E-bikes have become increasingly popular among cycling enthusiasts, and one type that stands out is the KBO electric bike. The pedal-assist system in KBO e-bikes utilizes either the torque or cadence sensor to provide riders with different levels of assistance. Both sensors impact the riding experience, and understanding their differences is essential to help you choose the best e-bike for your needs. In this article, we’ll explore the pros and cons of each sensor to help you make an informed decision. Let’s dive in!
Comparing The Torque Sensor And The Cadence Sensor
Torque Sensor
A torque sensor uses a strain gauge to measure the level of effort the rider uses to push the pedal. After measuring your level of force, it then determines the amount of power the motor releases to boost your efforts. The amazing thing about a torque sensor is its intelligent application of reducing and increasing the motor power in time with the amount of effort applied to the pedals.
Pros
- Longer Range
Electric bikes using torque sensors for propulsion are ideal for riders who want to enjoy long-distance riding. A torque-oriented pedal-assist system works in a way that allows it to conserve battery power, providing riders with more miles for the amount of effort applied. Since the motor is not working at a preset output level, the torque sensor only delivers the amount of power necessary to compliment the rider’s efforts.
- Better Riding
Experienced riders understand the need for a rhythm to be achieved while riding, but this may be difficult on an e-bike with a cadence sensor. Not so for a torque-oriented motor. For every adjustment you make to your pedal-assist level, you get a complimentary amount of motor power to propel the e-bike on your preferred level. This is ideal for riders who want to build the confidence needed for better riding.
Cons
- Requires Rider Effort
It may not be the best idea to ride an e-bike with a torque motor if you have problems with mobility or with your knees and cannot provide the required effort. A torque-oriented motor’s pedal assist system will only release power to propel you when enough effort is applied. Elderly riders may find it uncomfortable to ride an e-bike that requires such effort. It may also not be ideal for an occasion where you don’t want to appear sweaty.
- Muscle Stress
Stressing the muscles is not a problem if you are working out. However, a torque sensor can have you working harder than you intend to. The constant need for complimentary effort means you never really get a moment of rest from pedaling once you begin. For riders who are prone to get out of breath easily while riding, it may take some getting used to. But once you do, your muscles will thank you for it.
Cadence Sensor
Unlike the torque sensor which uses a strain gauge for precision, the cadence sensor uses the number of revolutions made by the pedals. A cadence sensor is designed to release power for propulsion when the sensor detects movement from the pedals. The amount of power released depends on your assist level, although there is usually a peak speed preset for every level by the manufacturers.
Pros
- Convenient Riding
A cadence sensor is perhaps best for enjoying leisurely, moped-type rides. Since the motor has a preset speed limit for every assist level you choose, you can put in any amount of effort or pressure. It will be enough to get the motor of a cadence sensor going. A stable ride and steady speed can be achieved with very little force. Cadence-oriented e-bikes are ideal for riders who prefer a less stressful or convenient approach to riding.
- Better Price
Understandably, not everyone seeking to ride an e-bike is broke. It is not a bad idea to be smart with money given these unpredictable times. A cadence-oriented e-bike is usually sold at a price cheaper than a torque-oriented one. This is because torque sensors are a more recent addition to e-bike manufacturing. If you intend to save some of your e-bike purchase costs, a cadence-oriented sensor will be a better choice.
Cons
- Less Range
Long battery range is only one of the ways the best electric bikes can cater to riders’ needs properly. It can be a bummer when your projection for battery usage does not match your actual power consumption during the ride. This is usually the case for cadence-oriented motors. Due to its mode of operation, the pedal-assist system will have the battery depleting rapidly while trying to keep up with the motor output during rides.
- Virtually Effortless
Enjoying a bike ride without putting in any amount of identifiable work can negate the point of riding a bicycle with pedals. This may not be the case for other riders, however, who only require enough exercise. Cadence-oriented motors still work well for riders with a prescription for moderate exercise or just a desire to venture outside. They are also a good option for riding to places like work and religious centers without sweating.
In Conclusion
Torque and cadence sensors determine the amount of force you put into pedaling to provide relative motor assistance to boost your efforts. The choice is yours to make among the two. Your requirements for an e-bike should be a guide when determining the appropriate motor for you. If you want an e-bike motor that will support your workout and provide the right exercise, the torque sensor will suit your requirements. If your interests lie in an electric bicycle that can do most of the work while you enjoy a leisurely cruise, the cadence sensor should work just fine.
With your needs as a guide, you are less likely to go wrong when choosing the best e-bike for your plans.