Dan has a lifetime of experience with bicycles and is a hands-on expert when it comes to converting bicycle to electric. Dan is the person you will most likely converse with on Live Chat. He can assist with diagnosing any issues and he is more than happy to enlighten those who ask on almost any topic related to electric bikes. Dan has been riding electric bikes almost daily since 2008...
A 2008 market survey showed that the average distance traveled in the Netherlands by commuters on a standard bicycle is 6.3 kilometres (3.9 mi) while with an e-bike this distance increases to 9.8 kilometres (6.1 mi). This survey also showed that e-bike ownership is particularly popular among people aged 65 and over, but limited among commuters. The e-bike is used in particular for recreational bicycle trips, shopping and errands.
China has experienced an explosive growth of sales of non-assisted e-bikes including scooter type, with annual sales jumping from 56,000 units in 1998 to over 21 million in 2008, and reaching an estimated fleet of 120 million e-bikes in early 2010. This boom was triggered by Chinese local governments' efforts to restrict motorcycles in city centers to avoid traffic disruption and accidents. By late 2009 motorcycles are banned or restricted in over ninety major Chinese cities. Users began replacing traditional bicycles and motorcycles and e-bike became an alternative to commuting by car. Nevertheless, road safety concerns continue as around 2,500 e-bike related deaths were registered in 2007. By late 2009 ten cities had also banned or imposed restrictions on e-bikes on the same grounds as motorcycles. Among these cities were Guangzhou, Shenzhen, Changsha, Foshan, Changzhou, and Dongguang.
E-bikes are zero-emissions vehicles, as they emit no combustion by-products. However, the environmental effects of electricity generation and power distribution and of manufacturing and disposing of (limited life) high storage density batteries must be taken into account. Even with these issues considered, e-bikes are claimed to have a significantly lower environmental impact than conventional automobiles, and are generally seen as environmentally desirable in an urban environment.
Electric mountain bikes (eMTBs) are relatively new on the scene and mountain bikers are freaking out. “They shouldn’t be allowed on our trails.” “They are going to ruin the sport.” It reminds me of when the first mountain bikes started popping up on trails and hikers were panicking with visions of crazed bikers running them over. Well, their fears never materialized and mountain bikes have become popular tools for exploring the outdoors responsibly.
You should be extra aware about your local regulations as in many countries an L1e-A certified bike needs to be registered and insured (be sure to consult your local laws and rules) and with registration comes the security that the bike can be tracked if it is stolen or misplaced. This approval that we have received is European Union wide and even those countries that are not part of the EU but rather EEA do adopt similar regulations in order to keep the market common but you will need to consult with your authorities. We will detail more about the registration process in an upcoming blog post but if you have any questions you can email us and we will respond in kind.
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.
It means you can fit much more riding into one session. Or if you want to cover more distance (as often the best riding spots are quite far apart here in the UK) e mountain bikes are perfect for the job. All the usual MTB configurations are available – everything from wheel size to forks and more, and there’s the choice of hardtail or full suspension electric mountain bike too.
E-bikes mostly use motors and battery options from a few major suppliers: Bosch, Yamaha, Shimano, and Brose. A few other brands exist, but are less reliable or powerful. Some, like the Yamaha system, have more torque and others are quieter. But generally all four make good options. Look for motor output (in watts) which will give you an idea of total power. But watt hours (Wh) is perhaps a better figure to use—it takes into account battery output and life to give a truer reflection of power.
In Stock & Free Shipping Now! Please note that due to European anti-dumping duties, Eu Plug and UK Plug will increase by US$70 in one month. HIGH-QUALITY MATERIAL: The electric bikes adopt 100 percent aluminum alloy frame, the front fork is made of high-strength carbon steel and packed with premium comfort shock absorption, and also double layer aluminum alloy 26-inch wheel BRAKE & GEAR SHIFT SYSTEM: This electric bike with front and rear disc brakes and 21-speed transmission system, you can choose any speed according to your needs. The perfect brakes fully protect your safety. And the horn and the...
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. 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.