/* * Copyright (c) 2016, Freescale Semiconductor, Inc. * Copyright 2016-2017 NXP * All rights reserved. * * SPDX-License-Identifier: BSD-3-Clause */ #ifndef _FSL_ADC_ETC_H_ #define _FSL_ADC_ETC_H_ #include "fsl_common.h" /*! * @addtogroup adc_etc * @{ */ /******************************************************************************* * Definitions ******************************************************************************/ /*! @brief ADC_ETC driver version */ #define FSL_ADC_ETC_DRIVER_VERSION (MAKE_VERSION(2, 0, 1)) /*!< Version 2.0.1. */ /*! @brief The mask of status flags cleared by writing 1. */ #define ADC_ETC_DMA_CTRL_TRGn_REQ_MASK 0xFF0000U /*! * @brief ADC_ETC customized status flags mask. */ enum _adc_etc_status_flag_mask { kADC_ETC_Done0StatusFlagMask = 1U, kADC_ETC_Done1StatusFlagMask = 2U, kADC_ETC_Done2StatusFlagMask = 4U, kADC_ETC_ErrorStatusFlagMask = 8U, }; /*! * @brief External triggers sources. */ typedef enum _adc_etc_external_trigger_source { /* External XBAR sources. Support HW or SW mode. */ kADC_ETC_Trg0TriggerSource = 0U, /* External XBAR trigger0 source. */ kADC_ETC_Trg1TriggerSource = 1U, /* External XBAR trigger1 source. */ kADC_ETC_Trg2TriggerSource = 2U, /* External XBAR trigger2 source. */ kADC_ETC_Trg3TriggerSource = 3U, /* External XBAR trigger3 source. */ kADC_ETC_Trg4TriggerSource = 4U, /* External XBAR trigger4 source. */ kADC_ETC_Trg5TriggerSource = 5U, /* External XBAR trigger5 source. */ kADC_ETC_Trg6TriggerSource = 6U, /* External XBAR trigger6 source. */ kADC_ETC_Trg7TriggerSource = 7U, /* External XBAR trigger7 source. */ /* External TSC sources. Only support HW mode. */ kADC_ETC_TSC0TriggerSource = 8U, /* External TSC trigger0 source. */ kADC_ETC_TSC1TriggerSource = 9U, /* External TSC trigger1 source. */ } adc_etc_external_trigger_source_t; /*! * @brief Interrupt enable/disable mask. */ typedef enum _adc_etc_interrupt_enable { kADC_ETC_InterruptDisable = 0U, /* Disable the ADC_ETC interrupt. */ kADC_ETC_Done0InterruptEnable = 1U, /* Enable the DONE0 interrupt when ADC conversions complete. */ kADC_ETC_Done1InterruptEnable = 2U, /* Enable the DONE1 interrupt when ADC conversions complete. */ kADC_ETC_Done2InterruptEnable = 3U, /* Enable the DONE2 interrupt when ADC conversions complete. */ } adc_etc_interrupt_enable_t; #if defined(FSL_FEATURE_ADC_ETC_HAS_CTRL_DMA_MODE_SEL) && FSL_FEATURE_ADC_ETC_HAS_CTRL_DMA_MODE_SEL /*! * @brief DMA mode selection. */ typedef enum _adc_etc_dma_mode_selection { kADC_ETC_TrigDMAWithLatchedSignal = 0U, /* Trig DMA_REQ with latched signal, REQ will be cleared when ACK and source request cleared. */ kADC_ETC_TrigDMAWithPulsedSignal = 1U, /* Trig DMA_REQ with pulsed signal, REQ will be cleared by ACK only. */ } adc_etc_dma_mode_selection_t; #endif /*FSL_FEATURE_ADC_ETC_HAS_CTRL_DMA_MODE_SEL*/ /*! * @brief ADC_ETC configuration. */ typedef struct _adc_etc_config { bool enableTSCBypass; /* If bypass TSC, TSC would trigger ADC directly. Otherwise TSC would trigger ADC through ADC_ETC. */ bool enableTSC0Trigger; /* Enable external TSC0 trigger. It is valid when enableTSCBypass = false. */ bool enableTSC1Trigger; /* Enable external TSC1 trigger. It is valid when enableTSCBypass = false.*/ #if defined(FSL_FEATURE_ADC_ETC_HAS_CTRL_DMA_MODE_SEL) && FSL_FEATURE_ADC_ETC_HAS_CTRL_DMA_MODE_SEL adc_etc_dma_mode_selection_t dmaMode; /* Select the ADC_ETC DMA mode. */ #endif /*FSL_FEATURE_ADC_ETC_HAS_CTRL_DMA_MODE_SEL*/ uint32_t TSC0triggerPriority; /* External TSC0 trigger priority, 7 is highest, 0 is lowest. */ uint32_t TSC1triggerPriority; /* External TSC1 trigger priority, 7 is highest, 0 is lowest. */ uint32_t clockPreDivider; /* Pre-divider for trig delay and interval. Available range is 0-255. Clock would be divided by (clockPreDivider+1). */ uint32_t XBARtriggerMask; /* Enable the corresponding trigger source. Available range is trigger0:0x01 to trigger7:0x80 For example, XBARtriggerMask = 0x7U, which means trigger0, trigger1 and trigger2 is enabled. */ } adc_etc_config_t; /*! * @brief ADC_ETC trigger chain configuration. */ typedef struct _adc_etc_trigger_chain_config { bool enableB2BMode; /* Enable ADC_ETC BackToBack mode. when not enabled B2B mode, wait until interval delay is reached. */ uint32_t ADCHCRegisterSelect; /* Select relevant ADC_HCx register to trigger. 1U : HC0, 2U: HC1, 4U: HC2 ... */ uint32_t ADCChannelSelect; /* Select ADC sample channel. */ adc_etc_interrupt_enable_t InterruptEnable; /* Enable/disable Interrupt. */ } adc_etc_trigger_chain_config_t; /*! * @brief ADC_ETC trigger configuration. */ typedef struct _adc_etc_trigger_config { bool enableSyncMode; /* Enable the sync Mode, In SyncMode ADC1 and ADC2 are controlled by the same trigger source. In AsyncMode ADC1 and ADC2 are controlled by separate trigger source. */ bool enableSWTriggerMode; /* Enable the sofware trigger mode. */ uint32_t triggerChainLength; /* TRIG chain length to the ADC. 0: Trig length is 1. ... 7: Trig length is 8. */ uint32_t triggerPriority; /* External trigger priority, 7 is highest, 0 is lowest. */ uint32_t sampleIntervalDelay; /* Set sampling interval delay. */ uint32_t initialDelay; /* Set trigger initial delay. */ } adc_etc_trigger_config_t; /******************************************************************************* * API ******************************************************************************/ #if defined(__cplusplus) extern "C" { #endif /*! * @name Initialization * @{ */ /*! * @brief Initialize the ADC_ETC module. * * @param base ADC_ETC peripheral base address. * @param config Pointer to "adc_etc_config_t" structure. */ void ADC_ETC_Init(ADC_ETC_Type *base, const adc_etc_config_t *config); /*! * @brief De-Initialize the ADC_ETC module. * * @param base ADC_ETC peripheral base address. */ void ADC_ETC_Deinit(ADC_ETC_Type *base); /*! * @brief Gets an available pre-defined settings for the ADC_ETC's configuration. * This function initializes the ADC_ETC's configuration structure with available settings. The default values are: * @code * config->enableTSCBypass = true; * config->enableTSC0Trigger = false; * config->enableTSC1Trigger = false; * config->TSC0triggerPriority = 0U; * config->TSC1triggerPriority = 0U; * config->clockPreDivider = 0U; * config->XBARtriggerMask = 0U; * @endCode * * @param config Pointer to "adc_etc_config_t" structure. */ void ADC_ETC_GetDefaultConfig(adc_etc_config_t *config); /*! * @brief Set the external XBAR trigger configuration. * * @param base ADC_ETC peripheral base address. * @param triggerGroup Trigger group index. * @param config Pointer to "adc_etc_trigger_config_t" structure. */ void ADC_ETC_SetTriggerConfig(ADC_ETC_Type *base, uint32_t triggerGroup, const adc_etc_trigger_config_t *config); /*! * @brief Set the external XBAR trigger chain configuration. * For example, if triggerGroup is set to 0U and chainGroup is set to 1U, which means Trigger0 source's chain1 would be * configurated. * * @param base ADC_ETC peripheral base address. * @param triggerGroup Trigger group index. Available number is 0~7. * @param chainGroup Trigger chain group index. Available number is 0~7. * @param config Pointer to "adc_etc_trigger_chain_config_t" structure. */ void ADC_ETC_SetTriggerChainConfig(ADC_ETC_Type *base, uint32_t triggerGroup, uint32_t chainGroup, const adc_etc_trigger_chain_config_t *config); /*! * @brief Gets the interrupt status flags of external XBAR and TSC triggers. * * @param base ADC_ETC peripheral base address. * @param sourceIndex trigger source index. * * @return Status flags mask of trigger. Refer to "_adc_etc_status_flag_mask". */ uint32_t ADC_ETC_GetInterruptStatusFlags(ADC_ETC_Type *base, adc_etc_external_trigger_source_t sourceIndex); /*! * @brief Clears the ADC_ETC's interrupt status falgs. * * @param base ADC_ETC peripheral base address. * @param sourceIndex trigger source index. * @param mask Status flags mask of trigger. Refer to "_adc_etc_status_flag_mask". */ void ADC_ETC_ClearInterruptStatusFlags(ADC_ETC_Type *base, adc_etc_external_trigger_source_t sourceIndex, uint32_t mask); /*! * @brief Enable the DMA corresponding to each trigger source. * * @param base ADC_ETC peripheral base address. * @param triggerGroup Trigger group index. Available number is 0~7. */ static inline void ADC_ETC_EnableDMA(ADC_ETC_Type *base, uint32_t triggerGroup) { /* Avoid clearing status flags at the same time. */ base->DMA_CTRL = (base->DMA_CTRL | (ADC_ETC_DMA_CTRL_TRIG0_ENABLE_MASK << triggerGroup)) & ~ADC_ETC_DMA_CTRL_TRGn_REQ_MASK; } /*! * @brief Disable the DMA corresponding to each trigger sources. * * @param base ADC_ETC peripheral base address. * @param triggerGroup Trigger group index. Available number is 0~7. */ static inline void ADC_ETC_DisableDMA(ADC_ETC_Type *base, uint32_t triggerGroup) { /* Avoid clearing status flags at the same time. */ base->DMA_CTRL = (base->DMA_CTRL & ~(ADC_ETC_DMA_CTRL_TRIG0_ENABLE_MASK << triggerGroup)) & ~ADC_ETC_DMA_CTRL_TRGn_REQ_MASK; } /*! * @brief Get the DMA request status falgs. Only external XBAR sources support DMA request. * * @param base ADC_ETC peripheral base address. * @return Mask of external XBAR tirgger's DMA request asserted flags. Available range is trigger0:0x01 to * trigger7:0x80. */ static inline uint32_t ADC_ETC_GetDMAStatusFlags(ADC_ETC_Type *base) { return (((base->DMA_CTRL) & ADC_ETC_DMA_CTRL_TRGn_REQ_MASK) >> ADC_ETC_DMA_CTRL_TRIG0_REQ_SHIFT); } /*! * @brief Clear the DMA request status falgs. Only external XBAR sources support DMA request. * * @param base ADC_ETC peripheral base address. * @param mask Mask of external XBAR tirgger's DMA request asserted flags. Available range is trigger0:0x01 to * trigger7:0x80. */ static inline void ADC_ETC_ClearDMAStatusFlags(ADC_ETC_Type *base, uint32_t mask) { base->DMA_CTRL = ((base->DMA_CTRL) & ~ADC_ETC_DMA_CTRL_TRGn_REQ_MASK) | (mask << ADC_ETC_DMA_CTRL_TRIG0_REQ_SHIFT); } /*! * @brief When enable ,all logical will be reset. * * @param base ADC_ETC peripheral base address. * @param enable Enable/Disable the software reset. */ static inline void ADC_ETC_DoSoftwareReset(ADC_ETC_Type *base, bool enable) { if (enable) { base->CTRL |= ADC_ETC_CTRL_SOFTRST_MASK; } else { base->CTRL &= ~ADC_ETC_CTRL_SOFTRST_MASK; } } /*! * @brief Do software trigger corresponding to each XBAR trigger sources. * Each XBAR trigger sources can be configured as HW or SW trigger mode. In hardware trigger mode, * trigger source is from XBAR. In software mode, trigger source is from software tigger. TSC trigger sources * can only work in hardware trigger mode. * * @param base ADC_ETC peripheral base address. * @param triggerGroup Trigger group index. Available number is 0~7. */ static inline void ADC_ETC_DoSoftwareTrigger(ADC_ETC_Type *base, uint32_t triggerGroup) { assert(triggerGroup < ADC_ETC_TRIGn_CTRL_COUNT); base->TRIG[triggerGroup].TRIGn_CTRL |= ADC_ETC_TRIGn_CTRL_SW_TRIG_MASK; } /*! * @brief Get ADC conversion result from external XBAR sources. * For example, if triggerGroup is set to 0U and chainGroup is set to 1U, which means the API would * return Trigger0 source's chain1 conversion result. * * @param base ADC_ETC peripheral base address. * @param triggerGroup Trigger group index. Available number is 0~7. * @param chainGroup Trigger chain group index. Available number is 0~7. * @return ADC conversion result value. */ uint32_t ADC_ETC_GetADCConversionValue(ADC_ETC_Type *base, uint32_t triggerGroup, uint32_t chainGroup); #if defined(__cplusplus) } #endif #endif /* _FSL_ADC_ETC_H_ */