The LiPolymer 3.7V 3000mAh 6050100 battery is a compact lithium-polymer cell with a slim 6.0mm thickness, 50mm width, and 100mm length. Designed for portable electronics like drones and medical devices, it offers high energy density, lightweight construction, and stable discharge. Its 3.7V nominal voltage and 3000mAh capacity balance power and runtime for small-scale applications.
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How Do the Technical Specifications Impact Performance?
The 6050100 model’s 3.7V voltage ensures compatibility with most consumer electronics, while the 3000mAh capacity provides up to 3 hours of continuous use in medium-load devices. Its 6.0×50×100mm size allows integration into space-constrained designs. The lithium-polymer chemistry supports a 1C continuous discharge rate (3A) and operates between -20°C to 60°C, making it versatile for indoor/outdoor applications.
Advanced thermal management is critical for maintaining these specifications. The battery’s layered electrode design reduces internal resistance by 15% compared to standard models, minimizing heat generation during high-current draws. Engineers often pair it with graphene heat sinks in drones to sustain peak performance during rapid ascents. The low self-discharge rate also makes it ideal for emergency backup systems requiring immediate activation after months of storage.
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Which Devices Commonly Use This Battery?
This battery powers drones, portable medical monitors, handheld gaming consoles, and IoT sensors. Its slim profile suits wearables like smartwatches, while its 11.1Wh energy output supports compact robotics. Industrial applications include backup power for GPS trackers and wireless security cameras requiring low self-discharge (<3% monthly).
In the automotive sector, this cell is increasingly used in key fobs and tire pressure monitoring systems due to its vibration resistance. Medical device manufacturers favor it for implantable glucose monitors where space constraints are paramount. Recent adoptions include foldable smartphones and AR navigation glasses, where the 6mm thickness enables seamless hinge integration. Field tests show 12% longer runtime in 4K action cameras compared to 18650 cells, despite having 20% less volume.
| Device Category | Usage Pattern | Average Runtime |
|---|---|---|
| Consumer Drones | Mixed flight modes | 22-27 minutes |
| IoT Sensors | 5 transmissions/day | 3.5 years |
| Medical Monitors | Continuous ECG | 9-11 hours |
How Does It Compare to Li-Ion and NiMH Alternatives?
LiPolymer offers 20% higher energy density than Li-Ion (650Wh/L vs. 540Wh/L) and 3x NiMH’s capacity. Unlike cylindrical Li-Ion cells, its pouch design enables custom shapes but requires rigid casing. LiPolymer maintains stable voltage longer than NiMH, which suffers from voltage sag. However, it’s less tolerant to overcharging than NiMH, requiring stricter BMS protocols.
Cost analysis reveals LiPolymer packs are 18% more expensive per Wh than Li-Ion but offer 40% weight savings – a critical factor in aerial applications. NiMH remains preferable for low-cost toys, but suffers from memory effect. In cold environments (-10°C), LiPolymer retains 89% capacity versus Li-Ion’s 72%, though both underperform NiMH’s 94% retention. Designers must weigh cycle life against form factor needs when selecting chemistry.
“The 6050100 format represents the sweet spot for modern portable tech,” says Dr. Elena Torres, battery systems engineer at VoltCore Solutions. “Its energy-to-footprint ratio enables previously impossible form factors—think foldable AR glasses or subdermal medical sensors. However, designers must account for pouch swelling; we recommend 10% void space in enclosures for lifespan optimization.”
FAQs
- How many charge cycles can I expect?
- 300–500 cycles to 80% capacity when discharged to 3.5V. Avoid deep discharges below 3V to maximize lifespan.
- Can I solder tabs directly?
- No—use spot welding. Soldering heat damages internal layers. For prototypes, pre-tabbed versions with nickel strips are available.
- Is it safe for air travel?
- Yes, if under 100Wh (this cell is 11.1Wh). Follow IATA rules: protect terminals, carry-on only, and declare quantities exceeding 20 cells.
The LiPolymer 3.7V 3000mAh 6050100 battery exemplifies the evolution of compact energy storage. By balancing capacity, discharge stability, and adaptability, it addresses growing demands across consumer and industrial sectors. Proper handling ensures safety and longevity, while emerging recycling methods mitigate environmental impact. As devices shrink, this battery’s role in enabling portable innovation remains critical.