Latest news with #WiBotic
Geek Wire
23-05-2025
- Science
- Geek Wire
Astrobotic clears wireless charging system for moon missions with help from WiBotic
A CubeRover with a wireless charging node drives up to a second power node to charge. (Astrobotic Photo) Astrobotic says it has completed flight model acceptance testing for a wireless charging system that incorporates technology from Seattle-based WiBotic — and that could help rovers roam across the surface of the moon. The system is designed to provide reliable, high-efficiency power transfer amid the extreme conditions of the lunar surface, including a night that lasts 14 Earth days. It was developed by Pittsburgh-based Astrobotic and WiBotic with assistance from the University of Washington, Bosch and NASA's Glenn Research Center. 'This is the foundation for a unified, interoperable power standard for the moon and Mars,' Astrobotic CEO John Thornton said in a news release. 'We're offering a wireless charging solution that can support cross-agency, cross-industry missions, built to survive the harshest planetary environments. If your assets need dependable power on the surface, this is the plug they'll need.' WiBotic's co-founder and CEO, Ben Waters, said the system's successful qualification is a 'major step forward.' 'For the first time, there's an off-the-shelf, space-qualified wireless charging solution available for lunar and orbital missions,' Waters said in a LinkedIn post. 'Instead of spending years developing a custom charger for each robot, tool or power system, companies can now integrate a proven solution that works across battery types, voltages and devices — no physical connectors required.' An artist's conception shows a lunar rover and a row of charging stations. (WiBotic Illustration) The wireless system is designed to deliver power from an Astrobotic lunar lander or from a Vertical Solar Array Technology platform, also known as VSAT. Power from the source would be converted to wireless power by a WiBotic transmitter circuit, and then sent to the device by a transmitter antenna coil. Such a system would be well-suited for lunar operations — where devices would otherwise have to be repeatedly connected and disconnected, subjecting them to wear and tear from abrasive moon dust. The acceptance testing process for the wireless charger flight model was conducted over the course of four months at Astrobotic's Pittsburgh headquarters and at Glenn Research Center in Cleveland. The model was tested to check for electromagnetic interference and for the ability to cope with the vibrations that would be experienced during launch. The system also was subjected to vacuum conditions and the cold, dirty environment that would be encountered on the lunar surface. Development of the system was supported by a NASA Tipping Point contract. A 125-watt wireless charger model is now commercially available for advanced power solutions in space applications, and a 400-watt model is undergoing further testing.
Yahoo
05-05-2025
- Automotive
- Yahoo
Robot Charging Station Market Size to Achieve USD 25.43 Mn by 2034
According to Towards Automotive researchers, the global robot charging station market size is calculated at USD 1.02 million in 2025 and is expected to reach around USD 25.43 million by 2034, growing at a CAGR of 42.93% from 2024 to 2034. Ottawa, May 05, 2025 (GLOBE NEWSWIRE) -- The global robot charging station market size was valued at USD 0.71 million in 2024 and is predicted to hit around USD 25.43 million by 2034, a study published by Towards Automotive a sister firm of Precedence Research. Get All the Details in Our Solutions – Access Report Preview: Recent Product Innovation by Top Market Companies Sr. No. Name of the Company Name of the Model Name of the Brand Usage 1. WiBotic Inc. PowerPad Pro WiBotic Wireless charging station for aerial and ground robots OC-150 Charger WiBotic Onboard autonomous robot battery charger 2. Trossen Robotics Autonomous Robot Charging Dock Trossen Docking station for mobile robots in industrial and research applications Trossen Mobile Power Unit Trossen Portable robot charging interface for experimental and field robotics 3. Fetch Robotics Freight100 Charger Dock Fetch Robotics Charging station for autonomous mobile robots (AMRs) FetchCore PowerDock Fetch Robotics Smart power dock with cloud management integration Market Overview: The robot charging station market is witnessing significant growth as autonomous mobile robots (AMRs), delivery robots, and industrial service robots are increasingly adopted in logistics, healthcare, manufacturing, and commercial industries. These charging stations allow robots to recharge independently without human assistance, boosting productivity and operational effectiveness. As the transition to Industry 4.0 and intelligent infrastructure unfolds, the demand for automated charging systems, particularly wireless and inductive solutions, is increasing. The rising emphasis on warehouse automation and last-mile delivery is driving the necessity for uninterrupted robotic operations, further stimulating market growth. Technological advancements such as AI-driven charging management, rapid-charging systems, and mobile charging units are also enhancing the market dynamics. The incorporation of robot fleets into business operations and the trend towards continuous 24/7 autonomous workflows are making robot charging stations a vital component of the automation ecosystem. You can place an order or ask any questions, please feel free to contact us at sales@ Key Trends in the Robot Charging Station Market: Integration of Wireless Charging: The transition toward inductive and wireless charging systems facilitates robot recharging without physical connectors, minimizing wear and enabling continuous autonomous operations in industrial and commercial environments. Fleet Management Powered by AI: The integration of AI and IoT into charging stations aims to optimize charging schedules, monitor battery health, and manage extensive robot fleets to ensure maximum uptime and efficiency. On-Demand and Mobile Charging: The emergence of mobile charging units that can reach low-power robots provides flexible charging solutions in expansive facilities or outdoor spaces, supporting the increasing utilization of AMRs and delivery robots. Limitations & Challenges in the Robot Charging Station Market: High Costs of Installation: The sophisticated robot charging infrastructure, particularly wireless systems, entails substantial initial investments, which limits the adoption among small to medium-sized enterprises with financial constraints. Compatibility Problems: The absence of standardized charging interfaces across various robot models and brands complicates interoperability and presents issues in multi-vendor settings. Concerns About Energy Efficiency: Wireless charging systems may lead to energy loss and heat production, resulting in reduced efficiency and operational challenges, especially in environments where power and temperature are crucial. Future Opportunities in the Robot Charging Station Market The most significant potential in the robot charging station market resides in the rapid advancement of warehouse automation and last-mile delivery services, spurred by the growth of e-commerce. As companies seek to enhance efficiency and minimize downtime, autonomous robots are required to function without manual recharging. This presents a vast opportunity for intelligent, scalable charging stations equipped with fleet management systems. Additionally, public and municipal investments in smart city infrastructure, including delivery robots and sidewalk boots, are increasing the demand for outdoor and mobile charging solutions. The rising use of robotics in agriculture, healthcare, and hospitality is also opening new avenues for charging solutions. In January 2025, Zeekr, a subsidiary of Geely, introduced its Autonomous Charging Robot at CES 2025 in Las Vegas. This AI-enabled robot autonomously identifies electric vehicles, connects to charging ports, and starts charging without human involvement. It significantly enhances the convenience of electric vehicle charging, particularly in locations with inadequate infrastructure. Get the latest insights on automotive industry segmentation with our Annual Membership: Regional Analysis: Asia Pacific: Leader in Robot Charging Station Market Asia Pacific dominated the market with the largest share in 2024. This is mainly due to swift industrial automation, a robust robotics manufacturing foundation, and rising investments in warehouse and smart factory infrastructures in key economies. Nations like China, Japan, and South Korea are leading adopters of industrial and service robots, creating a need for sophisticated charging solutions that support continuous operations. The presence of major robotics manufacturers, government backing for Industry 4.0 initiatives, and the growth of e-commerce have hastened the implementation of autonomous robots and their corresponding charging stations. Furthermore, the increased utilization of robotics in agriculture and healthcare sectors significantly increased the demand for automated, efficient, and contactless charging systems throughout the region. In August 2024, Kelle Energy introduced Southeast Asia's inaugural robot EV chargers in Malaysia, with intentions to expand into Singapore. These mobile DC chargers, which are powered entirely by renewable energy, autonomously find and charge vehicles through app-based requests. This innovation aims to lessen infrastructure reliance and foster sustainable, congestion-free urban mobility in the Asia Pacific region. Major Contributors to Asia Pacific Robot Charging Station Market China: China extensively use industrial and delivery robots, particularly in logistics and manufacturing, leading to heightened demand for automated charging stations for around-the-clock autonomous functions. Japan: Japan boasts a sophisticated robotics environment, with a high incorporation of service robots in healthcare, hospitality, and public services, driving the need for efficient, compact robot charging setups that ensure smooth operational processes. South Korea: With a strong initiative toward smart factories and government-driven automation measures, South Korea is channeling investments into advanced robot ecosystems, including smart charging solutions that facilitate seamless and real-time energy delivery for autonomous systems. Exploring the Latin America's Potential in the Robot Charging Station Market The market in Latin America is expected to expand at a significant CAGR during the forecast period, driven by the increasing adoption of automation technologies in agriculture, mining, retail, and healthcare industries. Nations like Brazil and Mexico are investing in robotic solutions for logistics and surveillance, driving the demand for dependable charging systems. As rising labor costs and shortages steer businesses toward automation, robot fleets are enlarging in warehouses and industrial settings. Elevate your automotive strategy with Towards Automotive. Enhance efficiency and drive better outcomes—schedule a call today: Major Factors for the Market's Expansion in Latin America: Latin America's agritech surge is amplifying robot usage for crop monitoring and spraying, generating a significant demand for durable, off-grid charging stations capable of operating in isolated farming regions. As online shopping grows, logistics firms are implementing autonomous robots in warehouses, increasing the need for smart charging stations to minimize downtime and expedite fulfillment processes. Governments in nations like Brazil and Mexico are promoting smart infrastructure and robotics adoption, enhancing interest in charging systems that enable continuous robotic operation in both public and industrial spaces. The surge in e-commerce and the necessity for improving last-mile delivery are further boosting the demand for autonomous mobile robots (AMRs) and their charging infrastructure. This expansion is enhanced by advancing digitalization, urban growth, and supportive public policies in select countries. Segment Outlook Type Insights The mobile segment dominated the robot charging station market with the largest share in 2024. This is mainly due to the adaptability and capability of mobile charging stations to accompany autonomous robots in constantly changing environments. Mobile charging stations enable robots to recharge at various locations, including warehouses, distribution hubs, or service centers. These stations offer smooth integration with mobile robots, eliminating the necessity for fixed infrastructure and boosting their appeal in sectors like logistics, healthcare, and agriculture. The fixed segment is expected to expand to a significant CAGR during the forecast period, driven by the rising demand for specialized charging setups in industrial sites and warehouses. Fixed charging stations provide dependable, stable power for robots operating in controlled environments such as factories or distribution centers. With the increase in automation, companies are leaning towards fixed charging systems to guarantee continuous operation of autonomous robots with minimal downtime, fueling the segment's growth. Level of Charging Insights The level 2 segment dominated the robot charging station market in 2024 due to its affordability and efficiency in charging various robots utilized in both industrial and commercial areas. Level 2 charging stations deliver moderate charging speeds that align well with the operational needs of autonomous robots employed in manufacturing, logistics, and healthcare. Their popularity stems from their balance of cost, charging duration, and energy efficiency, making them the favored option for widespread implementation. The level 3 segment is projected to grow at the fastest rate during the projection period, as it offers ultra-fast charging capabilities that minimize downtime for robots in high-demand settings. Level 3 stations are crucial for applications that require quick turnaround times, such as delivery robots, service robots, and automated warehouse systems. As robots become more integrated into essential processes, the demand for rapid charging solutions is increasing, propelling the swift adoption of Level 3 chargers across various industries. Browse More Insights of Towards Automotive: Residential EV Charging Station Market: Megawatt Charging System Market: Battery Swapping Charging Infrastructure Market: Electric Vehicle Charging Software Market: EV Charging Infrastructure Market: EV Charging Panelboard Market: EV Charging Cable Market: Electric Vehicle Charging Station Market: Electric Vehicle (EV) Charging Management Software Platform Market: Micro-Mobility Charging Infrastructure Market: Commercial Application Insights The parking facilities segment dominated the robot charging station market with the largest share in 2024, driven by the increasing proliferation of autonomous vehicles and delivery robots. These facilities necessitate dedicated charging infrastructure to ensure robotic systems, such as self-driving cars or delivery robots, are consistently ready for their next assignment. As urban mobility solutions broaden, parking areas are increasingly incorporating robot charging stations to accommodate fleets of autonomous robots, reinforcing the segment's position in the market. The retail centers & shopping malls segment is likely to witness notable growth in the coming years. This is mainly due to the increasing number of shopping malls deploying autonomous robots to enhance customer service. Robot charging stations support robots used for product delivery, inventory tracking, or assisting customers in large retail settings. As the need for robotic automation in retail escalates, these venues are rapidly embracing charging solutions to support their autonomous fleets. Key Players Operaing in the Market Hyundai Motor Group EV Safe Charge Inc. Mob-Energy S.A.S VOLTERIO GmbH ROCSYS NaaS Technology, Inc Volkswagen Autev EVAR Inc. ALVERI Ltd Recent Breakthroughs in the Global Robot Charging Station Market: In October 2023, BP's charging division, bp pulse, announced plans to acquire ultra-fast charging hardware units from Tesla, marking a considerable investment of USD 100 million. In March 2023, NaaS Technology launched an automated EV charging robot, highlighting a significant advancement in technology. This robot can autonomously detect vehicles, perform charging tasks effortlessly, and manage payment processing automatically. Segments Covered in the Report By Type Fixed Mobile By Level of Charging Level 1 Level 2 Level 3 By Commercial Application Parking Facilities Airports Retail Centers & Malls Others By Region North America Europe Asia Pacific Latin America Middle East and Africa For pricing details and customized market report options, click here: You can place an order or ask any questions, please feel free to contact us at sales@ Subscribe to our Annual Membership and gain access to the latest insights and statistics in the automotive industry. Stay updated on automotive industry segmentation with detailed reports, market trends, and expert analysis tailored to your needs. Stay ahead of the competition with valuable resources and strategic recommendations. Join today to unlock a wealth of knowledge and opportunities in the dynamic world of automotive: Get a Subscription About Us Towards Automotive is a premier research firm specializing in the automotive industry. 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