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.
But it is not complicated to see the detrimental effects that these policies very likely could cause. Simple high school AP Economics taught me that this won’t be good for either China or the US in the long-term. Even if a country can produce multiple items better or cheaper than another country can produce them, it is always in both countries’ best interest to focus their resources on their most skilled areas, and trade with other countries for the products they can’t produce as well domestically.
Stark Drive has always included a front head light by default at no charge for safety with the rear brake light being optional for those who needed this. Now we have reconfigured the homepage so that the rear headlight options i clearly visible and availble without needing to compllicate matters by adding it from our accessories page. We highly recommend a rear brake light no matter what motor you choose for Stark Drive.
Though aside from the extra battery and abundance of included accessories, Riese and Muller’s use of a Gate’s belt drive means no shifting of gears, no greasy maintenance, and much higher durability. If you have the money to spend, Riese and Muller’s Delite nuvinci is one of the best on the market and an ebike we just couldn’t get enough of during our own tests.
BATTERY POWER The Lithium-Ion Manganese battery power pack is lightweight, technologically advanced, and safe. EcoBike battery packs are UL and CE approved, exceeding safety and quality standards in the U.S. and E.U. EcoBike batteries are specially designed and manufactured for the EcoBike by a subsidiary of Lenovo / IBM ThinkPad. These batteries deliver the maximum consistent output and longevity. EcoBike batteries have been tested and proven, with over 100,000 units manufactured and a failure rate of less than 1%.
A letter from Casey Evans to Electric Bike Technologies, makers of the E-BikeKit™ electric bike conversion kit system. This one of kind adaptive electric stroller was designed by students from California State University-Sacramento using two 500w direct-drive hub motors controlled by a single E-BikeKit system. Thank you for enabling me to take my daughter hiking! My name is Casey Evans and my daughter, Montel, was born with a very rare...
Cape Fear Community College students are utilizing the E-BikeKit™ electric bike kit in the designing and building of their own electric bicycles! ORIGINAL ARTICLE POSTED by the Port City Daily staff "CFCC student-built electric bikes to be in Azalea Fest parade Some innovative designs by Cape Fear Community College students will be featured in this year’s N.C. Azalea Festival. For the past year, students in CFCC’s mechanical engineering program have been hard...
By 1898 a rear-wheel drive electric bicycle, which used a driving belt along the outside edge of the wheel, was patented by Mathew J. Steffens. Also, the 1899 U.S. Patent 627,066 by John Schnepf depicted a rear-wheel friction “roller-wheel” style drive electric bicycle. Schnepf's invention was later re-examined and expanded in 1969 by G.A. Wood Jr. with his U.S. Patent 3,431,994. Wood’s device used 4 fractional horsepower motors; connected through a series of gears.
Rumour has it, the Gazelle is Europe’s most popular electric bike. We can see why. Right from the off, the bike oozes comfort. Its classic Dutch sit-up-and-beg geometry combined with pedal assist makes it a smooth, comfortable, almost effortless ride. The Bosch mid-mounted motor (in the bottom bracket shell) delivers impressive, even power with four settings selectable via the left-hand handlebar mounted button and displayed on the central Intuvia LCD display.
The riding position is racy, and we suffered a numb left hand after 45 minutes of riding due to a combination of the Bullhorn bars and the narrow position adopted to cover the ‘sissy’ brakes in traffic (picking a flat bar model would be more practical for city commuting). The biggest drawback to the Soho is that on a single-speed the 15.5mph cut-off (for all e-bike motors in Europe) left us feeling like we’d been "deserted". Over the cut-off speed we found ourselves dragging that heavy back wheel with no alternate gears to reach for.
Electric bikes are here in a big way. Liberated from some of the normal constraints of standard bike design like weight and gearing, e-bike design has exploded; if you can imagine it, someone has built it. From cargo bikes to city bikes, messenger bikes to mountain bikes, road bikes, and even beach cruisers, there is something for everyone. The beauty of e-bikes is they make the joy of cycling accessible to so many people in so many ways.