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Through an e-bike display, riders can see their speed, battery level, distance, and more in real time. They can also adjust settings like pedal-assist modes, keeping them in control and informed while on the move.
However, it can malfunction, with a frozen screen, unresponsive controls, issues with your speed or distance readings, or stubborn error codes, which can require resetting your e-bike to fix software glitches and gets things back to normal for a smoother ride.
This guide explains how to reset e-bike display using simple methods to help you get your e-bike working properly again by fixing problems like error codes, frozen screens, and wrong readings!
E-bike sensors can be likened to the brain of an electric bike. They are designed to determine the level of assistance you get from the e-bike motor as you pedal.
These sensors are available in two types – torque sensors and cadence sensors. Both sensors operate with different principles. A torque sensor prompts the motor to provide assist equivalent to how hard you are pedaling, whereas the functionality of a cadence sensor depends on your pedaling speed.
The right sensor is important because it ensures an enjoyable riding experience. So in this guide, we will compare torque sensor vs cadence sensor in e-bikes to help you understand how each system affects pedal assist, ride quality, and which suits your riding style best.
An e-bike's battery makes up 30% of the value of the e-bike, so choosing a quality battery for your e-bike is essential.
Generally speaking, electric bike batteries last between 3 and 5 years, depending on the quality, battery type, and how they are used and maintained. If you want to learn more, then keep reading to find out how long does ebike battery last, discover the factors affecting e-bike battery lifespan and learn how to maximize longevity.
Let's explore typical battery duration and maintenance tips in this comprehensive guide.
As the e-bike market continues to expand, buyers are becoming more confused when it comes to selecting the right e-bike for their needs. One of the essential specifications that is often misunderstood is the e-bike motor's output power. For example, some companies advertise the motor's peak power to give the impression that the motor is more powerful when the motor's rated power is much lower. This is why it's necessary for e-bike enthusiasts to know the difference between an electric bike motor's rated power and peak power output.
In this article, you will learn the difference between rated power vs peak power in e-bike motors, how these specifications impact performance, and how to make an informed decision when choosing the right e-bike.
Regardless of where you ride your e-bike, having lights on is essential if it's at night or in poorly lit areas. However, occasionally, it happens that your e-bike lights don't work.
There's no need to panic, as the issue may not be as serious as you imagine. Several reasons could be responsible for light for ebike not working, from having a loose wire to a dead battery.
This article explains common causes and step-by-step troubleshooting tips to fix your e-bike lights and ride safely at night.
Choosing the perfect electric bike is a process as unique as the rider who will be using it. One key consideration to keep in mind is the power and drive of the bike, with the motor type being a significant piece of the puzzle. As the popularity of e-bikes continues to soar, understanding the concept of brushless vs brushed motors becomes essential for potential electric bike buyers. With so many options to consider and choose from, knowing what power and motor setups work best is essential to ensure you get the best electric bike setup possible.
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