Since the video TSN ethernet has emerged and it provides realtime and safety capabilities beyond CAN. Plus the higher bandwidth, flexibility and co-existence of best effort and realtime messages
Messages in CAN have an ID identifying the contents/meaning of the message in the contol system. In some higher layer protocols, like J1939, the ID may also identify both the sender and the intended recipient of the message.
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Since the video TSN ethernet has emerged and it provides realtime and safety capabilities beyond CAN. Plus the higher bandwidth, flexibility and co-existence of best effort and realtime messages
From scope looks the header of the CAN FD has the standard bit rate but the payload has higher bit rate.
perfect explanation, thanks for video.
Best explanation
Hi sir.. Nice explanation :) very informative video
Very Clear!
DOES CAN HAVE I.P ADDRESS?
No. All traffic is broadcasted.
Messages in CAN have an ID identifying the contents/meaning of the message in the contol system. In some higher layer protocols, like J1939, the ID may also identify both the sender and the intended recipient of the message.
@Tomás Franco acctually i cant explain why, but its many different. in CAN bus there isnt master and slave for exemple
@Tom Franco CAN basically relies on arbitration ID, whereas I2C has slave ID and then comes the data or the message