SPRUIY4B February 2023 – May 2024 TMS320F2800152-Q1 , TMS320F2800153-Q1 , TMS320F2800154-Q1 , TMS320F2800155 , TMS320F2800155-Q1 , TMS320F2800156-Q1 , TMS320F2800157 , TMS320F2800157-Q1
This part of the bit time is used to compensate physical delay times within the CAN network. These delay times consist of the signal propagation time on the bus and the internal delay time of the CAN nodes.
Any CAN node synchronized to the bit stream on the CAN bus can be out of phase with the transmitter of the bit stream, caused by the signal propagation time between the two nodes. The CAN protocol's nondestructive bitwise arbitration and the dominant acknowledge bit provided by receivers of CAN messages require that a CAN node transmitting a bit stream must also be able to receive dominant bits transmitted by other CAN nodes that are synchronized to that bit stream. The example in Figure 17-15 shows the phase shift and propagation times between two CAN nodes.
In this example, both nodes A and B are transmitters performing an arbitration for the CAN bus. Node A has sent a Start of Frame bit less than one bit time earlier than node B, therefore node B has synchronized to the received edge from recessive to dominant. Since node B has received this edge delay (A_to_B) after the bit has been transmitted, node B's bit timing segments are shifted with regard to node A. Node B sends an identifier with higher priority, so node B wins the arbitration at a specific identifier bit when node B transmits a dominant bit while node A transmits a recessive bit. The dominant bit transmitted by node B arrives at node A after the delay (B_to_A).
Due to oscillator tolerances, the actual position of node A's Sample Point can be anywhere inside the nominal range of node A's Phase Buffer Segments, so the bit transmitted by node B must arrive at node A before the start of Phase_Seg1. This condition defines the length of Prop_Seg.
If the edge from recessive to dominant transmitted by node B arrives at node A after the start of Phase_Seg1, node A can potentially sample a recessive bit instead of a dominant bit, resulting in a bit error and the destruction of the current frame by an error flag.
This error only occurs when two nodes arbitrate for the CAN bus, which have oscillators of opposite ends of the tolerance range and are separated by a long bus line; this is an example of a minor error in the bit timing configuration (Prop_Seg too short) that causes sporadic bus errors.
Some CAN implementations provide an optional 3-Sample Mode. The CAN module on this device does not. In this mode, the CAN bus input signal passes a digital low-pass filter, using three samples and a majority logic to determine the valid bit value. This results in an additional input delay of 1 tq, requiring a longer Prop_Seg.