It’s not unusual to see people excited about getting extra power batteries in their electronic devices or vehicles. This is how they want to know how some of these systems can power a car and make it run for those extra hundreds of miles. This curiosity is high among car owners as most of them have encountered starting problems at least once in their life because the car battery died. In traditional diesel or gasoline car engines, it could only expire if you don’t remember to turn off your headlights or reading light for quite some time.

Considering the sheer size of a car battery that takes up a lot of space on the engine hood, it’s no wonder this particular thought persists among all car owners. To solve this problem, it is required to know the main difference between the systems that provide energy to electric cars and the traditional car battery.

For traditional car battery manufacturers, the rate of their products is an important factor, and furthermore, in order to maintain a proper budget, they use only limited technology. Although the battery mechanism is identical to how traditional car batteries work, they use extremely modern technology in their formation and charging. For example, these systems contain electrolyte in gel form and not in a liquid state like most traditional car systems.

Due to this gel form, it is feasible to adapt these systems in various orientations. This allows electric car manufacturers to fix these systems in any kind of orientation they want, thus packing more cells into a given limited space. A larger number of batteries in just a limited bay will allow for great mileage and engine performance on a single charge.

There are 2 types of electric car charging systems like GEL and VRAL. The GEL system includes VRAL technology; however, it is highly advanced and requires very little maintenance. With GEL batteries, the chance of a spill becomes substantially less as they contain highly advanced sealing technology.

One limitation of the GEL charging system is that these would not work well with irregular use as they require constant recharging and discharging. With constant charging and discharging, GEL batteries perform better and, for the same reason, constant travelers find them very practical. If a person does not have consistent use of the car, these systems at a very early stage can wear out, leaving the person with maintenance issues.

The latest advances in the industrial sector are the use of batteries based on lithium ions. Despite the fact that these have been over for more than four decades, their effective and efficient use in automobiles could not be developed and this problem is being solved with the latest technology. Recent nanotechnology ensures that new lithium-ion based batteries will be quite small but could carry a large amount of energy and power in them. These can stay for a longer period of time and the deficiency of fluids in them will help consumers to drive the cars for a long period of time.