Introduction to hybrid vehicle system modeling and control
This is an engineering reference book on hybrid vehicle system analysis and design, an outgrowth of the author's substantial work in research, development and production at the National Research Council Canada, Azure Dynamics and now General Motors. It is an irreplaceable tool for helping engin...
| Autor principal: | |
|---|---|
| Formato: | Libro electrónico |
| Idioma: | Inglés |
| Publicado: |
Hoboken, N.J. :
Wiley
c2013.
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| Materias: | |
| Ver en Biblioteca Universitat Ramon Llull: | https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009849127106719 |
Tabla de Contenidos:
- INTRODUCTION TO HYBRID VEHICLE SYSTEM MODELING AND CONTROL; CONTENTS; Preface; Nomenclature; Abbreviations; 1 Introduction; 1.1 General Architectures of Hybrid Electric Vehicle; 1.1.1 Series Hybrid; 1.1.2 Parallel Hybrid; 1.1.3 Series-Parallel Hybrid; 1.2 Hybrid Vehicle System Components; 1.3 Hybrid Vehicle System Analysis; 1.3.1 Power Flow of Hybrid Vehicles; 1.3.2 Typical Drive Cycles; 1.3.3 Vehicle Drivability; 1.3.4 Vehicle Fuel Economy and Emissions; 1.4 Controls of Hybrid Vehicle; References; 2 Basic Components of Hybrid Vehicle; 2.1 Prime Mover; 2.1.1 Gasoline Engine
- 2.1.2 Diesel Engine 2.1.3 Fuel Cells; 2.2 Electric Motor with DC/DC Converter and DC/AC Inverter; 2.3 Energy Storage System; 2.3.1 Energy Storage System Requirements for Hybrid Vehicles; 2.3.2 Basic Types of Batteries for Hybrid Vehicle System Application; 2.4 Transmission System in Hybrid Vehicle; References; 3 Hybrid Vehicle System Modeling; 3.1 Modeling of Internal Combustion Engine; 3.2 Modeling of Electric Motor; 3.3 Modeling of Battery System; 3.4 Modeling of Transmission System; 3.4.1 Modeling of Clutch and Power Split Device; 3.4.2 Modeling of Torque Converter
- 3.4.3 Modeling of Gear Box 3.4.4 Modeling of Transmission Controller; 3.5 Modeling of Final Drive and Wheel; 3.6 Modeling of Vehicle Body; 3.7 PID-Based Driver Model; References; 4 Power Electronics and Electric Motor Drives of Hybrid Vehicle; 4.1 Basic Power Electronic Devices; 4.1.1 Diodes; 4.1.2 Thyristors; 4.1.3 Bipolar Junction Transistors; 4.1.4 Metal-Oxide-Semiconductor Field Effect Transistors; 4.1.5 Insulated Gate Bipolar Transistors; 4.2 DC/DC Converter; 4.2.1 Basic Principle of DC-DC Converter; 4.2.2 Step-Down (Buck) Converter; 4.2.2.1 Steady-State Operation
- 4.2.2.2 Output Voltage Ripple 4.2.3 Step-Up (Boost) Converter; 4.2.4 Step-Down/Up (Buck-Boost) Converter; 4.2.5 DC-DC Converters Applied in Hybrid Vehicle Systems; 4.2.5.1 Isolated Buck DC-DC Converter; 4.2.5.2 Four-Quadrant DC-DC Converter; 4.3 DC-AC Inverter; 4.3.1 Basic Concepts of DC-AC Inverters; 4.3.2 Single-Phase DC-AC Inverter; 4.3.3 Three-Phase DC-AC Inverter; 4.4 Electric Motor Drives; 4.4.1 BLDC Motor and Control; 4.4.1.1 Operation of BLDC Motor; 4.4.1.2 Torque and Rotating Field Production; 4.4.1.3 BLDC Motor Control
- 4.4.1.4 BLDC Motor Torque-Speed Characteristics and Typical Technical Parameters 4.4.1.5 Sensorless BLDC Motor Control; 4.4.2 AC Induction Motor and Control; 4.4.2.1 Basic Principle of AC Induction Motor Operation; 4.4.2.2 Controls of AC Induction Motor; 4.5 Plug-In Battery Charger Design; 4.5.1 Basic Configuration of PHEV/BEV Battery Charger; 4.5.2 Power Factor and Correcting Techniques; 4.5.3 Controls of Plug-In Charger; References; 5 Energy Storage System Modeling and Control; 5.1 Introduction; 5.2 Methods of Determining State of Charge; 5.2.1 Current-Based SOC Determination
- 5.2.2 Voltage-Based SOC Determination
