Fully functional educational trainer, based on the Toyota Prius IV hybrid plug-in, provides a learning experience of a fully operational Plug-in Hybrid Electric Vehicle (PHEV). This immersive training platform is designed for diagnosing and understanding complex hybrid systems. It is equipped with built-in measuring boxes, fault code simulation for multiple systems, and open contact wiring diagrams, enhancing technical and vocational automotive education and training.
This product includes two measuring and fault simulation systems by default (except high-voltage system), selected from the available options below. Additional systems can be ordered separately if required.
Available systems:
Our product in action
Yes. The trainer includes built-in fault code simulation across multiple systems such as engine control, power management, and high-voltage components. This feature lets students safely practice diagnosing real-world automotive problems with standard scan tools and measurement equipment.
Students can explore all major systems of a hybrid plug-in vehicle, including the engine control, hybrid drive, braking, climate control, and SRS (airbag) systems. The trainer covers both conventional hybrid and plug-in hybrid technologies, making it ideal for understanding the full scope of modern hybrid vehicle design.
The AHPLIN04 is a fully functional training platform based on the Toyota Prius IV Plug-in Hybrid Electric Vehicle (PHEV). It is designed for hands-on learning in automotive schools, colleges, and training centers. Students and instructors can use it to study hybrid systems, diagnose real faults, analyze wiring diagrams, and practice troubleshooting in a safe, classroom-friendly environment.
We provide user manuals, wiring diagrams, teacher’s guides, and online support. Institutions also receive curriculum integration advice to maximize teaching value.
Yes. Trainers support standard automotive tools including OBD-II scanners, multimeters, oscilloscopes, insulation testers, and CAN bus analyzers, ensuring students practice with real workshop equipment.
All trainers include high-voltage interlocks, emergency stop systems, insulated connectors, and safety indicators. These features allow safe practice of high-voltage work procedures in a classroom or laboratory setting.
Students learn how hybrid vehicles combine internal combustion engines with electric motors to improve efficiency and reduce emissions. Training covers hybrid batteries, energy management systems, regenerative braking, start-stop systems, and power split devices. Fault simulation allows learners to practice diagnostics on both electrical and mechanical sides of a hybrid system.
