2020 Mazda Cx-5 Signature on 2040-cars

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Mazda plans to launch an EV in 2020, plug-in hybrid by 2022

Thanks to an interview Automotive News Europe conducted with Mazda president and CEO Akira Marumoto, we have more insight on Mazda's plans to lower its vehicle emissions in Europe. This will undoubtedly bring changes to the U.S. lineup, too, but The Continent sees the first fruits in part because Mazda is well over the European Union's fleet CO2 emissions target for 2021 of 95 g/km. In response to how Mazda plans to achieve the necessary reduction, Marumoto said the carmaker will launch its first EV in 2020 and have a plug-in hybrid on the road in 2021 or 2022. First, some clarification on the emissions numbers and timeline. The 95g/km figure is based on the New European Driving Cycle (NEDC) emissions schedule being phased out next year; the AN piece cites JATO Dynamics findings that Mazda Europe's fleet CO2 average is 135.2 g/km. The new Worldwide Harmonised Light Vehicle Test Procedure (WLTP) schedule comes into full effect in 2020, the fleet CO2 target under that methodology translating to 114.9 g/km. The rules dictate that 90 percent of an automaker's range needs to meet the cap number by the end of 2020, the rest of the lineup must come into compliance by the end of 2021. Failure means enormous fines. Industry analyst IHS Markit estimates "average fines for those not complying could reach ˆ624 ($707) per vehicle at the end of 2020, with a further ˆ190 ($215) increase in 2021." The penalties quickly grow so large that Fiat will reportedly pay Tesla hundreds of millions of euros to pool their fleets and avoid an even larger bill. Mazda's most popular vehicle in Europe is the CX-5 with CO2 emissions ranging from 128 g/km to 150 g/km. On top of that, for a small automaker, the size of potential fines has material effect on the R&D budgets necessary to develop the technologies that will lower emissions, and whatever EV Mazda launches in 2020 needs to sway legions of customers into purchases to be of practical use. This will be challenging. A line in the IHS Markit summary about the industry in general states, "Once in 2021 and subject to full WLTP regulatory monitoring, only a seismic shift (over the baseline) in consumer demand for BEV ('Electric-Plug-In') and PHEV ('Hybrid-Full Plug-In) will result in the full mitigation of EU28 fleet level excess emissions premiums." Mazda hooked up with Toyota and Denso in 2017 on a joint venture called EV Common Architecture Spirit Co Ltd to develop EV technology.

2016 Mazda MX-5 Miata design walkaround

By now, you've likely read what we think of the 2016 Mazda MX-5 Miata's new looks both inside and out, and you've probably poured over the available photos and started to make up your own mind about the roadster's radically more aggressive new appearance. More than likely, however, you haven't heard much from Mazda itself about its new design, and we're here to remedy that. Join Autoblog as we go over the new Miata from tip to tail with Derek Jenkins, Mazda North America's director of design. Jenkins, a veteran of both Audi and Volkswagen design studios, has been with the Japanese automaker for nearly four years, and he's kept a close eye in the ND Miata program along with his team in Irvine, CA. Check out our video to see Jenkins explain his team's exterior and cabin handiwork and to learn a little more about why the new model graduates from the Miata's historically cute and friendly aesthetic to something altogether more assertive.

Mazda files patents for a sequential twin-turbo setup

Mazda has a history of interesting engine technologies, from yesterday's rotary engine to tomorrow's compression ignition engine, and new patents show it still may have some internal combustion tricks up its sleeve. The one on display in these patents isn't especially new in concept, though. A sequential twin-turbocharger setup is something Mazda itself used on the third-generation RX-7. But it's something we haven't seen much of lately. It looks like it could have some possible advantages over older sequential systems, and it has some potential advantages for enthusiasts. First a quick and dirty primer for what makes a sequential twin-turbo system distinct from other twin-turbo systems. In many twin-turbo engines, there are simply two turbos that work together as one bigger turbo. They're the same size, and they spool up at the same time. With a sequential setup, at low rpm, a smaller turbocharger is spooled up first at low-rpm for quicker throttle response, and as the rpm and exhaust pressure increases, a valve opens up that allows a larger turbocharger to also spool up and provide high-rpm boost. That's basically how the Mazda design shown above functions. A big flap blocks off the larger turbocharger exhaust inlet, channeling all the exhaust to the smaller turbo. When more exhaust is available at high rpm, it looks like that flap opens up to spool up the big turbo, too. What's interesting here is that the way the turbochargers are packaged takes up less space than past systems. It looks like both turbos are contained in one unit that shares the same exhaust outlet, meaning the exhaust manifold could be kept simple and compact. In fact, the piping for compressed intake air could also be shared, reducing the amount of piping, which would further decrease the amount of materials and possible failure points. There are a number advantages of making this system smaller. The potential applications of the system are much greater, since it could fit in smaller cars with smaller engine bays. Making the system smaller also means that there won't be as much weight, which is important from both fuel economy and performance standpoints. Finally, the smaller setup likely uses fewer materials, which could make the system cheaper and thus easier to offer on a wider range of vehicles, or at least more profitable for Mazda.