A Guide to Car Battery Types
The car battery is an essential component of your vehicle. You can safeguard your car battery from premature corrosion and damage by doing a thorough inspection. Consider getting a new battery if you're having problems with your current one. There are a variety of car batteries available. Here's a quick overview of the different types of batteries used in cars.
1. Lead Acid Battery
This battery is among the most common car battery types seen in cars around the world. It's one of the most cost-effective and adaptable types. Car batteries made of lead acid are meant to last for a long time. Depending on the production technique, it can last anywhere from 3 to 5 to 12 years or more. These car batteries require the least amount of maintenance.
2. Lithium-ion Battery
The lithium-ion battery is commonly found in hybrid and electric vehicles (EV). Lithium-ion batteries can store more energy and charge faster. It's also less heavy than traditional batteries, which is important for electric vehicles. With less weight, you can travel more on a single charge. Lithium-ion batteries are more expensive than lead-acid batteries and last for 5-10 years.
3. SLI Batteries (Starting, Lighting, and Ignition)
SLI batteries, a type of lead-acid, rechargeable battery that gives power in short bursts to start the engine, are found in majority of the in cars. SLIs are integrated into the car's charging system and are subjected to short charge and discharge cycles anytime the vehicle is in motion. The SLI battery also powers the car's electronic systems, such as the radio, lights, infotainment, and heating/cooling systems, among others.
4. Deep Cycle Battery
The cells of this battery have a thicker battery plate and a denser active material. The deep cycle battery is meant to provide continuous power with a low current drain over long periods of time. These batteries have a lengthy shelf life, lasting up to six to seven years, if properly maintained.
5. Nickel-metal hydride battery
It is commonly used in hybrid vehicles, but it also works well in some electric vehicles. The life cycle of this hybrid battery is longer than that of a lithium ion or lead acid battery. They do, however, have a high rate of self-discharge, are costly, and emit a lot of heat at high temperatures. This is why the NiMH battery is only utilised in hybrid automobiles and is less effective in rechargeable electric vehicles.