Hardware
Software
Battery Manufacturing Terminology
The percentage of paired cells in relation to the total number of qualified cells.Note: Paired cell count refers to cells that meet the requirements for grouping and pairing, indicating the number of cells falling within the specified range for pairing, mainly concerning capacity, internal resistance, and self-discharge. This primarily assesses the consistency of cells and can be expressed using the sigma values for capacity, internal resistance, and self-discharge.
The percentage of qualified cells that have successfully passed all tests from the first process to the last process in the cell production process, in relation to the total number of input cells.
The percentage of cells that meet the requirements for grouping and pairing in relation to the initial input of cells in the production of cells.
The translation of the provided text is: "Material utilization rate refers to the proportion of the quantity (price) of materials included in qualified products to the total consumption of materials (raw materials), i.e., the percentage of materials that have been effectively utilized out of the actual consumption."
In each step of the battery manufacturing process, the proportion of the quantity of materials included in the qualified products to the total consumption of raw materials for that step is the material utilization rate. It represents the percentage of materials that have been effectively utilized in that step out of the actual consumption of materials.
Throughout the entire battery production process, the material utilization rate refers to the proportion of the quantity of materials included in batteries that ultimately meet the requirements for grouping and pairing, relative to the total consumption of materials (raw materials).
The proportion of time that equipment occupies in order to create value within the time it can provide is referred to as the equipment utilization rate.
It refers to the production capacity of equipment per unit of time, typically measured in parts per million (PPM).
Process capability refers to the degree to which a process meets technical standards.
Product critical parameters and performance refer to the key aspects or characteristics of a product that are essential for its functionality and quality. This can include features such as functionality, performance parameters, design, and external appearance, among others.
Key control characteristics in the production process refer to the critical aspects or parameters that need to be monitored and controlled to ensure the quality and consistency of the manufacturing process. Examples include critical control points, key equipment parameters, or important process parameters during various stages of production. These are essential elements that must be managed to achieve the desired product quality and meet specified standards.
Six Sigma, originating from statistical principles, is a comprehensive and systematic business improvement methodology.
Identify the causes of product quality defects through quality information and manufacturing process data.
The system uses the product's QR code as input to obtain process parameters, manufacturing history, processing times for each step, operator information, equipment maintenance records, and relevant quality information at every production stage. This allows for a top-down approach to achieve forward traceability of product information.
The translation of the provided text is: "The system, through single or multiple comprehensive queries based on time range, batch number, product status, and key parameter range, retrieves product barcodes and related quality information that meet the search criteria, enabling reverse traceability of product information in a bottom-up manner.
The system simultaneously performs forward traceability and reverse traceability.
