Application of Lingchen Technology LCTE-MINI-EO16 in Labeling of Lithium Battery Ears
Generally, the positive electrode of lithium-ion batteries is made of aluminum alloy material, the negative electrode is made of nickel material, and the negative electrode can also be made of copper nickel plated material. Today we will talk about the technical application of Lingchen Technology LCTE-MINI - E1O16 in the electrode ears of lithium batteries.
With the promotion and popularization of machine vision, it has also been widely applied in the new energy industry. There is also a widespread demand for labeling the pole ears of lithium batteries.
The battery ear is an important component in lithium-ion batteries, which is divided into positive and negative electrodes. The ear is a metal conductor that leads the positive and negative electrodes out of the battery cell. Simply put, the ears of the positive and negative electrodes of the battery are the contact points during charging and discharging. Generally, the positive electrode of lithium-ion batteries is made of aluminum alloy material, the negative electrode is made of nickel material, and the negative electrode can also be made of copper nickel plated material. Today we will talk about the technical application of Lingchen Technology LCTE-MINI - E1O16 in the electrode ears of lithium batteries.
LCTE-MINI-EO16 Technical Parameters of Lingchen Technology
Lingchen Technology LCTE-MINI-EO16 Basic Functions
Principles of Visual Inspection for Lithium Battery Ears
Introduction to Trigger Function
1. After setting the point position, the module automatically sorts internally, and the program does not need to sort before pressing in
2. Trigger interval protection: mislabeling caused by multiple judgments by the protection program.
3. Roll changing function: It can be changed directly without the need for material cleaning when a roll of product is almost finished.
4. Marking and locking function: By using the output signal of the marking machine and the high-speed locking function, the encoder position value at the moment of receiving the signal is quickly locked. Used to determine whether the marking position is correct.
5. Marking actual output counting function: By using the output signal of the marking machine and the high-speed counting function, the number of signals can be counted. So as to calculate the actual number of markings.
6. Encoder speed compensation: The deviation in marking position caused by the output delay of the marking machine at different speeds can be compensated with speed compensation.
7. Encoder one-way counting: The counting method is the same as that of CCD, allowing the module to fully synchronize with the encoder counting of CCD.
8. Ordinary DIO control: During debugging, the module can be switched to GPIO mode, and direct level output is convenient for electrical debugging.
9. Multiple internal register monitoring methods, such as internal trigger counting, actual position triggering, FIFO counting triggering, etc., facilitate monitoring and troubleshooting issues.
LCTE-MINI-E1O16,凌臣MINI-IO模块,触发模块
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