The Hovsco fat tire electric bike is a very versatile and incredibly fun machine to ride. It’s a perfect fit for any commuter who enjoys a leisurely ride, or even someone who’s looking for a lightweight bike that’s easy to take on the trails.


If you’re looking for an ebike that can help you enjoy the outdoors, you’ll find an excellent selection from HOVSCO. The company makes a variety of ebikes, including fat tire models, which are ideal for off-road rides. They’re also perfect for commuting, especially when it comes to the city.

HOVSCO offers a wide range of bikes for any kind of rider. Their ebikes are built to be durable and sturdy, ensuring a long life. In addition, the company’s electric bikes can be folded up for storage. And, they’re environmentally friendly.

You’ll find that the HovAlpha has plenty of high-end features, from the powerful motor to the fat tires. It’s also very stylish. This bike’s torque sensor can optimize battery usage, while the cadence sensor keeps you in the right speed range.


HovAlpha fat tire electric bike offers an incredibly smooth ride and a punchy motor. It’s a true adventure machine.

This bike has a powerful 750W hub motor that provides 20 mph of pedal assist when riding throttle-only. You can set the bike up in Class 3 mode for even faster speeds.

The HovAlpha comes with a torque sensor that reduces the lag between stopping and pedaling. This sensor helps to conserve energy and extend battery life.

A powerful battery pack with a range of 80 miles is also a feature of the HovAlpha. You can charge this battery on or off the bike frame. In addition, the battery features a lockable and removable feature.

The battery pack is integrated into the downtube of the bike and includes a cadence sensor. Also, the battery is equipped with a LED strip light on one side.


The HOVBeta fat tire electric bike is a great choice for people who are looking for a low-maintenance, eco-friendly alternative to cars. It’s a lightweight and portable bike that’s perfect for cruising or tackling trails. It has a 750W motor, and you can go up to 28 mph. You also have five levels of pedal assist, which makes it easier to pedal up a hill.

It also features a lockable front fork. You can remove the battery for charging inside your office or home. Moreover, it’s built to last. After 1,000 charging cycles, it retains 80% of its capacity. This means that you can ride the HovBeta electric bike for up to 40 miles on purely electric power, or for up to 60 miles with pedal assistance.


The HovRanger is a well-built electric mountain bike that has a lot of utility. It’s ideal for multisurface riding, and is suitable for riders of all ages. Unlike many other bikes, the HovRanger has a Thumb Throttle that is easy to use. This design doesn’t interfere with handlebar flow, and allows for more comfortable riding.

The HovRanger’s motor has been tested to be able to power the bike up to 20 mph. However, its range is limited, only 60 km in ideal conditions. Fortunately, the HovRanger can be upgraded to a class III eBike if needed.

Another feature of the HovRanger is its unique lockout mechanism. By using this system, users can ensure that the bike’s suspension and frame will perform at their most optimal level.

Torque sensor

A torque sensor pedal assist system is used in many e-bikes today. It measures the amount of force you put into the pedals, and then uses that information to adjust the power output. This helps to eliminate lag between the pedal and the stop, and gives the ride a more responsive feel.

Generally, a torque sensor pedal assist system will be found in a rear hub motor. However, this technology is often found on more expensive e-bikes.

Torque sensor pedal assist systems have a few unique features. One is that they do not require a throttle to turn on the motor. In addition, they can also be found in the bottom bracket.

Another key feature of a torque sensor is that it can measure every input. By doing so, the torque sensor can amplify the pedaling forces, and send the information to the controller. The controller then uses the information to control the motor’s speed.