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Hyundai FE Fuel Cell Concept previews next year's hydrogen SUV

For a while and without too many specifics, Hyundai has been talking about a new hydrogen powered CUV or SUV to replace the Hyundai Tucson Fuel Cell. Now, in Geneva, the Korean automaker has given us a preview of that vehicle: the Future Eco (FE) Fuel Cell Concept. The FE Fuel Cell definitely looks like a concept car, with a clean, flowing look Hyundai says is inspired by water, which happens to be this car's only tailpipe emission. It has a sturdy stature, with the large wheels pushed to the corners. Aerodynamic touches help make it more efficient, and add to its fresh design. Let's hope the production vehicle keeps some of these visual cues. Inside the car, an internal air humidifier recycles some of those water emissions inside the cabin's atmosphere. The FE Fuel Cell Concept also has portable battery packs for powering passenger devices, and the trunk is built to stow and charge an electric scooter to help you go that last mile. The FE's hydrogen fuel cell technology improves upon the Tucson Fuel Cell by being lighter and more efficient, with a fuel cell stack with 30 percent greater energy density. That means more range. Driving range is, of course what sets FCEVs apart from other zero-emissions vehicles, and the FE Fuel Cell has plenty of that to go around. "We have designed the car to run the longest distance ever achieved by a fuel cell vehicle," says Hyundai Vice Chairman Dr. Woong-Chul Yang. It'll go about 500 miles on a full tank of hydrogen, which is especially helpful while fueling stations are still few and far between. Hyundai expects to launch the production SUV inspired by the FE Fuel Cell Concept in early 2018. Related Video:

Hyundai takes fully autonomous fuel cell vehicles on 70 mph road trip

Hyundai has announced three test vehicles based on its upcoming NEXO fuel cell vehicles, fitted with Level 4 autonomous technology, have completed a trial journey of 118 miles from Seoul to Pyeongchang across the Korean peninsula completely autonomously. It's a world first for fuel cell powered vehicles to reach Level 4 autonomous driving, which translates as "mind off" driving with no driver input needed. One of the interesting things about the NEXO fleet's trial is that it was performed in regular traffic at public highways, at speeds up to nearly 70mph. Earlier autonomous car testing in Korea has been performed on selected sections of road and at lower speeds than the highest allowed Korean highway speed reached in this trial. Hyundai says the test drive included following the traffic's flow, completing lane changes, and even handling motorway toll booths — and that the only human intervention needed was pressing "Cruise" and "Set" buttons on the three cars' steering wheels, to put them in autonomous mode. The NEXO has been designed as a hydrogen fuel cell car from the ground up, instead of the earlier, ICE-based Tucson FCEV. Hyundai claims a target range of 500 miles (NEDC) for the NEXO, for a single, five-minute hydrogen charge, and a system efficiency of 60 percent. On the run to CES from L.A. last month, Hyundai declared a real-world range of 360 miles for the tested NEXO; the 120-kW motor takes the fuel cell crossover to 60 mph in 9.9 seconds. The vehicles used in the South Korean trial use a combination of radar, lidar and cameras to monitor their surroundings, and some of these systems are already used in production Hyundai vehicles. At CES, Hyundai announced its partnership with Aurora Innovation, which is a Silicon Valley startup set up by former Alphabet Inc and Tesla engineers; the autonomous NEXOs are likely to feature Aurora's input. Hyundai sees commercialization of Level 4 vehicles taking place in 2021, though only in what it calls "pilot smart cities," or locations tailored to be connected enough to make the implementation of autonomous tech easier. "Fully" autonomous driving would be at commercial level by 2030. As for the vehicle itself, it features virtual assistant technology that is complemented with noise canceling to further turn the NEXO into a cocoon-like pod; there's also "Home Connect" tech which enables the passengers to use smart home gadgets remotely during their commute. Related Video:

Hyundai and Kia to update EV brake lights; our tests show how they currently may not come on

Update: This article has been updated to reflect Kia's own service campaign announcement.  Hyundai will be launching a "field service campaign to update the EV brake light logic" on its Ioniq 5 as well as the Genesis GV60, Electrified GV70 and Electrified GV80. According to Hyundai's director of communications, Michael Stewart, the change will be make to new production vehicles and as part of free-of-charge service campaign that will launch in July for approximately 56,000 vehicles already on the road.  "Regardless of the accelerator pedal input, the brake lights will now turn on when the deceleration rate exceeds approximately 0.13 G," Stewart wrote in an e-mail to Autoblog. Since this article was originally published, Kia has announced it will be performing the same update to its EV6 and Niro EV. Kia is also part of the Hyundai Group. This change would seem to be in keeping with the behavior we have experienced in the Hyundai Ioniq 6, the firm's most recently introduced EV. We go into that behavior lower in this article.  This announcement comes in the wake of owner complaints as well as a test by Consumer Reports that found that most Hyundai, Genesis and Kia electric vehicles can come to a stop without their brake lights illuminating. This occurred when using those vehicles' most aggressive "i-Pedal" function that allows for so-called "one-pedal driving" where the driver can mostly rely upon the car's regenerative braking system (which is used to replenish the battery pack) to stop the car.  We tested this for ourselves this week as we are currently testing a Genesis Electrified GV70, and I personally own a 2023 Kia Niro EV Wave. I almost exclusively drive in i-Pedal mode. News Editor Joel Stocksdale tested the Hyundai Ioniq 6 in Michigan, and again, we will address his findings after the Genesis and Kia as they are completely different. I attached an action camera to the rear of each car and conducted the same test in both: Accelerate to 40 mph and come to a stop without touching the brake and, crucially, without lifting my foot fully off the throttle. The result as you can see below with the Niro is that the brake lights do not come on until around 3 mph when I fully lifted off the throttle and bring the car to a full stop. I could not bring the car to a full stop without fully lifting off the throttle.