DLQC-XNY08 Permanent Magnet Synchronous Motor and Controller Training Platform

1. Stand Dimensions: ≥ Length 1200 × Width 800 × Height 1800 (mm).

2. Frame Material: European standard industrial silver aluminum profiles / brushed anodized finish.

3. Main Panel Material: Aluminum composite panel—weather-resistant, wear-resistant, high-temperature resistant, high-strength, corrosion-resistant.

4. System Circuit Diagram Printing Method: UV printing (System circuit diagrams are assembled by strictly following the original manufacturer's repair manual schematics).

5. Side Panel Material: Aluminum-plastic composite panel (weather-resistant, corrosion-resistant, high-strength, high-temperature resistant).

6. Test Ports: High-quality nylon material, high-pressure safety-rated 4mm panel banana jack ports / PA66 high-strength nylon / nickel-plated brass / materials plated compliant with RoHS environmental standards.

7. Load-bearing wheels: One-piece molded nylon construction. High load capacity and wear resistance. Wide wheel surface ensures exceptional stability, smooth rotation, and outstanding durability. Dual-bearing design distributes load evenly, enhancing pressure resistance and impact tolerance.

8. Drive motor: Operating range: 75%-120% of rated voltage.

Peak power (kW): 4 kW.

Maximum efficiency: 96%.

Peak speed (rpm): 3000

Rated voltage (V): 72.

Drive protection rating: IP54.

9. Gearbox: Two-stage helical gear transmission with total reduction ratio of 1:16.7; operating noise below 70 decibels.

1. Project training on the structure, components, and working principles of motor and control systems.

2. Project training on the installation locations of various components within motor and control systems.

3. Project training on fault diagnosis and troubleshooting for motor and control systems.

4. Project training on practical operation and theoretical examinations for motor and control systems.

5. Project training on color schematic waveforms for motor systems.

6. Project training on signal voltage, resistance, current, and other parameters in motor schematics.

7. Practical training on signal voltage, resistance, and current of motor controller components.

8. Understanding assembly and connection methods for lithium iron phosphate (LFP) power battery packs.

9. Learning measurement methods for basic parameters of LFP power battery packs.

10. Mastering common fault diagnosis and repair techniques for LFP power battery packs.

11. Understanding the working principle and pin definitions of onboard chargers.

12. Master common faults and replacement methods for onboard chargers.

13. Understand the control methods and composition of distributed battery management systems.

14. Understand the component composition and functions of AC induction motor drive systems.

15. Master measurement methods for motor drive system control parameters.

16. Master common faults and troubleshooting methods for motor drive systems.

17. Master the parameter relationships between energy recovery torque, current, voltage, and rotational speed.