Car Charging Bot is in the process of developing an revolutionary Electric Vehicle (EV)wireless charging technology that will provide a much-needed solution for electric vehicles. The current state of EV charging infrastructure is inadequate and lacks the necessary infrastructure to support the widespread adoption of electric vehicles. CarChargingBot’s EV wireless charging technology will address this problem by providing a convenient and reliable way to charge electric vehicles.
“The current state of EV charging infrastructure is unacceptable, and our EV wireless charging technology will provide a much-needed solution for electric vehicles. We are confident that our technology will be able to provide a convenient and reliable way to charge electric vehicles,” saidCarChargingBot CEO, HossAlavi
The technology uses magnetic coupling to transfer energy between mobile charging robots and electric vehicles. Once the technology is commercialized, it will be available for use in public and private spaces, including homes, businesses, and parking garages. Electric vehicle owners will be able to charge their vehicles using the CarChargingBot EV wireless charging Robot without the need for a dedicated charging station.
“Electric charging robots, which are chargeable within a few hours, will charge up to three electric vehicles before needing to be recharged themselves. Users will need to install an EV-compatible charging coil in the bumper, door panels, inside the fender, or another strategic location on the vehicle. Using a mobile app, the driver will be able to see where the nearest robot is and schedule a charging session,” Hoss explained.
The idea for the technology came about when Hoss and his team were looking for a way to make electric vehicles more convenient and accessible to people. “We realized that there was a need for a better way to charge electric vehicles, and we decided to develop a technology that would address this need.”
“While current inductive charging options have eliminated the charging station’s plug-in cord, they add alignment issues between the charging station and the EV, and installations can be extremely expensive,if impossible. To reduce these obstacles, we believe that the energy source for the charge should be placed by a smart robot,” Hoss continued.“We envision a future where electric vehicles are as ubiquitous as gas-powered cars, and our technology will help make that future a reality.”
CarChargingBot is currently in the process of raising capital to fund the commercialization of its EV wireless charging technology. Investors are invited to contact the company for more information.
“Ten years ago, barely anyone believed in companies like Tesla, and today the companies are worth billions of dollars. We see the future of CarChargingBot in a very similar way. Our technology has the potential to revolutionize the way electric vehicles are charged, and we are confident that it will be able to impact the adoption of electric vehicles significantly,” Hoss said.
The company’s technology has the potential to be a game-changer in the electric vehicle industry. With its convenient and reliable EV wireless charging technology, CarChargingBot is well-positioned to become a leading provider of EV charging solutions.
About CarChargingBot
CarChargingBot is a technology company that is developing a wireless charging solution for electric vehicles. The company’s electric vehicle wireless charging technology uses artificial intelligent magnetic coupling integrated into the vehicle’s bumper to transfer energy between charging robots and electric vehicles.
Charging robots will travel up to 1/2 mile in their area to charge up to 3 vehicles before needing to be recharged themselves. Unlike current cable-based charging solutions, CarChargingBot’s EV wireless charging technology will be able to charge electric vehicles without the need for a dedicated charging station.
The company is headquartered in Fort Lauderdale, FL.
check out the video on their youtube channel.
For more information, visit https://carchargingbot.com/.
