In order to make the final judgement of every bike as objective as possible, the test team includes ex-racers and engineers as well as amateur riders and eMTB newbies. Even if we explored the bikes’ performance on the trail to the limit, we attach as much importance to their everyday usability. A potent and balanced bike which shines on demanding singletrack and is fun to ride should ride just as well on more moderate trails. And even if you’re not taking yourself and your bike to the limit every time you ride, it’s good to know that the bike is prepared for any situation you might feel like throwing at it.
Stop and go with care. Because you’re heavier and faster, it will take longer to slow down and stop. Squeeze your brakes well ahead of intersections. Remember that the bike will accelerate faster than normal, so don’t start pulling out into traffic until it’s fully clear. Also, because the bike has some heft, you may feel wobbly the first few times you get going or slow to a stop. Practice mounting, dismounting, and stopping in safe places before hitting heavily trafficked roads.
Before this test we thought more travel on an e-bike would obviously be better. After all, with the motor flattening out the climbs, why not have the extra suspension firepower to smooth out the descents? Sounds reasonable, doesn’t it? But in the case of the Specialized Turbo Kenevo Expert, the extra travel and weight make the bike less effective and less engaging on all but full-on downhill tracks. And if that’s your bread and butter, the Kenevo could well be the perfect topping. Here in the UK though, the Vitus proved more versatile, just as capable and way better value.
The battery life, however, is outstanding! My brother has a similar e-bike that uses the exact same motor, but mine seems to get nearly double his range. I’m pretty sure that is not the case, but that is what it seems like. I’m pretty sure it’s more like a third, but at any rate, there is a clear difference. 40 miles on a charge, never without throttle assist + heavy throttle use with this amount of power is truly impressive.
E-bikes remain a subject of controversy in mountain biking circles. You may not be able to take one on your favorite singletrack right now, as most non-motorized trails prohibit them. However, things have been tilting in a more permissive direction. Most recently, IMBA, the sport’s largest public advocacy group, shifted its stance to support allowing access for some pedal-assist e-bikes (those that top out at 20 mph) on some trails. With every major manufacturer making e-mountain bikes, more access is likely only a matter of time. “In a few years, people will realize that electric mountain bikes have no more trail impact than a regular mountain bike,” Benjamin says.
This bike appears to be sturdily made and the assembly process was not difficult for anyone accustomed to assembly bikes from their state when shipped. Perhaps, it deserves a 5 star rating and if I was seeking a bike for use on sand dunes, I would probably give it 5 stars, I was looking more of an electric motor assisted bicycle than a motor bike and also found the bike, as a bicycle rather heavy and awkward to use as a bicycle with the fat knobby tires.
Our high performance electric bikes offer high power, predictable handling and near silent operation. If your rides take you up steep single track trails or you just want a bike as light weight as possible, a mid drive system will offer the best hill climbing performance, lighter weight, and better weight distribution. A hub motor system will offer the most reliable day in and day out operation, faster speeds, more power, and is a better overall platform for everyday commuting.
In a parallel hybrid motorized bicycle, such as the aforementioned 1897 invention by Hosea W. Libbey, human and motor inputs are mechanically coupled either in the bottom bracket, the rear wheel, or the front wheel, whereas in a (mechanical) series hybrid cycle, the human and motor inputs are coupled through differential gearing. In an (electronic) series hybrid cycle, human power is converted into electricity and is fed directly into the motor and mostly additional electricity is supplied from a battery.