The electric vehicle works on the interaction between the motor’s magnetic field and electric current. Which can be powered by a direct current (DC) source or by an alternating current (AC) source.
Type of Current an Electric Vehicle Use
We all know that an electric vehicle generally has an onboard rechargeable storage unit. Typically a lithium-ion battery that works as a source of power for an electric motor that brings the vehicle in motion. The electric vehicle mainly depends on batteries and motor used in it.
An electric motor generally comes with lithium-ion batteries which allow electricity to store in chemical form. Lithium-ion batteries have high power density, high energy density, and long life span as compared with others.
Motor EV is something that converts electrical energy from the batteries to mechanical energy. The motor transfers this mechanical energy to the wheels of electric vehicles and turns them through cogwheel. But what motor does an electric vehicle use.
This is the most important part of every electric vehicle. In Electric Vehicle AC or DC, any kind of motor can be used. Both have some advantages and some disadvantages.
AC motor or alternating current motor is a three-phase motor that is powered by 240 volts alternating current. Motors are widely used by EVs manufacturers particularly for high-performance vehicles. EV motors are further divided into two categories that are induction motor and synchronous motor.
Induction motors are the cost-effective, low maintenance, and reliable motor among these two. Tesla motor vehicles have induction motor within vehicles.
Synchronous motors are not like an induction motor in which the rotor turns at a slower speed than that of the magnetic field. In a synchronous motor both rotor and magnetic field turns at the same speed.
In AC installation any three-phase AC industrial motor can be used, which is convenient in terms of availability, motor size, shape, and power. The most exciting feature of an AC motor is that it turns into a generator that delivers the power back to the batteries of an electric vehicle.
But an electric car, bus, two-wheeler. And other vehicles, with AC motor, requires an inverter that converts DC to AC. Because of the source of power is a battery (battery supplies direct current), and motor require alternating current.
A direct current motor (DC) can run on anything between 96 to 192 volts. DC motors are further classified into three categories that are, brushed DC motor, brush less DC motor, and stepper. Electric Vehicle Charging Station manufacturers widely use a brushed DC fast charger. DC motors are easy to install and are less expensive than an AC motor.
DC motor has higher starting torque, quick starting and stopping, reversing, variable speeds with voltage input when compared to an AC motor. You can also overdrive them for a shorter period that is for a shorter period you may experience 5 times more power than its rated horsepower. For example, a 20,000 watt may accept 100,000 watts but only for a shorter period. A DC motor develops more heat than an AC motor.
Because the motor is the main part of the electric vehicle. So according to the type of motor used in EV, We can define either it is DC or AC. However all Electric vehicle manufacturers use both AC motors and DC motors simultaneously.