electric Archives - Page 2 of 17

Mazda has a plug-in hybrid perfect for Europe. The problem is that for Europe it is electric and pays tariffs like an electric

February 12, 2026 by usatoday24

If I had to define this story with one word, I would have no doubt: bizarre. To get an idea of the mess, let’s go with a few strokes that we will break down little by little: Mazda has a Chinese electric car that actually has a combustion engine The European Union has lifted tariffs on Chinese electric cars and Mazda has to pay 30% for each one it imports into Europe The European Union does not impose tariffs on Chinese cars with combustion engines. This exception is being used by Chinese brands to gain market share in Europe. Mazda does have to pay tariffs for that electric car that, in reality, has a combustion engine even though the European Union does not impose additional tariffs on Chinese cars with combustion engines. Yes, my head is spinning too. Let’s try to explain it. The history of tariffs To explain a story, Manolito Gafotas was clear: let’s go to the beginning of time. In October 2024after months warning and after some negotiations with China, the European Union raised some additional tariffs to Chinese electric cars that were already paying 10% per car sold in Europe. These tariffs take into account the alleged state aid that China has given to each brand and the willingness of each brand to collaborate. That is, not all pay the same. These taxes were placed on all electric cars that came from China, regardless of the brand that imported them. This is key because all the European brands that bring their cars from China they also have to pay given that, except Teslano foreign brand manufactures its cars in China without being linked to a local automaker. Changan, which is the brand that concerns us here, has to pay 20% additional tariffs that are added to the 10% basic tariffs. That is, for each car sold in Europe, it has to pay an extra cost of 30% on its value. This Chinese company is associated with Mazda, who uses the base of its Deepal cars to bring the Mazda 6e and the next Mazda CX-6e. The first of them we have already been able to drive it in Xataka And, as we told you, it is a car that carries some of the inconveniences of its Chinese origin but whose main attraction is the price. This association It has allowed Mazda a very important step. The company is a small company so investments have to be very well directed and, seeing the embrace that the electric car is receiving in Europe, they have done the math and were not interested in paying for the full development of their own car. But, yes, they have to comply with European emissions standards if they do not want to be fined heavily. One option is to pay the fine. The second is reduce its emissions level below 93.6 gr/k of CO2almost a chimera for a brand where electrification is the exception. The third, and most likely, is to be part of a pool with companies like Tesla to buy their emissions credits. The Mazda 6e and the Mazda CX-6e is very good news for the company since it puts two electric cars on the market at a very low cost for them and a very high profit. For each electric unit sold, the reduction in emissions is substantial and even if they remain above the limit they will have to pay less for those emissions credits. An electric that is not (at all) electric But, in addition to these two aces, Mazda had a third ace up its sleeve. Your saloon Also sold in China as Extended Range Electric (EREV). That is, we are talking about an electric car with 200 kilometers of electric range supported by a combustion engine. In this case, a 1.5 four-cylinder engine that acts as an electrical generator. He extended range electric It is a solution that Mazda itself uses in a car of its own development, the MX-30 REVand it is the option that is proposed to be able to carry out a new sports car replacing the legendary MX-5. The EREV has the advantage of being able to travel hundreds of kilometers in completely electric mode with the appropriate battery and, if necessary, draw on the combustion engine. Mazda’s intention is to improve it in its entirely models with a rotary engine. Thus, the motor hardly takes up any space and adds very little weight to an assembly that will inevitably be weighed down by the weight of the battery, what is happening within the Japanese company itself. But are we talking about a plug-in hybrid? In practice, yes. The car uses the combustion engine as an electrical generator. Thus, it operates at the most efficient rpm in most situations, providing electricity to the battery and that electricity is sent to the electric motors, which are what actually drive the wheels. The advantage is that you have an electric car for everyday lifewith a safety net on long trips and, despite everything, the immediate torque and smoothness of an electric vehicle. The solution in fact, seems like one of the most logical options with the tightening of the European Union’s emissions conditions. And most Chinese plug-in hybrid cars already work this way on most occasions to lower their consumption. But at Mazda they send a message: It will be difficult to see this version in Europe. And there is a technical detail that differentiates a plug-in hybrid from an extended-range electric car. The European Union makes a distinction between the two that does not focus on whether or not it has a gasoline engine, it focuses on what energy propels the wheels. That is, the Mazda 6e EREV is considered electric because its combustion engine never drives the wheels, always works as a series hybrid. Many Chinese cars prioritize this way of working but they are considered plug-in hybrids because, very specifically, their technology does allow the combustion engine to directly … Read more

Electric car battery makers are retooling to make batteries… for AI data centers

February 11, 2026 by usatoday24

In the United States there are a slowdown in the electric vehicle industry, which has caused more and more manufacturers in the sector to convert their business. According to account Financial Times, ten North American factories that produced batteries for electric cars are allocating a good part of their production to energy storage systems for AI data centers. It is the latest industry to readjust around artificial intelligence. The change of course. The media shares data from the consulting firm CRU, which states that these ten plants have canceled enough capacity to produce batteries for 2 million electric vehicles. Of these, seven will focus primarily on the energy storage systems (ESS) market. Among the names involved are Ford, which is converting a factory in Kentucky, and Stellantis along with its partner Samsung SDI, which are converting production lines at its Indiana plant. General Motors is also considering producing its own energy storage batteries, according to declared its head of batteries, Kurt Kelty, to the Financial Times. Why data centers need batteries. Data centers that process AI models require uninterrupted power supply to protect against blackouts or voltage fluctuations. With the construction boom of these centers in the United States, storage batteries have become a critical component of infrastructure. This opens up an alternative revenue stream for automotive companies struggling with electric vehicles. The Tesla example. It is worth taking a look at the numbers of Elon Musk’s company, since in addition to producing vehicles it also manufactures energy storage systems such as Megapack and Powerwall. In this sense, its battery business is turning out to be tremendously profitable, since the company reported income for energy and storage of $12.8 billion in its last quarter, a growth of 27% year-on-year. In 2021, that figure barely reached 2.8 billion. Meanwhile, its revenue from electric vehicle sales has fallen 9% to $64 billion. Political context difficult. Just like account FT, Since the Trump administration eliminated tax incentives for electric vehicle buyers put in place during the Biden era and lowered emissions standards, the electric vehicle market in the United States has seen a slowdown. This has led BloombergNEF to revise its forecast downwards: from expecting electric vehicles to represent 48% of total car sales in 2030, they now project only 27%. Electric vehicles currently account for about 8% of new car sales in the United States. The aid that is maintained. As well as mention In the middle, although these subsidies have been eliminated, the administration retains generous incentives for battery manufacturers: a production credit of $35 per kilowatt-hour and a 30% tax credit for investments in energy storage. In addition, tariffs on Chinese storage batteries are around 60%, allowing manufacturers to produce in the United States at prices close to parity with Asian imports. Between the lines. It is also worth highlighting important nuances. CRU’s Sam Adham counted to FT that battery manufacturers will not necessarily pass on what they save on costs to their customers (they may increase their margins, for what). In addition, according to the FT, the Korean companies that lead the production of storage batteries in the United States have less experience with the lithium iron phosphate technology used by these systems, compared to their Chinese rivals. It is not a total reconversion, for now. Wood Mackenzie’s data suggest that electric vehicles will continue to absorb a greater proportion of battery installations than energy storage until the end of 2030. “If there is a rebound in demand for electric vehicles, companies that have switched to storage systems could be left behind,” said Milan Thakore, an analyst at the consultancy. More sectors than They pivot towards AI. From the Semafor newsletter, also they mention another very interesting sector that is beginning to convert its business towards AI: cryptocurrency miners. And according to Morgan Stanley, facilities dedicated to cryptocurrency mining are seeing a more profitable business in the creation of data centers for AI. The economics of cryptocurrency mining have gotten worse and worse since the reward is lower, and converting these facilities into infrastructure for artificial intelligence is much more profitable. According to the calculations Morgan Stanley, transforming all bitcoin mining facilities in the United States could reduce the electrical capacity deficit for data centers by between 10 and 15 gigawatts. Cover image | CHUTTERSNAP and İsmail Enes Ayhan In Xataka | If AI is the “weapon” of the future, the US is already investing 25% of all world military spending in it

The new Ferrari Luce is much more than Ferrari’s first electric car. It is a desperate cry to find a new audience

February 9, 2026 by usatoday24

We thought of 2026 as the year in which we would see Ferrari’s first electric car. Boom. As of February 9, we already know the first details of its interior. The company itself has made them public in what is the first of the many appetizers that they will provide us before knowing the final bite. At the moment we already have its name, its interior and a bomb: the design of the cabin has been carried out by Jony Ivewho led Apple design until his departure in 2019. He Ferrari Lucewhich will be the company’s first electric car, has been seen with an interior that breaks with the entire collective imagination of what a Ferrari should be and, at the same time, draws on its history. Why an electric Ferrari? We have been talking about Ferrari’s first electric car for more than five years. Do you remember what life was like before 2020? The electric car seemed like the future, brands were striving to make the leap to zero emissions and the European Union warned that in 2035 we would not have a single car on sale with a combustion engine. Five years later, regulators have accepted that cars with combustion engines can be sold. Of course, the common mortals will not touch them. Or, at least, we will not be able to go to the dealership and order one because the real demands regarding emissions dictate, right now, that if a brand does not want to pay fines it will have to sell many (very many) electric cars for each pure combustion car. And that leaves two paths: either the brand sells those electric vehicles or it puts cars on the market that are expensive enough for the customer to pay the fine and continue to get an economic return from them. Come on, what Combustion cars will be a thing for the rich. But this change in regulation comes late for most brands. Because almost all of them had launched a 100-meter dash race to have their electric cars ready as soon as possible. This career has come hand in hand with enormous investments that, except in very specific cases, were no longer worth stopping. One of them is Ferrari. The brand has needed to move forward with Luce, its first electric car. A car that will not only take advantage of the advantages of electric motors. The first thing its interior tells us is that the Ferrari Luce will be much more than a sports car. It is one of the most important cars in its history. And Ferrari wants to make it a before and after. Ferrari Luce interior Much more than an electric Ferrari In its first electrified car, the Ferrari LaFerrari, the Maranello company sent a clear message: its first electrically powered car was going to be the most cutting-edge and wildest Ferrari ever built. With its first fully electrified car, the first to be sold without an exhaust pipe, Ferrari sends another clear message: techie customer, customer who wants to be fashionable, we are here. It is no coincidence that the cabin of This Ferrari Luce was designed by Jony Ive. Whoever was the head of design at Apple is considered one of the legends of industrial design, with decisions in which he clearly opted for form over functionality. The beautiful over the practical. The Ferrari Luce is everything we could expect since the relationship between Ive and those from Maranello is known. The cabin plays with a neo-retro design, with a steering wheel that recalls the simplicity of the extreme sportiness of a Ferrari F40 or an interior where the buttons have been replaced by aviation-style keys. There are just a few buttons on the center console to raise and lower the windows or lock them. A kind of joystick acts as a gear shift lever. Ferrari Luce gear selector Detail of the central screen button panel The interior of the Luce does not forget that a Ferrari is a sports car with paddles behind the steering wheel rim. But the small islands that shelter the selection positions here forget about the most sporting details to prioritize more day-to-day functions. And this is important. It still has a manettino to select the driving mode but it has a second lever to select what, we assume, will be the degree of power delivery to extend the battery’s autonomy. We have a direct button to control the wipers and another to, we suppose, deactivate the beeps of the wipers. ADAS systems. The turn signals, on what look like touch surfaces but I’ve explained to Top Gear which are physical, are integrated into the spokes of the steering wheel itself instead of having physical buttons and routes as in the brand’s latest models. But, of course, what draws the most attention are its two screens. We have long accepted an instrument cluster and a central screen for a Ferrari. What we did not imagine is that the main screen would be the absolute queen of the cabin with its 10.12 inches and a mobile solution at the bottom that balances between genius and purist horror. The handle is pure Ive design. The graphics displayed by Ferrari are so reminiscent of Apple that one would almost think they have embraced CarPlay Ultra. And at the same time, its 12.86-inch OLED instrument cluster screen is displayed as it would in a classic Ferrari, with its clocks well separated and extraordinary clarity for reading. The whole set is a sample of where Ferrari is right now. The company could have chosen to put an electric car in the body of a combustion Ferrari. Instead he has embraced another proposal: if I can’t convince you to jump to an electric car, I will look for new customers. Although those from Maranello have cars that are more or less usable on a daily basis, until now their proposals have always been consistent. racing Inside, a clear reminder that … Read more

China is telling us what a future full of electric cars looks like. And we already know which are the most reliable brands

February 4, 2026 by usatoday24

The conquest of China in the automobile industry global has made us increasingly pay attention to the country’s manufacturers and the models that are coming out every year. China leads in new energy vehiclesalthough the reliability of their cars has always been questioned. The latest report Quality test launched by the analysis firm LandRoads offers us a very interesting perspective, as it studies the models that have initially caused the least problems since their purchase. In this aspect, the ranking places the Xiaomi SU7 as the most reliable large sedan, while the Tesla Model 3 dominates among the midsize models. Below these lines we tell you all the details. What is the ranking about?. LandRoads has published its annual report on quality in electric and plug-in hybrid vehicles in the Chinese market, analyzing 6,950 incidents reported by users. According to the report, 3,687 were quality problems and 3,263 were design-related. In the overall ranking by brand, AITO tops the list with a quality risk index of 123 points, followed by Mercedes-Benz (126) and Tesla (146). Image: ChinaEVHome. Source: LandRoads Why does it matter? The Chinese electric vehicle market is immersed in a frenetic race to incorporate more technology and functions. However, the study gives us clues that not all manufacturers are facing this battle completely well. The three main problems reported were noise (24.6% of complaints), exterior components (18%) and failures in intelligent systems (17.3%). Together they represent more than 60% of incidents, pointing out the critical points where the industry needs to improve. Categories. Highlights of the report indicate that: In medium-large sedans and above, the Xiaomi SU7 wins with an index of 108 points, well ahead of the Stelato S9 (218) and the IM L6 (237), according to LandRoads data. In midsize and compact sedans, the Tesla Model 3 leads with 104 points, followed by the Nio Firefly, BMW i3, Geely Galaxy Xingyuan and BYD Seal 06 GT. Among large SUVs, the top three spots go to AITO models: the M9 (88 points), M8 (98) and M7 (135), with the Li Auto L8 and Voyah FREE completing the top five. In medium and compact SUVs, the Avatr 07 stands out (92 points), ahead of the BYD Sealion 05 EV, Yuan UP, Tesla Model Y and Yuan Plus. In MPVs, the Voyah Dreamer records the best result with 192 points. Balance. The report also points out a phenomenon he calls a “high-equipment, high-risk concentration zone.” And according to LandRoads, as some manufacturers rapidly accumulate new features, the maturity and stability of the systems does not advance at the same pace, amplifying the risk of vehicle quality. According to the study, AITO, Xiaomi, NIO, Zeekr, Li Auto and Voyah have managed to maintain low risk rates despite offering high levels of equipment. More mature electronic architectures, better coordination with suppliers and exhaustive validation systems in all types of scenarios come into play here. Looking long term. LandRoads concludes in its study that the electric vehicle industry is moving from simply adding features and functions to the integration capacity and long-term stability of all these novel systems. Furthermore, seeing Aito above manufacturers like Mercedes or Tesla gives us clues about the transition we are experiencing and the ability of Chinese manufacturers to produce a product that lives up to it. Cover image | aboodi vesakaran and Aito In Xataka | Aid for electric cars is complicated: the Auto+ Plan comes with less money, more demands and a key question to resolve

There are electricians against the myth of electric radiators in winter

February 4, 2026 by usatoday24

Winter not only brings cold; It brings with it the fear of opening the mailbox and finding the energy bill. The scenario becomes complicated when we move away from the new work. Heating an old home is, today, one of the great challenges for homeowners and reformers. High ceilings, thick uninsulated walls and outdated installations turn thermal comfort into an obstacle course. In this context, many users find themselves caught between the desire for efficiency and the technical impossibility of installing the most modern systems. At first glance, the most convenient solution seems to be the electric radiator: plug and play. However, as experts warnthis convenience comes at a price. If not calculated well, these devices can easily become a “hole in the bill” at the end of the month. The reality of the brick versus technology. While Europe talks about heat pumps and decarbonization, the reality of Spanish homes is moving at a different pace. Many of the current solutions, such as underfloor heating either aerothermalare not always viable in historic or older buildings due to structural limitations. Fran Carbonell, electrician specialized in rehabilitation, explains in your TikTok account that, far from being dead, electric radiators are consolidated as an “efficient, simple and compatible alternative” with the character of these homes when it is not possible to carry out major works. Carbonell defends models such as natural stone emitters, which offer interesting thermal inertia without the need to break up floors. There is a sweepinvisible: the wiring. It is worth remembering, and this is not to put my finger on the sore spot, that 80% of the homes in Spain It has obsolete electrical installations and only 22.4% were built after the 2002 Technical Regulation. This means that before thinking about powerful systems, the house must be prepared. In fact, Carbonell himself insists on a key condition for installing radiators safely: “It is essential to carry out an independent electrical installation”, since conventional plugs Many old houses do not support the necessary power. Physics does not forgive the pocketbook. To understand why some options are more expensive than others, you have to look beyond the price of the device and look at efficiency. This is where it comes into play the Seasonal Coefficient of Performance (SCOP). As explained from Xataka Homea traditional electric radiator has a ratio of 1 to 1. That is, for every kilowatt (kW) of electricity you pay, you get 1 kW of heat. However, a heat pump (aerothermal) has an efficiency of 4 or 5. You pay 1 kW of electricity, but the machine returns 4 kW of heat because it “steals” the remaining thermal energy from the outside air for free. The translation into euros. If we update the calculator to the market prices of this first week of February, the electricity bill shows a truce relative, but dangerous. A standard 1,500 W radiator on five hours a day consumes 225 kWh per month. With the average price of the wholesale market hovering around minimums thanks to renewables, the monthly cost per device today would be around 27 euros for regulated rates. However, during peak hours or with high fixed rates, that same device can skyrocket to 45 euros per month. If we multiply by four radiators for a complete home, the range ranges between 108 and 180 euros extra on the bill. So what is the best option? The short answer is: it depends on your house and your initial budget. On the one hand, the efficiency winner—if you can afford it— It is Aerothermal. OCU studies confirm that the cheapest option for the pocket in the long term is the heat pump (aerothermal), followed by biomass. An example cThis is the case of Natalia, collected by The Spanish in Novemberwho went from spending 1,300 euros per year with radiators to around 400 euros after the reform, although the initial investment was around 6,500 euros. On the other hand, if you live in an old house where you cannot raise the floor, or in an area where winter is mild, electric radiators still make sense. They are the recommended option for “specific uses or small rooms.” What if I switch to gas? If we look at the other side, natural gas is experiencing a moment of contained stability at the start of the year. According to MIBGAS datathe daily price stands at €31.72/MWh, with a forecast for March that drops slightly to €30.85/MWh. This means that the “raw material” of gas remains competitive (just €0.031/kWh before taxes), being notably cheaper than raw electricity. However, the advantage is diluted when adding the fixed costs of the bill, boiler maintenance and the lower efficiency of the system compared to aerothermal energy. Furthermore, although today the price is attractive, the volatility of the European market and regulatory pressure to eliminate fossil boilers They add a layer of long-term uncertainty for anyone considering a new installation now. Tricks that are worth money. Regardless of the system you choose, there are golden rules that physics and experts recommend to avoid throwing away money in 2026: Turning off is saving: Forget the myth that “it’s better to keep it on.” Jorge Morales de Labra, energy expertis blunt: “Even if you go down for five minutes to buy bread, it’s worth turning it off.” Maintaining the temperature in an empty house means paying for constant heat losses. The 21 degree limit: Every degree you rise above 21 ºC increases the bill by 7%. That is the invisible barrier that you should not cross. “Low Cost” Insulation: If you can’t change the windows, there are effective patches. According to Decoesferathe use of weather stripping, wool rugs and the strategic closing of blinds to avoid thermal leaks. A resistance against the cold. While aerothermal energy is crowned as the queen of technical efficiency, electric radiators resist as the necessary trench solution for an aging real estate park that does not always allow for comprehensive renovations. The best decision depends of a … Read more

The electric car needs cheap batteries. And a Spanish region is closer to giving it to them: Extremadura

February 2, 2026 by usatoday24

It’s just the go-ahead but it’s a key go-ahead. It is what will allow Yuneng International Spain New Energy Battery Material SLU to launch a project in Mérida to produce lithium iron phosphate (LFP/LiFePO₄). In other words, Mérida will be key to producing essential materials for the manufacture of LFP batteries. Batteries that aspire to be essential in the popularization of the electric car. Merida. It was the place chosen by Yuneng International Spain New Energy Battery Material SLU to build a factory that can produce lithium iron phosphate. The project will be located in the Expacio Mérida business park and will extend across 467,000 square meters after the Government of Extremadura has confirmed the approval of the environmental declaration for this factory. The project aims to have financing of 800 million euros and generate 500 jobs to produce the planned capacity of 50,000 tons per year of these materials. In the first phase they will mobilize between 116 and 125 million euros of investment creating about 160 direct jobs, they point out in Motorpassion. Why is it key? The production of lithium iron phosphate is essential for LFP batteries. Batteries are made up of modules and these, in turn, are made up of cells. In each cell there is an anode and a cathode. It is in the cathodes of LFP batteries where lithium iron phosphate sheets are located. Without them, the batteries would not work. In batteries of this type there are small lithium particles on the anode (negative pole). These particles move to the cathode (positive pole) through a liquid electrolyte found inside. This is when the electric current is generated which is then used by the motors to move the wheels. LFP Batteries. LFP batteries are one of the big promises of the electric car to make models cheaper and popularize this technology. It is a technology that offers less autonomy than NMC (cathode formed by nickel, cobalt and manganese) or NCA (nickel, cobalt and aluminum) because they have lower energy density. However, these batteries are cheaper because lithium and iron are cheaper than nickel or cobalt. And, in addition, they are safer and better resist load cycles so they will be more durable. This is essential for smaller cars, which will have less autonomy and must undergo a greater number of charging cycles but with the backpack of not being able to raise its price. Estremadura. In recent years, Extremadura has become relevant in the electric car supply chain. In addition to this lithium and iron phosphate production plant, in Navalmoral de la Mata (Cáceres) it is already rising a plant to produce complete batteries. This factory was designed to produce NMC batteries but has pivoted to produce LFP accumulatorsso both industries can be connected when the time comes. Additionally, the region is rich in lithium. Next to Cáceres it is believed that there are one of the largest deposits in Europe. The mine that should exploit this deposit has encountered the opposition from some neighbors and environmental platforms which has paralyzed the project. However, up to three of the seven projects that the European Commission wants to carry out in Spain for the exploitation of minerals and rare earths They are in Extremadura. The cheap electric car. To popularize the electric car, China has been betting on LFP batteries for years. In Europe, most electric cars have opted for batteries that include nickel or cobalt because they allow greater charging and discharging power and autonomy but are more expensive. Over the years, this has changed. Renault works with LFP batteries for the entry-level range of electric cars such as the Twingo or the Renault 5 (in the future). Tesla also uses them in the more modest versions of Model 3 and Model Y. In Spain, CATL is going to manufacture this type of batteries in Zaragoza for the smaller Stellantis cars. And Volkswagen too has this type of accumulator in mind for its most affordable electric cars that will come out of the Martorell line. Photo | Mercedes and Google Maps In Xataka | Europe has its hope in the 25,000 euro electric car and Volkswagen already knows who will manufacture it: Spain

The Model 3 is no longer the best-selling premium electric vehicle in China

January 26, 2026 by usatoday24

The automotive industry is giving us not-so-subtle clues about its changes and the baton it picks up. China as an influential country in this sector It is taking more and more shape. Just two years ago, dethroning the Tesla Model 3 as the best-selling electric sedan might seem like a joke. However, this same thing has happened in China, as it is the Xiaomi SU7 the one that has taken that position from him, and even more of an achievement if we take into account that it is the first car from the now also automobile manufacturer. Figures. Xiaomi’s SU7 reached 258,164 units sold in China during 2025, exceeding the 200,361 deliveries of the Model 3 by almost 30%, according to data of the Chinese Passenger Car Association (CPCA). It is the first time that a Chinese manufacturer has managed to take the lead from the Tesla model in its category since it began to be assembled in the Shanghai Gigafactory at the end of 2019. Context. Xiaomi has only been delivering vehicles since March 2024, making this success even more significant. With a huge user base on its mobile devices and other technological products, the Chinese manufacturer has managed to boost sales of its first vehicle with very outstanding features such as its sophisticated autonomous driving system preliminary and software and technology that has become a reference. There in China, the basic model of the SU7 has a price of 215,500 yuan (about 26,400 euros at the exchange rate), 9% cheaper than the Model 3, which starts at 235,500 yuan. The decline of Tesla in China. Elon Musk’s brand has seen how its market share was plummeting from 16% in 2020, when it began producing the Model 3 in Shanghai, to 6.9% in 2024. Tesla’s total deliveries in the country fell 4.8% in 2025 to 625,698 units, representing just 4.8% of total electric vehicle sales in China. “Tesla’s Chinese competitors are able to make technologically comparable vehicles while offering them at lower prices,” counted Eric Han, from the consulting firm Suolei, to the SCMP media. Lights and shadows of SU7. Despite Xiaomi’s great success, the SU7 has also been marked by tragedy. And in March 2025, three people died in an accident with an SU7 in the province of Anhui while the driving assistance system was activated, which led the Chinese authorities to tighten supervision over these technologies. In October, another fatal accident in Chengdu involving a SU7 Ultra once again generated debate, this time because neither the members of the vehicle, nor the people who wanted to help them, were able to open the doors of the burning vehicle. New versions. The company presented in early January a renewed version of the SU7 with a range of more than 900 kilometers on a single charge, launched in pre-sale from 229,900 yuan (about 28,000 euros at the exchange rate). The top-of-the-range edition reaches 902 km of autonomy, compared to 830 km for the Pro version that currently exists. Tesla doesn’t look good in Europe either. Things are starting to look ugly for Tesla, because if we are going to its overall figuresElon Musk’s company delivered 1.64 million vehicles in 2025, compared to 1.79 million in 2024, accumulating two consecutive years of declines. In Europe, where Tesla launched trimmed versions of the Model Y and Model 3 to defend volumes, registrations fell 25% in the eight main markets. Its share in our market fell from 2.4% to 1.7% until November, according to the European association ACEA. Between the lines. Nor can we say that Tesla already has everything on order, especially considering that the Model Y remains the best-selling SUV in China. However, the ability of Chinese manufacturers to compete in the premium segment with technologically advanced vehicles and more competitive prices is redrawing the map of the sector. We were recently talking about BYD surpassed Tesla as the largest electric vehicle manufacturer in the world, with 2.25 million units sold in 2025. Of course, the fragmentation of the Chinese market, which already has more than 50 electric vehicle manufacturers, and the fierce price warraise doubts about the long-term profitability of the sector. Cover image | David von Diemar In Xataka | There is an unexpected victim of the rise in RAM memory prices: the very modern connected cars

Madrid has bought so many electric cars that the DGT has ended one of its great incentives

January 22, 2026 by usatoday24

Electric cars and plug-in hybrids will not be able to circulate in the Bus-HOV lane unless the signs indicate so. The DGT has confirmed that it was one of the most attractive measures for the potential customer of a car with a Zero Emissions label to take the leap. Now, so many cars of this type have been sold in Madrid that they have ended up putting an end to this advantage. What has happened? The DGT has sent a statement announcing the “Resolution on special traffic regulation measures for 2026.” Nothing very juicy except for one detail: the announcement that the Zero Emission cars they have run out of taking advantage the Bus-HOV lane to avoid traffic jams. The DGT explains that from now on, drivers of a Zero Emissions car (electric or plug-in hybrid with more than 40 kilometers of autonomy) will only be able to circulate on this special lane when it is specifically signposted. By default, they will not be able to enter it. Because? According to the DGT, the decision “responds both to the demand of the citizens and to the requests of the public transport companies and the Ombudsman who have conveyed to the DGT their concern about the progressive loss of effectiveness of the HOV lanes that directly affects the regularity and punctuality of the service, discouraging its use and harming thousands of daily users who opt for public transport.” And they provide data: traffic jams on the main roads have increased by 10%, while in the Bus-HOV lanes they have increased by 22%. But the data skyrockets in Madrid. According to their accounts, traffic jams are 20% more frequent on the main road of the A-6 entering and exiting Madrid. In its Bus-HOV lane, traffic jams have increased by 90%. Madrid, absolute leader. According to ANFAC data, Madrid was the Autonomous Community where the most electrified cars (electric and plug-in hybrids because the data also discriminate by non-plug-in hybrids) were purchased. In total, at the end of 2025, 102,245 cars of this type were recorded. Across Spain, 245,629 Zero Emission cars were purchased. The next region in which the most Zero Emission cars were purchased was Catalonia but it remained at 33,309 units. Behind them, only the Valencian Community and Andalusia exceeded 20,000 units. Goodbye to one of the great incentives. Until now, switching to the Bus-HOV lane despite only having one passenger traveling in an electric or plug-in hybrid car was one of the great incentives to get a vehicle of this type. The HOV Bus on the A-6 in Madrid, the only one for which the DGT offers data, is a relief for a road that is clogged daily. Beyond the driving comfort (absence of noise or vibrations) and the savings if we recharge at home, the Zero Emissions cars had two great incentives that were considered “political”. One is the purchasing aid that until now was collected in the MOVES III Plan but that have been frozen waiting for a Auto+ Plan that has not yet materialized. The second was this use of the Bus-HOV lane, since the time saved per day was considerable. However, advantages applied by each municipality such as unlimited access to ZBEsexemptions in the payment of road taxes or free parking in regulated parking areas. These aids are of municipal application and, therefore, vary from one city to another. Goodbye, goodbye. The loss of the unlimited pass for the VAO Bus is only a reminder that Zero Emission cars continue to enjoy some aid that, it is hoped, will end up disappearing. This is what has happened, for example, in Norway, where the exemption from paying taxes has caused a hole of 1.8 billion euros. The solution that has been proposed is to tax the weight of vehicles to alleviate this problem. In other cities, like parisit is also ignored whether the car is electric or not and a similar mechanism is also used to charge in regulated parking areas. Photo | DGT In Xataka | Guide to know if your car will be able to circulate in the ZBEs of Madrid in 2026: labels, registrations and areas

The Xiaomi electric car that beat Tesla in sales has been renewed. And he has shattered a resistance record along the way

January 22, 2026 by usatoday24

Xiaomi’s Xiaomi SU7 has broken a world endurance record and has become the first electric sedan in the world capable of traveling 4,264 kilometers in 24 hours. The previous record was held by another Chinese company. the car. The Xiaomi SU7 renewed just a few weeks ago not only some aesthetic touches: now the engine is the V6s Plus, the same one fitted to the Xiaomi YU7 with the promise of achieving 902km (under CLTC cycle) on a single charge and 670 kilometers of autonomy in 15 minutes. The test. The Chinese brand has just announced that the Xiaomi SU7 Max has just broken a record that until now was held by Xpeng’s P7. 4264 kilometers traveled in 24 hours, within a closed circuit. Why is it important. First of all, this number is the immediate translation of what Xiaomi has achieved with its affordable sedan: shattering the endurance record for electric vehicles. A milestone that places it far above the Xpeng P7. Bringing the circuit test to the practical world, the record comes close to the new SU7 going on sale in China. Xiaomi wants to make it clear that its car is capable of withstanding limits well above those that no user will expose it to on the street. How has he achieved it. For much of the test, the SU7 Max maintained a constant speed of 240 km/h, with a maximum of 265 km/h along CATARC, a 7.8 kilometer oval track. The only stops made were to recharge the vehicle. The engine of this updated SU7 mounts a 101.7 kWH NMC battery, capable of recovering 670 km of autonomy (according to the Chinese CLTC cycle) in just 15 minutes. A V6s Plus engine capable of rotating at 22,000 rpm and extracting a maximum power of 681 HP. Sales success. Xiaomi’s SU7 is an unprecedented success. Being the first car manufactured by the company, it has achieved sell more than the Tesla Model 3, outperform rivals in specifications like him Taycan Turbo in its Ultra version. Still, the company is losing money. 800 million dollars. Ironic as it may seem, Xiaomi lost close to a billion dollars in the first year manufacturing the SU7. The company has placed more than 350,000 cars on the market since the launch of the SU7 but… Between 2021 and 2025, it spent 3.3 billion on the development of both the car and its ecosystem. The figure increased to 4.2 billion in research in 2025. Figures that, as astronomical as they may seem, do not represent a major problem for a company that aspires to become the largest manufacturer of electric cars in the world, above Tesla. Image | Xiaomi In Xataka | Xiaomi’s electric car heads to Europe: the global launch will take place in 2027

Toyota was obsessed with creating its best electric sedan. So he ended up asking Huawei for help…

January 21, 2026 by usatoday24

After letting it be seen in the Shanghai Auto Show At the beginning of last year, Toyota just made official the bZ7its electric flagship more than five meters long. What is striking here is not the car itself, that too, but the technology that gives life to both its software and its drive train. Technology that… is not from Toyota. The car. bZ7, this is the name that Toyota has given to an electric sedan that embodies the latest technology available for this segment. The summary is simple. 5.1 meters long. 1.9 meters wide. LPF (lithium ferrophosphate) type batteries of BYD origin. Autonomy of between 600 and 800 km (according to the Chinese cycle, CLTC) depending on version. Operating system HarmonyOS. Huawei DriveOne system (electrical system, engine, car architecture…) What’s Huawei looking like here?. In 2020, Huawei confirmed its commitment to the electric car with DriveOneits first electric motor. Specifically, we are talking about a control unit composed of a motor, reducer, converter, integrated charger, power distribution unit and battery control unit. It thus allows this Toyota bZ7 to have a power of 278 HP and a maximum speed limited to 180 km/h. All this in a much more compact platform compared to the traditional ones used in this type of vehicles. The interior. As if it were not enough to power the engine of this luxury sedan, the cabin has a 15.6-inch floating central screen. The size of a generous laptop. The operating system that gives it life is HarmonyOS, a platform thatthe company develops for the world of electric cars, smartphones, tablets, computers and peripherals of all kinds. The alliance. That Huawei and Toyota develop a car together is something quite recent. The Japanese company announced that, on cars destined for China, it would cooperate with Huawei. Toyota began to lose steam both in global sales and in China, where it fell 6.9% in 2024. After three consecutive years of losing sales in China, it decided with one of the manufacturers that today has more muscle when it comes to developing complete platforms for electric cars. Beyond Apple and Google. Chinese manufacturers like Huawei are betting on a solution at the operating system level that is much more integrated than what Apple and Google have been trying to do for years. Unlike Android Auto and Apple CarPlay, integrate the system (in this case HarmonyOS, but also in cases like that of HyperOS), allows complete control of the vehicle from it. It does not require a smartphone, it is updated via OTA, it is based on its own code… It’s something similar to what Google is trying with Android Automotivea complete system but with little adoption, and what Apple promised with CarPlay Ultracurrently reserved only for luxury vehicles. Image | toyota In Xataka | In the midst of the industry crisis, the brand that has most opposed the electric car continues to break records: Toyota

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