Inquiry:
rudy@winack.com
0086-592-7297239
Product description:
This battery pack cycler is a professional regenerative battery pack test system. The entire system has bi-directional energy flow and can automatically adjust the direction of energy flow. In other words, when charging, the power is transferred from the AC power grid to the battery pack, and when discharging, the power is fed back from the battery pack to the AC power grid.
The application of regenerative technology results in a significant reduction in the energy consumption of the battery pack cycler, which directly saves a significant amount of electricity costs. On the other hand, the heat output of the battery pack cycler has been significantly reduced, which can also save a lot of environmental cooling costs.
Features:
1. Regenerative technology of discharge energy
With regenerative technology, the energy discharged from the battery pack is not simply dissipated thermally. Now, the discharged energy can be feedback to the AC grid for regeneration. It can reduce heat output and save environmental cooling costs; it can also save electricity consumption and save electricity costs.
2. Independent control and operation of each channel
Each channel of the regenerative battery pack test system is independently controlled and operated, which can be tested on different test channels with different test protocols at the same time, improving test efficiency and also facilitating comparative analysis.
3. Adjacent channels can be used in parallel
The battery pack cycler's adjacent channels can be used in parallel, allowing for significantly higher current ranges and a wider test range of applications, which significantly saves investment costs in battery testing equipment.
4. High test precision and stability
The accuracy of voltage is ±0.05%FS with a resolution of 1mV; the accuracy of current is ±0.05%FS with a resolution of 1mA.
5. Rich operating modes
The battery pack cycler has a wide range of operating modes and end conditions to meet a variety of testing requirements.
6. Quick response time
The response speed of regenerative battery pack test system is fast, ≤10ms, which can meet the simulation test of each complex working condition.
7. Powerful safety protection function
Battery pack cycler has powerful safety protection function, with hardware protection function, software protection function and AC grid side protection function, strongly guarantee the safety of battery test operators, battery test equipment and battery packs.
Scope of application:
The regenerative battery pack test system is suitable for battery pack performance testing in battery test labs and battery pack manufacturing plants, providing reliable and powerful support for battery research and development, battery production and battery applications.
Technical specifications
Product name | Regenerative Battery Pack Test System | ||
Product model | WA-BTS-N100V200A | ||
Number of test channels | 2 CH/SET | ||
Channel control mode | 1) Independent control of each channel 2) Four-wire acquisition of current and voltage | ||
Channel features | 1) The discharged energy is fed back to the power grid 2) Adjacent channels can be connected in parallel | ||
AC input power | 380VAC±10% / 50Hz, Three-phase, five-wire system (Customizable) | ||
Voltage | Range | Charge | 0V~100V |
Discharge | 5V~100V | ||
Accuracy (15℃~35℃) | ±0.05%FS | ||
Resolution | 1mV | ||
Current | Range | -300A~300A | |
Min. current | 100mA | ||
Accuracy (15℃~35℃) | ± 0.05%FS | ||
Resolution | 1mA | ||
Power | Output power/CH | 20kW | |
Stability | 0.5%FS | ||
Time | Range | ≤100*24hours/Step | |
Resolution | 10ms | ||
Accuracy | 1s/H | ||
Data record | Min. recording time | 10ms | |
Recording method | Time interval: 0.01~ 9999S | ||
Current interval: 0.05%FS~100%FS | |||
Voltage interval: 0.05%FS~100%FS | |||
Capacity interval: 1mAh~10Ah | |||
Operating mode | Constant Current Charge | End Condition: Voltage, Relative Time, Capacity, Temperature, Energy, Power, SOC, etc. | |
Constant Voltage Charge | End Condition: Current, Relative Time, Capacity, Temperature, Energy, SOC. | ||
Constant Power Charge | End Condition: Voltage, Current, Relative Time, Capacity, Temperature, Energy, Power, SOC, etc. | ||
Constant Resistance Charge | End Condition: Voltage, Current, Relative Time, Capacity, Temperature, Energy, Power, SOC, etc. | ||
Ramp Current Charge | End Condition: Ramp End Value, Relative Time | ||
Ramp Power Charge | End Condition: Ramp End Value, Relative Time | ||
Constant Current Converting to Constant Voltage Charge | End Condition: Current, Relative Time, Capacity, Temperature, Energy, SOC. | ||
Rate Charge | End Condition: Voltage, Relative Time, Capacity, Temperature, Energy, Power, SOC, etc. | ||
Rest | End Condition: Voltage, Relative Time | ||
Constant Current Discharge | End Condition: Voltage, Relative Time, Capacity, Temperature, Energy, Power, SOC, etc. | ||
Constant Voltage Discharge | End Condition: Current, Relative Time, Capacity, Temperature, Energy, SOC. | ||
Constant Power Discharge | End Condition: Voltage, Current, Relative Time, Capacity, Temperature, Energy, Power, SOC, etc. | ||
Constant Resistance Discharge | End Condition: Voltage, Current, Relative Time, Capacity, Temperature, Energy, Power, SOC, etc. | ||
Ramp Current Discharge | End Condition: Ramp End Value, Relative Time | ||
Ramp Power Discharge | End Condition: Ramp End Value, Relative Time | ||
Pulse Current | End Condition: Voltage, Current, Relative Time, Capacity, Temperature | ||
Pulse Power | End Condition: Voltage, Current, Relative Time, Capacity, Temperature | ||
Constant Current and Constant Voltage Discharge | End Condition: Current, Relative Time, Capacity, Temperature, Energy, SOC. | ||
Rate Discharge | End Condition: Voltage, Relative Time, Capacity, Temperature, Energy, Power, SOC, etc. | ||
Working Condition Simulation | 1) Support the import of working condition files 2) A total of 3 sets of working conditions are supported | ||
Data Display | Loop List | Cycle number, Charge/discharge capacity, Charge/discharge efficiency, Charge/discharge energy, Constant current charge percentage, etc. | |
Process List | Process number, Internal resistance, Capacity, Energy, Median voltage, End voltage, Average voltage, etc. | ||
Detailed List | Record number, Relative Time, Voltage, Current, Capacity, Energy, Power, SOC, Cell temperature 1-Cell temperature n, etc. | ||
Curve | X coordinate: Total time, Capacity, Energy, Power, Number of cycles, etc. | ||
Y coordinate: Total voltage, Current, Capacity, Energy, SOC, Cell temperature 1-Cell temperature n, etc. | |||
Programming Control | Cycles | ≤100000 | |
Max Steps / Cycle | 255 | ||
Nested Loop | Nested loop Function,Max Support 5 Layers | ||
Features | One or more jump conditions can be set for each step. | ||
Protection | Device Protection | Over voltage protection, Under voltage protection, Short circuit protection, Anti-reverse connection protection, Over current protection, Over temperature protection. | |
Software Protection | Power-down Data Protection | ||
Off-line Testing Function | |||
Support recovery boot. | |||
Over voltage protection, Under voltage protection, Capacity protection, Over current protection, Under current protection, Temperature protection | |||
Anti-reverse connection protection function, Communication abnormality protection, Auxiliary device communication protection | |||
AC Power Grid Side Protection | Under voltage, Over voltage, Over current, Short circuit protection | ||
Battery external temperature measurement | Range: -20℃~130℃ | ||
Accuracy: ±2℃ | |||
Number of detections: 3 Loops/CH | |||
Alarm Function | Emergency cut-off switch, Alarm red light flashes, Buzzer sounds. | ||
Data Output | Excel, CSV, TXT, BMP | ||
Operating Environment | Temperature: 5℃~35℃ | ||
Relative humidity: 10%~90%RH (Non-condensing) | |||
Storage Temperature | 0℃~40℃ | ||
Cooling Method | Air cooling | ||
Noise | ≤75dB | ||
Efficiency | Charge: ≥86% (Fully loaded) | ||
Discharge: ≥78% (Fully loaded) | |||
Power Factor | ≥0.99 | ||
THD | ≤5% | ||
Input Power | 32KW | ||
Protection Class | IP20 | ||
Dimensions | W850*D850*H1910mm | ||
Net Weight | 480kg | ||
Protocol | TCP/IP | ||
Contact: Rudy Yan
Phone: 0086- 188 0506 7911
Tel: 0086-592-7297239
Email: rudy@winack.com
Add: WinAck Group, Xiangbei Industrial Zone, Xiamen City, China
Rudy Yan
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