Description
The Industry 4.0 Training Equipment System for Auto Electricians and Auto Mechanics is a cutting-edge educational solution designed to equip students with the practical skills and knowledge necessary to excel in the evolving automotive industry. This comprehensive system incorporates advanced technology and various training equipment to provide hands-on experiences across a wide range of automotive systems.
Among the key components is the Engine Control System Training Stand, featuring the BOSCH MOTRONIC MED 7.5.10 (FSI), which allows students to learn diagnostics and engine control techniques on a fully functional engine management system. The CAN BUS Training Stand demonstrates the structure and operation of vehicle communication systems, including the ability to simulate fault codes for troubleshooting practice.
The system also covers essential topics such as automotive lighting and sensor operation, with dedicated training stands that allow for real-time measurements and diagnostics. High-voltage battery training focuses on the safety and handling of batteries used in electric and hybrid vehicles, preparing students for the complexities of modern automotive technology.
The Electric Vehicle Functional Model II replicates real-world conditions, providing a complete operational electric vehicle for diagnostics and system training. Additional components include cutaway models of popular hybrid vehicles, like the Toyota PRIUS II and Yaris, which offer insights into the internal workings of these advanced systems.
Students will gain a deep understanding of automotive electrical systems through various training stands designed to teach diagnostics and repair techniques. With a focus on both electrical and mechanical systems, the curriculum covers topics such as ECU functions, transmission operations, and hybrid system mechanics.
To complement the hands-on training, the system includes a suite of software tools for virtual learning, enabling simulations of automotive systems and diagnostics. The educational environment is further enhanced by a robotic system for training in automation and robotics, as well as diagnostic tools for analyzing vehicle performance and emissions.
Overall, this training system provides a robust, practical learning environment that ensures students are well-prepared to meet the demands of the modern automotive workforce, particularly in the areas of electric and hybrid vehicle technology.