Electric Bicycles: A Guide to Design and Use (IEEE Press Series on Electronics Technology)

Electric Bicycles: A Guide to Design and Use (IEEE Press Series on Electronics Technology) Review

Design or build a battery-powered electric bicycle

For much of the world, bicycles are a transportation mainstay. Electric bicycles--powered by a rechargeable battery pack--are proven to deliver the highest possible energy efficiency, even compared to pedal bikes. A transportation alternative to fossil fuels, electric bicycles are fast catching on, in part because they don't require factory assembly. End-users can easily construct them with available components.

The text reveals important techniques, data, and examples that allow readers to judge various propulsion setups--used in both home- and factory-made bikes--and estimate speed and travel distance for each. Numerous charts clearly present the costs, benefits, and trade-offs between both commercial and user-converted models.

Key features include:

• Estimating motor-performance for wind, hill, and cruising power requirements
• Estimating battery capacity and a thorough description of battery charging
• Motor and motor-control options
• Evaluating motor-to-wheel coupling options
• Placement of propulsion components
• Configurations and performance
• How systems-engineering techniques can produce electric-bicycle designs that have long travel range and low life-cycle cost
• Testing
• Developments to watch

A comprehensive resource for harnessing innovation, Electric Bicycles is the definitive practical guide to taking full advantage of this exciting alternative energy technology.

Build Your Own Electric Bicycle (TAB Green Guru Guides)

Build Your Own Electric Bicycle (TAB Green Guru Guides) Review

A Step-by-Step Guide to Building an Electric Bicycle From the Ground Up

Filled with do-it-yourself project, this hands-on manual gives you all the technical information and easy-to-follow instructions you need to assemble and customize an electric bike.

Build Your Own Electric Bicycle gets you on the road on a reliable, economical, environmentally friendly ride. Inside, you'll find complete coverage of every component, including motors, controllers, batteries, and frames, as well as details on soldering, electrical wiring, safety, and other essential skills. The book covers commercially available electric bicycles and shows you how to make modifications and upgrades for improved power, speed, range, and safety. Pictures, diagrams, and charts illustrate each step along the way. With this how-to guide on hand, you'll be riding your own tricked-out electric bike in no time!

BUILD YOUR OWN ELECTRIC BICYCLE COVERS:

• Energy savings and environmental benefits
• Electrical, battery, and road safety
• Long-range, folding, and high-power bikes
• Hub motor kits
• Motors, controllers, and batteries
• Electrical connections and wiring
• Brakes
• Troubleshooting, maintenance, and repair
• Performance and safety modifications

Build Your Own Electric Bicycle (Tab Green Guru)

Build Your Own Electric Bicycle (Tab Green Guru) Review

A Step-by-Step Guide to Building an Electric Bicycle From the Ground Up

Filled with do-it-yourself project, this hands-on manual gives you all the technical information and easy-to-follow instructions you need to assemble and customize an electric bike.

Build Your Own Electric Bicycle gets you on the road on a reliable, economical, environmentally friendly ride. Inside, you'll find complete coverage of every component, including motors, controllers, batteries, and frames, as well as details on soldering, electrical wiring, safety, and other essential skills. The book covers commercially available electric bicycles and shows you how to make modifications and upgrades for improved power, speed, range, and safety. Pictures, diagrams, and charts illustrate each step along the way. With this how-to guide on hand, you'll be riding your own tricked-out electric bike in no time!

BUILD YOUR OWN ELECTRIC BICYCLE COVERS:

• Energy savings and environmental benefits
• Electrical, battery, and road safety
• Long-range, folding, and high-power bikes
• Hub motor kits
• Motors, controllers, and batteries
• Electrical connections and wiring
• Brakes
• Troubleshooting, maintenance, and repair
• Performance and safety modifications

The Electric Bicycle Handbook

The Electric Bicycle Handbook Review

The Electric Bicycle Handbook Feature

• Electric Bicycle component guide
• Electric Bicycle trouble shooting
• Electric Bicycle DIY conversion procedure

Join Nick Rothman, "The Green Gear Head" for the ultimate how to manual on Ebike conversion and maintenance. Color cover and black and white inside, an in depth description of how to install Ebike components on your own bicycle and trouble shoot any Ebike. - Use the component selection guide to help choose the best motor , controller, batteries and chargers for your needs - Detailed comparison of the most popular hubmotors on the market - Introduction to "Through the gears" drive systems - Learn about R/C motors and Batteries - Learn how to convert your bike into an Ebike in one hour - Learn how to troubleshoot and fix any Ebike

Electric Bicycles: A Guide to Design and Use (IEEE Press Series on Electronics Technology)

Electric Bicycles: A Guide to Design and Use (IEEE Press Series on Electronics Technology) Review

Design or build a battery-powered electric bicycle

For much of the world, bicycles are a transportation mainstay. Electric bicycles--powered by a rechargeable battery pack--are proven to deliver the highest possible energy efficiency, even compared to pedal bikes. A transportation alternative to fossil fuels, electric bicycles are fast catching on, in part because they don't require factory assembly. End-users can easily construct them with available components.

The text reveals important techniques, data, and examples that allow readers to judge various propulsion setups--used in both home- and factory-made bikes--and estimate speed and travel distance for each. Numerous charts clearly present the costs, benefits, and trade-offs between both commercial and user-converted models.

Key features include:

• Estimating motor-performance for wind, hill, and cruising power requirements
• Estimating battery capacity and a thorough description of battery charging
• Motor and motor-control options
• Evaluating motor-to-wheel coupling options
• Placement of propulsion components
• Configurations and performance
• How systems-engineering techniques can produce electric-bicycle designs that have long travel range and low life-cycle cost
• Testing
• Developments to watch

A comprehensive resource for harnessing innovation, Electric Bicycles is the definitive practical guide to taking full advantage of this exciting alternative energy technology.