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Nissan, Honda and Mitsubishi will share EV components and AI research

TOKYO — Japanese automakers Nissan and Honda say they plan to share components for electric vehicles like batteries and jointly research software for autonomous driving. A third Japanese manufacturer, Mitsubishi Motors Corp., has joined the Nissan-Honda partnership, sharing the view that speed and size are crucial in responding to dramatic changes in the auto industry centered around electrification. A preliminary agreement between Nissan Motor Co. and Honda Motor Co. was announced in March. After 100 days of talks, executives of the companies evinced a sense of urgency. Japanese automakers dominated the era of gasoline engines in recent decades but have fallen behind formidable new players in green cars like Tesla of the U.S. and ChinaÂ’s BYD. “Companies that donÂ’t adapt to the changes cannot survive,” said Honda Chief Executive Toshihiro Mibe. “If we try to do everything on our own, we cannot catch up.” Nissan and Honda will use the same batteries and adopt the same specifications for motors and inverters for EV axles, they said. By coming together in what Mibe and counterpart at Nissan, Makoto Uchida, repeatedly called “making friends” to achieve economies of scale, the companies plan more strategic investments in technology and aim to cut costs by boosting volume. Each company will continue to produce and offer its own model offerings. But they will share resources in areas like components and software development, where “making friends” will be a plus, Mibe and Uchida told reporters. They declined to say whether the friendship will extend to a mutual capital ownership, while noting that wasnÂ’t ruled out. The two companies also agreed to have their model lineups “mutually complement” each other in various global markets, including both internal combustion engine vehicles and EVs. Details on that are being worked out, the companies said. Honda and Nissan will also work together on energy services in Japan. Under ThursdayÂ’s announcements, Mitsubishi will join as a third member. Toyota Motor Corp., JapanÂ’s top automaker, is not part of the three-way collaboration. Although Honda and Nissan have very different corporate cultures, it became clear, as their discussions on working together continued, their engineers and other workers on the ground have a lot in common, Uchida said. “Speed is the most crucial element, considering our size,” he added.

DC fast charging not as damaging to EV batteries as expected

As convenient as DC fast charging is, there have been lots of warnings that repeated dumping of so many electrons into an electric vehicle's battery pack in such a short time would reduce the battery's life. While everyone agrees that DC fast charging does have some effect on battery life, it may not be as bad as previously expected. Over on SimanaitisSays, Dennis Simanaitis, writes about a recent presentation by Matt Shirk of the Idaho National Laboratory (INL) called DC Fast, Wireless, And Conductive Charging Evaluation Projects (PDF) that describes an ongoing test of four 2012 Nissan Leaf EVs that are being charged in two pairs of two. One pair only recharges from 50-kW DC fast chargers, which the other two sip from 3.3-kW Level 2 chargers exclusively. Otherwise, the cars are operated pretty much the same: climate is automatically set to 72 degrees, are driven on public roads around Phoenix, AZ and have the same set of dedicated drivers is rotated through the four cars. "Degradation depends more on the miles traveled than on the nature of recharging." What's most interesting are the charts on page seven of Shirk's presentation (click the image above to enlarge), which show the energy capacity of each of the four vehicles. When they were new, the four batteries were each tested to measure their energy capacity and given a 0 capacity loss baseline. They were then tested at 10,000, 20,000, 30,000 and 40,000 miles, and at each point, the DC-only EVs had roughly the same amount of battery loss as the Level 2 test subjects. The DC cars did lose a bit more at each test, but only around a 25-percent overall loss after 40k, compared to 23 percent for the Level 2 cars. Simanaitis' takeaway is that, "INL data suggest that the amount of degradation depends more on the miles traveled than on the nature of recharging." The tests are part of the INLs' Advanced Vehicle Testing Activity work and a final report is forthcoming. These initial numbers from IPL do mesh with other research into DC fast charging, though. Mitsubishi said daily fast charging wouldn't really hurt the battery in the i-MiEV and MIT tests of a Fisker Karma battery showed just 10-percent loss over 1,500 rapid charge-discharge cycles.

Renault, Nissan, Mitsubishi announce 35 new EVs by 2030

Renault, Nissan and Mitsubishi are going all-in on EVs. The trio announced plans to release 35 new electric models globally by 2030, ranging from Japan-only kei cars to commercial vehicles, and they sketched out plans to develop next-generation solid-state batteries. The three carmakers will leverage the benefits of economies of scale to keep development and production costs in check. Many of the Alliance's models already ride on a common platform; the Nissan Sentra shares its bones with the third-generation Renault Scenic. Looking ahead, the plan is to build 80% of the cars in the group's global portfolio on common architectures. Renault, Nissan and Mitsubishi are massive companies with a wide lineup of models, so there is no one-size-fits-all solution. Instead, the strategy focuses on five basic modular platforms. CMF-AEV will be for so-called affordable electric cars. KEI-EV will be primarily for kei cars, LCV will underpin commercial vehicles, and CMF-EV was designed to underpin mainstream models including the Ariya. Finally, the CMF-BEV platform will underpin about 250,000 electric cars annually starting in 2024. These include the production version of the retro-styled 5 Prototype introduced in January 2021, at least one car assigned to the Alpine brand, and a replacement for the Micra (previewed above) that will be engineered and built by Renault. Most of these cars will be equipped with a lithium-ion battery pack; that's likely going to remain the best way to power an electric car in the coming years. However, Nissan has been tasked with developing solid-state battery technology that promises to greatly reduce charging times. A solid state battery is tentatively scheduled to enter production by the middle of 2028, though it's too early to tell which model(s) will inaugurate it. Digital services will play a significant role in the Alliance's future lineup as well. By 2026, Renault, Nissan and Mitsubishi plan to connect 25 million cars to their cloud and over 10 million vehicles fitted with "autonomous driving systems" (a vague term that wasn't defined). All told, these investments will cost the group at least ˆ23 billion (around $26 billion at the current conversion rate) in the next five years. What does this mean for America?