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TI CC3220SF LAUNCHXL

The CC3220SF LAUNCHXL board contains a TI CC3220SF device.

Jumper Settings

  • Set RX and TX to provide UART communications via the onboard USB debugger.

Board Resources

The following table lists the Board names of the resources and their corresponding pins.

Board Resource Pins
Board_ADC0 P59 (Connect to analog signal)
Board_ADC1 P60 (Connect to analog signal)
Board_CAPTURE0 P04
Board_CAPTURE1 P05
Board_GPIO_LED0 P64 (LED EN must be jumpered)
Board_GPIO_LED1 P01 (LED EN must be jumpered)
Board_GPIO_LED2 P02 (LED EN must be jumpered)
Board_GPIO_BUTTON0 P04 (SW2)
Board_GPIO_BUTTON1 P15 (SW3)
Board_I2C0 P01 - SCL, P02 - SDA
Board_I2C_TMP P01 - SCL, P02 - SDA (SCL and SDA must be jumpered)
Board_I2S0 P50 - XR1, P53 - CLK, P62 - CLKX, P63 - FSX, P64 - XR0
Board_PWM0 P01 (LED EN must be jumpered)
Board_PWM1 P02 (LED EN must be jumpered)
Board_SD0 P06 - DATA, P07 - CLK, P08 - CMD
Board_SDFatFS0 P06 - DATA, P07 - CLK, P08 - CMD
Board_SPI0 P05 - CLK, P06 - MISO, P07 - MOSI, P08 - CS
Board_SPI_MASTER P05 - CLK, P06 - MISO, P07 - MOSI, P08 - CS
Board_SPI_SLAVE P05 - CLK, P06 - MISO, P07 - MOSI, P08 - CS
Board_SPI_MASTER_READY P18
Board_SPI_SLAVE_READY P03
Board_UART0 P57 - RX, P55 - TX (UART provided through emulation, RX and TX must be jumpered)
Board_UART1 P08 - RX, P07 - TX

ADC Examples Pin Connections

Important: The inputs to the ADC are required to be well within 1.4 VDC to avoid clipping, which will cause distortion. The ADC inputs can be damaged if an input voltage higher than 1.8 VDC is applied to these pin. The 1.8 VDC hard limit must be considered from both the SW and HW points of view. Always add a resistor divider/buffer to bring down the measurement signal voltage to within the ADC limits. See the CC32xx ADC Appnote for more details.

The CC3220SF LAUNCHXL has a protective circuit to allow an input of 3.3 VDC. The 5V should NOT be used for this may damage the ADC inputs. For testing, the following jumpers must be present: J5 = OPAMP EN, J10 = GND, J13 = BRD.

Note: There are duplicate pins P59 and P60 on the board. Choose the ones connected to the BoosterPack headers (the pins not connected to the BoosterPack headers have an asterisk next to them).

Reset Behavior

By default, the application is not retained after a power reset. To enable retention of the application for debug purposes, the application should add the following pre-defined symbol: __SF_DEBUG__. This will place a header, Board_debugHeader, into flash. This header is defined in the Board.c file.

Note: The user should ensure the Board_debugHeader is erased if retention of the application is no longer desired. The Board.c file will erase the Board_debugHeader if __SF_NODEBUG__ is defined.

Floating point

The current build is set to add support for single-precision floating point. Meaning that System.Math API supports only the float overloads. The double ones will throw a NotImplementedException.

nanoBooter

Because this CPU uses a proprietary boot mechanism that copies the application from the SPI flash memory to the Cortex-M application core, it does not use nanoBooter.

Flashing nanoCLR

Follow the instructions here on how to flash nanoCLR image in the board.