Multi-Scenario UAV Battery Applications
Meeting Requirements for Structural Strength, Weight and Reliability Across Operating Conditions.
RC Helicopter Battery · Real High C-Rate · Lightweight Design · Stable Output, Unlocking Extreme Maneuverability
250Wh/kg+ · Stable Discharge · High-Temperature Protection, Ensuring Continuous High-Load Operations
High Capacity Lithium Ion Battery · Stable Output · Long Endurance, Supporting High-Load Cargo Operations
Drone Lithium Ion Battery · Stable Output · Corrosion Resistance · High Durability, Built for High-Frequency Cleaning Operations
Lightweight Design · Stable Voltage · Smoother Footage, Providing Reliable Power for Aerial Imaging and Mapping
✓ Tailored lithium ion drone battery solutions designed for diverse mission requirements and application scenarios;
✓ Flexible customization of voltage, capacity, C-rate, dimensions and structural design;
✓ Fast integration with your UAV platform to accelerate project deployment;
Common Challenges
in UAV Flight
Higher Requirements for High Performance Battery Performance and Reliability Across Applications.
Limited Endurance
Insufficient energy density or low battery efficiency restricts flight time, making it difficult to support long-endurance or continuous operations and reducing overall operational efficiency.
Weight Constraints
Battery weight directly impacts payload capacity and flight performance. In pursuing longer endurance, maneuverability and stability are often compromised.
Voltage Fluctuations
During takeoff, acceleration, or payload changes, lihv battery voltage instability and unstable power output can directly affect flight safety and control performance.
Limited Reliability
High-temperature, humid, dusty or turbulent environments place higher demands on battery heat resistance, protection and structural reliability.
Limited Consistency &Lifespan
Insufficient li ion battery cell consistency or limited cycle life leads to performance degradation, frequent replacements, and increased maintenance costs and downtime risks.
One-Stop Battery for UAV Solutions
More Than Batteries, Providing End-to-End Power Support for UAV Applications
Performance & Power Output
- Stable Voltage Platform Design
- Low Internal Resistance Matching with Linear Power Output
- High C-Rate and Instantaneous Output Capability
(Covering 10C–150C discharge performance, with high C-rate range from 60C to 150C)
Specifications & Platform Coverage
- Voltage Options(2S–6S& 7S / 8S / 12S)
- Capacity Range(Customizable from 4,000 mAh to 22,000 mAh and above)
- Common Connector Options(XT / EC / AS150U)
- Discharge Cable Specifications(12AWG / 14AWG / 16AWG)
Manufacturing Process & Consistency
- Capacity Grading & Matching (Batch Consistency Assurance)
- Advanced Manufacturing Process (Stacked Cell Technology + Low Internal Resistance)
- End-to-End Manufacturing (Factory-Level Control from Materials to Finished Products)
Lightweight & Power Optimization
- High-performance cell selection
- High energy-density materials / stacked cell technology (non-wound design)
- High C-rate output capability
Minimizes the need to stack multiple batteries to achieve required power
Customization & Project Support
- Electrical & Interface Options (Cable Length/Gauge/Connector/Interface)
- Performance & Mechanical Customization (Voltage Platform/Capacity/C-Rate/Dimensions/Structural Design)
- Branding & Delivery (OEM/ODM Collaboration Models & Custom Labeling, Packaging Options)
Related Products
UAV Battery
UAV Battery
FAQs
Q1:How can I choose the right battery for my UAV platform?
Advanced cell design and strict process control enable the best li ion battery to deliver consistent power output, reduced heat generation, and stable performance during long or high-load UAV operations.
Q2:What customization options are available for UAV battery systems?
Customization covers voltage platform, capacity, discharge rate, dimensions, structural design, cable length, wire gauge, and connector types, tailored to specific UAV platforms.
Q3:How do the batteries perform under high load and continuous operation?
Advanced cell design and strict process control enable consistent power output, reduced heat generation, and stable performance during long or high-load UAV operations.
Q4:What types of batteries dominate the UAV battery market?
Lithium-based batteries, especially Li-ion and LiPo, dominate the uav battery market due to their high energy density and lightweight design.
Q5:Do these batteries support long-endurance flights, and how long do li ion batteries last in UAV applications?
Yes, they are optimized for extended flight time, delivering reliable endurance under continuous operation.
