World Championships, Olympic Gold, more Cape Epic wins than we can count—if a bike were the sum of its accolades, the Epic would sit atop the throne. And to make sure of it, our new Epic features a completely re-designed frame, geometry, and a totally new Brain rear shock that's engineered to read the terrain for the most efficient ride possible, making it the fastest XC bike on the planet.
In response to customer questions about the display, we posted a video detailing the basic setup of the LCD during installation of the kit. You will need to adjust the settings for the motor type, wheel size, and battery voltage in order to match your specific kit.  Detailed instructions are available in the E-BikeKit manual, E-TrikeKit manual and LCD Quickstart Guide

Both land management regulators and mountain bike trail access advocates have argued for bans of electric bicycles on outdoor trails that are accessible to mountain bikes, citing potential safety hazards as well as the potential for electric bikes to damage trails. A study conducted by the International Mountain Bicycling Association, however, found that the physical impacts of low-powered pedal-assist electric mountain bikes may be similar to traditional mountain bikes.[68]
Me: I had a total of seven knee surgeries over 14 months, and man, my fitness took a beating. Getting back on a bike was both liberating and frustrating. I just can’t go as fast, or as far, as I used to. But, you don’t have to fall victim to a flesh-eating bacterial infection during routine a ACL reconstruction to find the idea of an electric mountain bike appealing. 
Catrike Expedition converted with a 26" Performance E-BikeKit This Catrike Expedition was a custom conversion done at Electric Bike Technologies in Croydon, PA. If you have a Catrike Expedition and wish to convert it on your own, the following may help. If you would like to purchase the kit and add-ons used in this conversion, you can order them from our online shop or call us at 866.882.3245 M-F 9am-5pm EST....
As electric bike options continue to expand, more brands are integrating the battery more seamlessly. That makes them look sleeker (and more like a real bike). Batteries are expensive, so make sure there's a good way lock the battery to your bike if you'll be keeping it outside. Overall weight is important. Some battery and motors can add 15 pounds or more to the bike. With assist, you won't feel that much when you're riding, but you will if you have to carry your bike up stairs or lift it onto a bike rack.
The Benno e-Joy promises to be as fun to play with as it is to look at. Benno says it took inspiration from the timeless style of vintage Italian scooters and classic German cars. Add in the functionality of front and rear cargo racks and the 250w pedal-assist motor and you have a beautiful bike that's ready for anything. Cruise into town for groceries, wander comfortably along a gravel path on 2.35-inch balloon tires, or add the child seat attachment and take your kid along for the ride, and beach-goers will appreciate the surfboard rack. Whatever your cycling pleasure pursuit may be, the e-Joy can be your ticket to fun.
My bike and the ones I am discussing in this article are Type 1. I have to agree with the government agencies that bikes that aren’t at least partially human-powered should be not be lumped in with mountain bikes. The faster Type 3 eBikes are okay for street use, but are too fast for trails. But, this little-known taxonomy might cause confusion with regulatory bodies or broad public opinion that sees all eBikes as the same.
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...
All too often, tech breakthroughs are measured in wattage efficiency and seconds saved, but we asked ourselves, 'What about the other things that make for an awesome ride?' The answer takes shape in the Alibi, with tires that'll never go flat, a chain that won't rust, and a geometry that just screams comfort. It's everything you need to hit your goals, whether they're to get in shape or get around town in style.
E-enduro bikes aren’t as different to regular bikes as one might imagine. All of the fundamentals are the same and by nailing the geometry and sizing Vitus has produced an amazing e-bike with the E-Sommet VR.Sure there are a couple of little things we’d probably change, like the STEPS Di2 mode shifter and rear tyre, but that’s about it. And given how much cheaper the Vitus is compared to the competition, you can easily afford to make these changes and even buy a spare battery. The E-Sommet VR is no golf buggy, but Vitus has it’s certainly hit a hole in one with this bike.

So i am 15 years old. I drive to school every single day and go to the gym about 4 times a week. My bike is starting to let me down, and in march i will be 16. I want to go immeadietly for my driver license when i can, so i don’t want to study for so long and get my scooter license and pay a couple of thousand to get one, just to do it all over when i go for my driver license. Do you advise me to get my Ebike now? Or wait until i can get my scooter? And if i should get it, do you advise i build my own? I hear it’s like a pc, since you can get the performance of a 2000 dollar ebike with a 600-800 dollar bike you build yourself. Can Anyone advise me on these grounds?
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.
Range is a key consideration with e-bikes, and is affected by factors such as motor efficiency, battery capacity, efficiency of the driving electronics, aerodynamics, hills and weight of the bike and rider.[36][37] Some manufacturers, such as the Canadian BionX or American Vintage Electric Bikes,[38] have the option of using regenerative braking, the motor acts as a generator to slow the bike down prior to the brake pads engaging.[39] This is useful for extending the range and the life of brake pads and wheel rims. There are also experiments using fuel cells. e.g. the PHB. Some experiments have also been undertaken with super capacitors to supplement or replace batteries for cars and some SUVS. E-bikes developed in Switzerland in the late 1980s for the Tour de Sol solar vehicle race came with solar charging stations but these were later fixed on roofs and connected so as to feed into the electric mains.[40] The bicycles were then charged from the mains, as is common today. While ebike batteries were produced mainly by bigger companies in past, many small to medium companies have started using innovative new methods for creating more durable batteries. State of the art, custom built automated precision CNC spot welding machines[41] created 18650 battery packs[42] are commonly used among Do-it-yourself ebike makers.
E-bikes can also provide a source of exercise for individuals who have trouble exercising for an extended time (due to injury or excessive weight, for example) as the bike can allow the rider to take short breaks from pedaling and also provide confidence to the rider that they'll be able to complete the selected path without becoming too fatigued[58] or without having forced their knee joints too hard (people who need to use their knee joints without wearing them out unnecessarily may in some electric bikes adjust the level of motor assistance according to the terrain). A University of Tennessee study provides evidence that energy expenditure (EE) and oxygen consumption (VO2) for e-bikes are 24% lower than that for conventional bicycles, and 64% lower than for walking. Further, the study notes that the difference between e-bikes and bicycles are most pronounced on the uphill segments.[59] Reaching VO2 Max, can really help your body as a whole[60]. Professor Janet Lord of Birmingham University in the UK published a study that looked at older cyclists, ““The study looked at muscle mass, blood cholesterol, their VO2 Max, lung function, and in many of those measures we found they didn’t age! No loss of muscle, their bones were a little thin (but nothing like the general population), their blood pressure didn’t go up.[61]
Whether you need to fly uphill with ease, rip downhill terrain at speed, or your rides simply demand all of the above, we've designed and engineered every mountain bike in our line to be the best performing machines for the way that you ride. From ultra-lightweight XC hardtails to our World-Championship-proven FSR suspension designs found on our trail and downhill bikes, you'll find the ideal setup for your riding style.
The AWOL is equal parts versatility and durability, all in one perfectly balanced package. Whether it's navigating through the urban jungle as your commuter rig or strapping on panniers to explore the back roads less traveled on a bikepacking adventure, the AWOL relishes either challenge. So go ahead, plan your next adventure or see where you daily commute will take you. With the AWOL, the only thing holding you back is your imagination.
Motor: We have a blog post showing some motor differences: https://www.ebikekit.com/blogs/news/its-whats-inside-your-motor-that-counts Cabling is probably the #1 issue when something goes wrong. Good connectors, good cables, and good assembly (bike shop!) are crucial Strain reliefs on all cable joints! Where you have a junction box or a connector, the stress is concentrated over a small area near this stiff spot on the cable. This can cause small breaks on the internal...
It was a close battle and the Specialized Turbo Levo FSR Comp 6Fattie emerged as the winner of our Editor's Choice Award. Our testers universally agreed that it was the most well-rounded performer on the trail and offered a ride that felt the "most like a mountain bike" of the models tested. It was versatile, with a lighter and more nimble feel, yet it still managed to maintain its charging chops and stability at speed. Specialized has done a wonderful job designing their Turbo Levo models with the battery and motor cleanly and stealthily integrated into the frame. The Specialized 1.3 motor also runs so quietly that you'd almost forget you were riding an e-bike if it weren't for all that power. The Turbo Levo FSR Comp 6Fattie wasn't the most powerful e-MTB we tested, but it used its power efficiently and had an impressive distance range that bested some of the competition by 15% or more in our head to head range testing.
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.

We’re an e-bike retailer based in Brooklyn, serving NYC, the rest of the US, and several other countries. Propel grew out of the recognition that e-bikes hold the potential to transform transportation as we know it. We’ve dedicated ourselves to bringing that transformation about since our founding in 2011. We’re pioneering a new industry standard that all the electric bikes we sell must meet, educating legislators so e-bike riders will be treated fairly under the law, and guiding consumers away from expensive pitfalls towards their perfect e-bike match.


The second type of electric bike is a much smaller, often foldable unit designed for convenient urban (or suburban) commuting and for easy storage in minimal space. These compact electric bikes are perfect for trips of a few miles, and many are small and lightweight enough to be carried onto trains or buses, allowing their rider to make use of multiple types of transportation in a single trip, and to store their bike in a closet or even under a desk at work, at school, or at home.
As a household name, Specialized is to be trusted in this world without a doubt. That’s because, in addition to their inventory of pedal-powered machinery, they’ve gone ahead and introduced us to their S-Works Turbo. Here, in conjunction with their custom Trail-tuned motor for off-road use, the Levo FSR frame is constructed entirely of FACT 11m carbon fiber allowing for both a lightweight and stiff ride through the local wilderness. Additional features include instant engagement, heat management, and a silent output for good measure. Not bad Specialized. Not bad at all.
Controllers for brushless motors: E-bikes require high initial torque and therefore models that use brushless motors typically have Hall sensor commutation for speed and angle measurement. An electronic controller provides assistance as a function of the sensor inputs, the vehicle speed and the required force. The controllers generally allow input by means of potentiometer or Hall Effect twist grip (or thumb-operated lever throttle), closed-loop speed control for precise speed regulation, protection logic for over-voltage, over-current and thermal protection. Bikes with a pedal assist function typically have a disc on the crank shaft featuring a ring of magnets coupled with a Hall sensor giving rise to a series of pulses, the frequency of which is proportional to pedaling speed. The controller uses pulse width modulation to regulate the power to the motor. Sometimes support is provided for regenerative braking but infrequent braking and the low mass of bicycles limits recovered energy. An implementation is described in an application note for a 200 W, 24 V Brushless DC (BLDC) motor.[43]
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