electric vehicles
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Tesla owners can now see exactly what kind of energy is powering their electric vehicles. TezLab, a free app that’s like a Fitbit for a Tesla vehicle, pushed out a new feature this week that shows the energy mix — breaking down the exact types and percentages of fossil fuels and renewable energy — coming from charging locations, including Superchargers and third-party networks throughout the United States.
“We’re tracking the origin of data as it relates to energy, so we know if you’re in Tucson or Brooklyn (or any location) where the energy is coming from and what the mix of that energy looks like,” Ben Schippers, the CEO and co-founder of TezLab explained in a recent interview. “As a result, we can see how much carbon is being pushed out into the atmosphere based on your charge, whether you’re charging at home, or whether you’re charging at a Supercharger.”
ElectricityMap, a project from Tomorrow, provided the energy data, which TezLab then folded into its consumer-facing app. Once downloaded, the app knows when and where a Tesla owner is plugging in. The energy mix feature builds off of an existing program on the app that gave owners more general information on how dirty or clean their charge is.
Take Tesla’s Linq High Roller Supercharger in Las Vegas, a V3 Supercharger that is supposed to support a peak rate of up to 250 kilowatts and has been heralded for its use of Tesla solar panels and its Powerpack batteries to generate and store the power needed to operate the chargers.
According to TezLab’s data, 1.7% of the energy is from solar. The primary source of renewable energy is actually hydro at 65.6% — courtesy of the Hoover Dam. The remaining energy mix from the Supercharger is about 33% natural gas.
Tesla’s Supercharger in Hawthorne, California, which was one of the first to have solar panels, has an energy mix of 0.2% solar, 5.5% nuclear,13.3% natural gas, 27% coal and 49.9% wind.
The top 10 “cleanest” Superchargers — a list that includes Centralia, Leavenworth, Moses Lake and Seattle, Washington — achieved that goal thanks to hydroelectric power. Superchargers with the most solar energy are all located in the same power grid in California. Superchargers in Barstow, Oxnard, Cabazon, San Diego, Mojave, Inyokern, San Mateo, Seaside and Santa Ana, California all have 22.7% solar and 15% wind energy. The remaining mix at these locations is 0.2% battery storage, 2.9% biomass, 5.6% geothermal, 6.3% hydro, 6.6% nuclear and 40% natural gas.
TezLab was born out of HappyFunCorp, a software engineering shop that builds apps for mobile, web, wearables and Internet of Things devices for clients that include Amazon, Facebook and Twitter, as well as an array of startups. HFC’s engineers, including co-founders Schippers (who is now chairman of the company’s board) and William Schenk, were attracted to Tesla largely because of its software-driven approach. The group was particularly intrigued at the opportunity created by the openness of the Tesla API. The Tesla API is technically private. But the endpoints are accessible to outsiders. When reverse-engineered, it’s possible for a third-party app to communicate directly with the API.
TezLab launched in 2018 with some initial features that let owners track their efficiency, total trip miles and use it to control certain functions of the vehicle, such as locking and unlocking the doors and heating and air conditioning. More features have been added, mostly focused on building community, including one that allows Tesla owners to rate Supercharger stations.
All of that data is aggregated and anonymous. TezLab has said it won’t sell that data. It does post on its website insights gleaned from that data, such as a breakdown of model ownership, the average trip length and average time between plugging in.
As other electric vehicles come to market, TezLab is adding those to the app, including the Ford Mustang Mach-E.
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Dat Bike, a Vietnamese startup with ambitions to become the top electric motorbike company in Southeast Asia, has raised $2.6 million in pre-Series A funding led by Jungle Ventures. Made in Vietnam with mostly domestic parts, Dat Bike’s selling point is its ability to compete with gas motorbikes in terms of pricing and performance. Its new funding is the first time Jungle Ventures has invested in the mobility sector and included participation from Wavemaker Partners, Hustle Fund and iSeed Ventures.
Founder and chief executive officer Son Nguyen began learning how to build bikes from scrap parts while working as a software engineer in Silicon Valley. In 2018, he moved back to Vietnam and launched Dat Bike. More than 80% of households in Indonesia, Malaysia, Thailand and Vietnam own two-wheeled vehicles, but the majority are fueled by gas. Nguyen told TechCrunch that many people want to switch to electric motorbikes, but a major obstacle is performance.
Nguyen said that Dat Bike offers three times the performance (5 kW versus 1.5 kW) and 2 times the range (100 km versus 50 km) of most electric motorbikes in the market, at the same price point. The company’s flagship motorbike, called Weaver, was created to compete against gas motorbikes. It seats two people, which Nguyen noted is an important selling point in Southeast Asian countries, and has a 5000W motor that accelerates from 0 to 50 km per hour in three seconds. The Weaver can be fully charged at a standard electric outlet in about three hours, and reach up to 100 km on one charge (the motorbike’s next iteration will go up to 200 km on one charge).
Dat Bike’s opened its first physical store in Ho Chi Minh City last December. Nguyen said the company “has shipped a few hundred motorbikes so far and still have a backlog of orders.” He added that it saw a 35% month-over-month growth in new orders after the Ho Chi Minh City store opened.
At 39.9 million dong, or about $1,700 USD, Weaver’s pricing is also comparable to the median price of gas motorbikes. Dat Bike partners with banks and financial institutions to offer consumers twelve-month payment plans with no interest.
“These guys are competing with each other to put the emerging middle class of Vietnam on the digital financial market for the first time ever and as a result, we get a very favorable rate,” he said.
While Vietnam’s government hasn’t implemented subsidies for electric motorbikes yet, the Ministry of Transportation has proposed new regulations mandating electric infrastructure at parking lots and bike stations, which Nguyen said will increase the adoption of electric vehicles. Other Vietnamese companies making electric two-wheeled vehicles include VinFast and PEGA.
One of Dat Bike’s advantages is that its bikes are developed in house, with locally-sourced parts. Nguyen said the benefits of manufacturing in Vietnam, instead of sourcing from China and other countries, include streamlined logistics and a more efficient supply chain, since most of Dat Bike’s suppliers are also domestic.
“There are also huge tax advantages for being local, as import tax for bikes is 45% and for bike parts ranging from 15% to 30%,” said Nguyen. “Trade within Southeast Asia is tariff-free though, which means that we have a competitive advantage to expand to the region, compare to foreign imported bikes.”
Dat Bike plans to expand by building its supply chain in Southeast Asia over the next two to three years, with the help of investors like Jungle Ventures.
In a statement, Jungle Ventures founding partner Amit Anand said, “The $25 billion two-wheeler industry in Southeast Asia in particular is ripe for reaping benefits of new developments in electric vehicles and automation. We believe that Dat Bike will lead this charge and create a new benchmark not just in the region but potentially globally for what the next generation of two-wheeler electric vehicles will look and perform like.”
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The coming wave of electric vehicles will require more than thousands of charging stations. In addition to being installed, they also need to work — and today, that isn’t happening.
If a station doesn’t send out an error or a driver doesn’t report it, network providers might never know there’s even a problem. Kameale C. Terry, who co-founded ChargerHelp!, an on-demand repair app for electric vehicle charging stations, has seen these issues firsthand.
One customer assumed that poor usage rates at a particular station was due to a lack of EVs in the area, Terry recalled in a recent interview. That wasn’t the problem.
“There was an abandoned vehicle parked there and the station was surrounded by mud,” said Terry who is CEO and co-founded the company with Evette Ellis.
Demand for ChargerHelp’s service has attracted customers and investors. The company said it has raised $2.75 million from investors Trucks VC, Kapor Capital, JFF, Energy Impact Partners and The Fund. This round values the startup, which was founded in January 2020, at $11 million post-money.
The funds will be used to build out its platform, hire beyond its 27-person workforce and expand its service area. ChargerHelp works directly with the charging manufacturers and network providers.
“Today when a station goes down there’s really no troubleshooting guidance,” said Terry, noting that it takes getting someone out into the field to run diagnostics on the station to understand the specific problem. After an onsite visit, a technician then typically shares data with the customer, and then steps are taken to order the correct and specific part — a practice that often doesn’t happen today.
While ChargerHelp is couched as an on-demand repair app, it is also acts as a preventative maintenance service for its customers.
The idea for ChargerHelp came from Terry’s experience working at EV Connect, where she held a number of roles, including head of customer experience and director of programs. During her time there, she worked with 12 manufacturers, which gave her knowledge into inner workings and common problems with the chargers.
It was here that she spotted a gap in the EV charging market.
“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.
And yet, the general practice was to use electrical contractors to fix issues at the charging stations. Terry said it could take as long as 30 days to get an electrical contractor on site to repair these non-electrical problems.
Terry often took matters in her own hands if issues arose with stations located in Los Angeles, where she is based.
“If there was a part that needed to be swapped out, I would just go do it myself,” Terry said, adding she didn’t have a background in software or repairs. “I thought, if I can figure this stuff out, then anyone can.”
In January 2020, Terry quit her job and started ChargerHelp. The newly minted founder joined the Los Angeles Cleantech Incubator, where she developed a curriculum to teach people how to repair EV chargers. It was here that she met Ellis, a career coach at LACI who also worked at the Long Beach Job Corp Center. Ellis is now the chief workforce officer at ChargerHelp.
Since then, Terry and Ellis were accepted into Elemental Excelerator’s startup incubator, raised about $400,000 in grant money, launched a pilot program with Tellus Power focused on preventative maintenance and landed contracts with EV charging networks and manufacturers such as EV Connect, ABB and SparkCharge. Terry said they have also hired their core team of seven employees and trained their first tranche of technicians.
ChargerHelp takes a workforce-development approach to finding employees. The company only hires in cohorts, or groups, of employees.
The company received more than 1,600 applications in its first recruitment round for electric vehicle service technicians, according to Terry. Of those, 20 were picked to go through training and 18 were ultimately hired to service contracts across six states, including California, Oregon, Washington, New York and Texas. Everyone picked to go through training is paid a stipend and earn two safety licenses.
The startup will begin its second recruitment round in April. All workers are full-time with a guaranteed wage of $30 an hour and are being given shares in the startup, Terry said. The company is working directly with workforce development centers in the areas where ChargerHelp needs technicians.
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Amazon is expanding customer deliveries via electric cargo vehicle to San Francisco, making the Bay Area the second of 16 total cities the company expects to bring its Rivian-sourced EVs to in 2021.
San Francisco’s unique terrain and climate were a couple of the reasons Amazon said it chose the city for its second round of testing. Its EVs, which were designed and built in partnership with Rivian, can last up to 150 miles on a single charge.
Amazon began testing its electric delivery van in Los Angeles in early February as part of its Climate Pledge, which involves the purchase of 100,000 custom electric delivery vehicles. The company first unveiled the vans last October, and has said it aims to have 10,000 of the vehicles operational by next year.
Bay Area deliveries will initially come out of Amazon’s station in Richmond, California, just one of the many delivery stations the e-commerce giant is redesigning to service its new fleet of EVs. A recent $200 million investment into a new delivery station in the heart of San Francisco signals Amazon’s push to significantly increase deliveries in the city.
“From what we’ve seen, this is one of the fastest modern commercial electrification programs, and we’re incredibly proud of that,” said Ross Rachey, director of Amazon’s global fleet and products in a statement.
Amazon isn’t the only company to recognize the logic behind electrifying delivery fleets for short trips within cities: DHL says zero-emission vehicles already make up 20% of its fleet, UPS has placed an order for 10,000 EVs and FedEx has pledged to replace 100% of its fleet with electric vehicles by 2040.
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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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Swedish autonomous electric vehicle startup Einride is aiming to continue the momentum sparked by partnerships with Oatly and Lidl by seeking additional capital, TechCrunch has learned.
Einride is seeking $75 million in new financing, while at the same time exploring the potential for a public listing through a special purpose acquisition company, according to people with knowledge of the company’s plans.
SPACs, a mechanism in which a publicly traded shell company merges with a private business, have taken the U.S. capital markets by storm led, in part, by startups focused on the electrification of mobility.
Early successes of public listings for companies like Nikola (despite its dubious claims) helped set the stage for the SPAC boom. Canoo, Fisker Inc, ChargePoint and Lordstown Motors are just a few of the U.S.-based EV companies that have gone public via a SPAC in the past year.
Unlike some newly minted SPAC companies, Einride has some fundamentals. The company has already piloted its technology through a partnership with Oatly, the Swedish oat milk maker.
Oatly began using Einride’s electric trucks on its delivery routes from each of its Swedish production sites in October 2020. Thus far, the trucks have driven over 8,600 km electric and as a result have saved over 10,500 kg of CO2 compared to diesel, according to a statement from the companies.
“Sustainability is at the core of everything we do, and we work hard to lower our emissions across the board. This includes our emissions for transports, which is why we are now shifting to electrical vehicles, which reduces our climate footprint by 87% on these routes,” said Simon Broadbent, supply chain director at Oatly, in a statement at the time.
The deal with Oatly was just the beginning. As the ink dried on that partnership, Einride quickly signed other marquee Swedish businesses including the food shipping and logistics company Lidl and the electronics manufacturer Electrolux.
Big automakers have electric and autonomous plans of their own. Argo, a developer of self-driving technology, is now worth $7.5 billion thanks to an investment from Ford and the VW Group. And VW’s Traton Group is pushing low emission and electrification through a $2.2 billion investment announced in 2019.
Daimler, Paccar, and Volvo all have plans as well.
That’s just scratching the surface of the money that’s pouring in to autonomous, electrified transport. Of course, Tesla is in the game with its own semi truck and, in China, Plus AI, is automating a number of vehicles from Manbang, Suning and FAW Jiefang.
All of this money is aiming to capture a portion of the market for autonomous, electrified vehicles that the consulting firm McKinsey estimated would save the trucking industry over $100 billion. It’s a potentially huge opportunity in the $260 billion U.S. trucking market alone. Worldwide, businesses spend about $1.2 trillion on trucking, according to McKinsey.
The benefits that would accrue to the industry are more than just financial. Trucking is a huge component of the greenhouse gas emissions that come from the transportation sector — which includes road, rail, air and marine transportation. In 2016, trucking and transport broadly contributed to roughly 24% of the world’s total greenhouse gas emissions — and that number has been steadily increasing.
Any reduction in carbon emissions from the transport sector would be a huge step forward on the path toward a more environmentally sustainable future.
No wonder venture investors are falling all over each other to invest in these companies. Einride counts EQT Ventures and NordicNinja VC, a fund backed by Panasonic, Honda, Omron and the Japan Bank for International Cooperation, among its investors. Along with backing from Ericsson Ventures, Norrsken Foundation, Plum Alley Investments and Plug and Play Ventures the startup has raised $32 million to date.
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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
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Volvo Cars said it will only make and sell all-electric vehicles by 2030 as part of a broader transformation of the automaker that will include shifting sales online.
“The key to sustainability is electrification, said Volvo Cars CEO Håkan Samuelsson during a presentation Tuesday. “Together with investments in charging infrastructure that is the right way to go and the course we have chosen at Volvo.”
The announcement was tied to the launch of the C40 Recharge, a low-slung crossover based on the company’s CMA vehicle platform. While the C40 is the second vehicle under Volvo’s EV-focused Recharge brand, it is the first model designed from the beginning as a battery-electric only vehicle. All Volvo vehicles with fully electric and plug-in hybrid powertrains are housed under the Recharge brand. Like the XC40 Recharge, the C40 will have an infotainment system powered by Google’s Android operating system and the ability to handle over-the-air software updates.
“It’s a car of firsts and it’s a car of the future,” CTO Henrik Green said, adding that the C40 will have two motors, a 78 kilowatt-hour battery and an estimated range of 420 km (260 miles) that will improve over time via software updates. C40 will go in production this fall and will be built alongside the XC40 Recharge at the Volvo Cars manufacturing plant in Ghent, Belgium, the company said.
Volvo, which is owned by China’s Geely Holdings, aims for 50% of its global sales to consist of fully electric cars, with the rest hybrids. By 2030, every car it sells should be fully electric, the company said.
The company is well on its way to its electrification goal, according to Samuelsson, noting that last year one car out of three sold in Europe was a Recharge model, a chargeable plug-in hybrid.
Volvo’s evolution isn’t just pinned to the powertrain.
“The future customer offer cannot just consist of an electric car,” Samuelsson said. “We also need to listen to our consumers, and they expect transparency and a seamless experience getting and having a car.”
Volvo will only sell its all-electric vehicles online and at preset prices. Customers will be able to subscribe or buy the vehicles, which will come with a customer care package. The vehicles will also have pre-selected configurations to shorten the time between ordering and receiving a vehicle.
Volvo’s move to become an all-electric brand is in sync with a growing number of automakers, including GM and Jaguar. Last month, GM committed to selling only electric vehicles by 2035 and becoming a carbon neutral operation globally by 2040. GM said in November it will spend $27 billion over the next five years on the development of electric vehicles and automated technology, a 35% increase that exceeds the automaker’s investment in gas and diesel and is an effort to bring products to market faster.
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Last week the mobile charging battery company SparkCharge announced a partnership agreement with AllState that expands the company’s reach into vehicle services, driving the company further down the road toward its goal of making electric vehicle charging the next gig economy job.
The company, which has developed, designed and is commercializing a mobile vehicle charger, is also in the process of closing a $5 million round led by Shark Tank investor Mark Cuban and others as it brings its new mobile charging device, called the Roadie, to market.
SparkCharge’s 120 kilowatt fast charger can be delivered on-demand through a network of partners that now includes AllState and the Durham, North Carolina vehicle services startup, Spiffy. Customers can choose to top up with between 50 miles and 100 miles of charge using the Roadie, which is the lynchpin in a broader charging network that SparkCharge’s founder, Joshua Aviv, envisions.
“You can say I want a charge at this point in time at this location and this much range,” Aviv said. “You pay and have the charge delivered all on one app.”
So far, the agreement between AllState and SparkCharge covers four cities: Chicago, Los Angeles, San Francisco and San Diego, and the insurance and roadside assistance provider has ordered roughly 20 portable chargers.
Working through companies like Spiffy and AllState is one way to get to market, but SparkCharge’s chief executive thinks that independent workers could start up their own businesses offering on-demand charging to customers.
On-demand charges cost roughly 50 cents per mile and a customer can get a significant enough charge for as little as $10, according to Aviv.
“We’re basically creating a whole new [charging] network,” said Aviv. “This isn’t a network meant to be a stopgap. It’s a network that’s always on, always available and better and faster than [traditional chargers]… we don’t need permits, we don’t need construction. With our unit, you take it out of the box, you plug it into the car, you push a button and begin charging. With us, every parking spot, every location — that’s now a charging station. That’s a much better network than the legacy.”
Folks who wanted to offer the charging services would pay roughly $450 per month for the equipment and that would give them the battery and the equipment they would need to start their own on-demand EV charging business.
“It’s a business designed to allow people to service EV owners,” said Aviv.
The Somerville, Massachusetts-based company was born from Aviv’s own fascination and frustration with the current state of electric vehicle charging infrastructure.
As The Wall Street Journal noted, the lack of charging infrastructure is one of the major obstacles that electric vehicles have to overcome for them to achieve mass adoption.
In a survey of 3,500 electric vehicle drivers, cited by the Journal, which was conducted in September and October of last year by the advocacy group Plug In America, over half of respondents reported having problems with public charging. Those problems are worse for drivers who don’t own Teslas.
Whatever else may be true about the EV that Elon built (along with thousands of workers and a slew of additional innovators and company founders), Tesla’s emphasis on having mostly adequate charging infrastructure to support its customers has paid huge dividends. And other carmakers, retailers and standalone charging service providers are only beginning to catch up.
Companies ranging from oil majors like Shell to automakers like Volkswagen, who spent $2 billion to build out an electric vehicle charging network as part of the settlement from its diesel emissions chicanery, have networks built out or in the pipeline.
For Aviv, who has owned an electric vehicle since 2013 when he bought a Chevrolet Volt, the problem was clear. He began working on the company in 2014 while still a student at Syracuse University. A professor and advisor at the university had previously served on the board of the Environmental Protection Agency and was a huge proponent of electric vehicles.
After college Aviv continued to work on the business developing a portable charging station and then creating a platform for distribution and sales and a network of service providers on top of it. That’s how SparkCharge was built.
In the early days, the company received assistance from groups like the Los Angeles Clean Technology Incubator and investors like Techstars Boston, Techstars, Steve Case’s Rise of the Rest fund and his Revolution investment firm, PEAK6 Investments and the Buffalo, New York-based accelerator 46North, along with investors like Cuban.
“I saw that the current [charging] infrastructure that we have has a lot of flaws,” Aviv said. They include the downtime between charging infrastructure upkeep, the time it takes to grow the charging network and the lack of maintenance and support for chargers.
“There’s a huge push to move these chargers,” he said. “You don’t want these EV drivers to drive around a city with no guarantee of infrastructure. It’s an interesting tug of war that’s going on that we’re going to see unfold and consumers might be more persuaded to drive an EV [with SparkCharge] because not only can you deliver range but you can request it on demand.”
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As money floods into the electric vehicle market a number of small companies are trying to stake their claim as the go-to provider of charging infrastructure. These companies are developing proprietary ecosystems that work for their own equipment but don’t interoperate.
ChargeLab, which has raised $4.3 million in seed financing led by Construct Capital and Root Ventures, is looking to be the software provider providing the chargers built by everyone else.
“You’ll find everyone in every niche and corner,” says ChargeLab chief executive Zachary Lefevre. Lefevre likens Tesla to Apple with its closed ecosystem and compares ChargePoint and Blink, two other electric vehicle charging companies, to Blackberry — the once dominant smartphone maker. “What we’re trying to do is be Android,” Lefevre said.
That means being the software provider for manufacturers like ABB, Schneider Electric and Siemens. “These guys are hardware makers up and down the value stack,” Lefevre said.
ChargeLab already has an agreement with ABB to be their default software provider as they go to market. The big industrial manufacturer is getting ready to launch their next charging product in North America.
As companies like REEF and Metropolis revamp garages and parking lots to service the next generation of vehicles, ChargeLab’s chief executive thinks that his software can power their EV charging services as they begin to roll out that functionality across the lots they own.
Lefevre got to know the electric vehicle charging market first as a reseller of everyone else’s equipment, he said. The company had raised a pre-seed round of $1.1 million from investors including Urban.us and Notation Capital and has now added to that bank account with another capital infusion from Construct Capital, the new fund led by Dayna Grayson and Rachel Holt, and Root Ventures, Lefevre said.
Eventually the company wants to integrate with the back end of companies like ChargePoint and Electrify America to make the charging process as efficient for everyone, according to ChargeLab’s chief executive.
As more service providers get into the market, Lefevre sees the opportunity set for his business expanding exponentially. “Super open platforms are not going to be building an EV charging system any more than they would be building their own hardware,” he said.
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