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Home Application 22.2V 6s 12000mah Lipo Battery Chemistry 25C 6 Cell High Capacity Commercial Drone Battery
22.2V 6s 12000mah Lipo Battery Chemistry 25C 6 Cell High Capacity Commercial Drone Battery

22.2V 6s 12000mah Lipo Battery Chemistry 25C 6 Cell High Capacity Commercial Drone Battery

12000mAh
6S / 6 Cell / 22.2V
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0752-2322511
High Rate Discharge Li-Po Battery

Fullymax focuses on the high rate discharge pouch batteries, including power batteries for electric aviation aircraft (eVTOL), electric power , drones, electronic cigarettes, fast charging batteries,12V/48V Start/Stop batteries and jump starter for car, RC professional remote control models and toy , military and special equipment, etc. FULLYMAX batteries are also widely used in smart home like sweeping robots, vacuum cleaners, small power tools, etc.; 3C consumer electronics like remote control handles, beauty equipment, portable projectors, etc., smart Bluetooth products, medical equipment ,ect

Industry-leading high temperature & high power discharging capability
Outstanding gravimetric Energy density: max 280Wh/kg
Low IR, low temperature rising, low self-discharging
Longer cycle life:1C ≥1000 cycles , 100% DOD
Good consistency, stable performance
LCO(4.2V/4.35V/4.4V/4.45V),LFP and NCM ,Flexible customized solution
Product Details
Place of Origin:
China
Brand Name:
FULLYMAX
Model Number:
FB12000HP-6S
User-defined Attribute
Capacity:
12000mAh
Voltage:
6S / 6 Cell / 22.2V
Discharge Rate:
25C
Max Burst Rate:
50C
Wh:
266.4
Weight:
1561g
Dimensions (mm):
61x72x182mm
Wire Gauge:
AWG10#
Wire Length:
100mm
Balancer Connector Type:
JST-XHR
High Light:

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22.2V 6s 12000mah Lipo Battery Chemistry 25C 6 Cell High Capacity Commercial Drone Battery 0

Fullymax new information technology 22.2V 12000mAh 6cell 25C high capacity batteries

 

 

Fullymax high capacity batteries provide high quality, reliable power for your RC,eVTOL,Quadcopter,Multirotor,Hexacopter,etc.
All Fullymax UAV LiPos are packed with vibration-proof & fire-proof material and packed with battery carton ensuring you get your battery in good condition.

 

1.Voltage from 3.7V to 22.2V
2.Capacity from 100mah to 30000mah
3.Discharge rate: 1C(normal), 3C, 5C, 10C, 15C, 20C, 25C, 30C,35C
4.Cable length and connector design
5.We are looking forward for long trem,cooperation,wholesales,resellers,importers, Agents Worldwide!

 

Related Product

For other configurations (without discharge plug) with same cell model, please refer below table.

Battery pack Model Description Max cont. discharge Burst (3Sec) Dimensions H x W x L  Weight Wh
FB12000HP-1S 3.7V 12000mAh 1cell 25C 50C 9.7x69x167.5mm 246g 44.4
FB12000HP-4S 14.8V 12000mAh 4cell 25C 50C 42.7x72x182mm 1080g 177.6
FB12000HP-6S 22.2V 12000mAh 6cell 25C 50C 61x72x182mm 1561g 266.4

 


Product Feature
 

   •  Stable automatic stacking technology enables single-cell capacities 12000mAh.


   ​• Higher capacity than comparable size lipo packs.


   ​• Perfect match for high-performance models.​

 

 

 

Application

Compatible with Large UAVs, RC,eVTOL,Quadcopter,Multirotor,Hexacopter,etc.

 

 

Manufacturing Capability 

 

 

Capacity&Leadtime

 

   ●  Stacking/per day:50Kpcs

 

   ● Winding/per day:2,00Kpcs

 

  

 

 

● Regular Model:≤8 weeks

 

● Customized:16-18 weeks(The first order, if nonew facility added )

 

22.2V 6s 12000mah Lipo Battery Chemistry 25C 6 Cell High Capacity Commercial Drone Battery 1 22.2V 6s 12000mah Lipo Battery Chemistry 25C 6 Cell High Capacity Commercial Drone Battery 2

 

 

The new plant will be located in the Dongjiang Bay Industrial Park, which will be a national high-end industrial park special for new energy, new information technology and intelligent equipment fields based on the “3+7” industrial park planning and deployment proposed by Huizhou relying on the Greater Bay Area, aiming to integrate Huizhou’s “1+4” industrial parks. The area of the new plant is estimated to be 30,000 square meters. With new high-end equipment and workshop environment, the goal is to build a high-end production line dedicated to high-end customers.

 

 

Quality Management System
Management Improvement according to international standards
22.2V 6s 12000mah Lipo Battery Chemistry 25C 6 Cell High Capacity Commercial Drone Battery 3 22.2V 6s 12000mah Lipo Battery Chemistry 25C 6 Cell High Capacity Commercial Drone Battery 4 22.2V 6s 12000mah Lipo Battery Chemistry 25C 6 Cell High Capacity Commercial Drone Battery 5 22.2V 6s 12000mah Lipo Battery Chemistry 25C 6 Cell High Capacity Commercial Drone Battery 6 22.2V 6s 12000mah Lipo Battery Chemistry 25C 6 Cell High Capacity Commercial Drone Battery 7

ISO9001

Quality Management System

ISO14001

Environmental Management System

Occupational Health And

Safety Management System

Hazardous Substance Process

Management System

Aeroepace Quality Systems

AS9100D:2016

 

 

Safety and environmental Certificates capability&service

  • Simulation tests of safety certificates proceeded
  • Service of certificates application for customers

       22.2V 6s 12000mah Lipo Battery Chemistry 25C 6 Cell High Capacity Commercial Drone Battery 8

 

Performance Test Capability

 

  • Electric Performance Test
  • Safety Performance Test
  • Mechanical Performance Test
  • Environmental Performance Test
  • Storing Performance Test
     

 

 

 

FAQ

Q1. What are the diferences betwee high C-rate and low C-rate lithium?

polymer (Li-Po) batteries.
In general, the diferences lie in the materials made of the positive & negative terminals, the area density design, the electrolyte ingredient, the septum data and the density of inside pieces.

 

Q2. How is a Li-Po battery made?

When a Li-Po battery is made, five main aspects should be considered carefully:

(1). Battery Pack should have suficient strength, so that the polymer battery inside could be efectively protected from mechanical shocks;

(2). The polymer cell should be fixedto the battery pack onits large surface area - no cell movement in the battery packshould be allowed;

(3). No sharp edge components should be inside the packcontaining the polymer battery, and meanwhile, suficient insulation layer between wiring and the cell should be used to maintain multiple safety protection;

(4). Ultrasonic welding is recommended for polymer tab connection to obtain low-resistance, high-reliability and light-weight properties;(5). Polymer packs shouldbe designed carefully so that no shear force is applied, and also, no heat is generated even when leakage ocurs for mishaps. PCM from electrolyte leakage should be isolated as perfectly as posible, and narrow distance between bare circuit patterns should be avoided.

 

Q3. What gases are generated in the formation process. Are they dangerous?

The generated gases include Co, CO2,H2, CH4 and so on. They are not dangerous because of low volume.

 

Q4. Why do we need formation process?

Organic solvents easily decompose on the negative electrodes during charging, leading to battery swelling, drop of cell capacity, and unsafety caused by active
reaction. The purpose of the formation process is to form a solid layer called the solid electrolyte interphase (SEl), which is electrically insulating yet provides significant ionic conductivity. This interphase prevents further decomposition of the electrolyte after the second charging.

 

Q5. Why do Li-Po batteries bloat/swell?

The Li-Po batteries may bloat or swell due to the following reason:
1. Overcharging:Normally, the maximum charge voltage is 4.2V for RC batteries. If the batteries were overcharged beyond 4.4V, electrolytic oxidation process would happen, which generates mass gas leading to battery swelling.
2. Overheat:When discharging in high temperature or high C rate, the temperature of the inner part of the battery can be even higher, which gasify the electrolyte and results in swelling.
3. Shot-circuit.:If short circuit happened, the cell voltage would drop very fast and the electrolyte would be reactive to generate gases, leading to battery swelling.
4, Sealing:If sealed without proper processing, the battery cell would have water and air in, so that the electrolyte would be reactive to generate gases, leading to battery swelling.