I. Description of Equipment Functions
The SF37-16-200A Power Battery Sorting Cabinet is known as Lithium Battery Testing Equipment that is focused on formation/sorting phases of battery usage to measure the charge, capacity, and accomplish grading charge/discharge data values. This equipment functions for both blade or pouch type batteries but divided the instrument in a way that the main power supply and fixture is separated making it more safety when discharging value of 0V to the battery allowing the battery to be safely disassembled. The single-point independent constant current / voltage source technology (CCCV) ensures the discharge test value for each battery cell is at stability without greatly shocking the battery.
The equipment was developed with the STM32 microcontroller-based system and can operate with dual mode separation between the computer and keyboard or user interface panel. The We also support storing real time data curves that will also generate reports and export into multiple file formats. The 4 wire test interface is highly accurate and mode structure provides maintenance periodically on equipment. Our energy feedback technology saves the energy it discharged back into AC feed. This technology presents great efficiency especially in energy saving. The software is modeled for up to 256 cycles / 32 processes of use; data formatting can be barcoded, options artificial intelligence option for safety and the ability to work with the MES (manufacturing execution system), etc. for a broader use case in testing multiple battery types if the need come up to use.
II. Core Competitiveness
Independent Control Technology: Each individual selection channel can support modes separate from others across all channels (Start / Pause / Protection status) using a constant current / voltage source and adding each has its own power source and no confliction across the channels. this is more acceptable than a standard design for all battery services under test and is one of the large competitive advantages of the Battery Charge Discharge Tester overall.
Intelligent Data Management: protecting on a graphic interface, viewing data can support in real time can be anything from Voltage to Current, Capacity, etc. the graphic interface accepts history parameter checking and comparing graphic curves that allows you to export report simultaneously several data file formats. The dock connects directly with the production MES system and supports the informatization of the logging of the production process.
Multiple Safety Protections: The battery charger / discharger equipment is operational with 13 protections (overvoltage / undervoltage / reverse connection and also power tube short circuit, etc.) some are combined options such meeting discharge point of safety to combing energy feedback system to return energy stored to AC or grid use. There are numerous improvements in heat-loss and can easily preform when operating above what is acceptable, as the unit is ambient air- cooled.
III. Technical Parameter Comparison Chart
IV. Application Scenario Advantages
High Precision Testing Scenarios: The Battery Sorting Machine provides precision in measuring using battery performance as sorting value in capacities, charge voltage, etc. With the use of automatic calibration depending on type of discharge platform are also four- wire measurement values support battery sorting accuracy.
High Volume Manufacturing Production Lines: One computer can operate successfully and at scale with 10 units functioning in parallel for testing. We can exceed needs in volume by having the unit (data results) into a managed production line. Utilizes MES and barcode scanning supported automation or decision-chest of production is done data collected to a reliable volume of sharing meaning for sorting into completed replacement battery identification.
Safety / Energy Saving Scenarios: In discharging mode we can discharge to a 0V (this minimizes risk of disassembly) on time for safety; we also have the energy back to AC unit for grid use from energy storage; and this helps to conserve heat loss to for battery tests even at longer distance and for testing also delivers far less energy dissipated, thereby helping testing for more safe process for supporting example while preparing by testing round the clock like example higher safety standards environment requiring even strict environment standards.
