Uncategorized · November 18, 2021 0

Hoverboard, balance your rhythm

If there is any type of ecological and modern transport, it must be hoverboard. Hoverboard is a type of transport that has become increasingly popular in recent years. You just have to stand on it, use your body to adjust for direction and speed, and you can go almost wherever you want (if there’s enough power). Next, let’s look at the uniqueness of the hoverboard.

The operating principle of the hoverboard is mainly based on a basic principle called “dynamic stability”, which is the vehicle’s own self-balancing capability. The built-in precision solid-state gyroscope is used to judge the posture state of the body and, after the proper instructions are calculated by the high-speed precision central microprocessor, the motor is driven to achieve the balancing effect.

In the hoverboard system, to obtain the acceleration and angular velocity information, the acceleration sensor can convert the acceleration generated in the human body movement into a signal for efficient processing, thus judging the action of the human body; the gyroscope can change the angular rotational speed of rotation of electric balance car Converted into a signal, the integral processing of the angular rotational speed of rotation to the wide angle of the hoverboard, so that the balance of the hoverboard can be controlled.

The hoverboard has the following design features:

Enviroment friend

The hoverboard is powered by a battery, which is totally eco-friendly, absolutely eco-friendly and eco-friendly, and can be recharged and used over and over again. In addition, the motor features high operating efficiency, low noise and high efficiency, therefore, it not only reduces noise pollution, but also saves energy.

The turning radius is very small, basically close to 0. This is very suitable for use in a small space. Like large malls, trails, workshops, etc.

No brake system

The hoverboard detects the angular velocity signal by the gyroscope, the accelerometer detects the angle signal and then merges the precise angle signal from the hoverboard and finally transmits it to the single chip microcomputer so that the PWM module Single-chip The microcomputer controls the forward and backward rotation of the hoverboard motor. This not only prevents wasted energy, but also prevents wear on the brake pads. When traditional cars cannot work properly on the brakes, there is no need to worry about this situation on the hoverboard.

Control is extremely convenient.

The hoverboard’s forward, backward and racing speed can be changed just by tilting the bodywork forward and backward, which is much more convenient and flexible than traditional cars.