LiPo battery charger connector is a big topic that needs a long article, and that's probably why I kept putting off writing it. The article in question is not to consider an in-depth course on battery physics. If you want this kind of information and want to explore the huge world of batteries in depth, I recommend you visit the Kelemax.
Lipo battery charger connector industry
This article on lipo battery charger connector for drones tries to answer and address the most common questions that I see delivered to my email address every day.
If you're a fan of reading, “Batteries in a Portable World” is a great start for anyone who really wants to understand the world of batteries. This book covers every technical and theoretical aspect of this huge industry.
WHAT ARE LIPO BATTERIES AND WHY ARE THEY SO POPULAR AMONG DRONES AND IN THE RC WORLD?
LiPo batteries (abbreviation of Lithium Polymer) are a particular type of rechargeable battery. This is part of the RC world, in particular among airplanes, helicopters and multicopters (drones). Similarly, LiPo batteries are the main reason electric flight is a much more viable option than internal combustion.
- LiPo batteries are lightweight and can be made in any shape and size.
- Moreover, lipo battery charger connectorhas large capacities, meaning they are capable of storing a lot of power in a small area.
- LiPo batteries have high electrical discharge rates to power the most demanding engines.
IN SHORT, LIPO BATTERIES PROVIDE HIGH ENERGY STORAGE IN LOW WEIGHT AND IN AN ALMOST INFINITE VARIETY OF SHAPES AND SIZES.
Lipo battery charger connector has three main factors
Generally, lipo battery charger connector in drones has three main factors. It makes them the perfect choice for RCs over traditional rechargeable batteries such as NiCd or NiMH:
These benefits are important to any RC model, but planes, helicopters, and drones are the reason electric flight has become so popular.
Ever since lipo battery charger connector technology hit the scene, airplanes, helicopters, drones and electric vehicles. They have enjoyed great success and are now outpacing nitrous and even turbines in terms of power to weight ratios.
Some flaws on LiPo batteries
LiPo batteries are still expensive compared to traditional NiCad and NiMH batteries
Even though they get better every day, LiPo batteries don't last that long. They allow around 300-500 charging cycles (much less if not treated properly). That said, it is possible to reach the famous 1000 charging cycles on quality LiPos, if all the rules we follow.
Safety Issues: Due to the high accumulation of energy coupled with the volatile electrolyte of the LiPos, they can burst and / or catch fire if treated badly.
What Life span has lipo battery charger connector?
Lipo battery charger connector requires care. Charges, discharges, storage, and temperatures affect its entire lifespan. Before starting to talk about the care and quality of LiPo batteries, I thought I'd quickly review the basics.
Feel free to scroll down the page if you are not interested in the material composition of a lithium battery. But you simply want to "understand what to do with it" and what to pay attention to if you are willing to buy a new one.
DIFFERENCES BETWEEN LITHIUM ION (LI-ION) AND LITHIUM POLYMER (LIPO) BATTERIES
Lipo batteries In the RC world today, most of the batteries are LiPo. I thought I'd include a brief description on Li-Ion batteries in case you come across any of these, as they are good to use in some high-end radios.
Li- Ion and LiPo batteries are essentially made up of the same chemical substance. Both rely on ion exchange between cathode and anode, and “treat” in the same way. The main differences are how the cells are packaged and the type of electrolyte good to use.
LI-ION manufactured on what basis?
Li-Ion batteries use an organic liquid based on flammable solvents as the electrolyte. This electrolyte is responsible for the exchange of lithium ions between the electrodes (anode and cathode) like any type of battery.
Li-Ion batteries usually coat with a hard metal (such as a conventional battery) to keep the electrodes in close contact with the separator sheet, adding weight and not allowing for different shape and size options.
Uses of Lipo battery
A true LiPo battery does not use a liquid electrolyte but uses a dry polymer electrolyte separator sheet that looks like a thin plastic film.
This separator inserts (actually laminated) between the anode and the cathode of the battery. It allows the exchange of lithium ions, from which it takes its name. This method allows for very thin batteries and numerous cell shapes and sizes.
LiPo starting to ignite
The problem with LiPos is that the exchanges of lithium ions through the dry polymer electrolyte. It is slow and therefore greatly reduces discharge and recharge rates. This problem is easy to solve by heating the battery to allow for rapid lithium ion exchange via the polymer between the anode and cathode, but is not practical for most applications.
If this problem could solve, the safety risk of lithium batteries would reduce. With the big push towards electric cars and energy conservation, there is no doubt that further developments and studies are going to create ultra-safe LiPos in the coming years.
Theoretically this type of battery is easy to make in a flexible form, almost like a fabric; and would bring enormous potential.
Hybrid lipo batteries functions
As of this writing, all RC LiPo batteries are actually hybrid lithium polymer batteries .With the introduction of a gelled organic solvent, the exchange rate of lithium ions between anode and cathode has greatly improved. Hybrid LiPos, however, are still not entirely safe: they can explode and catch fire if overcharged or damaged.
In the beginning, LiPo batteries were much more expensive than Li-Ion batteries. Because, they require more manpower to manufactures. Fortunately, prices drop significantly since then. This is especially true for batteries good to use in drones.
Hybrid LiPos use the same flat cell structure as their counterparts and possess the same flexibility. It allowing the creation of various shapes and sizes - perfect in the case of our radio controlled drone models.