When the first electric school buses rolled into his rural South Carolina yard, Karim Johnson already knew what to expect. He’d learned those lessons hundreds of miles north, in a suburban district in upstate New York, where early adoption meant long nights, slow chargers and plenty of guesswork.

But this time it was different. In New York, he had to do it all: secure grants, navigate RFPs, scrap old buses and install chargers that took eight hours to recharge after a single route. In South Carolina, the buses arrived, chargers installed, paperwork complete and keys ready to be handed over. Yet, despite the smoother rollout, one challenge remains the same: selecting the routes the ESBs would run on, and in South Carolina, that’s a 175-mile rural route.

Johnson, the current director of transportation at Dorchester School District 4 in South Carolina, said at his previous school district — Bethlehem Central School District in New York — ESB adoption was much more nuanced. He recalled overseeing everything from applying for grants to infrastructure set up. When he started the ESB journey in 2021, the technology was still considered new and limited charging options were available, leaving him to select Level 2 chargers with no charge management software.

“There was a lot of community support for it,” he said of purchasing EVs, noting it was a process. “Those buses were purchased through [The New York State Energy Research and Development Authority] NYSERDA, and we were able to work with our bus dealership, which was Matthews Bus in New York State. They were a really big resource.”

However, he said the NYSERDA Grant had stipulations of what routes the buses needed to be on. So, instead of placing buses on the shortest district routes, they had to be placed on Johnson’s longest routes in New York. The district purchased two more EVs outside of the grant, which they deployed on shorter routes.

In South Carolina, Johnson said the state was awarded funding from Round 1 of the Environmental Protection Agency Clean School Bus Program. And because the state owns and maintains all school buses, it handled bus procurement, infrastructure setup, charger selection, and utility collaboration. Dorchester was awarded eight ESBs. Six have already been delivered, with four currently on the road and two awaiting minor work. However, once the buses were delivered, Johnson was able to immediately start driver training and route assignments.

Routes in Dorchester, however, are long, ranging from 90 to 175 miles a day, far above the typical ESB ideal use case. The lack of shorter routes, Johnson said, creates deployment constraints. Though with the DC fast chargers installed, buses can charge in the middle of the day, allowing them to be used in both a morning and afternoon route. This was a huge difference, as in New York his chargers would take eight hours to charge, making them sometimes unable to be used during the afternoon runs. In contrast, the DC fast chargers take around three hours and only run into challenges if there’s a mid-day route that needs coverage.

In addition to their ESB operation training, drivers must ensure the buses are plugged in after each route and have sufficient charge before each trip. Plus, in New York, drivers had to consider the weather, as the range dropped about 20 miles in colder months.

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Related: New Resource Helps Connecticut Districts Transition to Electric School Buses
Related: Strides in Vehicle to Grid Technology Continue
Related: Report: Inequities in Canadian Electric School Bus Transition Threaten At-risk Populations
Related: Safety Concerns of the Electric Grid?
Related: Another $200M Now Available for Electric School Buses in New York

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“I have no surprises now when it comes to the EV buses,” Johnson said. “When something comes up, I know the steps to go through, from working with the dealership, or … with the bus distributor.”

Johnson advised transportation directors looking to implement ESBs to plan thoroughly and early, evaluating everything from route lengths to charging times and dwell windows. Plus, he said, it’s important to choose the right infrastructure where fast chargers may be essential for rural or long-mileage districts. He also advised directors to understand the grant requirements.

He noted that while initial development will reveal operational challenges, it’s a learning curve and soon directors will be familiar with the ESBs like they are with their diesel buses. Overall, he concluded, with the right planning and charging strategy, EVs don’t need to be limited to the shortest routes.

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VinFast is in the spotlight again, this time for reasons it would rather avoid. The Vietnamese automaker now faces another lawsuit, adding a fresh speed bump to its already bumpy road. Owners in the United States claim that the VF 8 Plus AWD charges so slowly it can take a full 24 hours to replenish its battery.

Filed in the U.S. District Court for the Central District of California, the lawsuit represents customers who leased or purchased a VF 8 Plus AWD in the past four years.

Why So Slow?

The electric vehicles are supposed to charge at a rate of 6.6 kW or higher. Instead, these customers say that their VinFasts charge at under 2 kW. That’s closer to the speed of an original Nissan Leaf than it is to a modern EV.

More: Vinfast Owner Says Their EV Took Over Steering And Nearly Hit A Wall

The plaintiffs, Gil Swigi and Joseph Mizrahi, say that they were led to believe that they were getting standard Level 2 charging performance. VinFast allegedly advertised that its cars could charge at up to 32 amps.

When Mizrahi and Swigi tried that, they claimed the cars would shut down due to software defects. Their only recourse was to charge at 19 amps, which cut total charging speed by almost 40 percent.

To make matters worse, the shutdowns would allegedly happen in the middle of the night with regularity, meaning that owners would wake up to a nasty surprise.

Not only did their car have a problem, but that meant less range to do whatever they had planned for that day. According to Carcomplaints, VinFast attempted multiple repairs on both vehicles in question.

Only when the owners bought additional charging equipment did their cars start to charge at the claimed manufacturer speeds. That said, VinFast successfully argued that both owners agreed to arbitrate their differences. A judge granted that motion, and arbitration is set for February 20, 2026.

Source: Classaction, CarComplaints

CAMPBELL, Calif. – ChargePoint (NYSE: CHPT), a global leader in electric vehicle (EV) charging solutions, has released a new generation of the ChargePoint Platform, a flexible software solution designed to redefine EV charging. Re-engineered from the ground up, the ChargePoint Platform empowers operators to optimize any charging infrastructure, from a single site to a global network, while ensuring seamless integration with evolving energy systems.

“The new ChargePoint Platform is more than just modernized software, it is a catalyst for an electrified future,” said Rick Wilmer, Chief Executive Officer at ChargePoint. “ChargePoint has manifested our deep expertise in EV charging to deliver the industry’s most advanced software platform, which is complemented by a robust hardware integration to enable our customers to accelerate the transition to sustainable mobility, regardless of what charger models they are operating in the field.”

The ChargePoint Platform was developed for leading fleet operators, commercial customers, vehicle OEMs, charge point operators (CPOs), and energy providers. Early adopters have already deployed the ChargePoint Platform in diverse environments, from urban transit depots to highway charging corridors, ensuring its flexibility and performance in real world scenarios.

“The ChargePoint Platform has transformed how we manage our EV charging operation. Features like the AI data assistant, enhanced search and instant session details have made data analysis faster and more intuitive,” said Mitch Johnson, Sr. Manger of Global Real Estate, Energy and Sustainability at Verizon. “The ChargePoint Platform is helping us achieve our energy management goals more efficiently than ever before.”

ChargePoint Platform Highlights: Intelligence and Integration

AI-Driven Optimization: Leveraging advanced artificial intelligence, the ChargePoint Platform continuously analyzes usage patterns, energy supply conditions, charging station health and vehicle context to optimize charging schedules, predict maintenance needs, enable dynamic pricing strategies and enhance the overall driver experience. AI-powered insights enable proactive decision-making, reduce downtime, and drive operational excellence across the network.

Maximize charging station utilization with Waitlist: Waitlist intelligently manages EV charging demand, ensuring every available charging spot is used efficiently. By placing drivers in virtual queues and notifying them when a station frees up, Waitlist enhances driver satisfaction, reduces congestion at your site, and ultimately maximizes the value of your charging infrastructure – all without requiring constant attention.
Frictionless Station Activation: Robust integration between the ChargePoint Platform and ChargePoint’s Installer App powers a dramatically simplified onboarding experience. Station activation is now faster and more reliable, even for deployments with multiple station types across multiple sites. This seamless process not only accelerates deployment for installers; charging providers can deliver a consistent, high-quality charging experience from day one.

Intelligent Monitoring and Control: Operators receive comprehensive access to their data through pre-configured or customizable dashboards, scheduled reporting capabilities or a user can simply ask the AI-powered Data Assistant for information. These capabilities make it easier to track performance, troubleshoot issues, and make data-driven decisions across a wide range of operational goals. Whether optimizing fleet schedules, managing energy usage or evaluating pricing strategies; operators can surface the insights that matter most on-demand.

Dynamic Energy Management: Designed to intelligently balance energy distribution, the ChargePoint Platform optimizes energy use with the goal to reduce infrastructure costs. With capabilities like real-time load balancing, reducing energy consumption when demand is high, demand response integration, support for renewable energy sources and seamless integration with utility pricing signals, the platform helps customers minimize energy costs.

Smarter Pricing: Flexible pricing tools adjust charging rates in real time based on demand, energy costs, congestion or business objectives. Designed with trust as a core product tenet, the system ensures pricing is transparent, explainable, and fully customizable. This offers station hosts complete control to optimize revenue with a wide range of pricing strategies.

Driver Experience Optimization: Charge point operators can proactively monitor and shape positive driver experiences. Through advanced analytics, real-time alerts, intelligent issue detection, operators can address issues before they impact drivers, fostering long-term loyalty. A robust set of driver administration tools enables operators to define and manage a wide range of policies, ensuring consistent and personalized experiences across every touch point.

Tailored Software Packages: The ChargePoint Platform is offered in two forms. The first, CMS Suite, is a selection of turn-key feature licenses tailored for specific use cases. The second, CMS Studio, is a fully customizable set of modules upon which a CPO can tailor a unique solution to fit their business requirements.

Manage any charger you want: The ChargePoint Platform enables true plug-and-play management of any OCPP compliant chargers, regardless of make or model. Operators can seamlessly onboard, monitor, and control chargers from different manufacturers, simplifying operations and maximizing network reliability.

Scalable, Modular and Secure Cloud Architecture: The ChargePoint Platform delivers best-of-breed feature integration by unifying the most advanced capabilities from ChargePoint’s turnkey Charger Management System (CMS), modular CMS for advanced charge point Operators (CPOs), and fleet telematics, offering customers a powerful, unified solution that blends proven reliability with next-generation flexibility. With security by design at its core, it incorporates end-to-end encryption and continuous monitoring to safeguard data and infrastructure integrity. Built as a true cloud native solution, the platform ensures unmatched scalability, resilience, and agility, enabling seamless updates and rapid innovation.

All-New User Interface: The ChargePoint Platform introduces a redesigned, intuitive user interface that streamlines every aspect of EV charging management. The new UI features:

Personalized Dashboards: Customizable views that surface the most relevant data for each user – whether managing operations, fleets, facilities, finance, and beyond – providing enhanced visibility, and empowering faster, more informed decision-making across the charging operation.

Real-Time Insights: Live monitoring of charger status, energy usage, and session analytics, all visualized through interactive graphics.
Simplified Workflows: Guided setup, automated alerts, and one-click access to key actions reduce operational complexity.

Mobile-First Experience: Responsive design ensures seamless control from any device—desktop, tablet, or smartphone.

Accessibility and Localization: Built-in support for accessibility standards multiple languages, making the platform usable for diverse teams worldwide.

ChargePoint’s mission is to make electric mobility accessible, reliable, and sustainable for everyone. The ChargePoint Platform reaffirms this commitment and is rolling out to customers now. To see a demo of the ChargePoint Platform, please visit: https://www.chargepoint.com/resources/cp-platform-demo.

About ChargePoint Holdings, Inc.
ChargePoint has established itself as the leader in electric vehicle (EV) charging innovation since its inception in 2007, long before EVs became widely available. The company provides comprehensive solutions tailored to the entire EV ecosystem, from the grid to the dashboard of the vehicle. The company serves EV drivers, charging station owners, vehicle manufacturers, and similar types of stakeholders. With a commitment to accessibility and reliability, ChargePoint’s extensive portfolio of software, hardware, and services ensures a seamless charging experience for drivers across North America and Europe. ChargePoint empowers every driver in need of charging access, connecting them to over 1.25 million charging ports worldwide. ChargePoint has facilitated the powering of more than 16 billion electric miles, underscoring its dedication to reducing greenhouse gas emissions and electrifying the future of transportation. For further information, please visit the ChargePoint pressroom or the ChargePoint Investor Relations site. For media inquiries, contact the ChargePoint press office.

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A new British company with bluechip supercar connections reckons it’s cracked one of the biggest bottlenecks in electric car tech: how to keep batteries cool enough to charge at full speed.

Hydrohertz, a UK startup led by an engineer whose resumé includes work for McLaren, Singer Design and Land Rover, has created hardware that could make long charging stops a thing of the past.

Smarter Thermal Control

It’s called the Dectravalve, and it’s a smart, compact control unit that precisely manages the temperature of each section of an EV battery, instead of treating the whole pack as one big lump. That means every cell stays at the same optimum temperature – no hot spots, no wasted cooling, and no thermal throttling.

Also: Chinese Brand Reveals Game-Changing 808-Mile Solid-State Battery

The result? A 10–80 percent charge, which typically takes around 30 minutes on a 400-volt EV even when hooked up to the fastest available DC charger, could drop to just 10 minutes.

That’s still a bit longer than it takes to fill up a petrol car, but it’s not far off. And faster fills aren’t the only promised benefit. Because the Dectravalve keeps the whole pack at its sweet spot all the time, and not just during charging, Hydrohertz says it can boost real-world range by up to 10 percent, which could be worth 30 or even 40 miles (48-64 km).

Other bonuses include extended battery life, a reduced risk of thermal runaway, and probably more consistent maximum-attack acceleration for performance EVs used in anger.

What The Data Shows

Hydrohertz tested its setup using a 100 kWh LFP battery, and the results are impressive. The hottest cell stayed under 44.5°C (112 F), with just a 2.6°C (37 F) variation across the entire pack. Most current systems see swings of 12°C (54 F) or more, forcing chargers to slow down once things heat up past 50°C (122 F).

Keep the temperature perfectly balanced, though, and the battery can safely accept maximum power right to the end.

A Shortcut To Better EVs

The system is also “chemistry agnostic,” meaning it’ll work with any current or future battery tech. That means it’s far cheaper than developing an all-new pack from scratch, which could make it a tempting upgrade for carmakers looking to squeeze more performance out of existing designs rather then spend big on solid-state packs.

“The automotive industry has been waiting for battery technology to catch up with consumer expectations, but progress has been slow and expensive,” says Hydrohertz CEO Paul Arkesden.

“A new chemistry can take a decade to develop and require billions in investment. What we’ve done is take a different approach. For OEMs, this means better, more useable EVs now, without waiting for the next generation of battery technology.”

Heliox, A Siemens Business, is proud to announce its Heliox 44 kW V2G charger, a next-generation, all-in-one DC fast charging system engineered to meet the evolving needs of today’s electric vehicle (EV) fleets. Purpose-built for versatility and future-readiness, the Heliox 44 kW V2G delivers intelligent vehicle-to-grid (V2G) functionality, empowering fleet operators to maximize ROI while supporting energy resilience and sustainability goals.

The Heliox 44 kW V2G sets a new standard in fleet charging by providing robust bidirectional charging and discharging capability, allowing vehicles to return energy to the grid, lower operational costs, and play a pivotal role in local grid stability. With a powerful 44 kW output, the charger enables fast, efficient transitions for high-utilization fleets, optimizing uptime while supporting both networked and standalone operation. ISO 15118-20 and SAE J2847 compliance ensures broad compatibility EVs of today and tomorrow, while compact, all-in-one design allows for seamless installation across a range of facility layouts.

Operators benefit from flexible AC input settings, adjustable from 15A to 56A, making deployment possible even in locations with limited power supply. The NEMA 3R-rated enclosure delivers dependable performance indoors or outdoors, with wall-mount and pedestal options to accommodate varied site requirements. For intuitive fleet management, the Heliox 44 kW V2G features a LED indicating real-time EV State of Charge (SoC) and 7-inch LCD display for charging session information.

The charger’s advanced programmability enables time-of-use charging and scheduled energy transfers, unlocking energy cost savings for fleet managers. With V2G energy sales, operators can generate new revenue streams by selling surplus energy back to the grid. This technology also strengthens operational continuity, allowing vehicle batteries to provide backup power during outages. In addition, the system is designed, manufactured, and tested in the United States, making it fully compliant with the Buy America Act and eligible for government projects. A comprehensive suite of safety certifications, including UL 2202, UL 1741 SB, UL 9741, further demonstrates Heliox’s commitment to compliance and reliability.

With multiple cable length options (5m, 7m), robust communication features such as OCPP (1.6J and 2.0.1, ready for 2.1), Ethernet and 4G cellular connectivity, and preventative maintenance support, the Heliox 44 kW V2G is truly designed for long-term dependability. Fleet operators enjoy peace of mind with a 24-month warranty and the backing of a U.S.-based support team. With operating temperature capacity from -22°F to 122°F and an altitude rating up to 2,000 meters, the charger is ready for deployment across a broad spectrum of geographical and climate conditions.

The Heliox 44 kW V2G charger redefines what’s possible for EV fleets, delivering rapid charging, enhanced energy flexibility, and new potential for operational savings. For modern fleet operators, it represents a smart investment in efficiency, resilience, and the future of intelligent mobility.

About Heliox, A Siemens Business
Heliox, A Siemens Business, delivers world class EV charging equipment, EV charger maintenance and support services, and robust solutions for a broad range of EV fleets. Our portfolio encompasses all aspects of smart and efficient AC and DC charging infrastructure, including IoT-connected hardware, software, and a comprehensive service offering. Heliox manufactures UL compliant products that meet Buy America Act (BAA) and Build America Buy America (BABA) standards. Heliox’s high-quality, field-proven charging products are now backed by Siemens’ financial strength, global reach, and long-term stability—delivering the best of both worlds.

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CAMPBELL, Calif., – ChargePoint (NYSE: CHPT), a leading provider of EV charging solutions, today announced it has been awarded a Sourcewell cooperative purchasing contract to provide EV charging solutions to public agencies in the U.S. and Canada. The award represents ChargePoint’s third consecutive agreement with Sourcewell, dating back to 2017.

Through the agreement, entities such as municipalities, transit authorities, and public schools can deploy ChargePoint EV chargers, software, and services through a streamlined procurement process with preferred pricing. ChargePoint secured the Sourcewell contract following a rigorous request for proposal (RFP) process, ensuring compliance with local procurement requirements while delivering exceptional value and service. This agreement enables any public agency access to purchase from ChargePoint using Sourcewell-vetted pricing, streamlining the public purchasing process.

“This latest agreement extends our longstanding relationship with Sourcewell to accelerate and simplify the adoption of EV charging solutions for local governments, schools and other public agencies,” said David Vice, Chief Revenue Officer at ChargePoint. “Over the course of our relationship we’ve enabled hundreds of Sourcewell member agencies go electric, meeting their sustainability and ESG goals.”

Sourcewell, a self-funded governmental organization established in 1978, facilitates a cooperative purchasing program that harnesses the collective purchasing power of more than 50,000 participating agencies. By streamlining procurement with pre-negotiated, competitive pricing contracts, Sourcewell enables government, educational, and nonprofit organizations to secure cost-effective and efficient purchasing solutions.

ChargePoint and the ChargePoint logo are trademarks of ChargePoint, Inc. in the United States and in jurisdictions throughout the world. All other trademarks, trade names, or service marks used or mentioned herein belong to their respective owners.

About ChargePoint Holdings, Inc.
ChargePoint has established itself as the leader in electric vehicle (EV) charging innovation since its inception in 2007, long before EVs became widely available. The company provides comprehensive solutions tailored to the entire EV ecosystem, from the grid to the dashboard of the vehicle. The company serves EV drivers, charging station owners, vehicle manufacturers, and similar types of stakeholders. With a commitment to accessibility and reliability, ChargePoint’s extensive portfolio of software, hardware, and services ensures a seamless charging experience for drivers across North America and Europe. ChargePoint empowers every driver in need of charging access, connecting them to over 1.25 million charging ports worldwide. ChargePoint has facilitated the powering of more than 16 billion electric miles, underscoring its dedication to reducing greenhouse gas emissions and electrifying the future of transportation. For further information, please visit the ChargePoint pressroom or the ChargePoint Investor Relations site. For media inquiries, contact the ChargePoint press office.

The post ChargePoint Awarded Sourcewell Contract to Provide EV Charging Infrastructure for U.S. and Canada Public Agencies appeared first on School Transportation News.

Imagine a world where your electric car can charge its battery the same way some military planes do: on the go. That’s exactly what France just made a reality for some EV owners. Along a 1.5-kilometer (0.9-mile) stretch of the A10 highway, EVs can charge while driving via wireless technology embedded in the road.

More: Startup Drives Toyota For 1,200 Miles On Electric Power Alone Thanks To Wireless Charging Road

And not just any kind of charging, but the kind that nearly matches Tesla’s latest V4 Superchargers at 325 kW and even surpasses the V3’s 250 kW, completely cable-free, while traveling at full highway speed. That’s quite an impressive achievement.

Charging On The Move

The project is called “Charge as you Drive” and it’s led by VINCI Autoroutes, France’s largest toll road operator, in partnership with Electreon and others. The nation wants to build some 9,000 km, or nearly 6,000 miles, of electric roads by 2035, and this is the very first publicly accessible step toward that goal.

During the initial public trial, four modified electric vehicles, including a large semi-truck, a van, a passenger car, and a bus, all successfully managed to charge dynamically while traveling at highway speeds.

How Does It Work?

The inductive charging system transfers energy from coils buried under the asphalt to receivers mounted beneath each vehicle. Independent tests conducted by the Gustave Eiffel University confirmed that the system consistently delivered more than 200 kW of average power, with peaks above 300 kW.

In practical terms, that’s enough to keep a fully loaded heavy-duty truck moving at highway speeds twice over.

“This marks a pivotal moment in the global development of wireless roads,” said Electreon CEO Oren Ezer. “Our technology is the only one capable of delivering high-power, reliable dynamic charging. It not only meets but exceeds all the targets set by the French government.”

For freight operators, the implications could be enormous. Charging downtime remains one of the biggest headaches in electric transport, particularly for long-haul fleets. A system that allows continuous charging on the move could eliminate lengthy refueling stops altogether.

VINCI Autoroutes CEO Nicolas Notebaert said that the technology will “reduce greenhouse gas emissions from the freight and logistics sector” which currently accounts for more than 16 percent of France’s total emissions.

Where Else Is It Happening?

Electreon is developing similar projects in nine other countries, including the U.S., Israel and several European countries. As of this writing, there are already electric roads in Michigan and Utah here in the States.

In Tel Aviv, Electreon showcased high-speed wireless charging for city buses. The trial confirmed several key benefits: shorter service downtime for charging, increased operational uptime, and a dramatic cut in battery size thanks to on-route charging, from 400 kWh down to just 42 kWh, a reduction of nearly 90 percent.

More: Wireless EV Charging On The Move Is Being Tested In Germany, Michigan Next

In Sweden, Smartroad Gotland is converting a 1.6-kilometer (1-mile) stretch near Visby into a wireless charging test road. Led by Electreon, it will charge electric buses and trucks while moving to assess the viability of electrified highways.

If this technology works out, the complaints many have about charging times and infrastructure could be calmed down significantly, if not altogether nullified.

Slate Auto is already treading water after its launch earlier this year. The removal of tax incentives makes its debut offering far less financially appealing than it would’ve otherwise been., and that’s a pretty big deal for a model that is build around it’s affordable pricing.

While it can’t control subsidies, the EV startup, backed by Amazon founder Jeff Bezos, can control how easy it is to own one of its vehicles. To that end, it’s just announced that it’ll give customers access to the Tesla Supercharger network and some 4,000 service locations on day one.

More: This Is Who’s Actually Reserving Slate’s New EV

Like many other EV companies, Slate will sell directly to consumers. Without dealers, the brand would need to build and staff its own service locations. Now, a deal with RepairPal allows it to offer a network of roughly 4,000 independent repair shops across the USA for maintenance and repairs as needed.

According to Slate, these independent shops will handle everything from routine maintenance to accessory installations and even high-voltage repairs. Each one will get Slate-specific training, too.

Also: Would You Really Pay $28K For A Crank Window EV With No Speakers?

In addition, the company is launching its long-promised Slate University, an online and app-based hub for tutorials, repair videos, and owner education. The platform will cater to both customers and service technicians.

Slate expects it to offer an evolving library of how-to guides and even some certification courses. “We want owners to feel confident before they even arrive at a service appointment,” CEO Chris Barman told Newsweek.

Supercharging the Experience

Charging is another area where Slate doesn’t want to over complicate things. Its product offerings will use the North American Charging Standard (NACS), giving drivers direct access to Tesla’s Supercharger network that consists of over 25,000 fast chargers nationwide and is widely regarded as the most reliable.

Essentially, Slate owners should have no issue going coast to coast so long as they’re okay with frequent stops due to the truck’s modest maximum range of 240 miles.

Also: Slate May Be About To Price Itself Out Of The EV Market

Production is set to begin late next year in Warsaw, Indiana, and Slate says that it already has over 100,000 reservations.

While we wait to see how many of those will actually convert to sales, it’s nice to see a new car company thinking ahead about the ownership experience. 

Sources: Slate, Newsweek

A number of automakers and suppliers have played around with the idea of using solar panels to charge electric vehicles. This makes a lot of sense as cars spend a lot of time outside, where they could be charging underneath the sun.

Nissan seems to agree, as they’ll use the Japan Mobility Show to introduce a Sakura EV equipped with an Ao-Solar Extender. The device takes the form of a roof-mounted box with a 300W solar panel sitting neatly on top.

However, the real coup de grâce is an expandable section that deploys from the front to reveal an additional 200W panel when parked.

More: Mercedes’ Solar Paint Could Give EVs Thousands Of Miles Of Range Every Year

This means you could easily deploy the panel when you arrive at the office, and then retract it when you’re ready to go home.

While the Ao-Solar Extender’s usefulness would vary by location and weather conditions, the company estimates that owners could capture enough solar power to drive 1,864 miles (3,000 km) annually.

That doesn’t sound like much, but the average American drives less than 40 miles (64 km) per day, so you’re looking at more than a month and a half of range from the sun alone.

Nissan said they studied the usage patterns of Sakura drivers and found that many customers only travel short distances. For some, the Ao-Solar Extender would be able to “virtually eliminate the need for external charging.”

That’s pretty nifty, and Nissan noted that when the panel is extended, it effectively acts as a sunshade. This helps to keep the Sakura’s interior cool, which reduces power consumption by the air conditioner when you return.

And in true Japanese fashion, Nissan has given it one more layer of usefulness, allowing the Ao-Solar Extender to function as a backup power source during emergencies.

Electric cars have a lot of negative myths that swirl around about them but they often carry a kernel of truth. While there are potential risks around charging, it’s rare that they pop up in reality.

More: There Are More Public Charging Stations Than Ever, But That’s Still Not Enough, Study Finds

Yet, every so often, one of those outliers surfaces, and in this case, it happened in Canada, where a charging adapter was destroyed by a short circuit, and it was all caught on camera.

A Tesla driver was trying to charge his car at a non-Tesla commercial charging station in British Columbia. To do so, he used an A2Z adapter that allows the charging station to plug into the car.

What Actually Happened?

When he plugged the charger with the adapter connected to it into the Tesla, there was an arc flash explosion. Thankfully, the man was a few feet away from the connection when the explosion happened.

While he experienced minor scrapes and abrasions, the man escaped serious injury. His spouse, sitting in the front passenger seat, was unharmed. An investigation into the incident found that the charging adapter and the charger itself had issues that led to the explosion.

More: Chinese EV’s Fire Fix Shoots Battery Into Traffic And Makes It Their Problem

The adapter wasn’t certified for use in Canada because the standards hadn’t been created yet when the unit went on sale. In addition, the charger itself sent “abnormal voltage,” into the adapter. When that happened, the arc explosion took place and blew the adapter into multiple pieces.

Lessons From a Flash

Bob Porter, of the Vancouver Electric Vehicle Association told the Vancouver Sun that “There are risks with third-party things if they aren’t approved. They haven’t been tested for safety. You don’t jerk around with electricity.”

The Tesla owner mentioned that he’d used the same setup for two years without issue, which makes the event a reminder that even supposedly reliable gear can fail suddenly if it hasn’t been certified or tested under the right standards.

This clearly isn’t a major issue across the industry, but it’s a good reminder that when things go wrong, they can go seriously wrong in the blink of an eye.

Photos Technical Safety BC

In a market where federal tax credits are no longer cushioning electric car prices, the upcoming 2027 Chevrolet Bolt arrives as GM’s latest attempt to keep affordable EVs within reach. Shown off quietly to existing owners, the 2027 model rolls in at $29,990 including destination fees, offering a handful of upgrades over its predecessor rather than any sweeping reinvention.

Read: 2027 Chevy Bolt Just Showed Up Completely Undisguised At A Tesla Station

This represents a modest price increase over the 2023 model that was discontinued two years ago, and although it remains the most affordable EV from an American brand, the new Bolt still sits several thousand dollars above the entry-level 2026 Nissan Leaf, which is due to arrive next spring starting at $25,360.

Production and Core Specs

At a recent event, Chevrolet confirmed that production of the 2027 Bolt will begin early next year at its Kansas City facility. As revealed in recent images, the electric hatch will include a standard NACS charging port, aligning it with the new industry standard.

It has also been confirmed to come standard with a new 65 kWh lithium-ion phosphate battery pack that will provide it with 255 miles (410 km) of driving range, according to GM’s own estimates. That represents a modest improvement over the outgoing model’s 247-mile figure.

Photos Chevrolet

Beyond boasting a better range than the outgoing Bolt, the new one’s DC charging speeds are no longer capped at 50 kW. Instead, it can charge at up to 150 kW, meaning the battery can be topped up from 10-80 percent in 26 minutes. That’s a big improvement over the old model and matches the charging speeds of the new Leaf.

Chevy has also equipped the Bolt with a new motor, borrowing the unit found in the Equinox EV and producing 210 hp. Performance times have yet to be announced, not that Bolt owners are the kinds of buyers that’ll be participating in traffic light races.

Pricing and Trims

The 2027 Bolt will debut first as a Launch Edition, starting at $29,990 with destination and delivery included. A slightly more affordable LT trim will follow next year priced from $28,995.

From a visual standpoint, the alterations made to the Bolt are less significant than many had expected. Indeed, it mostly looks like a facelifted version of the outgoing model. Key changes made include the fitment of new headlights, different taillights, and a unique tailgate with a redesigned bumper.

The interior is also very similar. However, Chevy has added a larger digital instrument cluster and moved away from gear selector buttons on the transmission tunnel, instead opting for an electronic column shifter.

A particularly welcome addition is a set of large physical dials for temperature and fan speed, providing straightforward control without touchscreen fuss. Two new storage compartments now sit within the dashboard, directly in front of the passenger, adding extra practicality to the cabin.

Legal trouble is circling Porsche in the United States, but this time, the controversy isn’t about its cars. The German automaker is under scrutiny over claims that its home charging units fail to deliver the charging speeds owners were promised.

The lawsuit, recently filed in the U.S. District Court for the Northern District of Georgia, takes issue with the Porsche Mobile Charger Plus and Porsche Mobile Charger Connect devices.

The Devices in Question

Both of these chargers are available to Porsche owners and allow for easy home charging. When plugged into an outlet providing at least 40 amps, they can charge a car’s battery in between 9.5 and 10.5 hours.

However, the new filing alleges that these units tend to overheat, potentially damaging outlets and creating a fire risk. It also claims that charging times can be nearly double what the company advertises, leaving owners waiting far longer than expected to hit a full charge.

Read: Porsche Settles Leaky Sunroof Lawsuit, But Some Owners Get A Better Deal Than Others

This isn’t Porsche’s first encounter with charger-related complaints. In 2023, the company faced a similar lawsuit over allegedly defective home chargers. To address that case, Porsche agreed to reimburse customers and introduced an updated unit featuring a temperature sensor. But the latest legal filing argues that these steps were cosmetic, not corrective.

“After the original complaint was filed in this case, PCNA offered reimbursement for third-party chargers and, most recently, replacement devices that merely add a temperature sensor,” the lawsuit states.

“These steps did not solve the underlying problem: charging times far longer than advertised, before and after the Charger Restriction, limiting consumers’ ability to use their vehicles when needed and as advertised.”

It has also been claimed in the new lawsuit that Porsche has long known about the problem, but has failed to address it and has not issued a “recall, repair, replacement, or other program.”

Plaintiffs Paul Herdtner of Kansas, owner of a 2020 Taycan 4S, and John Holby of Illinois, who owns a 2021 Taycan Turbo, are leading the case.

Sources: CarComplaints

Long charging times have long been considered one of the biggest disadvantages of electric vehicles, particularly when compared to how quickly you can refuel an ICE-powered car. However, Chinese automaker Zeekr has just unveiled an updated version of the 001 shooting brake, turning it into one that appears to be the fastest-charging EV on the planet.

Now, when we say the 001 charges as quickly as it takes to refuel a combustion-powered car, don’t rush to take a stopwatch to verify it, but it’s close enough to be quite impressive.

Lightning-Quick Refill

Thanks to the implementation of a new 900-volt electric architecture and Zeekr’s ‘Golden Brick’ battery, one version of the 001 can be charged from 10-80 percent in just 7 minutes.

Read: Zeekr 007 EV Can Get 80% Charge In Just Ten Minutes

That figure is particularly remarkable given that this model has a reasonably sizeable 95 kWh battery pack, rather than a small one that can charge quickly.

Zeekr claims the new and improved 001 supports charging speeds of up to 1,140 kW. In the US, only Tesla’s Megachargers, developed for the Semi, can deliver those kinds of speeds, but in China, Zeekr has already started rolling out 1,300 kW stations.

Power To Match The Speed

Zekr will sell the new 001 with the 95 kWh pack exclusively in all-wheel drive guise. This version features dual electric motors that combine to deliver 912 hp, allowing for a 0-62 mph (0-100 km/h) sprint in a dazzling 2.83 seconds.

The 95 kWh model has a claimed CLTC range of 441 miles (710 km), which is more than adequate even under China’s rather optimistic standards.

A version with a 103 kWh pack, using CATL’s Qilin battery tech, will also be available, boosting range to 437 miles (762 km), but not quite matching the charging speeds of the Golden Brick battery. That’s not to say models with the 103 kWh pack don’t charge quickly. In fact, they can go from 10-80 percent in just 10 minutes.

Plenty of other upgrades have been made to the Zeekr 001. For example, it comes with a panoramic glass roof embedded with individual LEDs that’s designed to mimic the Starlight headliner you’ll find in a Rolls-Royce.

The new model also includes a large infotainment display, a 39.3-inch head-up display, a 13-inch instrument cluster, and an 8-inch display at the rear.

Final pricing details have yet to be announced, but Zeekr has announced that customer deliveries will start in the coming days.

The Dacia Spring proved that EVs can be seriously affordable, so long as you can afford the time. The original versions were shockingly slow, but Dacia has replaced both the 46 and 65 models with two new versions that are on a different performance planet, and still shouldn’t cost the earth.

Until now, the Spring has come in a couple of trims and with two different motor options, the 45 and 65. Those numbers referred to the metric horsepower output, which equates to just 44 hp (33 kW) and 64 hp (48 kW).

Clearly, we’re not talking about Tesla-grade go here. The 65 took 13.7 seconds to reach 62 mph (100 km/h), and the 45 required 19.1 seconds, the kind of performance last seen on mainstream cars over 40 years ago.

Related: You Can Buy A New Dacia EV For Just $4,600 In Italy, But It’s Not For Everyone

Dacia hasn’t revealed a zero to 62 mph (100 km/h) time for the new 69 hp (70 PS / 52 kW) Spring 70, but it did provide some in-gear acceleration data to prove what a massive difference the extra muscle makes.

Where the 45 and 65 needed 26.2 and 14 seconds, respectively, to amble from 50-75 mph (80-120 kmh), the 70 can do the job in 10.3 seconds. And the 99 hp (100 PS / 74 kW) Spring 100 cuts it to just 6.9 seconds, while also getting to 62 mph in 9.6 seconds, which is hardly hot hatch performance, but it will certainly feel like one in this company.

Smarter Under The Skin

Helping keep that newfound punch in check is an anti-roll bar, which makes an appearance on the tech sheet for the first time, along with a new 24.3 kWh lithium-ion phosphate (LFP) battery. The electric driving range is unchanged at 140 miles (225 km), but the previously 30 kW on-board charger is upgraded to 40 kW.

That change looks laughable in the context of the latest 400 kW EVs, but the Spring’s battery is tiny, so a 20-80 percent fill takes a bearable 29 minutes when hooked up to a DC charger, and a 20-100 percent fill via a 7kW wallbox is done in 3h 20 minutes.

Price Still Matters

Dacia hasn’t revealed prices for the upgraded Springs, but hopefully, they won’t stray too far from where the outgoing cars were positioned. At just £14,995 ($20,200), the base 45 was one of the cheapest EVs available in the UK.

Dacia

CAMPBELL, Calif. CLEVELAND, Ohio, – ChargePoint (NYSE: CHPT), a leading provider of EV charging solutions, together with intelligent power management company Eaton, today announced an ultrafast charging architecture with end-to-end power infrastructure for public charging and fleets. ChargePoint Express Grid, powered by Eaton, is a vehicle-to-grid (V2G) capable solution that delivers up to 600kW of power for passenger EVs and can provide megawatt charging for heavy-duty commercial applications.

The innovative integration of ChargePoint’s Express chargers with Eaton’s end-to-end electrical solutions delivers a powerful solution to overcome grid constraints, addressing the challenge of how to cost-effectively scale charging for the growing number of EVs entering service. By leveraging Eaton’s Everything as a Grid approach and integrated V2G capabilities, the system can seamlessly synchronize onsite renewables, energy storage and vehicle batteries with local energy markets to help fleets significantly reduce fueling costs. When deployed at scale with participating utilities, the joint architecture can even help balance the electric grid.

“The new ChargePoint Express architecture, and particularly the Express Grid variant, will take DC fast charging to levels of performance and cost not previously imagined. This latest technological breakthrough further demonstrates our commitment to deliver innovation,” said Rick Wilmer, CEO of ChargePoint. “Combined with Eaton’s end-to-end grid capabilities, ChargePoint is delivering solutions to help EVs win on pure economics, regardless of tax incentives or government support.”

“Accelerating electrification at scale hinges on industry-changing technology from trusted manufacturers that can be deployed faster while achieving new levels of reliability and efficiency at a significantly lower cost,” said Paul Ryan, vice president and general manager of energy transition at Eaton. “Our partnership with ChargePoint is an accelerator for innovation in electrification, with novel technology today and into the future that makes going electric the smart choice.”

Eaton will custom engineer each Express configuration with comprehensive power infrastructure delivered site-ready with the option of a skid-mounted solution to expedite installation, reduce equipment requirements, and simplify connection to the grid and distributed energy resources (DERs). Eaton also plans to commercialize solid-state transformer technology in the next year through its recent acquisition of Resilient Power Systems Inc. to support DC applications in the EV market and beyond.

The ChargePoint Express Grid, powered by Eaton, will debut at the RE+ trade show in Las Vegas in Booth #V8071. Express solutions are available to order for select customers in North America and Europe, with deliveries beginning in the second half of 2026. Learn more here. To learn more about the ChargePoint Express line of EV chargers, please visit https://info.chargepoint.com/dc-architecture.html.

About ChargePoint Holdings, Inc.
ChargePoint has established itself as the leader in electric vehicle (EV) charging innovation since its inception in 2007, long before EVs became widely available. The company provides comprehensive solutions tailored to the entire EV ecosystem, from the grid to the dashboard of the vehicle. The company serves EV drivers, charging station owners, vehicle manufacturers, and similar types of stakeholders. With a commitment to accessibility and reliability, ChargePoint’s extensive portfolio of software, hardware, and services ensures a seamless charging experience for drivers across North America and Europe. ChargePoint empowers every driver in need of charging access, connecting them to over 1.25 million charging ports worldwide. ChargePoint has facilitated the powering of more than 16 billion electric miles, underscoring its dedication to reducing greenhouse gas emissions and electrifying the future of transportation. For further information, please visit the ChargePoint pressroom or the ChargePoint Investor Relations site. For media inquiries, contact the ChargePoint press office.

About Eaton:
Eaton is an intelligent power management company dedicated to protecting the environment and improving the quality of life for people everywhere. We make products for the data center, utility, industrial, commercial, machine building, residential, aerospace and mobility markets. We are guided by our commitment to do business right, to operate sustainably and to help our customers manage power ─ today and well into the future. By capitalizing on the global growth trends of electrification and digitalization, we’re helping to solve the world’s most urgent power management challenges and building a more sustainable society for people today and generations to come.

Founded in 1911, Eaton has continuously evolved to meet the changing and expanding needs of our stakeholders. With revenues of nearly $25 billion in 2024, the company serves customers in more than 160 countries. For more information, visit www.eaton.com. Follow us on LinkedIn.

The post ChargePoint and Eaton launch breakthrough ultrafast DC V2G chargers and power infrastructure to accelerate the future of EV charging appeared first on School Transportation News.

The U.S. Department of Energy (DOE) warns blackouts could increase by 100 times in 2030 if the nation “continues to shutter reliable power sources and fails to add additional firm capacity.” The forecast is a driving factor for school transportation departments seeking to incorporate cleaner alternatives for fueling buses.

The DOE report “Evaluating U.S. Grid Reliability and Security” released July 7, fulfills Section 3(b) of President Donald Trump’s Executive Order “Strengthening The Reliability and Security of the United States Electric Grid,” designed to deliver a uniform methodology to identify at-risk regions and guide federal reliability interventions.

• • The report finds the current path—retiring more generations without dependable replacements—threatens both grid reliability and the ability to meet growing AI-driven energy demand. Without intervention, the bulk power system cannot support AI growth, maintain reliability, or keep energy affordable.
  • Projected load growth is too large and fast for existing grid management and capacity planning methods to handle. A transformative shift is urgently needed.
  • The retirement of 104 giga-watts (GW) of firm capacity by 2030, without one-to-one replacement, worsens the resource adequacy challenge. Loss of this generation could cause major outages during unfavorable weather for wind and solar.
  • While 209 GW of new generation is projected by 2030, only 22 GW would be firm baseload power. Even without retirements, the model found increased risk of outages in 2030 by a factor of 34.
  • Current methods for assessing resource adequacy are outdated. Modern evaluations must consider not just peak demand, but also the frequency, magnitude and duration of outages, and model increasing interdependence with neighboring grids.

“Though demands on the electric grid are increasing, we do not foresee a meaningful logistics problem for school transportation directors,” noted Michelle Levinson, the World Resources Institute’s senior manager of eMobility Finance and Policy. “The report headline averages numbers across the whole of the U.S. The risk of additional outages is low and is brought up by high assumed data center demand in Electric Reliability Council of Texas and in PJM South (Virginia and Maryland).”

Levinson commented that the most recent data from the U.S. Energy Information Administration indicates electricity customers on average experienced approximately 5.5 hours of electricity interruptions in 2022.

“Even if all these outages occur on school days, which is unlikely, outages would account for only 0.19 percent of the hours when a bus is in the yard and potentially charging,” she added. “Luckily, transportation directors are already accustomed to navigating the impacts of electric outages on their fueling capabilities through their experience with liquid fossil fuel pumps, which also needs electricity to function.”

Levinson acknowledged change can be “scary” and the transition to electric school buses requires a shift in logistics but should not be a problem in and of itself and as with all logistics comes down to planning.

Overnight and midday down times of most school buses offer substantial opportunities for directors to charge batteries in advance of any conditions that might indicate higher grid risks, such as extreme weather events, she added.

However, others warn that even a short outage will greatly disrupt transportation operations. The DOE’s predicted blackout rate “introduces serious questions about how to keep buses moving in the face of growing grid instability,” noted Joel Stutheit, senior manager of autogas business development at the Propane Education & Research Council (PERC).

“The school day is built around a routine,” he continued. “Imagine what happens to that routine if the grid goes down as often as this DOE report suggests. If a transportation director is relying on an electric school bus fleet, blackouts could leave them unable to charge buses and reliably transport students. Even a short-term outage could introduce last-minute scheduling changes, rerouting [of] buses, and adding extra pressure on drivers and operations teams.”

Transportation directors need to shift from thinking about the electric grid as a guarantee to thinking about it as a variable for which they must plan, Stutheit said.

Ewan Pritchard, the chief subject matter expert on school bus electrification for consultant Energetics, said he believes the intent of the report was to make electric vehicles look bad.

“The DOE’s report is politically charged,” he shared. “My company is the evaluator for the electric vehicle infrastructure program for the state of California. My team is collecting data from all the vehicle charging stations across the state of California that are put in by the electric utilities. We track the time of usage of all of those stations, and we issue a report annually on the progress.”

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Related: EPA Proposal Seeks to Eliminate GHG Regulations for Vehicles, Engines
Related: EPA Provides Update on Clean School Bus Program
Related: Previous Lion Electric School Bus Warranties Voided by Company Sale
Related: Propane School Buses Save Districts 50% on Total Cost of Ownership
Related: Roundup: Informative Green Bus Summit Held at STN EXPO West

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The team’s work, he said, demonstrates electric school buses can benefit the utility grid — a shoring-up effect in the sense that it depends on when a school bus is plugged in.

For example, it can be a problem if school districts charge electric vehicles between 4 p.m. to 9 p.m., actively drawing power from the utility grid during peak demand times when usage and prices are highest, he noted.

Instead, Pritchard recommended school transportation departments would do well to use charge management systems, which essentially keep track of the strain on the utility grid, the cost of electricity and carbon production.

Doing so saves districts money, he added.

“We’re seeing tremendous change in the way people are charging vehicles, especially when it comes to school buses, because school buses have a very predictable schedule,” Pritchard said. “There’s plenty of time between 9 p.m. and 6 a.m. to recharge their vehicles.”

A Back Up Plan?

The challenge of student safety is “likely not as extreme as the report makes it seem,” Levinson agreed.

“If operators have not charged their vehicles ahead of a significant outage event, battery capacities may be low or zero, meaning this particular type of transport would not be able to run its typical route,” she pointed out. “School may not be in session in the event of such a significant outage.”

Alternatively, schools districts may find that electric buses can provide an additional level of safety and resiliency for students and communities during extreme events when the larger grid is out, Levinson said.

“Localized microgrid capabilities that connect bi-directional buses and essential school or community facilities are especially relevant in situations where extreme weather conditions isolate people and businesses,” she added.

PERC’s Stutheit, who previously was the director of transportation for Bethel School District in Washington, noted students are immediately impacted if buses can’t operate due to a power outage as “many students rely on transportation to and from school not only for their education, but to access meals and other essential services.”

If the grid goes down due to severe weather, the stakes are even higher for transportation directors to provide evacuations or emergency transportation, Stutheit said, adding student transporters need reliably-powered school buses that can respond quickly to keep students safe.

“Propane autogas buses provide that layer of resiliency,” he argued. “These buses can operate and refuel even when the grid is down. In the event of an emergency evacuation or shelter-in-place situation, propane autogas buses allow districts to respond without waiting on fuel deliveries or power restoration. That kind of reliability supports student safety.”

Pritchard noted most schools have backup generators if power goes out. He said the real student safety issue is when the tailpipe of a combustion vehicle is putting out emissions at that student’s height, adding studies show the concentration of pollutants inside of a vehicle are worse than the concentration outside of a vehicle when it comes to school buses.

“I think it’s more of a student safety issue to not electrify your fleet,” he added.

And then there is the possibility of using electric school buses to power microgrids available to provide surplus power to school buildings.

Getting Smart

To mitigate challenges, school districts should implement smart charging strategies and familiarize themselves with charge management tools and capabilities, Levinson said, adding it is best to charge when the grid is least constrained, such as overnight or midday when there is the most solar production.

“School districts can also create standard operating procedures and emergency management procedures. They can also conduct emergency preparedness drills to practice for such scenarios and identify places for procedural improvements,” she added.

Other steps include identifying additional charging locations beyond the primary charging yard and installing site-level resilience via batteries, solar and/or generators.

Stutheit shared that propane also complements EVs as part of a multi-fuel strategy, as it can be go-to energy in emergency situations when the grid is down. It can also provide transportation directors with an affordable option that won’t need infrastructure updates to keep up with grid instability.

There are ways to lessen the risk from outages that apply to both diesel and electric school buses, involving alternative power from outside the grid, Levinson said, adding grid outages affect all functions, not just charging buses.

“In cases in which electric school buses are vehicle-to-load or vehicle-to-building capable, they can be a potential asset to provide site power to run phones, computers, and HVAC systems during an outage. Increasingly electric vehicles, such as electric school buses, can be part of the grid support solution.”

The post Safety Concerns of the Electric Grid? appeared first on School Transportation News.

CAMPBELL, Calif., – ChargePoint (NYSE: CHPT), a leading provider of EV charging solutions, today announced Safeguard Care, a new service offering that provides end-to-end reliability monitoring of ChargePoint charging stations. The program, available now in six launch markets, utilizes a network of trained service providers to routinely inspect chargers, identifying and repairing many common issues while onsite.

“ChargePoint continues to develop innovative solutions that ensure EV charger reliability, from anti-vandalism measures to monitoring our hardware from our network operations center. Safeguard Care further demonstrates our commitment to delivering a reliable charging experience,” said JD Singh, Chief Customer Experience Officer of ChargePoint. “As the original manufacturer of the chargers, we are able to ensure the highest standards of service and support. With Safeguard Care, we are giving station owners and EV drivers peace of mind knowing that chargers will be in pristine working order.”

Safeguard Care, combined with ChargePoint AssureÒ, is an ideal solution for charging providers with high traffic and distributed charging stations, such as municipalities, parking garages and workplaces. It is particularly beneficial for station owners who do not have their own dedicated staff to inspect and maintain their stations on a regular basis. Each Safeguard Care visit includes a visual inspection of the charging station and the physical area around the chargers, cleaning, minor repairs or adjustments if necessary, and a test charge to validate functionality after the completion of repairs. Any issues the Safeguard Care inspector cannot address on site will be escalated directly to ChargePoint support for follow up.

For more information about Safeguard Care, please visit: https://www.chargepoint.com/businesses/services.

About ChargePoint Holdings, Inc
ChargePoint has established itself as the leader in electric vehicle (EV) charging innovation since its inception in 2007, long before EVs became widely available. The company provides comprehensive solutions tailored to the entire EV ecosystem, from the grid to the dashboard of the vehicle. The company serves EV drivers, charging station owners, vehicle manufacturers, and similar types of stakeholders. With a commitment to accessibility and reliability, ChargePoint’s extensive portfolio of software, hardware, and services ensures a seamless charging experience for drivers across North America and Europe. ChargePoint empowers every driver in need of charging access, connecting them to over 1.25 million charging ports worldwide. ChargePoint has facilitated the powering of more than 16 billion electric miles, underscoring its dedication to reducing greenhouse gas emissions and electrifying the future of transportation. For further information, please visit the ChargePoint pressroom or the ChargePoint Investor Relations site. For media inquiries, contact the ChargePoint press office.

The post ChargePoint Launches Safeguard Care to Proactively Ensure EV Charger Reliability appeared first on School Transportation News.

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New Poll: American Voters Support Federal Investments in Electric Vehicles Broad, Bipartisan Support for EV Investments and Incentives that Lower Costs, Expand Access, and Help the U.S. Beat China in the Race for Auto Manufacturing WASHINGTON, D.C. – A new bipartisan national poll conducted by Meeting Street Insights and Hart Research finds broad public support …

The post Support for Electric Vehicles appeared first on Alternative Energy HQ.

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