/* %atmel_license% */ /** * \file * * \section Purpose * * Interface for configuration the Analog-to-Digital Converter (ADC) peripheral. * * \section Usage * * -# Configurate the pins for ADC * -# Initialize the ADC with ADC_Initialize(). * -# Select the active channel using ADC_EnableChannel() * -# Start the conversion with ADC_StartConversion() * -# Wait the end of the conversion by polling status with ADC_GetStatus() * -# Finally, get the converted data using ADC_GetConvertedData() * */ #ifndef _ADC_ #define _ADC_ /*---------------------------------------------------------------------------- * Headers *----------------------------------------------------------------------------*/ #include "../chip.h" #include #include /*------------------------------------------------------------------------------ * Definitions *------------------------------------------------------------------------------*/ /* SAM3S */ #define ADC_FREQ_MAX 20000000 #define ADC_FREQ_MIN 1000000 #define ADC_STARTUP_NORM 40 #define ADC_STARTUP_FAST 12 #define ADC_CHANNEL_0 0 #define ADC_CHANNEL_1 1 #define ADC_CHANNEL_2 2 #define ADC_CHANNEL_3 3 #define ADC_CHANNEL_4 4 #define ADC_CHANNEL_5 5 #define ADC_CHANNEL_6 6 #define ADC_CHANNEL_7 7 #define ADC_CHANNEL_8 8 #define ADC_CHANNEL_9 9 #define ADC_CHANNEL_10 10 #define ADC_CHANNEL_11 11 #define ADC_CHANNEL_12 12 #define ADC_CHANNEL_13 13 #define ADC_CHANNEL_14 14 #define ADC_CHANNEL_15 15 #ifdef __cplusplus extern "C" { #endif /*------------------------------------------------------------------------------ * Macros function of register access *------------------------------------------------------------------------------*/ #define ADC_GetModeReg( pAdc ) ((pAdc)->ADC_MR) #define ADC_StartConversion( pAdc ) ((pAdc)->ADC_CR = ADC_CR_START) #define ADC_EnableChannel( pAdc, channel ) {\ assert( (channel) < 16 ) ;\ (pAdc)->ADC_CHER = (1 << (channel));\ } #define ADC_DisableChannel(pAdc, channel) {\ assert( (channel) < 16 ) ;\ (pAdc)->ADC_CHDR = (1 << (channel));\ } #define ADC_EnableIt(pAdc, dwMode) {\ (pAdc)->ADC_IER = (dwMode);\ } #define ADC_DisableIt(pAdc, dwMode) {\ (pAdc)->ADC_IDR = (dwMode);\ } #define ADC_EnableTS(pAdc,dwMode) {\ (pAdc)->ADC_ACR |= (dwMode);\ } #define ADC_EnableDataReadyIt(pAdc) ((pAdc)->ADC_IER = AT91C_ADC_DRDY) #define ADC_GetStatus(pAdc) ((pAdc)->ADC_ISR) #define ADC_GetCompareMode(pAdc) (((pAdc)->ADC_EMR)& (ADC_EMR_CMPMODE_Msk)) #define ADC_GetChannelStatus(pAdc) ((pAdc)->ADC_CHSR) #define ADC_GetInterruptMaskStatus(pAdc) ((pAdc)->ADC_IMR) #define ADC_GetLastConvertedData(pAdc) ((pAdc)->ADC_LCDR) /*------------------------------------------------------------------------------ * Exported functions *------------------------------------------------------------------------------*/ extern void ADC_Initialize( Adc* pAdc, uint32_t idAdc ); extern void ADC_CfgTiming( Adc* pAdc, uint32_t tracking, uint32_t settling, uint32_t transfer ); extern void ADC_cfgFrequency( Adc* pAdc, uint32_t startup, uint32_t prescal ); extern void ADC_CfgTrigering( Adc* pAdc, uint32_t trgEn, uint32_t trgSel, uint32_t freeRun ); extern void ADC_CfgLowRes( Adc* pAdc, uint32_t resolution ); extern void ADC_CfgPowerSave( Adc* pAdc, uint32_t sleep, uint32_t fwup ); extern void ADC_CfgChannelMode( Adc* pAdc, uint32_t useq, uint32_t anach ); extern void ADC_check( Adc* pAdc, uint32_t mck_freq ); extern uint32_t ADC_GetConvertedData( Adc* pAdc, uint32_t dwChannel ) ; extern void ADC_SetCompareChannel( Adc* pAdc, uint32_t dwChannel ) ; extern void ADC_SetCompareMode( Adc* pAdc, uint32_t dwMode ) ; extern void ADC_SetComparisonWindow( Adc* pAdc, uint32_t dwHi_Lo ) ; extern uint32_t ADC_IsInterruptMasked( Adc* pAdc, uint32_t dwFlag ) ; extern uint32_t ADC_IsStatusSet( Adc* pAdc, uint32_t dwFlag ) ; extern uint32_t ADC_IsChannelInterruptStatusSet( uint32_t adc_sr, uint32_t dwChannel ) ; extern uint32_t ADC_ReadBuffer( Adc* pADC, int16_t *pwBuffer, uint32_t dwSize ) ; #ifdef __cplusplus } #endif #endif /* #ifndef _ADC_ */