 45 SUV begins testing

Mercedes-Benz’s AMG division has kicked off testing of the new GLB 45 4Matic on public roads some 12 months before its planned showroom debut. The new Audi RS Q3 rival is differentiated from standard versions of the upcoming GLB by its reduced ride height, larger brake discs, multi-pot callipers and four tail-pipes at the rear, as opposed to the twin-exit arrangement of GLB 35 4Matic prototypes we’ve seen previously. The GLB 45 is among a number of new Mercedes-AMG models set to run a newly developed four-cylinder engine based on Mercedes-Benz’s turbocharged 2.0-litre four-cylinder ‘M260’ unit. Also planned to appear in the A45 4Matic, CLA 45, CLA 45 Shooting Brake and GLA 45, the new powerplant is claimed to develop 383bhp in standard guise and 416bhp in a higher state of tune. In the GLB 45, the new engine will be mated to an eight-speed dual-clutch automatic gearbox and a new four-wheel drive system developed in a partnership between AMG and Austrian engineering specialist Magna Powertrain. It uses electrohydraulic actuation instead of the electromechanical operation of the four-wheel drive system by transverse engine models built by AMG up to now. Among the developments incorporated on the new four-wheel drive system is a rear differential featuring two separate clutches. They allow it to apportion up to 100% of power to each of the individual rear wheels in a so-called drift mode that AMG sources have revealed to Autocar will feature on all upcoming 45-badged models. The GLB 45 is set to crown the upcoming GLB line-up when it goes on sale in 2020. It will be positioned above the GLB 35, which runs a milder 302bhp turbocharged 2.0-litre four-cylinder petrol engine and is set to form part of the initial GLB line-up that’s planned to be in early June. The GLB will become the eighth member of Mercedes-Benz’s compact car line-up. Previewed at last month’s Shanghai motor show by the Concept GLB, it measures 4634mm in length, making it just 18mm shorter than the recently facelifted GLC. In standard guise, it will offer the choice of either five or seven
Origin: 400bhp+ Mercedes-AMG GLB 45 SUV begins testing

2020 Mercedes-AMG GT Black Series spotted testing

Mercedes-AMG’s fastest accelerating car yet, the GT Black Series, has begun road testing ahead of its unveiling next year. Pictures taken by Autocar reader Pedro Lopez show the Black Series will bear a close resemblance to the recently launched AMG GT R Pro, sporting the same prominent rear spoiler and low, wide stance, but will go without that model’s track-oriented winglets and splitters. The future range-topping coupé will be beaten only by the limited-run AMG One hypercar when it arrives in mid-2020, AMG boss Tobias Moers confirmed to Autocar at the New York motor show. Moers said: “It will be the fastest AMG yet, bar the One. Not in terms of top speed, but lap times. “Driveability is most important but, with balance, it gets good lap times too.” First confirmed by Moers back in 2016, the Black Series is mooted to receive AMG’s turbocharged 4.0-litre V8 engine in a state of tune offering at least 630bhp. This is the figure offered by the current most powerful AMG model with that unit, the GT 4-door Coupé. Any growth on that would ensure the Black Series dwarfs the peak output offered by the current GT champions, the 577bhp GT R and GT R Pro (pictured). It would also edge it towards one of the category’s most radical supercars, the 690bhp Porsche 911 GT2 RS. According to Moers, the Black Series will be “great competition with our close neighbour.” The GT Black Series’ extra grunt will be accompanied by a more focused chassis and aerodynamic set-up, which may go even further than the track-focused GT R Pro launched at last year’s Los Angeles motor show. That car was designed with uprated suspension and aero upgrades, but received no extra power over the regular GT R. Such a set-up should ensure the GT Black Series tips the scales at around 1575kg, in line or slightly less than the GT R Pro. The 2020 arrival of the GT Black Series will mark a return for AMG’s most extreme moniker after a seven-year hiatus. The last Black Series model was based on the SLS and entered production in
Origin: 2020 Mercedes-AMG GT Black Series spotted testing

Land Rover makes good use of Defender durability testing by volunteering in Kenya

It may have been just an ordinary Tuesday for you, but Land Rover celebrated a major milestone on April 30, 2019. Because not only was it Land Rover Day—didn’t you know, it’s the 71st anniversary of the Land Rover’s debut at the 1948 Amsterdam Motor Show?—but it also marked the completion of 1.2-million kilometres of testing in the new Defender prototype by the brand. To ensure ultimate off-road readiness, these 1.2M klicks have been collected all over the planet. The brand even put together this graphic to demonstrate the extremes to which it’s taken the new offroader, and where. It has been ripped around the Nurburgring, subjected to -40 degrees Celsius cold in the arctic and 50 degrees Celsius heat in the desert, and seen altitudes upwards of 10,000 feet in the Rocky Mountains of Colorado. But to honour (and hype) this latest milestone, JLR has released a new set of images of the camouflaged Defender hauling a** through the rugged Kenyan terrain, where it will complete its final phase of testing. The brand plans to put the 44 to the test while aiding the Borana Conservancy and the Tusk Trust, a 15-year partner, by transporting goods and people and helping with other such chores across the park’s 35,000 acres. “In addition to the extensive simulation and rig testing, we’ve driven new Defender 1.2 million kilometres across all terrains and in extreme climates to ensure that it is the toughest and most capable Land Rover vehicle ever made,” said Nick Rogers, Executive Director, Product Engineering, Jaguar Land Rover. “The incredible opportunity to put it to the test in the field, supporting operations at the Borana Conservancy in Kenya, with Tusk, will allow our engineers to verify that we are meeting this target as we enter the final phase of our development program.” The new Land Rover Defender is set to be revealed in full, peeling off the camo wraps, in September.
Origin: Land Rover makes good use of Defender durability testing by volunteering in Kenya

New 2019 Vauxhall Corsa: Official testing images revealed

New images released by Vauxhall show the upcoming fifth-gen Corsa supermini carrying out extreme weather and performance testing. Camouflaged prototypes are shown being subjected to temperatures of -30 deg celsius in Sweden, carrying out chassis tuning at a test circuit and being analysed by electrical engineers in a laboratory. The new images come as Luton wraps up development on its reborn Ford Fiesta rival, with sales set to begin in the coming months. Vauxhall recently confirmed that the fifth-generation Corsa weighs up to 108kg less than the outgoing model. According to the manufacturer, depending on specification, the new supermini can weigh as little as 980kg – roughly 130kg less than the lightest Ford Fiesta. The weight loss comes courtesy of new high-strength steel bodywork, lightweight interior insulation materials and a range of all-aluminium powertrains. Like the range-topping variant of the current Insignia, the new Corsa will feature an aluminium bonnet weighing 2.4kg less than the steel unit fitted to the current model, as shown in a breakdown of weight savings published by the manufacturer (below). Previous spy shots of the upcoming Volkswagen Polo rival show a design that shares cues with the recently revealed Peugeot 208, which uses the same underpinnings. It’s the first mainstream Vauxhall produced entirely under the brand’s new owner, the PSA Group, and is crucial to Vauxhall and Opel’s success given the car’s historic popularity. It will also be both brands’ first model to be sold with a battery-electric variant. A preview image, released earlier this year, showed the Corsa’s headlights will feature adaptive-beam full LED technology – claimed to be a segment first. Usually the preserve of premium models, the LEDs are able to continuously adapt the full beam pattern to stop it from causing glare to oncoming traffic. The Corsa will set the tone for a new wave of Vauxhall/Opel models, each of which will be overhauled thanks to access to new platforms, engines and hardware that are also used across the group’s other car brands: Peugeot, Citroën and DS. The new Corsa has been developed in an unusually fast time. When it is unveiled, less than two years will have elapsed since work began, just as the deal to buy Vauxhall/Opel was being agreed between PSA and General Motors. The quick turnaround is due to PSA reversing the original decision for the next Corsa to be based on GM’s architecture. Once PSA had taken over Vauxhall/Opel, it would have been required to pay a licensing fee to GM to use the platform, something boss Carlos Tavares is keen to avoid. Vauxhall/Opel boss Michael Lohscheller has previously told Autocar that the new Corsa will not be compromised in any way. “It’s true that we had a version ready to go, and you can’t just stretch a design to fit a new platform,” he said, “but the teams have done a fantastic job in record time to ensure that the car is on schedule.” The new Corsa will be based on PSA’s Common Modular Platform (CMP), a front-wheel-drive architecture. The Corsa will also dip into PSA’s engine line-up and is likely to adopt the turbocharged 1.2-litre three-cylinder petrol unit in a variety of power outputs. Despite the switch to a new platform, the Mk6 Corsa’s dimensions are understood to closely match the outgoing model’s. Vauxhall chose to launch the current Corsa in 2014 with near-identical dimensions to its predecessor, because the company felt it was the ideal size for customers. This strategy is expected to continue. The current Corsa is 4021mm long, 1736mm wide and 1479mm tall, dimensions that make it slightly longer and taller, but narrower, than the existing 208. The design of the Corsa was set to be evolutionary before the plan for a GM-derived model was axed. Now, to mark a new era for the model under PSA ownership, the styling promises to mark a departure from its traditional look. However, if the Grandland X SUV is anything to go by, its relationship with PSA will result in a design less radical than the new 208. The three-door Corsa will be axed, reflecting an industry trend to discontinue such bodystyles, which are less popular with buyers. Producing only a five-door Corsa will also help Vauxhall/Opel’s drive for greater efficiency and increased profitability. Inside, the Corsa will receive PSA’s familiar touchscreen infotainment system, but the overall feel of the interior is expected to be distinct from that of its French siblings. Vauxhall’s new grille and lights design and all-glass fascia panel are expected to be introduced. Not long after the debut of the standard Corsa this year, an electric version will be launched, named eCorsa. Although the Peugeot 208 will get an electric variant first, it and the Corsa will be among the select few in the supermini segment to adopt electrified powertrains. Key rivals such as the Ford Fiesta are not expected to go electric for many years yet. The electric
Origin: New 2019 Vauxhall Corsa: Official testing images revealed

The Autocar guide to WLTP emissions testing

If you’re a regular reader of Autocar, you’re probably well-versed in the abbreviation WLTP. Worldwide Harmonised Light Vehicle Test Procedure is a new way of measuring vehicles’ fuel economy and emissions, and it has appeared on our pages for a number of reasons. First, there’s been plenty of related news. For example, Audi sales in the UK fell by a fifth last year, due to WLTP. Porsche has almost halved its sales so far this year, also due to WLTP. Plus, we’ve started to future-proof our first drive reviews and A-Z data pages by quoting only WLTP fuel economy and CO2 figures where possible, rather than those measured under the previous NEDC cycle. It’s easy to glaze over this stuff, but it’s important for car buyers because it can affect how much money’s in your pocket. What fuel consumption and CO2 figures should you be looking at to save a few quid or work out your company car tax: NEDC, WLTP, RDE? Confused? Then read on… What is WLTP? WLTP is a new testing procedure aimed at producing more real-world figures for fuel consumption and emissions than the outgoing one, NEDC (New European Driving Cycle). NEDC had been in play since the 1980s and, despite minor updates along the way, became outdated due to changes in technology and driving conditions. Meanwhile, WLTP has been under discussion since 2008, with plans to finalise its regulation by 2018 and launch it by 2023. Then the Dieselgate scandal happened and the European Commission decided to accelerate the process, which gave car makers just 13 months to overhaul their models and complete all testing. WLTP became mandatory from 1 September 2018 for measuring CO2 emissions and fuel economy on all new cars in the EU. Confusingly, in the UK, labelling regulations meant that WLTP fuel economy values were introduced from 1 January 2019, but CO2 figures are not due to be disclosed until 1 April 2020 to tally with changes in taxation. So while all cars will have a WLTP CO2 figure, in many cases it has yet to be publicised. As a result of this shortened time frame, manufacturers fell into trouble last year as demand at test centres bottlenecked. It meant many new vehicles weren’t ready to be sold from September, which sucker-punched the car market. Particularly hard hit were Volkswagen Group models. In September, Volkswagen’s European sales fell by 53% and Audi’s dropped by 60%. The problem was exacerbated by a crucial difference between WLTP and NEDC. WLTP requires significantly more testing to provide individual data for every variant of a vehicle, which wasn’t needed for NEDC. If you’ve noticed that the number of options on cars have been dramatically reduced and equipment ‘packs’ have increased, that’s why. How does the test work? The WLTP test procedure looks identical to the NEDC process, carried out on a rolling road in laboratory conditions, but that’s where the similarities end. While the WLTP test itself takes only 30 minutes, as opposed to the NEDC’s 20, the whole process can take up to five days, more than double that of its predecessor. To reflect real-world conditions, temperature is set at 23deg C and, given that warmer temperatures put less load on a vehicle, there is another test for European vehicles at a more representative 14deg C. There is sharper acceleration and deceleration than previously, mirroring busier traffic conditions; higher average and maximum speeds; and five driving cycles, compared with the NEDC’s three, again to reflect modern-day driving. The other major difference concerns gearchanges during the test. In NEDC, there were fixed points for gearchanges; in WLTP, there are different gearshift points for each vehicle. So how does all of this affect the figures? Our sister title What Car? has found that the average gap between WLTP fuel economy and its own real-world True MPG test data is 4.9%, compared with a difference of 23.5% under the NEDC cycle. That’s WLTP in a hard-to-crack nutshell. But there’s something else: RDE. The Real Driving Emissions test, also introduced in September 2018, measures particulates and nitrogen oxides and backs up the results of a WLTP test. It takes place on public roads with a portable emissions measurement system. The 1.5- to two-hour test (over around 50 miles) has an equal split of urban, rural and motorway routes, takes into account stops/starts in towns and must exceed 56mph on appropriate roads. Essentially, it’s a validation exercise for WLTP results (which also note NOx and particulates). The goalposts for RDE will keep moving, too. For example, at the moment, manufacturers must sign a legal document stating that the RDE results can be achieved in certain conditions, such as an altitude of up to 700 metres. From 2021, that will extend to 1300m. The gap between the WLTP and RDE figures must also decrease over time. From 2020, a second step, RDE2 – which means lower NOx levels than are acceptable today – will become compulsory. Why should I
Origin: The Autocar guide to WLTP emissions testing