Commercial drones are still at the US starting line, but as the FAA begins to deregulate, the sector is ready to take off. Wireless charging, with all striped robots operating independently and less downtime, can bring many benefits to drones as well.
“This year marks a turning point in robot adoption, from mobile robots to aerial drones to underwater and space-based robots,” said WiBotic, CEO and co-founder of WiBotic, a manufacturer of wireless charging solutions for the automation sector. Ben Waters said. .. “Organizations that have evaluated a small number of robots in the past are now achieving ROI and are pivoting for scale-up.”
WiBotic, which we closely track, drew attention late last year on an ambitious project to bring wireless charging technology to the moon.The focus of the company Industrial wireless charging Is prevalent among automation developers in areas like Robots and drones.. Last year, the company received FCC equipment approval for high-power transmitters and receivers. The transmitter provides up to 300 watts of wireless power via inductive charging. This was the first time the FCC approved the use of this type of technology in mobile robots and other devices with large batteries.
When another federal agency, the FAA, begins to lift the embargo on commercial drone operations for people, corporate drones and wireless charging dovetails will be set up. One reason is that wireless charging can extend the reach of drones. Drones can usually fly for less than 30 minutes on a single battery charge. This means that for long-distance (power line, etc.) periodic inspections, the drone will need to stop multiple times in the middle to recharge the battery. These charging stations can be basic landing pads or fully protected drone hangars such as the Drone Matrix YACOB. Wireless charging greatly simplifies the landing process because the drone does not have to dock exactly with the charging station.
In addition, when dealing with distributed enterprise drones such as delivery drones and inspection drones, it is important to visualize the charging process and ensure that each drone is fully charged to the correct voltage. LiPo drone batteries are cumbersome and must be charged properly. That is, you can control the charging voltage and speed. Operations that rely on carefully tuned logistics also have costly downtime, so it is beneficial to optimize charging time and speed based on operational needs.
No application in robotics is directly related to wireless charging, except that wireless charging solutions are ideally deployed throughout the fleet. WiBotic’s recently released Commander system also offers the ability to potentially improve flight and battery safety via a programmable and tuned charger.
“Commander was created to address these efforts by providing our customers with unparalleled insight into how robots consume energy. Minimize robot downtime and cause failures. How to predict before doing, and even how to evaluate and compare the performance of different battery types and vendors. ”
Commander software allows users to remotely configure these settings and customize various drone settings. Advanced features also allow you to control charging and extend battery life. For example, it adversely affects lithium batteries that are charged at maximum speed each time. The Commander can be used to slow down the charging speed when you don’t need another flight right away, or to restore it when you need it. These types of practices can double the life of a drone battery, but you need a software console to implement them.
Although still in its infancy, as the commercial drone sector matures, we see convergence technology that has long been limited to online development within the enterprise. The future of commercial drone flight for many fleet applications may probably be wireless.
How wireless charging unleashes the potential of commercial drones
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