two motors, a motor in the front and the other located at the rear wheel. Most powerful e-scooters have dual hub motors, i.e.
Electric scooter motor pro#
They’re more efficient, tend to run quieter, are less prone to overheating, are more durable and have better power-to-weight ratios.Įlectric scooters are fitted with either a single motor, such as the popular Turboant X7 Pro or dual-motors, such as Unagi Model One E500. Brushless DC motors are primarily preferred in modern e-scooters. In brushless motors, the mechanical brushes that power different coil phases have been replaced by digital switching circuitry. In the long run, the worn-out brushes could cause voltage irregularities that can be dangerous.īrushless DC motors, also known as electronically commutated (EC) or BLDC motors, are an improvement of brushed DC motors, launched in the 1970s. These brushes tend to wear out with time, thanks to friction. In these motors, mechanical brushes power different coil phases and provide motion. Brushed DC motors are a form of motor technology dating back to the 1800s. There are two types of electric scooter motors primarily used in e-scooters: brushed DC motors and brushless direct current (DC) electric motors. A motor controller starts/stops the motor, regulates the torque, determines the riding speed by regulating the amount of power applied to the motor and protects against electricity overloads or any other faults in the motor. An e-scooter motor is linked to a controller, which acts as its "brain", regulating the different functionalities of the motor. Essentially, the motor transfers energy from the battery to the wheels to propel it forward at a given speed. The primary role of the motor is to propel the e-scooter by providing it with the power it needs to move forward. The motor is the heart of an e-scooter and determines various aspects of the scooter, including hill-climbing, acceleration, top speed, performance and power consumption.
This performance guide will give you an insight into the different metrics of electric scooters, enabling you to make informed decisions regarding what’s important performance-wise. You’ll also be able to cut dependence on marketers, mechanics and so-called "experts'': some of whom con or misadvise you.
Electric scooter motor plus#
By getting to know e-scooter voltages, watts, amperes and more, plus how they affect performance, you'll have a completely different perspective about your scooter. Understanding all those terms relating to the performance of an electric scooter will enable you to choose an ideal scooter based on your exact needs and understand your scooter even better.
For first-time scooter buyers, all these terms may seem like rocket science but they are actually simple vocabularies to describe the various performance aspects of the scooter. Terms such as torque, watt, voltage, amperes and more can be challenging to understand, especially if you don't have a background in mechanics or electronics. Getting started in the world of e-scooters can be pretty daunting, thanks to the "heavy terms" used to describe the performance of electric scooters.
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