By adopting new wireless communication skills, the discharge process of the battery can be monitored in real-time through PC monitoring software, monitoring the discharge process of each battery cell. The power consumption part adopts a new PTC ceramic resistor as the discharge load, completely avoiding the phenomenon of red heat, which is safe, reliable and pollution-free. The whole machine is controlled by a microprocessor, with LCD display and Chinese menu. The appearance design is innovative, with small size, light weight, and easy mobility. After setting various discharge parameters, actively complete the entire constant current discharge process. Thoroughly achieve intelligence. Make the entire discharge process safer. The convenient portability and intelligent professional planning of intelligent discharge monitoring devices make discharge testing operations simple and easy, greatly reducing the labor intensity of professional protection personnel and improving the scientific and intelligent nature of discharge testing. On the basis of the original product, a new generation of single cell detection and discharge device with wireless single cell detection function has been developed by combining battery testing skills, wireless communication skills, computer information processing and other skills. Adopting a wireless transmission unit voltage collection system, data can be transmitted wirelessly over short distances. The data collection speed is fast, the accuracy is high, the anti-interference ability is strong, and the operation is simple. It can record the voltage changes during each time period of the battery discharge process, effectively avoiding safety hazards such as errors caused by wiring and damage to connecting cables. It wirelessly collects the "bridge voltage" generated by the connecting wires between individual battery cells, ensuring that there is a large connection resistance due to possible loosening of individual connectors during the discharge process.

Can you provide a specific introduction to the performance of the battery capacity testing machine

By adopting new wireless communication skills, the discharge process of the battery can be monitored in real-time through PC monitoring software, monitoring the discharge process of each battery cell. The power consumption part adopts a new PTC ceramic resistor as the discharge load, completely avoiding the phenomenon of red heat, which is safe, reliable and pollution-free. The whole machine is controlled by a microprocessor, with LCD display and Chinese menu.

The appearance design is innovative, with small size, light weight, and easy mobility. After setting various discharge parameters, actively complete the entire constant current discharge process. Thoroughly achieve intelligence. Make the entire discharge process safer. The convenient portability and intelligent professional planning of intelligent discharge monitoring devices make discharge testing operations simple and easy, greatly reducing the labor intensity of professional protection personnel and improving the scientific and intelligent nature of discharge testing.

On the basis of the original product, a new generation of single cell detection and discharge device with wireless single cell detection function has been developed by combining battery testing skills, wireless communication skills, computer information processing and other skills. Adopting a wireless transmission unit voltage collection system, data can be transmitted wirelessly over short distances.

The data collection speed is fast, the accuracy is high, the anti-interference ability is strong, and the operation is simple. It can record the voltage changes during each time period of the battery discharge process, effectively avoiding safety hazards such as errors caused by wiring and damage to connecting cables. It wirelessly collects the "bridge voltage" generated by the connecting wires between individual battery cells, ensuring that there is a large connection resistance due to possible loosening of individual connectors during the discharge process.