/** * These arguments were used when this file was generated. They will be automatically applied on subsequent loads * via the GUI or CLI. Run CLI with '--help' for additional information on how to override these arguments. * @cliArgs --device "MSPM0G350X" --part "Default" --package "LQFP-48(PT)" --product "mspm0_sdk@2.07.00.05" * @v2CliArgs --device "MSPM0G3507" --package "LQFP-48(PT)" --product "mspm0_sdk@2.07.00.05" * @versions {"tool":"1.25.0+4268"} */ /** * Import the modules used in this configuration. */ const GPIO = scripting.addModule("/ti/driverlib/GPIO", {}, false); const GPIO1 = GPIO.addInstance(); const GPIO2 = GPIO.addInstance(); const I2C = scripting.addModule("/ti/driverlib/I2C", {}, false); const I2C1 = I2C.addInstance(); const PWM = scripting.addModule("/ti/driverlib/PWM", {}, false); const PWM1 = PWM.addInstance(); const SYSCTL = scripting.addModule("/ti/driverlib/SYSCTL"); const SYSTICK = scripting.addModule("/ti/driverlib/SYSTICK"); const TIMER = scripting.addModule("/ti/driverlib/TIMER", {}, false); const TIMER1 = TIMER.addInstance(); const UART = scripting.addModule("/ti/driverlib/UART", {}, false); const UART1 = UART.addInstance(); /** * Write custom configuration values to the imported modules. */ const divider2 = system.clockTree["HFCLK4MFPCLKDIV"]; divider2.divideValue = 10; const divider7 = system.clockTree["PLL_PDIV"]; divider7.divideValue = 2; const divider9 = system.clockTree["UDIV"]; divider9.divideValue = 2; const gate7 = system.clockTree["MFCLKGATE"]; gate7.enable = true; const gate8 = system.clockTree["MFPCLKGATE"]; gate8.enable = true; const multiplier2 = system.clockTree["PLL_QDIV"]; multiplier2.multiplyValue = 4; const mux4 = system.clockTree["EXHFMUX"]; mux4.inputSelect = "EXHFMUX_XTAL"; const mux8 = system.clockTree["HSCLKMUX"]; mux8.inputSelect = "HSCLKMUX_SYSPLL2X"; const mux10 = system.clockTree["MFPCLKMUX"]; mux10.inputSelect = "MFPCLKMUX_HFCLK"; const mux12 = system.clockTree["SYSPLLMUX"]; mux12.inputSelect = "zSYSPLLMUX_HFCLK"; const pinFunction4 = system.clockTree["HFXT"]; pinFunction4.inputFreq = 40; pinFunction4.enable = true; pinFunction4.HFXTStartup = 20; GPIO1.$name = "LED"; GPIO1.associatedPins[0].$name = "PA0"; GPIO1.associatedPins[0].pin.$assign = "PA0"; const Board = scripting.addModule("/ti/driverlib/Board", {}, false); Board.peripheral.$assign = "DEBUGSS"; Board.peripheral.swclkPin.$assign = "PA20"; Board.peripheral.swdioPin.$assign = "PA19"; GPIO2.$name = "SOFT_I2C"; GPIO2.associatedPins.create(2); GPIO2.associatedPins[0].$name = "CLK"; GPIO2.associatedPins[0].pin.$assign = "PA8"; GPIO2.associatedPins[1].$name = "SDA"; GPIO2.associatedPins[1].pin.$assign = "PA9"; I2C1.$name = "I2C_1"; I2C1.advAnalogGlitchFilter = "DISABLED"; I2C1.basicEnableController = true; I2C1.peripheral.sdaPin.$assign = "PB3"; I2C1.peripheral.sclPin.$assign = "PB2"; I2C1.sdaPinConfig.hideOutputInversion = scripting.forceWrite(false); I2C1.sdaPinConfig.onlyInternalResistor = scripting.forceWrite(false); I2C1.sdaPinConfig.passedPeripheralType = scripting.forceWrite("Digital"); I2C1.sdaPinConfig.$name = "ti_driverlib_gpio_GPIOPinGeneric2"; I2C1.sclPinConfig.hideOutputInversion = scripting.forceWrite(false); I2C1.sclPinConfig.onlyInternalResistor = scripting.forceWrite(false); I2C1.sclPinConfig.passedPeripheralType = scripting.forceWrite("Digital"); I2C1.sclPinConfig.$name = "ti_driverlib_gpio_GPIOPinGeneric3"; PWM1.$name = "PWM_0"; PWM1.ccIndex = [0,1,2]; PWM1.pwmMode = "CENTER_ALIGN"; PWM1.clockDivider = 4; PWM1.timerCount = 2000; PWM1.PWM_CHANNEL_0.$name = "ti_driverlib_pwm_PWMTimerCC0"; PWM1.PWM_CHANNEL_1.$name = "ti_driverlib_pwm_PWMTimerCC1"; PWM1.ccp0PinConfig.$name = "ti_driverlib_gpio_GPIOPinGeneric4"; PWM1.ccp1PinConfig.$name = "ti_driverlib_gpio_GPIOPinGeneric5"; PWM1.peripheral.$assign = "TIMA0"; PWM1.peripheral.ccp0Pin.$assign = "PA21"; PWM1.peripheral.ccp1Pin.$assign = "PA22"; PWM1.peripheral.ccp2Pin.$assign = "PB20"; PWM1.PWM_CHANNEL_2.$name = "ti_driverlib_pwm_PWMTimerCC2"; PWM1.ccp2PinConfig.$name = "ti_driverlib_gpio_GPIOPinGeneric6"; SYSCTL.forceDefaultClkConfig = true; SYSCTL.clockTreeEn = true; SYSTICK.periodEnable = true; SYSTICK.systickEnable = true; SYSTICK.period = 16000000; TIMER1.$name = "TIMER_0"; TIMER1.timerClkDiv = 8; TIMER1.timerMode = "PERIODIC"; TIMER1.timerClkPrescale = 8; TIMER1.timerClkSrc = "LFCLK"; TIMER1.interrupts = ["ZERO"]; TIMER1.timerPeriod = "2"; TIMER1.peripheral.$assign = "TIMG0"; UART1.$name = "UART_0"; UART1.rxFifoThreshold = "DL_UART_RX_FIFO_LEVEL_ONE_ENTRY"; UART1.targetBaudRate = 115200; UART1.enableFIFO = true; UART1.txFifoThreshold = "DL_UART_TX_FIFO_LEVEL_ONE_ENTRY"; UART1.enabledDMATXTriggers = "DL_UART_DMA_INTERRUPT_TX"; UART1.enabledInterrupts = ["DMA_DONE_RX"]; UART1.enabledDMARXTriggers = "DL_UART_DMA_INTERRUPT_RX"; UART1.interruptPriority = "1"; UART1.uartClkDiv = "3"; UART1.peripheral.$assign = "UART0"; UART1.peripheral.rxPin.$assign = "PA11"; UART1.peripheral.txPin.$assign = "PA10"; UART1.txPinConfig.$name = "ti_driverlib_gpio_GPIOPinGeneric0"; UART1.rxPinConfig.$name = "ti_driverlib_gpio_GPIOPinGeneric1"; UART1.DMA_CHANNEL_TX.$name = "DMA_CH0"; UART1.DMA_CHANNEL_TX.addressMode = "b2f"; UART1.DMA_CHANNEL_TX.srcLength = "BYTE"; UART1.DMA_CHANNEL_TX.dstLength = "BYTE"; UART1.DMA_CHANNEL_TX.peripheral.$assign = "DMA_CH0"; UART1.DMA_CHANNEL_RX.$name = "DMA_CH1"; UART1.DMA_CHANNEL_RX.addressMode = "f2b"; UART1.DMA_CHANNEL_RX.srcLength = "BYTE"; UART1.DMA_CHANNEL_RX.dstLength = "BYTE"; UART1.DMA_CHANNEL_RX.transferMode = "FULL_CH_REPEAT_SINGLE"; const ProjectConfig = scripting.addModule("/ti/project_config/ProjectConfig", {}, false); ProjectConfig.migrationCondition = true; /** * Pinmux solution for unlocked pins/peripherals. This ensures that minor changes to the automatic solver in a future * version of the tool will not impact the pinmux you originally saw. These lines can be completely deleted in order to * re-solve from scratch. */ pinFunction4.peripheral.$suggestSolution = "SYSCTL"; pinFunction4.peripheral.hfxInPin.$suggestSolution = "PA5"; pinFunction4.peripheral.hfxOutPin.$suggestSolution = "PA6"; I2C1.peripheral.$suggestSolution = "I2C1"; UART1.DMA_CHANNEL_RX.peripheral.$suggestSolution = "DMA_CH1";