Amissiontech Co. Ltd. - 东莞森元电子科技

Under its flagship brand “AMSONE”, Amissiontech deliveries a comprehensive portfolio of circular connectors (including M8, M9, M12, M16, M23 and 7/8"), customized cable assemblies, IO-Link Masters and Hubs for industrial automation, smart manufacturing and industrial IoT applications.

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MoSense Secures Angel Funding for Comprehensive Robotic Tactile System Development

MoSense Secures Angel Funding for Comprehensive Robotic Tactile System Development

MoSense, a company specializing in multimodal tactile solutions for robotics, has successfully completed an angel funding round worth several million yuan. Investors include Sequoia China, Hillhouse Capital, and Zhiyuan Robotics. The funds will primarily accelerate research and development, team expansion, computational power investment, and production testing system establishment. Founded in May 2026 and headquartered in Shanghai, with a research center in Shenzhen, MoSense focuses on developing a comprehensive multimodal tactile perception system for robots. The company aims to enhance robots' environmental perception capabilities, which are crucial for their deployment in complex real-world scenarios such as industrial manufacturing and logistics. Looking ahead, MoSense plans to commercialize its multimodal tactile solutions across various industries beyond humanoid robotics. The company is developing a tactile feedback system that integrates multiple sensory modalities, which is essential for improving robots' interaction with their environments. No further timeline was disclosed at the time of publication.

BXI Robotics Secures Millions in Funding for Humanoid Robot Development and Market Expansion

BXI Robotics Secures Millions in Funding for Humanoid Robot Development and Market Expansion

BXI Robotics, a humanoid robot ODM provider, has recently completed a new funding round worth millions, with investment from A-share listed company Suochen Technology. The funds will primarily support the development of next-generation humanoid robots and expansion into overseas markets. Previously, BXI Robotics secured its first round of institutional financing in 2025 from Feirongda. Founded in 2022, BXI Robotics has been developing humanoid robots since 2020. The company focuses on high-dynamic bipedal humanoid robots and is one of the few teams in China capable of full-stack self-research, including machine design, core motors, motion control algorithms, and software delivery. BXI Robotics aims to meet the growing ODM market demand as many companies seek to quickly establish their own humanoid robot brands. Looking ahead, BXI Robotics plans to enhance its capabilities in end-effectors, perception, and computation to improve robots' ability to execute tasks autonomously. The company anticipates significant growth in orders and revenue, projecting monthly order amounts to exceed ten million yuan from July 2026 to July 2027, with a total annual revenue expected to surpass one hundred million yuan. No further timeline was disclosed at the time of publication.

Will Component Suppliers Be the True Winners in Robotics Industry?

Will Component Suppliers Be the True Winners in Robotics Industry?

As attention focuses on companies like Tesla and Agility Robotics, a crucial battle is unfolding in the robotics sector: the competition for components. This less visible yet significant struggle highlights that the ultimate beneficiaries may not only be the manufacturers of final products but also the suppliers of essential technologies that power robots across various designs and applications. Morgan Stanley emphasizes this perspective, suggesting that the companies providing critical components for robots will play a pivotal role in the industry's future. Historical economic trends indicate that technological revolutions often favor infrastructure suppliers, as seen during the gold rush and the rise of AI, where companies like NVIDIA and TSMC emerged as key players. Among the vital components, precision bearings are particularly important, as they are necessary for every joint, motor, and rotating mechanism in robots. Advanced humanoid robots can incorporate over 70 bearings, which are essential for ensuring precision, durability, and reduced friction in their movements. No further timeline was disclosed at the time of publication.

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Benchmarking Your Development System for Effective Robotics Simulations

Benchmarking Your Development System for Effective Robotics Simulations

The development of robotics begins long before physical assembly, relying heavily on simulations to validate designs and refine algorithms. These simulations demand significant computational resources, making system benchmarking crucial to identify hardware limitations early in the process. By measuring workstation performance under demanding workloads, engineers can establish a performance baseline that aids in spotting potential bottlenecks. Understanding how different hardware components affect simulation performance is essential for robotics development. Whether using macOS, Windows, or Linux, benchmarking helps determine if slowdowns are due to software changes or hardware limitations. Key components such as the processor, graphics card, memory, and storage play varying roles in performance, and the weakest link can dictate the overall experience. As robotics projects grow in complexity, the need for robust hardware becomes increasingly important. Engineers should focus on comprehensive benchmarking to ensure their systems can handle the demands of their simulations. No further timeline was disclosed at the time of publication.

Components Robot simulation ABB RobotStudio automation cpu delmia
Digua Robot CEO Highlights Lack of Industry Standards for Chip Computing Power

Digua Robot CEO Highlights Lack of Industry Standards for Chip Computing Power

During a media briefing on July 15, Digua Robot's CEO, Wang Cong, stated that there are currently no industry standards for the computing power required for embodied intelligence chips. He emphasized the uncertainty surrounding chip performance, data standards, algorithms, and practical applications in the sector. Wang noted that Digua Robot is among the few companies already delivering products, having partnered with over 20 leading clients, including companies like Shizhi Navigation and UBTECH. Their Sun S600 chip is set to be deployed in various scenarios, including humanoid robots and industrial applications, with significant progress reported in the past six months. Looking ahead, Wang believes that the industry is not yet in a phase of intense competition, as many players have yet to produce viable products. He highlighted the importance of refining product quality and responding to customer needs, while also addressing the challenges of cost-effectiveness and system integration in deployment processes. No further timeline was disclosed at the time of publication.

Embodied Intelligence Chip Technology Robot Partnerships Industrial Automation
Japan Allocates $2.4 Billion for 27,500 NVIDIA Rubin Chips to Establish National Robotics Initiative

Japan Allocates $2.4 Billion for 27,500 NVIDIA Rubin Chips to Establish National Robotics Initiative

On July 16, the Japanese government announced a plan to purchase 27,500 next-generation Rubin architecture AI chips from NVIDIA, totaling approximately $2.4 billion. This initiative aims to build a national AI data center and develop domestic robotics foundational models, marking one of the largest national GPU procurements globally. The project is coordinated by Noetra Corp., a policy-driven AI company set to launch in January 2026, with participation from major Japanese firms like Sony, SoftBank, NEC, and Honda. The Rubin chips will be deployed in a large data center in Sakai City, Osaka, with operations expected to begin in June 2028. Noetra aims to release its first general AI model by March 2027, followed by specialized AI models for robotics applications. Japan's investment reflects its response to ongoing demographic challenges and labor shortages. NVIDIA's CEO emphasized the potential for automation and AI to revitalize the economy. The Japanese government has set a goal to capture over 30% of the global robotics market by 2040, with the Rubin order being part of a broader strategy to reduce reliance on foreign technology and enhance national security.

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NVIDIA's CEO Jensen Huang Announces Expansion of Physical AI Collaboration in Japan

NVIDIA's CEO Jensen Huang Announces Expansion of Physical AI Collaboration in Japan

On July 16, NVIDIA CEO Jensen Huang announced an expansion of collaboration with Japanese companies in the field of 'physical AI' during an event in Tokyo. This initiative marks a strategic move to integrate NVIDIA's technology into Japan's manufacturing sector, particularly through a partnership with Toyota to develop AI models for the Woven City traffic control system. The collaboration with Toyota is central to NVIDIA's strategy, as the company will provide GPUs and development tools to Toyota's subsidiary, Woven by Toyota. This partnership aims to embed NVIDIA's technology into the city's digital twin platform, Omniverse, enhancing factory production and driving manufacturing robots with the Isaac platform. Additionally, Huang revealed plans to deepen cooperation with major Japanese industrial automation firms, including Fujitsu, Fanuc, Yaskawa Electric, and Kawasaki Heavy Industries, as part of the Cosmos Coalition. This initiative aims to strengthen Japan's position in the global AI robotics market, with a government goal of achieving a 30% market share by 2040. No further timeline was disclosed at the time of publication.

Physical AI Robotics Industrial Automation AI Technology
Tuobang Collaborates with Over Ten Humanoid Robot Firms to Expand from Motors to Complete Hands

Tuobang Collaborates with Over Ten Humanoid Robot Firms to Expand from Motors to Complete Hands

On July 16, Tuobang Co., Ltd. (002139.SZ) revealed its latest developments in the robotics sector, announcing partnerships with over ten domestic humanoid robot companies. The company aims to supply hollow cup motors and actuator modules to manufacturers of complete humanoid robots and dexterous hands. Tuobang has been focusing on hollow cup motors since 2007, which are essential components for dexterous hands, and anticipates mass production deliveries by 2026. The company is also extending its offerings from single motors to integrated actuator modules that include components like reducers and lead screws, providing clients with higher integration solutions. Furthermore, Tuobang is developing its own dexterous hand products, currently in the internal technology validation phase, with initial testing on its smart manufacturing production line. Looking ahead, Tuobang expects to see improved growth in its industrial automation business by 2026, driven by increased demand for high-end equipment due to AI infrastructure development. The company has identified autonomous smart products as a second growth curve, targeting significant revenue growth in core markets by 2026. No further timeline was disclosed at the time of publication.

Humanoid Robots Robotics Components AI Infrastructure Industrial Automation
Introduction of the First Robot Joint Selection Platform by Engfu Robotics

Introduction of the First Robot Joint Selection Platform by Engfu Robotics

Engfu Robotics has launched a comprehensive robot joint selection platform that allows users to customize parameters such as torque, speed, and weight. This platform aims to simplify the selection process for various stakeholders, including engineers and procurement professionals, by providing tailored recommendations based on extensive experience and an intelligent scoring system. The significance of this platform lies in its ability to connect customer needs with component solutions, leveraging Engfu's rich customization experience. The platform's supply chain database supports hundreds of components, enabling thousands of combinations, which enhances collaboration across the robotics industry. Looking ahead, Engfu Robotics continues to innovate in various areas, including gear reducers and motors. The company emphasizes that the development of embodied intelligence and robot joints requires collaboration among different companies, each contributing their strengths to meet customer demands effectively. No further timeline was disclosed at the time of publication.

Robot Joints Customization Supply Chain Robotics Technology
Drone Boat Startup to Establish Port Alpha Shipyard in Texas for Large Vessel Production

Drone Boat Startup to Establish Port Alpha Shipyard in Texas for Large Vessel Production

A new shipyard named Port Alpha is set to be established by a drone boat startup in Texas. This facility will have the capacity to manufacture ships measuring up to 1,200 feet in length. The development of Port Alpha is significant as it represents a major investment in maritime manufacturing capabilities, particularly for drone technology applications. The ability to construct large vessels will enhance the startup's operational capabilities and market reach. Looking ahead, industry stakeholders will be keen to observe the progress of Port Alpha and its impact on the local economy and the broader maritime sector. No further timeline was disclosed at the time of publication.