-
販売元:
14.8v 2200mAh 4S 853496 li-polymer battery for RC Airplane Helicopter Quadcopter
- 通常価格
- $50.00
- 通常価格
-
- セール価格
- $50.00
- 単価
- あたり
14.8v 2200mAh 4S 853496 li-polymer battery for ... -
販売元:
14.8V 2000mAh 903475 li-polymer battery for Quadcopter accessories model airplane
- 通常価格
- $34.89
- 通常価格
-
- セール価格
- $34.89
- 単価
- あたり
14.8V 2000mAh 903475 li-polymer battery for Qua... -
販売元:
14.8v 1600mAh 903462 li-polymer battery for RC Helicopter RC Car Boat Quadcopter
- 通常価格
- $33.99
- 通常価格
-
- セール価格
- $33.99
- 単価
- あたり
14.8v 1600mAh 903462 li-polymer battery for RC ... -
販売元:
12V Li-Polymer Replacement Battery For Jumper EZbook 2 +5-wire Plug+tools
- 通常価格
- $40.56
- 通常価格
-
- セール価格
- $40.56
- 単価
- あたり
12V Li-Polymer Replacement Battery For Jumper E... -
販売元:
11.4V 4200mAh Lipo Battery Drone Spare Parts For Hubsan Zino H117S
- 通常価格
- $53.88
- 通常価格
-
- セール価格
- $53.88
- 単価
- あたり
11.4V 4200mAh Lipo Battery Drone Spare Parts Fo... -
販売元:
11.4V 3200mAh Lipoly Battery for Hubsan Zino H117S GPS c Intelligent Flight RC Drone Quadcopter
- 通常価格
- $32.99
- 通常価格
-
- セール価格
- $32.99
- 単価
- あたり
11.4V 3200mAh Lipoly Battery for Hubsan Zino H1... -
販売元:
11.1V 7500mAh 3S Flight Lipo Battery For Yuneec Q500 Q500 + 4K typhoon RC Drone
- 通常価格
- $99.90
- 通常価格
-
- セール価格
- $99.90
- 単価
- あたり
11.1V 7500mAh 3S Flight Lipo Battery For Yuneec... -
販売元:
11.1V 6000mAh with XT60 connector for RC Hobby RC Car RC Helicopter RC Airplane RC Boat
- 通常価格
- $71.09
- 通常価格
-
- セール価格
- $71.09
- 単価
- あたり
11.1V 6000mAh with XT60 connector for RC Hobby ... -
販売元:
11.1V 6000mAh 1045120 li-polymer battery for RC Airplane Drone Boat
- 通常価格
- $72.50
- 通常価格
-
- セール価格
- $72.50
- 単価
- あたり
11.1V 6000mAh 1045120 li-polymer battery for RC... -
販売元:
11.1V 5500mAh LiPo battery with Deans T connector for RC car boat,HPI, Tamiya, Kyosho brands
- 通常価格
- $59.47
- 通常価格
-
- セール価格
- $59.47
- 単価
- あたり
11.1V 5500mAh LiPo battery with Deans T connect... -
販売元:
11.1v 5400mAh 803496 li-polymer battery for V303 V393 CX-20 X380 RC Drone Helicopter Quadcopter Car
- 通常価格
- $78.00
- 通常価格
-
- セール価格
- $78.00
- 単価
- あたり
11.1v 5400mAh 803496 li-polymer battery for V30... -
販売元:
11.1v 5200mAh li-polymer battery for aeromodeling aircraft rc drone
- 通常価格
- $78.00
- 通常価格
-
- セール価格
- $78.00
- 単価
- あたり
11.1v 5200mAh li-polymer battery for aeromodeli...
ショーイング 301 -312 の 324 項目
1. How to Charge Lipo Battery?
These are the safe charging tips for LiPo batteries:
- Always use a charger specifically designed for LiPo batteries to prevent overcharging or undercharging.
- Before charging, set the charger’s current and voltage to match the battery’s specifications, typically at 1C, which is twice the battery’s capacity.
- During charging, place the lithium ion polymer battery in a fireproof bag or on a flat surface that is free of flammable materials.
- Closely monitor the lithium polymer battery during charging and ensure that it is not left unattended for extended periods.
- Always use a charger specifically designed for LiPo batteries to prevent overcharging or undercharging.
- Before charging, set the charger’s current and voltage to match the battery’s specifications, typically at 1C, which is twice the battery’s capacity.
- During charging, place the lithium ion polymer battery in a fireproof bag or on a flat surface that is free of flammable materials.
- Closely monitor the lithium polymer battery during charging and ensure that it is not left unattended for extended periods.
2. How to Store Lipo Battery?
When storing Lithium Polymer (LiPo) batteries, they should be kept at approximately 50% charge, which will help to prolong battery life. The lithium ion polymer battery should be stored in a dry, cool environment, away from direct sunlight and extreme temperatures.
In addition, batteries should be stored in a fireproof bag or special safety box to prevent accidents. In addition, if not used for a long period, perform a light charge and discharge every few months to maintain battery performance.
In addition, batteries should be stored in a fireproof bag or special safety box to prevent accidents. In addition, if not used for a long period, perform a light charge and discharge every few months to maintain battery performance.
3. What Is the Lifespan of a Lipo Battery?
In general, lithium polymer batteries can support approximately 300 to 500 charge/discharge cycles if properly used and maintained. To extend battery life, avoid overcharging and over-discharging, and keep the lithium ion polymer battery at the proper temperature during use and storage.
4. How to Prevent Lipo Battery from Expansion and Explosion?
These tips below prevent lithium polymer (lipo) batteries from expanding or explosion:
- Ensure that you are using a charger that is specifically designed for LiPo batteries and that you strictly follow the battery’s charging specifications.
- Avoid exposing the lithium polymer battery to extreme temperatures or direct sunlight during charging and use.
- Ensure that the lithium ion polymer battery is not physically damaged. Regularly inspect the battery for any signs of wear or damage.
- If the LiPo batteries show signs of swelling, discontinue use immediately to prevent further risks such as expansion or explosion.
- Ensure that you are using a charger that is specifically designed for LiPo batteries and that you strictly follow the battery’s charging specifications.
- Avoid exposing the lithium polymer battery to extreme temperatures or direct sunlight during charging and use.
- Ensure that the lithium ion polymer battery is not physically damaged. Regularly inspect the battery for any signs of wear or damage.
- If the LiPo batteries show signs of swelling, discontinue use immediately to prevent further risks such as expansion or explosion.
5. What Is the Difference Between a 4s Lipo Battery and a 3s LiPo Battery?
The main differences between 4s lipo batteries and 3s LiPo batteries are the number of cells and the total voltage. 3s batteries consist of three cells in series and typically have a voltage of 11.1 volts, while 4s batteries consist of four cells in series and typically have a voltage of 14.8 volts.
However, higher voltages may also require electronic equipment to have a higher voltage tolerance, so the voltage compatibility of equipment must be considered when choosing a lithium polymer battery.
However, higher voltages may also require electronic equipment to have a higher voltage tolerance, so the voltage compatibility of equipment must be considered when choosing a lithium polymer battery.
6. How Long Does It Take to Charge a 4s Lipo Battery?
Typically, most 4-cell LiPo batteries take about 1 to 1.5 hours to fully charge when charged at a 1C charge rate (i.e. the current value for the rated capacity of the battery).
For example, a 5000mAh battery will take about 1 hour to fully charge at 5A charge current. Ensure that you use the appropriate charger for your lithium polymer battery to maintain its health and safety.
For example, a 5000mAh battery will take about 1 hour to fully charge at 5A charge current. Ensure that you use the appropriate charger for your lithium polymer battery to maintain its health and safety.
7. Which Is Better, Lifepo4 or Lipo Battery?
LiFePO4 batteries are known for their longer life and increased safety. It is usually more suitable for applications that require long-term reliability, such as electric vehicles and solar energy storage systems.
LiPo batteries, on the other hand, offer higher energy density and power output. Ideal for devices with stringent weight and size requirements, such as UAVs and RC models.
LiPo batteries, on the other hand, offer higher energy density and power output. Ideal for devices with stringent weight and size requirements, such as UAVs and RC models.
8. Which Is Better, Nimh or Lipo Battery?
NiMH batteries are more environmentally friendly and less expensive, making them suitable for every day and low-power devices.
LiPo batteries, on the other hand, offer higher energy density and discharge rates, making them more suitable for use in high-power devices such as drones and high-performance RC cars.
LiPo batteries, on the other hand, offer higher energy density and discharge rates, making them more suitable for use in high-power devices such as drones and high-performance RC cars.