Today’s news is all about electric cars, or at least electrified variations of the cars, trucks, and SUVs we’ve come to rely on over the years. It wasn’t always that way. In fact, for decades there was wide recognition that our driving needs might be well-served with an array of fuels and technologies and that maximum mpg was an increasingly important goal. The reason was, and is, clear: Greater fuel economy means less fuel is used for every mile driven, and thus carbon emissions are greatly reduced. This was the focus of the Automotive X Prize and the innovative teams that strived to demonstrate extreme fuel efficiency. The Alé shown here from FuelVapor Technologies was one such entrant that caught our editors’ attention back in 2007. This article, drawn from Green Car Journal’s extensive archives, appears here just as it ran in the magazine’s Summer 2007 issue.
Excerpted from Summer 2007 issue: FuelVapor Technologies has shown the technology it plans to use to capture an Automotive X-Prize, a competition with multi-million dollar prizes for the fastest car that gets over 100 miles per gallon. Entered in the alternative category requiring only two-passenger capacity, the company’s innovative and futuristic three-wheel Alé carries two in tandem. The mainstream X-Prize category requires four seats.
Power delivered to the front two wheels comes from a modified 1.5-liter, four-cylinder Honda engine. The turbocharged, two-stage single cam VTEC engine produces 180 horsepower. To achieve its super-high mpg goals, FuelVapor Technologies has developed a sophisticated electronic gasoline vapor fuel management system that vaporizes the gasoline, allowing the engine to run with extremely lean air-fuel ratios for maximum mpg.
How important is this? Compared to most gasoline engines that operate on a 14.7:1 air-to-fuel ratio, FuelVapor’s patent pending system can run on a ratio of over 20:1. The vaporized mixture is delivered to the front of the stock throttle body. During light-duty cruising, the engine’s regular fuel injectors are shut off and the engine runs only on the vapors.
Currently, the system appears to be optimized for performance, so the company claims “only” 92 mpg on regular gasoline at this point in time. For example, the 1400 pound, 174-inch long car can accelerate from 0-60 mpg in under 5 seconds and has an electronically limited top speed of 140 mph. It achieves super-low emissions without a catalytic converter and CO2 emissions are also reduced by 30 percent.
The car’s aerodynamically efficient design uses a hand-laid fiberglass composite body over a full tube frame with roll cage. Other features include a Honda CRX-based adjustable coilover spring front suspension, single-sided swing arm with fully adjustable coilover spring rear suspension, Porsche 911 rack-and-pinion steering, and disc brakes on all three wheels.
All this comes together to allow the Alé to easily pull 1.7 g’s in corners...on street tires. Plans are for limited production of Alés to begin in 2008.
As we stand at the threshold of transportation's electric future, there's an uncomfortable truth we must confront: the very infrastructure that supported EV adoption's early phase is now poised to become its greatest limitation. Global EV sales are set to capture 20 percent of the market this year, with projections showing this could exceed 60 percent by the mid-2030s. In the United States alone, the electric fleet is expected to grow from approximately 5 million vehicles today to between 26-27 million by 2030, according to analyses from both Edison Electric Institute and PwC, eventually reaching a staggering 92 million by 2040. But beneath these impressive growth curves lies a critical vulnerability few are discussing – our charging infrastructure is fundamentally misaligned with the coming wave of mass-market adoption.
The revolution that began with early adopters choosing EVs for environmental and technological reasons is now evolving into a mass-market transformation. But there's a critical disconnect between this projected growth and our ability to support it. The EV revolution will move at the speed of its infrastructure. Without a fundamental shift in charging architecture, we'll hit that wall where EVs are increasingly popular but increasingly difficult to charge.
Current charging solutions were designed for yesterday's EV market – a market characterized by limited demand and modest infrastructure requirements. These systems typically scale to just eight charging points per power cabinet, require disproportionate grid upgrades for expansion, and can't efficiently serve the growing diversity of vehicles from compact cars to commercial trucks.
This creates a three-fold problem:
For years, the industry has engaged in marketing increasingly powerful chargers as the primary metric of innovation. That era is ending. The new competitive battleground will be intelligent power distribution: getting the right amount of power to the right vehicle at the right time – every time! This shift represents charging infrastructure's evolution from a relatively simple fueling model to a sophisticated energy management system that maximizes throughput and return on investment.
When one vehicle needs 50kW and another needs 250kW, the infrastructure should seamlessly accommodate both without overprovisioning or underserving either. This capability – dynamic power allocation based on real-time demand – marks the difference between yesterday's charging paradigm and tomorrow's.
These limitations aren't merely technical challenges. They create practical and economic barriers that threaten to derail the EV transition:
Without a fundamental shift in charging architecture, we face a future where EVs become increasingly popular but increasingly difficult to charge. The market could stall precisely when it should be accelerating.
After over a decade pioneering DC fast charging technology, we at Tritium recognized this fundamental challenge requires more than incremental improvements. It demands a complete reimagining of charging architecture.
"Today marks a paradigm shift in EV charging infrastructure," I noted during our unveiling of TRI-FLEX at ACT Expo 2025. "TRI-FLEX is not just an incremental improvement but a fundamental reimagining of distributed charging architecture designed to scale efficiently at the speed of coming demand in the market."
The core innovation is what we call ultra-scaling distributed architecture – a revolutionary approach that enables unprecedented flexibility and scalability:
The architecture fundamentally changes how we think about scaling charging infrastructure: "Think of traditional charging like having separate water heaters for every shower in your house – inefficient, expensive, and difficult to scale," as I explained to industry analysts. "TRI-FLEX is like one smart water heater serving many showers simultaneously, giving each precisely the temperature and pressure it needs."
This isn't just a technological advancement – it's an economic breakthrough that transforms the financial equation for charging infrastructure deployment:
For drivers, this means the near elimination of "the last vestiges of range anxiety." Going forward, the biggest pain point won't be vehicle range – it will be finding available chargers when and where you need them. TRI-FLEX changes that equation by allowing for fast, cost-effective scaling of EV charging locations that can keep up with accelerating demand.
The coming EV surge – growing from today's early adoption phase to projected fleets of 27 million by 2030 and 92 million by 2040 in the U.S. alone – requires infrastructure that can scale without bounds, optimize without waste, and adapt without replacement.
Ultra-scaling distributed architecture isn't just an option for the future of charging – it's an imperative if we want to remove the final barrier between early adoption and mainstream electrification. Without this evolution, we risk creating the very bottleneck that could stall the EV revolution.
For operators, the choice is clear: continue with architectures designed for yesterday's market or embrace solutions that align with tomorrow's demand. The stakes couldn't be higher – not just for individual businesses but for the entire transition to sustainable transportation. The EV revolution needs infrastructure that can move at the speed of its ambition. That infrastructure begins with ultra-scaling distributed architecture.
Arcady Sosinov is the CEO of Tritium, a global leader in DC fast chargers for electric vehicles.
Trucking fleets operating RNG-fueled trucks save money, slash emissions, and benefit from proven, affordable, clean technology without delay and without compromising existing business operations. RNG is a solution that allows fleets to achieve better than zero results immediately. It is not just carbon reductions that are in play, however. More demanding federal limits on nitrogen oxide emissions and increased durability requirements for new engines make RNG a smart choice for truck operators looking for an alternative to diesel trucks and their increasingly complex emission control systems.
2024 saw the launch of Cummins’ highly anticipated 15L X15N engine, leading a suite of Cummins natural gas engines serving commercial operators. Available now in Peterbilt, Kenworth, and Freightliner chassis, the X15N delivers up to 500 horsepower and torque of up to 1,850 lb-ft, providing a viable workhorse alternative to traditional diesel engines.
Additionally, the Volvo Group’s and Westport Fuel System’s Cespira joint venture is continuing efforts to accelerate the growth of High-Pressure Direct Injection (HPDI) technology into North America. Volvo already uses this technology in Europe for its natural gas internal combustion engine offerings. HPDI technology can run on zero- or carbon-neutral fuels (i.e. hydrogen and biomethane) with diesel-like fuel efficiency, power, and torque.
There are approximately 1,200 heavy-duty natural gas fueling stations in the U.S. While nearly all natural gas motor fuel dispensed in California is RNG, it’s not just California fleets that have access to it. In 2024, 63 percent of RNG motor fuel use occurred outside of California, up from 57 percent in 2023.
The carbon intensity (CI) of renewable natural gas motor fuel continues to drop. Derived from landfills, wastewater, forest waste, food waste, and agricultural waste, RNG continues to make up more and more of the natural gas motor fuel market. In 2023, 79 percent of natural gas used in on-road transportation was RNG, up from 69 percent in 2022. Since RNG is interchangeable with any natural gas vehicle (NGV), RNG is one ultra-low-carbon/carbon-negative fuel that does not require the build-out of new specific infrastructure since it is dispensed from existing stations.
Data from the California Air Resources Board shows the average carbon intensity of the bio-CNG mix sold in California in 2024 dropped to -194 gCO2e/MJ, the lowest CI of any transportation fuel or technology in the state, including electric. That means that fleets operating natural gas vehicles in California are achieving a carbon-negative transportation outcome today.
Sourced domestically, natural gas motor fuel is less volatile to global market swings, providing price stability and savings to fleets of all sizes compared to traditional fuels. Toward the end of 2024 the price for natural gas was $0.70 to $0.83 less than diesel in some regions of the country. For fleets with trucks that drive tens of thousands of miles and consume significant gallons of fuel, the price differential results in real savings and helps to offset the higher price of natural gas trucks.
It is also important to highlight that fleets contracting for RNG often see even more savings as they can benefit from economic value associated with renewable identification numbers and in some cases low-carbon fuel credits or clean fuel credits. Under the U.S. EPA’s Renewable Fuel Standard Program, RNG sales generate RINs that can be sold to obligated parties (e.g. fuel marketers and fleet users), sometimes for several dollars per gallon equivalent. For fleets moving to natural gas trucks, ensuring that they are negotiating with fuel suppliers for a portion of the value of RNG credits can be critical to achieving a lower overall total operation of cost and accelerating payback.
Another important financial incentive for NGV fleets has been the $0.50/gallon Alternative Fuel Tax Credit (AFTC). Fleets interested in building their own fueling facilities also benefit from the Alternative Fuel Infrastructure Tax Credit that is now worth $100,000 per qualifying piece of alternative fuel refueling equipment. Of course, changes in Washington are spurring change in energy and tax policy. The outlook for extending incentives that favor natural gas and domestic renewable fuels like RNG is bullish. The Transport Project’s top priority this year is securing passage of the Renewable Natural Gas Incentive Act, which would provide a $1.00/gallon tax credit to end users of natural gas motor fuel derived from renewable sources.
Perhaps more so than any time in the recent past, the regulatory outlook for truck emission requirements is extremely volatile. California’s regulatory future is uncertain. To make increasing emission reduction gains quickly in the commercial space, California regulators should reembrace ultra-low-carbon, near-zero technologies like RNG-fueled trucks. At the federal level, U.S. EPA’s reopening of its Phase 3 HD GHG regulations likely will also support the growth of technologies like RNG.
NGVs fueled by RNG offer a more cost-effective, less disruptive yet still progressive compliance schedule for commercial fleets of all shapes and sizes. RNG-fueled trucks allow fleets the ability to affordably comply today on their road to achieving full carbon neutrality.
Daniel J. Gage is President of The Transport Project, a national coalition dedicated to the decarbonization of North America’s transportation sector through the increased use of gaseous motor fuels including renewable natural gas and hydrogen.
The march toward electrification is still moving forward, even if the momentum has slowed in recent months. One key reason the positive push remains is the devoted legion of EV owners. This group has taken the plunge to go electric and they’re going to keep buying EVs well into the future.
For the second year in a row, CDK – one of the largest software suppliers to car dealers and automakers – surveyed hundreds of EV owners to better understand their day-to-day lives with the technology and their attitudes toward it. Four out of five (82 percent) owners say they’ll buy another EV in the future, a significant number that suggests a solid future for EV sales.
Nevertheless, 69 percent of owners say they’ll “always” own a gas or hybrid car along with an EV. This suggests they believe there are specific limitations to the technology and are hedging their bets. However, this contradicts many of the study’s findings that illustrate just how much owners utilize their EVs in all driving scenarios as well as a passion for the vehicles themselves.
In the 2024 study, the love for EVs was off the charts. This year, the numbers across the board feel less enthusiastic even though they’re still quite high. For example, when asked if they were happy with their purchase, 93 percent of EV owners last year said yes. In 2025, the number fell to a still healthy 86 percent. Does this mean the glow is fading? Perhaps.
But one significant change made to the CDK study makeup may have indirectly altered the results. Last year, CDK ensured half of the respondents were Tesla owners, reflecting the market share at the time. This year, noting the inroads of traditional automakers in the EV space and Tesla’s diminishing market share, the Tesla owner makeup is closer to a quarter of the respondents.
And Tesla owners are more enthusiastic about their car than other EV owners. Take those two factors and you get a pretty solid explanation for the lower overall results for owner satisfaction. Still, 68 percent of non-Tesla owners said their EV was the best car they’d ever owned, and 65 percent said it was the best car they’d ever driven. Tesla owners in comparison ranked those at 75 percent and 71 percent, respectively. The survey took place between the 2024 presidential election and 2025 presidential inauguration, so Elon Musk’s political leanings were well publicized over this period.
Each year new EVs improve and evolve with most delivering well over 200 miles of range. Nearly every new EV sold in California (the country’s largest EV market) had more than 200 miles of range in 2024. Three-quarters (76 percent) of respondents in the CDK study said their EVs had 350 miles of range or more. And that number was negatively impacted compared to the year before because of the lower number of Tesla owners because Teslas generally have ranges higher than 250 miles.
Still, these higher numbers had a big impact on charging behavior. Extensive range meant less people charged every day, falling from 38 percent last year to 34 percent this year. And the number who charge every third day grew from 20 percent to 23 percent.
Less EV owners are installing Level 2 chargers in their homes as well, falling from 76 percent last year to 63 percent this year. Nearly half (46 percent) said it was a “hassle” to deal with a charger, up from 36 percent last year. Of those without a home charger, 82 percent said they charge at a public charging network. Only 9 percent of these owners said they charge at work.
Longer range and faster charging time is improving the road trip experience as well. Almost half (45 percent) of EV owners said they faced no problems on long-distance trips in terms of charging or reaching their destination. The most common issue – with nearly a quarter of Tesla and non-Tesla owners – was occupied charging stations and having to wait. And road trips are getting longer. The number of owners who took road trips 750 miles or more grew from 18 percent to 27 percent
The debate on future EV sales often centers around the current tax incentives for both new and used EVs, which are likely to disappear by year-end. While this may significantly impact sales, especially EV lease transactions, most EV owners said tax incentives had little impact on their overall decision to go electric.
Just 7 percent of owners said the tax incentive was the top motivator to purchase an EV. The main motivation was cost efficiency with environmental impact second. More than three-quarters (76 percent) of owners said they saved money by driving an EV.
The future sales success of EVs may be in doubt with shifting economic and political winds, but by listening to owners, it’s apparent there will be a steady base of future buyers. Increasing range, additional models entering the EV market, and more infrastructure investments (private and public) should bolster the technology’s success as well. The biggest question on everyone’s mind is: Just how quickly will EV market share grow?
David Thomas is Director of Content Marketing at CDK Global, a leading provider of cloud-based software to dealerships and original equipment manufacturers across automotive and related industries.
The 2025 Toyota Crown Signia, a midsize five-seat hybrid, is neither the largest nor the fanciest set of wheels in the automaker’s gas-electric stable. But it just might fit the bill for those who find the full-size Sequoia or midsize Grand Highlander hybrids too big or too pricey and the RAV4 and outgoing Venza hybrids too small or unpolished.
Signia is a tall, wagon-like version of the Crown sedan that debuted in 2023 . It shares most of its parts with that model but starts at almost $45,000, about $4,000 more than the base Crown sedan. There won’t be a turbocharged performance-oriented Signia version like the top-of-the-line Crown Platinum sedan, at least not for the 2025 model year. Toyota calls it an SUV, but we think the Crown Signia is more wagon-like albeit with a slightly raised stance. It’s pricier than most of its likeliest competitors but offers a roomy cabin, good looks, and great fuel efficiency in exchange.
With its standard electronic all-wheel drive, we expect the Crown Signia to compete against the slightly smaller Subaru Outback as well as various trim levels of other midsize SUVs, including the Kia Sorento and Honda Passport. It may be a bit pricier than those, but as a hybrid it also is a lot more fuel-efficient, which could make up for the price difference over time.
It isn’t terribly powerful, but we found the highly efficient Signia to be a comfortable, nicely equipped, mostly quiet, and quite competent daily driver and long-distance cruiser that’s up to most tasks you’d care to throw at it.
The base Crown Signia XLE starts at $45,040 including Toyota’s $1,450 destination fee. It uses the fourth generation of Toyota’s hybrid drive system, configured for electronic on-demand four-wheel drive. Standard equipment includes fabric and imitation-leather upholstery, heated and ventilated eight-way power-adjustable front seats, a heated leather steering wheel, leather shift knob, two-zone climate control, a heated and flat-folding 60/40-split rear seat, and a customizable 12.3-inch driver’s information screen. Also standard are 19-inch alloy wheels and LED headlights, running light, and taillights.
Inside, the dash is dominated by a pair of 12.3-inch screens like Kia and Hyundai EVs, except not under a single pane of glass. There’s a multi-configurable digital driver’s information screen to the left along with a digital touchscreen for the infotainment system that dominates the center of the upper dash. Among the model’s other standard electronics is a six-speaker audio system, wireless phone charging, wireless Apple CarPlay and Android Auto compatibility, and five USB ports. Toyota’s Safety Sense 3.0 package of safety and driver assist is also standard along with power-folding exterior mirrors with turn signal and blind spot warning lights, and a kick sensor (hands-free) power liftgate.
The Limited starts at $49,440 with destination fee and builds on the XLE with 21-inch alloy wheels, leather upholstery, driver’s seat memory settings, a digital rearview mirror, rain-sensing windshield wipers, a panoramic glass roof, and an 11-speaker JBL audio system. Unlike some new Toyotas, the Crown Signia won’t have a two-tone paint option among its five exterior color choices. Standard exterior colors are black and dark gray. The others – red, white, and bronze – are $425 options. The Crown Signia’s two interior color choices are tan and black.
For an additional $1,865, the Limited can be upgraded with an optional Advanced Technology Package that adds to the standard safety and driver assist systems with front cross-traffic alert, lane change assist, and front and rear parking assist with automatic braking. Traffic jam assist is included in the package with a subscription to Toyota’s Drive Connect suite of connected car services. Also included are a panoramic 360-degree camera system with overhead and curb views, and power-folding exterior side mirrors with puddle lights and automatic tilt-down when the transmission is shifted into reverse.
The Crown Signia gets the basic Toyota HEV all-wheel-drive system with a 2.5-liter four-cylinder gas engine and two small electric motors, one for each axle. It isn’t intended to be a performance vehicle so suspension is tuned for comfort, making the Crown Signia more at home cruising on the open highway than being pushed on twisty roads. It is a fairly well-balanced vehicle, though and handles mountain roads with aplomb – and little bothersome body roll – until pushed to the limits of its all-season tires. There are three driver-selectable drive modes including Normal, Eco, and Sport, though there’s little difference in handling no matter the mode. Sport provides quicker throttle response while Eco slows it down and puts some limits on climate control system output to improve fuel efficiency.
The 240 horsepower hybrid system delivers 178 lb-ft torque from the gas engine with the electric motors providing additional torque – up to 134 lb-ft to the front wheels and 89 lb-ft to the rear. On-demand all-wheel drive is biased toward front-wheel drive, so the rear motor powers the rear wheels only when extra oomph or traction is needed. Among likely competitors, only the V-6 powered Honda Passport offers more horsepower.
The Signia powertrain provides okay, but not outstanding, grunt for passing and climbing hills and can manage a Toyota-estimated 0-60 mph sprint time of 7.1 seconds on flat ground. That’s almost half a second quicker than Toyota claims for the sedan with the same powertrain and may just reflect a real-world adjustment since some testers have timed the sedan at 7.2 seconds.
We were able to experience a Crown Signia Limited on a recent jaunt that combined freeways, country roads. and some steep mountain twisties. Along the way we found it to be quiet and comfortable for the most part, though it can get a bit loud inside when the gas engine has to work hard at peak demand and a buzzy whine permeates the otherwise hushed cabin. We missed the adaptive suspension that is standard in the Crown sedan’s Platinum trim, but overall found the ride quality to be good except over badly potholed asphalt. Braking is nicely linear without the mushiness sometimes felt in hybrids. Steering is responsive but could be a little quicker and, as with many electrically assisted setups, doesn’t relay a ton of road info to the driver.
In our 235 mile Southern California drive we achieved an overall 36 mpg in a Signia Limited without babying the throttle. Official EPA estimates for the model come in at 39 city/37 highway mpg, or 38 mpg combined.
Competitively, the Crown Signia’s fuel efficiency looks to be near the top of the class, trailing only the 2024 Toyota Venza’s 39 mpg combined rating. The all-wheel drive Kia Sorento hybrid is rated at 34 mpg combined, the Subaru Outback at 29 mpg combined, and the Honda Passport gets just 21 mpg combined. The Honda and Subaru are not available as hybrids.
The 2025 Toyota Crown Signia’s cabin mirrors that of the Crown sedan, although the SUV’s 60/40-split rear seats are more bench-like than the sedan’s back seat. Overall, the Crown Signia offers a more upscale version of the standard Toyota interior, bordering on Lexus-like. It is roomy, comfortable, and quiet except when the 2.5-liter gas engine is winding up.
Crown Signia is as much as five inches longer than its likely competitors and has a longer wheelbase, which tends to soften the ride and create more interior space. But it is also lower and narrower than its competitors, negating the spatial benefits of the longer wheelbase. While fairly roomy in the second row, the Signia has the least rear head and legroom of the competitive set. Up front, it beats both the Honda Passport and Kia Sorento in front legroom but trails the segment-leading Subaru Outback. It also has the least front headroom of the pack. All of those measurements except rear legroom, though, are within 1.5 inches from model to model.
Out back, the cargo floor measures a full 6.5 feet in length when the rear seatbacks are folded flat. With the seats up, total cargo bay capacity is 25.8 cubic feet. Drop the rear seats and that swells to 68.6 cubic feet. Either way, it is the least cargo capacity among competitors. The Signia is also rated to tow up to 2,700 pounds – think small utility trailer. But that, too, is less than most of its all-wheel-drive competitors provide. The Honda Passport is top of class at up to 5,000 pounds, the all-wheel-drive Sorento hybrid is rated at up to 4,500 pounds, and the Subaru Outback is rated at 2,700 to 3,500 pounds.
Bottom line: The new 2025 Toyota Crown Signia hybrid SUV should appeal to drivers who prefer wagon- or crossover-like functionality wrapped in a stylish, upscale and fuel-efficient package.
This was originally published on thegreencarguy.com. Author John O'Dell is a distinguished career journalist and has a been an automotive writer, editor, and analyst specializing in alternative vehicles and fuels for over two decades.
RAM has been around as a distinct brand for some 14 years now, having split from its former identity as a Dodge nameplate in 2009. Since then, RAM has focused solely on pickup trucks and work vans with considerable success, especially with regard to its pickup truck line, which has won Green Car Journal’s Green Truck of the Year™ award three times in recent years. Now RAM has revealed details on its highly anticipated next act in the pickup realm, the all-electric RAM 1500 REV.
Building on the excitement generated by the wild electric RAM Revolution concept shown earlier this year, the 2025 RAM REV rides on the automaker’s all new STLA Frame optimized for full-size electric vehicle models with a body-on-frame design. This high strength steel frame is wider in the middle to accommodate battery packs while affording protection between the frame rails. It also features additional protection beneath courtesy of a full-length underbody belly pan.
This electric RAM pickup is especially noteworthy in that it boasts specs surpassing those of Ford’s F-150 Lightning and upcoming Chevrolet’s Silverado EV. REV will offer two EV powertrain options, with the base package featuring a standard 168 kWh battery pack projected to deliver a driving range of up to 350 miles. A more powerful option brings a 229 kWh battery pack with a targeted range of 500 miles, a feature sure to resonate with pickup buyers whose primary concerns are range and functionality. Normal and one-pedal driving capabilities are built in and regenerative braking comes as a matter of course.
Power won’t be a problem. We know the optional 229 kWh battery pack variant will offer a targeted rating of 654 horsepower and 620 lb-ft torque. Power ratings for the standard 168 kWh battery pack variant have yet to be disclosed. The REV’s projected towing capacity is said to be up to 14,000 pounds, with a payload capacity up to 2,700 pounds.
Charging is handled through the REV’s charge port located at the driver’s side front fender. Illuminated LED lighting and an audible chime lets a driver know that the truck is plugged in and charging. The charge port accommodates Level 1 and Level 2 AC charging connectivity on top and DC fast charging connectivity at the bottom of the charging interface. Drivers should expect the usual overnight charging experience if they have a 240-volt Level 2 wall charger at home. Those on the move can take advantage of the REV’s fast-charge capability at public fast chargers. If an 800-volt DC fast charger is available then the REV can add up to 110 miles of range in just 10 minutes while charging at up to 350 kW.
A handy feature is the RAM 1500 REV’s bi-directional vehicle-to-vehicle, vehicle-to-home, and vehicle-to-grid charging capability. With the use of a 7.2 kW on-board power panel mounted in the bed or a 3.6 kW power panel in the front trunk (frunk), this feature is very helpful during power outages in homes, or for individuals who will potentially use their truck to power equipment. It can also be used to charge your everyday devices if necessary.
REV’s exterior styling lets us know this truck is electric without moving beyond the burly and commanding nature of the brand. A blend of elegance and toughness shows that RAM’s designers certainly didn’t want buyers forgetting what RAM stands for, while also conveying their vision for the future. To that end, the front fascia of this electric pickup features a sporty nature with its muscular hood and low grill. The look is accented with aptly named ‘tuning fork’ LED headlights and unique EV-specific RAM badging. At the rear we find a set of angular LED taillights that span a portion of the tailgate, and are specific to the RAM 1500 REV. RAM is boldly shown at the center of the tailgate and, like the front end, uses an exclusive lettering style to show us that this RAM is indeed electric.
Styling along the REV’s flanks remains quite similar to the current RAM truck with the exception of a flush-mounted chargeport at the driver’s side front fender and unique REV. Familiar lockable ‘RAM Boxes’ are available and positioned beneath the bed rails on either side of the pickup box and feature a handy 115-volt outlet. These boxes are also illuminated to facilitate easy access under low light conditions.
Inside, the blend of practicality and luxury is seamless with premium materials like carbon fiber, metal, and leather with tech peppered throughout. Ample passenger room is built in and functionality is enhanced with second row seats that can fold up for additional cargo capacity. Optional 24-way power adjustments are available for the front seats, including three memory settings and massage capability. Also optional is a 23 speaker Klipsch Reference Premiere audio system.
The REV cabin features a central 14.5 inch touchscreen, 12.3 inch digital instrument display, and a 10.25 inch digital screen mounted in front of the passenger seat. These screens utilize the automaker’s Uconnect 5 system that allows access to eight EV-specific functions across all screens, and entertainment functionality for the passenger screen. The REV also features a configurable head-up display capable of showing an array of selected information beyond vehicle speed, such as turn-by-turn navigation, speed limit, Lane Departure, Lane Keep Assist, and adaptive cruise control. A Uconnect 5 mobile app supports remote start and touchless door lock/unlock functions.
Showcasing many industry-leading specs and visionary style, the RAM 1500 REV is shaping up to be a model in demand when sales begin in advance of its likely arrival at dealers toward the end of 2024. Of course, RAM will continue offering its popular gas-powered pickups to a willing market even as it dives ever deeper into electrification. In the meantime, the 2025 REV shows us that RAM aims to be a serious contender in the electric pickup truck competition.
Rather than following the industry’s massive trend toward models powered exclusively by batteries, Toyota is confident there’s a better way forward. Its strategy is to optimize the use and environmental impact of batteries by offering a diversity of electrified vehicles consumers will actually buy and drive in great numbers, thus leveraging the potential for carbon reduction. This clearly plays to the automaker’s strength: hybrids and plug-in hybrids. There’s the all-electric Toyota bZ4X, of course, and other battery electric Toyota models to come. Just don’t expect that’s all the world’s largest automaker will be offering in the short term.
Enter the 2023 Toyota Crown sedan, this automaker’s newest hybrid. Toyota’s all-new Crown is somewhat of a milestone since so many automakers are killing off their sedans in favor of uber-popular crossover SUVs. In many cases, those crossovers are less SUV than mildly oversized hatchback, but that’s the auto industry for you. The Crown is a sophisticated looking sedan that doesn’t pretend to be something it is not, though it does offer a few twists.
The Crown has an interesting history, first debuting in 1955 as Toyota’s first mass production passenger vehicle before making its way to the States three years later, distinguished as the first Japanese model here on our shores. It had a 17 year run before it was retired from Toyota’s U.S. showrooms.
Now it’s back in all new form as a full-size, four-door sedan available in XLE, Limited, and Platinum grades. While it is a sedan measuring in just a bit larger than Toyota’s popular Camry, the Crown also integrates a slightly taller roofline, thus the ‘twist.’ This taller roof flows rearward into an elegant sportback design, accented by thin blade-style rear taillights. The front features blade running lights, sharp headlights, and a distinctively imposing grille design that’s come to signify Toyota and Lexus products these days. Its sides are handsomely sculpted and accented by large alloy wheels and wheel well cladding.
Beneath the hood resides one of two available hybrids, no surprise since this a Toyota and hybrids are its game. The more efficient of the two-motor hybrid models is powered by a fourth-generation, 2.5-liter Toyota Hybrid System (THS) that Toyota says should net an estimated 38 combined mpg. It connects to an electronically controlled continuously variable transmission.
Those looking for higher performance may opt for the Platinum grade, which comes standard with a 2.4-liter turbocharged HYBRID MAX powerplant, the first application of this more powerful Toyota hybrid system in a sedan. Delivering power to the road through a direct shift six-speed automatic transmission, the HYBRID MAX boasts 340 horsepower for spirited performance and offers a Toyota-estimated 28 combined mpg. All grades come with electronic on-demand all-wheel drive. A plug-in hybrid variant is said to be coming but details are not yet available.
The Crown’s cabin is designed to deliver a premium feel, featuring nicely bolstered front seats with 8-way power adjustment, intelligent controls, and wireless Qi charging with an array of readily accessible ports to accommodate today’s electronic devices. A Multi Information Display ahead of the driver provides the usual instrumentation along with selectable functions, including hybrid information that coaches eco-driving for netting maximum efficiency. In addition, a 12.3-inch center Toyota Audio Multimedia display features Apple CarPlay and Android Auto integration and is audio and touch capable.
Upholstery is either Softex and black woven fabric or leather, depending on grade. A panoramic moonroof standard on Platinum and Limited grades lends an additional feel of openness to the cabin. LED ambient lighting adds to the interior’s ambiance and upscale feel. Significant effort has been devoted to creating a relaxed and quiet cabin environment through extensive placement of sound-deadening materials throughout plus the use of acoustic glass.
Toyota Safety Sense 3.0 is standard across all grades to enhance safety on the road. This includes such desired features as pre-collision with pedestrian detection, dynamic radar cruise control, lane departure alert with steering assist, blind spot monitor, and rear cross traffic alert. Other assist features such as automatic high beams, road sign assist, rear seat passenger reminder, and hill start assist control are also standard fare for all versions of the Crown. Those stepping up to the Platinum trim level also get Toyota’s advanced park system that identifies available parking spots and allows automated parallel and reverse/forward perpendicular parking.
Toyota’s Crown is a timely addition to this automaker’s lineup, giving fans of the brand a new, more exciting sedan option just as the more conservative Avalon sedan is heading off into the sunset. Pricing has not yet been announced but we figure the Crown will start somewhere in the neighborhood of the low $40,000s. We also expect this new model to be a hit for Toyota, serving the automaker well as it hones its hybrid and plug-in hybrid strategy while continuing to evolve its future electrified product line.
The Hyundai Tucson has long been a popular choice for those desiring the functionality of a crossover SUV at a reasonable price. Making the case even stronger now is an expanded list of Tucson offerings highlighted by plug-in hybrid and enthusiast-oriented N Line models that have joined the line’s gas-powered and electric hybrid variants.
Conventionally-powered Tucsons are equipped with a 2.5-liter engine delivering 180 hp and 195 lb-ft torque, delivering 26 city/33 highway mpg. PHEV and hybrid Tucson models share a 1.6-liter, turbocharged and direct-injected inline four-cylinder gas engine. These are equipped with Hyundai’s Continuously Variable Valve Duration technology that optimizes valve opening duration to improve power, efficiency, and emissions. The hybrid gets a 59 horsepower electric motor and 1.5 kWh lithium-ion battery that brings 226 total system horsepower and up to 38 city/38 highway mpg.
With the addition of the plug-in hybrid’s 90 hp electric motor and a larger 13.8 kWh lithium-ion battery, total system horsepower increases to 261 hp and 258 lb-ft torque. EPA rates the Tucson PHEV’s electric-only range at 33 miles and fuel economy at 80 MPGe, with a 35 mpg combined city/highway mpg rating running on gasoline. Hyundai says the model’s onboard 7.2 kW charger will allow charging the battery in less than two hours when connected to a 220-volt Level 2 charger.
The remainder of the Tucson PHEV’s drivetrain consists of a six-speed automatic transmission with steering wheel-mounted paddle shifters and a standard HTRAC AWD system with selectable drive modes. All Tucson models, including the PHEV, have a maximum tow rating of 2,000 pounds. The PHEV’s curb weight is a few hundred pounds higher than the conventional and hybrid models, so its payload capacity is commensurately less, rated at 1,012 pounds for SEL models and 1,166 pounds for Limited versions.
A higher level of driving dynamics is delivered to match the Tucson’s sporty new exterior design. The AWD PHEV and hybrid models are built with Hyundai’s e-handling technology that, under certain road conditions and driving inputs, applies an incremental amount of electric motor torque to the wheels. This enables the e-handling system to affect vehicle weight transfer – and therefore the tire’s contact patch – to improve cornering.
Tucson models are equipped with a number of safety technologies as part of Hyundai’s SmartSense Safety Feature suite. Standard safety features on both the SEL and Limited models of the Tucson PHEV include Forward Collision-Avoidance Assist, Blind-Spot Collision-Avoidance Assist, Lane-Keeping Assist, Driver-Attention Warning, and Rear Cross-Traffic Collision-Avoidance Assist. Limited models add such features as blind-view and surround-view monitors and Remote Smart Parking Assist.
The Tucson PHEV’s interior amenities vary depending on model. Both SEL and Limited are equipped with Apple CarPlay and Android Auto capabilities and have USB charging points for front and rear passengers. Stepping up to the Limited adds a 10.25-inch digital instrument cluster and 10.25-inch color touchscreen (SEL has an 8-inch screen), a Bose premium sound system, and wireless device charging.
Prices start at $25,800 for the standard 2.5-liter powered Tucson with the hybrid coming in at $29,750 and the plug-in hybrid $35,400.
Green Car Journal’s Green Car Awards, the annual awards program honoring the year’s most standout new ‘green’ models, was presented at the Virtual Greenbuild Conference + Expo in November this year. The 2021 virtual awards program was an innovation during an unusual year, amid the postponement and cancellation of international auto shows where the Green Car Awards typically take place.
Over the years, these high-profile awards have grown along with the expanding field of ‘green’ cars on the road. They now recognize not only the magazine’s signature Green Car of the Year, but also exceptional models that speak to families, city dwellers, luxury buyers, pickup enthusiasts, and those requiring the functionality of an SUV. All provide the traditional touchstones of safety, quality, value, style, and performance, plus that fun-to-drive quality important to most drivers. What they add are greater efficiency, lower carbon and tailpipe emissions, petroleum reduction or displacement, or operation on battery electric power.
GREEN CAR OF THE YEAR
This year’s candidates for 2021 Green Car of the Year reflect the auto industry’s transition toward electrification, even as it continues to make internal combustion ever-more efficient. Three of this year’s finalists, the Mustang Mach-E, MINI Cooper SE, and Volkswagen ID.4, drive exclusively on zero-emission battery power. The BMW 330e is a plug-in hybrid that drives up to 23 miles on battery power and hundreds more as a hybrid. The Hyundai Elantra is offered with either an efficient gasoline engine or a gas-electric hybrid achieving up to 50 miles per gallon.
Rising to the top of the field is Green Car Journal’s 2021 Green Car of the Year, Ford’s all-new Mustang Mach-E, a model that boasts an instantly-recognizable name and heritage, while breaking new ground as an all-electric crossover featuring up to 300 miles of range. Performance is part of the package, as is unmistakable style and all the latest advanced electronics.
The 2021 Green Car of the Year® is selected by a highly-respected jury comprised of energy and environmental leaders including Mindy Lubber, president of CERES; Jean-Michel Cousteau, president of Ocean Futures Society; Dr. Alan Lloyd, president emeritus of the International Council on Clean Transportation and senior research fellow at the Energy Institute, University of Texas at Austin; Clay Nesler, interim president of the Alliance to Save Energy; and Matt Petersen, president and CEO of Los Angeles Cleantech Incubator and advisory board chair of Climate Mayors. Rounding out the Green Car of the Year jury is celebrity auto enthusiast Jay Leno and Green Car Journal editors .
LUXURY GREEN CAR OF THE YEAR
At a more premium price point, 2021 Luxury Green Car of the Year finalists also illustrate the momentum achieved by electric drive in the new car vehicle field. Four of these premium vehicles are all-electric models – the Audi e-tron Sportback, Polestar 2, Tesla Model Y, and Volvo XC40 Recharge. The fifth, the Lincoln Corsair Grand Touring, is the plug-in hybrid variant of Lincoln’s Corsair compact crossover that combines gas-electric hybrid and all-electric driving.
Honored as this year’s Luxury Green Car of the Year is the Polestar 2, a groundbreaking model from Polestar on many levels. This all-new premium vehicle is only the second of this new auto brand’s model offerings, and the first to be all-electric. This zero-emission, two-door fastback looks to the future even as it foregoes futuristic styling, instead choosing to offer an understated yet elegant and sophisticated design, tasteful appointments, and a nearly 300 mile range on battery power.
URBAN GREEN CAR OF THE YEAR
Urban environments pose their own unique challenges – tight spaces, often crowded streets, and hard-to-find parking. Here, smaller vehicles with a compact physical footprint and easy maneuverability are always top choices. The 2021 Urban Green Car of the Year award recognizes vehicles especially well-suited for life in the city. Top choices for this year’s award are the Hyundai Venue, Kia Seltos, Kia Soul, MINI Cooper SE, and Nissan Versa. Four are conventionally-powered – three of them crossover SUVs and one a compact sedan – with the fourth, the MINI Cooper SE, an all-electric crossover.
Taking top honors for 2021 Urban Green Car of the Year is the all-electric MINI Cooper SE. Standing out as an ideal vehicle for the city, the Cooper SE is compact in stature and big on features. Its represents what this brand all about: An iconic look, great maneuverability, and driving fun wrapped in a small package. Plus, electric power means zero localized emissions and no trips venturing out to the gas station in a crowded urban environment.
FAMILY GREEN CAR OF THE YEAR
While any model can serve family duty, those offering extra versatility and thoughtful family-friendly features are high on many shopping lists. Today, driving ‘green’ has also become a priority. Minivans have always been a solid choice, but these days three-row crossover SUVs can also do the job as family hauler. Finalists for 2021 Family Green Car of the Year are the Chrysler Pacifica Hybrid, Honda Odyssey, Kia Sorrento Hybrid, Toyota Highlander Hybrid, and Toyota Sienna. The Kia Sorrento Hybrid and Toyota Highlander Hybrid crossovers drive on efficient hybrid power. Honda’s Odyssey minivan features an efficient V-6 with variable cylinder management. The Toyota Sierra is exclusively a hybrid-powered minivan, while the Chrysler Pacifica Hybrid minivan also offers plug-in hybrid power.
Standing out as Family Green Car of the Year is the Toyota Sienna, a minivan that seeks to set the standard for modern family haulers. The stylish and fuel-efficient Sienna offers premium sedan-like style, admirable hybrid fuel efficiency, and a thoughtful blend of family-desired features along with driver-centric characteristics not always associated with minivans. It shows Toyota’s keen grasp of how to make a modern minivan that not only serves up family functionality, but also premium car style and appeal.
GREEN SUV OF THE YEAR
The hottest segment in the automotive field today is the SUV, either full-size or compact, traditional or crossover, two-row or three, conventional, hybrid, or plug-in. There are no shortage of choices, which makes narrowing the field to five outstanding finalists no small challenge. The top five finalists emerging this year for Green SUV of the Year are the Audi Q5 55 TFSI e, BMW X3 xDrive 30e, Jeep Wrangler 4xe, Toyota RAV4 Prime, and Toyota Venza. Four of these –from Audi, BMW, Jeep, and Toyota – are plug-in hybrids with an all-electric driving range from 18 to 42 miles, and additional hundreds of miles on hybrid power. Toyota’s Venza is an all-wheel drive, tech-rich hybrid with exceptional fuel efficiency.
Taking top honors for the 2021 Green SUV of the Year title is the Jeep Wrangler 4xe, an SUV that’s different in many ways from others in its class. To some, it’s an SUV in the traditional sense with high functionality and loads of versatility that’s perfect for the diversity of everyday life. But to others, it’s that, plus a means of escape, heading toward the city one day and then driving the path less taken on another, a path often rough, unpaved, and pointed towards adventure.
GREEN TRUCK OF THE YEAR
This year’s Green Truck of the Year finalists embody all the workhorse capabilities expected of a modern pickup while offering passenger car-like comfort, advanced on-board electronics, and levels of fuel efficiency unheard of in pickups of just a decade ago. Pickups honored as finalists for Green Truck of the Year are the Chevrolet Colorado, Chevrolet Silverado, Ford F-150, Jeep Gladiator EcoDiesel, and RAM 1500. All offer diverse powertrain choices, from gasoline and diesel internal combustion to variations of mild- and full-hybrid power.
Powering its way to well-deserved recognition as 2021 Green Truck of the Year is the Ford F-150, a pickup long distinguished as the best-selling model in the nation and a champion of innovation. Beyond its wide array of configurations, powertrain choices, payload capacities, and towing capabilities, it now adds such innovations as an efficient PowerBoost hybrid powerplant, fold-flat ‘sleeper’ seats, and an available Pro Power Onboard output system with outlets that allow the truck to function as a mobile generator at worksites or campsites.
The Green Car Awards™ program, presented annually since 2005, is an important part of Green Car Journal's mission to showcase environmental progress in the automotive field.
The driving range of electric vehicles is becoming less of an issue as they surpass 200 miles or greater, approaching the distance between fill-ups of some internal combustion engine vehicles…or maybe the bladder capacity of their drivers. However, the time it takes to recharge an EV is still a negative attribute.
Generally, EVs charge at a fairly slow rate. A 240-volt Level 2 home or public charger will charge a Chevy Bolt from depleted to full in about 4 1/2 hours, providing a range of about 238 miles. That’s a far cry from 5 minutes to fill a gas tank. It’s significantly slower when charging a Bolt with a Level 1 charger using a household’s standard 120-volt power since this adds only about 4 miles an hour!
Of course, charging companies and automakers are working together to expand the small-but-growing network of fast chargers in key areas of the country, allowing EVs to gain up to 90 miles of charge in around 30 minutes. Tesla claims that its Supercharger stations being upgraded to Version 3 can charge a Tesla Model 3 Long Range at the rate of about 15 miles a minute, or 225 miles in just over 15 minutes under best conditions.
If current technology EVs become popular for mid- to long-range travel, gasoline stations, truck stops, and public charging stations equipped with Level 2 and even somewhat faster chargers run the very real risk of becoming parking lots.
When it comes to charging EVs, charging times come down to kilowatts available. The best Tesla V3 charger is rated at 250 kilowatts peak charge rate. Now, much research is being done here and in other countries on what is called Extreme Fast Charging (XFC) involving charge rates of 350-400 kilowatts or more. The U.S. Department of Energy is sponsoring several projects aimed at reducing battery pack costs, increasing range, and reducing charging times.
There are several challenges for XFCs. First, when lithium-ion (Li-ion) batteries are fast charged, they can deteriorate and overheat. Tesla already limits the number of fast charges by its standard Superchargers because of battery degradation, and that’s only at 120-150 kilowatts. Also, when kilowatt charging rates increase voltage and/or amperage increases, which can have a detrimental effect on cables and electronics.
This begs the question: Is the current electrical infrastructure capable of supporting widespread use of EVs? Then, the larger question is whether the infrastructure is capable of handling XFC with charging rates of 350 kilowatts or more. This is most critical in urban areas with large numbers of EVs and in rural areas with limited electric infrastructure.
The answer is no. Modern grid infrastructures are not designed to supply electricity at a 350+ kilowatt rate, so costly grid upgrades would be required. Additionally, communities would be disrupted when new cables and substations have to be installed. There would be a need for costly and time-consuming environmental studies.
One approach being is XFC technology being developed by Zap&Go in the UK and Charlotte, North Carolina. The heart of Zap&Go's XFC is carbon-ion (C-Ion) energy storage cells using nanostructured carbons and ionic liquid-based electrolytes. C-Ion cells provide higher energy densities than conventional supercapacitors with charging rates 10 times faster than current superchargers. Supercapacitors and superchargers are several technologies being considered for XFCs.
According to Zap&Go, the C-Ion cells do not overheat and since they do not use lithium, cobalt, or any materials that can catch fire, there is no fire danger. Plus, they can be recycled at the end of their life, which is about 30 years. Zap&Go's business model would use its chargers to store electric energy at night and at off-peak times, so the current grid could still be used. Electrical energy would be stored in underground reservoirs similar to how gasoline and diesel fuels are now stored at filling stations. EVs would then be charged from the stored energy, not directly from the grid, in about the same time it takes to refuel with gasoline.
The fastest charging would work best if C-Ion cell batteries are installed in an EV, replacing Li-ion batteries. EVs with Li-ion batteries could also be charged, but not as quickly. Alternatively, on-board XFC cells could be charged in about five minutes, then they would charge an EV’s Li-ion batteries at a slower rate while the vehicle is driven, thereby preserving the life of the Li-ion battery. The downside is that this would add weight, consume more room, and add complexity. Zap&Go plans to set up a network of 500 ultrafast-charge charging points at filling stations across the UK.
General Motors is partnering with Delta Electronics, DOE, and others to develop XFSs using solid-state transformer technology. Providing up to 400 kilowatts of power, the system would let properly equipped electric vehicles add 180 miles of range in about 10 minutes. Since the average American drives less than 30 miles a day, a single charge could provide a week’s worth of driving.
The extreme charging time issue might be partly solved by something already available: Plug-in hybrid electric vehicles (PHEVs). As governments around the world consider banning or restricting new gasoline vehicles in favor of electric vehicles, they should not exclude PHEVs. Perhaps PHEVs could be designed so their internal combustion engines could not operate until their batteries were depleted, or their navigation system determines where they could legally operate on electric or combustion power.
The Kona, Hyundai’s newest and smallest crossover, serves up a pleasing design and welcome functionality. It is offered with a choice two gasoline engines that net up to 33 highway mpg, and also as a battery electric vehicle.
Styling cues are a bit different on the Kona Electric, but subtle except for its distinctive closed grille. Silver side sills, unique 17-inch alloy wheels, and badging also differentiate the electric variant. Kona Electric sales are initially being focused on California and select states that have adopted California’s Zero Emission Vehicle (ZEV) program.
The Kona is available in three trim levels – SEL, Limited, and Ultimate. Kona SE and SEL models are powered by a 147-horsepower, 2.0-liter four-cylinder coupled to a six-speed automatic transmission. This combo achieves an EPA rating of 28 city/32 highway mpg. Kona Limited and Ultimate trim levels are powered by a 175-horsepower, turbocharged 1.6-liter four-cylinder with a seven-speed, dual-clutch automatic transmission. Here, EPA numbers are 27 city/33 highway mpg. Front-wheel drive is standard with all-wheel drive an option for both powerplants.
Powering the Kona Electric is a 201 horsepower, permanent-magnet electric motor driving the front wheels. Energy is provided by a 64 kWh lithium-ion polymer battery that delivers an impressive EPA estimated 258 mile range. Offshore markets also get a base electric version with a smaller 39.2 kWh battery that’s good for about 186 miles, but that configuration is not offered in North America. The Kona Electric earns a combined EPA efficiency rating of 120 MPGe. Acceleration is quite good with a 0-60 mph sprint taking 7.6 seconds. Kona Electric’s top speed is electronically limited at 104 mph.
When connected to a fast-charge 10 kW Combined Charging System, the battery pack can be recharged from a depleted state in about 54 minutes. It takes 75 minutes to recharge with a more common 50 kW CCS fast-charge system. With more readily-available Level 2 (240-volt AC) public or home charging and the Kona’s onboard 7.2 kW charger, replenishing a depleted battery takes about 10 hours. The charge port is located in the front fascia just below the driver’s side headlight.
There are a host of driver assist features available. Hyundai SmartSense safety technologies standard on all trim levels include Forward Collision-Avoidance Assist, Driver Attention Warning, and Lane Keeping Assist. Optionally available are Rear Cross-Traffic Collision Avoidance Assist, Blind Spot Collision Warning, High Beam Assist, Rear View Monitor, and Smart Cruise Control.
The gasoline-powered Kona has an MSRP of $19,990, while the Kona Electric is offered at a base price of $36,450.
Part of Honda’s Clarity triple-play – along with the hydrogen-powered Clarity Fuel Cell and more mainstream Clarity Plug-In Hybrid – the Clarity Electric is a model that clearly cuts its own path.
It does not aim to be part of the ‘200 mile club,’ the latest generation of uber-electrics that claim a battery electric driving range greater than 200 miles between charges. It also does not cultivate efficiencies through a compact form designed to eke the most from every electron. Nor is it exceptionally lightweight, another common nod to the need for making the most of the battery power carried on board. In fact, there is little about the Clarity Electric that makes us think of other all-electric vehicles…save for the fact that it runs exclusively on zero-emission battery power, of course. This mid-size, five-passenger battery electric vehicle aims to be in a league of its own.
First of all, let’s discuss driving range, which is EPA rated at 89 miles between charges while delivering a combined 114 MPGe (miles-per-gallon equivalent). Yes, that’s more limiting than that of the 200+ mile club, but there’s a reason. Honda designed the Clarity Electric with the needs of commuters in mind…those who want their daily drive to be in a highly-efficient, zero-emission electric car with a sophisticated look and premium feel. And they designed it so it was significantly more affordable than premium competitors offering higher-end electric models with features similar to those of the Clarity. Currently, the Clarity Electric is offered at a $199 monthly lease in California and Oregon where this battery-powered model is available.
Honda figures that an approach focused on commuters is a sweet spot for the Clarity Electric. Its range fits the needs of most commutes and its price is certainly justifiable for a commuter car, and a luxurious one at that, with fuel costs substantially less than conventionally-powered models. Plus, most households have two cars at their disposal, sometimes more. Having a Clarity Electric as a primary commuter car with a conventional gasoline or hybrid vehicle also in a household’s stable covers all bases.
Honda gave a lot of thought to the cabin design with welcome touches throughout. We especially like the ‘floating’ design of the center console with its array of integrated controls and flat storage tray beneath, with 12-volt and USB outlets. The dash features a handsome suede-like material and an 8-inch touchscreen display elegantly integrated into the dash. Deep cupholders feature flip-up stays for holding smaller drinks. Side door pockets are large enough to accommodate water bottles. The trunk offers plenty of room and is illuminated when the trunk lid is remotely or manually unlatched. At night this allows you to immediately note what’s inside through the trunk lid’s clear back panel before opening…something we’ve really come to appreciate over time.
Driving the Clarity Electric is a satisfying experience, with this sedan both well-mannered and responsive. Power is delivered by a 161 horsepower electric motor energized by a 25.5 kWh lithium-ion battery that can be charged in about three hours with a 240 volt charger, or in as little as 30 minutes with a public DC fast-charge system to an 80 percent state-of-charge. While its primary job may well be to handle everyday driving needs and negotiate traffic, it also delivers plenty of fun on twisty canyon roads with flat cornering and confident steering. It’s quick, like almost all electrics are because of instant torque delivered at launch, providing very satisfying acceleration.
Also appreciated is the Clarity’s handy Apple CarPlay integration and its Honda Sensing suite of driver-assist technologies. Among these are important features like adaptive cruise control with low-speed follow, forward collision warning, collision mitigation braking, lane departure warning, and road departure mitigation.
The Clarity Electric has served us well on our daily drives over the course of Green Car Journal’s ongoing long-term test. Its use supports what Honda envisioned for this efficient electric car. It has been ideal for around-town duty, area trips within its range, and daily commutes. Its thoughtful and sophisticated – dare we say futuristic – design and very satisfying drive experience are appreciated every day we’re behind the wheel.
With the growing market acceptance of electric vehicles in the U.S. comes an unprecedented auto industry focus on delivering these vehicles to consumers. Today nearly all major auto manufacturers and a handful of boutique automakers offer a growing lineup of electrified models.
When considering the purchase of an electric vehicle, the task of home charging is second in importance only to an electric’s driving range. How long will a charge take, and how often will it be needed? The cost associated with enabling home charging is also top-of-mind since using public or workplace chargers is a plus, but nothing beats the conveniences of overnight charging at home.
There’s an affordable and easy answer to these home EV charging concerns with the AV TurboCord Dual, developed by AeroVironment and available as part of Webasto’s EV Solutions product line. TurboCord Dual presents a portable transformable solution that aims to promote convenient electric vehicle charging using the two most common electrical outlets found in homes.
AV TurboCord Dual is a portable EV charging solution enabling both 120 or significantly faster 240 volt charging as needed through a quick clip-release adapter interface. It does not require hardwired installation to facilitate dual voltage charging, but rather connects to a standard 120 volt household outlet or 240 volt outlet.
While there is much competition in the home charging segment, there’s a lot to like about the AV TurboCord for its compact size, portability, and ease of operation. TurboCord Dual will look familiar to anyone who has used AV public charging stations in much of the U.S. Simply open the charge port on your EV of choice, look for the pulsing light on the business end of the TurboCord, and you’re charging. When the unit stops blinking, you’re done.
TurboCord Dual delivers a great solution for battery electric and plug-in hybrid vehicles alike, either at home or on the road. A handy carrying case easily stores the charger, power cord, and chargeport connector. AV TurboCord is available online or from your local building center.
Volvo’s smallest crossover features an aggressive design that’s a bit of a departure for the automaker, even as it retains the fundamental styling cues that say ‘Volvo.’ The first model built on the automaker’s Compact Modular Architecture, the new XC40 is offered as either a T4 front-wheel drive or T5 all-wheel drive and in three trim levels. The XC40 looks deceptively small but has plenty of cargo and passenger capacity for longer trips. A plug-in hybrid and possibly an all-electric model are likely in the future.
Inside, the stylish cabin aims for an uncluttered look while still providing all the amenities SUV buyers desire. Functionality is a top priority, which the XC40 provides in intelligent ways with features like spacious door bins that accommodate a laptop or tablet, easily accessible under-seat drawers for stashing wallets or other necessities, and even a trash bin for cleaning up clutter. The front storage compartment holds a wireless charge pad for smartphones. Other welcome features include a standard 9-inch Sensus Connect touchscreen and an available panoramic sunroof that provides loads of available light.
All XC40s are powered by a 2.0-liter, turbocharged four-cylinder Drive-E engine. In the T4 this engine is rated at 187 horsepower and 221 lb-ft torque. Engine output increases to 248 horsepower and 258 lb-ft torque in the all-wheel drive T5. Both connect to an eight-speed automatic transmission. Manual gear shifts are possible with the Volvo’s shift lever or, alternatively, via steering wheel shift paddles on the R-Design model.
Standard on all XC40s are Automated Emergency Braking with Pedestrian Detection, Forward-Collision Warning, Lane-Keeping Assist with Lane-Departure Warning, Automatic High-Beam Headlamps, Driver-Attention Monitor, and Traffic-Sign Detection. A self-parking feature, front and rear parking sensors, and Blind-Spot Monitoring with Rear Cross-Traffic Alert can be added as part of the Vision package.
Volvo offers Pilot Assist as a part of a Premium package. This is essentially adaptive cruise control with a semi-autonomous driving mode. It keeps the XC40 within its own lane and maintains a set speed and distance behind the vehicle ahead. Unlike some other near-self-driving systems, Pilot Assist requires the driver to keep his hands on the steering wheel at all times…perhaps not a surprise considering Volvo’s longstanding focus on safety.
The 2019 XC40 serves up 23 city and 33 highway mpg, at a starting cost of $33,700. Another option is Care by Volvo, an innovative subscription service that includes use of a new XC40 Momentum ($600 per month) or R-Design ($700 per month) for a maximum of 15,000 miles per year. Insurance, maintenance, and road-hazard protection are included, plus the opportunity for the lessee to upgrade to a new XC40 each year for the same all-inclusive monthly payment. A subscription lasts for 24 months.
Nissan's all-new, sixth-generation Altima has been extensively redesigned with greater refinement and efficiency, along with a more aerodynamic body boasting an impressive 0.26 drag coefficient. Distinctive styling cues include a more aggressive front facia with a V-motion grille and streamlined boomerang lights.
Inside there is a standard 7-inch driver display and a NASA-inspired zero gravity seat that enhances comfort and fights fatigue. Apple CarPlay and Android Auto come standard. Every 2019 Altima also comes equipped with a standard 8-inch multi-touch color display, Bluetooth hands-free phone system, streaming audio via Bluetooth, hands-free text messaging assistant, and Siri eyes free voice recognition. Some remote features are also accessible through NissanConnect Services’ Amazon Alexa Skill and Google Assistant Action.
Power is provided by a naturally aspirated, 2.5-liter four-cylinder engine producing 188 horsepower. There’s also an all-new, 2.0-liter turbocharged four-cylinder engine with 248 horsepower on tap. The world’s first production variable compression engine, this 2.0-liter powerplant enables compression ratio to adjust from 8:1 to 14:1 by continuously raising or lowering piston reach for performance or greater efficiency. Both engines connect to an Xtronic continuously variable transmission. Paddle shifters are available with the SR grade.
Every 2.5-liter Altima is now available with Intelligent All-Wheel Drive with a 50:50 torque split in most situations, a first for a Nissan sedan and something that remains a relative rarity in this segment. Front-wheel drive 2.5-liter models are rated at 28 city/39 highway mpg.
Unique in the class, Nissan’s ProPILOT Assist helps drivers stay centered in the lane, navigate stop-and-go traffic, maintain a set vehicle speed, and maintain a set distance to the vehicle ahead. To activate the system, a driver simply pushes the blue ProPILOT Assist ON button, then sets the Intelligent Cruise Control when the desired speed is reached, similar to a conventional advanced cruise control system. It uses a forward-facing camera, forward-facing radar, sensors, and an electronic control module.
Along with ProPILOT Assist, also new for 2019 is Rear Automatic Braking that helps a driver by detecting and warning of objects while backing up, and if necessary applying brakes to help avoid a collision. Other safety and convenience features include standard Automatic Emergency Braking, Intelligent Forward Collision Warning, and Intelligent Driver Alertness 3 on all grades.
Intelligent Around View Monitor is standard on the Altima Platinum. Safety Shield 360 includes Automatic Emergency Braking with Pedestrian Detection, Rear Automatic Braking, Lane Departure Warning, radar-based Blind Spot Warning, Rear Cross Traffic Alert, and High Beam Assist (HBA). A new Traffic Sign Recognition system provides the most recent speed limit information.
The 2019 Nissan Altima offers a base cost of $23,900, a point of entry approachable for a great many buyers seeking a fun-do-drive, stylish vehicle offering laudable fuel efficiency and some of the most advanced technology available in its class.
Our drive of the 2019 Lexus ES 300h, the hybrid variant of this automaker’s all-new, seventh-generation ES sedan, was accommodating as expected from this luxury brand with welcome performance. During our drives we found turn-in sharp and precise. Considering front-to-rear weight distribution is heavy over the front wheels, the suspension compensates well and the car feels well-balanced.
Built on Lexus’ new Global Architecture-K platform, the ES enjoys a 2.6-inch increase in length, 1.8-inch increase in width, and wider front and rear tracks compared to the model it replaces. It also offers a two-inch longer wheelbase at 113 inches and a more spacious rear compartment.
The luxury sedan’s most striking angle is its profile that shows low hood and roof lines. From the front it’s the automaker’s unmistakable spindle grill that dominates, enhanced by slim L-shaped LED projector headlights.
The ES 300h layout is front engine, front wheel drive with power derived from a 2.5-liter 4-cylinder engine, plus an electric motor mated to an all new hybrid transaxle. This delivers 215 total system horsepower. A six-speed automatic transmission with paddle shifters is electronically controlled and continuously variable.
Powering the electric motor is a nickel-metal-hydride battery that's more power dense and compact than its predecessor, allowing it to be relocated from the trunk to beneath the rear seat, thus adding welcome trunk space. This fourth-generation Hybrid Drive System enables accelerating from 0-60 mph in 8.1 seconds and provides a nearly 600-mile driving range, plus excellent combined 44 mpg fuel economy.
Inside is a well-appointed cabin that’s tranquil and free of exterior noise. New suction-type ventilated cooling seats kept us as comfortable and entertained as any in the new movie theaters. There are lots of choices for interior personalization with three color schemes available, four trims, and three material options for the seats. The car’s standard audio has 10 speakers, and to please audiophiles there’s the optional Mark Levinson audio with 1800 watts and 17 speakers.
Of course, the ES 300h offers all the latest driver assistance systems plus an array of convenience features like Apple CarPlay, and it will be Amazon Alexa-enabled for Android phones and iPhones. Outstanding fuel consumption, a striking design, and first-class amenities make the new Lexus ES 300h a real contender for today’s premium car buyers.
The price of entry for the conventionally powered 2019 Lexus ES is $39,500, with the ES 300h hybrid just $1,810 more at $41,310.
Our drive of the new generation 2018 Nissan LEAF quickly reinforced this is a whole-new animal, a new generation of the venerable electric car intended to capture the imagination and, not coincidentally, market share in the increasingly competitive electric vehicle field.
We have history with the LEAF. Green Car Journal first experienced the original LEAF’s capabilities in a technology demonstrator designed to share what Nissan had in mind for its groundbreaking, soon-to-come production electric vehicle. At Nissan’s behest, we tested the automaker’s LEAF-destined electric drivetrain in its EV-12 test mule back in 2009 at Nissan’s global headquarters in Yokohama, Japan. We later witnessed the LEAF’s unveiling, clearly showing Nissan’s willingness to push the envelope for electric cars with an edgy design.
We were impressed. So much so, in fact, that Green Car Journal honored the LEAF with the magazine’s 2010 Green Car Vision Award™ in Washington DC, ahead of its introduction to the market. Nissan’s insight into what electric vehicle buyers desired has indeed proved visionary over the years. Testament to this is the LEAF’s standing as the world’s leading affordable, mass production EV since its launch.
The all-new generation Nissan LEAF aims to expand on this success with new styling and a 50-percent increase in driving range. It also features a full suite of Nissan Intelligent Mobility technologies. This all-electric model is more attractive with excellent aerodynamics that result in a low 0.28 drag coefficient. Improved aerodynamics not only means a quieter ride but also contributes to greater range. That’s an important consideration in electric cars with near-silent drivetrains that don’t mask outside noise.
The new Leaf features a 150-mile driving range between charges compared to the previous generation’s 100 miles. This is an important milestone that serves to overcome potential ‘range anxiety.’ Why 150 miles rather than shooting for the 200+ mile range like the Chevy Bolt EV and Tesla Model 3? It’s all about balancing price with functionality. Simply, Nissan aimed at providing an affordable price point under $30,000 for the LEAF. That meant delivering the range it figured would fit the driving needs of most drivers while keeping battery costs within reason. It’s a sound strategy.
A more powerful 40 kWh lithium-ion battery pack features improvements and revised chemistry that bring a 67 percent increase in energy density. Nissan designers have located the low-slung battery pack and other heavy components to the middle of the chassis to enhance the car’s center of gravity and handling. Fun fact: Using vehicle-to-home systems, the LEAF’s battery can store a home’s surplus solar energy while parked during the daytime and use it to help power a home in the evening.
LEAF’s electric powertrain features a 147-horsepower electric motor that’s well-suited to the model. It provides 38 percent more horsepower than the previous version with 26 greater torque for improved acceleration. Acceleration is crisp with more than enough power at the ready for all the driving situations we encountered on twisty roads and Interstates. Intelligent Ride Control delivers more precise motor torque control during cornering. This also reduces vibration while improving ride quality and steering control. Electric power steering software has been tweaked for improved steering feel. The LEAF’s steering torsion bar is also stiffer for better feedback and more linear response to steering inputs.
Nissan’s e-Pedal slows down the car via regenerative and friction braking when a driver’s foot lifts off the accelerator. This delivers electricity to the battery while essentially providing braking force without using the car’s brake pedal. It even brings the car to a complete stop. We found that driving with e-Pedal kept our LEAF tester in place while stopped on a steep hill without requiring a foot on the brake pedal. Notably, e-Pedal allows drivers to go without using the brake pedal 90 percent of the time.
LEAF’s ProPILOT cruise control conveniently maintains a constant distance to the vehicle ahead. If that vehicle stops, ProPILOT automatically applies brakes to also bring the LEAF to a full stop. It remains stopped even with your foot off the brake. Driving resumes when ProPILOT is activated with the touch of a switch or light pressure on the accelerator. The system also helps keep the LEAF centered in its lane at speeds between 19 and 62 mph. Other LEAF driver-assist technologies include Intelligent Lane Intervention, Lane Departure Warning, Intelligent Emergency Braking, Blind Spot Warning, Rear Cross Traffic Alert, and Intelligent Around View Monitor with moving object detection.
The new LEAF’s interior has a more luxurious and high-end look. Its dashboard is dominated by a seven-inch display for infotainment and the navigation system, if so equipped, plus Nissan's Safety Shield state-of-charge and power gauge. Another seven-inch screen faces the driver in place of conventional dials. Apple CarPlay and Android Auto are included on LEAFs with the higher-spec infotainment/navigation system.
Today’s electric car market is different than that of the past. There are more choices in a growing number of vehicle classes and this makes it tougher for automakers to compete. Nissan aims to not only compete in the electric car field but dominate globally as it has in recent years.
The LEAF’s status as a true world car is underscored by widespread availability like the previous-generation LEAF. It’s also reinforced by Nissan’s global manufacturing capabilities with assembly plants in Japan, England, and in Smyrna, Tennessee. Offering the all-new LEAF at a base price of $29,990 here in the U.S. is a strategy that should bode well for Nissan in today’s increasingly competitive electric vehicle market.
Volkswagen added its 4MOTION all-wheel drive and a few other tweaks to the Golf SportWagen to create the Golf Alltrack, a five-seat hatchback with off-road capability. Available in S, SE, and SEL trim levels, it features a full suite of connectivity and driver assistance systems, either as standard or optional equipment.
Like the Golf SportWagen, the Golf Alltrack is powered by VW's 1.8 liter DOHC four-cylinder TSI engine. This turbocharged and intercooled, 16-valve direct fuel-injected powerplant is rated at 170 horsepower and 199 lb-ft torque. A six-speed manual is standard on the S and SE, with a 6-speed dual-clutch automatic with manual shifting mode and available steering wheel paddle shifters optional, but standard on the top SEL model. EPA rates the Alltrack at 22 city/32 highway mpg, a few mpg less than the SportWagen that comes with 4MOTION.
VW’s 4MOTION all-wheel drive system normally delivers power to the front wheels and can also sends torque to the rear wheels when needed, with the system automatically adapting to varying road conditions for additional traction. Drivers can select between Normal, Sport, Custom, and Off-Road modes. All-wheel-drive also works in conjunction with other active stability systems like Electronic Differential Lock (EDL). Hill Descent Control actively helps control brake application when descending steep inclines, a feature that’s especially helpful in slippery conditions to maintain a constant, controlled speed. An available three-gauge Off-Road Monitor provides information about altitude, steering wheel angle, compass heading, and more.
The Alltrack is 2.1 inches taller than the SportWagen with an increased ground clearance of 6.9 inches. It also features rugged bumpers for tough conditions. Bi-xenon headlights with LED daytime running lights are available on the SEL. The model’s optional adaptive front-lighting system turns the headlights slightly with steering at certain speeds. A power tilting/sliding panoramic sunroof is available along with roof rails that work with VW accessories for carrying outdoor equipment.
Car-Net App-Connect allows the use of select apps from a compatible smartphone on the dash, providing information, support, and assistance to make this the center of a driver’s mobile universe. The system’s Guide & Inform features handy items like enhanced navigation with traffic updates, sports scores, weather information, and more. VW Car-Net Security & Service allows a smartphone to locate the car’s last parked location, check to see if doors are locked, or call for help in an emergency.
VW provides desired driver assistance systems that include a rearview camera system and much more. Front Assist, which includes Forward Collision Warning with front sensors, helps monitor traffic and warn of a potential collision. If a collision is imminent, Front Assist’s autonomous emergency braking helps brake the car. Adaptive Cruise Control helps maintain a preset distance from the car in front. If the car in front speeds up or slows down, sensors detect the change and respond by slowing or stopping the Alltrack automatically. Lane Departure Warning senses when an Alltrack driver is drifting into another lane without a turn signal activated and provides steering input to keep the car in its correct lane.
Park Distance Control uses sensors that help a driver drive into or back out of a parking spot. Audible signals and an optical parking system function in the display indicate how much space is available behind or in front while parking. An alert sounds as a warning if you get too close. The display provides additional support for a driver by showing the position of obstacles. Park Assist determines if a parking spot is big enough, then helps steer the vehicle into the space while a driver operates the accelerator, brake, and shifter.
Those looking to get into a handsome and versatile wagon with off-road capabilities should give the VW Alltrack a close look. It features VW’s expected attention to detail and quality while delivering a fun-to-drive nature and capabilities that allow heading for roads less traveled, at a reasonable MSRP of $25,850 that fits a lot of budgets.