SPRUII0F May 2019 – June 2024 TMS320F28384D , TMS320F28384D-Q1 , TMS320F28384S , TMS320F28384S-Q1 , TMS320F28386D , TMS320F28386D-Q1 , TMS320F28386S , TMS320F28386S-Q1 , TMS320F28388D , TMS320F28388S
After hardware reset, the Init bit in the CAN Control register is set and all CAN protocol functions are disabled. The configuration of the bit timing and of the message objects must be completed before the CAN protocol functions are enabled.
For the configuration of the message objects, see Section 30.10.
For the configuration of the Bit Timing, see Section 30.12.2.
The bits MsgVal, NewDat, IntPnd, and TxRqst of the message objects are reset to 0 by a hardware reset. The configuration of a message object is done by programming Mask, Arbitration, Control and Data bits of one of the IF1/IF2 Interface register sets to the desired values. By writing the message object number to bits [7:0] of the corresponding IF1/IF2 Command register, the IF1/IF2 Interface Register content is loaded into the addressed message object in the Message RAM.
The configuration of the bit timing requires that the CCE bit in the CAN Control register is set additionally to Init. This is not required for the configuration of the message objects.
When the Init bit in the CAN Control register is cleared, the CAN Protocol Controller state machine of the CAN Core and the message handler State Machine start to control the CAN's internal data flow. Received messages which pass the acceptance filtering are stored into the Message RAM; messages with pending transmission request are loaded into the CAN Core's Shift register and are transmitted using the CAN bus.
The CPU can enable the interrupt lines (setting IE0 and IE1 to 1) at the same time when the CPU clears Init and CCE. The status interrupts EIE and SIE can be enabled simultaneously.
The CAN communication can be controlled interrupt-driven or in polling mode. The Interrupt Register points to those message objects with IntPnd = 1. The register is updated even if the interrupt lines to the CPU are disabled (IE0 and IE1 are 0).
The CPU can poll all MessageObject's NewDat and TxRqst bits in parallel from the NewData registers and the Transmission Request registers. Polling can be made easier if all Transmit Objects are grouped at the low numbers; all Receive Objects are grouped at the high numbers.