SLAU846B June 2023 – November 2024 MSPM0G1105 , MSPM0G1106 , MSPM0G1107 , MSPM0G1505 , MSPM0G1506 , MSPM0G1507 , MSPM0G1519 , MSPM0G3105 , MSPM0G3105-Q1 , MSPM0G3106 , MSPM0G3106-Q1 , MSPM0G3107 , MSPM0G3107-Q1 , MSPM0G3505 , MSPM0G3505-Q1 , MSPM0G3506 , MSPM0G3506-Q1 , MSPM0G3507 , MSPM0G3507-Q1 , MSPM0G3519
I2C Controller Initialization
I2C Controller Status
User can read the I2Cx.MSR register to check the current state of the I2C controller.
Bit Field | Description |
---|---|
BUSY | I2C controller busy. The BUSY bit is set during an ongoing transaction. |
ERR | I2C error. The error can be from the target address not being acknowledged or the transmit data not being acknowledged. |
ADRACK | Acknowledge address. This bit is set if the transmitted address was not acknowledged. |
DATACK | Acknowledge data. This bit is set if the transmitted data was not acknowledged. |
ARBLST | Arbitration lost. This bit is set if controller lost arbitration. |
IDLE | I2C bus idle. |
BUSBSY | I2C bus busy. The bit changes based on the START and STOP conditions, set it bus is busy. |
CLKTO | Clock timeout error. This bit is set if the clock timeout error has occurred. |
MBCNT | I2C controller transaction count. This field contains the current countdown value of the transaction. |
For controller to start receive data out of the idle mode, user needs to set the START bit in I2Cx.MCTR register to generate the start condition. Then the controller automatically sends the START condition followed by the target address as soon as it detects that the bus is free. All the process below should be followed.
I2Cx.MSA.DIR is set to 1 to enable receive mode, I2Cx.MCTR.START is set to generate start condition, I2Cx.MBLEN can be programmed to indicate the number of bytes (n) for the receive operation. I2Cx.MCTR.ACK and I2Cx.MCTR.STOP bit can be set or clear based on user configuration. I2Cx.MCTR.BURSTRUN is set to start the operation. The packet format is START+ADDR+R+DATA*n +(ACK/NACK) + (STOP). The last data ACK/NACK depend on ACK bit, additional sending of STOP depends on STOP bit.
After last byte is received, the MRXDONE (0x01) interrupt in CPU_INT.IIDX register is set to indicate that controller receive transaction is completed. User can use the MRXFIFOTRG (0x03) interrupt in CPU_INT.IIDX register to read the data from the receive FIFO. This interrupt will trigger when controller RX FIFO contains >= defined bytes, the trigger level can be defined by using RXTRIG bit in I2Cx.MFIFOCTL register. The flow chart of controller receiver mode is shown in Figure 20-11.
For controller, to start transmit data out of the idle mode, user need to set the START bit in I2Cx.MCTR register to generate the start condition. Then the controller automatically sends the START condition followed by the target address as soon as it detects that the bus is free. The data written into the MTXFIFO is transmitted if arbitration is not lost during transmission of the target address. All the process below should be followed.
I2Cx.MSA.DIR is cleared to enable transmit mode, I2Cx.MCTR.START is set to generate start condition, I2Cx.MBLEN can be programmed to indicate the number of bytes (n) for the transmit operation. I2Cx.MCTR.STOP bit can be set or clear based on user configuration. I2Cx.MCTR.BURSTRUN is set to start the operation. The packet format is START+ADDR+W+DATA*n + (STOP), sending of STOP depends on STOP bit.
After last byte is transmitted, the MTXDONE (0x02) interrupt in CPU_INT.IIDX register is set to indicate that controller transmit transaction is completed. User can also set use the MTXEMPTY (0x06) interrupt in CPU_INT.IIDX register to see if the MTXFIFO is empty and ready to load more data. This interrupt will trigger if all data in the transmit FIFO have been shifted out. The flow chart of controller receiver mode is shown in Figure 20-12.