Hardware
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Battery Manufacturing Terminology
The inherent capability of a system to rapidly and cost-effectively adapt to environmental changes or uncertainties caused by the environment.
Using digital and visual methods to address issues and design algorithms related to complex control.
Units that implement the planning, management, diagnosis, and optimization of the production process based on the required processes and equipment for the production object, using information technology, automation, measurement and control technology, and other means, by connecting data from different units in the workshop.
Any entity composed of data.Example: A database is a data asset composed of data records.
The process of representing (or encoding) data that is originally non-discrete in digital form.
A manufacturing technology that uses digital quantification to express, store, process, and control, supporting the optimization of product lifecycles and overall enterprise operations.
Utilizing physical models, sensor updates, operational history, and other data to integrate multi-disciplinary, multi-physical parameters, multi-scales, and multi-probabilities in a simulation process. This process maps into a virtual space, reflecting the full lifecycle of the corresponding physical equipment.
Information related to the parameters, production metrics, status, and machine runtime used for planning and controlling production orders.
Collecting data and status information during the current running process. This can include information such as job status, production metrics like quantity, volume, weight, quality data, and so on.
The process of comprehensively integrating various components, subsystems, and sub-systems from different sources, using scientific methods and technology, to create an organic, efficient, unified, and optimized system in accordance with the requirements for best performance.
The activity of providing organizational records of resource and product usage, using tracking information to trace backward or forward from any point.
The range of variation in the difference between the envelope lines on the same side of the positive and negative electrode sheets within the core pack is referred to as "EU" (Envelope Uniformity).
The alignment degree between the separator and the positive or negative electrode within the core pack is referred to as "FU" (Alignment Uniformity).
The relative position difference within the core pack between electrode sheets and electrode sheets, as well as between electrode sheets and the separator, where they overlap.
The relative position error in the overlap of material rolls (positive electrode sheets, negative electrode sheets, separators, tapes).
The relative position error in the overlap of multiple tab or tab-like features within the core pack.
