Custom lithium ion battery packs for electric cars and important termsLithiumBattery
Custom lithium ion battery packs for electric cars and important terms
The only way to get the most out of a lithium ion battery is to ensure that the right one is picked for an application. These batteries are great for energy storage, and they are capable of harnessing an incredible amount of tidal, wind, and solar.
The advancement in technology has led to the possibility of storing energy in new ways. The fact that it is now possible to access noiseless and clean energy is an incredible thing and a great step.
Lithium is a light material in terms of density. It’s an alkali and has a free electron found in the outer cell, which makes it reactive. This metal is quite abundant on earth and can be easily mined. This is why it has proven to be a cheap and ideal battery choice. There are different chemistries within the lithium battery categories, and they all possess very unique advantages helping the battery makers select the most ideal chemistry for specific applications.
Terms used in the lithium-ion world
Some terms can help people understand lithium-ion technology much better. The terms include:
Nominal voltage: this is system voltage. This is defined, but the device and different devices are designed to handle different voltages. Usually, the nominal voltage is lower than the rated voltage to ensure that the device is operated safely.
Cycle: discharging and charging a battery make up a cycle
Current rate: this determines fast charging capability of batteries.
Thermal runaway: this is where increases in temperatures end up changing conditions. This then leads to a rise in temperature even further, and at times, things can get disastrous.
Specific energy: this is the energy stored within one unit mass or Wh/kg
Common battery chemistries
Some battery chemistries are rather common today. They include:
• Lithium cobalt oxide: this battery’s specific energy is high. However, specific power is low, meaning that when charged with a current rate over the rated values ends up shortening battery life. It comes with graphite anode and cobalt oxide cathode.
• Lithium manganese oxide: manganese oxide creates a spinel structure, which improves the ion flow towards the electrode. This leads to lower resistance enabling high-current discharging and fast charging. The spinel stricture causes thermal stability.
• Lithium nickel manganese cobalt oxide: the cathodic combination is successful and may be tailored to be power cells or energy cells. These options offer good performance and are capable of delivering continuous discharge current.
• Lithium iron phosphate: lithium phosphate acts as the cathode because its electrochemical performance is good and the resistance low. It has thermal stability and tolerance to abuse.
JB battery understands the above lithium-ion battery chemistries and others. With this knowledge, it is easier for the company to create batteries such as 24v lithium-ion battery for electric scooters, a lithium-ion battery for an electric wheelchair, 12v lithium-ion battery for robotics lifepo4 lithium golf cart battery 48v 100 ah, among others. Understanding the various battery chemistries and the requirements of different applications makes it possible for the company to develop functional and reliable batteries.
For more about custom lithium ion battery packs for electric cars and important terms,you can pay a visit to JB Battery China at https://www.jbbatterychina.com/custom-lithium-ion-batteries-packs-for-electric-cars-and-why-the-technology-is-preferred.html for more info.