Automotive Diagnostics (Obd)
Automotive Diagnostics (Obd)
Published 5/2025
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 853.85 MB | Duration: 2h 7m
Published 5/2025
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 853.85 MB | Duration: 2h 7m
Basics, Protocols and Future trends
What you'll learn
Understand the history and evolution of OBD
Interpret and analyse Diagnostic Trouble Codes (DTCs)
Explore UDS communication protocols and OSI layer mapping
Apply model based design in Simulink to diagnostics for real systems, including worked example of a transmission and EV battery diagnostics
Evaluate legislation (OBD-II, EOBD, ISO 14229) and security implications
Use model-based and data-driven diagnostic approaches
Recognise the role of telematics and predictive diagnostics, prognostics and health management
Requirements
Computer with internet access, a suitable vehicle. OBD Scan tool(optional)
Description
This comprehensive course introduces learners to the principles, technologies, and evolving practices in automotive diagnostics. From traditional On-Board Diagnostics (OBD-II) to advanced Unified Diagnostic Services (UDS) and predictive maintenance (prognostics and health management) it equips automotive professionals with the knowledge to confidently identify, interpret, and respond to vehicle faults.You will learn how diagnostics fit into the vehicle development lifecycle, explore fault detection strategies (model-based and data-driven), and understand the role of legislation in shaping diagnostic standards like ISO 14229 and SAE J1979. Real-world systems are described with a worked example of a diagnostic system for a dual-clutch transmission, which is used to illustrate software development in modern vehicles.The course also covers UDS message structure, OSI layer mapping, and security implications—highlighting how diagnostic ports can be exploited if not secured. As vehicles become more connected, the course discusses the integration of diagnostics with telematics, over-the-air updates, and the shift toward cloud-based monitoring and prognostics.Ideal for automotive engineers, technicians, tool developers, and trainers, this course blends theory with applied examples to build deep competence in vehicle diagnostics. Whether you’re in the workshop or designing the next generation of ECUs, this course will elevate your understanding and readiness for tomorrow’s vehicles.At the end of the technical sections, a short quiz aids the learning process. These are optional, and the answers are shown on the slide following the quiz.
Overview
Section 1: Contents
Lecture 1 Contents
Section 2: Introduction
Lecture 2 Part 2
Section 3: Fault Codes and Tools
Lecture 3 Fault Codes and tools
Section 4: Diagnostic Development
Lecture 4 Diagnostic development
Section 5: UDS and Communication Protocols
Lecture 5 UDS Communication Protocols
Section 6: Telematics
Lecture 6 Telematics
Section 7: Legislation
Lecture 7 Legislation & Compliance Standards
Section 8: Security
Lecture 8 OBD Security and cybersecurity
Section 9: Prognostics
Lecture 9 Prognostics and Future of Vehicle Diagnostics
Section 10: Conclusion & Key Takeaways
Lecture 10 Conclusion & Key Takeaways
Automotive engineers, vehicle technicians, diagnostic tool developers, technical trainers, and automotive electronics students.