Battery bikes are not created equal – What to look out for in the best bikes
You pay your money and you take your choice but when you purchase an e bike (also known as Battery Bikes) what are you actually paying for? For whatever reason, many of us still feel the need to assess any bicycle based solely upon its purchase price when we have little regard or understanding of the difference in features, technology or materials that can otherwise have a significant impact on its price and performance.
First up is the battery itself. Battery technology is a very dynamic and fast moving field right now. Though many manufacturers will happily quote the nominal voltage of their machines, often what’s more pertinent is the actual make-up of the battery itself since the different technologies vary wildly in their performance and cost. Lead Acid (Pb) batteries are traditional, old school technology. Invariably found on cheaper machines, they penalise the rider through their increased weight and relatively slow recharge cycle times. Nickel based technologies (Nickel Metal Hydrides or NiMH) are lighter than lead acid batteries and are more user friendly although they do suffer from losing their charge over time even when not in use. Lithium based battery technology offers a welcome reduction in weight, increased energy density and by far better recharge characteristics and shelf life. Laptops and mobile phones are now commonly powered by Lithium based cells and since their adoption in these products (which used to use Nickel based cells), overall size and weights have tumbled whilst run times and performance have increased.
Secondly, the way that the motor is controlled can vary. Some, invariably cheaper e-bikes, employ a simple switch which offers no control over the amount of power that is being made available to the motor. Whilst this is a cheap and workable solution, this can make the bike feel awkward to ride and, if being ridden alongside a friend or partner, both riders have to start together else the gap between the two cannot be easily bridged.
An evolution of the switch is the twist grip which allows the rider to vary the amount of power being sent to the motor. This type of control overcomes many of the drawbacks of the switched operation although it is still effectively powering the motor at all times and requires the rider to continually apply some throttle in order to maintain momentum. batteries for a fishing boat
By far the most technically accomplished solution is the use of a torque sensor within the crank assembly, or a drop out sensor which measures chain tension. This effectively senses how much effort the rider is having to input and increases or decreases the motorised assistance accordingly so as to preserve the battery’s energy and increase the battery bike’s usable distance between charges. As you encounter an incline or need to accelerate, instinctively the rider will push down harder on the forward crank. The sensor picks up on this torque increase and automatically increases the power to the motor but when on a straight, or coasting downhill, the rider needs no power assistance from the motor to maintain their constant speed (as sensed by no torque being input through the crank) and so the system automatically switched off or decreases the power to the motor.