EV SANLAB Learning

Components of Electric Vehicle Batteries

Scenario provides an essential overview of electric vehicle batteries, focusing on key components and operating principles. Participants will explore the structure of batteries, including cells and modules, while gaining a solid understanding of energy storage and discharge processes. Additionally, they will learn about various battery types and connection methods, equipping them with the foundational knowledge needed for real-world battery diagnostics and maintenance tasks.

Informative Scenarios >

Learning Objectives

Scenario introduces the essential concepts related to the basic components and operating principles of electric vehicle batteries. Participants will gain a foundational understanding of how these batteries function within electric vehicles. Gaining knowledge of battery components prepares users for real-world battery maintenance and diagnostics.

  • Learn about the main components of electric vehicle batteries, focusing on their structure and role in vehicle operation.

  • Understand the basic principles of how electric vehicle batteries function, including energy storage and discharge processes.

  • Develop the ability to recognize different battery types and their characteristics, preparing for practical applications in the field.

  • Strengthen skills for diagnosing and maintaining battery systems, laying the groundwork for tackling more complex tasks in real-world maintenance and repair situations.

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About the Electric Vehicle Training Simulator

Main Learning Objective

Understanding Electric Vehicle Battery Components

Participants will explore the basic components of electric vehicle batteries, such as cells, modules, and battery packs. This knowledge will provide a solid foundation for understanding battery architecture.

Exploring Battery Connection Types

Participants will learn about different types of connections used in electric vehicle batteries, such as series and parallel configurations. This understanding will be key to grasping how batteries manage power flow and efficiency.

Identifying Different Battery Types

Participants will discover various types of electric vehicle batteries, including lithium-ion, solid-state, and nickel-metal hydride. Understanding the strengths and limitations of each type will help in selecting the right battery for specific applications.

Exploring Battery Operating Principles

Participants will gain insights into battery functionality, focusing on energy storage, charging cycles, and power output. This knowledge will aid in managing and optimizing battery performance.

Other Scenarios

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.

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.

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.

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

Embedded Systems in Automotive Electronics

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