63Ah 3.6V Solid State Battery Cell Long Life Solid Polymer Battery Used In Electric Vehicle
3.6V 63Ah Polymer Solid Battery with 360Wh/kg energy density, 1000-cycle life, and enhanced safety using solid electrolyte technology. Customizable dimensions for EVs and industrial applications.
63Ah Solid State Battery Cell
,3.6V Solid State Battery Cell
,Long Life Solid Polymer Battery
The 3.6V 63Ah Polymer Solid Battery is a high-capacity advanced energy storage solution designed with polymer-based solid electrolyte technology. It delivers excellent energy density, enhanced safety, and long-lasting performance, making it suitable for demanding industrial and high-performance applications.
This battery provides stable and reliable power output while maintaining a compact and lightweight structure. The polymer solid-state design improves thermal stability and significantly reduces safety risks such as leakage, swelling, and thermal runaway compared to traditional lithium-ion batteries.
Engineered for efficiency and durability, the Polymer Solid Battery is ideal for applications requiring high energy storage, long cycle life, and dependable performance under various environmental conditions.
| Battery Materials | NCM |
|---|---|
| Nominal Voltage | 3.6V |
| Nominal Capacity | 63Ah |
| Nominal Energy | 226.8Wh |
| Energy Density | 360Wh/kg |
| Dimension | Customizable |
| Cycle Life | RT 1000@80% |
- Advanced polymer solid-state electrolyte technology
- High energy density for extended runtime
- Enhanced safety with reduced risk of leakage and thermal runaway
- Long cycle life with stable performance retention
- Low self-discharge rate for long-term storage efficiency
- Wide operating temperature adaptability
- Lightweight and compact structure
- Strong thermal and chemical stability
- Suitable for high-load continuous discharge application
- Electric mobility systems
- Energy storage systems (ESS)
- Industrial equipment
- Robotics and automation systems
- Unmanned aerial vehicles (UAVs)
- Medical devices
- Smart infrastructure devices
- High-performance portable power systems
- Higher energy density enables more energy storage in the same space
- Provides longer runtime for devices, vehicles, and energy systems
- Solid electrolytes reduce the risk of leakage, fire, and thermal runaway
- Improved thermal stability ensures safer operation in demanding environments
- Higher energy density allows for smaller and lighter battery designs
- Ideal for portable electronics, drones, and electric mobility applications
- Better thermal and chemical stability than conventional batteries
- Maintains reliable performance across a wide range of temperatures
- Advanced battery technology enables faster charging capabilities
- Minimizes downtime and improves user convenience
- Extended service life and improved efficiency reduce total cost of ownership
- Fewer replacements and less maintenance lead to long-term savings
- Do not disassemble, puncture, crush, bend, or modify the battery
- Do not expose the battery to fire, excessive heat, or direct sunlight
- Never short-circuit the battery terminals with metal objects
- Keep the battery away from water, moisture, and corrosive substances
- Do not use the battery if it is damaged, swollen, leaking, or emits an unusual odor
- Keep the battery out of reach of children and unauthorized personnel
- Follow the manufacturer's installation instructions carefully
- Ensure correct polarity when connecting the battery
- Avoid excessive vibration, impact, or mechanical stress during operation
- Do not connect the battery directly to incompatible devices or power systems
- Use a suitable Battery Management System (BMS) to optimize performance and safety