CANoe (from Vector) is a powerful development, testing, and simulation tool used in the automotive and embedded systems domain for working with CAN (Controller Area Network) protocol, among others (LIN, FlexRay, Ethernet, etc.). Learning CAN protocol using CANoe involves a mix of theory, hands-on simulation, and real-time testing.
Categories: Technology
Welcome to our comprehensive CAN Protocol online course! Whether you’re new to the world of automotive communication systems or an experienced engineer seeking to deepen your expertise, this course is designed to equip you with a thorough understanding of CAN Protocol.
Course Overview
CAN Protocol is the cornerstone of modern automotive and industrial communication networks. This course aims to provide you with the essential knowledge and practical skills required to master CAN Protocol. From understanding the basics to exploring advanced topics, you’ll delve into every aspect of CAN Protocol through a structured and hands-on approach.
What You Will Learn
- Introduction to CAN Protocol: Explore the history, significance, and applications of CAN Protocol.
- CAN Protocol Basics: Learn about message formats, identifiers, frames, and the CAN bus architecture.
- Gain insight into the powerful CANoe Vector tools and their role in facilitating comprehensive testing, analysis, and simulation of CAN networks.
- Unlock the potential of CAPL scripting to customize and automate testing procedures in CAN networks.
- Delve into the world of Unified Diagnostic Services (UDS) and its significance in standardized diagnostic communication over CAN networks.
- Understand the crucial phases of the Software Development Life Cycle (SDLC) and Software Testing Life Cycle (STLC) in the context of CAN Protocol development and validation.
- Discover the diverse array of real-world applications where CAN Protocol plays a vital role.
Course Format
Our course combines theoretical knowledge with practical exercises and case studies to ensure a comprehensive learning experience. Through video lectures, coding examples, quizzes, and hands-on projects, you’ll gain a deep understanding of CAN Protocol concepts and their practical implementation.
Course Syllabus
Day 1 – Introduction to CAN – Need for Network Arbitration, Introduction to CAN, CAN Data Frame Format, Setup Virtual CAN Bus on Linux, Receiving and Monitoring CAN Bus
Day 2 – CANOE Tools – Introduction & Overview, Software simulation Setup and overview
Day 3 – CAN Electronic Control Unit (ECU) and IG Block, Trace Window etc.,
Day 4 – Introduction to CAPL Programming for simulating a CAN Network
Day 5 – Introduction to test specification Environment in CANOE
Day 6 – Using a CAPL for Testing a CAN Network
Day 7 – CAN Application Development
Day 8 – UDS protocol (Frame format)
Day 9 – Service ID, Sub function, Request frame format, Response frame format
Day 10 – SDLC and STLC – Introduction, Overview, Models involved in SDLC and Application
Day 11 – Introduction of Autosar
Day 12 – Application layer and Autosar Runtime Environment, BSW Components
By the end of this course, you will be able to:
Understand and interpret CAN protocol communication.
Simulate CAN bus networks using CANoe.
Configure and use DBC files for decoding CAN messages.
Write custom simulation scripts using CAPL.
Perform real-time diagnostics and analysis of CAN traffic.
Test physical ECUs using hardware interfaces and CANoe.
Who Should Take This Course
- Automotive engineers and technicians
- Industrial automation professionals
- Electronics enthusiasts interested in CAN communication
- Students pursuing degrees in engineering or related fields
Prerequisites
While there are no specific prerequisites for this course, a basic understanding of electronics and networking concepts will be beneficial.
Course Duration
The duration of the course is flexible, allowing you to learn at your own pace. It is divided into modules covering different aspects of CAN Protocol, ensuring a structured learning experience.
Certification
Upon successful completion of the course and assessment criteria, you will receive a certificate of achievement, validating your proficiency in CAN Protocol.
Join Us Today
Take the first step towards mastering CAN Protocol by enrolling in our online course today. Whether you’re looking to advance your career in automotive engineering or broaden your skill set in industrial communication systems, mastering CAN Protocol will open up exciting opportunities.
For enrollment and further inquiries, please contact:
Name: VAct Technologies Contact Number: 7871909590.
Don’t miss this opportunity to become a proficient CAN Protocol expert. Enroll now!
Course Instructor
CAN Protocol
