English
Language : 

LM3S8530 Datasheet, PDF (369/526 Pages) Texas Instruments – Stellaris® LM3S8530 Microcontroller
Stellaris® LM3S8530 Microcontroller
14.2.5
3. In the CANIFnMSK2 register, use the MSK[12:0] bits to specify which of the bits in the 29-bit
or 11-bit message identifier are used for acceptance filtering. Note that MSK[12:0] are used
for bits [28:16] of the 29-bit message identifier; whereas MSK[12:2] are used for bits [10:0] of
the 11-bit message identifier. Use the MXTD and MDIR bits to specify whether to use XTD and
DIR for acceptance filtering. A value of 0x00 enables all messages to pass through the
acceptance filtering. Also note that in order for these bits to be used for acceptance filtering,
they must be enabled by setting the UMASK bit in the CANIFnMCTL register.
4. For a 29-bit identifier, configure ID[15:0] in the CANIFnARB1 register to are used for bits
[15:0] of the message identifier and ID[12:0] in the CANIFnARB2 register to are used for
bits [28:16] of the message identifier. Set the XTD bit to indicate an extended identifier; set the
DIR bit to indicate transmit; and set the MSGVAL bit to indicate that the message object is valid.
5. For an 11-bit identifier, disregard the CANIFnARB1 register and configure ID[12:2] in the
CANIFnARB2 register to are used for bits [10:0] of the message identifier. Clear the XTD bit to
indicate a standard identifier; set the DIR bit to indicate transmit; and set the MSGVAL bit to
indicate that the message object is valid.
6. In the CANIFnMCTL register:
■ Optionally set the UMASK bit to enable the mask (MSK, MXTD, and MDIR specified in the
CANIFnMSK1 and CANIFnMSK2 registers) for acceptance filtering
■ Optionally set the TXIE bit to enable the INTPND bit to be set after a successful transmission
■ Optionally set the RMTEN bit to enable the TXRQST bit to be set upon the reception of a
matching remote frame allowing automatic transmission
■ Set the EOB bit for a single message object;
■ Set the DLC[3:0] field to specify the size of the data frame. Take care during this
configuration not to set the NEWDAT, MSGLST, INTPND or TXRQST bits.
7. Load the data to be transmitted into the CAN IFn Data (CANIFnDA1, CANIFnDA2, CANIFnDB1,
CANIFnDB2) or (CANIFnDATAA and CANIFnDATAB) registers. Byte 0 of the CAN data frame
is stored in DATA[7:0] in the CANIFnDA1 register.
8. Program the number of the message object to be transmitted in the MNUM field in the CAN IFn
Command Request (CANIFnCRQ) register.
9. When everything is properly configured, set the TXRQST bit in the CANIFnMCTL register. Once
this bit is set, the message object is available to be transmitted, depending on priority and bus
availability. Note that setting the RMTEN bit in the CANIFnMCTL register can also start message
transmission if a matching remote frame has been received.
Updating a Transmit Message Object
The CPU may update the data bytes of a Transmit Message Object any time via the CAN Interface
Registers and neither the MSGVAL bit in the CANIFnARB2 register nor the TXRQST bits in the
CANIFnMCTL register have to be cleared before the update.
Even if only some of the data bytes are to be updated, all four bytes of the corresponding
CANIFnDAn/CANIFnDBn register have to be valid before the content of that register is transferred
to the message object. Either the CPU must write all four bytes into the CANIFnDAn/CANIFnDBn
June 22, 2010
369
Texas Instruments-Production Data