High flying machines like drones and quadcopters being flown in events by photojournalists & photographers and in playgrounds and backyards by kids are a common occurrence in recent times. Technology has made exponential advances in such sectors. The days of conducting aerial photography from a helicopter are past news while toys like push back cars are ancient news.
Drones and quadcopters are extremely interesting devices which allure people of all ages even if one may or may not be interested in remote-controlled based gadgets. But all the developments and advancements in such remote-based technology would mean nothing without a viable and appropriate power source. In devices such as drones and quadcopters, batteries are essential and they dictate the amount of time you’re flying gadget stays flying.
Batteries and their configured capacities need to be considered in regards to your quadcopters and drone depending on your needs since they essentially decide the amount of time your craft will be in the air. Most flying gadgets implement the use of lithium polymer battery types as their power source. Lithium Polymer is the most recent technology in the battery industry and is utilized by most portable battery-based devices. This guide is aimed to inform you of the best LiPo batteries which are essential for your drone and other quadcopters.
- Battery Cells and Voltage
Often brands print the voltage ratio and the number of cells the battery constitutes on their package. Often voltage is represented by the letter ‘V’ while the number of cells is represented by the letter ‘S’. So when you read 7.4 V and 2S LiPo battery on the battery pack know that it means 7.4 volts with two cells. The Li-Po batteries voltage range begins from 3.7 V which consists of one singular cell while the highest voltage battery from the Li-Po sector is up to 22.2.V which consists of six cells.
- Battery Capacity
The running capacity of the LiPo batteries has a direct influence on the amount of time your craft will be able to fly. The higher the voltage, the higher the capacity. Higher the capacity, heavier the battery. Depending on your chosen flying gadget one must choose an appropriate battery meaning if you choose a high power battery but your gadget cannot carry the extra weight on board, the combination is simply incorrect. Most toy based drones and quadcopters can function smoothly with a 3S LiPo battery.
- Discharge Rate
Discharge rate or C-Rating is represented by the letter ‘C’ and a number denoting its capacity on the packet. It signifies the amount of time your battery will discharge its power after it was fully charged. The higher the C rating the lower the discharge rate of your batteries. This is an important aspect to consider for drone and quadcopter enthusiasts depending on their individual needs. If one is using such gadget professionally then discharge rate should be considered significant. In recent times, most drone and quadcopters are configured to function with a 14.8 V with 4S LiPo battery.