Wireless Charging
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President Joe Biden’s plan for electric vehicles (EVs) to comprise roughly half of U.S. sales by 2030 is a clear indication that the U.S. is making strides in decarbonizing its transportation systems, which currently account for nearly half of total U.S. emissions.
Though this kind of federal support is critical in accelerating the mass adoption of EVs, we must face the impending need to rehabilitate the ailing U.S. electric infrastructure that millions currently rely on, namely the capabilities of the power grid.
As society converts to an all-electric future and demand rises for EVs, a challenge our modern world will face is how to charge the increasing number of vehicles without overstressing the grid past its capacity. While some predict EVs will overload the power grid, others have found methods that support our energy infrastructure, including solutions such as wireless charging, vehicle-to-grid (V2G) integration or more efficient methods of utilizing renewable energy sources, to name a few.
Amid warranted concerns about the unstable grid, there is an urgent need to find solutions that can reinforce this critical infrastructure to avoid pushing the grid to its limits.
According to the recent IPCC climate change report, extreme heat waves that previously only struck once every 50 years are now expected to happen once per decade or more frequently due to global warming and anthropogenic emissions. While this has already been seen in this past year through record-breaking heat waves and extreme fires in the Pacific Northwest, utilities, operators and industry experts continue to express concern about whether current energy systems will be able to withstand increasing temperatures from climate change.
And it’s not just heat: In February, a cold snap in Texas crippled energy infrastructure and left millions without power. These numbers will only continue to increase as temperatures rise and the grid overworks itself to meet electricity needs.
In addition to fluctuating temperatures impacting the grid, many are also concerned about its ability to support the increasing number of EVs expected to hit the market in the coming years. With reports indicating that transportation electrification will likely require a doubling of U.S. generation capacity by 2050, there is a need for flexible EV charging options that can increase flexibility and load times during peak charging hours. However, as it currently stands, the U.S. power grid is only capable of supporting 24 million EVs until 2028 一 well under the required number of EVs needed to successfully curb road transport emissions.
Despite these challenges, one thing that industry experts have pointed out is that EVs have the potential to play a massive role in managing demand as well as aid in stabilizing the grid when necessary. However, as EVs are more widely adopted across the U.S., utilities need to ask themselves critical questions such as when people will likely charge their vehicles, how many users are charging their vehicles and when, what types of chargers are in use, and what types of vehicles are charging (such as passenger vehicles or medium- to heavy-duty fleets) to determine the additional demand for electricity and how they must upgrade their grids.
With long lead times for grid infrastructure upgrades paired with an increasing number of individuals and companies looking to electrify their vehicles, municipalities across the U.S. are desperately searching for methods to implement the necessary charging infrastructure to stay ahead of the rising EV tide while simultaneously ensuring the grid’s stability. However, a recent analysis by the ICCT estimates that with the current number of U.S. EV chargers at 216,000, the country will need 2.4 million public and workplace chargers by 2030 if it wants to meet its goals.
To address this concerning lack of charging infrastructure, cities have begun to explore charging options outside of the traditional, stationary station to not only speed up the adoption of the necessary charging infrastructure, but to protect the grid as well. One of these options is dynamic charging, otherwise known as wireless or in-motion charging.
On one hand, some argue wireless electric vehicle charging will pose an additional strain on existing grid infrastructure by increasing demand variability due to fragmented charging duration caused by charging lane layouts and traffic. On the other hand, many argue that wireless charging actually decreases the demand on the power grid due to the fact that energy demand is spread over time and space throughout the day, rather than being confined to stationary chargers’ charging period between 2 p.m. and 7 p.m., which enables a reduction in required grid connections and upgrades.
Additionally, wireless charging can be deployed in locations where conductive (plug-in) charging solutions cannot — such as roads, directly under commercial facility loading docks, at exit and entry points to facilities, under taxi queues, at bus stations and terminals, etc., which means that wireless technology can charge EVs at regular intervals throughout the day with “top-up” charging.
This method also enables more efficient utilization of renewable solar energy, produced and utilized predominantly during daylight hours, meaning limited additional energy storage devices are required, unlike conductive EV charging stations, which can typically only be used in the evening and nighttime hours and require energy storage.
These benefits indicate that cities and utilities alike can capitalize on efficient energy utilization strategies such as wireless charging to spread energy demand over time and space — adding additional flexibility and protection to the grid. While this method can and should be applied to passenger EVs, using it to power medium- to heavy-duty fleet vehicles will allow for a much faster transition to electric in these challenging-to-electrify fleet segments.
While passenger EVs pose challenges of their own to the grid, large-scale fleet charging will be a monumental task if utilities don’t get ahead of the transition. Wireless charging offers a cost-effective solution to operators looking to transition to meet carbon reduction goals, with projected numbers of electric commercial and passenger fleets making up 10%-15% of all fleet vehicles by 2030. Let’s take a closer look at an example comparison between plugging in large vehicles versus wireless charging and the impact both have on the grid:
Wireless electric roads accompanied by solar panel fences adjacent to the road may be the ultimate solution for decentralizing power generation and eliminating stress on the grid. According to industry calculations, approximately 0.6 miles of this electric fence solution could provide between 1.3-3.3 MW of power. This combination of solar generation coupled with wireless charging infrastructure embedded into the road can support anywhere between 1,300 to 3,300 buses per day independent of power grid supply (assuming an average speed of 50 mph and accounting for seasonal variations in solar radiation).
Furthermore, because wireless electric roads are a shared platform for all EVs, this same road would also charge trucks, vans and passenger vehicles without placing additional pressures on the grid.
Although wireless charging is still relatively new to the market, the benefits are beginning to become glaringly self-evident. Amid increasing concerns about outdated grid infrastructure in the face of widespread transport electrification efforts, rising temperatures and extreme weather conditions, innovative charging methods can provide an optimal solution.
From distributing EV charging throughout the day to avoid overloads to being able to support the energy capacity needs of both passenger vehicles and large fleets simultaneously, technologies such as wireless charging will become critical resources in adapting to an all-electric decarbonized future.
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After repeatedly missing self-imposed deadlines for progress on its wireless charging-at-a-distance phone case, uBeam’s CEO Meredith Perry has decided to shift out of the CEO position and into a board member and senior advisor role. She’d founded the company in 2011 from her dorm room and brought in over $40 million in funding by selling a wide range of elite investors on her vision for a cordless future, including Andreessen Horowitz, Founders Fund, CrunchFund (disclosure: started by TechCrunch’s founder), Marissa Mayer and Mark Cuban.
Now rather than trying to build its own consumer products like wireless power transmitters and receivers that could charge your phone from across the room using ultrasound frequencies, uBeam is pivoting to licensing its technology for use in other companies’ products.
“Meredith made the decision to step down as CEO. She wanted the company to hire a CEO who had experience in overseeing the rollout of a b2b electronics product,” tweeted one of the startup’s lead investors, Mark Suster of Upfront Capital. Axios’ Dan Primack reported the news earlier today. TechCrunch spoke to Perry but she declined to comment on the record.

For the interim, uBeam’s head of HR and finance Jacqueline McCauley, who joined in 2016, will lead the company. In a blog post today, she announced that “Meredith felt it was time to bring on a seasoned executive in the electronics field to lead the company through its commercialization phase. The company has begun a search for this new CEO.”
uBeam had wowed investors and AllThingsD conference attendees in 2011 with a demo showing it could deliver at least some power over a distance of a few feet. A source at one point said uBeam was holding talks with top retail and dining chains, and insinuated one of the world’s top phone makers might build on its technology.
But the startup made big promises about public demonstrations and the efficiency of its technology it couldn’t keep. In 2015 Perry had told TechCrunch real-life public demos would be ready the next year, which came and went.

In 2016, things started to fall apart. The startup’s former VP of Engineering Paul Reynolds wrote a series of blog posts accusing uBeam’s technology of not working, and noted that “When I left it was an ugly departure, but was reported to the investors as ‘the VP Engineering left for personal reasons’ — personal reasons being ‘sick of putting up with this bullshit.’” He also revealed that uBeam’s original CTO and new CFO had left the company, and that Perry’s co-founder Nora Dweck had sued her over an unfair equity split (and settled).
It wasn’t until 2017 that uBeam gave two limited public demonstrations at the Upfront Ventures conference and to USA Today. It proved that an impractically large uBeam transmitter could deliver enough power over the distance of four to 10 feet to make multiple phones signal they were charging. But the company never opened itself up to more scrutiny regarding just how much power it was delivering, how fast a phone would actually charge and whether the tech could surmount practical issues like phones moving or being blocked by clothing.
Questions began to mount about whether uBeam’s approach could produce a marketable product in a palatable form factor with real utility. In the meantime, larger competitors like WattUp-maker Energous and COTA-maker Ossia have started to make real progress on over the air wireless charging. A recent deep-dive by PC Mag revealed how these two companies are starting to be able to deliver 1 watt of power across a room. But Energous and Ossia executives were careful to be realistic in their predictions about the hurdles to delivering rapid phone charging at a distance and how many years they’d need to get there.
Now with Perry stepping down, uBeam will shift gears and move to the same B2B licensing model Energous and Ossia use. They’ll now be directly competing to get their wireless power transmitters and receivers built into other products such as televisions, sound bar speakers, phone cases and more. But the industry is taking a while to mature. Energous, a public company that had raised $117 million, is trading at $10.62, down from a peak above $22 earlier this year and $15 in mid-2017. Ossia has only raised $25 million.
A bulky early uBeam transmitter prototype
Apple last year announced it was building a less ambitious AirPower near-field wireless charging pad that could juice up an AirPods case sitting on it. That was supposed to arrive in “early 2018,” but there was no mention of it onstage at the recent iPhone XS launch event. Today’s Qi-standard wireless charging pads require direct contact with devices and some fidgeting to get them to connect.
uBeam’s stumbles may make it tough to hire or retain talent, and the organizational disruption amidst direct competition could cost it valuable time as it strives to get its tech ready for licensing. The startup’s audacious idea for a world without wires may still one day come to fruition. There remains big potential in the more technically feasible over the air charging of Internet of Things devices that don’t need much power. But uBeam could serve as a reminder to fellow startups that grand visions might make it easier to secure funding, but can raise expectations that are much harder to fulfill.

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General Motors is spinning up its electrification plans and today announced the stunning, poorly named Buick Enspire concept at Auto China 2018. As a concepts go, this one looks great and rather feasible.
GM says it’s powered by Buick’s eMotion powertrain that can produce a maximum output of 410 kW (roughly 550 hp). This should make it good for a 4-second sprint to 60 mph. Range is clocked at 370 miles and the battery can be recharged to 80 percent within 40 minutes. It supports both fast and wireless charging.
The 2018 Buick Enspire all-electric concept SUV
Inside is an augmented reality windshield, OLED display and wood center console. And because this is just a concept and nothing is real, the Enspire features a 5G connection.
GM made a big promise in 2017 to release 20 electric vehicles within the next five years. The company is going all-in on electric vehicles, and something like this Buick would fit nicely in the world of crossovers and mild SUVs. I think it looks better than the Tesla Model X, but of course, the Model X is real and this is just a concept.
The Envision was announced in China, where the Buick nameplate is well-loved. It will be interesting to see if GM releases this sharp SUV under a different brand though. To me, throw a new grill on it, drop the dumb name and that SUV could be the future of Chevy.
Pricing and availability were not announced.
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The wireless charging movement is getting one more boost today, this time from the world of gaming. Razer, the tech giant that has built a brand (and very loyal following) as a gaming-first hardware company, is announcing HyperFlux, a new wireless power technology that will be making its first appearance a new mouse, the Razer Mamba HyperFlux, and a corresponding power mat. Priced at… Read More
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Yes, you should be able to charge your new iPhone X or iPhone 8 at Starbucks. Apple announced earlier this week that its new iPhones will include support for wireless charging through the Qi standard. But as far as charging in Starbucks is concerned, there seemed to be a catch: Starbucks’ charging pads from Powermat support a different standard, PMA. This is a solvable problem, according… Read More
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More often than not, mobile devices are a permanent dash from power socket to power socket. Mophie is the #1 brand in extending your range between charges, and with the launch of “Charge Force”, the brand wants to remove incessant plugging and unplugging from your life, too, with a brand new wireless ecosystem. Read More
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Battery life is one of the most vexing problems in mobile tech. Indeed, Smartphone users consistently rate battery life as their No. 1 gripe. Consumers want better batteries, not wearables. So Apple’s recent announcement isn’t that surprising: iOS 9 will have a Low Power mode, which could provide an extra three hours of battery life. But that doesn’t solve the battery life… Read More
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What if wireless power at a distance actually worked? It does. uBeam invented a way to wirelessly send energy up to 15 feet away with ultrasound. What if you could slap a wireless charging case on your phone and charge it while you move around or use it? uBeam invented that too. While early uBeam prototype were massive, non-portable boxes that merely shot power around, it now has a working… Read More
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Samsung is doing a series of teasers this year to hype up the launch of the next Galaxy S6 (or whatever it’s calling its 2016 flagship Android smartphone), and the latest details the tech and progress of wireless charging. In a post on Samsung’s official blog, the company’s lead engineer for IT and Mobile Seho Park described how advances in wireless charging over the past… Read More
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Last night Tesla’s Elon Musk appeared on The Colbert Report, and he discussed some of SpaceX‘s recent successes, the upcoming update for Tesla vehicles that let you name your car, as well as his general path towards supervillainy. Aside from the usual comedic hijinks, the segment also touched on some of Musk’s concepts for the future, and also on what Colbert himself wants to… Read More
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