Semi-solid State Cell
A next-generation battery technology using a semi-solid electrolyte system, combining the high ionic conductivity of liquid batteries with the safety of solid-state batteries. The energy density is increased by over 30%, with excellent thermal stability, making it a key development direction for next-generation power batteries.
Model: 3.7V 26Ah Ternary
Maximum Continuous Discharge: 5C
Maximum Continuous Charge: 1C
Cycle Life: ≥800 times
Cell Weight: ~310g
Model: 3.8V 40Ah Cobalt+Ternary
Maximum Continuous Discharge: 20C
Maximum Continuous Charge: 5C
Cycle Life: ≥1000 times
Cell Weight: ~765g
Model: 3.8V 30Ah Cobalt+Ternary
Maximum Continuous Discharge: 20C
Maximum Continuous Charge: 5C
Cycle Life: ≥1000 times
Cell Weight: ~545g
Model: 3.8V 22Ah Cobalt+Ternary
Maximum Continuous Discharge: 20C
Maximum Continuous Charge: 4C
Cycle Life: ≥600 times
Cell Weight: ~395g
Model: 3.8V 20Ah Cobalt+Ternary
Maximum Continuous Discharge: 20C
Maximum Continuous Charge: 4C
Cycle Life: ≥600 times
Cell Weight: ~380g
Applications
Delivers stable power supply for extended operations in large-scale crop spraying missions.
Provides high-power bursts and low-heat endurance during vertical takeoff and landing with 50kg payloads.
High-energy-density, lightweight, and safe battery system enables long-range travel, space-saving design, and reliable all-weather electricity use.
Fast-charging battery technology helps overcome range limitations and supports high-performance riding.
All-weather, high-reliability energy solution designed for use in extreme environments and critical missions.
Aviation-grade power batteries engineered to meet the demanding requirements of vertical takeoff and landing.
FREE DESIGN
Customized exclusive battery plans! Professional engineers plan battery programs one-on-one.
Maximize Drone Effect with Our Tailored Battery Solutions
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.
Gain a comprehensive insight into who we are and what we stand for. By exploring the meticulous precision of our
production lines, the efficient management of our factories, and the genuine feedback from our satisfied customers,
you’ll see how we ensure excellence at every step of the process
Different Services For Clients With Different Patterns
FOR OFFLINE CLIENTS
Flexible Delivery Time
Reliable delivery schedules and warehousing support.
High Cost-Effectiveness
Competitive pricing to maximize overall value.
Wide Product Selection
Diverse options to cater to all market segments.
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Low MOQ
Flexible MOQ with mixed product options.
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R&D Resources
Custom sample within 7 days with R&D capabilities.
Fast Delivery
Efficient production and ship within 25 days at the fastest.
Production Flow of Battery Cells
Blends active materials, binders, and solvents into a uniform slurry to ensure consistent electrochemical performance.
Spreads the slurry onto metal foils (anode/cathode) with precise thickness control for optimal energy density.
Removes solvents from coated electrodes to stabilize material adhesion and prevent cracking.
Combines anode/cathode layers with separators and winds them into a compact jellyroll structure.
Compresses electrodes to enhance density and conductivity while maintaining porosity for ion flow.
Trims electrodes into precise dimensions to fit battery cell specifications.
Aligns anode/separator/cathode layers in a Z-fold pattern to maximize space efficiency.
Joins electrode tabs using laser welding to minimize resistance and ensure current stability.
Seals cells in aluminum-plastic film to protect against moisture, dust, and mechanical stress.
Removes residual moisture from cells under vacuum to prevent electrolyte degradation.
Fills electrolyte into cells to enable ion transport between electrodes.
Activates cells with initial charging to form a stable solid-electrolyte interface (SEI).
Evacuates gas from cells to eliminate air pockets and ensure full electrolyte penetration.
Cycles cells to stabilize performance and screen out defects before final assembly.
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.
LEARN MORE DETAIL
Learn more about production details and manufacturing process
Testing Process
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FAQs
A short circuit causes a surge of current, which may result in overheating, fire, or explosion. Avoid metal contact with both terminals and protect the cell’s interfaces.
Choose reputable brands with safety certifications (e.g. overcharge/overdischarge protection). Select the right type for your device (e.g. LFP for e-bikes). Avoid cheap, low-quality products.
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