Fork of mbed-dev build 137, last build before FAT file system appears to be broken. Also reduced HSE timeout time in STM4XX HAL
Fork of mbed-dev by
targets/TARGET_Maxim/TARGET_MAX32625/mxc/tmr.h
- Committer:
- <>
- Date:
- 2016-11-08
- Revision:
- 150:02e0a0aed4ec
File content as of revision 150:02e0a0aed4ec:
/******************************************************************************* * Copyright (C) 2016 Maxim Integrated Products, Inc., All Rights Reserved. * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included * in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. * IN NO EVENT SHALL MAXIM INTEGRATED BE LIABLE FOR ANY CLAIM, DAMAGES * OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR * OTHER DEALINGS IN THE SOFTWARE. * * Except as contained in this notice, the name of Maxim Integrated * Products, Inc. shall not be used except as stated in the Maxim Integrated * Products, Inc. Branding Policy. * * The mere transfer of this software does not imply any licenses * of trade secrets, proprietary technology, copyrights, patents, * trademarks, maskwork rights, or any other form of intellectual * property whatsoever. Maxim Integrated Products, Inc. retains all * ownership rights. * * $Date: 2016-03-21 14:44:55 -0500 (Mon, 21 Mar 2016) $ * $Revision: 22017 $ * ******************************************************************************/ /** * @file tmr.h * @addtogroup timer Timer * @{ * @brief This is the high level API for the general purpose timer module * */ #ifndef _TIMER_H #define _TIMER_H #include "mxc_config.h" #include "tmr_regs.h" #include "mxc_sys.h" #ifdef __cplusplus extern "C" { #endif ///@brief Define values for units of time typedef enum { /** nanosecond */ TMR_UNIT_NANOSEC = 0, /** microsecond */ TMR_UNIT_MICROSEC, /** millisecond */ TMR_UNIT_MILLISEC, /** second */ TMR_UNIT_SEC, } tmr_unit_t; ///@brief Defines timer modes for 32-bit timers typedef enum { TMR32_MODE_ONE_SHOT = MXC_V_TMR_CTRL_MODE_ONE_SHOT, TMR32_MODE_CONTINUOUS = MXC_V_TMR_CTRL_MODE_CONTINUOUS, TMR32_MODE_COUNTER = MXC_V_TMR_CTRL_MODE_COUNTER, TMR32_MODE_PWM = MXC_V_TMR_CTRL_MODE_PWM, TMR32_MODE_CAPTURE = MXC_V_TMR_CTRL_MODE_CAPTURE, TMR32_MODE_COMPARE = MXC_V_TMR_CTRL_MODE_COMPARE, TMR32_MODE_GATED = MXC_V_TMR_CTRL_MODE_GATED, TMR32_MODE_MEASURE = MXC_V_TMR_CTRL_MODE_MEASURE } tmr32_mode_t; ///@brief Defines timer modes for 16-bit timers ///@note 16-bit times only support One Shot and Continuous timers typedef enum { TMR16_MODE_ONE_SHOT = MXC_V_TMR_CTRL_MODE_ONE_SHOT, TMR16_MODE_CONTINUOUS = MXC_V_TMR_CTRL_MODE_CONTINUOUS } tmr16_mode_t; /// @brief Defines prescaler clock divider typedef enum { // divide input clock by 2^0 = 1 TMR_PRESCALE_DIV_2_0 = MXC_V_TMR_CTRL_PRESCALE_DIVIDE_BY_1, // divide input clock by 2^1 = 2 TMR_PRESCALE_DIV_2_1 = MXC_V_TMR_CTRL_PRESCALE_DIVIDE_BY_2, // divide input clock by 2^2 = 4 TMR_PRESCALE_DIV_2_2 = MXC_V_TMR_CTRL_PRESCALE_DIVIDE_BY_4, // divide input clock by 2^3 = 8 TMR_PRESCALE_DIV_2_3 = MXC_V_TMR_CTRL_PRESCALE_DIVIDE_BY_8, // divide input clock by 2^4 = 16 TMR_PRESCALE_DIV_2_4 = MXC_V_TMR_CTRL_PRESCALE_DIVIDE_BY_16, // divide input clock by 2^5 = 32 TMR_PRESCALE_DIV_2_5 = MXC_V_TMR_CTRL_PRESCALE_DIVIDE_BY_32, // divide input clock by 2^6 = 64 TMR_PRESCALE_DIV_2_6 = MXC_V_TMR_CTRL_PRESCALE_DIVIDE_BY_64, // divide input clock by 2^7 = 128 TMR_PRESCALE_DIV_2_7 = MXC_V_TMR_CTRL_PRESCALE_DIVIDE_BY_128, // divide input clock by 2^8 = 256 TMR_PRESCALE_DIV_2_8 = MXC_V_TMR_CTRL_PRESCALE_DIVIDE_BY_256, // divide input clock by 2^9 = 512 TMR_PRESCALE_DIV_2_9 = MXC_V_TMR_CTRL_PRESCALE_DIVIDE_BY_512, // divide input clock by 2^10 = 1024 TMR_PRESCALE_DIV_2_10 = MXC_V_TMR_CTRL_PRESCALE_DIVIDE_BY_1024, // divide input clock by 2^11 = 2048 TMR_PRESCALE_DIV_2_11 = MXC_V_TMR_CTRL_PRESCALE_DIVIDE_BY_2048, // divide input clock by 2^12 = 4096 TMR_PRESCALE_DIV_2_12 = MXC_V_TMR_CTRL_PRESCALE_DIVIDE_BY_4096, } tmr_prescale_t; /// @brief Defines the polarity bit for pwm timer typedef enum { TMR_POLARITY_UNUSED = 0, TMR_POLARITY_INIT_LOW = 0, ///GPIO initial output level = low TMR_POLARITY_INIT_HIGH = 1, ///GPIO initial output level = high TMR_POLARITY_RISING_EDGE = 0, ///timer trigger on GPIO rising edge TMR_POLARITY_FALLING_EDGE = 1, ///timer trigger on GPIO falling edge } tmr_polarity_t; /// @brief Defines the polarity bit for pwm timer typedef enum { TMR_PWM_INVERTED = 0, ///duty cycle = low pulse TMR_PWM_NONINVERTED, ///duty cycle = high pulse } tmr_pwm_polarity_t; /// @brief 32bit Timer Configurations (non-PWM) typedef struct { tmr32_mode_t mode; /// Desired timer mode tmr_polarity_t polarity; /// Polarity for GPIO uint32_t compareCount; /// Ticks to stop, reset back to 1, or compare timer } tmr32_cfg_t; /// @brief PWM Mode Configurations typedef struct { tmr_pwm_polarity_t polarity; /// PWM polarity uint32_t periodCount; /// PWM period in timer counts uint32_t dutyCount; /// PWM duty in timer counts } tmr32_cfg_pwm_t; /// @brief 16bit Timer Configurations typedef struct { tmr16_mode_t mode; /// Desired timer mode (only supports one shot or continuous timers) uint16_t compareCount; /// Ticks to stop or reset timer } tmr16_cfg_t; /** * @brief Initializes the timer to a known state. * @details This function initializes the timer to a known state and saves the * prescaler. The timer will be left disabled. TMR_Init should be called * before TMR_Config. * * @param tmr timer module to operate on * @param prescale clock divider for the timer clock * @param cfg pointer to timer system GPIO configuration * (can be NULL if not using GPIO timer input/output functions) * * @returns #E_NO_ERROR if everything is successful, error if unsuccessful. */ int TMR_Init(mxc_tmr_regs_t *tmr, tmr_prescale_t prescale, const sys_cfg_tmr_t *sysCfg); /** * @brief Configures the timer in the specified mode. * @details The parameters in config structure must be set before calling this function. * This function should be used for configuring the timer in all 32 bit modes other than PWM. * @note The timer cannot be running when this function is called * * @param tmr timer module to operate on * @param config pointer to timer configuration * */ void TMR32_Config(mxc_tmr_regs_t *tmr, const tmr32_cfg_t *config); /** * @brief Configures the timer in PWM mode. * @details The parameters in config structure must be set before calling this function. * This function should be used for configuring the timer in PWM mode only. * @note The timer cannot be running when this function is called * * @param tmr timer module to operate on * @param config pointer to timer configuration * */ void TMR32_PWMConfig(mxc_tmr_regs_t *tmr, const tmr32_cfg_pwm_t *config); /** * @brief Configures the timer in the specified mode. * @details The parameters in config structure must be set before calling this function. * This function should be used for configuring the timer in all 16 bit modes. * @note The timer cannot be running when this function is called * * @param tmr timer module to operate on * @param index selects which 16 bit timer (0 = 16_0 or 1 = 16_1) * @param config pointer to timer configuration * */ void TMR16_Config(mxc_tmr_regs_t *tmr, uint8_t index, const tmr16_cfg_t *config); /** * @brief Starts the specified timer. * * @param tmr timer module to operate on * */ void TMR32_Start(mxc_tmr_regs_t *tmr); /** * @brief Starts the specified timer. * * @param tmr timer module to operate on * @param index selects which 16 bit timer (0 = 16_0 or 1 = 16_1) * */ void TMR16_Start(mxc_tmr_regs_t *tmr, uint8_t index); /** * @brief Stops the specified 32 bit timer. * @details All other timer states are left unchanged. * * @param tmr timer module to operate on * */ __STATIC_INLINE void TMR32_Stop(mxc_tmr_regs_t *tmr) { tmr->ctrl &= ~MXC_F_TMR_CTRL_ENABLE0; } /** * @brief Stop the specified 16 bit timer. * @details All other timer states are left unchanged. * * @param tmr timer module to operate on * @param index selects which 16 bit timer (0 = 16_0 or 1 = 16_1) * */ __STATIC_INLINE void TMR16_Stop(mxc_tmr_regs_t *tmr, uint8_t index) { if(index) tmr->ctrl &= ~MXC_F_TMR_CTRL_ENABLE1; else tmr->ctrl &= ~MXC_F_TMR_CTRL_ENABLE0; } /** * @brief Determines if the timer is running * * @param tmr timer module to operate on * * @return 0 = timer is off, non-zero = timer is on */ __STATIC_INLINE uint32_t TMR32_IsActive(mxc_tmr_regs_t *tmr) { return (tmr->ctrl & MXC_F_TMR_CTRL_ENABLE0); } /** * @brief Determines if the timer is running * * @param tmr timer module to operate on * @param index selects which 16 bit timer (0 = 16_0 or 1 = 16_1) * * @return 0 = timer is off, non-zero = timer is on */ __STATIC_INLINE uint32_t TMR16_IsActive(mxc_tmr_regs_t *tmr, uint8_t index) { if(index) return (tmr->ctrl & MXC_F_TMR_CTRL_ENABLE1); else return (tmr->ctrl & MXC_F_TMR_CTRL_ENABLE0); } /** * @brief Enables the timer's interrupt * * @param tmr timer module to operate on * */ __STATIC_INLINE void TMR32_EnableINT(mxc_tmr_regs_t *tmr) { tmr->inten |= MXC_F_TMR_INTEN_TIMER0; } /** * @brief Enables the timer's interrupt * * @param tmr timer module to operate on * @param index selects which 16 bit timer (0 = 16_0 or 1 = 16_1) * */ __STATIC_INLINE void TMR16_EnableINT(mxc_tmr_regs_t *tmr, uint8_t index) { if(index) tmr->inten |= MXC_F_TMR_INTEN_TIMER1; else tmr->inten |= MXC_F_TMR_INTEN_TIMER0; } /** * @brief Disables the timer's interrupt * * @param tmr timer module to operate on * */ __STATIC_INLINE void TMR32_DisableINT(mxc_tmr_regs_t *tmr) { tmr->inten &= ~MXC_F_TMR_INTEN_TIMER0; } /** * @brief Disables the timer's interrupt * * @param tmr timer module to operate on * @param index selects which 16 bit timer (0 = 16_0 or 1 = 16_1) * */ __STATIC_INLINE void TMR16_DisableINT(mxc_tmr_regs_t *tmr, uint8_t index) { if(index) tmr->inten &= ~MXC_F_TMR_INTEN_TIMER1; else tmr->inten &= ~MXC_F_TMR_INTEN_TIMER0; } /** * @brief Gets the timer's interrupt flag * * @param tmr timer module to operate on * * @return 0 = flag not set, non-zero = flag is set */ __STATIC_INLINE uint32_t TMR32_GetFlag(mxc_tmr_regs_t *tmr) { return (tmr->intfl & MXC_F_TMR_INTFL_TIMER0); } /** * @brief Gets the timer's interrupt flag * * @param tmr timer module to operate on * @param index selects which 16 bit timer (0 = 16_0 or 1 = 16_1) * * @return 0 = flag not set, non-zero = flag is set */ __STATIC_INLINE uint32_t TMR16_GetFlag(mxc_tmr_regs_t *tmr, uint8_t index) { if(index) return (tmr->intfl & MXC_F_TMR_INTFL_TIMER1); else return (tmr->intfl & MXC_F_TMR_INTFL_TIMER0); } /** * @brief Clears the timer interrupt flag * * @param tmr timer module to operate on * */ __STATIC_INLINE void TMR32_ClearFlag(mxc_tmr_regs_t *tmr) { tmr->intfl = MXC_F_TMR_INTFL_TIMER0; } /** * @brief Clears the timer interrupt flag for the specified index * * @param tmr timer module to operate on * @param index selects which 16 bit timer (0 = 16_0 or 1 = 16_1) * */ __STATIC_INLINE void TMR16_ClearFlag(mxc_tmr_regs_t *tmr, uint8_t index) { if(index) tmr->intfl = MXC_F_TMR_INTFL_TIMER1; else tmr->intfl = MXC_F_TMR_INTFL_TIMER0; } /** * @brief Set the current tick value to start counting from. * * @param tmr timer module to operate on * @param count value to set the current ticks * */ __STATIC_INLINE void TMR32_SetCount(mxc_tmr_regs_t *tmr, uint32_t count) { tmr->count32 = count; } /** * @brief Set the current tick value to start counting from. * * @param tmr timer module to operate on * @param index selects which 16 bit timer (0 = 16_0 or 1 = 16_1) * @param count value to set the current ticks * */ __STATIC_INLINE void TMR16_SetCount(mxc_tmr_regs_t *tmr, uint8_t index, uint16_t count) { if (index) tmr->count16_1 = count; else tmr->count16_0 = count; } /** * @brief Gets the most current count value. * * @param tmr timer module to operate on * * @return current count value in ticks */ __STATIC_INLINE uint32_t TMR32_GetCount(mxc_tmr_regs_t *tmr) { return (tmr->count32); } /** * @brief Gets the most current count value. * * @param tmr timer module to operate on * @param index selects which 16 bit timer(0 = 16_0 or 1 = 16_1) * * @return current count value in ticks */ __STATIC_INLINE uint32_t TMR16_GetCount(mxc_tmr_regs_t *tmr, uint8_t index) { if(index) return tmr->count16_1; else return tmr->count16_0; } /** * @brief Gets the most recent capture value. * @details Used in Capture or Measure timer modes * * @param tmr timer module to operate on * * @return capture value in ticks */ __STATIC_INLINE uint32_t TMR32_GetCapture(mxc_tmr_regs_t *tmr) { return (tmr->pwm_cap32); } /** * @brief Set a new compare tick value for timer * @details Depending on the timer mode this is the tick value to * stop the timer, reset ticks to 1, or compare the timer * * @param tmr timer module to operate on * @param count new terminal/compare value in timer counts * */ __STATIC_INLINE void TMR32_SetCompare(mxc_tmr_regs_t *tmr, uint32_t count) { tmr->term_cnt32 = count; } /** * @brief Get compare tick value for timer * @param tmr timer module to operate on * @return compare value in ticks * */ __STATIC_INLINE uint32_t TMR32_GetCompare(mxc_tmr_regs_t *tmr) { return tmr->term_cnt32; } /** * @brief Set a new compare tick value for timer * @details Depending on the timer mode this is the tick value to * stop the timer, reset ticks to 1, or compare the timer * * @param tmr timer module to operate on * @param index selects which 16 bit timer (0 = 16_0 or 1 = 16_1) * @param count new terminal/compare value in timer counts * */ __STATIC_INLINE void TMR16_SetCompare(mxc_tmr_regs_t *tmr, uint8_t index, uint16_t count) { if (index) tmr->term_cnt16_1 = count; else tmr->term_cnt16_0 = count; } /** * @brief Get compare tick value for timer * @param tmr timer module to operate on * @param index selects which 16 bit timer (0 = 16_0 or 1 = 16_1) * @return compare value in ticks * */ __STATIC_INLINE uint32_t TMR16_GetCompare(mxc_tmr_regs_t *tmr, uint8_t index) { if (index) return tmr->term_cnt16_1; return tmr->term_cnt16_0; } /** * @brief Returns the prescale value used by the timer * * @param tmr timer module to operate on * * @returns prescaler */ uint32_t TMR_GetPrescaler(mxc_tmr_regs_t *tmr); /** * @brief Set a new duty cycle when the timer is used in PWM mode. * * @param tmr timer module to operate on * @param dutyCount duty cycle value in timer counts * */ __STATIC_INLINE void TMR32_SetDuty(mxc_tmr_regs_t *tmr, uint32_t dutyCount) { tmr->pwm_cap32 = dutyCount; } /** * @brief Set a new duty cycle when the timer is used in PWM mode. * * @param tmr timer module to operate on * @param dutyPercent duty cycle value in percent (0 to 100%) * */ __STATIC_INLINE void TMR32_SetDutyPer(mxc_tmr_regs_t *tmr, uint32_t dutyPercent) { uint32_t periodCount = tmr->term_cnt32; tmr->pwm_cap32 = ((uint64_t)periodCount * dutyPercent) / 100; } /** * @brief Set a new period value for PWM timer * * @param tmr timer module to operate on * @param count new period value in timer counts * */ __STATIC_INLINE void TMR32_SetPeriod(mxc_tmr_regs_t *tmr, uint32_t period) { tmr->term_cnt32 = period; } /** * @brief Converts frequency and duty cycle % to period and duty ticks * @note TMR_Init should be called before this function to set the prescaler * * @param tmr timer module to operate on * @param dutyPercent duty cycle in percent (0 to 100%) * @param freq frequency of pwm signal in Hz * @param dutyTicks calculated duty cycle in ticks * @param periodTicks calculated period in ticks * * @returns #E_NO_ERROR if everything is successful, error if unsuccessful. * */ int TMR32_GetPWMTicks(mxc_tmr_regs_t *tmr, uint8_t dutyPercent, uint32_t freq, uint32_t *dutyTicks, uint32_t *periodTicks); /** * @brief Converts a time and units to a number of ticks for the 32-bit timer. * @note TMR_Init should be called before this function to set the prescaler * * @param tmr timer module to operate on * @param time time value. * @param unit time units. * @param ticks calculated number of ticks. * * @returns #E_NO_ERROR if everything is successful, error if unsuccessful. */ int TMR32_TimeToTicks(mxc_tmr_regs_t *tmr, uint32_t time, tmr_unit_t units, uint32_t *ticks); /** * @brief Converts a time and units to a number of ticks for the 16-bit timer. * @note TMR_Init should be called before this function to set the prescaler * * @param tmr timer module to operate on * @param time time value. * @param unit time units. * @param ticks calculated number of ticks. * * @returns #E_NO_ERROR if everything is successful, error if unsuccessful. */ int TMR16_TimeToTicks(mxc_tmr_regs_t *tmr, uint32_t time, tmr_unit_t units, uint16_t *ticks); /** * @brief Converts a number of ticks to a time and units for the timer. * @note TMR_Init should be called before this function to set the prescaler * * @param tmr timer module to operate on * @param ticks number of ticks. * @param time calculated time value. * @param units calculated time units. * * @returns #E_NO_ERROR if everything is successful, error if unsuccessful. */ int TMR_TicksToTime(mxc_tmr_regs_t *tmr, uint32_t ticks, uint32_t *time, tmr_unit_t *units); /** @} */ #ifdef __cplusplus } #endif #endif /* _TIMER_H */