But if you’re coming back from injury, looking to ride more miles in a shorter period of time, or just ride further without getting exhausted, then the Turbo Levo is just amazing. This bike is the great equalizer. Some may see that as a negative, lowering the sport’s barrier to entry, but we think more people on bikes can only be a good thing. It will make returning to mountain biking after the birth of a child, an injury, or a stressful period at work much easier. Life happens, the electric assist bikes like this Turbo Levo will help more people ride more often. 
A carbon frame shaves off several hundred grams of weight, of course. However, this is largely irrelevant when it comes to eMTBing. The two major advantages of carbon on eMTBs are, on the one hand, greater freedom in optimising the frame design and, on the other hand, increased stiffness. Thanks to carbon, smooth transitions can be achieved, better facilitating the integration of motor and battery. Unfortunately, the magical black material also has a few potential disadvantages. Carbon has poorer thermal conductivity, which means that heat is dissipated less efficiently with a fully integrated motor, and stiffer is not necessarily always better. Frames and wheels require a certain amount of flex to be comfortable and to generate enough traction through curves. Buying a carbon eMTB can currently only be justified by aesthetics rather than functionality.
“Rather than bolt on a bulky off-the-shelf system, we struck out on our own to redefine the category. The Powerplay system is the result of designing an electric drive for the suspension and geometry needs of proper mountain bikes; in fact, the geometry and pivot points of the Altitude Powerplay are identical to those of the new Altitude. In our opinion this is the first electric bike that actually rides like a mountain bike should.”
Is it sensible to buy an eMTB for well over € 5,000? Probably not. Will you feel cool buying one of these bikes? You most definitely will! These bikes are the supercars and luxury sedans among eMTBs, where the best bike manufacturers in the world have pulled out all the stops regarding design, detail, and technical sophistication. Yet, while some of them tend to remind of a 911 when it comes to handling, others ride like a Hummer H2 – the price tag alone doesn’t predict anything about the actual performance of a bike. In our search for the best eMTB of 2018, we tested the twelve most promising models.
The extra grip a 50lb e-bike normally helps to prevent overshooting corners when on the brakes, and bring pure DH-bike-like fun factor on the steepest trails. This electric Orange, however, rides more like a ‘standard’ enduro bike with a motor, which could be good or bad, depending on your expectations and riding style. It’s built tough and delivers stacks of fun in less time than any regular bike can. Adding a motor hasn’t upset Orange’s superb geometry.
Electric Bike Conversion Kit Systems Now Available from one of USA’s Leading IBD Distributors Philadelphia, PA: Electric Bike Technologies USA, a manufacturer specializing in affordable high-quality electric bicycle conversion kits, announced that their EBikeKit ™ and E-TrikeKit™ systems are now available via J&B Importers. With J&B’s extensive network of authorized dealers, the conversion kit products will now be readily available throughout the country at most local bicycle shops. Of the...

Even if you’re in excellent shape and very fit, you still can get exercise by e-biking. When I did a head-to-head comparison of commuting with my cross bike versus a recreational e-bike, I found that my relative effort was much lower, and I burned about half as many calories, on the e-bike. But I still burned something—up to 200 calories per hour, the equivalent of what you burn by walking. And I opted for quick e-bike rides to town where I would usually drive, which means I was considerably more active overall.

Having a motor bolted to the bottom of a mountain bike that provides pedal assistance is an amazing leveller. The constant torque it applies to the chain rounds out the squarest of pedalling actions, which in turn helps stabilizes the rear suspension and counter pedal induced bob, seamlessly shifting your focus from pedalling efficiency to battery life.

Torque sensors and power controls were developed in the late 1990s. For example, Takada Yutky of Japan filed a patent in 1997 for such a device. In 1992 Vector Services Limited offered and sold an e-bike dubbed Zike.[9] The bicycle included NiCd batteries that were built into a frame member and included an 850 g permanent-magnet motor. Despite the Zike, in 1992 hardly any commercial e-bikes were available.