CAN Protocol Hands on with Automotive Microcontroller

"Dive into the world of automotive communication with CAN Protocol - practical skills for mastering automotive microcontrollers!"

Instructor: GettobyteLanguage: english

Learn Important Concept of CAN Controllers in CAN Technology

Controller Area Network

Learn How to use CAN technology for Creating Basic CAN DIY Projects

About the course

Course Description

Welcome to Gettobyte, your one stop platform to get knowledge and skill sets on semiconductor and embedded oriented fields.

These course series focuses initially on the embedded automotive sector, emphasizing practical, hands-on learning of the CAN protocol(Controller Area Network)

What is this course?

This course is on learning CAN protocol via Handson practical way using an automotive microcontroller. In this course, we will explore how to use basic functionality of CAN protocol for transmission and reception of signals between 2 CAN nodes. We will go through important concepts of CAN controllers like: message buffer, mailbox & RxFiFo mechanisms for doing CAN communication along with,  message ID filter table, acceptance criteria and Rx and Tx Mailbox. We will understand about CAN protocol from a datasheet of a automotive microcontroller and also dwell into CAN software driver API's explanation with their use cases and correct chronology to do CAN communication by creating 3-4 Demo Projects showcasing CAN Communication between 2 CAN nodes using different features of CAN Controller.

 

Watch the Overview of the Course Video series to know more in detail about this course and why you should take this course.

 

Syllabus

Interested???

                                 Fill your details, to stay ahead by learning 

                                       latest Semi and Auto Technolgies

Hardware Required for this course

ElecronicsV3 BoardAutomotive Development Board based on NXP S32K144 MCU  

Innomaker U2B2CAN Analyzer

Cost effective CAN Analyzer tool for debugging CAN messages

Screwdriver and Jumper wires

Will be required for connecting CAN terminal nodes of ElecronicsV3 and Innomaker Tool

Software's required for this course

S32 Design Studio


Desktop Application required to write Embedded Software program for ElecronicsV3 Board

S32K1 RTD Package


Embedded Software Library required to use CAN protocol with Automotive MCU NXP S32K144

CAN analyzer Tool


Software application for USB2CAN analyzer tool

CAN Demo Codes


Embedded Software Demo Codes for using CAN protocol via automotive MCU NXP S32K144 and ElecronicsV3 board

Meet Gettobyte

Gettobyte is a Semiconductor Hardware Development and EdTech Company, in the space of Automotive and Semiconductor Industry level Technologies.

What do we offer

Live learning

Learn live with top educators, chat with teachers and other attendees, and get your doubts cleared.

Structured learning

Our curriculum is designed by experts to make sure you get the best learning experience.

Community & Networking

Interact and network with like-minded folks from various backgrounds in exclusive chat groups.

Learn with the best

Stuck on something? Discuss it with your peers and the instructors in the inbuilt chat groups.

Get certified

Flaunt your skills with course certificates. You can showcase the certificates on LinkedIn with a click.

Prerequire good to have

This playlist will walk you through to know about NXP Semiconductors Automotive MCU's S32 family. Also Get to know about Gettobyte Automotive Hardware kits based on Automotive chips

This workshop will provide you with familiarity with the Integrated Development Environment (IDE) used for writing embedded software programs for the Controller Area Network (CAN) protocol. using NXP S32 Automotive MCU’s

https://gettobyte.com/introduction-to-can-communication/

This will help you to get an beginner level overview about CAN technology in automotive!

COMING SOON

Stay Updated with Us

Launch your GraphyLaunch your Graphy
100K+ creators trust Graphy to teach online
Gettobyte Technologies 2024 Privacy policy Terms of use Contact us Refund policy