The global hoverboard market will reach US$1210 million in 2024, from US$600 million in 2019, according to Market Watch. Hoverboards or self-balancing scooters have evolved in many ways in the past few years. Today, you can ride hoverboards off paved roads.
Off-road hoverboards come with advanced features that help you commute smoothly on gravel, dirt, and grass. These gadgets use electric motors and rechargeable batteries like most powerful electric scooters in the market do, making them easy and fun for commuting. The difference is that hoverboards don’t come with a steering handle. Instead, they use sensors to detect direction, based on how you switch your weight.
The fascinating feature in new hoverboards is the Bluetooth. Bluetooth self-balancing scooters function like regular models, except they have a Bluetooth module and a pair of speakers. The Bluetooth module receiver turns on when you switch on your hoverboard, and the signal remains discoverable until you connect your phone.
With the Bluetooth connection, you can play your favorite music from your Android or iPhone while riding. However, you can only get the most of this feature if you know the right steps to connect Bluetooth to the hoverboard.
If you haven’t been on a hoverboard, you probably are thinking about how people adjust speed when hovering. According to Hover Patrol, this aspect is straightforward, as it depends on how fast you want to ride. Self-balancing scooters have speed sensors in the wheels. They also have tilt sensors, gyroscope or speed control board, and logic board, which work together to ensure self-balance.
The speed sensors detect the way you shift your body and change the speed depending on your needs and requirements. For instance, leaning forward triggers the hoverboard to speed. Similarly, when you bend backward, the scooter slows down. All this happens because the gyroscope and tilt speed sensors work hand-in-hand to maintain the center of gravity.
Understanding how hoverboards work is crucial to ensure you self-balance safely on different terrains. Apart from tilt sensors in the wheels, logic board, and gyroscope, self-balancing scooters have infrared sensors. These sensors allow you to control your Segway. The moment you mount on your hoverboard, the pressure applied on each foot pad triggers an infrared LED light, which transmits commands to the logic board.
Depending on the weight and direction of your foot and body, the Segway might move or stay still. For example, when you keep your feet flat, the LED light does not switch off, thus commanding the logic board not to run the motors. The light turns off when you lean forward, giving the logic board a signal to spin the wheels.
The LED lights on hoverboards have other functions besides enhancing aesthetics. They improve visibility when riding in dark places. LED lights also act as indicators and safety gear to prevent accidents. While learning how these gadgets work is key to making the right purchase, it is also essential to know your State’s regulations about hoverboards.