POWER AND PROPULSION
standard, cost and function objectives in EV/HEV development. The course introduces the charging system and finishes with the market prospects of EV. All of the design concepts and practical applications discussed in the course are covered through case problems, examples, and demonstrations. Learning Objectives By attending this training program, you will be able to: • Recognize EV/HEV technical and economic objectives • Explain the mechanism of battery and motors in terms of functionality, control, and integration • Identify efficient EV/HEV architectures such as P1, P2, P3, and P4 • Describe a basic EV marketing strategy Who Should Attend This seminar is intended for anyone not familiar with EV/HEV development and research areas. As the material covered targets a number of technical disciplines, attendees should have a minimum of two years’ experience in EV/HEV development engineering or a B.S. in mechanical, electrical/electronic, or automotive engineering. Additionally, basic technical knowledge in the areas of engines, transmissions, motors, batteries, and electronic control systems is highly recommended. Part 1. Economic and Environmental Factors in NEV Development −− Corolla (Conventional vehicle), Prius HEV (Hybrid), and RAV4 EV (Battery Electric) −− NEV powertrain choice of OEMs −− Life cycle cost of NEV −− Applications of telematics in NEV Part 2. Design and Development of EV −− Architecture of EV −− Performance of EV −− Driving force −− Energy consumption −− Case analysis Part 3. Design and Development of PHEV −− Architecture of PHEV −− Considerations of design parameters of PHEV −− Energy consumption, fuel consumption, emissions and cost −− Case analysis Topical Outline DAY ONE
IV. Advanced EV motor technology −− Advanced EV motor technology route −− IPM permanent magnet synchronous - reluctance synchronous motor technology −− High density lightweight axial magnetic field/hub motor technology −− New structure motor without permanent magnet and rare earth −− Hybrid excitation motor technology for vehicles V. Discussion on EV motor design −− Issues related to the design of inverter-fed EV motor −− Multi-domain integrated forward design method for EV motor based on material characteristics in service −− Examples on multidomain simulation and analysis platform of EV motor and its application −− The use of permanent magnet, winding technology, motor loss, cooling and heat dissipation and inhibition technology of electromagnetic vibration and noise −− Comparison of EV motor design between high voltage (above 60V) and low voltage (below 60V) electrical system Application Development of Electric Vehicles and Hybrid Electric Vehicles: Balancing Economic Objectives and Technical Requirements 2 Days | Classroom Seminar (Available in China Only) I.D.# C1630 More and more stringent emission and fuel consumption regula- tions are pushing the automotive industry towards electrified powertrain and electrified vehicles. This is particularly evident in China, where there is an increased demand for electric (EV) and hybrid electric vehicles (HEV). Infrastructure is being built across the country for convenient charging. It must now be determined how to meet the technical targets for EV/HEV regulations under economic constraints and how to best develop the major ePower- train components (battery and motor). This course will discuss those questions and address the increasing need to understand practical EV/HEV development. Attendees will be provided with the insight needed to develop EVs and HEVs while considering both economic and technical factors. The major components of electrified vehicles (battery and motor) will be discussed in detail. The course begins with reviewing three practical electrified vehicles (Corolla, Prius HEV, and RAV4 EV) and then proceeds on to EV/HEV design and components (motor and battery) development. It addresses the methodology, measuring Instructor: Fee: $575 Surong Huang 1.3 CEUs URL: sae.org/learn/content/c1867/
DAY TWO Part 4. Battery and Battery Management System (BMS) −− Design requirements of battery
−− Security of lithium battery −− Testing and performance
−− Life cycle and recycling of battery −− Battery management system (BMS) −− Charging and infrastructure −− Ni-MH and Li-ion battery technologies
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3 ways to get a no-obligation price quote to deliver a course to your company: Call SAE Corporate Learning at +1.724.772.8529 | Fill out the online quote request at sae.org/corplearning | Email us at corplearn@sae.org
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