Hybrid Vehicle Systems Panel Trainer 756-01
Key Features
- Simulation of mechanical and electrical power flow
- Dashboard simulation with:
- Speed display
- ECO monitor
- Temperature displays
- Functional brake and accelerator pedals
- Gear-shift control system
- Park push-button
- Ignition and power push-buttons
- Gradient switch for driving condition simulation
- Adjustable controls for:
- External temperature
- Internal temperature
- Battery temperature
- DC and AC circuit measurement terminals
- Hybrid transaxle with planetary gear set
- Scan tool for displaying diagnostic trouble codes (DTCs)
- Manual and automatic fault insertion system
Typical Practical Tasks
This trainer supports a wide range of practical learning activities, including:
- Hybrid brake systems analysis
- Electric motor operation and testing
- Energy storage devices investigation
- Hybrid engine systems study
- Cables, connectors, and protection devices
- Power-control modules
- Hybrid vehicle safety procedures
- Routine maintenance and repair practices
Items Included
- Hybrid Vehicle Systems Panel Trainer
- Digital curriculum materials
- Wall mounting brackets
- Bench stands
Additional Equipment Required
- Lab scope
- Digital multimeter
Digital Learning Support
The trainer includes access to digital curriculum materials featuring theoretical knowledge and practical learning tasks. It is also compatible with optional cloud-based software, offering:
- Online practical electronics exercises
- Interactive theory presentations
- Investigations and assessments
- Direct integration with practical training activities
Technical Specifications
- Dimensions: 900 × 170 × 600 mm (W × D × H)
- Packed Volume: Approx. 0.316 m³
- Packed Weight: Approx. 26 kg
Hybrid Vehicle Systems Panel Trainer
Order Code: 756-01
The Hybrid Vehicle Systems Panel Trainer is an advanced educational training system designed to provide students, instructors, and automotive trainees with practical knowledge of hybrid vehicle electrical and mechanical systems. This trainer enables users to demonstrate, investigate, troubleshoot, and fault-find simulated hybrid vehicle operations in a safe and controlled laboratory environment.
The system provides a realistic simulation of both mechanical operation and electrical power flow, allowing learners to understand how hybrid vehicle technologies function in modern automotive systems. The panel includes a visual mimic of electrical energy transfer and accessible test points operating at safe voltage levels for secure investigation of electrical circuits and system diagnostics.
Built specifically for technical and vocational education, the trainer supports hands-on learning in hybrid vehicle technology through interactive practical exercises and fault diagnosis activities. A range of built-in fault insertion options simulates real-world vehicle malfunctions, helping students develop diagnostic, troubleshooting, maintenance, and repair skills required in the automotive industry.
