25 Mile 36V 250W Swytch eBike kit - for standard front forks (100mm). Instantly turn your regular bicycle into a state-of-the-art eBike with the Swytch conversion kit. Simply replace your regular front wheel with our compact and lightweight 1.5kg hub motor wheel. The handlebar-mounted power pack weighs just 2.5kg and can be attached instantly providing power assistance up to top speeds of 15mph (EU) or 20mph (USA). Also includes easy-fit pedal and brake sensors - simply start pedalling to receive motor assistance, and pull your brakes to for instant motor cut-off. Battery includes a UK/USA/EU charger depending on your region.
Mountain bikes have come a long way since the 80s. Rock Shox showed up and eventually everyone had a hardtail bike. Then came dual-suspension bikes for all sorts of riding styles. My choice was a cross-country bike so I could climb fast and descend fast without the need for big air. Brakes have gone from simple calipers, to grippy Shimano V-Brakes, to bomber hydraulic disk brakes. While all this was going on street-focused eBikes were evolving too. It should be no shock that the technologies would merge to create eMTBs. A lot of people who were part of the mountain biking revolution in the 80s are getting older and eBikes allow them to continue the sport they love later in life. Whether it’s riders dealing with health issues or injuries, or simply just getting older, the emergence of eMTBs makes total sense.
The weekend is approaching, and when the promise of adventure calls, you need a reliable mountain bike to hit the trails on. Lucky for you, the Men's Pitch hardtail is dialed for everything from meandering terrain to singletrack. That's why it has 650b wheels, a plush 100mm-travel fork with Multi-Circuit Damping, and a confidence-inspiring geometry. It's the perfect package for both new rippers and seasoned riders alike.
Controllers for brushed motors: Brushed motors are also used in e-bikes but are becoming less common due to their intrinsic lower efficiency. Controllers for brushed motors however are much simpler and cheaper due to the fact they don't require hall sensor feedback and are typically designed to be open-loop controllers. Some controllers can handle multiple voltages.
E-bikes can be a useful part of cardiac rehabilitation programmes, since health professionals will often recommend a stationary bike be used in the early stages of these. Exercise-based cardiac rehabilitation programmes can reduce deaths in people with coronary heart disease by around 27%; and a patient may feel safer progressing from stationary bikes to e-bikes. They require less cardiac exertion for those who have experienced heart problems.
R&M also provides only top-of-the-line components. You’ll get a Shimano Deore XT Shadow+ 11-speed drivetrain, Shimano Deore XT brakes, and a Fox Float 34 Performance Boost suspension fork with 120mm of travel. You can even upgrade to a 14-speed Rohloff drivetrain. If you’re using it for camping, you can include a rear rack to carry up to 60 pounds of gear along with you.
E-bikes use rechargeable batteries, electric motors and some form of control. Battery systems in use include sealed lead-acid (SLA), nickel-cadmium (NiCad), nickel-metal hydride (NiMH) or lithium-ion polymer (Li-ion). Batteries vary according to the voltage, total charge capacity (amp hours), weight, the number of charging cycles before performance degrades, and ability to handle over-voltage charging conditions. The energy costs of operating e-bikes are small, but there can be considerable battery replacement costs. The lifespan of a battery pack varies depending on the type of usage. Shallow discharge/recharge cycles will help extend the overall battery life.
As my boys were growing up in the 2000s, we would bike together in local parks and I always dreamed of taking them on my favorite big rides when they reached their teenage years. But in 2012 I started getting sick and I didn’t know why. Two years later, after countless doctors visits, tests, and head scratching, I received some bad news from my doctor: somewhere in my adventures, I had contracted Lyme Disease. My life has never been the same.
This Saturday, Oct. 7, Tim Sway will showcase his “UpTriCycle” at the Greater Hartford Mini Maker Faire. Sway calls the UpTricycle an “off grid, electric, solar charging mobile maker space and carrier for upcycling makers.” He uses minimal tools and footprints in his creation for unlimited potential. On his YouTube page, Sway made a comparison video between a gas-powered trike and an electric trike. He purchased a gas-powered trike first,...
Not all e-bikes take the form of conventional push-bikes with an incorporated motor, such as the Cytronex bicycles which use a small battery disguised as a water bottle. Some are designed to take the appearance of low capacity motorcycles, but smaller in size and consisting of an electric motor rather than a petrol engine. For example, the Sakura e-bike incorporates a 200 W motor found on standard e-bikes, but also includes plastic cladding, front and rear lights, and a speedometer. It is styled as a modern moped, and is often mistaken for one.
Just recently my son came to me with this idea of getting an eBike so we could ride together again. He shared some YouTube videos of guys riding these new bikes on technical terrain I dreamed of doing again. I was intrigued enough to test ride an eBike at a bike shop near my home. The salesperson took me out for a long hilly spin on a dual-suspension demo bike and I was impressed. The motor is adjustable from barely noticeable to seriously helping on the uphills. It doesn’t propel a rider like a motorcycle does, instead it just gives a boost to the rider’s normal pedaling of the bike. This assist mode can be turned off too.
The downhill performance is our most highly weighted rating metric because we feel that the most important element of an e-bike is how well it performs out on the trail, especially when bombing down the hill. Each tester rode every bike numerous times and formulated their own opinions of each model, considering how factors like the component spec, geometry, and frame design play a role in its downhill performance. All of the e-bikes we tested were fun to ride, way more fun than any of our non e-bike riding test team ever expected, but they all had a different demeanor and trail manners. To test this, we rode the bikes downhill, a lot, and took them down a variety of terrain, from fast and flowing open trails to tight low-speed technical, and everything in between.
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.
Introducing a fully integrated, electric-assist mountain bike that takes our Altitude’s legendary handling and ride quality and adds a compact, powerful drive system. The new Powerplay™ drive system was designed in parallel with the frame, delivering ultra-short chainstays, optimised suspension kinematics, super-low centre of gravity, and class-leading torque. The result is an e-MTB that actually rides like a proper mountain bike—perfect for everything from self-shuttling all mountain trails, finding flow between the descents, and squeezing in power lunch rides.
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.
In a friction drive motor, a small, solid wheel rotates against the side of the tire in order to drive it. The first motorcycles used the same concept, with a motor mounted above the front wheel. The problem is that the drive rubs at the side of the tire. It's inefficient, and it quickly wears the sidewall away. Tires need to be replaced every couple hundred miles. For this reason, you'll seldom see electric bikes with this type of drive anymore.
I really wanted to love this bike, I've only had it a few days, and it's probably too soon for a review, but I can see some issues with the bike. I'll start with the good, it was here 2 days after I ordered it which was amazingly fast shipping, the bike was easy to assemble, very sturdy and high quality looking and feeling, and even came with a nice tool set for assembly and a bell and water bottle, pretty good saddle, and I was very happy with the price, if it performs as I hope it will. Now the bad, as soon as I get a quarter mile from the house my battery indicator light goes from green to yellow, that is way too soon for the battery on a bike with this alleged range to be at "half life?". I have read in other reviews many have the same issue and say that it is just "inaccurate " and to "not pay attention to that" but it is disconcerting to me. Also the bike does not have the power I was expecting, it is truly a "peddle assist" bike, and not a throttler, the bike basically wants you to peddle and works best as you peddle, in fact the motor actually cuts on and off based on you peddling, in addition to cutting on with throttle, don't get me wrong it will power through on throttle alone on a flat surface pretty well, but if you expect not to do much peddling at all, this is not the bike for you. The fit of the bike isn't great for me, I am 6'2 and the fit for me is a bit awkward, ie: the bike is a bit small for me, anyone my height or taller may want to look at other options, and I can't raise the handle bars at all I don't think, although I believe you can change the angle of them. I've only taken it for 3 short rides as of yet and I was reasonably satisfied with the bikes response and power for my needs on these short trips, but I will have to take a few longer rides before I can give a more complete opinion. The bike is an eye catcher and I see people staring at it everywhere which is cool, I will update as long as I continue to own the bike, but I'm still a bit on the fence about it.
The new Electric Bike Kit Owners group on Facebook has taken off within the first week of its creation. Around 400 people have joined the online group with new members being added every day. E-bike riders are sharing the various ways that they have converted their bikes using the E-BikeKit Complete Electric Bike Conversion System. Each one of the electric bike conversions is more unique than the next. Some e-bike...
Introducing the future of performance and comfort, the Kinekt BodyFloat seatpost. The innovation isolation system, designed here in Washington, greatly enhances the endurance and enjoyment of riding a bike. Engineered to be infinitely tunable to fit your personal riding style and weight, Seattle Electric Bike is proud to offer this breakthrough seatpost for all your biking adventures.
Because the power is applied through the chain and sprocket, power is typically limited to around 250–500 watts to protect against fast wear on the drivetrain. An electric mid-drive combined with an internal gear hub at the back hub may require care due to the lack of a clutch mechanism to soften the shock to the gears at the moment of re-engagement. A continuously variable transmission or a fully automatic internal gear hub may reduce the shocks due to the viscosity of oils used for liquid coupling instead of the mechanical couplings of the conventional internal gear hubs.