ELECTRICAL/ELECTRONICS AND ELECTRONIC SYSTEMS
• Magnetic Circuits −− Basic concepts of magnetic circuits, electrical equivalence −− Application of governing laws −− Magnetic force/torque production −− Non-Linear magnetic material behavior −− Losses and efficiency • Magnetic Materials • Fundamental Machine Theory, Performance/Analysis, Construction −− Electric machine classification −− HEV system requirements −− Transformers −− Permanent magnet synchronous machines −− Squirrel cage induction machines −− Synchronous reluctance machines −− PM assisted synchronous reluctance (PMASR) machines −− DC Machines −− Flux modulating machines • Numerical Methods for Electromagnetic Analysis, an introduction • Non-Electromagnetic Design and System Considerations
Robust design of every component of a system requires a clear understanding of the fundamentals as well as the working knowledge of all interface equipment including the latest in applicable material and cooling technologies. Since the multidisciplinary challenges in designing an electric machine must meet often-conflicting requirements such as cost, efficiency, size, weight, reliability, etc., it is important that an engineer with specialization in one discipline has working knowledge of other relevant disciplines along with the latest analysis techniques. The goal of this course is to introduce the fundamental physics-based principles that govern the operation of electric machines. Learning Objectives By attending this seminar, participants will be able to: • Describe the operating principles of an electric machine • Provide examples of conflicting requirements • Explain the role of team members and the need for a multidisciplinary approach to design, build, test and successfully produce an electric machine • Choose the right electric machine for a given application • Identify the different categories of DC and AC machines • Identify the major differences between the different type of electric machines such as DC brushless, induction, PM, reluctance machine, etc. • Define/identify the torque/power vs. speed requirements for a specific functionality • Identify key subsystems of an electric machine such as stator, rotor and the auxiliaries including their components Who Should Attend This course is designed for engineers and managers who deal with linear or rotary motion either to convert electrical power to mechanical power or vice versa but have little or no background in how an electric machine works either independently or in a system. Gaining this familiarity and fundamental understanding could help avoid making wrong decisions that can adversely impact the company financials as well as reputation. Prerequisites An engineering degree is desired; other individuals who are knowledgeable of college level physics would also find the information valuable. Topical Outline • Introduction and Goals of the Course • Application Space - Where do we Need Linear/Rotary Motion? EVERYWHERE! • Automobile Specific Electric Machines – PM, Induction, Reluctance • Electromagnetic Fundamentals
Instructor: Fee: $835
Manoj Shah
.8 CEUs
URL:
sae.org/learn/content/c1870/
High Voltage Safety and PPE 2 Hours | On Demand Course I.D.# PD291807
High Voltage Safety & PPE (Personal Protection Equipment) is a necessary and important course to complete when planning to diagnose or repair hybrid or electric vehicles. This on-demand course, from SAE training partner FutureTech* will provide information on how to test high voltage gloves, when and where to send high voltage gloves for periodic testing, and how to safely use the proper test equipment for measuring high voltage components in live and disabled high voltage systems. At the conclusion of this course, you will know how to care for and test high voltage gloves which, test equipment to purchase and how to use it, and how to safely make measurements on a high voltage system. Technical information within this course will apply to any electrified vehicle While the duration of the course is one hour, the estimated time to completion, including knowledge checks and the final learning assessment, is two hours. Learning Objectives By participating in this On Demand Course, you will be able to: • Select High Voltage Electrical Safety gloves
−− Ampere’s Law −− Faraday’s Law −− Gauss’s Law −− Maxwell’s equations
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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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