ELECTRICAL/ELECTRONICS AND ELECTRONIC SYSTEMS
• Apply the design features that all diagnostics need for successful implementation • Design diagnostics to comprehend variation • Successfully implement algorithms to track in-use rates in accordance with the CARB OBD II Regulation • Use SAE J1979 to implement generic scan tool support in diagnostic design • Implement OBD design requirements in control system design Who Should Attend This course is designed for engineers involved in either the design or control of on-board diagnostic systems for engines or transmissions for light and medium duty on-road vehicles. Individuals working in the heavy duty industry may also find the information interesting, but should note that the examples will be geared towards spark ignition engines and light and medium duty regulations. In addition, engineers involved in engine and trans- mission hardware will benefit by obtaining a better understanding of the design of OBD systems. Engineers new to the area of OBD system design and engineers involved in the design of control systems wishing to obtain a better understanding of OBD requirements will also find the course valuable. Prerequisites An undergraduate engineering degree or a strong technical background is highly recommended. A basic knowledge of college algebra, college physics, and a familiarity with modern engine or transmission systems is required. Topical Outline DAY ONE • Fundamental Design Objectives for OBD Systems • Basic Design Features for OBD Systems • Exercise: “Customers” and their OBD Requirements • Overview of the World Wide OBD Regulatory Structure • California Air Resources Board (CARB) Regulatory Process • How to use the CARB Light/Medium Regulation −− Malfunction and diagnostic system requirements −− Enforcement of malfunction and diagnostic system requirements DAY TWO • CARB Regulation - an in-depth look at: −− In-use rates −− Comprehensive component requirements • Introduction to a Diagnostic Design Process (Box, Graves, Bisgaard, Van Gilder, et al) • Defining “Good” vs. “Bad” Systems • Exercise: Defining Good vs. Defective Systems • Anatomy of an On-Board Diagnostic • Diagnostic Modeling • Exercise: Induction System Modeling
• Understanding and Dealing with Variation −− Decision making processes −− Design guidelines for Exponentially Weighted Moving Averages (EWMA) DAY THREE • SAE J1979 - An Overview • Exercise: Finding Information in J1979 • System Design for Diagnosibility • Overview of Regulatory Requirements Related to OBD −− In-use Enforcement −− Emissions warranty • OBD Certification Process • The Relationship between the Control and OBD System Design
Instructor:
John Van Gilder, Igor Anilovich, or Francesco Siano
Fee: $1950
2 CEUs
URL:
sae.org/learn/content/c0707/
EMC Design for PCB Design for New Energy Vehicles 2 Days | Classroom Seminar I.D.# C1702 Developing environmentally cleaner and more fuel efficient vehi- cles is transforming the automotive industry worldwide, particu- larly in China with its emphasis on new energy vehicles. There are many engineering challenges that must be addressed in designing effective new energy vehicles. The technical knowledge required to understand and make the right decisions with regard to powertrain architecture, powertrain controls, and energy management strategies is critical to success in this market. This two-day seminar will focus on providing attendees with an overview of hybrid electric vehicle propulsion systems followed by design and control approaches for series, parallel, and plug-in hybrid powertrains. Finally, high efficiency energy management strategies are addressed. To ensure a thorough understanding of the design concepts and practical applications covered in this course, a number of case problems, examples, and demonstrations are utilized. Learning Objectives By attending this seminar you will be able to: • Identify EMC test projects of finished vehicles and parts as well as the nature of EMC testing • Examine EMC design methods • Acquire EMC architecture design methodology for parts, especially those for new energy vehicles • Acquire PCB design method for parts, especially those for new energy vehicles • Identify analysis method for EMC problems
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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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