/*! * @file apm32f0xx_tmr.h * * @brief This file contains all functions prototype and macros for the TMR peripheral * * @version V1.0.1 * * @date 2021-07-01 * */ #ifndef __TMR_H #define __TMR_H #include "apm32f0xx.h" #ifdef __cplusplus extern "C" { #endif /** @addtogroup Peripherals_Library Standard Peripheral Library @{ */ /** @addtogroup TMR_Driver TMR Driver @{ */ /** @addtogroup TMR_Enumerations Enumerations @{ */ /** * @brief Counter_Mode */ typedef enum { TMR_COUNTER_MODE_UP = 0, TMR_COUNTER_MODE_DOWN = 1, TMR_COUNTER_MODE_CENTERALIGNED1 = 2, TMR_COUNTER_MODE_CENTERALIGNED2 = 4, TMR_COUNTER_MODE_CENTERALIGNED3 = 6 } TMR_COUNTER_MODE_T; /** * @brief Clock_Division_CKD */ typedef enum { TMR_CKD_DIV1 = 0, TMR_CKD_DIV2 = 1, TMR_CKD_DIV4 = 2 } TMR_CKD_T; /** * @brief Prescaler_Reload_Mode */ typedef enum { TMR_PRESCALER_RELOAD_UPDATA = 0, TMR_PRESCALER_RELOAD_IMMEDIATE = 1 } TMR_PRESCALER_RELOAD_T; /** * @brief TMR UpdateSource */ typedef enum { TMR_UPDATE_SOURCE_GLOBAL = 0, TMR_UPDATE_SOURCE_REGULAR = 1 } TMR_UPDATE_SOURCE_T; /** * @brief TMR OPMode */ typedef enum { TMR_OPMODE_REPETITIVE = 0, TMR_OPMODE_SINGLE = 1 } TMR_OPMODE_T; /** * @brief TMR Specifies the Off-State selection used in Run mode */ typedef enum { TMR_RMOS_STATE_DISABLE = 0, TMR_RMOS_STATE_ENABLE = 1 } TMR_RMOS_STATE_T; /** * @brief TMR Closed state configuration in idle mode */ typedef enum { TMR_IMOS_STATE_DISABLE = 0, TMR_IMOS_STATE_ENABLE = 1 } TMR_IMOS_STATE_T; /** * @brief TMR Protect mode configuration values */ typedef enum { TMR_LOCK_LEVEL_OFF = 0, TMR_LOCK_LEVEL_1 = 1, TMR_LOCK_LEVEL_2 = 2, TMR_LOCK_LEVEL_3 = 3 } TMR_LOCK_LEVEL_T; /** * @brief TMR break state */ typedef enum { TMR_BREAK_STATE_DISABLE, TMR_BREAK_STATE_ENABLE } TMR_BREAK_STATE_T; /** * @brief TMR Specifies the Break Input pin polarity. */ typedef enum { TMR_BREAK_POLARITY_LOW, TMR_BREAK_POLARITY_HIGH } TMR_BREAK_POLARITY_T; /** * @brief TMR Automatic Output feature is enable or disable */ typedef enum { TMR_AUTOMATIC_OUTPUT_DISABLE, TMR_AUTOMATIC_OUTPUT_ENABLE } TMR_AUTOMATIC_OUTPUT_T; /** * @brief TMR_Output_Compare_and_PWM_modes */ typedef enum { TMR_OC_MODE_TMRING = 0x00, TMR_OC_MODE_ACTIVE = 0x01, TMR_OC_MODE_INACTIVE = 0x02, TMR_OC_MODE_TOGGEL = 0x03, TMR_OC_MODE_LOWLEVEL = 0x04, TMR_OC_MODE_HIGHLEVEL = 0x05, TMR_OC_MODE_PWM1 = 0x06, TMR_OC_MODE_PWM2 = 0x07 } TMR_OC_MODE_T; /** * @brief TMR_Output_Compare_state */ typedef enum { TMR_OUTPUT_STATE_DISABLE, TMR_OUTPUT_STATE_ENABLE } TMR_OC_OUTPUT_STATE_T; /** * @brief TMR_Output_Compare_N_state */ typedef enum { TMR_OUTPUT_NSTATE_DISABLE, TMR_OUTPUT_NSTATE_ENABLE } TMR_OC_OUTPUT_NSTATE_T; /** * @brief TMR_Output_Compare_Polarity */ typedef enum { TMR_OC_POLARITY_HIGH, TMR_OC_POLARITY_LOW } TMR_OC_POLARITY_T; /** * @brief TMR_Output_Compare_N_Polarity */ typedef enum { TMR_OC_NPOLARITY_HIGH, TMR_OC_NPOLARITY_LOW } TMR_OC_NPOLARITY_T; /** * @brief TMR_Output_Compare_Idle_State */ typedef enum { TMR_OCIDLESTATE_RESET, TMR_OCIDLESTATE_SET } TMR_OC_IDLE_STATE_T; /** * @brief TMR_Output_Compare_N_Idle_State */ typedef enum { TMR_OCNIDLESTATE_RESET, TMR_OCNIDLESTATE_SET } TMR_OC_NIDLE_STATE_T; /** * @brief TMR Input Capture Init structure definition */ typedef enum { TMR_CHANNEL_1 = 0x0000, TMR_CHANNEL_2 = 0x0004, TMR_CHANNEL_3 = 0x0008, TMR_CHANNEL_4 = 0x000C } TMR_CHANNEL_T; /** * @brief TMR ForcedAction */ typedef enum { TMR_FORCEDACTION_INACTIVE = 0x04, TMR_FORCEDACTION_ACTIVE = 0x05 } TMR_FORCED_ACTION_T; /** * @brief TMR Output_Compare_Preload_State */ typedef enum { TMR_OC_PRELOAD_DISABLE, TMR_OC_PRELOAD_ENABLE } TMR_OC_PRELOAD_T; /** * @brief TMR Output_Compare_Fast_State */ typedef enum { TMR_OCFAST_DISABLE, TMR_OCFAST_ENABLE } TMR_OCFAST_T; /** * @brief TMR Output_Compare_Clear_State */ typedef enum { TMR_OCCLER_DISABLE, TMR_OCCLER_ENABLE } TMR_OCCLER_T; /** * @brief TMR_OCReferenceClear Clear source */ typedef enum { TMR_OCCS_ETRF, TMR_OCCS_OCREFCLR } TMR_OCCSEL_T; /** * @brief TMR Input_Capture_Polarity */ typedef enum { TMR_IC_POLARITY_RISING = 0x00, TMR_IC_POLARITY_FALLING = 0x02, TMR_IC_POLARITY_BOTHEDGE = 0x0A } TMR_IC_POLARITY_T; /** * @brief TMR Input_Capture_Selection */ typedef enum { TMR_IC_SELECTION_DIRECT_TI = 0x01, TMR_IC_SELECTION_INDIRECT_TI = 0x02, TMR_IC_SELECTION_TRC = 0x03 } TMR_IC_SELECTION_T; /** * @brief TMR_Input_Capture_Prescaler */ typedef enum { TMR_ICPSC_DIV1 = 0x00, TMR_ICPSC_DIV2 = 0x01, TMR_ICPSC_DIV4 = 0x02, TMR_ICPSC_DIV8 = 0x03 } TMR_IC_PRESCALER_T; /** * @brief TMR_interrupt_sources */ typedef enum { TMR_INT_UPDATE = 0x0001, TMR_INT_CH1 = 0x0002, TMR_INT_CH2 = 0x0004, TMR_INT_CH3 = 0x0008, TMR_INT_CH4 = 0x0010, TMR_INT_CCU = 0x0020, TMR_INT_TRG = 0x0040, TMR_INT_BRK = 0x0080 } TMR_INT_T; /** * @brief TMR_event_sources */ typedef enum { TMR_EVENT_UPDATE = 0x0001, TMR_EVENT_CH1 = 0x0002, TMR_EVENT_CH2 = 0x0004, TMR_EVENT_CH3 = 0x0008, TMR_EVENT_CH4 = 0x0010, TMR_EVENT_CCU = 0x0020, TMR_EVENT_TRG = 0x0040, TMR_EVENT_BRK = 0x0080 } TMR_EVENT_T; /** * @brief TMR_interrupt_flag */ typedef enum { TMR_INT_FLAG_UPDATE = 0x0001, TMR_INT_FLAG_CH1 = 0x0002, TMR_INT_FLAG_CH2 = 0x0004, TMR_INT_FLAG_CH3 = 0x0008, TMR_INT_FLAG_CH4 = 0x0010, TMR_INT_FLAG_CCU = 0x0020, TMR_INT_FLAG_TRG = 0x0040, TMR_INT_FLAG_BRK = 0x0080 } TMR_INT_FLAG_T; /** * @brief TMR Flag */ typedef enum { TMR_FLAG_UPDATE = 0x0001, TMR_FLAG_CH1 = 0x0002, TMR_FLAG_CH2 = 0x0004, TMR_FLAG_CH3 = 0x0008, TMR_FLAG_CH4 = 0x0010, TMR_FLAG_CCU = 0x0020, TMR_FLAG_TRG = 0x0040, TMR_FLAG_BRK = 0x0080, TMR_FLAG_CH1OC = 0x0200, TMR_FLAG_CH2OC = 0x0400, TMR_FLAG_CH3OC = 0x0800, TMR_FLAG_CH4OC = 0x1000 } TMR_FLAG_T; /** * @brief TMR DMA Base Address */ typedef enum { TMR_DMABASE_CTRL1 = 0x0000, TMR_DMABASE_CTRL2 = 0x0001, TMR_DMABASE_SMCTRL = 0x0002, TMR_DMABASE_DIEN = 0x0003, TMR_DMABASE_STS = 0x0004, TMR_DMABASE_SCEG = 0x0005, TMR_DMABASE_CCM1 = 0x0006, TMR_DMABASE_CCM2 = 0x0007, TMR_DMABASE_CHCTRL = 0x0008, TMR_DMABASE_CNT = 0x0009, TMR_DMABASE_DIV = 0x000A, TMR_DMABASE_AUTORLD = 0x000B, TMR_DMABASE_REPCNT = 0x000C, TMR_DMABASE_CH1CC = 0x000D, TMR_DMABASE_CH2CC = 0x000E, TMR_DMABASE_CH3CC = 0x000F, TMR_DMABASE_CH4CC = 0x0010, TMR_DMABASE_BDT = 0x0011, TMR_DMABASE_DMAB = 0x0012 } TMR_DMA_BASE_ADDERSS_T; /** * @brief TMR DMA Burst Lenght */ typedef enum { TMR_DMA_BURSTLENGHT_1TRANSFER = 0x0000, TMR_DMA_BURSTLENGHT_2TRANSFERS = 0x0100, TMR_DMA_BURSTLENGHT_3TRANSFERS = 0x0200, TMR_DMA_BURSTLENGHT_4TRANSFERS = 0x0300, TMR_DMA_BURSTLENGHT_5TRANSFERS = 0x0400, TMR_DMA_BURSTLENGHT_6TRANSFERS = 0x0500, TMR_DMA_BURSTLENGHT_7TRANSFERS = 0x0600, TMR_DMA_BURSTLENGHT_8TRANSFERS = 0x0700, TMR_DMA_BURSTLENGHT_9TRANSFERS = 0x0800, TMR_DMA_BURSTLENGHT_10TRANSFERS = 0x0900, TMR_DMA_BURSTLENGHT_11TRANSFERS = 0x0A00, TMR_DMA_BURSTLENGHT_12TRANSFERS = 0x0B00, TMR_DMA_BURSTLENGHT_13TRANSFERS = 0x0C00, TMR_DMA_BURSTLENGHT_14TRANSFERS = 0x0D00, TMR_DMA_BURSTLENGHT_15TRANSFERS = 0x0E00, TMR_DMA_BURSTLENGHT_16TRANSFERS = 0x0F00, TMR_DMA_BURSTLENGHT_17TRANSFERS = 0x1000, TMR_DMA_BURSTLENGHT_18TRANSFERS = 0x1100, } TMR_DMA_BURST_LENGHT_T; /** * @brief TMR DMA Soueces */ typedef enum { TMR_DMA_UPDATE = 0x0100, TMR_DMA_CH1 = 0x0200, TMR_DMA_CH2 = 0x0400, TMR_DMA_CH3 = 0x0800, TMR_DMA_CH4 = 0x1000, TMR_DMA_CCU = 0x2000, TMR_DMA_TRG = 0x4000 } TMR_DMA_SOUCES_T; /** * @brief TMR Internal_Trigger_Selection */ typedef enum { TMR_TS_ITR0 = 0x00, TMR_TS_ITR1 = 0x01, TMR_TS_ITR2 = 0x02, TMR_TS_ITR3 = 0x03, TMR_TS_TI1F_ED = 0x04, TMR_TS_TI1FP1 = 0x05, TMR_TS_TI2FP2 = 0x06, TMR_TS_ETRF = 0x07 } TMR_INPUT_TRIGGER_SOURCE_T; /** * @brief TMR The external Trigger Prescaler. */ typedef enum { TMR_ExtTRGPSC_OFF = 0x00, TMR_EXTTRGPSC_DIV2 = 0x01, TMR_EXTTRGPSC_DIV4 = 0x02, TMR_EXTTRGPSC_DIV8 = 0x03 } TMR_EXTTRG_PRESCALER_T; /** * @brief TMR External_Trigger_Polarity */ typedef enum { TMR_EXTTRGPOLARITY_INVERTED = 0x01, TMR_EXTTGRPOLARITY_NONINVERTED = 0x00 } TMR_EXTTRG_POLARITY_T; /** * @brief TMR OPMode */ typedef enum { TMR_TRGOSOURCE_RESET, TMR_TRGOSOURCE_ENABLE, TMR_TRGOSOURCE_UPDATE, TMR_TRGOSOURCE_OC1, TMR_TRGOSOURCE_OC1REF, TMR_TRGOSOURCE_OC2REF, TMR_TRGOSOURCE_OC3REF, TMR_TRGOSOURCE_OC4REF } TMR_TRGOSOURCE_T; /** * @brief TMR OPMode */ typedef enum { TMR_SLAVEMODE_RESET = 0x04, TMR_SLAVEMODE_GATED = 0x05, TMR_SLAVEMODE_TRIGGER = 0x06, TMR_SLAVEMODE_EXTERNALL = 0x07 } TMR_SLAVEMODE_T; /** * @brief TMR Encoder_Mode */ typedef enum { TMR_ENCODER_MODE_TI1 = 0x01, TMR_ENCODER_MODE_TI2 = 0x02, TMR_ENCODER_MODE_TI12 = 0x03 } TMR_ENCODER_MODE_T; /** * @brief TMR Remap Select */ typedef enum { TMR_REMAP_GPIO = 0x00, TMR_REMAP_RTC_CLK = 0x01, TMR_REMAP_HSEDiv32 = 0x02, TMR_REMAP_MCO = 0x03 } TMR_REMAP_T; /**@} end of group TMR_Enumerations*/ /** @addtogroup TMR_Structure Data Structure @{ */ /** * @brief TMR Time Base Init structure definition * @note This sturcture is used with all TMRx. */ typedef struct { uint16_t div; TMR_COUNTER_MODE_T counterMode; uint32_t period; TMR_CKD_T clockDivision; uint8_t repetitionCounter; } TMR_TimeBase_T; /** * @brief TMR BDT structure definition */ typedef struct { TMR_RMOS_STATE_T RMOS_State; TMR_IMOS_STATE_T IMOS_State; TMR_LOCK_LEVEL_T lockLevel; uint8_t deadTime; TMR_BREAK_STATE_T breakState; TMR_BREAK_POLARITY_T breakPolarity; TMR_AUTOMATIC_OUTPUT_T automaticOutput; } TMR_BDTInit_T; /** * @brief TMR Config struct definition */ typedef struct { TMR_OC_MODE_T OC_Mode; //!< Specifies the TMR mode. TMR_OC_OUTPUT_STATE_T OC_OutputState; //!< Specifies the TMR Output Compare state. TMR_OC_OUTPUT_NSTATE_T OC_OutputNState; //!< Specifies the TMR complementary Output Compare state. @note This parameter is valid only for TMR1 and TMR8. TMR_OC_POLARITY_T OC_Polarity; //!< Specifies the output polarity. TMR_OC_NPOLARITY_T OC_NPolarity; //!< Specifies the complementary output polarity. @note This parameter is valid only for TMR1 and TMR8. TMR_OC_IDLE_STATE_T OC_Idlestate; //!< Specifies the TMR Output Compare pin state during Idle state. @note This parameter is valid only for TMR1 and TMR8. TMR_OC_NIDLE_STATE_T OC_NIdlestate; //!< Specifies the TMR Output Compare pin state during Idle state. @note This parameter is valid only for TMR1 and TMR8. uint16_t Pulse; //!< Specifies the pulse value to be loaded into the Capture Compare Register. } TMR_OCConfig_T; /** * @brief TMR Input Capture Config struct definition */ typedef struct { TMR_CHANNEL_T channel; //!< Specifies the TMR channel. TMR_IC_POLARITY_T ICpolarity; //!< Specifies the active edge of the input signal. TMR_IC_SELECTION_T ICselection; //!< Specifies the input. TMR_IC_PRESCALER_T ICprescaler; //!< Specifies the Input Capture Prescaler. uint16_t ICfilter; //!< Specifies the input capture filter. } TMR_ICConfig_T; /**@} end of group TMR_Structure*/ /** @addtogroup TMR_Fuctions Fuctions @{ */ /** TimeBase management */ void TMR_Reset(TMR_T* TMRx); void TMR_ConfigTimeBase(TMR_T* TMRx, TMR_TimeBase_T* timeBaseConfig); void TMR_ConfigTimeBaseStruct(TMR_TimeBase_T* timeBaseConfig); void TMR_ConfigDIV(TMR_T* TMRx, uint16_t div, TMR_PRESCALER_RELOAD_T mode); void TMR_ConfigCounterMode(TMR_T* TMRx, TMR_COUNTER_MODE_T mode); void TMR_SetCounter(TMR_T* TMRx, uint32_t counter); void TMR_SetAutoReload(TMR_T* TMRx, uint32_t autoReload); uint32_t TMR_ReadCounter(TMR_T* TMRx); uint32_t TMR_ReadDiv(TMR_T* TMRx); void TMR_EnableNGUpdate(TMR_T* TMRx); void TMR_DisableNGUpdate(TMR_T* TMRx); void TMR_ConfigUPdateRequest(TMR_T* TMRx, TMR_UPDATE_SOURCE_T source); void TMR_EnableAUTOReload(TMR_T* TMRx); void TMR_DisableAUTOReload(TMR_T* TMRx); void TMR_SetClockDivision(TMR_T* TMRx, TMR_CKD_T clockDivision); void TMR_Enable(TMR_T* TMRx); void TMR_Disable(TMR_T* TMRx); void TMR_ConfigBDT(TMR_T* TMRx, TMR_BDTInit_T* structure); void TMR_ConfigBDTStructInit( TMR_BDTInit_T* structure); void TMR_EnablePWMOutputs(TMR_T* TMRx); void TMR_DisablePWMOutputs(TMR_T* TMRx); void TMR_OC1Config(TMR_T* TMRx, TMR_OCConfig_T* OCcongigStruct); void TMR_OC2Config(TMR_T* TMRx, TMR_OCConfig_T* OCcongigStruct); void TMR_OC3Config(TMR_T* TMRx, TMR_OCConfig_T* OCcongigStruct); void TMR_OC4Config(TMR_T* TMRx, TMR_OCConfig_T* OCcongigStruct); void TMR_OCConfigStructInit(TMR_OCConfig_T* OCcongigStruct); void TMR_SelectOCxMode(TMR_T* TMRx, TMR_CHANNEL_T channel, TMR_OC_MODE_T mode); void TMR_SelectSlaveMode(TMR_T* TMRx, TMR_SLAVEMODE_T mode); void TMR_SelectOnePulseMode(TMR_T* TMRx, TMR_OPMODE_T OPMode); void TMR_SetCompare1(TMR_T* TMRx, uint32_t compare); void TMR_SetCompare2(TMR_T* TMRx, uint32_t compare); void TMR_SetCompare3(TMR_T* TMRx, uint32_t compare); void TMR_SetCompare4(TMR_T* TMRx, uint32_t compare); void TMR_ForcedOC1Config(TMR_T* TMRx, TMR_FORCED_ACTION_T action); void TMR_ForcedOC2Config(TMR_T* TMRx, TMR_FORCED_ACTION_T action); void TMR_ForcedOC3Config(TMR_T* TMRx, TMR_FORCED_ACTION_T action); void TMR_ForcedOC4Config(TMR_T* TMRx, TMR_FORCED_ACTION_T action); void TMR_EnableCCPreload(TMR_T* TMRx); void TMR_DisableCCPreload(TMR_T* TMRx); void TMR_OC1PreloadConfig(TMR_T* TMRx, TMR_OC_PRELOAD_T OCPreload); void TMR_OC2PreloadConfig(TMR_T* TMRx, TMR_OC_PRELOAD_T OCPreload); void TMR_OC3PreloadConfig(TMR_T* TMRx, TMR_OC_PRELOAD_T OCPreload); void TMR_OC4PreloadConfig(TMR_T* TMRx, TMR_OC_PRELOAD_T OCPreload); void TMR_OC1FastConfit(TMR_T* TMRx, TMR_OCFAST_T OCFast); void TMR_OC2FastConfit(TMR_T* TMRx, TMR_OCFAST_T OCFast); void TMR_OC3FastConfit(TMR_T* TMRx, TMR_OCFAST_T OCFast); void TMR_OC4FastConfit(TMR_T* TMRx, TMR_OCFAST_T OCFast); void TMR_OC1PolarityConfig(TMR_T* TMRx, TMR_OC_POLARITY_T OCPolarity); void TMR_OC1NPolarityConfig(TMR_T* TMRx, TMR_OC_NPOLARITY_T OCNPolarity); void TMR_OC2PolarityConfig(TMR_T* TMRx, TMR_OC_POLARITY_T OCPolarity); void TMR_OC2NPolarityConfig(TMR_T* TMRx, TMR_OC_NPOLARITY_T OCNPolarity); void TMR_OC3PolarityConfig(TMR_T* TMRx, TMR_OC_POLARITY_T OCPolarity); void TMR_OC3NPolarityConfig(TMR_T* TMRx, TMR_OC_NPOLARITY_T OCNPolarity); void TMR_OC4PolarityConfig(TMR_T* TMRx, TMR_OC_POLARITY_T OCPolarity); void TMR_SelectOCREFClear(TMR_T* TMRx, TMR_OCCSEL_T OCReferenceClear); void TMR_EnableCCxChannel(TMR_T* TMRx, TMR_CHANNEL_T channel); void TMR_DisableCCxChannel(TMR_T* TMRx, TMR_CHANNEL_T channel); void TMR_EnableCCxNChannel(TMR_T* TMRx, TMR_CHANNEL_T channel); void TMR_DisableCCxNChannel(TMR_T* TMRx, TMR_CHANNEL_T channel); void TMR_EnableAUTOReload(TMR_T* TMRx); void TMR_DisableAUTOReload(TMR_T* TMRx); void TMR_EnableSelectCOM(TMR_T* TMRx); void TMR_DisableSelectCOM(TMR_T* TMRx); void TMR_ICConfig(TMR_T* TMRx, TMR_ICConfig_T* ICconfigstruct); void TMR_ICConfigStructInit(TMR_ICConfig_T* ICconfigstruct); void TMR_PWMConfig(TMR_T* TMRx, TMR_ICConfig_T* ICconfigstruct); uint16_t TMR_ReadCaputer1(TMR_T* TMRx); uint16_t TMR_ReadCaputer2(TMR_T* TMRx); uint16_t TMR_ReadCaputer3(TMR_T* TMRx); uint16_t TMR_ReadCaputer4(TMR_T* TMRx); void TMR_SetIC1Prescal(TMR_T* TMRx, TMR_IC_PRESCALER_T prescaler); void TMR_SetIC2Prescal(TMR_T* TMRx, TMR_IC_PRESCALER_T prescaler); void TMR_SetIC3Prescal(TMR_T* TMRx, TMR_IC_PRESCALER_T prescaler); void TMR_SetIC4Prescal(TMR_T* TMRx, TMR_IC_PRESCALER_T prescaler); /** Interrupts and Event management functions */ void TMR_EnableInterrupt(TMR_T* TMRx, uint16_t interrupt); void TMR_DisableInterrupt(TMR_T* TMRx, uint16_t interrupt); void TMR_GenerateEvent(TMR_T* TMRx, uint16_t event); uint16_t TMR_ReadStatusFlag(TMR_T* TMRx, TMR_FLAG_T flag); void TMR_ClearStatusFlag(TMR_T* TMRx, uint16_t flag); uint16_t TMR_ReadIntFlag(TMR_T* TMRx, TMR_INT_FLAG_T flag); void TMR_ClearIntFlag(TMR_T* TMRx, uint16_t flag); void TMR_ConfigDMA(TMR_T* TMRx, TMR_DMA_BASE_ADDERSS_T address, TMR_DMA_BURST_LENGHT_T lenght); void TMR_EnableDMASoure(TMR_T* TMRx, uint16_t souces); void TMR_DisableDMASoure(TMR_T* TMRx, uint16_t souces); void TMR_EnableCCDMA(TMR_T* TMRx); void TMR_DisableCCDMA(TMR_T* TMRx); /** Clocks management */ void TMR_ConfigInternalClock(TMR_T* TMRx); void TMR_ConfigITRxExternalClock(TMR_T* TMRx, TMR_INPUT_TRIGGER_SOURCE_T input); void TMR_ConfigTIxExternalClock(TMR_T* TMRx, TMR_INPUT_TRIGGER_SOURCE_T input, TMR_IC_POLARITY_T ICpolarity, uint16_t ICfilter); void TMR_ConfigExternalClockMode1(TMR_T* TMRx, TMR_EXTTRG_PRESCALER_T prescaler, TMR_EXTTRG_POLARITY_T polarity, uint16_t filter); void TMR_ConfigExternalClockMode2(TMR_T* TMRx, TMR_EXTTRG_PRESCALER_T prescaler, TMR_EXTTRG_POLARITY_T polarity, uint16_t filter); /** Synchronization management */ void TMR_SelectInputTrigger(TMR_T* TMRx, TMR_INPUT_TRIGGER_SOURCE_T input); void TMR_SelectOutputTrigger(TMR_T* TMRx, TMR_TRGOSOURCE_T source); void TMR_EnableMasterSlaveMode(TMR_T* TMRx); void TMR_DisableMasterSlaveMode(TMR_T* TMRx); void TMR_ConfigExternalTrigger(TMR_T* TMRx, TMR_EXTTRG_PRESCALER_T prescaler, TMR_EXTTRG_POLARITY_T polarity, uint16_t filter); /** Specific interface management */ void TMR_ConfigEncodeInterface(TMR_T* TMRx, TMR_ENCODER_MODE_T encodeMode, TMR_IC_POLARITY_T IC1Polarity, TMR_IC_POLARITY_T IC2Polarity); void TMR_EnableHallSensor(TMR_T* TMRx); void TMR_DisableHallSensor(TMR_T* TMRx); /** Specific remapping management */ void TMR_ConfigRemap(TMR_T* TMRx, TMR_REMAP_T remap); /**@} end of group TMR_Fuctions*/ /**@} end of group TMR_Driver */ /**@} end of group Peripherals_Library*/ #ifdef __cplusplus } #endif #endif /* __TMR_H */