Hardware
Software
Battery Manufacturing Terminology
The translation of the provided text is: "Workshops that require environmental control for regulating dust, powder, and microbial contamination. Their architectural structure, equipment, and usage have functions aimed at reducing the introduction, generation, and retention of contaminants in the area. Other relevant parameters such as temperature and pressure also need to be controlled."
A room where individuals undergo a purification process following specific procedures before entering a clean area.
A room where materials undergo a purification process following specific procedures before entering a clean area.
The measuring instrument for a given particle size responds to the equivalent spherical diameter of the particle being tested. Equivalent optical diameter is used for discrete particle counting and light scattering instruments.
The size range of solid and liquid particles suspended in the air for the purpose of classifying air cleanliness levels falls between 0.1 and 1000 micrometers (μm).
The concentration of suspended particles in the air per unit volume within a production workshop.
The relative humidity in a production workshop.
A new production method that is deeply integrated with advanced manufacturing technologies and next-generation information and communication technologies, running through various aspects of manufacturing activities including design, production, management, and service. It possesses functions like self-sensing, self-learning, self-decision making, self-execution, and self-adaptation.
The temperature in a production workshop.
Enterprises use sensors, instruments, barcodes, RFID (Radio-Frequency Identification), machinery, and devices to implement actual physical processes and perceive and control the hierarchical physical processes.
These are hierarchical systems used within a factory for handling information, monitoring, and controlling physical processes. They include commonly used systems such as Programmable Logic Controllers (PLC), Supervisory Control and Data Acquisition (SCADA) systems, Distributed Control Systems (DCS), and Fieldbus Control Systems (FCS).
Enterprises use systems like Manufacturing Execution Systems (MES) to achieve the workflow for producing the desired product, which includes recording maintenance and process coordination, as well as hierarchical production management for the factory or workshop.
Grid computing's core, responsible for providing remote process management, resource allocation, storage access, login and authentication, security, and service quality, among other functions.
With the entire product lifecycle as the main axis, it covers the entire process from product market research, conceptual design, detailed design, process design, production preparation, product prototyping, product finalization, product sales, operation and maintenance, product disposal, and recycling. It spans both time and space, encompassing internal enterprise processes, supply chain participants, and end-users. This enables the generation, management, distribution, and utilization of various types of data throughout the product's lifecycle.
Building upon the foundation of a digitalized workshop, this system focuses on production lines. It offers capabilities for creating production tasks, material input and issuance, process planning and assignment, production inspection, and comprehensive monitoring and control throughout the process, including product warehousing.
Specialized software developed to address application issues specifically for intelligent mobile terminal devices.
