Every electric vehicle has a variety of principal types of braking: friction, dynamic and regenerative. They all have different methods to slow the car. Electric skateboards are much quicker than regular ones laid on flat surfaces. There are various ways to slow down the speed of a traditional skateboard; however, what about electric skateboards, which are much quicker? Can they break, and in what way?
It’s a definite yes. Wowgo electric skateboard are equipped with brakes because of, a primary reason for security. With a speed that could travel at speeds of over 25 miles per hour (40 kilometers/hour) or more during a downhill journey, the personal transporter will require a brake system to stop riders from crashes at speeds that could result in serious injuries.
As opposed to traditional skateboards, which depend on manual braking by skidding, foot breaks, or bringing your ride up to an upward grassy or slanting surface, electric skateboards rely on the power of an electrical motor that slows down or stops.
However, it is essential to understand how to slow down and stop them manually for a safe and secure ride. This article will cover braking on electric skateboards and other vital ideas you should master if you plan to ride one.
How do you Brake Electric Skateboards?
Electric skateboards use a hand-held remote to control the machine, including the beginning of the process by moving up to speed, slowing down, stopping, and decelerating. Breaking a skateboard using an electronic device is similar to launching the throttle. Move the throttle reverse via your remote control and change to the brake process.
Friction brakes are the exact kind of brakes utilized in conventional automobiles. The principle behind friction is that the brake disc is used to convert kinetic energy (the car’s motion) to heat that slows the vehicle. A standard road bike uses friction to slow the car down by pressing a brake pad against the inner wheel’s rim.
Electric skateboards usually don’t have friction brakes since it requires massive mechanical hardware that wears down.
Out runner brushless motors – the most commonly used type of motor found on electric skateboards, are an array of permanent magnets surrounded by copper wire twisted around the edges so that when electric current flows by the wire, it generates an electric field that presses over the permanent magnets. This causes the motor to turn. The coiled cables create an electromagnet.
Dynamic braking is a technique typically used by locomotives in trains. In this method, the energy generated by the kinetic force is transformed into heat by transferring the electric current generated by spinning motors to a resistor that then releases the energy into heat. When the magnets inside the engine create an electrical current within the wires of copper, they create resistance and slow the motor’s spin.
Currently, an electric skateboard uses dynamic braking in conjunction with the regenerative brake called the Mellow Drive.
Most wowgo electric skateboard utilizes a technique known as “regenerative brakes.” It’s like dynamic braking; however, instead of redirecting the energy into a resistor to release it into heat, it’s directed back to the battery, which is then charged. The main problem with regenerative systems is that when a battery gets full, it cannot accept any additional power without overheating and eventually destroying the battery. This is why systems that rely solely on regenerative brakes will stop braking when the battery reaches 100 percent charge.