Product Overview
Configuration: 6S1P (6 cells in series, 1 parallel)
Voltage: 7.2V (nominal), 8.4V (fully charged)
Capacity: 2200mAh (milliampere-hour), equivalent to 15.84Wh (watt-hour) of energy.
Chemistry: Nickel-metal hydride (NiMH), known for its rechargeability and moderate energy density.
Application: Designed specifically for robotic vacuum cleaners, providing reliable power for autonomous cleaning tasks.
Specification
|
Chargeable |
Yes |
Application |
Home Appliances |
|
Weight |
200g |
Cycle Life |
500 Times |
|
Storage Type |
Indoor Storage |
The Charging Ratio |
0.2C |
|
The Discharge Rate |
1C |
Electric Energy |
15.84 Wh |
|
Brand |
BAKTH |
Product Type |
Ni-Mh Battery |
|
Model |
BV380 |
Nominal Voltage |
7.2V |
|
Nominal Capacity |
2200mAh |
Maximum Charge / Discharge Current |
0.2C/1C |
|
Cycle Life |
500 Times |
Approx Dimension |
29 X 42 X 50 Mm |
|
Approx Weight |
200g |
Certificate |
CE FCC |
Key Features & Advantages
Energy Efficiency: Delivers 7.2V and 2200mAh capacity, offering sufficient runtime for robotic vacuums to complete cleaning cycles without frequent recharging. The NiMH chemistry ensures consistent performance during discharge.
Durability: Features a robust casing with heat-resistant properties, enhancing longevity in high-demand environments like robotic appliances.
Safety Integration: Includes protection against overcharge and over-discharge, critical for preventing battery degradation and ensuring user safety in autonomous devices.
Standardized Design: Equipped with a red/black wire connector for seamless integration into robotic vacuum systems, eliminating the need for adapters.
Performance in Robotic Vacuum Cleaners
Operational Reliability: The 7.2V output aligns with the power requirements of robotic vacuums, supporting efficient motor operation and navigation systems. The NiMH cells provide stable voltage delivery during use.
Cycle Life: NiMH batteries typically offer hundreds of recharge cycles, reducing replacement frequency and lowering long-term costs for consumers.
Compatibility: Tailored for common robotic vacuum models, ensuring plug-and-play functionality and easy upgrades.
Market Positioning
Competitive Edge: Balances cost-effectiveness with dependable performance, appealing to both OEM manufacturers and end-users seeking affordable yet reliable power solutions.
Versatility: Beyond vacuums, the battery’s design supports applications in portable electronics and emergency devices, though its primary focus remains on robotic cleaning systems.
Conclusion
This NiMH battery pack exemplifies a practical power solution for robotic vacuum cleaners, combining durability, safety, and ease of integration. Its adoption enhances device autonomy and user convenience, positioning it as a viable choice in smart home ecosystems despite inherent chemistry constraints.