There are various kinds and classifications of electric bikes on the market, but the more common type is the Class 1, or pedal assist, bikes which have motor units that are activated by pedaling and are limited to lower speeds. In the US, Class 1 electric bikes, the type tested and reviewed here, are limited to a top speed of 20 mph and their motors are designed with a speed governor to regulate this. These types of e-bikes resemble modern mountain bikes, but they have significant battery packs and small motor units integrated onto and into the frame design. The e-MTB pedal-assist motor is typically built around the bottom bracket and provides varying levels of pedaling "support" directly into the drivetrain while the cranks are turning. Most drive unit systems offer several support settings that provide pedal assistance between 25% and 100% of the user's pedaling input.
Two years worth of research and development may seem like a long time for a mountain bike but when you take a closer look at what Rogue Ridge accomplished in that time period we’re confident you’ll appreciate the work. For instance, each offering hosts a best-in-class 1000-watt motor and 13 amp hour battery to help keep this electric fat bike at the ready whenever you are. Also, with said set of fat tires, any terrain from sand to mud; rocks to snow, is within your grasp. Additional features include a full-color digital display, a range of 29 miles without pedaling, and a tech welded 6061 aluminum alloy frame among many others.
Fat E-Trike from Sun and E-BikeKit™ at Interbike 2014 Fat bikes and electric bikes were all the rage this year at interbike in Las Vegas. It seemed almost every bike vendor at the show has at least one fat bike model in their booth this year. On top of the fats were the electric bikes. And I think it goes without saying that nobody wants to actually pedal a fat...
Home is the one place you can feel comfortable in your own skin. You can be yourself, invite people in, or close the door to the world. To be 'at home' on the Ruby is to shut out the negative, to truly relax into who you are. If that's someone who's into the harshest of roads? Relish in them. Or if you want the smoothest ride in the world? Welcome home.
For an overview of Stark Drive Electric Bike, its features and our story click above. Our passion for biking and our determination to take electric bikes mainstream have driven us to create the world’s most affordable electric bike. As technology improves, so will Stark Drive with the caveat that we will always offer the most affordable electric bikes in the world.
While the first functional battery was developed in the year 1800 by Italian physicist Alessandro Volta, a practical battery would not be seen for several decades yet. By the end of the 19th century, practical and portable batteries were more widely available, this finally freeing the electric motor to be used in a wide new array of applications. It might come as a surprise, but the electric motor, battery, and a bicycle were first paired as far back as the 1890s. It would be approximately 100 years later that electric bicycle development finally entered the mainstream, but the technology and concept behind the electric bike were all in place generations ago.
The need to develop a high-performance e mountain bike provoked the launch of the ATOM X project over three years ago. A team of experts was put together from the fields of MTB geometry, suspension and performance, advanced motor, battery and IT technologies. That is how the innovative and patented “X System” came about, which represented an integration that was both ergonomic and different. It was developed until it became the best eMTB with the best of both worlds: high performance and the most advanced electric technology. See the ATOM X e mountain bikes...
When it comes to creating the world's fastest road bike, it isn't enough to tweak a frame's shape and rely on existing technology. Instead, the Venge was birthed from years of development and testing in our own Win Tunnel. We used it develop the individual parts, ensuring that they work together to form an aerodynamic advantage. This meant shaping the frame, seatpost, brakes, and Aerofly handlebars to be faster than the sum of their parts.
Commencal has only just recently entered the electric mountain bike market, and their Meta Power Race 650B+ is a well designed and hard-charging contender, the winner of our Top Pick for Aggressive Riders Award. Commencal has integrated the Shimano Steps E8000 pedal assist motor into their proven Meta frame design, creating a bike that climbs well and also charges downhill. This bike comes to life at speed downhill thanks to a progressive long and slack geometry and a great component spec which is highlighted by a stout Rock Shox Lyrik fork and a plush Super Deluxe Coil rear shock. The Meta Power Race took top honors for its climbing performance, mostly due to the Shimano Steps E8000's consistent power output and extended power band, and testers also loved its e-bike controls, with an ergonomic shifter, best-in-test digital display, and user-friendly charging connection.
…but currently offer only very few advantages, such as a cleaner design and the option to mount a bottle cage in a front triangle. If you want to take a spare battery in your backpack, you will have to struggle with the larger dimensions of the integrated batteries, or you won’t have the possibility to take one with you at all. Depending on the integration, handling the integrated rechargeable battery (e.g. the on-button for Shimano-Intube) can be awkward. Also, the longer battery results in a higher centre of gravity. The fact is that there are good reasons for continuing to use a standard external battery.
The first thing many cyclists do when checking out a new bike is give it a lift to gauge the weight. You’re in for a little scale shock if you try that with an e-bike. The battery, motor, extra components, and reinforced frame make e-bikes inherently heavier than standard bikes—to the tune of about 20 pounds. Modern geometry and engineering help them handle well despite their weight, and obviously the motor-assist makes the extra pounds disappear when you start to pedal. But you’ll need more muscle to get them on your car rack or up and down stairs.
Michael Barnard is a C-level technology and strategy consultant who works with startups, existing businesses and investors to identify opportunities for significant bottom line growth in the transforming low-carbon economy. He is editor of The Future is Electric, a Medium publication. He regularly publishes analyses of low-carbon technology and policy in sites including Newsweek, Slate, Forbes, Huffington Post, Quartz, CleanTechnica and RenewEconomy, with some of his work included in textbooks. Third-party articles on his analyses and interviews have been published in dozens of news sites globally and have reached #1 on Reddit Science. Much of his work originates on Quora.com, where Mike has been a Top Writer annually since 2012. He's available for consulting engagements, speaking engagements and Board positions.
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.
You've gotta get up to get down and one of the purposes of e-bikes is to make it much easier to do so. Since we spend significantly more time climbing than descending, we felt it was important to rate how well these bikes perform when pointed uphill. Climbing on an e-MTB with pedal assist support is somewhat different than climbing on a bike without a motor. These bikes are capable of carrying some serious speed uphill, changing the climbing dynamic with a much faster pace, often tossing finesse out the window in favor of power and momentum. The heavy weight of these bikes and plus-sized tires gives them incredible traction, keeping them planted on the ground, and dampening switches can be left wide open to enjoy the added traction benefits of active rear suspension. Each bike's geometry, handling, and power output all played a role in how well these bikes performed on the ascents, and we had plenty of time to test them while rallying back uphill for more downhill laps.