MSEV01
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The MSEV01 Electric Vehicle Educational Trainer is based on the Nissan Leaf II electric vehicle.
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Category | Work Benches |
Function | Electric Vehicle Trainer |
It is equipped with an 80 kW electric motor, a high-voltage 24 kWh Li-ion battery, and a comprehensive control panel.
The unit is mounted on an aluminum frame with castors and includes an electric controller, electric air conditioner compressor, as well as high-voltage cables protected by plexiglass.
This trainer also features an OBD 16-pin diagnostic socket, a cooling radiator, a DC/DC converter, and an on-board charger therefore providing a complete technical training setup for EV systems.
- 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.
- 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.
- Complete safety features, including high-voltage cables with plexiglass protection and a high-voltage disconnect fuse.
- Real-time monitoring of battery state, including SOC, temperature, and voltage regulation via the Li-ion battery controller.
SPECIFICATIONS:
Dimensions: 2505 x 1055 x 1605 mm
Weight: approx. 700 kg
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 (these are recommended for a safe operation)
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.