EV SANLAB Learning

Automotive Electronics

Through the automotive electronics scenario, participants will learn to read and interpret block diagrams for systems like ABS, ESP, and TCS. This essential skill helps them diagnose and repair vehicle electronic systems effectively. Additionally, they will gain a deeper understanding of how these systems interact to enhance vehicle safety and performance.

Informative Scenarios >

Learning Objectives

Scenario introduces the essential concepts required for reading and interpreting block diagrams in automotive electronics. Participants will learn the structure and purpose of these diagrams, gaining practical skills for understanding how they represent the components and systems within a vehicle. By developing the ability to decode and interpret block diagrams, participants will enhance their skills in diagnosing and troubleshooting electronic issues in vehicles, preparing them for real-world challenges.

  • Learn to read and interpret block diagrams used in automotive electronics, focusing on understanding system functions, signal flow, and component interactions within the vehicle.

  • Develop the ability to analyze information presented in block diagrams, building essential skills needed to effectively diagnose, troubleshoot, and optimize the performance of vehicle electronic systems in various situations.

  • Prepare for real-world applications by mastering the principles of block diagrams, equipping yourself with the knowledge required to handle more advanced tasks in automotive electronics during fieldwork and repairs.

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About the Electric Vehicle Training Simulator

Main Learning Objective

Introduction to Automotive Electronics Block Diagrams

Participants will gain an understanding of block diagrams in automotive electronics, with a focus on systems like ABS, ESP, and TCS. This foundational knowledge is essential for interpreting complex electronic systems in vehicles.

Reading and Interpreting Block Diagrams

Using practical examples from the training environment, such as the ABS system visualized in the diagram, participants will learn to read and interpret block diagrams. They will develop the ability to identify system components and understand their interactions.

Applying Diagram Knowledge to Fieldwork

Through exercises that simulate real-world applications, such as diagnosing braking and control systems (ABS, ESP, TCS), participants will gain the skills needed to apply block diagram analysis in automotive electronic diagnostics.

Building Confidence in System Diagnostics

Participants will work hands-on with simulated systems, using diagrams to identify issues and troubleshoot malfunctions, helping them gain confidence in diagnosing and resolving problems before working on actual vehicles.

Other Scenarios

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Components of Electric Vehicle Batteries

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

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Hybrid Vehicle Technology

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

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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.

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Embedded Systems in Automotive Electronics

Scenario introduces embedded systems in automotive electronics, covering their functions and roles in vehicles.