LHP 304 Autotronics

The LHP 304 Autotronics Laboratory stands as a premier educational platform for students pursuing automotive technology. It integrates comprehensive theoretical knowledge with practical, hands-on experience in modern automotive electrical systems. Equipped with advanced simulators, trainers, and interactive software, the lab provides an in-depth exploration of key vehicle subsystems, including CAN BUS communication, ABS, engine starting and ignition, sensor systems, and electronic stability control.

By offering realistic simulations and detailed didactic content, the lab ensures students can manipulate and understand system parameters, analyze schematic results, and diagnose faults effectively. The inclusion of manuals, electronic books, and an optional student response system enhances the learning process, supporting both theoretical understanding and practical application.

Adhering to DIN/IEC regulations for schematic displays, the LHP-304 Autotronics Laboratory not only imparts essential skills and knowledge but also ensures students are well-versed in industry standards. This comprehensive approach prepares students for successful careers in automotive technology, equipping them with the expertise to tackle the complexities of modern vehicle systems.

The LHP-304 Autotronics Laboratory is an extensive educational facility designed to immerse students in the theoretical and practical aspects of automotive electrical systems. It equips students with hands-on experience and knowledge about various modern automobile subsystems through the use of advanced simulators, trainers, and equipment. Here is a breakdown of the laboratory’s components and their educational utility:

  1. FP-300: Autotronics Trainers: These trainers provide a foundational understanding of automotive electronics and electrical systems, enabling students to explore the basic concepts and components.
  2. FP-311: CAN BUS Simulator: This simulator introduces students to the Controller Area Network (CAN) BUS system, a crucial communication network used in modern vehicles for real-time data exchange between various electronic components.
  3. FP-312: ABS 4 Channel System Demonstrator: This demonstrator explains the operation of a four-channel Anti-lock Braking System (ABS), showing how the system prevents wheel lock-up during braking, thus enhancing vehicle control.
  4. PT-AU/481: Automotive Electrical Trainer: This trainer covers the general electrical systems in vehicles, including wiring, circuits, and electrical component functioning.
  5. PT-A-033: Engine Starting & Ignition System: Focuses on the mechanisms and processes involved in engine starting and ignition, critical for understanding how vehicles power up and run.
  6. PT – FP210: Vehicle Sensor System: Teaches about the various sensors used in vehicles, their roles in monitoring different parameters, and how they contribute to the overall operation and safety of the vehicle.
  7. PTS-3572: Engine Sensors & Actuators Simulator: This simulator provides insights into the sensors and actuators related to the engine, explaining how they interact to manage engine performance.
  8. PTS-3545: Electronic Ignition Demonstrator: Demonstrates the electronic ignition system, emphasizing its role in efficient engine performance and fuel consumption.
  9. PTS-3546: Multipoint Injection Demonstrator: Covers the multipoint fuel injection system, which is key to understanding modern fuel delivery methods for optimal engine efficiency.
  10. PT-5: Electronic Stability Control ABS+ASR+EDB+ESP: This module combines several advanced systems, including ABS (Anti-lock Braking System), ASR (Anti-Slip Regulation), EDB (Electronic Brake-force Distribution), and ESP (Electronic Stability Program), providing a comprehensive view of vehicle stability and safety systems.
  • Interactive Software: Many of the systems can interface with PC workstations, allowing students to engage in realistic simulations. They can manipulate data and system parameters, and the software displays schematic results based on their adjustments.
  • Didactic Content: The software is organized into subjects that correspond with simulations and experimental exercises. It includes:
  • Objectives for each experiment and the knowledge level to be achieved.
  • Theoretical background relevant to the lesson, alongside practical examples.
  • Tests and questions for student evaluation, including fault testing.

Educational Support and Student Engagement

  • Manuals and E-books: Each piece of lab equipment is accompanied by detailed manuals and electronic books that provide theoretical explanations and practical exercises.
  • Student Response System: An optional feature, this system allows for quizzes, tests, or exams on theoretical and practical content. Teachers can create custom assessments, and the responses can be collected and analyzed to track student progress.

Standards Compliance

  • Schematic Displays: The schematics, whether displayed on software or panel displays, adhere to DIN/IEC regulations, ensuring standardization and clarity in electrical symbol representation.

Overall, the LHP-304 Autotronics Laboratory is a comprehensive educational tool that prepares students for careers in automotive technology by providing them with the knowledge and skills to understand, diagnose, and repair modern automotive electrical systems.

    Scroll to Top