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150V20A(24/32CH)
TERTRON
Charging High-Voltage Professional Short Circuit Temp Control Customized Using Hydrometer Using Multimeter 220V Lithium-Ion Battery Test System
Professional 220V High-Voltage Lithium-Ion LiFePO4 Customized Charging Short Circuit Temp Control Using Multimeter Using Hydrometer Battery Test System
Description
150V20A (24/32CH) Battery Pack Aging Cabinet is primarily used for lithium battery pack charge and discharge cycle testing. It measures key parameters such as charging protection voltage, discharging protection voltage, and capacity. The equipment features four test steps: charging, discharging, shelving, and cycling. By configuring these steps, batteries can be tested according to the specified process.
Key Features
- Controlled Environment - Battery formation cabinets provide a controlled environment for the formation process, which is a critical step in the production of rechargeable batteries. The cabinets are designed to maintain specific temperature and humidity levels throughout the formation process to ensure optimal battery performance and longevity.
- Modular Design - Many battery formation cabinets feature a modular design, allowing for flexibility in configuring the cabinet to accommodate different battery sizes, chemistries, and production volumes. This modular approach enables manufacturers to scale their production operations according to their needs.
- Multi-Channel Charging - Battery formation cabinets typically include multiple charging channels, allowing for simultaneous formation of multiple batteries. This multi-channel capability helps to increase productivity and throughput in battery manufacturing processes.
- Precise Control and Monitoring - Advanced control systems govern the charging process, regulating parameters such as voltage, current, and temperature with precision. Real-time monitoring capabilities allow operators to closely monitor the formation process and make adjustments as needed to ensure optimal results.
- Safety Features - Safety is paramount when working with batteries, especially during the formation process, which involves charging and discharging cycles. Battery formation cabinets are equipped with safety features such as overcharge protection, short circuit protection, and thermal monitoring to prevent accidents and ensure operator safety.
- Data Logging and Analysis - Many battery formation cabinets are equipped with data logging capabilities, allowing for the collection of data on key parameters throughout the formation process. This data can be analyzed to optimize the formation process, improve battery performance, and troubleshoot any issues that may arise.
- User-friendly Interface - The interface of battery formation cabinets is designed to be user-friendly, allowing operators to easily program and control the formation process. Intuitive controls and touchscreen interfaces make it simple for operators to set up and monitor the formation process.
- Integration with Manufacturing Systems - Battery formation cabinets can be integrated with other manufacturing systems, such as production line automation software and quality control systems, to streamline the overall battery manufacturing process and ensure seamless operation.
Modular Design | Multi-Channel Charging | Safety Features | Data Logging & Analysis | Integration Systems |
Product Parameters
Equipment Structure | |
Model | 150V20A (24/32CH) |
Communication Mode | TCP/IP (network port) |
Channel Control Mode | Single point independent control |
Charging Energy Saving Efficiency | 90% |
Charging Voltage | 0~150V |
Discharging Voltage | 10~150V |
Charge Current | 0.04A~20A |
Discharge Feedback Efficiency | 88% |
Discharge Current | 0.04A~20A |
Voltage Accuracy | ±(0.1%RD + 0.1%FS) |
Current Accuracy | ±(0.1%RD + 0.1%FS) |
Voltage Resolution | 1mV |
Current Resolution | 1mA |
Temperature Resolution | 0.1℃ |
Total Power | 88KW |
Input Power Supply | AC 380V±10%/50Hz (cabinet power supply: three-phase five-wire) |
Main Temperature | Each channel can have 1 main temperature, temperature resolution: 0.1℃ (optional function, customizable) |
Sampling Time | Single box sampling frequency 10mS |
Recording Time | 100mS~65535S |
Charging Mode | Constant current charging CC, constant voltage charging CV (need to use CC+CV mode), constant current constant voltage charging CCCV, constant power charging CPC |
Charging Cut-off Condition | Voltage, current, time, capacity, temperature (optional function, customizable) |
Discharging Mode | Constant current discharge CD, constant power discharge CPD, constant current constant voltage discharge DCCV (optional function, customizable) |
Discharging Cut-off Condition | Voltage, current, time, capacity, temperature (optional function, customizable) |
Single Cycle Working Steps | 100 steps |
Circuit Structure | Modular structure design, easy to replace and repair |
Software and Hardware Protection | Reverse connection protection, overvoltage protection, overcurrent protection, overtemperature protection, undervoltage protection, short circuit protection |
Charging High-Voltage Professional Short Circuit Temp Control Customized Using Hydrometer Using Multimeter 220V Lithium-Ion Battery Test System
Professional 220V High-Voltage Lithium-Ion LiFePO4 Customized Charging Short Circuit Temp Control Using Multimeter Using Hydrometer Battery Test System
Description
150V20A (24/32CH) Battery Pack Aging Cabinet is primarily used for lithium battery pack charge and discharge cycle testing. It measures key parameters such as charging protection voltage, discharging protection voltage, and capacity. The equipment features four test steps: charging, discharging, shelving, and cycling. By configuring these steps, batteries can be tested according to the specified process.
Key Features
- Controlled Environment - Battery formation cabinets provide a controlled environment for the formation process, which is a critical step in the production of rechargeable batteries. The cabinets are designed to maintain specific temperature and humidity levels throughout the formation process to ensure optimal battery performance and longevity.
- Modular Design - Many battery formation cabinets feature a modular design, allowing for flexibility in configuring the cabinet to accommodate different battery sizes, chemistries, and production volumes. This modular approach enables manufacturers to scale their production operations according to their needs.
- Multi-Channel Charging - Battery formation cabinets typically include multiple charging channels, allowing for simultaneous formation of multiple batteries. This multi-channel capability helps to increase productivity and throughput in battery manufacturing processes.
- Precise Control and Monitoring - Advanced control systems govern the charging process, regulating parameters such as voltage, current, and temperature with precision. Real-time monitoring capabilities allow operators to closely monitor the formation process and make adjustments as needed to ensure optimal results.
- Safety Features - Safety is paramount when working with batteries, especially during the formation process, which involves charging and discharging cycles. Battery formation cabinets are equipped with safety features such as overcharge protection, short circuit protection, and thermal monitoring to prevent accidents and ensure operator safety.
- Data Logging and Analysis - Many battery formation cabinets are equipped with data logging capabilities, allowing for the collection of data on key parameters throughout the formation process. This data can be analyzed to optimize the formation process, improve battery performance, and troubleshoot any issues that may arise.
- User-friendly Interface - The interface of battery formation cabinets is designed to be user-friendly, allowing operators to easily program and control the formation process. Intuitive controls and touchscreen interfaces make it simple for operators to set up and monitor the formation process.
- Integration with Manufacturing Systems - Battery formation cabinets can be integrated with other manufacturing systems, such as production line automation software and quality control systems, to streamline the overall battery manufacturing process and ensure seamless operation.
Modular Design | Multi-Channel Charging | Safety Features | Data Logging & Analysis | Integration Systems |
Product Parameters
Equipment Structure | |
Model | 150V20A (24/32CH) |
Communication Mode | TCP/IP (network port) |
Channel Control Mode | Single point independent control |
Charging Energy Saving Efficiency | 90% |
Charging Voltage | 0~150V |
Discharging Voltage | 10~150V |
Charge Current | 0.04A~20A |
Discharge Feedback Efficiency | 88% |
Discharge Current | 0.04A~20A |
Voltage Accuracy | ±(0.1%RD + 0.1%FS) |
Current Accuracy | ±(0.1%RD + 0.1%FS) |
Voltage Resolution | 1mV |
Current Resolution | 1mA |
Temperature Resolution | 0.1℃ |
Total Power | 88KW |
Input Power Supply | AC 380V±10%/50Hz (cabinet power supply: three-phase five-wire) |
Main Temperature | Each channel can have 1 main temperature, temperature resolution: 0.1℃ (optional function, customizable) |
Sampling Time | Single box sampling frequency 10mS |
Recording Time | 100mS~65535S |
Charging Mode | Constant current charging CC, constant voltage charging CV (need to use CC+CV mode), constant current constant voltage charging CCCV, constant power charging CPC |
Charging Cut-off Condition | Voltage, current, time, capacity, temperature (optional function, customizable) |
Discharging Mode | Constant current discharge CD, constant power discharge CPD, constant current constant voltage discharge DCCV (optional function, customizable) |
Discharging Cut-off Condition | Voltage, current, time, capacity, temperature (optional function, customizable) |
Single Cycle Working Steps | 100 steps |
Circuit Structure | Modular structure design, easy to replace and repair |
Software and Hardware Protection | Reverse connection protection, overvoltage protection, overcurrent protection, overtemperature protection, undervoltage protection, short circuit protection |