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Electric bicycles : a guide to design and use / William C. Morchin, Henry Oman.

Colaborador(es): Tipo de material: TextoTextoEditor: Piscataway, NJ : Hoboken, New Jersey : IEEE Press ; Wiley-Interscience, 2015, [2006]Fecha de copyright: ©2006Descripción: xiii, 190 páginas : ilustraciones ; 24 cmTipo de contenido:
  • texto
Tipo de medio:
  • sin mediación
Tipo de soporte:
  • volumen
ISBN:
  • 9780471674191
  • 0471674192
  • 9780471746218
  • 0471746215
Tema(s): Clasificación LoC:
  • TL 410 M66.2015
Contenidos:
1. Electric Bicycles-History, Characteristics, and Uses. 1.1. Introduction. 1.2. History of Bicycles. 1.3. History of Electric Bicycles. 1.4. Some Uses for the Electric-Powered Bicycle. 1.5. Examples of Electric Bicycles. 1.6. Future of Electric Bicycles. 1.7. Laws and Regulations Goveming Electric Bicycles. 1.8. Conclusion -- 2. Fundamentals of Electric Propulsion. 2.1. Introduction. 2.2. Mathematical Model of Bicycle Performance: Power Required. 2.3. Estimating Required Motor Power. 2.4. Selecting a Battery for Minimum Life-Cycle Cost. 2.5. Unique New Two-Wheeled Vehicles -- 3. Sources of Electric Power for Bicycles. 3.1. Introduction. 3.2. Requirements of Batteries for Powering Electric Bicycles. 3.3. Characteristics of Batteries Suitable for Electrlc Bicycle Propulsion. 3.4. Fuel Cells for Powering Electric Bicycles. 3.5. Best New Electric Power Sources for Bicycle Propulsion. 3.6. Bicycle Propulsion Power Sources to Watch -- 4. Battery Charging. 4.1. History of Battery-Charging Technology. 4.2. Basic Functions of Battery Chargers. 4.3. Battery Characteristics Pertinent in Charging. 4.4. Lead-Acid Battery Charging. 4.5. Charger Design for Long Battery Life. 4.6. Smart Chargers for New Nickel-Cadmium, Nickel-Metal Hydride, and Lithium Batteries. 4.7. Smart Batteries for Smart Chargers. 4.8. Self-Discharge Rate of Nickel and Lithium Cells. 4.9. Recoverable Energy. 4.10. Solar Panel Battery Chargers -- 5. Motors and Motor Controllers. 5.1. Fundamental Principles of Electric Motors. 5.2. Motor Characteristics for Electric Bicycle Propulsion. 5.3. Gear Ratio Determination. 5.4. Motor Control -- 6. The System Design. 6.1. Introduction. 6.2. Setting up the Electric Bicycle Systems Design. 6.3. Some Examples of Bicycle-System Trades. 6.4. System Design Example --
7. Measurement of Performance -- 7.1. Measuring Propulsion Power to Detennine Propulsion Efficiency. 7.2. Measuring Motor Efficiency Includes Measurement of Motor Power. 7.3. Measuring Battery Characteristics. -- 8. Developments to Watch. 8.1. Bicycle Systems. 8.2. Energy Sources. 8.3. Solar Charging Systems. 8.4. High-Efficiency Motors. 8.5. Controllers.
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Tipo de ítem Biblioteca actual Colección Signatura topográfica Copia número Estado Fecha de vencimiento Código de barras
Libros Biblioteca Francisco Xavier Clavigero Acervo Acervo General TL 410 M66.2015 (Navegar estantería(Abre debajo)) ej. 1 Disponible UIA139890

1. Electric Bicycles-History, Characteristics, and Uses. 1.1. Introduction. 1.2. History of Bicycles. 1.3. History of Electric Bicycles. 1.4. Some Uses for the Electric-Powered Bicycle. 1.5. Examples of Electric Bicycles. 1.6. Future of Electric Bicycles. 1.7. Laws and Regulations Goveming Electric Bicycles. 1.8. Conclusion -- 2. Fundamentals of Electric Propulsion. 2.1. Introduction. 2.2. Mathematical Model of Bicycle Performance: Power Required. 2.3. Estimating Required Motor Power. 2.4. Selecting a Battery for Minimum Life-Cycle Cost. 2.5. Unique New Two-Wheeled Vehicles -- 3. Sources of Electric Power for Bicycles. 3.1. Introduction. 3.2. Requirements of Batteries for Powering Electric Bicycles. 3.3. Characteristics of Batteries Suitable for Electrlc Bicycle Propulsion. 3.4. Fuel Cells for Powering Electric Bicycles. 3.5. Best New Electric Power Sources for Bicycle Propulsion. 3.6. Bicycle Propulsion Power Sources to Watch -- 4. Battery Charging. 4.1. History of Battery-Charging Technology. 4.2. Basic Functions of Battery Chargers. 4.3. Battery Characteristics Pertinent in Charging. 4.4. Lead-Acid Battery Charging. 4.5. Charger Design for Long Battery Life. 4.6. Smart Chargers for New Nickel-Cadmium, Nickel-Metal Hydride, and Lithium Batteries. 4.7. Smart Batteries for Smart Chargers. 4.8. Self-Discharge Rate of Nickel and Lithium Cells. 4.9. Recoverable Energy. 4.10. Solar Panel Battery Chargers -- 5. Motors and Motor Controllers. 5.1. Fundamental Principles of Electric Motors. 5.2. Motor Characteristics for Electric Bicycle Propulsion. 5.3. Gear Ratio Determination. 5.4. Motor Control -- 6. The System Design. 6.1. Introduction. 6.2. Setting up the Electric Bicycle Systems Design. 6.3. Some Examples of Bicycle-System Trades. 6.4. System Design Example --

7. Measurement of Performance -- 7.1. Measuring Propulsion Power to Detennine Propulsion Efficiency. 7.2. Measuring Motor Efficiency Includes Measurement of Motor Power. 7.3. Measuring Battery Characteristics. -- 8. Developments to Watch. 8.1. Bicycle Systems. 8.2. Energy Sources. 8.3. Solar Charging Systems. 8.4. High-Efficiency Motors. 8.5. Controllers.

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