What you'll learn:
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Course Overview:
This course provides a comprehensive understanding of Automotive Ethernet, covering all the necessary terms from the physical layer to the application layer protocols like DoIP and SOME/IP. Designed for engineers, automotive professionals, and networking enthusiasts, the course will equip you with the knowledge needed to design, implement, and troubleshoot Automotive Ethernet systems.
Course Structure:
1. Introduction to Automotive Ethernet
Overview of InVehicle Networking
Evolution from CAN, LIN, FlexRay to Ethernet
Advantages of Ethernet in Automotive Applications
2. Module 1: Physical Layer
1.1 Basics of Automotive Ethernet Physical Layer
IEEE 802.3 Standard Overview
Ethernet PHY and Transceivers
1.2 Ethernet Variants
100BASET1 and 1000BASET1
1.3 Cabling and Connectors
Twisted Pair Cabling
EMI/EMC Considerations
3. Module 2: Data Link Layer
2.1 Overview of Data Link Layer
Ethernet MAC Layer
Ethernet Frame Structure
2.2 VLANs and Prioritization
VLAN Tagging (IEEE 802.1Q)
Quality of Service (QoS) in Automotive Ethernet
2.3 Ethernet Switching
MAC Address Learning and Forwarding
Automotive Ethernet Switches
4. Module 3: Network Layer
3.1 Internet Protocol (IP) in Automotive Ethernet
IPv4/IPv6 Basics
IP Addressing and Subnetting
3.2 TCP/IP Stack Overview
TCP vs. UDP in Automotive Applications
Implementation of TCP/IP in Autosar
5. Module 4: Transport Layer Protocols
4.1 Transmission Control Protocol (TCP)
TCP Features and Reliability
TCP Use Cases in Automotive Ethernet
4.2 User Datagram Protocol (UDP)
UDP Features and Performance
UDP in RealTime Applications
6. Module 5: AutomotiveSpecific Protocols
5.1 Diagnostics over IP (DoIP)
DoIP Overview and Use Cases
DoIP Message Structure
Implementation and Troubleshooting
5.2 Scalable ServiceOriented Middleware over IP (SOME/IP)
Introduction to SOME/IP
Service Discovery and Communication Patterns
Remote Procedure call
SOME/IPAutomotive Use case
