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1.Master Station Options · Comprehensive Protocol Support · Supports optional Profinet and EtherCAT master stations · Future support for IO-Link, EtherNet/IP, and more master stations 2.Industry Innovation · Commercial Benchmark · First to achieve commercial application of IEC61499 + Profinet solution · IEC61499 Standard: distributed architecture, software-hardware decoupling, object-oriented design, etc. 3.Shared Ecosystem · Cost Reduction Support · Free programming software to help enterprises reduce costs 4.Reliable · Compact · Easily Expandable · CPU and I/O separated design for easy plugging and unplugging · Supports expansion of up to 32 modules 5.User Interface · Clear and Intuitive · Multifunctional OLED display, offering a user-friendly and intuitive interface
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1.Two-Section Design, Easier Installation · Pluggable terminal blocks for more convenient module installation · World's first staggered light-guided terminals 2.Redundant Backplane, Enhanced Reliability · Backplane bus supports redundancy · Supports up to 32 I/O modules · Full load refresh cycle of 0.6 ms 3.Wide Temperature Range, Fearless Performance · Operating temperature from -30°C to 65°C, adaptable to harsh industrial environments 4.Customized Development · Supports OEM, ODM, special module, and special function customization 5.Superior EMC Performance · ESD immunity, EFT immunity, and surge (shock) immunity all exceed national Class B standards, reaching Class A standards.





Maximum machining diameter 300 mm, machining accuracy 5 μ-10 μ

processed parts accuracy: 0.01 mm; H7/H7; flatness: 0.02; perpendicularity: 0.03; parallelism: 0.03; straightness: 0.03; coaxiality: 0.01;

We have the supplier of sand-casting aluminum, casting copper and casting iron with no sand holes on the surface, and the 2000T die-casting supplier.



The multidimensional tactile dexterous hand DexH13 is the world's first dual-modal robotic end-effector integrating "multi-dimensional tactile sensing + Al vision". It integrates 1140 ITPU mhulti-dimensional tactile sensing units in a single hand,with up to 15 dimensions of human-like perceptions. It can achieve multi-dimensional force array sensing and real-time analysis of 15 physica properties, including material, temperature, texture, etc. The DexH13 irnnovatively adopts a four-finger, 16-DOF (13 active + 3 passive) bionic structure design,and the thumb has an independent four activeDOF. By eliminating the redundant little finger, more than 90% of the core hand movements can still be completed. Additionally,the hand is equipped with an 8MP RGB HD eye-in-hand camera. Paired with flexible and compliant motion control and high-precision force control, it can precisely perform complex actions such as grasping, gripping, pinching, pressing,and opening/closing fingers.It expeerforms challenging tasks like fragile object manipulation and precision assembly, bringing unprecedented convenience anefficiency improvements to various fields, including industrial manufacturing, logistics and warehousing, medical and heaIthcare, and education and research.

TORA-ONE is the first humanoid robot with multi-dimensional tactile sensing in Embodied Al industry. It has 53 degrees of freedom (DoF), and equipped with a multi-DoF dexterous dual-arm and 4-finger bionic structure design hand. Both hands are integrated with 2280 ITPU multi-dimensional tactile sensing units. Empowered bythe advanced VTLA-Model (Vision-Tactile-Language-Action Multimodal Perception Model) and PX-Core (Visual-Tactile BimodalModel Control Architecture), TORA-ONE has acquired comprehensive, sensitive, and fine-grained perception and powertful interaction skills, which enable it to rapidly learn autonomously and adapt to different environments, while performing compliant and flexible interactive collaboration in various scenarios Additionally, TORA-ONE features a foldable design in its waist struecture,enabling it to adjust its height range from 1.46 m to 1.86 m to accommodate various working height requirements. This provides broad application across multiple scenarios such as industrial manufacturing, healthcare and wellness, and warehouse logistics.
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Description: A mold manufacturing factory can rely on a cloud-based intelligent management platform for molds to provide support for business decision-making and analysis to the ERP system at the upper level. At the lower level, it can be deeply integrated with mold design, programming, supply chain management, automated machining, Automated Guided Vehicles (AGV), Internet of Things (IoT), Warehouse Management System (WMS), etc. This integration enables seamless information flow and communication, and accumulates big data related to mold production. By leveraging technologies such as Industrial Internet and Artificial Intelligence (AI), the solution can achieve intelligent manufacturing of molds.

Description: Based on standardized data, using an information system as the platform, and taking intelligent robots as the core, this solution helps enterprises achieve interconnectivity of production equipment and establishes a high-precision, high-efficiency intelligent manufacturing model.

Description: The EMom Yee Mold Discrete Manufacturing Operations Management System is centered around product data, integrating design data, process data, manufacturing resource data, and logistics resource data. It enables the transfer and control of data across various departments, including design, process planning, scheduling, procurement, material management, warehousing and distribution, production manufacturing, and finance. This ensures data consistency and helps enterprises establish an enterprise information management platform based on design, process, and manufacturing logistics data. With IT support, the system constructs a production operation model driven by orders for small-batch, multi-variety production. It addresses the challenges of small-batch, multi-variety production and builds a collaborative supply chain that connects customers, factories, and suppliers
