UAV Battery
SUJOR is committed to delivering high-performance, cost-effective UAV battery solutions.
Product Introduction:
SUJOR 22.8V 4500mAh Lipo battery pack with XT90S plug is designed with special formulation. It has high quality and reliable power. It is specially engineered for FPV racing and light show quadcopters. The battery is embedded with intelligent battery management system which has good cell balancing, over charge and over discharge function.
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Basic Specification
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Item |
Rating |
Remark |
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Model |
SUJOR-22.8V 6s1p 4500mAh 60C |
37*44*141mm(H*W*L) |
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Nominal capacity |
4500mAh |
Standard discharge(1C5A) after Standard charge |
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Nominal voltage |
22.8V |
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Cut-off charge voltage |
26.1V |
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Cut-off discharge voltage |
18.0V |
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Configuration |
6s1p |
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Weight |
Approx: 497g |
|
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Anode material |
LiCoO2 |
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Standard charge |
0.2C CC(constant current) charge to 26.1V,then CV(constant voltage 26.1V)till current decline to ≤0.01C |
Charge Time : Approx 7.0h |
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Max. constant charging current |
4500mA(1C) |
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Standard discharge |
Discharge at 1C5A to 18.0V |
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Max. continuous discharging current |
270A(60.0C) |
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Operating temperature |
Charge 0~+45ºC |
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Discharge -20~+60ºC |
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Storage temperature |
-10~+55ºC≤1 month |
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-10~+45ºC≤3months |
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-10~+25ºC≤12months |
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Storage humidity |
45-75%RH |
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Charge Connector |
White JST-XH 7P |
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Discharge Connector |
Yellow Amass XT90S |
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Key Features
Explosion-Proof Spark Prevention
Large capacity, suitable for long-range flights with stable performance
Stable Automatic Stacking Technology
High discharge rate and excellent compatibility
High energy density, tailored for various types of drones
Top-quality and safe SUJOR Series batteries pass rigorous testing
7*24-hour after-sales service
Main Application
Agriculture spraying drone
Land surveying drones
Police drones
eVTOL
Delivery drone
Inspection drone
Photography drones
Construction drone
Mining drones
Fire-fighting drone
Fixed wing UAV
Small Agricultural Drones
Light Multirotor Platforms
RC Toy Drones
Hybrid Spraying and Aerial Photography Drones
Teaching/training drones
Certification
Our factory has been approved by ISO9001&ISO14001. And most of our products have passed CB, IEC62133, CE, RoHS, REACH, UN38.3, etc.
FAQ
Q:
How to choose a battery for your drone?
A:
Selecting the right battery for your drone involves considering multiple factors to ensure optimal performance and compatibility. Here is a guide to choosing the appropriate battery:
Voltage (V):
Refer to your drone’s specifications to determine the required voltage. Most drones are powered by 3.7V (1S), 7.4V (2S), 11.1V (3S), 14.8V (4S), or 22.2V (6S) batteries.
Capacity (mAh):
The battery’s capacity determines how long your drone can fly. Higher capacity batteries generally offer longer flight times but also add weight. It’s important to find the right balance between flight time and weight to meet your needs.
Discharge Rate (C-rating):
The discharge rate indicates the amount of current the battery can deliver. A higher C-rating is suitable for drones that require high power output, such as racing drones or those equipped with powerful motors.
Q:
How long would a drone battery last?
A:
The lifespan of a drone battery can vary depending on several factors, including maintenance, frequency of use, as well as charging and storage practices. Generally speaking, a well-maintained drone battery can be recharged for 100 to 300 cycles. With proper care, some batteries may even last longer. Following the manufacturer’s guidelines for charging, storing, and using the battery is key to extending its service life.
Q:
How to extend drone battery’s lifespan?
A:
To extend the service life of your drone battery, please follow these recommendations:
Avoid overcharging: Remove the battery from the charger immediately once it is fully charged to prevent overcharging, which can damage the battery.
Avoid deep discharging: Try not to fully deplete the battery before recharging. It is recommended to recharge when the remaining capacity is between about 20% and 30%.
Store at the correct voltage: Keep the storage voltage at approximately 3.7 volts per cell, which is the optimal storage voltage for most lithium polymer (LiPo) batteries. This helps prevent capacity degradation over time.
Store in a cool, dry place: Keep batteries in a cool and dry environment, away from direct sunlight and extreme temperatures. High temperatures can accelerate battery aging.
Use the correct charger: Use a charger specifically designed for your particular drone battery to ensure safe and efficient charging.
Balance charge regularly: If your battery is a lithium battery, perform balance charging periodically to ensure all cells charge evenly. This helps extend the battery's lifespan.
Inspect regularly: Regularly check the battery for any signs of damage or swelling. If you notice any issues, stop using the battery immediately and dispose of it properly.
Avoid over-discharging during storage: If you plan to store the battery for an extended period, be sure to check its voltage regularly. If the voltage drops below the recommended storage level, recharge it.
Q:
What is the longest run time for the battery on a drone?
A:
The maximum battery runtime on a drone can vary depending on the drone's size, weight, and battery capacity. Generally, consumer drones offer flight times ranging from about 10 to 30 minutes on a single battery charge. However, some professional drones, such as those used for industrial or military purposes, can achieve much longer flight times—from 1 hour to several hours. These drones typically use larger batteries or alternative power sources to enable extended flight durations.
Q:
Why does a drone battery sometimes drain very quickly?
A:
A drone may deplete its battery quickly due to the following factors:
● High Power Consumption: Drones require significant power to stay airborne, especially when carrying heavy payloads or flying in windy conditions. This high power demand leads to faster battery drain.
● Small Battery Size: Consumer drones are typically designed to be lightweight and portable, which often means their batteries are smaller with limited capacity. This smaller battery size contributes to shorter flight times.
● Flight Conditions: Flying in windy conditions or at high speeds increases the drone's power consumption, accelerating battery depletion.
● Hovering: Maintaining a stationary hover requires the drone to use constant power to stay aloft, which can drain the battery more rapidly than flying in a straight line.
● Battery Aging or Degradation: Over time, drone batteries can degrade and lose capacity, resulting in shorter flight durations.
SUJOR aims to provide customers tailored lithium ion battery packs. We could not only provide customers with customized services for individual components such as battery cell, BMS and battery structure, but also offer optimal battery integrated solutions (cell+BMS+structure) based on customer’s detailed requirement.
