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Shares of Chinese ride-hailing provider Didi are sharply lower this morning after news broke that its domestic regulators are investigating the newly public company. A loose translation of the probe’s official notice indicates that the cybersecurity review is “in order to prevent national data security risks, maintain national security and protect the public interest.”
Yesterday, regulators ordered Didi to stop registering new users during the investigation.
The move comes amid a larger reset of relations between China’s burgeoning technology sector and its autocratic government. Other fallouts from the campaign included the effective silencing of Jack Ma, the embarrassing cancellation of the Ant IPO and a crackdown on data collection from technology companies more broadly.
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China is not the only nation grappling with its technology sector; India has made consistent noise in recent months regarding tech firms inside its borders, for example. And there is effort inside the U.S. Congress to put some cap on Big Tech’s scale and power, though of the trio, the United States appears the least likely to take a real swipe at technology companies’ market influence.
That Didi has run afoul of China’s regulatory bodies is not a surprise; it’s a well-known tech company in the country with lots of consumer data. Similar data-rich tech shops in the country have come under increased scrutiny as well.
But to see Didi get taken to task mere days after its U.S. debut puts a bad taste in our mouths.
The way that this saga reads from the cynical perspective is that the Chinese Communist Party was willing to let the company go public in the United States, allowing it to raise billions of dollars from foreign sources. And that the ruling party was then content to leave them holding a midsized bag by announcing its cybersecurity probe.
Hanlon’s Razor is at play in this situation, naturally.
Didi has not published a new SEC filing since June 30, and, as of the time of writing, its investor relations page is devoid of any information regarding today’s news.
While going public, it’s worth noting that Didi did warn investors that it faces a host of risks relating to its status as a Chinese company, namely its government, and as a Chinese company going public in the United States. Observe the following risk factors that it shared while going public (emphasis added) that dealt with the company’s business operations:
- Our business is subject to numerous legal and regulatory risks that could have an adverse impact on our business and future prospects.
- Our business is subject to a variety of laws, regulations, rules, policies and other obligations regarding privacy, data protection and information security. Any losses, unauthorized access or releases of confidential information or personal data could subject us to significant reputational, financial, legal and operational consequences.
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Thousands of electric vehicle charging stations will be built around the country over the next decade. ChargerHelp!, founded in January 2020 by Kameale C. Terry and Evette Ellis, wants to make sure they stay up and running.
The idea for the on-demand repair app for EV charging stations came to Terry when she was working at EV Connect, where she held a number of roles including director of programs and head of customer experience. She noticed long wait times to fix non-electrical issues at charging stations due to the industry practice to use electrical contractors.
“When the stations went down we really couldn’t get anyone on site because most of the issues were communication issues, vandalism, firmware updates or swapping out a part — all things that were not electrical,” Terry said in an interview with TechCrunch earlier this year.
After Terry quit her job to start ChargerHelp!, she joined the Los Angeles Cleantech Incubator, where she developed a first-of-its-kind EV Network Technician Training Curriculum. Shortly after, Terry and Ellis were accepted into Elemental Excelerator’s startup incubator and have landed contracts with major EV charging network providers like EV Connect and SparkCharge.
The company uses a workforce-development approach to hiring, meaning that they only hire in cohorts. Workers receive full training, earn two safety licenses, are guaranteed a wage of $30 an hour and receive shares in the startup, Terry said.
We’re excited to announce that Kameale Terry will be joining us at TC Sessions: Mobility 2021, a one-day virtual event that is scheduled June 9. We’ll be covering a lot of ground with Terry, from how she developed her EV repair curriculum to what she sees in the company’s future.
Each year TechCrunch brings together founders, investors, CEOs and engineers who are working on all things transportation and mobility. If it moves people and packages from Point A to Point B, we cover it. This year’s agenda is filled with leaders in the mobility space who are shaping the future of transportation, from EV charging to autonomous vehicles to urban air taxis.
Among the growing list of speakers are Rimac Automobili founder Mate Rimac, Revel Transit CEO Frank Reig, community organizer, transportation consultant and lawyer Tamika L. Butler and Remix/Via co-founder and CEO Tiffany Chu, who will come together to discuss how (and if) urban mobility can increase equity while still remaining a viable business.
Other guests include Motional’s President and CEO Karl Iagnemma, Aurora co-founder and CEO Chris Urmson, GM‘s VP of Global Innovation Pam Fletcher, Scale AI CEO Alexandr Wang, Joby Aviation founder and CEO JoeBen Bevirt, investor and LinkedIn founder Reid Hoffman (whose special purpose acquisition company just merged with Joby), investors Clara Brenner of Urban Innovation Fund, Quin Garcia of Autotech Ventures and Rachel Holt of Construct Capital, Zoox co-founder and CTO Jesse Levinson.
We also recently announced a panel dedicated to China’s robotaxi industry, featuring three female leaders from Chinese AV startups: AutoX’s COO Jewel Li, Huan Sun, general manager of Momenta Europe with Momenta, and WeRide’s VP of Finance Jennifer Li.
Don’t wait to book your tickets to TC Sessions: Mobility as prices go up at the door. Grab your passes right now and hear from today’s biggest mobility leaders.
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A new alliance between Swedish electric performance automaker Polestar and EV infrastructure startup ChargePoint takes aim at the charging experience with the debut of an in-car app that will let customers seamlessly charge their Polestar 2 model vehicles.
Seamless charging — being able to pull up to a charging station, plug in and let the vehicle handle billing and payment — has been dominated by Tesla through its branded Supercharger network. Most other EV drivers have to pay for charging using an RFID card or smartphone, and the convenience level is on-par with a traditional gas station. The partnership eliminates the need for these extra items at ChargePoint’s more than 130,000 stations. The app will embed directly into Polestar 2’s in-car “infotainment system,” which runs on Google’s Android Automotive OS.
There have been some inroads into seamless charging elsewhere, most notably by Electrify America, the entity established by Volkswagen as part of its settlement with U.S. regulators over its diesel-emissions scandal. It introduced an in-car payment technology dubbed Plug&Charge last November that will allow 2021 models of the Porsche Taycan, Ford Mustang Mach-E and Lucid Air to seamlessly charge at its stations.
The partnership also takes aim at the buying experience, another area that Tesla’s cornered with its branded Wall Connector home charger. Polestar 2 drivers will now be able to order the $699 ChargePoint Home Flex home charger alongside the purchase of a Polestar 2 and arrange for home installation prior to vehicle delivery.
It’s a blueprint for future collaboration between the two companies, ChargePoint senior VP Bill Loewenthal said in a statement. The partnerships may be the start of many more alliances between automakers and EV infrastructure companies who see user experience as a key part of their value proposition.
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A little over 13 years ago, Shai Agassi, a promising software executive who was in line to succeed the chief executive at SAP, then one of the world’s mightiest software companies, left the company he’d devoted the bulk of his professional career to and started a business called Better Place.
That startup promised to revolutionize the nascent electric vehicle market and make range anxiety a thing of the past. The company’s pitch? A network of automated battery swapping stations that would replace spent batteries with freshly charged ones.
Agassi’s company would go on to raise nearly $1 billion (back when that was considered a large sum of money) from some of the world’s top venture capital and growth equity firms. By 2013 it would be bankrupt and one of the many casualties of the first wave of cleantech investing.
Now serial entrepreneurs John de Souza and Khaled Hassounah are reviving the battery swapping business model with a startup called Ample and an approach that they say solves some of the problems that Better Place could never address at a time when the adoption of electric vehicles is creating a far larger addressable market.
In 2013, there were 220,000 electric vehicles on roads, according to data from Statista, a number which had grown to 4.8 million by 2019.
Ample has actually raised approximately $70 million from investors, including Shell Ventures, the Spanish energy company Repsol and the Moore Strategic Ventures, a venture firm that is the privately held investment firm of Louis M. Bacon, founder of the multibillion-dollar hedge fund, Moore Capital Management. That includes a $34 million investment first reported back in 2018, and a later round from investors including Japan’s energy and metals company, Eneos Holdings that closed recently.
“We had a lot of people that either said, I somehow was involved in that and was suffering from PTSD,” said de Souza, of the similarities between his business and Better Place. “The people who weren’t involved read up about it and then ran away.”
For Ample, the difference is in the modularization of the battery pack and how that changes the relationship with the automakers that would use the technology.
“The approach we’ve taken… is to modularize the battery and then we have an adapter plate that is the structural element of the battery that has the same shape of the battery, same bolt pattern and same software interface. Even though we provide the same battery system… it’s the same as replacing the tire,” said Hassounah, Ample’s co-founder and chief executive. “Effectively we’re giving them the plate. We don’t modify the car whatsoever. You either put a fixed battery system or an Ample battery plate. We’re able to work with the OEMS where you can make the battery swappable for the use cases where this makes a lot of sense. Without really changing the same vehicle.”
Ample’s currently working with five different OEMs and has validated its approach to battery swapping with nine different car models. One of those OEMs also brings back memories of Better Place.
It’s clear that the company has a deal with Nissan for the Leaf thanks to the other partnership that Ample has announced with Uber. Ample’s founders declined to comment on any OEM relationships.
It’s clear that Ample is working with Nissan because Nissan is the company that inked a deal with Uber earlier this year on zero-emission mobility. And Uber is the first company to use Ample’s robotic charging stations at a few locations in the Bay Area, the company said. This work with Nissan echoes Better Place’s one partnership with Renault, another arm of the automaker, which proved to be the biggest deal for the older, doomed, battery swapping startup.
Ample says it only takes weeks to set up one of its charging pods at a facility and that the company’s charging drivers on energy delivered per mile. “We achieve economics that are 10% to 20% cheaper than gas. We are profitable on day one,” said Hassounah.
Uber is the first step. Ample is focused on fleets first and is in talks with multiple, undisclosed municipalities to get their cars added to the system. So far, Ample has done thousands of swaps, according to Hassounah, with just Uber drivers alone.
The cars can also be charged at traditional charging facilities, Hassounah said, and the company’s billing system knows the split between the amount of energy it delivers versus another charging outlet, Hassounah said.
“So far, in the use cases that we have, for ridesharing it’s individual drivers who pay,” said de Souza. With the five fleets that Ample expects to deploy with later this year the company expects to have the fleet managers and owners pay for charging.
Some of the inspiration for Ample came from Hassounah’s earlier experience working at One Laptop per Child, where he was forced to rethink assumptions about how the laptops would be used, the founder said.
“Initially I worked on the keyboard display and then quickly realized the challenge was in the field and developed a framework for creating infrastructure,” Hassounah said.
The problem was the initial design of the system did not take into account lack of access to power for laptops at children’s homes. So the initiative developed a charging unit for swapping batteries. Children would use their laptops over the course of the day and take them home, and when they needed a fresh charge, they would swap out the batteries.
“There are fleets that need this exact solution,” said de Souza. But there are advantages for individual car owners as well, he said. “The experience for the owner of a vehicle is after time the battery degrades. With ours as we put new batteries in the car can go further and further over time.”
Right now, OEMs are sending cars without batteries and Ample is just installing their charging system, said Hassounah, but as the number of vehicles using the system rises above 1,000, the company expects to send their plates to manufacturers, who can then have Ample install their own packs.
Currently, Ample only supports level one and level two charging, but won’t offer fast charging options for the car makers it works with — likely because that option would cannibalize the company’s business and potentially obviate the need for its swapping technology.
At issue is the time it takes to charge a car. Fast chargers still take between 20 and 30 minutes to charge up, but advances in technologies should drive that figure down. Even if fast charging ultimately becomes a better option, Ample’s founders say they view their business as an additive step to faster electric vehicle adoption.
“When you’re moving 1 billion cars, you need everything… We have so many cars we need to put on the road,” Hassounah said. “We think we need all solutions to solve the problem. As you think of fleet applications you need a solution that can match gas in charge and not speed. Fast charging is not available in mass. The challenge will not be can the battery be charged in five minutes. The cost of building chargers that can deliver that amount of power is prohibitive.”
Looking beyond charging, Ample sees opportunities in the grid power market as well, the two founders said.
“Time shift is built into our economics… that’s another way we can help,” said de Souza. “We use that as grid storage… we can do demand charge and now that the federal mandate is there to feed into the grid we can help stabilize the grid by feeding back energy. We don’t have a lot of stations to make a significant impact. As we scale up this year we will.”
Currently the company is operating at a storage capacity of tens of megawatts per hour, according to Hassounah.
“We can use the side storage to accelerate the development of swapping stations,” de Souza said. “You don’t have to invest an insane amount of money to put them in. We can finance the batteries in multiple ways as well as utilize other sources of financing.”
Ample co-founders John de Souza and Khaled Hassounah. Image Credit: Ample
Early Stage is the premier “how-to” event for startup entrepreneurs and investors. You’ll hear firsthand how some of the most successful founders and VCs build their businesses, raise money and manage their portfolios. We’ll cover every aspect of company building: Fundraising, recruiting, sales, legal, PR, marketing and brand building. Each session also has audience participation built-in — there’s ample time included in each for audience questions and discussion.
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Volta Energy Technologies, the energy investment and advisory services firm backed by some of the biggest names in energy and energy storage materials, has closed on nearly $90 million of a targeted $150 million investment fund, according to people familiar with the group’s plans.
The venture investment vehicle complements a $180 million existing commitment from Volta’s four corporate backers — Equinor, Albermarle, Epsilon and Hanon Systems — and comes at a time when interest in energy storage technologies couldn’t be stronger.
As the transition away from internal combustion engines and hydrocarbon fuels begins in earnest, companies are scrambling to drive down costs and improve performance of battery technologies that will be necessary to power millions of electric cars and store massive amounts of renewable energy that still needs to be developed.
“Capital markets have noticed the enormity of the opportunity in transitioning away from carbon,” said Jeff Chamberlain, Volta’s founder and chief executive.
It was born of an idea that began in 2012 when Chamberlain began talking with the head of the Department of Energy under the Obama administration. What began when Chamberlain was at Argonne National Lab leading the development of JCESR, the lead lab in the U.S. government’s battery research consortium, evolved into Volta Energy as Chamberlain pitched a private sector investment partner that could leverage the best research from National Laboratories and the work being done by private industry to find the best technology.
Support for the Volta project remained strong through both public and private institutions, according to Chamberlain. Even under the Trump administration, Volta’s initiative was able to thrive and wrangle some of the biggest names in chemicals, utility, oil and gas and industrial thermal management to invest in a $180 million fund that could be evergreen, Chamberlain said.
According to people with knowledge of the organization’s plans, the new investment fund, which is targeting $150 million but has a hard cap of $225 million, would complement the existing investment vehicle to give the firm more firepower as additional capital floods into the battery industry.
Chamberlain declined to comment specifically on the fund, given restrictions, but did say that his firm had a mandate to invest in technology that is battery and storage related and that “enables the ubiquitous adoption of electric vehicles and the ubiquitous adoption of solar and wind.”
Back during the first cleantech boom the brains behind Volta witnessed a lot of good money getting poured into bad ideas and vaporware that would never amount to commercial success, said Chamberlain. Volta was formed to educate investors on the real opportunities that scientists were tracking in energy storage and back those companies with dollars.
“We knew that investors were throwing money into a dumpster fire. We knew it could have a negative impact on this transition to carbon,” Chamberlain said. “Our whole objective was to help guide individuals deploying massive amounts of their personal wealth and move it from putting money into an ongoing dumpster fire.”
That mission has become even more important as more money floods into the battery market, Chamberlain said.
The SPAC craze set off by Nikola’s public offering in electric vehicles and continuing through QuantumScape’s battery SPAC through a slew of other electric vehicle offerings and into EV charging and battery companies has made the stakes higher for everyone, he said.
Chamberlain thinks of Volta’s mission as finding the best emerging technologies that are coming to market across the battery and power management supply chain and ensuring that as manufacturing capacity comes online, the technology is ready to meet growing demand.
“Investors who do not truly understand the energy storage ecosystem and its underlying technology challenges are at a distinct disadvantage,” said Goldman Sachs veteran and early Volta investor Randy Rochman, in a statement. “It has become abundantly clear to me that nothing happens in the world of energy storage without Volta’s knowledge. I can think of no better team to identify energy storage investment opportunities and avoid pitfalls.”
The new fund from Volta has already backed a number of new energy storage and enabling technologies, including: Natron, which develops high-power, fire-safe Sodium-ion batteries using Prussian blue chemistry for applications that demand a quick discharge of power; Smart Wires, which develops hardware that acts as a router for electricity to travel across underutilized power lines to optimize the integration of renewable power and energy storage on the grid; and Ionic Materials, which makes solid lithium batteries for both transportation and grid applications. Ionic Materials’ platform technology also enables breakthrough advancements in other growing markets, such as 5G mobile, and rechargeable alkaline batteries.
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Metropolis is a new Los Angeles-based startup that’s looking to compete with BMW-owned ParkMobile for a slice of the automated parking lot management market.
Upgrading parking with a computer vision-based system that recognizes cars as they enter and leave garages has been Metropolis’ mission since founder and chief executive Alex Israel first formed the business back in 2017.
Israel, a serial entrepreneur, has spent decades thinking about parking. His last company, ParkMe, was sold to Inrix back in 2015. And it was with those earnings and experience that Israel went back to the drawing board to develop a new kind of parking payment and management service.
Now, the company is ready for its closeup, announcing not only its launch, but $41 million in financing the company raised from investors, including the real estate managers Starwood and RXR Realty; Dick Costolo and Adam Bain’s 01 Advisors; Dragoneer; former Facebook employees Sam Lessin and Kevin Colleran’s Slow Ventures; Dan Doctoroff, the head of Alphabet’s Sidewalk Labs initiative; and NBA All Star and early-stage investor, Baron Davis. Global growth equity firm 3L led the round.
According to Alex Israel, the parking payment application is the foundation for a bigger business empire that hopes to reimagine parking spaces as hubs for a broad array of urban mobility services.
In this, the company’s goals aren’t dissimilar from the Florida-based startup, REEF, which has its own spin on what to do with the existing infrastructure and footprint created by urban parking spaces. And REEF’s $700 million round of funding from last year shows there’s a lot of money to be made — or at least spent — in a parking lot.
Unlike REEF, Metropolis will remain focused on mobility, according to Israel. “How does parking change over the next 20 years as mobility shifts?” he asked. And he’s hoping that Metropolis will provide an answer.
The company is hoping to use its latest funding to expand its footprint to more than 600 locations over the course of the next year. In all, Metropolis has raised $60 million since it was formed back in 2017.
While the computer vision and machine learning technology will serve as the company’s beachhead into parking lots, services like cleaning, charging, storage and logistics could all be part and parcel of the Metropolis offering going forward, Israel said. “We become the integrator [and] we also in some cases become the direct service provider,” Israel said.
The company already has 10,000 parking spots that it’s managing for big real estate owners, and Israel expects more property managers to flood to its service.
“[Big property owners] are not thinking about the infrastructure requirements that allow for the seamless access to these facilities,” Israel said. His technology can allow buildings to capture more value through other services like dynamic pricing and yield optimization as well.
“Metropolis is finding the highest and best use whether that be scooter charging, scooter storage, fleet storage, fleet logistics or sorting,” Israel said.
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Micromobility startup Helbiz, which now operates across Europe and the USA, is merging with a special purpose acquisition company (SPAC) to become a publicly listed company, giving it a war chest to potentially roll-up smaller competitors in the space, as well as the resources to expand into “cloud” or “ghost” kitchens as part of a move into food delivery.
Helbiz intends to merge with GreenVision Acquisition Corp. (Nasdaq: GRNV) in the second quarter of 2021. The combined entity will be named Helbiz Inc. and will be listed on the Nasdaq Capital Market under the new ticker symbol, “HLBZ.”
The transaction includes $30 million PIPE anchored by institutional investors and approximately $80 million in net proceeds will be fed into Helbiz’s micromobility and advertising businesses, which have 2.7 million users.
Helbiz says the merged entity will have a valuation of $408 million, and by run Helbiz’s existing management under CEO Salvatore Palella.
Palella said: “Through this transaction, we’re committed to fulfilling our vision in revolutionizing transport by using micromobility to become a seamless last-mile solution.”
He further revealed to me that the company plans to establish “ghost kitchens” in Milan and Washington, DC later this year, with the aim of introducing a five-minute delivery time.
Helbiz has tried to differentiate itself from other players like Lime and Bird by offering e-scooters, e-bicycles and e-mopeds all on one platform.
Key to Helbiz’s offering is an integrated geofencing platform that tends to appeal to city authorities who don’t want scooters left in random places, as well as a swappable battery that enables easier charging of the devices. Its subscription service allows users to take unlimited 30-minute trips on its e-bikes and e-scooters every month.
In Europe the company currently operates a fleet of e-scooters and e-bicycles in Milan, Turin, Verona, Rome, Madrid and Belgrade, and in the U.S. it operates in Washington, DC, Alexandria, Arlington and Miami.
David Fu, chairman, and CEO of GreenVision, commented: “Helbiz has distinguished itself as the only company to offer e-scooters, e-bicycles, and e-mopeds all on one user-friendly platform… Helbiz has a proven and capital-light business model that combines hardware, software, and services with extensive customer relationships.”
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GMC has a new all-electric version of its classic Hummer oversized SUV. This thing is a beast, as you might expect, with an advertised 350-mile range and a 3-second zero to 60 mph time. It’s a bit ridiculous to be honest, which is kind of what the Hummer has always been about so that makes sense.
Alongside a teaser, GMC released a number of press photos of the 1,000 HP bruiser, so take a look below. It definitely looks like a Hummer – which may or may not be your cup of tea.
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Tesla held its Battery Day event on Tuesday to discuss a variety of innovations it has developed and is pursuing in battery technology for its vehicles. At the event, Tesla CEO Elon Musk and SVP of Powertrain and Energy Engineering Drew Baglino detailed new anode and cathode technology it’s working on, as well as materials science, in-house mining operations and manufacturing improvements it’s developing to make more more affordable, sustainable batteries — and they said that taken together, these should allow them to make an electric vehicle available to consumers at the $25,000 price point.
“We’re confident we can make a very, very compelling $25,000 electric vehicle, that’s also fully autonomous,” Musk said. “And when you think about the $25,000 price point you have to consider how much less expensive it is to own an electric vehicle. So actually, it becomes even more affordable at that $25,000 price point.”
This isn’t the first time that Musk has talked about the $25,000 price point for a Tesla car: Two years ago, in August 2018, he said that he believed the company would be able to reach that target price point in roughly three years. Two years on, it seems like the goal posts have been pushed out again — fairly standard for an Elon-generated timeline — since Musk and Baglino acknowledged that it would be another two or three years before the company could realize the technologies it presented in sufficient quantities to be produced effectively at scale.
Tesla detailed a new, tabless battery cell design that would help it achieve its goal of reaching 10 to 20 terawatts of global battery production capacity per year. The design offers five times the energy density of the existing cells it uses, as well as six times the power and an overall 16% improvement in range for vehicles in which it’s used.
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Tesla has fundamentally redesigned the way that its battery packs integrate into their vehicles, turning them into structural elements of the car, rather than just fuel sources on their own. At Tesla’s Battery Day event on Tuesday, Elon Musk compared this to how commercial aircraft used to load fuel into tanks that were contained within the wings, but that were essentially bolted onto internal structure — later on, they realized much greater efficiencies in how much fuel could be carried, as well as weight and parts usage, by making the wing bodies actual fuel tanks themselves.
“All modern airplanes, the fuel tank, your wing is just a fuel tank and wing shaped,” he said. “This is absolutely the way to do it. And then the fuel tank serves as dual structure, and it’s no longer cargo. It’s fundamental to the structure of the aircraft — this was a major breakthrough. We’re doing the same for cars.”
By turning the battery cell into a structural component of the vehicle, Musk pointed out that they can actually save more mass overall in the car than you would assume on paper if you just took out the structural supports in the battery cells as they currently exist. That’s because the battery itself is doing a lot of that support work — which, he points out, actually makes the overall vehicle safer, which might seem counterintuitive.
Tesla will achieve this by creating a filler that is also a structural adhesive, and that also acts as a flame retardant. It “effectively glues the cells to the top and bottom sheet, and this allows you to do shear transfer between upper and lower sheets,” Musk said.
“This gives you incredible stiffness, and it’s really the way that any super-fast thing works is you create basically a honeycomb sandwich with two phase sheets,” he said. “This is actually even better than what aircraft do because they can’t do this because fuel is liquid.”
The end result of this will be that a structure that enables Tesla’s cars to be much stiffer than any regular cars. That stiffer design is better for safety overall, and also means that the batteries will be more efficient, while also avoiding any “arbitrary point loads” of strain or stress on the battery cell itself.
“It also allows us to use to move the cells closer to the center of the car, because we don’t have […] sort of all the supports and stuff,” he said. “So, the volumetric efficiency of the structural pack is much better than a non-structural pack. And we actually bring cells closer to the center.”
This reduces the potential of side impacts from collisions actually reaching the cells, which means they should be less susceptible to sustaining the kind of damage that can result in battery-related fires. It will also “improve the polar moment of inertia,” Musk said, which basically translates to better overall maneuvering of the vehicle and driving and handling feel.
Finally, there are 370 fewer parts in the structural battery design versus the current Tesla battery cell design, which greatly reduces cost as well as potential failure points. That’s going to add up to a lot of manufacturing savings, per Musk, and will stack with the other battery innovations he unveiled.
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