I rode in Volvo’s new electric SUV and was not at all surprised by it

One hour east of Gothenburg, Sweden, the sun was shining on another blue sky spring day. The chamber of commerce weather was perfect for the full day of learning about and testing out the 2025 Volvo EX90 at Hällerd Proving Ground.

A small group of Volvo project managers and engineers gave us the lowdown on Volvo’s latest electric vehicle. The EX90 joins the company’s fleet as its flagship this year alongside its gasoline-powered XC90 counterpart. Though they are similar sized, the XC90 is a completely different vehicle.

Volvo knows a thing or two about EVs already. This new effort is one in a line of models that stretches from the 1976 Volvo Electric Prototype that sits in the new World of Volvo brand showcase center, to the C30 electric car from 2010 and into today with the XC40 Recharge and C40 Recharge, both of which were part of my journey across the American West late last year, and the lauded EX30 small SUV.

When the EX90 debuted in November 2022, it was lauded for its funky animated headlights, well-appointed interior, and sleek exterior. Not much has changed since then, including the melanoma-like safety and driver assistance system-related technologies attached at the roofline above the windscreen.

Before we arrived in Sweden, Volvo warned us that we weren’t going to be able to drive the EX90, but that we would be able to experience it riding shotgun on numerous trails and tracks within the testing center.

Among the 17 to choose from, Volvo chose those tracks designated to test for handling, speed and stability, off-road prowess, and comfort as the ride destinations, clearly showing their priorities with the model’s development.

These tracks are not simply smooth paved surfaces. Each has a unique set of tests within it, from duplicating roadways in the U.S., Europe and Scandinavia that present their own set of challenges.

Have you ever ridden over a freeway in Los Angeles? That melodic thump-thump-thump that you could keep time with using a metronome has been replicated at Hällerd as something engineers need to take into consideration as they develop vehicles.

There’s sections of cobblestones, wavy pavement whoops like you’ll find on rural roads worldwide, and steeply banked surfaces with lanes marked so test drivers can track how well a vehicle stays in its lane using a variety of technology, only some of which has been employed in today’s vehicles.

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The Volvo EX90 electric SUV pictured parked in Sweden.

Buckled into the passenger seat, I spent my afternoon riding alongside Kenneth, a capable engineer who explained every bit of the test to me along the way, calling out speeds and the reasoning for each section of testing as it happened.

With the SUV set for comfort, we started at the handling circuit where whoops were hit at a little over 70 kilometers per hour (45-ish miles per hour) and the car’s weight was immediately apparent, despite the suspension doing everything it could to compensate. However, there was little axial movement.

The SUV’s sound deadening and stabilization efforts proved themselves over the cobbles and rougher sections of road but couldn’t do the heavy lifting as we picked up speed and headed into the corners.

There was no escaping the sheer heft of this SUV. That doesn’t mean that it was incompetent or unable to handle the pressure being placed on it by the driver. In fact, it stuck to the roadway with ease and proved quite nimble.

Switching to a sportier drive mode, the SUV’s dynamics tightened up, It was more easily able to turn into the corners at those higher speeds. However, the lack of seat bolstering became apparent at this point. While the SUV may have been tuned for sportier performance, its passengers were still in their comfort setting.

This made me wonder how it will do traversing the many, many roundabouts in Europe.

2025 Volvo EX90 Sweden Test Drive
A Volvo employee and Newsweek’s Eileen Falkenberg-Hull ride in a new Volvo EX90 at the automaker’s test track in Sweden.

Moving on to the off-road portion, Volvo’s engineers took the car up a hill and around a short trail to simulate what the SUV would be asked to do as Swedes leave the city and head to their summer cottage for a month, week, or weekend of relaxation. It’s perfectly well suited for that level of off-roading.

On the high-speed loop track, the Volvo did as it was designed to do, rapidly accelerating without passing on many G forces to the passengers, while proving stable and serene as we approached maximum speed and stayed there for a while.

It was also easy to keep in the lane at high speeds, even in steeply banked corners.

If there’s one thing that holds true about Volvos, it is that there’s little that is surprising about them. They’re notoriously good at doing their assigned tasks, especially modern ones.

So, it was unsurprising that nothing about the EX90 test drive surprised me. This Volvo is as competent and competitive as the rest of the Volvo lineup. I look forward to my turn behind the wheel in a few months.

BYD Unveils Sea Lion 07: An Affordable Electric SUV Challenging Tesla Model Y

 
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BYD’s Latest Technological Leap with Sea Lion 07

BYD is making headlines with the launch of the Sea Lion 07, an electric SUV priced at $26,000, poised to compete directly with Tesla’s Model Y and Volkswagen’s ID.5. Built on BYD’s innovative e-Platform 3.0 Evo, the Sea Lion 07 is set to start deliveries soon, marking a significant step in BYD’s quest to lead the global electric vehicle market. The Sea Lion is part of BYD’s Ocean series, which includes the Seal sedans and Dolphin hatchbacks, and represents the latest expansion of their electric fleet.

Advanced Design and Performance

The Sea Lion 07 mirrors the aesthetic and technical aspirations of the 2021 Ocean-X concept, featuring a sleek design and advanced electric powertrain. This model transitions from concept to reality with its debut at last year’s Guangzhou Auto Show and is underpinned by BYD’s updated e-Platform 3.0 Evo, enhancing integration and charging capabilities. The platform supports exceptionally fast charging, thanks to BYD’s next-gen blade batteries, which charge from 10% to 80% in just 25 minutes using peak power chargers.

BYD Sea Lion 07
Photo: BYD

Competitive Pricing and Impressive Specifications

With a base price roughly equivalent to $26,240, the Sea Lion 07 offers remarkable value, boasting 228 horsepower and the ability to sprint from 0 to 100 kph (62 mph) in 7.3 seconds. Its 72 kWh battery provides a range of up to 550 km (342 miles) per charge under the CLTC standard, making it a formidable rival to the Tesla Model Y. Higher-end models feature up to 523 horsepower and extended ranges, ensuring that BYD’s latest offering is as versatile as it is powerful.

In summary, the BYD Sea Lion 07 not only sets new standards in affordability for electric SUVs but also showcases significant advancements in electric vehicle technology. This launch could potentially reshape market expectations and consumer preferences in the EV sector, highlighting BYD’s commitment to innovation and competitive pricing.

Rivian R3X: The Latest Update on the Exciting Electric SUV

Introducing the Rivian R3X

The Rivian R3X is set to redefine the electric vehicle (EV) landscape as a high-performance version of the R3 series, promising exceptional on-road and off-road capabilities. This vehicle, part of Rivian’s strategic expansion into more accessible price segments, starts at an estimated $45,000. Positioned within the same financial range as the entry-level R2, the R3X aims to attract a broader audience with its competitive pricing and robust features.

Performance and Technical Specifications

Equipped with a tri-motor setup as standard, the R3X is designed to deliver top-notch performance in both urban settings and rugged terrains. This model will utilize Rivian’s advanced e-Platform 3.0 Evo, enhancing the vehicle’s powertrain efficiency and charging capabilities. Notably, it will incorporate the company’s latest blade batteries, which are optimized for rapid charging—even under extreme cold conditions—allowing an 80% recharge in just about 30 minutes using high-capacity chargers.

R3X Exterior Badging

Design and Innovation: A Closer Look at the R3X

Exterior Styling

Rivian R3X 3/4 Angle

Drawing inspiration from iconic 1980s and 1990s hot hatches, the R3X sports a design that blends nostalgic cues with Rivian’s modern aesthetic. The vehicle features a wider stance and higher ground clearance compared to its standard model counterpart, complemented by distinct wheel arches and aggressive tire treads. Special design touches, such as orange accents and exclusive R3X badging, distinguish this model from other Rivian vehicles, enhancing its appeal to automotive enthusiasts looking for style and functionality.

Interior Elements

Rivian R3X Interior Details

Inside, the R3X showcases a playful yet rugged interior theme, using sustainable materials to create a welcoming and environmentally conscious cabin space. The interior color scheme mirrors the vibrant exterior with bold accents, while innovative storage solutions like adjustable rear seat straps cater to active lifestyles, perfect for securing gear like camping equipment or sports accessories. Rivian’s focus on integrating technology seamlessly is evident in the minimalistic yet functional cockpit design, centered around a comprehensive touch-screen interface.

Rivian R3X Interior

What to Expect: The Road Ahead for R3X

Rivian R3X Rear

As Rivian continues to finalize the R3X’s development, potential buyers can anticipate a vehicle that offers a blend of practicality, performance, and sustainability. Slated for a release timeline shortly after the R2’s debut in 2026, the R3X could hit the roads by late 2026 or early 2027. While specifics on pricing and availability remain under wraps, this model promises to be a significant addition to Rivian’s lineup, potentially setting new standards for the electric SUV segment. Rivian’s ongoing updates and transparency about production progress will be crucial in maintaining consumer interest and confidence as the launch approaches.

Senate Bill to Abolish EV Tax Credits Faces Strong Opposition from Car-Manufacturing States

A new Senate proposal aims to eliminate federal tax credits for electric vehicles (EVs), yet it has drawn scant support from states actively involved in car manufacturing. This bill, introduced by Senator John Barrasso of Wyoming, seeks to scrap the $7,500 EV tax credit and other federal incentives. Surprisingly, states where electric vehicles are produced, such as Texas and Tennessee, have not backed this bill, highlighting a stark disconnect between the legislation and the industries it affects.

Tax incentives for EVs have long been a political football, with critics arguing they disproportionately benefit wealthier Americans and cost taxpayers billions. However, these credits have played a crucial role in boosting local EV production and creating jobs. As companies ramp up domestic battery and vehicle manufacturing, the proposed bill could undermine these gains and disadvantage U.S. manufacturers competing against international rivals.

Mercedes Alabama

The bill’s sponsors are primarily from states with minimal or no car manufacturing, contrasting sharply with the interests of regions like South Carolina and Alabama, where major automakers produce electric vehicles. This oversight suggests the bill might disregard the significant economic impact of the EV sector on local economies and job markets. With the EV industry driving substantial growth and job creation in manufacturing states, the bill’s potential impact underscores a deeper debate over its true beneficiaries and detractors.

Kia teases new EV3: compact electric SUV combining EV accessibility and robust design

Kia Corporation (Kia) has released the first teaser images of its upcoming EV3, the brand’s new compact EV SUV set to enhance the accessibility of electric mobility from Kia.

The teaser images showcase the bold, geometric and robust aspects of the EV3’s exterior design while highlighting its dynamic styling. These qualities are emphasized by the boxy rear fenders and tailgate, as well as the EV3’s signature Star Map lighting, which imbue the vehicle with a strong, futuristic identity.

The EV3’s design stems from the same principles used to sculpt Kia’s flagship EV9 SUV. Kia’s globally acclaimed ‘Opposites United’ design philosophy is the foundation for continuity throughout the brand’s model range and gives the freedom for each vehicle to express its unique character.

Aiming to broaden the accessibility of electric mobility following the introduction of the multi-award-winning Kia EV6 and EV9 models, the EV3 is a compact yet comprehensively equipped EV SUV that offers outstanding performance through its incorporation of innovative technologies.

Set to extend Kia’s EV offering and deliver the elevated customer experience from the brand’s flagship models to the compact SUV segment, the EV3 will accelerate the global EV transition by providing a more accessible solution for customers considering the switch to electric mobility.

The new Kia EV3 will go on sale later this year following the car’s global world premiere, which will be live-streamed on the Kia Worldwide YouTube channel on May 23rd at 19:00 KST (10:00 GMT / 12:00 CET).

A $175,000 CyberTrailer Camper That Can Charge Your EV Is In The Works

Made by California-based Living Vehicle, the Cybertruck-inspired trailer will be ready next year.

Just when we thought all the Cybertruck-inspired frenzy was over, California-based Living Vehicle is here to prove us wrong.

After the Tesla-branded CyberBeer, Cyberwhistle, Cyberquad and Cybertent (previously known as the Basecamp tent), it’s time for the CyberTrailer to shine under the spotlight. Only this time, it’s not a Tesla product.

Cyber everything

The popularity of the Tesla Cybertruck prompted the launch of several Cybertruck-inspired products. The Cyberwhistle, Cyberquad and Cyberbeer were of Tesla’s own making, and now it’s time for a third party to join in on the action with the CyberTrailer off-grid camper.

As its name suggests, it’s a trailer that somewhat resembles the shape of the controversial Cybertruck pickup. Made by California-based luxury camper specialist Living Vehicle, the CyberTrailer isn’t quite ready for prime time, with the company behind it claiming deliveries will start next year, but it does promise a completely off-grid camping experience.

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While there are no interior photos of the angular camper trailer yet, we can expect above-average amenities, considering Living Vehicle made a name for itself after building ultra-luxury campers that offer things like a water generation system, fold-down patios and top-spec solar panel arrays.

However, while the company’s past models could be configured in such a way that the bill exceeded $600,000, the upcoming CyberTrailer is much more affordable. However, with a starting price of $175,000, we wouldn’t necessarily call it cheap.

According to the Californian builder’s website, the Cybertruck-inspired camper will be entirely solar-powered. It will feature “unlimited water from air creation and recycling,” eliminating the need for utility connections and even RV parks.

Living Vehicle CyberTrailer off-grid camper trailer
Living Vehicle CyberTrailer off-grid camper trailer

A folding patio and gear-hauler ramp will also be included, although we don’t know if they will come as standard or as part of an optional package that costs extra, and an Apple iPad tablet will be the gateway to control most if not all, of the camper trailer’s features.

Besides the Tesla Cybertruck, the Ford F-150 Lightning and Rivian R1T and R1S will also be capable of towing the CyberTrailer, according to the company, but a weight rating doesn’t exist yet. For context, the F-150 Lightning can tow up to 10,000 pounds, while the R1T and Cybertruck can haul up to 11,000 lbs each.

Living Vehicle CyberTrailer off-grid camper trailer

As with other off-grid campers made by Living Vehicle, the CyberTrailer will also be able to export power from its integrated battery to recharge the EV that’s towing it, although–again–we don’t know specifics. Last year’s HD and LT campers had batteries that could store up to 72 kilowatt-hours of energy and provide Level 1 EV charging. They could also run a mini-split HVAC system.

Living Vehicle is currently taking pre-orders which require a $100 deposit that’s fully refundable if you change your mind. The company says that 50% of the production is already sold out, but it didn’t mention how many units it plans on making.

We’ll know more about the Cybertruck-inspired CyberTrailer as it gets closer to production. In the meantime, let us know in the comments if this sort of thing tickles your fancy.

15 Smart Ways Electric Vehicles Can Reduce Your Energy Bills

Transforming Energy Costs with Electric Vehicles

Electric vehicles (EVs) are revolutionizing the way we travel and manage our energy consumption. They not only cut down on fuel expenses but also offer significant savings on electricity bills. Here are various strategies through which EVs can help you save on energy costs.

Time-of-Use Savings

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Electric companies frequently use Time-of-Use (TOU) pricing to encourage consumers to use electricity during off-peak hours when rates are lower. Charging your EV at night or on weekends allows you to take advantage of these reduced rates. This strategy not only saves money but also supports a more balanced energy grid by spreading out electricity use.

Home Energy Management

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Smart home systems can work with EV chargers to optimize charging times, ensuring you benefit from off-peak electricity rates. These systems can also manage the usage of household appliances by scheduling them to operate during cheaper rate periods. This coordinated approach leads to significant savings on your energy bills and promotes environmental sustainability.

Reduced Dependency on Gasoline

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EVs provide a reliable alternative to gasoline-powered vehicles, with electricity costs typically more stable than gas prices. By driving an EV, you can enjoy lower and more predictable energy costs. This shift helps reduce dependency on fluctuating fuel prices, contributing to greater financial stability.

Regenerative Braking

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Regenerative braking technology captures energy usually lost during braking and converts it into electrical power stored in the battery. This system extends the vehicle’s driving range and reduces the frequency of charging, saving you money over time. It’s a key innovation that enhances both sustainability and economic efficiency.

Lower Maintenance Costs

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Due to fewer moving parts and no need for oil changes, EVs generally have lower maintenance costs. These savings can help offset any increases in electricity costs from charging your vehicle. Over time, this makes owning an EV more affordable and sustainable.

Government Incentives

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Many governments offer financial incentives to encourage the adoption of electric vehicles. These include rebates on EV purchases, tax credits, subsidies for installing home charging stations, and reduced registration fees. These incentives help lower the initial cost of owning an EV, making them more accessible to consumers.

Increased Home Value

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Adding an EV charging station can increase your property’s value, aligning with the growing trend of electric car ownership. This feature makes your home more attractive to potential buyers, leading to long-term financial benefits. Properties with charging stations stand out in the real estate market, showcasing forward-thinking and eco-friendly amenities.

Net Metering

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Adding an EV charging station can increase your property’s value, aligning with the growing trend of electric car ownership. This feature makes your home more attractive to potential buyers, leading to long-term financial benefits. Properties with charging stations stand out in the real estate market, showcasing forward-thinking and eco-friendly amenities.

Net Metering

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Net metering allows homeowners with solar panels to sell excess electricity back to the grid, reducing their energy bills. This surplus power can offset the cost of charging your EV, effectively using solar energy for transportation. Net metering supports renewable energy adoption and improves overall energy efficiency.

Demand Response Programs

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Advancements in battery storage technology lead to more efficient conversion and storage of electrical energy, minimizing wastage and reducing the effective cost of electricity. Enhanced battery capabilities result in improved energy utilization, benefiting various sectors, including transportation, renewable energy integration, and grid stability, fostering sustainable development and economic efficiency.

Utilities offer Demand Response Programs that provide incentives for consumers to allow grid control of their EV charging during peak demand times. By adjusting charging schedules, these programs help stabilize the grid and reduce electricity costs for participants. This cooperation supports grid reliability and sustainability efforts.

Improved Battery Storage

Advances in battery storage technology enhance the efficiency of energy conversion and storage, reducing wastage. Better battery capabilities lead to more effective energy use, benefiting transportation, renewable energy integration, and grid stability. This promotes sustainable development and economic efficiency.

Load Balancing

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EV batteries can help stabilize the grid by charging during off-peak hours and reducing demand during peak times. This practice optimizes energy distribution, potentially lowering energy costs and improving grid reliability. EV users play a crucial role in creating a more efficient and sustainable energy ecosystem.

Peak Shaving

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Peak shaving uses energy stored in EV batteries during high-demand periods to reduce strain on the grid. Utilities often incentivize EV owners to participate, helping to mitigate peak consumption charges. This collaborative effort benefits grid stability and promotes sustainable energy practices, potentially lowering consumer rates.

Vehicle-to-Home (V2H) Systems

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Vehicle-to-home systems enable EVs to supply power to a home during peak pricing periods or outages. This reduces reliance on expensive grid power and enhances energy resilience. V2H systems offer potential cost savings by offsetting peak electricity expenses.

Vehicle-to-Grid (V2G) Services

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Vehicle-to-Grid services allow EVs to feed stored electricity back into the grid during peak demand times. This helps stabilize the grid, and utilities compensate EV owners for their contribution. This mutually beneficial relationship reduces overall electricity costs for both parties.

Solar Charging

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Using solar panels to charge your EV can significantly reduce fuel costs by directly harnessing renewable energy. This method offers a sustainable and cost-effective transportation solution. Over time, solar charging lowers energy bills and reduces environmental impact.

Exploring Acura’s First EV: The Powerful and Advanced ZDX Type S

Unveiling Acura’s Most Potent SUV

Acura has introduced its most powerful SUV to date with the ZDX Type S, boasting nearly 500 horsepower and an impressive 544 pound-feet of torque. This electric vehicle not only surpasses the hybrid NSX Type S supercar in torque but also outshines luxury EVs like the Mercedes-Benz EQE 500 and Audi SQ8 e-tron in terms of horsepower. Built in collaboration with General Motors, the ZDX Type S is a testament to Acura’s commitment to electrification.

Innovative Collaboration and Design

The ZDX, developed alongside GM engineers, draws power from a 102-kWh GM Ultium battery pack, sharing components with Cadillac’s Lyriq and Chevrolet’s Blazer EV. The vehicle’s exterior dimensions mirror those of the Lyriq, highlighting the influence of GM’s design and engineering expertise. This partnership between an American and a Japanese automaker has resulted in a unique blend of innovation and performance, evident in the ZDX’s capabilities.

Performance and Range Options

The ZDX offers both single and dual-motor configurations, with the rear-wheel-drive model delivering an EPA-estimated range of 313 miles. A DC fast-charging station can add up to 81 miles of range in about 10 minutes, reaching 80 percent charge in just over 40 minutes. While the dual-motor, all-wheel-drive version offers slightly less range, the Type S model achieves 278 miles before needing a recharge, balancing power and efficiency.

Compared to rivals from Kia, Hyundai, and Genesis, the ZDX may take longer to charge but compensates with greater range and power. The vehicle is also equipped with an 18-speaker Bang & Olufsen audio system, marking Acura’s first use of this high-end sound system, commonly found in luxury brands like Lamborghini and Bentley. This addition ensures a premium in-car experience, perfect for enjoying tracks like Eddie Grant’s “Electric Avenue.”

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The ZDX Type S is the most powerful SUV Acura has ever made. Image: Acura

Leveraging GM’s Expertise for Economies of Scale

GM has supplied the battery, frame, suspension, chassis, powertrain, and electrical architecture for the ZDX, while Acura focused on the design and build above the chassis. This collaboration has allowed both automakers to leverage their strengths, providing a cost-effective and efficient production process. Notably, the ZDX retains GM’s one-pedal driving feature, praised by Acura’s development team for its seamless functionality.

Future Prospects and Technological Innovations

Looking ahead, Acura’s first foray into the EV market with the ZDX sets a strong foundation, though the brand has no plans to return to hybrid technology. Instead, Acura aims to explore solid-state batteries and hydrogen-powered vehicles in collaboration with GM. These advancements signify Acura’s dedication to pushing the boundaries of automotive innovation and sustainability.

The ZDX qualifies for the federal $7,500 tax credit, bringing its starting price to $57,500. With additional options like the striking Double Apex Blue Pearl color, Acura’s EV offers a blend of performance, luxury, and cutting-edge technology that positions it as a formidable contender in the electric vehicle market.

The Zeekr MIX Is Not The Next Waymo Self Driving EV

The Geely SEA-M platform used on this car will be used for Waymo’s Robotaxi.

Out of all the dubious self-driving tech startups and software, Waymo’s pulled ahead of the pack as one of the few that work. If you’ve been to San Fransisco, you’d probably recognize the slow-selling Jaguar I-Pace models decked out in cyberpunk-esque growths on the body that run the Lidar and Radar units that let Waymo’s cars drive themselves. Of course, those growths aren’t all that attractive. And why the hell would a self-driving car need a steering wheel anyway? To surmount these problems, Waymo partnered with Zeekr for a steering-wheel-less self-driving car previewed at the LA Auto Show, officially called the Zeekr M-Vision.

极氪MIX-左车头俯45度

Geely and Zeekr say that the Vision M prototypes are in Waymo’s hands, but we haven’t seen them used on roads even two years later. But, at this year’s Auto China 2024 (Beijing Auto Show), Zeekr unveiled a thinly veiled concept car that looks pretty close in concept to Waymo’s purpose-built vehicle – the Zeekr Mix. Is this the actual production model of Waymo’s self-driving cab? Well, no, not quite, according to Zeekr.

Zeekr Has Global Aspirations

Zeekr plans to expand to more than 50 more markets around the world this year. The U.S. and Canada may not be part of them, but the brand has collaborated with Waymo for its self-driving autonomous driving concept. Zeekr’s parent company, Geely, owns controlling stakes in Polestar and Volvo.

It’s hard to ignore what we see in reality, no? Like the Vision M, the Zeekr MIX is a short, five-passenger MPV-like vehicle. It has integrated the structural portions of the B-pillars into its sliding doors, allowing for a pillar-less walkthrough design when both doors are open. It’s got narrow frame rails that increase the turning circle. It has a steer-by-wire that Zeekr says “allows for variable steering ratios and the potential to decouple steering wheel for future high-level intelligent driving.” There’s also a Lidar unit on the roof – come on, Zeekr, we all have eyes – this is Waymo’s new self-driving car, right?

架构+上车身+车门+轮廓

Zeekr’s representatives insisted that despite what we’ve seen on the turntable in hall E1 at The New China International Exhibition Center, the Mix differs from the M Vision. However, the brand did admit that the two cars share a lot under the skin, and the Vice President of Geely Design, Stefan Sielaff, understood why some might think this. The similarities are striking, and both use a variant of the Geely SEA platform that underpins vehicles like the Polestar, called SEA-M. The SEA-M platform includes all the aforementioned provisions and alterations to the standard SEA platform to make the Mix’s people-first interior possible.

架构透视+外轮廓

“The M-Vision was developed with Waymo; we innovated and tailor fit the platform [with the] bare necessities for robotaxis, the [needs of] which are definitely different for private users,” said Sielaff during a Zeekr roundtable event at Auto China 2024. “It can be used for commuting, but also be used as a sort of living room, used when you go out. It’s a completely different user case, so we need a completely different design for this market,” he continued.

It’s true, the M-Vision’s interior is very spartan and hard, no doubt due to the fact it needs to be a serviceable taxicab meant to see oodles of passengers in its theoretical service. The Mix, like other Zeekr vehicles, is downright lush in its appearance.

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“The Mix is a bit more of an unconventional product; it’s more of an iPod on wheels, a kind of lifestyle capsule,” said Sielaff. “The main focus is families,” he continued. Thus, many features are incorporated that are supposed to transform into a sort of living room on wheels. The front and rear seats can completely face each other, and the interior is full of the usual assortment of screens found in the interior.

The Zeekr Mix probably won’t make it out of China, but the SEA-M platform will. Zeekr says it was designed to fit a multitude of utility-oriented solutions, whether that’s a commercial vehicle, robotaxi, or something else. Curiously, the brand says that vehicles on the platform would qualify for a Top Safety Pick award from the Insurance Institute for Highway Safety (IIHS).

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I couldn’t get too close to the Mix; Zeekr claims this is still a concept for now. Sielaff and the rest of the Zeekr crew said the production model would look pretty much the same as what we’ve already seen.

How to Maintain Your Electric Car for Optimal Performance

Understanding Electric Car Maintenance

Maintaining an electric vehicle (EV) is considerably simpler and more cost-effective than a traditional gas-powered car. While the upfront cost of EVs may be higher, they save owners money in the long run through lower maintenance costs and affordable home charging. Here’s a detailed guide on how to keep your electric car running smoothly.

Simplified Maintenance Routine

EVs are designed with fewer mechanical components, which means less frequent servicing compared to gas-powered vehicles. Electric car owners avoid expenses associated with tune-ups, oil changes, cooling system flushes, transmission servicing, and replacement of parts like air filters, spark plugs, and drive belts. Studies suggest that maintaining an EV costs about half as much as maintaining a conventional vehicle.

2023 Chevrolet Bolt EV

Regular Checks and Services

Despite their simplicity, EVs still require some routine maintenance. Manufacturers recommend regular checks and services to keep warranties valid and ensure vehicle longevity. Failing to follow the suggested maintenance schedule could result in voided warranties and costly repairs.

Typical maintenance tasks include tire rotation, replacing the cabin air filter and wiper blades, and topping off the washer fluid. Manufacturers advise that these tasks, aside from basic ones like checking tire pressure and washer fluid levels, should be handled by trained technicians at authorized service centers.

Specific Maintenance Schedules for Different EVs

Chevrolet Bolt EV Maintenance

  • Monthly (by owner): Check tire pressure, inspect tires for wear, and refill windshield washer fluid.
  • Every 7,500 miles: Rotate tires, check coolant levels, inspect for leaks, check brakes and various mechanical components, lubricate body parts, and inspect suspension.
  • Twice a year: Rinse the underbody to remove corrosive materials.
  • Every 15,000 miles: Replace windshield wiper blades.
  • Every 36,000 miles: Change cabin air filter.
  • Every 75,000 miles: Replace hood and body lift support gas struts.
  • Every 5 years: Change vehicle coolant and brake fluid.
  • Every 7 years: Replace air conditioning desiccant.

Nissan Leaf Maintenance

Nissan provides two maintenance schedules based on driving conditions:

  • Schedule 1 (Severe conditions): Includes frequent short trips, stop-and-go driving, dusty or rough roads.
  • Schedule 2 (Highway driving in mild conditions): Requires less frequent maintenance.

Typical tasks include rotating tires every 7,500 miles, changing the cabin air filter every 15,000 miles, replacing brake fluid every 30,000 miles, and changing coolant every 120,000 miles.

Tesla Maintenance Recommendations

  • Every 4 years: Check and replace brake fluid if necessary, and replace the A/C desiccant bag.
  • Every 2 years: Replace the cabin air filter.
  • Every 3 years: Replace the HEPA filter.
  • Annually or every 12,500 miles: Clean and lubricate brake calipers, especially in areas with salted roads.
  • Every 6,250 miles: Rotate tires.

Tesla also notes that under normal circumstances, the battery coolant does not need replacement for the life of the vehicle, and brake fluid should not be topped up.

Nissan Leaf 12

Battery Pack Considerations

The battery pack is the most expensive component of an EV and will degrade over time, losing its ability to hold a full charge. This degradation is gradual and more noticeable in older EV models. Modern EVs typically maintain a sufficient range for years, but owners might eventually see a decline in range that necessitates battery replacement or upgrading to a new vehicle.

from left: 2024 Tesla Model 3 (aka Highland) and Tesla Model Y

Conclusion

While EVs require less maintenance than gas-powered cars, they are not entirely maintenance-free. Regular upkeep of tires, brakes, suspension, and other components is still necessary. Always consult your owner’s manual for specific maintenance guidelines to ensure your electric car remains in peak condition.