How to Operate the Controller and Display System of an E-bike?

Let’s start with the controller of an E-bike. The controller is the brain of the E-bike, responsible for receiving and processing signals from the battery, motor, and sensors to control the operation of the motor. In simple terms, it is like the engine management system of a car, but more intelligent and efficient. According to data from the International Energy Agency (IEA), the annual sales of electric bicycles worldwide have exceeded 30 million units, and this number is still growing. Behind this, the continuous advancement of controller technology plays a key role.

So, how do you operate the controller of an E-bike? Generally, the controller will have several basic operational modes:

1. Start and Stop: Usually achieved through a simple switch or button. When the start button is pressed, the controller will perform a self-check to ensure that all systems are operating normally.
2. Speed Control: Controlled by the twist grip or electronic accelerator. Users can adjust the speed as needed, and the controller will correspondingly adjust the output power of the motor.
3. Assist Mode: Some high-end E-bikes are also equipped with an assist mode, where users can select different levels of assistance through the controller, making cycling easier.
4. Emergency Stop: In case of an emergency, users can cut off the power supply by pressing the emergency stop button to ensure safety.

Next, let’s take a look at the display system of an E-bike. The display system is the eyes of the E-bike, providing users with a wealth of information, including but not limited to battery power, speed, mileage, assist level, etc. According to data from market research firm Statista, it is expected that by 2025, the global electric bicycle market will reach $25 billion. This growth not only promotes the development of display system technology but also raises higher demands for user experience.

Operating the display system of an E-bike typically includes the following steps:

1. Viewing Information: Through the display screen, users can understand the operating status of the E-bike in real-time, such as battery power, speed, etc.
2. Adjusting Settings: Users can adjust the settings of the display system through the controller or a dedicated app, such as brightness, backlight, etc.
3. Fault Diagnosis: Modern E-bike display systems also have fault diagnosis capabilities, which can promptly detect and alert potential system issues.

Of course, with the advancement of technology, the controllers and display systems of E-bikes are also continuously being upgraded. For example, through IoT technology, E-bikes can achieve remote monitoring and control; through artificial intelligence algorithms, the controllers of E-bikes can more intelligently adjust operational parameters, improving energy efficiency and user experience.

Finally, I would like to quote an ancient saying: “To do a good job, one must first sharpen one’s tools.” In the tide of intelligence and new energy, the controllers and display systems of E-bikes are precisely the important tools for us to achieve green travel and enhance the quality of life. Let us work together to promote the healthy development of this industry!

Thank you all!