PHYBOT M1 全球爆发力最强的全尺寸人形机器人，万瓦爆发可完成拟人态后空翻、自主爬起等极限动作；176cm身 高、67kg体重精准适配人类作业空间，双臂负载10-20kg、背负超50kg，为特种应急、物流货运等高强 度场景提供"钢铁执行体"； PHYBOT C2 近日，动易科技宣布完成亿元级天使++轮融资，天使轮累计融资额超2亿元。 本轮融资延续了资本对动易 科技"全栈自研"技术路径与"超人类"动态性能成果的高度认可，本轮投资方包括海珠城发、广州产投、金 雨茂物、锡创投、金沙江联合、达泰资本、复琢投资，老股东普超资本超额追投。 作为成立仅一年余的具身智能新势力，动易科技凭借"全栈自研"的技术壁垒与差异化产品布局，已多次获 得资本加持，此次融资将进一步加速通用人形机器人及核心关节模组技术迭代、多场景商业化落地进程与 全球化布局。 全栈自研构建核心壁垒，产品矩阵覆盖多场景需求 自2024年9月成立以来，动易科技始终秉承"Robot for AI"的愿景，以"全栈自研"为核心策略，从底层硬 件到软件系统构建闭环能力，推动人工智能从"认知智能"向"具身智能"跨越，已形成差异化的行业竞争 力。 开创"通用运控模型 ...

11月25日，外媒Interestingengineering直接引用极其夸张的标题，报道了一款来自中国的人形机器人 PHYBOT M1 ，内容客观又不吝溢美之词。 视频内容确实相当震撼， 当一个身高近 1.8米、体重近70kg的 " 钢铁巨人 " 纵身跃起，在空中完成流畅的拟 人态后空翻并平稳落地时， 着实令人瞳孔地震。 这款由中国动易科技全栈自研的 产品 ，不仅是全球首款实现该极限动作的全尺寸重型纯电驱人形机器人， 更 以超 10000W瞬时峰值功率的动力表现，标志人形机器人纯电驱时代正式到来，彰显国产核心技术在该领域 的领先地位。 ▍ 全尺寸与高动态性能的协同实现 为 何选择 近 180cm， 70kg的 全尺寸 重型平 台去挑战后空翻？ 机器人大讲堂了解到， 在 PHYBOT M1研 发前，人形机器人领域长期存在全尺寸机型与高动态运动能力难以兼顾的技术瓶颈 。 大多时候， 中小型尺寸机型 是 主流选择 ， 尤其 当前具备奔跑、跳跃等动态运动能力的人形机器人，多采用 中小型尺寸设计。 此类机型因 体惯量 低、重心控制难度小，对关节扭矩及能耗需求较低， 技术实现门槛相 对可控，动易科技此前推出的 PHYB ...

Core Viewpoint - The article discusses the groundbreaking capabilities of PHYBOT M1, a full-sized humanoid robot developed by Dongyi Technology, which has achieved a perfect backflip, showcasing its advanced dynamic performance and potential to surpass human capabilities in complex environments [4][5][8]. Group 1: Technological Innovations - PHYBOT M1 is the world's first full-sized heavy-duty electric-driven robot to perform a perfect backflip, demonstrating superior explosive power compared to Boston Dynamics' Atlas [5][8]. - The robot's design aims to validate and push the boundaries of core capabilities necessary for humanoid robots to operate in real-world, high-intensity production environments [7][8]. - The electric drive system of PHYBOT M1 has surpassed traditional hydraulic systems in dynamic performance, achieving a peak joint torque of over 800 N·m and a total peak power output exceeding 10,000 W [16]. Group 2: Challenges in Humanoid Robotics - The industry faces challenges in balancing dynamics, structure, and control in full-sized humanoid robots, with most high-dynamic robots being smaller in size due to lower inertia and easier center of gravity control [9][10][11]. - Achieving high motion capabilities in larger humanoid robots requires significant increases in joint peak torque, energy density, and structural durability [11][12]. Group 3: Advanced Algorithms and Training - Dongyi Technology has developed three innovative algorithms to enable PHYBOT M1 to perform complex movements like backflips, addressing the challenges posed by its high inertia and the need for precise control [17][19][20]. - The training process includes a dual-stage method that ensures the robot can perform at its limits safely, enhancing the transfer of strategies from simulation to real-world applications [21][22]. Group 4: Future Implications - The successful execution of the backflip is seen as a significant milestone in the evolution of robotics, indicating a shift from basic locomotion to advanced dynamic movements [23]. - Dongyi Technology aims to leverage the capabilities of PHYBOT M1 to transform humanoid robots from mere demonstrations of technology into reliable productivity tools across various industries [24].