Smart Drone Battery
Integrated BMS chip and communication module for real-time monitoring of battery level, temperature, and other data. Managed via an app for charge and discharge control, supports 5C fast charging, with a cycle life of over 650 cycles. High-strength casing with multiple layers of protection, plug-and-play design.
Applications include: agricultural spraying drones, large transport aircraft, inspection drones, logistics delivery drones, and more.
Highlights:
- Smart BMS system
- Interconnected communication protocols
- Real-time monitoring
- Multiple safety protections
- 5C fast charging and long lifespan
- Plug-and-play design
Maximum charging: 3-5C
Maximum discharge: 25C
Cycle times: โฅ 650
Weight: 6.99kg
Maximum charging: 3-5C
Maximum discharge: 25C
Cycle times: โฅ 650
Weight: 7.3kg
Maximum charging: 3-5C
Maximum discharge: 25C
Cycle times: โฅ 650
Weight: 6.85kg
Maximum charging: 3-5C
Maximum discharge: 25C
Cycle times: โฅ 650
Weight: 5.8kg
Maximum charging: 3-5C
Maximum discharge: 25C
Cycle times: โฅ 650
Weight: 4.08kg
Maximum charging: 3-5C
Maximum discharge: 25C
Cycle times: โฅ 650
Weight: 6.1kg
Maximum charging: 3-5C
Maximum discharge: 25C
Cycle times: โฅ 650
Weight: 4.48kg
Applications
Real-time battery monitoring and route optimization ensure accurate and timely deliveries.
Smart charge/discharge management precisely adapts to the spraying needs of different crops.
Extreme-environment adaptive systems ensure reliable operation in sub-zero scientific research missions.
High-temperature protection mechanisms automatically adjust power output during fire zone missions.
Intelligent battery management aligns precisely with mapping flight paths, ensuring complete data collection.
Low-temperature self-heating and fault warning systems enable stable operation in harsh winter conditions.
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,
youโll 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.
FOR ONLINE CLIENTS
Low MOQ
Flexible MOQ with mixed product options.
Custom Logo
Personalized logo customization for small batches.
One-Stop Marketing Package
Provide quality images, videos to enhance sales revenue.
FOR BRAND CLIENTS
Exclusive Regional Rights
Provide all of herewin's resources and capabilities
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 Drone Battery
Open packaging and sort materials.
Full inspection of grouped cells for defects: leakage, scratches, dents, punctures, swelling, improper foam alignment (exposed tabs or missing bottom foam).
Measure cell voltage and internal resistance; screen and rebalance cells with excessive deviations.
Trim electrode tabs to specification using a tab-cutting machine.
Weld tabs with an ultrasonic welder and trim to ensure flush alignment.
Trim tabs flush with weld points and press flat onto foam padding.
Solder wires using an electric iron.
Place kraft paper for insulation and cover with high-temperature adhesive tape.
Install battery module into casing per assembly specs and connect wiring.
Connect module to charger, switch to standard voltage mode, activate slow charge, and initiate charging.
Apply sealant to screw holes, install groove-down silicone plugs, and reinforce sealing at designated points.
Verify communication, output voltage, temperature sensing, discharge curves, and leakage.
Inspect for scratches, adhesive residue, stripped screws, and ensure labels are legible/undamaged.
Label units, place in foam-lined boxes, seal in PE bags with desiccant, and secure with top foam padding.
Box approved units and dispatch.
LEARN MORE DETAIL
Learn more about production details and manufacturing process
Testing Process
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FAQs
Charge the battery to around 50% before storage. Keep it in a cool, dry, and well-ventilated area away from direct sunlight or heat. Recharge every 1โ2 months to prevent deep discharge that can damage the battery.
Low temperatures reduce battery activity, causing shorter flight times or insufficient takeoff power. Preheat the battery in a warm environment before use, and minimize hovering during cold-weather flights.
Mild warmth is normal, but if the battery becomes very hot, emits odor, or shows signs of swelling, stop charging immediately. Check for a compatible charger and battery health to avoid safety risks.
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