Electric vehicle maintenance training course is designed to provide participants with a comprehensive understanding of electric and hybrid vehicles. Content includes an introduction to key components such as batteries, motors and control systems, as well as the market status and environmental impact of the vehicles. Necessary safety precautions will be emphasized for both personal use and the service environment. Participants will learn the critical points to consider when servicing electric vehicles and the potential risks of working with electricity.
Safety is critical when performing high-voltage electrical maintenance. The vehicle lockout scenario covers the basic electrical safety steps and post-maintenance safety measures that should be considered when servicing hybrid and electric vehicles.
Vehicle lockout scenario is designed to provide users with a detailed understanding of the topic through practical applications. It provides comprehensive information on the locking systems of electric vehicles and ensures a safe maintenance process. The applications aim to increase safety in the maintenance of electric vehicles.
Fuel cell and battery charging procedures aim to educate users in order to identify and repair malfunctions that may occur in the fuel cells and battery charging systems of hybrid and electric vehicles.
Users are expected to gain the ability to increase the efficiency and ensure the safety of the systems by learning charging processes and maintenance requirements. Content provided provides an effective learning experience by providing both theoretical knowledge and practical applications.
Electric vehicle conversion and retrofit Technologies aims to provide users with information on the conversion of conventional vehicles to electric vehicles.
The focus of the content is on planning, implementation and management of successful transformation projects. Users will be able to develop the skills necessary to tackle the complexity of electric vehicle conversion and ensure efficiency and sustainability in their projects.
Autonomous and advanced driver assistance systems scenario aims to provide information and practical experience on adjusting and optimizing camera sensors used in Autonomous and Advanced Driver Assistance Systems (ADAS) technologies.
Correct adjustment of these sensors is critical to improve driver safety and optimize system performance. This process will help users understand ADAS systems more effectively.
Vehicle communication technologies scenario aims to help users understand vehicle communication technologies. It was specifically designed to teach how to measure CAN Bus (Controller Area Network).
By performing these measurements, users will better understand the functioning of the system and gain the ability to effectively analyze data transmission between vehicles. Additionally, this information will play an important role in vehicle maintenance processes.
Automotive electronics scenario includes maintenance and troubleshooting, detecting and resolving electrical faults for users.
Covers topics such as electrical measurement and control equipment, troubleshooting methods, and how to follow instructions. The scenario also aims to provide practical examples and guidance for a better understanding of the subject.
Maintenance and troubleshooting scenario provides information to understand safety precautions and high voltage risks in automotive electronics.
Users will recognize potential hazards that may be encountered during maintenance and create a safe working environment by learning the precautions required to reduce these risks. Knowledge gained helps them act more consciously and carefully in their care processes.
Vehicle diagnostics and troubleshooting scenario covers the process of diagnosing malfunctions in electric and hybrid vehicles for users.
Scenario includes topics such as identifying the problem, observing it, measuring and testing procedures, determining the sources of the problems, understanding error codes. Practical examples and guidance are provided throughout the scenario to enhance understanding of the topic.
AC charging station disassembly scenario provides an immersive experience within a VR training module. It guides users through the systematic process of disassembling AC Charging Stations.
Participants will learn essential techniques while identifying potential hazards and ensuring safety protocols are followed. Hands-on approach enhances understanding of the components involved and reinforces proper maintenance practices, preparing users for real-world applications in electric vehicle infrastructure.
AC Charging Station Assembly scenario serves as a VR training module, focusing on the detailed step-by-step process required to assemble AC Charging Stations. Users will gain hands-on experience, enhancing their skills in the assembly process.
training emphasizes safety protocols and best practices, ensuring that participants understand the intricacies of assembly and maintenance. Immersive learning experience prepares users for real-world applications in electric vehicle infrastructure development.
Electric vehicle assembly scenario focuses on guiding users through the detailed steps required to assemble electric vehicle charging stations.
Comprehensive guide enhances understanding of the components, tools, and techniques involved in the assembly process. By working through the scenario, users gain practical skills essential for working with electric vehicle infrastructure, promoting efficient and safe installation practices in the growing field of electric mobility.
Asynchronous motor disassembly scenario aims to teach users the disassembly process of asynchronous motors. The script also explains how to carefully remove engine components and what the function of each part is.
Users will have the opportunity to improve their practical skills by getting to know the internal structure of the engine and learning the important points to be considered during the disassembly process
Asynchronous motor assembly scenario aims to teach users the assembly process of asynchronous motors step by step. Scenario focuses on guiding users in the assembly of engine components.
By completing the scenario, users will develop basic skills in using and aligning parts, following assembly instructions correctly and addressing common problems that may arise during motor assembly, contributing to a comprehensive understanding of induction motor systems.
Scenario of DC charcing station disassembly for VR training module is designed to teach users how to disassemble the DC Charging Station step by step.
Throughout the process, stages such as safety precautions and use of correct equipment are discussed in detail. Thanks to this module, users learn to master the assembly and disassembly processes of DC Charging Stations and also have the opportunity to improve their technical knowledge and skills.
DC Charging Station Assembly scenario aims to teach users the process of assembling a DC charging station through a VR training module.
Training focuses on developing technical skills, assembling components accurately, making connections, and ensuring compliance with safety standards. Upon completion, users will have the knowledge and proficiency to execute the installation of a DC charging station. Participants will also develop problem-solving skills to address potential challenges that may arise during the installation process.
Hub motor disassembly scenario aims to teach the process of dismantling Hub (Wheel Hub) Motors step by step. By familiarizing yourself with engine components, users learn to safely separate parts and understand each part's function within the engine.
They gain skills in ensuring the efficiency of electric vehicle engines by improving their engine maintenance and troubleshooting skills. By the end of the scenario, users become proficient in disassembling hub motors safely and efficiently.
Scenario aims to teach users the step-by-step process of assembling Hub Motors (Wheel Hub Motors). Training focuses on the assembly of parts and ensuring efficient motor operation.
Participants will learn the key points to consider during assembly and how to prevent potential errors, gaining a critical skill in electric vehicle maintenance. These skills are designed to improve motor performance and overall vehicle reliability. Additionally, users will gain hands-on experience that reinforces theoretical knowledge with practical application.
Scenario teaches safe procedures for removing and reactivating locks on hybrid and electric vehicles. Mechanical and electronic lock systems are explored, with an emphasis on essential safety precautions during the removal process.
Practical tips and step-by-step instructions guide the execution of lock removal, aiming to enhance both efficiency and safety. Techniques learned provide effective management of lock systems during maintenance, ensuring secure handling and reactivation throughout the process.
Scenario focuses on teaching the step-by-step process of disassembling and installing Permanent Magnet (PM) Motors. Users learn about the basic components and principles behind the operation of the engine.
Proper handling techniques and safety procedures are emphasized throughout. Mastering these skills is essential for diagnosing engine problems and managing maintenance tasks efficiently. Developing a strong foundation in engine disassembly and assembly increases overall technical proficiency in electric vehicle systems.
Motor assembly scenario focuses on teaching the process of assembling Permanent Magnet (PM) motors in a structured manner.
Step-by-step guidance ensures proper alignment and connection of motor components, emphasizing key areas during assembly. Knowledge gained from this process enhances practical skills for efficient and safe motor assembly. Mastering these skills contributes to improving both performance and durability of electric vehicle motors.
Scenario teaches users the detailed process of disassembling synchronous motors step by step. Participants will learn how to safely and accurately remove each component, gaining insight into the motor's internal structure and operation.
Users will understand how to identify faulty parts and follow necessary steps for reassembly. The scenario aims to enhance technical skills and provide a deeper understanding of motor maintenance.
Scenario provides users with essential knowledge of the precise steps involved in assembling a synchronous motor. Guiding participants through the detailed assembly process enhances understanding of motor components, alignment, and connections.
Emphasizing the importance of accuracy in each stage ensures users develop practical skills needed for assembling and maintaining electric vehicle motors effectively, fostering confidence in handling real-world tasks related to synchronous motor systems.
Scenario of theory test helps users learn the correct selection of tools and equipment required for electric vehicle maintenance. Recognizing the characteristics of the tools used in electric vehicle servicing is crucial for safe and efficient work.
Throughout the scenario, users will develop their ability to choose the right tools for various maintenance tasks. This test helps them understand the importance of proper maintenance procedures for vehicle safety and long-term performance.