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TARGET_NUCLEO_F302R8/stm32f3xx_hal_hrtim.h
- Committer:
- yusuke_kyo
- Date:
- 2015-04-08
- Revision:
- 98:01a414ca7d6d
- Parent:
- 90:cb3d968589d8
File content as of revision 98:01a414ca7d6d:
/** ****************************************************************************** * @file stm32f3xx_hal_hrtim.h * @author MCD Application Team * @version V1.1.0 * @date 12-Sept-2014 * @brief Header file of HRTIM HAL module. ****************************************************************************** * @attention * * <h2><center>© COPYRIGHT(c) 2014 STMicroelectronics</center></h2> * * Redistribution and use in source and binary forms, with or without modification, * are permitted provided that the following conditions are met: * 1. Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * 3. Neither the name of STMicroelectronics nor the names of its contributors * may be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * ****************************************************************************** */ /* Define to prevent recursive inclusion -------------------------------------*/ #ifndef __STM32F3xx_HAL_HRTIM_H #define __STM32F3xx_HAL_HRTIM_H #ifdef __cplusplus extern "C" { #endif #if defined(STM32F334x8) /* Includes ------------------------------------------------------------------*/ #include "stm32f3xx_hal_def.h" /** @addtogroup STM32F3xx_HAL_Driver * @{ */ /** @addtogroup HRTIM HRTIM HAL module driver * @{ */ /* Exported types ------------------------------------------------------------*/ /** @addtogroup HRTIM_Exported_Constants HRTIM Exported Constants * @{ */ /** @defgroup HRTIM_Max_Timer HRTIM Max Timer * @{ */ #define MAX_HRTIM_TIMER 6 /** * @} */ /** * @} */ /** @defgroup HRTIM_Exported_Types HRTIM Exported Types * @{ */ /** * @brief HRTIM Configuration Structure definition - Time base related parameters */ typedef struct { uint32_t HRTIMInterruptResquests; /*!< Specifies which interrupts requests must enabled for the HRTIM instance This parameter can be any combination of @ref HRTIM_Common_Interrupt_Enable */ uint32_t SyncOptions; /*!< Specifies how the HRTIM instance handles the external synchronization signals This parameter can be a combination of @ref HRTIM_Synchronization_Options */ uint32_t SyncInputSource; /*!< Specifies the external synchronization input source This parameter can be a value of @ref HRTIM_Synchronization_Input_Source */ uint32_t SyncOutputSource; /*!< Specifies the source and event to be sent on the external synchronization outputs This parameter can be a value of @ref HRTIM_Synchronization_Output_Source */ uint32_t SyncOutputPolarity; /*!< Specifies the conditionning of the event to be sent on the external synchronization outputs This parameter can be a value of @ref HRTIM_Synchronization_Output_Polarity */ } HRTIM_InitTypeDef; /** * @brief HAL State structures definition */ typedef enum { HAL_HRTIM_STATE_READY = 0x01, /*!< Peripheral Initialized and ready for use */ HAL_HRTIM_STATE_BUSY = 0x02, /*!< an internal process is ongoing */ HAL_HRTIM_STATE_TIMEOUT = 0x06, /*!< Timeout state */ HAL_HRTIM_STATE_ERROR = 0x07, /*!< Error state */ } HAL_HRTIM_StateTypeDef; /** * @brief HRTIM Timer Structure definition */ typedef struct { uint32_t CaptureTrigger1; /*!< Event(s) triggering capture unit 1 */ uint32_t CaptureTrigger2; /*!< Event(s) triggering capture unit 2 */ uint32_t InterruptRequests; /*!< Interrupts requests enabled for the timer */ uint32_t DMARequests; /*!< DMA requests enabled for the timer */ uint32_t DMASrcAddress; /*!< Address of the source address of the DMA transfer */ uint32_t DMADstAddress; /*!< Address of the destination address of the DMA transfer */ uint32_t DMASize; /*!< Ssize of the DMA transfer */ } HRTIM_TimerParamTypeDef; /** * @brief HRTIM Handle Structure definition */ typedef struct __HRTIM_HandleTypeDef { HRTIM_TypeDef * Instance; /*!< Register base address */ HRTIM_InitTypeDef Init; /*!< HRTIM required parameters */ HRTIM_TimerParamTypeDef TimerParam[MAX_HRTIM_TIMER]; /*!< HRTIM timers - including the master - parameters */ HAL_LockTypeDef Lock; /*!< Locking object */ __IO HAL_HRTIM_StateTypeDef State; /*!< HRTIM communication state */ DMA_HandleTypeDef * hdmaMaster; /*!< Master timer DMA handle parameters */ DMA_HandleTypeDef * hdmaTimerA; /*!< Timer A DMA handle parameters */ DMA_HandleTypeDef * hdmaTimerB; /*!< Timer B DMA handle parameters */ DMA_HandleTypeDef * hdmaTimerC; /*!< Timer C DMA handle parameters */ DMA_HandleTypeDef * hdmaTimerD; /*!< Timer D DMA handle parameters */ DMA_HandleTypeDef * hdmaTimerE; /*!< Timer E DMA handle parameters */ } HRTIM_HandleTypeDef; /** * @brief Simple output compare mode configuration definition */ typedef struct { uint32_t Period; /*!< Specifies the timer period The period value must be above 3 periods of the fHRTIM clock. Maximum value is = 0xFFDF */ uint32_t RepetitionCounter; /*!< Specifies the timer repetition period This parameter must be a number between Min_Data = 0x00 and Max_Data = 0xFF. */ uint32_t PrescalerRatio; /*!< Specifies the timer clock prescaler ratio. This parameter can be any value of @ref HRTIM_Prescaler_Ratio */ uint32_t Mode; /*!< Specifies the counter operating mode This parameter can be any value of @ref HRTIM_Mode */ } HRTIM_TimeBaseCfgTypeDef; /** * @brief Simple output compare mode configuration definition */ typedef struct { uint32_t Mode; /*!< Specifies the output compare mode (toggle, active, inactive) This parameter can be any value of of @ref HRTIM_Simple_OC_Mode */ uint32_t Pulse; /*!< Specifies the compare value to be loaded into the Compare Register. The compare value must be above or equal to 3 periods of the fHRTIM clock */ uint32_t Polarity; /*!< Specifies the output polarity This parameter can be any value of @ref HRTIM_Output_Polarity */ uint32_t IdleLevel; /*!< Specifies whether the output level is active or inactive when in IDLE state This parameter can be any value of @ref HRTIM_Output_IDLE_Level */ } HRTIM_SimpleOCChannelCfgTypeDef; /** * @brief Simple PWM output mode configuration definition */ typedef struct { uint32_t Pulse; /*!< Specifies the compare value to be loaded into the Compare Register. The compare value must be above or equal to 3 periods of the fHRTIM clock */ uint32_t Polarity; /*!< Specifies the output polarity This parameter can be any value of @ref HRTIM_Output_Polarity */ uint32_t IdleLevel; /*!< Specifies whether the output level is active or inactive when in IDLE state This parameter can be any value of @ref HRTIM_Output_IDLE_Level */ } HRTIM_SimplePWMChannelCfgTypeDef; /** * @brief Simple capture mode configuration definition */ typedef struct { uint32_t Event; /*!< Specifies the external event triggering the capture This parameter can be any 'EEVx' value of @ref HRTIM_External_Event_Channels */ uint32_t EventPolarity; /*!< Specifies the polarity of the external event (in case of level sensitivity) This parameter can be a value of @ref HRTIM_External_Event_Polarity */ uint32_t EventSensitivity; /*!< Specifies the sensitivity of the external event This parameter can be a value of @ref HRTIM_External_Event_Sensitivity */ uint32_t EventFilter; /*!< Defines the frequency used to sample the External Event and the length of the digital filter This parameter can be a value of @ref HRTIM_External_Event_Filter */ } HRTIM_SimpleCaptureChannelCfgTypeDef; /** * @brief Simple One Pulse mode configuration definition */ typedef struct { uint32_t Pulse; /*!< Specifies the compare value to be loaded into the Compare Register. The compare value must be above or equal to 3 periods of the fHRTIM clock */ uint32_t OutputPolarity; /*!< Specifies the output polarity This parameter can be any value of @ref HRTIM_Output_Polarity */ uint32_t OutputIdleLevel; /*!< Specifies whether the output level is active or inactive when in IDLE state This parameter can be any value of @ref HRTIM_Output_IDLE_Level */ uint32_t Event; /*!< Specifies the external event triggering the pulse generation This parameter can be any 'EEVx' value of @ref HRTIM_External_Event_Channels */ uint32_t EventPolarity; /*!< Specifies the polarity of the external event (in case of level sensitivity) This parameter can be a value of @ref HRTIM_External_Event_Polarity */ uint32_t EventSensitivity; /*!< Specifies the sensitivity of the external event This parameter can be a value of @ref HRTIM_External_Event_Sensitivity */ uint32_t EventFilter; /*!< Defines the frequency used to sample the External Event and the length of the digital filter This parameter can be a value of @ref HRTIM_External_Event_Filter */ } HRTIM_SimpleOnePulseChannelCfgTypeDef; /** * @brief Timer configuration definition */ typedef struct { uint32_t InterruptRequests; /*!< Relevant for all HRTIM timers, including the master Specifies which interrupts requests must enabled for the timer This parameter can be any combination of @ref HRTIM_Master_Interrupt_Enable or HRTIM_Timing_Unit_Interrupt_Enable */ uint32_t DMARequests; /*!< Relevant for all HRTIM timers, including the master Specifies which DMA requests must be enabled for the timer This parameter can be any combination of @ref HRTIM_Master_DMA_Request_Enable or HRTIM_Timing_Unit_DMA_Request_Enable */ uint32_t DMASrcAddress; /*!< Relevant for all HRTIM timers, including the master Specifies the address of the source address of the DMA transfer */ uint32_t DMADstAddress; /*!< Relevant for all HRTIM timers, including the master Specifies the address of the destination address of the DMA transfer */ uint32_t DMASize; /*!< Relevant for all HRTIM timers, including the master Specifies the size of the DMA transfer */ uint32_t HalfModeEnable; /*!< Relevant for all HRTIM timers, including the master Specifies whether or not hald mode is enabled This parameter can be any value of @ref HRTIM_Half_Mode_Enable */ uint32_t StartOnSync; /*!< Relevant for all HRTIM timers, including the master Specifies whether or not timer is reset by a rising edge on the synchronization input (when enabled) This parameter can be any value of @ref HRTIM_Start_On_Sync_Input_Event */ uint32_t ResetOnSync; /*!< Relevant for all HRTIM timers, including the master Specifies whether or not timer is reset by a rising edge on the synchronization input (when enabled) This parameter can be any value of @ref HRTIM_Reset_On_Sync_Input_Event */ uint32_t DACSynchro; /*!< Relevant for all HRTIM timers, including the master Indicates whether or not the a DAC synchronization event is generated This parameter can be any value of @ref HRTIM_DAC_Synchronization */ uint32_t PreloadEnable; /*!< Relevant for all HRTIM timers, including the master Specifies whether or not register preload is enabled This parameter can be any value of @ref HRTIM_Register_Preload_Enable */ uint32_t UpdateGating; /*!< Relevant for all HRTIM timers, including the master Specifies how the update occurs with respect to a burst DMA transaction or update enable inputs (Slave timers only) This parameter can be any value of @ref HRTIM_Update_Gating */ uint32_t BurstMode; /*!< Relevant for all HRTIM timers, including the master Specifies how the timer behaves during a burst mode operation This parameter can be any value of @ref HRTIM_Timer_Burst_Mode */ uint32_t RepetitionUpdate; /*!< Relevant for all HRTIM timers, including the master Specifies whether or not registers update is triggered by the repetition event This parameter can be any valuen of @ref HRTIM_Timer_Repetition_Update */ uint32_t PushPull; /*!< Relevant for Timer A to Timer E Specifies whether or not the push-pull mode is enabled This parameter can be any value of @ref HRTIM_Timer_Push_Pull_Mode */ uint32_t FaultEnable; /*!< Relevant for Timer A to Timer E Specifies which fault channels are enabled for the timer This parameter can be a combination of @ref HRTIM_Timer_Fault_Enabling */ uint32_t FaultLock; /*!< Relevant for Timer A to Timer E Specifies whether or not fault enabling status is write protected This parameter can be a value of @ref HRTIM_Timer_Fault_Lock */ uint32_t DeadTimeInsertion; /*!< Relevant for Timer A to Timer E Specifies whether or not deadtime insertion is enabled for the timer This parameter can be a value of @ref HRTIM_Timer_Deadtime_Insertion */ uint32_t DelayedProtectionMode; /*!< Relevant for Timer A to Timer E Specifies the delayed protection mode This parameter can be a value of @ref HRTIM_Timer_Delayed_Protection_Mode */ uint32_t UpdateTrigger; /*!< Relevant for Timer A to Timer E Specifies source(s) triggering the timer registers update This parameter can be a combination of @ref HRTIM_Timer_Update_Trigger */ uint32_t ResetTrigger; /*!< Relevant for Timer A to Timer E Specifies source(s) triggering the timer counter reset This parameter can be a combination of @ref HRTIM_Timer_Reset_Trigger */ uint32_t ResetUpdate; /*!< Relevant for Timer A to Timer E Specifies whether or not registers update is triggered when the timer counter is reset This parameter can be a value of @ref HRTIM_Timer_Reset_Update */ } HRTIM_TimerCfgTypeDef; /** * @brief Compare unit configuration definition */ typedef struct { uint32_t CompareValue; /*!< Specifies the compare value of the timer compare unit the minimum value must be greater than or equal to 3 periods of the fHRTIM clock the maximum value must be less than or equal to 0xFFFF - 1 periods of the fHRTIM clock */ uint32_t AutoDelayedMode; /*!< Specifies the auto delayed mode for compare unit 2 or 4 This parameter can be a value of @ref HRTIM_Compare_Unit_Auto_Delayed_Mode */ uint32_t AutoDelayedTimeout; /*!< Specifies compare value for timing unit 1 or 3 when auto delayed mode with time out is selected CompareValue + AutoDelayedTimeout must be less than 0xFFFF */ } HRTIM_CompareCfgTypeDef; /** * @brief Capture unit configuration definition */ typedef struct { uint32_t Trigger; /*!< Specifies source(s) triggering the capture This parameter can be a combination of @ref HRTIM_Capture_Unit_Trigger */ } HRTIM_CaptureCfgTypeDef; /** * @brief Output configuration definition */ typedef struct { uint32_t Polarity; /*!< Specifies the output polarity This parameter can be any value of @ref HRTIM_Output_Polarity */ uint32_t SetSource; /*!< Specifies the event(s) transitioning the output from its inactive level to its active level This parameter can be a combination of @ref HRTIM_Output_Set_Source */ uint32_t ResetSource; /*!< Specifies the event(s) transitioning the output from its active level to its inactive level This parameter can be a combination of @ref HRTIM_Output_Reset_Source */ uint32_t IdleMode; /*!< Specifies whether or not the output is affected by a burst mode operation This parameter can be any value of @ref HRTIM_Output_Idle_Mode */ uint32_t IdleLevel; /*!< Specifies whether the output level is active or inactive when in IDLE state This parameter can be any value of @ref HRTIM_Output_IDLE_Level */ uint32_t FaultLevel; /*!< Specifies whether the output level is active or inactive when in FAULT state This parameter can be any value of @ref HRTIM_Output_FAULT_Level */ uint32_t ChopperModeEnable; /*!< Indicates whether or not the chopper mode is enabled This parameter can be any value of @ref HRTIM_Output_Chopper_Mode_Enable */ uint32_t BurstModeEntryDelayed; /* !<Indicates whether or not deadtime is inserted when entering the IDLE state during a burst mode operation This parameters can be any value of @ref HRTIM_Output_Burst_Mode_Entry_Delayed */ } HRTIM_OutputCfgTypeDef; /** * @brief External event filtering in timing units configuration definition */ typedef struct { uint32_t Filter; /*!< Specifies the type of event filtering within the timing unit This parameter can be a value of @ref HRTIM_Timer_External_Event_Filter */ uint32_t Latch; /*!< Specifies whether or not the signal is latched This parameter can be a value of @ref HRTIM_Timer_External_Event_Latch */ } HRTIM_TimerEventFilteringCfgTypeDef; /** * @brief Dead time feature configuration definition */ typedef struct { uint32_t Prescaler; /*!< Specifies the Deadtime Prescaler This parameter can be a value of @ref HRTIM_Deadtime_Prescaler_Ratio */ uint32_t RisingValue; /*!< Specifies the Deadtime following a rising edge This parameter can be a number between 0x0 and 0x1FF */ uint32_t RisingSign; /*!< Specifies whether the deadtime is positive or negative on rising edge This parameter can be a value of @ref HRTIM_Deadtime_Rising_Sign */ uint32_t RisingLock; /*!< Specifies whether or not deadtime rising settings (value and sign) are write protected This parameter can be a value of @ref HRTIM_Deadtime_Rising_Lock */ uint32_t RisingSignLock; /*!< Specifies whether or not deadtime rising sign is write protected This parameter can be a value of @ref HRTIM_Deadtime_Rising_Sign_Lock */ uint32_t FallingValue; /*!< Specifies the Deadtime following a falling edge This parameter can be a number between 0x0 and 0x1FF */ uint32_t FallingSign; /*!< Specifies whether the deadtime is positive or negative on falling edge This parameter can be a value of @ref HRTIM_Deadtime_Falling_Sign */ uint32_t FallingLock; /*!< Specifies whether or not deadtime falling settings (value and sign) are write protected This parameter can be a value of @ref HRTIM_Deadtime_Falling_Lock */ uint32_t FallingSignLock; /*!< Specifies whether or not deadtime falling sign is write protected This parameter can be a value of @ref HRTIM_Deadtime_Falling_Sign_Lock */ } HRTIM_DeadTimeCfgTypeDef ; /** * @brief Chopper mode configuration definition */ typedef struct { uint32_t CarrierFreq; /*!< Specifies the Timer carrier frequency value. This parameter can be a value of @ref HRTIM_Chopper_Frequency */ uint32_t DutyCycle; /*!< Specifies the Timer chopper duty cycle value. This parameter can be a value of @ref HRTIM_Chopper_Duty_Cycle */ uint32_t StartPulse; /*!< Specifies the Timer pulse width value. This parameter can be a value of @ref HRTIM_Chopper_Start_Pulse_Width */ } HRTIM_ChopperModeCfgTypeDef; /** * @brief External event channel configuration definition */ typedef struct { uint32_t Source; /*!< Identifies the source of the external event This parameter can be a value of @ref HRTIM_External_Event_Sources */ uint32_t Polarity; /*!< Specifies the polarity of the external event (in case of level sensitivity) This parameter can be a value of @ref HRTIM_External_Event_Polarity */ uint32_t Sensitivity; /*!< Specifies the sensitivity of the external event This parameter can be a value of @ref HRTIM_External_Event_Sensitivity */ uint32_t Filter; /*!< Defines the frequency used to sample the External Event and the length of the digital filter This parameter can be a value of @ref HRTIM_External_Event_Filter */ uint32_t FastMode; /*!< Indicates whether or not low latency mode is enabled for the external event This parameter can be a value of @ref HRTIM_External_Event_Fast_Mode */ } HRTIM_EventCfgTypeDef; /** * @brief Fault channel configuration definition */ typedef struct { uint32_t Source; /*!< Identifies the source of the fault This parameter can be a value of @ref HRTIM_Fault_Sources */ uint32_t Polarity; /*!< Specifies the polarity of the fault event This parameter can be a value of @ref HRTIM_Fault_Polarity */ uint32_t Filter; /*!< Defines the frequency used to sample the Fault input and the length of the digital filter This parameter can be a value of @ref HRTIM_Fault_Filter */ uint32_t Lock; /*!< Indicates whether or not fault programming bits are write protected This parameter can be a value of @ref HRTIM_Fault_Lock */ } HRTIM_FaultCfgTypeDef; /** * @brief Burst mode configuration definition */ typedef struct { uint32_t Mode; /*!< Specifies the burst mode operating mode This parameter can be a value of @ref HRTIM_Burst_Mode_Operating_Mode */ uint32_t ClockSource; /*!< Specifies the burst mode clock source This parameter can be a value of @ref HRTIM_Burst_Mode_Clock_Source */ uint32_t Prescaler; /*!< Specifies the burst mode prescaler This parameter can be a value of @ref HRTIM_Burst_Mode_Prescaler */ uint32_t PreloadEnable; /*!< Specifies whether or not preload is enabled for burst mode related registers (HRTIM_BMCMPR and HRTIM_BMPER) This parameter can be a combination of @ref HRTIM_Burst_Mode_Register_Preload_Enable */ uint32_t Trigger; /*!< Specifies the event(s) trigering the burst operation This parameter can be a combination of @ref HRTIM_Burst_Mode_Trigger */ uint32_t IdleDuration; /*!< Specifies number of periods during which the selected timers are in idle state This parameter can be a number between 0x0 and 0xFFFF */ uint32_t Period; /*!< Specifies burst mode repetition period This parameter can be a number between 0x1 and 0xFFFF */ } HRTIM_BurstModeCfgTypeDef; /** * @brief ADC trigger configuration definition */ typedef struct { uint32_t UpdateSource; /*!< Specifies the ADC trigger update source This parameter can be a combination of @ref HRTIM_ADC_Trigger_Update_Source */ uint32_t Trigger; /*!< Specifies the event(s) triggering the ADC conversion This parameter can be a value of @ref HRTIM_ADC_Trigger_Event */ } HRTIM_ADCTriggerCfgTypeDef; /** * @} */ /* Exported constants --------------------------------------------------------*/ /** @defgroup HRTIM_Exported_Constants HRTIM Exported Constants * @{ */ /** @defgroup HRTIM_Timer_Index HRTIM Timer Index * @{ * @brief Constants defining the timer indexes */ #define HRTIM_TIMERINDEX_TIMER_A (uint32_t)0x0 /*!< Index used to access timer A registers */ #define HRTIM_TIMERINDEX_TIMER_B (uint32_t)0x1 /*!< Index used to access timer B registers */ #define HRTIM_TIMERINDEX_TIMER_C (uint32_t)0x2 /*!< Index used to access timer C registers */ #define HRTIM_TIMERINDEX_TIMER_D (uint32_t)0x3 /*!< Index used to access timer D registers */ #define HRTIM_TIMERINDEX_TIMER_E (uint32_t)0x4 /*!< Index used to access timer E registers */ #define HRTIM_TIMERINDEX_MASTER (uint32_t)0x5 /*!< Index used to access master registers */ #define HRTIM_TIMERINDEX_COMMON (uint32_t)0xFF /*!< Index used to access HRTIM common registers */ #define IS_HRTIM_TIMERINDEX(TIMERINDEX)\ (((TIMERINDEX) == HRTIM_TIMERINDEX_MASTER) || \ ((TIMERINDEX) == HRTIM_TIMERINDEX_TIMER_A) || \ ((TIMERINDEX) == HRTIM_TIMERINDEX_TIMER_B) || \ ((TIMERINDEX) == HRTIM_TIMERINDEX_TIMER_C) || \ ((TIMERINDEX) == HRTIM_TIMERINDEX_TIMER_D) || \ ((TIMERINDEX) == HRTIM_TIMERINDEX_TIMER_E)) #define IS_HRTIM_TIMING_UNIT(TIMERINDEX)\ (((TIMERINDEX) == HRTIM_TIMERINDEX_TIMER_A) || \ ((TIMERINDEX) == HRTIM_TIMERINDEX_TIMER_B) || \ ((TIMERINDEX) == HRTIM_TIMERINDEX_TIMER_C) || \ ((TIMERINDEX) == HRTIM_TIMERINDEX_TIMER_D) || \ ((TIMERINDEX) == HRTIM_TIMERINDEX_TIMER_E)) /** * @} */ /** @defgroup HRTIM_Timer_identifier HRTIM Timer identifier * @{ * @brief Constants defining timer identifiers */ #define HRTIM_TIMERID_MASTER (HRTIM_MCR_MCEN) /*!< Master identifier*/ #define HRTIM_TIMERID_TIMER_A (HRTIM_MCR_TACEN) /*!< Timer A identifier */ #define HRTIM_TIMERID_TIMER_B (HRTIM_MCR_TBCEN) /*!< Timer B identifier */ #define HRTIM_TIMERID_TIMER_C (HRTIM_MCR_TCCEN) /*!< Timer C identifier */ #define HRTIM_TIMERID_TIMER_D (HRTIM_MCR_TDCEN) /*!< Timer D identifier */ #define HRTIM_TIMERID_TIMER_E (HRTIM_MCR_TECEN) /*!< Timer E identifier */ #define IS_HRTIM_TIMERID(TIMERID) (((TIMERID) & 0xFFC0FFFF) == 0x00000000) /** * @} */ /** @defgroup HRTIM_Compare_Unit HRTIM Compare Unit * @{ * @brief Constants defining compare unit identifiers */ #define HRTIM_COMPAREUNIT_1 (uint32_t)0x00000001 /*!< Compare unit 1 identifier */ #define HRTIM_COMPAREUNIT_2 (uint32_t)0x00000002 /*!< Compare unit 2 identifier */ #define HRTIM_COMPAREUNIT_3 (uint32_t)0x00000004 /*!< Compare unit 3 identifier */ #define HRTIM_COMPAREUNIT_4 (uint32_t)0x00000008 /*!< Compare unit 4 identifier */ #define IS_HRTIM_COMPAREUNIT(COMPAREUNIT)\ (((COMPAREUNIT) == HRTIM_COMPAREUNIT_1) || \ ((COMPAREUNIT) == HRTIM_COMPAREUNIT_2) || \ ((COMPAREUNIT) == HRTIM_COMPAREUNIT_3) || \ ((COMPAREUNIT) == HRTIM_COMPAREUNIT_4)) /** * @} */ /** @defgroup HRTIM_Capture_Unit HRTIM Capture Unit * @{ * @brief Constants defining capture unit identifiers */ #define HRTIM_CAPTUREUNIT_1 (uint32_t)0x00000001 /*!< Capture unit 1 identifier */ #define HRTIM_CAPTUREUNIT_2 (uint32_t)0x00000002 /*!< Capture unit 2 identifier */ #define IS_HRTIM_CAPTUREUNIT(CAPTUREUNIT)\ (((CAPTUREUNIT) == HRTIM_CAPTUREUNIT_1) || \ ((CAPTUREUNIT) == HRTIM_CAPTUREUNIT_2)) /** * @} */ /** @defgroup HRTIM_Timer_Output HRTIM Timer Output * @{ * @brief Constants defining timer output identifiers */ #define HRTIM_OUTPUT_TA1 (uint32_t)0x00000001 /*!< Timer A - Ouput 1 identifier */ #define HRTIM_OUTPUT_TA2 (uint32_t)0x00000002 /*!< Timer A - Ouput 2 identifier */ #define HRTIM_OUTPUT_TB1 (uint32_t)0x00000004 /*!< Timer B - Ouput 1 identifier */ #define HRTIM_OUTPUT_TB2 (uint32_t)0x00000008 /*!< Timer B - Ouput 2 identifier */ #define HRTIM_OUTPUT_TC1 (uint32_t)0x00000010 /*!< Timer C - Ouput 1 identifier */ #define HRTIM_OUTPUT_TC2 (uint32_t)0x00000020 /*!< Timer C - Ouput 2 identifier */ #define HRTIM_OUTPUT_TD1 (uint32_t)0x00000040 /*!< Timer D - Ouput 1 identifier */ #define HRTIM_OUTPUT_TD2 (uint32_t)0x00000080 /*!< Timer D - Ouput 2 identifier */ #define HRTIM_OUTPUT_TE1 (uint32_t)0x00000100 /*!< Timer E - Ouput 1 identifier */ #define HRTIM_OUTPUT_TE2 (uint32_t)0x00000200 /*!< Timer E - Ouput 2 identifier */ #define IS_HRTIM_OUTPUT(OUTPUT) (((OUTPUT) & 0xFFFFFC00) == 0x00000000) #define IS_HRTIM_TIMER_OUTPUT(TIMER, OUTPUT)\ ((((TIMER) == HRTIM_TIMERINDEX_TIMER_A) && \ (((OUTPUT) == HRTIM_OUTPUT_TA1) || \ ((OUTPUT) == HRTIM_OUTPUT_TA2))) \ || \ (((TIMER) == HRTIM_TIMERINDEX_TIMER_B) && \ (((OUTPUT) == HRTIM_OUTPUT_TB1) || \ ((OUTPUT) == HRTIM_OUTPUT_TB2))) \ || \ (((TIMER) == HRTIM_TIMERINDEX_TIMER_C) && \ (((OUTPUT) == HRTIM_OUTPUT_TC1) || \ ((OUTPUT) == HRTIM_OUTPUT_TC2))) \ || \ (((TIMER) == HRTIM_TIMERINDEX_TIMER_D) && \ (((OUTPUT) == HRTIM_OUTPUT_TD1) || \ ((OUTPUT) == HRTIM_OUTPUT_TD2))) \ || \ (((TIMER) == HRTIM_TIMERINDEX_TIMER_E) && \ (((OUTPUT) == HRTIM_OUTPUT_TE1) || \ ((OUTPUT) == HRTIM_OUTPUT_TE2)))) /** * @} */ /** @defgroup HRTIM_ADC_Trigger HRTIM ADC Trigger * @{ * @brief Constants defining ADC triggers identifiers */ #define HRTIM_ADCTRIGGER_1 (uint32_t)0x00000001 /*!< ADC trigger 1 identifier */ #define HRTIM_ADCTRIGGER_2 (uint32_t)0x00000002 /*!< ADC trigger 2 identifier */ #define HRTIM_ADCTRIGGER_3 (uint32_t)0x00000004 /*!< ADC trigger 3 identifier */ #define HRTIM_ADCTRIGGER_4 (uint32_t)0x00000008 /*!< ADC trigger 4 identifier */ #define IS_HRTIM_ADCTRIGGER(ADCTRIGGER)\ (((ADCTRIGGER) == HRTIM_ADCTRIGGER_1) || \ ((ADCTRIGGER) == HRTIM_ADCTRIGGER_2) || \ ((ADCTRIGGER) == HRTIM_ADCTRIGGER_3) || \ ((ADCTRIGGER) == HRTIM_ADCTRIGGER_4)) /** * @} */ /** @defgroup HRTIM_External_Event_Channels HRTIM External Event Channels * @{ * @brief Constants defining external event channel identifiers */ #define HRTIM_EVENT_NONE ((uint32_t)0x00000000) /*!< Undefined event channel */ #define HRTIM_EVENT_1 ((uint32_t)0x00000001) /*!< External event channel 1 identifier */ #define HRTIM_EVENT_2 ((uint32_t)0x00000002) /*!< External event channel 2 identifier */ #define HRTIM_EVENT_3 ((uint32_t)0x00000004) /*!< External event channel 3 identifier */ #define HRTIM_EVENT_4 ((uint32_t)0x00000008) /*!< External event channel 4 identifier */ #define HRTIM_EVENT_5 ((uint32_t)0x00000010) /*!< External event channel 5 identifier */ #define HRTIM_EVENT_6 ((uint32_t)0x00000020) /*!< External event channel 6 identifier */ #define HRTIM_EVENT_7 ((uint32_t)0x00000040) /*!< External event channel 7 identifier */ #define HRTIM_EVENT_8 ((uint32_t)0x00000080) /*!< External event channel 8 identifier */ #define HRTIM_EVENT_9 ((uint32_t)0x00000100) /*!< External event channel 9 identifier */ #define HRTIM_EVENT_10 ((uint32_t)0x00000200) /*!< External event channel 10 identifier */ #define IS_HRTIM_EVENT(EVENT)\ (((EVENT) == HRTIM_EVENT_1) || \ ((EVENT) == HRTIM_EVENT_2) || \ ((EVENT) == HRTIM_EVENT_3) || \ ((EVENT) == HRTIM_EVENT_4) || \ ((EVENT) == HRTIM_EVENT_5) || \ ((EVENT) == HRTIM_EVENT_6) || \ ((EVENT) == HRTIM_EVENT_7) || \ ((EVENT) == HRTIM_EVENT_8) || \ ((EVENT) == HRTIM_EVENT_9) || \ ((EVENT) == HRTIM_EVENT_10)) /** * @} */ /** @defgroup HRTIM_Fault_Channel HRTIM Fault Channel * @{ * @brief Constants defining fault channel identifiers */ #define HRTIM_FAULT_1 ((uint32_t)0x01) /*!< Fault channel 1 identifier */ #define HRTIM_FAULT_2 ((uint32_t)0x02) /*!< Fault channel 2 identifier */ #define HRTIM_FAULT_3 ((uint32_t)0x04) /*!< Fault channel 3 identifier */ #define HRTIM_FAULT_4 ((uint32_t)0x08) /*!< Fault channel 4 identifier */ #define HRTIM_FAULT_5 ((uint32_t)0x10) /*!< Fault channel 5 identifier */ #define IS_HRTIM_FAULT(FAULT)\ (((FAULT) == HRTIM_FAULT_1) || \ ((FAULT) == HRTIM_FAULT_2) || \ ((FAULT) == HRTIM_FAULT_3) || \ ((FAULT) == HRTIM_FAULT_4) || \ ((FAULT) == HRTIM_FAULT_5)) /** * @} */ /** @defgroup HRTIM_Prescaler_Ratio HRTIM Prescaler Ratio * @{ * @brief Constants defining timer high-resolution clock prescaler ratio. */ #define HRTIM_PRESCALERRATIO_MUL32 ((uint32_t)0x00000000) /*!< fHRCK: 4.608 GHz - Resolution: 217 ps - Min PWM frequency: 70.3 kHz (fHRTIM=144MHz) */ #define HRTIM_PRESCALERRATIO_MUL16 ((uint32_t)0x00000001) /*!< fHRCK: 2.304 GHz - Resolution: 434 ps - Min PWM frequency: 35.1 KHz (fHRTIM=144MHz) */ #define HRTIM_PRESCALERRATIO_MUL8 ((uint32_t)0x00000002) /*!< fHRCK: 1.152 GHz - Resolution: 868 ps - Min PWM frequency: 17.6 kHz (fHRTIM=144MHz) */ #define HRTIM_PRESCALERRATIO_MUL4 ((uint32_t)0x00000003) /*!< fHRCK: 576 MHz - Resolution: 1.73 ns - Min PWM frequency: 8.8 kHz (fHRTIM=144MHz) */ #define HRTIM_PRESCALERRATIO_MUL2 ((uint32_t)0x00000004) /*!< fHRCK: 288 MHz - Resolution: 3.47 ns - Min PWM frequency: 4.4 kHz (fHRTIM=144MHz) */ #define HRTIM_PRESCALERRATIO_DIV1 ((uint32_t)0x00000005) /*!< fHRCK: 144 MHz - Resolution: 6.95 ns - Min PWM frequency: 2.2 kHz (fHRTIM=144MHz) */ #define HRTIM_PRESCALERRATIO_DIV2 ((uint32_t)0x00000006) /*!< fHRCK: 72 MHz - Resolution: 13.88 ns- Min PWM frequency: 1.1 kHz (fHRTIM=144MHz) */ #define HRTIM_PRESCALERRATIO_DIV4 ((uint32_t)0x00000007) /*!< fHRCK: 36 MHz - Resolution: 27.7 ns- Min PWM frequency: 550Hz (fHRTIM=144MHz) */ #define IS_HRTIM_PRESCALERRATIO(PRESCALERRATIO)\ (((PRESCALERRATIO) == HRTIM_PRESCALERRATIO_MUL32) || \ ((PRESCALERRATIO) == HRTIM_PRESCALERRATIO_MUL16) || \ ((PRESCALERRATIO) == HRTIM_PRESCALERRATIO_MUL8) || \ ((PRESCALERRATIO) == HRTIM_PRESCALERRATIO_MUL4) || \ ((PRESCALERRATIO) == HRTIM_PRESCALERRATIO_MUL2) || \ ((PRESCALERRATIO) == HRTIM_PRESCALERRATIO_DIV1) || \ ((PRESCALERRATIO) == HRTIM_PRESCALERRATIO_DIV2) || \ ((PRESCALERRATIO) == HRTIM_PRESCALERRATIO_DIV4)) /** * @} */ /** @defgroup HRTIM_Mode HRTIM Mode * @{ * @brief Constants defining timer counter operating mode. */ #define HRTIM_MODE_CONTINUOUS ((uint32_t)0x00000008) /*!< The timer operates in continuous (free-running) mode */ #define HRTIM_MODE_SINGLESHOT ((uint32_t)0x00000000) /*!< The timer operates in non retriggerable single-shot mode */ #define HRTIM_MODE_SINGLESHOT_RETRIGGERABLE ((uint32_t)0x00000010) /*!< The timer operates in retriggerable single-shot mode */ #define IS_HRTIM_MODE(MODE)\ (((MODE) == HRTIM_MODE_CONTINUOUS) || \ ((MODE) == HRTIM_MODE_SINGLESHOT) || \ ((MODE) == HRTIM_MODE_SINGLESHOT_RETRIGGERABLE)) #define IS_HRTIM_MODE_ONEPULSE(MODE)\ (((MODE) == HRTIM_MODE_SINGLESHOT) || \ ((MODE) == HRTIM_MODE_SINGLESHOT_RETRIGGERABLE)) /** * @} */ /** @defgroup HRTIM_Half_Mode_Enable HRTIM Half Mode Enable * @{ * @brief Constants defining half mode enabling status. */ #define HRTIM_HALFMODE_DISABLED ((uint32_t)0x00000000) /*!< Half mode is disabled */ #define HRTIM_HALFMODE_ENABLED ((uint32_t)0x00000020) /*!< Half mode is enabled */ #define IS_HRTIM_HALFMODE(HALFMODE)\ (((HALFMODE) == HRTIM_HALFMODE_DISABLED) || \ ((HALFMODE) == HRTIM_HALFMODE_ENABLED)) /** * @} */ /** @defgroup HRTIM_Start_On_Sync_Input_Event HRTIM Start On Sync Input Event * @{ * @brief Constants defining the timer behavior following the synchronization event */ #define HRTIM_SYNCSTART_DISABLED ((uint32_t)0x00000000) /*!< Synchronization input event has effect on the timer */ #define HRTIM_SYNCSTART_ENABLED (HRTIM_MCR_SYNCSTRTM) /*!< Synchronization input event starts the timer */ #define IS_HRTIM_SYNCSTART(SYNCSTART)\ (((SYNCSTART) == HRTIM_SYNCSTART_DISABLED) || \ ((SYNCSTART) == HRTIM_SYNCSTART_ENABLED)) /** * @} */ /** @defgroup HRTIM_Reset_On_Sync_Input_Event HRTIM Reset On Sync Input Event * @{ * @brief Constants defining the timer behavior following the synchronization event */ #define HRTIM_SYNCRESET_DISABLED ((uint32_t)0x00000000) /*!< Synchronization input event has effect on the timer */ #define HRTIM_SYNCRESET_ENABLED (HRTIM_MCR_SYNCRSTM) /*!< Synchronization input event resets the timer */ #define IS_HRTIM_SYNCRESET(SYNCRESET)\ (((SYNCRESET) == HRTIM_SYNCRESET_DISABLED) || \ ((SYNCRESET) == HRTIM_SYNCRESET_ENABLED)) /** * @} */ /** @defgroup HRTIM_DAC_Synchronization HRTIM DAC Synchronization * @{ * @brief Constants defining on which output the DAC synchronization event is sent */ #define HRTIM_DACSYNC_NONE (uint32_t)0x00000000 /*!< No DAC synchronization event generated */ #define HRTIM_DACSYNC_DACTRIGOUT_1 (HRTIM_MCR_DACSYNC_0) /*!< DAC synchronization event generated on DACTrigOut1 output upon timer update */ #define HRTIM_DACSYNC_DACTRIGOUT_2 (HRTIM_MCR_DACSYNC_1) /*!< DAC synchronization event generated on DACTrigOut2 output upon timer update */ #define HRTIM_DACSYNC_DACTRIGOUT_3 (HRTIM_MCR_DACSYNC_1 | HRTIM_MCR_DACSYNC_0) /*!< DAC update generated on DACTrigOut3 output upon timer update */ #define IS_HHRTIM_DACSYNC(DACSYNC)\ (((DACSYNC) == HRTIM_DACSYNC_NONE) || \ ((DACSYNC) == HRTIM_DACSYNC_DACTRIGOUT_1) || \ ((DACSYNC) == HRTIM_DACSYNC_DACTRIGOUT_2) || \ ((DACSYNC) == HRTIM_DACSYNC_DACTRIGOUT_3)) /** * @} */ /** @defgroup HRTIM_Register_Preload_Enable HRTIM Register Preload Enable * @{ * @brief Constants defining whether a write access into a preloadable * register is done into the active or the preload register. */ #define HRTIM_PRELOAD_DISABLED ((uint32_t)0x00000000) /*!< Preload disabled: the write access is directly done into the active register */ #define HRTIM_PRELOAD_ENABLED (HRTIM_MCR_PREEN) /*!< Preload enabled: the write access is done into the preload register */ #define IS_HRTIM_PRELOAD(PRELOAD)\ (((PRELOAD) == HRTIM_PRELOAD_DISABLED) || \ ((PRELOAD) == HRTIM_PRELOAD_ENABLED)) /** * @} */ /** @defgroup HRTIM_Update_Gating HRTIM Update Gating * @{ * @brief Constants defining how the update occurs relatively to the burst DMA * transaction and the external update request on update enable inputs 1 to 3. */ #define HRTIM_UPDATEGATING_INDEPENDENT (uint32_t)0x00000000 /*!< Update done independently from the DMA burst transfer completion */ #define HRTIM_UPDATEGATING_DMABURST (HRTIM_TIMCR_UPDGAT_0) /*!< Update done when the DMA burst transfer is completed */ #define HRTIM_UPDATEGATING_DMABURST_UPDATE (HRTIM_TIMCR_UPDGAT_1) /*!< Update done on timer roll-over following a DMA burst transfer completion*/ #define HRTIM_UPDATEGATING_UPDEN1 (HRTIM_TIMCR_UPDGAT_1 | HRTIM_TIMCR_UPDGAT_0) /*!< Slave timer only - Update done on a rising edge of HRTIM update enable input 1 */ #define HRTIM_UPDATEGATING_UPDEN2 (HRTIM_TIMCR_UPDGAT_2) /*!< Slave timer only - Update done on a rising edge of HRTIM update enable input 2 */ #define HRTIM_UPDATEGATING_UPDEN3 (HRTIM_TIMCR_UPDGAT_2 | HRTIM_TIMCR_UPDGAT_0) /*!< Slave timer only - Update done on a rising edge of HRTIM update enable input 3 */ #define HRTIM_UPDATEGATING_UPDEN1_UPDATE (HRTIM_TIMCR_UPDGAT_2 | HRTIM_TIMCR_UPDGAT_1) /*!< Slave timer only - Update done on the update event following a rising edge of HRTIM update enable input 1 */ #define HRTIM_UPDATEGATING_UPDEN2_UPDATE (HRTIM_TIMCR_UPDGAT_2 | HRTIM_TIMCR_UPDGAT_1 | HRTIM_TIMCR_UPDGAT_0) /*!< Slave timer only - Update done on the update event following a rising edge of HRTIM update enable input 2 */ #define HRTIM_UPDATEGATING_UPDEN3_UPDATE (HRTIM_TIMCR_UPDGAT_3) /*!< Slave timer only - Update done on the update event following a rising edge of HRTIM update enable input 3 */ #define IS_HRTIM_UPDATEGATING_MASTER(UPDATEGATING)\ (((UPDATEGATING) == HRTIM_UPDATEGATING_INDEPENDENT) || \ ((UPDATEGATING) == HRTIM_UPDATEGATING_DMABURST) || \ ((UPDATEGATING) == HRTIM_UPDATEGATING_DMABURST_UPDATE)) #define IS_HRTIM_UPDATEGATING_TIM(UPDATEGATING)\ (((UPDATEGATING) == HRTIM_UPDATEGATING_INDEPENDENT) || \ ((UPDATEGATING) == HRTIM_UPDATEGATING_DMABURST) || \ ((UPDATEGATING) == HRTIM_UPDATEGATING_DMABURST_UPDATE) || \ ((UPDATEGATING) == HRTIM_UPDATEGATING_UPDEN1) || \ ((UPDATEGATING) == HRTIM_UPDATEGATING_UPDEN2) || \ ((UPDATEGATING) == HRTIM_UPDATEGATING_UPDEN3) || \ ((UPDATEGATING) == HRTIM_UPDATEGATING_UPDEN1_UPDATE) || \ ((UPDATEGATING) == HRTIM_UPDATEGATING_UPDEN2_UPDATE) || \ ((UPDATEGATING) == HRTIM_UPDATEGATING_UPDEN3_UPDATE)) /** * @} */ /** @defgroup HRTIM_Timer_Burst_Mode HRTIM Timer Burst Mode * @{ * @brief Constants defining how the timer behaves during a burst mode operation. */ #define HRTIM_TIMERBURSTMODE_MAINTAINCLOCK (uint32_t)0x000000 /*!< Timer counter clock is maintained and the timer operates normally */ #define HRTIM_TIMERBURSTMODE_RESETCOUNTER (HRTIM_BMCR_MTBM) /*!< Timer counter clock is stopped and the counter is reset */ #define IS_HRTIM_TIMERBURSTMODE(TIMERBURSTMODE) \ (((TIMERBURSTMODE) == HRTIM_TIMERBURSTMODE_MAINTAINCLOCK) || \ ((TIMERBURSTMODE) == HRTIM_TIMERBURSTMODE_RESETCOUNTER)) /** * @} */ /** @defgroup HRTIM_Timer_Repetition_Update HRTIM Timer Repetition Update * @{ * @brief Constants defining whether registers are updated when the timer * repetition period is completed (either due to roll-over or * reset events) */ #define HRTIM_UPDATEONREPETITION_DISABLED (uint32_t)0x00000000 /*!< Update on repetition disabled */ #define HRTIM_UPDATEONREPETITION_ENABLED (HRTIM_MCR_MREPU) /*!< Update on repetition enabled */ #define IS_HRTIM_UPDATEONREPETITION(UPDATEONREPETITION) \ (((UPDATEONREPETITION) == HRTIM_UPDATEONREPETITION_DISABLED) || \ ((UPDATEONREPETITION) == HRTIM_UPDATEONREPETITION_ENABLED)) /** * @} */ /** @defgroup HRTIM_Timer_Push_Pull_Mode HRTIM Timer Push Pull Mode * @{ * @brief Constants defining whether or not the puhs-pull mode is enabled for * a timer. */ #define HRTIM_TIMPUSHPULLMODE_DISABLED ((uint32_t)0x00000000) /*!< Push-Pull mode disabled */ #define HRTIM_TIMPUSHPULLMODE_ENABLED ((uint32_t)HRTIM_TIMCR_PSHPLL) /*!< Push-Pull mode enabled */ #define IS_HRTIM_TIMPUSHPULLMODE(TIMPUSHPULLMODE)\ (((TIMPUSHPULLMODE) == HRTIM_TIMPUSHPULLMODE_DISABLED) || \ ((TIMPUSHPULLMODE) == HRTIM_TIMPUSHPULLMODE_ENABLED)) /** * @} */ /** @defgroup HRTIM_Timer_Fault_Enabling HRTIM Timer Fault Enabling * @{ * @brief Constants defining whether a faut channel is enabled for a timer */ #define HRTIM_TIMFAULTENABLE_NONE (uint32_t)0x00000000 /*!< No fault enabled */ #define HRTIM_TIMFAULTENABLE_FAULT1 (HRTIM_FLTR_FLT1EN) /*!< Fault 1 enabled */ #define HRTIM_TIMFAULTENABLE_FAULT2 (HRTIM_FLTR_FLT2EN) /*!< Fault 2 enabled */ #define HRTIM_TIMFAULTENABLE_FAULT3 (HRTIM_FLTR_FLT3EN) /*!< Fault 3 enabled */ #define HRTIM_TIMFAULTENABLE_FAULT4 (HRTIM_FLTR_FLT4EN) /*!< Fault 4 enabled */ #define HRTIM_TIMFAULTENABLE_FAULT5 (HRTIM_FLTR_FLT5EN) /*!< Fault 5 enabled */ #define IS_HRTIM_TIMFAULTENABLE(TIMFAULTENABLE) (((TIMFAULTENABLE) & 0xFFFFFFE0) == 0x00000000) /** * @} */ /** @defgroup HRTIM_Timer_Fault_Lock HRTIM Timer Fault Lock * @{ * @brief Constants defining whether or not fault enabling bits are write * protected for a timer */ #define HRTIM_TIMFAULTLOCK_READWRITE ((uint32_t)0x00000000) /*!< Timer fault enabling bits are read/write */ #define HRTIM_TIMFAULTLOCK_READONLY (HRTIM_FLTR_FLTLCK) /*!< Timer fault enabling bits are read only */ #define IS_HRTIM_TIMFAULTLOCK(TIMFAULTLOCK)\ (((TIMFAULTLOCK) == HRTIM_TIMFAULTLOCK_READWRITE) || \ ((TIMFAULTLOCK) == HRTIM_TIMFAULTLOCK_READONLY)) /** * @} */ /** @defgroup HRTIM_Timer_Deadtime_Insertion HRTIM Timer Deadtime Insertion * @{ * @brief Constants defining whether or not fault the dead time insertion * feature is enabled for a timer */ #define HRTIM_TIMDEADTIMEINSERTION_DISABLED ((uint32_t)0x00000000) /*!< Output 1 and output 2 signals are independent */ #define HRTIM_TIMDEADTIMEINSERTION_ENABLED HRTIM_OUTR_DTEN /*!< Deadtime is inserted between output 1 and output 2 */ #define IS_HRTIM_TIMDEADTIMEINSERTION(TIMPUSHPULLMODE, TIMDEADTIMEINSERTION)\ ((((TIMPUSHPULLMODE) == HRTIM_TIMPUSHPULLMODE_DISABLED) && \ ((((TIMDEADTIMEINSERTION) == HRTIM_TIMDEADTIMEINSERTION_DISABLED) || \ ((TIMDEADTIMEINSERTION) == HRTIM_TIMDEADTIMEINSERTION_ENABLED)))) \ || \ (((TIMPUSHPULLMODE) == HRTIM_TIMPUSHPULLMODE_ENABLED) && \ ((TIMDEADTIMEINSERTION) == HRTIM_TIMDEADTIMEINSERTION_DISABLED))) /** * @} */ /** @defgroup HRTIM_Timer_Delayed_Protection_Mode HRTIM Timer Delayed Protection Mode * @{ * @brief Constants defining all possible delayed protection modes * for a timer. Also definethe source and outputs on which the delayed * protection schemes are applied */ #define HRTIM_TIMDELAYEDPROTECTION_DISABLED ((uint32_t)0x00000000) /*!< No action */ #define HRTIM_TIMDELAYEDPROTECTION_DELAYEDOUT1_EEV68 (HRTIM_OUTR_DLYPRTEN) /*!< Output 1 delayed Idle on external Event 6 or 8 */ #define HRTIM_TIMDELAYEDPROTECTION_DELAYEDOUT2_EEV68 (HRTIM_OUTR_DLYPRT_0 | HRTIM_OUTR_DLYPRTEN) /*!< Output 2 delayed Idle on external Event 6 or 8 */ #define HRTIM_TIMDELAYEDPROTECTION_DELAYEDBOTH_EEV68 (HRTIM_OUTR_DLYPRT_1 | HRTIM_OUTR_DLYPRTEN) /*!< Output 1 and output 2 delayed Idle on external Event 6 or 8 */ #define HRTIM_TIMDELAYEDPROTECTION_BALANCED_EEV68 (HRTIM_OUTR_DLYPRT_1 | HRTIM_OUTR_DLYPRT_0 | HRTIM_OUTR_DLYPRTEN) /*!< Balanced Idle on external Event 6 or 8 */ #define HRTIM_TIMDELAYEDPROTECTION_DELAYEDOUT1_DEEV79 (HRTIM_OUTR_DLYPRT_2 | HRTIM_OUTR_DLYPRTEN) /*!< Output 1 delayed Idle on external Event 7 or 9 */ #define HRTIM_TIMDELAYEDPROTECTION_DELAYEDOUT2_DEEV79 (HRTIM_OUTR_DLYPRT_2 | HRTIM_OUTR_DLYPRT_0 | HRTIM_OUTR_DLYPRTEN) /*!< Output 2 delayed Idle on external Event 7 or 9 */ #define HRTIM_TIMDELAYEDPROTECTION_DELAYEDBOTH_EEV79 (HRTIM_OUTR_DLYPRT_2 | HRTIM_OUTR_DLYPRT_1 | HRTIM_OUTR_DLYPRTEN) /*!< Output 1 and output2 delayed Idle on external Event 7 or 9 */ #define HRTIM_TIMDELAYEDPROTECTION_BALANCED_EEV79 (HRTIM_OUTR_DLYPRT_2 | HRTIM_OUTR_DLYPRT_1 | HRTIM_OUTR_DLYPRT_0 | HRTIM_OUTR_DLYPRTEN) /*!< Balanced Idle on external Event 7 or 9 */ #define IS_HRTIM_TIMDELAYEDPROTECTION(TIMPUSHPULLMODE, TIMDELAYEDPROTECTION)\ ((((TIMDELAYEDPROTECTION) == HRTIM_TIMDELAYEDPROTECTION_DISABLED) || \ ((TIMDELAYEDPROTECTION) == HRTIM_TIMDELAYEDPROTECTION_DELAYEDOUT1_EEV68) || \ ((TIMDELAYEDPROTECTION) == HRTIM_TIMDELAYEDPROTECTION_DELAYEDOUT2_EEV68) || \ ((TIMDELAYEDPROTECTION) == HRTIM_TIMDELAYEDPROTECTION_DELAYEDBOTH_EEV68) || \ ((TIMDELAYEDPROTECTION) == HRTIM_TIMDELAYEDPROTECTION_DELAYEDOUT1_DEEV79) || \ ((TIMDELAYEDPROTECTION) == HRTIM_TIMDELAYEDPROTECTION_DELAYEDOUT2_DEEV79) || \ ((TIMDELAYEDPROTECTION) == HRTIM_TIMDELAYEDPROTECTION_DELAYEDBOTH_EEV79)) \ || \ (((TIMPUSHPULLMODE) == HRTIM_TIMPUSHPULLMODE_ENABLED) && \ ((TIMDELAYEDPROTECTION) == HRTIM_TIMDELAYEDPROTECTION_BALANCED_EEV68) || \ ((TIMDELAYEDPROTECTION) == HRTIM_TIMDELAYEDPROTECTION_BALANCED_EEV79))) /** * @} */ /** @defgroup HRTIM_Timer_Update_Trigger HRTIM Timer Update Trigger * @{ * @brief Constants defining whether the registers update is done synchronously * with any other timer or master update */ #define HRTIM_TIMUPDATETRIGGER_NONE (uint32_t)0x00000000 /*!< Register update is disabled */ #define HRTIM_TIMUPDATETRIGGER_MASTER (HRTIM_TIMCR_MSTU) /*!< Register update is triggered by the master timer update */ #define HRTIM_TIMUPDATETRIGGER_TIMER_A (HRTIM_TIMCR_TAU) /*!< Register update is triggered by the timer A update */ #define HRTIM_TIMUPDATETRIGGER_TIMER_B (HRTIM_TIMCR_TBU) /*!< Register update is triggered by the timer B update */ #define HRTIM_TIMUPDATETRIGGER_TIMER_C (HRTIM_TIMCR_TCU) /*!< Register update is triggered by the timer C update*/ #define HRTIM_TIMUPDATETRIGGER_TIMER_D (HRTIM_TIMCR_TDU) /*!< Register update is triggered by the timer D update */ #define HRTIM_TIMUPDATETRIGGER_TIMER_E (HRTIM_TIMCR_TEU) /*!< Register update is triggered by the timer E update */ #define IS_HRTIM_TIMUPDATETRIGGER(TIMUPDATETRIGGER) (((TIMUPDATETRIGGER) & 0xFE07FFFF) == 0x00000000) /** * @} */ /** @defgroup HRTIM_Timer_Reset_Trigger HRTIM Timer Reset Trigger * @{ * @brief Constants defining the events that can be selected to trigger the reset * of the timer counter */ #define HRTIM_TIMRESETTRIGGER_NONE (uint32_t)0x00000000 /*!< No counter reset trigger */ #define HRTIM_TIMRESETTRIGGER_UPDATE (HRTIM_RSTR_UPDATE) /*!< The timer counter is reset upon update event */ #define HRTIM_TIMRESETTRIGGER_CMP2 (HRTIM_RSTR_CMP2) /*!< The timer counter is reset upon Timer Compare 2 event */ #define HRTIM_TIMRESETTRIGGER_CMP4 (HRTIM_RSTR_CMP4) /*!< The timer counter is reset upon Timer Compare 4 event */ #define HRTIM_TIMRESETTRIGGER_MASTER_PER (HRTIM_RSTR_MSTPER) /*!< The timercounter is reset upon master timer period event */ #define HRTIM_TIMRESETTRIGGER_MASTER_CMP1 (HRTIM_RSTR_MSTCMP1) /*!< The timer counter is reset upon master timer Compare 1 event */ #define HRTIM_TIMRESETTRIGGER_MASTER_CMP2 (HRTIM_RSTR_MSTCMP2) /*!< The timer counter is reset upon master timer Compare 2 event */ #define HRTIM_TIMRESETTRIGGER_MASTER_CMP3 (HRTIM_RSTR_MSTCMP3) /*!< The timer counter is reset upon master timer Compare 3 event */ #define HRTIM_TIMRESETTRIGGER_MASTER_CMP4 (HRTIM_RSTR_MSTCMP4) /*!< The timer counter is reset upon master timer Compare 4 event */ #define HRTIM_TIMRESETTRIGGER_EEV_1 (HRTIM_RSTR_EXTEVNT1) /*!< The timer counter is reset upon external event 1 */ #define HRTIM_TIMRESETTRIGGER_EEV_2 (HRTIM_RSTR_EXTEVNT2) /*!< The timer counter is reset upon external event 2 */ #define HRTIM_TIMRESETTRIGGER_EEV_3 (HRTIM_RSTR_EXTEVNT3) /*!< The timer counter is reset upon external event 3 */ #define HRTIM_TIMRESETTRIGGER_EEV_4 (HRTIM_RSTR_EXTEVNT4) /*!< The timer counter is reset upon external event 4 */ #define HRTIM_TIMRESETTRIGGER_EEV_5 (HRTIM_RSTR_EXTEVNT5) /*!< The timer counter is reset upon external event 5 */ #define HRTIM_TIMRESETTRIGGER_EEV_6 (HRTIM_RSTR_EXTEVNT6) /*!< The timer counter is reset upon external event 6 */ #define HRTIM_TIMRESETTRIGGER_EEV_7 (HRTIM_RSTR_EXTEVNT7) /*!< The timer counter is reset upon external event 7 */ #define HRTIM_TIMRESETTRIGGER_EEV_8 (HRTIM_RSTR_EXTEVNT8) /*!< The timer counter is reset upon external event 8 */ #define HRTIM_TIMRESETTRIGGER_EEV_9 (HRTIM_RSTR_EXTEVNT9) /*!< The timer counter is reset upon external event 9 */ #define HRTIM_TIMRESETTRIGGER_EEV_10 (HRTIM_RSTR_EXTEVNT10) /*!< The timer counter is reset upon external event 10 */ #define HRTIM_TIMRESETTRIGGER_OTHER1_CMP1 (HRTIM_RSTR_TIMBCMP1) /*!< The timer counter is reset upon other timer Compare 1 event */ #define HRTIM_TIMRESETTRIGGER_OTHER1_CMP2 (HRTIM_RSTR_TIMBCMP2) /*!< The timer counter is reset upon other timer Compare 2 event */ #define HRTIM_TIMRESETTRIGGER_OTHER1_CMP4 (HRTIM_RSTR_TIMBCMP4) /*!< The timer counter is reset upon other timer Compare 4 event */ #define HRTIM_TIMRESETTRIGGER_OTHER2_CMP1 (HRTIM_RSTR_TIMCCMP1) /*!< The timer counter is reset upon other timer Compare 1 event */ #define HRTIM_TIMRESETTRIGGER_OTHER2_CMP2 (HRTIM_RSTR_TIMCCMP2) /*!< The timer counter is reset upon other timer Compare 2 event */ #define HRTIM_TIMRESETTRIGGER_OTHER2_CMP4 (HRTIM_RSTR_TIMCCMP4) /*!< The timer counter is reset upon other timer Compare 4 event */ #define HRTIM_TIMRESETTRIGGER_OTHER3_CMP1 (HRTIM_RSTR_TIMDCMP1) /*!< The timer counter is reset upon other timer Compare 1 event */ #define HRTIM_TIMRESETTRIGGER_OTHER3_CMP2 (HRTIM_RSTR_TIMDCMP2) /*!< The timer counter is reset upon other timer Compare 2 event */ #define HRTIM_TIMRESETTRIGGER_OTHER3_CMP4 (HRTIM_RSTR_TIMDCMP4) /*!< The timer counter is reset upon other timer Compare 4 event */ #define HRTIM_TIMRESETTRIGGER_OTHER4_CMP1 (HRTIM_RSTR_TIMECMP1) /*!< The timer counter is reset upon other timer Compare 1 event */ #define HRTIM_TIMRESETTRIGGER_OTHER4_CMP2 (HRTIM_RSTR_TIMECMP2) /*!< The timer counter is reset upon other timer Compare 2 event */ #define HRTIM_TIMRESETTRIGGER_OTHER4_CMP4 (HRTIM_RSTR_TIMECMP4) /*!< The timer counter is reset upon other timer Compare 4 event */ #define IS_HRTIM_TIMRESETTRIGGER(TIMRESETTRIGGER) (((TIMRESETTRIGGER) & 0x800000001) == 0x00000000) /** * @} */ /** @defgroup HRTIM_Timer_Reset_Update HRTIM Timer Reset Update * @{ * @brief Constants defining whether the register are updated upon Timerx * counter reset or roll-over to 0 after reaching the period value * in continuous mode */ #define HRTIM_TIMUPDATEONRESET_DISABLED (uint32_t)0x00000000 /*!< Update by timer x reset / roll-over disabled */ #define HRTIM_TIMUPDATEONRESET_ENABLED (HRTIM_TIMCR_TRSTU) /*!< Update by timer x reset / roll-over enabled */ #define IS_HRTIM_TIMUPDATEONRESET(TIMUPDATEONRESET) \ (((TIMUPDATEONRESET) == HRTIM_TIMUPDATEONRESET_DISABLED) || \ ((TIMUPDATEONRESET) == HRTIM_TIMUPDATEONRESET_ENABLED)) /** * @} */ /** @defgroup HRTIM_Compare_Unit_Auto_Delayed_Mode HRTIM Compare Unit Auto Delayed Mode * @{ * @brief Constants defining whether the compare register is behaving in * regular mode (compare match issued as soon as counter equal compare), * or in auto-delayed mode */ #define HRTIM_AUTODELAYEDMODE_REGULAR ((uint32_t)0x00000000) /*!< standard compare mode */ #define HRTIM_AUTODELAYEDMODE_AUTODELAYED_NOTIMEOUT (HRTIM_TIMCR_DELCMP2_0) /*!< Compare event generated only if a capture has occured */ #define HRTIM_AUTODELAYEDMODE_AUTODELAYED_TIMEOUTCMP1 (HRTIM_TIMCR_DELCMP2_1) /*!< Compare event generated if a capture has occured or after a Compare 1 match (timeout if capture event is missing) */ #define HRTIM_AUTODELAYEDMODE_AUTODELAYED_TIMEOUTCMP3 (HRTIM_TIMCR_DELCMP2_1 | HRTIM_TIMCR_DELCMP2_0) /*!< Compare event generated if a capture has occured or after a Compare 3 match (timeout if capture event is missing) */ #define IS_HRTIM_AUTODELAYEDMODE(AUTODELAYEDMODE)\ (((AUTODELAYEDMODE) == HRTIM_AUTODELAYEDMODE_REGULAR) || \ ((AUTODELAYEDMODE) == HRTIM_AUTODELAYEDMODE_AUTODELAYED_NOTIMEOUT) || \ ((AUTODELAYEDMODE) == HRTIM_AUTODELAYEDMODE_AUTODELAYED_TIMEOUTCMP1) || \ ((AUTODELAYEDMODE) == HRTIM_AUTODELAYEDMODE_AUTODELAYED_TIMEOUTCMP3)) /* Auto delayed mode is only available for compare units 2 and 4 */ #define IS_HRTIM_COMPAREUNIT_AUTODELAYEDMODE(COMPAREUNIT, AUTODELAYEDMODE) \ ((((COMPAREUNIT) == HRTIM_COMPAREUNIT_2) && \ (((AUTODELAYEDMODE) == HRTIM_AUTODELAYEDMODE_REGULAR) || \ ((AUTODELAYEDMODE) == HRTIM_AUTODELAYEDMODE_AUTODELAYED_NOTIMEOUT) || \ ((AUTODELAYEDMODE) == HRTIM_AUTODELAYEDMODE_AUTODELAYED_TIMEOUTCMP1) || \ ((AUTODELAYEDMODE) == HRTIM_AUTODELAYEDMODE_AUTODELAYED_TIMEOUTCMP3))) \ || \ (((COMPAREUNIT) == HRTIM_COMPAREUNIT_4) && \ (((AUTODELAYEDMODE) == HRTIM_AUTODELAYEDMODE_REGULAR) || \ ((AUTODELAYEDMODE) == HRTIM_AUTODELAYEDMODE_AUTODELAYED_NOTIMEOUT) || \ ((AUTODELAYEDMODE) == HRTIM_AUTODELAYEDMODE_AUTODELAYED_TIMEOUTCMP1) || \ ((AUTODELAYEDMODE) == HRTIM_AUTODELAYEDMODE_AUTODELAYED_TIMEOUTCMP3)))) /** * @} */ /** @defgroup HRTIM_Simple_OC_Mode HRTIM Simple OC Mode * @{ * @brief Constants defining the behavior of the output signal when the timer operates in basic output compare mode */ #define HRTIM_BASICOCMODE_TOGGLE ((uint32_t)0x00000001) /*!< Ouput toggles when the timer counter reaches the compare value */ #define HRTIM_BASICOCMODE_INACTIVE ((uint32_t)0x00000002) /*!< Ouput forced to active level when the timer counter reaches the compare value */ #define HRTIM_BASICOCMODE_ACTIVE ((uint32_t)0x00000003) /*!< Ouput forced to inactive level when the timer counter reaches the compare value */ #define IS_HRTIM_BASICOCMODE(BASICOCMODE)\ (((BASICOCMODE) == HRTIM_BASICOCMODE_TOGGLE) || \ ((BASICOCMODE) == HRTIM_BASICOCMODE_INACTIVE) || \ ((BASICOCMODE) == HRTIM_BASICOCMODE_ACTIVE)) /** * @} */ /** @defgroup HRTIM_Output_Polarity HRTIM Output Polarity * @{ * @brief Constants defining the polarity of a timer output */ #define HRTIM_OUTPUTPOLARITY_HIGH ((uint32_t)0x00000000) /*!< Output is acitve HIGH */ #define HRTIM_OUTPUTPOLARITY_LOW (HRTIM_OUTR_POL1) /*!< Output is active LOW */ #define IS_HRTIM_OUTPUTPOLARITY(OUTPUTPOLARITY)\ (((OUTPUTPOLARITY) == HRTIM_OUTPUTPOLARITY_HIGH) || \ ((OUTPUTPOLARITY) == HRTIM_OUTPUTPOLARITY_LOW)) /** * @} */ /** @defgroup HRTIM_Output_Set_Source HRTIM Output Set Source * @{ * @brief Constants defining the events that can be selected to configure the * set crossbar of a timer output */ #define HRTIM_OUTPUTSET_NONE (uint32_t)0x00000000 /*!< Reset the output set crossbar */ #define HRTIM_OUTPUTSET_RESYNC (HRTIM_SET1R_RESYNC) /*!< Timer reset event coming solely from software or SYNC input forces the output to its active state */ #define HRTIM_OUTPUTSET_TIMPER (HRTIM_SET1R_PER) /*!< Timer period event forces the output to its active state */ #define HRTIM_OUTPUTSET_TIMCMP1 (HRTIM_SET1R_CMP1) /*!< Timer compare 1 event forces the output to its active state */ #define HRTIM_OUTPUTSET_TIMCMP2 (HRTIM_SET1R_CMP2) /*!< Timer compare 2 event forces the output to its active state */ #define HRTIM_OUTPUTSET_TIMCMP3 (HRTIM_SET1R_CMP3) /*!< Timer compare 3 event forces the output to its active state */ #define HRTIM_OUTPUTSET_TIMCMP4 (HRTIM_SET1R_CMP4) /*!< Timer compare 4 event forces the output to its active state */ #define HRTIM_OUTPUTSET_MASTERPER (HRTIM_SET1R_MSTPER) /*!< The master timer period event forces the output to its active state */ #define HRTIM_OUTPUTSET_MASTERCMP1 (HRTIM_SET1R_MSTCMP1) /*!< Master Timer compare 1 event forces the output to its active state */ #define HRTIM_OUTPUTSET_MASTERCMP2 (HRTIM_SET1R_MSTCMP2) /*!< Master Timer compare 2 event forces the output to its active state */ #define HRTIM_OUTPUTSET_MASTERCMP3 (HRTIM_SET1R_MSTCMP3) /*!< Master Timer compare 3 event forces the output to its active state */ #define HRTIM_OUTPUTSET_MASTERCMP4 (HRTIM_SET1R_MSTCMP4) /*!< Master Timer compare 4 event forces the output to its active state */ #define HRTIM_OUTPUTSET_TIMEV_1 (HRTIM_SET1R_TIMEVNT1) /*!< Timer event 1 forces the output to its active state */ #define HRTIM_OUTPUTSET_TIMEV_2 (HRTIM_SET1R_TIMEVNT2) /*!< Timer event 2 forces the output to its active state */ #define HRTIM_OUTPUTSET_TIMEV_3 (HRTIM_SET1R_TIMEVNT3) /*!< Timer event 3 forces the output to its active state */ #define HRTIM_OUTPUTSET_TIMEV_4 (HRTIM_SET1R_TIMEVNT4) /*!< Timer event 4 forces the output to its active state */ #define HRTIM_OUTPUTSET_TIMEV_5 (HRTIM_SET1R_TIMEVNT5) /*!< Timer event 5 forces the output to its active state */ #define HRTIM_OUTPUTSET_TIMEV_6 (HRTIM_SET1R_TIMEVNT6) /*!< Timer event 6 forces the output to its active state */ #define HRTIM_OUTPUTSET_TIMEV_7 (HRTIM_SET1R_TIMEVNT7) /*!< Timer event 7 forces the output to its active state */ #define HRTIM_OUTPUTSET_TIMEV_8 (HRTIM_SET1R_TIMEVNT8) /*!< Timer event 8 forces the output to its active state */ #define HRTIM_OUTPUTSET_TIMEV_9 (HRTIM_SET1R_TIMEVNT9) /*!< Timer event 9 forces the output to its active state */ #define HRTIM_OUTPUTSET_EEV_1 (HRTIM_SET1R_EXTVNT1) /*!< External event 1 forces the output to its active state */ #define HRTIM_OUTPUTSET_EEV_2 (HRTIM_SET1R_EXTVNT2) /*!< External event 2 forces the output to its active state */ #define HRTIM_OUTPUTSET_EEV_3 (HRTIM_SET1R_EXTVNT3) /*!< External event 3 forces the output to its active state */ #define HRTIM_OUTPUTSET_EEV_4 (HRTIM_SET1R_EXTVNT4) /*!< External event 4 forces the output to its active state */ #define HRTIM_OUTPUTSET_EEV_5 (HRTIM_SET1R_EXTVNT5) /*!< External event 5 forces the output to its active state */ #define HRTIM_OUTPUTSET_EEV_6 (HRTIM_SET1R_EXTVNT6) /*!< External event 6 forces the output to its active state */ #define HRTIM_OUTPUTSET_EEV_7 (HRTIM_SET1R_EXTVNT7) /*!< External event 7 forces the output to its active state */ #define HRTIM_OUTPUTSET_EEV_8 (HRTIM_SET1R_EXTVNT8) /*!< External event 8 forces the output to its active state */ #define HRTIM_OUTPUTSET_EEV_9 (HRTIM_SET1R_EXTVNT9) /*!< External event 9 forces the output to its active state */ #define HRTIM_OUTPUTSET_EEV_10 (HRTIM_SET1R_EXTVNT10) /*!< External event 10 forces the output to its active state */ #define HRTIM_OUTPUTSET_UPDATE (HRTIM_SET1R_UPDATE) /*!< Timer register update event forces the output to its active state */ #define IS_HRTIM_OUTPUTSET(OUTPUTSET)\ (((OUTPUTSET) == HRTIM_OUTPUTSET_NONE) || \ ((OUTPUTSET) == HRTIM_OUTPUTSET_RESYNC) || \ ((OUTPUTSET) == HRTIM_OUTPUTSET_TIMPER) || \ ((OUTPUTSET) == HRTIM_OUTPUTSET_TIMCMP1) || \ ((OUTPUTSET) == HRTIM_OUTPUTSET_TIMCMP2) || \ ((OUTPUTSET) == HRTIM_OUTPUTSET_TIMCMP3) || \ ((OUTPUTSET) == HRTIM_OUTPUTSET_TIMCMP4) || \ ((OUTPUTSET) == HRTIM_OUTPUTSET_MASTERPER) || \ ((OUTPUTSET) == HRTIM_OUTPUTSET_MASTERCMP1) || \ ((OUTPUTSET) == HRTIM_OUTPUTSET_MASTERCMP2) || \ ((OUTPUTSET) == HRTIM_OUTPUTSET_MASTERCMP3) || \ ((OUTPUTSET) == HRTIM_OUTPUTSET_MASTERCMP4) || \ ((OUTPUTSET) == HRTIM_OUTPUTSET_TIMEV_1) || \ ((OUTPUTSET) == HRTIM_OUTPUTSET_TIMEV_2) || \ ((OUTPUTSET) == HRTIM_OUTPUTSET_TIMEV_3) || \ ((OUTPUTSET) == HRTIM_OUTPUTSET_TIMEV_4) || \ ((OUTPUTSET) == HRTIM_OUTPUTSET_TIMEV_5) || \ ((OUTPUTSET) == HRTIM_OUTPUTSET_TIMEV_6) || \ ((OUTPUTSET) == HRTIM_OUTPUTSET_TIMEV_7) || \ ((OUTPUTSET) == HRTIM_OUTPUTSET_TIMEV_8) || \ ((OUTPUTSET) == HRTIM_OUTPUTSET_TIMEV_9) || \ ((OUTPUTSET) == HRTIM_OUTPUTSET_EEV_1) || \ ((OUTPUTSET) == HRTIM_OUTPUTSET_EEV_2) || \ ((OUTPUTSET) == HRTIM_OUTPUTSET_EEV_3) || \ ((OUTPUTSET) == HRTIM_OUTPUTSET_EEV_4) || \ ((OUTPUTSET) == HRTIM_OUTPUTSET_EEV_5) || \ ((OUTPUTSET) == HRTIM_OUTPUTSET_EEV_6) || \ ((OUTPUTSET) == HRTIM_OUTPUTSET_EEV_7) || \ ((OUTPUTSET) == HRTIM_OUTPUTSET_EEV_8) || \ ((OUTPUTSET) == HRTIM_OUTPUTSET_EEV_9) || \ ((OUTPUTSET) == HRTIM_OUTPUTSET_EEV_10) || \ ((OUTPUTSET) == HRTIM_OUTPUTSET_UPDATE)) /** * @} */ /** @defgroup HRTIM_Output_Reset_Source HRTIM Output Reset Source * @{ * @brief Constants defining the events that can be selected to configure the * set crossbar of a timer output */ #define HRTIM_OUTPUTRESET_NONE (uint32_t)0x00000000 /*!< Reset the output reset crossbar */ #define HRTIM_OUTPUTRESET_RESYNC (HRTIM_RST1R_RESYNC) /*!< Timer reset event coming solely from software or SYNC input forces the output to its inactive state */ #define HRTIM_OUTPUTRESET_TIMPER (HRTIM_RST1R_PER) /*!< Timer period event forces the output to its inactive state */ #define HRTIM_OUTPUTRESET_TIMCMP1 (HRTIM_RST1R_CMP1) /*!< Timer compare 1 event forces the output to its inactive state */ #define HRTIM_OUTPUTRESET_TIMCMP2 (HRTIM_RST1R_CMP2) /*!< Timer compare 2 event forces the output to its inactive state */ #define HRTIM_OUTPUTRESET_TIMCMP3 (HRTIM_RST1R_CMP3) /*!< Timer compare 3 event forces the output to its inactive state */ #define HRTIM_OUTPUTRESET_TIMCMP4 (HRTIM_RST1R_CMP4) /*!< Timer compare 4 event forces the output to its inactive state */ #define HRTIM_OUTPUTRESET_MASTERPER (HRTIM_RST1R_MSTPER) /*!< The master timer period event forces the output to its inactive state */ #define HRTIM_OUTPUTRESET_MASTERCMP1 (HRTIM_RST1R_MSTCMP1) /*!< Master Timer compare 1 event forces the output to its inactive state */ #define HRTIM_OUTPUTRESET_MASTERCMP2 (HRTIM_RST1R_MSTCMP2) /*!< Master Timer compare 2 event forces the output to its inactive state */ #define HRTIM_OUTPUTRESET_MASTERCMP3 (HRTIM_RST1R_MSTCMP3) /*!< Master Timer compare 3 event forces the output to its inactive state */ #define HRTIM_OUTPUTRESET_MASTERCMP4 (HRTIM_RST1R_MSTCMP4) /*!< Master Timer compare 4 event forces the output to its inactive state */ #define HRTIM_OUTPUTRESET_TIMEV_1 (HRTIM_RST1R_TIMEVNT1) /*!< Timer event 1 forces the output to its inactive state */ #define HRTIM_OUTPUTRESET_TIMEV_2 (HRTIM_RST1R_TIMEVNT2) /*!< Timer event 2 forces the output to its inactive state */ #define HRTIM_OUTPUTRESET_TIMEV_3 (HRTIM_RST1R_TIMEVNT3) /*!< Timer event 3 forces the output to its inactive state */ #define HRTIM_OUTPUTRESET_TIMEV_4 (HRTIM_RST1R_TIMEVNT4) /*!< Timer event 4 forces the output to its inactive state */ #define HRTIM_OUTPUTRESET_TIMEV_5 (HRTIM_RST1R_TIMEVNT5) /*!< Timer event 5 forces the output to its inactive state */ #define HRTIM_OUTPUTRESET_TIMEV_6 (HRTIM_RST1R_TIMEVNT6) /*!< Timer event 6 forces the output to its inactive state */ #define HRTIM_OUTPUTRESET_TIMEV_7 (HRTIM_RST1R_TIMEVNT7) /*!< Timer event 7 forces the output to its inactive state */ #define HRTIM_OUTPUTRESET_TIMEV_8 (HRTIM_RST1R_TIMEVNT8) /*!< Timer event 8 forces the output to its inactive state */ #define HRTIM_OUTPUTRESET_TIMEV_9 (HRTIM_RST1R_TIMEVNT9) /*!< Timer event 9 forces the output to its inactive state */ #define HRTIM_OUTPUTRESET_EEV_1 (HRTIM_RST1R_EXTVNT1) /*!< External event 1 forces the output to its inactive state */ #define HRTIM_OUTPUTRESET_EEV_2 (HRTIM_RST1R_EXTVNT2) /*!< External event 2 forces the output to its inactive state */ #define HRTIM_OUTPUTRESET_EEV_3 (HRTIM_RST1R_EXTVNT3) /*!< External event 3 forces the output to its inactive state */ #define HRTIM_OUTPUTRESET_EEV_4 (HRTIM_RST1R_EXTVNT4) /*!< External event 4 forces the output to its inactive state */ #define HRTIM_OUTPUTRESET_EEV_5 (HRTIM_RST1R_EXTVNT5) /*!< External event 5 forces the output to its inactive state */ #define HRTIM_OUTPUTRESET_EEV_6 (HRTIM_RST1R_EXTVNT6) /*!< External event 6 forces the output to its inactive state */ #define HRTIM_OUTPUTRESET_EEV_7 (HRTIM_RST1R_EXTVNT7) /*!< External event 7 forces the output to its inactive state */ #define HRTIM_OUTPUTRESET_EEV_8 (HRTIM_RST1R_EXTVNT8) /*!< External event 8 forces the output to its inactive state */ #define HRTIM_OUTPUTRESET_EEV_9 (HRTIM_RST1R_EXTVNT9) /*!< External event 9 forces the output to its inactive state */ #define HRTIM_OUTPUTRESET_EEV_10 (HRTIM_RST1R_EXTVNT10) /*!< External event 10 forces the output to its inactive state */ #define HRTIM_OUTPUTRESET_UPDATE (HRTIM_RST1R_UPDATE) /*!< Timer register update event forces the output to its inactive state */ #define IS_HRTIM_OUTPUTRESET(OUTPUTRESET)\ (((OUTPUTRESET) == HRTIM_OUTPUTRESET_NONE) || \ ((OUTPUTRESET) == HRTIM_OUTPUTRESET_RESYNC) || \ ((OUTPUTRESET) == HRTIM_OUTPUTRESET_TIMPER) || \ ((OUTPUTRESET) == HRTIM_OUTPUTRESET_TIMCMP1) || \ ((OUTPUTRESET) == HRTIM_OUTPUTRESET_TIMCMP2) || \ ((OUTPUTRESET) == HRTIM_OUTPUTRESET_TIMCMP3) || \ ((OUTPUTRESET) == HRTIM_OUTPUTRESET_TIMCMP4) || \ ((OUTPUTRESET) == HRTIM_OUTPUTRESET_MASTERPER) || \ ((OUTPUTRESET) == HRTIM_OUTPUTRESET_MASTERCMP1) || \ ((OUTPUTRESET) == HRTIM_OUTPUTRESET_MASTERCMP2) || \ ((OUTPUTRESET) == HRTIM_OUTPUTRESET_MASTERCMP3) || \ ((OUTPUTRESET) == HRTIM_OUTPUTRESET_MASTERCMP4) || \ ((OUTPUTRESET) == HRTIM_OUTPUTRESET_TIMEV_1) || \ ((OUTPUTRESET) == HRTIM_OUTPUTRESET_TIMEV_2) || \ ((OUTPUTRESET) == HRTIM_OUTPUTRESET_TIMEV_3) || \ ((OUTPUTRESET) == HRTIM_OUTPUTRESET_TIMEV_4) || \ ((OUTPUTRESET) == HRTIM_OUTPUTRESET_TIMEV_5) || \ ((OUTPUTRESET) == HRTIM_OUTPUTRESET_TIMEV_6) || \ ((OUTPUTRESET) == HRTIM_OUTPUTRESET_TIMEV_7) || \ ((OUTPUTRESET) == HRTIM_OUTPUTRESET_TIMEV_8) || \ ((OUTPUTRESET) == HRTIM_OUTPUTRESET_TIMEV_9) || \ ((OUTPUTRESET) == HRTIM_OUTPUTRESET_EEV_1) || \ ((OUTPUTRESET) == HRTIM_OUTPUTRESET_EEV_2) || \ ((OUTPUTRESET) == HRTIM_OUTPUTRESET_EEV_3) || \ ((OUTPUTRESET) == HRTIM_OUTPUTRESET_EEV_4) || \ ((OUTPUTRESET) == HRTIM_OUTPUTRESET_EEV_5) || \ ((OUTPUTRESET) == HRTIM_OUTPUTRESET_EEV_6) || \ ((OUTPUTRESET) == HRTIM_OUTPUTRESET_EEV_7) || \ ((OUTPUTRESET) == HRTIM_OUTPUTRESET_EEV_8) || \ ((OUTPUTRESET) == HRTIM_OUTPUTRESET_EEV_9) || \ ((OUTPUTRESET) == HRTIM_OUTPUTRESET_EEV_10) || \ ((OUTPUTRESET) == HRTIM_OUTPUTRESET_UPDATE)) /** * @} */ /** @defgroup HRTIM_Output_Idle_Mode HRTIM Output Idle Mode * @{ * @brief Constants defining whether or not the timer output transition to its IDLE state when burst mode is entered */ #define HRTIM_OUTPUTIDLEMODE_NONE (uint32_t)0x00000000 /*!< The output is not affected by the burst mode operation */ #define HRTIM_OUTPUTIDLEMODE_IDLE (HRTIM_OUTR_IDLM1) /*!< The output is in idle state when requested by the burst mode controller */ #define IS_HRTIM_OUTPUTIDLEMODE(OUTPUTIDLEMODE)\ (((OUTPUTIDLEMODE) == HRTIM_OUTPUTIDLEMODE_NONE) || \ ((OUTPUTIDLEMODE) == HRTIM_OUTPUTIDLEMODE_IDLE)) /** * @} */ /** @defgroup HRTIM_Output_IDLE_Level HRTIM Output IDLE Level * @{ * @brief Constants defining the output level when output is in IDLE state */ #define HRTIM_OUTPUTIDLELEVEL_INACTIVE (uint32_t)0x00000000 /*!< Output at inactive level when in IDLE state */ #define HRTIM_OUTPUTIDLELEVEL_ACTIVE (HRTIM_OUTR_IDLES1) /*!< Output at active level when in IDLE state */ #define IS_HRTIM_OUTPUTIDLELEVEL(OUTPUTIDLELEVEL)\ (((OUTPUTIDLELEVEL) == HRTIM_OUTPUTIDLELEVEL_INACTIVE) || \ ((OUTPUTIDLELEVEL) == HRTIM_OUTPUTIDLELEVEL_ACTIVE)) /** * @} */ /** @defgroup HRTIM_Output_FAULT_Level HRTIM Output FAULT Level * @{ * @brief Constants defining the output level when output is in FAULT state */ #define HRTIM_OUTPUTFAULTLEVEL_NONE (uint32_t)0x00000000 /*!< The output is not affected by the fault input */ #define HRTIM_OUTPUTFAULTLEVEL_ACTIVE (HRTIM_OUTR_FAULT1_0) /*!< Output at active level when in FAULT state */ #define HRTIM_OUTPUTFAULTLEVEL_INACTIVE (HRTIM_OUTR_FAULT1_1) /*!< Output at inactive level when in FAULT state */ #define HRTIM_OUTPUTFAULTLEVEL_HIGHZ (HRTIM_OUTR_FAULT1_1 | HRTIM_OUTR_FAULT1_0) /*!< Output is tri-stated when in FAULT state */ #define IS_HRTIM_OUTPUTFAULTLEVEL(OUTPUTFAULTLEVEL)\ (((OUTPUTFAULTLEVEL) == HRTIM_OUTPUTFAULTLEVEL_NONE) || \ ((OUTPUTFAULTLEVEL) == HRTIM_OUTPUTFAULTLEVEL_ACTIVE) || \ ((OUTPUTFAULTLEVEL) == HRTIM_OUTPUTFAULTLEVEL_INACTIVE) || \ ((OUTPUTFAULTLEVEL) == HRTIM_OUTPUTFAULTLEVEL_HIGHZ)) /** * @} */ /** @defgroup HRTIM_Output_Chopper_Mode_Enable HRTIM Output Chopper Mode Enable * @{ * @brief Constants defining whether or not chopper mode is enabled for a timer output */ #define HRTIM_OUTPUTCHOPPERMODE_DISABLED (uint32_t)0x00000000 /*!< Output signal is not altered */ #define HRTIM_OUTPUTCHOPPERMODE_ENABLED (HRTIM_OUTR_CHP1) /*!< Output signal is chopped by a carrier signal */ #define IS_HRTIM_OUTPUTCHOPPERMODE(OUTPUTCHOPPERMODE)\ (((OUTPUTCHOPPERMODE) == HRTIM_OUTPUTCHOPPERMODE_DISABLED) || \ ((OUTPUTCHOPPERMODE) == HRTIM_OUTPUTCHOPPERMODE_ENABLED)) /** * @} */ /** @defgroup HRTIM_Output_Burst_Mode_Entry_Delayed HRTIM Output Burst Mode Entry Delayed * @{ * @brief Constants defining the idle mode entry is delayed by forcing a deadtime insertion before switching the outputs to their idle state */ #define HRTIM_OUTPUTBURSTMODEENTRY_REGULAR (uint32_t)0x00000000 /*!< The programmed Idle state is applied immediately to the Output */ #define HRTIM_OUTPUTBURSTMODEENTRY_DELAYED (HRTIM_OUTR_DIDL1) /*!< Deadtime is inserted on output before entering the idle mode */ #define IS_HRTIM_OUTPUTBURSTMODEENTRY(OUTPUTBURSTMODEENTRY)\ (((OUTPUTBURSTMODEENTRY) == HRTIM_OUTPUTBURSTMODEENTRY_REGULAR) || \ ((OUTPUTBURSTMODEENTRY) == HRTIM_OUTPUTBURSTMODEENTRY_DELAYED)) /** * @} */ /** @defgroup HRTIM_Capture_Unit_Trigger HRTIM Capture Unit Trigger * @{ * @brief Constants defining the events that can be selected to trigger the * capture of the timing unit counter */ #define HRTIM_CAPTURETRIGGER_NONE (uint32_t)0x00000000 /*!< Capture trigger is disabled */ #define HRTIM_CAPTURETRIGGER_UPDATE (HRTIM_CPT1CR_UPDCPT) /*!< The update event triggers the Capture */ #define HRTIM_CAPTURETRIGGER_EEV_1 (HRTIM_CPT1CR_EXEV1CPT) /*!< The External event 1 triggers the Capture */ #define HRTIM_CAPTURETRIGGER_EEV_2 (HRTIM_CPT1CR_EXEV2CPT) /*!< The External event 2 triggers the Capture */ #define HRTIM_CAPTURETRIGGER_EEV_3 (HRTIM_CPT1CR_EXEV3CPT) /*!< The External event 3 triggers the Capture */ #define HRTIM_CAPTURETRIGGER_EEV_4 (HRTIM_CPT1CR_EXEV4CPT) /*!< The External event 4 triggers the Capture */ #define HRTIM_CAPTURETRIGGER_EEV_5 (HRTIM_CPT1CR_EXEV5CPT) /*!< The External event 5 triggers the Capture */ #define HRTIM_CAPTURETRIGGER_EEV_6 (HRTIM_CPT1CR_EXEV6CPT) /*!< The External event 6 triggers the Capture */ #define HRTIM_CAPTURETRIGGER_EEV_7 (HRTIM_CPT1CR_EXEV7CPT) /*!< The External event 7 triggers the Capture */ #define HRTIM_CAPTURETRIGGER_EEV_8 (HRTIM_CPT1CR_EXEV8CPT) /*!< The External event 8 triggers the Capture */ #define HRTIM_CAPTURETRIGGER_EEV_9 (HRTIM_CPT1CR_EXEV9CPT) /*!< The External event 9 triggers the Capture */ #define HRTIM_CAPTURETRIGGER_EEV_10 (HRTIM_CPT1CR_EXEV10CPT) /*!< The External event 10 triggers the Capture */ #define HRTIM_CAPTURETRIGGER_TA1_SET (HRTIM_CPT1CR_TA1SET) /*!< Capture is triggered by TA1 output inactive to active transition */ #define HRTIM_CAPTURETRIGGER_TA1_RESET (HRTIM_CPT1CR_TA1RST) /*!< Capture is triggered by TA1 output active to inactive transition */ #define HRTIM_CAPTURETRIGGER_TIMERA_CMP1 (HRTIM_CPT1CR_TIMACMP1) /*!< Timer A Compare 1 triggers Capture */ #define HRTIM_CAPTURETRIGGER_TIMERA_CMP2 (HRTIM_CPT1CR_TIMACMP2) /*!< Timer A Compare 2 triggers Capture */ #define HRTIM_CAPTURETRIGGER_TB1_SET (HRTIM_CPT1CR_TB1SET) /*!< Capture is triggered by TB1 output inactive to active transition */ #define HRTIM_CAPTURETRIGGER_TB1_RESET (HRTIM_CPT1CR_TB1RST) /*!< Capture is triggered by TB1 output active to inactive transition */ #define HRTIM_CAPTURETRIGGER_TIMERB_CMP1 (HRTIM_CPT1CR_TIMBCMP1) /*!< Timer B Compare 1 triggers Capture */ #define HRTIM_CAPTURETRIGGER_TIMERB_CMP2 (HRTIM_CPT1CR_TIMBCMP2) /*!< Timer B Compare 2 triggers Capture */ #define HRTIM_CAPTURETRIGGER_TC1_SET (HRTIM_CPT1CR_TC1SET) /*!< Capture is triggered by TC1 output inactive to active transition */ #define HRTIM_CAPTURETRIGGER_TC1_RESET (HRTIM_CPT1CR_TC1RST) /*!< Capture is triggered by TC1 output active to inactive transition */ #define HRTIM_CAPTURETRIGGER_TIMERC_CMP1 (HRTIM_CPT1CR_TIMCCMP1) /*!< Timer C Compare 1 triggers Capture */ #define HRTIM_CAPTURETRIGGER_TIMERC_CMP2 (HRTIM_CPT1CR_TIMCCMP2) /*!< Timer C Compare 2 triggers Capture */ #define HRTIM_CAPTURETRIGGER_TD1_SET (HRTIM_CPT1CR_TD1SET) /*!< Capture is triggered by TD1 output inactive to active transition */ #define HRTIM_CAPTURETRIGGER_TD1_RESET (HRTIM_CPT1CR_TD1RST) /*!< Capture is triggered by TD1 output active to inactive transition */ #define HRTIM_CAPTURETRIGGER_TIMERD_CMP1 (HRTIM_CPT1CR_TIMDCMP1) /*!< Timer D Compare 1 triggers Capture */ #define HRTIM_CAPTURETRIGGER_TIMERD_CMP2 (HRTIM_CPT1CR_TIMDCMP2) /*!< Timer D Compare 2 triggers Capture */ #define HRTIM_CAPTURETRIGGER_TE1_SET (HRTIM_CPT1CR_TE1SET) /*!< Capture is triggered by TE1 output inactive to active transition */ #define HRTIM_CAPTURETRIGGER_TE1_RESET (HRTIM_CPT1CR_TE1RST) /*!< Capture is triggered by TE1 output active to inactive transition */ #define HRTIM_CAPTURETRIGGER_TIMERE_CMP1 (HRTIM_CPT1CR_TIMECMP1) /*!< Timer E Compare 1 triggers Capture */ #define HRTIM_CAPTURETRIGGER_TIMERE_CMP2 (HRTIM_CPT1CR_TIMECMP2) /*!< Timer E Compare 2 triggers Capture */ #define IS_HRTIM_TIMER_CAPTURETRIGGER(TIMER, CAPTURETRIGGER) \ (((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_NONE) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_UPDATE) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_EEV_1) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_EEV_2) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_EEV_3) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_EEV_4) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_EEV_5) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_EEV_6) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_EEV_7) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_EEV_8) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_EEV_9) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_EEV_10) \ || \ (((TIMER) == HRTIM_TIMERINDEX_TIMER_A) && \ (((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TB1_SET) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TB1_RESET) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TIMERB_CMP1) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TIMERB_CMP2) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TC1_SET) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TC1_RESET) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TIMERC_CMP1) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TIMERC_CMP2) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TD1_SET) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TD1_RESET) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TIMERD_CMP1) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TIMERD_CMP2) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TE1_SET) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TE1_RESET) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TIMERE_CMP1) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TIMERE_CMP2))) \ || \ (((TIMER) == HRTIM_TIMERINDEX_TIMER_B) && \ (((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TA1_SET) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TA1_RESET) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TIMERA_CMP1) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TIMERA_CMP2) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TC1_SET) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TC1_RESET) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TIMERC_CMP1) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TIMERC_CMP2) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TD1_SET) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TD1_RESET) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TIMERD_CMP1) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TIMERD_CMP2) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TE1_SET) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TE1_RESET) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TIMERE_CMP1) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TIMERE_CMP2))) \ || \ (((TIMER) == HRTIM_TIMERINDEX_TIMER_C) && \ (((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TA1_SET) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TA1_RESET) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TIMERA_CMP1) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TIMERA_CMP2) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TB1_SET) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TB1_RESET) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TIMERB_CMP1) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TIMERB_CMP2) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TD1_SET) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TD1_RESET) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TIMERD_CMP1) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TIMERD_CMP2) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TE1_SET) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TE1_RESET) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TIMERE_CMP1) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TIMERE_CMP2))) \ || \ (((TIMER) == HRTIM_TIMERINDEX_TIMER_D) && \ (((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TA1_SET) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TA1_RESET) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TIMERA_CMP1) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TIMERA_CMP2) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TB1_SET) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TB1_RESET) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TIMERB_CMP1) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TIMERB_CMP2) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TC1_SET) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TC1_RESET) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TIMERC_CMP1) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TIMERC_CMP2) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TE1_SET) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TE1_RESET) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TIMERE_CMP1) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TIMERE_CMP2))) \ || \ (((TIMER) == HRTIM_TIMERINDEX_TIMER_E) && \ (((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TA1_SET) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TA1_RESET) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TIMERA_CMP1) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TIMERA_CMP2) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TB1_SET) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TB1_RESET) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TIMERB_CMP1) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TIMERB_CMP2) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TC1_SET) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TC1_RESET) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TIMERC_CMP1) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TIMERC_CMP2) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TD1_SET) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TD1_RESET) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TIMERD_CMP1) || \ ((CAPTURETRIGGER) == HRTIM_CAPTURETRIGGER_TIMERD_CMP2)))) /** * @} */ /** @defgroup HRTIM_Timer_External_Event_Filter HRTIM Timer External Event Filter * @{ * @brief Constants defining the event filtering apploed to external events * by a timer */ #define HRTIM_TIMEVENTFILTER_NONE (0x00000000) #define HRTIM_TIMEVENTFILTER_BLANKINGCMP1 (HRTIM_EEFR1_EE1FLTR_0) /*!< Blanking from counter reset/roll-over to Compare 1 */ #define HRTIM_TIMEVENTFILTER_BLANKINGCMP2 (HRTIM_EEFR1_EE1FLTR_1) /*!< Blanking from counter reset/roll-over to Compare 2 */ #define HRTIM_TIMEVENTFILTER_BLANKINGCMP3 (HRTIM_EEFR1_EE1FLTR_1 | HRTIM_EEFR1_EE1FLTR_0) /*!< Blanking from counter reset/roll-over to Compare 3 */ #define HRTIM_TIMEVENTFILTER_BLANKINGCMP4 (HRTIM_EEFR1_EE1FLTR_2) /*!< Blanking from counter reset/roll-over to Compare 4 */ #define HRTIM_TIMEVENTFILTER_BLANKINGFLTR1 (HRTIM_EEFR1_EE1FLTR_2 | HRTIM_EEFR1_EE1FLTR_0) /*!< Blanking from another timing unit: TIMFLTR1 source */ #define HRTIM_TIMEVENTFILTER_BLANKINGFLTR2 (HRTIM_EEFR1_EE1FLTR_2 | HRTIM_EEFR1_EE1FLTR_1) /*!< Blanking from another timing unit: TIMFLTR2 source */ #define HRTIM_TIMEVENTFILTER_BLANKINGFLTR3 (HRTIM_EEFR1_EE1FLTR_2 | HRTIM_EEFR1_EE1FLTR_1 | HRTIM_EEFR1_EE1FLTR_0) /*!< Blanking from another timing unit: TIMFLTR3 source */ #define HRTIM_TIMEVENTFILTER_BLANKINGFLTR4 (HRTIM_EEFR1_EE1FLTR_3) /*!< Blanking from another timing unit: TIMFLTR4 source */ #define HRTIM_TIMEVENTFILTER_BLANKINGFLTR5 (HRTIM_EEFR1_EE1FLTR_3 | HRTIM_EEFR1_EE1FLTR_0) /*!< Blanking from another timing unit: TIMFLTR5 source */ #define HRTIM_TIMEVENTFILTER_BLANKINGFLTR6 (HRTIM_EEFR1_EE1FLTR_3 | HRTIM_EEFR1_EE1FLTR_1) /*!< Blanking from another timing unit: TIMFLTR6 source */ #define HRTIM_TIMEVENTFILTER_BLANKINGFLTR7 (HRTIM_EEFR1_EE1FLTR_3 | HRTIM_EEFR1_EE1FLTR_1 | HRTIM_EEFR1_EE1FLTR_0) /*!< Blanking from another timing unit: TIMFLTR7 source */ #define HRTIM_TIMEVENTFILTER_BLANKINGFLTR8 (HRTIM_EEFR1_EE1FLTR_3 | HRTIM_EEFR1_EE1FLTR_2) /*!< Blanking from another timing unit: TIMFLTR8 source */ #define HRTIM_TIMEVENTFILTER_WINDOWINGCMP2 (HRTIM_EEFR1_EE1FLTR_3 | HRTIM_EEFR1_EE1FLTR_2 | HRTIM_EEFR1_EE1FLTR_0) /*!< Windowing from counter reset/roll-over to Compare 2 */ #define HRTIM_TIMEVENTFILTER_WINDOWINGCMP3 (HRTIM_EEFR1_EE1FLTR_3 | HRTIM_EEFR1_EE1FLTR_2 | HRTIM_EEFR1_EE1FLTR_1) /*!< Windowing from counter reset/roll-over to Compare 3 */ #define HRTIM_TIMEVENTFILTER_WINDOWINGTIM (HRTIM_EEFR1_EE1FLTR_3 | HRTIM_EEFR1_EE1FLTR_2 | HRTIM_EEFR1_EE1FLTR_1 | HRTIM_EEFR1_EE1FLTR_3 | HRTIM_EEFR1_EE1FLTR_2 | HRTIM_EEFR1_EE1FLTR_0) /*!< Windowing from another timing unit: TIMWIN source */ #define IS_HRTIM_TIMEVENTFILTER(TIMEVENTFILTER)\ (((TIMEVENTFILTER) == HRTIM_TIMEVENTFILTER_NONE) || \ ((TIMEVENTFILTER) == HRTIM_TIMEVENTFILTER_BLANKINGCMP1) || \ ((TIMEVENTFILTER) == HRTIM_TIMEVENTFILTER_BLANKINGCMP2) || \ ((TIMEVENTFILTER) == HRTIM_TIMEVENTFILTER_BLANKINGCMP3) || \ ((TIMEVENTFILTER) == HRTIM_TIMEVENTFILTER_BLANKINGCMP4) || \ ((TIMEVENTFILTER) == HRTIM_TIMEVENTFILTER_BLANKINGFLTR1) || \ ((TIMEVENTFILTER) == HRTIM_TIMEVENTFILTER_BLANKINGFLTR2) || \ ((TIMEVENTFILTER) == HRTIM_TIMEVENTFILTER_BLANKINGFLTR3) || \ ((TIMEVENTFILTER) == HRTIM_TIMEVENTFILTER_BLANKINGFLTR4) || \ ((TIMEVENTFILTER) == HRTIM_TIMEVENTFILTER_BLANKINGFLTR5) || \ ((TIMEVENTFILTER) == HRTIM_TIMEVENTFILTER_BLANKINGFLTR6) || \ ((TIMEVENTFILTER) == HRTIM_TIMEVENTFILTER_BLANKINGFLTR7) || \ ((TIMEVENTFILTER) == HRTIM_TIMEVENTFILTER_BLANKINGFLTR8) || \ ((TIMEVENTFILTER) == HRTIM_TIMEVENTFILTER_WINDOWINGCMP2) || \ ((TIMEVENTFILTER) == HRTIM_TIMEVENTFILTER_WINDOWINGCMP3) || \ ((TIMEVENTFILTER) == HRTIM_TIMEVENTFILTER_WINDOWINGTIM)) /** * @} */ /** @defgroup HRTIM_Timer_External_Event_Latch HRTIM Timer External Event Latch * @{ * @brief Constants defining whether or not the external event is * memorized (latched) and generated as soon as the blanking period * is completed or the window ends */ #define HRTIM_TIMEVENTLATCH_DISABLED ((uint32_t)0x00000000) /*!< Event is ignored if it happens during a blank, or passed through during a window */ #define HRTIM_TIMEVENTLATCH_ENABLED HRTIM_EEFR1_EE1LTCH /*!< Event is latched and delayed till the end of the blanking or windowing period */ #define IS_HRTIM_TIMEVENTLATCH(TIMEVENTLATCH)\ (((TIMEVENTLATCH) == HRTIM_TIMEVENTLATCH_DISABLED) || \ ((TIMEVENTLATCH) == HRTIM_TIMEVENTLATCH_ENABLED)) /** * @} */ /** @defgroup HRTIM_Deadtime_Prescaler_Ratio HRTIM Deadtime Prescaler Ratio * @{ * @brief Constants defining division ratio between the timer clock frequency * (fHRTIM) and the deadtime generator clock (fDTG) */ #define HRTIM_TIMDEADTIME_PRESCALERRATIO_MUL8 ((uint32_t)0x00000000) /*!< fDTG = fHRTIM * 8 */ #define HRTIM_TIMDEADTIME_PRESCALERRATIO_MUL4 (HRTIM_DTR_DTPRSC_0) /*!< fDTG = fHRTIM * 4 */ #define HRTIM_TIMDEADTIME_PRESCALERRATIO_MUL2 (HRTIM_DTR_DTPRSC_1) /*!< fDTG = fHRTIM * 2 */ #define HRTIM_TIMDEADTIME_PRESCALERRATIO_DIV1 (HRTIM_DTR_DTPRSC_1 | HRTIM_DTR_DTPRSC_0) /*!< fDTG = fHRTIM */ #define HRTIM_TIMDEADTIME_PRESCALERRATIO_DIV2 (HRTIM_DTR_DTPRSC_2) /*!< fDTG = fHRTIM / 2 */ #define HRTIM_TIMDEADTIME_PRESCALERRATIO_DIV4 (HRTIM_DTR_DTPRSC_2 | HRTIM_DTR_DTPRSC_0) /*!< fDTG = fHRTIM / 4 */ #define HRTIM_TIMDEADTIME_PRESCALERRATIO_DIV8 (HRTIM_DTR_DTPRSC_2 | HRTIM_DTR_DTPRSC_1) /*!< fDTG = fHRTIM / 8 */ #define HRTIM_TIMDEADTIME_PRESCALERRATIO_DIV16 (HRTIM_DTR_DTPRSC_2 | HRTIM_DTR_DTPRSC_1 | HRTIM_DTR_DTPRSC_0) /*!< fDTG = fHRTIM / 16 */ #define IS_HRTIM_TIMDEADTIME_PRESCALERRATIO(PRESCALERRATIO)\ (((PRESCALERRATIO) == HRTIM_TIMDEADTIME_PRESCALERRATIO_MUL8) || \ ((PRESCALERRATIO) == HRTIM_TIMDEADTIME_PRESCALERRATIO_MUL4) || \ ((PRESCALERRATIO) == HRTIM_TIMDEADTIME_PRESCALERRATIO_MUL2) || \ ((PRESCALERRATIO) == HRTIM_TIMDEADTIME_PRESCALERRATIO_DIV1) || \ ((PRESCALERRATIO) == HRTIM_TIMDEADTIME_PRESCALERRATIO_DIV2) || \ ((PRESCALERRATIO) == HRTIM_TIMDEADTIME_PRESCALERRATIO_DIV4) || \ ((PRESCALERRATIO) == HRTIM_TIMDEADTIME_PRESCALERRATIO_DIV8) || \ ((PRESCALERRATIO) == HRTIM_TIMDEADTIME_PRESCALERRATIO_DIV16)) /** * @} */ /** @defgroup HRTIM_Deadtime_Rising_Sign HRTIM Deadtime Rising Sign * @{ * @brief Constants defining whether the deadtime is positive or negative * (overlapping signal) on rising edge */ #define HRTIM_TIMDEADTIME_RISINGSIGN_POSITIVE ((uint32_t)0x00000000) /*!< Positive deadtime on rising edge */ #define HRTIM_TIMDEADTIME_RISINGSIGN_NEGATIVE (HRTIM_DTR_SDTR) /*!< Negative deadtime on rising edge */ #define IS_HRTIM_TIMDEADTIME_RISINGSIGN(RISINGSIGN)\ (((RISINGSIGN) == HRTIM_TIMDEADTIME_RISINGSIGN_POSITIVE) || \ ((RISINGSIGN) == HRTIM_TIMDEADTIME_RISINGSIGN_NEGATIVE)) /** * @} */ /** @defgroup HRTIM_Deadtime_Rising_Lock HRTIM Deadtime Rising Lock * @{ * @brief Constants defining whether or not the deadtime (rising sign and * value) is write protected */ #define HRTIM_TIMDEADTIME_RISINGLOCK_WRITE ((uint32_t)0x00000000) /*!< Deadtime rising value and sign is writable */ #define HRTIM_TIMDEADTIME_RISINGLOCK_READONLY (HRTIM_DTR_DTRLK) /*!< Deadtime rising value and sign is read-only */ #define IS_HRTIM_TIMDEADTIME_RISINGLOCK(RISINGLOCK)\ (((RISINGLOCK) == HRTIM_TIMDEADTIME_RISINGLOCK_WRITE) || \ ((RISINGLOCK) == HRTIM_TIMDEADTIME_RISINGLOCK_READONLY)) /** * @} */ /** @defgroup HRTIM_Deadtime_Rising_Sign_Lock HRTIM Deadtime Rising Sign Lock * @{ * @brief Constants defining whether or not the deadtime rising sign is write * protected */ #define HRTIM_TIMDEADTIME_RISINGSIGNLOCK_WRITE ((uint32_t)0x00000000) /*!< Deadtime rising sign is writable */ #define HRTIM_TIMDEADTIME_RISINGSIGNLOCK_READONLY (HRTIM_DTR_DTRSLK) /*!< Deadtime rising sign is read-only */ #define IS_HRTIM_TIMDEADTIME_RISINGSIGNLOCK(RISINGSIGNLOCK)\ (((RISINGSIGNLOCK) == HRTIM_TIMDEADTIME_RISINGSIGNLOCK_WRITE) || \ ((RISINGSIGNLOCK) == HRTIM_TIMDEADTIME_RISINGSIGNLOCK_READONLY)) /** * @} */ /** @defgroup HRTIM_Deadtime_Falling_Sign HRTIM Deadtime Falling Sign * @{ * @brief Constants defining whether the deadtime is positive or negative * (overlapping signal) on falling edge */ #define HRTIM_TIMDEADTIME_FALLINGSIGN_POSITIVE ((uint32_t)0x00000000) /*!< Positive deadtime on falling edge */ #define HRTIM_TIMDEADTIME_FALLINGSIGN_NEGATIVE (HRTIM_DTR_SDTF) /*!< Negative deadtime on falling edge */ #define IS_HRTIM_TIMDEADTIME_FALLINGSIGN(FALLINGSIGN)\ (((FALLINGSIGN) == HRTIM_TIMDEADTIME_FALLINGSIGN_POSITIVE) || \ ((FALLINGSIGN) == HRTIM_TIMDEADTIME_FALLINGSIGN_NEGATIVE)) /** * @} */ /** @defgroup HRTIM_Deadtime_Falling_Lock HRTIM Deadtime Falling Lock * @{ * @brief Constants defining whether or not the deadtime (falling sign and * value) is write protected */ #define HRTIM_TIMDEADTIME_FALLINGLOCK_WRITE ((uint32_t)0x00000000) /*!< Deadtime falling value and sign is writable */ #define HRTIM_TIMDEADTIME_FALLINGLOCK_READONLY (HRTIM_DTR_DTFLK) /*!< Deadtime falling value and sign is read-only */ #define IS_HRTIM_TIMDEADTIME_FALLINGLOCK(FALLINGLOCK)\ (((FALLINGLOCK) == HRTIM_TIMDEADTIME_FALLINGLOCK_WRITE) || \ ((FALLINGLOCK) == HRTIM_TIMDEADTIME_FALLINGLOCK_READONLY)) /** * @} */ /** @defgroup HRTIM_Deadtime_Falling_Sign_Lock HRTIM Deadtime Falling Sign Lock * @{ * @brief Constants defining whether or not the deadtime falling sign is write * protected */ #define HRTIM_TIMDEADTIME_FALLINGSIGNLOCK_WRITE ((uint32_t)0x00000000) /*!< Deadtime falling sign is writable */ #define HRTIM_TIMDEADTIME_FALLINGSIGNLOCK_READONLY (HRTIM_DTR_DTFSLK) /*!< Deadtime falling sign is read-only */ #define IS_HRTIM_TIMDEADTIME_FALLINGSIGNLOCK(FALLINGSIGNLOCK)\ (((FALLINGSIGNLOCK) == HRTIM_TIMDEADTIME_FALLINGSIGNLOCK_WRITE) || \ ((FALLINGSIGNLOCK) == HRTIM_TIMDEADTIME_FALLINGSIGNLOCK_READONLY)) /** * @} */ /** @defgroup HRTIM_Chopper_Frequency HRTIM Chopper Frequency * @{ * @brief Constants defining the frequency of the generated high frequency carrier */ #define HRTIM_CHOPPER_PRESCALERRATIO_DIV16 ((uint32_t)0x000000) /*!< fCHPFRQ = fHRTIM / 16 */ #define HRTIM_CHOPPER_PRESCALERRATIO_DIV32 (HRTIM_CHPR_CARFRQ_0) /*!< fCHPFRQ = fHRTIM / 32 */ #define HRTIM_CHOPPER_PRESCALERRATIO_DIV48 (HRTIM_CHPR_CARFRQ_1) /*!< fCHPFRQ = fHRTIM / 48 */ #define HRTIM_CHOPPER_PRESCALERRATIO_DIV64 (HRTIM_CHPR_CARFRQ_1 | HRTIM_CHPR_CARFRQ_0) /*!< fCHPFRQ = fHRTIM / 64 */ #define HRTIM_CHOPPER_PRESCALERRATIO_DIV80 (HRTIM_CHPR_CARFRQ_2) /*!< fCHPFRQ = fHRTIM / 80 */ #define HRTIM_CHOPPER_PRESCALERRATIO_DIV96 (HRTIM_CHPR_CARFRQ_2 | HRTIM_CHPR_CARFRQ_0) /*!< fCHPFRQ = fHRTIM / 96 */ #define HRTIM_CHOPPER_PRESCALERRATIO_DIV112 (HRTIM_CHPR_CARFRQ_2 | HRTIM_CHPR_CARFRQ_1) /*!< fCHPFRQ = fHRTIM / 112 */ #define HRTIM_CHOPPER_PRESCALERRATIO_DIV128 (HRTIM_CHPR_CARFRQ_2 | HRTIM_CHPR_CARFRQ_1 | HRTIM_CHPR_CARFRQ_0) /*!< fCHPFRQ = fHRTIM / 128 */ #define HRTIM_CHOPPER_PRESCALERRATIO_DIV144 (HRTIM_CHPR_CARFRQ_3) /*!< fCHPFRQ = fHRTIM / 144 */ #define HRTIM_CHOPPER_PRESCALERRATIO_DIV160 (HRTIM_CHPR_CARFRQ_3 | HRTIM_CHPR_CARFRQ_0) /*!< fCHPFRQ = fHRTIM / 160 */ #define HRTIM_CHOPPER_PRESCALERRATIO_DIV176 (HRTIM_CHPR_CARFRQ_3 | HRTIM_CHPR_CARFRQ_1) /*!< fCHPFRQ = fHRTIM / 176 */ #define HRTIM_CHOPPER_PRESCALERRATIO_DIV192 (HRTIM_CHPR_CARFRQ_3 | HRTIM_CHPR_CARFRQ_1 | HRTIM_CHPR_CARFRQ_0) /*!< fCHPFRQ = fHRTIM / 192 */ #define HRTIM_CHOPPER_PRESCALERRATIO_DIV208 (HRTIM_CHPR_CARFRQ_3 | HRTIM_CHPR_CARFRQ_2) /*!< fCHPFRQ = fHRTIM / 208 */ #define HRTIM_CHOPPER_PRESCALERRATIO_DIV224 (HRTIM_CHPR_CARFRQ_3 | HRTIM_CHPR_CARFRQ_2 | HRTIM_CHPR_CARFRQ_0) /*!< fCHPFRQ = fHRTIM / 224 */ #define HRTIM_CHOPPER_PRESCALERRATIO_DIV240 (HRTIM_CHPR_CARFRQ_3 | HRTIM_CHPR_CARFRQ_2 | HRTIM_CHPR_CARFRQ_1) /*!< fCHPFRQ = fHRTIM / 240 */ #define HRTIM_CHOPPER_PRESCALERRATIO_DIV256 (HRTIM_CHPR_CARFRQ_3 | HRTIM_CHPR_CARFRQ_2 | HRTIM_CHPR_CARFRQ_1 | HRTIM_CHPR_CARFRQ_0) /*!< fCHPFRQ = fHRTIM / 256 */ #define IS_HRTIM_CHOPPER_PRESCALERRATIO(PRESCALERRATIO)\ (((PRESCALERRATIO) == HRTIM_CHOPPER_PRESCALERRATIO_DIV16) || \ ((PRESCALERRATIO) == HRTIM_CHOPPER_PRESCALERRATIO_DIV32) || \ ((PRESCALERRATIO) == HRTIM_CHOPPER_PRESCALERRATIO_DIV48) || \ ((PRESCALERRATIO) == HRTIM_CHOPPER_PRESCALERRATIO_DIV64) || \ ((PRESCALERRATIO) == HRTIM_CHOPPER_PRESCALERRATIO_DIV80) || \ ((PRESCALERRATIO) == HRTIM_CHOPPER_PRESCALERRATIO_DIV96) || \ ((PRESCALERRATIO) == HRTIM_CHOPPER_PRESCALERRATIO_DIV112) || \ ((PRESCALERRATIO) == HRTIM_CHOPPER_PRESCALERRATIO_DIV128) || \ ((PRESCALERRATIO) == HRTIM_CHOPPER_PRESCALERRATIO_DIV144) || \ ((PRESCALERRATIO) == HRTIM_CHOPPER_PRESCALERRATIO_DIV160) || \ ((PRESCALERRATIO) == HRTIM_CHOPPER_PRESCALERRATIO_DIV176) || \ ((PRESCALERRATIO) == HRTIM_CHOPPER_PRESCALERRATIO_DIV192) || \ ((PRESCALERRATIO) == HRTIM_CHOPPER_PRESCALERRATIO_DIV208) || \ ((PRESCALERRATIO) == HRTIM_CHOPPER_PRESCALERRATIO_DIV224) || \ ((PRESCALERRATIO) == HRTIM_CHOPPER_PRESCALERRATIO_DIV240) || \ ((PRESCALERRATIO) == HRTIM_CHOPPER_PRESCALERRATIO_DIV256)) /** * @} */ /** @defgroup HRTIM_Chopper_Duty_Cycle HRTIM Chopper Duty Cycle * @{ * @brief Constants defining the duty cycle of the generated high frequency carrier * Duty cycle can be adjusted by 1/8 step (from 0/8 up to 7/8) */ #define HRTIM_CHOPPER_DUTYCYCLE_0 ((uint32_t)0x000000) /*!< 0/8 (i.e. only 1st pulse is present) */ /*!< fCHPFRQ = fHRTIM / 16 */ #define HRTIM_CHOPPER_DUTYCYCLE_125 (HRTIM_CHPR_CARDTY_0) /*!< 1/8 (12.5 %)*/ /*!< fCHPFRQ = fHRTIM / 16 */ #define HRTIM_CHOPPER_DUTYCYCLE_250 (HRTIM_CHPR_CARDTY_1) /*!< 2/8 (25 %) */ /*!< fCHPFRQ = fHRTIM / 16 */ #define HRTIM_CHOPPER_DUTYCYCLE_375 (HRTIM_CHPR_CARDTY_1 | HRTIM_CHPR_CARDTY_0) /*!< 3/8 (37.5 %) */ /*!< fCHPFRQ = fHRTIM / 16 */ #define HRTIM_CHOPPER_DUTYCYCLE_500 (HRTIM_CHPR_CARDTY_2) /*!< 4/8 (50 %) */ /*!< fCHPFRQ = fHRTIM / 16 */ #define HRTIM_CHOPPER_DUTYCYCLE_625 (HRTIM_CHPR_CARDTY_2 | HRTIM_CHPR_CARDTY_0) /*!< 5/8 (62.5 %) */ /*!< fCHPFRQ = fHRTIM / 16 */ #define HRTIM_CHOPPER_DUTYCYCLE_750 (HRTIM_CHPR_CARDTY_2 | HRTIM_CHPR_CARDTY_1) /*!< 6/8 (75 %) */ /*!< fCHPFRQ = fHRTIM / 16 */ #define HRTIM_CHOPPER_DUTYCYCLE_875 (HRTIM_CHPR_CARDTY_2 | HRTIM_CHPR_CARDTY_1 | HRTIM_CHPR_CARDTY_0) /*!< 7/8 (87.5 %) */ /*!< fCHPFRQ = fHRTIM / 16 */ #define IS_HRTIM_CHOPPER_DUTYCYCLE(DUTYCYCLE)\ (((DUTYCYCLE) == HRTIM_CHOPPER_DUTYCYCLE_0) || \ ((DUTYCYCLE) == HRTIM_CHOPPER_DUTYCYCLE_125) || \ ((DUTYCYCLE) == HRTIM_CHOPPER_DUTYCYCLE_250) || \ ((DUTYCYCLE) == HRTIM_CHOPPER_DUTYCYCLE_375) || \ ((DUTYCYCLE) == HRTIM_CHOPPER_DUTYCYCLE_500) || \ ((DUTYCYCLE) == HRTIM_CHOPPER_DUTYCYCLE_625) || \ ((DUTYCYCLE) == HRTIM_CHOPPER_DUTYCYCLE_750) || \ ((DUTYCYCLE) == HRTIM_CHOPPER_DUTYCYCLE_875)) /** * @} */ /** @defgroup HRTIM_Chopper_Start_Pulse_Width HRTIM Chopper Start Pulse Width * @{ * @brief Constants defining the pulse width of the first pulse of the generated * high frequency carrier */ #define HRTIM_CHOPPER_PULSEWIDTH_16 ((uint32_t)0x000000) /*!< tSTPW = tHRTIM x 16 */ #define HRTIM_CHOPPER_PULSEWIDTH_32 (HRTIM_CHPR_STRPW_0) /*!< tSTPW = tHRTIM x 32 */ #define HRTIM_CHOPPER_PULSEWIDTH_48 (HRTIM_CHPR_STRPW_1) /*!< tSTPW = tHRTIM x 48 */ #define HRTIM_CHOPPER_PULSEWIDTH_64 (HRTIM_CHPR_STRPW_1 | HRTIM_CHPR_STRPW_0) /*!< tSTPW = tHRTIM x 64 */ #define HRTIM_CHOPPER_PULSEWIDTH_80 (HRTIM_CHPR_STRPW_2) /*!< tSTPW = tHRTIM x 80 */ #define HRTIM_CHOPPER_PULSEWIDTH_96 (HRTIM_CHPR_STRPW_2 | HRTIM_CHPR_STRPW_0) /*!< tSTPW = tHRTIM x 96 */ #define HRTIM_CHOPPER_PULSEWIDTH_112 (HRTIM_CHPR_STRPW_2 | HRTIM_CHPR_STRPW_1) /*!< tSTPW = tHRTIM x 112 */ #define HRTIM_CHOPPER_PULSEWIDTH_128 (HRTIM_CHPR_STRPW_2 | HRTIM_CHPR_STRPW_1 | HRTIM_CHPR_STRPW_0) /*!< tSTPW = tHRTIM x 128 */ #define HRTIM_CHOPPER_PULSEWIDTH_144 (HRTIM_CHPR_STRPW_3) /*!< tSTPW = tHRTIM x 144 */ #define HRTIM_CHOPPER_PULSEWIDTH_160 (HRTIM_CHPR_STRPW_3 | HRTIM_CHPR_STRPW_0) /*!< tSTPW = tHRTIM x 160 */ #define HRTIM_CHOPPER_PULSEWIDTH_176 (HRTIM_CHPR_STRPW_3 | HRTIM_CHPR_STRPW_1) /*!< tSTPW = tHRTIM x 176 */ #define HRTIM_CHOPPER_PULSEWIDTH_192 (HRTIM_CHPR_STRPW_3 | HRTIM_CHPR_STRPW_1 | HRTIM_CHPR_STRPW_0) /*!< tSTPW = tHRTIM x 192 */ #define HRTIM_CHOPPER_PULSEWIDTH_208 (HRTIM_CHPR_STRPW_3 | HRTIM_CHPR_STRPW_2) /*!< tSTPW = tHRTIM x 208 */ #define HRTIM_CHOPPER_PULSEWIDTH_224 (HRTIM_CHPR_STRPW_3 | HRTIM_CHPR_STRPW_2 | HRTIM_CHPR_STRPW_0) /*!< tSTPW = tHRTIM x 224 */ #define HRTIM_CHOPPER_PULSEWIDTH_240 (HRTIM_CHPR_STRPW_3 | HRTIM_CHPR_STRPW_2 | HRTIM_CHPR_STRPW_1) /*!< tSTPW = tHRTIM x 240 */ #define HRTIM_CHOPPER_PULSEWIDTH_256 (HRTIM_CHPR_STRPW_3 | HRTIM_CHPR_STRPW_2 | HRTIM_CHPR_STRPW_1 | HRTIM_CHPR_STRPW_0) /*!< tSTPW = tHRTIM x 256 */ #define IS_HRTIM_CHOPPER_PULSEWIDTH(PULSEWIDTH)\ (((PULSEWIDTH) == HRTIM_CHOPPER_PULSEWIDTH_16) || \ ((PULSEWIDTH) == HRTIM_CHOPPER_PULSEWIDTH_32) || \ ((PULSEWIDTH) == HRTIM_CHOPPER_PULSEWIDTH_48) || \ ((PULSEWIDTH) == HRTIM_CHOPPER_PULSEWIDTH_64) || \ ((PULSEWIDTH) == HRTIM_CHOPPER_PULSEWIDTH_80) || \ ((PULSEWIDTH) == HRTIM_CHOPPER_PULSEWIDTH_96) || \ ((PULSEWIDTH) == HRTIM_CHOPPER_PULSEWIDTH_112) || \ ((PULSEWIDTH) == HRTIM_CHOPPER_PULSEWIDTH_128) || \ ((PULSEWIDTH) == HRTIM_CHOPPER_PULSEWIDTH_144) || \ ((PULSEWIDTH) == HRTIM_CHOPPER_PULSEWIDTH_160) || \ ((PULSEWIDTH) == HRTIM_CHOPPER_PULSEWIDTH_176) || \ ((PULSEWIDTH) == HRTIM_CHOPPER_PULSEWIDTH_192) || \ ((PULSEWIDTH) == HRTIM_CHOPPER_PULSEWIDTH_208) || \ ((PULSEWIDTH) == HRTIM_CHOPPER_PULSEWIDTH_224) || \ ((PULSEWIDTH) == HRTIM_CHOPPER_PULSEWIDTH_240) || \ ((PULSEWIDTH) == HRTIM_CHOPPER_PULSEWIDTH_256)) /** * @} */ /** @defgroup HRTIM_Synchronization_Options HRTIM Synchronization Options * @{ * @brief Constants defining the options for synchronizing multiple HRTIM * instances, as a master unit (generating a synchronization signal) * or as a slave (waiting for a trigger to be synchronized) */ #define HRTIM_SYNCOPTION_NONE (uint32_t)0x00000000 /*!< HRTIM instance doesn't handle external synchronization signals (SYNCIN, SYNCOUT) */ #define HRTIM_SYNCOPTION_MASTER (uint32_t)0x00000001 /*!< HRTIM instance acts as a MASTER, i.e. generates external synchronization output (SYNCOUT)*/ #define HRTIM_SYNCOPTION_SLAVE (uint32_t)0x00000002 /*!< HRTIM instance acts as a SLAVE, i.e. it is synchronized by external sources (SYNCIN) */ /** * @} */ /** @defgroup HRTIM_Synchronization_Input_Source HRTIM Synchronization Input Source * @{ * @brief Constants defining defining the synchronization input source */ #define HRTIM_SYNCINPUTSOURCE_NONE (uint32_t)0x00000000 /*!< disabled. HRTIM is not synchronized and runs in standalone mode */ #define HRTIM_SYNCINPUTSOURCE_INTERNALEVENT HRTIM_MCR_SYNC_IN_1 /*!< The HRTIM is synchronized with the on-chip timer */ #define HRTIM_SYNCINPUTSOURCE_EXTERNALEVENT (HRTIM_MCR_SYNC_IN_1 | HRTIM_MCR_SYNC_IN_0) /*!< A positive pulse on SYNCIN input triggers the HRTIM */ #define IS_HRTIM_SYNCINPUTSOURCE(SYNCINPUTSOURCE)\ (((SYNCINPUTSOURCE) == HRTIM_SYNCINPUTSOURCE_NONE) || \ ((SYNCINPUTSOURCE) == HRTIM_SYNCINPUTSOURCE_INTERNALEVENT) || \ ((SYNCINPUTSOURCE) == HRTIM_SYNCINPUTSOURCE_EXTERNALEVENT)) /** * @} */ /** @defgroup HRTIM_Synchronization_Output_Source HRTIM Synchronization Output Source * @{ * @brief Constants defining the source and event to be sent on the * synchronization outputs */ #define HRTIM_SYNCOUTPUTSOURCE_MASTER_START (uint32_t)0x00000000 /*!< A pulse is sent on the SYNCOUT output (16x fHRTIM clock cycles) upon master timer start event */ #define HRTIM_SYNCOUTPUTSOURCE_MASTER_CMP1 (HRTIM_MCR_SYNC_SRC_0) /*!< A pulse is sent on the SYNCOUT output (16x fHRTIM clock cycles) upon master timer compare 1 event*/ #define HRTIM_SYNCOUTPUTSOURCE_TIMA_START (HRTIM_MCR_SYNC_SRC_1) /*!< A pulse is sent on the SYNCOUT output (16x fHRTIM clock cycles) upon timer A start or reset events */ #define HRTIM_SYNCOUTPUTSOURCE_TIMA_CMP1 (HRTIM_MCR_SYNC_SRC_1 | HRTIM_MCR_SYNC_SRC_0) /*!< A pulse is sent on the SYNCOUT output (16x fHRTIM clock cycles) upon timer A compare 1 event */ #define IS_HRTIM_SYNCOUTPUTSOURCE(SYNCOUTPUTSOURCE)\ (((SYNCOUTPUTSOURCE) == HRTIM_SYNCOUTPUTSOURCE_MASTER_START) || \ ((SYNCOUTPUTSOURCE) == HRTIM_SYNCOUTPUTSOURCE_MASTER_CMP1) || \ ((SYNCOUTPUTSOURCE) == HRTIM_SYNCOUTPUTSOURCE_TIMA_START) || \ ((SYNCOUTPUTSOURCE) == HRTIM_SYNCOUTPUTSOURCE_TIMA_CMP1)) /** * @} */ /** @defgroup HRTIM_Synchronization_Output_Polarity HRTIM Synchronization Output Polarity * @{ * @brief Constants defining the routing and conditioning of the synchronization output event */ #define HRTIM_SYNCOUTPUTPOLARITY_NONE (uint32_t)0x00000000 /*!< Synchronization output event is disabled */ #define HRTIM_SYNCOUTPUTPOLARITY_POSITIVE (HRTIM_MCR_SYNC_OUT_1) /*!< Positive pulse on SCOUT output (16x fHRTIM clock cycles) */ #define HRTIM_SYNCOUTPUTPOLARITY_NEGATIVE (HRTIM_MCR_SYNC_OUT_1 | HRTIM_MCR_SYNC_OUT_0) /*!< Positive pulse on SCOUT output (16x fHRTIM clock cycles) */ #define IS_HRTIM_SYNCOUTPUTPOLARITY(SYNCOUTPUTPOLARITY)\ (((SYNCOUTPUTPOLARITY) == HRTIM_SYNCOUTPUTPOLARITY_NONE) || \ ((SYNCOUTPUTPOLARITY) == HRTIM_SYNCOUTPUTPOLARITY_POSITIVE) || \ ((SYNCOUTPUTPOLARITY) == HRTIM_SYNCOUTPUTPOLARITY_NEGATIVE)) /** * @} */ /** @defgroup HRTIM_External_Event_Sources HRTIM External Event Sources * @{ * @brief Constants defining available sources associated to external events */ #define HRTIM_EVENTSRC_1 ((uint32_t)0x00000000) /*!< External event source 1 */ #define HRTIM_EVENTSRC_2 (HRTIM_EECR1_EE1SRC_0) /*!< External event source 2 */ #define HRTIM_EVENTSRC_3 (HRTIM_EECR1_EE1SRC_1) /*!< External event source 3 */ #define HRTIM_EVENTSRC_4 (HRTIM_EECR1_EE1SRC_1 | HRTIM_EECR1_EE1SRC_0) /*!< External event source 4 */ #define IS_HRTIM_EVENTSRC(EVENTSRC)\ (((EVENTSRC) == HRTIM_EVENTSRC_1) || \ ((EVENTSRC) == HRTIM_EVENTSRC_2) || \ ((EVENTSRC) == HRTIM_EVENTSRC_3) || \ ((EVENTSRC) == HRTIM_EVENTSRC_4)) /** * @} */ /** @defgroup HRTIM_External_Event_Polarity HRTIM External Event Polarity * @{ * @brief Constants defining the polarity of an external event */ #define HRTIM_EVENTPOLARITY_HIGH ((uint32_t)0x00000000) /*!< External event is active high */ #define HRTIM_EVENTPOLARITY_LOW (HRTIM_EECR1_EE1POL) /*!< External event is active low */ #define IS_HRTIM_EVENTPOLARITY(EVENTSENSITIVITY, EVENTPOLARITY)\ ((((EVENTSENSITIVITY) == HRTIM_EVENTSENSITIVITY_LEVEL) && \ (((EVENTPOLARITY) == HRTIM_EVENTPOLARITY_HIGH) || \ ((EVENTPOLARITY) == HRTIM_EVENTPOLARITY_LOW))) \ || \ (((EVENTSENSITIVITY) == HRTIM_EVENTSENSITIVITY_RISINGEDGE) || \ ((EVENTSENSITIVITY) == HRTIM_EVENTSENSITIVITY_FALLINGEDGE)|| \ ((EVENTSENSITIVITY) == HRTIM_EVENTSENSITIVITY_BOTHEDGES))) /** * @} */ /** @defgroup HRTIM_External_Event_Sensitivity HRTIM External Event Sensitivity * @{ * @brief Constants defining the sensitivity (level-sensitive or edge-sensitive) * of an external event */ #define HRTIM_EVENTSENSITIVITY_LEVEL ((uint32_t)0x00000000) /*!< External event is active on level */ #define HRTIM_EVENTSENSITIVITY_RISINGEDGE (HRTIM_EECR1_EE1SNS_0) /*!< External event is active on Rising edge */ #define HRTIM_EVENTSENSITIVITY_FALLINGEDGE (HRTIM_EECR1_EE1SNS_1) /*!< External event is active on Falling edge */ #define HRTIM_EVENTSENSITIVITY_BOTHEDGES (HRTIM_EECR1_EE1SNS_1 | HRTIM_EECR1_EE1SNS_0) /*!< External event is active on Rising and Falling edges */ #define IS_HRTIM_EVENTSENSITIVITY(EVENTSENSITIVITY)\ (((EVENTSENSITIVITY) == HRTIM_EVENTSENSITIVITY_LEVEL) || \ ((EVENTSENSITIVITY) == HRTIM_EVENTSENSITIVITY_RISINGEDGE) || \ ((EVENTSENSITIVITY) == HRTIM_EVENTSENSITIVITY_FALLINGEDGE) || \ ((EVENTSENSITIVITY) == HRTIM_EVENTSENSITIVITY_BOTHEDGES)) /** * @} */ /** @defgroup HRTIM_External_Event_Fast_Mode HRTIM External Event Fast Mode * @{ * @brief Constants defining whether or not an external event is programmed in fast mode */ #define HRTIM_EVENTFASTMODE_DISABLE ((uint32_t)0x00000000) /*!< External Event is acting asynchronously on outputs (low latency mode) */ #define HRTIM_EVENTFASTMODE_ENABLE (HRTIM_EECR1_EE1FAST) /*!< External Event is re-synchronized by the HRTIM logic before acting on outputs */ #define IS_HRTIM_EVENTFASTMODE(EVENT, FASTMODE)\ (((((EVENT) == HRTIM_EVENT_1) || \ ((EVENT) == HRTIM_EVENT_2) || \ ((EVENT) == HRTIM_EVENT_3) || \ ((EVENT) == HRTIM_EVENT_4) || \ ((EVENT) == HRTIM_EVENT_5)) && \ (((FASTMODE) == HRTIM_EVENTFASTMODE_ENABLE) || \ ((FASTMODE) == HRTIM_EVENTFASTMODE_DISABLE))) \ || \ (((EVENT) == HRTIM_EVENT_6) || \ ((EVENT) == HRTIM_EVENT_7) || \ ((EVENT) == HRTIM_EVENT_8) || \ ((EVENT) == HRTIM_EVENT_9) || \ ((EVENT) == HRTIM_EVENT_10))) /** * @} */ /** @defgroup HRTIM_External_Event_Filter HRTIM External Event Filter * @{ * @brief Constants defining the frequency used to sample an external event 6 * input and the length (N) of the digital filter applied */ #define HRTIM_EVENTFILTER_NONE ((uint32_t)0x00000000) /*!< Filter disabled */ #define HRTIM_EVENTFILTER_1 (HRTIM_EECR3_EE6F_0) /*!< fSAMPLING= fHRTIM, N=2 */ #define HRTIM_EVENTFILTER_2 (HRTIM_EECR3_EE6F_1) /*!< fSAMPLING= fHRTIM, N=4 */ #define HRTIM_EVENTFILTER_3 (HRTIM_EECR3_EE6F_1 | HRTIM_EECR3_EE6F_0) /*!< fSAMPLING= fHRTIM, N=8 */ #define HRTIM_EVENTFILTER_4 (HRTIM_EECR3_EE6F_2) /*!< fSAMPLING= fEEVS/2, N=6 */ #define HRTIM_EVENTFILTER_5 (HRTIM_EECR3_EE6F_2 | HRTIM_EECR3_EE6F_0) /*!< fSAMPLING= fEEVS/2, N=8 */ #define HRTIM_EVENTFILTER_6 (HRTIM_EECR3_EE6F_2 | HRTIM_EECR3_EE6F_1) /*!< fSAMPLING= fEEVS/4, N=6 */ #define HRTIM_EVENTFILTER_7 (HRTIM_EECR3_EE6F_2 | HRTIM_EECR3_EE6F_1 | HRTIM_EECR3_EE6F_0) /*!< fSAMPLING= fEEVS/4, N=8 */ #define HRTIM_EVENTFILTER_8 (HRTIM_EECR3_EE6F_3) /*!< fSAMPLING= fEEVS/8, N=6 */ #define HRTIM_EVENTFILTER_9 (HRTIM_EECR3_EE6F_3 | HRTIM_EECR3_EE6F_0) /*!< fSAMPLING= fEEVS/8, N=8 */ #define HRTIM_EVENTFILTER_10 (HRTIM_EECR3_EE6F_3 | HRTIM_EECR3_EE6F_1) /*!< fSAMPLING= fEEVS/16, N=5 */ #define HRTIM_EVENTFILTER_11 (HRTIM_EECR3_EE6F_3 | HRTIM_EECR3_EE6F_1 | HRTIM_EECR3_EE6F_0) /*!< fSAMPLING= fEEVS/16, N=6 */ #define HRTIM_EVENTFILTER_12 (HRTIM_EECR3_EE6F_3 | HRTIM_EECR3_EE6F_2) /*!< fSAMPLING= fEEVS/16, N=8 */ #define HRTIM_EVENTFILTER_13 (HRTIM_EECR3_EE6F_3 | HRTIM_EECR3_EE6F_2 | HRTIM_EECR3_EE6F_0) /*!< fSAMPLING= fEEVS/32, N=5 */ #define HRTIM_EVENTFILTER_14 (HRTIM_EECR3_EE6F_3 | HRTIM_EECR3_EE6F_2 | HRTIM_EECR3_EE6F_1) /*!< fSAMPLING= fEEVS/32, N=6 */ #define HRTIM_EVENTFILTER_15 (HRTIM_EECR3_EE6F_3 | HRTIM_EECR3_EE6F_2 | HRTIM_EECR3_EE6F_1 | HRTIM_EECR3_EE6F_0) /*!< fSAMPLING= fEEVS/32, N=8 */ #define IS_HRTIM_EVENTFILTER(EVENT, FILTER)\ ((((EVENT) == HRTIM_EVENT_1) || \ ((EVENT) == HRTIM_EVENT_2) || \ ((EVENT) == HRTIM_EVENT_3) || \ ((EVENT) == HRTIM_EVENT_4) || \ ((EVENT) == HRTIM_EVENT_5)) \ || \ ((((EVENT) == HRTIM_EVENT_6) || \ ((EVENT) == HRTIM_EVENT_7) || \ ((EVENT) == HRTIM_EVENT_8) || \ ((EVENT) == HRTIM_EVENT_9) || \ ((EVENT) == HRTIM_EVENT_10)) && \ (((FILTER) == HRTIM_EVENTFILTER_NONE) || \ ((FILTER) == HRTIM_EVENTFILTER_1) || \ ((FILTER) == HRTIM_EVENTFILTER_2) || \ ((FILTER) == HRTIM_EVENTFILTER_3) || \ ((FILTER) == HRTIM_EVENTFILTER_4) || \ ((FILTER) == HRTIM_EVENTFILTER_5) || \ ((FILTER) == HRTIM_EVENTFILTER_6) || \ ((FILTER) == HRTIM_EVENTFILTER_7) || \ ((FILTER) == HRTIM_EVENTFILTER_8) || \ ((FILTER) == HRTIM_EVENTFILTER_9) || \ ((FILTER) == HRTIM_EVENTFILTER_10) || \ ((FILTER) == HRTIM_EVENTFILTER_11) || \ ((FILTER) == HRTIM_EVENTFILTER_12) || \ ((FILTER) == HRTIM_EVENTFILTER_13) || \ ((FILTER) == HRTIM_EVENTFILTER_14) || \ ((FILTER) == HRTIM_EVENTFILTER_15)))) /** * @} */ /** @defgroup HRTIM_External_Event_Prescaler HRTIM External Event Prescaler * @{ * @brief Constants defining division ratio between the timer clock frequency * fHRTIM) and the external event signal sampling clock (fEEVS) * used by the digital filters */ #define HRTIM_EVENTPRESCALER_DIV1 ((uint32_t)0x00000000) /*!< fEEVS=fHRTIM */ #define HRTIM_EVENTPRESCALER_DIV2 (HRTIM_EECR3_EEVSD_0) /*!< fEEVS=fHRTIM / 2 */ #define HRTIM_EVENTPRESCALER_DIV4 (HRTIM_EECR3_EEVSD_1) /*!< fEEVS=fHRTIM / 4 */ #define HRTIM_EVENTPRESCALER_DIV8 (HRTIM_EECR3_EEVSD_1 | HRTIM_EECR3_EEVSD_0) /*!< fEEVS=fHRTIM / 8 */ #define IS_HRTIM_EVENTPRESCALER(EVENTPRESCALER)\ (((EVENTPRESCALER) == HRTIM_EVENTPRESCALER_DIV1) || \ ((EVENTPRESCALER) == HRTIM_EVENTPRESCALER_DIV2) || \ ((EVENTPRESCALER) == HRTIM_EVENTPRESCALER_DIV4) || \ ((EVENTPRESCALER) == HRTIM_EVENTPRESCALER_DIV8)) /** * @} */ /** @defgroup HRTIM_Fault_Sources HRTIM Fault Sources * @{ * @brief Constants defining whether a faults is be triggered by any external * or internal fault source */ #define HRTIM_FAULTSOURCE_DIGITALINPUT ((uint32_t)0x00000000) /*!< Fault input is FLT input pin */ #define HRTIM_FAULTSOURCE_INTERNAL (HRTIM_FLTINR1_FLT1SRC) /*!< Fault input is FLT_Int signal (e.g. internal comparator) */ #define IS_HRTIM_FAULTSOURCE(FAULTSOURCE)\ (((FAULTSOURCE) == HRTIM_FAULTSOURCE_DIGITALINPUT) || \ ((FAULTSOURCE) == HRTIM_FAULTSOURCE_INTERNAL)) /** * @} */ /** @defgroup HRTIM_Fault_Polarity HRTIM Fault Polarity * @{ * @brief Constants defining the polarity of a fault event */ #define HRTIM_FAULTPOLARITY_LOW ((uint32_t)0x00000000) /*!< Fault input is active low */ #define HRTIM_FAULTPOLARITY_HIGH (HRTIM_FLTINR1_FLT1P) /*!< Fault input is active high */ #define IS_HRTIM_FAULTPOLARITY(HRTIM_FAULTPOLARITY)\ (((HRTIM_FAULTPOLARITY) == HRTIM_FAULTPOLARITY_LOW) || \ ((HRTIM_FAULTPOLARITY) == HRTIM_FAULTPOLARITY_HIGH)) /** * @} */ /** @defgroup HRTIM_Fault_Filter HRTIM Fault Filter * @{ * @ brief Constants defining the frequency used to sample the fault input and * the length (N) of the digital filter applied */ #define HRTIM_FAULTFILTER_NONE ((uint32_t)0x00000000) /*!< Filter disabled */ #define HRTIM_FAULTFILTER_1 (HRTIM_FLTINR1_FLT1F_0) /*!< fSAMPLING= fHRTIM, N=2 */ #define HRTIM_FAULTFILTER_2 (HRTIM_FLTINR1_FLT1F_1) /*!< fSAMPLING= fHRTIM, N=4 */ #define HRTIM_FAULTFILTER_3 (HRTIM_FLTINR1_FLT1F_1 | HRTIM_FLTINR1_FLT1F_0) /*!< fSAMPLING= fHRTIM, N=8 */ #define HRTIM_FAULTFILTER_4 (HRTIM_FLTINR1_FLT1F_2) /*!< fSAMPLING= fFLTS/2, N=6 */ #define HRTIM_FAULTFILTER_5 (HRTIM_FLTINR1_FLT1F_2 | HRTIM_FLTINR1_FLT1F_0) /*!< fSAMPLING= fFLTS/2, N=8 */ #define HRTIM_FAULTFILTER_6 (HRTIM_FLTINR1_FLT1F_2 | HRTIM_FLTINR1_FLT1F_1) /*!< fSAMPLING= fFLTS/4, N=6 */ #define HRTIM_FAULTFILTER_7 (HRTIM_FLTINR1_FLT1F_2 | HRTIM_FLTINR1_FLT1F_1 | HRTIM_FLTINR1_FLT1F_0) /*!< fSAMPLING= fFLTS/4, N=8 */ #define HRTIM_FAULTFILTER_8 (HRTIM_FLTINR1_FLT1F_3) /*!< fSAMPLING= fFLTS/8, N=6 */ #define HRTIM_FAULTFILTER_9 (HRTIM_FLTINR1_FLT1F_3 | HRTIM_FLTINR1_FLT1F_0) /*!< fSAMPLING= fFLTS/8, N=8 */ #define HRTIM_FAULTFILTER_10 (HRTIM_FLTINR1_FLT1F_3 | HRTIM_FLTINR1_FLT1F_1) /*!< fSAMPLING= fFLTS/16, N=5 */ #define HRTIM_FAULTFILTER_11 (HRTIM_FLTINR1_FLT1F_3 | HRTIM_FLTINR1_FLT1F_1 | HRTIM_FLTINR1_FLT1F_0) /*!< fSAMPLING= fFLTS/16, N=6 */ #define HRTIM_FAULTFILTER_12 (HRTIM_FLTINR1_FLT1F_3 | HRTIM_FLTINR1_FLT1F_2) /*!< fSAMPLING= fFLTS/16, N=8 */ #define HRTIM_FAULTFILTER_13 (HRTIM_FLTINR1_FLT1F_3 | HRTIM_FLTINR1_FLT1F_2 | HRTIM_FLTINR1_FLT1F_0) /*!< fSAMPLING= fFLTS/32, N=5 */ #define HRTIM_FAULTFILTER_14 (HRTIM_FLTINR1_FLT1F_3 | HRTIM_FLTINR1_FLT1F_2 | HRTIM_FLTINR1_FLT1F_1) /*!< fSAMPLING= fFLTS/32, N=6 */ #define HRTIM_FAULTFILTER_15 (HRTIM_FLTINR1_FLT1F_3 | HRTIM_FLTINR1_FLT1F_2 | HRTIM_FLTINR1_FLT1F_1 | HRTIM_FLTINR1_FLT1F_0) /*!< fSAMPLING= fFLTS/32, N=8 */ #define IS_HRTIM_FAULTFILTER(FAULTFILTER)\ (((FAULTFILTER) == HRTIM_FAULTFILTER_NONE) || \ ((FAULTFILTER) == HRTIM_FAULTFILTER_1) || \ ((FAULTFILTER) == HRTIM_FAULTFILTER_2) || \ ((FAULTFILTER) == HRTIM_FAULTFILTER_3) || \ ((FAULTFILTER) == HRTIM_FAULTFILTER_4) || \ ((FAULTFILTER) == HRTIM_FAULTFILTER_5) || \ ((FAULTFILTER) == HRTIM_FAULTFILTER_6) || \ ((FAULTFILTER) == HRTIM_FAULTFILTER_7) || \ ((FAULTFILTER) == HRTIM_FAULTFILTER_8) || \ ((FAULTFILTER) == HRTIM_FAULTFILTER_9) || \ ((FAULTFILTER) == HRTIM_FAULTFILTER_10) || \ ((FAULTFILTER) == HRTIM_FAULTFILTER_11) || \ ((FAULTFILTER) == HRTIM_FAULTFILTER_12) || \ ((FAULTFILTER) == HRTIM_FAULTFILTER_13) || \ ((FAULTFILTER) == HRTIM_FAULTFILTER_14) || \ ((FAULTFILTER) == HRTIM_FAULTFILTER_15)) /** * @} */ /** @defgroup HRTIM_Fault_Lock HRTIM Fault Lock * @{ * @brief Constants defining whether or not the fault programming bits are write protected */ #define HRTIM_FAULTLOCK_READWRITE ((uint32_t)0x00000000) /*!< Fault settings bits are read/write */ #define HRTIM_FAULTLOCK_READONLY (HRTIM_FLTINR1_FLT1LCK) /*!< Fault settings bits are read only */ #define IS_HRTIM_FAULTLOCK(FAULTLOCK)\ (((FAULTLOCK) == HRTIM_FAULTLOCK_READWRITE) || \ ((FAULTLOCK) == HRTIM_FAULTLOCK_READONLY)) /** * @} */ /** @defgroup HRTIM_External_Fault_Prescaler HRTIM External Fault Prescaler * @{ * @brief Constants defining the division ratio between the timer clock * frequency (fHRTIM) and the fault signal sampling clock (fFLTS) used * by the digital filters. */ #define HRTIM_FAULTPRESCALER_DIV1 ((uint32_t)0x00000000) /*!< fFLTS=fHRTIM */ #define HRTIM_FAULTPRESCALER_DIV2 (HRTIM_FLTINR2_FLTSD_0) /*!< fFLTS=fHRTIM / 2 */ #define HRTIM_FAULTPRESCALER_DIV4 (HRTIM_FLTINR2_FLTSD_1) /*!< fFLTS=fHRTIM / 4 */ #define HRTIM_FAULTPRESCALER_DIV8 (HRTIM_FLTINR2_FLTSD_1 | HRTIM_FLTINR2_FLTSD_0) /*!< fFLTS=fHRTIM / 8 */ #define IS_HRTIM_FAULTPRESCALER(FAULTPRESCALER)\ (((FAULTPRESCALER) == HRTIM_FAULTPRESCALER_DIV1) || \ ((FAULTPRESCALER) == HRTIM_FAULTPRESCALER_DIV2) || \ ((FAULTPRESCALER) == HRTIM_FAULTPRESCALER_DIV4) || \ ((FAULTPRESCALER) == HRTIM_FAULTPRESCALER_DIV8)) /** * @} */ /** @defgroup HRTIM_Burst_Mode_Operating_Mode HRTIM Burst Mode Operating Mode * @{ * @brief Constants defining if the burst mode is entered once or if it is * continuously operating */ #define HRTIM_BURSTMODE_SINGLESHOT ((uint32_t)0x00000000) /*!< Burst mode operates in single shot mode */ #define HRTIM_BURSTMODE_CONTINOUS (HRTIM_BMCR_BMOM) /*!< Burst mode operates in continuous mode */ #define IS_HRTIM_BURSTMODE(BURSTMODE)\ (((BURSTMODE) == HRTIM_BURSTMODE_SINGLESHOT) || \ ((BURSTMODE) == HRTIM_BURSTMODE_CONTINOUS)) /** * @} */ /** @defgroup HRTIM_Burst_Mode_Clock_Source HRTIM Burst Mode Clock Source * @{ * @brief Constants defining the clock source for the burst mode counter */ #define HRTIM_BURSTMODECLOCKSOURCE_MASTER ((uint32_t)0x00000000) /*!< Master timer counter reset/roll-over is used as clock source for the burst mode counter */ #define HRTIM_BURSTMODECLOCKSOURCE_TIMER_A (HRTIM_BMCR_BMCLK_0) /*!< Timer A counter reset/roll-over is used as clock source for the burst mode counter */ #define HRTIM_BURSTMODECLOCKSOURCE_TIMER_B (HRTIM_BMCR_BMCLK_1) /*!< Timer B counter reset/roll-over is used as clock source for the burst mode counter */ #define HRTIM_BURSTMODECLOCKSOURCE_TIMER_C (HRTIM_BMCR_BMCLK_1 | HRTIM_BMCR_BMCLK_0) /*!< Timer C counter reset/roll-over is used as clock source for the burst mode counter */ #define HRTIM_BURSTMODECLOCKSOURCE_TIMER_D (HRTIM_BMCR_BMCLK_2) /*!< Timer D counter reset/roll-over is used as clock source for the burst mode counter */ #define HRTIM_BURSTMODECLOCKSOURCE_TIMER_E (HRTIM_BMCR_BMCLK_2 | HRTIM_BMCR_BMCLK_0) /*!< Timer E counter reset/roll-over is used as clock source for the burst mode counter */ #define HRTIM_BURSTMODECLOCKSOURCE_TIM16_OC (HRTIM_BMCR_BMCLK_2 | HRTIM_BMCR_BMCLK_1) /*!< On-chip Event 1 (BMClk[1]), acting as a burst mode counter clock */ #define HRTIM_BURSTMODECLOCKSOURCE_TIM17_OC (HRTIM_BMCR_BMCLK_2 | HRTIM_BMCR_BMCLK_1 | HRTIM_BMCR_BMCLK_0) /*!< On-chip Event 2 (BMClk[2]), acting as a burst mode counter clock */ #define HRTIM_BURSTMODECLOCKSOURCE_TIM7_TRGO (HRTIM_BMCR_BMCLK_3) /*!< On-chip Event 3 (BMClk[3]), acting as a burst mode counter clock */ #define HRTIM_BURSTMODECLOCKSOURCE_FHRTIM (HRTIM_BMCR_BMCLK_3 | HRTIM_BMCR_BMCLK_1) /*!< Prescaled fHRTIM clock is used as clock source for the burst mode counter */ #define IS_HRTIM_BURSTMODECLOCKSOURCE(BURSTMODECLOCKSOURCE)\ (((BURSTMODECLOCKSOURCE) == HRTIM_BURSTMODECLOCKSOURCE_MASTER) || \ ((BURSTMODECLOCKSOURCE) == HRTIM_BURSTMODECLOCKSOURCE_TIMER_A) || \ ((BURSTMODECLOCKSOURCE) == HRTIM_BURSTMODECLOCKSOURCE_TIMER_B) || \ ((BURSTMODECLOCKSOURCE) == HRTIM_BURSTMODECLOCKSOURCE_TIMER_C) || \ ((BURSTMODECLOCKSOURCE) == HRTIM_BURSTMODECLOCKSOURCE_TIMER_D) || \ ((BURSTMODECLOCKSOURCE) == HRTIM_BURSTMODECLOCKSOURCE_TIMER_E) || \ ((BURSTMODECLOCKSOURCE) == HRTIM_BURSTMODECLOCKSOURCE_TIM16_OC) || \ ((BURSTMODECLOCKSOURCE) == HRTIM_BURSTMODECLOCKSOURCE_TIM17_OC) || \ ((BURSTMODECLOCKSOURCE) == HRTIM_BURSTMODECLOCKSOURCE_TIM7_TRGO) || \ ((BURSTMODECLOCKSOURCE) == HRTIM_BURSTMODECLOCKSOURCE_FHRTIM)) /** * @} */ /** @defgroup HRTIM_Burst_Mode_Prescaler HRTIM Burst Mode Prescaler * @{ * @brief Constants defining the prescaling ratio of the fHRTIM clock * for the burst mode controller */ #define HRTIM_BURSTMODEPRESCALER_DIV1 ((uint32_t)0x00000000) /*!< fBRST = fHRTIM */ #define HRTIM_BURSTMODEPRESCALER_DIV2 (HRTIM_BMCR_BMPRSC_0) /*!< fBRST = fHRTIM/2 */ #define HRTIM_BURSTMODEPRESCALER_DIV4 (HRTIM_BMCR_BMPRSC_1) /*!< fBRST = fHRTIM/4 */ #define HRTIM_BURSTMODEPRESCALER_DIV8 (HRTIM_BMCR_BMPRSC_1 | HRTIM_BMCR_BMPRSC_0) /*!< fBRST = fHRTIM/8 */ #define HRTIM_BURSTMODEPRESCALER_DIV16 (HRTIM_BMCR_BMPRSC_2) /*!< fBRST = fHRTIM/16 */ #define HRTIM_BURSTMODEPRESCALER_DIV32 (HRTIM_BMCR_BMPRSC_2 | HRTIM_BMCR_BMPRSC_0) /*!< fBRST = fHRTIM/32 */ #define HRTIM_BURSTMODEPRESCALER_DIV64 (HRTIM_BMCR_BMPRSC_2 | HRTIM_BMCR_BMPRSC_1) /*!< fBRST = fHRTIM/64 */ #define HRTIM_BURSTMODEPRESCALER_DIV128 (HRTIM_BMCR_BMPRSC_2 | HRTIM_BMCR_BMPRSC_1 | HRTIM_BMCR_BMPRSC_0) /*!< fBRST = fHRTIM/128 */ #define HRTIM_BURSTMODEPRESCALER_DIV256 (HRTIM_BMCR_BMPRSC_3) /*!< fBRST = fHRTIM/256 */ #define HRTIM_BURSTMODEPRESCALER_DIV512 (HRTIM_BMCR_BMPRSC_3 | HRTIM_BMCR_BMPRSC_0) /*!< fBRST = fHRTIM/512 */ #define HRTIM_BURSTMODEPRESCALER_DIV1024 (HRTIM_BMCR_BMPRSC_3 | HRTIM_BMCR_BMPRSC_1) /*!< fBRST = fHRTIM/1024 */ #define HRTIM_BURSTMODEPRESCALER_DIV2048 (HRTIM_BMCR_BMPRSC_3 | HRTIM_BMCR_BMPRSC_1 | HRTIM_BMCR_BMPRSC_0) /*!< fBRST = fHRTIM/2048*/ #define HRTIM_BURSTMODEPRESCALER_DIV4096 (HRTIM_BMCR_BMPRSC_3 | HRTIM_BMCR_BMPRSC_2) /*!< fBRST = fHRTIM/4096 */ #define HRTIM_BURSTMODEPRESCALER_DIV8192 (HRTIM_BMCR_BMPRSC_3 | HRTIM_BMCR_BMPRSC_2 | HRTIM_BMCR_BMPRSC_0) /*!< fBRST = fHRTIM/8192 */ #define HRTIM_BURSTMODEPRESCALER_DIV16384 (HRTIM_BMCR_BMPRSC_3 | HRTIM_BMCR_BMPRSC_2 | HRTIM_BMCR_BMPRSC_1) /*!< fBRST = fHRTIM/16384 */ #define HRTIM_BURSTMODEPRESCALER_DIV32768 (HRTIM_BMCR_BMPRSC_3 | HRTIM_BMCR_BMPRSC_2 | HRTIM_BMCR_BMPRSC_1 | HRTIM_BMCR_BMPRSC_0) /*!< fBRST = fHRTIM/32768 */ #define IS_HRTIM_HRTIM_BURSTMODEPRESCALER(BURSTMODEPRESCALER)\ (((BURSTMODEPRESCALER) == HRTIM_BURSTMODEPRESCALER_DIV1) || \ ((BURSTMODEPRESCALER) == HRTIM_BURSTMODEPRESCALER_DIV2) || \ ((BURSTMODEPRESCALER) == HRTIM_BURSTMODEPRESCALER_DIV4) || \ ((BURSTMODEPRESCALER) == HRTIM_BURSTMODEPRESCALER_DIV8) || \ ((BURSTMODEPRESCALER) == HRTIM_BURSTMODEPRESCALER_DIV16) || \ ((BURSTMODEPRESCALER) == HRTIM_BURSTMODEPRESCALER_DIV32) || \ ((BURSTMODEPRESCALER) == HRTIM_BURSTMODEPRESCALER_DIV64) || \ ((BURSTMODEPRESCALER) == HRTIM_BURSTMODEPRESCALER_DIV128) || \ ((BURSTMODEPRESCALER) == HRTIM_BURSTMODEPRESCALER_DIV256) || \ ((BURSTMODEPRESCALER) == HRTIM_BURSTMODEPRESCALER_DIV512) || \ ((BURSTMODEPRESCALER) == HRTIM_BURSTMODEPRESCALER_DIV1024) || \ ((BURSTMODEPRESCALER) == HRTIM_BURSTMODEPRESCALER_DIV2048) || \ ((BURSTMODEPRESCALER) == HRTIM_BURSTMODEPRESCALER_DIV4096) || \ ((BURSTMODEPRESCALER) == HRTIM_BURSTMODEPRESCALER_DIV8192) || \ ((BURSTMODEPRESCALER) == HRTIM_BURSTMODEPRESCALER_DIV16384) || \ ((BURSTMODEPRESCALER) == HRTIM_BURSTMODEPRESCALER_DIV32768)) /** * @} */ /** @defgroup HRTIM_Burst_Mode_Register_Preload_Enable HRTIM Burst Mode Register Preload Enable * @{ * @brief Constants defining whether or not burst mode registers preload mechanism is enabled, i.e. a write access into a preloadable register (HRTIM_BMCMPR, HRTIM_BMPER) is done into the active or the preload register */ #define HRIM_BURSTMODEPRELOAD_DISABLED ((uint32_t)0x00000000) /*!< Preload disabled: the write access is directly done into active registers */ #define HRIM_BURSTMODEPRELOAD_ENABLED (HRTIM_BMCR_BMPREN) /*!< Preload enabled: the write access is done into preload registers */ #define IS_HRTIM_BURSTMODEPRELOAD(BURSTMODEPRELOAD)\ (((BURSTMODEPRELOAD) == HRIM_BURSTMODEPRELOAD_DISABLED) || \ ((BURSTMODEPRELOAD) == HRIM_BURSTMODEPRELOAD_ENABLED)) /** * @} */ /** @defgroup HRTIM_Burst_Mode_Trigger HRTIM Burst Mode Trigger * @{ * @brief Constants defining the events that can be used tor trig the burst * mode operation */ #define HRTIM_BURSTMODETRIGGER_NONE (uint32_t)0x00000000 /*!< No trigger */ #define HRTIM_BURSTMODETRIGGER_MASTER_RESET (HRTIM_BMTRGR_MSTRST) /*!< Master reset */ #define HRTIM_BURSTMODETRIGGER_MASTER_REPETITION (HRTIM_BMTRGR_MSTREP) /*!< Master repetition */ #define HRTIM_BURSTMODETRIGGER_MASTER_CMP1 (HRTIM_BMTRGR_MSTCMP1) /*!< Master compare 1 */ #define HRTIM_BURSTMODETRIGGER_MASTER_CMP2 (HRTIM_BMTRGR_MSTCMP2) /*!< Master compare 2 */ #define HRTIM_BURSTMODETRIGGER_MASTER_CMP3 (HRTIM_BMTRGR_MSTCMP3) /*!< Master compare 3 */ #define HRTIM_BURSTMODETRIGGER_MASTER_CMP4 (HRTIM_BMTRGR_MSTCMP4) /*!< Master compare 4 */ #define HRTIM_BURSTMODETRIGGER_TIMERA_RESET (HRTIM_BMTRGR_TARST) /*!< Timer A reset */ #define HRTIM_BURSTMODETRIGGER_TIMERA_REPETITION (HRTIM_BMTRGR_TAREP) /*!< Timer A repetition */ #define HRTIM_BURSTMODETRIGGER_TIMERA_CMP1 (HRTIM_BMTRGR_TACMP1) /*!< Timer A compare 1 */ #define HRTIM_BURSTMODETRIGGER_TIMERA_CMP2 (HRTIM_BMTRGR_TACMP2) /*!< Timer A compare 2 */ #define HRTIM_BURSTMODETRIGGER_TIMERB_RESET (HRTIM_BMTRGR_TBRST) /*!< Timer B reset */ #define HRTIM_BURSTMODETRIGGER_TIMERB_REPETITION (HRTIM_BMTRGR_TBREP) /*!< Timer B repetition */ #define HRTIM_BURSTMODETRIGGER_TIMERB_CMP1 (HRTIM_BMTRGR_TBCMP1) /*!< Timer B compare 1 */ #define HRTIM_BURSTMODETRIGGER_TIMERB_CMP2 (HRTIM_BMTRGR_TBCMP2) /*!< Timer B compare 2 */ #define HRTIM_BURSTMODETRIGGER_TIMERC_RESET (HRTIM_BMTRGR_TCRST) /*!< Timer C reset */ #define HRTIM_BURSTMODETRIGGER_TIMERC_REPETITION (HRTIM_BMTRGR_TCREP) /*!< Timer C repetition */ #define HRTIM_BURSTMODETRIGGER_TIMERC_CMP1 (HRTIM_BMTRGR_TCCMP1) /*!< Timer C compare 1 */ #define HRTIM_BURSTMODETRIGGER_TIMERC_CMP2 (HRTIM_BMTRGR_TCCMP2) /*!< Timer C compare 2 */ #define HRTIM_BURSTMODETRIGGER_TIMERD_RESET (HRTIM_BMTRGR_TDRST) /*!< Timer D reset */ #define HRTIM_BURSTMODETRIGGER_TIMERD_REPETITION (HRTIM_BMTRGR_TDREP) /*!< Timer D repetition */ #define HRTIM_BURSTMODETRIGGER_TIMERD_CMP1 (HRTIM_BMTRGR_TDCMP1) /*!< Timer D compare 1 */ #define HRTIM_BURSTMODETRIGGER_TIMERD_CMP2 (HRTIM_BMTRGR_TDCMP2) /*!< Timer D compare 2 */ #define HRTIM_BURSTMODETRIGGER_TIMERE_RESET (HRTIM_BMTRGR_TERST) /*!< Timer E reset */ #define HRTIM_BURSTMODETRIGGER_TIMERE_REPETITION (HRTIM_BMTRGR_TEREP) /*!< Timer E repetition */ #define HRTIM_BURSTMODETRIGGER_TIMERE_CMP1 (HRTIM_BMTRGR_TECMP1) /*!< Timer E compare 1 */ #define HRTIM_BURSTMODETRIGGER_TIMERE_CMP2 (HRTIM_BMTRGR_TECMP2) /*!< Timer E compare 2 */ #define HRTIM_BURSTMODETRIGGER_TIMERA_EVENT7 (HRTIM_BMTRGR_TAEEV7) /*!< Timer A period following External Event 7 */ #define HRTIM_BURSTMODETRIGGER_TIMERD_EVENT8 (HRTIM_BMTRGR_TDEEV8) /*!< Timer D period following External Event 8 */ #define HRTIM_BURSTMODETRIGGER_EVENT_7 (HRTIM_BMTRGR_EEV7) /*!< External Event 7 (timer A filters applied) */ #define HRTIM_BURSTMODETRIGGER_EVENT_8 (HRTIM_BMTRGR_EEV8) /*!< External Event 8 (timer D filters applied)*/ #define HRTIM_BURSTMODETRIGGER_EVENT_ONCHIP (HRTIM_BMTRGR_OCHPEV) /*!< On-chip Event */ #define IS_HRTIM_BURSTMODETRIGGER(BURSTMODETRIGGER)\ (((BURSTMODETRIGGER) == HRTIM_BURSTMODETRIGGER_NONE) || \ ((BURSTMODETRIGGER) == HRTIM_BURSTMODETRIGGER_MASTER_RESET) || \ ((BURSTMODETRIGGER) == HRTIM_BURSTMODETRIGGER_MASTER_REPETITION) || \ ((BURSTMODETRIGGER) == HRTIM_BURSTMODETRIGGER_MASTER_CMP1) || \ ((BURSTMODETRIGGER) == HRTIM_BURSTMODETRIGGER_MASTER_CMP2) || \ ((BURSTMODETRIGGER) == HRTIM_BURSTMODETRIGGER_MASTER_CMP3) || \ ((BURSTMODETRIGGER) == HRTIM_BURSTMODETRIGGER_MASTER_CMP4) || \ ((BURSTMODETRIGGER) == HRTIM_BURSTMODETRIGGER_TIMERA_RESET) || \ ((BURSTMODETRIGGER) == HRTIM_BURSTMODETRIGGER_TIMERA_REPETITION) || \ ((BURSTMODETRIGGER) == HRTIM_BURSTMODETRIGGER_TIMERA_CMP1) || \ ((BURSTMODETRIGGER) == HRTIM_BURSTMODETRIGGER_TIMERA_CMP2) || \ ((BURSTMODETRIGGER) == HRTIM_BURSTMODETRIGGER_TIMERB_RESET) || \ ((BURSTMODETRIGGER) == HRTIM_BURSTMODETRIGGER_TIMERB_REPETITION) || \ ((BURSTMODETRIGGER) == HRTIM_BURSTMODETRIGGER_TIMERB_CMP1) || \ ((BURSTMODETRIGGER) == HRTIM_BURSTMODETRIGGER_TIMERB_CMP2) || \ ((BURSTMODETRIGGER) == HRTIM_BURSTMODETRIGGER_TIMERC_RESET) || \ ((BURSTMODETRIGGER) == HRTIM_BURSTMODETRIGGER_TIMERC_REPETITION) || \ ((BURSTMODETRIGGER) == HRTIM_BURSTMODETRIGGER_TIMERC_CMP1) || \ ((BURSTMODETRIGGER) == HRTIM_BURSTMODETRIGGER_TIMERC_CMP2) || \ ((BURSTMODETRIGGER) == HRTIM_BURSTMODETRIGGER_TIMERD_RESET) || \ ((BURSTMODETRIGGER) == HRTIM_BURSTMODETRIGGER_TIMERD_REPETITION) || \ ((BURSTMODETRIGGER) == HRTIM_BURSTMODETRIGGER_TIMERD_CMP1) || \ ((BURSTMODETRIGGER) == HRTIM_BURSTMODETRIGGER_TIMERD_CMP2) || \ ((BURSTMODETRIGGER) == HRTIM_BURSTMODETRIGGER_TIMERE_RESET) || \ ((BURSTMODETRIGGER) == HRTIM_BURSTMODETRIGGER_TIMERE_REPETITION) || \ ((BURSTMODETRIGGER) == HRTIM_BURSTMODETRIGGER_TIMERE_CMP1) || \ ((BURSTMODETRIGGER) == HRTIM_BURSTMODETRIGGER_TIMERE_CMP2) || \ ((BURSTMODETRIGGER) == HRTIM_BURSTMODETRIGGER_TIMERA_EVENT7) || \ ((BURSTMODETRIGGER) == HRTIM_BURSTMODETRIGGER_TIMERD_EVENT8) || \ ((BURSTMODETRIGGER) == HRTIM_BURSTMODETRIGGER_EVENT_7) || \ ((BURSTMODETRIGGER) == HRTIM_BURSTMODETRIGGER_EVENT_8) || \ ((BURSTMODETRIGGER) == HRTIM_BURSTMODETRIGGER_EVENT_ONCHIP)) /** * @} */ /** @defgroup HRTIM_ADC_Trigger_Update_Source HRTIM ADC Trigger Update Source * @{ * @brief constants defining the source triggering the update of the HRTIM_ADCxR register (transfer from preload to active register). */ #define HRTIM_ADCTRIGGERUPDATE_MASTER (uint32_t)0x00000000 /*!< Master timer */ #define HRTIM_ADCTRIGGERUPDATE_TIMER_A (HRTIM_CR1_ADC1USRC_0) /*!< Timer A */ #define HRTIM_ADCTRIGGERUPDATE_TIMER_B (HRTIM_CR1_ADC1USRC_1) /*!< Timer B */ #define HRTIM_ADCTRIGGERUPDATE_TIMER_C (HRTIM_CR1_ADC1USRC_1 | HRTIM_CR1_ADC1USRC_0) /*!< Timer C */ #define HRTIM_ADCTRIGGERUPDATE_TIMER_D (HRTIM_CR1_ADC1USRC_2) /*!< Timer D */ #define HRTIM_ADCTRIGGERUPDATE_TIMER_E (HRTIM_CR1_ADC1USRC_2 | HRTIM_CR1_ADC1USRC_0) /*!< Timer E */ #define IS_HRTIM_ADCTRIGGERUPDATE(ADCTRIGGERUPDATE)\ (((ADCTRIGGERUPDATE) == HRTIM_ADCTRIGGERUPDATE_MASTER) || \ ((ADCTRIGGERUPDATE) == HRTIM_ADCTRIGGERUPDATE_TIMER_A) || \ ((ADCTRIGGERUPDATE) == HRTIM_ADCTRIGGERUPDATE_TIMER_B) || \ ((ADCTRIGGERUPDATE) == HRTIM_ADCTRIGGERUPDATE_TIMER_C) || \ ((ADCTRIGGERUPDATE) == HRTIM_ADCTRIGGERUPDATE_TIMER_D) || \ ((ADCTRIGGERUPDATE) == HRTIM_ADCTRIGGERUPDATE_TIMER_E)) /** * @} */ /** @defgroup HRTIM_ADC_Trigger_Event HRTIM ADC Trigger Event * @{ * @brief constants defining the events triggering ADC conversion. * HRTIM_ADCTRIGGEREVENT13_*: ADC Triggers 1 and 3 * HRTIM_ADCTRIGGEREVENT24_*: ADC Triggers 2 and 4 */ #define HRTIM_ADCTRIGGEREVENT13_NONE (uint32_t)0x00000000 /*!< No ADC trigger event */ #define HRTIM_ADCTRIGGEREVENT13_MASTER_CMP1 (HRTIM_ADC1R_AD1MC1) /*!< ADC Trigger on master compare 1 */ #define HRTIM_ADCTRIGGEREVENT13_MASTER_CMP2 (HRTIM_ADC1R_AD1MC2) /*!< ADC Trigger on master compare 2 */ #define HRTIM_ADCTRIGGEREVENT13_MASTER_CMP3 (HRTIM_ADC1R_AD1MC3) /*!< ADC Trigger on master compare 3 */ #define HRTIM_ADCTRIGGEREVENT13_MASTER_CMP4 (HRTIM_ADC1R_AD1MC4) /*!< ADC Trigger on master compare 4 */ #define HRTIM_ADCTRIGGEREVENT13_MASTER_PERIOD (HRTIM_ADC1R_AD1MPER) /*!< ADC Trigger on master period */ #define HRTIM_ADCTRIGGEREVENT13_EVENT_1 (HRTIM_ADC1R_AD1EEV1) /*!< ADC Trigger on external event 1 */ #define HRTIM_ADCTRIGGEREVENT13_EVENT_2 (HRTIM_ADC1R_AD1EEV2) /*!< ADC Trigger on external event 2 */ #define HRTIM_ADCTRIGGEREVENT13_EVENT_3 (HRTIM_ADC1R_AD1EEV3) /*!< ADC Trigger on external event 3 */ #define HRTIM_ADCTRIGGEREVENT13_EVENT_4 (HRTIM_ADC1R_AD1EEV4) /*!< ADC Trigger on external event 4 */ #define HRTIM_ADCTRIGGEREVENT13_EVENT_5 (HRTIM_ADC1R_AD1EEV5) /*!< ADC Trigger on external event 5 */ #define HRTIM_ADCTRIGGEREVENT13_TIMERA_CMP2 (HRTIM_ADC1R_AD1TAC2) /*!< ADC Trigger on Timer A compare 2 */ #define HRTIM_ADCTRIGGEREVENT13_TIMERA_CMP3 (HRTIM_ADC1R_AD1TAC3) /*!< ADC Trigger on Timer A compare 3 */ #define HRTIM_ADCTRIGGEREVENT13_TIMERA_CMP4 (HRTIM_ADC1R_AD1TAC4) /*!< ADC Trigger on Timer A compare 4 */ #define HRTIM_ADCTRIGGEREVENT13_TIMERA_PERIOD (HRTIM_ADC1R_AD1TAPER) /*!< ADC Trigger on Timer A period */ #define HRTIM_ADCTRIGGEREVENT13_TIMERA_RESET (HRTIM_ADC1R_AD1TARST) /*!< ADC Trigger on Timer A reset */ #define HRTIM_ADCTRIGGEREVENT13_TIMERB_CMP2 (HRTIM_ADC1R_AD1TBC2) /*!< ADC Trigger on Timer B compare 2 */ #define HRTIM_ADCTRIGGEREVENT13_TIMERB_CMP3 (HRTIM_ADC1R_AD1TBC3) /*!< ADC Trigger on Timer B compare 3 */ #define HRTIM_ADCTRIGGEREVENT13_TIMERB_CMP4 (HRTIM_ADC1R_AD1TBC4) /*!< ADC Trigger on Timer B compare 4 */ #define HRTIM_ADCTRIGGEREVENT13_TIMERB_PERIOD (HRTIM_ADC1R_AD1TBPER) /*!< ADC Trigger on Timer B period */ #define HRTIM_ADCTRIGGEREVENT13_TIMERB_RESET (HRTIM_ADC1R_AD1TBRST) /*!< ADC Trigger on Timer B reset */ #define HRTIM_ADCTRIGGEREVENT13_TIMERC_CMP2 (HRTIM_ADC1R_AD1TCC2) /*!< ADC Trigger on Timer C compare 2 */ #define HRTIM_ADCTRIGGEREVENT13_TIMERC_CMP3 (HRTIM_ADC1R_AD1TCC3) /*!< ADC Trigger on Timer C compare 3 */ #define HRTIM_ADCTRIGGEREVENT13_TIMERC_CMP4 (HRTIM_ADC1R_AD1TCC4) /*!< ADC Trigger on Timer C compare 4 */ #define HRTIM_ADCTRIGGEREVENT13_TIMERC_PERIOD (HRTIM_ADC1R_AD1TCPER) /*!< ADC Trigger on Timer C period */ #define HRTIM_ADCTRIGGEREVENT13_TIMERD_CMP2 (HRTIM_ADC1R_AD1TDC2) /*!< ADC Trigger on Timer D compare 2 */ #define HRTIM_ADCTRIGGEREVENT13_TIMERD_CMP3 (HRTIM_ADC1R_AD1TDC3) /*!< ADC Trigger on Timer D compare 3 */ #define HRTIM_ADCTRIGGEREVENT13_TIMERD_CMP4 (HRTIM_ADC1R_AD1TDC4) /*!< ADC Trigger on Timer D compare 4 */ #define HRTIM_ADCTRIGGEREVENT13_TIMERD_PERIOD (HRTIM_ADC1R_AD1TDPER) /*!< ADC Trigger on Timer D period */ #define HRTIM_ADCTRIGGEREVENT13_TIMERE_CMP2 (HRTIM_ADC1R_AD1TEC2) /*!< ADC Trigger on Timer E compare 2 */ #define HRTIM_ADCTRIGGEREVENT13_TIMERE_CMP3 (HRTIM_ADC1R_AD1TEC3) /*!< ADC Trigger on Timer E compare 3 */ #define HRTIM_ADCTRIGGEREVENT13_TIMERE_CMP4 (HRTIM_ADC1R_AD1TEC4) /*!< ADC Trigger on Timer E compare 4 */ #define HRTIM_ADCTRIGGEREVENT13_TIMERE_PERIOD (HRTIM_ADC1R_AD1TEPER) /*!< ADC Trigger on Timer E period */ #define HRTIM_ADCTRIGGEREVENT24_NONE (uint32_t)0x00000000 /*!< No ADC trigger event */ #define HRTIM_ADCTRIGGEREVENT24_MASTER_CMP1 (HRTIM_ADC2R_AD2MC1) /*!< ADC Trigger on master compare 1 */ #define HRTIM_ADCTRIGGEREVENT24_MASTER_CMP2 (HRTIM_ADC2R_AD2MC2) /*!< ADC Trigger on master compare 2 */ #define HRTIM_ADCTRIGGEREVENT24_MASTER_CMP3 (HRTIM_ADC2R_AD2MC3) /*!< ADC Trigger on master compare 3 */ #define HRTIM_ADCTRIGGEREVENT24_MASTER_CMP4 (HRTIM_ADC2R_AD2MC4) /*!< ADC Trigger on master compare 4 */ #define HRTIM_ADCTRIGGEREVENT24_MASTER_PERIOD (HRTIM_ADC2R_AD2MPER) /*!< ADC Trigger on master period */ #define HRTIM_ADCTRIGGEREVENT24_EVENT_6 (HRTIM_ADC2R_AD2EEV6) /*!< ADC Trigger on external event 6 */ #define HRTIM_ADCTRIGGEREVENT24_EVENT_7 (HRTIM_ADC2R_AD2EEV7) /*!< ADC Trigger on external event 7 */ #define HRTIM_ADCTRIGGEREVENT24_EVENT_8 (HRTIM_ADC2R_AD2EEV8) /*!< ADC Trigger on external event 8 */ #define HRTIM_ADCTRIGGEREVENT24_EVENT_9 (HRTIM_ADC2R_AD2EEV9) /*!< ADC Trigger on external event 9 */ #define HRTIM_ADCTRIGGEREVENT24_EVENT_10 (HRTIM_ADC2R_AD2EEV10) /*!< ADC Trigger on external event 10 */ #define HRTIM_ADCTRIGGEREVENT24_TIMERA_CMP2 (HRTIM_ADC2R_AD2TAC2) /*!< ADC Trigger on Timer A compare 2 */ #define HRTIM_ADCTRIGGEREVENT24_TIMERA_CMP3 (HRTIM_ADC2R_AD2TAC3) /*!< ADC Trigger on Timer A compare 3 */ #define HRTIM_ADCTRIGGEREVENT24_TIMERA_CMP4 (HRTIM_ADC2R_AD2TAC4) /*!< ADC Trigger on Timer A compare 4 */ #define HRTIM_ADCTRIGGEREVENT24_TIMERA_PERIOD (HRTIM_ADC2R_AD2TAPER) /*!< ADC Trigger on Timer A period */ #define HRTIM_ADCTRIGGEREVENT24_TIMERB_CMP2 (HRTIM_ADC2R_AD2TBC2) /*!< ADC Trigger on Timer B compare 2 */ #define HRTIM_ADCTRIGGEREVENT24_TIMERB_CMP3 (HRTIM_ADC2R_AD2TBC3) /*!< ADC Trigger on Timer B compare 3 */ #define HRTIM_ADCTRIGGEREVENT24_TIMERB_CMP4 (HRTIM_ADC2R_AD2TBC4) /*!< ADC Trigger on Timer B compare 4 */ #define HRTIM_ADCTRIGGEREVENT24_TIMERB_PERIOD (HRTIM_ADC2R_AD2TBPER) /*!< ADC Trigger on Timer B period */ #define HRTIM_ADCTRIGGEREVENT24_TIMERC_CMP2 (HRTIM_ADC2R_AD2TCC2) /*!< ADC Trigger on Timer C compare 2 */ #define HRTIM_ADCTRIGGEREVENT24_TIMERC_CMP3 (HRTIM_ADC2R_AD2TCC3) /*!< ADC Trigger on Timer C compare 3 */ #define HRTIM_ADCTRIGGEREVENT24_TIMERC_CMP4 (HRTIM_ADC2R_AD2TCC4) /*!< ADC Trigger on Timer C compare 4 */ #define HRTIM_ADCTRIGGEREVENT24_TIMERC_PERIOD (HRTIM_ADC2R_AD2TCPER) /*!< ADC Trigger on Timer C period */ #define HRTIM_ADCTRIGGEREVENT24_TIMERC_RESET (HRTIM_ADC2R_AD2TCRST) /*!< ADC Trigger on Timer C reset */ #define HRTIM_ADCTRIGGEREVENT24_TIMERD_CMP2 (HRTIM_ADC2R_AD2TDC2) /*!< ADC Trigger on Timer D compare 2 */ #define HRTIM_ADCTRIGGEREVENT24_TIMERD_CMP3 (HRTIM_ADC2R_AD2TDC3) /*!< ADC Trigger on Timer D compare 3 */ #define HRTIM_ADCTRIGGEREVENT24_TIMERD_CMP4 (HRTIM_ADC2R_AD2TDC4) /*!< ADC Trigger on Timer D compare 4 */ #define HRTIM_ADCTRIGGEREVENT24_TIMERD_PERIOD (HRTIM_ADC2R_AD2TDPER) /*!< ADC Trigger on Timer D period */ #define HRTIM_ADCTRIGGEREVENT24_TIMERD_RESET (HRTIM_ADC2R_AD2TDRST) /*!< ADC Trigger on Timer D reset */ #define HRTIM_ADCTRIGGEREVENT24_TIMERE_CMP2 (HRTIM_ADC2R_AD2TEC2) /*!< ADC Trigger on Timer E compare 2 */ #define HRTIM_ADCTRIGGEREVENT24_TIMERE_CMP3 (HRTIM_ADC2R_AD2TEC3) /*!< ADC Trigger on Timer E compare 3 */ #define HRTIM_ADCTRIGGEREVENT24_TIMERE_CMP4 (HRTIM_ADC2R_AD2TEC4) /*!< ADC Trigger on Timer E compare 4 */ #define HRTIM_ADCTRIGGEREVENT24_TIMERE_RESET (HRTIM_ADC2R_AD2TERST) /*!< ADC Trigger on Timer E reset */ /** * @} */ /** @defgroup HRTIM_DLL_Calibration_Rate HRTIM DLL Calibration Rate * @{ * @brief Constants defining the DLL calibration periods (in micro seconds) */ #define HRTIM_SINGLE_CALIBRATION (uint32_t)0xFFFFFFFF /*!< Non periodic DLL calibration */ #define HRTIM_CALIBRATIONRATE_7300 (uint32_t)0x00000000 /*!< Periodic DLL calibration: T = 1048576 * tHRTIM (7.3 ms) */ #define HRTIM_CALIBRATIONRATE_910 (HRTIM_DLLCR_CALRTE_0) /*!< Periodic DLL calibration: T = 131072 * tHRTIM (910 µs) */ #define HRTIM_CALIBRATIONRATE_114 (HRTIM_DLLCR_CALRTE_1) /*!< Periodic DLL calibration: T = 16384 * tHRTIM (114 µs) */ #define HRTIM_CALIBRATIONRATE_14 (HRTIM_DLLCR_CALRTE_1 | HRTIM_DLLCR_CALRTE_0) /*!< Periodic DLL calibration: T = 2048 * tHRTIM (14 µs) */ #define IS_HRTIM_CALIBRATIONRATE(CALIBRATIONRATE)\ (((CALIBRATIONRATE) == HRTIM_SINGLE_CALIBRATION) || \ ((CALIBRATIONRATE) == HRTIM_CALIBRATIONRATE_7300) || \ ((CALIBRATIONRATE) == HRTIM_CALIBRATIONRATE_910) || \ ((CALIBRATIONRATE) == HRTIM_CALIBRATIONRATE_114) || \ ((CALIBRATIONRATE) == HRTIM_CALIBRATIONRATE_14)) /** * @} */ /** @defgroup HRTIM_Burst_DMA_Registers_Update HRTIM Burst DMA Registers Update * @{ * @brief Constants defining the registers that can be written during a burst * DMA operation */ #define HRTIM_BURSTDMA_NONE (uint32_t)0x00000000 /*!< No register is updated by Burst DMA accesses */ #define HRTIM_BURSTDMA_CR (HRTIM_BDTUPR_TIMCR) /*!< MCR or TIMxCR register is updated by Burst DMA accesses */ #define HRTIM_BURSTDMA_ICR (HRTIM_BDTUPR_TIMICR) /*!< MICR or TIMxICR register is updated by Burst DMA accesses */ #define HRTIM_BURSTDMA_DIER (HRTIM_BDTUPR_TIMDIER) /*!< MDIER or TIMxDIER register is updated by Burst DMA accesses */ #define HRTIM_BURSTDMA_CNT (HRTIM_BDTUPR_TIMCNT) /*!< MCNTR or CNTxCR register is updated by Burst DMA accesses */ #define HRTIM_BURSTDMA_PER (HRTIM_BDTUPR_TIMPER) /*!< MPER or PERxR register is updated by Burst DMA accesses */ #define HRTIM_BURSTDMA_REP (HRTIM_BDTUPR_TIMREP) /*!< MREPR or REPxR register is updated by Burst DMA accesses */ #define HRTIM_BURSTDMA_CMP1 (HRTIM_BDTUPR_TIMCMP1) /*!< MCMP1R or CMP1xR register is updated by Burst DMA accesses */ #define HRTIM_BURSTDMA_CMP2 (HRTIM_BDTUPR_TIMCMP2) /*!< MCMP2R or CMP2xR register is updated by Burst DMA accesses */ #define HRTIM_BURSTDMA_CMP3 (HRTIM_BDTUPR_TIMCMP3) /*!< MCMP3R or CMP3xR register is updated by Burst DMA accesses */ #define HRTIM_BURSTDMA_CMP4 (HRTIM_BDTUPR_TIMCMP4) /*!< MCMP4R or CMP4xR register is updated by Burst DMA accesses */ #define HRTIM_BURSTDMA_DTR (HRTIM_BDTUPR_TIMDTR) /*!< TDxR register is updated by Burst DMA accesses */ #define HRTIM_BURSTDMA_SET1R (HRTIM_BDTUPR_TIMSET1R) /*!< SET1R register is updated by Burst DMA accesses */ #define HRTIM_BURSTDMA_RST1R (HRTIM_BDTUPR_TIMRST1R) /*!< RST1R register is updated by Burst DMA accesses */ #define HRTIM_BURSTDMA_SET2R (HRTIM_BDTUPR_TIMSET2R) /*!< SET2R register is updated by Burst DMA accesses */ #define HRTIM_BURSTDMA_RST2R (HRTIM_BDTUPR_TIMRST2R) /*!< RST1R register is updated by Burst DMA accesses */ #define HRTIM_BURSTDMA_EEFR1 (HRTIM_BDTUPR_TIMEEFR1) /*!< EEFxR1 register is updated by Burst DMA accesses */ #define HRTIM_BURSTDMA_EEFR2 (HRTIM_BDTUPR_TIMEEFR2) /*!< EEFxR2 register is updated by Burst DMA accesses */ #define HRTIM_BURSTDMA_RSTR (HRTIM_BDTUPR_TIMRSTR) /*!< RSTxR register is updated by Burst DMA accesses */ #define HRTIM_BURSTDMA_CHPR (HRTIM_BDTUPR_TIMCHPR) /*!< CHPxR register is updated by Burst DMA accesses */ #define HRTIM_BURSTDMA_OUTR (HRTIM_BDTUPR_TIMOUTR) /*!< OUTxR register is updated by Burst DMA accesses */ #define HRTIM_BURSTDMA_FLTR (HRTIM_BDTUPR_TIMFLTR) /*!< FLTxR register is updated by Burst DMA accesses */ #define IS_HRTIM_TIMER_BURSTDMA(TIMER, BURSTDMA) \ ((((TIMER) == HRTIM_TIMERINDEX_MASTER) && (((BURSTDMA) & 0xFFFFFC000) == 0x00000000)) \ || \ (((TIMER) == HRTIM_TIMERINDEX_TIMER_A) && (((BURSTDMA) & 0xFFE00000) == 0x00000000)) \ || \ (((TIMER) == HRTIM_TIMERINDEX_TIMER_B) && (((BURSTDMA) & 0xFFE00000) == 0x00000000)) \ || \ (((TIMER) == HRTIM_TIMERINDEX_TIMER_C) && (((BURSTDMA) & 0xFFE00000) == 0x00000000)) \ || \ (((TIMER) == HRTIM_TIMERINDEX_TIMER_D) && (((BURSTDMA) & 0xFFE00000) == 0x00000000)) \ || \ (((TIMER) == HRTIM_TIMERINDEX_TIMER_E) && (((BURSTDMA) & 0xFFE00000) == 0x00000000))) /** * @} */ /** @defgroup HRTIM_Burst_Mode_Control HRTIM Burst Mode Control * @{ * @brief Constants used to enable or disable the burst mode controller */ #define HRTIM_BURSTMODECTL_DISABLED (uint32_t)0x00000000 /*!< Burst mode disabled */ #define HRTIM_BURSTMODECTL_ENABLED (HRTIM_BMCR_BME) /*!< Burst mode enabled */ #define IS_HRTIM_BURSTMODECTL(BURSTMODECTL)\ (((BURSTMODECTL) == HRTIM_BURSTMODECTL_DISABLED) || \ ((BURSTMODECTL) == HRTIM_BURSTMODECTL_ENABLED)) /** * @} */ /** @defgroup HRTIM_Fault_Mode_Control HRTIM Fault Mode Control * @{ * @brief Constants used to enable or disable a fault channel */ #define HRTIM_FAULTMODECTL_DISABLED (uint32_t)0x00000000 /*!< Fault channel is disabled */ #define HRTIM_FAULTMODECTL_ENABLED (uint32_t)0x00000001 /*!< Fault channel is enabled */ #define IS_HRTIM_FAULTMODECTL(FAULTMODECTL)\ (((FAULTMODECTL) == HRTIM_FAULTMODECTL_DISABLED) || \ ((FAULTMODECTL) == HRTIM_FAULTMODECTL_ENABLED)) /** * @} */ /** @defgroup HRTIM_Software_Timer_Update HRTIM Software Timer Update * @{ * @brief Constants used to force timer registers update */ #define HRTIM_TIMERUPDATE_MASTER (HRTIM_CR2_MSWU) /*!< Forces an immediate transfer from the preload to the active register in the master timer */ #define HRTIM_TIMERUPDATE_A (HRTIM_CR2_TASWU) /*!< Forces an immediate transfer from the preload to the active register in the timer A */ #define HRTIM_TIMERUPDATE_B (HRTIM_CR2_TBSWU) /*!< Forces an immediate transfer from the preload to the active register in the timer B */ #define HRTIM_TIMERUPDATE_C (HRTIM_CR2_TCSWU) /*!< Forces an immediate transfer from the preload to the active register in the timer C */ #define HRTIM_TIMERUPDATE_D (HRTIM_CR2_TDSWU) /*!< Forces an immediate transfer from the preload to the active register in the timer D */ #define HRTIM_TIMERUPDATE_E (HRTIM_CR2_TESWU) /*!< Forces an immediate transfer from the preload to the active register in the timer E */ #define IS_HRTIM_TIMERUPDATE(TIMERUPDATE) (((TIMERUPDATE) & 0xFFFFFFC0) == 0x00000000) /** * @} */ /** @defgroup HRTIM_Software_Timer_Reset HRTIM Software Timer Reset * @{ * @brief Constants used to force timer counter reset */ #define HRTIM_TIMERRESET_MASTER (HRTIM_CR2_MRST) /*!< Resets the master timer counter */ #define HRTIM_TIMERRESET_TIMER_A (HRTIM_CR2_TARST) /*!< Resets the timer A counter */ #define HRTIM_TIMERRESET_TIMER_B (HRTIM_CR2_TBRST) /*!< Resets the timer B counter */ #define HRTIM_TIMERRESET_TIMER_C (HRTIM_CR2_TCRST) /*!< Resets the timer C counter */ #define HRTIM_TIMERRESET_TIMER_D (HRTIM_CR2_TDRST) /*!< Resets the timer D counter */ #define HRTIM_TIMERRESET_TIMER_E (HRTIM_CR2_TERST) /*!< Resets the timer E counter */ #define IS_HRTIM_TIMERRESET(TIMERRESET) (((TIMERRESET) & 0xFFFFC0FF) == 0x00000000) /** * @} */ /** @defgroup HRTIM_Output_Level HRTIM Output Level * @{ * @brief Constants defining the level of a timer output */ #define HRTIM_OUTPUTLEVEL_ACTIVE (uint32_t)0x00000001 /*!< Forces the output to its active state */ #define HRTIM_OUTPUTLEVEL_INACTIVE (uint32_t)0x00000002 /*!< Forces the output to its inactive state */ #define IS_HRTIM_OUTPUTLEVEL(OUTPUTLEVEL)\ (((OUTPUTLEVEL) == HRTIM_OUTPUTLEVEL_ACTIVE) || \ ((OUTPUTLEVEL) == HRTIM_OUTPUTLEVEL_INACTIVE)) /** * @} */ /** @defgroup HRTIM_Output_State HRTIM Output State * @{ * @brief Constants defining the state of a timer output */ #define HRTIM_OUTPUTSTATE_IDLE (uint32_t)0x00000001 /*!< Main operating mode, where the output can take the active or inactive level as programmed in the crossbar unit */ #define HRTIM_OUTPUTSTATE_RUN (uint32_t)0x00000002 /*!< Default operating state (e.g. after an HRTIM reset, when the outputs are disabled by software or during a burst mode operation */ #define HRTIM_OUTPUTSTATE_FAULT (uint32_t)0x00000003 /*!< Safety state, entered in case of a shut-down request on FAULTx inputs */ /** * @} */ /** @defgroup HRTIM_Burst_Mode_Status HRTIM Burst Mode Status * @{ * @brief Constants defining the operating state of the burst mode controller */ #define HRTIM_BURSTMODESTATUS_NORMAL (uint32_t) 0x00000000 /*!< Normal operation */ #define HRTIM_BURSTMODESTATUS_ONGOING (HRTIM_BMCR_BMSTAT) /*!< Burst operation on-going */ /** * @} */ /** @defgroup HRTIM_Current_Push_Pull_Status HRTIM Current Push Pull Status * @{ * @brief Constants defining on which output the signal is currently applied * in push-pull mode */ #define HRTIM_PUSHPULL_CURRENTSTATUS_OUTPUT1 (uint32_t) 0x00000000 /*!< Signal applied on output 1 and output 2 forced inactive */ #define HRTIM_PUSHPULL_CURRENTSTATUS_OUTPUT2 (HRTIM_TIMISR_CPPSTAT) /*!< Signal applied on output 2 and output 1 forced inactive */ /** * @} */ /** @defgroup HRTIM_Idle_Push_Pull_Status HRTIM Idle Push Pull Status * @{ * @brief Constants defining on which output the signal was applied, in * push-pull mode balanced fault mode or delayed idle mode, when the * protection was triggered */ #define HRTIM_PUSHPULL_IDLESTATUS_OUTPUT1 (uint32_t) 0x00000000 /*!< Protection occurred when the output 1 was active and output 2 forced inactive */ #define HRTIM_PUSHPULL_IDLESTATUS_OUTPUT2 (HRTIM_TIMISR_IPPSTAT) /*!< Protection occurred when the output 2 was active and output 1 forced inactive */ /** * @} */ /** @defgroup HRTIM_Common_Interrupt_Enable HRTIM Common Interrupt Enable * @{ */ #define HRTIM_IT_NONE (uint32_t)0x00000000 /*!< No interrupt enabled */ #define HRTIM_IT_FLT1 HRTIM_IER_FLT1 /*!< Fault 1 interrupt enable */ #define HRTIM_IT_FLT2 HRTIM_IER_FLT2 /*!< Fault 2 interrupt enable */ #define HRTIM_IT_FLT3 HRTIM_IER_FLT3 /*!< Fault 3 interrupt enable */ #define HRTIM_IT_FLT4 HRTIM_IER_FLT4 /*!< Fault 4 interrupt enable */ #define HRTIM_IT_FLT5 HRTIM_IER_FLT5 /*!< Fault 5 interrupt enable */ #define HRTIM_IT_SYSFLT HRTIM_IER_SYSFLT /*!< System Fault interrupt enable */ #define HRTIM_IT_DLLRDY HRTIM_IER_DLLRDY /*!< DLL ready interrupt enable */ #define HRTIM_IT_BMPER HRTIM_IER_BMPER /*!< Burst mode period interrupt enable */ #define IS_HRTIM_IT(IT) (((IT) & 0xFFFCFFC0) == 0x00000000) /** * @} */ /** @defgroup HRTIM_Master_Interrupt_Enable HRTIM Master Interrupt Enable * @{ */ #define HRTIM_MASTER_IT_NONE (uint32_t)0x00000000 /*!< No interrupt enabled */ #define HRTIM_MASTER_IT_MCMP1 HRTIM_MDIER_MCMP1IE /*!< Master compare 1 interrupt enable */ #define HRTIM_MASTER_IT_MCMP2 HRTIM_MDIER_MCMP2IE /*!< Master compare 2 interrupt enable */ #define HRTIM_MASTER_IT_MCMP3 HRTIM_MDIER_MCMP3IE /*!< Master compare 3 interrupt enable */ #define HRTIM_MASTER_IT_MCMP4 HRTIM_MDIER_MCMP4IE /*!< Master compare 4 interrupt enable */ #define HRTIM_MASTER_IT_MREP HRTIM_MDIER_MREPIE /*!< Master Repetition interrupt enable */ #define HRTIM_MASTER_IT_SYNC HRTIM_MDIER_SYNCIE /*!< Synchronization input interrupt enable */ #define HRTIM_MASTER_IT_MUPD HRTIM_MDIER_MUPDIE /*!< Master update interrupt enable */ #define IS_HRTIM_MASTER_IT(MASTER_IT) (((MASTER_IT) & 0xFFFFFF80) == 0x00000000) /** * @} */ /** @defgroup HRTIM_Timing_Unit_Interrupt_Enable HRTIM Timing Unit Interrupt Enable * @{ */ #define HRTIM_TIM_IT_NONE (uint32_t)0x00000000 /*!< No interrupt enabled */ #define HRTIM_TIM_IT_CMP1 HRTIM_TIMDIER_CMP1IE /*!< Timer compare 1 interrupt enable */ #define HRTIM_TIM_IT_CMP2 HRTIM_TIMDIER_CMP2IE /*!< Timer compare 2 interrupt enable */ #define HRTIM_TIM_IT_CMP3 HRTIM_TIMDIER_CMP3IE /*!< Timer compare 3 interrupt enable */ #define HRTIM_TIM_IT_CMP4 HRTIM_TIMDIER_CMP4IE /*!< Timer compare 4 interrupt enable */ #define HRTIM_TIM_IT_REP HRTIM_TIMDIER_REPIE /*!< Timer repetition interrupt enable */ #define HRTIM_TIM_IT_UPD HRTIM_TIMDIER_UPDIE /*!< Timer update interrupt enable */ #define HRTIM_TIM_IT_CPT1 HRTIM_TIMDIER_CPT1IE /*!< Timer capture 1 interrupt enable */ #define HRTIM_TIM_IT_CPT2 HRTIM_TIMDIER_CPT2IE /*!< Timer capture 2 interrupt enable */ #define HRTIM_TIM_IT_SET1 HRTIM_TIMDIER_SET1IE /*!< Timer output 1 set interrupt enable */ #define HRTIM_TIM_IT_RST1 HRTIM_TIMDIER_RST1IE /*!< Timer output 1 reset interrupt enable */ #define HRTIM_TIM_IT_SET2 HRTIM_TIMDIER_SET2IE /*!< Timer output 2 set interrupt enable */ #define HRTIM_TIM_IT_RST2 HRTIM_TIMDIER_RST2IE /*!< Timer output 2 reset interrupt enable */ #define HRTIM_TIM_IT_RST HRTIM_TIMDIER_RSTIE /*!< Timer reset interrupt enable */ #define HRTIM_TIM_IT_DLYPRT HRTIM_TIMDIER_DLYPRTIE /*!< Timer delay protection interrupt enable */ #define IS_HRTIM_TIM_IT(IS_HRTIM_TIM_IT) (((IS_HRTIM_TIM_IT) & 0xFFFF8020) == 0x00000000) /** * @} */ /** @defgroup HRTIM_Common_Interrupt_Flag HRTIM Common Interrupt Flag * @{ */ #define HRTIM_FLAG_FLT1 HRTIM_ISR_FLT1 /*!< Fault 1 interrupt flag */ #define HRTIM_FLAG_FLT2 HRTIM_ISR_FLT2 /*!< Fault 2 interrupt flag */ #define HRTIM_FLAG_FLT3 HRTIM_ISR_FLT3 /*!< Fault 3 interrupt flag */ #define HRTIM_FLAG_FLT4 HRTIM_ISR_FLT4 /*!< Fault 4 interrupt flag */ #define HRTIM_FLAG_FLT5 HRTIM_ISR_FLT5 /*!< Fault 5 interrupt flag */ #define HRTIM_FLAG_SYSFLT HRTIM_ISR_SYSFLT /*!< System Fault interrupt flag */ #define HRTIM_FLAG_DLLRDY HRTIM_ISR_DLLRDY /*!< DLL ready interrupt flag */ #define HRTIM_FLAG_BMPER HRTIM_ISR_BMPER /*!< Burst mode period interrupt flag */ /** * @} */ /** @defgroup HRTIM_Master_Interrupt_Flag HRTIM Master Interrupt Flag * @{ */ #define HRTIM_MASTER_FLAG_MCMP1 HRTIM_MISR_MCMP1 /*!< Master compare 1 interrupt flag */ #define HRTIM_MASTER_FLAG_MCMP2 HRTIM_MISR_MCMP2 /*!< Master compare 2 interrupt flag */ #define HRTIM_MASTER_FLAG_MCMP3 HRTIM_MISR_MCMP3 /*!< Master compare 3 interrupt flag */ #define HRTIM_MASTER_FLAG_MCMP4 HRTIM_MISR_MCMP4 /*!< Master compare 4 interrupt flag */ #define HRTIM_MASTER_FLAG_MREP HRTIM_MISR_MREP /*!< Master Repetition interrupt flag */ #define HRTIM_MASTER_FLAG_SYNC HRTIM_MISR_SYNC /*!< Synchronization input interrupt flag */ #define HRTIM_MASTER_FLAG_MUPD HRTIM_MISR_MUPD /*!< Master update interrupt flag */ /** * @} */ /** @defgroup HRTIM_Timing_Unit_Interrupt_Flag HRTIM Timing Unit Interrupt Flag * @{ */ #define HRTIM_TIM_FLAG_CMP1 HRTIM_TIMISR_CMP1 /*!< Timer compare 1 interrupt flag */ #define HRTIM_TIM_FLAG_CMP2 HRTIM_TIMISR_CMP2 /*!< Timer compare 2 interrupt flag */ #define HRTIM_TIM_FLAG_CMP3 HRTIM_TIMISR_CMP3 /*!< Timer compare 3 interrupt flag */ #define HRTIM_TIM_FLAG_CMP4 HRTIM_TIMISR_CMP4 /*!< Timer compare 4 interrupt flag */ #define HRTIM_TIM_FLAG_REP HRTIM_TIMISR_REP /*!< Timer repetition interrupt flag */ #define HRTIM_TIM_FLAG_UPD HRTIM_TIMISR_UPD /*!< Timer update interrupt flag */ #define HRTIM_TIM_FLAG_CPT1 HRTIM_TIMISR_CPT1 /*!< Timer capture 1 interrupt flag */ #define HRTIM_TIM_FLAG_CPT2 HRTIM_TIMISR_CPT2 /*!< Timer capture 2 interrupt flag */ #define HRTIM_TIM_FLAG_SET1 HRTIM_TIMISR_SET1 /*!< Timer output 1 set interrupt flag */ #define HRTIM_TIM_FLAG_RST1 HRTIM_TIMISR_RST1 /*!< Timer output 1 reset interrupt flag */ #define HRTIM_TIM_FLAG_SET2 HRTIM_TIMISR_SET2 /*!< Timer output 2 set interrupt flag */ #define HRTIM_TIM_FLAG_RST2 HRTIM_TIMISR_RST2 /*!< Timer output 2 reset interrupt flag */ #define HRTIM_TIM_FLAG_RST HRTIM_TIMISR_RST /*!< Timer reset interrupt flag */ #define HRTIM_TIM_FLAG_DLYPRT HRTIM_TIMISR_DLYPRT /*!< Timer delay protection interrupt flag */ /** * @} */ /** @defgroup HRTIM_Master_DMA_Request_Enable HRTIM Master DMA Request Enable * @{ */ #define HRTIM_MASTER_DMA_NONE (uint32_t)0x00000000 /*!< No DMA request enable */ #define HRTIM_MASTER_DMA_MCMP1 HRTIM_MDIER_MCMP1DE /*!< Master compare 1 DMA request enable */ #define HRTIM_MASTER_DMA_MCMP2 HRTIM_MDIER_MCMP2DE /*!< Master compare 2 DMA request enable */ #define HRTIM_MASTER_DMA_MCMP3 HRTIM_MDIER_MCMP3DE /*!< Master compare 3 DMA request enable */ #define HRTIM_MASTER_DMA_MCMP4 HRTIM_MDIER_MCMP4DE /*!< Master compare 4 DMA request enable */ #define HRTIM_MASTER_DMA_MREP HRTIM_MDIER_MREPDE /*!< Master Repetition DMA request enable */ #define HRTIM_MASTER_DMA_SYNC HRTIM_MDIER_SYNCDE /*!< Synchronization input DMA request enable */ #define HRTIM_MASTER_DMA_MUPD HRTIM_MDIER_MUPDDE /*!< Master update DMA request enable */ #define IS_HRTIM_MASTER_DMA(MASTER_DMA) (((MASTER_DMA) & 0xFF80FFFF) == 0x00000000) /** * @} */ /** @defgroup HRTIM_Timing_Unit_DMA_Request_Enable HRTIM Timing Unit DMA Request Enable * @{ */ #define HRTIM_TIM_DMA_NONE (uint32_t)0x00000000 /*!< No DMA request enable */ #define HRTIM_TIM_DMA_CMP1 HRTIM_TIMDIER_CMP1DE /*!< Timer compare 1 DMA request enable */ #define HRTIM_TIM_DMA_CMP2 HRTIM_TIMDIER_CMP2DE /*!< Timer compare 2 DMA request enable */ #define HRTIM_TIM_DMA_CMP3 HRTIM_TIMDIER_CMP3DE /*!< Timer compare 3 DMA request enable */ #define HRTIM_TIM_DMA_CMP4 HRTIM_TIMDIER_CMP4DE /*!< Timer compare 4 DMA request enable */ #define HRTIM_TIM_DMA_REP HRTIM_TIMDIER_REPDE /*!< Timer repetition DMA request enable */ #define HRTIM_TIM_DMA_UPD HRTIM_TIMDIER_UPDDE /*!< Timer update DMA request enable */ #define HRTIM_TIM_DMA_CPT1 HRTIM_TIMDIER_CPT1DE /*!< Timer capture 1 DMA request enable */ #define HRTIM_TIM_DMA_CPT2 HRTIM_TIMDIER_CPT2DE /*!< Timer capture 2 DMA request enable */ #define HRTIM_TIM_DMA_SET1 HRTIM_TIMDIER_SET1DE /*!< Timer output 1 set DMA request enable */ #define HRTIM_TIM_DMA_RST1 HRTIM_TIMDIER_RST1DE /*!< Timer output 1 reset DMA request enable */ #define HRTIM_TIM_DMA_SET2 HRTIM_TIMDIER_SET2DE /*!< Timer output 2 set DMA request enable */ #define HRTIM_TIM_DMA_RST2 HRTIM_TIMDIER_RST2DE /*!< Timer output 2 reset DMA request enable */ #define HRTIM_TIM_DMA_RST HRTIM_TIMDIER_RSTDE /*!< Timer reset DMA request enable */ #define HRTIM_TIM_DMA_DLYPRT HRTIM_TIMDIER_DLYPRTDE /*!< Timer delay protection DMA request enable */ #define IS_HRTIM_TIM_DMA(TIM_DMA) (((TIM_DMA) & 0x8020FFFF) == 0x00000000) /** * @} */ /** * @} */ /* Exported macros -----------------------------------------------------------*/ /** @defgroup HRTIM_Exported_Macros HRTIM Exported Macros * @{ */ /** @brief Reset HRTIM handle state * @param __HANDLE__: HRTIM handle. * @retval None */ #define __HAL_HRTIM_RESET_HANDLE_STATE(__HANDLE__) ((__HANDLE__)->State = HAL_HRTIM_STATE_RESET) /** @brief Enables or disables the timer counter(s) * @param __HANDLE__: specifies the HRTIM Handle. * @param __TIMERS__: timersto enable/disable * This parameter can be any combinations of the following values: * @arg HRTIM_TIMERID_MASTER: Master timer identifier * @arg HRTIM_TIMERID_TIMER_A: Timer A identifier * @arg HRTIM_TIMERID_TIMER_B: Timer B identifier * @arg HRTIM_TIMERID_TIMER_C: Timer C identifier * @arg HRTIM_TIMERID_TIMER_D: Timer D identifier * @arg HRTIM_TIMERID_TIMER_E: Timer E identifier * @retval None */ #define __HAL_HRTIM_ENABLE(__HANDLE__, __TIMERS__) ((__HANDLE__)->Instance->sMasterRegs.MCR |= (__TIMERS__)) /* The counter of a timing unit is disabled only if all the timer outputs */ /* are disabled and no capture is configured */ #define HRTIM_TAOEN_MASK (HRTIM_OENR_TA2OEN | HRTIM_OENR_TA1OEN) #define HRTIM_TBOEN_MASK (HRTIM_OENR_TB2OEN | HRTIM_OENR_TB1OEN) #define HRTIM_TCOEN_MASK (HRTIM_OENR_TC2OEN | HRTIM_OENR_TC1OEN) #define HRTIM_TDOEN_MASK (HRTIM_OENR_TD2OEN | HRTIM_OENR_TD1OEN) #define HRTIM_TEOEN_MASK (HRTIM_OENR_TE2OEN | HRTIM_OENR_TE1OEN) #define __HAL_HRTIM_DISABLE(__HANDLE__, __TIMERS__)\ do {\ if (((__TIMERS__) & HRTIM_TIMERID_MASTER) == HRTIM_TIMERID_MASTER)\ {\ ((__HANDLE__)->Instance->sMasterRegs.MCR &= ~HRTIM_TIMERID_MASTER);\ }\ if (((__TIMERS__) & HRTIM_TIMERID_TIMER_A) == HRTIM_TIMERID_TIMER_A)\ {\ if (((__HANDLE__)->Instance->sCommonRegs.OENR & HRTIM_TAOEN_MASK) == RESET)\ {\ ((__HANDLE__)->Instance->sMasterRegs.MCR &= ~HRTIM_TIMERID_TIMER_A);\ }\ }\ if (((__TIMERS__) & HRTIM_TIMERID_TIMER_B) == HRTIM_TIMERID_TIMER_B)\ {\ if (((__HANDLE__)->Instance->sCommonRegs.OENR & HRTIM_TBOEN_MASK) == RESET)\ {\ ((__HANDLE__)->Instance->sMasterRegs.MCR &= ~HRTIM_TIMERID_TIMER_B);\ }\ }\ if (((__TIMERS__) & HRTIM_TIMERID_TIMER_C) == HRTIM_TIMERID_TIMER_C)\ {\ if (((__HANDLE__)->Instance->sCommonRegs.OENR & HRTIM_TCOEN_MASK) == RESET)\ {\ ((__HANDLE__)->Instance->sMasterRegs.MCR &= ~HRTIM_TIMERID_TIMER_C);\ }\ }\ if (((__TIMERS__) & HRTIM_TIMERID_TIMER_D) == HRTIM_TIMERID_TIMER_D)\ {\ if (((__HANDLE__)->Instance->sCommonRegs.OENR & HRTIM_TDOEN_MASK) == RESET)\ {\ ((__HANDLE__)->Instance->sMasterRegs.MCR &= ~HRTIM_TIMERID_TIMER_D);\ }\ }\ if (((__TIMERS__) & HRTIM_TIMERID_TIMER_E) == HRTIM_TIMERID_TIMER_E)\ {\ if (((__HANDLE__)->Instance->sCommonRegs.OENR & HRTIM_TEOEN_MASK) == RESET)\ {\ ((__HANDLE__)->Instance->sMasterRegs.MCR &= ~HRTIM_TIMERID_TIMER_E);\ }\ }\ } while(0) /** @brief Enables or disables the specified HRTIM common interrupts. * @param __HANDLE__: specifies the HRTIM Handle. * @param __INTERRUPT__: specifies the interrupt source to enable or disable. * This parameter can be one of the following values: * @arg HRTIM_IT_FLT1: Fault 1 interrupt enable * @arg HRTIM_IT_FLT2: Fault 2 interrupt enable * @arg HRTIM_IT_FLT3: Fault 3 interrupt enable * @arg HRTIM_IT_FLT4: Fault 4 interrupt enable * @arg HRTIM_IT_FLT5: Fault 5 interrupt enable * @arg HRTIM_IT_SYSFLT: System Fault interrupt enable * @arg HRTIM_IT_DLLRDY: DLL ready interrupt enable * @arg HRTIM_IT_BMPER: Burst mode period interrupt enable * @retval None */ #define __HAL_HRTIM_ENABLE_IT(__HANDLE__, __INTERRUPT__) ((__HANDLE__)->Instance->sCommonRegs.IER |= (__INTERRUPT__)) #define __HAL_HRTIM_DISABLE_IT(__HANDLE__, __INTERRUPT__) ((__HANDLE__)->Instance->sCommonRegs.IER &= ~(__INTERRUPT__)) /** @brief Enables or disables the specified HRTIM Master timer interrupts. * @param __HANDLE__: specifies the HRTIM Handle. * @param __INTERRUPT__: specifies the interrupt source to enable or disable. * This parameter can be one of the following values: * @arg HRTIM_MASTER_IT_MCMP1: Master compare 1 interrupt enable * @arg HRTIM_MASTER_IT_MCMP2: Master compare 2 interrupt enable * @arg HRTIM_MASTER_IT_MCMP3: Master compare 3 interrupt enable * @arg HRTIM_MASTER_IT_MCMP4: Master compare 4 interrupt enable * @arg HRTIM_MASTER_IT_MREP: Master Repetition interrupt enable * @arg HRTIM_MASTER_IT_SYNC: Synchronization input interrupt enable * @arg HRTIM_MASTER_IT_MUPD: Master update interrupt enable * @retval None */ #define __HAL_HRTIM_MASTER_ENABLE_IT(__HANDLE__, __INTERRUPT__) ((__HANDLE__)->Instance->sMasterRegs.MDIER |= (__INTERRUPT__)) #define __HAL_HRTIM_MASTER_DISABLE_IT(__HANDLE__, __INTERRUPT__) ((__HANDLE__)->Instance->sMasterRegs.MDIER &= ~(__INTERRUPT__)) /** @brief Enables or disables the specified HRTIM Timerx interrupts. * @param __HANDLE__: specifies the HRTIM Handle. * @param __TIMER__: specified the timing unit (Timer A to E) * @param __INTERRUPT__: specifies the interrupt source to enable or disable. * This parameter can be one of the following values: * @arg HRTIM_TIM_IT_CMP1: Timer compare 1 interrupt enable * @arg HRTIM_TIM_IT_CMP2: Timer compare 2 interrupt enable * @arg HRTIM_TIM_IT_CMP3: Timer compare 3 interrupt enable * @arg HRTIM_TIM_IT_CMP4: Timer compare 4 interrupt enable * @arg HRTIM_TIM_IT_REP: Timer repetition interrupt enable * @arg HRTIM_TIM_IT_UPD: Timer update interrupt enable * @arg HRTIM_TIM_IT_CPT1: Timer capture 1 interrupt enable * @arg HRTIM_TIM_IT_CPT2: Timer capture 2 interrupt enable * @arg HRTIM_TIM_IT_SET1: Timer output 1 set interrupt enable * @arg HRTIM_TIM_IT_RST1: Timer output 1 reset interrupt enable * @arg HRTIM_TIM_IT_SET2: Timer output 2 set interrupt enable * @arg HRTIM_TIM_IT_RST2: Timer output 2 reset interrupt enable * @arg HRTIM_TIM_IT_RST: Timer reset interrupt enable * @arg HRTIM_TIM_IT_DLYPRT: Timer delay protection interrupt enable * @retval None */ #define __HAL_HRTIM_TIMER_ENABLE_IT(__HANDLE__, __TIMER__, __INTERRUPT__) ((__HANDLE__)->Instance->sTimerxRegs[(__TIMER__)].TIMxDIER |= (__INTERRUPT__)) #define __HAL_HRTIM_TIMER_DISABLE_IT(__HANDLE__, __TIMER__, __INTERRUPT__) ((__HANDLE__)->Instance->sTimerxRegs[(__TIMER__)].TIMxDIER &= ~(__INTERRUPT__)) /** @brief Checks if the specified HRTIM common interrupt source is enabled or disabled. * @param __HANDLE__: specifies the HRTIM Handle. * @param __INTERRUPT__: specifies the interrupt source to check. * This parameter can be one of the following values: * @arg HRTIM_IT_FLT1: Fault 1 interrupt enable * @arg HRTIM_IT_FLT2: Fault 2 interrupt enable * @arg HRTIM_IT_FLT3: Fault 3 enable * @arg HRTIM_IT_FLT4: Fault 4 enable * @arg HRTIM_IT_FLT5: Fault 5 enable * @arg HRTIM_IT_SYSFLT: System Fault interrupt enable * @arg HRTIM_IT_DLLRDY: DLL ready interrupt enable * @arg HRTIM_IT_BMPER: Burst mode period interrupt enable * @retval The new state of __INTERRUPT__ (TRUE or FALSE). */ #define __HAL_HRTIM_GET_ITSTATUS(__HANDLE__, __INTERRUPT__) ((((__HANDLE__)->Instance->sCommonRegs.IER & (__INTERRUPT__)) == (__INTERRUPT__)) ? SET : RESET) /** @brief Checks if the specified HRTIM Master interrupt source is enabled or disabled. * @param __HANDLE__: specifies the HRTIM Handle. * @param __INTERRUPT__: specifies the interrupt source to check. * This parameter can be one of the following values: * @arg HRTIM_MASTER_IT_MCMP1: Master compare 1 interrupt enable * @arg HRTIM_MASTER_IT_MCMP2: Master compare 2 interrupt enable * @arg HRTIM_MASTER_IT_MCMP3: Master compare 3 interrupt enable * @arg HRTIM_MASTER_IT_MCMP4: Master compare 4 interrupt enable * @arg HRTIM_MASTER_IT_MREP: Master Repetition interrupt enable * @arg HRTIM_MASTER_IT_SYNC: Synchronization input interrupt enable * @arg HRTIM_MASTER_IT_MUPD: Master update interrupt enable * @retval The new state of __INTERRUPT__ (TRUE or FALSE). */ #define __HAL_HRTIM_MASTER_GET_ITSTATUS(__HANDLE__, __INTERRUPT__) ((((__HANDLE__)->Instance->sMasterRegs.MDIER & (__INTERRUPT__)) == (__INTERRUPT__)) ? SET : RESET) /** @brief Checks if the specified HRTIM Timerx interrupt source is enabled or disabled. * @param __HANDLE__: specifies the HRTIM Handle. * @param __TIMER__: specified the timing unit (Timer A to E) * @param __INTERRUPT__: specifies the interrupt source to check. * This parameter can be one of the following values: * @arg HRTIM_MASTER_IT_MCMP1: Master compare 1 interrupt enable * @arg HRTIM_MASTER_IT_MCMP2: Master compare 2 interrupt enable * @arg HRTIM_MASTER_IT_MCMP3: Master compare 3 interrupt enable * @arg HRTIM_MASTER_IT_MCMP4: Master compare 4 interrupt enable * @arg HRTIM_MASTER_IT_MREP: Master Repetition interrupt enable * @arg HRTIM_MASTER_IT_SYNC: Synchronization input interrupt enable * @arg HRTIM_MASTER_IT_MUPD: Master update interrupt enable * @arg HRTIM_TIM_IT_CMP1: Timer compare 1 interrupt enable * @arg HRTIM_TIM_IT_CMP2: Timer compare 2 interrupt enable * @arg HRTIM_TIM_IT_CMP3: Timer compare 3 interrupt enable * @arg HRTIM_TIM_IT_CMP4: Timer compare 4 interrupt enable * @arg HRTIM_TIM_IT_REP: Timer repetition interrupt enable * @arg HRTIM_TIM_IT_UPD: Timer update interrupt enable * @arg HRTIM_TIM_IT_CPT1: Timer capture 1 interrupt enable * @arg HRTIM_TIM_IT_CPT2: Timer capture 2 interrupt enable * @arg HRTIM_TIM_IT_SET1: Timer output 1 set interrupt enable * @arg HRTIM_TIM_IT_RST1: Timer output 1 reset interrupt enable * @arg HRTIM_TIM_IT_SET2: Timer output 2 set interrupt enable * @arg HRTIM_TIM_IT_RST2: Timer output 2 reset interrupt enable * @arg HRTIM_TIM_IT_RST: Timer reset interrupt enable * @arg HRTIM_TIM_IT_DLYPRT: Timer delay protection interrupt enable * @retval The new state of __INTERRUPT__ (TRUE or FALSE). */ #define __HAL_HRTIM_TIMER_GET_ITSTATUS(__HANDLE__, __TIMER__, __INTERRUPT__) ((((__HANDLE__)->Instance->sTimerxRegs[(__TIMER__)].TIMxDIER & (__INTERRUPT__)) == (__INTERRUPT__)) ? SET : RESET) /** @brief Clears the specified HRTIM common pending flag. * @param __HANDLE__: specifies the HRTIM Handle. * @param __INTERRUPT__: specifies the interrupt pending bit to clear. * This parameter can be one of the following values: * @arg HRTIM_IT_FLT1: Fault 1 interrupt clear flag * @arg HRTIM_IT_FLT2: Fault 2 interrupt clear flag * @arg HRTIM_IT_FLT3: Fault 3 clear flag * @arg HRTIM_IT_FLT4: Fault 4 clear flag * @arg HRTIM_IT_FLT5: Fault 5 clear flag * @arg HRTIM_IT_SYSFLT: System Fault interrupt clear flag * @arg HRTIM_IT_DLLRDY: DLL ready interrupt clear flag * @arg HRTIM_IT_BMPER: Burst mode period interrupt clear flag * @retval None */ #define __HAL_HRTIM_CLEAR_IT(__HANDLE__, __INTERRUPT__) ((__HANDLE__)->Instance->sCommonRegs.ICR = (__INTERRUPT__)) /** @brief Clears the specified HRTIM Master pending flag. * @param __HANDLE__: specifies the HRTIM Handle. * @param __INTERRUPT__: specifies the interrupt pending bit to clear. * This parameter can be one of the following values: * @arg HRTIM_MASTER_IT_MCMP1: Master compare 1 interrupt clear flag * @arg HRTIM_MASTER_IT_MCMP2: Master compare 2 interrupt clear flag * @arg HRTIM_MASTER_IT_MCMP3: Master compare 3 interrupt clear flag * @arg HRTIM_MASTER_IT_MCMP4: Master compare 4 interrupt clear flag * @arg HRTIM_MASTER_IT_MREP: Master Repetition interrupt clear flag * @arg HRTIM_MASTER_IT_SYNC: Synchronization input interrupt clear flag * @arg HRTIM_MASTER_IT_MUPD: Master update interrupt clear flag * @retval None */ #define __HAL_HRTIM_MASTER_CLEAR_IT(__HANDLE__, __INTERRUPT__) ((__HANDLE__)->Instance->sMasterRegs.MICR = (__INTERRUPT__)) /** @brief Clears the specified HRTIM Timerx pending flag. * @param __HANDLE__: specifies the HRTIM Handle. * @param __TIMER__: specified the timing unit (Timer A to E) * @param __INTERRUPT__: specifies the interrupt pending bit to clear. * This parameter can be one of the following values: * @arg HRTIM_TIM_IT_CMP1: Timer compare 1 interrupt clear flag * @arg HRTIM_TIM_IT_CMP2: Timer compare 2 interrupt clear flag * @arg HRTIM_TIM_IT_CMP3: Timer compare 3 interrupt clear flag * @arg HRTIM_TIM_IT_CMP4: Timer compare 4 interrupt clear flag * @arg HRTIM_TIM_IT_REP: Timer repetition interrupt clear flag * @arg HRTIM_TIM_IT_UPD: Timer update interrupt clear flag * @arg HRTIM_TIM_IT_CPT1: Timer capture 1 interrupt clear flag * @arg HRTIM_TIM_IT_CPT2: Timer capture 2 interrupt clear flag * @arg HRTIM_TIM_IT_SET1: Timer output 1 set interrupt clear flag * @arg HRTIM_TIM_IT_RST1: Timer output 1 reset interrupt clear flag * @arg HRTIM_TIM_IT_SET2: Timer output 2 set interrupt clear flag * @arg HRTIM_TIM_IT_RST2: Timer output 2 reset interrupt clear flag * @arg HRTIM_TIM_IT_RST: Timer reset interrupt clear flag * @arg HRTIM_TIM_IT_DLYPRT: Timer output 1 delay protection interrupt clear flag * @retval None */ #define __HAL_HRTIM_TIMER_CLEAR_IT(__HANDLE__, __TIMER__, __INTERRUPT__) ((__HANDLE__)->Instance->sTimerxRegs[(__TIMER__)].TIMxICR = (__INTERRUPT__)) /* DMA HANDLING */ /** @brief Enables or disables the specified HRTIM common interrupts. * @param __HANDLE__: specifies the HRTIM Handle. * @param __INTERRUPT__: specifies the interrupt source to enable or disable. * This parameter can be one of the following values: * @arg HRTIM_IT_FLT1: Fault 1 interrupt enable * @arg HRTIM_IT_FLT2: Fault 2 interrupt enable * @arg HRTIM_IT_FLT3: Fault 3 interrupt enable * @arg HRTIM_IT_FLT4: Fault 4 interrupt enable * @arg HRTIM_IT_FLT5: Fault 5 interrupt enable * @arg HRTIM_IT_SYSFLT: System Fault interrupt enable * @arg HRTIM_IT_DLLRDY: DLL ready interrupt enable * @arg HRTIM_IT_BMPER: Burst mode period interrupt enable * @retval None */ #define __HAL_HRTIM_ENABLE_IT(__HANDLE__, __INTERRUPT__) ((__HANDLE__)->Instance->sCommonRegs.IER |= (__INTERRUPT__)) #define __HAL_HRTIM_DISABLE_IT(__HANDLE__, __INTERRUPT__) ((__HANDLE__)->Instance->sCommonRegs.IER &= ~(__INTERRUPT__)) /** @brief Enables or disables the specified HRTIM Master timer DMA requets. * @param __HANDLE__: specifies the HRTIM Handle. * @param __DMA__: specifies the DMA request to enable or disable. * This parameter can be one of the following values: * @arg HRTIM_MASTER_DMA_MCMP1: Master compare 1 DMA resquest enable * @arg HRTIM_MASTER_DMA_MCMP2: Master compare 2 DMA resquest enable * @arg HRTIM_MASTER_DMA_MCMP3: Master compare 3 DMA resquest enable * @arg HRTIM_MASTER_DMA_MCMP4: Master compare 4 DMA resquest enable * @arg HRTIM_MASTER_DMA_MREP: Master Repetition DMA resquest enable * @arg HRTIM_MASTER_DMA_SYNC: Synchronization input DMA resquest enable * @arg HRTIM_MASTER_DMA_MUPD: Master update DMA resquest enable * @retval None */ #define __HAL_HRTIM_MASTER_ENABLE_DMA(__HANDLE__, __DMA__) ((__HANDLE__)->Instance->sMasterRegs.MDIER |= (__DMA__)) #define __HAL_HRTIM_MASTER_DISABLE_DMA(__HANDLE__, __DMA__) ((__HANDLE__)->Instance->sMasterRegs.MDIER &= ~(__DMA__)) /** @brief Enables or disables the specified HRTIM Timerx DMA requests. * @param __HANDLE__: specifies the HRTIM Handle. * @param __TIMER__: specified the timing unit (Timer A to E) * @param __DMA__: specifies the DMA request to enable or disable. * This parameter can be one of the following values: * @arg HRTIM_TIM_DMA_CMP1: Timer compare 1 DMA resquest enable * @arg HRTIM_TIM_DMA_CMP2: Timer compare 2 DMA resquest enable * @arg HRTIM_TIM_DMA_CMP3: Timer compare 3 DMA resquest enable * @arg HRTIM_TIM_DMA_CMP4: Timer compare 4 DMA resquest enable * @arg HRTIM_TIM_DMA_REP: Timer repetition DMA resquest enable * @arg HRTIM_TIM_DMA_UPD: Timer update DMA resquest enable * @arg HRTIM_TIM_DMA_CPT1: Timer capture 1 DMA resquest enable * @arg HRTIM_TIM_DMA_CPT2: Timer capture 2 DMA resquest enable * @arg HRTIM_TIM_DMA_SET1: Timer output 1 set DMA resquest enable * @arg HRTIM_TIM_DMA_RST1: Timer output 1 reset DMA resquest enable * @arg HRTIM_TIM_DMA_SET2: Timer output 2 set DMA resquest enable * @arg HRTIM_TIM_DMA_RST2: Timer output 2 reset DMA resquest enable * @arg HRTIM_TIM_DMA_RST: Timer reset DMA resquest enable * @arg HRTIM_TIM_DMA_DLYPRT: Timer delay protection DMA resquest enable * @retval None */ #define __HAL_HRTIM_TIMER_ENABLE_DMA(__HANDLE__, __TIMER__, __DMA__) ((__HANDLE__)->Instance->sTimerxRegs[(__TIMER__)].TIMxDIER |= (__DMA__)) #define __HAL_HRTIM_TIMER_DISABLE_DMA(__HANDLE__, __TIMER__, __DMA__) ((__HANDLE__)->Instance->sTimerxRegs[(__TIMER__)].TIMxDIER &= ~(__DMA__)) #define __HAL_HRTIM_GET_FLAG(__HANDLE__, __FLAG__) (((__HANDLE__)->Instance->sCommonRegs.ISR & (__FLAG__)) == (__FLAG__)) #define __HAL_HRTIM_CLEAR_FLAG(__HANDLE__, __FLAG__) ((__HANDLE__)->Instance->sCommonRegs.ICR = (__FLAG__)) #define __HAL_HRTIM_MASTER_GET_FLAG(__HANDLE__, __FLAG__) (((__HANDLE__)->Instance->sMasterRegs.MISR & (__FLAG__)) == (__FLAG__)) #define __HAL_HRTIM_MASTER_CLEAR_FLAG(__HANDLE__, __FLAG__) ((__HANDLE__)->Instance->sMasterRegs.MICR = (__FLAG__)) #define __HAL_HRTIM_TIMER_GET_FLAG(__HANDLE__, __TIMER__, __FLAG__) (((__HANDLE__)->Instance->sTimerxRegs[(__TIMER__)].TIMxISR & (__FLAG__)) == (__FLAG__)) #define __HAL_HRTIM_TIMER_CLEAR_FLAG(__HANDLE__, __TIMER__, __FLAG__) ((__HANDLE__)->Instance->sTimerxRegs[(__TIMER__)].TIMxICR = (__FLAG__)) /** @brief Sets the HRTIM timer Counter Register value on runtime * @param __HANDLE__: HRTIM Handle. * @param __TIMER__: HRTIM timer * This parameter can be one of the following values: * @arg 0x5 for master timer * @arg 0x0 to 0x4 for timers A to E * @param __COUNTER__: specifies the Counter Register new value. * @retval None */ #define __HAL_HRTIM_SetCounter(__HANDLE__, __TIMER__, __COUNTER__) \ (((__TIMER__) == HRTIM_TIMERINDEX_MASTER) ? ((__HANDLE__)->Instance->sMasterRegs.MCNTR = (__COUNTER__)) :\ ((__HANDLE__)->Instance->sTimerxRegs[(__TIMER__)].CNTxR = (__COUNTER__))) /** @brief Gets the HRTIM timer Counter Register value on runtime * @param __HANDLE__: HRTIM Handle. * @param __TIMER__: HRTIM timer * This parameter can be one of the following values: * @arg 0x5 for master timer * @arg 0x0 to 0x4 for timers A to E * @retval HRTIM timer Counter Register value */ #define __HAL_HRTIM_GetCounter(__HANDLE__, __TIMER__) \ (((__TIMER__) == HRTIM_TIMERINDEX_MASTER) ? ((__HANDLE__)->Instance->sMasterRegs.MCNTR) :\ ((__HANDLE__)->Instance->sTimerxRegs[(__TIMER__)].CNTxR)) /** @brief Sets the HRTIM timer Period value on runtime * @param __HANDLE__: HRTIM Handle. * @param __TIMER__: HRTIM timer * This parameter can be one of the following values: * @arg 0x5 for master timer * @arg 0x0 to 0x4 for timers A to E * @param __PERIOD__: specifies the Period Register new value. * @retval None */ #define __HAL_HRTIM_SetPeriod(__HANDLE__, __TIMER__, __PERIOD__) \ (((__TIMER__) == HRTIM_TIMERINDEX_MASTER) ? ((__HANDLE__)->Instance->sMasterRegs.MPER = (__PERIOD__)) :\ ((__HANDLE__)->Instance->sTimerxRegs[(__TIMER__)].PERxR = (__PERIOD__))) /** @brief Gets the HRTIM timer Period Register value on runtime * @param __HANDLE__: HRTIM Handle. * @param __TIMER__: HRTIM timer * This parameter can be one of the following values: * @arg 0x5 for master timer * @arg 0x0 to 0x4 for timers A to E * @retval timer Period Register */ #define __HAL_HRTIM_GetPeriod(__HANDLE__, __TIMER__) \ (((__TIMER__) == HRTIM_TIMERINDEX_MASTER) ? ((__HANDLE__)->Instance->sMasterRegs.MPER) :\ ((__HANDLE__)->Instance->sTimerxRegs[(__TIMER__)].PERxR)) /** @brief Sets the HRTIM timer clock prescaler value on runtime * @param __HANDLE__: HRTIM Handle. * @param __TIMER__: HRTIM timer * This parameter can be one of the following values: * @arg 0x5 for master timer * @arg 0x0 to 0x4 for timers A to E * @param __PRESCALER__: specifies the clock prescaler new value. * This parameter can be one of the following values: * @arg HRTIM_PRESCALERRATIO_MUL32: fHRCK: 4.608 GHz - Resolution: 217 ps - Min PWM frequency: 70.3 kHz (fHRTIM=144MHz) * @arg HRTIM_PRESCALERRATIO_MUL16: fHRCK: 2.304 GHz - Resolution: 434 ps - Min PWM frequency: 35.1 KHz (fHRTIM=144MHz) * @arg HRTIM_PRESCALERRATIO_MUL8: fHRCK: 1.152 GHz - Resolution: 868 ps - Min PWM frequency: 17.6 kHz (fHRTIM=144MHz) * @arg HRTIM_PRESCALERRATIO_MUL4: fHRCK: 576 MHz - Resolution: 1.73 ns - Min PWM frequency: 8.8 kHz (fHRTIM=144MHz) * @arg HRTIM_PRESCALERRATIO_MUL2: fHRCK: 288 MHz - Resolution: 3.47 ns - Min PWM frequency: 4.4 kHz (fHRTIM=144MHz) * @arg HRTIM_PRESCALERRATIO_DIV1: fHRCK: 144 MHz - Resolution: 6.95 ns - Min PWM frequency: 2.2 kHz (fHRTIM=144MHz) * @arg HRTIM_PRESCALERRATIO_DIV2: fHRCK: 72 MHz - Resolution: 13.88 ns- Min PWM frequency: 1.1 kHz (fHRTIM=144MHz) * @arg HRTIM_PRESCALERRATIO_DIV4: fHRCK: 36 MHz - Resolution: 27.7 ns- Min PWM frequency: 550Hz (fHRTIM=144MHz) * @retval None */ #define __HAL_HRTIM_SetClockPrescaler(__HANDLE__, __TIMER__, __PRESCALER__) \ (((__TIMER__) == HRTIM_TIMERINDEX_MASTER) ? ((__HANDLE__)->Instance->sMasterRegs.MCR |= (__PRESCALER__)) :\ ((__HANDLE__)->Instance->sTimerxRegs[(__TIMER__)].TIMxCR |= (__PRESCALER__))) /** @brief Gets the HRTIM timer clock prescaler value on runtime * @param __HANDLE__: HRTIM Handle. * @param __TIMER__: HRTIM timer * This parameter can be one of the following values: * @arg 0x5 for master timer * @arg 0x0 to 0x4 for timers A to E * @retval timer clock prescaler value */ #define __HAL_HRTIM_GetClockPrescaler(__HANDLE__, __TIMER__) \ (((__TIMER__) == HRTIM_TIMERINDEX_MASTER) ? ((__HANDLE__)->Instance->sMasterRegs.MCR & HRTIM_MCR_CK_PSC) :\ ((__HANDLE__)->Instance->sTimerxRegs[(__TIMER__)].TIMxCR & HRTIM_TIMCR_CK_PSC)) /** @brief Sets the HRTIM timer Compare Register value on runtime * @param __HANDLE__: HRTIM Handle. * @param __TIMER__: HRTIM timer * This parameter can be one of the following values: * @arg 0x0 to 0x4 for timers A to E * @param __COMPAREUNIT__: timer compare unit * This parameter can be one of the following values: * @arg HRTIM_COMPAREUNIT_1: Compare unit 1 * @arg HRTIM_COMPAREUNIT_2: Compare unit 2 * @arg HRTIM_COMPAREUNIT_3: Compare unit 3 * @arg HRTIM_COMPAREUNIT_4: Compare unit 4 * @param __COMPARE__: specifies the Compare new value. * @retval None */ #define __HAL_HRTIM_SetCompare(__HANDLE__, __TIMER__, __COMPAREUNIT__, __COMPARE__) \ (((__TIMER__) == HRTIM_TIMERINDEX_MASTER) ? \ (((__COMPAREUNIT__) == HRTIM_COMPAREUNIT_1) ? ((__HANDLE__)->Instance->sMasterRegs.MCMP1R = (__COMPARE__)) :\ ((__COMPAREUNIT__) == HRTIM_COMPAREUNIT_2) ? ((__HANDLE__)->Instance->sMasterRegs.MCMP2R = (__COMPARE__)) :\ ((__COMPAREUNIT__) == HRTIM_COMPAREUNIT_3) ? ((__HANDLE__)->Instance->sMasterRegs.MCMP3R = (__COMPARE__)) :\ ((__HANDLE__)->Instance->sMasterRegs.MCMP4R = (__COMPARE__))) \ : \ (((__COMPAREUNIT__) == HRTIM_COMPAREUNIT_1) ? ((__HANDLE__)->Instance->sTimerxRegs[(__TIMER__)].CMP1xR = (__COMPARE__)) :\ ((__COMPAREUNIT__) == HRTIM_COMPAREUNIT_2) ? ((__HANDLE__)->Instance->sTimerxRegs[(__TIMER__)].CMP2xR = (__COMPARE__)) :\ ((__COMPAREUNIT__) == HRTIM_COMPAREUNIT_3) ? ((__HANDLE__)->Instance->sTimerxRegs[(__TIMER__)].CMP3xR = (__COMPARE__)) :\ ((__HANDLE__)->Instance->sTimerxRegs[(__TIMER__)].CMP4xR = (__COMPARE__)))) /** @brief Gets the HRTIM timer Compare Register value on runtime * @param __HANDLE__: HRTIM Handle. * @param __TIMER__: HRTIM timer * This parameter can be one of the following values: * @arg 0x0 to 0x4 for timers A to E * @param __COMPAREUNIT__: timer compare unit * This parameter can be one of the following values: * @arg HRTIM_COMPAREUNIT_1: Compare unit 1 * @arg HRTIM_COMPAREUNIT_2: Compare unit 2 * @arg HRTIM_COMPAREUNIT_3: Compare unit 3 * @arg HRTIM_COMPAREUNIT_4: Compare unit 4 * @retval Compare value */ #define __HAL_HRTIM_GetCompare(__HANDLE__, __TIMER__, __COMPAREUNIT__) \ (((__TIMER__) == HRTIM_TIMERINDEX_MASTER) ? \ (((__COMPAREUNIT__) == HRTIM_COMPAREUNIT_1) ? ((__HANDLE__)->Instance->sMasterRegs.MCMP1R) :\ ((__COMPAREUNIT__) == HRTIM_COMPAREUNIT_2) ? ((__HANDLE__)->Instance->sMasterRegs.MCMP2R) :\ ((__COMPAREUNIT__) == HRTIM_COMPAREUNIT_3) ? ((__HANDLE__)->Instance->sMasterRegs.MCMP3R) :\ ((__HANDLE__)->Instance->sMasterRegs.MCMP4R)) \ : \ (((__COMPAREUNIT__) == HRTIM_COMPAREUNIT_1) ? ((__HANDLE__)->Instance->sTimerxRegs[(__TIMER__)].CMP1xR) :\ ((__COMPAREUNIT__) == HRTIM_COMPAREUNIT_2) ? ((__HANDLE__)->Instance->sTimerxRegs[(__TIMER__)].CMP2xR) :\ ((__COMPAREUNIT__) == HRTIM_COMPAREUNIT_3) ? ((__HANDLE__)->Instance->sTimerxRegs[(__TIMER__)].CMP3xR) :\ ((__HANDLE__)->Instance->sTimerxRegs[(__TIMER__)].CMP4xR))) /** * @} */ /* Exported functions --------------------------------------------------------*/ /** @addtogroup HRTIM_Exported_Functions HRTIM Exported Functions * @{ */ /** @addtogroup HRTIM_Exported_Functions_Group1 Initialization and de-initialization functions * @{ */ /* Initialization and Configuration functions ********************************/ HAL_StatusTypeDef HAL_HRTIM_Init(HRTIM_HandleTypeDef *hhrtim); HAL_StatusTypeDef HAL_HRTIM_DeInit (HRTIM_HandleTypeDef *hhrtim); void HAL_HRTIM_MspInit(HRTIM_HandleTypeDef *hhrtim); void HAL_HRTIM_MspDeInit(HRTIM_HandleTypeDef *hhrtim); HAL_StatusTypeDef HAL_HRTIM_TimeBaseConfig(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx, HRTIM_TimeBaseCfgTypeDef * pTimeBaseCfg); HAL_StatusTypeDef HAL_HRTIM_DLLCalibrationStart(HRTIM_HandleTypeDef *hhrtim, uint32_t CalibrationRate); HAL_StatusTypeDef HAL_HRTIM_DLLCalibrationStart_IT(HRTIM_HandleTypeDef *hhrtim, uint32_t CalibrationRate); HAL_StatusTypeDef HAL_HRTIM_PollForDLLCalibration(HRTIM_HandleTypeDef *hhrtim, uint32_t Timeout); /** * @} */ /** @addtogroup HRTIM_Exported_Functions_Group2 Simple time base mode functions * @{ */ /* Simple time base related functions *****************************************/ HAL_StatusTypeDef HAL_HRTIM_SimpleBaseStart(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx); HAL_StatusTypeDef HAL_HRTIM_SimpleBaseStop(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx); HAL_StatusTypeDef HAL_HRTIM_SimpleBaseStart_IT(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx); HAL_StatusTypeDef HAL_HRTIM_SimpleBaseStop_IT(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx); HAL_StatusTypeDef HAL_HRTIM_SimpleBaseStart_DMA(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx, uint32_t SrcAddr, uint32_t DestAddr, uint32_t Length); HAL_StatusTypeDef HAL_HRTIM_SimpleBaseStop_DMA(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx); /** * @} */ /** @addtogroup HRTIM_Exported_Functions_Group3 Simple output compare mode functions * @{ */ /* Simple output compare related functions ************************************/ HAL_StatusTypeDef HAL_HRTIM_SimpleOCChannelConfig(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx, uint32_t OCChannel, HRTIM_SimpleOCChannelCfgTypeDef* pSimpleOCChannelCfg); HAL_StatusTypeDef HAL_HRTIM_SimpleOCStart(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx, uint32_t OCChannel); HAL_StatusTypeDef HAL_HRTIM_SimpleOCStop(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx, uint32_t OCChannel); HAL_StatusTypeDef HAL_HRTIM_SimpleOCStart_IT(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx, uint32_t OCChannel); HAL_StatusTypeDef HAL_HRTIM_SimpleOCStop_IT(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx, uint32_t OCChannel); HAL_StatusTypeDef HAL_HRTIM_SimpleOCStart_DMA(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx, uint32_t OCChannel, uint32_t SrcAddr, uint32_t DestAddr, uint32_t Length); HAL_StatusTypeDef HAL_HRTIM_SimpleOCStop_DMA(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx, uint32_t OCChannel); /** * @} */ /** @addtogroup HRTIM_Exported_Functions_Group4 Simple PWM output mode functions * @{ */ /* Simple PWM output related functions ****************************************/ HAL_StatusTypeDef HAL_HRTIM_SimplePWMChannelConfig(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx, uint32_t PWMChannel, HRTIM_SimplePWMChannelCfgTypeDef* pSimplePWMChannelCfg); HAL_StatusTypeDef HAL_HRTIM_SimplePWMStart(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx, uint32_t PWMChannel); HAL_StatusTypeDef HAL_HRTIM_SimplePWMStop(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx, uint32_t PWMChannel); HAL_StatusTypeDef HAL_HRTIM_SimplePWMStart_IT(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx, uint32_t PWMChannel); HAL_StatusTypeDef HAL_HRTIM_SimplePWMStop_IT(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx, uint32_t PWMChannel); HAL_StatusTypeDef HAL_HRTIM_SimplePWMStart_DMA(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx, uint32_t PWMChannel, uint32_t SrcAddr, uint32_t DestAddr, uint32_t Length); HAL_StatusTypeDef HAL_HRTIM_SimplePWMStop_DMA(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx, uint32_t PWMChannel); /** * @} */ /** @addtogroup HRTIM_Exported_Functions_Group5 Simple input capture functions * @{ */ /* Simple capture related functions *******************************************/ HAL_StatusTypeDef HAL_HRTIM_SimpleCaptureChannelConfig(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx, uint32_t CaptureChannel, HRTIM_SimpleCaptureChannelCfgTypeDef* pSimpleCaptureChannelCfg); HAL_StatusTypeDef HAL_HRTIM_SimpleCaptureStart(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx, uint32_t CaptureChannel); HAL_StatusTypeDef HAL_HRTIM_SimpleCaptureStop(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx, uint32_t CaptureChannel); HAL_StatusTypeDef HAL_HRTIM_SimpleCaptureStart_IT(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx, uint32_t CaptureChannel); HAL_StatusTypeDef HAL_HRTIM_SimpleCaptureStop_IT(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx, uint32_t CaptureChannel); HAL_StatusTypeDef HAL_HRTIM_SimpleCaptureStart_DMA(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx, uint32_t CaptureChannel, uint32_t SrcAddr, uint32_t DestAddr, uint32_t Length); HAL_StatusTypeDef HAL_HRTIM_SimpleCaptureStop_DMA(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx, uint32_t CaptureChannel); /** * @} */ /** @addtogroup HRTIM_Exported_Functions_Group6 Simple one pulse functions * @{ */ /* Simple one pulse related functions *****************************************/ HAL_StatusTypeDef HAL_HRTIM_SimpleOnePulseChannelConfig(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx, uint32_t OnePulseChannel, HRTIM_SimpleOnePulseChannelCfgTypeDef* pSimpleOnePulseChannelCfg); HAL_StatusTypeDef HAL_HRTIM_SimpleOnePulseStart(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx, uint32_t OnePulseChannel); HAL_StatusTypeDef HAL_HRTIM_SimpleOnePulseStop(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx, uint32_t OnePulseChannel); HAL_StatusTypeDef HAL_HRTIM_SimpleOnePulseStart_IT(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx, uint32_t OnePulseChannel); HAL_StatusTypeDef HAL_HRTIM_SimpleOnePulseStop_IT(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx, uint32_t OnePulseChannel); /** * @} */ /** @addtogroup HRTIM_Exported_Functions_Group7 Configuration functions * @{ */ HAL_StatusTypeDef HAL_HRTIM_BurstModeConfig(HRTIM_HandleTypeDef *hhrtim, HRTIM_BurstModeCfgTypeDef* pBurstModeCfg); HAL_StatusTypeDef HAL_HRTIM_EventConfig(HRTIM_HandleTypeDef *hhrtim, uint32_t Event, HRTIM_EventCfgTypeDef* pEventCfg); HAL_StatusTypeDef HAL_HRTIM_EventPrescalerConfig(HRTIM_HandleTypeDef *hhrtim, uint32_t Prescaler); HAL_StatusTypeDef HAL_HRTIM_FaultConfig(HRTIM_HandleTypeDef *hhrtim, uint32_t Fault, HRTIM_FaultCfgTypeDef* pFaultCfg); HAL_StatusTypeDef HAL_HRTIM_FaultPrescalerConfig(HRTIM_HandleTypeDef *hhrtim, uint32_t Prescaler); void HAL_HRTIM_FaultModeCtl(HRTIM_HandleTypeDef * hhrtim, uint32_t Faults, uint32_t Enable); HAL_StatusTypeDef HAL_HRTIM_ADCTriggerConfig(HRTIM_HandleTypeDef *hhrtim, uint32_t ADCTrigger, HRTIM_ADCTriggerCfgTypeDef* pADCTriggerCfg); /** * @} */ /** @addtogroup HRTIM_Exported_Functions_Group8 Timer waveform configuration and functions * @{ */ /* Waveform related functions *************************************************/ HAL_StatusTypeDef HAL_HRTIM_WaveformTimerConfig(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx, HRTIM_TimerCfgTypeDef * pTimerCfg); HAL_StatusTypeDef HAL_HRTIM_WaveformCompareConfig(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx, uint32_t CompareUnit, HRTIM_CompareCfgTypeDef* pCompareCfg); HAL_StatusTypeDef HAL_HRTIM_WaveformCaptureConfig(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx, uint32_t CaptureUnit, HRTIM_CaptureCfgTypeDef* pCaptureCfg); HAL_StatusTypeDef HAL_HRTIM_WaveformOutputConfig(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx, uint32_t Output, HRTIM_OutputCfgTypeDef * pOutputCfg); HAL_StatusTypeDef HAL_HRTIM_WaveformSetOutputLevel(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx, uint32_t Output, uint32_t OutputLevel); HAL_StatusTypeDef HAL_HRTIM_TimerEventFilteringConfig(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx, uint32_t Event, HRTIM_TimerEventFilteringCfgTypeDef * pTimerEventFilteringCfg); HAL_StatusTypeDef HAL_HRTIM_DeadTimeConfig(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx, HRTIM_DeadTimeCfgTypeDef* pDeadTimeCfg); HAL_StatusTypeDef HAL_HRTIM_ChopperModeConfig(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx, HRTIM_ChopperModeCfgTypeDef* pChopperModeCfg); HAL_StatusTypeDef HAL_HRTIM_BurstDMAConfig(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx, uint32_t RegistersToUpdate); HAL_StatusTypeDef HAL_HRTIM_WaveformCounterStart(HRTIM_HandleTypeDef *hhrtim, uint32_t Timers); HAL_StatusTypeDef HAL_HRTIM_WaveformCounterStop(HRTIM_HandleTypeDef *hhrtim, uint32_t Timers); HAL_StatusTypeDef HAL_HRTIM_WaveformCounterStart_IT(HRTIM_HandleTypeDef *hhrtim, uint32_t Timers); HAL_StatusTypeDef HAL_HRTIM_WaveformCounterStop_IT(HRTIM_HandleTypeDef *hhrtim, uint32_t Timers); HAL_StatusTypeDef HAL_HRTIM_WaveformCounterStart_DMA(HRTIM_HandleTypeDef *hhrtim, uint32_t Timers); HAL_StatusTypeDef HAL_HRTIM_WaveformCounterStop_DMA(HRTIM_HandleTypeDef *hhrtim, uint32_t Timers); HAL_StatusTypeDef HAL_HRTIM_WaveformOutputStart(HRTIM_HandleTypeDef *hhrtim, uint32_t OutputsToStart); HAL_StatusTypeDef HAL_HRTIM_WaveformOutputStop(HRTIM_HandleTypeDef *hhrtim, uint32_t OutputsToStop); HAL_StatusTypeDef HAL_HRTIM_BurstModeCtl(HRTIM_HandleTypeDef *hhrtim, uint32_t Enable); HAL_StatusTypeDef HAL_HRTIM_BurstModeSoftwareTrigger(HRTIM_HandleTypeDef *hhrtim); HAL_StatusTypeDef HAL_HRTIM_SoftwareCapture(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx, uint32_t CaptureUnit); HAL_StatusTypeDef HAL_HRTIM_SoftwareUpdate(HRTIM_HandleTypeDef *hhrtim, uint32_t Timers); HAL_StatusTypeDef HAL_HRTIM_SoftwareReset(HRTIM_HandleTypeDef *hhrtim, uint32_t Timers); HAL_StatusTypeDef HAL_HRTIM_BurstDMATransfer(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx, uint32_t BurstBufferAddress, uint32_t BurstBufferLength); HAL_StatusTypeDef HAL_HRTIM_UpdateEnable(HRTIM_HandleTypeDef *hhrtim, uint32_t Timers); HAL_StatusTypeDef HAL_HRTIM_UpdateDisable(HRTIM_HandleTypeDef *hhrtim, uint32_t Timers); /** * @} */ /** @addtogroup HRTIM_Exported_Functions_Group9 Peripheral state functions * @{ */ /* HRTIM peripheral state functions */ HAL_HRTIM_StateTypeDef HAL_HRTIM_GetState(HRTIM_HandleTypeDef* hhrtim); uint32_t HAL_HRTIM_GetCapturedValue(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx, uint32_t CaptureUnit); uint32_t HAL_HRTIM_WaveformGetOutputLevel(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx, uint32_t Output); uint32_t HAL_HRTIM_WaveformGetOutputState(HRTIM_HandleTypeDef * hhrtim, uint32_t TimerIdx, uint32_t Output); uint32_t HAL_HRTIM_GetDelayedProtectionStatus(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx, uint32_t Output); uint32_t HAL_HRTIM_GetBurstStatus(HRTIM_HandleTypeDef *hhrtim); uint32_t HAL_HRTIM_GetCurrentPushPullStatus(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx); uint32_t HAL_HRTIM_GetIdlePushPullStatus(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx); /** * @} */ /** @addtogroup HRTIM_Exported_Functions_Group10 Interrupts handling * @{ */ /* IRQ handler */ void HAL_HRTIM_IRQHandler(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx); /* HRTIM events related callback functions */ void HAL_HRTIM_Fault1Callback(HRTIM_HandleTypeDef *hhrtim); void HAL_HRTIM_Fault2Callback(HRTIM_HandleTypeDef *hhrtim); void HAL_HRTIM_Fault3Callback(HRTIM_HandleTypeDef *hhrtim); void HAL_HRTIM_Fault4Callback(HRTIM_HandleTypeDef *hhrtim); void HAL_HRTIM_Fault5Callback(HRTIM_HandleTypeDef *hhrtim); void HAL_HRTIM_SystemFaultCallback(HRTIM_HandleTypeDef *hhrtim); void HAL_HRTIM_DLLCalbrationReadyCallback(HRTIM_HandleTypeDef *hhrtim); void HAL_HRTIM_BurstModePeriodCallback(HRTIM_HandleTypeDef *hhrtim); void HAL_HRTIM_SynchronizationEventCallback(HRTIM_HandleTypeDef *hhrtim); /* Timer events related callback functions */ void HAL_HRTIM_RegistersUpdateCallback(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx); void HAL_HRTIM_RepetitionEventCallback(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx); void HAL_HRTIM_Compare1EventCallback(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx); void HAL_HRTIM_Compare2EventCallback(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx); void HAL_HRTIM_Compare3EventCallback(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx); void HAL_HRTIM_Compare4EventCallback(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx); void HAL_HRTIM_Capture1EventCallback(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx); void HAL_HRTIM_Capture2EventCallback(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx); void HAL_HRTIM_DelayedProtectionCallback(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx); void HAL_HRTIM_CounterResetCallback(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx); void HAL_HRTIM_Output1SetCallback(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx); void HAL_HRTIM_Output1ResetCallback(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx); void HAL_HRTIM_Output2SetCallback(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx); void HAL_HRTIM_Output2ResetCallback(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx); void HAL_HRTIM_BurstDMATransferCallback(HRTIM_HandleTypeDef *hhrtim, uint32_t TimerIdx); void HAL_HRTIM_ErrorCallback(HRTIM_HandleTypeDef *hhrtim); /** * @} */ /** * @} */ /** * @} */ /** * @} */ #endif /* defined(STM32F334x8) */ #ifdef __cplusplus } #endif #endif /* __STM32F3xx_HAL_HRTIM_H */ /************************ (C) COPYRIGHT STMicroelectronics *****END OF FILE****/