1. Product OverviewThis EV Motor Control System Training Educational Equipment is a pure electric vehicle integrated training system designed to replicate real-world EV drivetrain operations. It
features an automotive-grade gear lever with CAN bus communication,
enabling seamless interaction with the motor controller for
authentic R-N-D shifting (forward/reverse/stop). The system
includes a vacuum-assisted hydraulic braking system, electronic
accelerator pedal, and interactive dashboard—all synchronized via
CAN bus to demonstrate new energy automotive training equipment fundamentals, from power delivery to thermal protection
protocols.
2. Key Features & Safety InnovationsA. Authentic Vehicle Control Interface- CAN-Enabled Gear Lever: Requires brake pedal engagement (safety interlock) to shift, with
illuminated R/N/D position indicators and push-to-shift switch.
- Dynamic Dashboard: Displays real-time motor speed, voltage, current, SOC, mileage,
and power flow via CAN data from the motor controller and BMS.
- Multi-Mode Driving Simulation: Combines gear lever, throttle, and brake inputs to replicate
low-speed cruising, acceleration, regenerative braking, and
idle/startup conditions.
B. Intelligent Motor & Protection Systems- AC Motor Controller: Converts DC to 3-phase AC with smart torque control, ensuring smooth output despite abrupt throttle changes.
- Dual-Temperature Safeguards: Auto-adjusts current at 85°C (controller) / 130°C (motor); cuts
power at 90°C / 150°C.
- Reverse Polarity Protection: Prevents damage from battery misconnection via soft-start circuit
design.
C. Industrial-Grade Durability- EU-CE Certified Construction: High-strength ABS housing (oil/corrosion-resistant) with aluminum
alloy frame, eliminating paint peeling.
- Hydraulic Braking Integration: Motor controller triggers oil-pressure braking while simulating
regenerative deceleration.
3. Training CapabilitiesThis automotive training board delivers hands-on skill development in: - CAN Bus Diagnostics: Trace gearshift/brake/throttle signals across the network.
- Fault Simulation & Protection: Study thermal limits, anti-reverse mechanisms, and torque
smoothing algorithms.
- Multi-Condition Operation: Execute controlled experiments for urban/highway driving, hill
descent, and emergency stops.
Why Choose This System?
✅ Realistic EV Architecture – Mirrors OEM components and logic.
✅ Safety-Centric Design – Dual-layer thermal/electrical protection.
✅ Industry-Standard Compliance – CE-certified for educational use.
Product detail diagram |
