WaveBPS:
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FlexRay:
Overview
Static Frame
Dynamic Frame
Wakeup

Startup
Physical Layer
Compare to CAN and LIN

CAN Bus:
Overview
Data Frame
Extended Frame
Remote Frame

Error Frame
Bit Stuffing
Physical Layers
Single Wire CAN
Compare to LIN and FlexRay

LIN Bus
Overview
LIN Frame
LIN Header
LIN Slave Part
LIN Errors
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Others:
Overview
UART: Kline, J1708 and RS232
J1850
SPI
I2C

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Extended Data Frames

Extended identifier CAN Frames use 29 bits for identification purposes instead of 11 for the standard can frame. Because this extra ID space adds 20 bits of overhead (18 ID and 2 reserved) it is usually not used by networks which want the highest performance.

In the J1939 and GMLAN protocols, the larger ID is segmented into different parts with each part having meaning. For example the least significant 8 ID bits for both J1939 and GMLAN indicate a node's source address.

This Single Wire CAN extended ID is 29 bits long (not counting the stuff bits). Many system designers do not use this ID length because of all the overhead it requres.