#include #include #include "BSP_Flash.h" #include "BSP_Power.h" #include "BSP_QC.h" #include "Defines.h" #include "Model_Config.h" /* * BSP.h -- Board Support * * This exposes functions that are expected to be implemented to add support for different hardware */ #ifndef BSP_BSP_H_ #define BSP_BSP_H_ #ifdef __cplusplus extern "C" { #endif // maximum htim2 PWM value extern const uint16_t powerPWM; // htim2.Init.Period, the full PWM cycle extern uint16_t totalPWM; // Called first thing in main() to init the hardware void preRToSInit(); // Called once the RToS has started for any extra work void postRToSInit(); // Called once from preRToSInit() void BSPInit(void); // Called to reset the hardware watchdog unit void resetWatchdog(); // Accepts a output level of 0.. to use to control the tip output PWM void setTipPWM(uint8_t pulse); // Returns the Handle temp in C, X10 uint16_t getHandleTemperature(); // Returns the Tip temperature ADC reading in raw units uint16_t getTipRawTemp(uint8_t refresh); // Returns the main DC input voltage, using the adjustable divisor + sample flag uint16_t getInputVoltageX10(uint16_t divisor, uint8_t sample); // Switch to the most suitable PWM freq given the desired period; // returns true if the switch was performed and totalPWM changed bool tryBetterPWM(uint8_t pwm); // Readers for the two buttons // !! Returns 1 if held down, 0 if released uint8_t getButtonA(); uint8_t getButtonB(); // This is a work around that will be called if I2C starts to bug out // This should toggle the SCL line until SDA goes high to end the current transaction void unstick_I2C(); // Reboot the IC when things go seriously wrong void reboot(); // If the user has programmed in a bootup logo, draw it to the screen from flash // Returns 1 if the logo was printed so that the unit waits for the timeout or button uint8_t showBootLogoIfavailable(); //delay wrapper for delay using the hardware timer (used before RTOS) void delay_ms(uint16_t count) ; //Used to allow knowledge of if usb_pd is being used uint8_t usb_pd_detect(); bool getHallSensorFitted(); // If the iron has a hall effect sensor in the handle, return an signed count of the reading // If the sensor is single polarity (or polarity insensitive) just return 0..32768 int16_t getRawHallEffect(); //Returns true if power is from dumb "DC" input rather than "smart" QC or PD bool getIsPoweredByDCIN(); #ifdef __cplusplus } #endif #endif /* BSP_BSP_H_ */