EV SANLAB Learning

Embedded Systems in Automotive Electronics

Scenario offers a foundational understanding of embedded systems in modern vehicles. Participants explore how these systems function and their crucial role in enhancing vehicle performance, reliability, and safety. Mastering this knowledge is key to comprehending the complex nature of automotive electronics today. Understanding these systems also lays the groundwork for future advancements in automotive technology.

Informative Scenarios >

Learning Objectives

Embedded systems in automotive electronics scenario offers basic insights into the role and functioning of embedded systems in automotive electronics. Participants will explore the core concepts of embedded systems, how they operate within vehicles, and their importance in modern automotive design. Understanding these systems is essential for grasping the overall complexity of modern vehicles.

  • Learn the basic principles of embedded systems, their structure, and their purpose in automotive electronics. Understanding these concepts is fundamental to grasping how they control and optimize a variety of vehicle functions, from engine management to safety features.

  • Explore the various roles of embedded systems. These systems provide critical support for modern vehicle designs, improving vehicle functionality, reliability, and user experience.

  • Deepen your technical expertise by exploring how embedded systems integrate with other vehicle electronics and prepare yourself for complex diagnostic and troubleshooting tasks.

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About the Electric Vehicle Training Simulator

Main Learning Objective

Introduction to Vehicle Communication Systems

Participants will learn about different communication systems in vehicles, such as CAN, FLEXRAY, LIN, and MOST, and their role in managing electronic systems within electric and hybrid vehicles.

Understanding CAN Bus Systems

Participants will gain a foundational understanding of the CAN Bus system, including its function in reducing the complexity of electronic control units and how it integrates various control systems into a single unit.

Exploring Different Communication Protocols

Participants will explore the characteristics and differences between FLEXRAY, LIN, and MOST communication protocols, focusing on their applications in different automotive electronic systems.

Impact of Communication Systems on Vehicle Operation

Participants will explore how communication systems like CAN, FLEXRAY, LIN, and MOST contribute to the seamless operation of key vehicle components, ensuring optimal coordination and efficiency.

Other Scenarios

Hybrid Vehicle Technology module in EV training simulator, focusing on hybrid systems and components.

Hybrid Vehicle Technology

Scenario aims to provide fundamental information about the operation principles types, and functions high-voltage system and battery systems hybrid vehicles.

Components of Electric Vehicle Battery in EV Training Simulator, highlighting EV battery structure and functionality.

Components of Electric Vehicle Batteries

Scenario aims to provide users with information about the basic components and operating principles of electric vehicle batteries.

Vehicle electronics vehicle comfort systems in EV training simulator, highlighting EV battery structure and functionality.

Vehicle Electronics: Vehicle Comfort Systems

Scenario focuses on the vehicle electronics and comfort systems of hybrid and electric vehicles, specifically measuring the rear window defogger.

Automotive electronics training in Electric Vehicle Training Simulator, focusing on EV system components and diagnostics

Automotive Electronics

This scenario aims to provide users with the ability to understand basic concepts and components in the field of automotive electronics.