Why Electric Car Acceleration Works Optimally?
It is undeniable that more and more people are switching to using electric cars. In addition to being more environmentally friendly, the acceleration of an electric car that can work more optimally when compared to a conventional car is also the main attraction of this car. No wonder electric cars are getting easier to find on the streets of Indonesia.
In recent times, the development of the electric car industry in Indonesia is indeed growing rapidly. This is also supported by government policies that urge people to switch from conventional vehicles to electric vehicles. The reason is because electric vehicles are more environmentally friendly and have minimal emissions.
One of the advantages of electric cars that makes many people start to look at them is because they have acceleration that can work optimally. With these advantages, electric cars are able to reach maximum speed more quickly.
Large Torque Makes Electric Car Acceleration Work Optimally
One of the reasons why electric cars have acceleration that can work more optimally when compared to conventional cars is because the torque is very large. The torque of electric cars even outperforms turbo engined cars though.
This large electric car torque makes the car able to accelerate faster. Then what exactly makes electric car torque so abundant, read below.
1. Different Powertrain Construction
Electric cars have a different powertrain from conventional cars that use an Internal Combustion Engine (ICE). Electric cars use a single-speed transmission where the electric motor is directly connected to the drive wheels via a drive shaft. This makes the power from the engine can be directly channeled to the wheels resulting in a very spontaneous acceleration.
2. Electric Cars Have Instant Power Output
Electric cars have instant power output so that the power obtained by the drive wheels is equivalent to the power generated by the inverter from the battery. Not only that, the rotation of the electric motor that can reach tens of thousands of rpm, can produce enormous torque instantly. This is certainly different from conventional cars that use a transmission system because the distribution of power must be divided and there is a loss of power.
3. Voltage Decreases When Speed Is High
When at high speed, the voltage on the electric car will decrease due to the gradual loss of power at high revs. However, with the weakening of the rotation, electric cars can still be driven. The nature of this torque is able to create a different driving sensation when using an electric car.
Electric cars are capable of producing more torque at lower speeds than conventional cars. This is what makes the acceleration of electric cars more optimal when compared to conventional cars.
One of the electric cars that has optimal acceleration is the Wuling Air EV. This mini electric car has optimal acceleration thanks to a maximum electric power of 30 kW and a maximum torque of 110 Nm. Not only that, this eco-friendly car has instant acceleration and high torque from 0 RPM (zero) which makes this car have extraordinary acceleration.
Even though it uses power from the battery, the acceleration of an electric car is far more optimal when compared to a conventional car. The large torque possessed by electric cars is able to produce a faster maximum speed. So besides being environmentally friendly, you can still have fun by pressing the gas pedal of the electric car.