/** ****************************************************************************** * @file stm32f3xx_ll_hrtim.h * @author MCD Application Team * @brief Header file of HRTIM LL module. ****************************************************************************** * @attention * *

© COPYRIGHT(c) 2016 STMicroelectronics

* * 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_LL_HRTIM_H #define __STM32F3xx_LL_HRTIM_H #ifdef __cplusplus extern "C" { #endif /* Includes ------------------------------------------------------------------*/ #include "stm32f3xx.h" /** @addtogroup STM32F3xx_LL_Driver * @{ */ #if defined (HRTIM1) /** @defgroup HRTIM_LL HRTIM * @{ */ /* Private types -------------------------------------------------------------*/ /* Private variables ---------------------------------------------------------*/ /** @defgroup HRTIM_LL_Private_Variables HRTIM Private Variables * @{ */ static const uint16_t REG_OFFSET_TAB_TIMER[] = { 0x00U, /* 0: MASTER */ 0x80U, /* 1: TIMER A */ 0x100U, /* 2: TIMER B */ 0x180U, /* 3: TIMER C */ 0x200U, /* 4: TIMER D */ 0x280U, /* 5: TIMER E */ }; static const uint8_t REG_OFFSET_TAB_ADCxR[] = { 0x00U, /* 0: HRTIM_ADC1R */ 0x04U, /* 1: HRTIM_ADC2R */ 0x08U, /* 2: HRTIM_ADC3R */ 0x0CU, /* 3: HRTIM_ADC4R */ }; static const uint16_t REG_OFFSET_TAB_SETxR[] = { 0x00U, /* 0: TA1 */ 0x08U, /* 1: TA2 */ 0x80U, /* 2: TB1 */ 0x88U, /* 3: TB2 */ 0x100U, /* 4: TC1 */ 0x108U, /* 5: TC2 */ 0x180U, /* 6: TD1 */ 0x188U, /* 7: TD2 */ 0x200U, /* 8: TE1 */ 0x208U /* 9: TE2 */ }; static const uint16_t REG_OFFSET_TAB_OUTxR[] = { 0x00U, /* 0: TA1 */ 0x00U, /* 1: TA2 */ 0x80U, /* 2: TB1 */ 0x80U, /* 3: TB2 */ 0x100U, /* 4: TC1 */ 0x100U, /* 5: TC2 */ 0x180U, /* 6: TD1 */ 0x180U, /* 7: TD2 */ 0x200U, /* 8: TE1 */ 0x200U /* 9: TE2 */ }; static const uint8_t REG_OFFSET_TAB_OUT_LEVEL[] = { 0x04U, /* 0: LL_HRTIM_OUT_LEVEL_INACTIVE */ 0x00U /* 1: LL_HRTIM_OUT_LEVEL_ACTIVE */ }; static const uint8_t REG_OFFSET_TAB_EECR[] = { 0x00U, /* LL_HRTIM_EVENT_1 */ 0x00U, /* LL_HRTIM_EVENT_2 */ 0x00U, /* LL_HRTIM_EVENT_3 */ 0x00U, /* LL_HRTIM_EVENT_4 */ 0x00U, /* LL_HRTIM_EVENT_5 */ 0x04U, /* LL_HRTIM_EVENT_6 */ 0x04U, /* LL_HRTIM_EVENT_7 */ 0x04U, /* LL_HRTIM_EVENT_8 */ 0x04U, /* LL_HRTIM_EVENT_9 */ 0x04U /* LL_HRTIM_EVENT_10 */ }; static const uint8_t REG_OFFSET_TAB_FLTINR[] = { 0x00U, /* LL_HRTIM_FAULT_1 */ 0x00U, /* LL_HRTIM_FAULT_2 */ 0x00U, /* LL_HRTIM_FAULT_3 */ 0x00U, /* LL_HRTIM_FAULT_4 */ 0x04U /* LL_HRTIM_FAULT_5 */ }; static const uint32_t REG_MASK_TAB_UPDATETRIG[] = { 0x20000000U, /* 0: MASTER */ 0x01FE0000U, /* 1: TIMER A */ 0x01FE0000U, /* 2: TIMER B */ 0x01FE0000U, /* 3: TIMER C */ 0x01FE0000U, /* 4: TIMER D */ 0x01FE0000U, /* 5: TIMER E */ }; static const uint8_t REG_SHIFT_TAB_UPDATETRIG[] = { 12U, /* 0: MASTER */ 0U, /* 1: TIMER A */ 0U, /* 2: TIMER B */ 0U, /* 3: TIMER C */ 0U, /* 4: TIMER D */ 0U, /* 5: TIMER E */ }; static const uint8_t REG_SHIFT_TAB_EExSRC[] = { 0U, /* LL_HRTIM_EVENT_1 */ 6U, /* LL_HRTIM_EVENT_2 */ 12U, /* LL_HRTIM_EVENT_3 */ 18U, /* LL_HRTIM_EVENT_4 */ 24U, /* LL_HRTIM_EVENT_5 */ 0U, /* LL_HRTIM_EVENT_6 */ 6U, /* LL_HRTIM_EVENT_7 */ 12U, /* LL_HRTIM_EVENT_8 */ 18U, /* LL_HRTIM_EVENT_9 */ 24U /* LL_HRTIM_EVENT_10 */ }; static const uint32_t REG_MASK_TAB_UPDATEGATING[] = { HRTIM_MCR_BRSTDMA, /* 0: MASTER */ HRTIM_TIMCR_UPDGAT, /* 1: TIMER A */ HRTIM_TIMCR_UPDGAT, /* 2: TIMER B */ HRTIM_TIMCR_UPDGAT, /* 3: TIMER C */ HRTIM_TIMCR_UPDGAT, /* 4: TIMER D */ HRTIM_TIMCR_UPDGAT, /* 5: TIMER E */ }; static const uint8_t REG_SHIFT_TAB_UPDATEGATING[] = { 2U, /* 0: MASTER */ 0U, /* 1: TIMER A */ 0U, /* 2: TIMER B */ 0U, /* 3: TIMER C */ 0U, /* 4: TIMER D */ 0U, /* 5: TIMER E */ }; static const uint8_t REG_SHIFT_TAB_OUTxR[] = { 0U, /* 0: TA1 */ 16U, /* 1: TA2 */ 0U, /* 2: TB1 */ 16U, /* 3: TB2 */ 0U, /* 4: TC1 */ 16U, /* 5: TC2 */ 0U, /* 6: TD1 */ 16U, /* 7: TD2 */ 0U, /* 8: TE1 */ 16U /* 9: TE2 */ }; static const uint8_t REG_SHIFT_TAB_OxSTAT[] = { 0U, /* 0: TA1 */ 1U, /* 1: TA2 */ 0U, /* 2: TB1 */ 1U, /* 3: TB2 */ 0U, /* 4: TC1 */ 1U, /* 5: TC2 */ 0U, /* 6: TD1 */ 1U, /* 7: TD2 */ 0U, /* 8: TE1 */ 1U /* 9: TE2 */ }; static const uint8_t REG_SHIFT_TAB_FLTxE[] = { 0U, /* LL_HRTIM_FAULT_1 */ 8U, /* LL_HRTIM_FAULT_2 */ 16U, /* LL_HRTIM_FAULT_3 */ 24U, /* LL_HRTIM_FAULT_4 */ 0U /* LL_HRTIM_FAULT_5 */ }; /** * @} */ /* Private constants ---------------------------------------------------------*/ /** @defgroup HRTIM_LL_Private_Constants HRTIM Private Constants * @{ */ #define HRTIM_CR1_UDIS_MASK ((uint32_t)(HRTIM_CR1_MUDIS |\ HRTIM_CR1_TAUDIS |\ HRTIM_CR1_TBUDIS |\ HRTIM_CR1_TCUDIS |\ HRTIM_CR1_TDUDIS |\ HRTIM_CR1_TEUDIS)) #define HRTIM_CR2_SWUPD_MASK ((uint32_t)(HRTIM_CR2_MSWU |\ HRTIM_CR2_TASWU |\ HRTIM_CR2_TBSWU |\ HRTIM_CR2_TCSWU |\ HRTIM_CR2_TDSWU |\ HRTIM_CR2_TESWU)) #define HRTIM_CR2_SWRST_MASK ((uint32_t)(HRTIM_CR2_MRST |\ HRTIM_CR2_TARST |\ HRTIM_CR2_TBRST |\ HRTIM_CR2_TCRST |\ HRTIM_CR2_TDRST |\ HRTIM_CR2_TERST)) #define HRTIM_OENR_OEN_MASK ((uint32_t)(HRTIM_OENR_TA1OEN |\ HRTIM_OENR_TA2OEN |\ HRTIM_OENR_TB1OEN |\ HRTIM_OENR_TB2OEN |\ HRTIM_OENR_TC1OEN |\ HRTIM_OENR_TC2OEN |\ HRTIM_OENR_TD1OEN |\ HRTIM_OENR_TD2OEN |\ HRTIM_OENR_TE1OEN |\ HRTIM_OENR_TE2OEN)) #define HRTIM_OENR_ODIS_MASK ((uint32_t)(HRTIM_ODISR_TA1ODIS |\ HRTIM_ODISR_TA2ODIS |\ HRTIM_ODISR_TB1ODIS |\ HRTIM_ODISR_TB2ODIS |\ HRTIM_ODISR_TC1ODIS |\ HRTIM_ODISR_TC2ODIS |\ HRTIM_ODISR_TD1ODIS |\ HRTIM_ODISR_TD2ODIS |\ HRTIM_ODISR_TE1ODIS |\ HRTIM_ODISR_TE2ODIS)) #define HRTIM_OUT_CONFIG_MASK ((uint32_t)(HRTIM_OUTR_POL1 |\ HRTIM_OUTR_IDLM1 |\ HRTIM_OUTR_IDLES1 |\ HRTIM_OUTR_FAULT1 |\ HRTIM_OUTR_CHP1 |\ HRTIM_OUTR_DIDL1)) #define HRTIM_EE_CONFIG_MASK ((uint32_t)(HRTIM_EECR1_EE1SRC |\ HRTIM_EECR1_EE1POL |\ HRTIM_EECR1_EE1SNS |\ HRTIM_EECR1_EE1FAST)) #define HRTIM_FLT_CONFIG_MASK ((uint32_t)(HRTIM_FLTINR1_FLT1P |\ HRTIM_FLTINR1_FLT1SRC)) #define HRTIM_BM_CONFIG_MASK ((uint32_t)( HRTIM_BMCR_BMPRSC |\ HRTIM_BMCR_BMCLK |\ HRTIM_BMCR_BMOM)) /** * @} */ /* Private macros ------------------------------------------------------------*/ /* Exported types ------------------------------------------------------------*/ #if defined(USE_FULL_LL_DRIVER) /** @defgroup HRTIM_LL_ES_INIT HRTIM Exported Init structure * @{ */ /* TO BE COMPLETED */ /** * @} */ #endif /* USE_FULL_LL_DRIVER */ /* Exported constants --------------------------------------------------------*/ /** @defgroup HRTIM_LL_Exported_Constants HRTIM Exported Constants * @{ */ /** @defgroup HRTIM_EC_GET_FLAG Get Flags Defines * @brief Flags defines which can be used with LL_HRTIM_ReadReg function * @{ */ #define LL_HRTIM_ISR_FLT1 HRTIM_ISR_FLT1 #define LL_HRTIM_ISR_FLT2 HRTIM_ISR_FLT2 #define LL_HRTIM_ISR_FLT3 HRTIM_ISR_FLT3 #define LL_HRTIM_ISR_FLT4 HRTIM_ISR_FLT4 #define LL_HRTIM_ISR_FLT5 HRTIM_ISR_FLT5 #define LL_HRTIM_ISR_SYSFLT HRTIM_ISR_SYSFLT #define LL_HRTIM_ISR_DLLRDY HRTIM_ISR_DLLRDY #define LL_HRTIM_ISR_BMPER HRTIM_ISR_BMPER #define LL_HRTIM_MISR_MCMP1 HRTIM_MISR_MCMP1 #define LL_HRTIM_MISR_MCMP2 HRTIM_MISR_MCMP2 #define LL_HRTIM_MISR_MCMP3 HRTIM_MISR_MCMP3 #define LL_HRTIM_MISR_MCMP4 HRTIM_MISR_MCMP4 #define LL_HRTIM_MISR_MREP HRTIM_MISR_MREP #define LL_HRTIM_MISR_SYNC HRTIM_MISR_SYNC #define LL_HRTIM_MISR_MUPD HRTIM_MISR_MUPD #define LL_HRTIM_TIMISR_CMP1 HRTIM_TIMISR_CMP1 #define LL_HRTIM_TIMISR_CMP2 HRTIM_TIMISR_CMP2 #define LL_HRTIM_TIMISR_CMP3 HRTIM_TIMISR_CMP3 #define LL_HRTIM_TIMISR_CMP4 HRTIM_TIMISR_CMP4 #define LL_HRTIM_TIMISR_REP HRTIM_TIMISR_REP #define LL_HRTIM_TIMISR_UPD HRTIM_TIMISR_UPD #define LL_HRTIM_TIMISR_CPT1 HRTIM_TIMISR_CPT1 #define LL_HRTIM_TIMISR_CPT2 HRTIM_TIMISR_CPT2 #define LL_HRTIM_TIMISR_SET1 HRTIM_TIMISR_SET1 #define LL_HRTIM_TIMISR_RST1 HRTIM_TIMISR_RST1 #define LL_HRTIM_TIMISR_SET2 HRTIM_TIMISR_SET2 #define LL_HRTIM_TIMISR_RST2 HRTIM_TIMISR_RST2 #define LL_HRTIM_TIMISR_RST HRTIM_TIMISR_RST #define LL_HRTIM_TIMISR_DLYPRT HRTIM_TIMISR_DLYPRT /** * @} */ /** @defgroup HRTIM_EC_IT IT Defines * @brief IT defines which can be used with LL_HRTIM_ReadReg and LL_HRTIM_WriteReg functions * @{ */ #define LL_HRTIM_IER_FLT1IE HRTIM_IER_FLT1IE #define LL_HRTIM_IER_FLT2IE HRTIM_IER_FLT2IE #define LL_HRTIM_IER_FLT3IE HRTIM_IER_FLT3IE #define LL_HRTIM_IER_FLT4IE HRTIM_IER_FLT4IE #define LL_HRTIM_IER_FLT5IE HRTIM_IER_FLT5IE #define LL_HRTIM_IER_SYSFLTIE HRTIM_IER_SYSFLTIE #define LL_HRTIM_IER_DLLRDYIE HRTIM_IER_DLLRDYIE #define LL_HRTIM_IER_BMPERIE HRTIM_IER_BMPERIE #define LL_HRTIM_MDIER_MCMP1IE HRTIM_MDIER_MCMP1IE #define LL_HRTIM_MDIER_MCMP2IE HRTIM_MDIER_MCMP2IE #define LL_HRTIM_MDIER_MCMP3IE HRTIM_MDIER_MCMP3IE #define LL_HRTIM_MDIER_MCMP4IE HRTIM_MDIER_MCMP4IE #define LL_HRTIM_MDIER_MREPIE HRTIM_MDIER_MREPIE #define LL_HRTIM_MDIER_SYNCIE HRTIM_MDIER_SYNCIE #define LL_HRTIM_MDIER_MUPDIE HRTIM_MDIER_MUPDIE #define LL_HRTIM_TIMDIER_CMP1IE HRTIM_TIMDIER_CMP1IE #define LL_HRTIM_TIMDIER_CMP2IE HRTIM_TIMDIER_CMP2IE #define LL_HRTIM_TIMDIER_CMP3IE HRTIM_TIMDIER_CMP3IE #define LL_HRTIM_TIMDIER_CMP4IE HRTIM_TIMDIER_CMP4IE #define LL_HRTIM_TIMDIER_REPIE HRTIM_TIMDIER_REPIE #define LL_HRTIM_TIMDIER_UPDIE HRTIM_TIMDIER_UPDIE #define LL_HRTIM_TIMDIER_CPT1IE HRTIM_TIMDIER_CPT1IE #define LL_HRTIM_TIMDIER_CPT2IE HRTIM_TIMDIER_CPT2IE #define LL_HRTIM_TIMDIER_SET1IE HRTIM_TIMDIER_SET1IE #define LL_HRTIM_TIMDIER_RST1IE HRTIM_TIMDIER_RST1IE #define LL_HRTIM_TIMDIER_SET2IE HRTIM_TIMDIER_SET2IE #define LL_HRTIM_TIMDIER_RST2IE HRTIM_TIMDIER_RST2IE #define LL_HRTIM_TIMDIER_RSTIE HRTIM_TIMDIER_RSTIE #define LL_HRTIM_TIMDIER_DLYPRTIE HRTIM_TIMDIER_DLYPRTIE /** * @} */ /** @defgroup HRTIM_EC_SYNCIN_SRC SYNCHRONIZATION INPUT SOURCE * @{ * @brief Constants defining defining the synchronization input source. */ #define LL_HRTIM_SYNCIN_SRC_NONE ((uint32_t)0x00000000U) /*!< HRTIM is not synchronized and runs in standalone mode */ #define LL_HRTIM_SYNCIN_SRC_TIM_EVENT (HRTIM_MCR_SYNC_IN_1) /*!< The HRTIM is synchronized with the on-chip timer */ #define LL_HRTIM_SYNCIN_SRC_EXTERNAL_EVENT (HRTIM_MCR_SYNC_IN_1 | HRTIM_MCR_SYNC_IN_0) /*!< A positive pulse on SYNCIN input triggers the HRTIM */ /** * @} */ /** @defgroup HRTIM_EC_SYNCOUT_SRC SYNCHRONIZATION OUTPUT SOURCE * @{ * @brief Constants defining the source and event to be sent on the synchronization output. */ #define LL_HRTIM_SYNCOUT_SRC_MASTER_START ((uint32_t)0x00000000U) /*!< A pulse is sent on the SYNCOUT output upon master timer start event */ #define LL_HRTIM_SYNCOUT_SRC_MASTER_CMP1 (HRTIM_MCR_SYNC_SRC_0) /*!< A pulse is sent on the SYNCOUT output upon master timer compare 1 event*/ #define LL_HRTIM_SYNCOUT_SRC_TIMA_START (HRTIM_MCR_SYNC_SRC_1) /*!< A pulse is sent on the SYNCOUT output upon timer A start or reset events */ #define LL_HRTIM_SYNCOUT_SRC_TIMA_CMP1 (HRTIM_MCR_SYNC_SRC_1 | HRTIM_MCR_SYNC_SRC_0) /*!< A pulse is sent on the SYNCOUT output upon timer A compare 1 event */ /** * @} */ /** @defgroup HRTIM_EC_SYNCOUT_POLARITY SYNCHRONIZATION OUTPUT POLARITY * @{ * @brief Constants defining the routing and conditioning of the synchronization output event. */ #define LL_HRTIM_SYNCOUT_DISABLED ((uint32_t)0x00000000U) /*!< Synchronization output event is disabled */ #define LL_HRTIM_SYNCOUT_POSITIVE_PULSE (HRTIM_MCR_SYNC_OUT_1) /*!< SCOUT pin has a low idle level and issues a positive pulse of 16 fHRTIM clock cycles length for the synchronization */ #define LL_HRTIM_SYNCOUT_NEGATIVE_PULSE (HRTIM_MCR_SYNC_OUT_1 | HRTIM_MCR_SYNC_OUT_0) /*!< SCOUT pin has a high idle level and issues a negative pulse of 16 fHRTIM clock cycles length for the synchronization */ /** * @} */ /** @defgroup HRTIM_EC_TIMER TIMER ID * @{ * @brief Constants identifying a timing unit. */ #define LL_HRTIM_TIMER_MASTER HRTIM_MCR_MCEN /*!< Master timer identifier */ #define LL_HRTIM_TIMER_A HRTIM_MCR_TACEN /*!< Timer A identifier */ #define LL_HRTIM_TIMER_B HRTIM_MCR_TBCEN /*!< Timer B identifier */ #define LL_HRTIM_TIMER_C HRTIM_MCR_TCCEN /*!< Timer C identifier */ #define LL_HRTIM_TIMER_D HRTIM_MCR_TDCEN /*!< Timer D identifier */ #define LL_HRTIM_TIMER_E HRTIM_MCR_TECEN /*!< Timer E identifier */ /** * @} */ /** @defgroup HRTIM_EC_OUTPUT OUTPUT ID * @{ * @brief Constants identifying an HRTIM output. */ #define LL_HRTIM_OUTPUT_TA1 HRTIM_OENR_TA1OEN /*!< Timer A - Output 1 identifier */ #define LL_HRTIM_OUTPUT_TA2 HRTIM_OENR_TA2OEN /*!< Timer A - Output 2 identifier */ #define LL_HRTIM_OUTPUT_TB1 HRTIM_OENR_TB1OEN /*!< Timer B - Output 1 identifier */ #define LL_HRTIM_OUTPUT_TB2 HRTIM_OENR_TB2OEN /*!< Timer B - Output 2 identifier */ #define LL_HRTIM_OUTPUT_TC1 HRTIM_OENR_TC1OEN /*!< Timer C - Output 1 identifier */ #define LL_HRTIM_OUTPUT_TC2 HRTIM_OENR_TC2OEN /*!< Timer C - Output 2 identifier */ #define LL_HRTIM_OUTPUT_TD1 HRTIM_OENR_TD1OEN /*!< Timer D - Output 1 identifier */ #define LL_HRTIM_OUTPUT_TD2 HRTIM_OENR_TD2OEN /*!< Timer D - Output 2 identifier */ #define LL_HRTIM_OUTPUT_TE1 HRTIM_OENR_TE1OEN /*!< Timer E - Output 1 identifier */ #define LL_HRTIM_OUTPUT_TE2 HRTIM_OENR_TE2OEN /*!< Timer E - Output 2 identifier */ /** * @} */ /** @defgroup HRTIM_EC_COMPAREUNIT COMPARE UNIT ID * @{ * @brief Constants identifying a compare unit. */ #define LL_HRTIM_COMPAREUNIT_2 HRTIM_TIMCR_DELCMP2 /*!< Compare unit 2 identifier */ #define LL_HRTIM_COMPAREUNIT_4 HRTIM_TIMCR_DELCMP4 /*!< Compare unit 4 identifier */ /** * @} */ /** @defgroup HRTIM_EC_CAPTUREUNIT CAPTURE UNIT ID * @{ * @brief Constants identifying a capture unit. */ #define LL_HRTIM_CAPTUREUNIT_1 0 /*!< Capture unit 1 identifier */ #define LL_HRTIM_CAPTUREUNIT_2 1 /*!< Capture unit 2 identifier */ /** * @} */ /** @defgroup HRTIM_EC_FAULT FAULT ID * @{ * @brief Constants identifying a fault channel. */ #define LL_HRTIM_FAULT_1 HRTIM_FLTR_FLT1EN /*!< Fault channel 1 identifier */ #define LL_HRTIM_FAULT_2 HRTIM_FLTR_FLT2EN /*!< Fault channel 2 identifier */ #define LL_HRTIM_FAULT_3 HRTIM_FLTR_FLT3EN /*!< Fault channel 3 identifier */ #define LL_HRTIM_FAULT_4 HRTIM_FLTR_FLT4EN /*!< Fault channel 4 identifier */ #define LL_HRTIM_FAULT_5 HRTIM_FLTR_FLT5EN /*!< Fault channel 5 identifier */ /** * @} */ /** @defgroup HRTIM_EC_EVENT EXTERNAL EVENT ID * @{ * @brief Constants identifying an external event channel. */ #define LL_HRTIM_EVENT_1 ((uint32_t)0x00000001U) /*!< External event channel 1 identifier */ #define LL_HRTIM_EVENT_2 ((uint32_t)0x00000002U) /*!< External event channel 2 identifier */ #define LL_HRTIM_EVENT_3 ((uint32_t)0x00000004U) /*!< External event channel 3 identifier */ #define LL_HRTIM_EVENT_4 ((uint32_t)0x00000008U) /*!< External event channel 4 identifier */ #define LL_HRTIM_EVENT_5 ((uint32_t)0x00000010U) /*!< External event channel 5 identifier */ #define LL_HRTIM_EVENT_6 ((uint32_t)0x00000020U) /*!< External event channel 6 identifier */ #define LL_HRTIM_EVENT_7 ((uint32_t)0x00000040U) /*!< External event channel 7 identifier */ #define LL_HRTIM_EVENT_8 ((uint32_t)0x00000080U) /*!< External event channel 8 identifier */ #define LL_HRTIM_EVENT_9 ((uint32_t)0x00000100U) /*!< External event channel 9 identifier */ #define LL_HRTIM_EVENT_10 ((uint32_t)0x00000200U) /*!< External event channel 10 identifier */ /** * @} */ /** @defgroup HRTIM_EC_OUTPUTSTATE OUTPUT STATE * @{ * @brief Constants defining the state of an HRTIM output. */ #define LL_HRTIM_OUTPUTSTATE_IDLE ((uint32_t)0x00000001U) /*!< Main operating mode, where the output can take the active or inactive level as programmed in the crossbar unit */ #define LL_HRTIM_OUTPUTSTATE_RUN ((uint32_t)0x00000002U) /*!< Default operating state (e.g. after an HRTIM reset, when the outputs are disabled by software or during a burst mode operation) */ #define LL_HRTIM_OUTPUTSTATE_FAULT ((uint32_t)0x00000003U) /*!< Safety state, entered in case of a shut-down request on FAULTx inputs */ /** * @} */ /** @defgroup HRTIM_EC_ADCTRIG ADC TRIGGER * @{ * @brief Constants identifying an ADC trigger. */ #define LL_HRTIM_ADCTRIG_1 ((uint32_t)0x00000000U) /*!< ADC trigger 1 identifier */ #define LL_HRTIM_ADCTRIG_2 ((uint32_t)0x00000001U) /*!< ADC trigger 2 identifier */ #define LL_HRTIM_ADCTRIG_3 ((uint32_t)0x00000002U) /*!< ADC trigger 3 identifier */ #define LL_HRTIM_ADCTRIG_4 ((uint32_t)0x00000003U) /*!< ADC trigger 4 identifier */ /** * @} */ /** @defgroup HRTIM_EC_ADCTRIG_UPDATE ADC TRIGGER UPDATE * @{ * @brief constants defining the source triggering the update of the HRTIM_ADCxR register (transfer from preload to active register). */ #define LL_HRTIM_ADCTRIG_UPDATE_MASTER ((uint32_t)0x00000000U) /*!< HRTIM_ADCxR register update is triggered by the Master timer */ #define LL_HRTIM_ADCTRIG_UPDATE_TIMER_A (HRTIM_CR1_ADC1USRC_0) /*!< HRTIM_ADCxR register update is triggered by the Timer A */ #define LL_HRTIM_ADCTRIG_UPDATE_TIMER_B (HRTIM_CR1_ADC1USRC_1) /*!< HRTIM_ADCxR register update is triggered by the Timer B */ #define LL_HRTIM_ADCTRIG_UPDATE_TIMER_C (HRTIM_CR1_ADC1USRC_1 | HRTIM_CR1_ADC1USRC_0) /*!< HRTIM_ADCxR register update is triggered by the Timer C */ #define LL_HRTIM_ADCTRIG_UPDATE_TIMER_D (HRTIM_CR1_ADC1USRC_2) /*!< HRTIM_ADCxR register update is triggered by the Timer D */ #define LL_HRTIM_ADCTRIG_UPDATE_TIMER_E (HRTIM_CR1_ADC1USRC_2 | HRTIM_CR1_ADC1USRC_0) /*!< HRTIM_ADCxR register update is triggered by the Timer E */ /** * @} */ /** @defgroup HRTIM_EC_ADCTRIG_SRC13 ADC TRIGGER 1/3 SOURCE * @{ * @brief constants defining the events triggering ADC conversion for ADC Triggers 1 and 3. */ #define LL_HRTIM_ADCTRIG_SRC13_NONE ((uint32_t)0x00000000U) /*!< No ADC trigger event */ #define LL_HRTIM_ADCTRIG_SRC13_MCMP1 HRTIM_ADC1R_AD1MC1 /*!< ADC Trigger on master compare 1 */ #define LL_HRTIM_ADCTRIG_SRC13_MCMP2 HRTIM_ADC1R_AD1MC2 /*!< ADC Trigger on master compare 2 */ #define LL_HRTIM_ADCTRIG_SRC13_MCMP3 HRTIM_ADC1R_AD1MC3 /*!< ADC Trigger on master compare 3 */ #define LL_HRTIM_ADCTRIG_SRC13_MCMP4 HRTIM_ADC1R_AD1MC4 /*!< ADC Trigger on master compare 4 */ #define LL_HRTIM_ADCTRIG_SRC13_MPER HRTIM_ADC1R_AD1MPER /*!< ADC Trigger on master period */ #define LL_HRTIM_ADCTRIG_SRC13_EEV1 HRTIM_ADC1R_AD1EEV1 /*!< ADC Trigger on external event 1 */ #define LL_HRTIM_ADCTRIG_SRC13_EEV2 HRTIM_ADC1R_AD1EEV2 /*!< ADC Trigger on external event 2 */ #define LL_HRTIM_ADCTRIG_SRC13_EEV3 HRTIM_ADC1R_AD1EEV3 /*!< ADC Trigger on external event 3 */ #define LL_HRTIM_ADCTRIG_SRC13_EEV4 HRTIM_ADC1R_AD1EEV4 /*!< ADC Trigger on external event 4 */ #define LL_HRTIM_ADCTRIG_SRC13_EEV5 HRTIM_ADC1R_AD1EEV5 /*!< ADC Trigger on external event 5 */ #define LL_HRTIM_ADCTRIG_SRC13_TIMACMP2 HRTIM_ADC1R_AD1TAC2 /*!< ADC Trigger on Timer A compare 2 */ #define LL_HRTIM_ADCTRIG_SRC13_TIMACMP3 HRTIM_ADC1R_AD1TAC3 /*!< ADC Trigger on Timer A compare 3 */ #define LL_HRTIM_ADCTRIG_SRC13_TIMACMP4 HRTIM_ADC1R_AD1TAC4 /*!< ADC Trigger on Timer A compare 4 */ #define LL_HRTIM_ADCTRIG_SRC13_TIMAPER HRTIM_ADC1R_AD1TAPER /*!< ADC Trigger on Timer A period */ #define LL_HRTIM_ADCTRIG_SRC13_TIMARST HRTIM_ADC1R_AD1TARST /*!< ADC Trigger on Timer A reset */ #define LL_HRTIM_ADCTRIG_SRC13_TIMBCMP2 HRTIM_ADC1R_AD1TBC2 /*!< ADC Trigger on Timer B compare 2 */ #define LL_HRTIM_ADCTRIG_SRC13_TIMBCMP3 HRTIM_ADC1R_AD1TBC3 /*!< ADC Trigger on Timer B compare 3 */ #define LL_HRTIM_ADCTRIG_SRC13_TIMBCMP4 HRTIM_ADC1R_AD1TBC4 /*!< ADC Trigger on Timer B compare 4 */ #define LL_HRTIM_ADCTRIG_SRC13_TIMBPER HRTIM_ADC1R_AD1TBPER /*!< ADC Trigger on Timer B period */ #define LL_HRTIM_ADCTRIG_SRC13_TIMBRST HRTIM_ADC1R_AD1TBRST /*!< ADC Trigger on Timer B reset */ #define LL_HRTIM_ADCTRIG_SRC13_TIMCCMP2 HRTIM_ADC1R_AD1TCC2 /*!< ADC Trigger on Timer C compare 2 */ #define LL_HRTIM_ADCTRIG_SRC13_TIMCCMP3 HRTIM_ADC1R_AD1TCC3 /*!< ADC Trigger on Timer C compare 3 */ #define LL_HRTIM_ADCTRIG_SRC13_TIMCCMP4 HRTIM_ADC1R_AD1TCC4 /*!< ADC Trigger on Timer C compare 4 */ #define LL_HRTIM_ADCTRIG_SRC13_TIMCPER HRTIM_ADC1R_AD1TCPER /*!< ADC Trigger on Timer C period */ #define LL_HRTIM_ADCTRIG_SRC13_TIMDCMP2 HRTIM_ADC1R_AD1TDC2 /*!< ADC Trigger on Timer D compare 2 */ #define LL_HRTIM_ADCTRIG_SRC13_TIMDCMP3 HRTIM_ADC1R_AD1TDC3 /*!< ADC Trigger on Timer D compare 3 */ #define LL_HRTIM_ADCTRIG_SRC13_TIMDCMP4 HRTIM_ADC1R_AD1TDC4 /*!< ADC Trigger on Timer D compare 4 */ #define LL_HRTIM_ADCTRIG_SRC13_TIMDPER HRTIM_ADC1R_AD1TDPER /*!< ADC Trigger on Timer D period */ #define LL_HRTIM_ADCTRIG_SRC13_TIMECMP2 HRTIM_ADC1R_AD1TEC2 /*!< ADC Trigger on Timer E compare 2 */ #define LL_HRTIM_ADCTRIG_SRC13_TIMECMP3 HRTIM_ADC1R_AD1TEC3 /*!< ADC Trigger on Timer E compare 3 */ #define LL_HRTIM_ADCTRIG_SRC13_TIMECMP4 HRTIM_ADC1R_AD1TEC4 /*!< ADC Trigger on Timer E compare 4 */ #define LL_HRTIM_ADCTRIG_SRC13_TIMEPER HRTIM_ADC1R_AD1TEPER /*!< ADC Trigger on Timer E period */ /** * @} */ /** @defgroup HRTIM_EC_ADCTRIG_SRC24 ADC TRIGGER 2/4 SOURCE * @{ * @brief constants defining the events triggering ADC conversion for ADC Triggers 2 and 4. */ #define LL_HRTIM_ADCTRIG_SRC24_NONE ((uint32_t)0x00000000U)/*!< No ADC trigger event */ #define LL_HRTIM_ADCTRIG_SRC24_MCMP1 HRTIM_ADC2R_AD2MC1 /*!< ADC Trigger on master compare 1 */ #define LL_HRTIM_ADCTRIG_SRC24_MCMP2 HRTIM_ADC2R_AD2MC2 /*!< ADC Trigger on master compare 2 */ #define LL_HRTIM_ADCTRIG_SRC24_MCMP3 HRTIM_ADC2R_AD2MC3 /*!< ADC Trigger on master compare 3 */ #define LL_HRTIM_ADCTRIG_SRC24_MCMP4 HRTIM_ADC2R_AD2MC4 /*!< ADC Trigger on master compare 4 */ #define LL_HRTIM_ADCTRIG_SRC24_MPER HRTIM_ADC2R_AD2MPER /*!< ADC Trigger on master period */ #define LL_HRTIM_ADCTRIG_SRC24_EEV6 HRTIM_ADC2R_AD2EEV6 /*!< ADC Trigger on external event 6 */ #define LL_HRTIM_ADCTRIG_SRC24_EEV7 HRTIM_ADC2R_AD2EEV7 /*!< ADC Trigger on external event 7 */ #define LL_HRTIM_ADCTRIG_SRC24_EEV8 HRTIM_ADC2R_AD2EEV8 /*!< ADC Trigger on external event 8 */ #define LL_HRTIM_ADCTRIG_SRC24_EEV9 HRTIM_ADC2R_AD2EEV9 /*!< ADC Trigger on external event 9 */ #define LL_HRTIM_ADCTRIG_SRC24_EEV10 HRTIM_ADC2R_AD2EEV10 /*!< ADC Trigger on external event 10 */ #define LL_HRTIM_ADCTRIG_SRC24_TIMACMP2 HRTIM_ADC2R_AD2TAC2 /*!< ADC Trigger on Timer A compare 2 */ #define LL_HRTIM_ADCTRIG_SRC24_TIMACMP3 HRTIM_ADC2R_AD2TAC3 /*!< ADC Trigger on Timer A compare 3 */ #define LL_HRTIM_ADCTRIG_SRC24_TIMACMP4 HRTIM_ADC2R_AD2TAC4 /*!< ADC Trigger on Timer A compare 4 */ #define LL_HRTIM_ADCTRIG_SRC24_TIMAPER HRTIM_ADC2R_AD2TAPER /*!< ADC Trigger on Timer A period */ #define LL_HRTIM_ADCTRIG_SRC24_TIMBCMP2 HRTIM_ADC2R_AD2TBC2 /*!< ADC Trigger on Timer B compare 2 */ #define LL_HRTIM_ADCTRIG_SRC24_TIMBCMP3 HRTIM_ADC2R_AD2TBC3 /*!< ADC Trigger on Timer B compare 3 */ #define LL_HRTIM_ADCTRIG_SRC24_TIMBCMP4 HRTIM_ADC2R_AD2TBC4 /*!< ADC Trigger on Timer B compare 4 */ #define LL_HRTIM_ADCTRIG_SRC24_TIMBPER HRTIM_ADC2R_AD2TBPER /*!< ADC Trigger on Timer B period */ #define LL_HRTIM_ADCTRIG_SRC24_TIMCCMP2 HRTIM_ADC2R_AD2TCC2 /*!< ADC Trigger on Timer C compare 2 */ #define LL_HRTIM_ADCTRIG_SRC24_TIMCCMP3 HRTIM_ADC2R_AD2TCC3 /*!< ADC Trigger on Timer C compare 3 */ #define LL_HRTIM_ADCTRIG_SRC24_TIMCCMP4 HRTIM_ADC2R_AD2TCC4 /*!< ADC Trigger on Timer C compare 4 */ #define LL_HRTIM_ADCTRIG_SRC24_TIMCPER HRTIM_ADC2R_AD2TCPER /*!< ADC Trigger on Timer C period */ #define LL_HRTIM_ADCTRIG_SRC24_TIMCRST HRTIM_ADC2R_AD2TCRST /*!< ADC Trigger on Timer C reset */ #define LL_HRTIM_ADCTRIG_SRC24_TIMDCMP2 HRTIM_ADC2R_AD2TDC2 /*!< ADC Trigger on Timer D compare 2 */ #define LL_HRTIM_ADCTRIG_SRC24_TIMDCMP3 HRTIM_ADC2R_AD2TDC3 /*!< ADC Trigger on Timer D compare 3 */ #define LL_HRTIM_ADCTRIG_SRC24_TIMDCMP4 HRTIM_ADC2R_AD2TDC4 /*!< ADC Trigger on Timer D compare 4 */ #define LL_HRTIM_ADCTRIG_SRC24_TIMDPER HRTIM_ADC2R_AD2TDPER /*!< ADC Trigger on Timer D period */ #define LL_HRTIM_ADCTRIG_SRC24_TIMDRST HRTIM_ADC2R_AD2TDRST /*!< ADC Trigger on Timer D reset */ #define LL_HRTIM_ADCTRIG_SRC24_TIMECMP2 HRTIM_ADC2R_AD2TEC2 /*!< ADC Trigger on Timer E compare 2 */ #define LL_HRTIM_ADCTRIG_SRC24_TIMECMP3 HRTIM_ADC2R_AD2TEC3 /*!< ADC Trigger on Timer E compare 3 */ #define LL_HRTIM_ADCTRIG_SRC24_TIMECMP4 HRTIM_ADC2R_AD2TEC4 /*!< ADC Trigger on Timer E compare 4 */ #define LL_HRTIM_ADCTRIG_SRC24_TIMERST HRTIM_ADC2R_AD2TERST /*!< ADC Trigger on Timer E reset */ /** * @} */ /** @defgroup HRTIM_EC_DLLCALIBRATION_MODE DLL CALIBRATION MODE * @{ * @brief Constants defining the DLL calibration mode. */ #define LL_HRTIM_DLLCALIBRATION_MODE_SINGLESHOT ((uint32_t)0x00000000U)/*!__REG__, (__VALUE__)) /** * @brief Read a value in HRTIM register * @param __INSTANCE__ HRTIM Instance * @param __REG__ Register to be read * @retval Register value */ #define LL_HRTIM_ReadReg(__INSTANCE__, __REG__) READ_REG(__INSTANCE__->__REG__) /** * @} */ /** @defgroup HRTIM_LL_EM_Exported_Macros Exported_Macros * @{ */ /** * @brief HELPER macro returning the output state from output enable/disable status * @param __OUTPUT_STATUS_EN__ output enable status * @param __OUTPUT_STATUS_DIS__ output Disable status * @retval Returned value can be one of the following values: * @arg @ref LL_HRTIM_OUTPUTSTATE_IDLE * @arg @ref LL_HRTIM_OUTPUTSTATE_RUN * @arg @ref LL_HRTIM_OUTPUTSTATE_FAULT */ #define __LL_HRTIM_GET_OUTPUT_STATE(__OUTPUT_STATUS_EN__, __OUTPUT_STATUS_DIS__)\ (((__OUTPUT_STATUS_EN__) == 1) ? LL_HRTIM_OUTPUTSTATE_RUN :\ ((__OUTPUT_STATUS_DIS__) == 0) ? LL_HRTIM_OUTPUTSTATE_IDLE : LL_HRTIM_OUTPUTSTATE_FAULT) /** * @} */ /** * @} */ /* Exported functions --------------------------------------------------------*/ /** @defgroup HRTIM_LL_Exported_Functions HRTIM Exported Functions * @{ */ /** @defgroup HRTIM_EF_HRTIM_Control HRTIM_Control * @{ */ /** * @brief Select the HRTIM synchronization input source. * @note This function must not be called when the concerned timer(s) is (are) enabled . * @rmtoll MCR SYNCIN LL_HRTIM_SetSyncInSrc * @param HRTIMx High Resolution Timer instance * @param SyncInSrc This parameter can be one of the following values: * @arg @ref LL_HRTIM_SYNCIN_SRC_NONE * @arg @ref LL_HRTIM_SYNCIN_SRC_TIM_EVENT * @arg @ref LL_HRTIM_SYNCIN_SRC_EXTERNAL_EVENT * @retval None */ __STATIC_INLINE void LL_HRTIM_SetSyncInSrc(HRTIM_TypeDef *HRTIMx, uint32_t SyncInSrc) { MODIFY_REG(HRTIMx->sMasterRegs.MCR, HRTIM_MCR_SYNC_IN, SyncInSrc); } /** * @brief Get actual HRTIM synchronization input source. * @rmtoll MCR SYNCIN LL_HRTIM_SetSyncInSrc * @param HRTIMx High Resolution Timer instance * @retval SyncInSrc Returned value can be one of the following values: * @arg @ref LL_HRTIM_SYNCIN_SRC_NONE * @arg @ref LL_HRTIM_SYNCIN_SRC_TIM_EVENT * @arg @ref LL_HRTIM_SYNCIN_SRC_EXTERNAL_EVENT */ __STATIC_INLINE uint32_t LL_HRTIM_GetSyncInSrc(HRTIM_TypeDef *HRTIMx) { return (READ_BIT(HRTIMx->sMasterRegs.MCR, HRTIM_MCR_SYNC_IN)); } /** * @brief Configure the HRTIM synchronization output. * @rmtoll MCR SYNCSRC LL_HRTIM_ConfigSyncOut\n * MCR SYNCOUT LL_HRTIM_ConfigSyncOut * @param HRTIMx High Resolution Timer instance * @param Config This parameter can be one of the following values: * @arg @ref LL_HRTIM_SYNCOUT_DISABLED * @arg @ref LL_HRTIM_SYNCOUT_POSITIVE_PULSE * @arg @ref LL_HRTIM_SYNCOUT_NEGATIVE_PULSE * @param Src This parameter can be one of the following values: * @arg @ref LL_HRTIM_SYNCOUT_SRC_MASTER_START * @arg @ref LL_HRTIM_SYNCOUT_SRC_MASTER_CMP1 * @arg @ref LL_HRTIM_SYNCOUT_SRC_TIMA_START * @arg @ref LL_HRTIM_SYNCOUT_SRC_TIMA_CMP1 * @retval None */ __STATIC_INLINE void LL_HRTIM_ConfigSyncOut(HRTIM_TypeDef *HRTIMx, uint32_t Config, uint32_t Src) { MODIFY_REG(HRTIMx->sMasterRegs.MCR, (HRTIM_MCR_SYNC_OUT | HRTIM_MCR_SYNC_SRC), (Config | Src)); } /** * @brief Set the routing and conditioning of the synchronization output event. * @rmtoll MCR SYNCOUT LL_HRTIM_SetSyncOutConfig * @note This function can be called only when the master timer is enabled. * @param HRTIMx High Resolution Timer instance * @param SyncOutConfig This parameter can be one of the following values: * @arg @ref LL_HRTIM_SYNCOUT_DISABLED * @arg @ref LL_HRTIM_SYNCOUT_POSITIVE_PULSE * @arg @ref LL_HRTIM_SYNCOUT_NEGATIVE_PULSE * @retval None */ __STATIC_INLINE void LL_HRTIM_SetSyncOutConfig(HRTIM_TypeDef *HRTIMx, uint32_t SyncOutConfig) { MODIFY_REG(HRTIMx->sMasterRegs.MCR, HRTIM_MCR_SYNC_OUT, SyncOutConfig); } /** * @brief Get actual routing and conditioning of the synchronization output event. * @rmtoll MCR SYNCOUT LL_HRTIM_GetSyncOutConfig * @param HRTIMx High Resolution Timer instance * @retval SyncOutConfig Returned value can be one of the following values: * @arg @ref LL_HRTIM_SYNCOUT_DISABLED * @arg @ref LL_HRTIM_SYNCOUT_POSITIVE_PULSE * @arg @ref LL_HRTIM_SYNCOUT_NEGATIVE_PULSE */ __STATIC_INLINE uint32_t LL_HRTIM_GetSyncOutConfig(HRTIM_TypeDef *HRTIMx) { return (READ_BIT(HRTIMx->sMasterRegs.MCR, HRTIM_MCR_SYNC_OUT)); } /** * @brief Set the source and event to be sent on the HRTIM synchronization output. * @rmtoll MCR SYNCSRC LL_HRTIM_SetSyncOutSrc * @param HRTIMx High Resolution Timer instance * @param SyncOutSrc This parameter can be one of the following values: * @arg @ref LL_HRTIM_SYNCOUT_SRC_MASTER_START * @arg @ref LL_HRTIM_SYNCOUT_SRC_MASTER_CMP1 * @arg @ref LL_HRTIM_SYNCOUT_SRC_TIMA_START * @arg @ref LL_HRTIM_SYNCOUT_SRC_TIMA_CMP1 * @retval None */ __STATIC_INLINE void LL_HRTIM_SetSyncOutSrc(HRTIM_TypeDef *HRTIMx, uint32_t SyncOutSrc) { MODIFY_REG(HRTIMx->sMasterRegs.MCR, HRTIM_MCR_SYNC_SRC, SyncOutSrc); } /** * @brief Get actual source and event sent on the HRTIM synchronization output. * @rmtoll MCR SYNCSRC LL_HRTIM_GetSyncOutSrc * @param HRTIMx High Resolution Timer instance * @retval SyncOutSrc Returned value can be one of the following values: * @arg @ref LL_HRTIM_SYNCOUT_SRC_MASTER_START * @arg @ref LL_HRTIM_SYNCOUT_SRC_MASTER_CMP1 * @arg @ref LL_HRTIM_SYNCOUT_SRC_TIMA_START * @arg @ref LL_HRTIM_SYNCOUT_SRC_TIMA_CMP1 */ __STATIC_INLINE uint32_t LL_HRTIM_GetSyncOutSrc(HRTIM_TypeDef *HRTIMx) { return (READ_BIT(HRTIMx->sMasterRegs.MCR, HRTIM_MCR_SYNC_SRC)); } /** * @brief Disable (temporarily) update event generation. * @rmtoll CR1 MUDIS LL_HRTIM_SuspendUpdate\n * CR1 TAUDIS LL_HRTIM_SuspendUpdate\n * CR1 TBUDIS LL_HRTIM_SuspendUpdate\n * CR1 TCUDIS LL_HRTIM_SuspendUpdate\n * CR1 TDUDIS LL_HRTIM_SuspendUpdate\n * CR1 TEUDIS LL_HRTIM_SuspendUpdate * @note Allow to temporarily disable the transfer from preload to active * registers, whatever the selected update event. This allows to modify * several registers in multiple timers. * @param HRTIMx High Resolution Timer instance * @param Timers This parameter can be a combination of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_SuspendUpdate(HRTIM_TypeDef *HRTIMx, uint32_t Timers) { SET_BIT(HRTIMx->sCommonRegs.CR1, ((Timers >> HRTIM_MCR_MCEN_Pos) & HRTIM_CR1_UDIS_MASK)); } /** * @brief Enable update event generation. * @rmtoll CR1 MUDIS LL_HRTIM_ResumeUpdate\n * CR1 TAUDIS LL_HRTIM_ResumeUpdate\n * CR1 TBUDIS LL_HRTIM_ResumeUpdate\n * CR1 TCUDIS LL_HRTIM_ResumeUpdate\n * CR1 TDUDIS LL_HRTIM_ResumeUpdate\n * CR1 TEUDIS LL_HRTIM_ResumeUpdate * @note The regular update event takes place. * @param HRTIMx High Resolution Timer instance * @param Timers This parameter can be a combination of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_ResumeUpdate(HRTIM_TypeDef *HRTIMx, uint32_t Timers) { CLEAR_BIT(HRTIMx->sCommonRegs.CR1, ((Timers >> HRTIM_MCR_MCEN_Pos) & HRTIM_CR1_UDIS_MASK)); } /** * @brief Force an immediate transfer from the preload to the active register . * @rmtoll CR2 MSWU LL_HRTIM_ForceUpdate\n * CR2 TASWU LL_HRTIM_ForceUpdate\n * CR2 TBSWU LL_HRTIM_ForceUpdate\n * CR2 TCSWU LL_HRTIM_ForceUpdate\n * CR2 TDSWU LL_HRTIM_ForceUpdate\n * CR2 TESWU LL_HRTIM_ForceUpdate * @note Any pending update request is cancelled. * @param HRTIMx High Resolution Timer instance * @param Timers This parameter can be a combination of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_ForceUpdate(HRTIM_TypeDef *HRTIMx, uint32_t Timers) { SET_BIT(HRTIMx->sCommonRegs.CR2, ((Timers >> HRTIM_MCR_MCEN_Pos) & HRTIM_CR2_SWUPD_MASK)); } /** * @brief Reset the HRTIM timer(s) counter. * @rmtoll CR2 MRST LL_HRTIM_CounterReset\n * CR2 TARST LL_HRTIM_CounterReset\n * CR2 TBRST LL_HRTIM_CounterReset\n * CR2 TCRST LL_HRTIM_CounterReset\n * CR2 TDRST LL_HRTIM_CounterReset\n * CR2 TERST LL_HRTIM_CounterReset * @param HRTIMx High Resolution Timer instance * @param Timers This parameter can be a combination of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_CounterReset(HRTIM_TypeDef *HRTIMx, uint32_t Timers) { SET_BIT(HRTIMx->sCommonRegs.CR2, (((Timers >> HRTIM_MCR_MCEN_Pos) << HRTIM_CR2_MRST_Pos) & HRTIM_CR2_SWRST_MASK)); } /** * @brief Enable the HRTIM timer(s) output(s) . * @rmtoll OENR TA1OEN LL_HRTIM_EnableOutput\n * OENR TA2OEN LL_HRTIM_EnableOutput\n * OENR TB1OEN LL_HRTIM_EnableOutput\n * OENR TB2OEN LL_HRTIM_EnableOutput\n * OENR TC1OEN LL_HRTIM_EnableOutput\n * OENR TC2OEN LL_HRTIM_EnableOutput\n * OENR TD1OEN LL_HRTIM_EnableOutput\n * OENR TD2OEN LL_HRTIM_EnableOutput\n * OENR TE1OEN LL_HRTIM_EnableOutput\n * OENR TE2OEN LL_HRTIM_EnableOutput * @param HRTIMx High Resolution Timer instance * @param Outputs This parameter can be a combination of the following values: * @arg @ref LL_HRTIM_OUTPUT_TA1 * @arg @ref LL_HRTIM_OUTPUT_TA2 * @arg @ref LL_HRTIM_OUTPUT_TB1 * @arg @ref LL_HRTIM_OUTPUT_TB2 * @arg @ref LL_HRTIM_OUTPUT_TC1 * @arg @ref LL_HRTIM_OUTPUT_TC2 * @arg @ref LL_HRTIM_OUTPUT_TD1 * @arg @ref LL_HRTIM_OUTPUT_TD2 * @arg @ref LL_HRTIM_OUTPUT_TE1 * @arg @ref LL_HRTIM_OUTPUT_TE2 * @retval None */ __STATIC_INLINE void LL_HRTIM_EnableOutput(HRTIM_TypeDef *HRTIMx, uint32_t Outputs) { SET_BIT(HRTIMx->sCommonRegs.OENR, (Outputs & HRTIM_OENR_OEN_MASK)); } /** * @brief Disable the HRTIM timer(s) output(s) . * @rmtoll OENR TA1OEN LL_HRTIM_DisableOutput\n * OENR TA2OEN LL_HRTIM_DisableOutput\n * OENR TB1OEN LL_HRTIM_DisableOutput\n * OENR TB2OEN LL_HRTIM_DisableOutput\n * OENR TC1OEN LL_HRTIM_DisableOutput\n * OENR TC2OEN LL_HRTIM_DisableOutput\n * OENR TD1OEN LL_HRTIM_DisableOutput\n * OENR TD2OEN LL_HRTIM_DisableOutput\n * OENR TE1OEN LL_HRTIM_DisableOutput\n * OENR TE2OEN LL_HRTIM_DisableOutput * @param HRTIMx High Resolution Timer instance * @param Outputs This parameter can be a combination of the following values: * @arg @ref LL_HRTIM_OUTPUT_TA1 * @arg @ref LL_HRTIM_OUTPUT_TA2 * @arg @ref LL_HRTIM_OUTPUT_TB1 * @arg @ref LL_HRTIM_OUTPUT_TB2 * @arg @ref LL_HRTIM_OUTPUT_TC1 * @arg @ref LL_HRTIM_OUTPUT_TC2 * @arg @ref LL_HRTIM_OUTPUT_TD1 * @arg @ref LL_HRTIM_OUTPUT_TD2 * @arg @ref LL_HRTIM_OUTPUT_TE1 * @arg @ref LL_HRTIM_OUTPUT_TE2 * @retval None */ __STATIC_INLINE void LL_HRTIM_DisableOutput(HRTIM_TypeDef *HRTIMx, uint32_t Outputs) { SET_BIT(HRTIMx->sCommonRegs.ODISR, (Outputs & HRTIM_OENR_ODIS_MASK)); } /** * @brief Indicates whether the HRTIM timer output is enabled. * @rmtoll OENR TA1OEN LL_HRTIM_IsEnabledOutput\n * OENR TA2OEN LL_HRTIM_IsEnabledOutput\n * OENR TB1OEN LL_HRTIM_IsEnabledOutput\n * OENR TB2OEN LL_HRTIM_IsEnabledOutput\n * OENR TC1OEN LL_HRTIM_IsEnabledOutput\n * OENR TC2OEN LL_HRTIM_IsEnabledOutput\n * OENR TD1OEN LL_HRTIM_IsEnabledOutput\n * OENR TD2OEN LL_HRTIM_IsEnabledOutput\n * OENR TE1OEN LL_HRTIM_IsEnabledOutput\n * OENR TE2OEN LL_HRTIM_IsEnabledOutput * @param HRTIMx High Resolution Timer instance * @param Output This parameter can be one of the following values: * @arg @ref LL_HRTIM_OUTPUT_TA1 * @arg @ref LL_HRTIM_OUTPUT_TA2 * @arg @ref LL_HRTIM_OUTPUT_TB1 * @arg @ref LL_HRTIM_OUTPUT_TB2 * @arg @ref LL_HRTIM_OUTPUT_TC1 * @arg @ref LL_HRTIM_OUTPUT_TC2 * @arg @ref LL_HRTIM_OUTPUT_TD1 * @arg @ref LL_HRTIM_OUTPUT_TD2 * @arg @ref LL_HRTIM_OUTPUT_TE1 * @arg @ref LL_HRTIM_OUTPUT_TE2 * @retval State of TxyOEN bit in HRTIM_OENR register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsEnabledOutput(HRTIM_TypeDef *HRTIMx, uint32_t Output) { return (READ_BIT(HRTIMx->sCommonRegs.OENR, Output) == Output); } /** * @brief Indicates whether the HRTIM timer output is disabled. * @rmtoll ODISR TA1ODIS LL_HRTIM_IsDisabledOutput\n * ODISR TA2ODIS LL_HRTIM_IsDisabledOutput\n * ODISR TB1ODIS LL_HRTIM_IsDisabledOutput\n * ODISR TB2ODIS LL_HRTIM_IsDisabledOutput\n * ODISR TC1ODIS LL_HRTIM_IsDisabledOutput\n * ODISR TC2ODIS LL_HRTIM_IsDisabledOutput\n * ODISR TD1ODIS LL_HRTIM_IsDisabledOutput\n * ODISR TD2ODIS LL_HRTIM_IsDisabledOutput\n * ODISR TE1ODIS LL_HRTIM_IsDisabledOutput\n * ODISR TE2ODIS LL_HRTIM_IsDisabledOutput * @param HRTIMx High Resolution Timer instance * @param Output This parameter can be one of the following values: * @arg @ref LL_HRTIM_OUTPUT_TA1 * @arg @ref LL_HRTIM_OUTPUT_TA2 * @arg @ref LL_HRTIM_OUTPUT_TB1 * @arg @ref LL_HRTIM_OUTPUT_TB2 * @arg @ref LL_HRTIM_OUTPUT_TC1 * @arg @ref LL_HRTIM_OUTPUT_TC2 * @arg @ref LL_HRTIM_OUTPUT_TD1 * @arg @ref LL_HRTIM_OUTPUT_TD2 * @arg @ref LL_HRTIM_OUTPUT_TE1 * @arg @ref LL_HRTIM_OUTPUT_TE2 * @retval State of TxyODS bit in HRTIM_ODSR register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsDisabledOutput(HRTIM_TypeDef *HRTIMx, uint32_t Output) { return (READ_BIT(HRTIMx->sCommonRegs.ODISR, Output) == Output); } /** * @brief Configure an ADC trigger. * @rmtoll CR1 ADC1USRC LL_HRTIM_ConfigADCTrig\n * CR1 ADC2USRC LL_HRTIM_ConfigADCTrig\n * CR1 ADC3USRC LL_HRTIM_ConfigADCTrig\n * CR1 ADC4USRC LL_HRTIM_ConfigADCTrig\n * ADC1R ADC1MC4 LL_HRTIM_ConfigADCTrig\n * ADC1R ADC1MPER LL_HRTIM_ConfigADCTrig\n * ADC1R ADC1EEV1 LL_HRTIM_ConfigADCTrig\n * ADC1R ADC1EEV2 LL_HRTIM_ConfigADCTrig\n * ADC1R ADC1EEV3 LL_HRTIM_ConfigADCTrig\n * ADC1R ADC1EEV4 LL_HRTIM_ConfigADCTrig\n * ADC1R ADC1EEV5 LL_HRTIM_ConfigADCTrig\n * ADC1R ADC1TAC2 LL_HRTIM_ConfigADCTrig\n * ADC1R ADC1TAC3 LL_HRTIM_ConfigADCTrig\n * ADC1R ADC1TAC4 LL_HRTIM_ConfigADCTrig\n * ADC1R ADC1TAPER LL_HRTIM_ConfigADCTrig\n * ADC1R ADC1TARST LL_HRTIM_ConfigADCTrig\n * ADC1R ADC1TBC2 LL_HRTIM_ConfigADCTrig\n * ADC1R ADC1TBC3 LL_HRTIM_ConfigADCTrig\n * ADC1R ADC1TBC4 LL_HRTIM_ConfigADCTrig\n * ADC1R ADC1TBPER LL_HRTIM_ConfigADCTrig\n * ADC1R ADC1TBRST LL_HRTIM_ConfigADCTrig\n * ADC1R ADC1TCC2 LL_HRTIM_ConfigADCTrig\n * ADC1R ADC1TCC3 LL_HRTIM_ConfigADCTrig\n * ADC1R ADC1TCC4 LL_HRTIM_ConfigADCTrig\n * ADC1R ADC1TCPER LL_HRTIM_ConfigADCTrig\n * ADC1R ADC1TDC2 LL_HRTIM_ConfigADCTrig\n * ADC1R ADC1TDC3 LL_HRTIM_ConfigADCTrig\n * ADC1R ADC1TDC4 LL_HRTIM_ConfigADCTrig\n * ADC1R ADC1TDPER LL_HRTIM_ConfigADCTrig\n * ADC1R ADC1TEC2 LL_HRTIM_ConfigADCTrig\n * ADC1R ADC1TEC3 LL_HRTIM_ConfigADCTrig\n * ADC1R ADC1TEC4 LL_HRTIM_ConfigADCTrig\n * ADC1R ADC1TEPER LL_HRTIM_ConfigADCTrig\n * ADC2R ADC2MC1 LL_HRTIM_ConfigADCTrig\n * ADC2R ADC2MC2 LL_HRTIM_ConfigADCTrig\n * ADC2R ADC2MC3 LL_HRTIM_ConfigADCTrig\n * ADC2R ADC2MC4 LL_HRTIM_ConfigADCTrig\n * ADC2R ADC2MPER LL_HRTIM_ConfigADCTrig\n * ADC2R ADC2EEV6 LL_HRTIM_ConfigADCTrig\n * ADC2R ADC2EEV7 LL_HRTIM_ConfigADCTrig\n * ADC2R ADC2EEV8 LL_HRTIM_ConfigADCTrig\n * ADC2R ADC2EEV9 LL_HRTIM_ConfigADCTrig\n * ADC2R ADC2EEV10 LL_HRTIM_ConfigADCTrig\n * ADC2R ADC2TAC2 LL_HRTIM_ConfigADCTrig\n * ADC2R ADC2TAC3 LL_HRTIM_ConfigADCTrig\n * ADC2R ADC2TAC4 LL_HRTIM_ConfigADCTrig\n * ADC2R ADC2TAPER LL_HRTIM_ConfigADCTrig\n * ADC2R ADC2TBC2 LL_HRTIM_ConfigADCTrig\n * ADC2R ADC2TBC3 LL_HRTIM_ConfigADCTrig\n * ADC2R ADC2TBC4 LL_HRTIM_ConfigADCTrig\n * ADC2R ADC2TBPER LL_HRTIM_ConfigADCTrig\n * ADC2R ADC2TCC2 LL_HRTIM_ConfigADCTrig\n * ADC2R ADC2TCC3 LL_HRTIM_ConfigADCTrig\n * ADC2R ADC2TCC4 LL_HRTIM_ConfigADCTrig\n * ADC2R ADC2TCPER LL_HRTIM_ConfigADCTrig\n * ADC2R ADC2TCRST LL_HRTIM_ConfigADCTrig\n * ADC2R ADC2TDC2 LL_HRTIM_ConfigADCTrig\n * ADC2R ADC2TDC3 LL_HRTIM_ConfigADCTrig\n * ADC2R ADC2TDC4 LL_HRTIM_ConfigADCTrig\n * ADC2R ADC2TDPER LL_HRTIM_ConfigADCTrig\n * ADC2R ADC2TDRST LL_HRTIM_ConfigADCTrig\n * ADC2R ADC2TEC2 LL_HRTIM_ConfigADCTrig\n * ADC2R ADC2TEC3 LL_HRTIM_ConfigADCTrig\n * ADC2R ADC2TEC4 LL_HRTIM_ConfigADCTrig\n * ADC2R ADC2TERST LL_HRTIM_ConfigADCTrig\n * ADC3R ADC3MC1 LL_HRTIM_ConfigADCTrig\n * ADC3R ADC3MC2 LL_HRTIM_ConfigADCTrig\n * ADC3R ADC3MC3 LL_HRTIM_ConfigADCTrig\n * ADC3R ADC3MC4 LL_HRTIM_ConfigADCTrig\n * ADC3R ADC3MPER LL_HRTIM_ConfigADCTrig\n * ADC3R ADC3EEV1 LL_HRTIM_ConfigADCTrig\n * ADC3R ADC3EEV2 LL_HRTIM_ConfigADCTrig\n * ADC3R ADC3EEV3 LL_HRTIM_ConfigADCTrig\n * ADC3R ADC3EEV4 LL_HRTIM_ConfigADCTrig\n * ADC3R ADC3EEV5 LL_HRTIM_ConfigADCTrig\n * ADC3R ADC3TAC2 LL_HRTIM_ConfigADCTrig\n * ADC3R ADC3TAC3 LL_HRTIM_ConfigADCTrig\n * ADC3R ADC3TAC4 LL_HRTIM_ConfigADCTrig\n * ADC3R ADC3TAPER LL_HRTIM_ConfigADCTrig\n * ADC3R ADC3TARST LL_HRTIM_ConfigADCTrig\n * ADC3R ADC3TBC2 LL_HRTIM_ConfigADCTrig\n * ADC3R ADC3TBC3 LL_HRTIM_ConfigADCTrig\n * ADC3R ADC3TBC4 LL_HRTIM_ConfigADCTrig\n * ADC3R ADC3TBPER LL_HRTIM_ConfigADCTrig\n * ADC3R ADC3TBRST LL_HRTIM_ConfigADCTrig\n * ADC3R ADC3TCC2 LL_HRTIM_ConfigADCTrig\n * ADC3R ADC3TCC3 LL_HRTIM_ConfigADCTrig\n * ADC3R ADC3TCC4 LL_HRTIM_ConfigADCTrig\n * ADC3R ADC3TCPER LL_HRTIM_ConfigADCTrig\n * ADC3R ADC3TDC2 LL_HRTIM_ConfigADCTrig\n * ADC3R ADC3TDC3 LL_HRTIM_ConfigADCTrig\n * ADC3R ADC3TDC4 LL_HRTIM_ConfigADCTrig\n * ADC3R ADC3TDPER LL_HRTIM_ConfigADCTrig\n * ADC3R ADC3TEC2 LL_HRTIM_ConfigADCTrig\n * ADC3R ADC3TEC3 LL_HRTIM_ConfigADCTrig\n * ADC3R ADC3TEC4 LL_HRTIM_ConfigADCTrig\n * ADC3R ADC3TEPER LL_HRTIM_ConfigADCTrig\n * ADC4R ADC4MC1 LL_HRTIM_ConfigADCTrig\n * ADC4R ADC4MC2 LL_HRTIM_ConfigADCTrig\n * ADC4R ADC4MC3 LL_HRTIM_ConfigADCTrig\n * ADC4R ADC4MC4 LL_HRTIM_ConfigADCTrig\n * ADC4R ADC4MPER LL_HRTIM_ConfigADCTrig\n * ADC4R ADC4EEV6 LL_HRTIM_ConfigADCTrig\n * ADC4R ADC4EEV7 LL_HRTIM_ConfigADCTrig\n * ADC4R ADC4EEV8 LL_HRTIM_ConfigADCTrig\n * ADC4R ADC4EEV9 LL_HRTIM_ConfigADCTrig\n * ADC4R ADC4EEV10 LL_HRTIM_ConfigADCTrig\n * ADC4R ADC4TAC2 LL_HRTIM_ConfigADCTrig\n * ADC4R ADC4TAC3 LL_HRTIM_ConfigADCTrig\n * ADC4R ADC4TAC4 LL_HRTIM_ConfigADCTrig\n * ADC4R ADC4TAPER LL_HRTIM_ConfigADCTrig\n * ADC4R ADC4TBC2 LL_HRTIM_ConfigADCTrig\n * ADC4R ADC4TBC3 LL_HRTIM_ConfigADCTrig\n * ADC4R ADC4TBC4 LL_HRTIM_ConfigADCTrig\n * ADC4R ADC4TBPER LL_HRTIM_ConfigADCTrig\n * ADC4R ADC4TCC2 LL_HRTIM_ConfigADCTrig\n * ADC4R ADC4TCC3 LL_HRTIM_ConfigADCTrig\n * ADC4R ADC4TCC4 LL_HRTIM_ConfigADCTrig\n * ADC4R ADC4TCPER LL_HRTIM_ConfigADCTrig\n * ADC4R ADC4TCRST LL_HRTIM_ConfigADCTrig\n * ADC4R ADC4TDC2 LL_HRTIM_ConfigADCTrig\n * ADC4R ADC4TDC3 LL_HRTIM_ConfigADCTrig\n * ADC4R ADC4TDC4 LL_HRTIM_ConfigADCTrig\n * ADC4R ADC4TDPER LL_HRTIM_ConfigADCTrig\n * ADC4R ADC4TDRST LL_HRTIM_ConfigADCTrig\n * ADC4R ADC4TEC2 LL_HRTIM_ConfigADCTrig\n * ADC4R ADC4TEC3 LL_HRTIM_ConfigADCTrig\n * ADC4R ADC4TEC4 LL_HRTIM_ConfigADCTrig\n * ADC4R ADC4TERST LL_HRTIM_ConfigADCTrig * @param HRTIMx High Resolution Timer instance * @param ADCTrig This parameter can be one of the following values: * @arg @ref LL_HRTIM_ADCTRIG_1 * @arg @ref LL_HRTIM_ADCTRIG_2 * @arg @ref LL_HRTIM_ADCTRIG_3 * @arg @ref LL_HRTIM_ADCTRIG_4 * @param Update This parameter can be one of the following values: * @arg @ref LL_HRTIM_ADCTRIG_UPDATE_MASTER * @arg @ref LL_HRTIM_ADCTRIG_UPDATE_TIMER_A * @arg @ref LL_HRTIM_ADCTRIG_UPDATE_TIMER_B * @arg @ref LL_HRTIM_ADCTRIG_UPDATE_TIMER_C * @arg @ref LL_HRTIM_ADCTRIG_UPDATE_TIMER_D * @arg @ref LL_HRTIM_ADCTRIG_UPDATE_TIMER_E * @param Src This parameter can be a combination of the following values: * * For ADC trigger 1 and ADC trigger 3: * @arg @ref LL_HRTIM_ADCTRIG_SRC13_NONE * @arg @ref LL_HRTIM_ADCTRIG_SRC13_MCMP1 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_MCMP2 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_MCMP3 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_MCMP4 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_MPER * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMACMP2 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMACMP3 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMACMP4 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMAPER * @arg @ref LL_HRTIM_ADCTRIG_SRC13_EEV1 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_EEV2 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_EEV3 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_EEV4 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_EEV5 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMARST * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMBCMP2 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMBCMP3 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMBCMP4 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMBPER * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMBRST * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMCCMP2 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMCCMP3 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMCCMP4 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMCPER * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMDCMP2 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMDCMP3 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMDCMP4 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMDPER * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMECMP2 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMECMP3 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMECMP4 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMEPER * * For ADC trigger 2 and ADC trigger 4: * @arg @ref LL_HRTIM_ADCTRIG_SRC24_NONE * @arg @ref LL_HRTIM_ADCTRIG_SRC24_MCMP1 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_MCMP2 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_MCMP3 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_MCMP4 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_MPER * @arg @ref LL_HRTIM_ADCTRIG_SRC24_EEV6 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_EEV7 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_EEV8 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_EEV9 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_EEV10 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMACMP2 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMACMP3 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMACMP4 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMAPER * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMBCMP2 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMBCMP3 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMBCMP4 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMBPER * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMCCMP2 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMCCMP3 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMCCMP4 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMCPER * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMCRST * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMDCMP2 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMDCMP3 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMDCMP4 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMDPER * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMDRST * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMECMP2 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMECMP3 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMECMP4 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMERST * @retval None */ __STATIC_INLINE void LL_HRTIM_ConfigADCTrig(HRTIM_TypeDef *HRTIMx, uint32_t ADCTrig, uint32_t Update, uint32_t Src) { register uint32_t shift = 3 * ADCTrig; register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sCommonRegs.ADC1R) + REG_OFFSET_TAB_ADCxR[ADCTrig])); MODIFY_REG(HRTIMx->sCommonRegs.CR1, (HRTIM_CR1_ADC1USRC << shift), (Update << shift)); WRITE_REG(*pReg, Src); } /** * @brief Associate the ADCx trigger to a timer triggering the update of the HRTIM_ADCxR register. * @rmtoll CR1 ADC1USRC LL_HRTIM_SetADCTrigUpdate\n * CR1 ADC2USRC LL_HRTIM_SetADCTrigUpdate\n * CR1 ADC3USRC LL_HRTIM_SetADCTrigUpdate\n * CR1 ADC4USRC LL_HRTIM_SetADCTrigUpdate * @note When the preload is disabled in the source timer, the HRTIM_ADCxR * registers are not preloaded either: a write access will result in an * immediate update of the trigger source. * @param HRTIMx High Resolution Timer instance * @param ADCTrig This parameter can be one of the following values: * @arg @ref LL_HRTIM_ADCTRIG_1 * @arg @ref LL_HRTIM_ADCTRIG_2 * @arg @ref LL_HRTIM_ADCTRIG_3 * @arg @ref LL_HRTIM_ADCTRIG_4 * @param Update This parameter can be one of the following values: * @arg @ref LL_HRTIM_ADCTRIG_UPDATE_MASTER * @arg @ref LL_HRTIM_ADCTRIG_UPDATE_TIMER_A * @arg @ref LL_HRTIM_ADCTRIG_UPDATE_TIMER_B * @arg @ref LL_HRTIM_ADCTRIG_UPDATE_TIMER_C * @arg @ref LL_HRTIM_ADCTRIG_UPDATE_TIMER_D * @arg @ref LL_HRTIM_ADCTRIG_UPDATE_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_SetADCTrigUpdate(HRTIM_TypeDef *HRTIMx, uint32_t ADCTrig, uint32_t Update) { register uint32_t shift = 3 * ADCTrig; MODIFY_REG(HRTIMx->sCommonRegs.CR1, (HRTIM_CR1_ADC1USRC << shift), (Update << shift)); } /** * @brief Get the source timer triggering the update of the HRTIM_ADCxR register. * @rmtoll CR1 ADC1USRC LL_HRTIM_GetADCTrigUpdate\n * CR1 ADC2USRC LL_HRTIM_GetADCTrigUpdate\n * CR1 ADC3USRC LL_HRTIM_GetADCTrigUpdate\n * CR1 ADC4USRC LL_HRTIM_GetADCTrigUpdate * @param HRTIMx High Resolution Timer instance * @param ADCTrig This parameter can be one of the following values: * @arg @ref LL_HRTIM_ADCTRIG_1 * @arg @ref LL_HRTIM_ADCTRIG_2 * @arg @ref LL_HRTIM_ADCTRIG_3 * @arg @ref LL_HRTIM_ADCTRIG_4 * @retval Update Returned value can be one of the following values: * @arg @ref LL_HRTIM_ADCTRIG_UPDATE_MASTER * @arg @ref LL_HRTIM_ADCTRIG_UPDATE_TIMER_A * @arg @ref LL_HRTIM_ADCTRIG_UPDATE_TIMER_B * @arg @ref LL_HRTIM_ADCTRIG_UPDATE_TIMER_C * @arg @ref LL_HRTIM_ADCTRIG_UPDATE_TIMER_D * @arg @ref LL_HRTIM_ADCTRIG_UPDATE_TIMER_E */ __STATIC_INLINE uint32_t LL_HRTIM_GetADCTrigUpdate(HRTIM_TypeDef *HRTIMx, uint32_t ADCTrig) { register uint32_t shift = 3 * ADCTrig; return (READ_BIT(HRTIMx->sCommonRegs.CR1, (HRTIM_CR1_ADC1USRC << shift)) >> shift); } /** * @brief Specify which events (timer events and/or external events) are used as triggers for ADC conversion. * @rmtoll ADC1R ADC1MC4 LL_HRTIM_SetADCTrigSrc\n * ADC1R ADC1MPER LL_HRTIM_SetADCTrigSrc\n * ADC1R ADC1EEV1 LL_HRTIM_SetADCTrigSrc\n * ADC1R ADC1EEV2 LL_HRTIM_SetADCTrigSrc\n * ADC1R ADC1EEV3 LL_HRTIM_SetADCTrigSrc\n * ADC1R ADC1EEV4 LL_HRTIM_SetADCTrigSrc\n * ADC1R ADC1EEV5 LL_HRTIM_SetADCTrigSrc\n * ADC1R ADC1TAC2 LL_HRTIM_SetADCTrigSrc\n * ADC1R ADC1TAC3 LL_HRTIM_SetADCTrigSrc\n * ADC1R ADC1TAC4 LL_HRTIM_SetADCTrigSrc\n * ADC1R ADC1TAPER LL_HRTIM_SetADCTrigSrc\n * ADC1R ADC1TARST LL_HRTIM_SetADCTrigSrc\n * ADC1R ADC1TBC2 LL_HRTIM_SetADCTrigSrc\n * ADC1R ADC1TBC3 LL_HRTIM_SetADCTrigSrc\n * ADC1R ADC1TBC4 LL_HRTIM_SetADCTrigSrc\n * ADC1R ADC1TBPER LL_HRTIM_SetADCTrigSrc\n * ADC1R ADC1TBRST LL_HRTIM_SetADCTrigSrc\n * ADC1R ADC1TCC2 LL_HRTIM_SetADCTrigSrc\n * ADC1R ADC1TCC3 LL_HRTIM_SetADCTrigSrc\n * ADC1R ADC1TCC4 LL_HRTIM_SetADCTrigSrc\n * ADC1R ADC1TCPER LL_HRTIM_SetADCTrigSrc\n * ADC1R ADC1TDC2 LL_HRTIM_SetADCTrigSrc\n * ADC1R ADC1TDC3 LL_HRTIM_SetADCTrigSrc\n * ADC1R ADC1TDC4 LL_HRTIM_SetADCTrigSrc\n * ADC1R ADC1TDPER LL_HRTIM_SetADCTrigSrc\n * ADC1R ADC1TEC2 LL_HRTIM_SetADCTrigSrc\n * ADC1R ADC1TEC3 LL_HRTIM_SetADCTrigSrc\n * ADC1R ADC1TEC4 LL_HRTIM_SetADCTrigSrc\n * ADC1R ADC1TEPER LL_HRTIM_SetADCTrigSrc\n * ADC2R ADC2MC1 LL_HRTIM_SetADCTrigSrc\n * ADC2R ADC2MC2 LL_HRTIM_SetADCTrigSrc\n * ADC2R ADC2MC3 LL_HRTIM_SetADCTrigSrc\n * ADC2R ADC2MC4 LL_HRTIM_SetADCTrigSrc\n * ADC2R ADC2MPER LL_HRTIM_SetADCTrigSrc\n * ADC2R ADC2EEV6 LL_HRTIM_SetADCTrigSrc\n * ADC2R ADC2EEV7 LL_HRTIM_SetADCTrigSrc\n * ADC2R ADC2EEV8 LL_HRTIM_SetADCTrigSrc\n * ADC2R ADC2EEV9 LL_HRTIM_SetADCTrigSrc\n * ADC2R ADC2EEV10 LL_HRTIM_SetADCTrigSrc\n * ADC2R ADC2TAC2 LL_HRTIM_SetADCTrigSrc\n * ADC2R ADC2TAC3 LL_HRTIM_SetADCTrigSrc\n * ADC2R ADC2TAC4 LL_HRTIM_SetADCTrigSrc\n * ADC2R ADC2TAPER LL_HRTIM_SetADCTrigSrc\n * ADC2R ADC2TBC2 LL_HRTIM_SetADCTrigSrc\n * ADC2R ADC2TBC3 LL_HRTIM_SetADCTrigSrc\n * ADC2R ADC2TBC4 LL_HRTIM_SetADCTrigSrc\n * ADC2R ADC2TBPER LL_HRTIM_SetADCTrigSrc\n * ADC2R ADC2TCC2 LL_HRTIM_SetADCTrigSrc\n * ADC2R ADC2TCC3 LL_HRTIM_SetADCTrigSrc\n * ADC2R ADC2TCC4 LL_HRTIM_SetADCTrigSrc\n * ADC2R ADC2TCPER LL_HRTIM_SetADCTrigSrc\n * ADC2R ADC2TCRST LL_HRTIM_SetADCTrigSrc\n * ADC2R ADC2TDC2 LL_HRTIM_SetADCTrigSrc\n * ADC2R ADC2TDC3 LL_HRTIM_SetADCTrigSrc\n * ADC2R ADC2TDC4 LL_HRTIM_SetADCTrigSrc\n * ADC2R ADC2TDPER LL_HRTIM_SetADCTrigSrc\n * ADC2R ADC2TDRST LL_HRTIM_SetADCTrigSrc\n * ADC2R ADC2TEC2 LL_HRTIM_SetADCTrigSrc\n * ADC2R ADC2TEC3 LL_HRTIM_SetADCTrigSrc\n * ADC2R ADC2TEC4 LL_HRTIM_SetADCTrigSrc\n * ADC2R ADC2TERST LL_HRTIM_SetADCTrigSrc\n * ADC3R ADC3MC1 LL_HRTIM_SetADCTrigSrc\n * ADC3R ADC3MC2 LL_HRTIM_SetADCTrigSrc\n * ADC3R ADC3MC3 LL_HRTIM_SetADCTrigSrc\n * ADC3R ADC3MC4 LL_HRTIM_SetADCTrigSrc\n * ADC3R ADC3MPER LL_HRTIM_SetADCTrigSrc\n * ADC3R ADC3EEV1 LL_HRTIM_SetADCTrigSrc\n * ADC3R ADC3EEV2 LL_HRTIM_SetADCTrigSrc\n * ADC3R ADC3EEV3 LL_HRTIM_SetADCTrigSrc\n * ADC3R ADC3EEV4 LL_HRTIM_SetADCTrigSrc\n * ADC3R ADC3EEV5 LL_HRTIM_SetADCTrigSrc\n * ADC3R ADC3TAC2 LL_HRTIM_SetADCTrigSrc\n * ADC3R ADC3TAC3 LL_HRTIM_SetADCTrigSrc\n * ADC3R ADC3TAC4 LL_HRTIM_SetADCTrigSrc\n * ADC3R ADC3TAPER LL_HRTIM_SetADCTrigSrc\n * ADC3R ADC3TARST LL_HRTIM_SetADCTrigSrc\n * ADC3R ADC3TBC2 LL_HRTIM_SetADCTrigSrc\n * ADC3R ADC3TBC3 LL_HRTIM_SetADCTrigSrc\n * ADC3R ADC3TBC4 LL_HRTIM_SetADCTrigSrc\n * ADC3R ADC3TBPER LL_HRTIM_SetADCTrigSrc\n * ADC3R ADC3TBRST LL_HRTIM_SetADCTrigSrc\n * ADC3R ADC3TCC2 LL_HRTIM_SetADCTrigSrc\n * ADC3R ADC3TCC3 LL_HRTIM_SetADCTrigSrc\n * ADC3R ADC3TCC4 LL_HRTIM_SetADCTrigSrc\n * ADC3R ADC3TCPER LL_HRTIM_SetADCTrigSrc\n * ADC3R ADC3TDC2 LL_HRTIM_SetADCTrigSrc\n * ADC3R ADC3TDC3 LL_HRTIM_SetADCTrigSrc\n * ADC3R ADC3TDC4 LL_HRTIM_SetADCTrigSrc\n * ADC3R ADC3TDPER LL_HRTIM_SetADCTrigSrc\n * ADC3R ADC3TEC2 LL_HRTIM_SetADCTrigSrc\n * ADC3R ADC3TEC3 LL_HRTIM_SetADCTrigSrc\n * ADC3R ADC3TEC4 LL_HRTIM_SetADCTrigSrc\n * ADC3R ADC3TEPER LL_HRTIM_SetADCTrigSrc\n * ADC4R ADC4MC1 LL_HRTIM_SetADCTrigSrc\n * ADC4R ADC4MC2 LL_HRTIM_SetADCTrigSrc\n * ADC4R ADC4MC3 LL_HRTIM_SetADCTrigSrc\n * ADC4R ADC4MC4 LL_HRTIM_SetADCTrigSrc\n * ADC4R ADC4MPER LL_HRTIM_SetADCTrigSrc\n * ADC4R ADC4EEV6 LL_HRTIM_SetADCTrigSrc\n * ADC4R ADC4EEV7 LL_HRTIM_SetADCTrigSrc\n * ADC4R ADC4EEV8 LL_HRTIM_SetADCTrigSrc\n * ADC4R ADC4EEV9 LL_HRTIM_SetADCTrigSrc\n * ADC4R ADC4EEV10 LL_HRTIM_SetADCTrigSrc\n * ADC4R ADC4TAC2 LL_HRTIM_SetADCTrigSrc\n * ADC4R ADC4TAC3 LL_HRTIM_SetADCTrigSrc\n * ADC4R ADC4TAC4 LL_HRTIM_SetADCTrigSrc\n * ADC4R ADC4TAPER LL_HRTIM_SetADCTrigSrc\n * ADC4R ADC4TBC2 LL_HRTIM_SetADCTrigSrc\n * ADC4R ADC4TBC3 LL_HRTIM_SetADCTrigSrc\n * ADC4R ADC4TBC4 LL_HRTIM_SetADCTrigSrc\n * ADC4R ADC4TBPER LL_HRTIM_SetADCTrigSrc\n * ADC4R ADC4TCC2 LL_HRTIM_SetADCTrigSrc\n * ADC4R ADC4TCC3 LL_HRTIM_SetADCTrigSrc\n * ADC4R ADC4TCC4 LL_HRTIM_SetADCTrigSrc\n * ADC4R ADC4TCPER LL_HRTIM_SetADCTrigSrc\n * ADC4R ADC4TCRST LL_HRTIM_SetADCTrigSrc\n * ADC4R ADC4TDC2 LL_HRTIM_SetADCTrigSrc\n * ADC4R ADC4TDC3 LL_HRTIM_SetADCTrigSrc\n * ADC4R ADC4TDC4 LL_HRTIM_SetADCTrigSrc\n * ADC4R ADC4TDPER LL_HRTIM_SetADCTrigSrc\n * ADC4R ADC4TDRST LL_HRTIM_SetADCTrigSrc\n * ADC4R ADC4TEC2 LL_HRTIM_SetADCTrigSrc\n * ADC4R ADC4TEC3 LL_HRTIM_SetADCTrigSrc\n * ADC4R ADC4TEC4 LL_HRTIM_SetADCTrigSrc\n * ADC4R ADC4TERST LL_HRTIM_SetADCTrigSrc * @param HRTIMx High Resolution Timer instance * @param ADCTrig This parameter can be one of the following values: * @arg @ref LL_HRTIM_ADCTRIG_1 * @arg @ref LL_HRTIM_ADCTRIG_2 * @arg @ref LL_HRTIM_ADCTRIG_3 * @arg @ref LL_HRTIM_ADCTRIG_4 * @param Src This parameter can be a combination of the following values: * * For ADC trigger 1 and ADC trigger 3: * @arg @ref LL_HRTIM_ADCTRIG_SRC13_NONE * @arg @ref LL_HRTIM_ADCTRIG_SRC13_MCMP1 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_MCMP2 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_MCMP3 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_MCMP4 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_MPER * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMACMP2 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMACMP3 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMACMP4 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMAPER * @arg @ref LL_HRTIM_ADCTRIG_SRC13_EEV1 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_EEV2 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_EEV3 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_EEV4 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_EEV5 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMARST * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMBCMP2 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMBCMP3 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMBCMP4 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMBPER * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMBRST * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMCCMP2 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMCCMP3 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMCCMP4 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMCPER * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMDCMP2 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMDCMP3 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMDCMP4 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMDPER * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMECMP2 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMECMP3 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMECMP4 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMEPER * * For ADC trigger 2 and ADC trigger 4: * @arg @ref LL_HRTIM_ADCTRIG_SRC24_NONE * @arg @ref LL_HRTIM_ADCTRIG_SRC24_MCMP1 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_MCMP2 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_MCMP3 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_MCMP4 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_MPER * @arg @ref LL_HRTIM_ADCTRIG_SRC24_EEV6 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_EEV7 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_EEV8 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_EEV9 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_EEV10 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMACMP2 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMACMP3 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMACMP4 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMAPER * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMBCMP2 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMBCMP3 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMBCMP4 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMBPER * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMCCMP2 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMCCMP3 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMCCMP4 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMCPER * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMCRST * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMDCMP2 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMDCMP3 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMDCMP4 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMDPER * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMDRST * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMECMP2 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMECMP3 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMECMP4 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMERST * @retval None */ __STATIC_INLINE void LL_HRTIM_SetADCTrigSrc(HRTIM_TypeDef *HRTIMx, uint32_t ADCTrig, uint32_t Src) { register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sCommonRegs.ADC1R) + REG_OFFSET_TAB_ADCxR[ADCTrig])); WRITE_REG(*pReg, Src); } /** * @brief Indicate which events (timer events and/or external events) are currently used as triggers for ADC conversion. * @rmtoll ADC1R ADC1MC4 LL_HRTIM_GetADCTrigSrc\n * ADC1R ADC1MPER LL_HRTIM_GetADCTrigSrc\n * ADC1R ADC1EEV1 LL_HRTIM_GetADCTrigSrc\n * ADC1R ADC1EEV2 LL_HRTIM_GetADCTrigSrc\n * ADC1R ADC1EEV3 LL_HRTIM_GetADCTrigSrc\n * ADC1R ADC1EEV4 LL_HRTIM_GetADCTrigSrc\n * ADC1R ADC1EEV5 LL_HRTIM_GetADCTrigSrc\n * ADC1R ADC1TAC2 LL_HRTIM_GetADCTrigSrc\n * ADC1R ADC1TAC3 LL_HRTIM_GetADCTrigSrc\n * ADC1R ADC1TAC4 LL_HRTIM_GetADCTrigSrc\n * ADC1R ADC1TAPER LL_HRTIM_GetADCTrigSrc\n * ADC1R ADC1TARST LL_HRTIM_GetADCTrigSrc\n * ADC1R ADC1TBC2 LL_HRTIM_GetADCTrigSrc\n * ADC1R ADC1TBC3 LL_HRTIM_GetADCTrigSrc\n * ADC1R ADC1TBC4 LL_HRTIM_GetADCTrigSrc\n * ADC1R ADC1TBPER LL_HRTIM_GetADCTrigSrc\n * ADC1R ADC1TBRST LL_HRTIM_GetADCTrigSrc\n * ADC1R ADC1TCC2 LL_HRTIM_GetADCTrigSrc\n * ADC1R ADC1TCC3 LL_HRTIM_GetADCTrigSrc\n * ADC1R ADC1TCC4 LL_HRTIM_GetADCTrigSrc\n * ADC1R ADC1TCPER LL_HRTIM_GetADCTrigSrc\n * ADC1R ADC1TDC2 LL_HRTIM_GetADCTrigSrc\n * ADC1R ADC1TDC3 LL_HRTIM_GetADCTrigSrc\n * ADC1R ADC1TDC4 LL_HRTIM_GetADCTrigSrc\n * ADC1R ADC1TDPER LL_HRTIM_GetADCTrigSrc\n * ADC1R ADC1TEC2 LL_HRTIM_GetADCTrigSrc\n * ADC1R ADC1TEC3 LL_HRTIM_GetADCTrigSrc\n * ADC1R ADC1TEC4 LL_HRTIM_GetADCTrigSrc\n * ADC1R ADC1TEPER LL_HRTIM_GetADCTrigSrc\n * ADC2R ADC2MC1 LL_HRTIM_GetADCTrigSrc\n * ADC2R ADC2MC2 LL_HRTIM_GetADCTrigSrc\n * ADC2R ADC2MC3 LL_HRTIM_GetADCTrigSrc\n * ADC2R ADC2MC4 LL_HRTIM_GetADCTrigSrc\n * ADC2R ADC2MPER LL_HRTIM_GetADCTrigSrc\n * ADC2R ADC2EEV6 LL_HRTIM_GetADCTrigSrc\n * ADC2R ADC2EEV7 LL_HRTIM_GetADCTrigSrc\n * ADC2R ADC2EEV8 LL_HRTIM_GetADCTrigSrc\n * ADC2R ADC2EEV9 LL_HRTIM_GetADCTrigSrc\n * ADC2R ADC2EEV10 LL_HRTIM_GetADCTrigSrc\n * ADC2R ADC2TAC2 LL_HRTIM_GetADCTrigSrc\n * ADC2R ADC2TAC3 LL_HRTIM_GetADCTrigSrc\n * ADC2R ADC2TAC4 LL_HRTIM_GetADCTrigSrc\n * ADC2R ADC2TAPER LL_HRTIM_GetADCTrigSrc\n * ADC2R ADC2TBC2 LL_HRTIM_GetADCTrigSrc\n * ADC2R ADC2TBC3 LL_HRTIM_GetADCTrigSrc\n * ADC2R ADC2TBC4 LL_HRTIM_GetADCTrigSrc\n * ADC2R ADC2TBPER LL_HRTIM_GetADCTrigSrc\n * ADC2R ADC2TCC2 LL_HRTIM_GetADCTrigSrc\n * ADC2R ADC2TCC3 LL_HRTIM_GetADCTrigSrc\n * ADC2R ADC2TCC4 LL_HRTIM_GetADCTrigSrc\n * ADC2R ADC2TCPER LL_HRTIM_GetADCTrigSrc\n * ADC2R ADC2TCRST LL_HRTIM_GetADCTrigSrc\n * ADC2R ADC2TDC2 LL_HRTIM_GetADCTrigSrc\n * ADC2R ADC2TDC3 LL_HRTIM_GetADCTrigSrc\n * ADC2R ADC2TDC4 LL_HRTIM_GetADCTrigSrc\n * ADC2R ADC2TDPER LL_HRTIM_GetADCTrigSrc\n * ADC2R ADC2TDRST LL_HRTIM_GetADCTrigSrc\n * ADC2R ADC2TEC2 LL_HRTIM_GetADCTrigSrc\n * ADC2R ADC2TEC3 LL_HRTIM_GetADCTrigSrc\n * ADC2R ADC2TEC4 LL_HRTIM_GetADCTrigSrc\n * ADC2R ADC2TERST LL_HRTIM_GetADCTrigSrc\n * ADC3R ADC3MC1 LL_HRTIM_GetADCTrigSrc\n * ADC3R ADC3MC2 LL_HRTIM_GetADCTrigSrc\n * ADC3R ADC3MC3 LL_HRTIM_GetADCTrigSrc\n * ADC3R ADC3MC4 LL_HRTIM_GetADCTrigSrc\n * ADC3R ADC3MPER LL_HRTIM_GetADCTrigSrc\n * ADC3R ADC3EEV1 LL_HRTIM_GetADCTrigSrc\n * ADC3R ADC3EEV2 LL_HRTIM_GetADCTrigSrc\n * ADC3R ADC3EEV3 LL_HRTIM_GetADCTrigSrc\n * ADC3R ADC3EEV4 LL_HRTIM_GetADCTrigSrc\n * ADC3R ADC3EEV5 LL_HRTIM_GetADCTrigSrc\n * ADC3R ADC3TAC2 LL_HRTIM_GetADCTrigSrc\n * ADC3R ADC3TAC3 LL_HRTIM_GetADCTrigSrc\n * ADC3R ADC3TAC4 LL_HRTIM_GetADCTrigSrc\n * ADC3R ADC3TAPER LL_HRTIM_GetADCTrigSrc\n * ADC3R ADC3TARST LL_HRTIM_GetADCTrigSrc\n * ADC3R ADC3TBC2 LL_HRTIM_GetADCTrigSrc\n * ADC3R ADC3TBC3 LL_HRTIM_GetADCTrigSrc\n * ADC3R ADC3TBC4 LL_HRTIM_GetADCTrigSrc\n * ADC3R ADC3TBPER LL_HRTIM_GetADCTrigSrc\n * ADC3R ADC3TBRST LL_HRTIM_GetADCTrigSrc\n * ADC3R ADC3TCC2 LL_HRTIM_GetADCTrigSrc\n * ADC3R ADC3TCC3 LL_HRTIM_GetADCTrigSrc\n * ADC3R ADC3TCC4 LL_HRTIM_GetADCTrigSrc\n * ADC3R ADC3TCPER LL_HRTIM_GetADCTrigSrc\n * ADC3R ADC3TDC2 LL_HRTIM_GetADCTrigSrc\n * ADC3R ADC3TDC3 LL_HRTIM_GetADCTrigSrc\n * ADC3R ADC3TDC4 LL_HRTIM_GetADCTrigSrc\n * ADC3R ADC3TDPER LL_HRTIM_GetADCTrigSrc\n * ADC3R ADC3TEC2 LL_HRTIM_GetADCTrigSrc\n * ADC3R ADC3TEC3 LL_HRTIM_GetADCTrigSrc\n * ADC3R ADC3TEC4 LL_HRTIM_GetADCTrigSrc\n * ADC3R ADC3TEPER LL_HRTIM_GetADCTrigSrc\n * ADC4R ADC4MC1 LL_HRTIM_GetADCTrigSrc\n * ADC4R ADC4MC2 LL_HRTIM_GetADCTrigSrc\n * ADC4R ADC4MC3 LL_HRTIM_GetADCTrigSrc\n * ADC4R ADC4MC4 LL_HRTIM_GetADCTrigSrc\n * ADC4R ADC4MPER LL_HRTIM_GetADCTrigSrc\n * ADC4R ADC4EEV6 LL_HRTIM_GetADCTrigSrc\n * ADC4R ADC4EEV7 LL_HRTIM_GetADCTrigSrc\n * ADC4R ADC4EEV8 LL_HRTIM_GetADCTrigSrc\n * ADC4R ADC4EEV9 LL_HRTIM_GetADCTrigSrc\n * ADC4R ADC4EEV10 LL_HRTIM_GetADCTrigSrc\n * ADC4R ADC4TAC2 LL_HRTIM_GetADCTrigSrc\n * ADC4R ADC4TAC3 LL_HRTIM_GetADCTrigSrc\n * ADC4R ADC4TAC4 LL_HRTIM_GetADCTrigSrc\n * ADC4R ADC4TAPER LL_HRTIM_GetADCTrigSrc\n * ADC4R ADC4TBC2 LL_HRTIM_GetADCTrigSrc\n * ADC4R ADC4TBC3 LL_HRTIM_GetADCTrigSrc\n * ADC4R ADC4TBC4 LL_HRTIM_GetADCTrigSrc\n * ADC4R ADC4TBPER LL_HRTIM_GetADCTrigSrc\n * ADC4R ADC4TCC2 LL_HRTIM_GetADCTrigSrc\n * ADC4R ADC4TCC3 LL_HRTIM_GetADCTrigSrc\n * ADC4R ADC4TCC4 LL_HRTIM_GetADCTrigSrc\n * ADC4R ADC4TCPER LL_HRTIM_GetADCTrigSrc\n * ADC4R ADC4TCRST LL_HRTIM_GetADCTrigSrc\n * ADC4R ADC4TDC2 LL_HRTIM_GetADCTrigSrc\n * ADC4R ADC4TDC3 LL_HRTIM_GetADCTrigSrc\n * ADC4R ADC4TDC4 LL_HRTIM_GetADCTrigSrc\n * ADC4R ADC4TDPER LL_HRTIM_GetADCTrigSrc\n * ADC4R ADC4TDRST LL_HRTIM_GetADCTrigSrc\n * ADC4R ADC4TEC2 LL_HRTIM_GetADCTrigSrc\n * ADC4R ADC4TEC3 LL_HRTIM_GetADCTrigSrc\n * ADC4R ADC4TEC4 LL_HRTIM_GetADCTrigSrc\n * ADC4R ADC4TERST LL_HRTIM_GetADCTrigSrc * @param HRTIMx High Resolution Timer instance * @param ADCTrig This parameter can be one of the following values: * @arg @ref LL_HRTIM_ADCTRIG_1 * @arg @ref LL_HRTIM_ADCTRIG_2 * @arg @ref LL_HRTIM_ADCTRIG_3 * @arg @ref LL_HRTIM_ADCTRIG_4 * @retval Src This parameter can be a combination of the following values: * * For ADC trigger 1 and ADC trigger 3: * @arg @ref LL_HRTIM_ADCTRIG_SRC13_NONE * @arg @ref LL_HRTIM_ADCTRIG_SRC13_MCMP1 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_MCMP2 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_MCMP3 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_MCMP4 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_MPER * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMACMP2 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMACMP3 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMACMP4 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMAPER * @arg @ref LL_HRTIM_ADCTRIG_SRC13_EEV1 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_EEV2 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_EEV3 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_EEV4 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_EEV5 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMARST * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMBCMP2 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMBCMP3 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMBCMP4 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMBPER * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMBRST * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMCCMP2 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMCCMP3 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMCCMP4 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMCPER * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMDCMP2 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMDCMP3 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMDCMP4 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMDPER * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMECMP2 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMECMP3 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMECMP4 * @arg @ref LL_HRTIM_ADCTRIG_SRC13_TIMEPER * * For ADC trigger 2 and ADC trigger 4: * @arg @ref LL_HRTIM_ADCTRIG_SRC24_NONE * @arg @ref LL_HRTIM_ADCTRIG_SRC24_MCMP1 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_MCMP2 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_MCMP3 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_MCMP4 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_MPER * @arg @ref LL_HRTIM_ADCTRIG_SRC24_EEV6 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_EEV7 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_EEV8 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_EEV9 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_EEV10 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMACMP2 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMACMP3 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMACMP4 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMAPER * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMBCMP2 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMBCMP3 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMBCMP4 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMBPER * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMCCMP2 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMCCMP3 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMCCMP4 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMCPER * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMCRST * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMDCMP2 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMDCMP3 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMDCMP4 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMDPER * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMDRST * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMECMP2 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMECMP3 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMECMP4 * @arg @ref LL_HRTIM_ADCTRIG_SRC24_TIMERST */ __STATIC_INLINE uint32_t LL_HRTIM_GetADCTrigSrc(HRTIM_TypeDef *HRTIMx, uint32_t ADCTrig) { register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sCommonRegs.ADC1R) + REG_OFFSET_TAB_ADCxR[ADCTrig])); return (*pReg); } /** * @brief Configure the DLL calibration mode. * @rmtoll DLLCR CALEN LL_HRTIM_ConfigDLLCalibration\n * DLLCR CALRTE LL_HRTIM_ConfigDLLCalibration * @param HRTIMx High Resolution Timer instance * @param Mode This parameter can be one of the following values: * @arg @ref LL_HRTIM_DLLCALIBRATION_MODE_SINGLESHOT * @arg @ref LL_HRTIM_DLLCALIBRATION_MODE_CONTINUOUS * @param Period This parameter can be one of the following values: * @arg @ref LL_HRTIM_DLLCALIBRATION_RATE_7300 * @arg @ref LL_HRTIM_DLLCALIBRATION_RATE_910 * @arg @ref LL_HRTIM_DLLCALIBRATION_RATE_114 * @arg @ref LL_HRTIM_DLLCALIBRATION_RATE_14 * @retval None */ __STATIC_INLINE void LL_HRTIM_ConfigDLLCalibration(HRTIM_TypeDef *HRTIMx, uint32_t Mode, uint32_t Period) { MODIFY_REG(HRTIMx->sCommonRegs.DLLCR, (HRTIM_DLLCR_CALEN | HRTIM_DLLCR_CALRTE), (Mode | Period)); } /** * @brief Launch DLL calibration * @rmtoll DLLCR CAL LL_HRTIM_StartDLLCalibration * @param HRTIMx High Resolution Timer instance * @retval None */ __STATIC_INLINE void LL_HRTIM_StartDLLCalibration(HRTIM_TypeDef *HRTIMx) { SET_BIT(HRTIMx->sCommonRegs.DLLCR, HRTIM_DLLCR_CAL); } /** * @} */ /** @defgroup HRTIM_EF_HRTIM_Timer_Control HRTIM_Timer_Control * @{ */ /** * @brief Enable timer(s) counter. * @rmtoll MDIER TECEN LL_HRTIM_TIM_CounterEnable\n * MDIER TDCEN LL_HRTIM_TIM_CounterEnable\n * MDIER TCCEN LL_HRTIM_TIM_CounterEnable\n * MDIER TBCEN LL_HRTIM_TIM_CounterEnable\n * MDIER TACEN LL_HRTIM_TIM_CounterEnable\n * MDIER MCEN LL_HRTIM_TIM_CounterEnable * @param HRTIMx High Resolution Timer instance * @param Timers This parameter can be a combination of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_TIM_CounterEnable(HRTIM_TypeDef *HRTIMx, uint32_t Timers) { SET_BIT(HRTIMx->sMasterRegs.MCR, Timers); } /** * @brief Disable timer(s) counter. * @rmtoll MDIER TECEN LL_HRTIM_TIM_CounterDisable\n * MDIER TDCEN LL_HRTIM_TIM_CounterDisable\n * MDIER TCCEN LL_HRTIM_TIM_CounterDisable\n * MDIER TBCEN LL_HRTIM_TIM_CounterDisable\n * MDIER TACEN LL_HRTIM_TIM_CounterDisable\n * MDIER MCEN LL_HRTIM_TIM_CounterDisable * @param HRTIMx High Resolution Timer instance * @param Timers This parameter can be a combination of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_TIM_CounterDisable(HRTIM_TypeDef *HRTIMx, uint32_t Timers) { CLEAR_BIT(HRTIMx->sMasterRegs.MCR, Timers); } /** * @brief Indicate whether the timer counter is enabled. * @rmtoll MDIER TECEN LL_HRTIM_TIM_IsCounterEnabled\n * MDIER TDCEN LL_HRTIM_TIM_IsCounterEnabled\n * MDIER TCCEN LL_HRTIM_TIM_IsCounterEnabled\n * MDIER TBCEN LL_HRTIM_TIM_IsCounterEnabled\n * MDIER TACEN LL_HRTIM_TIM_IsCounterEnabled\n * MDIER MCEN LL_HRTIM_TIM_IsCounterEnabled * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval State of MCEN or TxCEN bit HRTIM_MCR register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_TIM_IsCounterEnabled(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { return (READ_BIT(HRTIMx->sMasterRegs.MCR, Timer) == (Timer)); } /** * @brief Set the timer clock prescaler ratio. * @rmtoll MCR CKPSC LL_HRTIM_TIM_SetPrescaler\n * TIMxCR CKPSC LL_HRTIM_TIM_SetPrescaler * @note The counter clock equivalent frequency (CK_CNT) is equal to fHRCK / 2^CKPSC[2:0]. * @note The prescaling ratio cannot be modified once the timer counter is enabled. * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @param Prescaler This parameter can be one of the following values: * @arg @ref LL_HRTIM_PRESCALERRATIO_MUL32 * @arg @ref LL_HRTIM_PRESCALERRATIO_MUL16 * @arg @ref LL_HRTIM_PRESCALERRATIO_MUL8 * @arg @ref LL_HRTIM_PRESCALERRATIO_MUL4 * @arg @ref LL_HRTIM_PRESCALERRATIO_MUL2 * @arg @ref LL_HRTIM_PRESCALERRATIO_DIV1 * @arg @ref LL_HRTIM_PRESCALERRATIO_DIV2 * @arg @ref LL_HRTIM_PRESCALERRATIO_DIV4 * @retval None */ __STATIC_INLINE void LL_HRTIM_TIM_SetPrescaler(HRTIM_TypeDef *HRTIMx, uint32_t Timer, uint32_t Prescaler) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MCR) + REG_OFFSET_TAB_TIMER[iTimer])); MODIFY_REG(*pReg, HRTIM_MCR_CK_PSC, Prescaler); } /** * @brief Get the timer clock prescaler ratio * @rmtoll MCR CKPSC LL_HRTIM_TIM_GetPrescaler\n * TIMxCR CKPSC LL_HRTIM_TIM_GetPrescaler * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval Prescaler Returned value can be one of the following values: * @arg @ref LL_HRTIM_PRESCALERRATIO_MUL32 * @arg @ref LL_HRTIM_PRESCALERRATIO_MUL16 * @arg @ref LL_HRTIM_PRESCALERRATIO_MUL8 * @arg @ref LL_HRTIM_PRESCALERRATIO_MUL4 * @arg @ref LL_HRTIM_PRESCALERRATIO_MUL2 * @arg @ref LL_HRTIM_PRESCALERRATIO_DIV1 * @arg @ref LL_HRTIM_PRESCALERRATIO_DIV2 * @arg @ref LL_HRTIM_PRESCALERRATIO_DIV4 */ __STATIC_INLINE uint32_t LL_HRTIM_TIM_GetPrescaler(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MCR) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_MCR_CK_PSC)); } /** * @brief Set the counter operating mode mode (single-shot, continuous or re-triggerable). * @rmtoll MCR CONT LL_HRTIM_TIM_SetCounterMode\n * MCR RETRIG LL_HRTIM_TIM_SetCounterMode\n * TIMxCR CONT LL_HRTIM_TIM_SetCounterMode\n * TIMxCR RETRIG LL_HRTIM_TIM_SetCounterMode * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @param Mode This parameter can be one of the following values: * @arg @ref LL_HRTIM_MODE_CONTINUOUS * @arg @ref LL_HRTIM_MODE_SINGLESHOT * @arg @ref LL_HRTIM_MODE_RETRIGGERABLE * @retval None */ __STATIC_INLINE void LL_HRTIM_TIM_SetCounterMode(HRTIM_TypeDef *HRTIMx, uint32_t Timer, uint32_t Mode) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MCR) + REG_OFFSET_TAB_TIMER[iTimer])); MODIFY_REG(*pReg, (HRTIM_TIMCR_RETRIG | HRTIM_MCR_CONT), Mode); } /** * @brief Get the counter operating mode mode * @rmtoll MCR CONT LL_HRTIM_TIM_GetCounterMode\n * MCR RETRIG LL_HRTIM_TIM_GetCounterMode\n * TIMxCR CONT LL_HRTIM_TIM_GetCounterMode\n * TIMxCR RETRIG LL_HRTIM_TIM_GetCounterMode * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval Mode Returned value can be one of the following values: * @arg @ref LL_HRTIM_MODE_CONTINUOUS * @arg @ref LL_HRTIM_MODE_SINGLESHOT * @arg @ref LL_HRTIM_MODE_RETRIGGERABLE */ __STATIC_INLINE uint32_t LL_HRTIM_TIM_GetCounterMode(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MCR) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, (HRTIM_MCR_RETRIG | HRTIM_MCR_CONT))); } /** * @brief Enable the half duty-cycle mode. * @rmtoll MCR HALF LL_HRTIM_TIM_EnableHalfMode\n * TIMxCR HALF LL_HRTIM_TIM_EnableHalfMode * @note When the half mode is enabled, HRTIM_MCMP1R (or HRTIM_CMP1xR) * active register is automatically updated with HRTIM_MPER/2 * (or HRTIM_PERxR/2) value when HRTIM_MPER (or HRTIM_PERxR) register is written. * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_TIM_EnableHalfMode(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MCR) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, HRTIM_MCR_HALF); } /** * @brief Disable the half duty-cycle mode. * @rmtoll MCR HALF LL_HRTIM_TIM_DisableHalfMode\n * TIMxCR HALF LL_HRTIM_TIM_DisableHalfMode * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_TIM_DisableHalfMode(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MCR) + REG_OFFSET_TAB_TIMER[iTimer])); CLEAR_BIT(*pReg, HRTIM_MCR_HALF); } /** * @brief Indicate whether half duty-cycle mode is enabled for a given timer. * @rmtoll MCR HALF LL_HRTIM_TIM_IsEnabledHalfMode\n * TIMxCR HALF LL_HRTIM_TIM_IsEnabledHalfMode * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval State of HALF bit to 1 in HRTIM_MCR or HRTIM_TIMxCR register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_TIM_IsEnabledHalfMode(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MCR) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_MCR_HALF) == HRTIM_MCR_HALF); } /** * @brief Enable the timer start when receiving a synchronization input event. * @rmtoll MCR SYNCSTRTM LL_HRTIM_TIM_EnableStartOnSync\n * TIMxCR SYNSTRTA LL_HRTIM_TIM_EnableStartOnSync * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_TIM_EnableStartOnSync(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MCR) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, HRTIM_MCR_SYNCSTRTM); } /** * @brief Disable the timer start when receiving a synchronization input event. * @rmtoll MCR SYNCSTRTM LL_HRTIM_TIM_DisableStartOnSync\n * TIMxCR SYNSTRTA LL_HRTIM_TIM_DisableStartOnSync * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_TIM_DisableStartOnSync(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MCR) + REG_OFFSET_TAB_TIMER[iTimer])); CLEAR_BIT(*pReg, HRTIM_MCR_SYNCSTRTM); } /** * @brief Indicate whether the timer start when receiving a synchronization input event. * @rmtoll MCR SYNCSTRTM LL_HRTIM_TIM_IsEnabledStartOnSync\n * TIMxCR SYNSTRTA LL_HRTIM_TIM_IsEnabledStartOnSync * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval State of SYNCSTRTx bit in HRTIM_MCR or HRTIM_TIMxCR register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_TIM_IsEnabledStartOnSync(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MCR) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_MCR_SYNCSTRTM) == HRTIM_MCR_SYNCSTRTM); } /** * @brief Enable the timer reset when receiving a synchronization input event. * @rmtoll MCR SYNCRSTM LL_HRTIM_TIM_EnableResetOnSync\n * TIMxCR SYNCRSTA LL_HRTIM_TIM_EnableResetOnSync * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_TIM_EnableResetOnSync(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MCR) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, HRTIM_MCR_SYNCRSTM); } /** * @brief Disable the timer reset when receiving a synchronization input event. * @rmtoll MCR SYNCRSTM LL_HRTIM_TIM_DisableResetOnSync\n * TIMxCR SYNCRSTA LL_HRTIM_TIM_DisableResetOnSync * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_TIM_DisableResetOnSync(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MCR) + REG_OFFSET_TAB_TIMER[iTimer])); CLEAR_BIT(*pReg, HRTIM_MCR_SYNCRSTM); } /** * @brief Indicate whether the timer reset when receiving a synchronization input event. * @rmtoll MCR SYNCRSTM LL_HRTIM_TIM_IsEnabledResetOnSync\n * TIMxCR SYNCRSTA LL_HRTIM_TIM_IsEnabledResetOnSync * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE uint32_t LL_HRTIM_TIM_IsEnabledResetOnSync(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MCR) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_MCR_SYNCRSTM) == HRTIM_MCR_SYNCRSTM); } /** * @brief Set the HRTIM output the DAC synchronization event is generated on (DACtrigOutx). * @rmtoll MCR DACSYNC LL_HRTIM_TIM_SetDACTrig\n * TIMxCR DACSYNC LL_HRTIM_TIM_SetDACTrig * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @param DACTrig This parameter can be one of the following values: * @arg @ref LL_HRTIM_DACTRIG_NONE * @arg @ref LL_HRTIM_DACTRIG_DACTRIGOUT_1 * @arg @ref LL_HRTIM_DACTRIG_DACTRIGOUT_2 * @arg @ref LL_HRTIM_DACTRIG_DACTRIGOUT_3 * @retval None */ __STATIC_INLINE void LL_HRTIM_TIM_SetDACTrig(HRTIM_TypeDef *HRTIMx, uint32_t Timer, uint32_t DACTrig) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MCR) + REG_OFFSET_TAB_TIMER[iTimer])); MODIFY_REG(*pReg, HRTIM_MCR_DACSYNC, DACTrig); } /** * @brief Get the HRTIM output the DAC synchronization event is generated on (DACtrigOutx). * @rmtoll MCR DACSYNC LL_HRTIM_TIM_GetDACTrig\n * TIMxCR DACSYNC LL_HRTIM_TIM_GetDACTrig * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval DACTrig Returned value can be one of the following values: * @arg @ref LL_HRTIM_DACTRIG_NONE * @arg @ref LL_HRTIM_DACTRIG_DACTRIGOUT_1 * @arg @ref LL_HRTIM_DACTRIG_DACTRIGOUT_2 * @arg @ref LL_HRTIM_DACTRIG_DACTRIGOUT_3 */ __STATIC_INLINE uint32_t LL_HRTIM_TIM_GetDACTrig(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MCR) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_MCR_DACSYNC)); } /** * @brief Enable the timer registers preload mechanism. * @rmtoll MCR PREEN LL_HRTIM_TIM_EnablePreload\n * TIMxCR PREEN LL_HRTIM_TIM_EnablePreload * @note When the preload mode is enabled, accessed registers are shadow registers. * Their content is transferred into the active register after an update request, * either software or synchronized with an event. * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_TIM_EnablePreload(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MCR) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, HRTIM_MCR_PREEN); } /** * @brief Disable the timer registers preload mechanism. * @rmtoll MCR PREEN LL_HRTIM_TIM_DisablePreload\n * TIMxCR PREEN LL_HRTIM_TIM_DisablePreload * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_TIM_DisablePreload(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MCR) + REG_OFFSET_TAB_TIMER[iTimer])); CLEAR_BIT(*pReg, HRTIM_MCR_PREEN); } /** * @brief Indicate whether the timer registers preload mechanism is enabled. * @rmtoll MCR PREEN LL_HRTIM_TIM_IsEnabledPreload\n * TIMxCR PREEN LL_HRTIM_TIM_IsEnabledPreload * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval State of PREEN bit in HRTIM_MCR or HRTIM_TIMxCR register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_TIM_IsEnabledPreload(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MCR) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_MCR_PREEN) == HRTIM_MCR_PREEN); } /** * @brief Set the timer register update trigger. * @rmtoll MCR MREPU LL_HRTIM_TIM_SetUpdateTrig\n * TIMxCR TAU LL_HRTIM_TIM_SetUpdateTrig\n * TIMxCR TBU LL_HRTIM_TIM_SetUpdateTrig\n * TIMxCR TCU LL_HRTIM_TIM_SetUpdateTrig\n * TIMxCR TDU LL_HRTIM_TIM_SetUpdateTrig\n * TIMxCR TEU LL_HRTIM_TIM_SetUpdateTrig\n * TIMxCR MSTU LL_HRTIM_TIM_SetUpdateTrig * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @param UpdateTrig This parameter can be one of the following values: * * For the master timer this parameter can be one of the following values: * @arg @ref LL_HRTIM_UPDATETRIG_NONE * @arg @ref LL_HRTIM_UPDATETRIG_REPETITION * * For timer A..E this parameter can be: * @arg @ref LL_HRTIM_UPDATETRIG_NONE * or a combination of the following values: * @arg @ref LL_HRTIM_UPDATETRIG_MASTER * @arg @ref LL_HRTIM_UPDATETRIG_TIMER_A * @arg @ref LL_HRTIM_UPDATETRIG_TIMER_B * @arg @ref LL_HRTIM_UPDATETRIG_TIMER_C * @arg @ref LL_HRTIM_UPDATETRIG_TIMER_D * @arg @ref LL_HRTIM_UPDATETRIG_TIMER_E * @arg @ref LL_HRTIM_UPDATETRIG_REPETITION * @arg @ref LL_HRTIM_UPDATETRIG_RESET * @retval None */ __STATIC_INLINE void LL_HRTIM_TIM_SetUpdateTrig(HRTIM_TypeDef *HRTIMx, uint32_t Timer, uint32_t UpdateTrig) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MCR) + REG_OFFSET_TAB_TIMER[iTimer])); MODIFY_REG(*pReg, REG_MASK_TAB_UPDATETRIG[iTimer], UpdateTrig << REG_SHIFT_TAB_UPDATETRIG[iTimer]); } /** * @brief Set the timer register update trigger. * @rmtoll MCR MREPU LL_HRTIM_TIM_GetUpdateTrig\n * TIMxCR TBU LL_HRTIM_TIM_GetUpdateTrig\n * TIMxCR TCU LL_HRTIM_TIM_GetUpdateTrig\n * TIMxCR TDU LL_HRTIM_TIM_GetUpdateTrig\n * TIMxCR TEU LL_HRTIM_TIM_GetUpdateTrig\n * TIMxCR MSTU LL_HRTIM_TIM_GetUpdateTrig * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval UpdateTrig Returned value can be one of the following values: * * For the master timer this parameter can be one of the following values: * @arg @ref LL_HRTIM_UPDATETRIG_NONE * @arg @ref LL_HRTIM_UPDATETRIG_REPETITION * * For timer A..E this parameter can be: * @arg @ref LL_HRTIM_UPDATETRIG_NONE * or a combination of the following values: * @arg @ref LL_HRTIM_UPDATETRIG_MASTER * @arg @ref LL_HRTIM_UPDATETRIG_TIMER_A * @arg @ref LL_HRTIM_UPDATETRIG_TIMER_B * @arg @ref LL_HRTIM_UPDATETRIG_TIMER_C * @arg @ref LL_HRTIM_UPDATETRIG_TIMER_D * @arg @ref LL_HRTIM_UPDATETRIG_TIMER_E * @arg @ref LL_HRTIM_UPDATETRIG_REPETITION * @arg @ref LL_HRTIM_UPDATETRIG_RESET */ __STATIC_INLINE uint32_t LL_HRTIM_TIM_GetUpdateTrig(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MCR) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, REG_MASK_TAB_UPDATETRIG[iTimer]) >> REG_SHIFT_TAB_UPDATETRIG[iTimer]); } /** * @brief Set the timer registers update condition (how the registers update occurs relatively to the burst DMA transaction or an external update request received on one of the update enable inputs (UPD_EN[3:1])). * @rmtoll MCR BRSTDMA LL_HRTIM_TIM_SetUpdateGating\n * TIMxCR UPDGAT LL_HRTIM_TIM_SetUpdateGating * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @param UpdateGating This parameter can be one of the following values: * * For the master timer this parameter can be one of the following values: * @arg @ref LL_HRTIM_UPDATEGATING_INDEPENDENT * @arg @ref LL_HRTIM_UPDATEGATING_DMABURST * @arg @ref LL_HRTIM_UPDATEGATING_DMABURST_UPDATE * * For the timer A..E this parameter can be one of the following values: * @arg @ref LL_HRTIM_UPDATEGATING_INDEPENDENT * @arg @ref LL_HRTIM_UPDATEGATING_DMABURST * @arg @ref LL_HRTIM_UPDATEGATING_DMABURST_UPDATE * @arg @ref LL_HRTIM_UPDATEGATING_UPDEN1 * @arg @ref LL_HRTIM_UPDATEGATING_UPDEN2 * @arg @ref LL_HRTIM_UPDATEGATING_UPDEN3 * @arg @ref LL_HRTIM_UPDATEGATING_UPDEN1_UPDATE * @arg @ref LL_HRTIM_UPDATEGATING_UPDEN2_UPDATE * @arg @ref LL_HRTIM_UPDATEGATING_UPDEN3_UPDATE * @retval None */ __STATIC_INLINE void LL_HRTIM_TIM_SetUpdateGating(HRTIM_TypeDef *HRTIMx, uint32_t Timer, uint32_t UpdateGating) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MCR) + REG_OFFSET_TAB_TIMER[iTimer])); MODIFY_REG(*pReg, REG_MASK_TAB_UPDATEGATING[iTimer], (UpdateGating << REG_SHIFT_TAB_UPDATEGATING[iTimer])); } /** * @brief Get the timer registers update condition. * @rmtoll MCR BRSTDMA LL_HRTIM_TIM_GetUpdateGating\n * TIMxCR UPDGAT LL_HRTIM_TIM_GetUpdateGating * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval UpdateGating Returned value can be one of the following values: * * For the master timer this parameter can be one of the following values: * @arg @ref LL_HRTIM_UPDATEGATING_INDEPENDENT * @arg @ref LL_HRTIM_UPDATEGATING_DMABURST * @arg @ref LL_HRTIM_UPDATEGATING_DMABURST_UPDATE * * For the timer A..E this parameter can be one of the following values: * @arg @ref LL_HRTIM_UPDATEGATING_INDEPENDENT * @arg @ref LL_HRTIM_UPDATEGATING_DMABURST * @arg @ref LL_HRTIM_UPDATEGATING_DMABURST_UPDATE * @arg @ref LL_HRTIM_UPDATEGATING_UPDEN1 * @arg @ref LL_HRTIM_UPDATEGATING_UPDEN2 * @arg @ref LL_HRTIM_UPDATEGATING_UPDEN3 * @arg @ref LL_HRTIM_UPDATEGATING_UPDEN1_UPDATE * @arg @ref LL_HRTIM_UPDATEGATING_UPDEN2_UPDATE * @arg @ref LL_HRTIM_UPDATEGATING_UPDEN3_UPDATE */ __STATIC_INLINE uint32_t LL_HRTIM_TIM_GetUpdateGating(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MCR) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, REG_MASK_TAB_UPDATEGATING[iTimer]) >> REG_SHIFT_TAB_UPDATEGATING[iTimer]); } /** * @brief Enable the push-pull mode. * @rmtoll TIMxCR PSHPLL LL_HRTIM_TIM_EnablePushPullMode * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_TIM_EnablePushPullMode(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_TACEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].TIMxCR) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, HRTIM_TIMCR_PSHPLL); } /** * @brief Disable the push-pull mode. * @rmtoll TIMxCR PSHPLL LL_HRTIM_TIM_DisablePushPullMode * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_TIM_DisablePushPullMode(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_TACEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].TIMxCR) + REG_OFFSET_TAB_TIMER[iTimer])); CLEAR_BIT(*pReg, HRTIM_TIMCR_PSHPLL); } /** * @brief Indicate whether the push-pull mode is enabled. * @rmtoll TIMxCR PSHPLL LL_HRTIM_TIM_IsEnabledPushPullMode\n * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval State of PSHPLL bit in HRTIM_TIMxCR register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_TIM_IsEnabledPushPullMode(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_TACEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].TIMxCR) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_TIMCR_PSHPLL) == HRTIM_TIMCR_PSHPLL); } /** * @brief Set the functioning mode of the compare unit (CMP2 or CMP4 can operate in standard mode or in auto delayed mode). * @rmtoll TIMxCR DELCMP2 LL_HRTIM_TIM_SetCompareMode\n * TIMxCR DELCMP4 LL_HRTIM_TIM_SetCompareMode * @note In auto-delayed mode the compare match occurs independently from the timer counter value. * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @param CompareUnit This parameter can be one of the following values: * @arg @ref LL_HRTIM_COMPAREUNIT_2 * @arg @ref LL_HRTIM_COMPAREUNIT_4 * @param Mode This parameter can be one of the following values: * @arg @ref LL_HRTIM_COMPAREMODE_REGULAR * @arg @ref LL_HRTIM_COMPAREMODE_DELAY_NOTIMEOUT * @arg @ref LL_HRTIM_COMPAREMODE_DELAY_CMP1 * @arg @ref LL_HRTIM_COMPAREMODE_DELAY_CMP3 * @retval None */ __STATIC_INLINE void LL_HRTIM_TIM_SetCompareMode(HRTIM_TypeDef *HRTIMx, uint32_t Timer, uint32_t CompareUnit, uint32_t Mode) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_TACEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].TIMxCR) + REG_OFFSET_TAB_TIMER[iTimer])); register uint32_t shift = POSITION_VAL(CompareUnit) - POSITION_VAL(LL_HRTIM_COMPAREUNIT_2); MODIFY_REG(* pReg, (HRTIM_TIMCR_DELCMP2 << shift), (Mode << shift)); } /** * @brief Get the functioning mode of the compare unit. * @rmtoll TIMxCR DELCMP2 LL_HRTIM_TIM_GetCompareMode\n * TIMxCR DELCMP4 LL_HRTIM_TIM_GetCompareMode * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @param CompareUnit This parameter can be one of the following values: * @arg @ref LL_HRTIM_COMPAREUNIT_2 * @arg @ref LL_HRTIM_COMPAREUNIT_4 * @retval Mode Returned value can be one of the following values: * @arg @ref LL_HRTIM_COMPAREMODE_REGULAR * @arg @ref LL_HRTIM_COMPAREMODE_DELAY_NOTIMEOUT * @arg @ref LL_HRTIM_COMPAREMODE_DELAY_CMP1 * @arg @ref LL_HRTIM_COMPAREMODE_DELAY_CMP3 */ __STATIC_INLINE uint32_t LL_HRTIM_TIM_GetCompareMode(HRTIM_TypeDef *HRTIMx, uint32_t Timer, uint32_t CompareUnit) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_TACEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].TIMxCR) + REG_OFFSET_TAB_TIMER[iTimer])); register uint32_t shift = POSITION_VAL(CompareUnit) - POSITION_VAL(LL_HRTIM_COMPAREUNIT_2); return (READ_BIT(*pReg, (HRTIM_TIMCR_DELCMP2 << shift)) >> shift); } /** * @brief Set the timer counter value. * @rmtoll MCNTR MCNT LL_HRTIM_TIM_SetCounter\n * CNTxR CNTx LL_HRTIM_TIM_SetCounter * @note This function can only be called when the timer is stopped. * @note For HR clock prescaling ratio below 32 (CKPSC[2:0] < 5), the least * significant bits of the counter are not significant. They cannot be * written and return 0 when read. * @note The timer behavior is not guaranteed if the counter value is set above * the period. * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @param Counter Value between 0 and 0xFFFF * @retval None */ __STATIC_INLINE void LL_HRTIM_TIM_SetCounter(HRTIM_TypeDef *HRTIMx, uint32_t Timer, uint32_t Counter) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MCNTR) + REG_OFFSET_TAB_TIMER[iTimer])); MODIFY_REG(* pReg, HRTIM_MCNTR_MCNTR, Counter); } /** * @brief Get actual timer counter value. * @rmtoll MCNTR MCNT LL_HRTIM_TIM_GetCounter\n * CNTxR CNTx LL_HRTIM_TIM_GetCounter * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval Counter Value between 0 and 0xFFFF */ __STATIC_INLINE uint32_t LL_HRTIM_TIM_GetCounter(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MCNTR) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_MCNTR_MCNTR)); } /** * @brief Set the timer period value. * @rmtoll MPER MPER LL_HRTIM_TIM_SetPeriod\n * PERxR PERx LL_HRTIM_TIM_SetPeriod * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @param Period Value between 0 and 0xFFFF * @retval None */ __STATIC_INLINE void LL_HRTIM_TIM_SetPeriod(HRTIM_TypeDef *HRTIMx, uint32_t Timer, uint32_t Period) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MPER) + REG_OFFSET_TAB_TIMER[iTimer])); MODIFY_REG(* pReg, HRTIM_MPER_MPER, Period); } /** * @brief Get actual timer period value. * @rmtoll MPER MPER LL_HRTIM_TIM_GetPeriod\n * PERxR PERx LL_HRTIM_TIM_GetPeriod * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval Period Value between 0 and 0xFFFF */ __STATIC_INLINE uint32_t LL_HRTIM_TIM_GetPeriod(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MPER) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_MPER_MPER)); } /** * @brief Set the timer repetition period value. * @rmtoll MREP MREP LL_HRTIM_TIM_SetRepetition\n * REPxR REPx LL_HRTIM_TIM_SetRepetition * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @param Repetition Value between 0 and 0xFF * @retval None */ __STATIC_INLINE void LL_HRTIM_TIM_SetRepetition(HRTIM_TypeDef *HRTIMx, uint32_t Timer, uint32_t Repetition) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MREP) + REG_OFFSET_TAB_TIMER[iTimer])); MODIFY_REG(* pReg, HRTIM_MREP_MREP, Repetition); } /** * @brief Get actual timer repetition period value. * @rmtoll MREP MREP LL_HRTIM_TIM_GetRepetition\n * REPxR REPx LL_HRTIM_TIM_GetRepetition * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval Repetition Value between 0 and 0xFF */ __STATIC_INLINE uint32_t LL_HRTIM_TIM_GetRepetition(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MREP) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_MREP_MREP)); } /** * @brief Set the compare value of the compare unit 1. * @rmtoll MCMP1R MCMP1 LL_HRTIM_TIM_SetCompare1\n * CMP1xR CMP1x LL_HRTIM_TIM_SetCompare1 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @param CompareValue Compare value must be above or equal to 3 * periods of the fHRTIM clock, that is 0x60 if CKPSC[2:0] = 0, * 0x30 if CKPSC[2:0] = 1, 0x18 if CKPSC[2:0] = 2,... * @retval None */ __STATIC_INLINE void LL_HRTIM_TIM_SetCompare1(HRTIM_TypeDef *HRTIMx, uint32_t Timer, uint32_t CompareValue) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MCMP1R) + REG_OFFSET_TAB_TIMER[iTimer])); MODIFY_REG(* pReg, HRTIM_MCMP1R_MCMP1R, CompareValue); } /** * @brief Get actual compare value of the compare unit 1. * @rmtoll MCMP1R MCMP1 LL_HRTIM_TIM_GetCompare1\n * CMP1xR CMP1x LL_HRTIM_TIM_GetCompare1 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval CompareValue Compare value must be above or equal to 3 * periods of the fHRTIM clock, that is 0x60 if CKPSC[2:0] = 0, * 0x30 if CKPSC[2:0] = 1, 0x18 if CKPSC[2:0] = 2,... */ __STATIC_INLINE uint32_t LL_HRTIM_TIM_GetCompare1(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MCMP1R) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_MCMP1R_MCMP1R)); } /** * @brief Set the compare value of the compare unit 2. * @rmtoll MCMP2R MCMP2 LL_HRTIM_TIM_SetCompare2\n * CMP2xR CMP2x LL_HRTIM_TIM_SetCompare2 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @param CompareValue Compare value must be above or equal to 3 * periods of the fHRTIM clock, that is 0x60 if CKPSC[2:0] = 0, * 0x30 if CKPSC[2:0] = 1, 0x18 if CKPSC[2:0] = 2,... * @retval None */ __STATIC_INLINE void LL_HRTIM_TIM_SetCompare2(HRTIM_TypeDef *HRTIMx, uint32_t Timer, uint32_t CompareValue) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MCMP2R) + REG_OFFSET_TAB_TIMER[iTimer])); MODIFY_REG(* pReg, HRTIM_MCMP1R_MCMP2R, CompareValue); } /** * @brief Get actual compare value of the compare unit 2. * @rmtoll MCMP2R MCMP2 LL_HRTIM_TIM_GetCompare2\n * CMP2xR CMP2x LL_HRTIM_TIM_GetCompare2\n * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval CompareValue Compare value must be above or equal to 3 * periods of the fHRTIM clock, that is 0x60 if CKPSC[2:0] = 0, * 0x30 if CKPSC[2:0] = 1, 0x18 if CKPSC[2:0] = 2,... */ __STATIC_INLINE uint32_t LL_HRTIM_TIM_GetCompare2(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MCMP2R) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_MCMP1R_MCMP2R)); } /** * @brief Set the compare value of the compare unit 3. * @rmtoll MCMP3R MCMP3 LL_HRTIM_TIM_SetCompare3\n * CMP3xR CMP3x LL_HRTIM_TIM_SetCompare3 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @param CompareValue Compare value must be above or equal to 3 * periods of the fHRTIM clock, that is 0x60 if CKPSC[2:0] = 0, * 0x30 if CKPSC[2:0] = 1, 0x18 if CKPSC[2:0] = 2,... * @retval None */ __STATIC_INLINE void LL_HRTIM_TIM_SetCompare3(HRTIM_TypeDef *HRTIMx, uint32_t Timer, uint32_t CompareValue) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MCMP3R) + REG_OFFSET_TAB_TIMER[iTimer])); MODIFY_REG(* pReg, HRTIM_MCMP1R_MCMP3R, CompareValue); } /** * @brief Get actual compare value of the compare unit 3. * @rmtoll MCMP3R MCMP3 LL_HRTIM_TIM_GetCompare3\n * CMP3xR CMP3x LL_HRTIM_TIM_GetCompare3 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval CompareValue Compare value must be above or equal to 3 * periods of the fHRTIM clock, that is 0x60 if CKPSC[2:0] = 0, * 0x30 if CKPSC[2:0] = 1, 0x18 if CKPSC[2:0] = 2,... */ __STATIC_INLINE uint32_t LL_HRTIM_TIM_GetCompare3(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MCMP3R) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_MCMP1R_MCMP3R)); } /** * @brief Set the compare value of the compare unit 4. * @rmtoll MCMP4R MCMP4 LL_HRTIM_TIM_SetCompare4\n * CMP4xR CMP4x LL_HRTIM_TIM_SetCompare4 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @param CompareValue Compare value must be above or equal to 3 * periods of the fHRTIM clock, that is 0x60 if CKPSC[2:0] = 0, * 0x30 if CKPSC[2:0] = 1, 0x18 if CKPSC[2:0] = 2,... * @retval None */ __STATIC_INLINE void LL_HRTIM_TIM_SetCompare4(HRTIM_TypeDef *HRTIMx, uint32_t Timer, uint32_t CompareValue) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MCMP4R) + REG_OFFSET_TAB_TIMER[iTimer])); MODIFY_REG(* pReg, HRTIM_MCMP1R_MCMP4R, CompareValue); } /** * @brief Get actual compare value of the compare unit 4. * @rmtoll MCMP4R MCMP4 LL_HRTIM_TIM_GetCompare4\n * CMP4xR CMP4x LL_HRTIM_TIM_GetCompare4 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval CompareValue Compare value must be above or equal to 3 * periods of the fHRTIM clock, that is 0x60 if CKPSC[2:0] = 0, * 0x30 if CKPSC[2:0] = 1, 0x18 if CKPSC[2:0] = 2,... */ __STATIC_INLINE uint32_t LL_HRTIM_TIM_GetCompare4(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MCMP4R) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_MCMP1R_MCMP4R)); } /** * @brief Set the reset trigger of a timer counter. * @rmtoll RSTxR UPDT LL_HRTIM_TIM_SetResetTrig\n * RSTxR CMP2 LL_HRTIM_TIM_SetResetTrig\n * RSTxR CMP4 LL_HRTIM_TIM_SetResetTrig\n * RSTxR MSTPER LL_HRTIM_TIM_SetResetTrig\n * RSTxR MSTCMP1 LL_HRTIM_TIM_SetResetTrig\n * RSTxR MSTCMP2 LL_HRTIM_TIM_SetResetTrig\n * RSTxR MSTCMP3 LL_HRTIM_TIM_SetResetTrig\n * RSTxR MSTCMP4 LL_HRTIM_TIM_SetResetTrig\n * RSTxR EXTEVNT1 LL_HRTIM_TIM_SetResetTrig\n * RSTxR EXTEVNT2 LL_HRTIM_TIM_SetResetTrig\n * RSTxR EXTEVNT3 LL_HRTIM_TIM_SetResetTrig\n * RSTxR EXTEVNT4 LL_HRTIM_TIM_SetResetTrig\n * RSTxR EXTEVNT5 LL_HRTIM_TIM_SetResetTrig\n * RSTxR EXTEVNT6 LL_HRTIM_TIM_SetResetTrig\n * RSTxR EXTEVNT7 LL_HRTIM_TIM_SetResetTrig\n * RSTxR EXTEVNT8 LL_HRTIM_TIM_SetResetTrig\n * RSTxR EXTEVNT9 LL_HRTIM_TIM_SetResetTrig\n * RSTxR EXTEVNT10 LL_HRTIM_TIM_SetResetTrig\n * RSTxR TIMBCMP1 LL_HRTIM_TIM_SetResetTrig\n * RSTxR TIMBCMP2 LL_HRTIM_TIM_SetResetTrig\n * RSTxR TIMBCMP4 LL_HRTIM_TIM_SetResetTrig\n * RSTxR TIMCCMP1 LL_HRTIM_TIM_SetResetTrig\n * RSTxR TIMCCMP2 LL_HRTIM_TIM_SetResetTrig\n * RSTxR TIMCCMP4 LL_HRTIM_TIM_SetResetTrig\n * RSTxR TIMDCMP1 LL_HRTIM_TIM_SetResetTrig\n * RSTxR TIMDCMP2 LL_HRTIM_TIM_SetResetTrig\n * RSTxR TIMDCMP4 LL_HRTIM_TIM_SetResetTrig\n * RSTxR TIMECMP1 LL_HRTIM_TIM_SetResetTrig\n * RSTxR TIMECMP2 LL_HRTIM_TIM_SetResetTrig\n * RSTxR TIMECMP4 LL_HRTIM_TIM_SetResetTrig * @note The reset of the timer counter can be triggered by up to 30 events * that can be selected among the following sources: * @arg The timing unit: Compare 2, Compare 4 and Update (3 events). * @arg The master timer: Reset and Compare 1..4 (5 events). * @arg The external events EXTEVNT1..10 (10 events). * @arg All other timing units (e.g. Timer B..E for timer A): Compare 1, 2 and 4 (12 events). * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @param ResetTrig This parameter can be a combination of the following values: * @arg @ref LL_HRTIM_RESETTRIG_NONE * @arg @ref LL_HRTIM_RESETTRIG_UPDATE * @arg @ref LL_HRTIM_RESETTRIG_CMP2 * @arg @ref LL_HRTIM_RESETTRIG_CMP4 * @arg @ref LL_HRTIM_RESETTRIG_MASTER_PER * @arg @ref LL_HRTIM_RESETTRIG_MASTER_CMP1 * @arg @ref LL_HRTIM_RESETTRIG_MASTER_CMP2 * @arg @ref LL_HRTIM_RESETTRIG_MASTER_CMP3 * @arg @ref LL_HRTIM_RESETTRIG_MASTER_CMP4 * @arg @ref LL_HRTIM_RESETTRIG_EEV_1 * @arg @ref LL_HRTIM_RESETTRIG_EEV_2 * @arg @ref LL_HRTIM_RESETTRIG_EEV_3 * @arg @ref LL_HRTIM_RESETTRIG_EEV_4 * @arg @ref LL_HRTIM_RESETTRIG_EEV_5 * @arg @ref LL_HRTIM_RESETTRIG_EEV_6 * @arg @ref LL_HRTIM_RESETTRIG_EEV_7 * @arg @ref LL_HRTIM_RESETTRIG_EEV_8 * @arg @ref LL_HRTIM_RESETTRIG_EEV_9 * @arg @ref LL_HRTIM_RESETTRIG_EEV_10 * @arg @ref LL_HRTIM_RESETTRIG_OTHER1_CMP1 * @arg @ref LL_HRTIM_RESETTRIG_OTHER1_CMP2 * @arg @ref LL_HRTIM_RESETTRIG_OTHER1_CMP4 * @arg @ref LL_HRTIM_RESETTRIG_OTHER2_CMP1 * @arg @ref LL_HRTIM_RESETTRIG_OTHER2_CMP2 * @arg @ref LL_HRTIM_RESETTRIG_OTHER2_CMP4 * @arg @ref LL_HRTIM_RESETTRIG_OTHER3_CMP1 * @arg @ref LL_HRTIM_RESETTRIG_OTHER3_CMP2 * @arg @ref LL_HRTIM_RESETTRIG_OTHER3_CMP4 * @arg @ref LL_HRTIM_RESETTRIG_OTHER4_CMP1 * @arg @ref LL_HRTIM_RESETTRIG_OTHER4_CMP2 * @arg @ref LL_HRTIM_RESETTRIG_OTHER4_CMP4 * @retval None */ __STATIC_INLINE void LL_HRTIM_TIM_SetResetTrig(HRTIM_TypeDef *HRTIMx, uint32_t Timer, uint32_t ResetTrig) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_TACEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].RSTxR) + REG_OFFSET_TAB_TIMER[iTimer])); WRITE_REG(*pReg, ResetTrig); } /** * @brief Get actual reset trigger of a timer counter. * @rmtoll RSTxR UPDT LL_HRTIM_TIM_GetResetTrig\n * RSTxR CMP2 LL_HRTIM_TIM_GetResetTrig\n * RSTxR CMP4 LL_HRTIM_TIM_GetResetTrig\n * RSTxR MSTPER LL_HRTIM_TIM_GetResetTrig\n * RSTxR MSTCMP1 LL_HRTIM_TIM_GetResetTrig\n * RSTxR MSTCMP2 LL_HRTIM_TIM_GetResetTrig\n * RSTxR MSTCMP3 LL_HRTIM_TIM_GetResetTrig\n * RSTxR MSTCMP4 LL_HRTIM_TIM_GetResetTrig\n * RSTxR EXTEVNT1 LL_HRTIM_TIM_GetResetTrig\n * RSTxR EXTEVNT2 LL_HRTIM_TIM_GetResetTrig\n * RSTxR EXTEVNT3 LL_HRTIM_TIM_GetResetTrig\n * RSTxR EXTEVNT4 LL_HRTIM_TIM_GetResetTrig\n * RSTxR EXTEVNT5 LL_HRTIM_TIM_GetResetTrig\n * RSTxR EXTEVNT6 LL_HRTIM_TIM_GetResetTrig\n * RSTxR EXTEVNT7 LL_HRTIM_TIM_GetResetTrig\n * RSTxR EXTEVNT8 LL_HRTIM_TIM_GetResetTrig\n * RSTxR EXTEVNT9 LL_HRTIM_TIM_GetResetTrig\n * RSTxR EXTEVNT10 LL_HRTIM_TIM_GetResetTrig\n * RSTxR TIMBCMP1 LL_HRTIM_TIM_GetResetTrig\n * RSTxR TIMBCMP2 LL_HRTIM_TIM_GetResetTrig\n * RSTxR TIMBCMP4 LL_HRTIM_TIM_GetResetTrig\n * RSTxR TIMCCMP1 LL_HRTIM_TIM_GetResetTrig\n * RSTxR TIMCCMP2 LL_HRTIM_TIM_GetResetTrig\n * RSTxR TIMCCMP4 LL_HRTIM_TIM_GetResetTrig\n * RSTxR TIMDCMP1 LL_HRTIM_TIM_GetResetTrig\n * RSTxR TIMDCMP2 LL_HRTIM_TIM_GetResetTrig\n * RSTxR TIMDCMP4 LL_HRTIM_TIM_GetResetTrig\n * RSTxR TIMECMP1 LL_HRTIM_TIM_GetResetTrig\n * RSTxR TIMECMP2 LL_HRTIM_TIM_GetResetTrig\n * RSTxR TIMECMP4 LL_HRTIM_TIM_GetResetTrig * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval ResetTrig Returned value can be one of the following values: * @arg @ref LL_HRTIM_RESETTRIG_NONE * @arg @ref LL_HRTIM_RESETTRIG_UPDATE * @arg @ref LL_HRTIM_RESETTRIG_CMP2 * @arg @ref LL_HRTIM_RESETTRIG_CMP4 * @arg @ref LL_HRTIM_RESETTRIG_MASTER_PER * @arg @ref LL_HRTIM_RESETTRIG_MASTER_CMP1 * @arg @ref LL_HRTIM_RESETTRIG_MASTER_CMP2 * @arg @ref LL_HRTIM_RESETTRIG_MASTER_CMP3 * @arg @ref LL_HRTIM_RESETTRIG_MASTER_CMP4 * @arg @ref LL_HRTIM_RESETTRIG_EEV_1 * @arg @ref LL_HRTIM_RESETTRIG_EEV_2 * @arg @ref LL_HRTIM_RESETTRIG_EEV_3 * @arg @ref LL_HRTIM_RESETTRIG_EEV_4 * @arg @ref LL_HRTIM_RESETTRIG_EEV_5 * @arg @ref LL_HRTIM_RESETTRIG_EEV_6 * @arg @ref LL_HRTIM_RESETTRIG_EEV_7 * @arg @ref LL_HRTIM_RESETTRIG_EEV_8 * @arg @ref LL_HRTIM_RESETTRIG_EEV_9 * @arg @ref LL_HRTIM_RESETTRIG_EEV_10 * @arg @ref LL_HRTIM_RESETTRIG_OTHER1_CMP1 * @arg @ref LL_HRTIM_RESETTRIG_OTHER1_CMP2 * @arg @ref LL_HRTIM_RESETTRIG_OTHER1_CMP4 * @arg @ref LL_HRTIM_RESETTRIG_OTHER2_CMP1 * @arg @ref LL_HRTIM_RESETTRIG_OTHER2_CMP2 * @arg @ref LL_HRTIM_RESETTRIG_OTHER2_CMP4 * @arg @ref LL_HRTIM_RESETTRIG_OTHER3_CMP1 * @arg @ref LL_HRTIM_RESETTRIG_OTHER3_CMP2 * @arg @ref LL_HRTIM_RESETTRIG_OTHER3_CMP4 * @arg @ref LL_HRTIM_RESETTRIG_OTHER4_CMP1 * @arg @ref LL_HRTIM_RESETTRIG_OTHER4_CMP2 * @arg @ref LL_HRTIM_RESETTRIG_OTHER4_CMP4 */ __STATIC_INLINE uint32_t LL_HRTIM_TIM_GetResetTrig(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_TACEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].RSTxR) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_REG(*pReg)); } /** * @brief Get captured value for capture unit 1. * @rmtoll CPT1xR CPT1x LL_HRTIM_TIM_GetCapture1 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval Captured value */ __STATIC_INLINE uint32_t LL_HRTIM_TIM_GetCapture1(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_TACEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].CPT1xR) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_REG(*pReg)); } /** * @brief Get captured value for capture unit 2. * @rmtoll CPT2xR CPT2x LL_HRTIM_TIM_GetCapture2 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval Captured value */ __STATIC_INLINE uint32_t LL_HRTIM_TIM_GetCapture2(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_TACEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].CPT2xR) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_REG(*pReg)); } /** * @brief Set the trigger of a capture unit for a given timer. * @rmtoll CPT1xCR SWCPT LL_HRTIM_TIM_SetCaptureTrig\n * CPT1xCR UPDCPT LL_HRTIM_TIM_SetCaptureTrig\n * CPT1xCR EXEV1CPT LL_HRTIM_TIM_SetCaptureTrig\n * CPT1xCR EXEV2CPT LL_HRTIM_TIM_SetCaptureTrig\n * CPT1xCR EXEV3CPT LL_HRTIM_TIM_SetCaptureTrig\n * CPT1xCR EXEV4CPT LL_HRTIM_TIM_SetCaptureTrig\n * CPT1xCR EXEV5CPT LL_HRTIM_TIM_SetCaptureTrig\n * CPT1xCR EXEV6CPT LL_HRTIM_TIM_SetCaptureTrig\n * CPT1xCR EXEV7CPT LL_HRTIM_TIM_SetCaptureTrig\n * CPT1xCR EXEV8CPT LL_HRTIM_TIM_SetCaptureTrig\n * CPT1xCR EXEV9CPT LL_HRTIM_TIM_SetCaptureTrig\n * CPT1xCR EXEV10CPT LL_HRTIM_TIM_SetCaptureTrig\n * CPT1xCR TA1SET LL_HRTIM_TIM_SetCaptureTrig\n * CPT1xCR TA1RST LL_HRTIM_TIM_SetCaptureTrig\n * CPT1xCR TACMP1 LL_HRTIM_TIM_SetCaptureTrig\n * CPT1xCR TACMP2 LL_HRTIM_TIM_SetCaptureTrig\n * CPT1xCR TB1SET LL_HRTIM_TIM_SetCaptureTrig\n * CPT1xCR TB1RST LL_HRTIM_TIM_SetCaptureTrig\n * CPT1xCR TBCMP1 LL_HRTIM_TIM_SetCaptureTrig\n * CPT1xCR TBCMP2 LL_HRTIM_TIM_SetCaptureTrig\n * CPT1xCR TC1SET LL_HRTIM_TIM_SetCaptureTrig\n * CPT1xCR TC1RST LL_HRTIM_TIM_SetCaptureTrig\n * CPT1xCR TCCMP1 LL_HRTIM_TIM_SetCaptureTrig\n * CPT1xCR TCCMP2 LL_HRTIM_TIM_SetCaptureTrig\n * CPT1xCR TD1SET LL_HRTIM_TIM_SetCaptureTrig\n * CPT1xCR TD1RST LL_HRTIM_TIM_SetCaptureTrig\n * CPT1xCR TDCMP1 LL_HRTIM_TIM_SetCaptureTrig\n * CPT1xCR TDCMP2 LL_HRTIM_TIM_SetCaptureTrig\n * CPT1xCR TE1SET LL_HRTIM_TIM_SetCaptureTrig\n * CPT1xCR TE1RST LL_HRTIM_TIM_SetCaptureTrig\n * CPT1xCR TECMP1 LL_HRTIM_TIM_SetCaptureTrig\n * CPT1xCR TECMP2 LL_HRTIM_TIM_SetCaptureTrig * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @param CaptureUnit This parameter can be one of the following values: * @arg @ref LL_HRTIM_CAPTUREUNIT_1 * @arg @ref LL_HRTIM_CAPTUREUNIT_2 * @param CaptureTrig This parameter can be a combination of the following values: * @arg @ref LL_HRTIM_CAPTURETRIG_NONE * @arg @ref LL_HRTIM_CAPTURETRIG_UPDATE * @arg @ref LL_HRTIM_CAPTURETRIG_EEV_1 * @arg @ref LL_HRTIM_CAPTURETRIG_EEV_2 * @arg @ref LL_HRTIM_CAPTURETRIG_EEV_3 * @arg @ref LL_HRTIM_CAPTURETRIG_EEV_4 * @arg @ref LL_HRTIM_CAPTURETRIG_EEV_5 * @arg @ref LL_HRTIM_CAPTURETRIG_EEV_6 * @arg @ref LL_HRTIM_CAPTURETRIG_EEV_7 * @arg @ref LL_HRTIM_CAPTURETRIG_EEV_8 * @arg @ref LL_HRTIM_CAPTURETRIG_EEV_9 * @arg @ref LL_HRTIM_CAPTURETRIG_EEV_10 * @arg @ref LL_HRTIM_CAPTURETRIG_TA1_SET * @arg @ref LL_HRTIM_CAPTURETRIG_TA1_RESET * @arg @ref LL_HRTIM_CAPTURETRIG_TIMA_CMP1 * @arg @ref LL_HRTIM_CAPTURETRIG_TIMA_CMP2 * @arg @ref LL_HRTIM_CAPTURETRIG_TB1_SET * @arg @ref LL_HRTIM_CAPTURETRIG_TB1_RESET * @arg @ref LL_HRTIM_CAPTURETRIG_TIMB_CMP1 * @arg @ref LL_HRTIM_CAPTURETRIG_TIMB_CMP2 * @arg @ref LL_HRTIM_CAPTURETRIG_TC1_SET * @arg @ref LL_HRTIM_CAPTURETRIG_TC1_RESET * @arg @ref LL_HRTIM_CAPTURETRIG_TIMC_CMP1 * @arg @ref LL_HRTIM_CAPTURETRIG_TIMC_CMP2 * @arg @ref LL_HRTIM_CAPTURETRIG_TD1_SET * @arg @ref LL_HRTIM_CAPTURETRIG_TD1_RESET * @arg @ref LL_HRTIM_CAPTURETRIG_TIMD_CMP1 * @arg @ref LL_HRTIM_CAPTURETRIG_TIMD_CMP2 * @arg @ref LL_HRTIM_CAPTURETRIG_TE1_SET * @arg @ref LL_HRTIM_CAPTURETRIG_TE1_RESET * @arg @ref LL_HRTIM_CAPTURETRIG_TIME_CMP1 * @arg @ref LL_HRTIM_CAPTURETRIG_TIME_CMP2 * @retval None */ __STATIC_INLINE void LL_HRTIM_TIM_SetCaptureTrig(HRTIM_TypeDef *HRTIMx, uint32_t Timer, uint32_t CaptureUnit, uint32_t CaptureTrig) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_TACEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].CPT1xCR) + REG_OFFSET_TAB_TIMER[iTimer] + CaptureUnit * 4)); WRITE_REG(*pReg, CaptureTrig); } /** * @brief Get actual trigger of a capture unit for a given timer. * @rmtoll CPT1xCR SWCPT LL_HRTIM_TIM_GetCaptureTrig\n * CPT1xCR UPDCPT LL_HRTIM_TIM_GetCaptureTrig\n * CPT1xCR EXEV1CPT LL_HRTIM_TIM_GetCaptureTrig\n * CPT1xCR EXEV2CPT LL_HRTIM_TIM_GetCaptureTrig\n * CPT1xCR EXEV3CPT LL_HRTIM_TIM_GetCaptureTrig\n * CPT1xCR EXEV4CPT LL_HRTIM_TIM_GetCaptureTrig\n * CPT1xCR EXEV5CPT LL_HRTIM_TIM_GetCaptureTrig\n * CPT1xCR EXEV6CPT LL_HRTIM_TIM_GetCaptureTrig\n * CPT1xCR EXEV7CPT LL_HRTIM_TIM_GetCaptureTrig\n * CPT1xCR EXEV8CPT LL_HRTIM_TIM_GetCaptureTrig\n * CPT1xCR EXEV9CPT LL_HRTIM_TIM_GetCaptureTrig\n * CPT1xCR EXEV10CPT LL_HRTIM_TIM_GetCaptureTrig\n * CPT1xCR TA1SET LL_HRTIM_TIM_GetCaptureTrig\n * CPT1xCR TA1RST LL_HRTIM_TIM_GetCaptureTrig\n * CPT1xCR TACMP1 LL_HRTIM_TIM_GetCaptureTrig\n * CPT1xCR TACMP2 LL_HRTIM_TIM_GetCaptureTrig\n * CPT1xCR TB1SET LL_HRTIM_TIM_GetCaptureTrig\n * CPT1xCR TB1RST LL_HRTIM_TIM_GetCaptureTrig\n * CPT1xCR TBCMP1 LL_HRTIM_TIM_GetCaptureTrig\n * CPT1xCR TBCMP2 LL_HRTIM_TIM_GetCaptureTrig\n * CPT1xCR TC1SET LL_HRTIM_TIM_GetCaptureTrig\n * CPT1xCR TC1RST LL_HRTIM_TIM_GetCaptureTrig\n * CPT1xCR TCCMP1 LL_HRTIM_TIM_GetCaptureTrig\n * CPT1xCR TCCMP2 LL_HRTIM_TIM_GetCaptureTrig\n * CPT1xCR TD1SET LL_HRTIM_TIM_GetCaptureTrig\n * CPT1xCR TD1RST LL_HRTIM_TIM_GetCaptureTrig\n * CPT1xCR TDCMP1 LL_HRTIM_TIM_GetCaptureTrig\n * CPT1xCR TDCMP2 LL_HRTIM_TIM_GetCaptureTrig\n * CPT1xCR TE1SET LL_HRTIM_TIM_GetCaptureTrig\n * CPT1xCR TE1RST LL_HRTIM_TIM_GetCaptureTrig\n * CPT1xCR TECMP1 LL_HRTIM_TIM_GetCaptureTrig\n * CPT1xCR TECMP2 LL_HRTIM_TIM_GetCaptureTrig * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @param CaptureUnit This parameter can be one of the following values: * @arg @ref LL_HRTIM_CAPTUREUNIT_1 * @arg @ref LL_HRTIM_CAPTUREUNIT_2 * @retval CaptureTrig This parameter can be a combination of the following values: * @arg @ref LL_HRTIM_CAPTURETRIG_NONE * @arg @ref LL_HRTIM_CAPTURETRIG_UPDATE * @arg @ref LL_HRTIM_CAPTURETRIG_EEV_1 * @arg @ref LL_HRTIM_CAPTURETRIG_EEV_2 * @arg @ref LL_HRTIM_CAPTURETRIG_EEV_3 * @arg @ref LL_HRTIM_CAPTURETRIG_EEV_4 * @arg @ref LL_HRTIM_CAPTURETRIG_EEV_5 * @arg @ref LL_HRTIM_CAPTURETRIG_EEV_6 * @arg @ref LL_HRTIM_CAPTURETRIG_EEV_7 * @arg @ref LL_HRTIM_CAPTURETRIG_EEV_8 * @arg @ref LL_HRTIM_CAPTURETRIG_EEV_9 * @arg @ref LL_HRTIM_CAPTURETRIG_EEV_10 * @arg @ref LL_HRTIM_CAPTURETRIG_TA1_SET * @arg @ref LL_HRTIM_CAPTURETRIG_TA1_RESET * @arg @ref LL_HRTIM_CAPTURETRIG_TIMA_CMP1 * @arg @ref LL_HRTIM_CAPTURETRIG_TIMA_CMP2 * @arg @ref LL_HRTIM_CAPTURETRIG_TB1_SET * @arg @ref LL_HRTIM_CAPTURETRIG_TB1_RESET * @arg @ref LL_HRTIM_CAPTURETRIG_TIMB_CMP1 * @arg @ref LL_HRTIM_CAPTURETRIG_TIMB_CMP2 * @arg @ref LL_HRTIM_CAPTURETRIG_TC1_SET * @arg @ref LL_HRTIM_CAPTURETRIG_TC1_RESET * @arg @ref LL_HRTIM_CAPTURETRIG_TIMC_CMP1 * @arg @ref LL_HRTIM_CAPTURETRIG_TIMC_CMP2 * @arg @ref LL_HRTIM_CAPTURETRIG_TD1_SET * @arg @ref LL_HRTIM_CAPTURETRIG_TD1_RESET * @arg @ref LL_HRTIM_CAPTURETRIG_TIMD_CMP1 * @arg @ref LL_HRTIM_CAPTURETRIG_TIMD_CMP2 * @arg @ref LL_HRTIM_CAPTURETRIG_TE1_SET * @arg @ref LL_HRTIM_CAPTURETRIG_TE1_RESET * @arg @ref LL_HRTIM_CAPTURETRIG_TIME_CMP1 * @arg @ref LL_HRTIM_CAPTURETRIG_TIME_CMP2 */ __STATIC_INLINE uint32_t LL_HRTIM_TIM_GetCaptureTrig(HRTIM_TypeDef *HRTIMx, uint32_t Timer, uint32_t CaptureUnit) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_TACEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].CPT1xCR) + REG_OFFSET_TAB_TIMER[iTimer] + CaptureUnit * 4)); return (READ_REG(*pReg)); } /** * @brief Enable deadtime insertion for a given timer. * @rmtoll OUTxR DTEN LL_HRTIM_TIM_EnableDeadTime * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_TIM_EnableDeadTime(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_TACEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].OUTxR) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, HRTIM_OUTR_DTEN); } /** * @brief Disable deadtime insertion for a given timer. * @rmtoll OUTxR DTEN LL_HRTIM_TIM_DisableDeadTime * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_TIM_DisableDeadTime(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_TACEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].OUTxR) + REG_OFFSET_TAB_TIMER[iTimer])); CLEAR_BIT(*pReg, HRTIM_OUTR_DTEN); } /** * @brief Indicate whether deadtime insertion is enabled for a given timer. * @rmtoll OUTxR DTEN LL_HRTIM_TIM_IsEnabledDeadTime * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval State of DTEN bit in HRTIM_OUTxR register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_TIM_IsEnabledDeadTime(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_TACEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].OUTxR) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_OUTR_DTEN) == HRTIM_OUTR_DTEN); } /** * @brief Set the delayed protection (DLYPRT) mode. * @rmtoll OUTxR DLYPRTEN LL_HRTIM_TIM_SetDLYPRTMode\n * OUTxR DLYPRT LL_HRTIM_TIM_SetDLYPRTMode * @note This function must be called prior enabling the delayed protection * @note Balanced Idle mode is only available in push-pull mode * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @param DLYPRTMode Delayed protection (DLYPRT) mode * * For timers A, B and C this parameter can be one of the following vallues: * @arg @ref LL_HRTIM_DLYPRT_DELAYOUT1_EEV6 * @arg @ref LL_HRTIM_DLYPRT_DELAYOUT2_EEV6 * @arg @ref LL_HRTIM_DLYPRT_DELAYBOTH_EEV6 * @arg @ref LL_HRTIM_DLYPRT_BALANCED_EEV6 * @arg @ref LL_HRTIM_DLYPRT_DELAYOUT1_EEV7 * @arg @ref LL_HRTIM_DLYPRT_DELAYOUT2_EEV7 * @arg @ref LL_HRTIM_DLYPRT_DELAYBOTH_EEV7 * @arg @ref LL_HRTIM_DLYPRT_BALANCED_EEV7 * * For timers D and E this parameter can be one of the following vallues: * @arg @ref LL_HRTIM_DLYPRT_DELAYOUT1_EEV8 * @arg @ref LL_HRTIM_DLYPRT_DELAYOUT2_EEV8 * @arg @ref LL_HRTIM_DLYPRT_DELAYBOTH_EEV8 * @arg @ref LL_HRTIM_DLYPRT_BALANCED_EEV8 * @arg @ref LL_HRTIM_DLYPRT_DELAYOUT1_EEV9 * @arg @ref LL_HRTIM_DLYPRT_DELAYOUT2_EEV9 * @arg @ref LL_HRTIM_DLYPRT_DELAYBOTH_EEV9 * @arg @ref LL_HRTIM_DLYPRT_BALANCED_EEV9 * @retval None */ __STATIC_INLINE void LL_HRTIM_TIM_SetDLYPRTMode(HRTIM_TypeDef *HRTIMx, uint32_t Timer, uint32_t DLYPRTMode) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_TACEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].OUTxR) + REG_OFFSET_TAB_TIMER[iTimer])); MODIFY_REG(*pReg, HRTIM_OUTR_DLYPRT, DLYPRTMode); } /** * @brief Get the delayed protection (DLYPRT) mode. * @rmtoll OUTxR DLYPRTEN LL_HRTIM_TIM_GetDLYPRTMode\n * OUTxR DLYPRT LL_HRTIM_TIM_GetDLYPRTMode * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval DLYPRTMode Delayed protection (DLYPRT) mode * * For timers A, B and C this parameter can be one of the following vallues: * @arg @ref LL_HRTIM_DLYPRT_DELAYOUT1_EEV6 * @arg @ref LL_HRTIM_DLYPRT_DELAYOUT2_EEV6 * @arg @ref LL_HRTIM_DLYPRT_DELAYBOTH_EEV6 * @arg @ref LL_HRTIM_DLYPRT_BALANCED_EEV6 * @arg @ref LL_HRTIM_DLYPRT_DELAYOUT1_EEV7 * @arg @ref LL_HRTIM_DLYPRT_DELAYOUT2_EEV7 * @arg @ref LL_HRTIM_DLYPRT_DELAYBOTH_EEV7 * @arg @ref LL_HRTIM_DLYPRT_BALANCED_EEV7 * * For timers D and E this parameter can be one of the following vallues: * @arg @ref LL_HRTIM_DLYPRT_DELAYOUT1_EEV8 * @arg @ref LL_HRTIM_DLYPRT_DELAYOUT2_EEV8 * @arg @ref LL_HRTIM_DLYPRT_DELAYBOTH_EEV8 * @arg @ref LL_HRTIM_DLYPRT_BALANCED_EEV8 * @arg @ref LL_HRTIM_DLYPRT_DELAYOUT1_EEV9 * @arg @ref LL_HRTIM_DLYPRT_DELAYOUT2_EEV9 * @arg @ref LL_HRTIM_DLYPRT_DELAYBOTH_EEV9 * @arg @ref LL_HRTIM_DLYPRT_BALANCED_EEV9 */ __STATIC_INLINE uint32_t LL_HRTIM_TIM_GetDLYPRTMode(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_TACEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].OUTxR) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_OUTR_DLYPRT)); } /** * @brief Enable delayed protection (DLYPRT) for a given timer. * @rmtoll OUTxR DLYPRTEN LL_HRTIM_TIM_EnableDLYPRT * @note This function must not be called once the concerned timer is enabled * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_TIM_EnableDLYPRT(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_TACEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].OUTxR) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, HRTIM_OUTR_DLYPRTEN); } /** * @brief Disable delayed protection (DLYPRT) for a given timer. * @rmtoll OUTxR DLYPRTEN LL_HRTIM_TIM_DisableDLYPRT * @note This function must not be called once the concerned timer is enabled * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_TIM_DisableDLYPRT(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_TACEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].OUTxR) + REG_OFFSET_TAB_TIMER[iTimer])); CLEAR_BIT(*pReg, HRTIM_OUTR_DLYPRTEN); } /** * @brief Indicate whether delayed protection (DLYPRT) is enabled for a given timer. * @rmtoll OUTxR DLYPRTEN LL_HRTIM_TIM_IsEnabledDLYPRT * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval State of DLYPRTEN bit in HRTIM_OUTxR register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_TIM_IsEnabledDLYPRT(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_TACEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].OUTxR) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_OUTR_DLYPRTEN) == HRTIM_OUTR_DLYPRTEN); } /** * @brief Enable the fault channel(s) for a given timer. * @rmtoll FLTxR FLT1EN LL_HRTIM_TIM_EnableFault\n * FLTxR FLT2EN LL_HRTIM_TIM_EnableFault\n * FLTxR FLT3EN LL_HRTIM_TIM_EnableFault\n * FLTxR FLT4EN LL_HRTIM_TIM_EnableFault\n * FLTxR FLT5EN LL_HRTIM_TIM_EnableFault * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @param Faults This parameter can be a combination of the following values: * @arg @ref LL_HRTIM_FAULT_1 * @arg @ref LL_HRTIM_FAULT_2 * @arg @ref LL_HRTIM_FAULT_3 * @arg @ref LL_HRTIM_FAULT_4 * @arg @ref LL_HRTIM_FAULT_5 * @retval None */ __STATIC_INLINE void LL_HRTIM_TIM_EnableFault(HRTIM_TypeDef *HRTIMx, uint32_t Timer, uint32_t Faults) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_TACEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].FLTxR) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, Faults); } /** * @brief Disable the fault channel(s) for a given timer. * @rmtoll FLTxR FLT1EN LL_HRTIM_TIM_DisableFault\n * FLTxR FLT2EN LL_HRTIM_TIM_DisableFault\n * FLTxR FLT3EN LL_HRTIM_TIM_DisableFault\n * FLTxR FLT4EN LL_HRTIM_TIM_DisableFault\n * FLTxR FLT5EN LL_HRTIM_TIM_DisableFault * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @param Faults This parameter can be a combination of the following values: * @arg @ref LL_HRTIM_FAULT_1 * @arg @ref LL_HRTIM_FAULT_2 * @arg @ref LL_HRTIM_FAULT_3 * @arg @ref LL_HRTIM_FAULT_4 * @arg @ref LL_HRTIM_FAULT_5 * @retval None */ __STATIC_INLINE void LL_HRTIM_TIM_DisableFault(HRTIM_TypeDef *HRTIMx, uint32_t Timer, uint32_t Faults) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_TACEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].FLTxR) + REG_OFFSET_TAB_TIMER[iTimer])); CLEAR_BIT(*pReg, Faults); } /** * @brief Indicate whether the fault channel is enabled for a given timer. * @rmtoll FLTxR FLT1EN LL_HRTIM_TIM_IsEnabledFault\n * FLTxR FLT2EN LL_HRTIM_TIM_IsEnabledFault\n * FLTxR FLT3EN LL_HRTIM_TIM_IsEnabledFault\n * FLTxR FLT4EN LL_HRTIM_TIM_IsEnabledFault\n * FLTxR FLT5EN LL_HRTIM_TIM_IsEnabledFault * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @param Fault This parameter can be one of the following values: * @arg @ref LL_HRTIM_FAULT_1 * @arg @ref LL_HRTIM_FAULT_2 * @arg @ref LL_HRTIM_FAULT_3 * @arg @ref LL_HRTIM_FAULT_4 * @arg @ref LL_HRTIM_FAULT_5 * @retval State of FLTxEN bit in HRTIM_FLTxR register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_TIM_IsEnabledFault(HRTIM_TypeDef *HRTIMx, uint32_t Timer, uint32_t Fault) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_TACEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].FLTxR) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, Fault) == (Fault)); } /** * @brief Lock the fault conditioning set-up for a given timer. * @rmtoll FLTxR FLTLCK LL_HRTIM_TIM_LockFault * @note Timer fault-related set-up is frozen until the next HRTIM or system reset * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_TIM_LockFault(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_TACEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].FLTxR) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, HRTIM_FLTR_FLTLCK); } /** * @brief Define how the timer behaves during a burst mode operation. * @rmtoll BMCR MTBM LL_HRTIM_TIM_SetBurstModeOption\n * BMCR TABM LL_HRTIM_TIM_SetBurstModeOption\n * BMCR TBBM LL_HRTIM_TIM_SetBurstModeOption\n * BMCR TCBM LL_HRTIM_TIM_SetBurstModeOption\n * BMCR TDBM LL_HRTIM_TIM_SetBurstModeOption\n * BMCR TEBM LL_HRTIM_TIM_SetBurstModeOption * @note This function must not be called when the burst mode is enabled * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @param BurtsModeOption This parameter can be one of the following values: * @arg @ref LL_HRTIM_BURSTMODE_MAINTAINCLOCK * @arg @ref LL_HRTIM_BURSTMODE_RESETCOUNTER * @retval None */ __STATIC_INLINE void LL_HRTIM_TIM_SetBurstModeOption(HRTIM_TypeDef *HRTIMx, uint32_t Timer, uint32_t BurtsModeOption) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); MODIFY_REG(HRTIMx->sCommonRegs.BMCR, Timer, BurtsModeOption << iTimer); } /** * @brief Retrieve how the timer behaves during a burst mode operation. * @rmtoll BMCR MCR LL_HRTIM_TIM_GetBurstModeOption\n * BMCR TABM LL_HRTIM_TIM_GetBurstModeOption\n * BMCR TBBM LL_HRTIM_TIM_GetBurstModeOption\n * BMCR TCBM LL_HRTIM_TIM_GetBurstModeOption\n * BMCR TDBM LL_HRTIM_TIM_GetBurstModeOption\n * BMCR TEBM LL_HRTIM_TIM_GetBurstModeOption * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval BurtsMode This parameter can be one of the following values: * @arg @ref LL_HRTIM_BURSTMODE_MAINTAINCLOCK * @arg @ref LL_HRTIM_BURSTMODE_RESETCOUNTER */ __STATIC_INLINE uint32_t LL_HRTIM_TIM_GetBurstModeOption(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); return (READ_BIT(HRTIMx->sCommonRegs.BMCR, Timer) >> iTimer); } /** * @brief Program which registers are to be written by Burst DMA transfers. * @rmtoll BDMUPDR MTBM LL_HRTIM_TIM_ConfigBurstDMA\n * BDMUPDR MICR LL_HRTIM_TIM_ConfigBurstDMA\n * BDMUPDR MDIER LL_HRTIM_TIM_ConfigBurstDMA\n * BDMUPDR MCNT LL_HRTIM_TIM_ConfigBurstDMA\n * BDMUPDR MPER LL_HRTIM_TIM_ConfigBurstDMA\n * BDMUPDR MREP LL_HRTIM_TIM_ConfigBurstDMA\n * BDMUPDR MCMP1 LL_HRTIM_TIM_ConfigBurstDMA\n * BDMUPDR MCMP2 LL_HRTIM_TIM_ConfigBurstDMA\n * BDMUPDR MCMP3 LL_HRTIM_TIM_ConfigBurstDMA\n * BDMUPDR MCMP4 LL_HRTIM_TIM_ConfigBurstDMA\n * BDTxUPDR TIMxCR LL_HRTIM_TIM_ConfigBurstDMA\n * BDTxUPDR TIMxICR LL_HRTIM_TIM_ConfigBurstDMA\n * BDTxUPDR TIMxDIER LL_HRTIM_TIM_ConfigBurstDMA\n * BDTxUPDR TIMxCNT LL_HRTIM_TIM_ConfigBurstDMA\n * BDTxUPDR TIMxPER LL_HRTIM_TIM_ConfigBurstDMA\n * BDTxUPDR TIMxREP LL_HRTIM_TIM_ConfigBurstDMA\n * BDTxUPDR TIMxCMP1 LL_HRTIM_TIM_ConfigBurstDMA\n * BDTxUPDR TIMxCMP2 LL_HRTIM_TIM_ConfigBurstDMA\n * BDTxUPDR TIMxCMP3 LL_HRTIM_TIM_ConfigBurstDMA\n * BDTxUPDR TIMxCMP4 LL_HRTIM_TIM_ConfigBurstDMA\n * BDTxUPDR TIMxDTR LL_HRTIM_TIM_ConfigBurstDMA\n * BDTxUPDR TIMxSET1R LL_HRTIM_TIM_ConfigBurstDMA\n * BDTxUPDR TIMxRST1R LL_HRTIM_TIM_ConfigBurstDMA\n * BDTxUPDR TIMxSET2R LL_HRTIM_TIM_ConfigBurstDMA\n * BDTxUPDR TIMxRST2R LL_HRTIM_TIM_ConfigBurstDMA\n * BDTxUPDR TIAEEFR1 LL_HRTIM_TIM_ConfigBurstDMA\n * BDTxUPDR TIMxEEFR2 LL_HRTIM_TIM_ConfigBurstDMA\n * BDTxUPDR TIMxRSTR LL_HRTIM_TIM_ConfigBurstDMA\n * BDTxUPDR TIMxOUTR LL_HRTIM_TIM_ConfigBurstDMA\n * BDTxUPDR TIMxLTCH LL_HRTIM_TIM_ConfigBurstDMA * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @param Registers Registers to be updated by the DMA request * * For Master timer this parameter can be can be a combination of the following values: * @arg @ref LL_HRTIM_BURSTDMA_NONE * @arg @ref LL_HRTIM_BURSTDMA_MCR * @arg @ref LL_HRTIM_BURSTDMA_MICR * @arg @ref LL_HRTIM_BURSTDMA_MDIER * @arg @ref LL_HRTIM_BURSTDMA_MCNT * @arg @ref LL_HRTIM_BURSTDMA_MPER * @arg @ref LL_HRTIM_BURSTDMA_MREP * @arg @ref LL_HRTIM_BURSTDMA_MCMP1 * @arg @ref LL_HRTIM_BURSTDMA_MCMP2 * @arg @ref LL_HRTIM_BURSTDMA_MCMP3 * @arg @ref LL_HRTIM_BURSTDMA_MCMP4 * * For Timers A..E this parameter can be can be a combination of the following values: * @arg @ref LL_HRTIM_BURSTDMA_NONE * @arg @ref LL_HRTIM_BURSTDMA_TIMMCR * @arg @ref LL_HRTIM_BURSTDMA_TIMICR * @arg @ref LL_HRTIM_BURSTDMA_TIMDIER * @arg @ref LL_HRTIM_BURSTDMA_TIMCNT * @arg @ref LL_HRTIM_BURSTDMA_TIMPER * @arg @ref LL_HRTIM_BURSTDMA_TIMREP * @arg @ref LL_HRTIM_BURSTDMA_TIMCMP1 * @arg @ref LL_HRTIM_BURSTDMA_TIMCMP2 * @arg @ref LL_HRTIM_BURSTDMA_TIMCMP3 * @arg @ref LL_HRTIM_BURSTDMA_TIMCMP4 * @arg @ref LL_HRTIM_BURSTDMA_TIMDTR * @arg @ref LL_HRTIM_BURSTDMA_TIMSET1R * @arg @ref LL_HRTIM_BURSTDMA_TIMRST1R * @arg @ref LL_HRTIM_BURSTDMA_TIMSET2R * @arg @ref LL_HRTIM_BURSTDMA_TIMRST2R * @arg @ref LL_HRTIM_BURSTDMA_TIMEEFR1 * @arg @ref LL_HRTIM_BURSTDMA_TIMEEFR2 * @arg @ref LL_HRTIM_BURSTDMA_TIMRSTR * @arg @ref LL_HRTIM_BURSTDMA_TIMCHPR * @arg @ref LL_HRTIM_BURSTDMA_TIMOUTR * @arg @ref LL_HRTIM_BURSTDMA_TIMFLTR * @retval None */ __STATIC_INLINE void LL_HRTIM_TIM_ConfigBurstDMA(HRTIM_TypeDef *HRTIMx, uint32_t Timer, uint32_t Registers) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sCommonRegs.BDMUPR) + 4 * iTimer)); WRITE_REG(*pReg, Registers); } /** * @brief Indicate on which output the signal is currently applied. * @rmtoll TIMxISR CPPSTAT LL_HRTIM_TIM_GetCurrentPushPullStatus * @note Only significant when the timer operates in push-pull mode. * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval CPPSTAT This parameter can be one of the following values: * @arg @ref LL_HRTIM_CPPSTAT_OUTPUT1 * @arg @ref LL_HRTIM_CPPSTAT_OUTPUT2 */ __STATIC_INLINE uint32_t LL_HRTIM_TIM_GetCurrentPushPullStatus(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MISR) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_TIMISR_CPPSTAT)); } /** * @brief Indicate on which output the signal was applied, in push-pull mode, balanced fault mode or delayed idle mode, when the protection was triggered. * @rmtoll TIMxISR IPPSTAT LL_HRTIM_TIM_GetIdlePushPullStatus * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval IPPSTAT This parameter can be one of the following values: * @arg @ref LL_HRTIM_IPPSTAT_OUTPUT1 * @arg @ref LL_HRTIM_IPPSTAT_OUTPUT2 */ __STATIC_INLINE uint32_t LL_HRTIM_TIM_GetIdlePushPullStatus(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MISR) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_TIMISR_IPPSTAT)); } /** * @brief Set the event filter for a given timer. * @rmtoll EEFxR1 EE1LTCH LL_HRTIM_TIM_SetEventFilter\n * EEFxR1 EE2LTCH LL_HRTIM_TIM_SetEventFilter\n * EEFxR1 EE3LTCH LL_HRTIM_TIM_SetEventFilter\n * EEFxR1 EE4LTCH LL_HRTIM_TIM_SetEventFilter\n * EEFxR1 EE5LTCH LL_HRTIM_TIM_SetEventFilter\n * EEFxR2 EE6LTCH LL_HRTIM_TIM_SetEventFilter\n * EEFxR2 EE7LTCH LL_HRTIM_TIM_SetEventFilter\n * EEFxR2 EE8LTCH LL_HRTIM_TIM_SetEventFilter\n * EEFxR2 EE9LTCH LL_HRTIM_TIM_SetEventFilter\n * EEFxR2 EE10LTCH LL_HRTIM_TIM_SetEventFilter * @note This function must not be called when the timer counter is enabled. * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @param Event This parameter can be one of the following values: * @arg @ref LL_HRTIM_EVENT_1 * @arg @ref LL_HRTIM_EVENT_2 * @arg @ref LL_HRTIM_EVENT_3 * @arg @ref LL_HRTIM_EVENT_4 * @arg @ref LL_HRTIM_EVENT_5 * @arg @ref LL_HRTIM_EVENT_6 * @arg @ref LL_HRTIM_EVENT_7 * @arg @ref LL_HRTIM_EVENT_8 * @arg @ref LL_HRTIM_EVENT_9 * @arg @ref LL_HRTIM_EVENT_10 * @param Filter This parameter can be one of the following values: * @arg @ref LL_HRTIM_EEFLTR_NONE * @arg @ref LL_HRTIM_EEFLTR_BLANKINGCMP1 * @arg @ref LL_HRTIM_EEFLTR_BLANKINGCMP2 * @arg @ref LL_HRTIM_EEFLTR_BLANKINGCMP3 * @arg @ref LL_HRTIM_EEFLTR_BLANKINGCMP4 * @arg @ref LL_HRTIM_EEFLTR_BLANKINGFLTR1 * @arg @ref LL_HRTIM_EEFLTR_BLANKINGFLTR2 * @arg @ref LL_HRTIM_EEFLTR_BLANKINGFLTR3 * @arg @ref LL_HRTIM_EEFLTR_BLANKINGFLTR4 * @arg @ref LL_HRTIM_EEFLTR_BLANKINGFLTR5 * @arg @ref LL_HRTIM_EEFLTR_BLANKINGFLTR6 * @arg @ref LL_HRTIM_EEFLTR_BLANKINGFLTR7 * @arg @ref LL_HRTIM_EEFLTR_BLANKINGFLTR8 * @arg @ref LL_HRTIM_EEFLTR_WINDOWINGCMP2 * @arg @ref LL_HRTIM_EEFLTR_WINDOWINGCMP3 * @arg @ref LL_HRTIM_EEFLTR_WINDOWINGTIM * @retval None */ __STATIC_INLINE void LL_HRTIM_TIM_SetEventFilter(HRTIM_TypeDef *HRTIMx, uint32_t Timer, uint32_t Event, uint32_t Filter) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - POSITION_VAL(LL_HRTIM_TIMER_A)); register uint32_t iEvent = (uint8_t)(POSITION_VAL(Event) - POSITION_VAL(LL_HRTIM_EVENT_1)); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].EEFxR1) + REG_OFFSET_TAB_TIMER[iTimer] + REG_OFFSET_TAB_EECR[iEvent])); MODIFY_REG(*pReg, (HRTIM_EEFR1_EE1FLTR << REG_SHIFT_TAB_EExSRC[iEvent]), (Filter << REG_SHIFT_TAB_EExSRC[iEvent])); } /** * @brief Get actual event filter settings for a given timer. * @rmtoll EEFxR1 EE1FLTR LL_HRTIM_TIM_GetEventFilter\n * EEFxR1 EE2FLTR LL_HRTIM_TIM_GetEventFilter\n * EEFxR1 EE3FLTR LL_HRTIM_TIM_GetEventFilter\n * EEFxR1 EE4FLTR LL_HRTIM_TIM_GetEventFilter\n * EEFxR1 EE5FLTR LL_HRTIM_TIM_GetEventFilter\n * EEFxR2 EE6FLTR LL_HRTIM_TIM_GetEventFilter\n * EEFxR2 EE7FLTR LL_HRTIM_TIM_GetEventFilter\n * EEFxR2 EE8FLTR LL_HRTIM_TIM_GetEventFilter\n * EEFxR2 EE9FLTR LL_HRTIM_TIM_GetEventFilter\n * EEFxR2 EE10FLTR LL_HRTIM_TIM_GetEventFilter * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @param Event This parameter can be one of the following values: * @arg @ref LL_HRTIM_EVENT_1 * @arg @ref LL_HRTIM_EVENT_2 * @arg @ref LL_HRTIM_EVENT_3 * @arg @ref LL_HRTIM_EVENT_4 * @arg @ref LL_HRTIM_EVENT_5 * @arg @ref LL_HRTIM_EVENT_6 * @arg @ref LL_HRTIM_EVENT_7 * @arg @ref LL_HRTIM_EVENT_8 * @arg @ref LL_HRTIM_EVENT_9 * @arg @ref LL_HRTIM_EVENT_10 * @retval Filter This parameter can be one of the following values: * @arg @ref LL_HRTIM_EEFLTR_NONE * @arg @ref LL_HRTIM_EEFLTR_BLANKINGCMP1 * @arg @ref LL_HRTIM_EEFLTR_BLANKINGCMP2 * @arg @ref LL_HRTIM_EEFLTR_BLANKINGCMP3 * @arg @ref LL_HRTIM_EEFLTR_BLANKINGCMP4 * @arg @ref LL_HRTIM_EEFLTR_BLANKINGFLTR1 * @arg @ref LL_HRTIM_EEFLTR_BLANKINGFLTR2 * @arg @ref LL_HRTIM_EEFLTR_BLANKINGFLTR3 * @arg @ref LL_HRTIM_EEFLTR_BLANKINGFLTR4 * @arg @ref LL_HRTIM_EEFLTR_BLANKINGFLTR5 * @arg @ref LL_HRTIM_EEFLTR_BLANKINGFLTR6 * @arg @ref LL_HRTIM_EEFLTR_BLANKINGFLTR7 * @arg @ref LL_HRTIM_EEFLTR_BLANKINGFLTR8 * @arg @ref LL_HRTIM_EEFLTR_WINDOWINGCMP2 * @arg @ref LL_HRTIM_EEFLTR_WINDOWINGCMP3 * @arg @ref LL_HRTIM_EEFLTR_WINDOWINGTIM */ __STATIC_INLINE uint32_t LL_HRTIM_TIM_GetEventFilter(HRTIM_TypeDef *HRTIMx, uint32_t Timer, uint32_t Event) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - POSITION_VAL(LL_HRTIM_TIMER_A)); register uint32_t iEvent = (uint8_t)(POSITION_VAL(Event) - POSITION_VAL(LL_HRTIM_EVENT_1)); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].EEFxR1) + REG_OFFSET_TAB_TIMER[iTimer] + REG_OFFSET_TAB_EECR[iEvent])); return (READ_BIT(*pReg, HRTIM_EEFR1_EE1FLTR << REG_SHIFT_TAB_EExSRC[iEvent]) >> REG_SHIFT_TAB_EExSRC[iEvent]); } /** * @brief Enable or disable event latch mechanism for a given timer. * @rmtoll EEFxR1 EE1LTCH LL_HRTIM_TIM_SetEventLatchStatus\n * EEFxR1 EE2LTCH LL_HRTIM_TIM_SetEventLatchStatus\n * EEFxR1 EE3LTCH LL_HRTIM_TIM_SetEventLatchStatus\n * EEFxR1 EE4LTCH LL_HRTIM_TIM_SetEventLatchStatus\n * EEFxR1 EE5LTCH LL_HRTIM_TIM_SetEventLatchStatus\n * EEFxR2 EE6LTCH LL_HRTIM_TIM_SetEventLatchStatus\n * EEFxR2 EE7LTCH LL_HRTIM_TIM_SetEventLatchStatus\n * EEFxR2 EE8LTCH LL_HRTIM_TIM_SetEventLatchStatus\n * EEFxR2 EE9LTCH LL_HRTIM_TIM_SetEventLatchStatus\n * EEFxR2 EE10LTCH LL_HRTIM_TIM_SetEventLatchStatus * @note This function must not be called when the timer counter is enabled. * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @param Event This parameter can be one of the following values: * @arg @ref LL_HRTIM_EVENT_1 * @arg @ref LL_HRTIM_EVENT_2 * @arg @ref LL_HRTIM_EVENT_3 * @arg @ref LL_HRTIM_EVENT_4 * @arg @ref LL_HRTIM_EVENT_5 * @arg @ref LL_HRTIM_EVENT_6 * @arg @ref LL_HRTIM_EVENT_7 * @arg @ref LL_HRTIM_EVENT_8 * @arg @ref LL_HRTIM_EVENT_9 * @arg @ref LL_HRTIM_EVENT_10 * @param LatchStatus This parameter can be one of the following values: * @arg @ref LL_HRTIM_EELATCH_DISABLED * @arg @ref LL_HRTIM_EELATCH_ENABLED * @retval None */ __STATIC_INLINE void LL_HRTIM_TIM_SetEventLatchStatus(HRTIM_TypeDef *HRTIMx, uint32_t Timer, uint32_t Event, uint32_t LatchStatus) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - POSITION_VAL(LL_HRTIM_TIMER_A)); register uint32_t iEvent = (uint8_t)(POSITION_VAL(Event) - POSITION_VAL(LL_HRTIM_EVENT_1)); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].EEFxR1) + REG_OFFSET_TAB_TIMER[iTimer] + REG_OFFSET_TAB_EECR[iEvent])); MODIFY_REG(*pReg, (HRTIM_EEFR1_EE1LTCH << REG_SHIFT_TAB_EExSRC[iEvent]), (LatchStatus << REG_SHIFT_TAB_EExSRC[iEvent])); } /** * @brief Get actual event latch status for a given timer. * @rmtoll EEFxR1 EE1LTCH LL_HRTIM_TIM_GetEventLatchStatus\n * EEFxR1 EE2LTCH LL_HRTIM_TIM_GetEventLatchStatus\n * EEFxR1 EE3LTCH LL_HRTIM_TIM_GetEventLatchStatus\n * EEFxR1 EE4LTCH LL_HRTIM_TIM_GetEventLatchStatus\n * EEFxR1 EE5LTCH LL_HRTIM_TIM_GetEventLatchStatus\n * EEFxR2 EE6LTCH LL_HRTIM_TIM_GetEventLatchStatus\n * EEFxR2 EE7LTCH LL_HRTIM_TIM_GetEventLatchStatus\n * EEFxR2 EE8LTCH LL_HRTIM_TIM_GetEventLatchStatus\n * EEFxR2 EE9LTCH LL_HRTIM_TIM_GetEventLatchStatus\n * EEFxR2 EE10LTCH LL_HRTIM_TIM_GetEventLatchStatus * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @param Event This parameter can be one of the following values: * @arg @ref LL_HRTIM_EVENT_1 * @arg @ref LL_HRTIM_EVENT_2 * @arg @ref LL_HRTIM_EVENT_3 * @arg @ref LL_HRTIM_EVENT_4 * @arg @ref LL_HRTIM_EVENT_5 * @arg @ref LL_HRTIM_EVENT_6 * @arg @ref LL_HRTIM_EVENT_7 * @arg @ref LL_HRTIM_EVENT_8 * @arg @ref LL_HRTIM_EVENT_9 * @arg @ref LL_HRTIM_EVENT_10 * @retval LatchStatus This parameter can be one of the following values: * @arg @ref LL_HRTIM_EELATCH_DISABLED * @arg @ref LL_HRTIM_EELATCH_ENABLED */ __STATIC_INLINE uint32_t LL_HRTIM_TIM_GetEventLatchStatus(HRTIM_TypeDef *HRTIMx, uint32_t Timer, uint32_t Event) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - POSITION_VAL(LL_HRTIM_TIMER_A)); register uint32_t iEvent = (uint8_t)(POSITION_VAL(Event) - POSITION_VAL(LL_HRTIM_EVENT_1)); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].EEFxR1) + REG_OFFSET_TAB_TIMER[iTimer] + REG_OFFSET_TAB_EECR[iEvent])); return (READ_BIT(*pReg, HRTIM_EEFR1_EE1LTCH << REG_SHIFT_TAB_EExSRC[iEvent]) >> REG_SHIFT_TAB_EExSRC[iEvent]); } /** * @} */ /** @defgroup HRTIM_EF_Dead_Time_Configuration Dead_Time_Configuration * @{ */ /** * @brief Configure the dead time insertion feature for a given timer. * @rmtoll DTxR DTPRSC LL_HRTIM_DT_Config\n * DTxR SDTF LL_HRTIM_DT_Config\n * DTxR SDRT LL_HRTIM_DT_Config * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @param Configuration This parameter must be a combination of all the following values: * @arg @ref LL_HRTIM_DT_PRESCALER_MUL8 or ... or @ref LL_HRTIM_DT_PRESCALER_DIV16 * @arg @ref LL_HRTIM_DT_RISING_POSITIVE or @ref LL_HRTIM_DT_RISING_NEGATIVE * @arg @ref LL_HRTIM_DT_FALLING_POSITIVE or @ref LL_HRTIM_DT_FALLING_NEGATIVE * @retval None */ __STATIC_INLINE void LL_HRTIM_DT_Config(HRTIM_TypeDef *HRTIMx, uint32_t Timer, uint32_t Configuration) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_TACEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].DTxR) + REG_OFFSET_TAB_TIMER[iTimer])); MODIFY_REG(*pReg, HRTIM_DTR_SDTF | HRTIM_DTR_DTPRSC | HRTIM_DTR_SDTR, Configuration); } /** * @brief Set the deadtime prescaler value. * @rmtoll DTxR DTPRSC LL_HRTIM_DT_SetPrescaler * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @param Prescaler This parameter can be one of the following values: * @arg @ref LL_HRTIM_DT_PRESCALER_MUL8 * @arg @ref LL_HRTIM_DT_PRESCALER_MUL4 * @arg @ref LL_HRTIM_DT_PRESCALER_MUL2 * @arg @ref LL_HRTIM_DT_PRESCALER_DIV1 * @arg @ref LL_HRTIM_DT_PRESCALER_DIV2 * @arg @ref LL_HRTIM_DT_PRESCALER_DIV4 * @arg @ref LL_HRTIM_DT_PRESCALER_DIV8 * @arg @ref LL_HRTIM_DT_PRESCALER_DIV16 * @retval None */ __STATIC_INLINE void LL_HRTIM_DT_SetPrescaler(HRTIM_TypeDef *HRTIMx, uint32_t Timer, uint32_t Prescaler) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_TACEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].DTxR) + REG_OFFSET_TAB_TIMER[iTimer])); MODIFY_REG(*pReg, HRTIM_DTR_DTPRSC, Prescaler); } /** * @brief Get actual deadtime prescaler value. * @rmtoll DTxR DTPRSC LL_HRTIM_DT_GetPrescaler * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval Prescaler This parameter can be one of the following values: * @arg @ref LL_HRTIM_DT_PRESCALER_MUL8 * @arg @ref LL_HRTIM_DT_PRESCALER_MUL4 * @arg @ref LL_HRTIM_DT_PRESCALER_MUL2 * @arg @ref LL_HRTIM_DT_PRESCALER_DIV1 * @arg @ref LL_HRTIM_DT_PRESCALER_DIV2 * @arg @ref LL_HRTIM_DT_PRESCALER_DIV4 * @arg @ref LL_HRTIM_DT_PRESCALER_DIV8 * @arg @ref LL_HRTIM_DT_PRESCALER_DIV16 */ __STATIC_INLINE uint32_t LL_HRTIM_DT_GetPrescaler(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_TACEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].DTxR) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_DTR_DTPRSC)); } /** * @brief Set the deadtime rising value. * @rmtoll DTxR DTR LL_HRTIM_DT_SetRisingValue * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @param RisingValue Value between 0 and 0x1FF * @retval None */ __STATIC_INLINE void LL_HRTIM_DT_SetRisingValue(HRTIM_TypeDef *HRTIMx, uint32_t Timer, uint32_t RisingValue) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_TACEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].DTxR) + REG_OFFSET_TAB_TIMER[iTimer])); MODIFY_REG(*pReg, HRTIM_DTR_DTR, RisingValue); } /** * @brief Get actual deadtime rising value. * @rmtoll DTxR DTR LL_HRTIM_DT_GetRisingValue * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval RisingValue Value between 0 and 0x1FF */ __STATIC_INLINE uint32_t LL_HRTIM_DT_GetRisingValue(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_TACEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].DTxR) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_DTR_DTR)); } /** * @brief Set the deadtime sign on rising edge. * @rmtoll DTxR SDTR LL_HRTIM_DT_SetRisingSign * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @param RisingSign This parameter can be one of the following values: * @arg @ref LL_HRTIM_DT_RISING_POSITIVE * @arg @ref LL_HRTIM_DT_RISING_NEGATIVE * @retval None */ __STATIC_INLINE void LL_HRTIM_DT_SetRisingSign(HRTIM_TypeDef *HRTIMx, uint32_t Timer, uint32_t RisingSign) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_TACEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].DTxR) + REG_OFFSET_TAB_TIMER[iTimer])); MODIFY_REG(*pReg, HRTIM_DTR_SDTR, RisingSign); } /** * @brief Get actual deadtime sign on rising edge. * @rmtoll DTxR SDTR LL_HRTIM_DT_GetRisingSign * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval RisingSign This parameter can be one of the following values: * @arg @ref LL_HRTIM_DT_RISING_POSITIVE * @arg @ref LL_HRTIM_DT_RISING_NEGATIVE */ __STATIC_INLINE uint32_t LL_HRTIM_DT_GetRisingSign(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_TACEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].DTxR) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_DTR_SDTR)); } /** * @brief Set the deadime falling value. * @rmtoll DTxR DTF LL_HRTIM_DT_SetFallingValue * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @param FallingValue Value between 0 and 0x1FF * @retval None */ __STATIC_INLINE void LL_HRTIM_DT_SetFallingValue(HRTIM_TypeDef *HRTIMx, uint32_t Timer, uint32_t FallingValue) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_TACEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].DTxR) + REG_OFFSET_TAB_TIMER[iTimer])); MODIFY_REG(*pReg, HRTIM_DTR_DTF, FallingValue << HRTIM_DTR_DTF_Pos); } /** * @brief Get actual deadtime falling value * @rmtoll DTxR DTF LL_HRTIM_DT_GetFallingValue * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval FallingValue Value between 0 and 0x1FF */ __STATIC_INLINE uint32_t LL_HRTIM_DT_GetFallingValue(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_TACEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].DTxR) + REG_OFFSET_TAB_TIMER[iTimer])); return ((READ_BIT(*pReg, HRTIM_DTR_DTF)) >> HRTIM_DTR_DTF_Pos); } /** * @brief Set the deadtime sign on falling edge. * @rmtoll DTxR SDTF LL_HRTIM_DT_SetFallingSign * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @param FallingSign This parameter can be one of the following values: * @arg @ref LL_HRTIM_DT_FALLING_POSITIVE * @arg @ref LL_HRTIM_DT_FALLING_NEGATIVE * @retval None */ __STATIC_INLINE void LL_HRTIM_DT_SetFallingSign(HRTIM_TypeDef *HRTIMx, uint32_t Timer, uint32_t FallingSign) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_TACEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].DTxR) + REG_OFFSET_TAB_TIMER[iTimer])); MODIFY_REG(*pReg, HRTIM_DTR_SDTF, FallingSign); } /** * @brief Get actual deadtime sign on falling edge. * @rmtoll DTxR SDTF LL_HRTIM_DT_GetFallingSign * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval FallingSign This parameter can be one of the following values: * @arg @ref LL_HRTIM_DT_FALLING_POSITIVE * @arg @ref LL_HRTIM_DT_FALLING_NEGATIVE */ __STATIC_INLINE uint32_t LL_HRTIM_DT_GetFallingSign(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_TACEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].DTxR) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_DTR_SDTF)); } /** * @brief Lock the deadtime value and sign on rising edge. * @rmtoll DTxR DTRLK LL_HRTIM_DT_LockRising * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_DT_LockRising(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_TACEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].DTxR) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, HRTIM_DTR_DTRLK); } /** * @brief Lock the deadtime sign on rising edge. * @rmtoll DTxR DTRSLK LL_HRTIM_DT_LockRisingSign * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_DT_LockRisingSign(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_TACEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].DTxR) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, HRTIM_DTR_DTRSLK); } /** * @brief Lock the deadtime value and sign on falling edge. * @rmtoll DTxR DTFLK LL_HRTIM_DT_LockFalling * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_DT_LockFalling(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_TACEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].DTxR) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, HRTIM_DTR_DTFLK); } /** * @brief Lock the deadtime sign on falling edge. * @rmtoll DTxR DTFSLK LL_HRTIM_DT_LockFallingSign * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_DT_LockFallingSign(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_TACEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].DTxR) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, HRTIM_DTR_DTFSLK); } /** * @} */ /** @defgroup HRTIM_EF_Chopper_Mode_Configuration Chopper_Mode_Configuration * @{ */ /** * @brief Configure the chopper stage for a given timer. * @rmtoll CHPxR CARFRQ LL_HRTIM_CHP_Config\n * CHPxR CARDTY LL_HRTIM_CHP_Config\n * CHPxR STRTPW LL_HRTIM_CHP_Config * @note This function must not be called if the chopper mode is already * enabled for one of the timer outputs. * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @param Configuration This parameter must be a combination of all the following values: * @arg @ref LL_HRTIM_CHP_PRESCALER_DIV16 or ... or @ref LL_HRTIM_CHP_PRESCALER_DIV256 * @arg @ref LL_HRTIM_CHP_DUTYCYCLE_0 or ... or @ref LL_HRTIM_CHP_DUTYCYCLE_875 * @arg @ref LL_HRTIM_CHP_PULSEWIDTH_16 or ... or @ref LL_HRTIM_CHP_PULSEWIDTH_256 * @retval None */ __STATIC_INLINE void LL_HRTIM_CHP_Config(HRTIM_TypeDef *HRTIMx, uint32_t Timer, uint32_t Configuration) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_TACEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].CHPxR) + REG_OFFSET_TAB_TIMER[iTimer])); MODIFY_REG(*pReg, HRTIM_CHPR_STRPW | HRTIM_CHPR_CARDTY | HRTIM_CHPR_CARFRQ, Configuration); } /** * @brief Set prescaler determining the carrier frequency to be added on top * of the timer output signals when chopper mode is enabled. * @rmtoll CHPxR CARFRQ LL_HRTIM_CHP_SetPrescaler * @note This function must not be called if the chopper mode is already * enabled for one of the timer outputs. * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @param Prescaler This parameter can be one of the following values: * @arg @ref LL_HRTIM_CHP_PRESCALER_DIV16 * @arg @ref LL_HRTIM_CHP_PRESCALER_DIV32 * @arg @ref LL_HRTIM_CHP_PRESCALER_DIV48 * @arg @ref LL_HRTIM_CHP_PRESCALER_DIV64 * @arg @ref LL_HRTIM_CHP_PRESCALER_DIV80 * @arg @ref LL_HRTIM_CHP_PRESCALER_DIV96 * @arg @ref LL_HRTIM_CHP_PRESCALER_DIV112 * @arg @ref LL_HRTIM_CHP_PRESCALER_DIV128 * @arg @ref LL_HRTIM_CHP_PRESCALER_DIV144 * @arg @ref LL_HRTIM_CHP_PRESCALER_DIV160 * @arg @ref LL_HRTIM_CHP_PRESCALER_DIV176 * @arg @ref LL_HRTIM_CHP_PRESCALER_DIV192 * @arg @ref LL_HRTIM_CHP_PRESCALER_DIV208 * @arg @ref LL_HRTIM_CHP_PRESCALER_DIV224 * @arg @ref LL_HRTIM_CHP_PRESCALER_DIV240 * @arg @ref LL_HRTIM_CHP_PRESCALER_DIV256 * @retval None */ __STATIC_INLINE void LL_HRTIM_CHP_SetPrescaler(HRTIM_TypeDef *HRTIMx, uint32_t Timer, uint32_t Prescaler) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_TACEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].CHPxR) + REG_OFFSET_TAB_TIMER[iTimer])); MODIFY_REG(*pReg, HRTIM_CHPR_CARFRQ, Prescaler); } /** * @brief Get actual chopper stage prescaler value. * @rmtoll CHPxR CARFRQ LL_HRTIM_CHP_GetPrescaler * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval Prescaler This parameter can be one of the following values: * @arg @ref LL_HRTIM_CHP_PRESCALER_DIV16 * @arg @ref LL_HRTIM_CHP_PRESCALER_DIV32 * @arg @ref LL_HRTIM_CHP_PRESCALER_DIV48 * @arg @ref LL_HRTIM_CHP_PRESCALER_DIV64 * @arg @ref LL_HRTIM_CHP_PRESCALER_DIV80 * @arg @ref LL_HRTIM_CHP_PRESCALER_DIV96 * @arg @ref LL_HRTIM_CHP_PRESCALER_DIV112 * @arg @ref LL_HRTIM_CHP_PRESCALER_DIV128 * @arg @ref LL_HRTIM_CHP_PRESCALER_DIV144 * @arg @ref LL_HRTIM_CHP_PRESCALER_DIV160 * @arg @ref LL_HRTIM_CHP_PRESCALER_DIV176 * @arg @ref LL_HRTIM_CHP_PRESCALER_DIV192 * @arg @ref LL_HRTIM_CHP_PRESCALER_DIV208 * @arg @ref LL_HRTIM_CHP_PRESCALER_DIV224 * @arg @ref LL_HRTIM_CHP_PRESCALER_DIV240 * @arg @ref LL_HRTIM_CHP_PRESCALER_DIV256 */ __STATIC_INLINE uint32_t LL_HRTIM_CHP_GetPrescaler(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_TACEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].CHPxR) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_CHPR_CARFRQ)); } /** * @brief Set the chopper duty cycle. * @rmtoll CHPxR CARDTY LL_HRTIM_CHP_SetDutyCycle * @note Duty cycle can be adjusted by 1/8 step (from 0/8 up to 7/8) * @note This function must not be called if the chopper mode is already * enabled for one of the timer outputs. * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @param DutyCycle This parameter can be one of the following values: * @arg @ref LL_HRTIM_CHP_DUTYCYCLE_0 * @arg @ref LL_HRTIM_CHP_DUTYCYCLE_125 * @arg @ref LL_HRTIM_CHP_DUTYCYCLE_250 * @arg @ref LL_HRTIM_CHP_DUTYCYCLE_375 * @arg @ref LL_HRTIM_CHP_DUTYCYCLE_500 * @arg @ref LL_HRTIM_CHP_DUTYCYCLE_625 * @arg @ref LL_HRTIM_CHP_DUTYCYCLE_750 * @arg @ref LL_HRTIM_CHP_DUTYCYCLE_875 * @retval None */ __STATIC_INLINE void LL_HRTIM_CHP_SetDutyCycle(HRTIM_TypeDef *HRTIMx, uint32_t Timer, uint32_t DutyCycle) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_TACEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].CHPxR) + REG_OFFSET_TAB_TIMER[iTimer])); MODIFY_REG(*pReg, HRTIM_CHPR_CARDTY, DutyCycle); } /** * @brief Get actual chopper duty cycle. * @rmtoll CHPxR CARDTY LL_HRTIM_CHP_GetDutyCycle * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval DutyCycle This parameter can be one of the following values: * @arg @ref LL_HRTIM_CHP_DUTYCYCLE_0 * @arg @ref LL_HRTIM_CHP_DUTYCYCLE_125 * @arg @ref LL_HRTIM_CHP_DUTYCYCLE_250 * @arg @ref LL_HRTIM_CHP_DUTYCYCLE_375 * @arg @ref LL_HRTIM_CHP_DUTYCYCLE_500 * @arg @ref LL_HRTIM_CHP_DUTYCYCLE_625 * @arg @ref LL_HRTIM_CHP_DUTYCYCLE_750 * @arg @ref LL_HRTIM_CHP_DUTYCYCLE_875 */ __STATIC_INLINE uint32_t LL_HRTIM_CHP_GetDutyCycle(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_TACEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].CHPxR) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_CHPR_CARDTY)); } /** * @brief Set the start pulse width. * @rmtoll CHPxR STRPW LL_HRTIM_CHP_SetPulseWidth * @note This function must not be called if the chopper mode is already * enabled for one of the timer outputs. * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @param PulseWidth This parameter can be one of the following values: * @arg @ref LL_HRTIM_CHP_PULSEWIDTH_16 * @arg @ref LL_HRTIM_CHP_PULSEWIDTH_32 * @arg @ref LL_HRTIM_CHP_PULSEWIDTH_48 * @arg @ref LL_HRTIM_CHP_PULSEWIDTH_64 * @arg @ref LL_HRTIM_CHP_PULSEWIDTH_80 * @arg @ref LL_HRTIM_CHP_PULSEWIDTH_96 * @arg @ref LL_HRTIM_CHP_PULSEWIDTH_112 * @arg @ref LL_HRTIM_CHP_PULSEWIDTH_128 * @arg @ref LL_HRTIM_CHP_PULSEWIDTH_144 * @arg @ref LL_HRTIM_CHP_PULSEWIDTH_160 * @arg @ref LL_HRTIM_CHP_PULSEWIDTH_176 * @arg @ref LL_HRTIM_CHP_PULSEWIDTH_192 * @arg @ref LL_HRTIM_CHP_PULSEWIDTH_208 * @arg @ref LL_HRTIM_CHP_PULSEWIDTH_224 * @arg @ref LL_HRTIM_CHP_PULSEWIDTH_240 * @arg @ref LL_HRTIM_CHP_PULSEWIDTH_256 * @retval None */ __STATIC_INLINE void LL_HRTIM_CHP_SetPulseWidth(HRTIM_TypeDef *HRTIMx, uint32_t Timer, uint32_t PulseWidth) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_TACEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].CHPxR) + REG_OFFSET_TAB_TIMER[iTimer])); MODIFY_REG(*pReg, HRTIM_CHPR_STRPW, PulseWidth); } /** * @brief Get actual start pulse width. * @rmtoll CHPxR STRPW LL_HRTIM_CHP_GetPulseWidth * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval PulseWidth This parameter can be one of the following values: * @arg @ref LL_HRTIM_CHP_PULSEWIDTH_16 * @arg @ref LL_HRTIM_CHP_PULSEWIDTH_32 * @arg @ref LL_HRTIM_CHP_PULSEWIDTH_48 * @arg @ref LL_HRTIM_CHP_PULSEWIDTH_64 * @arg @ref LL_HRTIM_CHP_PULSEWIDTH_80 * @arg @ref LL_HRTIM_CHP_PULSEWIDTH_96 * @arg @ref LL_HRTIM_CHP_PULSEWIDTH_112 * @arg @ref LL_HRTIM_CHP_PULSEWIDTH_128 * @arg @ref LL_HRTIM_CHP_PULSEWIDTH_144 * @arg @ref LL_HRTIM_CHP_PULSEWIDTH_160 * @arg @ref LL_HRTIM_CHP_PULSEWIDTH_176 * @arg @ref LL_HRTIM_CHP_PULSEWIDTH_192 * @arg @ref LL_HRTIM_CHP_PULSEWIDTH_208 * @arg @ref LL_HRTIM_CHP_PULSEWIDTH_224 * @arg @ref LL_HRTIM_CHP_PULSEWIDTH_240 * @arg @ref LL_HRTIM_CHP_PULSEWIDTH_256 */ __STATIC_INLINE uint32_t LL_HRTIM_CHP_GetPulseWidth(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_TACEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].CHPxR) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_CHPR_STRPW)); } /** * @} */ /** @defgroup HRTIM_EF_Output_Management Output_Management * @{ */ /** * @brief Set the timer output set source. * @rmtoll SETx1R SST LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R RESYNC LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R PER LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R CMP1 LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R CMP2 LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R CMP3 LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R CMP4 LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R MSTPER LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R MSTCMP1 LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R MSTCMP2 LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R MSTCMP3 LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R MSTCMP4 LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R TIMEVNT1 LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R TIMEVNT2 LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R TIMEVNT3 LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R TIMEVNT4 LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R TIMEVNT5 LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R TIMEVNT6 LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R TIMEVNT7 LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R TIMEVNT8 LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R TIMEVNT9 LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R EXEVNT1 LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R EXEVNT2 LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R EXEVNT3 LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R EXEVNT4 LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R EXEVNT5 LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R EXEVNT6 LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R EXEVNT7 LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R EXEVNT8 LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R EXEVNT9 LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R EXEVNT10 LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R UPDATE LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R SST LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R RESYNC LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R PER LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R CMP1 LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R CMP2 LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R CMP3 LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R CMP4 LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R MSTPER LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R MSTCMP1 LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R MSTCMP2 LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R MSTCMP3 LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R MSTCMP4 LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R TIMEVNT1 LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R TIMEVNT2 LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R TIMEVNT3 LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R TIMEVNT4 LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R TIMEVNT5 LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R TIMEVNT6 LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R TIMEVNT7 LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R TIMEVNT8 LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R TIMEVNT9 LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R EXEVNT1 LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R EXEVNT2 LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R EXEVNT3 LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R EXEVNT4 LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R EXEVNT5 LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R EXEVNT6 LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R EXEVNT7 LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R EXEVNT8 LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R EXEVNT9 LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R EXEVNT10 LL_HRTIM_OUT_SetOutputSetSrc\n * SETx1R UPDATE LL_HRTIM_OUT_SetOutputSetSrc * @param HRTIMx High Resolution Timer instance * @param Output This parameter can be one of the following values: * @arg @ref LL_HRTIM_OUTPUT_TA1 * @arg @ref LL_HRTIM_OUTPUT_TA2 * @arg @ref LL_HRTIM_OUTPUT_TB1 * @arg @ref LL_HRTIM_OUTPUT_TB2 * @arg @ref LL_HRTIM_OUTPUT_TC1 * @arg @ref LL_HRTIM_OUTPUT_TC2 * @arg @ref LL_HRTIM_OUTPUT_TD1 * @arg @ref LL_HRTIM_OUTPUT_TD2 * @arg @ref LL_HRTIM_OUTPUT_TE1 * @arg @ref LL_HRTIM_OUTPUT_TE2 * @param SetSrc This parameter can be a combination of the following values: * @arg @ref LL_HRTIM_CROSSBAR_NONE * @arg @ref LL_HRTIM_CROSSBAR_RESYNC * @arg @ref LL_HRTIM_CROSSBAR_TIMPER * @arg @ref LL_HRTIM_CROSSBAR_TIMCMP1 * @arg @ref LL_HRTIM_CROSSBAR_TIMCMP2 * @arg @ref LL_HRTIM_CROSSBAR_TIMCMP3 * @arg @ref LL_HRTIM_CROSSBAR_TIMCMP4 * @arg @ref LL_HRTIM_CROSSBAR_MASTERPER * @arg @ref LL_HRTIM_CROSSBAR_MASTERCMP1 * @arg @ref LL_HRTIM_CROSSBAR_MASTERCMP2 * @arg @ref LL_HRTIM_CROSSBAR_MASTERCMP3 * @arg @ref LL_HRTIM_CROSSBAR_MASTERCMP4 * @arg @ref LL_HRTIM_CROSSBAR_TIMEV_1 * @arg @ref LL_HRTIM_CROSSBAR_TIMEV_2 * @arg @ref LL_HRTIM_CROSSBAR_TIMEV_3 * @arg @ref LL_HRTIM_CROSSBAR_TIMEV_4 * @arg @ref LL_HRTIM_CROSSBAR_TIMEV_5 * @arg @ref LL_HRTIM_CROSSBAR_TIMEV_6 * @arg @ref LL_HRTIM_CROSSBAR_TIMEV_7 * @arg @ref LL_HRTIM_CROSSBAR_TIMEV_8 * @arg @ref LL_HRTIM_CROSSBAR_TIMEV_9 * @arg @ref LL_HRTIM_CROSSBAR_EEV_1 * @arg @ref LL_HRTIM_CROSSBAR_EEV_2 * @arg @ref LL_HRTIM_CROSSBAR_EEV_3 * @arg @ref LL_HRTIM_CROSSBAR_EEV_4 * @arg @ref LL_HRTIM_CROSSBAR_EEV_5 * @arg @ref LL_HRTIM_CROSSBAR_EEV_6 * @arg @ref LL_HRTIM_CROSSBAR_EEV_7 * @arg @ref LL_HRTIM_CROSSBAR_EEV_8 * @arg @ref LL_HRTIM_CROSSBAR_EEV_9 * @arg @ref LL_HRTIM_CROSSBAR_EEV_10 * @arg @ref LL_HRTIM_CROSSBAR_UPDATE * @retval None */ __STATIC_INLINE void LL_HRTIM_OUT_SetOutputSetSrc(HRTIM_TypeDef *HRTIMx, uint32_t Output, uint32_t SetSrc) { register uint32_t iOutput = (uint8_t)(POSITION_VAL(Output) - POSITION_VAL(LL_HRTIM_OUTPUT_TA1)); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].SETx1R) + REG_OFFSET_TAB_SETxR[iOutput])); WRITE_REG(*pReg, SetSrc); } /** * @brief Get the timer output set source. * @rmtoll SETx1R SST LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R RESYNC LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R PER LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R CMP1 LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R CMP2 LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R CMP3 LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R CMP4 LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R MSTPER LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R MSTCMP1 LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R MSTCMP2 LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R MSTCMP3 LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R MSTCMP4 LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R TIMEVNT1 LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R TIMEVNT2 LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R TIMEVNT3 LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R TIMEVNT4 LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R TIMEVNT5 LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R TIMEVNT6 LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R TIMEVNT7 LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R TIMEVNT8 LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R TIMEVNT9 LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R EXEVNT1 LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R EXEVNT2 LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R EXEVNT3 LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R EXEVNT4 LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R EXEVNT5 LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R EXEVNT6 LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R EXEVNT7 LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R EXEVNT8 LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R EXEVNT9 LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R EXEVNT10 LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R UPDATE LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R SST LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R RESYNC LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R PER LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R CMP1 LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R CMP2 LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R CMP3 LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R CMP4 LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R MSTPER LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R MSTCMP1 LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R MSTCMP2 LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R MSTCMP3 LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R MSTCMP4 LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R TIMEVNT1 LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R TIMEVNT2 LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R TIMEVNT3 LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R TIMEVNT4 LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R TIMEVNT5 LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R TIMEVNT6 LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R TIMEVNT7 LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R TIMEVNT8 LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R TIMEVNT9 LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R EXEVNT1 LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R EXEVNT2 LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R EXEVNT3 LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R EXEVNT4 LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R EXEVNT5 LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R EXEVNT6 LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R EXEVNT7 LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R EXEVNT8 LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R EXEVNT9 LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R EXEVNT10 LL_HRTIM_OUT_GetOutputSetSrc\n * SETx1R UPDATE LL_HRTIM_OUT_GetOutputSetSrc * @param HRTIMx High Resolution Timer instance * @param Output This parameter can be one of the following values: * @arg @ref LL_HRTIM_OUTPUT_TA1 * @arg @ref LL_HRTIM_OUTPUT_TA2 * @arg @ref LL_HRTIM_OUTPUT_TB1 * @arg @ref LL_HRTIM_OUTPUT_TB2 * @arg @ref LL_HRTIM_OUTPUT_TC1 * @arg @ref LL_HRTIM_OUTPUT_TC2 * @arg @ref LL_HRTIM_OUTPUT_TD1 * @arg @ref LL_HRTIM_OUTPUT_TD2 * @arg @ref LL_HRTIM_OUTPUT_TE1 * @arg @ref LL_HRTIM_OUTPUT_TE2 * @retval SetSrc This parameter can be a combination of the following values: * @arg @ref LL_HRTIM_CROSSBAR_NONE * @arg @ref LL_HRTIM_CROSSBAR_RESYNC * @arg @ref LL_HRTIM_CROSSBAR_TIMPER * @arg @ref LL_HRTIM_CROSSBAR_TIMCMP1 * @arg @ref LL_HRTIM_CROSSBAR_TIMCMP2 * @arg @ref LL_HRTIM_CROSSBAR_TIMCMP3 * @arg @ref LL_HRTIM_CROSSBAR_TIMCMP4 * @arg @ref LL_HRTIM_CROSSBAR_MASTERPER * @arg @ref LL_HRTIM_CROSSBAR_MASTERCMP1 * @arg @ref LL_HRTIM_CROSSBAR_MASTERCMP2 * @arg @ref LL_HRTIM_CROSSBAR_MASTERCMP3 * @arg @ref LL_HRTIM_CROSSBAR_MASTERCMP4 * @arg @ref LL_HRTIM_CROSSBAR_TIMEV_1 * @arg @ref LL_HRTIM_CROSSBAR_TIMEV_2 * @arg @ref LL_HRTIM_CROSSBAR_TIMEV_3 * @arg @ref LL_HRTIM_CROSSBAR_TIMEV_4 * @arg @ref LL_HRTIM_CROSSBAR_TIMEV_5 * @arg @ref LL_HRTIM_CROSSBAR_TIMEV_6 * @arg @ref LL_HRTIM_CROSSBAR_TIMEV_7 * @arg @ref LL_HRTIM_CROSSBAR_TIMEV_8 * @arg @ref LL_HRTIM_CROSSBAR_TIMEV_9 * @arg @ref LL_HRTIM_CROSSBAR_EEV_1 * @arg @ref LL_HRTIM_CROSSBAR_EEV_2 * @arg @ref LL_HRTIM_CROSSBAR_EEV_3 * @arg @ref LL_HRTIM_CROSSBAR_EEV_4 * @arg @ref LL_HRTIM_CROSSBAR_EEV_5 * @arg @ref LL_HRTIM_CROSSBAR_EEV_6 * @arg @ref LL_HRTIM_CROSSBAR_EEV_7 * @arg @ref LL_HRTIM_CROSSBAR_EEV_8 * @arg @ref LL_HRTIM_CROSSBAR_EEV_9 * @arg @ref LL_HRTIM_CROSSBAR_EEV_10 * @arg @ref LL_HRTIM_CROSSBAR_UPDATE */ __STATIC_INLINE uint32_t LL_HRTIM_OUT_GetOutputSetSrc(HRTIM_TypeDef *HRTIMx, uint32_t Output) { register uint32_t iOutput = (uint8_t)(POSITION_VAL(Output) - POSITION_VAL(LL_HRTIM_OUTPUT_TA1)); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].SETx1R) + REG_OFFSET_TAB_SETxR[iOutput])); return (uint32_t) READ_REG(*pReg); } /** * @brief Set the timer output reset source. * @rmtoll RSTx1R RST LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R RESYNC LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R PER LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R CMP1 LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R CMP2 LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R CMP3 LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R CMP4 LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R MSTPER LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R MSTCMP1 LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R MSTCMP2 LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R MSTCMP3 LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R MSTCMP4 LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R TIMEVNT1 LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R TIMEVNT2 LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R TIMEVNT3 LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R TIMEVNT4 LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R TIMEVNT5 LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R TIMEVNT6 LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R TIMEVNT7 LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R TIMEVNT8 LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R TIMEVNT9 LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R EXEVNT1 LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R EXEVNT2 LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R EXEVNT3 LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R EXEVNT4 LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R EXEVNT5 LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R EXEVNT6 LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R EXEVNT7 LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R EXEVNT8 LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R EXEVNT9 LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R EXEVNT10 LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R UPDATE LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R RST LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R RESYNC LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R PER LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R CMP1 LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R CMP2 LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R CMP3 LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R CMP4 LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R MSTPER LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R MSTCMP1 LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R MSTCMP2 LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R MSTCMP3 LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R MSTCMP4 LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R TIMEVNT1 LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R TIMEVNT2 LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R TIMEVNT3 LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R TIMEVNT4 LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R TIMEVNT5 LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R TIMEVNT6 LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R TIMEVNT7 LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R TIMEVNT8 LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R TIMEVNT9 LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R EXEVNT1 LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R EXEVNT2 LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R EXEVNT3 LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R EXEVNT4 LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R EXEVNT5 LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R EXEVNT6 LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R EXEVNT7 LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R EXEVNT8 LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R EXEVNT9 LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R EXEVNT10 LL_HRTIM_OUT_SetOutputResetSrc\n * RSTx1R UPDATE LL_HRTIM_OUT_SetOutputResetSrc * @param HRTIMx High Resolution Timer instance * @param Output This parameter can be one of the following values: * @arg @ref LL_HRTIM_OUTPUT_TA1 * @arg @ref LL_HRTIM_OUTPUT_TA2 * @arg @ref LL_HRTIM_OUTPUT_TB1 * @arg @ref LL_HRTIM_OUTPUT_TB2 * @arg @ref LL_HRTIM_OUTPUT_TC1 * @arg @ref LL_HRTIM_OUTPUT_TC2 * @arg @ref LL_HRTIM_OUTPUT_TD1 * @arg @ref LL_HRTIM_OUTPUT_TD2 * @arg @ref LL_HRTIM_OUTPUT_TE1 * @arg @ref LL_HRTIM_OUTPUT_TE2 * @param ResetSrc This parameter can be a combination of the following values: * @arg @ref LL_HRTIM_CROSSBAR_NONE * @arg @ref LL_HRTIM_CROSSBAR_RESYNC * @arg @ref LL_HRTIM_CROSSBAR_TIMPER * @arg @ref LL_HRTIM_CROSSBAR_TIMCMP1 * @arg @ref LL_HRTIM_CROSSBAR_TIMCMP2 * @arg @ref LL_HRTIM_CROSSBAR_TIMCMP3 * @arg @ref LL_HRTIM_CROSSBAR_TIMCMP4 * @arg @ref LL_HRTIM_CROSSBAR_MASTERPER * @arg @ref LL_HRTIM_CROSSBAR_MASTERCMP1 * @arg @ref LL_HRTIM_CROSSBAR_MASTERCMP2 * @arg @ref LL_HRTIM_CROSSBAR_MASTERCMP3 * @arg @ref LL_HRTIM_CROSSBAR_MASTERCMP4 * @arg @ref LL_HRTIM_CROSSBAR_TIMEV_1 * @arg @ref LL_HRTIM_CROSSBAR_TIMEV_2 * @arg @ref LL_HRTIM_CROSSBAR_TIMEV_3 * @arg @ref LL_HRTIM_CROSSBAR_TIMEV_4 * @arg @ref LL_HRTIM_CROSSBAR_TIMEV_5 * @arg @ref LL_HRTIM_CROSSBAR_TIMEV_6 * @arg @ref LL_HRTIM_CROSSBAR_TIMEV_7 * @arg @ref LL_HRTIM_CROSSBAR_TIMEV_8 * @arg @ref LL_HRTIM_CROSSBAR_TIMEV_9 * @arg @ref LL_HRTIM_CROSSBAR_EEV_1 * @arg @ref LL_HRTIM_CROSSBAR_EEV_2 * @arg @ref LL_HRTIM_CROSSBAR_EEV_3 * @arg @ref LL_HRTIM_CROSSBAR_EEV_4 * @arg @ref LL_HRTIM_CROSSBAR_EEV_5 * @arg @ref LL_HRTIM_CROSSBAR_EEV_6 * @arg @ref LL_HRTIM_CROSSBAR_EEV_7 * @arg @ref LL_HRTIM_CROSSBAR_EEV_8 * @arg @ref LL_HRTIM_CROSSBAR_EEV_9 * @arg @ref LL_HRTIM_CROSSBAR_EEV_10 * @arg @ref LL_HRTIM_CROSSBAR_UPDATE * @retval None */ __STATIC_INLINE void LL_HRTIM_OUT_SetOutputResetSrc(HRTIM_TypeDef *HRTIMx, uint32_t Output, uint32_t ResetSrc) { register uint32_t iOutput = (uint8_t)(POSITION_VAL(Output) - POSITION_VAL(LL_HRTIM_OUTPUT_TA1)); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].RSTx1R) + REG_OFFSET_TAB_SETxR[iOutput])); WRITE_REG(*pReg, ResetSrc); } /** * @brief Get the timer output set source. * @rmtoll RSTx1R RST LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R RESYNC LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R PER LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R CMP1 LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R CMP2 LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R CMP3 LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R CMP4 LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R MSTPER LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R MSTCMP1 LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R MSTCMP2 LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R MSTCMP3 LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R MSTCMP4 LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R TIMEVNT1 LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R TIMEVNT2 LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R TIMEVNT3 LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R TIMEVNT4 LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R TIMEVNT5 LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R TIMEVNT6 LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R TIMEVNT7 LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R TIMEVNT8 LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R TIMEVNT9 LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R EXEVNT1 LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R EXEVNT2 LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R EXEVNT3 LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R EXEVNT4 LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R EXEVNT5 LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R EXEVNT6 LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R EXEVNT7 LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R EXEVNT8 LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R EXEVNT9 LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R EXEVNT10 LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R UPDATE LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R RST LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R RESYNC LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R PER LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R CMP1 LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R CMP2 LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R CMP3 LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R CMP4 LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R MSTPER LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R MSTCMP1 LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R MSTCMP2 LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R MSTCMP3 LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R MSTCMP4 LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R TIMEVNT1 LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R TIMEVNT2 LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R TIMEVNT3 LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R TIMEVNT4 LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R TIMEVNT5 LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R TIMEVNT6 LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R TIMEVNT7 LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R TIMEVNT8 LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R TIMEVNT9 LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R EXEVNT1 LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R EXEVNT2 LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R EXEVNT3 LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R EXEVNT4 LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R EXEVNT5 LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R EXEVNT6 LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R EXEVNT7 LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R EXEVNT8 LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R EXEVNT9 LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R EXEVNT10 LL_HRTIM_OUT_GetOutputResetSrc\n * RSTx1R UPDATE LL_HRTIM_OUT_GetOutputResetSrc * @param HRTIMx High Resolution Timer instance * @param Output This parameter can be one of the following values: * @arg @ref LL_HRTIM_OUTPUT_TA1 * @arg @ref LL_HRTIM_OUTPUT_TA2 * @arg @ref LL_HRTIM_OUTPUT_TB1 * @arg @ref LL_HRTIM_OUTPUT_TB2 * @arg @ref LL_HRTIM_OUTPUT_TC1 * @arg @ref LL_HRTIM_OUTPUT_TC2 * @arg @ref LL_HRTIM_OUTPUT_TD1 * @arg @ref LL_HRTIM_OUTPUT_TD2 * @arg @ref LL_HRTIM_OUTPUT_TE1 * @arg @ref LL_HRTIM_OUTPUT_TE2 * @retval ResetSrc This parameter can be a combination of the following values: * @arg @ref LL_HRTIM_CROSSBAR_NONE * @arg @ref LL_HRTIM_CROSSBAR_RESYNC * @arg @ref LL_HRTIM_CROSSBAR_TIMPER * @arg @ref LL_HRTIM_CROSSBAR_TIMCMP1 * @arg @ref LL_HRTIM_CROSSBAR_TIMCMP2 * @arg @ref LL_HRTIM_CROSSBAR_TIMCMP3 * @arg @ref LL_HRTIM_CROSSBAR_TIMCMP4 * @arg @ref LL_HRTIM_CROSSBAR_MASTERPER * @arg @ref LL_HRTIM_CROSSBAR_MASTERCMP1 * @arg @ref LL_HRTIM_CROSSBAR_MASTERCMP2 * @arg @ref LL_HRTIM_CROSSBAR_MASTERCMP3 * @arg @ref LL_HRTIM_CROSSBAR_MASTERCMP4 * @arg @ref LL_HRTIM_CROSSBAR_TIMEV_1 * @arg @ref LL_HRTIM_CROSSBAR_TIMEV_2 * @arg @ref LL_HRTIM_CROSSBAR_TIMEV_3 * @arg @ref LL_HRTIM_CROSSBAR_TIMEV_4 * @arg @ref LL_HRTIM_CROSSBAR_TIMEV_5 * @arg @ref LL_HRTIM_CROSSBAR_TIMEV_6 * @arg @ref LL_HRTIM_CROSSBAR_TIMEV_7 * @arg @ref LL_HRTIM_CROSSBAR_TIMEV_8 * @arg @ref LL_HRTIM_CROSSBAR_TIMEV_9 * @arg @ref LL_HRTIM_CROSSBAR_EEV_1 * @arg @ref LL_HRTIM_CROSSBAR_EEV_2 * @arg @ref LL_HRTIM_CROSSBAR_EEV_3 * @arg @ref LL_HRTIM_CROSSBAR_EEV_4 * @arg @ref LL_HRTIM_CROSSBAR_EEV_5 * @arg @ref LL_HRTIM_CROSSBAR_EEV_6 * @arg @ref LL_HRTIM_CROSSBAR_EEV_7 * @arg @ref LL_HRTIM_CROSSBAR_EEV_8 * @arg @ref LL_HRTIM_CROSSBAR_EEV_9 * @arg @ref LL_HRTIM_CROSSBAR_EEV_10 * @arg @ref LL_HRTIM_CROSSBAR_UPDATE */ __STATIC_INLINE uint32_t LL_HRTIM_OUT_GetOutputResetSrc(HRTIM_TypeDef *HRTIMx, uint32_t Output) { register uint32_t iOutput = (uint8_t)(POSITION_VAL(Output) - POSITION_VAL(LL_HRTIM_OUTPUT_TA1)); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].RSTx1R) + REG_OFFSET_TAB_SETxR[iOutput])); return (uint32_t) READ_REG(*pReg); } /** * @brief Configure a timer output. * @rmtoll OUTxR POL1 LL_HRTIM_OUT_Config\n * OUTxR IDLEM1 LL_HRTIM_OUT_Config\n * OUTxR IDLES1 LL_HRTIM_OUT_Config\n * OUTxR FAULT1 LL_HRTIM_OUT_Config\n * OUTxR CHP1 LL_HRTIM_OUT_Config\n * OUTxR DIDL1 LL_HRTIM_OUT_Config\n * OUTxR POL2 LL_HRTIM_OUT_Config\n * OUTxR IDLEM2 LL_HRTIM_OUT_Config\n * OUTxR IDLES2 LL_HRTIM_OUT_Config\n * OUTxR FAULT2 LL_HRTIM_OUT_Config\n * OUTxR CHP2 LL_HRTIM_OUT_Config\n * OUTxR DIDL2 LL_HRTIM_OUT_Config * @param HRTIMx High Resolution Timer instance * @param Output This parameter can be one of the following values: * @arg @ref LL_HRTIM_OUTPUT_TA1 * @arg @ref LL_HRTIM_OUTPUT_TA2 * @arg @ref LL_HRTIM_OUTPUT_TB1 * @arg @ref LL_HRTIM_OUTPUT_TB2 * @arg @ref LL_HRTIM_OUTPUT_TC1 * @arg @ref LL_HRTIM_OUTPUT_TC2 * @arg @ref LL_HRTIM_OUTPUT_TD1 * @arg @ref LL_HRTIM_OUTPUT_TD2 * @arg @ref LL_HRTIM_OUTPUT_TE1 * @arg @ref LL_HRTIM_OUTPUT_TE2 * @param Configuration This parameter must be a combination of all the following values: * @arg @ref LL_HRTIM_OUT_POSITIVE_POLARITY or @ref LL_HRTIM_OUT_NEGATIVE_POLARITY * @arg @ref LL_HRTIM_OUT_NO_IDLE or @ref LL_HRTIM_OUT_IDLE_WHEN_BURST * @arg @ref LL_HRTIM_OUT_IDLELEVEL_INACTIVE or @ref LL_HRTIM_OUT_IDLELEVEL_ACTIVE * @arg @ref LL_HRTIM_OUT_FAULTSTATE_NO_ACTION or @ref LL_HRTIM_OUT_FAULTSTATE_ACTIVE or @ref LL_HRTIM_OUT_FAULTSTATE_INACTIVE or @ref LL_HRTIM_OUT_FAULTSTATE_HIGHZ * @arg @ref LL_HRTIM_OUT_CHOPPERMODE_DISABLED or @ref LL_HRTIM_OUT_CHOPPERMODE_ENABLED * @arg @ref LL_HRTIM_OUT_BM_ENTRYMODE_REGULAR or @ref LL_HRTIM_OUT_BM_ENTRYMODE_DELAYED * @retval None */ __STATIC_INLINE void LL_HRTIM_OUT_Config(HRTIM_TypeDef *HRTIMx, uint32_t Output, uint32_t Configuration) { register uint32_t iOutput = (uint8_t)(POSITION_VAL(Output) - POSITION_VAL(LL_HRTIM_OUTPUT_TA1)); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].OUTxR) + REG_OFFSET_TAB_OUTxR[iOutput])); MODIFY_REG(*pReg, (HRTIM_OUT_CONFIG_MASK << REG_SHIFT_TAB_OUTxR[iOutput]), (Configuration << REG_SHIFT_TAB_OUTxR[iOutput])); } /** * @brief Set the polarity of a timer output. * @rmtoll OUTxR POL1 LL_HRTIM_OUT_SetPolarity\n * OUTxR POL2 LL_HRTIM_OUT_SetPolarity * @param HRTIMx High Resolution Timer instance * @param Output This parameter can be one of the following values: * @arg @ref LL_HRTIM_OUTPUT_TA1 * @arg @ref LL_HRTIM_OUTPUT_TA2 * @arg @ref LL_HRTIM_OUTPUT_TB1 * @arg @ref LL_HRTIM_OUTPUT_TB2 * @arg @ref LL_HRTIM_OUTPUT_TC1 * @arg @ref LL_HRTIM_OUTPUT_TC2 * @arg @ref LL_HRTIM_OUTPUT_TD1 * @arg @ref LL_HRTIM_OUTPUT_TD2 * @arg @ref LL_HRTIM_OUTPUT_TE1 * @arg @ref LL_HRTIM_OUTPUT_TE2 * @param Polarity This parameter can be one of the following values: * @arg @ref LL_HRTIM_OUT_POSITIVE_POLARITY * @arg @ref LL_HRTIM_OUT_NEGATIVE_POLARITY * @retval None */ __STATIC_INLINE void LL_HRTIM_OUT_SetPolarity(HRTIM_TypeDef *HRTIMx, uint32_t Output, uint32_t Polarity) { register uint32_t iOutput = (uint8_t)(POSITION_VAL(Output) - POSITION_VAL(LL_HRTIM_OUTPUT_TA1)); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].OUTxR) + REG_OFFSET_TAB_OUTxR[iOutput])); MODIFY_REG(*pReg, (HRTIM_OUTR_POL1 << REG_SHIFT_TAB_OUTxR[iOutput]), (Polarity << REG_SHIFT_TAB_OUTxR[iOutput])); } /** * @brief Get actual polarity of the timer output. * @rmtoll OUTxR POL1 LL_HRTIM_OUT_GetPolarity\n * OUTxR POL2 LL_HRTIM_OUT_GetPolarity * @param HRTIMx High Resolution Timer instance * @param Output This parameter can be one of the following values: * @arg @ref LL_HRTIM_OUTPUT_TA1 * @arg @ref LL_HRTIM_OUTPUT_TA2 * @arg @ref LL_HRTIM_OUTPUT_TB1 * @arg @ref LL_HRTIM_OUTPUT_TB2 * @arg @ref LL_HRTIM_OUTPUT_TC1 * @arg @ref LL_HRTIM_OUTPUT_TC2 * @arg @ref LL_HRTIM_OUTPUT_TD1 * @arg @ref LL_HRTIM_OUTPUT_TD2 * @arg @ref LL_HRTIM_OUTPUT_TE1 * @arg @ref LL_HRTIM_OUTPUT_TE2 * @retval Polarity This parameter can be one of the following values: * @arg @ref LL_HRTIM_OUT_POSITIVE_POLARITY * @arg @ref LL_HRTIM_OUT_NEGATIVE_POLARITY */ __STATIC_INLINE uint32_t LL_HRTIM_OUT_GetPolarity(HRTIM_TypeDef *HRTIMx, uint32_t Output) { register uint32_t iOutput = (uint8_t)(POSITION_VAL(Output) - POSITION_VAL(LL_HRTIM_OUTPUT_TA1)); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].OUTxR) + REG_OFFSET_TAB_OUTxR[iOutput])); return (READ_BIT(*pReg, (HRTIM_OUTR_POL1 << REG_SHIFT_TAB_OUTxR[iOutput])) >> REG_SHIFT_TAB_OUTxR[iOutput]); } /** * @brief Set the output IDLE mode. * @rmtoll OUTxR IDLEM1 LL_HRTIM_OUT_SetIdleMode\n * OUTxR IDLEM2 LL_HRTIM_OUT_SetIdleMode * @note This function must not be called when the burst mode is active * @param HRTIMx High Resolution Timer instance * @param Output This parameter can be one of the following values: * @arg @ref LL_HRTIM_OUTPUT_TA1 * @arg @ref LL_HRTIM_OUTPUT_TA2 * @arg @ref LL_HRTIM_OUTPUT_TB1 * @arg @ref LL_HRTIM_OUTPUT_TB2 * @arg @ref LL_HRTIM_OUTPUT_TC1 * @arg @ref LL_HRTIM_OUTPUT_TC2 * @arg @ref LL_HRTIM_OUTPUT_TD1 * @arg @ref LL_HRTIM_OUTPUT_TD2 * @arg @ref LL_HRTIM_OUTPUT_TE1 * @arg @ref LL_HRTIM_OUTPUT_TE2 * @param IdleMode This parameter can be one of the following values: * @arg @ref LL_HRTIM_OUT_NO_IDLE * @arg @ref LL_HRTIM_OUT_IDLE_WHEN_BURST * @retval None */ __STATIC_INLINE void LL_HRTIM_OUT_SetIdleMode(HRTIM_TypeDef *HRTIMx, uint32_t Output, uint32_t IdleMode) { register uint32_t iOutput = (uint8_t)(POSITION_VAL(Output) - POSITION_VAL(LL_HRTIM_OUTPUT_TA1)); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].OUTxR) + REG_OFFSET_TAB_OUTxR[iOutput])); MODIFY_REG(*pReg, (HRTIM_OUTR_IDLM1 << REG_SHIFT_TAB_OUTxR[iOutput]), (IdleMode << REG_SHIFT_TAB_OUTxR[iOutput])); } /** * @brief Get actual output IDLE mode. * @rmtoll OUTxR IDLEM1 LL_HRTIM_OUT_GetIdleMode\n * OUTxR IDLEM2 LL_HRTIM_OUT_GetIdleMode * @param HRTIMx High Resolution Timer instance * @param Output This parameter can be one of the following values: * @arg @ref LL_HRTIM_OUTPUT_TA1 * @arg @ref LL_HRTIM_OUTPUT_TA2 * @arg @ref LL_HRTIM_OUTPUT_TB1 * @arg @ref LL_HRTIM_OUTPUT_TB2 * @arg @ref LL_HRTIM_OUTPUT_TC1 * @arg @ref LL_HRTIM_OUTPUT_TC2 * @arg @ref LL_HRTIM_OUTPUT_TD1 * @arg @ref LL_HRTIM_OUTPUT_TD2 * @arg @ref LL_HRTIM_OUTPUT_TE1 * @arg @ref LL_HRTIM_OUTPUT_TE2 * @retval IdleMode This parameter can be one of the following values: * @arg @ref LL_HRTIM_OUT_NO_IDLE * @arg @ref LL_HRTIM_OUT_IDLE_WHEN_BURST */ __STATIC_INLINE uint32_t LL_HRTIM_OUT_GetIdleMode(HRTIM_TypeDef *HRTIMx, uint32_t Output) { register uint32_t iOutput = (uint8_t)(POSITION_VAL(Output) - POSITION_VAL(LL_HRTIM_OUTPUT_TA1)); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].OUTxR) + REG_OFFSET_TAB_OUTxR[iOutput])); return (READ_BIT(*pReg, (HRTIM_OUTR_IDLM1 << REG_SHIFT_TAB_OUTxR[iOutput])) >> REG_SHIFT_TAB_OUTxR[iOutput]); } /** * @brief Set the output IDLE level. * @rmtoll OUTxR IDLES1 LL_HRTIM_OUT_SetIdleLevel\n * OUTxR IDLES2 LL_HRTIM_OUT_SetIdleLevel * @note This function must be called prior enabling the timer. * @note Idle level isn't relevant when the output idle mode is set to LL_HRTIM_OUT_NO_IDLE. * @param HRTIMx High Resolution Timer instance * @param Output This parameter can be one of the following values: * @arg @ref LL_HRTIM_OUTPUT_TA1 * @arg @ref LL_HRTIM_OUTPUT_TA2 * @arg @ref LL_HRTIM_OUTPUT_TB1 * @arg @ref LL_HRTIM_OUTPUT_TB2 * @arg @ref LL_HRTIM_OUTPUT_TC1 * @arg @ref LL_HRTIM_OUTPUT_TC2 * @arg @ref LL_HRTIM_OUTPUT_TD1 * @arg @ref LL_HRTIM_OUTPUT_TD2 * @arg @ref LL_HRTIM_OUTPUT_TE1 * @arg @ref LL_HRTIM_OUTPUT_TE2 * @param IdleLevel This parameter can be one of the following values: * @arg @ref LL_HRTIM_OUT_IDLELEVEL_INACTIVE * @arg @ref LL_HRTIM_OUT_IDLELEVEL_ACTIVE * @retval None */ __STATIC_INLINE void LL_HRTIM_OUT_SetIdleLevel(HRTIM_TypeDef *HRTIMx, uint32_t Output, uint32_t IdleLevel) { register uint32_t iOutput = (uint8_t)(POSITION_VAL(Output) - POSITION_VAL(LL_HRTIM_OUTPUT_TA1)); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].OUTxR) + REG_OFFSET_TAB_OUTxR[iOutput])); MODIFY_REG(*pReg, (HRTIM_OUTR_IDLES1 << REG_SHIFT_TAB_OUTxR[iOutput]), (IdleLevel << REG_SHIFT_TAB_OUTxR[iOutput])); } /** * @brief Get actual output IDLE level. * @rmtoll OUTxR IDLES1 LL_HRTIM_OUT_GetIdleLevel\n * OUTxR IDLES2 LL_HRTIM_OUT_GetIdleLevel * @param HRTIMx High Resolution Timer instance * @param Output This parameter can be one of the following values: * @arg @ref LL_HRTIM_OUTPUT_TA1 * @arg @ref LL_HRTIM_OUTPUT_TA2 * @arg @ref LL_HRTIM_OUTPUT_TB1 * @arg @ref LL_HRTIM_OUTPUT_TB2 * @arg @ref LL_HRTIM_OUTPUT_TC1 * @arg @ref LL_HRTIM_OUTPUT_TC2 * @arg @ref LL_HRTIM_OUTPUT_TD1 * @arg @ref LL_HRTIM_OUTPUT_TD2 * @arg @ref LL_HRTIM_OUTPUT_TE1 * @arg @ref LL_HRTIM_OUTPUT_TE2 * @retval IdleLevel This parameter can be one of the following values: * @arg @ref LL_HRTIM_OUT_IDLELEVEL_INACTIVE * @arg @ref LL_HRTIM_OUT_IDLELEVEL_ACTIVE */ __STATIC_INLINE uint32_t LL_HRTIM_OUT_GetIdleLevel(HRTIM_TypeDef *HRTIMx, uint32_t Output) { register uint32_t iOutput = (uint8_t)(POSITION_VAL(Output) - POSITION_VAL(LL_HRTIM_OUTPUT_TA1)); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].OUTxR) + REG_OFFSET_TAB_OUTxR[iOutput])); return (READ_BIT(*pReg, (HRTIM_OUTR_IDLES1 << REG_SHIFT_TAB_OUTxR[iOutput])) >> REG_SHIFT_TAB_OUTxR[iOutput]); } /** * @brief Set the output FAULT state. * @rmtoll OUTxR FAULT1 LL_HRTIM_OUT_SetFaultState\n * OUTxR FAULT2 LL_HRTIM_OUT_SetFaultState * @note This function must not called when the timer is enabled and a fault * channel is enabled at timer level. * @param HRTIMx High Resolution Timer instance * @param Output This parameter can be one of the following values: * @arg @ref LL_HRTIM_OUTPUT_TA1 * @arg @ref LL_HRTIM_OUTPUT_TA2 * @arg @ref LL_HRTIM_OUTPUT_TB1 * @arg @ref LL_HRTIM_OUTPUT_TB2 * @arg @ref LL_HRTIM_OUTPUT_TC1 * @arg @ref LL_HRTIM_OUTPUT_TC2 * @arg @ref LL_HRTIM_OUTPUT_TD1 * @arg @ref LL_HRTIM_OUTPUT_TD2 * @arg @ref LL_HRTIM_OUTPUT_TE1 * @arg @ref LL_HRTIM_OUTPUT_TE2 * @param FaultState This parameter can be one of the following values: * @arg @ref LL_HRTIM_OUT_FAULTSTATE_NO_ACTION * @arg @ref LL_HRTIM_OUT_FAULTSTATE_ACTIVE * @arg @ref LL_HRTIM_OUT_FAULTSTATE_INACTIVE * @arg @ref LL_HRTIM_OUT_FAULTSTATE_HIGHZ * @retval None */ __STATIC_INLINE void LL_HRTIM_OUT_SetFaultState(HRTIM_TypeDef *HRTIMx, uint32_t Output, uint32_t FaultState) { register uint32_t iOutput = (uint8_t)(POSITION_VAL(Output) - POSITION_VAL(LL_HRTIM_OUTPUT_TA1)); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].OUTxR) + REG_OFFSET_TAB_OUTxR[iOutput])); MODIFY_REG(*pReg, (HRTIM_OUTR_FAULT1 << REG_SHIFT_TAB_OUTxR[iOutput]), (FaultState << REG_SHIFT_TAB_OUTxR[iOutput])); } /** * @brief Get actual FAULT state. * @rmtoll OUTxR FAULT1 LL_HRTIM_OUT_GetFaultState\n * OUTxR FAULT2 LL_HRTIM_OUT_GetFaultState * @param HRTIMx High Resolution Timer instance * @param Output This parameter can be one of the following values: * @arg @ref LL_HRTIM_OUTPUT_TA1 * @arg @ref LL_HRTIM_OUTPUT_TA2 * @arg @ref LL_HRTIM_OUTPUT_TB1 * @arg @ref LL_HRTIM_OUTPUT_TB2 * @arg @ref LL_HRTIM_OUTPUT_TC1 * @arg @ref LL_HRTIM_OUTPUT_TC2 * @arg @ref LL_HRTIM_OUTPUT_TD1 * @arg @ref LL_HRTIM_OUTPUT_TD2 * @arg @ref LL_HRTIM_OUTPUT_TE1 * @arg @ref LL_HRTIM_OUTPUT_TE2 * @retval FaultState This parameter can be one of the following values: * @arg @ref LL_HRTIM_OUT_FAULTSTATE_NO_ACTION * @arg @ref LL_HRTIM_OUT_FAULTSTATE_ACTIVE * @arg @ref LL_HRTIM_OUT_FAULTSTATE_INACTIVE * @arg @ref LL_HRTIM_OUT_FAULTSTATE_HIGHZ */ __STATIC_INLINE uint32_t LL_HRTIM_OUT_GetFaultState(HRTIM_TypeDef *HRTIMx, uint32_t Output) { register uint32_t iOutput = (uint8_t)(POSITION_VAL(Output) - POSITION_VAL(LL_HRTIM_OUTPUT_TA1)); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].OUTxR) + REG_OFFSET_TAB_OUTxR[iOutput])); return (READ_BIT(*pReg, (HRTIM_OUTR_FAULT1 << REG_SHIFT_TAB_OUTxR[iOutput])) >> REG_SHIFT_TAB_OUTxR[iOutput]); } /** * @brief Set the output chopper mode. * @rmtoll OUTxR CHP1 LL_HRTIM_OUT_SetChopperMode\n * OUTxR CHP2 LL_HRTIM_OUT_SetChopperMode * @note This function must not called when the timer is enabled. * @param HRTIMx High Resolution Timer instance * @param Output This parameter can be one of the following values: * @arg @ref LL_HRTIM_OUTPUT_TA1 * @arg @ref LL_HRTIM_OUTPUT_TA2 * @arg @ref LL_HRTIM_OUTPUT_TB1 * @arg @ref LL_HRTIM_OUTPUT_TB2 * @arg @ref LL_HRTIM_OUTPUT_TC1 * @arg @ref LL_HRTIM_OUTPUT_TC2 * @arg @ref LL_HRTIM_OUTPUT_TD1 * @arg @ref LL_HRTIM_OUTPUT_TD2 * @arg @ref LL_HRTIM_OUTPUT_TE1 * @arg @ref LL_HRTIM_OUTPUT_TE2 * @param ChopperMode This parameter can be one of the following values: * @arg @ref LL_HRTIM_OUT_CHOPPERMODE_DISABLED * @arg @ref LL_HRTIM_OUT_CHOPPERMODE_ENABLED * @retval None */ __STATIC_INLINE void LL_HRTIM_OUT_SetChopperMode(HRTIM_TypeDef *HRTIMx, uint32_t Output, uint32_t ChopperMode) { register uint32_t iOutput = (uint8_t)(POSITION_VAL(Output) - POSITION_VAL(LL_HRTIM_OUTPUT_TA1)); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].OUTxR) + REG_OFFSET_TAB_OUTxR[iOutput])); MODIFY_REG(*pReg, (HRTIM_OUTR_CHP1 << REG_SHIFT_TAB_OUTxR[iOutput]), (ChopperMode << REG_SHIFT_TAB_OUTxR[iOutput])); } /** * @brief Get actual output chopper mode * @rmtoll OUTxR CHP1 LL_HRTIM_OUT_GetChopperMode\n * OUTxR CHP2 LL_HRTIM_OUT_GetChopperMode * @param HRTIMx High Resolution Timer instance * @param Output This parameter can be one of the following values: * @arg @ref LL_HRTIM_OUTPUT_TA1 * @arg @ref LL_HRTIM_OUTPUT_TA2 * @arg @ref LL_HRTIM_OUTPUT_TB1 * @arg @ref LL_HRTIM_OUTPUT_TB2 * @arg @ref LL_HRTIM_OUTPUT_TC1 * @arg @ref LL_HRTIM_OUTPUT_TC2 * @arg @ref LL_HRTIM_OUTPUT_TD1 * @arg @ref LL_HRTIM_OUTPUT_TD2 * @arg @ref LL_HRTIM_OUTPUT_TE1 * @arg @ref LL_HRTIM_OUTPUT_TE2 * @retval ChopperMode This parameter can be one of the following values: * @arg @ref LL_HRTIM_OUT_CHOPPERMODE_DISABLED * @arg @ref LL_HRTIM_OUT_CHOPPERMODE_ENABLED */ __STATIC_INLINE uint32_t LL_HRTIM_OUT_GetChopperMode(HRTIM_TypeDef *HRTIMx, uint32_t Output) { register uint32_t iOutput = (uint8_t)(POSITION_VAL(Output) - POSITION_VAL(LL_HRTIM_OUTPUT_TA1)); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].OUTxR) + REG_OFFSET_TAB_OUTxR[iOutput])); return (READ_BIT(*pReg, (HRTIM_OUTR_CHP1 << REG_SHIFT_TAB_OUTxR[iOutput])) >> REG_SHIFT_TAB_OUTxR[iOutput]); } /** * @brief Set the output burst mode entry mode. * @rmtoll OUTxR DIDL1 LL_HRTIM_OUT_SetBMEntryMode\n * OUTxR DIDL2 LL_HRTIM_OUT_SetBMEntryMode * @note This function must not called when the timer is enabled. * @param HRTIMx High Resolution Timer instance * @param Output This parameter can be one of the following values: * @arg @ref LL_HRTIM_OUTPUT_TA1 * @arg @ref LL_HRTIM_OUTPUT_TA2 * @arg @ref LL_HRTIM_OUTPUT_TB1 * @arg @ref LL_HRTIM_OUTPUT_TB2 * @arg @ref LL_HRTIM_OUTPUT_TC1 * @arg @ref LL_HRTIM_OUTPUT_TC2 * @arg @ref LL_HRTIM_OUTPUT_TD1 * @arg @ref LL_HRTIM_OUTPUT_TD2 * @arg @ref LL_HRTIM_OUTPUT_TE1 * @arg @ref LL_HRTIM_OUTPUT_TE2 * @param BMEntryMode This parameter can be one of the following values: * @arg @ref LL_HRTIM_OUT_BM_ENTRYMODE_REGULAR * @arg @ref LL_HRTIM_OUT_BM_ENTRYMODE_DELAYED * @retval None */ __STATIC_INLINE void LL_HRTIM_OUT_SetBMEntryMode(HRTIM_TypeDef *HRTIMx, uint32_t Output, uint32_t BMEntryMode) { register uint32_t iOutput = (uint8_t)(POSITION_VAL(Output) - POSITION_VAL(LL_HRTIM_OUTPUT_TA1)); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].OUTxR) + REG_OFFSET_TAB_OUTxR[iOutput])); MODIFY_REG(*pReg, (HRTIM_OUTR_DIDL1 << REG_SHIFT_TAB_OUTxR[iOutput]), (BMEntryMode << REG_SHIFT_TAB_OUTxR[iOutput])); } /** * @brief Get actual output burst mode entry mode. * @rmtoll OUTxR DIDL1 LL_HRTIM_OUT_GetBMEntryMode\n * OUTxR DIDL2 LL_HRTIM_OUT_GetBMEntryMode * @param HRTIMx High Resolution Timer instance * @param Output This parameter can be one of the following values: * @arg @ref LL_HRTIM_OUTPUT_TA1 * @arg @ref LL_HRTIM_OUTPUT_TA2 * @arg @ref LL_HRTIM_OUTPUT_TB1 * @arg @ref LL_HRTIM_OUTPUT_TB2 * @arg @ref LL_HRTIM_OUTPUT_TC1 * @arg @ref LL_HRTIM_OUTPUT_TC2 * @arg @ref LL_HRTIM_OUTPUT_TD1 * @arg @ref LL_HRTIM_OUTPUT_TD2 * @arg @ref LL_HRTIM_OUTPUT_TE1 * @arg @ref LL_HRTIM_OUTPUT_TE2 * @retval BMEntryMode This parameter can be one of the following values: * @arg @ref LL_HRTIM_OUT_BM_ENTRYMODE_REGULAR * @arg @ref LL_HRTIM_OUT_BM_ENTRYMODE_DELAYED */ __STATIC_INLINE uint32_t LL_HRTIM_OUT_GetBMEntryMode(HRTIM_TypeDef *HRTIMx, uint32_t Output) { register uint32_t iOutput = (uint8_t)(POSITION_VAL(Output) - POSITION_VAL(LL_HRTIM_OUTPUT_TA1)); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].OUTxR) + REG_OFFSET_TAB_OUTxR[iOutput])); return (READ_BIT(*pReg, (HRTIM_OUTR_DIDL1 << REG_SHIFT_TAB_OUTxR[iOutput])) >> REG_SHIFT_TAB_OUTxR[iOutput]); } /** * @brief Get the level (active or inactive) of the designated output when the * delayed protection was triggered. * @rmtoll TIMxISR O1SRSR LL_HRTIM_OUT_GetDLYPRTOutStatus\n * TIMxISR O2SRSR LL_HRTIM_OUT_GetDLYPRTOutStatus * @param HRTIMx High Resolution Timer instance * @param Output This parameter can be one of the following values: * @arg @ref LL_HRTIM_OUTPUT_TA1 * @arg @ref LL_HRTIM_OUTPUT_TA2 * @arg @ref LL_HRTIM_OUTPUT_TB1 * @arg @ref LL_HRTIM_OUTPUT_TB2 * @arg @ref LL_HRTIM_OUTPUT_TC1 * @arg @ref LL_HRTIM_OUTPUT_TC2 * @arg @ref LL_HRTIM_OUTPUT_TD1 * @arg @ref LL_HRTIM_OUTPUT_TD2 * @arg @ref LL_HRTIM_OUTPUT_TE1 * @arg @ref LL_HRTIM_OUTPUT_TE2 * @retval OutputLevel This parameter can be one of the following values: * @arg @ref LL_HRTIM_OUT_LEVEL_INACTIVE * @arg @ref LL_HRTIM_OUT_LEVEL_ACTIVE */ __STATIC_INLINE uint32_t LL_HRTIM_OUT_GetDLYPRTOutStatus(HRTIM_TypeDef *HRTIMx, uint32_t Output) { register uint32_t iOutput = (uint8_t)(POSITION_VAL(Output) - POSITION_VAL(LL_HRTIM_OUTPUT_TA1)); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].TIMxISR) + REG_OFFSET_TAB_OUTxR[iOutput])); return ((READ_BIT(*pReg, (HRTIM_TIMISR_O1STAT << REG_SHIFT_TAB_OxSTAT[iOutput])) >> REG_SHIFT_TAB_OxSTAT[iOutput]) >> HRTIM_TIMISR_O1STAT_Pos); } /** * @brief Force the timer output to its active or inactive level. * @rmtoll SETx1R SST LL_HRTIM_OUT_ForceLevel\n * RSTx1R SRT LL_HRTIM_OUT_ForceLevel\n * SETx2R SST LL_HRTIM_OUT_ForceLevel\n * RSTx2R SRT LL_HRTIM_OUT_ForceLevel * @param HRTIMx High Resolution Timer instance * @param Output This parameter can be one of the following values: * @arg @ref LL_HRTIM_OUTPUT_TA1 * @arg @ref LL_HRTIM_OUTPUT_TA2 * @arg @ref LL_HRTIM_OUTPUT_TB1 * @arg @ref LL_HRTIM_OUTPUT_TB2 * @arg @ref LL_HRTIM_OUTPUT_TC1 * @arg @ref LL_HRTIM_OUTPUT_TC2 * @arg @ref LL_HRTIM_OUTPUT_TD1 * @arg @ref LL_HRTIM_OUTPUT_TD2 * @arg @ref LL_HRTIM_OUTPUT_TE1 * @arg @ref LL_HRTIM_OUTPUT_TE2 * @param OutputLevel This parameter can be one of the following values: * @arg @ref LL_HRTIM_OUT_LEVEL_INACTIVE * @arg @ref LL_HRTIM_OUT_LEVEL_ACTIVE * @retval None */ __STATIC_INLINE void LL_HRTIM_OUT_ForceLevel(HRTIM_TypeDef *HRTIMx, uint32_t Output, uint32_t OutputLevel) { register uint32_t iOutput = (uint8_t)(POSITION_VAL(Output) - POSITION_VAL(LL_HRTIM_OUTPUT_TA1)); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].SETx1R) + REG_OFFSET_TAB_SETxR[iOutput] + REG_OFFSET_TAB_OUT_LEVEL[OutputLevel])); SET_BIT(*pReg, HRTIM_SET1R_SST); } /** * @brief Get actual output level, before the output stage (chopper, polarity). * @rmtoll TIMxISR O1CPY LL_HRTIM_OUT_GetLevel\n * TIMxISR O2CPY LL_HRTIM_OUT_GetLevel * @param HRTIMx High Resolution Timer instance * @param Output This parameter can be one of the following values: * @arg @ref LL_HRTIM_OUTPUT_TA1 * @arg @ref LL_HRTIM_OUTPUT_TA2 * @arg @ref LL_HRTIM_OUTPUT_TB1 * @arg @ref LL_HRTIM_OUTPUT_TB2 * @arg @ref LL_HRTIM_OUTPUT_TC1 * @arg @ref LL_HRTIM_OUTPUT_TC2 * @arg @ref LL_HRTIM_OUTPUT_TD1 * @arg @ref LL_HRTIM_OUTPUT_TD2 * @arg @ref LL_HRTIM_OUTPUT_TE1 * @arg @ref LL_HRTIM_OUTPUT_TE2 * @retval OutputLevel This parameter can be one of the following values: * @arg @ref LL_HRTIM_OUT_LEVEL_INACTIVE * @arg @ref LL_HRTIM_OUT_LEVEL_ACTIVE */ __STATIC_INLINE uint32_t LL_HRTIM_OUT_GetLevel(HRTIM_TypeDef *HRTIMx, uint32_t Output) { register uint32_t iOutput = (uint8_t)(POSITION_VAL(Output) - POSITION_VAL(LL_HRTIM_OUTPUT_TA1)); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sTimerxRegs[0].TIMxISR) + REG_OFFSET_TAB_OUTxR[iOutput])); return ((READ_BIT(*pReg, (HRTIM_TIMISR_O1CPY << REG_SHIFT_TAB_OxSTAT[iOutput])) >> REG_SHIFT_TAB_OxSTAT[iOutput]) >> HRTIM_TIMISR_O1CPY_Pos); } /** * @} */ /** @defgroup HRTIM_EF_External_Event_management External_Event_management * @{ */ /** * @brief Configure external event conditioning. * @rmtoll EECR1 EE1SRC LL_HRTIM_EE_Config\n * EECR1 EE1POL LL_HRTIM_EE_Config\n * EECR1 EE1SNS LL_HRTIM_EE_Config\n * EECR1 EE1FAST LL_HRTIM_EE_Config\n * EECR1 EE2SRC LL_HRTIM_EE_Config\n * EECR1 EE2POL LL_HRTIM_EE_Config\n * EECR1 EE2SNS LL_HRTIM_EE_Config\n * EECR1 EE2FAST LL_HRTIM_EE_Config\n * EECR1 EE3SRC LL_HRTIM_EE_Config\n * EECR1 EE3POL LL_HRTIM_EE_Config\n * EECR1 EE3SNS LL_HRTIM_EE_Config\n * EECR1 EE3FAST LL_HRTIM_EE_Config\n * EECR1 EE4SRC LL_HRTIM_EE_Config\n * EECR1 EE4POL LL_HRTIM_EE_Config\n * EECR1 EE4SNS LL_HRTIM_EE_Config\n * EECR1 EE4FAST LL_HRTIM_EE_Config\n * EECR1 EE5SRC LL_HRTIM_EE_Config\n * EECR1 EE5POL LL_HRTIM_EE_Config\n * EECR1 EE5SNS LL_HRTIM_EE_Config\n * EECR1 EE5FAST LL_HRTIM_EE_Config\n * EECR2 EE6SRC LL_HRTIM_EE_Config\n * EECR2 EE6POL LL_HRTIM_EE_Config\n * EECR2 EE6SNS LL_HRTIM_EE_Config\n * EECR2 EE6FAST LL_HRTIM_EE_Config\n * EECR2 EE7SRC LL_HRTIM_EE_Config\n * EECR2 EE7POL LL_HRTIM_EE_Config\n * EECR2 EE7SNS LL_HRTIM_EE_Config\n * EECR2 EE7FAST LL_HRTIM_EE_Config\n * EECR2 EE8SRC LL_HRTIM_EE_Config\n * EECR2 EE8POL LL_HRTIM_EE_Config\n * EECR2 EE8SNS LL_HRTIM_EE_Config\n * EECR2 EE8FAST LL_HRTIM_EE_Config\n * EECR2 EE9SRC LL_HRTIM_EE_Config\n * EECR2 EE9POL LL_HRTIM_EE_Config\n * EECR2 EE9SNS LL_HRTIM_EE_Config\n * EECR2 EE9FAST LL_HRTIM_EE_Config\n * EECR2 EE10SRC LL_HRTIM_EE_Config\n * EECR2 EE10POL LL_HRTIM_EE_Config\n * EECR2 EE10SNS LL_HRTIM_EE_Config\n * EECR2 EE10FAST LL_HRTIM_EE_Config * @note This function must not be called when the timer counter is enabled. * @note Event source (EExSrc1..EExSRC4) mapping depends on configured event channel. * @note Fast mode is available only for LL_HRTIM_EVENT_1..5. * @param HRTIMx High Resolution Timer instance * @param Event This parameter can be one of the following values: * @arg @ref LL_HRTIM_EVENT_1 * @arg @ref LL_HRTIM_EVENT_2 * @arg @ref LL_HRTIM_EVENT_3 * @arg @ref LL_HRTIM_EVENT_4 * @arg @ref LL_HRTIM_EVENT_5 * @arg @ref LL_HRTIM_EVENT_6 * @arg @ref LL_HRTIM_EVENT_7 * @arg @ref LL_HRTIM_EVENT_8 * @arg @ref LL_HRTIM_EVENT_9 * @arg @ref LL_HRTIM_EVENT_10 * @param Configuration This parameter must be a combination of all the following values: * @arg @ref LL_HRTIM_EE_SRC_1 or @ref LL_HRTIM_EE_SRC_2 or @ref LL_HRTIM_EE_SRC_3 or @ref LL_HRTIM_EE_SRC_4 * @arg @ref LL_HRTIM_EE_POLARITY_HIGH or @ref LL_HRTIM_EE_POLARITY_LOW * @arg @ref LL_HRTIM_EE_SENSITIVITY_LEVEL or @ref LL_HRTIM_EE_SENSITIVITY_RISINGEDGE or @ref LL_HRTIM_EE_SENSITIVITY_FALLINGEDGE or @ref LL_HRTIM_EE_SENSITIVITY_BOTHEDGES * @arg @ref LL_HRTIM_EE_FASTMODE_DISABLE or @ref LL_HRTIM_EE_FASTMODE_ENABLE * @retval None */ __STATIC_INLINE void LL_HRTIM_EE_Config(HRTIM_TypeDef *HRTIMx, uint32_t Event, uint32_t Configuration) { register uint32_t iEvent = (uint8_t)(POSITION_VAL(Event) - POSITION_VAL(LL_HRTIM_EVENT_1)); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sCommonRegs.EECR1) + REG_OFFSET_TAB_EECR[iEvent])); MODIFY_REG(*pReg, (HRTIM_EE_CONFIG_MASK << REG_SHIFT_TAB_EExSRC[iEvent]), (Configuration << REG_SHIFT_TAB_EExSRC[iEvent])); } /** * @brief Set the external event source. * @rmtoll EECR1 EE1SRC LL_HRTIM_EE_SetSrc\n * EECR1 EE2SRC LL_HRTIM_EE_SetSrc\n * EECR1 EE3SRC LL_HRTIM_EE_SetSrc\n * EECR1 EE4SRC LL_HRTIM_EE_SetSrc\n * EECR1 EE5SRC LL_HRTIM_EE_SetSrc\n * EECR2 EE6SRC LL_HRTIM_EE_SetSrc\n * EECR2 EE7SRC LL_HRTIM_EE_SetSrc\n * EECR2 EE8SRC LL_HRTIM_EE_SetSrc\n * EECR2 EE9SRC LL_HRTIM_EE_SetSrc\n * EECR2 EE10SRC LL_HRTIM_EE_SetSrc * @param HRTIMx High Resolution Timer instance * @param Event This parameter can be one of the following values: * @arg @ref LL_HRTIM_EVENT_1 * @arg @ref LL_HRTIM_EVENT_2 * @arg @ref LL_HRTIM_EVENT_3 * @arg @ref LL_HRTIM_EVENT_4 * @arg @ref LL_HRTIM_EVENT_5 * @arg @ref LL_HRTIM_EVENT_6 * @arg @ref LL_HRTIM_EVENT_7 * @arg @ref LL_HRTIM_EVENT_8 * @arg @ref LL_HRTIM_EVENT_9 * @arg @ref LL_HRTIM_EVENT_10 * @param Src This parameter can be one of the following values: * @arg @ref LL_HRTIM_EE_SRC_1 * @arg @ref LL_HRTIM_EE_SRC_2 * @arg @ref LL_HRTIM_EE_SRC_3 * @arg @ref LL_HRTIM_EE_SRC_4 * @retval None */ __STATIC_INLINE void LL_HRTIM_EE_SetSrc(HRTIM_TypeDef *HRTIMx, uint32_t Event, uint32_t Src) { register uint32_t iEvent = (uint8_t)(POSITION_VAL(Event) - POSITION_VAL(LL_HRTIM_EVENT_1)); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sCommonRegs.EECR1) + REG_OFFSET_TAB_EECR[iEvent])); MODIFY_REG(*pReg, (HRTIM_EECR1_EE1SRC << REG_SHIFT_TAB_EExSRC[iEvent]), (Src << REG_SHIFT_TAB_EExSRC[iEvent])); } /** * @brief Get actual external event source. * @rmtoll EECR1 EE1SRC LL_HRTIM_EE_GetSrc\n * EECR1 EE2SRC LL_HRTIM_EE_GetSrc\n * EECR1 EE3SRC LL_HRTIM_EE_GetSrc\n * EECR1 EE4SRC LL_HRTIM_EE_GetSrc\n * EECR1 EE5SRC LL_HRTIM_EE_GetSrc\n * EECR2 EE6SRC LL_HRTIM_EE_GetSrc\n * EECR2 EE7SRC LL_HRTIM_EE_GetSrc\n * EECR2 EE8SRC LL_HRTIM_EE_GetSrc\n * EECR2 EE9SRC LL_HRTIM_EE_GetSrc\n * EECR2 EE10SRC LL_HRTIM_EE_GetSrc * @param HRTIMx High Resolution Timer instance * @param Event This parameter can be one of the following values: * @arg @ref LL_HRTIM_EVENT_1 * @arg @ref LL_HRTIM_EVENT_2 * @arg @ref LL_HRTIM_EVENT_3 * @arg @ref LL_HRTIM_EVENT_4 * @arg @ref LL_HRTIM_EVENT_5 * @arg @ref LL_HRTIM_EVENT_6 * @arg @ref LL_HRTIM_EVENT_7 * @arg @ref LL_HRTIM_EVENT_8 * @arg @ref LL_HRTIM_EVENT_9 * @arg @ref LL_HRTIM_EVENT_10 * @retval EventSrc This parameter can be one of the following values: * @arg @ref LL_HRTIM_EE_SRC_1 * @arg @ref LL_HRTIM_EE_SRC_2 * @arg @ref LL_HRTIM_EE_SRC_3 * @arg @ref LL_HRTIM_EE_SRC_4 */ __STATIC_INLINE uint32_t LL_HRTIM_EE_GetSrc(HRTIM_TypeDef *HRTIMx, uint32_t Event) { register uint32_t iEvent = (uint8_t)(POSITION_VAL(Event) - POSITION_VAL(LL_HRTIM_EVENT_1)); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sCommonRegs.EECR1) + REG_OFFSET_TAB_EECR[iEvent])); return (READ_BIT(*pReg, HRTIM_EECR1_EE1SRC << REG_SHIFT_TAB_EExSRC[iEvent]) >> REG_SHIFT_TAB_EExSRC[iEvent]); } /** * @brief Set the polarity of an external event. * @rmtoll EECR1 EE1POL LL_HRTIM_EE_SetPolarity\n * EECR1 EE2POL LL_HRTIM_EE_SetPolarity\n * EECR1 EE3POL LL_HRTIM_EE_SetPolarity\n * EECR1 EE4POL LL_HRTIM_EE_SetPolarity\n * EECR1 EE5POL LL_HRTIM_EE_SetPolarity\n * EECR2 EE6POL LL_HRTIM_EE_SetPolarity\n * EECR2 EE7POL LL_HRTIM_EE_SetPolarity\n * EECR2 EE8POL LL_HRTIM_EE_SetPolarity\n * EECR2 EE9POL LL_HRTIM_EE_SetPolarity\n * EECR2 EE10POL LL_HRTIM_EE_SetPolarity * @note This function must not be called when the timer counter is enabled. * @note Event polarity is only significant when event detection is level-sensitive. * @param HRTIMx High Resolution Timer instance * @param Event This parameter can be one of the following values: * @arg @ref LL_HRTIM_EVENT_1 * @arg @ref LL_HRTIM_EVENT_2 * @arg @ref LL_HRTIM_EVENT_3 * @arg @ref LL_HRTIM_EVENT_4 * @arg @ref LL_HRTIM_EVENT_5 * @arg @ref LL_HRTIM_EVENT_6 * @arg @ref LL_HRTIM_EVENT_7 * @arg @ref LL_HRTIM_EVENT_8 * @arg @ref LL_HRTIM_EVENT_9 * @arg @ref LL_HRTIM_EVENT_10 * @param Polarity This parameter can be one of the following values: * @arg @ref LL_HRTIM_EE_POLARITY_HIGH * @arg @ref LL_HRTIM_EE_POLARITY_LOW * @retval None */ __STATIC_INLINE void LL_HRTIM_EE_SetPolarity(HRTIM_TypeDef *HRTIMx, uint32_t Event, uint32_t Polarity) { register uint32_t iEvent = (uint8_t)(POSITION_VAL(Event) - POSITION_VAL(LL_HRTIM_EVENT_1)); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sCommonRegs.EECR1) + REG_OFFSET_TAB_EECR[iEvent])); MODIFY_REG(*pReg, (HRTIM_EECR1_EE1POL << REG_SHIFT_TAB_EExSRC[iEvent]), (Polarity << REG_SHIFT_TAB_EExSRC[iEvent])); } /** * @brief Get actual polarity setting of an external event. * @rmtoll EECR1 EE1POL LL_HRTIM_EE_GetPolarity\n * EECR1 EE2POL LL_HRTIM_EE_GetPolarity\n * EECR1 EE3POL LL_HRTIM_EE_GetPolarity\n * EECR1 EE4POL LL_HRTIM_EE_GetPolarity\n * EECR1 EE5POL LL_HRTIM_EE_GetPolarity\n * EECR2 EE6POL LL_HRTIM_EE_GetPolarity\n * EECR2 EE7POL LL_HRTIM_EE_GetPolarity\n * EECR2 EE8POL LL_HRTIM_EE_GetPolarity\n * EECR2 EE9POL LL_HRTIM_EE_GetPolarity\n * EECR2 EE10POL LL_HRTIM_EE_GetPolarity * @param HRTIMx High Resolution Timer instance * @param Event This parameter can be one of the following values: * @arg @ref LL_HRTIM_EVENT_1 * @arg @ref LL_HRTIM_EVENT_2 * @arg @ref LL_HRTIM_EVENT_3 * @arg @ref LL_HRTIM_EVENT_4 * @arg @ref LL_HRTIM_EVENT_5 * @arg @ref LL_HRTIM_EVENT_6 * @arg @ref LL_HRTIM_EVENT_7 * @arg @ref LL_HRTIM_EVENT_8 * @arg @ref LL_HRTIM_EVENT_9 * @arg @ref LL_HRTIM_EVENT_10 * @retval Polarity This parameter can be one of the following values: * @arg @ref LL_HRTIM_EE_POLARITY_HIGH * @arg @ref LL_HRTIM_EE_POLARITY_LOW */ __STATIC_INLINE uint32_t LL_HRTIM_EE_GetPolarity(HRTIM_TypeDef *HRTIMx, uint32_t Event) { register uint32_t iEvent = (uint8_t)(POSITION_VAL(Event) - POSITION_VAL(LL_HRTIM_EVENT_1)); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sCommonRegs.EECR1) + REG_OFFSET_TAB_EECR[iEvent])); return (READ_BIT(*pReg, HRTIM_EECR1_EE1POL << REG_SHIFT_TAB_EExSRC[iEvent]) >> REG_SHIFT_TAB_EExSRC[iEvent]); } /** * @brief Set the sensitivity of an external event. * @rmtoll EECR1 EE1SNS LL_HRTIM_EE_SetSensitivity\n * EECR1 EE2SNS LL_HRTIM_EE_SetSensitivity\n * EECR1 EE3SNS LL_HRTIM_EE_SetSensitivity\n * EECR1 EE4SNS LL_HRTIM_EE_SetSensitivity\n * EECR1 EE5SNS LL_HRTIM_EE_SetSensitivity\n * EECR2 EE6SNS LL_HRTIM_EE_SetSensitivity\n * EECR2 EE7SNS LL_HRTIM_EE_SetSensitivity\n * EECR2 EE8SNS LL_HRTIM_EE_SetSensitivity\n * EECR2 EE9SNS LL_HRTIM_EE_SetSensitivity\n * EECR2 EE10SNS LL_HRTIM_EE_SetSensitivity * @param HRTIMx High Resolution Timer instance * @param Event This parameter can be one of the following values: * @arg @ref LL_HRTIM_EVENT_1 * @arg @ref LL_HRTIM_EVENT_2 * @arg @ref LL_HRTIM_EVENT_3 * @arg @ref LL_HRTIM_EVENT_4 * @arg @ref LL_HRTIM_EVENT_5 * @arg @ref LL_HRTIM_EVENT_6 * @arg @ref LL_HRTIM_EVENT_7 * @arg @ref LL_HRTIM_EVENT_8 * @arg @ref LL_HRTIM_EVENT_9 * @arg @ref LL_HRTIM_EVENT_10 * @param Sensitivity This parameter can be one of the following values: * @arg @ref LL_HRTIM_EE_SENSITIVITY_LEVEL * @arg @ref LL_HRTIM_EE_SENSITIVITY_RISINGEDGE * @arg @ref LL_HRTIM_EE_SENSITIVITY_FALLINGEDGE * @arg @ref LL_HRTIM_EE_SENSITIVITY_BOTHEDGES * @retval None */ __STATIC_INLINE void LL_HRTIM_EE_SetSensitivity(HRTIM_TypeDef *HRTIMx, uint32_t Event, uint32_t Sensitivity) { register uint32_t iEvent = (uint8_t)(POSITION_VAL(Event) - POSITION_VAL(LL_HRTIM_EVENT_1)); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sCommonRegs.EECR1) + REG_OFFSET_TAB_EECR[iEvent])); MODIFY_REG(*pReg, (HRTIM_EECR1_EE1SNS << REG_SHIFT_TAB_EExSRC[iEvent]), (Sensitivity << REG_SHIFT_TAB_EExSRC[iEvent])); } /** * @brief Get actual sensitivity setting of an external event. * @rmtoll EECR1 EE1SNS LL_HRTIM_EE_GetSensitivity\n * EECR1 EE2SNS LL_HRTIM_EE_GetSensitivity\n * EECR1 EE3SNS LL_HRTIM_EE_GetSensitivity\n * EECR1 EE4SNS LL_HRTIM_EE_GetSensitivity\n * EECR1 EE5SNS LL_HRTIM_EE_GetSensitivity\n * EECR2 EE6SNS LL_HRTIM_EE_GetSensitivity\n * EECR2 EE7SNS LL_HRTIM_EE_GetSensitivity\n * EECR2 EE8SNS LL_HRTIM_EE_GetSensitivity\n * EECR2 EE9SNS LL_HRTIM_EE_GetSensitivity\n * EECR2 EE10SNS LL_HRTIM_EE_GetSensitivity * @param HRTIMx High Resolution Timer instance * @param Event This parameter can be one of the following values: * @arg @ref LL_HRTIM_EVENT_1 * @arg @ref LL_HRTIM_EVENT_2 * @arg @ref LL_HRTIM_EVENT_3 * @arg @ref LL_HRTIM_EVENT_4 * @arg @ref LL_HRTIM_EVENT_5 * @arg @ref LL_HRTIM_EVENT_6 * @arg @ref LL_HRTIM_EVENT_7 * @arg @ref LL_HRTIM_EVENT_8 * @arg @ref LL_HRTIM_EVENT_9 * @arg @ref LL_HRTIM_EVENT_10 * @retval Polarity This parameter can be one of the following values: * @arg @ref LL_HRTIM_EE_SENSITIVITY_LEVEL * @arg @ref LL_HRTIM_EE_SENSITIVITY_RISINGEDGE * @arg @ref LL_HRTIM_EE_SENSITIVITY_FALLINGEDGE * @arg @ref LL_HRTIM_EE_SENSITIVITY_BOTHEDGES */ __STATIC_INLINE uint32_t LL_HRTIM_EE_GetSensitivity(HRTIM_TypeDef *HRTIMx, uint32_t Event) { register uint32_t iEvent = (uint8_t)(POSITION_VAL(Event) - POSITION_VAL(LL_HRTIM_EVENT_1)); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sCommonRegs.EECR1) + REG_OFFSET_TAB_EECR[iEvent])); return (READ_BIT(*pReg, HRTIM_EECR1_EE1SNS << REG_SHIFT_TAB_EExSRC[iEvent]) >> REG_SHIFT_TAB_EExSRC[iEvent]); } /** * @brief Set the fast mode of an external event. * @rmtoll EECR1 EE1FAST LL_HRTIM_EE_SetFastMode\n * EECR1 EE2FAST LL_HRTIM_EE_SetFastMode\n * EECR1 EE3FAST LL_HRTIM_EE_SetFastMode\n * EECR1 EE4FAST LL_HRTIM_EE_SetFastMode\n * EECR1 EE5FAST LL_HRTIM_EE_SetFastMode\n * EECR2 EE6FAST LL_HRTIM_EE_SetFastMode\n * EECR2 EE7FAST LL_HRTIM_EE_SetFastMode\n * EECR2 EE8FAST LL_HRTIM_EE_SetFastMode\n * EECR2 EE9FAST LL_HRTIM_EE_SetFastMode\n * EECR2 EE10FAST LL_HRTIM_EE_SetFastMode * @note This function must not be called when the timer counter is enabled. * @param HRTIMx High Resolution Timer instance * @param Event This parameter can be one of the following values: * @arg @ref LL_HRTIM_EVENT_1 * @arg @ref LL_HRTIM_EVENT_2 * @arg @ref LL_HRTIM_EVENT_3 * @arg @ref LL_HRTIM_EVENT_4 * @arg @ref LL_HRTIM_EVENT_5 * @param FastMode This parameter can be one of the following values: * @arg @ref LL_HRTIM_EE_FASTMODE_DISABLE * @arg @ref LL_HRTIM_EE_FASTMODE_ENABLE * @retval None */ __STATIC_INLINE void LL_HRTIM_EE_SetFastMode(HRTIM_TypeDef *HRTIMx, uint32_t Event, uint32_t FastMode) { register uint32_t iEvent = (uint8_t)(POSITION_VAL(Event) - POSITION_VAL(LL_HRTIM_EVENT_1)); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sCommonRegs.EECR1) + REG_OFFSET_TAB_EECR[iEvent])); MODIFY_REG(*pReg, (HRTIM_EECR1_EE1FAST << REG_SHIFT_TAB_EExSRC[iEvent]), (FastMode << REG_SHIFT_TAB_EExSRC[iEvent])); } /** * @brief Get actual fast mode setting of an external event. * @rmtoll EECR1 EE1FAST LL_HRTIM_EE_GetFastMode\n * EECR1 EE2FAST LL_HRTIM_EE_GetFastMode\n * EECR1 EE3FAST LL_HRTIM_EE_GetFastMode\n * EECR1 EE4FAST LL_HRTIM_EE_GetFastMode\n * EECR1 EE5FAST LL_HRTIM_EE_GetFastMode\n * EECR2 EE6FAST LL_HRTIM_EE_GetFastMode\n * EECR2 EE7FAST LL_HRTIM_EE_GetFastMode\n * EECR2 EE8FAST LL_HRTIM_EE_GetFastMode\n * EECR2 EE9FAST LL_HRTIM_EE_GetFastMode\n * EECR2 EE10FAST LL_HRTIM_EE_GetFastMode * @param HRTIMx High Resolution Timer instance * @param Event This parameter can be one of the following values: * @arg @ref LL_HRTIM_EVENT_1 * @arg @ref LL_HRTIM_EVENT_2 * @arg @ref LL_HRTIM_EVENT_3 * @arg @ref LL_HRTIM_EVENT_4 * @arg @ref LL_HRTIM_EVENT_5 * @retval FastMode This parameter can be one of the following values: * @arg @ref LL_HRTIM_EE_FASTMODE_DISABLE * @arg @ref LL_HRTIM_EE_FASTMODE_ENABLE */ __STATIC_INLINE uint32_t LL_HRTIM_EE_GetFastMode(HRTIM_TypeDef *HRTIMx, uint32_t Event) { register uint32_t iEvent = (uint8_t)(POSITION_VAL(Event) - POSITION_VAL(LL_HRTIM_EVENT_1)); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sCommonRegs.EECR1) + REG_OFFSET_TAB_EECR[iEvent])); return (READ_BIT(*pReg, HRTIM_EECR1_EE1FAST << REG_SHIFT_TAB_EExSRC[iEvent]) >> REG_SHIFT_TAB_EExSRC[iEvent]); } /** * @brief Set the digital noise filter of a external event. * @rmtoll EECR3 EE6F LL_HRTIM_EE_SetFilter\n * EECR3 EE7F LL_HRTIM_EE_SetFilter\n * EECR3 EE8F LL_HRTIM_EE_SetFilter\n * EECR3 EE9F LL_HRTIM_EE_SetFilter\n * EECR3 EE10F LL_HRTIM_EE_SetFilter * @param HRTIMx High Resolution Timer instance * @param Event This parameter can be one of the following values: * @arg @ref LL_HRTIM_EVENT_6 * @arg @ref LL_HRTIM_EVENT_7 * @arg @ref LL_HRTIM_EVENT_8 * @arg @ref LL_HRTIM_EVENT_9 * @arg @ref LL_HRTIM_EVENT_10 * @param Filter This parameter can be one of the following values: * @arg @ref LL_HRTIM_EE_FILTER_NONE * @arg @ref LL_HRTIM_EE_FILTER_1 * @arg @ref LL_HRTIM_EE_FILTER_2 * @arg @ref LL_HRTIM_EE_FILTER_3 * @arg @ref LL_HRTIM_EE_FILTER_4 * @arg @ref LL_HRTIM_EE_FILTER_5 * @arg @ref LL_HRTIM_EE_FILTER_6 * @arg @ref LL_HRTIM_EE_FILTER_7 * @arg @ref LL_HRTIM_EE_FILTER_8 * @arg @ref LL_HRTIM_EE_FILTER_9 * @arg @ref LL_HRTIM_EE_FILTER_10 * @arg @ref LL_HRTIM_EE_FILTER_11 * @arg @ref LL_HRTIM_EE_FILTER_12 * @arg @ref LL_HRTIM_EE_FILTER_13 * @arg @ref LL_HRTIM_EE_FILTER_14 * @arg @ref LL_HRTIM_EE_FILTER_15 * @retval None */ __STATIC_INLINE void LL_HRTIM_EE_SetFilter(HRTIM_TypeDef *HRTIMx, uint32_t Event, uint32_t Filter) { register uint32_t iEvent = (uint8_t)(POSITION_VAL(Event) - POSITION_VAL(LL_HRTIM_EVENT_1)); MODIFY_REG(HRTIMx->sCommonRegs.EECR3, (HRTIM_EECR3_EE6F << REG_SHIFT_TAB_EExSRC[iEvent]), (Filter << REG_SHIFT_TAB_EExSRC[iEvent])); } /** * @brief Get actual digital noise filter setting of a external event. * @rmtoll EECR3 EE6F LL_HRTIM_EE_GetFilter\n * EECR3 EE7F LL_HRTIM_EE_GetFilter\n * EECR3 EE8F LL_HRTIM_EE_GetFilter\n * EECR3 EE9F LL_HRTIM_EE_GetFilter\n * EECR3 EE10F LL_HRTIM_EE_GetFilter * @param HRTIMx High Resolution Timer instance * @param Event This parameter can be one of the following values: * @arg @ref LL_HRTIM_EVENT_6 * @arg @ref LL_HRTIM_EVENT_7 * @arg @ref LL_HRTIM_EVENT_8 * @arg @ref LL_HRTIM_EVENT_9 * @arg @ref LL_HRTIM_EVENT_10 * @retval Filter This parameter can be one of the following values: * @arg @ref LL_HRTIM_EE_FILTER_NONE * @arg @ref LL_HRTIM_EE_FILTER_1 * @arg @ref LL_HRTIM_EE_FILTER_2 * @arg @ref LL_HRTIM_EE_FILTER_3 * @arg @ref LL_HRTIM_EE_FILTER_4 * @arg @ref LL_HRTIM_EE_FILTER_5 * @arg @ref LL_HRTIM_EE_FILTER_6 * @arg @ref LL_HRTIM_EE_FILTER_7 * @arg @ref LL_HRTIM_EE_FILTER_8 * @arg @ref LL_HRTIM_EE_FILTER_9 * @arg @ref LL_HRTIM_EE_FILTER_10 * @arg @ref LL_HRTIM_EE_FILTER_11 * @arg @ref LL_HRTIM_EE_FILTER_12 * @arg @ref LL_HRTIM_EE_FILTER_13 * @arg @ref LL_HRTIM_EE_FILTER_14 * @arg @ref LL_HRTIM_EE_FILTER_15 */ __STATIC_INLINE uint32_t LL_HRTIM_EE_GetFilter(HRTIM_TypeDef *HRTIMx, uint32_t Event) { register uint32_t iEvent = (uint8_t)(POSITION_VAL(Event) - POSITION_VAL(LL_HRTIM_EVENT_6)); return (READ_BIT(HRTIMx->sCommonRegs.EECR3, (HRTIM_EECR3_EE6F << REG_SHIFT_TAB_EExSRC[iEvent])) >> REG_SHIFT_TAB_EExSRC[iEvent]); } /** * @brief Set the external event prescaler. * @rmtoll EECR3 EEVSD LL_HRTIM_EE_SetPrescaler * @param HRTIMx High Resolution Timer instance * @param Prescaler This parameter can be one of the following values: * @arg @ref LL_HRTIM_EE_PRESCALER_DIV1 * @arg @ref LL_HRTIM_EE_PRESCALER_DIV2 * @arg @ref LL_HRTIM_EE_PRESCALER_DIV4 * @arg @ref LL_HRTIM_EE_PRESCALER_DIV8 * @retval None */ __STATIC_INLINE void LL_HRTIM_EE_SetPrescaler(HRTIM_TypeDef *HRTIMx, uint32_t Prescaler) { MODIFY_REG(HRTIMx->sCommonRegs.EECR3, HRTIM_EECR3_EEVSD, Prescaler); } /** * @brief Get actual external event prescaler setting. * @rmtoll EECR3 EEVSD LL_HRTIM_EE_GetPrescaler * @param HRTIMx High Resolution Timer instance * @retval Prescaler This parameter can be one of the following values: * @arg @ref LL_HRTIM_EE_PRESCALER_DIV1 * @arg @ref LL_HRTIM_EE_PRESCALER_DIV2 * @arg @ref LL_HRTIM_EE_PRESCALER_DIV4 * @arg @ref LL_HRTIM_EE_PRESCALER_DIV8 */ __STATIC_INLINE uint32_t LL_HRTIM_EE_GetPrescaler(HRTIM_TypeDef *HRTIMx) { return (READ_BIT(HRTIMx->sCommonRegs.EECR3, HRTIM_EECR3_EEVSD)); } /** * @} */ /** @defgroup HRTIM_EF_Fault_management Fault_management * @{ */ /** * @brief Configure fault signal conditioning. * @rmtoll FLTINR1 FLT1P LL_HRTIM_FLT_Config\n * FLTINR1 FLT1SRC LL_HRTIM_FLT_Config\n * FLTINR1 FLT2P LL_HRTIM_FLT_Config\n * FLTINR1 FLT2SRC LL_HRTIM_FLT_Config\n * FLTINR1 FLT3P LL_HRTIM_FLT_Config\n * FLTINR1 FLT3SRC LL_HRTIM_FLT_Config\n * FLTINR1 FLT4P LL_HRTIM_FLT_Config\n * FLTINR1 FLT4SRC LL_HRTIM_FLT_Config\n * FLTINR2 FLT5P LL_HRTIM_FLT_Config\n * FLTINR2 FLT5SRC LL_HRTIM_FLT_Config * @note This function must not be called when the fault channel is enabled. * @param HRTIMx High Resolution Timer instance * @param Fault This parameter can be one of the following values: * @arg @ref LL_HRTIM_FAULT_1 * @arg @ref LL_HRTIM_FAULT_2 * @arg @ref LL_HRTIM_FAULT_3 * @arg @ref LL_HRTIM_FAULT_4 * @arg @ref LL_HRTIM_FAULT_5 * @param Configuration This parameter must be a combination of all the following values: * @arg @ref LL_HRTIM_FLT_SRC_DIGITALINPUT or @ref LL_HRTIM_FLT_SRC_INTERNAL * @arg @ref LL_HRTIM_FLT_POLARITY_LOW or @ref LL_HRTIM_FLT_POLARITY_HIGH * @retval None */ __STATIC_INLINE void LL_HRTIM_FLT_Config(HRTIM_TypeDef *HRTIMx, uint32_t Fault, uint32_t Configuration) { register uint32_t iFault = (uint8_t)POSITION_VAL(Fault); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sCommonRegs.FLTINR1) + REG_OFFSET_TAB_FLTINR[iFault])); MODIFY_REG(*pReg, (HRTIM_FLT_CONFIG_MASK << REG_SHIFT_TAB_FLTxE[iFault]), (Configuration << REG_SHIFT_TAB_FLTxE[iFault])); } /** * @brief Set the source of a fault signal. * @rmtoll FLTINR1 FLT1SRC LL_HRTIM_FLT_SetSrc\n * FLTINR1 FLT2SRC LL_HRTIM_FLT_SetSrc\n * FLTINR1 FLT3SRC LL_HRTIM_FLT_SetSrc\n * FLTINR1 FLT4SRC LL_HRTIM_FLT_SetSrc\n * FLTINR2 FLT5SRC LL_HRTIM_FLT_SetSrc * @note This function must not be called when the fault channel is enabled. * @param HRTIMx High Resolution Timer instance * @param Fault This parameter can be one of the following values: * @arg @ref LL_HRTIM_FAULT_1 * @arg @ref LL_HRTIM_FAULT_2 * @arg @ref LL_HRTIM_FAULT_3 * @arg @ref LL_HRTIM_FAULT_4 * @arg @ref LL_HRTIM_FAULT_5 * @param Src This parameter can be one of the following values: * @arg @ref LL_HRTIM_FLT_SRC_DIGITALINPUT * @arg @ref LL_HRTIM_FLT_SRC_INTERNAL * @retval None */ __STATIC_INLINE void LL_HRTIM_FLT_SetSrc(HRTIM_TypeDef *HRTIMx, uint32_t Fault, uint32_t Src) { register uint32_t iFault = (uint8_t)POSITION_VAL(Fault); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sCommonRegs.FLTINR1) + REG_OFFSET_TAB_FLTINR[iFault])); MODIFY_REG(*pReg, (HRTIM_FLTINR1_FLT1SRC << REG_SHIFT_TAB_FLTxE[iFault]), (Src << REG_SHIFT_TAB_FLTxE[iFault])); } /** * @brief Get actual source of a fault signal. * @rmtoll FLTINR1 FLT1SRC LL_HRTIM_FLT_GetSrc\n * FLTINR1 FLT2SRC LL_HRTIM_FLT_GetSrc\n * FLTINR1 FLT3SRC LL_HRTIM_FLT_GetSrc\n * FLTINR1 FLT4SRC LL_HRTIM_FLT_GetSrc\n * FLTINR2 FLT5SRC LL_HRTIM_FLT_GetSrc * @param HRTIMx High Resolution Timer instance * @param Fault This parameter can be one of the following values: * @arg @ref LL_HRTIM_FAULT_1 * @arg @ref LL_HRTIM_FAULT_2 * @arg @ref LL_HRTIM_FAULT_3 * @arg @ref LL_HRTIM_FAULT_4 * @arg @ref LL_HRTIM_FAULT_5 * @retval Src This parameter can be one of the following values: * @arg @ref LL_HRTIM_FLT_SRC_DIGITALINPUT * @arg @ref LL_HRTIM_FLT_SRC_INTERNAL */ __STATIC_INLINE uint32_t LL_HRTIM_FLT_GetSrc(HRTIM_TypeDef *HRTIMx, uint32_t Fault) { register uint32_t iFault = (uint8_t)POSITION_VAL(Fault); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sCommonRegs.FLTINR1) + REG_OFFSET_TAB_FLTINR[iFault])); return (READ_BIT(*pReg, (HRTIM_FLTINR1_FLT1SRC << REG_SHIFT_TAB_FLTxE[iFault])) >> REG_SHIFT_TAB_FLTxE[iFault]); } /** * @brief Set the polarity of a fault signal. * @rmtoll FLTINR1 FLT1P LL_HRTIM_FLT_SetPolarity\n * FLTINR1 FLT2P LL_HRTIM_FLT_SetPolarity\n * FLTINR1 FLT3P LL_HRTIM_FLT_SetPolarity\n * FLTINR1 FLT4P LL_HRTIM_FLT_SetPolarity\n * FLTINR2 FLT5P LL_HRTIM_FLT_SetPolarity * @note This function must not be called when the fault channel is enabled. * @param HRTIMx High Resolution Timer instance * @param Fault This parameter can be one of the following values: * @arg @ref LL_HRTIM_FAULT_1 * @arg @ref LL_HRTIM_FAULT_2 * @arg @ref LL_HRTIM_FAULT_3 * @arg @ref LL_HRTIM_FAULT_4 * @arg @ref LL_HRTIM_FAULT_5 * @param Polarity This parameter can be one of the following values: * @arg @ref LL_HRTIM_FLT_POLARITY_LOW * @arg @ref LL_HRTIM_FLT_POLARITY_HIGH * @retval None */ __STATIC_INLINE void LL_HRTIM_FLT_SetPolarity(HRTIM_TypeDef *HRTIMx, uint32_t Fault, uint32_t Polarity) { register uint32_t iFault = (uint8_t)POSITION_VAL(Fault); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sCommonRegs.FLTINR1) + REG_OFFSET_TAB_FLTINR[iFault])); MODIFY_REG(*pReg, (HRTIM_FLTINR1_FLT1P << REG_SHIFT_TAB_FLTxE[iFault]), (Polarity << REG_SHIFT_TAB_FLTxE[iFault])); } /** * @brief Get actual polarity of a fault signal. * @rmtoll FLTINR1 FLT1P LL_HRTIM_FLT_GetPolarity\n * FLTINR1 FLT2P LL_HRTIM_FLT_GetPolarity\n * FLTINR1 FLT3P LL_HRTIM_FLT_GetPolarity\n * FLTINR1 FLT4P LL_HRTIM_FLT_GetPolarity\n * FLTINR2 FLT5P LL_HRTIM_FLT_GetPolarity * @param HRTIMx High Resolution Timer instance * @param Fault This parameter can be one of the following values: * @arg @ref LL_HRTIM_FAULT_1 * @arg @ref LL_HRTIM_FAULT_2 * @arg @ref LL_HRTIM_FAULT_3 * @arg @ref LL_HRTIM_FAULT_4 * @arg @ref LL_HRTIM_FAULT_5 * @retval Polarity This parameter can be one of the following values: * @arg @ref LL_HRTIM_FLT_POLARITY_LOW * @arg @ref LL_HRTIM_FLT_POLARITY_HIGH */ __STATIC_INLINE uint32_t LL_HRTIM_FLT_GetPolarity(HRTIM_TypeDef *HRTIMx, uint32_t Fault) { register uint32_t iFault = (uint8_t)POSITION_VAL(Fault); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sCommonRegs.FLTINR1) + REG_OFFSET_TAB_FLTINR[iFault])); return (READ_BIT(*pReg, (HRTIM_FLTINR1_FLT1P << REG_SHIFT_TAB_FLTxE[iFault])) >> REG_SHIFT_TAB_FLTxE[iFault]); } /** * @brief Set the digital noise filter of a fault signal. * @rmtoll FLTINR1 FLT1F LL_HRTIM_FLT_SetFilter\n * FLTINR1 FLT2F LL_HRTIM_FLT_SetFilter\n * FLTINR1 FLT3F LL_HRTIM_FLT_SetFilter\n * FLTINR1 FLT4F LL_HRTIM_FLT_SetFilter\n * FLTINR2 FLT5F LL_HRTIM_FLT_SetFilter * @note This function must not be called when the fault channel is enabled. * @param HRTIMx High Resolution Timer instance * @param Fault This parameter can be one of the following values: * @arg @ref LL_HRTIM_FAULT_1 * @arg @ref LL_HRTIM_FAULT_2 * @arg @ref LL_HRTIM_FAULT_3 * @arg @ref LL_HRTIM_FAULT_4 * @arg @ref LL_HRTIM_FAULT_5 * @param Filter This parameter can be one of the following values: * @arg @ref LL_HRTIM_FLT_FILTER_NONE * @arg @ref LL_HRTIM_FLT_FILTER_1 * @arg @ref LL_HRTIM_FLT_FILTER_2 * @arg @ref LL_HRTIM_FLT_FILTER_3 * @arg @ref LL_HRTIM_FLT_FILTER_4 * @arg @ref LL_HRTIM_FLT_FILTER_5 * @arg @ref LL_HRTIM_FLT_FILTER_6 * @arg @ref LL_HRTIM_FLT_FILTER_7 * @arg @ref LL_HRTIM_FLT_FILTER_8 * @arg @ref LL_HRTIM_FLT_FILTER_9 * @arg @ref LL_HRTIM_FLT_FILTER_10 * @arg @ref LL_HRTIM_FLT_FILTER_11 * @arg @ref LL_HRTIM_FLT_FILTER_12 * @arg @ref LL_HRTIM_FLT_FILTER_13 * @arg @ref LL_HRTIM_FLT_FILTER_14 * @arg @ref LL_HRTIM_FLT_FILTER_15 * @retval None */ __STATIC_INLINE void LL_HRTIM_FLT_SetFilter(HRTIM_TypeDef *HRTIMx, uint32_t Fault, uint32_t Filter) { register uint32_t iFault = (uint8_t)POSITION_VAL(Fault); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sCommonRegs.FLTINR1) + REG_OFFSET_TAB_FLTINR[iFault])); MODIFY_REG(*pReg, (HRTIM_FLTINR1_FLT1F << REG_SHIFT_TAB_FLTxE[iFault]), (Filter << REG_SHIFT_TAB_FLTxE[iFault])); } /** * @brief Get actual digital noise filter setting of a fault signal. * @rmtoll FLTINR1 FLT1F LL_HRTIM_FLT_GetFilter\n * FLTINR1 FLT2F LL_HRTIM_FLT_GetFilter\n * FLTINR1 FLT3F LL_HRTIM_FLT_GetFilter\n * FLTINR1 FLT4F LL_HRTIM_FLT_GetFilter\n * FLTINR2 FLT5F LL_HRTIM_FLT_GetFilter * @param HRTIMx High Resolution Timer instance * @param Fault This parameter can be one of the following values: * @arg @ref LL_HRTIM_FAULT_1 * @arg @ref LL_HRTIM_FAULT_2 * @arg @ref LL_HRTIM_FAULT_3 * @arg @ref LL_HRTIM_FAULT_4 * @arg @ref LL_HRTIM_FAULT_5 * @retval Filter This parameter can be one of the following values: * @arg @ref LL_HRTIM_FLT_FILTER_NONE * @arg @ref LL_HRTIM_FLT_FILTER_1 * @arg @ref LL_HRTIM_FLT_FILTER_2 * @arg @ref LL_HRTIM_FLT_FILTER_3 * @arg @ref LL_HRTIM_FLT_FILTER_4 * @arg @ref LL_HRTIM_FLT_FILTER_5 * @arg @ref LL_HRTIM_FLT_FILTER_6 * @arg @ref LL_HRTIM_FLT_FILTER_7 * @arg @ref LL_HRTIM_FLT_FILTER_8 * @arg @ref LL_HRTIM_FLT_FILTER_9 * @arg @ref LL_HRTIM_FLT_FILTER_10 * @arg @ref LL_HRTIM_FLT_FILTER_11 * @arg @ref LL_HRTIM_FLT_FILTER_12 * @arg @ref LL_HRTIM_FLT_FILTER_13 * @arg @ref LL_HRTIM_FLT_FILTER_14 * @arg @ref LL_HRTIM_FLT_FILTER_15 */ __STATIC_INLINE uint32_t LL_HRTIM_FLT_GetFilter(HRTIM_TypeDef *HRTIMx, uint32_t Fault) { register uint32_t iFault = (uint8_t)POSITION_VAL(Fault); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sCommonRegs.FLTINR1) + REG_OFFSET_TAB_FLTINR[iFault])); return (READ_BIT(*pReg, (HRTIM_FLTINR1_FLT1F << REG_SHIFT_TAB_FLTxE[iFault])) >> REG_SHIFT_TAB_FLTxE[iFault]); } /** * @brief Set the fault circuitry prescaler. * @rmtoll FLTINR2 FLTSD LL_HRTIM_FLT_SetPrescaler * @param HRTIMx High Resolution Timer instance * @param Prescaler This parameter can be one of the following values: * @arg @ref LL_HRTIM_FLT_PRESCALER_DIV1 * @arg @ref LL_HRTIM_FLT_PRESCALER_DIV2 * @arg @ref LL_HRTIM_FLT_PRESCALER_DIV4 * @arg @ref LL_HRTIM_FLT_PRESCALER_DIV8 * @retval None */ __STATIC_INLINE void LL_HRTIM_FLT_SetPrescaler(HRTIM_TypeDef *HRTIMx, uint32_t Prescaler) { MODIFY_REG(HRTIMx->sCommonRegs.FLTINR2, HRTIM_FLTINR2_FLTSD, Prescaler); } /** * @brief Get actual fault circuitry prescaler setting. * @rmtoll FLTINR2 FLTSD LL_HRTIM_FLT_GetPrescaler * @param HRTIMx High Resolution Timer instance * @retval Prescaler This parameter can be one of the following values: * @arg @ref LL_HRTIM_FLT_PRESCALER_DIV1 * @arg @ref LL_HRTIM_FLT_PRESCALER_DIV2 * @arg @ref LL_HRTIM_FLT_PRESCALER_DIV4 * @arg @ref LL_HRTIM_FLT_PRESCALER_DIV8 */ __STATIC_INLINE uint32_t LL_HRTIM_FLT_GetPrescaler(HRTIM_TypeDef *HRTIMx) { return (READ_BIT(HRTIMx->sCommonRegs.FLTINR2, HRTIM_FLTINR2_FLTSD)); } /** * @brief Lock the fault signal conditioning settings. * @rmtoll FLTINR1 FLT1LCK LL_HRTIM_FLT_Lock\n * FLTINR1 FLT2LCK LL_HRTIM_FLT_Lock\n * FLTINR1 FLT3LCK LL_HRTIM_FLT_Lock\n * FLTINR1 FLT4LCK LL_HRTIM_FLT_Lock\n * FLTINR2 FLT5LCK LL_HRTIM_FLT_Lock * @param HRTIMx High Resolution Timer instance * @param Fault This parameter can be one of the following values: * @arg @ref LL_HRTIM_FAULT_1 * @arg @ref LL_HRTIM_FAULT_2 * @arg @ref LL_HRTIM_FAULT_3 * @arg @ref LL_HRTIM_FAULT_4 * @arg @ref LL_HRTIM_FAULT_5 * @retval None */ __STATIC_INLINE void LL_HRTIM_FLT_Lock(HRTIM_TypeDef *HRTIMx, uint32_t Fault) { register uint32_t iFault = (uint8_t)POSITION_VAL(Fault); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sCommonRegs.FLTINR1) + REG_OFFSET_TAB_FLTINR[iFault])); SET_BIT(*pReg, (HRTIM_FLTINR1_FLT1LCK << REG_SHIFT_TAB_FLTxE[iFault])); } /** * @brief Enable the fault circuitry for the designated fault input. * @rmtoll FLTINR1 FLT1E LL_HRTIM_FLT_Enable\n * FLTINR1 FLT2E LL_HRTIM_FLT_Enable\n * FLTINR1 FLT3E LL_HRTIM_FLT_Enable\n * FLTINR1 FLT4E LL_HRTIM_FLT_Enable\n * FLTINR2 FLT5E LL_HRTIM_FLT_Enable * @param HRTIMx High Resolution Timer instance * @param Fault This parameter can be one of the following values: * @arg @ref LL_HRTIM_FAULT_1 * @arg @ref LL_HRTIM_FAULT_2 * @arg @ref LL_HRTIM_FAULT_3 * @arg @ref LL_HRTIM_FAULT_4 * @arg @ref LL_HRTIM_FAULT_5 * @retval None */ __STATIC_INLINE void LL_HRTIM_FLT_Enable(HRTIM_TypeDef *HRTIMx, uint32_t Fault) { register uint32_t iFault = (uint8_t)POSITION_VAL(Fault); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sCommonRegs.FLTINR1) + REG_OFFSET_TAB_FLTINR[iFault])); SET_BIT(*pReg, (HRTIM_FLTINR1_FLT1E << REG_SHIFT_TAB_FLTxE[iFault])); } /** * @brief Disable the fault circuitry for for the designated fault input. * @rmtoll FLTINR1 FLT1E LL_HRTIM_FLT_Disable\n * FLTINR1 FLT2E LL_HRTIM_FLT_Disable\n * FLTINR1 FLT3E LL_HRTIM_FLT_Disable\n * FLTINR1 FLT4E LL_HRTIM_FLT_Disable\n * FLTINR2 FLT5E LL_HRTIM_FLT_Disable * @param HRTIMx High Resolution Timer instance * @param Fault This parameter can be one of the following values: * @arg @ref LL_HRTIM_FAULT_1 * @arg @ref LL_HRTIM_FAULT_2 * @arg @ref LL_HRTIM_FAULT_3 * @arg @ref LL_HRTIM_FAULT_4 * @arg @ref LL_HRTIM_FAULT_5 * @retval None */ __STATIC_INLINE void LL_HRTIM_FLT_Disable(HRTIM_TypeDef *HRTIMx, uint32_t Fault) { register uint32_t iFault = (uint8_t)POSITION_VAL(Fault); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sCommonRegs.FLTINR1) + REG_OFFSET_TAB_FLTINR[iFault])); CLEAR_BIT(*pReg, (HRTIM_FLTINR1_FLT1E << REG_SHIFT_TAB_FLTxE[iFault])); } /** * @brief Indicate whether the fault circuitry is enabled for a given fault input. * @rmtoll FLTINR1 FLT1E LL_HRTIM_FLT_IsEnabled\n * FLTINR1 FLT2E LL_HRTIM_FLT_IsEnabled\n * FLTINR1 FLT3E LL_HRTIM_FLT_IsEnabled\n * FLTINR1 FLT4E LL_HRTIM_FLT_IsEnabled\n * FLTINR2 FLT5E LL_HRTIM_FLT_IsEnabled * @param HRTIMx High Resolution Timer instance * @param HRTIMx High Resolution Timer instance * @param Fault This parameter can be one of the following values: * @arg @ref LL_HRTIM_FAULT_1 * @arg @ref LL_HRTIM_FAULT_2 * @arg @ref LL_HRTIM_FAULT_3 * @arg @ref LL_HRTIM_FAULT_4 * @arg @ref LL_HRTIM_FAULT_5 * @retval State of FLTxEN bit in HRTIM_FLTINRx register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_FLT_IsEnabled(HRTIM_TypeDef *HRTIMx, uint32_t Fault) { register uint32_t iFault = (uint8_t)POSITION_VAL(Fault); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sCommonRegs.FLTINR1) + REG_OFFSET_TAB_FLTINR[iFault])); return ((READ_BIT(*pReg, (HRTIM_FLTINR1_FLT1E << REG_SHIFT_TAB_FLTxE[iFault])) >> REG_SHIFT_TAB_FLTxE[iFault]) == (HRTIM_IER_FLT1)); } /** * @} */ /** @defgroup HRTIM_EF_Burst_Mode_management Burst_Mode_management * @{ */ /** * @brief Configure the burst mode controller. * @rmtoll BMCR BMOM LL_HRTIM_BM_Config\n * BMCR BMCLK LL_HRTIM_BM_Config\n * BMCR BMPRSC LL_HRTIM_BM_Config * @param HRTIMx High Resolution Timer instance * @param Configuration This parameter must be a combination of all the following values: * @arg @ref LL_HRTIM_BM_MODE_SINGLESHOT or @ref LL_HRTIM_BM_MODE_CONTINOUS * @arg @ref LL_HRTIM_BM_CLKSRC_MASTER or ... or @ref LL_HRTIM_BM_CLKSRC_FHRTIM * @arg @ref LL_HRTIM_BM_PRESCALER_DIV1 or ... @ref LL_HRTIM_BM_PRESCALER_DIV32768 * @retval None */ __STATIC_INLINE void LL_HRTIM_BM_Config(HRTIM_TypeDef *HRTIMx, uint32_t Configuration) { MODIFY_REG(HRTIMx->sCommonRegs.BMCR, HRTIM_BM_CONFIG_MASK, Configuration); } /** * @brief Set the burst mode controller operating mode. * @rmtoll BMCR BMOM LL_HRTIM_BM_SetMode * @param HRTIMx High Resolution Timer instance * @param Mode This parameter can be one of the following values: * @arg @ref LL_HRTIM_BM_MODE_SINGLESHOT * @arg @ref LL_HRTIM_BM_MODE_CONTINOUS * @retval None */ __STATIC_INLINE void LL_HRTIM_BM_SetMode(HRTIM_TypeDef *HRTIMx, uint32_t Mode) { MODIFY_REG(HRTIMx->sCommonRegs.BMCR, HRTIM_BMCR_BMOM, Mode); } /** * @brief Get actual burst mode controller operating mode. * @rmtoll BMCR BMOM LL_HRTIM_BM_GetMode * @param HRTIMx High Resolution Timer instance * @retval Mode This parameter can be one of the following values: * @arg @ref LL_HRTIM_BM_MODE_SINGLESHOT * @arg @ref LL_HRTIM_BM_MODE_CONTINOUS */ __STATIC_INLINE uint32_t LL_HRTIM_BM_GetMode(HRTIM_TypeDef *HRTIMx) { return (uint32_t)READ_BIT(HRTIMx->sCommonRegs.BMCR, HRTIM_BMCR_BMOM); } /** * @brief Set the burst mode controller clock source. * @rmtoll BMCR BMCLK LL_HRTIM_BM_SetClockSrc * @param HRTIMx High Resolution Timer instance * @param ClockSrc This parameter can be one of the following values: * @arg @ref LL_HRTIM_BM_CLKSRC_MASTER * @arg @ref LL_HRTIM_BM_CLKSRC_TIMER_A * @arg @ref LL_HRTIM_BM_CLKSRC_TIMER_B * @arg @ref LL_HRTIM_BM_CLKSRC_TIMER_C * @arg @ref LL_HRTIM_BM_CLKSRC_TIMER_D * @arg @ref LL_HRTIM_BM_CLKSRC_TIMER_E * @arg @ref LL_HRTIM_BM_CLKSRC_TIM16_OC * @arg @ref LL_HRTIM_BM_CLKSRC_TIM17_OC * @arg @ref LL_HRTIM_BM_CLKSRC_TIM7_TRGO * @arg @ref LL_HRTIM_BM_CLKSRC_FHRTIM * @retval None */ __STATIC_INLINE void LL_HRTIM_BM_SetClockSrc(HRTIM_TypeDef *HRTIMx, uint32_t ClockSrc) { MODIFY_REG(HRTIMx->sCommonRegs.BMCR, HRTIM_BMCR_BMCLK, ClockSrc); } /** * @brief Get actual burst mode controller clock source. * @rmtoll BMCR BMCLK LL_HRTIM_BM_GetClockSrc * @param HRTIMx High Resolution Timer instance * @retval ClockSrc This parameter can be one of the following values: * @arg @ref LL_HRTIM_BM_CLKSRC_MASTER * @arg @ref LL_HRTIM_BM_CLKSRC_TIMER_A * @arg @ref LL_HRTIM_BM_CLKSRC_TIMER_B * @arg @ref LL_HRTIM_BM_CLKSRC_TIMER_C * @arg @ref LL_HRTIM_BM_CLKSRC_TIMER_D * @arg @ref LL_HRTIM_BM_CLKSRC_TIMER_E * @arg @ref LL_HRTIM_BM_CLKSRC_TIM16_OC * @arg @ref LL_HRTIM_BM_CLKSRC_TIM17_OC * @arg @ref LL_HRTIM_BM_CLKSRC_TIM7_TRGO * @arg @ref LL_HRTIM_BM_CLKSRC_FHRTIM */ __STATIC_INLINE uint32_t LL_HRTIM_BM_GetClockSrc(HRTIM_TypeDef *HRTIMx) { return (uint32_t)READ_BIT(HRTIMx->sCommonRegs.BMCR, HRTIM_BMCR_BMCLK); } /** * @brief Set the burst mode controller prescaler. * @rmtoll BMCR BMPRSC LL_HRTIM_BM_SetPrescaler * @param HRTIMx High Resolution Timer instance * @param Prescaler This parameter can be one of the following values: * @arg @ref LL_HRTIM_BM_PRESCALER_DIV1 * @arg @ref LL_HRTIM_BM_PRESCALER_DIV2 * @arg @ref LL_HRTIM_BM_PRESCALER_DIV4 * @arg @ref LL_HRTIM_BM_PRESCALER_DIV8 * @arg @ref LL_HRTIM_BM_PRESCALER_DIV16 * @arg @ref LL_HRTIM_BM_PRESCALER_DIV32 * @arg @ref LL_HRTIM_BM_PRESCALER_DIV64 * @arg @ref LL_HRTIM_BM_PRESCALER_DIV128 * @arg @ref LL_HRTIM_BM_PRESCALER_DIV256 * @arg @ref LL_HRTIM_BM_PRESCALER_DIV512 * @arg @ref LL_HRTIM_BM_PRESCALER_DIV1024 * @arg @ref LL_HRTIM_BM_PRESCALER_DIV2048 * @arg @ref LL_HRTIM_BM_PRESCALER_DIV4096 * @arg @ref LL_HRTIM_BM_PRESCALER_DIV8192 * @arg @ref LL_HRTIM_BM_PRESCALER_DIV16384 * @arg @ref LL_HRTIM_BM_PRESCALER_DIV32768 * @retval None */ __STATIC_INLINE void LL_HRTIM_BM_SetPrescaler(HRTIM_TypeDef *HRTIMx, uint32_t Prescaler) { MODIFY_REG(HRTIMx->sCommonRegs.BMCR, HRTIM_BMCR_BMPRSC, Prescaler); } /** * @brief Get actual burst mode controller prescaler setting. * @rmtoll BMCR BMPRSC LL_HRTIM_BM_GetPrescaler * @param HRTIMx High Resolution Timer instance * @retval Prescaler This parameter can be one of the following values: * @arg @ref LL_HRTIM_BM_PRESCALER_DIV1 * @arg @ref LL_HRTIM_BM_PRESCALER_DIV2 * @arg @ref LL_HRTIM_BM_PRESCALER_DIV4 * @arg @ref LL_HRTIM_BM_PRESCALER_DIV8 * @arg @ref LL_HRTIM_BM_PRESCALER_DIV16 * @arg @ref LL_HRTIM_BM_PRESCALER_DIV32 * @arg @ref LL_HRTIM_BM_PRESCALER_DIV64 * @arg @ref LL_HRTIM_BM_PRESCALER_DIV128 * @arg @ref LL_HRTIM_BM_PRESCALER_DIV256 * @arg @ref LL_HRTIM_BM_PRESCALER_DIV512 * @arg @ref LL_HRTIM_BM_PRESCALER_DIV1024 * @arg @ref LL_HRTIM_BM_PRESCALER_DIV2048 * @arg @ref LL_HRTIM_BM_PRESCALER_DIV4096 * @arg @ref LL_HRTIM_BM_PRESCALER_DIV8192 * @arg @ref LL_HRTIM_BM_PRESCALER_DIV16384 * @arg @ref LL_HRTIM_BM_PRESCALER_DIV32768 */ __STATIC_INLINE uint32_t LL_HRTIM_BM_GetPrescaler(HRTIM_TypeDef *HRTIMx) { return (uint32_t)READ_BIT(HRTIMx->sCommonRegs.BMCR, HRTIM_BMCR_BMPRSC); } /** * @brief Enable burst mode compare and period registers preload. * @rmtoll BMCR BMPREN LL_HRTIM_BM_EnablePreload * @param HRTIMx High Resolution Timer instance * @retval None */ __STATIC_INLINE void LL_HRTIM_BM_EnablePreload(HRTIM_TypeDef *HRTIMx) { SET_BIT(HRTIMx->sCommonRegs.BMCR, HRTIM_BMCR_BMPREN); } /** * @brief Disable burst mode compare and period registers preload. * @rmtoll BMCR BMPREN LL_HRTIM_BM_DisablePreload * @param HRTIMx High Resolution Timer instance * @retval None */ __STATIC_INLINE void LL_HRTIM_BM_DisablePreload(HRTIM_TypeDef *HRTIMx) { CLEAR_BIT(HRTIMx->sCommonRegs.BMCR, HRTIM_BMCR_BMPREN); } /** * @brief Indicate whether burst mode compare and period registers are preloaded. * @rmtoll BMCR BMPREN LL_HRTIM_BM_IsEnabledPreload * @param HRTIMx High Resolution Timer instance * @retval State of BMPREN bit in HRTIM_BMCR register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_BM_IsEnabledPreload(HRTIM_TypeDef *HRTIMx) { return (READ_BIT(HRTIMx->sCommonRegs.BMCR, HRTIM_BMCR_BMPREN) == HRTIM_BMCR_BMPREN); } /** * @brief Set the burst mode controller trigger * @rmtoll BMTRGR SW LL_HRTIM_BM_SetTrig\n * BMTRGR MSTRST LL_HRTIM_BM_SetTrig\n * BMTRGR MSTREP LL_HRTIM_BM_SetTrig\n * BMTRGR MSTCMP1 LL_HRTIM_BM_SetTrig\n * BMTRGR MSTCMP2 LL_HRTIM_BM_SetTrig\n * BMTRGR MSTCMP3 LL_HRTIM_BM_SetTrig\n * BMTRGR MSTCMP4 LL_HRTIM_BM_SetTrig\n * BMTRGR TARST LL_HRTIM_BM_SetTrig\n * BMTRGR TAREP LL_HRTIM_BM_SetTrig\n * BMTRGR TACMP1 LL_HRTIM_BM_SetTrig\n * BMTRGR TACMP2 LL_HRTIM_BM_SetTrig\n * BMTRGR TBRST LL_HRTIM_BM_SetTrig\n * BMTRGR TBREP LL_HRTIM_BM_SetTrig\n * BMTRGR TBCMP1 LL_HRTIM_BM_SetTrig\n * BMTRGR TBCMP2 LL_HRTIM_BM_SetTrig\n * BMTRGR TCRST LL_HRTIM_BM_SetTrig\n * BMTRGR TCREP LL_HRTIM_BM_SetTrig\n * BMTRGR TCCMP1 LL_HRTIM_BM_SetTrig\n * BMTRGR TCCMP2 LL_HRTIM_BM_SetTrig\n * BMTRGR TDRST LL_HRTIM_BM_SetTrig\n * BMTRGR TDREP LL_HRTIM_BM_SetTrig\n * BMTRGR TDCMP1 LL_HRTIM_BM_SetTrig\n * BMTRGR TDCMP2 LL_HRTIM_BM_SetTrig\n * BMTRGR TERST LL_HRTIM_BM_SetTrig\n * BMTRGR TEREP LL_HRTIM_BM_SetTrig\n * BMTRGR TECMP1 LL_HRTIM_BM_SetTrig\n * BMTRGR TECMP2 LL_HRTIM_BM_SetTrig\n * BMTRGR TAEEV7 LL_HRTIM_BM_SetTrig\n * BMTRGR TAEEV8 LL_HRTIM_BM_SetTrig\n * BMTRGR EEV7 LL_HRTIM_BM_SetTrig\n * BMTRGR EEV8 LL_HRTIM_BM_SetTrig\n * BMTRGR OCHIPEV LL_HRTIM_BM_SetTrig * @param HRTIMx High Resolution Timer instance * @param Trig This parameter can be a combination of the following values: * @arg @ref LL_HRTIM_BM_TRIG_NONE * @arg @ref LL_HRTIM_BM_TRIG_MASTER_RESET * @arg @ref LL_HRTIM_BM_TRIG_MASTER_REPETITION * @arg @ref LL_HRTIM_BM_TRIG_MASTER_CMP1 * @arg @ref LL_HRTIM_BM_TRIG_MASTER_CMP2 * @arg @ref LL_HRTIM_BM_TRIG_MASTER_CMP3 * @arg @ref LL_HRTIM_BM_TRIG_MASTER_CMP4 * @arg @ref LL_HRTIM_BM_TRIG_TIMA_RESET * @arg @ref LL_HRTIM_BM_TRIG_TIMA_REPETITION * @arg @ref LL_HRTIM_BM_TRIG_TIMA_CMP1 * @arg @ref LL_HRTIM_BM_TRIG_TIMA_CMP2 * @arg @ref LL_HRTIM_BM_TRIG_TIMB_RESET * @arg @ref LL_HRTIM_BM_TRIG_TIMB_REPETITION * @arg @ref LL_HRTIM_BM_TRIG_TIMB_CMP1 * @arg @ref LL_HRTIM_BM_TRIG_TIMB_CMP2 * @arg @ref LL_HRTIM_BM_TRIG_TIMC_RESET * @arg @ref LL_HRTIM_BM_TRIG_TIMC_REPETITION * @arg @ref LL_HRTIM_BM_TRIG_TIMC_CMP1 * @arg @ref LL_HRTIM_BM_TRIG_TIMC_CMP2 * @arg @ref LL_HRTIM_BM_TRIG_TIMD_RESET * @arg @ref LL_HRTIM_BM_TRIG_TIMD_REPETITION * @arg @ref LL_HRTIM_BM_TRIG_TIMD_CMP1 * @arg @ref LL_HRTIM_BM_TRIG_TIMD_CMP2 * @arg @ref LL_HRTIM_BM_TRIG_TIME_RESET * @arg @ref LL_HRTIM_BM_TRIG_TIME_REPETITION * @arg @ref LL_HRTIM_BM_TRIG_TIME_CMP1 * @arg @ref LL_HRTIM_BM_TRIG_TIME_CMP2 * @arg @ref LL_HRTIM_BM_TRIG_TIMA_EVENT7 * @arg @ref LL_HRTIM_BM_TRIG_TIMD_EVENT8 * @arg @ref LL_HRTIM_BM_TRIG_EVENT_7 * @arg @ref LL_HRTIM_BM_TRIG_EVENT_8 * @arg @ref LL_HRTIM_BM_TRIG_EVENT_ONCHIP * @retval None */ __STATIC_INLINE void LL_HRTIM_BM_SetTrig(HRTIM_TypeDef *HRTIMx, uint32_t Trig) { WRITE_REG(HRTIMx->sCommonRegs.BMTRGR, Trig); } /** * @brief Get actual burst mode controller trigger. * @rmtoll BMTRGR SW LL_HRTIM_BM_GetTrig\n * BMTRGR MSTRST LL_HRTIM_BM_GetTrig\n * BMTRGR MSTREP LL_HRTIM_BM_GetTrig\n * BMTRGR MSTCMP1 LL_HRTIM_BM_GetTrig\n * BMTRGR MSTCMP2 LL_HRTIM_BM_GetTrig\n * BMTRGR MSTCMP3 LL_HRTIM_BM_GetTrig\n * BMTRGR MSTCMP4 LL_HRTIM_BM_GetTrig\n * BMTRGR TARST LL_HRTIM_BM_GetTrig\n * BMTRGR TAREP LL_HRTIM_BM_GetTrig\n * BMTRGR TACMP1 LL_HRTIM_BM_GetTrig\n * BMTRGR TACMP2 LL_HRTIM_BM_GetTrig\n * BMTRGR TBRST LL_HRTIM_BM_GetTrig\n * BMTRGR TBREP LL_HRTIM_BM_GetTrig\n * BMTRGR TBCMP1 LL_HRTIM_BM_GetTrig\n * BMTRGR TBCMP2 LL_HRTIM_BM_GetTrig\n * BMTRGR TCRST LL_HRTIM_BM_GetTrig\n * BMTRGR TCREP LL_HRTIM_BM_GetTrig\n * BMTRGR TCCMP1 LL_HRTIM_BM_GetTrig\n * BMTRGR TCCMP2 LL_HRTIM_BM_GetTrig\n * BMTRGR TDRST LL_HRTIM_BM_GetTrig\n * BMTRGR TDREP LL_HRTIM_BM_GetTrig\n * BMTRGR TDCMP1 LL_HRTIM_BM_GetTrig\n * BMTRGR TDCMP2 LL_HRTIM_BM_GetTrig\n * BMTRGR TERST LL_HRTIM_BM_GetTrig\n * BMTRGR TEREP LL_HRTIM_BM_GetTrig\n * BMTRGR TECMP1 LL_HRTIM_BM_GetTrig\n * BMTRGR TECMP2 LL_HRTIM_BM_GetTrig\n * BMTRGR TAEEV7 LL_HRTIM_BM_GetTrig\n * BMTRGR TAEEV8 LL_HRTIM_BM_GetTrig\n * BMTRGR EEV7 LL_HRTIM_BM_GetTrig\n * BMTRGR EEV8 LL_HRTIM_BM_GetTrig\n * BMTRGR OCHIPEV LL_HRTIM_BM_GetTrig * @param HRTIMx High Resolution Timer instance * @retval Trig This parameter can be a combination of the following values: * @arg @ref LL_HRTIM_BM_TRIG_NONE * @arg @ref LL_HRTIM_BM_TRIG_MASTER_RESET * @arg @ref LL_HRTIM_BM_TRIG_MASTER_REPETITION * @arg @ref LL_HRTIM_BM_TRIG_MASTER_CMP1 * @arg @ref LL_HRTIM_BM_TRIG_MASTER_CMP2 * @arg @ref LL_HRTIM_BM_TRIG_MASTER_CMP3 * @arg @ref LL_HRTIM_BM_TRIG_MASTER_CMP4 * @arg @ref LL_HRTIM_BM_TRIG_TIMA_RESET * @arg @ref LL_HRTIM_BM_TRIG_TIMA_REPETITION * @arg @ref LL_HRTIM_BM_TRIG_TIMA_CMP1 * @arg @ref LL_HRTIM_BM_TRIG_TIMA_CMP2 * @arg @ref LL_HRTIM_BM_TRIG_TIMB_RESET * @arg @ref LL_HRTIM_BM_TRIG_TIMB_REPETITION * @arg @ref LL_HRTIM_BM_TRIG_TIMB_CMP1 * @arg @ref LL_HRTIM_BM_TRIG_TIMB_CMP2 * @arg @ref LL_HRTIM_BM_TRIG_TIMC_RESET * @arg @ref LL_HRTIM_BM_TRIG_TIMC_REPETITION * @arg @ref LL_HRTIM_BM_TRIG_TIMC_CMP1 * @arg @ref LL_HRTIM_BM_TRIG_TIMC_CMP2 * @arg @ref LL_HRTIM_BM_TRIG_TIMD_RESET * @arg @ref LL_HRTIM_BM_TRIG_TIMD_REPETITION * @arg @ref LL_HRTIM_BM_TRIG_TIMD_CMP1 * @arg @ref LL_HRTIM_BM_TRIG_TIMD_CMP2 * @arg @ref LL_HRTIM_BM_TRIG_TIME_RESET * @arg @ref LL_HRTIM_BM_TRIG_TIME_REPETITION * @arg @ref LL_HRTIM_BM_TRIG_TIME_CMP1 * @arg @ref LL_HRTIM_BM_TRIG_TIME_CMP2 * @arg @ref LL_HRTIM_BM_TRIG_TIMA_EVENT7 * @arg @ref LL_HRTIM_BM_TRIG_TIMD_EVENT8 * @arg @ref LL_HRTIM_BM_TRIG_EVENT_7 * @arg @ref LL_HRTIM_BM_TRIG_EVENT_8 * @arg @ref LL_HRTIM_BM_TRIG_EVENT_ONCHIP */ __STATIC_INLINE uint32_t LL_HRTIM_BM_GetTrig(HRTIM_TypeDef *HRTIMx) { return (uint32_t)READ_REG(HRTIMx->sCommonRegs.BMTRGR); } /** * @brief Set the burst mode controller compare value. * @rmtoll BMCMPR BMCMP LL_HRTIM_BM_SetCompare * @param HRTIMx High Resolution Timer instance * @param CompareValue Compare value must be above or equal to 3 * periods of the fHRTIM clock, that is 0x60 if CKPSC[2:0] = 0, * 0x30 if CKPSC[2:0] = 1, 0x18 if CKPSC[2:0] = 2,... * @retval None */ __STATIC_INLINE void LL_HRTIM_BM_SetCompare(HRTIM_TypeDef *HRTIMx, uint32_t CompareValue) { WRITE_REG(HRTIMx->sCommonRegs.BMCMPR, CompareValue); } /** * @brief Get actual burst mode controller compare value. * @rmtoll BMCMPR BMCMP LL_HRTIM_BM_GetCompare * @param HRTIMx High Resolution Timer instance * @retval CompareValue Compare value must be above or equal to 3 * periods of the fHRTIM clock, that is 0x60 if CKPSC[2:0] = 0, * 0x30 if CKPSC[2:0] = 1, 0x18 if CKPSC[2:0] = 2,... */ __STATIC_INLINE uint32_t LL_HRTIM_BM_GetCompare(HRTIM_TypeDef *HRTIMx) { return (uint32_t)READ_REG(HRTIMx->sCommonRegs.BMCMPR); } /** * @brief Set the burst mode controller period. * @rmtoll BMPER BMPER LL_HRTIM_BM_SetPeriod * @param HRTIMx High Resolution Timer instance * @param Period The period value must be above or equal to 3 periods of the fHRTIM clock, * that is 0x60 if CKPSC[2:0] = 0, 0x30 if CKPSC[2:0] = 1, 0x18 if CKPSC[2:0] = 2,... * The maximum value is 0x0000 FFDF. * @retval None */ __STATIC_INLINE void LL_HRTIM_BM_SetPeriod(HRTIM_TypeDef *HRTIMx, uint32_t Period) { WRITE_REG(HRTIMx->sCommonRegs.BMPER, Period); } /** * @brief Get actual burst mode controller period. * @rmtoll BMPER BMPER LL_HRTIM_BM_GetPeriod * @param HRTIMx High Resolution Timer instance * @retval The period value must be above or equal to 3 periods of the fHRTIM clock, * that is 0x60 if CKPSC[2:0] = 0, 0x30 if CKPSC[2:0] = 1, 0x18 if CKPSC[2:0] = 2,... * The maximum value is 0x0000 FFDF. */ __STATIC_INLINE uint32_t LL_HRTIM_BM_GetPeriod(HRTIM_TypeDef *HRTIMx) { return (uint32_t)READ_REG(HRTIMx->sCommonRegs.BMPER); } /** * @brief Enable the burst mode controller * @rmtoll BMCR BME LL_HRTIM_BM_Enable * @param HRTIMx High Resolution Timer instance * @retval None */ __STATIC_INLINE void LL_HRTIM_BM_Enable(HRTIM_TypeDef *HRTIMx) { SET_BIT(HRTIMx->sCommonRegs.BMCR, HRTIM_BMCR_BME); } /** * @brief Disable the burst mode controller * @rmtoll BMCR BME LL_HRTIM_BM_Disable * @param HRTIMx High Resolution Timer instance * @retval None */ __STATIC_INLINE void LL_HRTIM_BM_Disable(HRTIM_TypeDef *HRTIMx) { CLEAR_BIT(HRTIMx->sCommonRegs.BMCR, HRTIM_BMCR_BME); } /** * @brief Indicate whether the burst mode controller is enabled. * @rmtoll BMCR BME LL_HRTIM_BM_IsEnabled * @param HRTIMx High Resolution Timer instance * @retval State of BME bit in HRTIM_BMCR register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_BM_IsEnabled(HRTIM_TypeDef *HRTIMx) { return (READ_BIT(HRTIMx->sCommonRegs.BMCR, HRTIM_BMCR_BME) == HRTIM_BMCR_BME); } /** * @brief Trigger the burst operation (software trigger) * @rmtoll BMTRGR SW LL_HRTIM_BM_Start * @param HRTIMx High Resolution Timer instance * @retval None */ __STATIC_INLINE void LL_HRTIM_BM_Start(HRTIM_TypeDef *HRTIMx) { SET_BIT(HRTIMx->sCommonRegs.BMTRGR, HRTIM_BMTRGR_SW); } /** * @brief Stop the burst mode operation. * @rmtoll BMCR BMSTAT LL_HRTIM_BM_Stop * @note Causes a burst mode early termination. * @param HRTIMx High Resolution Timer instance * @retval None */ __STATIC_INLINE void LL_HRTIM_BM_Stop(HRTIM_TypeDef *HRTIMx) { CLEAR_BIT(HRTIMx->sCommonRegs.BMCR, HRTIM_BMCR_BMSTAT); } /** * @brief Get actual burst mode status * @rmtoll BMCR BMSTAT LL_HRTIM_BM_GetStatus * @param HRTIMx High Resolution Timer instance * @retval Status This parameter can be one of the following values: * @arg @ref LL_HRTIM_BM_STATUS_NORMAL * @arg @ref LL_HRTIM_BM_STATUS_BURST_ONGOING */ __STATIC_INLINE uint32_t LL_HRTIM_BM_GetStatus(HRTIM_TypeDef *HRTIMx) { return (READ_BIT(HRTIMx->sCommonRegs.BMCR, HRTIM_BMCR_BMSTAT)); } /** * @} */ /** @defgroup HRTIM_EF_FLAG_Management FLAG_Management * @{ */ /** * @brief Clear the Fault 1 interrupt flag. * @rmtoll ICR FLT1C LL_HRTIM_ClearFlag_FLT1 * @param HRTIMx High Resolution Timer instance * @retval None */ __STATIC_INLINE void LL_HRTIM_ClearFlag_FLT1(HRTIM_TypeDef *HRTIMx) { SET_BIT(HRTIMx->sCommonRegs.ICR, HRTIM_ICR_FLT1C); } /** * @brief Indicate whether Fault 1 interrupt occurred. * @rmtoll ICR FLT1 LL_HRTIM_IsActiveFlag_FLT1 * @param HRTIMx High Resolution Timer instance * @retval State of FLT1 bit in HRTIM_ISR register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsActiveFlag_FLT1(HRTIM_TypeDef *HRTIMx) { return (READ_BIT(HRTIMx->sCommonRegs.ISR, HRTIM_ISR_FLT1) == (HRTIM_ISR_FLT1)); } /** * @brief Clear the Fault 2 interrupt flag. * @rmtoll ICR FLT2C LL_HRTIM_ClearFlag_FLT2 * @param HRTIMx High Resolution Timer instance * @retval None */ __STATIC_INLINE void LL_HRTIM_ClearFlag_FLT2(HRTIM_TypeDef *HRTIMx) { SET_BIT(HRTIMx->sCommonRegs.ICR, HRTIM_ICR_FLT2C); } /** * @brief Indicate whether Fault 2 interrupt occurred. * @rmtoll ICR FLT2 LL_HRTIM_IsActiveFlag_FLT2 * @param HRTIMx High Resolution Timer instance * @retval State of FLT2 bit in HRTIM_ISR register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsActiveFlag_FLT2(HRTIM_TypeDef *HRTIMx) { return (READ_BIT(HRTIMx->sCommonRegs.ISR, HRTIM_ISR_FLT2) == (HRTIM_ISR_FLT2)); } /** * @brief Clear the Fault 3 interrupt flag. * @rmtoll ICR FLT3C LL_HRTIM_ClearFlag_FLT3 * @param HRTIMx High Resolution Timer instance * @retval None */ __STATIC_INLINE void LL_HRTIM_ClearFlag_FLT3(HRTIM_TypeDef *HRTIMx) { SET_BIT(HRTIMx->sCommonRegs.ICR, HRTIM_ICR_FLT3C); } /** * @brief Indicate whether Fault 3 interrupt occurred. * @rmtoll ICR FLT3 LL_HRTIM_IsActiveFlag_FLT3 * @param HRTIMx High Resolution Timer instance * @retval State of FLT3 bit in HRTIM_ISR register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsActiveFlag_FLT3(HRTIM_TypeDef *HRTIMx) { return (READ_BIT(HRTIMx->sCommonRegs.ISR, HRTIM_ISR_FLT3) == (HRTIM_ISR_FLT3)); } /** * @brief Clear the Fault 4 interrupt flag. * @rmtoll ICR FLT4C LL_HRTIM_ClearFlag_FLT4 * @param HRTIMx High Resolution Timer instance * @retval None */ __STATIC_INLINE void LL_HRTIM_ClearFlag_FLT4(HRTIM_TypeDef *HRTIMx) { SET_BIT(HRTIMx->sCommonRegs.ICR, HRTIM_ICR_FLT4C); } /** * @brief Indicate whether Fault 4 interrupt occurred. * @rmtoll ICR FLT4 LL_HRTIM_IsActiveFlag_FLT4 * @param HRTIMx High Resolution Timer instance * @retval State of FLT4 bit in HRTIM_ISR register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsActiveFlag_FLT4(HRTIM_TypeDef *HRTIMx) { return (READ_BIT(HRTIMx->sCommonRegs.ISR, HRTIM_ISR_FLT4) == (HRTIM_ISR_FLT4)); } /** * @brief Clear the Fault 5 interrupt flag. * @rmtoll ICR FLT5C LL_HRTIM_ClearFlag_FLT5 * @param HRTIMx High Resolution Timer instance * @retval None */ __STATIC_INLINE void LL_HRTIM_ClearFlag_FLT5(HRTIM_TypeDef *HRTIMx) { SET_BIT(HRTIMx->sCommonRegs.ICR, HRTIM_ICR_FLT5C); } /** * @brief Indicate whether Fault 5 interrupt occurred. * @rmtoll ICR FLT5 LL_HRTIM_IsActiveFlag_FLT5 * @param HRTIMx High Resolution Timer instance * @retval State of FLT5 bit in HRTIM_ISR register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsActiveFlag_FLT5(HRTIM_TypeDef *HRTIMx) { return (READ_BIT(HRTIMx->sCommonRegs.ISR, HRTIM_ISR_FLT5) == (HRTIM_ISR_FLT5)); } /** * @brief Clear the System Fault interrupt flag. * @rmtoll ICR SYSFLTC LL_HRTIM_ClearFlag_SYSFLT * @param HRTIMx High Resolution Timer instance * @retval None */ __STATIC_INLINE void LL_HRTIM_ClearFlag_SYSFLT(HRTIM_TypeDef *HRTIMx) { SET_BIT(HRTIMx->sCommonRegs.ICR, HRTIM_ICR_SYSFLTC); } /** * @brief Indicate whether System Fault interrupt occurred. * @rmtoll ISR SYSFLT LL_HRTIM_IsActiveFlag_SYSFLT * @param HRTIMx High Resolution Timer instance * @retval State of SYSFLT bit in HRTIM_ISR register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsActiveFlag_SYSFLT(HRTIM_TypeDef *HRTIMx) { return (READ_BIT(HRTIMx->sCommonRegs.ISR, HRTIM_ISR_SYSFLT) == (HRTIM_ISR_SYSFLT)); } /** * @brief Clear the DLL ready interrupt flag. * @rmtoll ICR DLLRDYC LL_HRTIM_ClearFlag_DLLRDY * @param HRTIMx High Resolution Timer instance * @retval None */ __STATIC_INLINE void LL_HRTIM_ClearFlag_DLLRDY(HRTIM_TypeDef *HRTIMx) { SET_BIT(HRTIMx->sCommonRegs.ICR, HRTIM_ICR_DLLRDYC); } /** * @brief Indicate whether DLL ready interrupt occurred. * @rmtoll ISR DLLRDY LL_HRTIM_IsActiveFlag_DLLRDY * @param HRTIMx High Resolution Timer instance * @retval State of DLLRDY bit in HRTIM_ISR register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsActiveFlag_DLLRDY(HRTIM_TypeDef *HRTIMx) { return (READ_BIT(HRTIMx->sCommonRegs.ISR, HRTIM_ISR_DLLRDY) == (HRTIM_ISR_DLLRDY)); } /** * @brief Clear the Burst Mode period interrupt flag. * @rmtoll ICR BMPERC LL_HRTIM_ClearFlag_BMPER * @param HRTIMx High Resolution Timer instance * @retval None */ __STATIC_INLINE void LL_HRTIM_ClearFlag_BMPER(HRTIM_TypeDef *HRTIMx) { SET_BIT(HRTIMx->sCommonRegs.ICR, HRTIM_ICR_BMPERC); } /** * @brief Indicate whether Burst Mode period interrupt occurred. * @rmtoll ISR BMPER LL_HRTIM_IsActiveFlag_BMPER * @param HRTIMx High Resolution Timer instance * @retval State of BMPER bit in HRTIM_ISR register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsActiveFlag_BMPER(HRTIM_TypeDef *HRTIMx) { return (READ_BIT(HRTIMx->sCommonRegs.ISR, HRTIM_ISR_BMPER) == (HRTIM_ISR_BMPER)); } /** * @brief Clear the Synchronization Input interrupt flag. * @rmtoll MICR SYNCC LL_HRTIM_ClearFlag_SYNC * @param HRTIMx High Resolution Timer instance * @retval None */ __STATIC_INLINE void LL_HRTIM_ClearFlag_SYNC(HRTIM_TypeDef *HRTIMx) { SET_BIT(HRTIMx->sMasterRegs.MICR, HRTIM_MICR_SYNC); } /** * @brief Indicate whether the Synchronization Input interrupt occurred. * @rmtoll MISR SYNC LL_HRTIM_IsActiveFlag_SYNC * @param HRTIMx High Resolution Timer instance * @retval State of SYNC bit in HRTIM_MISR register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsActiveFlag_SYNC(HRTIM_TypeDef *HRTIMx) { return (READ_BIT(HRTIMx->sMasterRegs.MISR, HRTIM_MISR_SYNC) == (HRTIM_MISR_SYNC)); } /** * @brief Clear the update interrupt flag for a given timer (including the master timer) . * @rmtoll MICR MUPDC LL_HRTIM_ClearFlag_UPDATE\n * TIMxICR UPDC LL_HRTIM_ClearFlag_UPDATE * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_ClearFlag_UPDATE(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MICR) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, HRTIM_MICR_MUPD); } /** * @brief Indicate whether the update interrupt has occurred for a given timer (including the master timer) . * @rmtoll MISR MUPD LL_HRTIM_IsActiveFlag_UPDATE\n * TIMxISR UPD LL_HRTIM_IsActiveFlag_UPDATE * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval State of MUPD/UPD bit in HRTIM_MISR/HRTIM_TIMxISR register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsActiveFlag_UPDATE(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MISR) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_MISR_MUPD) == (HRTIM_MISR_MUPD)); } /** * @brief Clear the repetition interrupt flag for a given timer (including the master timer) . * @rmtoll MICR MREPC LL_HRTIM_ClearFlag_REP\n * TIMxICR REPC LL_HRTIM_ClearFlag_REP * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_ClearFlag_REP(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MICR) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, HRTIM_MICR_MREP); } /** * @brief Indicate whether the repetition interrupt has occurred for a given timer (including the master timer) . * @rmtoll MISR MREP LL_HRTIM_IsActiveFlag_REP\n * TIMxISR REP LL_HRTIM_IsActiveFlag_REP * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval State of MREP/REP bit in HRTIM_MISR/HRTIM_TIMxISR register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsActiveFlag_REP(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MISR) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_MISR_MREP) == (HRTIM_MISR_MREP)); } /** * @brief Clear the compare 1 match interrupt for a given timer (including the master timer). * @rmtoll MICR MCMP1C LL_HRTIM_ClearFlag_CMP1\n * TIMxICR CMP1C LL_HRTIM_ClearFlag_CMP1 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_ClearFlag_CMP1(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MICR) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, HRTIM_MICR_MCMP1); } /** * @brief Indicate whether the compare match 1 interrupt has occurred for a given timer (including the master timer) . * @rmtoll MISR MCMP1 LL_HRTIM_IsActiveFlag_CMP1\n * TIMxISR CMP1 LL_HRTIM_IsActiveFlag_CMP1 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval State of MCMP1/CMP1 bit in HRTIM_MISR/HRTIM_TIMxISR register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsActiveFlag_CMP1(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MISR) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_MISR_MCMP1) == (HRTIM_MISR_MCMP1)); } /** * @brief Clear the compare 2 match interrupt for a given timer (including the master timer). * @rmtoll MICR MCMP2C LL_HRTIM_ClearFlag_CMP2\n * TIMxICR CMP2C LL_HRTIM_ClearFlag_CMP2 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_ClearFlag_CMP2(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MICR) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, HRTIM_MICR_MCMP2); } /** * @brief Indicate whether the compare match 2 interrupt has occurred for a given timer (including the master timer) . * @rmtoll MISR MCMP2 LL_HRTIM_IsActiveFlag_CMP2\n * TIMxISR CMP2 LL_HRTIM_IsActiveFlag_CMP2 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval State of MCMP2/CMP2 bit in HRTIM_MISR/HRTIM_TIMxISR register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsActiveFlag_CMP2(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MISR) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_MISR_MCMP2) == (HRTIM_MISR_MCMP2)); } /** * @brief Clear the compare 3 match interrupt for a given timer (including the master timer). * @rmtoll MICR MCMP3C LL_HRTIM_ClearFlag_CMP3\n * TIMxICR CMP3C LL_HRTIM_ClearFlag_CMP3 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_ClearFlag_CMP3(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MICR) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, HRTIM_MICR_MCMP3); } /** * @brief Indicate whether the compare match 3 interrupt has occurred for a given timer (including the master timer) . * @rmtoll MISR MCMP3 LL_HRTIM_IsActiveFlag_CMP3\n * TIMxISR CMP3 LL_HRTIM_IsActiveFlag_CMP3 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval State of MCMP3/CMP3 bit in HRTIM_MISR/HRTIM_TIMxISR register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsActiveFlag_CMP3(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MISR) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_MISR_MCMP3) == (HRTIM_MISR_MCMP3)); } /** * @brief Clear the compare 4 match interrupt for a given timer (including the master timer). * @rmtoll MICR MCMP4C LL_HRTIM_ClearFlag_CMP4\n * TIMxICR CMP4C LL_HRTIM_ClearFlag_CMP4 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_ClearFlag_CMP4(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MICR) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, HRTIM_MICR_MCMP4); } /** * @brief Indicate whether the compare match 4 interrupt has occurred for a given timer (including the master timer) . * @rmtoll MISR MCMP4 LL_HRTIM_IsActiveFlag_CMP4\n * TIMxISR CMP4 LL_HRTIM_IsActiveFlag_CMP4 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval State of MCMP4/CMP4 bit in HRTIM_MISR/HRTIM_TIMxISR register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsActiveFlag_CMP4(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MISR) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_MISR_MCMP4) == (HRTIM_MISR_MCMP4)); } /** * @brief Clear the capture 1 interrupt flag for a given timer. * @rmtoll TIMxICR CPT1C LL_HRTIM_ClearFlag_CPT1 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_ClearFlag_CPT1(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MICR) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, HRTIM_TIMICR_CPT1C); } /** * @brief Indicate whether the capture 1 interrupt occurred for a given timer. * @rmtoll TIMxISR CPT1 LL_HRTIM_IsActiveFlag_CPT1 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval State of CPT1 bit in HRTIM_TIMxISR register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsActiveFlag_CPT1(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MISR) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_TIMISR_CPT1) == (HRTIM_TIMISR_CPT1)); } /** * @brief Clear the capture 2 interrupt flag for a given timer. * @rmtoll TIMxICR CPT2C LL_HRTIM_ClearFlag_CPT2 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_ClearFlag_CPT2(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MICR) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, HRTIM_TIMICR_CPT2C); } /** * @brief Indicate whether the capture 2 interrupt occurred for a given timer. * @rmtoll TIMxISR CPT2 LL_HRTIM_IsActiveFlag_CPT2 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval State of CPT2 bit in HRTIM_TIMxISR register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsActiveFlag_CPT2(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MISR) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_TIMISR_CPT2) == (HRTIM_TIMISR_CPT2)); } /** * @brief Clear the output 1 set interrupt flag for a given timer. * @rmtoll TIMxICR SET1C LL_HRTIM_ClearFlag_SET1 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_ClearFlag_SET1(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MICR) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, HRTIM_TIMICR_SET1C); } /** * @brief Indicate whether the output 1 set interrupt occurred for a given timer. * @rmtoll TIMxISR SET1 LL_HRTIM_IsActiveFlag_SET1 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval State of SETx1 bit in HRTIM_TIMxISR register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsActiveFlag_SET1(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MISR) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_TIMISR_SET1) == (HRTIM_TIMISR_SET1)); } /** * @brief Clear the output 1 reset interrupt flag for a given timer. * @rmtoll TIMxICR RST1C LL_HRTIM_ClearFlag_RST1 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_ClearFlag_RST1(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MICR) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, HRTIM_TIMICR_RST1C); } /** * @brief Indicate whether the output 1 reset interrupt occurred for a given timer. * @rmtoll TIMxISR RST1 LL_HRTIM_IsActiveFlag_RST1 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval State of RSTx1 bit in HRTIM_TIMxISR register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsActiveFlag_RST1(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MISR) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_TIMISR_RST1) == (HRTIM_TIMISR_RST1)); } /** * @brief Clear the output 2 set interrupt flag for a given timer. * @rmtoll TIMxICR SET2C LL_HRTIM_ClearFlag_SET2 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_ClearFlag_SET2(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MICR) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, HRTIM_TIMICR_SET2C); } /** * @brief Indicate whether the output 2 set interrupt occurred for a given timer. * @rmtoll TIMxISR SET2 LL_HRTIM_IsActiveFlag_SET2 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval State of SETx2 bit in HRTIM_TIMxISR register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsActiveFlag_SET2(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MISR) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_TIMISR_SET2) == (HRTIM_TIMISR_SET2)); } /** * @brief Clear the output 2reset interrupt flag for a given timer. * @rmtoll TIMxICR RST2C LL_HRTIM_ClearFlag_RST2 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_ClearFlag_RST2(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MICR) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, HRTIM_TIMICR_RST2C); } /** * @brief Indicate whether the output 2 reset interrupt occurred for a given timer. * @rmtoll TIMxISR RST2 LL_HRTIM_IsActiveFlag_RST2 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval State of RSTx2 bit in HRTIM_TIMxISR register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsActiveFlag_RST2(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MISR) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_TIMISR_RST2) == (HRTIM_TIMISR_RST2)); } /** * @brief Clear the reset and/or roll-over interrupt flag for a given timer. * @rmtoll TIMxICR RSTC LL_HRTIM_ClearFlag_RST * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_ClearFlag_RST(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MICR) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, HRTIM_TIMICR_RSTC); } /** * @brief Indicate whether the reset and/or roll-over interrupt occurred for a given timer. * @rmtoll TIMxISR RST LL_HRTIM_IsActiveFlag_RST * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval State of RST bit in HRTIM_TIMxISR register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsActiveFlag_RST(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MISR) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_TIMISR_RST) == (HRTIM_TIMISR_RST)); } /** * @brief Clear the delayed protection interrupt flag for a given timer. * @rmtoll TIMxICR DLYPRTC LL_HRTIM_ClearFlag_DLYPRT * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_ClearFlag_DLYPRT(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MICR) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, HRTIM_TIMICR_DLYPRT1C); } /** * @brief Indicate whether the delayed protection interrupt occurred for a given timer. * @rmtoll TIMxISR DLYPRT LL_HRTIM_IsActiveFlag_DLYPRT * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval State of DLYPRT bit in HRTIM_TIMxISR register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsActiveFlag_DLYPRT(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MISR) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_TIMISR_DLYPRT) == (HRTIM_TIMISR_DLYPRT)); } /** * @} */ /** @defgroup HRTIM_EF_IT_Management IT_Management * @{ */ /** * @brief Enable the fault 1 interrupt. * @rmtoll IER FLT1IE LL_HRTIM_EnableIT_FLT1 * @param HRTIMx High Resolution Timer instance * @retval None */ __STATIC_INLINE void LL_HRTIM_EnableIT_FLT1(HRTIM_TypeDef *HRTIMx) { SET_BIT(HRTIMx->sCommonRegs.IER, HRTIM_IER_FLT1); } /** * @brief Disable the fault 1 interrupt. * @rmtoll IER FLT1IE LL_HRTIM_DisableIT_FLT1 * @param HRTIMx High Resolution Timer instance * @retval None */ __STATIC_INLINE void LL_HRTIM_DisableIT_FLT1(HRTIM_TypeDef *HRTIMx) { CLEAR_BIT(HRTIMx->sCommonRegs.IER, HRTIM_IER_FLT1); } /** * @brief Indicate whether the fault 1 interrupt is enabled. * @rmtoll IER FLT1IE LL_HRTIM_IsEnabledIT_FLT1 * @param HRTIMx High Resolution Timer instance * @retval State of FLT1IE bit in HRTIM_IER register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsEnabledIT_FLT1(HRTIM_TypeDef *HRTIMx) { return (READ_BIT(HRTIMx->sCommonRegs.IER, HRTIM_IER_FLT1) == (HRTIM_IER_FLT1)); } /** * @brief Enable the fault 2 interrupt. * @rmtoll IER FLT2IE LL_HRTIM_EnableIT_FLT2 * @param HRTIMx High Resolution Timer instance * @retval None */ __STATIC_INLINE void LL_HRTIM_EnableIT_FLT2(HRTIM_TypeDef *HRTIMx) { SET_BIT(HRTIMx->sCommonRegs.IER, HRTIM_IER_FLT2); } /** * @brief Disable the fault 2 interrupt. * @rmtoll IER FLT2IE LL_HRTIM_DisableIT_FLT2 * @param HRTIMx High Resolution Timer instance * @retval None */ __STATIC_INLINE void LL_HRTIM_DisableIT_FLT2(HRTIM_TypeDef *HRTIMx) { CLEAR_BIT(HRTIMx->sCommonRegs.IER, HRTIM_IER_FLT2); } /** * @brief Indicate whether the fault 2 interrupt is enabled. * @rmtoll IER FLT2IE LL_HRTIM_IsEnabledIT_FLT2 * @param HRTIMx High Resolution Timer instance * @retval State of FLT2IE bit in HRTIM_IER register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsEnabledIT_FLT2(HRTIM_TypeDef *HRTIMx) { return (READ_BIT(HRTIMx->sCommonRegs.IER, HRTIM_IER_FLT2) == (HRTIM_IER_FLT2)); } /** * @brief Enable the fault 3 interrupt. * @rmtoll IER FLT3IE LL_HRTIM_EnableIT_FLT3 * @param HRTIMx High Resolution Timer instance * @retval None */ __STATIC_INLINE void LL_HRTIM_EnableIT_FLT3(HRTIM_TypeDef *HRTIMx) { SET_BIT(HRTIMx->sCommonRegs.IER, HRTIM_IER_FLT3); } /** * @brief Disable the fault 3 interrupt. * @rmtoll IER FLT3IE LL_HRTIM_DisableIT_FLT3 * @param HRTIMx High Resolution Timer instance * @retval None */ __STATIC_INLINE void LL_HRTIM_DisableIT_FLT3(HRTIM_TypeDef *HRTIMx) { CLEAR_BIT(HRTIMx->sCommonRegs.IER, HRTIM_IER_FLT3); } /** * @brief Indicate whether the fault 3 interrupt is enabled. * @rmtoll IER FLT3IE LL_HRTIM_IsEnabledIT_FLT3 * @param HRTIMx High Resolution Timer instance * @retval State of FLT3IE bit in HRTIM_IER register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsEnabledIT_FLT3(HRTIM_TypeDef *HRTIMx) { return (READ_BIT(HRTIMx->sCommonRegs.IER, HRTIM_IER_FLT3) == (HRTIM_IER_FLT3)); } /** * @brief Enable the fault 4 interrupt. * @rmtoll IER FLT4IE LL_HRTIM_EnableIT_FLT4 * @param HRTIMx High Resolution Timer instance * @retval None */ __STATIC_INLINE void LL_HRTIM_EnableIT_FLT4(HRTIM_TypeDef *HRTIMx) { SET_BIT(HRTIMx->sCommonRegs.IER, HRTIM_IER_FLT4); } /** * @brief Disable the fault 4 interrupt. * @rmtoll IER FLT4IE LL_HRTIM_DisableIT_FLT4 * @param HRTIMx High Resolution Timer instance * @retval None */ __STATIC_INLINE void LL_HRTIM_DisableIT_FLT4(HRTIM_TypeDef *HRTIMx) { CLEAR_BIT(HRTIMx->sCommonRegs.IER, HRTIM_IER_FLT4); } /** * @brief Indicate whether the fault 4 interrupt is enabled. * @rmtoll IER FLT4IE LL_HRTIM_IsEnabledIT_FLT4 * @param HRTIMx High Resolution Timer instance * @retval State of FLT4IE bit in HRTIM_IER register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsEnabledIT_FLT4(HRTIM_TypeDef *HRTIMx) { return (READ_BIT(HRTIMx->sCommonRegs.IER, HRTIM_IER_FLT4) == (HRTIM_IER_FLT4)); } /** * @brief Enable the fault 5 interrupt. * @rmtoll IER FLT5IE LL_HRTIM_EnableIT_FLT5 * @param HRTIMx High Resolution Timer instance * @retval None */ __STATIC_INLINE void LL_HRTIM_EnableIT_FLT5(HRTIM_TypeDef *HRTIMx) { SET_BIT(HRTIMx->sCommonRegs.IER, HRTIM_IER_FLT5); } /** * @brief Disable the fault 5 interrupt. * @rmtoll IER FLT5IE LL_HRTIM_DisableIT_FLT5 * @param HRTIMx High Resolution Timer instance * @retval None */ __STATIC_INLINE void LL_HRTIM_DisableIT_FLT5(HRTIM_TypeDef *HRTIMx) { CLEAR_BIT(HRTIMx->sCommonRegs.IER, HRTIM_IER_FLT5); } /** * @brief Indicate whether the fault 5 interrupt is enabled. * @rmtoll IER FLT5IE LL_HRTIM_IsEnabledIT_FLT5 * @param HRTIMx High Resolution Timer instance * @retval State of FLT5IE bit in HRTIM_IER register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsEnabledIT_FLT5(HRTIM_TypeDef *HRTIMx) { return (READ_BIT(HRTIMx->sCommonRegs.IER, HRTIM_IER_FLT5) == (HRTIM_IER_FLT5)); } /** * @brief Enable the system fault interrupt. * @rmtoll IER SYSFLTIE LL_HRTIM_EnableIT_SYSFLT * @param HRTIMx High Resolution Timer instance * @retval None */ __STATIC_INLINE void LL_HRTIM_EnableIT_SYSFLT(HRTIM_TypeDef *HRTIMx) { SET_BIT(HRTIMx->sCommonRegs.IER, HRTIM_IER_SYSFLT); } /** * @brief Disable the system fault interrupt. * @rmtoll IER SYSFLTIE LL_HRTIM_DisableIT_SYSFLT * @param HRTIMx High Resolution Timer instance * @retval None */ __STATIC_INLINE void LL_HRTIM_DisableIT_SYSFLT(HRTIM_TypeDef *HRTIMx) { CLEAR_BIT(HRTIMx->sCommonRegs.IER, HRTIM_IER_SYSFLT); } /** * @brief Indicate whether the system fault interrupt is enabled. * @rmtoll IER SYSFLTIE LL_HRTIM_IsEnabledIT_SYSFLT * @param HRTIMx High Resolution Timer instance * @retval State of SYSFLTIE bit in HRTIM_IER register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsEnabledIT_SYSFLT(HRTIM_TypeDef *HRTIMx) { return (READ_BIT(HRTIMx->sCommonRegs.IER, HRTIM_IER_SYSFLT) == (HRTIM_IER_SYSFLT)); } /** * @brief Enable the DLL ready interrupt. * @rmtoll IER DLLRDYIE LL_HRTIM_EnableIT_DLLRDY * @param HRTIMx High Resolution Timer instance * @retval None */ __STATIC_INLINE void LL_HRTIM_EnableIT_DLLRDY(HRTIM_TypeDef *HRTIMx) { SET_BIT(HRTIMx->sCommonRegs.IER, HRTIM_IER_DLLRDY); } /** * @brief Disable the DLL ready interrupt. * @rmtoll IER DLLRDYIE LL_HRTIM_DisableIT_DLLRDY * @param HRTIMx High Resolution Timer instance * @retval None */ __STATIC_INLINE void LL_HRTIM_DisableIT_DLLRDY(HRTIM_TypeDef *HRTIMx) { CLEAR_BIT(HRTIMx->sCommonRegs.IER, HRTIM_IER_DLLRDY); } /** * @brief Indicate whether the DLL ready interrupt is enabled. * @rmtoll IER DLLRDYIE LL_HRTIM_IsEnabledIT_DLLRDY * @param HRTIMx High Resolution Timer instance * @retval State of DLLRDYIE bit in HRTIM_IER register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsEnabledIT_DLLRDY(HRTIM_TypeDef *HRTIMx) { return (READ_BIT(HRTIMx->sCommonRegs.IER, HRTIM_IER_DLLRDY) == (HRTIM_IER_DLLRDY)); } /** * @brief Enable the burst mode period interrupt. * @rmtoll IER BMPERIE LL_HRTIM_EnableIT_BMPER * @param HRTIMx High Resolution Timer instance * @retval None */ __STATIC_INLINE void LL_HRTIM_EnableIT_BMPER(HRTIM_TypeDef *HRTIMx) { SET_BIT(HRTIMx->sCommonRegs.IER, HRTIM_IER_BMPER); } /** * @brief Disable the burst mode period interrupt. * @rmtoll IER BMPERIE LL_HRTIM_DisableIT_BMPER * @param HRTIMx High Resolution Timer instance * @retval None */ __STATIC_INLINE void LL_HRTIM_DisableIT_BMPER(HRTIM_TypeDef *HRTIMx) { CLEAR_BIT(HRTIMx->sCommonRegs.IER, HRTIM_IER_BMPER); } /** * @brief Indicate whether the burst mode period interrupt is enabled. * @rmtoll IER BMPERIE LL_HRTIM_IsEnabledIT_BMPER * @param HRTIMx High Resolution Timer instance * @retval State of BMPERIE bit in HRTIM_IER register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsEnabledIT_BMPER(HRTIM_TypeDef *HRTIMx) { return (READ_BIT(HRTIMx->sCommonRegs.IER, HRTIM_IER_BMPER) == (HRTIM_IER_BMPER)); } /** * @brief Enable the synchronization input interrupt. * @rmtoll MDIER SYNCIE LL_HRTIM_EnableIT_SYNC * @param HRTIMx High Resolution Timer instance * @retval None */ __STATIC_INLINE void LL_HRTIM_EnableIT_SYNC(HRTIM_TypeDef *HRTIMx) { SET_BIT(HRTIMx->sMasterRegs.MDIER, HRTIM_MDIER_SYNCIE); } /** * @brief Disable the synchronization input interrupt. * @rmtoll MDIER SYNCIE LL_HRTIM_DisableIT_SYNC * @param HRTIMx High Resolution Timer instance * @retval None */ __STATIC_INLINE void LL_HRTIM_DisableIT_SYNC(HRTIM_TypeDef *HRTIMx) { CLEAR_BIT(HRTIMx->sMasterRegs.MDIER, HRTIM_MDIER_SYNCIE); } /** * @brief Indicate whether the synchronization input interrupt is enabled. * @rmtoll MDIER SYNCIE LL_HRTIM_IsEnabledIT_SYNC * @param HRTIMx High Resolution Timer instance * @retval State of SYNCIE bit in HRTIM_MDIER register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsEnabledIT_SYNC(HRTIM_TypeDef *HRTIMx) { return (READ_BIT(HRTIMx->sMasterRegs.MDIER, HRTIM_MDIER_SYNCIE) == (HRTIM_MDIER_SYNCIE)); } /** * @brief Enable the update interrupt for a given timer. * @rmtoll MDIER MUPDIE LL_HRTIM_EnableIT_UPDATE\n * TIMxDIER UPDIE LL_HRTIM_EnableIT_UPDATE * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_EnableIT_UPDATE(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, HRTIM_MDIER_MUPDIE); } /** * @brief Disable the update interrupt for a given timer. * @rmtoll MDIER MUPDIE LL_HRTIM_DisableIT_UPDATE\n * TIMxDIER UPDIE LL_HRTIM_DisableIT_UPDATE * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_DisableIT_UPDATE(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); CLEAR_BIT(*pReg, HRTIM_MDIER_MUPDIE); } /** * @brief Indicate whether the update interrupt is enabled for a given timer. * @rmtoll MDIER MUPDIE LL_HRTIM_IsEnabledIT_UPDATE\n * TIMxDIER UPDIE LL_HRTIM_IsEnabledIT_UPDATE * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval State of MUPDIE/UPDIE bit in HRTIM_MDIER/HRTIM_TIMxDIER register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsEnabledIT_UPDATE(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_MDIER_MUPDIE) == (HRTIM_MDIER_MUPDIE)); } /** * @brief Enable the repetition interrupt for a given timer. * @rmtoll MDIER MREPIE LL_HRTIM_EnableIT_REP\n * TIMxDIER REPIE LL_HRTIM_EnableIT_REP * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_EnableIT_REP(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, HRTIM_MDIER_MREPIE); } /** * @brief Disable the repetition interrupt for a given timer. * @rmtoll MDIER MREPIE LL_HRTIM_DisableIT_REP\n * TIMxDIER REPIE LL_HRTIM_DisableIT_REP * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_DisableIT_REP(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); CLEAR_BIT(*pReg, HRTIM_MDIER_MREPIE); } /** * @brief Indicate whether the repetition interrupt is enabled for a given timer. * @rmtoll MDIER MREPIE LL_HRTIM_IsEnabledIT_REP\n * TIMxDIER REPIE LL_HRTIM_IsEnabledIT_REP * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval State of MREPIE/REPIE bit in HRTIM_MDIER/HRTIM_TIMxDIER register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsEnabledIT_REP(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_MDIER_MREPIE) == (HRTIM_MDIER_MREPIE)); } /** * @brief Enable the compare 1 interrupt for a given timer. * @rmtoll MDIER MCMP1IE LL_HRTIM_EnableIT_CMP1\n * TIMxDIER CMP1IE LL_HRTIM_EnableIT_CMP1 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_EnableIT_CMP1(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, HRTIM_MDIER_MCMP1IE); } /** * @brief Disable the compare 1 interrupt for a given timer. * @rmtoll MDIER MCMP1IE LL_HRTIM_DisableIT_CMP1\n * TIMxDIER CMP1IE LL_HRTIM_DisableIT_CMP1 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_DisableIT_CMP1(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); CLEAR_BIT(*pReg, HRTIM_MDIER_MCMP1IE); } /** * @brief Indicate whether the compare 1 interrupt is enabled for a given timer. * @rmtoll MDIER MCMP1IE LL_HRTIM_IsEnabledIT_CMP1\n * TIMxDIER CMP1IE LL_HRTIM_IsEnabledIT_CMP1 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval State of MCMP1IE/CMP1IE bit in HRTIM_MDIER/HRTIM_TIMxDIER register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsEnabledIT_CMP1(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_MDIER_MCMP1IE) == (HRTIM_MDIER_MCMP1IE)); } /** * @brief Enable the compare 2 interrupt for a given timer. * @rmtoll MDIER MCMP2IE LL_HRTIM_EnableIT_CMP2\n * TIMxDIER CMP2IE LL_HRTIM_EnableIT_CMP2 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_EnableIT_CMP2(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, HRTIM_MDIER_MCMP2IE); } /** * @brief Disable the compare 2 interrupt for a given timer. * @rmtoll MDIER MCMP2IE LL_HRTIM_DisableIT_CMP2\n * TIMxDIER CMP2IE LL_HRTIM_DisableIT_CMP2 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_DisableIT_CMP2(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); CLEAR_BIT(*pReg, HRTIM_MDIER_MCMP2IE); } /** * @brief Indicate whether the compare 2 interrupt is enabled for a given timer. * @rmtoll MDIER MCMP2IE LL_HRTIM_IsEnabledIT_CMP2\n * TIMxDIER CMP2IE LL_HRTIM_IsEnabledIT_CMP2 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval State of MCMP2IE/CMP2IE bit in HRTIM_MDIER/HRTIM_TIMxDIER register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsEnabledIT_CMP2(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_MDIER_MCMP2IE) == (HRTIM_MDIER_MCMP2IE)); } /** * @brief Enable the compare 3 interrupt for a given timer. * @rmtoll MDIER MCMP3IE LL_HRTIM_EnableIT_CMP3\n * TIMxDIER CMP3IE LL_HRTIM_EnableIT_CMP3 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_EnableIT_CMP3(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, HRTIM_MDIER_MCMP3IE); } /** * @brief Disable the compare 3 interrupt for a given timer. * @rmtoll MDIER MCMP3IE LL_HRTIM_DisableIT_CMP3\n * TIMxDIER CMP3IE LL_HRTIM_DisableIT_CMP3 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_DisableIT_CMP3(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); CLEAR_BIT(*pReg, HRTIM_MDIER_MCMP3IE); } /** * @brief Indicate whether the compare 3 interrupt is enabled for a given timer. * @rmtoll MDIER MCMP3IE LL_HRTIM_IsEnabledIT_CMP3\n * TIMxDIER CMP3IE LL_HRTIM_IsEnabledIT_CMP3 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval State of MCMP3IE/CMP3IE bit in HRTIM_MDIER/HRTIM_TIMxDIER register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsEnabledIT_CMP3(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_MDIER_MCMP3IE) == (HRTIM_MDIER_MCMP3IE)); } /** * @brief Enable the compare 4 interrupt for a given timer. * @rmtoll MDIER MCMP4IE LL_HRTIM_EnableIT_CMP4\n * TIMxDIER CMP4IE LL_HRTIM_EnableIT_CMP4 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_EnableIT_CMP4(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, HRTIM_MDIER_MCMP4IE); } /** * @brief Disable the compare 4 interrupt for a given timer. * @rmtoll MDIER MCMP4IE LL_HRTIM_DisableIT_CMP4\n * TIMxDIER CMP4IE LL_HRTIM_DisableIT_CMP4 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_DisableIT_CMP4(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); CLEAR_BIT(*pReg, HRTIM_MDIER_MCMP4IE); } /** * @brief Indicate whether the compare 4 interrupt is enabled for a given timer. * @rmtoll MDIER MCMP4IE LL_HRTIM_IsEnabledIT_CMP4\n * TIMxDIER CMP4IE LL_HRTIM_IsEnabledIT_CMP4 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval State of MCMP4IE/CMP4IE bit in HRTIM_MDIER/HRTIM_TIMxDIER register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsEnabledIT_CMP4(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_MDIER_MCMP4IE) == (HRTIM_MDIER_MCMP4IE)); } /** * @brief Enable the capture 1 interrupt for a given timer. * @rmtoll TIMxDIER CPT1IE LL_HRTIM_EnableIT_CPT1 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_EnableIT_CPT1(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, HRTIM_TIMDIER_CPT1IE); } /** * @brief Enable the capture 1 interrupt for a given timer. * @rmtoll TIMxDIER CPT1IE LL_HRTIM_DisableIT_CPT1 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_DisableIT_CPT1(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); CLEAR_BIT(*pReg, HRTIM_TIMDIER_CPT1IE); } /** * @brief Indicate whether the capture 1 interrupt is enabled for a given timer. * @rmtoll TIMxDIER CPT1IE LL_HRTIM_IsEnabledIT_CPT1 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval State of CPT1IE bit in HRTIM_TIMxDIER register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsEnabledIT_CPT1(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_TIMDIER_CPT1IE) == (HRTIM_TIMDIER_CPT1IE)); } /** * @brief Enable the capture 2 interrupt for a given timer. * @rmtoll TIMxDIER CPT2IE LL_HRTIM_EnableIT_CPT2 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_EnableIT_CPT2(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, HRTIM_TIMDIER_CPT2IE); } /** * @brief Enable the capture 2 interrupt for a given timer. * @rmtoll TIMxDIER CPT2IE LL_HRTIM_DisableIT_CPT2 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_DisableIT_CPT2(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); CLEAR_BIT(*pReg, HRTIM_TIMDIER_CPT2IE); } /** * @brief Indicate whether the capture 2 interrupt is enabled for a given timer. * @rmtoll TIMxDIER CPT2IE LL_HRTIM_IsEnabledIT_CPT2 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval State of CPT2IE bit in HRTIM_TIMxDIER register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsEnabledIT_CPT2(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_TIMDIER_CPT2IE) == (HRTIM_TIMDIER_CPT2IE)); } /** * @brief Enable the output 1 set interrupt for a given timer. * @rmtoll TIMxDIER SET1IE LL_HRTIM_EnableIT_SET1 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_EnableIT_SET1(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, HRTIM_TIMDIER_SET1IE); } /** * @brief Disable the output 1 set interrupt for a given timer. * @rmtoll TIMxDIER SET1IE LL_HRTIM_DisableIT_SET1 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_DisableIT_SET1(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); CLEAR_BIT(*pReg, HRTIM_TIMDIER_SET1IE); } /** * @brief Indicate whether the output 1 set interrupt is enabled for a given timer. * @rmtoll TIMxDIER SET1IE LL_HRTIM_IsEnabledIT_SET1 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval State of SET1xIE bit in HRTIM_TIMxDIER register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsEnabledIT_SET1(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_TIMDIER_SET1IE) == (HRTIM_TIMDIER_SET1IE)); } /** * @brief Enable the output 1 reset interrupt for a given timer. * @rmtoll TIMxDIER RST1IE LL_HRTIM_EnableIT_RST1 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_EnableIT_RST1(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, HRTIM_TIMDIER_RST1IE); } /** * @brief Disable the output 1 reset interrupt for a given timer. * @rmtoll TIMxDIER RST1IE LL_HRTIM_DisableIT_RST1 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_DisableIT_RST1(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); CLEAR_BIT(*pReg, HRTIM_TIMDIER_RST1IE); } /** * @brief Indicate whether the output 1 reset interrupt is enabled for a given timer. * @rmtoll TIMxDIER RST1IE LL_HRTIM_IsEnabledIT_RST1 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval State of RST1xIE bit in HRTIM_TIMxDIER register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsEnabledIT_RST1(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_TIMDIER_RST1IE) == (HRTIM_TIMDIER_RST1IE)); } /** * @brief Enable the output 2 set interrupt for a given timer. * @rmtoll TIMxDIER SET2IE LL_HRTIM_EnableIT_SET2 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_EnableIT_SET2(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, HRTIM_TIMDIER_SET2IE); } /** * @brief Disable the output 2 set interrupt for a given timer. * @rmtoll TIMxDIER SET2IE LL_HRTIM_DisableIT_SET2 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_DisableIT_SET2(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); CLEAR_BIT(*pReg, HRTIM_TIMDIER_SET2IE); } /** * @brief Indicate whether the output 2 set interrupt is enabled for a given timer. * @rmtoll TIMxDIER SET2IE LL_HRTIM_IsEnabledIT_SET2 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval State of SET2xIE bit in HRTIM_TIMxDIER register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsEnabledIT_SET2(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_TIMDIER_SET2IE) == (HRTIM_TIMDIER_SET2IE)); } /** * @brief Enable the output 2 reset interrupt for a given timer. * @rmtoll TIMxDIER RST2IE LL_HRTIM_EnableIT_RST2 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_EnableIT_RST2(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, HRTIM_TIMDIER_RST2IE); } /** * @brief Disable the output 2 reset interrupt for a given timer. * @rmtoll TIMxDIER RST2IE LL_HRTIM_DisableIT_RST2 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_DisableIT_RST2(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); CLEAR_BIT(*pReg, HRTIM_TIMDIER_RST2IE); } /** * @brief Indicate whether the output 2 reset LL_HRTIM_IsEnabledIT_RST2 is enabled for a given timer. * @rmtoll TIMxDIER RST2IE LL_HRTIM_DisableIT_RST2 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval State of RST2xIE bit in HRTIM_TIMxDIER register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsEnabledIT_RST2(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_TIMDIER_RST2IE) == (HRTIM_TIMDIER_RST2IE)); } /** * @brief Enable the reset/roll-over interrupt for a given timer. * @rmtoll TIMxDIER RSTIE LL_HRTIM_EnableIT_RST * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_EnableIT_RST(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, HRTIM_TIMDIER_RSTIE); } /** * @brief Disable the reset/roll-over interrupt for a given timer. * @rmtoll TIMxDIER RSTIE LL_HRTIM_DisableIT_RST * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_DisableIT_RST(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); CLEAR_BIT(*pReg, HRTIM_TIMDIER_RSTIE); } /** * @brief Indicate whether the reset/roll-over interrupt is enabled for a given timer. * @rmtoll TIMxDIER RSTIE LL_HRTIM_IsEnabledIT_RST * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval State of RSTIE bit in HRTIM_TIMxDIER register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsEnabledIT_RST(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_TIMDIER_RSTIE) == (HRTIM_TIMDIER_RSTIE)); } /** * @brief Enable the delayed protection interrupt for a given timer. * @rmtoll TIMxDIER DLYPRTIE LL_HRTIM_EnableIT_DLYPRT * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_EnableIT_DLYPRT(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, HRTIM_TIMDIER_DLYPRTIE); } /** * @brief Disable the delayed protection interrupt for a given timer. * @rmtoll TIMxDIER DLYPRTIE LL_HRTIM_DisableIT_DLYPRT * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_DisableIT_DLYPRT(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); CLEAR_BIT(*pReg, HRTIM_TIMDIER_DLYPRTIE); } /** * @brief Indicate whether the delayed protection interrupt is enabled for a given timer. * @rmtoll TIMxDIER DLYPRTIE LL_HRTIM_IsEnabledIT_DLYPRT * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval State of DLYPRTIE bit in HRTIM_TIMxDIER register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsEnabledIT_DLYPRT(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_TIMDIER_DLYPRTIE) == (HRTIM_TIMDIER_DLYPRTIE)); } /** * @} */ /** @defgroup HRTIM_EF_DMA_Management DMA_Management * @{ */ /** * @brief Enable the synchronization input DMA request. * @rmtoll MDIER SYNCDE LL_HRTIM_EnableDMAReq_SYNC * @param HRTIMx High Resolution Timer instance * @retval None */ __STATIC_INLINE void LL_HRTIM_EnableDMAReq_SYNC(HRTIM_TypeDef *HRTIMx) { SET_BIT(HRTIMx->sMasterRegs.MDIER, HRTIM_MDIER_SYNCDE); } /** * @brief Disable the synchronization input DMA request * @rmtoll MDIER SYNCDE LL_HRTIM_DisableDMAReq_SYNC * @param HRTIMx High Resolution Timer instance * @retval None */ __STATIC_INLINE void LL_HRTIM_DisableDMAReq_SYNC(HRTIM_TypeDef *HRTIMx) { CLEAR_BIT(HRTIMx->sMasterRegs.MDIER, HRTIM_MDIER_SYNCDE); } /** * @brief Indicate whether the synchronization input DMA request is enabled. * @rmtoll MDIER SYNCDE LL_HRTIM_IsEnabledDMAReq_SYNC * @param HRTIMx High Resolution Timer instance * @retval State of SYNCDE bit in HRTIM_MDIER register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsEnabledDMAReq_SYNC(HRTIM_TypeDef *HRTIMx) { return (READ_BIT(HRTIMx->sMasterRegs.MDIER, HRTIM_MDIER_SYNCDE) == (HRTIM_MDIER_SYNCDE)); } /** * @brief Enable the update DMA request for a given timer. * @rmtoll MDIER MUPDDE LL_HRTIM_EnableDMAReq_UPDATE\n * TIMxDIER UPDDE LL_HRTIM_EnableDMAReq_UPDATE * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_EnableDMAReq_UPDATE(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, HRTIM_MDIER_MUPDDE); } /** * @brief Disable the update DMA request for a given timer. * @rmtoll MDIER MUPDDE LL_HRTIM_DisableDMAReq_UPDATE\n * TIMxDIER UPDDE LL_HRTIM_DisableDMAReq_UPDATE * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_DisableDMAReq_UPDATE(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); CLEAR_BIT(*pReg, HRTIM_MDIER_MUPDDE); } /** * @brief Indicate whether the update DMA request is enabled for a given timer. * @rmtoll MDIER MUPDDE LL_HRTIM_IsEnabledDMAReq_UPDATE\n * TIMxDIER UPDDE LL_HRTIM_IsEnabledDMAReq_UPDATE * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval State of MUPDDE/UPDDE bit in HRTIM_MDIER/HRTIM_TIMxDIER register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsEnabledDMAReq_UPDATE(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_MDIER_MUPDDE) == (HRTIM_MDIER_MUPDDE)); } /** * @brief Enable the repetition DMA request for a given timer. * @rmtoll MDIER MREPDE LL_HRTIM_EnableDMAReq_REP\n * TIMxDIER REPDE LL_HRTIM_EnableDMAReq_REP * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_EnableDMAReq_REP(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, HRTIM_MDIER_MREPDE); } /** * @brief Disable the repetition DMA request for a given timer. * @rmtoll MDIER MREPDE LL_HRTIM_DisableDMAReq_REP\n * TIMxDIER REPDE LL_HRTIM_DisableDMAReq_REP * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_DisableDMAReq_REP(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); CLEAR_BIT(*pReg, HRTIM_MDIER_MREPDE); } /** * @brief Indicate whether the repetition DMA request is enabled for a given timer. * @rmtoll MDIER MREPDE LL_HRTIM_IsEnabledDMAReq_REP\n * TIMxDIER REPDE LL_HRTIM_IsEnabledDMAReq_REP * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval State of MREPDE/REPDE bit in HRTIM_MDIER/HRTIM_TIMxDIER register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsEnabledDMAReq_REP(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_MDIER_MREPDE) == (HRTIM_MDIER_MREPDE)); } /** * @brief Enable the compare 1 DMA request for a given timer. * @rmtoll MDIER MCMP1DE LL_HRTIM_EnableDMAReq_CMP1\n * TIMxDIER CMP1DE LL_HRTIM_EnableDMAReq_CMP1 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_EnableDMAReq_CMP1(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, HRTIM_MDIER_MCMP1DE); } /** * @brief Disable the compare 1 DMA request for a given timer. * @rmtoll MDIER MCMP1DE LL_HRTIM_DisableDMAReq_CMP1\n * TIMxDIER CMP1DE LL_HRTIM_DisableDMAReq_CMP1 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_DisableDMAReq_CMP1(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); CLEAR_BIT(*pReg, HRTIM_MDIER_MCMP1DE); } /** * @brief Indicate whether the compare 1 DMA request is enabled for a given timer. * @rmtoll MDIER MCMP1DE LL_HRTIM_IsEnabledDMAReq_CMP1\n * TIMxDIER CMP1DE LL_HRTIM_IsEnabledDMAReq_CMP1 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval State of MCMP1DE/CMP1DE bit in HRTIM_MDIER/HRTIM_TIMxDIER register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsEnabledDMAReq_CMP1(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_MDIER_MCMP1DE) == (HRTIM_MDIER_MCMP1DE)); } /** * @brief Enable the compare 2 DMA request for a given timer. * @rmtoll MDIER MCMP2DE LL_HRTIM_EnableDMAReq_CMP2\n * TIMxDIER CMP2DE LL_HRTIM_EnableDMAReq_CMP2 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_EnableDMAReq_CMP2(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, HRTIM_MDIER_MCMP2DE); } /** * @brief Disable the compare 2 DMA request for a given timer. * @rmtoll MDIER MCMP2DE LL_HRTIM_DisableDMAReq_CMP2\n * TIMxDIER CMP2DE LL_HRTIM_DisableDMAReq_CMP2 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_DisableDMAReq_CMP2(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); CLEAR_BIT(*pReg, HRTIM_MDIER_MCMP2DE); } /** * @brief Indicate whether the compare 2 DMA request is enabled for a given timer. * @rmtoll MDIER MCMP2DE LL_HRTIM_IsEnabledDMAReq_CMP2\n * TIMxDIER CMP2DE LL_HRTIM_IsEnabledDMAReq_CMP2 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval State of MCMP2DE/CMP2DE bit in HRTIM_MDIER/HRTIM_TIMxDIER register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsEnabledDMAReq_CMP2(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_MDIER_MCMP2DE) == (HRTIM_MDIER_MCMP2DE)); } /** * @brief Enable the compare 3 DMA request for a given timer. * @rmtoll MDIER MCMP3DE LL_HRTIM_EnableDMAReq_CMP3\n * TIMxDIER CMP3DE LL_HRTIM_EnableDMAReq_CMP3 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_EnableDMAReq_CMP3(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, HRTIM_MDIER_MCMP3DE); } /** * @brief Disable the compare 3 DMA request for a given timer. * @rmtoll MDIER MCMP3DE LL_HRTIM_DisableDMAReq_CMP3\n * TIMxDIER CMP3DE LL_HRTIM_DisableDMAReq_CMP3 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_DisableDMAReq_CMP3(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); CLEAR_BIT(*pReg, HRTIM_MDIER_MCMP3DE); } /** * @brief Indicate whether the compare 3 DMA request is enabled for a given timer. * @rmtoll MDIER MCMP3DE LL_HRTIM_IsEnabledDMAReq_CMP3\n * TIMxDIER CMP3DE LL_HRTIM_IsEnabledDMAReq_CMP3 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval State of MCMP3DE/CMP3DE bit in HRTIM_MDIER/HRTIM_TIMxDIER register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsEnabledDMAReq_CMP3(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_MDIER_MCMP3DE) == (HRTIM_MDIER_MCMP3DE)); } /** * @brief Enable the compare 4 DMA request for a given timer. * @rmtoll MDIER MCMP4DE LL_HRTIM_EnableDMAReq_CMP4\n * TIMxDIER CMP4DE LL_HRTIM_EnableDMAReq_CMP4 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_EnableDMAReq_CMP4(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, HRTIM_MDIER_MCMP4DE); } /** * @brief Disable the compare 4 DMA request for a given timer. * @rmtoll MDIER MCMP4DE LL_HRTIM_DisableDMAReq_CMP4\n * TIMxDIER CMP4DE LL_HRTIM_DisableDMAReq_CMP4 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_DisableDMAReq_CMP4(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); CLEAR_BIT(*pReg, HRTIM_MDIER_MCMP4DE); } /** * @brief Indicate whether the compare 4 DMA request is enabled for a given timer. * @rmtoll MDIER MCMP4DE LL_HRTIM_IsEnabledDMAReq_CMP4\n * TIMxDIER CMP4DE LL_HRTIM_IsEnabledDMAReq_CMP4 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_MASTER * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval State of MCMP4DE/CMP4DE bit in HRTIM_MDIER/HRTIM_TIMxDIER register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsEnabledDMAReq_CMP4(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_MDIER_MCMP4DE) == (HRTIM_MDIER_MCMP4DE)); } /** * @brief Enable the capture 1 DMA request for a given timer. * @rmtoll TIMxDIER CPT1DE LL_HRTIM_EnableDMAReq_CPT1 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_EnableDMAReq_CPT1(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, HRTIM_TIMDIER_CPT1DE); } /** * @brief Disable the capture 1 DMA request for a given timer. * @rmtoll TIMxDIER CPT1DE LL_HRTIM_DisableDMAReq_CPT1 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_DisableDMAReq_CPT1(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); CLEAR_BIT(*pReg, HRTIM_TIMDIER_CPT1DE); } /** * @brief Indicate whether the capture 1 DMA request is enabled for a given timer. * @rmtoll TIMxDIER CPT1DE LL_HRTIM_IsEnabledDMAReq_CPT1 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval State of CPT1DE bit in HRTIM_TIMxDIER register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsEnabledDMAReq_CPT1(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_TIMDIER_CPT1DE) == (HRTIM_TIMDIER_CPT1DE)); } /** * @brief Enable the capture 2 DMA request for a given timer. * @rmtoll TIMxDIER CPT2DE LL_HRTIM_EnableDMAReq_CPT2 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_EnableDMAReq_CPT2(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, HRTIM_TIMDIER_CPT2DE); } /** * @brief Disable the capture 2 DMA request for a given timer. * @rmtoll TIMxDIER CPT2DE LL_HRTIM_DisableDMAReq_CPT2 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_DisableDMAReq_CPT2(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); CLEAR_BIT(*pReg, HRTIM_TIMDIER_CPT2DE); } /** * @brief Indicate whether the capture 2 DMA request is enabled for a given timer. * @rmtoll TIMxDIER CPT2DE LL_HRTIM_IsEnabledDMAReq_CPT2 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval State of CPT2DE bit in HRTIM_TIMxDIER register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsEnabledDMAReq_CPT2(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_TIMDIER_CPT2DE) == (HRTIM_TIMDIER_CPT2DE)); } /** * @brief Enable the output 1 set DMA request for a given timer. * @rmtoll TIMxDIER SET1DE LL_HRTIM_EnableDMAReq_SET1 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_EnableDMAReq_SET1(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, HRTIM_TIMDIER_SET1DE); } /** * @brief Disable the output 1 set DMA request for a given timer. * @rmtoll TIMxDIER SET1DE LL_HRTIM_DisableDMAReq_SET1 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_DisableDMAReq_SET1(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); CLEAR_BIT(*pReg, HRTIM_TIMDIER_SET1DE); } /** * @brief Indicate whether the output 1 set DMA request is enabled for a given timer. * @rmtoll TIMxDIER SET1DE LL_HRTIM_IsEnabledDMAReq_SET1 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval State of SET1xDE bit in HRTIM_TIMxDIER register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsEnabledDMAReq_SET1(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_TIMDIER_SET1DE) == (HRTIM_TIMDIER_SET1DE)); } /** * @brief Enable the output 1 reset DMA request for a given timer. * @rmtoll TIMxDIER RST1DE LL_HRTIM_EnableDMAReq_RST1 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_EnableDMAReq_RST1(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, HRTIM_TIMDIER_RST1DE); } /** * @brief Disable the output 1 reset DMA request for a given timer. * @rmtoll TIMxDIER RST1DE LL_HRTIM_DisableDMAReq_RST1 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_DisableDMAReq_RST1(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); CLEAR_BIT(*pReg, HRTIM_TIMDIER_RST1DE); } /** * @brief Indicate whether the output 1 reset interrupt is enabled for a given timer. * @rmtoll TIMxDIER RST1DE LL_HRTIM_IsEnabledDMAReq_RST1 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval State of RST1xDE bit in HRTIM_TIMxDIER register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsEnabledDMAReq_RST1(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_TIMDIER_RST1DE) == (HRTIM_TIMDIER_RST1DE)); } /** * @brief Enable the output 2 set DMA request for a given timer. * @rmtoll TIMxDIER SET2DE LL_HRTIM_EnableDMAReq_SET2 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_EnableDMAReq_SET2(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, HRTIM_TIMDIER_SET2DE); } /** * @brief Disable the output 2 set DMA request for a given timer. * @rmtoll TIMxDIER SET2DE LL_HRTIM_DisableDMAReq_SET2 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_DisableDMAReq_SET2(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); CLEAR_BIT(*pReg, HRTIM_TIMDIER_SET2DE); } /** * @brief Indicate whether the output 2 set DMA request is enabled for a given timer. * @rmtoll TIMxDIER SET2DE LL_HRTIM_IsEnabledDMAReq_SET2 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval State of SET2xDE bit in HRTIM_TIMxDIER register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsEnabledDMAReq_SET2(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_TIMDIER_SET2DE) == (HRTIM_TIMDIER_SET2DE)); } /** * @brief Enable the output 2 reset DMA request for a given timer. * @rmtoll TIMxDIER RST2DE LL_HRTIM_EnableDMAReq_RST2 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_EnableDMAReq_RST2(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, HRTIM_TIMDIER_RST2DE); } /** * @brief Disable the output 2 reset DMA request for a given timer. * @rmtoll TIMxDIER RST2DE LL_HRTIM_DisableDMAReq_RST2 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_DisableDMAReq_RST2(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); CLEAR_BIT(*pReg, HRTIM_TIMDIER_RST2DE); } /** * @brief Indicate whether the output 2 reset DMA request is enabled for a given timer. * @rmtoll TIMxDIER RST2DE LL_HRTIM_IsEnabledDMAReq_RST2 * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval State of RST2xDE bit in HRTIM_TIMxDIER register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsEnabledDMAReq_RST2(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_TIMDIER_RST2DE) == (HRTIM_TIMDIER_RST2DE)); } /** * @brief Enable the reset/roll-over DMA request for a given timer. * @rmtoll TIMxDIER RSTDE LL_HRTIM_EnableDMAReq_RST * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_EnableDMAReq_RST(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, HRTIM_TIMDIER_RSTDE); } /** * @brief Disable the reset/roll-over DMA request for a given timer. * @rmtoll TIMxDIER RSTDE LL_HRTIM_DisableDMAReq_RST * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_DisableDMAReq_RST(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); CLEAR_BIT(*pReg, HRTIM_TIMDIER_RSTDE); } /** * @brief Indicate whether the reset/roll-over DMA request is enabled for a given timer. * @rmtoll TIMxDIER RSTDE LL_HRTIM_IsEnabledDMAReq_RST * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval State of RSTDE bit in HRTIM_TIMxDIER register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsEnabledDMAReq_RST(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_TIMDIER_RSTDE) == (HRTIM_TIMDIER_RSTDE)); } /** * @brief Enable the delayed protection DMA request for a given timer. * @rmtoll TIMxDIER DLYPRTDE LL_HRTIM_EnableDMAReq_DLYPRT * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_EnableDMAReq_DLYPRT(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); SET_BIT(*pReg, HRTIM_TIMDIER_DLYPRTDE); } /** * @brief Disable the delayed protection DMA request for a given timer. * @rmtoll TIMxDIER DLYPRTDE LL_HRTIM_DisableDMAReq_DLYPRT * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval None */ __STATIC_INLINE void LL_HRTIM_DisableDMAReq_DLYPRT(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); CLEAR_BIT(*pReg, HRTIM_TIMDIER_DLYPRTDE); } /** * @brief Indicate whether the delayed protection DMA request is enabled for a given timer. * @rmtoll TIMxDIER DLYPRTDE LL_HRTIM_IsEnabledDMAReq_DLYPRT * @param HRTIMx High Resolution Timer instance * @param Timer This parameter can be one of the following values: * @arg @ref LL_HRTIM_TIMER_A * @arg @ref LL_HRTIM_TIMER_B * @arg @ref LL_HRTIM_TIMER_C * @arg @ref LL_HRTIM_TIMER_D * @arg @ref LL_HRTIM_TIMER_E * @retval State of DLYPRTDE bit in HRTIM_TIMxDIER register (1 or 0). */ __STATIC_INLINE uint32_t LL_HRTIM_IsEnabledDMAReq_DLYPRT(HRTIM_TypeDef *HRTIMx, uint32_t Timer) { register uint32_t iTimer = (uint8_t)(POSITION_VAL(Timer) - HRTIM_MCR_MCEN_Pos); register uint32_t *pReg = (uint32_t *)((uint32_t)((uint32_t)(&HRTIMx->sMasterRegs.MDIER) + REG_OFFSET_TAB_TIMER[iTimer])); return (READ_BIT(*pReg, HRTIM_TIMDIER_DLYPRTDE) == (HRTIM_TIMDIER_DLYPRTDE)); } /** * @} */ #if defined(USE_FULL_LL_DRIVER) /** @defgroup HRTIM_LL_EF_Init Initialisation and deinitialisation functions * @{ */ ErrorStatus LL_HRTIM_DeInit(HRTIM_TypeDef* HRTIMx); /** * @} */ #endif /* USE_FULL_LL_DRIVER */ /** * @} */ /** * @} */ #endif /* HRTIM1 */ /** * @} */ #ifdef __cplusplus } #endif #endif /* __STM32F3xx_LL_HRTIM_H */ /************************ (C) COPYRIGHT STMicroelectronics *****END OF FILE****/