The Electric Vehicle Educational Trainer MSEV01 is based on Nissan Leaf II electric vehicle, equipped with a 80 kW electric motor, a high-voltage 24 kWh Li-ion battery, and a comprehensive control panel. Mounted on an aluminum frame with castors, it includes an electric controller, electric air conditioner compressor, and high-voltage cables protected by plexiglass. The trainer also features an OBD 16-pin diagnostic socket, cooling radiator, DC/DC converter, and an on-board charger, providing a complete technical training setup for EV systems.
Features
Fully functional EV trainer based on Nissan Leaf electric vehicle components.
Electric motor, controller, and battery system, including a 24 kWh high-voltage Li-ion battery with 48 modules.
Integrated electric air conditioner compressor and other auxiliary systems.
Complete safety features, including high-voltage cables with plexiglass protection and a high-voltage disconnect fuse.
Mobile aluminum frame with castors for easy classroom integration.
Comprehensive wiring diagram showing all sensors, actuators, and data transmission lines.
Diagnostic capabilities through OBD 16-pin connector, facilitating fault detection and data analysis.
Real-time monitoring of battery state, including SOC, temperature, and voltage regulation via the Li-ion battery controller.
Value for Students
Obtain practical knowledge of EV systems, including the electric motor, electric controller, and battery management system (BMS).
Develop diagnostic skills using the OBD 16-pin diagnostic connector, facilitating real-time data analysis and fault code management.
Learn handling high-voltage components safely, with all systems connected by high-voltage cables and protected by plexiglass covers.
Learn about the structure and operation of a high-voltage Li-ion battery, including SOC (State of Charge) management, temperature control, and cell voltage regulation.
Understand the intricacies of EV power management, from traction motor control to battery charge and discharge procedures, ensuring detail knowledge of EV propulsion systems.
Explore the layout and function of critical EV components, such as the traction motor inverter, DC/DC converter, and onboard charger, gaining insight into their role in efficient energy conversion and power distribution.
Value for Instructors
A fully operational model to demonstrate the complete EV system, including the electric motor, controller, battery, and safety mechanisms, providing an authentic teaching experience.
OEM parts to offer students realistic, hands-on training with actual EV components, ensuring they are well-prepared for real-world automotive environments.
Enhance classroom integration with a mobile aluminum frame on castors, allowing easy relocation and setup in various training scenarios.
Promote student safety during high-voltage training sessions with comprehensive safety features, including protective plexiglass covers and a high-voltage disconnect fuse.
Simplify lesson preparation with a clearly marked control panel and wiring diagram, facilitating quick resets and efficient teaching workflows.
Equip students with practical skills in diagnosing and troubleshooting EV systems, using industry-standard diagnostic tools and procedures.
Specifications
Dimensions: 2505 x 1055 x 1605 mm (98.62 in×41.54 in×63.19 in)
Weight: approx. 700 kg (1543 lb)
Power supply: 12 V battery, high-voltage battery (~400 V) 24 kWh, 230 V 50 Hz household electricity network
Motor power: 80 kW (109 HP), 280 Nm torque
Based on Nissan Leaf II vehicle
Year of production: 2010 – 2017
Safety equipment: protective tools set EHVS01 (recommended for safe operation)
