High Discharge Rate Battery
Designed for high power demands, supporting ultra-high discharge rates from 10C to 50C. Delivers strong instant power output, perfectly suited for applications requiring burst power, such as power tools and RC models. Stable and reliable performance.
Model: 3.7V 45Ah Ternary
Maximum Continuous Discharge: 5C
Maximum Continuous Charge: 1C
Cycle Life: ≥800 times
Cell Weight: ~550g
Model: 3.7V 35Ah Ternary
Maximum Continuous Discharge: 5C
Maximum Continuous Charge: 1C
Cycle Life: ≥800 times
Cell Weight: ~405g
Model: 3.7V 33Ah Ternary
Maximum Continuous Discharge: 5C
Maximum Continuous Charge: 1C
Cycle Life: ≥800 times
Cell Weight: ~395g
Model: 3.7V 26Ah Ternary
Maximum Continuous Discharge: 5C
Maximum Continuous Charge: 1C
Cycle Life: ≥800 times
Cell Weight: ~310g
Maximum charging: 5C
Maximum discharging: 25C
Cycle count: ≥1000
Weight: 7.93kg
Maximum charging: 4C
Maximum discharging: 25C
Cycle count: ≥650
Weight: 5.62kg
Applications
High-rate discharge batteries support continuous operation of high-power spraying systems for crop protection.
Delivers instant high-current output to power emergency aerial fire suppression equipment.
Ensures stable high-rate discharge for precise, high-load industrial operations and automation tasks.
Ultra-high discharge performance enables explosive acceleration and peak competitive performance.
Ultra-high energy density supports heavy-load missions exceeding 100kg.
Millisecond-level response for instant power delivery, meeting the dynamic demands of grid frequency balancing.
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Explore Herewin Factory: The Source of Quality
Founded in 2019, Shenzhen Jarwin Time Technology Co., Ltd. is backed by a founding and operational team with over 20 years of extensive experience in the battery industry. It specializes in developing and producing high-performance lithium-ion polymer batteries.
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Production Flow of Semi-solid State Battery
Active materials, conductive agents, and binders are uniformly dispersed in solvent to form electrode slurry.
Homogenized slurry is coated onto aluminum foil and dried to form electrode sheets.
Coated electrodes are compressed to specified thickness under controlled pressure.
Post-calendering electrodes undergo vacuum drying to remove residual moisture.
Electrode sheets are precision-cut to required dimensions.
Anodes, cathodes, and separators are stacked in “Z” configuration to form cell cores.
Multi-layer electrode tabs are aligned, ultrasonic-welded, and insulated with adhesive tape.
Cell cores are housed in pre-formed aluminum laminate pouches with top/seal side sealing.
Final moisture removal from assembled cells prior to electrolyte filling.
Precise injection of electrolyte solution into dry cells.
Initial closure of electrolyte injection port.
Electrochemical activation to establish Solid Electrolyte Interphase (SEI) layer on anode.
Gas pocket removal and hermetic terminal sealing.
Charge-discharge cycling for capacity measurement and performance binning.
Validates capacity, impedance, and safety (e.g., overcharge, short-circuit) under strict protocols.
Integrates cells into modules or packs with BMS, wiring, and thermal management systems.
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Testing Process
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FAQs
The cycle life of semi-solid-state batteries is generally better than that of standard liquid batteries. They degrade more slowly over time, maintaining usable capacity for longer periods.
With less liquid content, the risks of leakage, thermal runaway, or combustion are significantly reduced, especially under high temperature or puncture conditions.
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